code
stringlengths 1
2.01M
| repo_name
stringlengths 3
62
| path
stringlengths 1
267
| language
stringclasses 231
values | license
stringclasses 13
values | size
int64 1
2.01M
|
|---|---|---|---|---|---|
.set noreorder
#include "pspstub.s"
STUB_START "sceMeCore_driver",0x00010011,0x00010005
STUB_FUNC 0xF702E73A,sceMeCore_driver_F702E73A
STUB_FUNC 0x278F2C25,sceMeCore_driver_278F2C25
STUB_END
|
0xb15c077e
|
trunk/RE/PSP/g729.imports.S
|
Unix Assembly
|
mit
| 211
|
#ifndef __MPEG_VSH_H
#define __MPEG_VSH_H
/*
* Exports from library: syslib
*/
/*
* Exports from library: sceMpeg
*/
void sceMpegQueryUserdataEsSize (void);
void sceMpeg_0558B075 (void);
void sceMpegAvcDecode (void);
void sceMpegAvcDecodeDetail (void);
void sceMpeg_11CAB459 (void);
void sceMpegGetAvcNalAu (void);
void sceMpegRingbufferDestruct (void);
void sceMpegInitAu (void);
void sceMpegAvcQueryYCbCrSize (void);
void sceMpegQueryStreamOffset (void);
void sceMpegChangeGetAvcAuMode (void);
void sceMpegAvcCsc (void);
void sceMpegRingbufferConstruct (void);
void sceMpegNextAvcRpAu (void);
void sceMpegRegistStream (void);
void sceMpeg_42C679F6 (void);
void sceMpegAvcDecodeFlush (void);
void sceMpegFlushStream (void);
void sceMpegUnRegistStream (void);
void sceMpeg_5AC68A41 (void);
void sceMpegDelete (void);
void sceMpegQueryStreamSize (void);
void sceMpegAvcInitYCbCr (void);
void sceMpegInit (void);
void sceMpegAvcDecodeGetDecodeSEI (void);
void sceMpegFlushAllStream (void);
void sceMpegAvcDecodeStop (void);
void sceMpeg_75E21135 (void);
void sceMpegRingbufferQueryPackNum (void);
void sceMpegAtracDecode (void);
void sceMpegFinish (void);
void sceMpegGetPcmAu (void);
void sceMpegGetAvcEsAu (void);
void sceMpeg_988E9E12 (void);
void sceMpegChangeGetAuMode (void);
void sceMpegAvcDecodeMode (void);
void sceMpegMallocAvcEsBuf (void);
void sceMpeg_AB0E9556 (void);
void sceMpeg_AE693D0B (void);
void sceMpegRingbufferPut (void);
void sceMpeg_B27711A8 (void);
void sceMpegRingbufferAvailableSize (void);
void sceMpegQueryPcmEsSize (void);
void sceMpegQueryMemSize (void);
void sceMpeg_C2F02CDD (void);
void sceMpeg_C345DED2 (void);
void sceMpegQueryUserdataEsSize (void);
void sceMpegFreeAvcEsBuf (void);
void sceMpegAvcDecodeDetail2 (void);
void sceMpegAvcCscMode (void);
void sceMpeg_D4DD6E75 (void);
void sceMpegRingbufferQueryMemSize (void);
void sceMpegCreate (void);
void sceMpegFlushAu (void);
void sceMpegGetAtracAu (void);
void sceMpeg_E49EB257 (void);
void sceMpegAvcCscInfo (void);
void sceMpegAvcDecodeYCbCr (void);
void sceMpegAvcDecodeStopYCbCr (void);
void sceMpegQueryAtracEsSize (void);
void sceMpegGetAvcAu (void);
#endif /* __MPEG_VSH_H */
|
0xb15c077e
|
trunk/RE/PSP/mpeg_vsh.h
|
C
|
mit
| 2,252
|
#ifndef __LOWIO_H
#define __LOWIO_H
/*
* Exports from library: syslib
*/
void module_start (void);
void module_reboot_before (void);
/*
* Exports from library: sceSysreg_driver
*/
void sceSysreg_driver_00CEA69D (void);
void sceSysreg_driver_02A1F862 (void);
void sceSysreg_driver_030EBAD6 (void);
void sceSysreg_driver_036D4A59 (void);
void sceSysreg_driver_03BD35E5 (void);
void sceSysreg_driver_03E84901 (void);
void sceSysreg_driver_04839CA2 (void);
void sceSysreg_driver_04FA5F9F (void);
void sceSysreg_driver_05A0D371 (void);
void sceSysreg_driver_06305339 (void);
void sceSysreg_driver_08E0EE7E (void);
void sceSysreg_driver_09220B6F (void);
void sceSysreg_driver_0BF6F901 (void);
void sceSysreg_driver_0C3CFD86 (void);
void sceSysreg_driver_0D2BE098 (void);
void sceSysreg_driver_0E6301D0 (void);
void sceSysreg_driver_126F5946 (void);
void sceSysreg_driver_12DDDF43 (void);
void sceSysreg_driver_12EF2C08 (void);
void sceSysreg_driver_1389C30D (void);
void sceSysregAtaBusClockEnable (void);
void sceSysreg_driver_17B132D5 (void);
void sceSysreg_driver_19DF2827 (void);
void sceSysregEmcsmIoDisable (void);
void sceSysreg_driver_1DC62106 (void);
void sceSysregSircsClkDisable (void);
void sceSysreg_driver_20C9E2C4 (void);
void sceSysreg_driver_217316F7 (void);
void sceSysreg_driver_23944179 (void);
void sceSysreg_driver_2456AE40 (void);
void sceSysreg_driver_262667F9 (void);
void sceSysreg_driver_26D97F66 (void);
void sceSysregSircsIoDisable (void);
void sceSysreg_driver_280F9241 (void);
void sceSysreg_driver_2CFF6043 (void);
void sceSysregEmcsmBusClockDisable (void);
void sceSysreg_driver_2E9CF295 (void);
void sceSysreg_driver_2FCFA7CD (void);
void sceSysreg_driver_3160E8A2 (void);
void sceSysreg_driver_31BE6914 (void);
void sceSysreg_driver_35BC4DD2 (void);
void sceSysreg_driver_3616B538 (void);
void sceSysreg_driver_36BBA207 (void);
void sceSysreg_driver_36DA035E (void);
void sceSysreg_driver_3841D7C8 (void);
void sceSysreg_driver_3A14B278 (void);
void sceSysreg_driver_3A930268 (void);
void sceSysreg_driver_3AAE2AE9 (void);
void sceSysreg_driver_3C5806AF (void);
void sceSysreg_driver_3C7163B5 (void);
void sceSysreg_driver_3F0DF46D (void);
void sceSysreg_driver_410C74F7 (void);
void sceSysreg_driver_421E5DCF (void);
void sceSysreg_driver_461B8077 (void);
void sceSysreg_driver_4638FA5B (void);
void sceSysreg_driver_463B488C (void);
void sceSysreg_driver_48869494 (void);
void sceSysreg_driver_49B453CB (void);
void sceSysreg_driver_4ACB2BB3 (void);
void sceSysregSircsIoEnable (void);
void sceSysregGetFuseId (void);
void sceSysreg_driver_4F9452D7 (void);
void sceSysreg_driver_4FFB12A2 (void);
void sceSysreg_driver_58B2671B (void);
void sceSysreg_driver_5ECA49E4 (void);
void sceSysreg_driver_5F190A4E (void);
void sceSysreg_driver_63FBF749 (void);
void sceSysregSircsClkEnable (void);
void sceSysreg_driver_64C2D131 (void);
void sceSysreg_driver_663D5471 (void);
void sceSysreg_driver_6B5C5FD0 (void);
void sceSysreg_driver_6CD41073 (void);
void sceSysreg_driver_6D204F2A (void);
void sceSysreg_driver_70DB03B3 (void);
void sceSysreg_driver_73F75CF8 (void);
void sceSysregUartClkEnable (void);
void sceSysreg_driver_77B582E9 (void);
void sceSysreg_driver_77F3701E (void);
void sceSysreg_driver_7911A536 (void);
void sceSysreg_driver_7A154A45 (void);
void sceSysreg_driver_7E046110 (void);
void sceSysreg_driver_7E94B309 (void);
void sceSysreg_driver_7F734EE7 (void);
void sceSysregUartIoEnable (void);
void sceSysreg_driver_80995BB5 (void);
void sceSysreg_driver_819ACEB6 (void);
void sceSysreg_driver_823FFD7A (void);
void sceSysreg_driver_8684E7A1 (void);
void sceSysreg_driver_86D9213D (void);
void sceSysreg_driver_8721EA15 (void);
void sceSysregSpiClkEnable (void);
void sceSysreg_driver_89C72A7B (void);
void sceSysreg_driver_8A56E7F1 (void);
void sceSysregSpiClkDisable (void);
void sceSysregSpiIoEnable (void);
void sceSysreg_driver_8D4FE210 (void);
void sceSysregGetFuseConfig (void);
void sceSysreg_driver_8FA2F8C0 (void);
void sceSysreg_driver_917F9660 (void);
void sceSysreg_driver_923509A1 (void);
void sceSysreg_driver_94A99040 (void);
void sceSysreg_driver_97B76F89 (void);
void sceSysreg_driver_9AFD029D (void);
void sceSysreg_driver_9B2871A8 (void);
void sceSysregInit (void);
void sceSysreg_driver_9C89F935 (void);
void sceSysreg_driver_9CE69EC1 (void);
void sceSysregEmcsmIoEnable (void);
void sceSysreg_driver_9E170EF1 (void);
void sceSysreg_driver_9FBCA4D0 (void);
void sceSysreg_driver_A012D356 (void);
void sceSysregSpiIoDisable (void);
void sceSysregUartClkDisable (void);
void sceSysreg_driver_AB1EA306 (void);
void sceSysreg_driver_ACA3F3A3 (void);
void sceSysreg_driver_AE32DCF5 (void);
void sceSysreg_driver_AE663FC3 (void);
void sceSysreg_driver_AFD7C10B (void);
void sceSysreg_driver_B0FDD88C (void);
void sceSysreg_driver_B3F134C7 (void);
void sceSysreg_driver_B595FC22 (void);
void sceSysreg_driver_B5CD678F (void);
void sceSysreg_driver_B5DDBE9F (void);
void sceSysregAtaBusClockDisable (void);
void sceSysreg_driver_B93CCA2B (void);
void sceSysreg_driver_B97B7828 (void);
void sceSysreg_driver_BA43633B (void);
void sceSysregUartIoDisable (void);
void sceSysreg_driver_BC3D9C91 (void);
void sceSysreg_driver_BD89766B (void);
void sceSysreg_driver_BE63A2B9 (void);
void sceSysreg_driver_BEF287D5 (void);
void sceSysreg_driver_C03903EE (void);
void sceSysreg_driver_C0BC0E36 (void);
void sceSysreg_driver_C0D33340 (void);
void sceSysreg_driver_C367C076 (void);
void sceSysreg_driver_C387DAA3 (void);
void sceSysreg_driver_C60904D4 (void);
void sceSysreg_driver_C778A8A3 (void);
void sceSysreg_driver_C7FC7669 (void);
void sceSysreg_driver_CA84A2D9 (void);
void sceSysreg_driver_CAC37836 (void);
void sceSysreg_driver_CD36673C (void);
void sceSysreg_driver_CEE8BAF6 (void);
void sceSysreg_driver_D56A288F (void);
void sceSysreg_driver_D5F04B96 (void);
void sceSysregSpiClkSelect (void);
void sceSysreg_driver_DA1CD053 (void);
void sceSysreg_driver_DA41BE07 (void);
void sceSysreg_driver_DB23A6B7 (void);
void sceSysreg_driver_DBD8D3D2 (void);
void sceSysreg_driver_E2412D26 (void);
void sceSysregGetTachyonVersion (void);
void sceSysreg_driver_E440DC4A (void);
void sceSysreg_driver_E46031A1 (void);
void sceSysreg_driver_E46A0890 (void);
void sceSysreg_driver_E70F8FD3 (void);
void sceSysreg_driver_E74CB850 (void);
void sceSysreg_driver_E987E988 (void);
void sceSysreg_driver_EEE7B082 (void);
void sceSysreg_driver_F03852E0 (void);
void sceSysreg_driver_F092AED8 (void);
void sceSysreg_driver_F287DB37 (void);
void sceSysregEnd (void);
void sceSysreg_driver_F464A3D9 (void);
void sceSysreg_driver_F73DDE93 (void);
void sceSysregEmcsmBusClockEnable (void);
void sceSysreg_driver_F9A652BC (void);
void sceSysreg_driver_FB40B1AA (void);
void sceSysreg_driver_FC42CD72 (void);
void sceSysreg_driver_FE32C7C1 (void);
void sceSysreg_driver_FF39996C (void);
void sceSysreg_driver_FF6D37E7 (void);
/*
* Exports from library: sceGpio_driver
*/
void sceGpio_driver_010628FC (void);
void sceGpioPortClear (void);
void sceGpioSuspend (void);
void sceGpio_driver_23A7C62C (void);
void sceGpio_driver_29F152C3 (void);
void sceGpioPortSet (void);
void sceGpioSetPortMode (void);
void sceGpioEnd (void);
void sceGpio_driver_54F1F60E (void);
void sceGpioResume (void);
void sceGpio_driver_66995E31 (void);
void sceGpio_driver_7D484D6F (void);
void sceGpioDisableIntr (void);
void sceGpio_driver_A908E0BE (void);
void sceGpio_driver_D130755B (void);
void sceGpio_driver_D4BC4C75 (void);
void sceGpioInit (void);
void sceGpio_driver_EBDE13F6 (void);
void sceGpio_driver_EE787A33 (void);
void sceGpio_driver_FF5E7843 (void);
/*
* Exports from library: scePwm_driver
*/
void scePwm_driver_117678BA (void);
void scePwm_driver_19D581D3 (void);
void scePwm_driver_43799573 (void);
void scePwm_driver_7B35F776 (void);
void scePwm_driver_91C21CC0 (void);
void scePwm_driver_965DD38D (void);
void scePwm_driver_99B6802D (void);
void scePwm_driver_BF8793AF (void);
void scePwm_driver_E5C8190D (void);
void scePwm_driver_F3FA2FD7 (void);
/*
* Exports from library: sceI2c_driver
*/
void sceI2c_driver_0654A583 (void);
void sceI2c_driver_46AA2E3C (void);
void sceI2c_driver_48674B64 (void);
void sceI2c_driver_5DDBAB44 (void);
void sceI2c_driver_7B762CAF (void);
void sceI2c_driver_8C5A4D15 (void);
void sceI2c_driver_E6360CA1 (void);
void sceI2c_driver_E79736C3 (void);
void sceI2c_driver_ECE95479 (void);
void sceI2c_driver_EF4EF213 (void);
void sceI2c_driver_FE95ACD7 (void);
/*
* Exports from library: sceDmac
*/
void sceDmacMemcpy (void);
void sceDmacTryMemcpy (void);
/*
* Exports from library: sceDmacplus_driver
*/
void sceDmacplus_driver_0A40EF79 (void);
void sceDmacplus_driver_0B1C48AA (void);
void sceDmacplus_driver_0F01FE4A (void);
void sceDmacplus_driver_1068393E (void);
void sceDmacplus_driver_1D65E667 (void);
void sceDmacplus_driver_21DA182B (void);
void sceDmacplus_driver_24B3E74C (void);
void sceDmacplus_driver_3A5F9CC1 (void);
void sceDmacplus_driver_3B3C6252 (void);
void sceDmacplus_driver_3E868CEE (void);
void sceDmacplus_driver_4391D45C (void);
void sceDmacplus_driver_464AB3C1 (void);
void sceDmacplus_driver_48632A5F (void);
void sceDmacplus_driver_4ABEFBC1 (void);
void sceDmacplus_driver_4DB8CA36 (void);
void sceDmacplus_driver_50FCAA20 (void);
void sceDmacplus_driver_539A58C9 (void);
void sceDmacplus_driver_54A776A3 (void);
void sceDmacplus_driver_5FEC19EE (void);
void sceDmacplus_driver_61989D3A (void);
void sceDmacplus_driver_6292E01D (void);
void sceDmacplus_driver_6BB2E47C (void);
void sceDmacplus_driver_6BB9BD45 (void);
void sceDmacplus_driver_7321EDEE (void);
void sceDmacplus_driver_78ED5F43 (void);
void sceDmacplus_driver_7A9001AF (void);
void sceDmacplus_driver_7D7BE745 (void);
void sceDmacplus_driver_8438DB83 (void);
void sceDmacplus_driver_8472BB23 (void);
void sceDmacplus_driver_84EBD5B1 (void);
void sceDmacplus_driver_86EAC84A (void);
void sceDmacplus_driver_8AA7F020 (void);
void sceDmacplus_driver_8B6B73F9 (void);
void sceDmacplus_driver_915A917C (void);
void sceDmacplus_driver_960D7B8A (void);
void sceDmacplus_driver_975BB7E2 (void);
void sceDmacplus_driver_983FABB2 (void);
void sceDmacplus_driver_9C57AB36 (void);
void sceDmacplus_driver_A05CA13D (void);
void sceDmacplus_driver_A258A023 (void);
void sceDmacplus_driver_A79EE6F6 (void);
void sceDmacplus_driver_A836FBEA (void);
void sceDmacplus_driver_AC024305 (void);
void sceDmacplus_driver_B94CB1D4 (void);
void sceDmacplus_driver_BA1605D2 (void);
void sceDmacplus_driver_BB77E17A (void);
void sceDmacplus_driver_BF888BEC (void);
void sceDmacplus_driver_C751F860 (void);
void sceDmacplus_driver_CBE11C48 (void);
void sceDmacplus_driver_E7580E49 (void);
void sceDmacplus_driver_F5F2AD5E (void);
void sceDmacplus_driver_FBE5DE3E (void);
void sceDmacplus_driver_FFF6EE05 (void);
/*
* Exports from library: sceLcdc_driver
*/
void sceLcdc_driver_0C5D83DF (void);
void sceLcdc_driver_244FA9A4 (void);
void sceLcdc_driver_46936BAA (void);
void sceLcdc_driver_55BD62D7 (void);
void sceLcdc_driver_61C21DCE (void);
void sceLcdc_driver_668B0E11 (void);
void sceLcdc_driver_6DD61A32 (void);
void sceLcdc_driver_75EAAE61 (void);
void sceLcdc_driver_813257DC (void);
void sceLcdc_driver_83DD6210 (void);
void sceLcdc_driver_88EC8DFE (void);
void sceLcdc_driver_90960D49 (void);
void sceLcdc_driver_9182FB30 (void);
void sceLcdc_driver_AB398E0D (void);
void sceLcdc_driver_ABE22CB0 (void);
void sceLcdc_driver_AFF57718 (void);
void sceLcdc_driver_B730DAE0 (void);
void sceLcdc_driver_CB66284F (void);
void sceLcdc_driver_E2761BFB (void);
void sceLcdc_driver_FCA0D3AF (void);
/*
* Exports from library: sceNand_driver
*/
void sceNandIsBadBlock (void);
void sceNandWriteAccess (void);
void sceNandSetScramble (void);
void sceNandResume (void);
void sceNandVerifyEcc (void);
void sceNandEraseAllBlock (void);
void sceNandDetectChipMakersBBM (void);
void sceNandDumpWearBBMSize (void);
void sceNandUnlock (void);
void sceNandReadExtraOnly (void);
void sceNandVerifyBlockWithRetry (void);
void sceNandWriteBlock (void);
void sceNandSuspend (void);
void sceNandReadAccess (void);
void sceNandReset (void);
void sceNandSetWriteProtect (void);
void sceNandCorrectEcc (void);
void sceNandWritePagesRawExtra (void);
void sceNandEraseBlockWithRetry (void);
void sceNandReadPages (void);
void sceNandWritePages (void);
void sceNandTestBlock (void);
void sceNandInit (void);
void sceNandLock (void);
void sceNandGetPagesPerBlock (void);
void sceNandWriteBlockWithVerify (void);
void sceNandCollectEcc (void);
void sceNandWritePagesRawAll (void);
void sceNandGetTotalBlocks (void);
void sceNandDoMarkAsBadBlock (void);
void sceNandReadBlockWithRetry (void);
void sceNandReadPagesRawAll (void);
void sceNandGetPageSize (void);
void sceNandEnd (void);
void sceNandDetectChip (void);
void sceNandReadPagesRawExtra (void);
void sceNandReadStatus (void);
void sceNandEraseBlock (void);
void sceNandCountChipMakersBBM (void);
void sceNandCalcEcc (void);
void sceNandReadId (void);
/*
* Exports from library: sceDdr_driver
*/
void sceDdrInit (void);
void sceDdr_driver_19423D2C (void);
void sceDdrSuspend (void);
void sceDdr_driver_647FEC11 (void);
void sceDdr_driver_7271F86A (void);
void sceDdr_driver_740F2933 (void);
void sceDdr_driver_75B600EF (void);
void sceDdrEnd (void);
void sceDdrFlush (void);
void sceDdrResume (void);
void sceDdr_driver_A0FA6221 (void);
void sceDdr_driver_ABFCB233 (void);
void sceDdr_driver_B4D05E62 (void);
void sceDdr_driver_B639BE04 (void);
void sceDdr_driver_C6B7CCDE (void);
void sceDdr_driver_CFC352DF (void);
void sceDdr_driver_D341BACD (void);
void sceDdr_driver_DC921C35 (void);
#endif /* __LOWIO_H */
|
0xb15c077e
|
trunk/RE/PSP/lowio.h
|
C
|
mit
| 13,990
|
TARGET = me_wrapper
OBJS = me_wrapper.o me_wrapper.boot.o me_wrapper.imports.o
BUILD_PRX = 1
PRX_EXPORTS = me_wrapper.exports.exp
INCDIR =
CFLAGS = -O2 -G0 -Wall #-g -DDEBUG
ASFLAGS = $(CFLAGS)
USE_KERNEL_LIBC = 1
USE_KERNEL_LIBS = 1
LIBDIR =
LDFLAGS = -mno-crt0 -nostartfiles
LIBS = -nodefaultlibs -nostdlib
PSPSDK=$(shell psp-config --pspsdk-path)
include $(PSPSDK)/lib/build.mak
all:
rm *.o $(TARGET).elf
|
0xb15c077e
|
trunk/RE/PSP/me_wrapper.mak
|
Makefile
|
mit
| 415
|
/*
* Utopia ME Wrapper Module 5.00 clone
* Copyright (c) 2011 by Musa Mitchell <mowglisanu@gmain.com>
*/
typedef struct{
int mutex;
int event;
int sema;
}MERpc;
#define PSP_O_UNKNOWN0 0x04000000
int sceMeRpcLock();
int sceMeRpcUnlock();
int sub_881FA1D8(void* data, int wait);
int sceMeBootStart(unsigned int bootCode);
void sceMePowerControlAvcPower(int arg0);
extern void me_boot_code_end();
extern void me_boot_code();
extern void *memcpy(void *, void *, int);
extern int memcmp(void *, void *, int);
extern void* SysMemForKernel_5339A163();
extern int SysMemForKernel_374E8E66();
extern void* sceKernelMemset32(void*, int, void*);
extern int sceSysregAvcResetEnable();
extern int sceSysregAvcResetDisable();
extern int sceSysregInterruptToOther();
extern float sceSysregPllGetFrequency();
extern unsigned int sceSysregGetTachyonVersion();
extern int sceSysregIntrEnd();
extern int sceDdrFlush(int);
extern int sceKernelCreateMutex(char *, int, int, int);
extern int sceKernelTryLockMutex(int, int);
extern int sceKernelLockMutex(int, int, int);
extern int sceKernelUnlockMutex(int, int);
extern int sceKernelEnableIntr(int);
extern void sceSysconCtrlTachyonAvcPower(int);
extern int UtilsForKernel_6C6887EE(void*, void*, void*, void**);
extern void sceKernelIcacheInvalidateAll();
extern int sceWmd_driver_7A0E484C(void* , int, int*);
|
0xb15c077e
|
trunk/RE/PSP/me_wrapper.h
|
C
|
mit
| 1,348
|
#include <pspsdk.h>
#include "mpeg.h"
//Imports from library: ThreadManForUser
extern int sceKernelcheckThreadStack();
extern int sceKernelCreateSema (int arg1, int arg2, int arg3, int arg4, int arg5);
extern int sceKernelDeleteSema ();
extern int sceKernelSignalSema (int arg1, int arg2);
extern int sceKernelWaitSema (int arg1, int arg2, int arg3);
extern void sceKernelPollSema ();
extern void sceKernelReferSemaStatus ();
//Imports from library: UtilsForUser
extern void sceKernelDcacheWritebackInvalidateRange (int arg1, int arg2);
//Imports from library: sceVideocodec
extern int sceVideocodecInit (int arg1, int arg2);
extern int sceVideocodecGetFrameCrop (int arg1, int arg2);
extern int sceVideocodecGetVersion (int arg1, int arg2);//unused
extern int sceVideocodecGetEDRAM (int arg1, int arg2);
extern int sceVideocodecDelete (int arg1, int arg2);
extern void sceVideocodecReleaseEDRAM (int arg1);
extern int sceVideocodecGetSEI (int arg1, int arg2);//unused
extern int sceVideocodecSetMemory (int arg1, int arg2);
extern int sceVideocodec_893B32B1 (int arg1, int arg2);
extern int sceVideocodecStop (int arg1, int arg2);
extern int sceVideocodecOpen (int arg1, int arg2);
extern int sceVideocodecDecode (int arg1, int arg2);
//Imports from library: sceAudiocodec
extern void sceAudiocodecReleaseEDRAM ();
extern int sceAudiocodecGetEDRAM (int arg1, int arg2);
extern int sceAudiocodecInit (int arg1, int arg2);
extern int sceAudiocodecDecode (int arg1, int arg2);
extern int sceAudiocodecCheckNeedMem (int arg1, int arg2);
//Imports from library: sceMpegbase
extern void sceMpegbase_0530BE4E (int arg1);
extern int sceMpegBaseCscAvcRange (int arg1, int arg2, int arg3, int arg4, int arg5);
extern int sceMpegBaseCscInit (int arg1);
extern int sceMpegBaseYCrCbCopy (int arg1, int arg2, int arg3);
extern int sceMpegBaseCscAvc (int arg1, int arg2, int arg3, int arg4);
extern int sceMpegbase_BEA18F91 (int arg1);
int mpegIsInit;//0x00007780
int stream;//0x000076D8
char audioCodecStruct[0x6C];//0x000078C0
char*pAudioCodecStruct;//0x00007880
char videoCodecStruct[0x60];//0x000077C0
char*pVideoCodecStruct;
int mpegLibmpegSema;//0x0000794C
int mpegAvcSema;//0x00007944
int mpegAtracSema;//0x00007948
int mpegFlushStream (int arg1, int*arg2){
if ((ret = checkMpegLib (arg1)))return ret;
waitSema(*arg1[411]);
if ((au = checkAu (arg2[0], arg1[0], 1)) == -1){
signalSema (*arg1[411]);
return 0x806101FE;
}
if (((int *) var17)[2] != -1){
int*var22 = arg2[2];
((int *) au)[3] = 0;
((int *) au)[0] = -1;
((int *) au)[1] = -1;
if (var22 != -1){
var22[3] = 0;
var22[1] = -1;
var22[0] = -1;
}
}
var27 = (sp[0] << 3) + 0x00007594;//0x00009FCC
flushStream (((int *) var27)[1];, sp + 4,arg2[0]);
arg2[4] = 0x7FFF;
arg2[5] = ((int *) var27)[1];
arg2[6] = 1;
arg2[8] = 0;
arg2[10] = ((int *) var27)[0];
arg2[11] = 0;
arg2[12] &= 0xFFFFFFFB;
arg2[13] = 0;
arg2[14] = 0;
arg2[16] = 0;
ret = signalSema(*arg1[411]);
return ret;
}
int flushAllStream (int mpeg){
if (ret=checkMpegArg (mpeg))return ret;
for(int i=0;i<0x70;i++) {
str = ((int *) ((i << 4) + *mpeg[6]))[2];
if (str!=-1 && (ret=mpegFlushStream (mpeg, str)))return ret;
}
return 0;
}
int mpegUnRegistStream (int arg1, int arg2){
if (ret=checkMpegArg (arg1))return ret;
waitSema(*arg1[411]);
int*au = checkAu (arg2[0], *arg1, 1);
if ((au = checkAu (arg2[0], *arg1, 1))==-1){
signalSema(*arg1[411]);
return 0x806101FE;
}
if (au[2]==-1))return 0;
au[3] = 0;
au[2] = -1;
au[0] = -1;
au[1] = -1;
if (arg2[2]==-1)return 0;
arg2[2][3] = 0;
arg2[2][1] = -1;
arg2[2][2] = -1;
arg2[2][0] = -1;
signalSema(*arg1[411]);
return 0;
}
int mpegRegistStream (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s5;
var1 = 0xFFFFFFFF;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[3] = s3;
((int *) sp)[0] = s0;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
var8 = 0;
if(!(var7 != 0))
{
var9 = ((int *) var4)[411];
waitSema ();
var14 = getStream (var3, var2);
var17 = unRegistStream (var14, var4, 2);
if(var17 == 0xFFFFFFFF)
{
label17:
var31 = ((int *) var4)[411];
signalSema ();
var8 = 0;
}
else
{
if(!(var3 != 0))
{
var18 = ((int *) var4)[8];
var1 = var18 + (var2 << 0x0B);
}
var21 = unRegistAllStream (arg1, var3, var2, var1, var17);
if(var21 != 0)
goto label17;
var22 = ((int *) var4)[411];
signalSema ();
var8 = var17;
}
}
ra = ((int *) sp)[6];
var25 = ((int *) sp)[5];
var26 = ((int *) sp)[4];
var27 = ((int *) sp)[3];
var28 = ((int *) sp)[2];
var29 = ((int *) sp)[1];
var30 = ((int *) sp)[0];
sp = sp + 0x20;
return var8;
}
int mpegInit (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = mpegIsInit;
var2 = 0x80618005;
if(!(var1 != 0))
{
mpegIsInit = 1;
var5 = createSema (1, 1, "SceMpegLibmpeg", mpegLibmpegSema);
var2 = 0x80618006;
if(!(var5 != 0))
{
var8 = createSema (1, 1, "SceMpegAvc", mpegAvcSema);
var2 = 0x80618006;
if(!(var8 != 0))
{
var11 = createSema (1, 1, "SceMpegAtrac", mpegAtracSema);
var2 = 0x80618006;
if(!(var11 != 0))
{
initAudioCodec ();
initVideoCodec (0);
var2 = 0;
}
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
int mpegFinish (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = mpegIsInit;
var2 = 0x80618005;
if(!(var1 == 0))
{
mpegIsInit = 0;
audiocodecReleaseEDRAM ();
videocodecReleaseEDRAM ();
var7 = *((int *) mpegLibmpegSema);
var10 = deleteSema ();
var2 = 0x80618006;
if(!(var10 != 0))
{
var11 = *((int *) mpegAvcSema);
var14 = deleteSema ();
var2 = 0x80618006;
if(!(var14 != 0))
{
var15 = *((int *) mpegAtracSema);
var18 = deleteSema ();
var2 = !(var18) ? 0 : 0x80618006;
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
int mpegQueryMemSize (int arg1){
#ifdef VSH
if(sub_085D8()){
var5 = sp[0];
}else{
if(!sub_08588 (sp))var5 = sp[0];
}
((int *) sp)[0] = ((((var5 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)) + 0x0000023F);
if((((arg1 + 0xFFFFFFFD) < 4)) != 0)
{
var33 = sub_08F70 ();
var34 = ((int *) sp)[0];
((int *) sp)[0] = ((var34 + var33) + 0x00000640);
}
if(((((arg1 ^ 1) < 1)) | (((arg1 ^ 4) < 1))) != 0)
{
label36:
((int *) sp)[2] = 0;
var8 = sub_09330 (0);
if(var8 != 0)
{
audiocodecReleaseEDRAM ();
var9 = ((int *) sp)[2];
}
else
{
label42:
var9 = ((int *) sp)[2];
}
label43:
var10 = ((int *) sp)[0];
var11 = (((var9 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)) + 0x80;
((int *) sp)[2] = var11;
var12 = (0x0000B2F0 + (var10 + var11)) + 0x00000100;
ra = ((int *) sp)[6];
}
else
{
if(!(((((arg1 ^ 0x05) < 1)) | (((arg1 ^ 0x06) < 1))) == 0))
goto label36;
var17 = sp + 4;
var20 = sub_09330 (var17);
if(var20 == 0)
{
label28:
var27 = initVideoCodec (arg1);
if(var27 != 0)
{
var28 = sp + 8;
var12 = sub_092D0 (var28, arg1);
ra = ((int *) sp)[6];
if(!(var12 != 0))
{
var9 = ((int *) sp)[2];
goto label43;
}
}
else
{
label35:
((int *) sp)[2] = 0;
goto label42;
}
}
else
{
if(arg1 != 0)
{
label23:
var22 = ((int *) sp)[1];
if(arg1 == 3)
{
if(var22 != 1)
{
label26:
audiocodecReleaseEDRAM ();
goto label28;
}
else
{
((int *) sp)[2] = 0;
goto label35;
}
}
else
goto label26;
}
else
{
var21 = ((int *) sp)[1];
if(var21 == 0)
{
((int *) sp)[2] = 0;
goto label35;
}
else
{
goto label23;
}
}
}
}
return var12;
#else
if(arg1!=1)return 0x00010000;
if(!getAudioNeededMem (0))return;
audiocodecReleaseEDRAM ();
return 0x00010000;
#endif
}
int mpegCreate (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
#ifdef VSH //mix me
var1 = arg1;
var2 = arg6;
var3 = arg4;
((int *) sp)[7] = arg3;
((int *) sp)[6] = arg2;
((int *) sp)[8] = arg5;
((int *) sp)[9] = arg7;
var6 = mpegQueryMemSize (arg6);
var8 = 0x80610022;
if(!(((arg3 < var6)) != 0))
{
var10 = arg2;
waitSema (mpegLibmpegSema);
var13 = arg3;
memset (var10, 0, var13);
var18 = ((var10 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var1)[0] = var18;
((int *) var18)[3] = 0xFFFFFFFF;
((int *) var18)[0] = *((int *) 0x00009F94);
var19 = var18;
((int *) var18)[1] = *((int *) 0x00009F98);
((int *) var18)[2] = 0x00313030;
((int *) var18)[414] = var2;
var22 = createSema (1, 1, "SceMpegMpegData", (var18 + 0x0000066C));
if(var22){
signalSema (mpegLibmpegSema);
return 0x80618006;
}
var23 = (((var18 + 0x000006E8) + 0x3F) & 0xFFFFFFC0);
((int *) var19)[6] = var23;
var24 = ((int *) var3)[8];
((int *) var19)[4] = var3;
((int *) var19)[5] = var24;
var25 = ((int *) var19)[6];
((int *) var3)[10] = var1;
var26 = 0x6F;
while (1) {
var26 = var26 + 0xFFFFFFFF;
((int *) var25)[0] = 0xFFFFFFFF;
((int *) var25)[1] = 0xFFFFFFFF;
((int *) var25)[2] = 0xFFFFFFFF;
((int *) var25)[3] = 0;
var25 = var25 + 0x10;
if(var26 >= 0)
continue;
break;
}
var27 = (((var23 + 0x00000704) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var19)[7] = var27;
var28 = 0x6E;
while (1) {
if(!(var28 >= 0))
break;
var28 = var28 + 0xFFFFFFFF;
continue;
}
var29 = (((var27 + 0x00001DC4) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var19)[8] = var29;
memset (var29, 0, 0x00008000);
((int *) var19)[9] = 0;
var32 = 0;
var33 = var19;
while (1) {
((int *) var33)[10] = 0x63;
var34 = var33 + 0x2C;
var35 = 0;
var36 = var34;
while (1) {
var37 = var36 + 0x10;
sub_05A7C (var36, 0, 0, var37, 0);
var40 = ((int *) var33)[10];
var35 = var35 + 1;
var36 = var37;
if(((var35 < var40)) != 0)
continue;
break;
}
var32 = var32 + 1;
sub_05AB0 (((var34 + (var35 << 4)) + 0xFFFFFFF0), 0);
var33 = var33 + 0x00000644;
if(var32 <= 0)
continue;
break;
}
var43 = ((((var29 + 0x00008000) + 0x00000644) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
var44 = var43 + 0x80;
var45 = var44 + 0x40;
var46 = var2 + 0xFFFFFFFD;
var47 = var45 + 0xC0;
((int *) var19)[419] = var43;
var48 = var47 + 0x80;
((int *) var19)[420] = var44;
((int *) var19)[421] = var45;
((int *) var19)[422] = var47;
if(((var46 < 4)) != 0)
{
var113 = var48 + 0x00000540;
var114 = var113 + 0xC0;
((int *) var19)[423] = var48;
var115 = var114 + 0x40;
((int *) var19)[431] = var113;
((int *) var19)[432] = var114;
sub_08F78 ((var19 + 0x000006A0), var115);
var120 = sub_08F70 ();
var121 = ((int *) var19)[424];
var48 = var115 + var120;
sub_08FE0 (var121);
}
var51 = sub_085D8 ();
((int *) var19)[425] = var51;
if(var51 == 0){
((int *) var19)[425] = var48;
var108 = sp + 0x10;
var111 = sub_08588 (var108);
var69 = var111;
if(var111 != 0)
{
label68:
var104 = *((int *) mpegLibmpegSema);
}
else
{
var112 = ((int *) sp)[4];
var48 = var48 + (((var112 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F));
label45:
if(((var46 < 4)) != 0)
{
((char *) var19)[1665] = 1;
((int *) var19)[415] = 0;
((char *) var19)[1664] = 1;
((int *) var19)[417] = 0;
((int *) var19)[418] = 0;
}else{
((char *) var19)[1664] = 0;
((char *) var19)[1665] = 0;
var52 = ((int *) sp)[9];
((int *) var19)[415] = 2;
((int *) var19)[417] = 0x0004A000;
((int *) var19)[418] = 0x00062400;
if(var52 == 0){
((int *) sp)[9] = 0x09000000;
}
}
var53 = ((int *) sp)[9];
if(((var2 < 0x07)) == 0)
{
label54:
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 2;
((int *) var19)[426] = var53;
label57:
((int *) var19)[430] = 0;
}
else
{
var54 = ((int *) ((var2 << 2) + 0x0000A040))[0];
switch () {
case 0:
var55 = ((int *) sp)[9];
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 2;
((int *) var19)[426] = var55;
goto label57;
case 1:
case 4:
var105 = arg7;
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 3;
((int *) var19)[426] = var105;
goto label57;
case 2:
var53 = ((int *) sp)[9];
goto label54;
case 3:
case 5:
var106 = ((int *) sp)[9];
((int *) var19)[427] = 0x000002D0;
((int *) var19)[428] = 0x000001E0;
((int *) var19)[429] = 3;
((int *) var19)[430] = 1;
((int *) var19)[426] = var106;
goto label58;
case 6:
var107 = ((int *) sp)[9];
((int *) var19)[427] = 0x000002D0;
((int *) var19)[428] = 0x00000240;
((int *) var19)[429] = 3;
((int *) var19)[430] = 1;
((int *) var19)[426] = var107;
goto label58;
}
}
label58:
var56 = ((int *) var19)[428];
var57 = ((int *) var19)[429];
var58 = ((int *) var19)[430];
var59 = ((int *) var19)[419];
var60 = ((int *) var19)[420];
var61 = ((int *) var19)[421];
var62 = ((int *) var19)[422];
var63 = ((int *) var19)[423];
var64 = ((int *) var19)[426];
var65 = ((int *) var19)[427];
((int *) sp)[0] = var56;
((int *) sp)[1] = var57;
((int *) sp)[2] = var58;
var68 = sub_083E4 (var59, var60, var61, var62, var63, (var19 + 0x000006A4), var64, var65);
var69 = var68;
if(var68 != 0)
goto label68;
if((((var2 + 0xFFFFFFFC) < 3)) == 0)
{
label65:
var74 = ((int *) sp)[8];
var77 = sceMpegBaseCscInit (var74);
var69 = var77;
if(var77 != 0)
goto label68;
var78 = var2 ^ 1;
var79 = var2 ^ 4;
if((((var78 < 1)) | ((var79 < 1))) != 0)
{
((int *) var19)[440] = 0;
label79:
((int *) var19)[439] = 0;
label80:
if((((var78 < 1)) | ((var79 < 1))) != 0)
{
((int *) var19)[438] = 0;
}
else
{
if(((((var2 ^ 0x05) < 1)) | (((var2 ^ 0x06) < 1))) == 0)
{
var96 = sub_09330 (0);
((int *) var19)[438] = var96;
if(!(var96 != 0))
{
var97 = ((int *) sp)[5];
((int *) var19)[438] = var48;
var48 = var48 + (((var97 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F));
}
}
else
{
((int *) var19)[438] = 0;
}
}
var80 = ((int *) sp)[6];
var81 = ((int *) sp)[7];
var82 = *((int *) mpegLibmpegSema);
var69 = !(((var48 < (var80 + var81)))) ? 0x80610022 : var69;
}
else
{
if(((((var2 ^ 0x05) < 1)) | (((var2 ^ 0x06) < 1))) == 0)
{
((int *) var19)[440] = var48;
var98 = sp + 0x14;
var101 = sub_092D0 (var98, var2);
var69 = var101;
var48 = var48 + 0x80;
if(var101 != 0)
{
label76:
var103 = *((int *) mpegLibmpegSema);
}
else
{
var102 = ((int *) sp)[5];
((int *) var19)[439] = var102;
goto label80;
}
}
else
{
((int *) var19)[440] = 0;
goto label79;
}
}
}
else
{
var70 = ((int *) var19)[419];
var73 = sub_087B8 (var70, 1);
var69 = var73;
if(var73 != 0)
goto label76;
goto label65;
}
}
}
else
goto label45;
signalSema ();
var8 = var69;
}
#else
sp[6] = arg3;
sp[5] = arg2;
sp[7] = arg5;
sp[8] = arg7;
if(arg3 >= mpegQueryMemSize (arg6))return 0x80610022;
waitSema (mpegLibmpegSema);
memset (arg2, 0, arg3);
int* p = ((arg2 + 0x3F) & 0xFFFFFFC0);
*arg1 = p;
var19 = p;
p[0] = *((int *) 0x0000755C);//0x00009F94
p[1] = *((int *) 0x00007560);//0x00009F98
p[2] = 0x00313030;
p[3] = -1;
p[414] = arg6;
if(createSema (1, 1, "SceMpegMpegData", (p + 0x0000066C))){
signalSema (mpegLibmpegSema);
return 0x80618006;
}
p[6] = (((p + 0x000006D0) + 0x3F) & 0xFFFFFFC0);//0x000006E8
p[4] = arg4;
p[5] = arg4[8];
arg4[10] = arg1;
for(i=0x6F;i>0;i--){
p[6][4*i+0] = -1;
p[6][4*i+1] = -1;
p[6][4*i+2] = -1;
p[6][4*i+3] = 0;
}
p[7] = (((p[6] + 0x00000704) + 0x3F) & 0xFFFFFFC0);
p[8] = (((p[7] + 0x00001DC4) + 0x3F) & 0xFFFFFFC0);
memset (p[8], 0, 0x00008000);
p[9] = 0;
for(p2 = p;1;p2 += 0x0644) {
p2[10] = 0x63;
var34 = p2 + 0x2C;
var36 = var34;
for(i = 0;i < var40;i++){
var37 = var36 + 0x10;
sub_04718 (var36, 0, 0, var37, 0);
var40 = p2[10];
var36 = var37;
}
sub_0474C(&var34[i-4], 0);
}
p[419] = ((((p[8] + 0x8000) + 0x0644) + 0x3F) & 0xFFFFFFC0);
p[420] = p[419] + 0x80;
p[421] = p[420] + 0x40;
p[422] = p[421] + 0xC0;
pend = p[422] + 0x80;
p[423] = 0;
p[425] = getVideoEdram ();
if(!p[425]){
signalSema (mpegLibmpegSema);
return 0x80610022;
}
if(arg6 == 1){
p[415] = 0;
((char *) p)[1664] = 1;
((char *) p)[1665] = 1;
p[417] = 0;
p[418] = 0;
}else{
p[415] = 2;
((char *) p)[1664] = 0;
((char *) p)[1665] = 0;
p[417] = 0x0004A000;
p[418] = 0x00062400;
if(!sp[8])sp[8] = 0x09000000;
}
var19[426] = sp[8];
var19[427] = 0x000001E0;
var19[428] = sp[0] = 0x00000110;
var19[429] = sp[1] = (arg6==1)?3:2;
var19[430] = sp[2] = 0;
if((ret=sub_06520 (var19[419], var19[420], var19[421], var19[422], var19[423], (var19 + 0x000006A4), var19[426], var19[427]))){
signalSema (mpegLibmpegSema);
return ret;
}
if(arg6 == 1)sub_067E4 (var19[419], 1);
if((ret = sceMpegBaseCscInit (sp[7]))){
signalSema (mpegLibmpegSema);
return ret;
}
if(arg6 == 1){
var19[432] = 0;
var19[433] = 0;
var19[434] = 0;
}else{
var19[434] = pend;
pend += 0x80;
if((ret = sub_06AB4 (sp + 0x10, arg6))){}
var19[433] = sp[4];
if(!(var19[432] = getAudioNeededMem (0))){
signalSema (mpegLibmpegSema);
return 0x80610022;
}
}
ret = !(((pend < (sp[5] + sp[6])))) ? 0x80610022 : ret;
signalSema (mpegLibmpegSema);
return 0;
}
int mpegInitAu (int arg1, int arg2, int arg3){
if(ret=checkMpegLib(arg1))return ret;
arg3[4] = arg2;
arg3[5] = 0;
return 0;
}
int unRegistAllStream (int arg1, int arg2, int arg3, int arg4, int arg5){
var1 = arg3;
var2 = arg2;
var3 = arg5;
var6 = checkMpegLib (arg1);
var7 = var6;
if((ret=checkMpegLib (arg1)))return ret;
if(!(((var2 < 0x07))))return 0x806101FE;
var8 = ((int *) arg1)[0];
var11 = getStream (var2, var1);
((int *) var3)[0] = var11;
var14 = getStreamOffset (var2);
var15 = (var2 << 3) + 0x00007594;//0x00009FCC
((int *) var3)[4] = 0x00007FFF;
((int *) var3)[6] = 1;
((int *) var3)[1] = var14;
((int *) var3)[3] = var2?0:arg4;
((int *) var3)[10] = ((int *) var15)[0];
((int *) var3)[5] = ((int *) var15)[1];
((int *) var3)[11] = 0;
((int *) var3)[8] = 0;
((int *) var3)[13] = 0;
((int *) var3)[14] = 0;
((int *) var3)[12] = 0;
((int *) var3)[16] = 0;
var22 = unRegistStream (((int *) var3)[0], var8, 1);
var7 = 0x806101FE;
if(!(var22 == -1)){
var23 = ((int *) var22)[2];
var7 = 0x80618005;
if(!(var23 != -1)){
((int *) var22)[1] = var23;
((int *) var22)[2] = var3;
((int *) var22)[3] = 0;
((int *) var22)[0] = var23;
if(var2 == 0)
{
var32 = getStream (0x06, var1);
var35 = unRegistStream (var32, var8, 1);
var7 = 0x806101FE;
if(!(var35 == var23))
{
var36 = ((int *) var35)[2];
var7 = 0x80618005;
if(!(var36 != var23))
{
((int *) var35)[1] = var23;
((int *) var3)[2] = var35;
((int *) var35)[2] = var3;
((int *) var35)[3] = 0;
((int *) var35)[0] = var23;
label23:
var7 = 0;
}
}
}
else
{
((int *) var3)[2] = var23;
goto label23;
}
}
}
return var7;
}
int mpegAvcDecodeMode (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg2;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var2 = ((int *) arg1)[0];
var3 = ((int *) var2)[419];
var6 = checkMpegLib (arg1);
var7 = var6;
if(!(var6 != 0))
{
var8 = ((int *) var1)[0];
if(var8 == 0xFFFFFFFF)
{
label9:
var9 = ((int *) var1)[1];
if(var9 == 0xFFFFFFFF)
{
label14:
var7 = 0;
}
else
{
if(((var9 < 0xFFFFFFFF)) != 0)
{
label15:
label16:
var7 = 0x806101FE;
}
else
{
if(!(((var9 < 4)) != 0))
goto label15;
#ifdef VSH
var12 = ((int *)(0x0000A05C)[var9];
#else
var12 = ((int *)0x00007608)[var9];
#endif
sceMpegbase_0530BE4E (var12);
goto label14;
}
}
}
else
{
if(((var8 < 0xFFFFFFFF)) != 0)
goto label15;
if(((var8 < 3)) == 0)
goto label16;
((int *) var3)[13] = var8;
goto label9;
}
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int avcDecodeDetail (int arg1, int arg2, int arg3){
if((ret = checkMpegLib (arg1))<0)return ret;
if((ret = mpegAvcDecodeDetail2 (arg1, sp))<0)return ret;
#ifdef VSH
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s2;
var1 = arg3;
((int *) sp)[5] = s1;
var2 = arg2;
((int *) sp)[4] = s0;
((int *) sp)[7] = ra;
var3 = arg1;
var6 = checkMpegLib (arg1);
var7 = var6;
var8 = sp;
if(var6 == 0)
{
var12 = ((int *) var3)[0];
var15 = mpegAvcDecodeDetail2 (var3, var8);
var7 = var15;
if(var15 != 0)
{
label14:
ra = ((int *) sp)[7];
label15:
var9 = ((int *) sp)[6];
}
else
{
var16 = ((int *) var12)[414];
var17 = ((int *) sp)[0];
var18 = ((int *) var17)[4];
var7 = 0x806101FE;
var19 = ((int *) var17)[11];
if(!((((var16 + 0xFFFFFFFC) < 3)) == 0))
{
var18 = var18 + (((var2 << 2) + var2) << 3);
}
ra = ((int *) sp)[7];
if(var2 < 0)
goto label15;
var20 = ((int *) var18)[8];
if(((var2 < var20)) == 0)
{
var9 = ((int *) sp)[6];
}
else
{
var21 = ((int *) var17)[2];
var7 = 0;
((int *) var1)[0] = var21;
var22 = ((int *) (var19 + (var2 * 0x2C)))[8];
((int *) var1)[1] = var22;
var23 = ((int *) var18)[2];
((int *) var1)[2] = var23;
var24 = ((int *) var18)[3];
((int *) var1)[3] = var24;
var25 = ((int *) var18)[4];
((int *) var1)[4] = var25;
var26 = ((int *) var18)[5];
((int *) var1)[5] = var26;
var27 = ((int *) var18)[6];
((int *) var1)[6] = var27;
var28 = ((int *) var18)[7];
((int *) var1)[7] = var28;
var29 = ((int *) var18)[8];
((int *) var1)[8] = var29;
goto label15;
}
}
}
else
goto label14;
var10 = ((int *) sp)[5];
var11 = ((int *) sp)[4];
sp = sp + 0x20;
return var7;
#else
if(arg2 < 0)return 0x806101FE;
tmp = sp[0][4];
if(arg2 >= tmp[8])return 0x806101FE;
arg3[0] = sp[0][2];
arg3[1] = (sp[0][11] + (arg2 * 0x2C))[8];
arg3[2] = tmp[2];
arg3[3] = tmp[3];
arg3[4] = tmp[4];
arg3[5] = tmp[5];
arg3[6] = tmp[6];
arg3[7] = tmp[7];
arg3[8] = tmp[8];
return 0;
#endif
}
int mpegAvcDecodeDetail2 (int arg1, int arg2){
if((ret = checkMpegLib (arg1))<0)return ret;
#ifdef VSH
if(((((*arg1)[414]-1)<0))){
*arg2 = (*arg1)[424] + 0x2C;
}else{
*arg2 = (*arg1)[419];
}
#else
*arg2 = (*arg1)[419];
#endif
return 0;
}
#ifdef VSH
int mpegAvcDecodeGetDecodeSEI (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var3 = checkMpegLib (arg1);
var4 = var3;
if(!(var3 != 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var5)[414];
var4 = 0x806101FE;
if(!((((var6 + 0xFFFFFFFD) < 4)) == 0))
{
var7 = ((int *) var5)[431];
var8 = ((int *) var5)[419];
((int *) arg2)[0] = var7;
var11 = sub_086F8 (var8, var7);
var4 = var11;
}
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
int mpeg_AE693D0B (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var3 = checkMpegLib (arg1);
var4 = var3;
if(!(var3 != 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var5)[414];
var4 = 0x806101FE;
if(!((((var6 + 0xFFFFFFFD) < 4)) == 0))
{
var7 = ((int *) var5)[432];
var8 = ((int *) var5)[419];
((int *) arg2)[0] = var7;
var11 = sub_08758 (var8, var7);
var4 = var11;
}
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
#endif
int mpegAvcDecode (int arg1, int arg2, int arg3, int arg4, int arg5){
#ifdef VSH
var1 = arg5;
var2 = arg2;
var3 = arg1;
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var16 = ((int *) var3)[0];
var17 = ((int *) var2)[4];
var18 = ((int *) var16)[421];
var19 = ((int *) var16)[419];
var20 = ((int *) var16)[420];
var23 = avcDecodeYCbCr (var3, var17);
var24 = ((int *) var2)[5];
((int *) var19)[9] = ((var23 & 0x0FFFFFFF) | (0 & 0x0F));
((int *) var19)[10] = var24;
var25 = ((int *) var16)[414];
if(!((((var25 + 0xFFFFFFFC) < 3)) == 0))
{
var26 = ((int *) var19)[13];
((int *) var19)[13] = (var26 | 0xC0000000);
var27 = ((int *) var16)[431];
((int *) var19)[20] = var27;
var28 = ((int *) var16)[432];
((int *) var19)[21] = var28;
}
var31 = sub_085E8 (var19);
((int *) var2)[5] = 0;
var32 = var31;
var33 = ((int *) var19)[13];
((int *) var19)[13] = ((var33 & 0x3FFFFFFF) | (0 & 3));
if(var31 == 0)
{
var42 = ((int *) var20)[8];
((int *) var1)[0] = var42;
var43 = ((int *) var16)[414];
if((((var43 + 0xFFFFFFFD) < 4)) != 0)
{
var7 = var32;
if(!((((var43 + 0xFFFFFFFC) < 3)) == 0))
{
var62 = ((int *) var19)[20];
var63 = ((int *) var19)[21];
var64 = ((int *) var16)[424];
var67 = sub_08818 (var64, var19, var62, var63);
var7 = var67;
if(!(var67 != 0))
{
var68 = ((int *) var16)[424];
var71 = sub_08A18 (var68, var19);
var32 = var71;
label33:
var7 = var32;
}
}
}
else
{
var44 = 0;
if(((var31 < var42)) == 0)
goto label33;
var45 = arg4;
var46 = ((int *) var45)[0];
while (1) {
var44 = var44 + 1;
var47 = sp;
var45 = var45 + 4;
var7 = 0x806101FE;
if(var46 == 0)
break;
var48 = ((int *) var20)[3];
((int *) sp)[0] = (var48 >> 4);
var49 = ((int *) var20)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var49 >> 4);
((int *) sp)[3] = 0;
var50 = ((int *) var18)[2];
var51 = ((int *) var18)[0];
var52 = ((int *) var18)[4];
var53 = ((int *) var18)[6];
var54 = ((int *) var18)[1];
var55 = ((int *) var18)[3];
var56 = ((int *) var18)[5];
var57 = ((int *) var18)[7];
((int *) sp)[6] = var50;
var18 = var18 + 0x2C;
((int *) sp)[4] = var51;
((int *) sp)[8] = var52;
((int *) sp)[10] = var53;
((int *) sp)[5] = var54;
((int *) sp)[7] = var55;
((int *) sp)[9] = var56;
((int *) sp)[11] = var57;
var60 = sceMpegBaseCscAvc (var46, 0, arg3, var47);
var32 = var60;
if(var60 != 0)
goto label33;
var61 = ((int *) var1)[0];
if(((var44 < var61)) != 0)
{
var46 = ((int *) var45)[0];
continue;
}
else
{
var7 = var32;
}
}
}
}
else
{
var34 = ((int *) var16)[414];
var7 = var32;
if(!((((var34 + 0xFFFFFFFC) < 3)) == 0))
{
var35 = ((int *) var16)[424];
var36 = var19;
var37 = var35 + 0x2C;
while (1) {
var38 = ((int *) var36)[0];
var39 = ((int *) var36)[1];
var40 = ((int *) var36)[2];
var41 = ((int *) var36)[3];
((int *) var37)[0] = var38;
var36 = var36 + 0x10;
var37 = var37 + 0x10;
((int *) var37)[1073741821] = var39;
((int *) var37)[1073741822] = var40;
((int *) var37)[1073741823] = var41;
if(var36 != (var19 + 0x60))
continue;
break;
}
goto label33;
}
}
}
#else
var1 = arg5;
var2 = arg2;
var3 = arg1;
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var16 = ((int *) var3)[0];
var17 = ((int *) var2)[4];
var18 = ((int *) var16)[421];
var19 = ((int *) var16)[419];
var20 = ((int *) var16)[420];
var23 = avcDecodeYCbCr (var3, var17);
var24 = ((int *) var2)[5];
((int *) var19)[9] = ((var23 & 0x0FFFFFFF) | (0 & 0x0F));
((int *) var19)[10] = var24;
var27 = sub_066D4 (var19);
var28 = var27;
((int *) var2)[5] = 0;
var7 = var27;
if(!(var27 != 0))
{
var29 = ((int *) var20)[8];
((int *) var1)[0] = var29;
var30 = ((int *) var16)[414];
if((((var30 + 0xFFFFFFFD) < 4)) != 0)
{
var7 = var28;
}
else
{
var31 = 0;
if(((var27 < var29)) == 0)
{
label20:
var7 = var28;
}
else
{
var32 = arg4;
var33 = ((int *) var32)[0];
while (1) {
var31 = var31 + 1;
var34 = sp;
var32 = var32 + 4;
var7 = 0x806101FE;
if(var33 == 0)
break;
var35 = ((int *) var20)[3];
((int *) sp)[0] = (var35 >> 4);
var36 = ((int *) var20)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var36 >> 4);
((int *) sp)[3] = 0;
var37 = ((int *) var18)[0];
var38 = ((int *) var18)[2];
var39 = ((int *) var18)[4];
var40 = ((int *) var18)[6];
var41 = ((int *) var18)[1];
var42 = ((int *) var18)[3];
var43 = ((int *) var18)[5];
var44 = ((int *) var18)[7];
((int *) sp)[4] = var37;
var18 = var18 + 0x2C;
((int *) sp)[6] = var38;
((int *) sp)[8] = var39;
((int *) sp)[10] = var40;
((int *) sp)[5] = var41;
((int *) sp)[7] = var42;
((int *) sp)[9] = var43;
((int *) sp)[11] = var44;
var47 = sceMpegBaseCscAvc (var33, 0, arg3, var34);
var28 = var47;
if(var47 != 0)
goto label20;
var48 = ((int *) var1)[0];
if(!(((var31 < var48)) != 0))
goto label20;
var33 = ((int *) var32)[0];
continue;
}
}
}
}
}#endif
return var7;
}
int mpegAvcDecodeStop (int arg1, int arg2, int arg3, int arg4){
#ifdef VSH
var1 = arg4;
var2 = ((int *) arg1)[0];
var3 = ((int *) var2)[419];
var4 = ((int *) var2)[421];
var5 = ((int *) var2)[420];
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop(*arg1[419]))return ret;
var8 = videocodecStop (*arg1[419]);
var11 = ((int *) var5)[8];
*arg4 = var11;
var12 = ((int *) var2)[414];
if((((var12 + 0xFFFFFFFD) < 4)) != 0)
{
if((((var12 + 0xFFFFFFFC) < 3)) == 0)
{
var10 = var9;
}
else
{
var39 = ((int *) var2)[424];
var42 = sub_08A18 (var39, var3);
var43 = ((int *) var2)[424];
sub_08FE0 (var43);
var10 = var42;
}
}
else
{
var13 = 0;
if(((var8 < var11)) == 0)
{
label22:
var10 = var9;
}
else
{
var14 = arg3;
var15 = ((int *) var14)[0];
while (1) {
var13 = var13 + 1;
var16 = sp;
var14 = var14 + 4;
var10 = 0x806101FE;
if(var15 == 0)
break;
var17 = ((int *) var5)[3];
((int *) sp)[0] = (var17 >> 4);
var18 = ((int *) var5)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var18 >> 4);
((int *) sp)[3] = 0;
var19 = ((int *) var4)[0];
var20 = ((int *) var4)[2];
var21 = ((int *) var4)[4];
var22 = ((int *) var4)[6];
var23 = ((int *) var4)[1];
var24 = ((int *) var4)[3];
var25 = ((int *) var4)[5];
var26 = ((int *) var4)[7];
((int *) sp)[4] = var19;
var4 = var4 + 0x2C;
((int *) sp)[6] = var20;
((int *) sp)[8] = var21;
((int *) sp)[10] = var22;
((int *) sp)[5] = var23;
((int *) sp)[7] = var24;
((int *) sp)[9] = var25;
((int *) sp)[11] = var26;
var29 = sceMpegBaseCscAvc (var15, 0, arg2, var16);
var9 = var29;
if(var29 != 0)
goto label22;
if(!(((var13 < *arg4)) != 0))
goto label22;
var15 = ((int *) var14)[0];
continue;
}
}
}
return var10;
#else
var1 = arg4;
var2 = ((int *) arg1)[0];
var3 = ((int *) var2)[421];
var4 = ((int *) var2)[420];
if(ret=checkMpegLib(arg1))return ret;
var10 = ((int *) var4)[8];
((int *) var1)[0] = var10;
var11 = ((int *) var2)[414];
if((((var11 + 0xFFFFFFFD) < 4)) != 0)
{
var9 = var8;
}
else
{
var12 = 0;
if(((var7 < var10)) == 0)
{
label15:
var9 = var8;
}
else
{
var13 = arg3;
var14 = ((int *) var13)[0];
while (1) {
var12 = var12 + 1;
var15 = sp;
var13 = var13 + 4;
var9 = 0x806101FE;
if(var14 == 0)
break;
var16 = ((int *) var4)[3];
((int *) sp)[0] = (var16 >> 4);
var17 = ((int *) var4)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var17 >> 4);
((int *) sp)[3] = 0;
var18 = ((int *) var3)[0];
var19 = ((int *) var3)[2];
var20 = ((int *) var3)[4];
var21 = ((int *) var3)[6];
var22 = ((int *) var3)[1];
var23 = ((int *) var3)[3];
var24 = ((int *) var3)[5];
var25 = ((int *) var3)[7];
((int *) sp)[4] = var18;
var3 = var3 + 0x2C;
((int *) sp)[6] = var19;
((int *) sp)[8] = var20;
((int *) sp)[10] = var21;
((int *) sp)[5] = var22;
((int *) sp)[7] = var23;
((int *) sp)[9] = var24;
((int *) sp)[11] = var25;
var28 = sceMpegBaseCscAvc (var14, 0, arg2, var15);
var8 = var28;
if(var28 != 0)
goto label15;
var29 = ((int *) var1)[0];
if(!(((var12 < var29)) != 0))
goto label15;
var14 = ((int *) var13)[0];
continue;
}
}
}
return var9;
#endif
}
int mpegAvcDecodeFlush (int arg1){
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop (*arg1[419]))return ret;
#ifdef VSH
if(*arg1[414]>=7)return 0;
ret = sub_08A18 (*arg1[424], *arg1[419]);
sub_08FE0 (*arg1[424]);
#endif
return ret;
}
int mpegAvcDecodeDetail (int arg1, int arg2){
return avcDecodeDetail (arg1, 0, arg2);
}
int mpegAvcInitYCbCr (int arg1, int arg2, int arg3, int arg4, int arg5){
if((ret=checkMpegLib(arg1)))return ret;
memset (arg5, 0, 0x80);
if(arg2 == 2){
arg5[4] = arg2;
arg5[5] = arg2;
arg5[6] = arg2;
arg5[7] = arg2;
arg5[8] = arg2;
arg5[9] = arg2;
arg5[10] = arg2;
arg5[11] = arg2;
return 0;
}
if(arg2!=1)return 0x806101FE;
int a,b;
if((ret=avcInitYCbCr (arg3, arg4,&a,&b)))return ret;
arg5[4] = arg5 + 0x80;
var23 = arg5[4] + a;
var25 = var23 + a;
var26 = var25 + a>>1;
var27 = var26 + a>>1;
var28 = var27 + b;
var29 = var28 + b;
arg5[5] = var27;
arg5[6] = var23;
arg5[7] = var28;
arg5[8] = var25;
arg5[9] = var29;
arg5[10] = var26;
arg5[11] = (var29 + (b >> 1));
return 0;
}
int mpegAvcQueryYCbCrSize (int arg1, int arg2, int arg3, int arg4, int arg5){
((int *) arg5)[0] = 0;
sp = sp + 0xFFFFFFD0;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
var1 = arg2;
((int *) sp)[4] = s0;
((int *) sp)[8] = ra;
var2 = arg5;
var5 = checkMpegLib (arg1);
var6 = var5;
var7 = var5;
if(!(var5 != 0))
{
if(var1 == 2)
{
((int *) var2)[0] = 0x80;
label12:
var7 = var6;
}
else
{
var8 = sp;
var9 = sp + 4;
var7 = 0x806101FE;
if(!(var1 != 1))
{
var12 = avcInitYCbCr (arg3, arg4, var8, var9);
var6 = var12;
var7 = var12;
if(!(var12 != 0))
{
var13 = ((int *) sp)[0];
var14 = ((int *) sp)[1];
var15 = var13 + var14;
((int *) var2)[0] = (((var15 << 1) + var15) + 0x80);
goto label12;
}
}
}
}
ra = ((int *) sp)[8];
var16 = ((int *) sp)[7];
var17 = ((int *) sp)[6];
var18 = ((int *) sp)[5];
var19 = ((int *) sp)[4];
sp = sp + 0x30;
return var7;
}
int mpegAvcCsc (int arg1, int arg2, int arg3, int arg4, int arg5){
#ifdef VSH
var1 = arg4;
var2 = arg5;
var3 = arg3;
var4 = arg2;
var7 = checkMpegLib (arg1);
ra = ((int *) sp)[21];
if(!(var7 != 0))
{
var8 = ((int *) arg1)[0];
var9 = ((int *) var4)[1];
var10 = ((int *) var4)[0];
var11 = ((int *) var4)[2];
var12 = ((int *) var4)[3];
var13 = ((int *) var4)[4];
((int *) sp)[1] = var9;
((int *) sp)[0] = var10;
((int *) sp)[2] = var11;
((int *) sp)[3] = var12;
var14 = ((int *) var8)[421];
if(var13 == 2)
{
var54 = ((int *) var4)[12];
var55 = *((int *) 0x0000A248);
var56 = *((int *) 0x0000A24C);
var57 = *((int *) 0x0000A244);
var58 = var14 + (var54 * 0x2C);
var59 = *((int *) 0x0000A250);
var60 = ((int *) var58)[0];
var61 = ((int *) var58)[4];
var62 = ((int *) var58)[3];
var63 = ((int *) var58)[2];
var64 = ((int *) var58)[6];
var65 = ((int *) var58)[1];
var66 = ((int *) var58)[5];
var67 = ((int *) var58)[7];
var27 = var67 + var59;
((int *) sp)[4] = (var60 + var57);
((int *) sp)[6] = (var63 + var57);
((int *) sp)[8] = (var61 + var56);
((int *) sp)[10] = (var64 + var56);
((int *) sp)[5] = (var65 + var55);
((int *) sp)[7] = (var62 + var55);
((int *) sp)[9] = (var66 + var59);
}
else
{
var15 = var4 + 0x10;
var16 = *((int *) 0x0000A24C);
var17 = *((int *) 0x0000A248);
var18 = *((int *) 0x0000A244);
var19 = ((int *) var15)[1];
var20 = *((int *) 0x0000A250);
var21 = ((int *) var15)[2];
var22 = ((int *) var15)[4];
var23 = ((int *) var15)[6];
var24 = ((int *) var15)[3];
var25 = ((int *) var15)[5];
var26 = ((int *) var15)[7];
var27 = var26 + var20;
((int *) sp)[4] = (var13 + var18);
((int *) sp)[6] = (var21 + var18);
((int *) sp)[8] = (var22 + var16);
((int *) sp)[10] = (var23 + var16);
((int *) sp)[5] = (var19 + var17);
((int *) sp)[7] = (var24 + var17);
((int *) sp)[9] = (var25 + var20);
}
((int *) sp)[11] = var27;
var28 = ((int *) var3)[0];
if((var28 & 0x0F) != 0)
{
label28:
var7 = 0x806101FE;
ra = ((int *) sp)[21];
}
else
{
var29 = ((int *) var3)[1];
if((var29 & 0x0F) != 0)
{
goto label28;
}
else
{
var30 = ((int *) var3)[2];
if((var30 & 0x0F) != 0)
{
goto label28;
}
else
{
var31 = ((int *) var3)[3];
if((var31 & 0x0F) != 0)
{
goto label28;
}
else
{
((int *) sp)[12] = (var28 >> 4);
((int *) sp)[13] = (var29 >> 4);
((int *) sp)[14] = (var30 >> 4);
((int *) sp)[15] = (var31 >> 4);
var32 = ((int *) var8)[433];
if(var32 == 1)
{
var52 = sp + 0x30;
var53 = sp;
((int *) sp)[3] = 1;
label23:
((int *) sp)[2] = 1;
label24:
var7 = sceMpegBaseCscAvcRange (var2, var2, var44, var1, var47);
ra = ((int *) sp)[21];
}
else
{
if(((var32 < 2)) != 0)
{
if(var32 != 0)
goto label28;
var50 = sp + 0x30;
var51 = sp;
((int *) sp)[2] = 0;
((int *) sp)[3] = 0;
goto label24;
}
else
{
var33 = ((int *) sp)[4];
if(var32 == 2)
{
var39 = ((int *) sp)[5];
var40 = ((int *) sp)[6];
var41 = ((int *) sp)[7];
var42 = ((int *) sp)[10];
var43 = ((int *) sp)[8];
((int *) sp)[6] = var33;
((int *) sp)[7] = var39;
var44 = sp + 0x30;
var45 = ((int *) sp)[9];
var46 = ((int *) sp)[11];
((int *) sp)[10] = var43;
var47 = sp;
((int *) sp)[3] = 1;
((int *) sp)[4] = var40;
((int *) sp)[5] = var41;
((int *) sp)[8] = var42;
((int *) sp)[9] = var46;
((int *) sp)[11] = var45;
goto label23;
}
else
{
goto label28;
}
}
}
}
}
}
}
}
return var7;
#else
var1 = arg3;
var2 = arg2;
var5 = checkMpegLib (arg1);
var6 = var5;
if(!(var5 != 0))
{
var7 = ((int *) var2)[1];
var8 = ((int *) arg1)[0];
var9 = ((int *) var2)[0];
var10 = ((int *) var2)[2];
var11 = ((int *) var2)[3];
var12 = ((int *) var2)[4];
((int *) sp)[1] = var7;
((int *) sp)[0] = var9;
((int *) sp)[2] = var10;
((int *) sp)[3] = var11;
var13 = ((int *) var8)[421];
if(var12 == 2)
{
var41 = ((int *) var2)[12];
var42 = *((int *) 0x00007788);
var43 = *((int *) 0x0000778C);
var44 = *((int *) 0x00007784);
var45 = var13 + (var41 * 0x2C);
var46 = *((int *) 0x00007790);
var47 = ((int *) var45)[0];
var48 = ((int *) var45)[4];
var49 = ((int *) var45)[3];
var50 = ((int *) var45)[2];
var51 = ((int *) var45)[6];
var52 = ((int *) var45)[1];
var53 = ((int *) var45)[5];
var54 = ((int *) var45)[7];
var26 = var54 + var46;
((int *) sp)[4] = (var47 + var44);
((int *) sp)[6] = (var50 + var44);
((int *) sp)[8] = (var48 + var43);
((int *) sp)[10] = (var51 + var43);
((int *) sp)[5] = (var52 + var42);
((int *) sp)[7] = (var49 + var42);
((int *) sp)[9] = (var53 + var46);
}
else
{
var14 = var2 + 0x10;
var15 = *((int *) 0x0000778C);
var16 = *((int *) 0x00007788);
var17 = *((int *) 0x00007784);
var18 = ((int *) var14)[2];
var19 = *((int *) 0x00007790);
var20 = ((int *) var14)[1];
var21 = ((int *) var14)[7];
var22 = ((int *) var14)[4];
var23 = ((int *) var14)[6];
var24 = ((int *) var14)[3];
var25 = ((int *) var14)[5];
var26 = var21 + var19;
((int *) sp)[4] = (var12 + var17);
((int *) sp)[6] = (var18 + var17);
((int *) sp)[8] = (var22 + var15);
((int *) sp)[10] = (var23 + var15);
((int *) sp)[5] = (var20 + var16);
((int *) sp)[7] = (var24 + var16);
((int *) sp)[9] = (var25 + var19);
}
((int *) sp)[11] = var26;
var27 = ((int *) var1)[0];
if((var27 & 0x0F) != 0)
{
label19:
var6 = 0x806101FE;
}
else
{
var28 = ((int *) var1)[1];
if((var28 & 0x0F) != 0)
{
goto label19;
}
else
{
var29 = ((int *) var1)[2];
if((var29 & 0x0F) != 0)
{
goto label19;
}
else
{
var30 = ((int *) var1)[3];
if((var30 & 0x0F) == 0)
{
var36 = sp + 0x30;
var37 = sp;
((int *) sp)[12] = (var27 >> 4);
((int *) sp)[13] = (var28 >> 4);
((int *) sp)[14] = (var29 >> 4);
((int *) sp)[15] = (var30 >> 4);
var40 = sceMpegBaseCscAvcRange (arg5, 0, var36, arg4, var37);
var6 = var40;
}
else
{
goto label19;
}
}
}
}
}
return var6;
#endif
}
int mpeg_0558B075 (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
if(((((arg2 < 1)) | ((arg3 < 1)))))return 0x806101FE;
if(arg2[4] == 2)return 0x806101FE;
ret = _0558B075 (arg1, arg2, arg3, 0xFFFFFFFF);
return ret;
}
int mpegAvcDecodeYCbCr (int arg1, int arg2, int arg3, int arg4){
if((ret=checkMpegLib (arg1)))return ret;
*arg1[419][9] = (avcDecodeYCbCr (arg1, arg2[4]) & 0x0FFFFFFF);
*arg1[419][10] = arg2[5];
ret = sub_066D4 (*arg1[419]);
arg2[5] = 0;
if(ret)return;
return avcDecodeStopYCbCr (arg1, arg3, arg4);
}
int mpegAvcDecodeStopYCbCr (int arg1, int arg2, int arg3){
#ifdef VSH
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop (*arg1[419]))return ret;
var16 = avcDecodeStopYCbCr (arg1, arg2, arg3);
if(*arg1[414]>=7)return sub_02360 (arg1, arg2);
ret = sub_08A18 (*arg1[424], *arg1[419]);
sub_08FE0 (*arg1[424]);
if(var16)return var16
return ret;
#else
if((ret=mpegAvcDecodeFlush (arg1)))return ret;
return avcDecodeStopYCbCr (arg1, arg2, arg3);
#endif
}
#ifdef VSH
int mpegAvcCscInfo (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFC0;
((int *) sp)[11] = s3;
var1 = arg3;
((int *) sp)[10] = s2;
var2 = arg4;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
((int *) sp)[12] = ra;
var3 = arg2;
var6 = checkMpegLib (arg1);
var7 = var6;
if(!(var6 != 0))
{
var8 = ((int *) arg1)[0];
var7 = 0x806101FE;
if(!(var1 < 0))
{
var9 = ((int *) var3)[19];
((int *) var2)[11] = var9;
var10 = var2 + 0x2C;
var11 = ((int *) var3)[20];
((int *) sp)[0] = (var2 + 0x14);
((int *) var2)[12] = var11;
var12 = ((int *) var3)[21];
((int *) sp)[1] = (var2 + 0x20);
((int *) var2)[13] = var12;
var13 = ((int *) var3)[13];
((int *) var2)[5] = var13;
var14 = ((int *) var3)[14];
((int *) var2)[6] = var14;
var15 = ((int *) var3)[15];
((int *) var2)[7] = var15;
var16 = ((int *) var3)[16];
((int *) var2)[8] = var16;
var17 = ((int *) var3)[17];
((int *) var2)[9] = var17;
var18 = ((int *) var3)[18];
((int *) var2)[4] = 2;
((int *) var2)[10] = var18;
var19 = ((int *) var10)[1];
if(var19 == 0x0000138D)
{
var51 = ((int *) var10)[2];
if(var51 != 0x0003A980)
{
var20 = ((unsigned char *) var10)[1];
label13:
var21 = ((int *) sp)[0];
if(var20 == 1)
{
var49 = ((unsigned char *) var21)[0];
var22 = (var1 < 3);
if(!((var49 & 2) == 0))
{
var50 = ((unsigned char *) var21)[1];
if(!(((((var50 + 0xFFFFFFFB) & 0xFF) < 2)) == 0))
{
label16:
((int *) var2)[4] = 3;
label17:
var22 = (var1 < 3);
}
}
}
else
goto label17;
}
else
{
var52 = ((int *) var8)[434];
var22 = (var1 < 3);
if(!(var52 != 1))
{
goto label16;
}
}
}
else
{
var20 = ((unsigned char *) var10)[1];
goto label13;
}
if(var22 != 0)
{
var27 = ((unsigned char *) var10)[0];
if(var27 == 0)
{
label62:
var34 = 3;
if(var1 == 2)
{
label63:
((int *) var2)[0] = var34;
}
else
{
case 5:
case 6:
label64:
((int *) var2)[0] = 0;
}
}
else
{
var28 = ((int *) var10)[1];
if(var28 == 0x0000138D)
{
var47 = ((int *) var10)[2];
if(var47 != 0x0003A980)
{
var29 = ((unsigned char *) var10)[1];
label32:
if(var29 == 0)
goto label62;
var30 = ((int *) sp)[0];
var31 = ((unsigned char *) var30)[0];
if((var31 & 2) == 0)
{
goto label62;
}
else
{
var32 = ((unsigned char *) var30)[1];
if(((var32 < 0x07)) == 0)
{
goto label62;
}
else
{
var33 = ((int *) ((var32 << 2) + 0x0000A06C))[0];
switch () {
case 0:
goto label62;
case 1:
case 2:
var35 = ((unsigned char *) var30)[0];
var36 = 0;
if(!((var35 & 1) != 0))
{
var36 = ((int *) var30)[1];
}
var37 = ((int *) var30)[2];
var38 = ((int *) sp)[1];
((int *) sp)[4] = (var36 + var37);
var39 = ((unsigned char *) var38)[0];
var40 = 0;
if(!((var39 & 1) != 0))
{
var40 = ((int *) var38)[1];
}
var41 = ((int *) var38)[2];
var42 = var40 + var41;
((int *) sp)[5] = var42;
if(var1 == 2)
{
var34 = 3;
goto label63;
}
else
{
var43 = ((int *) sp)[4];
if(var1 != 0)
{
if(((var42 < var43)) == 0)
{
((int *) var2)[0] = 2;
}
else
{
var34 = 1;
goto label63;
}
}
else
{
var44 = ((int *) sp)[4];
var1 = (var42 < var44);
label58:
if(var1 != 0)
{
((int *) var2)[0] = 2;
}
else
{
var34 = 1;
goto label63;
}
}
}
case 3:
var34 = 3;
if(var1 == 2)
goto label63;
var45 = ((unsigned char *) var30)[2];
if(var45 == 0)
{
((int *) var2)[0] = 0;
}
else
{
}
goto label58;
case 4:
var34 = 3;
if(var1 == 2)
goto label63;
var46 = ((unsigned char *) var30)[2];
if(var46 == 0)
{
((int *) var2)[0] = 0;
}
var34 = 1;
if(var1 != 0)
goto label63;
((int *) var2)[0] = 2;
goto label65;
goto label64;
goto label64;
}
}
}
}
else
{
if(var1 != 2)
{
((int *) var2)[0] = 0;
}
else
{
var48 = ((int *) var8)[434];
if(var48 == 1)
{
((int *) var2)[0] = 0;
((int *) var8)[434] = 0;
}
else
{
((int *) var2)[0] = 3;
((int *) var8)[434] = 1;
}
}
}
}
else
{
var29 = ((unsigned char *) var10)[1];
goto label32;
}
}
label65:
var7 = 0;
}
else
{
var7 = 0;
((int *) var2)[0] = 3;
}
}
}
ra = ((int *) sp)[12];
var23 = ((int *) sp)[11];
var24 = ((int *) sp)[10];
var25 = ((int *) sp)[9];
var26 = ((int *) sp)[8];
sp = sp + 0x40;
return var7;
}
int mpegAvcCscMode (int arg1, int arg2){
if((ret=checkMpegLib (arg1)))return ret;
*arg1[433] = *arg2;
return 0;
}
int mpeg_E49EB257 (int arg1){
if((ret=checkMpegLib (arg1)))return ret;
((char *) *arg1)[1740] = 0;
*arg1[433] = 0;
*arg1[434] = 0;
return 0;
}
#endif
int avcInitYCbCr (int arg1, int arg2, int arg3, int arg4){
#ifdef VSH
int maxW=0x2D;
int maxH=0x1F;
#else
int maxW=0x1E;
int maxH=0x12;
#endif
var1 = arg1 >> 4;
var2 = arg2 >> 4;
var3 = 0x806101FE;
if(!(((arg1 | arg2) & 0x0F) != 0))
{
var3 = 0x806101FE;
if(!((((((var1 + 0xFFFFFFFF) < maxW)) ^ 1) | ((var2 < 1))) != 0))
{
if(!(((var2 < maxH)) == 0))
{
var4 = var2 << 3;
var5 = (arg1 & 0xFFFFFFE0) | (0 & 0x1F);
if((var1 & 1) == 0)
{
var6 = ((((arg1 & 0xFFFFFFE0) | (0 & 0x1F)) >> 1) * var4);
((int *) arg3)[0] = var6;
((int *) arg4)[0] = var6;
}
else
{
((int *) arg3)[0] = (((var5 + 0x20) >> 1) * var4);
((int *) arg4)[0] = ((var5 >> 1) * var4);
}
var3 = 0;
}
}
}
return var3;
}
int _0558B075 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = ((int *) arg1)[0];
var2 = arg2;
var3 = arg2;
var4 = ((int *) var1)[420];
var5 = ((int *) var1)[421];
if(arg4 == 0xFFFFFFFF)
{
var17 = ((int *) arg3)[4];
if(var17 == 2)
{
arg4 = ((int *) arg3)[12];
label6:
}
else
{
}
}
else
goto label6;
var6 = arg4;
if(arg4 == 0xFFFFFFFF)
{
var16 = ((int *) var2)[4];
var11 = arg3 + 0x10;
var3 = var2;
var6 = 0xFFFFFFFF;
var15 = 0x806101FE;
if(!(var16 == 2))
{
var9 = ((int *) arg3)[0];
var10 = ((int *) arg3)[1];
label11:
var14 = mpegBaseYCrCbCopy (var3, var6, var10, var9, var11);
var15 = var14;
}
}
else
{
var7 = ((int *) var4)[3];
var8 = ((int *) var4)[2];
var9 = var7 >> 4;
var10 = var8 >> 4;
var11 = var5 + (arg4 * 0x2C);
goto label11;
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var15;
}
int avcDecodeStopYCbCr (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = 0;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = 0;
((int *) sp)[4] = ra;
((int *) sp)[0] = s0;
var4 = ((int *) arg1)[0];
var5 = ((int *) var4)[420];
var6 = ((int *) var5)[8];
((int *) var2)[0] = var6;
if(!(var6 <= 0))
{
var7 = arg2;
var8 = ((int *) var7)[0];
while (1) {
var3 = var3 + 1;
var7 = var7 + 4;
var1 = 0x806101FE;
if(var8 == 0)
break;
var11 = _0558B075 (arg1, var8, 0, var3);
var1 = var11;
if(var11 != 0)
break;
var12 = ((int *) var2)[0];
if(!(((var3 < var12)) != 0))
break;
var8 = ((int *) var7)[0];
continue;
}
}
ra = ((int *) sp)[4];
var13 = ((int *) sp)[3];
var14 = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x20;
return var1;
}
#ifdef VSH
int sub_02360 (int arg1, int arg2){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s1;
var1 = sp;
((int *) sp)[6] = ra;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[0];
var5 = mpegAvcDecodeDetail2 (arg1, var1);
var6 = var5;
if(!(var5 != 0))
{
var7 = ((int *) sp)[0];
var8 = 0;
var9 = ((int *) var7)[4];
var10 = ((int *) var7)[12];
var11 = ((int *) var9)[8];
var12 = ((int *) var7)[11];
if(!(((var5 < var11)) == 0))
{
var13 = arg2;
var14 = ((int *) var13)[0];
while (1) {
var8 = var8 + 1;
var15 = var14;
var13 = var13 + 4;
((int *) sp)[0] = var14;
if(var14 == 0)
{
var6 = 0x806101FE;
}
else
{
var16 = ((int *) var9)[9];
if(var16 == 1)
{
((char *) var2)[1740] = var16;
var38 = ((unsigned char *) var10)[22];
if(var38 != var16)
{
var17 = ((int *) var2)[435];
}
else
{
var39 = ((unsigned char *) var10)[44];
((char *) var2)[1741] = var39;
var40 = ((int *) var10)[8];
((int *) var2)[436] = var40;
var41 = ((int *) var10)[9];
((int *) var2)[437] = var41;
label14:
var17 = ((int *) var2)[435];
}
}
else
goto label14;
((int *) var15)[19] = var17;
var18 = ((int *) var2)[436];
((int *) var15)[20] = var18;
var19 = ((int *) var2)[437];
((int *) var15)[21] = var19;
var20 = ((int *) var12)[9];
if(var20 == 0)
{
var35 = ((int *) var2)[414];
}
else
{
var21 = ((int *) var12)[10];
var22 = var15 + 0x34;
var23 = var15 + 0x40;
if(!(var21 == 0))
{
var24 = ((unsigned char *) var20)[0];
((char *) var15)[52] = var24;
var25 = ((unsigned char *) var20)[32];
((char *) var22)[1] = var25;
var26 = ((unsigned char *) var20)[36];
((char *) var22)[2] = var26;
var27 = ((int *) var20)[6];
((int *) var22)[1] = var27;
var28 = ((int *) var20)[7];
var29 = ((int *) var12)[10];
((int *) var22)[2] = var28;
var30 = ((unsigned char *) var29)[0];
((char *) var15)[64] = var30;
var31 = ((unsigned char *) var29)[32];
((char *) var23)[1] = var31;
var32 = ((unsigned char *) var29)[36];
((char *) var23)[2] = var32;
var33 = ((int *) var29)[6];
((int *) var23)[1] = var33;
var34 = ((int *) var29)[7];
((int *) var23)[2] = var34;
}
var35 = ((int *) var2)[414];
}
var12 = var12 + 0x2C;
if(!((((var35 + 0xFFFFFFFC) < 3)) == 0))
{
var9 = var9 + 0x28;
var10 = var10 + 0x64;
}
if(!(((var8 < var11)) != 0))
break;
var14 = ((int *) var13)[0];
continue;
}
}
}
}
ra = ((int *) sp)[6];
var36 = ((int *) sp)[5];
var37 = ((int *) sp)[4];
sp = sp + 0x20;
return var6;
}
#endif
int mpegBaseYCrCbCopy (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFFC0;
((int *) sp)[13] = ra;
((int *) sp)[12] = s0;
var1 = ((int *) arg1)[4];
((int *) arg1)[0] = arg4;
var2 = arg5;
var3 = 0;
((int *) arg1)[1] = arg3;
var4 = sp;
((int *) arg1)[2] = 0;
((int *) arg1)[3] = 0;
if(var1 == 2)
{
((int *) arg1)[12] = arg2;
}
else
{
#ifdef VSH
var5 = *((int *) 0x0000A244);
var6 = *((int *) 0x0000A250);
var7 = *((int *) 0x0000A24C);
var8 = *((int *) 0x0000A248);
#else
var5 = *((int *) 0x00007784);
var6 = *((int *) 0x00007790);
var7 = *((int *) 0x0000778C);
var8 = *((int *) 0x00007788);
#endif
var9 = ((int *) var2)[7];
var10 = ((int *) var2)[0];
var11 = ((int *) var2)[2];
var12 = ((int *) var2)[4];
var13 = ((int *) var2)[6];
var14 = ((int *) var2)[1];
var15 = ((int *) var2)[3];
var16 = ((int *) var2)[5];
((int *) sp)[11] = (var9 + var6);
((int *) sp)[1] = (arg3 << 4);
((int *) sp)[0] = (arg4 << 4);
((int *) sp)[4] = (var10 + var5);
((int *) sp)[6] = (var11 + var5);
((int *) sp)[8] = (var12 + var7);
((int *) sp)[10] = (var13 + var7);
((int *) sp)[5] = (var14 + var8);
((int *) sp)[7] = (var15 + var8);
((int *) sp)[9] = (var16 + var6);
((int *) sp)[2] = 0;
((int *) sp)[3] = 0;
var19 = sceMpegBaseYCrCbCopy (arg1, var4, 3);
var3 = var19;
}
ra = ((int *) sp)[13];
var20 = ((int *) sp)[12];
sp = sp + 0x40;
return var3;
}
int mpegAtracDecode (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var1 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[4] = ra;
var4 = checkMpegLib (arg1);
var5 = var4;
if(!(var4 != 0))
{
var6 = ((int *) arg1)[0];
#ifdef VSH
var7 = ((int *) var6)[440];
#else
var7 = ((int *) var6)[434];
#endif
if(arg4 == 1)
{
var16 = ((int *) var1)[4];
#ifdef VSH
var17 = ((int *) var6)[439];
var18 = ((int *) var6)[438];
#else
var17 = ((int *) var6)[433];
var18 = ((int *) var6)[432];
#endif
var21 = audiocodecSetup (var7, var18, var17, (var16 + 2), (var16 + 4));
var5 = var21;
if(!(var21 != 0))
{
var8 = ((int *) var1)[4];
label11:
((int *) var7)[8] = arg3;
((int *) var7)[6] = var8;
var11 = audiocodecDecode (var7);
var5 = var11;
}
}
else
{
var8 = ((int *) var1)[4];
goto label11;
}
}
ra = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x20;
return var5;
}
int mpegQueryStreamOffset (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
var1 = arg3;
((int *) sp)[0] = s0;
var2 = arg2;
((int *) sp)[3] = ra;
((int *) sp)[1] = s1;
var3 = ((int *) arg1)[0];
var6 = strcmp (var3, "LIBMPEG");
var7 = 0x806101FE;
if(var6 == 0)
{
var13 = strncmp (var2, "PSMF", 4);
var7 = 0x806101FE;
if(var13 != 0)
{
label17:
((int *) var1)[0] = 0;
}
else
{
var16 = getPMFversion (var2);
((int *) var3)[3] = var16;
if(var16 < 0)
{
var7 = 0x80610002;
goto label17;
}
else
{
var19 = be4 ((var2 + 8));
((int *) var1)[0] = var19;
if((var19 & 0x000007FF) != 0)
{
label16:
var7 = 0x806101FE;
goto label17;
}
else
{
var7 = 0;
if(!(var19 != 0))
goto label16;
}
}
}
}
else
goto label17;
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int checkMpegLib (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = ((int *) arg1)[0];
var4 = strcmp (var1, "LIBMPEG");
ra = ((int *) sp)[0];
sp = sp + 0x10;
return (!(var4) ? 0 : 0x806101FE);
}
int mpegQueryStreamSize (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var1 = arg2;
var4 = be4 ((arg1 + 0x0C));
((int *) var1)[0] = var4;
var5 = 0;
if(!((var4 & 0x000007FF) == 0))
{
((int *) var1)[0] = 0;
var5 = 0x806101FE;
}
ra = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
int getPMFversion (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1 + 4;
((int *) sp)[1] = ra;
var4 = strncmp (var1, "0012", 4);
var5 = 0;
if(var4 != 0)
{
var9 = strncmp (var1, "0013", 4);
var5 = 1;
if(!(var9 == 0))
{
var12 = strncmp (var1, "0014", 4);
var5 = 2;
if(!(var12 == 0))
{
var15 = strncmp (var1, "0015", 4);
var5 = (var15) ? 0xFFFFFFFF : 3;
}
}
}
ra = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
int unRegistStream (int arg1, int arg2, int arg3){
if(((arg1 & 0xFFFFE000) | (0 & 0x00001FFF)) == 0xBF01E000)
{
var18 = (arg1 >> 8) & 0x1F;
if(arg3 == 1)
{
var19 = ((int *) arg2)[6];
var20 = var18 << 4;
}
else
{
var19 = ((int *) arg2)[7];
var20 = ((var18 << 4) + var18) << 2;
}
var2 = var19 + var20;
}
else
{
if(((arg1 & 0xE0000000) | (0 & 0x1FFFFFFF)) == 0xE0000000)
{
var15 = (arg1 >> 24) & 0x1F;
if(arg3 == 1)
{
var17 = ((int *) arg2)[6];
var2 = (var17 + (var15 << 4)) + 0x00000100;
}
else
{
var16 = ((int *) arg2)[7];
var2 = (var16 + (((var15 << 4) + var15) << 2)) + 0x00000440;
}
}
else
{
var1 = (arg1 & 0xFFF00000) | (0 & 0x000FFFFF);
if(var1 == 0xBD000000)
{
var12 = (arg1 >> 0x10) & 0x000042FF;
if(arg3 == 1)
{
var14 = ((int *) arg2)[6];
var2 = (var14 + (var12 << 4)) + 0x00000200;
}
else
{
var13 = ((int *) arg2)[7];
var2 = (var13 + (((var12 << 4) + var12) << 2)) + 0x00000880;
}
}
else
{
if(((arg1 & 0xFFE00000) | (0 & 0x001FFFFF)) == 0xBD800000)
{
var9 = (arg1 >> 0x10) & 0x0000427F;
if(arg3 == 1)
{
var11 = ((int *) arg2)[6];
var2 = (var11 + (var9 << 4)) + 0x00000400;
}
else
{
var10 = ((int *) arg2)[7];
var2 = (var10 + (((var9 << 4) + var9) << 2)) + 0x00001100;
}
}
else
{
if(var1 == 0xBD100000)
{
var6 = (arg1 >> 0x10) & 0x000042EF;
if(arg3 == 1)
{
var8 = ((int *) arg2)[6];
var2 = (var8 + (var6 << 4)) + 0x00000300;
}
else
{
var7 = ((int *) arg2)[7];
var2 = (var7 + (((var6 << 4) + var6) << 2)) + 0x00000CC0;
}
}
else
{
var2 = 0xFFFFFFFF;
if(var1 == 0xBD200000)
{
var3 = (arg1 >> 0x10) & 0x000042DF;
if(arg3 == 1)
{
var5 = ((int *) arg2)[6];
var2 = (var5 + (var3 << 4)) + 0x00000600;
}
else
{
var4 = ((int *) arg2)[7];
var2 = (var4 + (((var3 << 4) + var3) << 2)) + 0x00001980;
}
}
}
}
}
}
}
return var2;
}
void getAu (int arg1, int arg2, int arg3, int arg4, int arg5){
var1 = ((int *) arg1)[1];
((int *) arg5)[0] = 0;
var2 = 0x806101FE;
if(!(var1 == 0xFFFFFFFF))
{
var3 = ((int *) arg1)[3];
var2 = 0;
if(!(((arg2 < var3)) == 0))
{
var4 = var1;
if(!(arg2 <= 0))
{
var5 = arg2;
while (1) {
var5 = var5 + 0xFFFFFFFF;
var4 = ((int *) var4)[0];
if(var5 != 0)
continue;
break;
}
}
var6 = MIN ((var3 - arg2), arg3);
var7 = 0;
if(!(var6 <= 0))
{
var8 = 0;
while (1) {
var9 = var8 + arg4;
var10 = var4 + 8;
while (1) {
var11 = ((int *) var10)[0];
var12 = ((int *) var10)[1];
var13 = ((int *) var10)[2];
var14 = ((int *) var10)[3];
((int *) var9)[0] = var11;
var10 = var10 + 0x10;
var9 = var9 + 0x10;
((int *) var9)[1073741821] = var12;
((int *) var9)[1073741822] = var13;
((int *) var9)[1073741823] = var14;
if(var10 != (var4 + 0x28))
continue;
break;
}
var15 = ((int *) var10)[0];
var16 = ((int *) var10)[1];
var17 = ((int *) var10)[2];
((int *) var9)[0] = var15;
((int *) var9)[1] = var16;
((int *) var9)[2] = var17;
var7 = var7 + 1;
var4 = ((int *) var4)[0];
var8 = var8 + 0x2C;
if(((var7 < var6)) != 0)
continue;
break;
}
}
((int *) arg5)[0] = var6;
var2 = 0;
}
}
return;
}
void sub_01EB4 (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[1];
((int *) arg3)[0] = 0;
var2 = 0x806101FE;
if(!(var1 == 0xFFFFFFFF))
{
var3 = ((int *) arg1)[3];
var4 = var1;
var5 = MIN (var3, arg2);
var6 = var3;
var7 = var5;
if(!(var5 <= 0))
{
while (1) {
var8 = ((int *) var4)[0];
var9 = var6 + 0xFFFFFFFF;
var7 = var7 + 0xFFFFFFFF;
((int *) var4)[0] = 0xFFFFFFFF;
var6 = var9;
((int *) var4)[1] = 0xFFFFFFFF;
var4 = var8;
((int *) arg1)[3] = var9;
if(var7 != 0)
continue;
break;
}
}
((int *) arg3)[0] = var5;
var10 = ((int *) arg1)[3];
((int *) arg1)[1] = var4;
if(!(var10 != 0))
{
((int *) arg1)[1] = 0xFFFFFFFF;
((int *) arg1)[0] = 0xFFFFFFFF;
}
var2 = 0;
}
return;
}
int ringbufferPutB (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF60;
((int *) sp)[34] = s6;
var1 = arg4;
((int *) sp)[29] = s1;
var2 = arg2;
((int *) sp)[28] = s0;
((int *) sp)[37] = ra;
((int *) sp)[36] = fp;
((int *) sp)[35] = s7;
((int *) sp)[33] = s5;
((int *) sp)[32] = s4;
((int *) sp)[31] = s3;
((int *) sp)[30] = s2;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 != 0)
{
label64:
ra = ((int *) sp)[37];
}
else
{
((int *) var1)[0] = 0;
var8 = ((int *) var2)[4];
var7 = 0x806101FE;
if(var8 != 0x00000800)
goto label64;
var11 = ringbufferPutBA (var2);
var12 = ((int *) var2)[4];
var13 = ((MIN (arg3, var11)) * var12);
var7 = 0;
if(!(var13 != 0))
goto label64;
var23 = ((int *) var3)[411];
var24 = var13 << 3;
var25 = sp;
waitSema ();
var28 = ((int *) var2)[4];
var29 = ((int *) var2)[1];
var30 = ((int *) var2)[0];
var31 = ((int *) var2)[5];
var32 = sp;
((int *) sp)[0] = 0;
var33 = var31 + (var29 * var28);
((int *) sp)[3] = var33;
var34 = (var30 * var28);
((int *) sp)[6] = (var31 + var34);
((int *) sp)[7] = var34;
((int *) sp)[2] = var33;
((int *) sp)[4] = 0;
((int *) sp)[1] = 0;
((int *) sp)[5] = var31;
ringStuff (var32, 0);
var37 = ((int *) sp)[0];
var38 = var25;
if(var37 == 0x000001BA)
{
label21:
var88 = sp + 0x20;
ringbufferPutBB (var38, var88);
var37 = ((int *) var25)[0];
goto label14;
}
label14:
var39 = ((int *) var25)[1];
var40 = 0;
var41 = 0;
while (1) {
if((var37 >> 8) != 1)
break;
if(var37 == 0x000001BA)
break;
if(var37 == 0x000001B9)
break;
var42 = sp + 0x20;
if(((var39 < var24)) == 0)
break;
var43 = var42 + 0x18;
var46 = ringbufferPutBC (var25, var43);
if(var46 < 0)
goto label49;
var39 = ((int *) var25)[1];
if(((var24 < var39)) != 0)
{
var37 = ((int *) var25)[0];
label63:
var40 = var40 + 1;
var41 = var41 + 0x34;
continue;
}
else
{
var47 = ((int *) sp)[14];
var50 = unRegistStream (var47, var3, 1);
var51 = var50;
if(var50 == 0xFFFFFFFF)
{
label60:
var74 = ((int *) var2)[4];
if(var74 == 0)
{
__asm__ ("break 0x00007;");
}
((int *) var1)[0] = ((var39 >> 3) / var74);
var37 = ((int *) var25)[0];
goto label63;
}
else
{
var52 = ((int *) var50)[2];
if(var52 == 0xFFFFFFFF)
goto label60;
var53 = ((int *) var2)[4];
var54 = ((int *) var1)[0];
if(var53 == 0)
{
__asm__ ("break 0x00007;");
}
var55 = ((int *) var2)[1];
var56 = ((int *) var2)[0];
var57 = ((int *) var3)[5];
var58 = var55 + ((var54 * var53) / var53);
if(((var40 < 2)) == 0)
goto label49;
var59 = ((int *) var51)[0];
var60 = (var57 + ((!(((var58 < var56))) ? (var58 - var56) : var58) * 0x68)) + var41;
((int *) var60)[0] = 0xFFFFFFFF;
((int *) var60)[1] = var59;
var61 = ((int *) var51)[0];
if(var61 != 0xFFFFFFFF)
{
((int *) var61)[0] = var60;
}
((int *) var51)[0] = var60;
var62 = var43;
var63 = sp + 0x20;
var64 = var60 + 8;
while (1) {
var65 = ((int *) var62)[0];
var66 = ((int *) var62)[1];
var67 = ((int *) var62)[2];
var68 = ((int *) var62)[3];
((int *) var64)[0] = var65;
var62 = var62 + 0x10;
var64 = var64 + 0x10;
((int *) var64)[1073741821] = var66;
((int *) var64)[1073741822] = var67;
((int *) var64)[1073741823] = var68;
if(var62 != (var63 + 0x38))
continue;
break;
}
var69 = ((int *) var62)[0];
var70 = ((int *) var62)[1];
var71 = ((int *) var62)[2];
((int *) var64)[0] = var69;
((int *) var64)[1] = var70;
((int *) var64)[2] = var71;
var72 = ((int *) var51)[1];
if(var72 == 0xFFFFFFFF)
{
var75 = ((int *) var51)[0];
((int *) var51)[1] = var75;
}
var73 = ((int *) var51)[3];
((int *) var51)[3] = (var73 + 1);
var39 = ((int *) var25)[1];
goto label60;
}
}
goto label65;
}
if(((var39 < var24)) != 0)
{
var38 = var25;
if(var37 == 0x000001BA)
goto label21;
var83 = ((int *) var3)[411];
signalSema ();
var86 = ((int *) var25)[1];
var87 = ((int *) var2)[4];
var7 = 0x80618007;
if(var87 == 0)
{
__asm__ ("break 0x00007;");
}
if(((var86 >> 3) % var87) == 0)
{
var7 = 0;
goto label64;
}
else
{
ra = ((int *) sp)[37];
}
}
else
{
var79 = ((int *) var2)[4];
if(var79 == 0)
{
__asm__ ("break 0x00007;");
}
if(((var39 >> 3) % var79) != 0)
{
label49:
var76 = ((int *) var3)[411];
signalSema ();
var7 = 0x80618007;
}
else
{
var80 = ((int *) var3)[411];
signalSema ();
var7 = 0;
}
goto label64;
}
}
label65:
var14 = ((int *) sp)[36];
var15 = ((int *) sp)[35];
var16 = ((int *) sp)[34];
var17 = ((int *) sp)[33];
var18 = ((int *) sp)[32];
var19 = ((int *) sp)[31];
var20 = ((int *) sp)[30];
var21 = ((int *) sp)[29];
var22 = ((int *) sp)[28];
sp = sp + 0xA0;
return var7;
}
void ringStuff (int arg1, int arg2){
var1 = arg1;
var2 = arg2;
while (1) {
if(((var2 < 0x19)) != 0)
break;
var3 = ((int *) var1)[4];
var4 = ((int *) var1)[0];
var5 = var3 + 0xFFFFFFE8;
((int *) var1)[0] = (var4 << 0x18);
((int *) var1)[4] = var5;
if(!(((var5 < 0x19)) == 0))
{
var6 = ((int *) var1)[6];
while (1) {
var7 = ((int *) var1)[3];
var8 = ((int *) var1)[4];
var9 = ((int *) var1)[0];
var10 = ((unsigned char *) var7)[0];
var11 = var7 + 1;
var12 = var8 + 8;
((int *) var1)[0] = (var9 | (var10 << (0x18 - var8)));
((int *) var1)[3] = var11;
if(!(((var11 < var6)) != 0))
{
var13 = ((int *) var1)[5];
((int *) var1)[3] = var13;
}
((int *) var1)[4] = var12;
if(((var12 < 0x19)) != 0)
continue;
break;
}
}
var14 = ((int *) var1)[1];
var2 = var2 + 0xFFFFFFE8;
((int *) var1)[1] = (var14 + 0x18);
continue;
}
var15 = ((int *) var1)[4];
var16 = ((int *) var1)[0];
var17 = var15 - var2;
((int *) var1)[0] = (var16 << var2);
((int *) var1)[4] = var17;
if(!(((var17 < 0x19)) == 0))
{
var18 = ((int *) var1)[6];
while (1) {
var19 = ((int *) var1)[3];
var20 = ((int *) var1)[4];
var21 = ((int *) var1)[0];
var22 = ((unsigned char *) var19)[0];
var23 = var19 + 1;
var24 = var20 + 8;
((int *) var1)[0] = (var21 | (var22 << (0x18 - var20)));
((int *) var1)[3] = var23;
if(!(((var23 < var18)) != 0))
{
var25 = ((int *) var1)[5];
((int *) var1)[3] = var25;
}
((int *) var1)[4] = var24;
if(((var24 < 0x19)) != 0)
continue;
break;
}
}
var26 = ((int *) var1)[1];
((int *) var1)[1] = (var26 + var2);
return;
}
void ringbufferPutBB (int arg1, int arg2){
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
var1 = arg2;
((int *) sp)[4] = s4;
var2 = arg1;
((int *) sp)[7] = ra;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
ringStuff (arg1, 0x22);
var5 = ((int *) var2)[0];
ringStuff (var2, 3);
ringStuff (var2, 1);
var10 = ((int *) var2)[0];
ringStuff (var2, 0x0F);
ringStuff (var2, 1);
var15 = ((int *) var2)[0];
ringStuff (var2, 0x0F);
ringStuff (var2, 1);
var20 = ((int *) var2)[0];
ringStuff (var2, 0x09);
((int *) var1)[0] = (var20 >> 0x17);
ringStuff (var2, 0x1E);
var25 = ((int *) var2)[0];
var26 = var25 >> 0x1D;
ringStuff (var2, 3);
((int *) var1)[1] = ((((var5 >> 0x1D) << 0x1E) | ((var10 >> 0x11) << 0x0F)) | (var15 >> 0x11));
var29 = 0;
((int *) var1)[2] = (var5 >> 0x1F);
if(var26 != 0)
{
var47 = var2;
while (1) {
var29 = var29 + 1;
ringStuff (var47, 8);
var47 = var2;
if(((var29 < var26)) != 0)
continue;
break;
}
var30 = ((int *) var2)[0];
}
else
{
var30 = ((int *) var2)[0];
}
if(var30 == 0x000001BB)
{
((int *) var1)[3] = 1;
ringStuff (var2, 0x38);
ringStuff (var2, 0x28);
var42 = ((int *) var2)[0];
ra = ((int *) sp)[7];
if(!((var42 >> 0x1F) != 1))
{
var43 = var2;
while (1) {
ringStuff (var43, 0x18);
var46 = ((int *) var2)[0];
var43 = var2;
if((var46 >> 0x1F) == 1)
continue;
break;
}
ra = ((int *) sp)[7];
}
}
else
{
((int *) var1)[3] = 0;
ra = ((int *) sp)[7];
}
var31 = ((int *) sp)[6];
var32 = ((int *) sp)[5];
var33 = ((int *) sp)[4];
var34 = ((int *) sp)[3];
var35 = ((int *) sp)[2];
var36 = ((int *) sp)[1];
var37 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
int ringbufferPutBC (int arg1, int arg2){
sp = sp + 0xFFFFFFC0;
((int *) sp)[9] = s5;
var1 = arg2;
((int *) sp)[8] = s4;
((int *) sp)[13] = ra;
((int *) sp)[12] = fp;
((int *) sp)[11] = s7;
((int *) sp)[10] = s6;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[1];
var3 = ((int *) arg1)[2];
var4 = ((int *) arg1)[6];
var5 = var3 + (var2 >> 3);
var6 = arg1;
if(!(((var5 < var4)) != 0))
{
var7 = ((int *) arg1)[7];
var5 = var5 - var7;
}
((int *) var1)[9] = var5;
ringStuff (arg1, 0x18);
var10 = ((unsigned char *) var6)[3];
ringStuff (var6, 8);
((int *) var1)[0] = (var10 << 0x18);
var13 = ((unsigned short *) var6)[1];
ringStuff (var6, 0x10);
var16 = ((int *) var1)[0];
((int *) var1)[1] = var13;
((int *) var1)[4] = 0xFFFFFFFF;
((int *) var1)[5] = 0xFFFFFFFF;
((int *) var1)[3] = 0xFFFFFFFF;
((int *) var1)[6] = 0xFFFFFFFF;
if((((0 < (var16 ^ 0xBC000000))) & ((0 < (var16 ^ 0xBE000000)))) == 0)
{
label17:
if(((((var16 ^ 0xBC000000) < 1)) | (((var16 ^ 0xBF000000) < 1))) != 0)
{
label23:
var165 = ((int *) var1)[1];
if(var16 == 0xBF000000)
{
var166 = ((int *) var6)[1];
var167 = ((int *) var6)[2];
var168 = ((int *) var6)[6];
var169 = var167 + (var166 >> 3);
if(((var169 < var168)) != 0)
{
((int *) var1)[8] = var165;
}
else
{
var170 = ((int *) var6)[7];
var169 = var169 - var170;
((int *) var1)[8] = var165;
}
var171 = ((int *) var6)[0];
((int *) var1)[7] = var169;
var165 = var165 + 0xFFFFFFFD;
ringStuff (var6, 0x18);
var174 = ((int *) var1)[0];
((int *) var1)[0] = (var174 | (var171 >> 8));
}
if(var165 == 0)
{
var65 = 1;
}
else
{
var66 = ((int *) var6)[1];
var67 = var165 << 3;
label155:
var68 = ((int *) var6)[2];
var69 = var66 + var67;
var70 = ((int *) var6)[6];
var71 = var68 + (var69 >> 3);
((int *) var6)[0] = 0;
((int *) var6)[4] = 0;
((int *) var6)[1] = var69;
((int *) var6)[3] = var71;
if(!(((var71 < var70)) != 0))
{
var72 = ((int *) var6)[7];
((int *) var6)[3] = (var71 - var72);
}
ringStuff (var6, 0);
var65 = 1;
}
}
else
{
if(var16 == 0xF0000000)
goto label23;
if(var16 == 0xF1000000)
goto label23;
if(var16 == 0xFF000000)
goto label23;
if(var16 == 0xF2000000)
goto label23;
if(var16 == 0xF8000000)
goto label23;
var65 = 1;
if(!(var16 != 0xBE000000))
{
var164 = ((int *) var1)[1];
if(var164 == 0)
{
var65 = 1;
}
else
{
var66 = ((int *) var6)[1];
var67 = var164 << 3;
goto label155;
}
}
}
}
else
{
if(var16 == 0xBF000000)
goto label17;
if(var16 == 0xF0000000)
goto label17;
if(var16 == 0xF1000000)
goto label17;
if(var16 == 0xFF000000)
goto label17;
if(var16 == 0xF2000000)
goto label17;
if(var16 == 0xF8000000)
goto label17;
ringStuff (var6, 2);
var19 = ((int *) var6)[0];
ringStuff (var6, 2);
((int *) var1)[2] = (var19 >> 0x1E);
ringStuff (var6, 4);
var24 = ((int *) var6)[0];
var25 = var24 >> 0x1E;
ringStuff (var6, 2);
var28 = ((int *) var6)[0];
((int *) sp)[1] = (var28 >> 0x1F);
ringStuff (var6, 1);
var31 = ((int *) var6)[0];
var32 = var31 >> 0x1C;
ringStuff (var6, 4);
var35 = ((int *) var6)[0];
var36 = var35 >> 0x1F;
ringStuff (var6, 1);
var39 = ((unsigned char *) var6)[3];
((int *) sp)[2] = var39;
ringStuff (var6, 8);
var42 = ((int *) var6)[1];
((int *) sp)[0] = var42;
if((var25 & 2) != 0)
{
ringStuff (var6, 4);
var149 = ((int *) var6)[0];
ringStuff (var6, 3);
ringStuff (var6, 1);
var154 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
var159 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
((int *) var1)[4] = ((((var149 >> 0x1D) << 0x1E) | ((var154 >> 0x11) << 0x0F)) | (var159 >> 0x11));
((int *) var1)[3] = (var149 >> 0x1F);
}
if(var25 == 3)
{
ringStuff (var6, 4);
var132 = ((int *) var6)[0];
ringStuff (var6, 3);
ringStuff (var6, 1);
var137 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
var142 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
((int *) var1)[6] = ((((var132 >> 0x1D) << 0x1E) | ((var137 >> 0x11) << 0x0F)) | (var142 >> 0x11));
((int *) var1)[5] = (var132 >> 0x1F);
}
else
{
}
var43 = ((int *) sp)[1];
if(var43 == 1)
{
ringStuff (var6, 0x30);
}
if(var32 != 0)
{
#ifdef VSH
var125 = ((unsigned char *) (var32 + 0x0000A088))[0];
#else
var125 = ((unsigned char *) (var32 + 0x00007618))[0];
#endif
ringStuff (var6, var125);
}
if(var36 == 1)
{
var88 = ((int *) var6)[0];
ringStuff (var6, 1);
var91 = ((int *) var6)[0];
ringStuff (var6, 1);
var94 = ((int *) var6)[0];
ringStuff (var6, 1);
var97 = ((int *) var6)[0];
ringStuff (var6, 1);
ringStuff (var6, 3);
var102 = ((int *) var6)[0];
ringStuff (var6, 1);
if((var88 >> 0x1F) == var36)
{
ringStuff (var6, 0x30);
ringStuff (var6, 0x30);
ringStuff (var6, 0x20);
}
else
{
}
var65 = 0x80618007;
if(!((var91 >> 0x1F) == 1))
{
if((var94 >> 0x1F) == 1)
{
ringStuff (var6, 0x10);
}
if((var97 >> 0x1F) == 1)
{
ringStuff (var6, 0x10);
}
if((var102 >> 0x1F) != var36)
{
var44 = ((int *) var6)[1];
}
else
{
ringStuff (var6, 1);
var107 = ((int *) var6)[0];
var108 = var107 >> 0x19;
ringStuff (var6, 0x07);
var111 = 0;
if(var108 == 0)
{
label139:
var44 = ((int *) var6)[1];
}
else
{
var112 = var6;
while (1) {
var111 = var111 + 1;
ringStuff (var112, 8);
if(!(((var111 < var108)) != 0))
break;
var112 = var6;
continue;
}
var44 = ((int *) var6)[1];
}
}
var45 = ((int *) sp)[0];
var46 = ((int *) sp)[2];
var47 = var46 - ((var44 - var45) >> 3);
if(var47 == 0)
{
var55 = ((int *) var1)[1];
}
else
{
var48 = ((int *) var6)[2];
var49 = var44 + (var47 << 3);
var50 = ((int *) var6)[6];
var51 = var48 + (var49 >> 3);
((int *) var6)[0] = 0;
((int *) var6)[4] = 0;
((int *) var6)[1] = var49;
((int *) var6)[3] = var51;
if(!(((var51 < var50)) != 0))
{
var52 = ((int *) var6)[7];
((int *) var6)[3] = (var51 - var52);
}
ringStuff (var6, 0);
var55 = ((int *) var1)[1];
}
var56 = ((int *) sp)[2];
var57 = ((int *) var6)[2];
var58 = ((int *) var6)[6];
var59 = var55 - var56;
var60 = var59 + 0xFFFFFFFD;
((int *) var1)[8] = var60;
var61 = ((int *) var6)[1];
var62 = var57 + (var61 >> 3);
var63 = ((int *) var1)[0];
if(!(((var62 < var58)) != 0))
{
var64 = ((int *) var6)[7];
var62 = var62 - var64;
}
((int *) var1)[7] = var62;
if(var63 == 0xBD000000)
{
var84 = ((int *) var6)[0];
ringStuff (var6, 0x18);
var87 = ((int *) var1)[0];
var60 = var59 + 0xFFFFFFFA;
((int *) var1)[0] = (var87 | (var84 >> 8));
}
var65 = 1;
if(!(var60 == 0))
{
var66 = ((int *) var6)[1];
var67 = var60 << 3;
goto label155;
}
}
}
else
goto label139;
}
ra = ((int *) sp)[13];
var75 = ((int *) sp)[12];
var76 = ((int *) sp)[11];
var77 = ((int *) sp)[10];
var78 = ((int *) sp)[9];
var79 = ((int *) sp)[8];
var80 = ((int *) sp)[7];
var81 = ((int *) sp)[6];
var82 = ((int *) sp)[5];
var83 = ((int *) sp)[4];
sp = sp + 0x40;
return var65;
}
int mpegRingbufferPut (int arg1, int arg2, int arg3){
if((ret=ringbufferPutA (arg1, arg2, arg3))< 0)return ret;
ret = ringbufferPutB (arg1[10], arg1, var4, sp);
ret2 = ringbufferPutC (arg1, var4);
return ret?ret:ret2;
}
int ringbufferPutA (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[2] = s2;
var1 = arg1;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[7] = ra;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
var7 = var6;
if(var6 == 0)
{
var15 = ((int *) var3)[411];
var16 = MIN (arg2, arg3);
var17 = ((int *) var1)[6];
var18 = 0;
waitSema ();
if(var16 <= 0)
{
label30:
var45 = ((int *) var3)[411];
signalSema ();
var7 = var18;
}
else
{
var21 = ((int *) var1)[0];
var22 = ((int *) var1)[2];
while (1) {
if(var17 == 0)
{
var51 = ((int *) var3)[411];
signalSema ();
var7 = 0x80610103;
}
else
{
var23 = ((int *) var3)[411];
signalSema ();
var26 = ((int *) var1)[11];
var27 = gp;
gp = var26;
var28 = ((int *) var1)[4];
var29 = ((int *) var1)[2];
var30 = ((int *) var1)[5];
var31 = ((int *) var1)[7];
var34 var35 = (*var17) ((var30 + (var29 * var28)), ((((var21 < (var22 + var16)))) ? (var21 - var22) : var16), var31);
var36 = var34;
var37 = gp;
gp = var27;
var38 = ((int *) var3)[411];
waitSema ();
if(var36 < 0)
{
if(var18 <= 0)
{
var48 = ((int *) var3)[411];
signalSema ();
var7 = var36;
}
else
{
var36 = 0;
label25:
var41 = ((int *) var1)[2];
var42 = ((int *) var1)[0];
var18 = var18 + var36;
var43 = var41 + var36;
var16 = var16 - var36;
var21 = var42;
((int *) var1)[2] = var43;
if(var43 == var42)
{
((int *) var1)[2] = 0;
}
var44 = ((int *) var1)[3];
((int *) var1)[3] = (var44 + var36);
if(var36 == 0)
break;
if(!(var16 > 0))
break;
var22 = ((int *) var1)[2];
continue;
}
}
else
goto label25;
}
goto label33;
}
goto label30;
}
}
label33:
ra = ((int *) sp)[7];
var8 = ((int *) sp)[6];
var9 = ((int *) sp)[5];
var10 = ((int *) sp)[4];
var11 = ((int *) sp)[3];
var12 = ((int *) sp)[2];
var13 = ((int *) sp)[1];
var14 = ((int *) sp)[0];
sp = sp + 0x20;
return var7;
}
int mpegRingbufferAvailableSize (int arg1){
sp = sp + 0xFFFFFFD0;
((int *) sp)[6] = s2;
var1 = arg1;
((int *) sp)[8] = ra;
((int *) sp)[7] = s3;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
if(var6 == 0)
{
var11 = ((int *) var3)[411];
waitSema ();
var14 = ((int *) var1)[3];
var15 = ((int *) var1)[0];
var16 = 0;
if(var14 == var15)
{
var36 = ((int *) var3)[411];
signalSema ();
var6 = 0;
}
else
{
var17 = ((int *) var1)[1];
((int *) sp)[0] = var17;
var18 = ((int *) var3)[6];
while (1) {
var19 = var18 + (var16 << 4);
var20 = ((int *) var19)[2];
var16 = var16 + 1;
if(var20 == 0xFFFFFFFF)
{
label18:
var23 = (var16 < 0x70);
label19:
if(var23 != 0)
{
var18 = ((int *) var3)[6];
continue;
}
else
{
var24 = ((int *) sp)[0];
}
}
else
{
var21 = ((int *) var19)[1];
var22 = sp;
if(!(var21 != 0xFFFFFFFF))
goto label18;
var33 = ((int *) var21)[9];
ringbufferAvailableSize (var1, var22, var33);
var24 = ((int *) sp)[0];
var23 = (var16 < 0x70);
if(var24 != 0xFFFFFFFF)
goto label19;
break;
}
goto label22;
}
label22:
if(var24 == 0xFFFFFFFF)
{
var28 = ((int *) var1)[3];
var27 = ((int *) var1)[0];
var29 = var27 - var28;
}
else
{
var25 = ((int *) var1)[2];
var26 = ((int *) var1)[1];
var27 = ((int *) var1)[0];
if(((var25 < var26)) != 0)
{
label28:
var28 = ((int *) var1)[3];
var29 = var26 - var24;
}
else
{
if(!(((var26 < var24)) != 0))
goto label28;
var28 = ((int *) var1)[3];
var29 = (var27 - var24) + var26;
}
}
var30 = ((int *) var3)[411];
signalSema ();
var6 = ((var27 - var28) - var29);
}
}
ra = ((int *) sp)[8];
var7 = ((int *) sp)[7];
var8 = ((int *) sp)[6];
var9 = ((int *) sp)[5];
var10 = ((int *) sp)[4];
sp = sp + 0x30;
return var6;
}
#ifdef VSH
int mpeg_C2F02CDD (int arg1, int arg2, int arg3, int arg4){
var1 = arg4;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var15 = ((int *) arg2)[0];
var16 = ((int *) var2)[4];
var19 = unRegistStream (var15, var2, 1);
var20 = var19;
var5 = 0x806101FE;
if(!(var20 == 0xFFFFFFFF))
{
var21 = ((int *) arg3)[0];
var24 = unRegistStream (var21, var2, 1);
var25 = var24;
var5 = 0x806101FE;
if(!(var25 == 0xFFFFFFFF))
{
var26 = ((int *) var2)[411];
waitSema ();
var29 = ((int *) var20)[1];
if(var29 == 0xFFFFFFFF)
{
label16:
var6 = 0x80618001;
}
else
{
var30 = ((int *) var25)[1];
if(var30 == 0xFFFFFFFF)
{
goto label16;
}
else
{
var31 = ((int *) var16)[5];
var32 = ((int *) var29)[9];
var33 = ((int *) var16)[4];
var34 = ((int *) var30)[9];
if(var33 == 0)
{
__asm__ ("break 0x00007;");
}
var35 = ((var32 - var31) / var33);
var36 = ((var34 - var31) / var33);
if(var35 == var36)
{
((int *) var1)[0] = 0;
}
else
{
var37 = ((int *) var16)[2];
var38 = ((int *) var16)[1];
if(((var37 < var38)) != 0)
{
var40 = var35 - var36;
}
else
{
var39 = (var35 < var37);
if(((var35 < var38)) == 0)
{
label26:
if(var39 != 0)
{
label28:
if(((var35 < var36)) == 0)
{
var45 = ((int *) var16)[0];
var44 = var35 - var36;
}
else
{
var44 = ((int *) var16)[0];
var45 = var36 - var35;
}
var40 = var44 - var45;
}
else
{
var40 = var35 - var36;
if(((var36 < var37)) != 0)
goto label28;
}
}
else
{
var40 = var35 - var36;
if(!(((var36 < var38)) != 0))
{
var39 = (var35 < var37);
goto label26;
}
}
}
((int *) var1)[0] = var40;
}
}
}
var41 = ((int *) var2)[411];
signalSema ();
var5 = var6;
}
}
}
return var5;
}
#endif
int mpegRingbufferQueryMemSize (int arg1){
return ((arg1 << 0x0B) + (arg1 * 0x68));
}
int mpegRingbufferQueryPackNum (int arg1){
return ((hi (arg1 * 0xF3A0D52D)) >> 0x0B);
}
int mpegRingbufferConstruct (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = arg2 << 0x0B;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var2 = arg1;
((int *) sp)[6] = s6;
var3 = 0x80610022;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[1] = s1;
var4 = arg3;
((int *) sp)[7] = ra;
if(!(((arg4 < (var1 + (arg2 * 0x68)))) != 0))
{
var5 = *((int *) mpegLibmpegSema);
waitSema ();
((int *) var2)[5] = var4;
((int *) var2)[4] = 0x00000800;
((int *) var2)[8] = (var4 + var1);
((int *) var2)[0] = arg2;
((int *) var2)[6] = arg5;
((int *) var2)[7] = arg6;
((int *) var2)[3] = 0;
((int *) var2)[2] = 0;
((int *) var2)[1] = 0;
((int *) var2)[10] = 0;
var8 = gp;
((int *) var2)[11] = var8;
var9 = *((int *) mpegLibmpegSema);
signalSema ();
var3 = 0;
}
ra = ((int *) sp)[7];
var12 = ((int *) sp)[6];
var13 = ((int *) sp)[5];
var14 = ((int *) sp)[4];
var15 = ((int *) sp)[3];
var16 = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x20;
return var3;
}
int mpegRingbufferDestruct (){
return 0;
}
int ringbufferPutBA (int arg1){
if((ret=checkMpegLib (*arg1[10])))return ret;
waitSema (*(arg1[10])[411]);
ret = arg1[3];
signalSema (*(arg1[10])[411]);
return ret;
}
int ringbufferPutC (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
var7 = var6;
if(var6 == 0)
{
var11 = ((int *) var3)[411];
waitSema ();
var14 = ((int *) var1)[3];
var15 = MIN (arg2, var14);
var16 = var15;
if(!(var15 <= 0))
{
var17 = ((int *) var1)[0];
var18 = ((int *) var1)[1];
while (1) {
var19 = !(((var17 < (var18 + var16)))) ? var16 : (var17 - var18);
var20 = var18 + var19;
var16 = var16 - var19;
((int *) var1)[1] = var20;
if(var20 == var17)
{
((int *) var1)[1] = 0;
}
if(!(var16 > 0))
break;
var18 = ((int *) var1)[1];
continue;
}
}
((int *) var1)[3] = (var14 - var15);
var21 = ((int *) var3)[411];
signalSema ();
var7 = var15;
}
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
void ringbufferAvailableSize (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[5];
var2 = ((int *) arg1)[4];
var3 = arg3 - var1;
if(var2 == 0)
{
__asm__ ("break 0x00007;");
}
var4 = ((int *) arg1)[2];
var5 = (var3 / var2);
if(((((var5 ^ var4) < 1)) & ((0 < var3))) == 0)
{
var6 = ((int *) arg1)[1];
if(((var4 < var6)) == 0)
{
var9 = ((int *) arg2)[0];
if(((var4 < var5)) == 0)
{
if(!(((var6 < var9)) != 0))
{
if(!(((var5 < var6)) == 0))
{
if(((var5 < var9)) != 0)
{
((int *) arg2)[0] = var5;
}
else
{
}
}
}
label17:
}
else
{
var8 = (var5 < var9);
if(((var6 < var9)) == 0)
{
label18:
((int *) arg2)[0] = var5;
}
else
{
label16:
if(var8 == 0)
goto label17;
goto label18;
}
}
}
else
{
var7 = ((int *) arg2)[0];
var8 = (var5 < var7);
goto label16;
}
}
else
{
((int *) arg2)[0] = 0xFFFFFFFF;
}
return;
}
int deleteStuff (int arg1, int arg2, int arg3, int arg4){
#ifdef VSH
#error var--
#endif
((int *) sp)[13] = arg1;
var1 = arg2;
var2 = ((int *) sp)[13];
var3 = ((int *) arg2)[0];
((int *) sp)[14] = arg3;
var4 = ((int *) var2)[0];
((int *) sp)[15] = arg4;
var7 = unRegistStream (var3, var4, 1);
((int *) sp)[19] = var7;
var8 = ((int *) sp)[19];
((int *) sp)[16] = 0x80618001;
var9 = 0x806101FE;
if(!(var8 == 0xFFFFFFFF))
{
((int *) sp)[21] = ((((int *) sp)[14] << 2) + 0x000076A8);
while (1) {
var11 = ((int *) sp)[13];
var12 = 0;
var15 = sub_04D80 (var11);
var16 = ((int *) sp)[19];
var17 = ((int *) sp)[15];
var18 = ((int *) var1)[9];
var19 = ((int *) var16)[3];
var20 = ((int *) sp)[13];
var21 = ((int *) var17)[4];
var22 = MIN (var19, 0x63);
((int *) sp)[20] = (var15 + 4);
var25 = avcDecodeYCbCr (var20, var21);
var26 = (var18 < 1);
((int *) sp)[17] = var25;
var27 = 0;
((int *) sp)[18] = 0;
if((((0 < var22)) & (var26 ^ 1)) == 0)
{
var45 = (0 < var22);
label45:
if(((var45 ^ 1) & (var26 ^ 1)) == 0)
{
((int *) var1)[8] = 0;
}
else
{
var46 = ((int *) var1)[11];
var47 = ((int *) var1)[8];
var48 = ((int *) sp)[18];
((int *) var1)[9] = var18;
((int *) var1)[11] = (var46 + var12);
((int *) var1)[8] = (var47 + var48);
}
var49 = ((int *) sp)[20];
var50 = ((int *) sp)[15];
((int *) (var49 + (var27 << 4)))[1073741822] = 0;
var51 = ((int *) sp)[14];
var52 = ((int *) var50)[5];
if(((var51 < 0x07)) == 0)
{
label65:
((int *) sp)[16] = 0x80618007;
label66:
var55 = ((int *) sp)[18];
label67:
var56 = ((int *) sp)[19];
}
else
{
var53 = ((int *) sp)[21];
var54 = ((int *) var53)[0];
if(((var54 < (var52 + var12))) == 0)
{
var76 = ((int *) var1)[12];
var55 = ((int *) sp)[18];
if((var76 & 0x05) != 0)
goto label67;
var77 = ((int *) sp)[20];
if((var76 & 2) == 0)
{
label55:
invalidateCsc (var77);
var80 = ((int *) sp)[15];
var81 = ((int *) sp)[17];
var82 = ((int *) var80)[5];
if((((0x003FFFFF < ((var81 >> 0) & 0x1FFFFFFF))) ^ 1) == 0)
{
var88 = ((int *) sp)[17];
sceKernelDcacheWritebackInvalidateRange (var88, (var82 + var12));
}
var83 = ((int *) sp)[20];
var86 = sceMpegbase_BEA18F91 (var83);
var87 = ((int *) sp)[16];
((int *) sp)[16] = ((var86) ? var86 : var87);
goto label66;
}
else
{
var56 = ((int *) sp)[19];
if(!(var76 >= 0))
{
var77 = ((int *) sp)[20];
goto label55;
}
}
}
else
{
goto label65;
}
}
}
else
{
while (1) {
var28 = ((int *) sp)[19];
var29 = sp + 0x30;
var30 = sp;
getAu (var28, var27, 1, var30, var29);
var33 = ((int *) sp)[15];
var34 = ((short *) var1)[14];
var35 = ((int *) var1)[5];
var36 = ((int *) sp)[8];
var37 = ((int *) var33)[5];
var38 = ((int *) sp)[7];
var39 = ((int *) sp)[17];
var40 = var36 - (var35 + var34);
var18 = var18 - var40;
var41 = (var39 + var37) + var12;
var12 = var12 + var40;
if(var18 <= 0)
{
var97 = ((int *) sp)[18];
if(var18 != 0)
{
var104 = abs (var18);
var40 = var40 - var104;
var107 = abs (var18);
((short *) var1)[14] = (var40 + var34);
var12 = var12 - var107;
}
else
{
((short *) var1)[14] = 0;
((int *) sp)[18] = (var97 + 1);
}
var98 = ((int *) sp)[18];
if(var98 <= 0)
{
var100 = ((int *) var1)[8];
if(var100 > 0)
{
var99 = ((int *) var1)[6];
label29:
((int *) var1)[13] = 0;
((int *) var1)[6] = (var99 | 1);
label30:
var42 = ((int *) sp)[20];
}
else
{
var101 = ((int *) var1)[13];
var42 = ((int *) sp)[20];
if(!(var101 != 1))
{
var99 = ((int *) var1)[6];
goto label29;
}
}
}
else
{
var99 = ((int *) var1)[6];
goto label29;
}
}
else
goto label30;
var43 = var42 + (var27 << 4);
((int *) var43)[0] = ((var38 + var35) + var34);
((int *) var43)[2] = (var43 + 0x10);
((int *) var43)[1] = var41;
if(((var40 < 0x00001000)) == 0)
{
((int *) sp)[16] = 0x80618007;
((int *) var43)[3] = 0;
goto label66;
}
else
{
((int *) var43)[3] = var40;
if(var18 <= 0)
{
var91 = ((int *) var1)[10];
var27 = var27 + 1;
if(var91 == 0)
{
label42:
var45 = (var27 < var22);
}
else
{
if(var91 == 0)
{
__asm__ ("break 0x00007;");
}
var92 = (var12 % var91);
if(var92 == 0)
{
var45 = (var27 < var22);
}
else
{
var93 = ((int *) sp)[20];
var94 = var91 - var92;
if(var91 == 0)
{
__asm__ ("break 0x00007;");
}
var95 = var93 + (var27 << 4);
((int *) var95)[3] = (!(((var94 < 0x00001000))) ? 0 : var94);
var27 = var27 + 1;
((int *) var95)[0] = 0x00007628;
((int *) var95)[1] = (var41 + var40);
((int *) var95)[2] = (var95 + 0x10);
var96 = ((int *) var1)[10];
var12 = var12 + (var96 - (var12 % var96));
goto label42;
}
}
var26 = (var18 < 1);
((int *) sp)[16] = 0;
((int *) var1)[11] = 0;
goto label45;
}
else
{
var44 = ((int *) sp)[18];
var27 = var27 + 1;
var26 = (var18 < 1);
var45 = (var27 < var22);
((short *) var1)[14] = 0;
((int *) sp)[18] = (var44 + 1);
if((var45 & (var26 ^ 1)) != 0)
continue;
break;
}
}
goto label68;
}
goto label45;
}
label68:
var57 = sp + 0x30;
sub_01EB4 (var56, var55, var57);
var60 = ((int *) sp)[13];
dummy ();
var63 = ((int *) sp)[15];
var64 = ((int *) sp)[16];
var65 = ((int *) var63)[5];
var66 = ((int *) sp)[15];
((int *) var66)[5] = (var65 + var12);
if(((((var27 < 0x63)) ^ 1) & (((var64 ^ 0x80618001) < 1))) != 0)
continue;
break;
}
var9 = var64;
}
ra = ((int *) sp)[33];
var67 = ((int *) sp)[32];
var68 = ((int *) sp)[31];
var69 = ((int *) sp)[30];
var70 = ((int *) sp)[29];
var71 = ((int *) sp)[28];
var72 = ((int *) sp)[27];
var73 = ((int *) sp)[26];
var74 = ((int *) sp)[25];
var75 = ((int *) sp)[24];
sp = sp + 0x90;
return var9;
}
#ifdef VSH
int mpegFlushAu (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var10 = ((int *) var2)[411];
waitSema ();
var13 = ((int *) var1)[0];
var14 = ((int *) arg1)[0];
var17 = unRegistStream (var13, var14, 1);
if(var17 == 0xFFFFFFFF)
{
var23 = ((int *) var2)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
var18 = ((int *) var1)[11];
if(!(var18 == 0))
{
var19 = ((int *) var1)[12];
((int *) var1)[12] = (var19 | 4);
}
var20 = ((int *) var2)[411];
signalSema ();
var6 = 0;
}
}
ra = ((int *) sp)[3];
var7 = ((int *) sp)[2];
var8 = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int sub_0445C (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
var1 = arg4;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[6] = ra;
((int *) sp)[4] = s4;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var14 = ((int *) var2)[411];
waitSema ();
var17 = ((int *) arg2)[0];
var18 = ((int *) arg1)[0];
var21 = unRegistStream (var17, var18, 1);
if(var21 == 0xFFFFFFFF)
{
var6 = 0x806101FE;
}
else
{
if(var1 != 0)
{
((int *) var1)[0] = var21;
}
var22 = ((int *) var21)[3];
((int *) arg3)[0] = var22;
}
var23 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
else
{
var7 = var6;
}
ra = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
var10 = ((int *) sp)[3];
var11 = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x20;
return var7;
}
#endif
int mpegGetPcmAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF90;
((int *) sp)[22] = s6;
var1 = arg4;
((int *) sp)[19] = s3;
var2 = arg1;
((int *) sp)[18] = s2;
var3 = arg3;
((int *) sp)[17] = s1;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[24] = fp;
((int *) sp)[23] = s7;
((int *) sp)[21] = s5;
((int *) sp)[20] = s4;
((int *) sp)[16] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var68 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
label21:
var65 = ((int *) var5)[411];
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 != 0)
{
label34:
if(!(var1 == 0))
{
var51 = ((int *) var4)[16];
((int *) var1)[0] = var51;
}
var54 = deleteStuff (var2, var4, 2, var3);
var55 = ((int *) var5)[411];
var56 = var54;
signalSema ();
var59 = ((int *) var4)[12];
if((((var59 >> 2) & 1) & ((var56 < 1))) != 0)
{
((int *) var4)[12] = ((var59 & 0xFFFFFFFB) | (0 & 1));
var62 = mpegGetPcmAu (var2, var4, var3, var1);
var56 = var62;
}
var8 = var56;
}
else
{
((int *) var3)[5] = 0;
var33 = sp + 0x30;
while (1) {
var34 = sp;
getAu (var26, 0, 1, var34, var33);
var37 = ((int *) sp)[12];
var38 = ((int *) sp)[7];
if(var37 != 1)
break;
var39 = ((int *) var4)[6];
if((var39 & 1) == 0)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label33:
var48 = ((unsigned char *) var38)[1];
((int *) var4)[16] = var48;
var49 = ((unsigned char *) var38)[1];
var50 = var49 & 0x0F;
((int *) var4)[9] = (((var50 << 2) + var50) << 0x05);
goto label34;
}
else
{
var42 = be2 ((var38 + 2));
((short *) var4)[14] = var42;
var43 = sp + 0x30;
if(((char) var42) == 0xFFFFFFFF)
{
sub_01EB4 (var26, 1, var43);
var33 = sp + 0x30;
continue;
}
else
{
var44 = ((int *) sp)[4];
var45 = ((int *) sp)[5];
var46 = ((int *) sp)[6];
var47 = ((int *) sp)[3];
((int *) var3)[1] = var44;
((int *) var3)[0] = var47;
((int *) var3)[2] = var45;
((int *) var3)[3] = var46;
((int *) var4)[6] = 0;
goto label33;
}
}
goto label46;
}
goto label21;
}
}
}
}
label46:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
#ifdef VSH
int _D4DD6E75 (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFF90;
((int *) sp)[24] = fp;
var1 = arg3;
((int *) sp)[22] = s6;
var2 = arg1;
((int *) sp)[21] = s5;
var3 = arg4;
((int *) sp)[18] = s2;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[23] = s7;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
((int *) sp)[17] = s1;
((int *) sp)[16] = s0;
((int *) sp)[13] = arg5;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var108 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
var107 = ((int *) var5)[411];
label39:
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 == 0)
{
((int *) var3)[5] = 0;
var93 = var26;
while (1) {
var94 = sp + 0x30;
var95 = sp;
getAu (var93, 0, 1, var95, var94);
var98 = ((int *) sp)[12];
var35 = var26;
var99 = sp + 0x30;
if(var98 != 1)
{
var106 = ((int *) var5)[411];
goto label39;
}
else
{
var100 = ((int *) sp)[3];
var101 = ((int *) sp)[4];
if(var100 != 0xFFFFFFFF)
break;
var102 = ((int *) sp)[5];
if(var101 != var100)
break;
var103 = ((int *) sp)[6];
if(var102 != var101)
break;
if(var103 != var102)
{
goto label35;
}
else
{
sub_02AEC (var35, 1, var99);
var93 = var26;
continue;
}
}
goto label84;
}
label34:
label35:
var36 = sp;
var37 = sp + 0x30;
getAu (var35, 0, 1, var36, var37);
var40 = ((int *) sp)[12];
if(var40 != 1)
{
var90 = ((int *) var5)[411];
goto label39;
}
else
{
var41 = ((int *) var4)[6];
if((var41 & 1) == 0)
{
var46 = ((short *) var4)[14];
}
else
{
var42 = ((int *) sp)[4];
var43 = ((int *) sp)[5];
var44 = ((int *) sp)[6];
var45 = ((int *) sp)[3];
((short *) var4)[14] = 0;
((int *) var3)[0] = var45;
((int *) var3)[1] = var42;
((int *) var3)[2] = var43;
((int *) var3)[3] = var44;
((int *) var4)[6] = 0;
var46 = ((short *) var4)[14];
}
var47 = ((int *) sp)[8];
var48 = ((int *) var4)[14];
var49 = var46 + 2;
var50 = var47 - var49;
if(!(var48 != 0))
{
((int *) var4)[14] = 4;
var48 = 4;
}
var51 = (var4 - var48) + 0x40;
var52 = 1;
while (1) {
if(((var50 < var48)) == 0)
break;
var53 = ((int *) sp)[7];
var51 = var51 + var50;
strncpy (var51, (var53 + var49), var50);
var56 = ((int *) var4)[14];
((int *) var4)[14] = (var56 - var50);
var57 = sp;
var58 = sp + 0x30;
getAu (var26, var52, 1, var57, var58);
var61 = ((int *) sp)[12];
var49 = 2;
var52 = var52 + 1;
if(var61 != 1)
{
((int *) var4)[9] = 4;
((int *) var4)[13] = 1;
}
else
{
var62 = ((int *) sp)[8];
var48 = ((int *) var4)[14];
var50 = var62 + 0xFFFFFFFE;
continue;
}
goto label60;
}
var83 = ((int *) sp)[7];
strncpy (var51, (var83 + var49), var48);
((int *) var4)[14] = 0;
var88 = be4 ((var4 + 0x3C));
var89 = ((int *) var4)[11];
((int *) var4)[9] = ((var88 - var89) + 4);
label60:
var34 = var2;
label61:
var65 = deleteStuff (var34, var4, var1, var3);
var66 = ((int *) var5)[411];
var67 = (var65 < 1);
var68 = var65;
signalSema ();
var71 = ((int *) sp)[13];
if((var67 & ((0 < var71))) == 0)
{
var74 = ((int *) var4)[12];
}
else
{
if(var1 == 3)
{
var82 = ((int *) var3)[4];
var72 = var82 + 8;
label75:
var73 = ((int *) sp)[13];
}
else
{
if(var1 == 0x05)
{
var79 = ((int *) var3)[4];
var72 = mpeg_C345DED2 (var79, 4);
var73 = ((int *) sp)[13];
}
else
{
var72 = ((int *) var3)[4];
goto label75;
}
}
((int *) var73)[0] = var72;
var74 = ((int *) var4)[12];
}
if((((var74 >> 2) & 1) & var67) != 0)
{
((int *) var4)[12] = ((var74 & 0xFFFFFFFB) | (0 & 1));
var75 = ((int *) sp)[13];
var78 = _D4DD6E75 (var2, var4, var1, var3, var75);
var68 = var78;
}
var8 = var68;
}
}
else
{
var33 = ((int *) var4)[14];
var34 = var2;
if(var33 == 0)
goto label61;
var35 = var26;
goto label34;
}
}
}
}
label84:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
#endif
int sub_03850 (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFF80;
((int *) sp)[27] = s7;
var1 = arg4;
((int *) sp)[26] = s6;
var2 = arg1;
((int *) sp)[21] = s1;
var3 = arg2;
((int *) sp)[29] = ra;
((int *) sp)[28] = fp;
((int *) sp)[25] = s5;
((int *) sp)[24] = s4;
((int *) sp)[23] = s3;
((int *) sp)[22] = s2;
((int *) sp)[20] = s0;
((int *) sp)[17] = arg3;
((int *) sp)[18] = arg5;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
if(var7 == 0)
{
var17 = ((int *) var4)[411];
waitSema ();
var20 = ((int *) var3)[0];
var21 = ((int *) var2)[0];
var24 = unRegistStream (var20, var21, 1);
var25 = var24;
if(var24 == 0xFFFFFFFF)
{
var128 = ((int *) var4)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var26 = sp;
var27 = sp + 0x40;
getAu (var24, 0, 1, var26, var27);
var30 = ((int *) sp)[16];
if(var30 != 1)
{
var127 = ((int *) var4)[411];
label40:
signalSema ();
var7 = 0x80618001;
}
else
{
var31 = ((int *) var3)[14];
var32 = ((int *) var3)[11];
if(var31 != 0)
{
label22:
if(var32 != 0)
{
label35:
var49 = var25;
label36:
var54 = sp;
var55 = sp + 0x40;
getAu (var49, 0, 1, var54, var55);
var58 = ((int *) sp)[16];
var59 = ((int *) sp)[8];
if(var58 != 1)
{
label39:
var124 = ((int *) var4)[411];
goto label40;
}
else
{
var60 = ((short *) var3)[14];
var61 = ((int *) var3)[14];
var62 = var60 + 2;
var63 = var59 - var62;
if(!(var61 != 0))
{
((int *) var3)[14] = 8;
var61 = 8;
}
var64 = 8 - var61;
var65 = sp + 0x30;
var66 = var65 + var64;
while (1) {
if(((var63 < var61)) == 0)
break;
var67 = ((int *) sp)[7];
var66 = var66 + var63;
strncpy (var66, (var67 + var62), var63);
var70 = ((int *) var3)[14];
((int *) var3)[14] = (var70 - var63);
var71 = sp;
var72 = sp + 0x40;
getAu (var25, 1, 1, var71, var72);
var75 = ((int *) sp)[16];
var76 = sp + 0x40;
var62 = 2;
if(var75 != 1)
{
((int *) var3)[13] = 1;
}
else
{
var77 = ((int *) var3)[11];
var78 = ((int *) sp)[8];
((int *) var3)[11] = (var77 + var63);
var63 = var78 + 0xFFFFFFFE;
sub_01EB4 (var25, 1, var76);
var61 = ((int *) var3)[14];
continue;
}
goto label56;
}
var117 = ((int *) sp)[7];
strncpy (var66, (var117 + var62), var61);
var120 = ((unsigned short *) var3)[14];
var121 = ((unsigned short *) var3)[28];
var122 = ((int *) var3)[11];
var123 = ((int *) var3)[14];
((short *) var3)[14] = (var120 + var121);
((int *) var3)[11] = (var122 + var123);
((int *) var3)[14] = 0;
label56:
var81 = ((int *) var3)[14];
var82 = 8 - var81;
var83 = (var82 < 0x05);
if(!(((var64 < 4)) == 0))
{
var84 = var82 - var64;
if(!(var83 != 0))
{
var84 = 4 - var64;
}
var85 = sp + 0x30;
strncpy (((var3 + var64) + 0x3C), (var85 + var64), var84);
}
var88 = ((int *) sp)[18];
if(((var83 ^ 1) & ((0 < var88))) != 0)
{
var112 = MAX (var64, 4);
var113 = ((int *) sp)[18];
var114 = sp + 0x30;
strncpy ((var113 + var112), (var114 + var112), (var82 - var112));
var89 = ((int *) var3)[14];
}
else
{
var89 = ((int *) var3)[14];
}
if(var89 == 0)
{
var106 = be4 ((var3 + 0x3C));
var107 = ((int *) sp)[18];
((int *) var3)[9] = (var106 + 0xFFFFFFFC);
if(var107 == 0)
{
label71:
var33 = ((int *) sp)[17];
}
else
{
var108 = LWL (var3);
var109 = LWR (var3, var108, 0x3C);
SWL (var107, var109, 3);
SWR (var107, var109, 0);
var110 = LWL (sp, var109, 0x37);
var111 = LWR (sp, var110, 0x34);
SWL (var107, var111, 0x07);
SWR (var107, var111, 4);
var33 = ((int *) sp)[17];
}
}
else
goto label71;
label72:
var90 = var2;
label73:
var93 = deleteStuff (var90, var3, var33, var1);
var94 = ((int *) var4)[411];
var95 = var93;
signalSema ();
var98 = ((int *) var3)[12];
if((((var98 >> 2) & 1) & ((var95 < 1))) != 0)
{
((int *) var3)[12] = ((var98 & 0xFFFFFFFB) | (0 & 1));
var99 = ((int *) sp)[17];
var100 = ((int *) sp)[18];
var103 = sub_03850 (var2, var3, var99, var1, var100);
var95 = var103;
}
var7 = var95;
}
}
else
{
((int *) var1)[5] = 0;
var35 = var25;
while (1) {
var36 = sp + 0x40;
var37 = sp;
getAu (var35, 0, 1, var37, var36);
var40 = ((int *) sp)[16];
var41 = sp + 0x40;
if(var40 != 1)
goto label39;
var42 = ((int *) sp)[3];
var43 = ((int *) sp)[4];
if(var42 != 0xFFFFFFFF)
break;
var44 = ((int *) sp)[5];
if(var43 != var42)
break;
var45 = ((int *) sp)[6];
if(var44 != var43)
break;
if(var45 != var44)
{
var48 = ((int *) var3)[6];
goto label33;
}
else
{
sub_01EB4 (var25, 1, var41);
var35 = var25;
continue;
}
goto label89;
}
var48 = ((int *) var3)[6];
label33:
var49 = var25;
if(!((var48 & 1) == 0))
{
var50 = ((int *) sp)[4];
var51 = ((int *) sp)[5];
var52 = ((int *) sp)[6];
var53 = ((int *) sp)[3];
((short *) var3)[14] = 0;
((int *) var1)[0] = var53;
((int *) var1)[1] = var50;
((int *) var1)[2] = var51;
((int *) var1)[3] = var52;
((int *) var3)[6] = 0;
goto label35;
}
goto label36;
}
}
else
{
var33 = ((int *) sp)[17];
if(var32 != 0)
goto label72;
var34 = ((int *) var3)[13];
if(var34 == var30)
{
var90 = var2;
goto label73;
}
else
{
goto label22;
}
}
}
}
}
label89:
ra = ((int *) sp)[29];
var8 = ((int *) sp)[28];
var9 = ((int *) sp)[27];
var10 = ((int *) sp)[26];
var11 = ((int *) sp)[25];
var12 = ((int *) sp)[24];
var13 = ((int *) sp)[23];
var14 = ((int *) sp)[22];
var15 = ((int *) sp)[21];
var16 = ((int *) sp)[20];
sp = sp + 0x80;
return var7;
}
#ifdef VSH
int mpeg_C345DED2 (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
if(arg2 == 3)
{
var23 = ((unsigned char *) arg1)[13];
var2 = 0;
if(!((var23 & 1) == 0))
{
var26 = mpeg_C345DED2 (arg1, 0x00001F40);
var2 = var26;
}
}
else
{
if(((arg2 < 4)) == 0)
{
if(arg2 == 0x05)
{
var16 = ((unsigned char *) arg1)[13];
var2 = 0;
if(!((var16 & 2) == 0))
{
var19 = mpeg_C345DED2 (arg1, 0x00001F40);
var22 = be2 ((var19 + 0xFFFFFFFE));
var2 = var1 + var22;
}
}
else
{
if(((arg2 < 0x05)) != 0)
{
var14 = mpeg_C345DED2 (arg1, 0x00001F40);
var15 = ((unsigned char *) var1)[13];
var2 = var14;
if(!((var15 & 1) == 0))
{
var2 = var14 + 0x40;
}
}
else
{
if(arg2 != 0x00001F40)
{
var2 = 0;
}
else
{
var7 = mpeg_C345DED2 (arg1, 2);
var8 = var7;
if(var7 == 0)
{
var11 = mpeg_C345DED2 (var1, 1);
var8 = var11;
}
var2 = var8 + 0x06;
}
}
}
}
else
{
var2 = arg1 + 0x0E;
if(!(arg2 == 1))
{
if(arg2 == 2)
{
var4 = ((unsigned char *) var1)[13];
var2 = !((var4 & 2)) ? 0 : (var1 + 0x12);
}
else
{
var2 = 0;
}
}
}
}
ra = ((int *) sp)[1];
var3 = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
#endif
int mpegGetAtracAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF90;
((int *) sp)[24] = fp;
var1 = arg4;
((int *) sp)[22] = s6;
var2 = arg1;
((int *) sp)[21] = s5;
var3 = arg3;
((int *) sp)[18] = s2;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[23] = s7;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
((int *) sp)[17] = s1;
((int *) sp)[16] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var91 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
label23:
var88 = ((int *) var5)[411];
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 == 0)
{
((int *) var3)[5] = 0;
label19:
var35 = sp;
while (1) {
var36 = sp + 0x30;
getAu (var26, 0, 1, var35, var36);
var39 = ((int *) sp)[12];
var40 = ((int *) sp)[7];
if(var39 != 1)
break;
var41 = ((int *) var4)[6];
if((var41 & 1) == 0)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label35:
var50 = ((short *) var4)[14];
var51 = ((int *) sp)[8];
var52 = ((int *) var4)[14];
var53 = var50 + 4;
var54 = var51 - var53;
if(!(var52 != 0))
{
((int *) var4)[14] = 4;
var52 = 4;
}
var55 = (var4 - var52) + 0x40;
var56 = 1;
while (1) {
var57 = var40 + var53;
if(((var54 < var52)) == 0)
break;
var55 = var55 + var54;
strncpy (var55, var57, var54);
var60 = ((int *) var4)[14];
((int *) var4)[14] = (var60 - var54);
var61 = sp;
var62 = sp + 0x30;
getAu (var26, var56, 1, var61, var62);
var65 = ((int *) sp)[12];
var53 = 4;
var56 = var56 + 1;
if(var65 != 1)
{
((int *) var4)[9] = 4;
((int *) var4)[13] = 1;
}
else
{
var66 = ((int *) sp)[8];
var52 = ((int *) var4)[14];
var40 = ((int *) sp)[7];
var54 = var66 + 0xFFFFFFFC;
continue;
}
goto label50;
}
strncpy (var55, var57, var52);
((int *) var4)[14] = 0;
var84 = sub_04CD8 ((var4 + 0x3C));
var85 = ((int *) var4)[11];
((int *) var4)[9] = ((var84 - var85) + 8);
label50:
var34 = var2;
label51:
var69 = deleteStuff (var34, var4, 1, var3);
var70 = ((int *) var5)[411];
var71 = var69;
signalSema ();
var74 = (var71 < 1);
if((var74 & ((0 < var1))) == 0)
{
var76 = ((int *) var4)[12];
}
else
{
var75 = ((int *) var3)[4];
((int *) var1)[0] = (var75 + 8);
var76 = ((int *) var4)[12];
}
if((((var76 >> 2) & 1) & var74) != 0)
{
((int *) var4)[12] = ((var76 & 0xFFFFFFFB) | (0 & 1));
var79 = mpegGetAtracAu (var2, var4, var3, var1);
var71 = var79;
}
var8 = var71;
}
else
{
var44 = be2 ((var40 + 2));
((short *) var4)[14] = var44;
var45 = sp + 0x30;
if(((char) var44) == 0xFFFFFFFF)
{
sub_01EB4 (var26, 1, var45);
var35 = sp;
continue;
}
else
{
var46 = ((int *) sp)[4];
var47 = ((int *) sp)[5];
var48 = ((int *) sp)[6];
var49 = ((int *) sp)[3];
var40 = ((int *) sp)[7];
((int *) var3)[1] = var46;
((int *) var3)[0] = var49;
((int *) var3)[2] = var47;
((int *) var3)[3] = var48;
((int *) var4)[6] = 0;
goto label35;
}
}
goto label65;
}
goto label23;
}
else
{
var33 = ((int *) var4)[14];
var34 = var2;
if(var33 == 0)
goto label51;
goto label19;
}
}
}
}
label65:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
int sub_03F48 (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[4];
var2 = ((int *) arg1)[0];
var3 = ((int *) arg1)[2];
var4 = ((int *) arg1)[1];
var5 = ((int *) arg1)[5];
var6 = (arg2 < var5);
var7 = var5 + (var1 * var2);
var8 = (var7 < arg2);
var9 = var5 + (var1 * var3);
var10 = var5 + (var1 * var4);
if((var6 | var8) != 0)
{
label20:
var13 = 0x80618007;
}
else
{
var11 = (arg3 < var5);
var12 = (var7 < arg3);
if(!((var11 | var12) == 0))
goto label20;
if(((var9 < var10)) != 0)
{
var15 = (arg2 < arg3);
label18:
var13 = 1;
if(!(var15 != 0))
{
var13 = ((arg2 ^ arg3)) ? 3 : 2;
}
}
else
{
if(((var6 ^ 1) & (((var10 < arg2)) ^ 1)) == 0)
{
var14 = (arg2 < var9);
label12:
if(((var14 ^ 1) & (var8 ^ 1)) == 0)
{
label16:
var13 = !(((arg2 < arg3))) ? 1 : 3;
}
else
{
if(((((arg3 < var9)) ^ 1) & (var12 ^ 1)) == 0)
{
goto label16;
}
else
{
var15 = (arg2 < arg3);
goto label18;
}
}
}
else
{
if(((var11 ^ 1) & (((var10 < arg3)) ^ 1)) != 0)
{
var15 = (arg2 < arg3);
goto label18;
}
else
{
var14 = (arg2 < var9);
goto label12;
}
}
}
}
return var13;
}
int mpegGetAvcAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF60;
((int *) sp)[36] = fp;
var1 = arg4;
((int *) sp)[35] = s7;
var2 = arg1;
((int *) sp)[32] = s4;
var3 = arg3;
((int *) sp)[31] = s3;
var4 = arg2;
((int *) sp)[37] = ra;
((int *) sp)[34] = s6;
((int *) sp)[33] = s5;
((int *) sp)[30] = s2;
((int *) sp)[29] = s1;
((int *) sp)[28] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
var9 = var8;
if(!(var8 != 0))
{
var10 = ((int *) var4)[2];
var9 = 0x806101FE;
if(!(var10 == 0xFFFFFFFF))
{
var11 = ((int *) var5)[411];
waitSema ();
var14 = ((int *) var4)[0];
var15 = ((int *) var2)[0];
var18 = unRegistStream (var14, var15, 1);
if(var18 == 0xFFFFFFFF)
{
label22:
var128 = ((int *) var5)[411];
signalSema ();
var9 = 0x80618001;
}
else
{
var19 = sp;
while (1) {
var20 = sp + 0x60;
getAu (var18, 0, 1, var19, var20);
var23 = ((int *) sp)[24];
var24 = sp + 0x30;
var25 = sp + 0x60;
if(var23 != 1)
break;
var26 = ((int *) var4)[11];
if(var26 != 0)
{
var79 = ((int *) var4)[3];
label45:
var82 = sub_04D78 (var79);
var83 = ((int *) var4)[4];
var86 = sub_04D54 (var82, var83);
var89 = sub_04D0C (var86);
if(var89 == 0)
{
var124 = ((int *) var4)[12];
label61:
var92 = (var124 & 0x7FFFFFFF) | (0 & 1);
}
else
{
var90 = ((int *) var5)[3];
if(var90 == 0)
{
var119 = sub_04D78 (var79);
var122 = sub_04D4C (var119);
var123 = ((int *) var4)[4];
if(var123 != (var122 + 0xFFFFFFFF))
{
var91 = ((int *) var4)[12];
label63:
var92 = var91 | 0x80000000;
}
else
{
var124 = ((int *) var4)[12];
goto label61;
}
}
else
{
var91 = ((int *) var4)[12];
goto label63;
}
}
((int *) var4)[12] = var92;
if(!(var1 == 0))
{
var93 = ((int *) var4)[12];
((int *) var1)[0] = (var93 >> 0x1F);
var96 = getChar (var86);
var97 = ((int *) var1)[0];
((int *) var1)[0] = (var97 | (var96 << 1));
}
var100 = deleteStuff (var2, var4, 0, var3);
var101 = var100;
if(var100 == 0)
{
var111 = sub_04D78 (var79);
var114 = sub_04D4C (var111);
var115 = ((int *) var4)[4];
var116 = var115 + 1;
if(!(((var115 < (var114 + 0xFFFFFFFF))) != 0))
{
var116 = 0x00007FFF;
}
((int *) var4)[4] = var116;
}
var102 = ((int *) var5)[411];
signalSema ();
var105 = ((int *) var4)[12];
if((((var105 >> 2) & 1) & ((var101 < 1))) != 0)
{
((int *) var4)[12] = ((var105 & 0xFFFFFFFB) | (0 & 1));
var108 = mpegGetAvcAu (var2, var4, var3, var1);
var101 = var108;
}
var9 = var101;
}
else
{
((int *) var3)[5] = 0;
var27 = ((int *) var4)[4];
var28 = ((int *) sp)[4];
if(var27 != 0x00007FFF)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label38:
var68 = ((int *) var4)[3];
var71 = sub_04D78 (var68);
var72 = ((int *) var4)[4];
var75 = sub_04D54 (var71, var72);
var78 = sub_04D2C (var75);
var79 = ((int *) var4)[3];
((int *) var4)[9] = var78;
goto label45;
}
else
{
var29 = ((int *) sp)[5];
var30 = ((int *) sp)[6];
var31 = ((int *) sp)[3];
var32 = ((int *) var4)[2];
((int *) var3)[1] = var28;
((int *) var3)[0] = var31;
((int *) var3)[2] = var29;
((int *) var3)[3] = var30;
getAu (var32, 0, 1, var24, var25);
var35 = ((int *) sp)[24];
var36 = ((int *) sp)[19];
if(var35 != var23)
break;
var37 = ((int *) var5)[4];
var38 = ((int *) sp)[7];
var41 = sub_03F48 (var37, var38, var36);
var42 = sp + 0x60;
if(var41 != var35)
{
sub_01EB4 (var32, 1, var42);
var63 = ((int *) sp)[20];
if(((var63 < 0x00000801)) == 0)
{
var125 = ((int *) var5)[411];
signalSema ();
var9 = 0x80618007;
}
else
{
var64 = ((int *) var4)[3];
var65 = ((int *) sp)[19];
strncpy (var64, var65, var63);
((int *) var4)[4] = 0;
((short *) var4)[14] = 0;
goto label38;
}
}
else
{
var43 = ((int *) var5)[411];
signalSema ();
var48 = mpegNextAvcRpAu (var2, var4);
if(var48 != 0)
{
var9 = ((var48 ^ 0x80618004)) ? var48 : 0x80618001;
}
else
{
var49 = ((int *) var5)[411];
waitSema ();
var19 = sp;
continue;
}
}
}
}
goto label92;
}
goto label22;
}
}
}
label92:
ra = ((int *) sp)[37];
var52 = ((int *) sp)[36];
var53 = ((int *) sp)[35];
var54 = ((int *) sp)[34];
var55 = ((int *) sp)[33];
var56 = ((int *) sp)[32];
var57 = ((int *) sp)[31];
var58 = ((int *) sp)[30];
var59 = ((int *) sp)[29];
var60 = ((int *) sp)[28];
sp = sp + 0xA0;
return var9;
}
int mpegGetAvcEsAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFC0;
((int *) sp)[12] = s4;
((int *) sp)[11] = s3;
((int *) sp)[10] = s2;
var1 = arg1;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
((int *) sp)[13] = ra;
var2 = arg4;
var5 = checkMpegLib (arg1);
if(var5 == 0)
{
((int *) var2)[5] = 0;
var14 = sub_04D80 (var1);
((int *) sp)[4] = 0;
var15 = ((int *) var14)[0];
var16 = sp;
((int *) sp)[5] = var15;
((int *) sp)[6] = var14;
var19 = nalCpy (var1, var16, arg2, arg3, 0, var2);
var20 = var19;
var21 = sp;
if(!(var19 != 0))
{
var24 = sub_047D4 (var1, var21, var2);
var25 = var24;
if(!(var24 != 0))
{
((int *) sp)[4] = 0;
var25 = 0;
var26 = ((int *) sp)[6];
var27 = ((int *) var26)[0];
((int *) sp)[5] = var27;
}
var20 = var25;
}
dummy ();
var6 = var20;
}
else
{
var6 = var5;
}
ra = ((int *) sp)[13];
var7 = ((int *) sp)[12];
var8 = ((int *) sp)[11];
var9 = ((int *) sp)[10];
var10 = ((int *) sp)[9];
var11 = ((int *) sp)[8];
sp = sp + 0x40;
return var6;
}
int mpegGetAvcNalAu (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFB0;
((int *) sp)[15] = s7;
var1 = arg1;
((int *) sp)[14] = s6;
var2 = arg3;
((int *) sp)[12] = s4;
var3 = arg2;
((int *) sp)[17] = ra;
((int *) sp)[16] = fp;
((int *) sp)[13] = s5;
((int *) sp)[11] = s3;
((int *) sp)[10] = s2;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
var6 = checkMpegLib (arg1);
ra = ((int *) sp)[17];
if(!(var6 != 0))
{
((int *) var2)[5] = 0;
var7 = ((int *) var3)[4];
var8 = 0;
if(var7 == 0)
{
label55:
var6 = 0x806101FE;
}
else
{
if(((var7 < 3)) != 0)
{
label8:
var20 = sub_04D80 (var1);
((int *) sp)[4] = 0;
var21 = ((int *) var3)[7];
var22 = ((int *) var20)[0];
((int *) sp)[6] = var20;
((int *) sp)[5] = var22;
if((var21 & 1) == 0)
{
label19:
if((var21 & 2) == 0)
{
var25 = ((int *) var3)[6];
label30:
var26 = ((int *) var3)[5];
if(var25 <= 0)
{
label47:
var45 = sp;
var48 = sub_047D4 (var1, var45, var2);
var49 = var48;
if(!(var48 != 0))
{
((int *) sp)[4] = 0;
var49 = 0;
var50 = ((int *) sp)[6];
var51 = ((int *) var50)[0];
((int *) sp)[5] = var51;
}
var35 = var49;
}
else
{
var27 = ((int *) var3)[4];
while (1) {
var30 = beN (var26, var27);
var31 = ((int *) var3)[4];
var32 = var30;
var25 = var25 - (var31 + var30);
var33 = sp;
var34 = var26 + var31;
var35 = 0x80618007;
if(((var25 >> 0x1F) | ((var30 < 1))) != 0)
break;
if(var8 == 0)
{
var37 = 0;
}
else
{
var36 = ((unsigned char *) var34)[0];
var37 = 1;
if(!(((((var36 & 0x1F) + 0xFFFFFFF9) < 2)) == 0))
{
var37 = 0;
}
}
var40 = nalCpy (var1, var33, (var37 + 0x000076C4), (4 - var37), 0, var2);
var8 = 1;
var35 = var40;
var41 = sp;
var26 = var34 + var32;
if(var40 != 0)
break;
var44 = nalCpy (var1, var41, var34, var32, 0, var2);
var35 = var44;
if(var44 != 0)
break;
if(!(var25 > 0))
goto label47;
var27 = ((int *) var3)[4];
continue;
}
}
}
else
{
var24 = ((int *) var3)[2];
if(var24 != 0)
{
var54 = sp;
var57 = nalCpy (var1, var54, 0x000076C4, 4, 0, var2);
var35 = var57;
if(!(var57 != 0))
{
var58 = ((int *) var3)[2];
var59 = ((int *) var3)[3];
var60 = sp;
var63 = nalCpy (var1, var60, var58, var59, 0, var2);
var35 = var63;
if(!(var63 != 0))
{
var8 = 1;
label29:
var25 = ((int *) var3)[6];
goto label30;
}
}
}
else
goto label29;
}
}
else
{
var23 = ((int *) var3)[0];
if(!(var23 != 0))
goto label19;
var64 = sp;
var67 = nalCpy (var1, var64, 0x000076C4, 4, 0, var2);
var35 = var67;
if(!(var67 != 0))
{
var68 = ((int *) var3)[0];
var69 = ((int *) var3)[1];
var70 = sp;
var73 = nalCpy (var1, var70, var68, var69, 0, var2);
var35 = var73;
if(!(var73 != 0))
{
var21 = ((int *) var3)[7];
var8 = 1;
goto label19;
}
}
}
dummy ();
var6 = var35;
}
else
{
if(var7 == 4)
goto label8;
goto label55;
}
}
ra = ((int *) sp)[17];
}
var9 = ((int *) sp)[16];
var10 = ((int *) sp)[15];
var11 = ((int *) sp)[14];
var12 = ((int *) sp)[13];
var13 = ((int *) sp)[12];
var14 = ((int *) sp)[11];
var15 = ((int *) sp)[10];
var16 = ((int *) sp)[9];
var17 = ((int *) sp)[8];
sp = sp + 0x50;
return var6;
}
void sub_04718 (int arg1, int arg2, int arg3, int arg4, int arg5){
arg1[0] = arg2;
arg1[1] = arg3;
arg1[2] = arg4;
if(((arg5 >= 0x00001000)){
arg1[3] = 0;
return 0x806101FE;
}
arg1[3] = arg5;
return 0;
}
void sub_0474C (int arg1, int arg2){
arg1[2] = arg2;
}
int mpegQueryUserdataEsSize2 (int arg1, int arg2, int arg3, int arg4){
return sub_03850 (arg1, arg2, 3, arg3, arg4);
}
#ifdef VSH
int mpeg_D4DD6E75 (int arg1, int arg2, int arg3, int arg4){
return _D4DD6E75 (arg1, arg2, 0x05, arg3, arg4);
}
#endif
void invalidateCsc (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var1 = 0;
((int *) sp)[0] = s0;
var2 = arg1;
var3 = ((int *) var2)[3];
while (1) {
var4 = ((int *) var2)[0];
var1 = var1 + 1;
sceKernelDcacheWritebackInvalidateRange (var4, (var3 & 0x00000FFF));
var7 = ((int *) var2)[2];
var2 = var7;
if(var7 == 0)
break;
if(!(((var1 < 0x64)) != 0))
break;
var3 = ((int *) var2)[3];
continue;
}
ra = ((int *) sp)[2];
var8 = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
#ifdef VSH
int sub_05B5C (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[0];
var2 = 0x80618007;
if(!(((arg3 < 0x07)) == 0))
{
var3 = ((int *) var1)[414];
if(((var3 < 0x06)) == 0)
{
if(var3 != 0x06)
{
label13:
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[0];
}
else
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[21];
}
}
else
{
if(((var3 < 4)) == 0)
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[14];
}
else
{
if(var3 == 3)
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[7];
}
else
{
goto label13;
}
}
}
var2 = !(((var4 < arg2))) ? 0 : 0x80618007;
}
return var2;
}
#endif
int sub_047D4 (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = 0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[4] = ra;
((int *) sp)[0] = s0;
var2 = ((int *) arg2)[6];
var3 = ((int *) arg2)[4];
var4 = var2 + 4;
if(var3 != 0)
{
var9 = ((int *) arg3)[4];
var12 = avcDecodeYCbCr (arg1, var9);
var13 = ((int *) arg2)[4];
var14 = var12;
((int *) (var4 + (var13 << 4)))[1073741822] = 0;
invalidateCsc (var4);
var17 = ((int *) arg3)[5];
if((((0x003FFFFF < ((var14 >> 0) & 0x1FFFFFFF))) ^ 1) == 0)
{
sceKernelDcacheWritebackInvalidateRange (var14, var17);
}
var1 = sceMpegbase_BEA18F91 (var4);
ra = ((int *) sp)[4];
}
else
{
ra = ((int *) sp)[4];
}
var5 = ((int *) sp)[3];
var6 = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x20;
return var1;
}
int nalCpy (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
var1 = arg4;
var2 = arg6;
var3 = arg2;
var4 = ((int *) arg6)[5];
var5 = 0x80618007;
if(((arg5 < 0x07)) == 0)
{
label18:
ra = ((int *) sp)[5];
}
else
{
var6 = ((int *) ((arg5 << 2) + 0x000076A8))[0];
var5 = 0x80618007;
if(!(((var6 < (var4 + var1))) == 0))
goto label18;
var12 = ((int *) var2)[4];
var15 = avcDecodeYCbCr (arg1, var12);
var16 = ((int *) var2)[5];
((int *) var3)[0] = arg3;
((int *) var3)[1] = (var15 + var16);
((int *) var3)[2] = var1;
((int *) var3)[3] = 0;
while (1) {
var19 = sub_049E0 (var3);
var5 = var19;
if(var19 != 0)
break;
var20 = ((int *) var3)[3];
var21 = ((int *) var3)[2];
var22 = ((int *) var3)[0];
var23 = ((int *) var3)[1];
((int *) var3)[2] = (var21 - var20);
var24 = ((int *) var2)[5];
((int *) var3)[0] = (var22 + var20);
((int *) var2)[5] = (var24 + var20);
var25 = ((int *) var3)[4];
var26 = ((int *) var3)[5];
((int *) var3)[1] = (var23 + var20);
if(((var25 < var26)) != 0)
break;
var27 = ((int *) var3)[3];
var28 = ((int *) var3)[2];
ra = ((int *) sp)[5];
if(!(((var27 < var28)) == 0))
{
var31 = sub_047D4 (arg1, var3, var2);
var32 = var31;
if(!(var31 != 0))
{
((int *) var3)[4] = 0;
var32 = 0;
var33 = ((int *) var3)[6];
var34 = ((int *) var33)[0];
((int *) var3)[5] = var34;
}
var5 = var32;
if(var32 == 0)
continue;
ra = ((int *) sp)[5];
}
goto label19;
}
goto label18;
}
label19:
return var5;
}
int sub_049E0 (int arg1){
var1 = ((int *) arg1)[4];
var2 = ((int *) arg1)[5];
var3 = ((int *) arg1)[6];
var4 = arg1;
((int *) arg1)[3] = 0;
var5 = 0;
var6 = ((int *) var4)[0];
var7 = ((int *) var4)[1];
if(!(((var1 < var2)) == 0))
{
var8 = ((int *) var4)[2];
if(!(var8 <= 0))
{
var9 = ((int *) var4)[3];
while (1) {
var10 = var8 - var9;
var11 = (((var10 < 0x00000FF0))) ? var10 : 0x00000FF0;
var12 = (var3 + 4) + (var1 << 4);
((int *) var12)[2] = (var12 + 0x10);
var5 = 0;
((int *) var12)[0] = var6;
var6 = var6 + 0x00000FF0;
((int *) var12)[1] = var7;
if(((var11 < 0x00001000)) == 0)
{
var5 = 0x806101FE;
((int *) var12)[3] = 0;
}
else
{
((int *) var12)[3] = var11;
var7 = var7 + 0x00000FF0;
var13 = ((int *) var4)[4];
var14 = ((int *) var4)[3];
var15 = ((int *) var4)[5];
var16 = var13 + 1;
var17 = var14 + var11;
var1 = var16;
((int *) var4)[3] = var17;
((int *) var4)[4] = var16;
if(((var16 < var15)) == 0)
break;
var8 = ((int *) var4)[2];
if(!(((var17 < var8)) != 0))
break;
var9 = ((int *) var4)[3];
continue;
}
}
}
}
return var5;
}
int mpegMallocAvcEsBuf (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = 0;
((int *) sp)[2] = ra;
((int *) sp)[0] = s0;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = 0;
if(!(var5 != 0))
{
var7 = ((int *) var2)[411];
waitSema ();
var10 = ((int *) var2)[415];
var11 = 0;
if(!(var10 <= 0))
{
var12 = 0 + var2;
while (1) {
var13 = ((unsigned char *) var12)[1664];
if(var13 == 0)
break;
var11 = var11 + 1;
if(((var11 < var10)) != 0)
{
var12 = var11 + var2;
continue;
}
else
{
}
goto label15;
}
var1 = var11 + 1;
((char *) var12)[1664] = 1;
}
label15:
var14 = ((int *) var2)[411];
signalSema ();
var6 = var1;
}
ra = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int mpegFreeAvcEsBuf (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var11 = ((int *) var2)[411];
waitSema ();
if(var1 <= 0)
{
label9:
var6 = 0x806101FE;
}
else
{
var14 = ((int *) var2)[415];
if(((var14 < var1)) != 0)
goto label9;
((char *) (var1 + var2))[1663] = 0;
}
var15 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
else
{
var7 = var6;
}
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int avcDecodeYCbCr (int arg1, int arg2){
var1 = *arg1;
if(arg2<=0)return arg2;
if(*arg1[415]<arg2)return arg2;
if(((unsigned char *) (arg2 + var1))[1663]!=1)return arg2;
return *arg1[416+arg2];
}
int mpegQueryAtracEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
#ifdef VSH
if(*arg1[414] == 3){
*arg2 = 0x00001040;
*arg3 = 0x00008000;
}else{
*arg2 = 0x00000840;
*arg3 = 0x00002000;
}
#else
*arg2 = 0x00000840;
*arg3 = 0x00002000;
#endif
return 0;
}
#ifdef VSH
int mpeg_988E9E12 (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
var1 = 0;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[7] = s7;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
if(!(arg1 <= 0))
{
while (1) {
var2 = var1 << 2;
var3 = var2 + arg2;
var4 = ((unsigned char *) var3)[0];
var5 = *((int *) 0x0000A278);
var6 = *((int *) 0x0000A27C);
var7 = *((int *) 0x0000A26C);
var8 = var6 << 0x07;
var9 = MAX ((var4 - var5), 0);
var10 = ((unsigned char *) var3)[1];
var11 = *((int *) 0x0000A270);
var12 = ((unsigned char *) var3)[2];
var13 = var10 - var8;
var14 = *((int *) 0x0000A254);
var15 = var12 - var8;
var16 = var2 + arg3;
var17 = *((int *) 0x0000A258);
var18 = *((int *) 0x0000A260);
var19 = *((int *) 0x0000A264);
var20 = *((int *) 0x0000A274);
var21 = *((int *) 0x0000A25C);
var22 = *((int *) 0x0000A268);
var1 = var1 + 1;
var23 = ((var7 * var9) + (var11 * var13)) + (var20 * var15);
var24 = ((var14 * var9) + (var17 * var13)) + (var21 * var15);
var25 = ((var18 * var9) + (var19 * var13)) + (var22 * var15);
var26 = MAX (((var23 + ((var23 >> 0x1F) >> 0x19)) >> 0x07), 0);
var27 = MAX (((var24 + ((var24 >> 0x1F) >> 0x19)) >> 0x07), 0);
var28 = MAX (((var25 + ((var25 >> 0x1F) >> 0x19)) >> 0x07), 0);
((char *) var16)[0] = (!(((var27 < 0x00000100))) ? 0xFF : var27);
((char *) var16)[1] = (!(((var28 < 0x00000100))) ? 0xFF : var28);
((char *) var16)[2] = (!(((var26 < 0x00000100))) ? 0xFF : var26);
var29 = ((unsigned char *) var3)[3];
((char *) var16)[3] = var29;
if(((var1 < arg1)) != 0)
continue;
break;
}
}
var30 = ((int *) sp)[7];
var31 = ((int *) sp)[6];
var32 = ((int *) sp)[5];
var33 = ((int *) sp)[4];
var34 = ((int *) sp)[3];
var35 = ((int *) sp)[2];
var36 = ((int *) sp)[1];
var37 = ((int *) sp)[0];
sp = sp + 0x20;
return 0;
}
#endif
int mpegQueryPcmEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x00000140;
*arg3 = 0x00000140;
return 0;
}
#ifdef VSH
int mpeg_11CAB459 (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x00019100;
*arg3 = 0x0002A300;
return 0;
}
#endif
int mpegQueryUserdataEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x000A0000;
*arg3 = 0x000A0000;
return 0;
}
int sub_04CD8 (int arg1){
return (((be2(arg1+2)&0x03FF)*8)+8);
}
int getChar (int arg1){
return (((unsigned char *) arg1)[0] & 0xF);
}
int sub_04D0C (int arg1){
return (be3(arg1+1) >> 0x17);
}
#ifdef VSH
void sub_06360 (int arg1, int arg2){
if(arg2){
((unsigned char *) arg1)[1] |= 0xFFFFFF80;
}else{
((unsigned char *) arg1)[1] &= 0x7F;
}
return;
}
#endif
int sub_04D2C (int arg1){
return (be3(arg1+1) & 0x001FFFFF);
}
int sub_04D4C (int arg1){
var1 = ((unsigned char *) arg1)[3];
return var1;
}
int sub_04D54 (int arg1, int arg2){
if(!(((arg2 < ((unsigned char *) arg1)[3])) == 0))
return (arg1 + (arg2 << 2)) + 4;
return 0;
}
int sub_04D78 (int arg1){
return (arg1 + 14);
}
int sub_04D80 (int arg1){
return ((*arg1 + (*arg1[9] * 0x00000644)) + 0x28);
}
void dummy (){
return;
}
#ifdef VSH
void initVSH (){
*((int *) 0x0000A27C) = 1;
*((int *) 0x0000A254) = 0x95;
*((int *) 0x0000A25C) = 0xCC;
*((int *) 0x0000A264) = 0xFFFFFFCE;
*((int *) 0x0000A268) = 0xFFFFFF98;
*((int *) 0x0000A26C) = 0x95;
*((int *) 0x0000A270) = 0x00000102;
*((int *) 0x0000A278) = 0x10;
*((int *) 0x0000A258) = 0;
*((int *) 0x0000A260) = 0x95;
*((int *) 0x0000A274) = 0;
return;
}
#endif
int mpegNextAvcRpAu (int arg1, int arg2){
sp = sp + 0xFFFFFF90;
((int *) sp)[21] = s5;
((int *) sp)[19] = s3;
var1 = arg2;
((int *) sp)[16] = s0;
((int *) sp)[25] = ra;
((int *) sp)[24] = fp;
((int *) sp)[23] = s7;
((int *) sp)[22] = s6;
((int *) sp)[20] = s4;
((int *) sp)[18] = s2;
((int *) sp)[17] = s1;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
var7 = var5;
if(!(var5 != 0))
{
var8 = ((int *) var1)[2];
var7 = 0x806101FE;
if(!(var8 == 0xFFFFFFFF))
{
var9 = ((int *) var2)[411];
waitSema ();
var12 = ((int *) arg1)[0];
var13 = ((int *) var1)[0];
var16 = unRegistStream (var13, var12, 1);
var17 = var16;
if(var16 == 0xFFFFFFFF)
{
var52 = ((int *) var2)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var18 = ((int *) var1)[2];
var19 = sp;
var20 = sp + 0x30;
getAu (var18, 0, 1, var19, var20);
var23 = ((int *) sp)[12];
if(var23 == 1)
{
var24 = ((int *) sp)[7];
}
else
{
var6 = 0x80618004;
var24 = 0xFFFF0000;
}
var25 = ((int *) var17)[3];
var26 = 0;
if(var25 <= 0)
{
label31:
var39 = ((int *) var1)[12];
}
else
{
while (1) {
var27 = sp;
var28 = sp + 0x30;
getAu (var17, 0, 1, var27, var28);
var26 = var26 + 1;
if(var24 == 0xFFFF0000)
{
label28:
var36 = sp + 0x30;
sub_01EB4 (var17, 1, var36);
if(((var26 < var25)) != 0)
continue;
break;
}
else
{
var31 = ((int *) var2)[4];
var32 = ((int *) sp)[7];
var35 = sub_03F48 (var31, var24, var32);
if(!(var35 == 1))
goto label28;
var39 = ((int *) var1)[12];
}
goto label32;
}
goto label31;
}
label32:
((int *) var1)[4] = 0x00007FFF;
((int *) var1)[12] = ((var39 & 0xFFFFFFFB) | (0 & 1));
((int *) var1)[11] = 0;
var40 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
}
}
ra = ((int *) sp)[25];
var43 = ((int *) sp)[24];
var44 = ((int *) sp)[23];
var45 = ((int *) sp)[22];
var46 = ((int *) sp)[21];
var47 = ((int *) sp)[20];
var48 = ((int *) sp)[19];
var49 = ((int *) sp)[18];
var50 = ((int *) sp)[17];
var51 = ((int *) sp)[16];
sp = sp + 0x70;
return var7;
}
#ifdef VSH
int mpeg_B27711A8 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFA0;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
var1 = arg3;
((int *) sp)[18] = s2;
var2 = arg4;
((int *) sp)[17] = s1;
var3 = arg2;
((int *) sp)[16] = s0;
((int *) sp)[22] = ra;
((int *) sp)[21] = s5;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
if(var7 == 0)
{
var14 = ((int *) var4)[411];
waitSema ();
var17 = ((int *) arg1)[0];
var18 = ((int *) var3)[0];
var21 = unRegistStream (var18, var17, 1);
if(var21 == 0xFFFFFFFF)
{
label11:
var75 = ((int *) var4)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var22 = ((int *) var3)[2];
if(var22 == 0xFFFFFFFF)
goto label11;
var23 = var1;
if(var1 != 0)
{
label17:
var59 = sp;
var60 = sp + 0x30;
getAu (var22, var23, 1, var59, var60);
var63 = ((int *) sp)[12];
if(var63 != 1)
{
var71 = ((int *) sp)[8];
var72 = ((int *) var4)[411];
signalSema ();
var7 = 0x80618004;
}
else
{
var64 = ((int *) sp)[8];
var65 = ((int *) sp)[7];
if(((var64 < 0x00000801)) == 0)
{
var68 = ((int *) var4)[411];
signalSema ();
var7 = 0x80618007;
}
else
{
var26 = var2 + 8;
strncpy (var26, var65, var64);
((int *) var2)[1] = 0;
((int *) var2)[0] = 0;
label36:
var37 = ((int *) var4)[3];
label37:
if(var37 == 0)
{
var43 = sub_063D0 (var26);
var46 = sub_063A4 (var43);
var49 = sub_063D0 (var26);
var52 = sub_063AC (var49, (var46 + 0xFFFFFFFF));
sub_06360 (var52, 0);
}
var38 = ((int *) var4)[411];
signalSema ();
var7 = var7;
}
}
}
else
{
var24 = ((int *) var3)[4];
var25 = 0x00007FFF;
var26 = var2 + 8;
if(var24 == 0x00007FFF)
{
var23 = 0;
goto label17;
}
else
{
((int *) var2)[0] = var24;
var27 = var26;
var28 = ((int *) var3)[3];
var29 = ((int *) var3)[11];
var30 = var28 | var26;
var31 = var30 & 3;
((int *) var2)[1] = var29;
var32 = var28 + 0x00000800;
if(var31 == 0)
{
while (1) {
var55 = ((int *) var28)[0];
var56 = ((int *) var28)[1];
var57 = ((int *) var28)[2];
var58 = ((int *) var28)[3];
((int *) var27)[0] = var55;
var28 = var28 + 0x10;
var27 = var27 + 0x10;
((int *) var27)[1073741821] = var56;
((int *) var27)[1073741822] = var57;
((int *) var27)[1073741823] = var58;
if(var28 != var32)
continue;
break;
}
var37 = ((int *) var4)[3];
}
else
{
while (1) {
var33 = LWL (var28, var30, 3);
var30 = LWR (var28, var33, 0);
var34 = LWL (var28, var31, 0x07);
var31 = LWR (var28, var34, 4);
var35 = LWL (var28, var25, 0x0B);
var25 = LWR (var28, var35, 8);
var36 = LWL (var28, var32, 0x0F);
var32 = LWR (var28, var36, 0x0C);
SWL (var27, var30, 3);
SWR (var27, var30, 0);
SWL (var27, var31, 0x07);
SWR (var27, var31, 4);
SWL (var27, var25, 0x0B);
SWR (var27, var25, 8);
SWL (var27, var32, 0x0F);
SWR (var27, var32, 0x0C);
var28 = var28 + 0x10;
var27 = var27 + 0x10;
if(var28 != var32)
continue;
break;
}
goto label36;
}
goto label37;
}
}
}
}
ra = ((int *) sp)[22];
var8 = ((int *) sp)[21];
var9 = ((int *) sp)[20];
var10 = ((int *) sp)[19];
var11 = ((int *) sp)[18];
var12 = ((int *) sp)[17];
var13 = ((int *) sp)[16];
sp = sp + 0x60;
return var7;
}
#endif
int mpegChangeGetAvcAuMode (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg3;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[5] = ra;
((int *) sp)[3] = s3;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var13 = ((int *) var3)[411];
waitSema ();
var16 = ((int *) arg1)[0];
var17 = ((int *) var2)[0];
var20 = unRegistStream (var17, var16, 1);
if(var20 == 0xFFFFFFFF)
{
label11:
var28 = ((int *) var3)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
var21 = ((int *) var2)[2];
if(var21 == 0xFFFFFFFF)
goto label11;
if(var1 == 0)
{
var27 = ((int *) var2)[12];
var26 = (var27 & 0xFFFFFFFD) | (0 & 1);
label20:
((int *) var2)[12] = var26;
}
else
{
if(var1 == 2)
{
var25 = ((int *) var2)[12];
var26 = var25 | 2;
goto label20;
}
else
{
var7 = 0x806101FE;
}
}
var22 = ((int *) var3)[411];
signalSema ();
var6 = var7;
}
}
ra = ((int *) sp)[5];
var8 = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return var6;
}
int mpegChangeGetAuMode (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg3;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[5] = ra;
((int *) sp)[3] = s3;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var13 = ((int *) var3)[411];
waitSema ();
var16 = ((int *) var2)[0];
var17 = ((int *) arg1)[0];
var20 = unRegistStream (var16, var17, 1);
if(var20 == 0xFFFFFFFF)
{
var27 = ((int *) var3)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
if(var1 == 0)
{
var26 = ((int *) var2)[12];
var25 = (var26 & 0xFFFFFFFE) | (0 & 1);
label19:
((int *) var2)[12] = var25;
}
else
{
if(var1 == 1)
{
var24 = ((int *) var2)[12];
var25 = var24 | 1;
goto label19;
}
else
{
var7 = 0x806101FE;
}
}
var21 = ((int *) var3)[411];
signalSema ();
var6 = var7;
}
}
ra = ((int *) sp)[5];
var8 = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return var6;
}
void sceMpegQueryStreamOffset (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryStreamOffset (arg1, arg2, arg3);
}
void sceMpegQueryStreamSize (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryStreamSize (arg1, arg2);
}
void sceMpegInit (){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegInit ();
}
void sceMpegFinish (){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFinish ();
}
void sceMpegQueryMemSize (){
if(checkThreadStack()>=0x3F0)return 0x80618008;
#ifdef VSH
return mpegQueryMemSize (arg1);
#else
return mpegQueryMemSize (0);
#endif
}
void sceMpeg_42C679F6 (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryMemSize (arg1);
}
void sceMpegCreate (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
if(checkThreadStack()>=0x3E0)return 0x80618008;
#ifdef VSH
return mpegCreate (arg1, arg2, arg3, arg4, arg5, arg6, arg7);
#else
return mpegCreate (arg1, arg2, arg3, arg4, arg5, 0, arg7);
#endif
}
void sceMpeg_75E21135 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegCreate (arg1, arg2, arg3, arg4, arg5, arg6, arg7);
}
void sceMpegDelete (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegDelete (arg1);
}
void sceMpegRegistStream (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0;
return mpegRegistStream (arg1, arg2, arg3);
}
void sceMpegUnRegistStream (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegUnRegistStream (arg1, arg2);
}
void sceMpegMallocAvcEsBuf (int arg1){
if(checkThreadStack()>=0x3F0)return 0;
return mpegMallocAvcEsBuf (arg1);
}
void sceMpegFreeAvcEsBuf (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFreeAvcEsBuf (arg1, arg2);
}
void sceMpegQueryAtracEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryAtracEsSize (arg1, arg2, arg3);
}
void sceMpegQueryPcmEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryPcmEsSize (arg1, arg2, arg3);
}
void sceMpegInitAu (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegInitAu (arg1, arg2, arg3);
}
void sceMpegChangeGetAvcAuMode (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegChangeGetAvcAuMode (arg1, arg2, arg3);
}
void sceMpegChangeGetAuMode (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegChangeGetAuMode (arg1, arg2, arg3);
}
void sceMpegNextAvcRpAu (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegNextAvcRpAu (arg1, arg2);
}
void sceMpegGetAvcAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAvcAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetPcmAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetPcmAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetAtracAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAtracAu (arg1, arg2, arg3, arg4);
}
void sceMpegFlushStream (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushStream (arg1, arg2);
}
void sceMpegFlushAllStream (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushAllStream (arg1);
}
void sceMpegAvcDecode (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecode (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcDecodeDetail (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeDetail (arg1, arg2);
}
void sceMpegAvcDecodeMode (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeMode (arg1, arg2);
}
void sceMpegAvcDecodeStop (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecodeStop (arg1, arg2, arg3, arg4);
}
void sceMpegAvcDecodeFlush (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeFlush (arg1);
}
void sceMpegAvcQueryYCbCrSize (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcQueryYCbCrSize (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcInitYCbCr (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcInitYCbCr (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcDecodeYCbCr (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecodeYCbCr (arg1, arg2, arg3, arg4);
}
void sceMpegAvcDecodeStopYCbCr (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeStopYCbCr (arg1, arg2, arg3);
}
void sceMpegAvcCsc (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcCsc (arg1, arg2, arg3, arg4, arg5);
}
void sceMpeg_0558B075 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_0558B075 (arg1, arg2, arg3);
}
void sceMpegAtracDecode (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
#ifndef VSH
if(*arg1[414]!=1)
#endif
return mpegAtracDecode (arg1, arg2, arg3, arg4);
return 0x806101FE;
}
void sceMpegQueryUserdataEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryUserdataEsSize (arg1, arg2, arg3);
}
void sceMpegQueryUserdataEsSize2 (int arg1, int arg2, int arg3, int arg4){//sceMpegQueryUserdataEsSize
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegQueryUserdataEsSize2 (arg1, arg2, arg3, arg4);
}
void sceMpegGetAvcEsAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAvcEsAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetAvcNalAu (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegGetAvcNalAu (arg1, arg2, arg3);
}
void sceMpegRingbufferQueryMemSize (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferQueryMemSize (arg1);
}
void sceMpegRingbufferQueryPackNum (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferQueryPackNum (arg1);
}
void sceMpegRingbufferConstruct (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegRingbufferConstruct (arg1, arg2, arg3, arg4, arg5, arg6);
}
void sceMpegRingbufferDestruct (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferDestruct ();
}
void sceMpegRingbufferPut (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferPut (arg1, arg2, arg3);
}
void sceMpegRingbufferAvailableSize (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferAvailableSize (arg1);
}
#ifdef VSH
void sceMpeg_11CAB459 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_11CAB459 (arg1, arg2, arg3);
}
void sceMpeg_C2F02CDD (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_C2F02CDD (arg1, arg2, arg3, arg4);
return;
}
void mpeg_5AC68A41 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return sub_0445C (arg1, arg2, arg3, arg4);
}
void sceMpegFlushAu (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushAu (arg1, arg2);
}
void sceMpeg_B27711A8 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_B27711A8 (arg1, arg2, arg3, arg4);
}
void sceMpeg_D4DD6E75 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_D4DD6E75 (arg1, arg2, arg3, arg4);
}
void sceMpeg_C345DED2 (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0;
return mpeg_C345DED2 (arg1, arg2);
}
void sceMpeg_AB0E9556 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return avcDecodeDetail (arg1, arg2, arg3);
}
void sceMpegAvcDecodeDetail2 (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeDetail2 (arg1, arg2);
}
void sceMpegAvcDecodeGetDecodeSEI (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeGetDecodeSEI (arg1, arg2);
}
void sceMpeg_AE693D0B (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_AE693D0B (arg1, arg2);
}
void sceMpegAvcCscMode (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcCscMode (arg1, arg2);
}
void sceMpeg_E49EB257 (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_E49EB257 (arg1);
}
void sceMpegAvcCscInfo (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcCscInfo (arg1, arg2, arg3, arg4);
}
void sceMpeg_988E9E12 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_988E9E12 (arg1, arg2, arg3);
}
#endif
int createSema (int arg1, int arg2, int arg3, int arg4){
arg4[0] = sceKernelCreateSema (arg3, 0, arg1, arg2, 0);
return arg4[0]<0?0x80000041:0;
}
int deleteSema (){
return sceKernelDeleteSema()?0x80000041:0;
}
void waitSema (){
sceKernelWaitSema (arg1, 1, 0);
}
void signalSema (){
sceKernelSignalSema (arg1, 1);
}
int checkThreadStack(){
return sceKernelcheckThreadStack();
}
void initAudioCodec (){
pVideoCodecStruct = &videoCodecStruct;
memset (pVideoCodecStruct, 0, 0x60);
*((int *) 0x7840) = 0;//0xA340 VSH offset
*((int *) 0x7844) = 0;//0xA344
*((int *) 0x7848) = 0;//0xA348
*((int *) 0x784C) = 0;//0xA34C
*((int *) 0x7850) = 0;//0xA350
*((int *) 0x7854) = 0;//0xA354
*((int *) 0x7858) = 0;//0xA358
*((int *) 0x785C) = 0;//0xA35C
*((int *) 0x7860) = 0;//0xA360
*((int *) 0x7864) = 0;//0xA364
pVideoCodecStruct[4] = 0x7840;//0xA340
*((int *) 0x00007798) = pVideoCodecStruct[4];//0xA284
var7 = videocodecOpen (sp);
var8 = var7;
if(var7 == 0)
{
var10 = *((int *) pVideoCodecStruct);
var13 = sceVideocodecGetEDRAM (var10, 0);
var8 = 0;
if(!(var13 == 0))
{
var14 = *((int *) pVideoCodecStruct);
var8 = var13;
((int *) var14)[5] = 0;
}
}
ra = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
int videocodecOpen (int arg1){
ret = sceVideocodecOpen (pVideoCodecStruct, 0);
*arg1 = pVideoCodecStruct[6];
return ret;
}
int sub_06520 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7, int arg8){
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
var1 = arg1;
var2 = *((int *) mpegAvcSema);
((int *) sp)[0] = s0;
var3 = arg2;
((int *) sp)[9] = ra;
((int *) sp)[8] = fp;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var4 = arg4;
((int *) sp)[1] = s1;
var5 = arg3;
waitSema ();
((int *) var3)[0] = 0;
((int *) var3)[1] = 0;
((int *) var3)[2] = 0;
((int *) var3)[3] = 0;
((int *) var3)[4] = 0;
((int *) var3)[5] = 0;
((int *) var3)[6] = 0;
((int *) var3)[7] = 0;
((int *) var3)[8] = 0;
((int *) var3)[9] = 0;
memset (var5, 0, 0xB0);
memset (var4, 0, 0x64);
((int *) var1)[4] = var3;
((int *) var1)[11] = var5;
((int *) var1)[12] = var4;
((int *) var1)[15] = 4;
((int *) var1)[14] = arg5;
var14 = sceVideocodecOpen (var1, 0);
var15 = var14;
if(var14 != 0)
{
label23:
var29 = *((int *) mpegAvcSema);
signalSema ();
var32 = var15;
}
else
{
var16 = ((int *) arg6)[0];
((int *) var1)[7] = arg7;
((int *) var1)[5] = var16;
var19 = sceVideocodecInit (var1, 0);
var15 = var19;
if(var19 != 0)
goto label23;
var22 = sceVideocodecGetVersion (var1, 0);
var15 = var22;
if(var22 != 0)
goto label23;
((int *) var1)[16] = arg8;
var23 = ((int *) sp)[12];
((int *) var1)[17] = var23;
var24 = ((int *) sp)[13];
((int *) var1)[18] = var24;
var25 = ((int *) sp)[14];
((int *) var1)[19] = var25;
var28 = sceVideocodecSetMemory (var1, 0);
var15 = var28;
if(!(var28 == 0))
goto label23;
var42 = *((int *) mpegAvcSema);
signalSema ();
var32 = 0;
}
ra = ((int *) sp)[9];
var33 = ((int *) sp)[8];
var34 = ((int *) sp)[7];
var35 = ((int *) sp)[6];
var36 = ((int *) sp)[5];
var37 = ((int *) sp)[4];
var38 = ((int *) sp)[3];
var39 = ((int *) sp)[2];
var40 = ((int *) sp)[1];
var41 = ((int *) sp)[0];
sp = sp + 0x30;
return var32;
}
void videocodecReleaseEDRAM (){
var1 = *((int *) pVideoCodecStruct);
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceVideocodecReleaseEDRAM (var1);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
#ifdef VSH
int sub_08588 (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = videocodecOpen (arg1);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
#endif
int getVideoEdram (){
return pVideoCodecStruct[5];
}
int sub_066D4 (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceVideocodecDecode (arg1, 0);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int videocodecStop (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceVideocodecStop (arg1, 0);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
void mpegDelete (int arg1){
waitSema (mpegAvcSema);
sceVideocodecDelete (arg1, 0);
}
void sub_067E4 (int arg1, int arg2){//sub_087B8
waitSema (mpegAvcSema);
arg1[22] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
#ifdef VSH
int sub_086F8 (int arg1, int arg2){
waitSema (mpegAvcSema);
arg1[20] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
int sub_08758 (int arg1, int arg2){
waitSema (mpegAvcSema);
arg1[21] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
int sub_08818 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFD0;
((int *) sp)[10] = s6;
((int *) sp)[7] = s3;
var1 = arg4;
((int *) sp)[5] = s1;
var2 = arg1;
((int *) sp)[4] = s0;
var3 = arg3;
((int *) sp)[11] = ra;
((int *) sp)[9] = s5;
((int *) sp)[8] = s4;
((int *) sp)[6] = s2;
var4 = *((int *) mpegAvcSema);
var5 = ((int *) arg2)[12];
var6 = ((int *) arg2)[4];
waitSema ();
var9 = ((unsigned char *) var3)[0];
if(!((var9 & 2) == 0))
{
var10 = ((int *) var3)[6];
var11 = ((int *) var2)[2];
var12 = ((int *) var2)[0];
var13 = var10 + var11;
((int *) var2)[1] = var13;
var14 = ((int *) var3)[7];
var15 = var13 + var14;
if((var12 & 2) == 0)
{
label12:
var18 = ((unsigned char *) var3)[0];
}
else
{
var16 = ((int *) var2)[3];
if(((var15 < var16)) == 0)
{
var17 = ((int *) var6)[8];
}
else
{
((int *) var2)[3] = var15;
((int *) var2)[4] = var15;
var17 = ((int *) var6)[8];
}
if(var17 == 0)
{
var18 = ((unsigned char *) var3)[0];
}
else
{
((int *) var2)[0] = ((var12 & 0xFFFFFFFD) | (0 & 1));
goto label12;
}
}
var19 = var2 + 0x14;
if((var18 & 1) != 0)
{
var32 = sub_09554 (var19);
if(var32 <= 0)
{
sub_093B8 (var19, 1);
var33 = ((int *) var6)[9];
}
else
{
var33 = ((int *) var6)[9];
}
if(var33 == 1)
{
var35 = sp;
sub_094A0 (var19, 0, var35);
var38 = ((int *) var1)[0];
var39 = ((int *) sp)[0];
var40 = var6;
((int *) var6)[4] = var38;
var41 = var39;
var42 = ((int *) var1)[1];
((int *) var6)[5] = var42;
var43 = ((int *) var1)[2];
((int *) var6)[6] = var43;
var44 = ((int *) var1)[3];
((int *) var6)[7] = var44;
while (1) {
var45 = ((int *) var40)[0];
var46 = ((int *) var40)[1];
var47 = ((int *) var40)[2];
var48 = ((int *) var40)[3];
((int *) var41)[0] = var45;
var40 = var40 + 0x10;
var41 = var41 + 0x10;
((int *) var41)[1073741821] = var46;
((int *) var41)[1073741822] = var47;
((int *) var41)[1073741823] = var48;
if(var40 != (var6 + 0x20))
continue;
break;
}
var49 = ((int *) var40)[0];
var50 = ((int *) var40)[1];
((int *) var41)[0] = var49;
((int *) var41)[1] = var50;
var51 = var39 + 0x28;
var52 = var5;
while (1) {
var53 = ((int *) var52)[0];
var54 = ((int *) var52)[1];
var55 = ((int *) var52)[2];
var56 = ((int *) var52)[3];
((int *) var51)[0] = var53;
var52 = var52 + 0x10;
var51 = var51 + 0x10;
((int *) var51)[1073741821] = var54;
((int *) var51)[1073741822] = var55;
((int *) var51)[1073741823] = var56;
if(var52 != (var5 + 0x60))
continue;
break;
}
var57 = ((int *) var52)[0];
((int *) var51)[0] = var57;
((int *) var39)[35] = var15;
var60 = sub_09554 (var19);
sub_09414 (var19, 1, var60);
var34 = ((int *) var2)[1];
}
else
{
var34 = ((int *) var2)[1];
}
((int *) var2)[2] = var34;
}
}
var20 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[11];
var23 = ((int *) sp)[10];
var24 = ((int *) sp)[9];
var25 = ((int *) sp)[8];
var26 = ((int *) sp)[7];
var27 = ((int *) sp)[6];
var28 = ((int *) sp)[5];
var29 = ((int *) sp)[4];
sp = sp + 0x30;
return 0;
}
int sub_08A18 (int arg1, int arg2){
sp = sp + 0xFFFFFFB0;
((int *) sp)[13] = s5;
var1 = arg1;
((int *) sp)[10] = s2;
var2 = arg2;
((int *) sp)[17] = ra;
((int *) sp)[16] = fp;
((int *) sp)[15] = s7;
((int *) sp)[14] = s6;
((int *) sp)[12] = s4;
((int *) sp)[11] = s3;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
var3 = *((int *) mpegAvcSema);
var4 = ((int *) arg2)[4];
waitSema ();
var7 = ((int *) var4)[8];
var8 = var1 + 0x2C;
var9 = var2;
((int *) sp)[1] = var7;
while (1) {
var10 = ((int *) var9)[0];
var11 = ((int *) var9)[1];
var12 = ((int *) var9)[2];
var13 = ((int *) var9)[3];
((int *) var8)[0] = var10;
var9 = var9 + 0x10;
var8 = var8 + 0x10;
((int *) var8)[1073741821] = var11;
((int *) var8)[1073741822] = var12;
((int *) var8)[1073741823] = var13;
if(var9 != (var2 + 0x60))
continue;
break;
}
var14 = ((int *) sp)[1];
if(!(var14 <= 0))
{
((int *) sp)[3] = (var1 + 0x8C);
var15 = var1 + 0x0000012C;
var16 = var1;
((int *) sp)[4] = 0;
var17 = var1;
var18 = var15;
var19 = var14;
while (1) {
var20 = ((int *) var2)[14];
var21 = ((int *) sp)[4];
((int *) sp)[2] = 0xFFFFFFFF;
var22 = var20 + var21;
var23 = ((unsigned char *) var22)[0];
var24 = ((int *) sp)[2];
if(!((var23 & 2) == 0))
{
var25 = ((unsigned char *) var22)[32];
((int *) sp)[2] = var25;
var24 = ((int *) sp)[2];
}
var26 = var1 + 0x14;
if(((var24 < 0x07)) != 0)
{
var71 = sub_0948C (var26);
if(var71 != 0)
{
var27 = ((int *) var2)[21];
label47:
var28 = var4;
var29 = var16 + 0x8C;
var30 = ((int *) var27)[0];
((int *) var4)[4] = var30;
var31 = ((int *) var27)[1];
((int *) var4)[5] = var31;
var32 = ((int *) var27)[2];
((int *) var4)[6] = var32;
var33 = ((int *) var27)[3];
((int *) var4)[7] = var33;
while (1) {
var34 = ((int *) var28)[0];
var35 = ((int *) var28)[1];
var36 = ((int *) var28)[2];
var37 = ((int *) var28)[3];
((int *) var29)[0] = var34;
var28 = var28 + 0x10;
var29 = var29 + 0x10;
((int *) var29)[1073741821] = var35;
((int *) var29)[1073741822] = var36;
((int *) var29)[1073741823] = var37;
if(var28 != (var4 + 0x20))
continue;
break;
}
var38 = ((int *) var28)[0];
var39 = ((int *) var28)[1];
((int *) var29)[0] = var38;
((int *) var29)[1] = var39;
var40 = var18;
var41 = ((int *) var2)[12];
var42 = var41 + 0x60;
if(((var41 | var18) & 3) == 0)
{
while (1) {
var64 = ((int *) var41)[0];
var65 = ((int *) var41)[1];
var66 = ((int *) var41)[2];
var67 = ((int *) var41)[3];
((int *) var40)[0] = var64;
var41 = var41 + 0x10;
var40 = var40 + 0x10;
((int *) var40)[1073741821] = var65;
((int *) var40)[1073741822] = var66;
((int *) var40)[1073741823] = var67;
if(var41 != var42)
continue;
break;
}
var68 = ((int *) var41)[0];
((int *) var40)[0] = var68;
var50 = ((int *) sp)[4];
}
else
{
var43 = var42;
while (1) {
var44 = LWL (var41, var31, 3);
var31 = LWR (var41, var44, 0);
var45 = LWL (var41, var38, 0x07);
var38 = LWR (var41, var45, 4);
var46 = LWL (var41, var39, 0x0B);
var39 = LWR (var41, var46, 8);
var47 = LWL (var41, var42, 0x0F);
var42 = LWR (var41, var47, 0x0C);
SWL (var40, var31, 3);
SWR (var40, var31, 0);
SWL (var40, var38, 0x07);
SWR (var40, var38, 4);
SWL (var40, var39, 0x0B);
SWR (var40, var39, 8);
SWL (var40, var42, 0x0F);
SWR (var40, var42, 0x0C);
var41 = var41 + 0x10;
var40 = var40 + 0x10;
if(var41 != var43)
continue;
break;
}
var48 = LWL (var41, var43, 3);
var49 = LWR (var41, var48, 0);
SWL (var40, var49, 3);
SWR (var40, var49, 0);
label55:
var50 = ((int *) sp)[4];
}
}
else
{
var72 = sp;
sub_094F4 (var26, 1, var72);
var75 = ((int *) sp)[0];
var76 = sp;
if(!(var75 == 0))
{
var77 = ((int *) var75)[35];
var78 = ((int *) var1)[4];
if(((var78 < var77)) == 0)
{
sub_093B8 (var26, 1);
var136 = ((int *) var1)[0];
((int *) var1)[0] = (var136 | 4);
}
var76 = sp;
}
sub_094F4 (var26, 0, var76);
var81 = ((int *) sp)[0];
var82 = var16 + 0x8C;
var83 = var81;
if(var81 == 0)
{
var103 = ((int *) var2)[4];
var104 = ((int *) sp)[3];
var105 = (var103 | var104) & 3;
var106 = var103 + 0x20;
if(var105 == 0)
{
while (1) {
var130 = ((int *) var103)[0];
var131 = ((int *) var103)[1];
var132 = ((int *) var103)[2];
var133 = ((int *) var103)[3];
((int *) var104)[0] = var130;
var103 = var103 + 0x10;
var104 = var104 + 0x10;
((int *) var104)[1073741821] = var131;
((int *) var104)[1073741822] = var132;
((int *) var104)[1073741823] = var133;
if(var103 != var106)
continue;
break;
}
a0/* Invalid block 28 3 */ = ((int *) var103)[0];
var112 = ((int *) var103)[1];
((int *) var104)[0] = a0/* Invalid block 28 3 */;
((int *) var104)[1] = var112;
var115 = ((int *) var2)[12];
}
else
{
while (1) {
var107 = LWL (var103);
a1/* Invalid block 30 3 */ = LWR (var103, var107, 0);
var108 = LWL (var103, var106, 0x07);
var106 = LWR (var103, var108, 4);
var109 = LWL (var103, var105, 0x0B);
var105 = LWR (var103, var109, 8);
var110 = LWL (var103);
a0/* Invalid block 30 3 */ = LWR (var103, var110, 0x0C);
SWL (var104);
SWR (var104);
SWL (var104, var106, 0x07);
SWR (var104, var106, 4);
SWL (var104, var105, 0x0B);
SWR (var104, var105, 8);
SWL (var104);
SWR (var104);
var103 = var103 + 0x10;
var104 = var104 + 0x10;
if(var103 != var106)
continue;
break;
}
var111 = LWL (var103);
var112 = LWR (var103, var111, 0);
var113 = LWL (var103, var106, 0x07);
var114 = LWR (var103, var113, 4);
SWL (var104, var112, 3);
SWR (var104, var112, 0);
SWL (var104, var114, 0x07);
SWR (var104, var114, 4);
var115 = ((int *) var2)[12];
}
var116 = var15;
var117 = var115 + 0x60;
if(((var115 | var15) & 3) == 0)
{
while (1) {
var125 = ((int *) var115)[0];
var126 = ((int *) var115)[1];
var127 = ((int *) var115)[2];
var128 = ((int *) var115)[3];
((int *) var116)[0] = var125;
var115 = var115 + 0x10;
var116 = var116 + 0x10;
((int *) var116)[1073741821] = var126;
((int *) var116)[1073741822] = var127;
((int *) var116)[1073741823] = var128;
if(var115 != var117)
continue;
break;
}
var129 = ((int *) var115)[0];
((int *) var116)[0] = var129;
var97 = ((int *) sp)[1];
}
else
{
var118 = var117;
while (1) {
var119 = LWL (var115, var105, 3);
var105 = LWR (var115, var119, 0);
var120 = LWL (var115);
a0/* Invalid block 36 3 */ = LWR (var115, var120, 4);
var121 = LWL (var115, var112, 0x0B);
var112 = LWR (var115, var121, 8);
var122 = LWL (var115, var117, 0x0F);
var117 = LWR (var115, var122, 0x0C);
SWL (var116, var105, 3);
SWR (var116, var105, 0);
SWL (var116);
SWR (var116);
SWL (var116, var112, 0x0B);
SWR (var116, var112, 8);
SWL (var116, var117, 0x0F);
SWR (var116, var117, 0x0C);
var115 = var115 + 0x10;
var116 = var116 + 0x10;
if(var115 != var118)
continue;
break;
}
var123 = LWL (var115, var118, 3);
var124 = LWR (var115, var123, 0);
SWL (var116, var124, 3);
SWR (var116, var124, 0);
var97 = ((int *) sp)[1];
}
}
else
{
while (1) {
var84 = ((int *) var83)[0];
var85 = ((int *) var83)[1];
var86 = ((int *) var83)[2];
var87 = ((int *) var83)[3];
((int *) var82)[0] = var84;
var83 = var83 + 0x10;
var82 = var82 + 0x10;
((int *) var82)[1073741821] = var85;
((int *) var82)[1073741822] = var86;
((int *) var82)[1073741823] = var87;
if(var83 != (var81 + 0x20))
continue;
break;
}
var88 = ((int *) var83)[0];
var89 = ((int *) var83)[1];
((int *) var82)[0] = var88;
((int *) var82)[1] = var89;
var90 = var17 + 0x0000012C;
var91 = var81 + 0x28;
while (1) {
var92 = ((int *) var91)[0];
var93 = ((int *) var91)[1];
var94 = ((int *) var91)[2];
var95 = ((int *) var91)[3];
((int *) var90)[0] = var92;
var91 = var91 + 0x10;
var90 = var90 + 0x10;
((int *) var90)[1073741821] = var93;
((int *) var90)[1073741822] = var94;
((int *) var90)[1073741823] = var95;
if(var91 != (var81 + 0x88))
continue;
break;
}
var96 = ((int *) var91)[0];
((int *) var90)[0] = var96;
var97 = ((int *) sp)[1];
}
((int *) var16)[43] = var97;
var98 = ((int *) var1)[0];
if((var98 & 4) == 0)
{
((int *) var16)[44] = 0;
}
else
{
((int *) var16)[44] = 1;
var99 = ((int *) var1)[0];
((int *) var1)[0] = ((var99 & 0xFFFFFFFB) | (0 & 1));
}
var100 = ((int *) sp)[2];
var101 = ((int *) var1)[4];
var102 = ((unsigned char *) (var100 + 0x0000A18C))[0];
((int *) var1)[4] = (var101 + var102);
goto label55;
}
}
else
{
var27 = ((int *) var2)[21];
goto label47;
}
var51 = ((int *) sp)[3];
var19 = var19 + 0xFFFFFFFF;
((int *) sp)[4] = (var50 + 0x00000148);
var18 = var18 + 0x64;
var15 = var15 + 0x64;
((int *) sp)[3] = (var51 + 0x28);
var17 = var17 + 0x64;
var16 = var16 + 0x28;
if(var19 != 0)
continue;
break;
}
}
((int *) var1)[23] = (var1 + 0x0000012C);
((int *) var1)[15] = (var1 + 0x8C);
var52 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[17];
var55 = ((int *) sp)[16];
var56 = ((int *) sp)[15];
var57 = ((int *) sp)[14];
var58 = ((int *) sp)[13];
var59 = ((int *) sp)[12];
var60 = ((int *) sp)[11];
var61 = ((int *) sp)[10];
var62 = ((int *) sp)[9];
var63 = ((int *) sp)[8];
sp = sp + 0x50;
return 0;
}
int sub_08F70 (){
return 0x0000058C;
}
void sub_08F78 (int arg1, int arg2){
waitSema (mpegAvcSema);
*arg1 = arg2;
sub_09470 ((arg2 + 0x14), 0x90, 0x05, (arg2 + 0x000002BC));
signalSema (mpegAvcSema);
}
void sub_08FE0 (int arg1){
waitSema (mpegAvcSema);
var3 = arg1 + 0x14;
sub_093B8 (var3, sub_09498 (var3));
arg1[4] = 0xFFFFFFFF;
arg1[0] = 0x07;
arg1[3] = 0xFFFFFFFF;
arg1[1] = 0;
arg1[2] = 0;
signalSema (mpegAvcSema);
}
#endif
int initVideoCodec (int arg1){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
((int *) sp)[6] = ra;
*((int *) pAudioCodecStruct) = &audioCodecStruct;
memset (audioCodecStruct, 0, 0x6C);
var3 = sp;
var6 = audiocodecCheckNeedMem (var3, arg1, 0x00007940);
var7 = var6;
if(var6 == 0)
{
var10 = *((int *) pAudioCodecStruct);
var13 = sceAudiocodecGetEDRAM (var10, 0x00001000);
var7 = 0;
if(!(var13 == 0))
{
var14 = *((int *) pAudioCodecStruct);
var7 = var13;
((int *) var14)[3] = 0;
}
}
ra = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x20;
return var7;
}
int audiocodecCheckNeedMem (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
var1 = ((arg2 ^ 3) < 1);
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var2 = *((int *) pAudioCodecStruct);
var3 = (var1 << 1) + "(\\\";
var4 = (var1 << 2) + 0x000076CC;
if(!(arg3 == 0))
{
((int *) arg3)[0] = var1;
}
((int *) var2)[12] = 1;
var5 = *((int *) pAudioCodecStruct);
var6 = ((char *) var3)[0];
var7 = ((char *) var3)[1];
((char *) var5)[40] = var6;
((char *) var5)[41] = var7;
var8 = *((int *) pAudioCodecStruct);
var9 = LWL (var4, v0, 3);
var10 = LWR (var4, var9, 0);
SWL (var8, var10, 0x2F);
SWR (var8, var10, 0x2C);
var11 = *((int *) pAudioCodecStruct);
((int *) var11)[5] = 1;
var14 = sceAudiocodecCheckNeedMem (var11, 0x00001000);
var15 = *((int *) pAudioCodecStruct);
ra = ((int *) sp)[2];
var16 = ((int *) sp)[0];
var17 = ((int *) var15)[4];
((int *) arg1)[0] = var17;
var18 = ((int *) sp)[1];
sp = sp + 0x10;
return var14;
}
int audiocodecSetup (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var1 = arg1;
var2 = *((int *) mpegAtracSema);
((int *) sp)[6] = ra;
((int *) sp)[5] = s5;
((int *) sp)[2] = s2;
var3 = arg5;
((int *) sp)[1] = s1;
var4 = arg4;
((int *) sp)[0] = s0;
waitSema ();
((int *) var1)[3] = arg2;
((int *) var1)[12] = 1;
var7 = ((char *) var4)[0];
var8 = ((char *) var4)[1];
((char *) var1)[40] = var7;
((char *) var1)[41] = var8;
var9 = LWL (var3, var7, 3);
var10 = LWR (var3, var9, 0);
SWL (var1, var10, 0x2F);
SWR (var1, var10, 0x2C);
((int *) var1)[5] = 1;
var13 = sceAudiocodecCheckNeedMem (var1, 0x00001000);
var14 = var13;
if(var13 != 0)
{
label14:
var29 = *((int *) mpegAtracSema);
signalSema ();
var19 = var14;
}
else
{
var15 = ((int *) var1)[4];
if(((arg3 < var15)) == 0)
{
var28 = sceAudiocodecInit (var1, 0x00001000);
var14 = var28;
if(!(var28 == 0))
goto label14;
var32 = *((int *) mpegAtracSema);
signalSema ();
var19 = 0;
}
else
{
var16 = *((int *) mpegAtracSema);
signalSema ();
var19 = 0x807F00FF;
}
}
ra = ((int *) sp)[6];
var20 = ((int *) sp)[5];
var21 = ((int *) sp)[4];
var22 = ((int *) sp)[3];
var23 = ((int *) sp)[2];
var24 = ((int *) sp)[1];
var25 = ((int *) sp)[0];
sp = sp + 0x20;
return var19;
}
void audiocodecReleaseEDRAM (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = *((int *) pAudioCodecStruct);
var2 = ((int *) var1)[3];
if(var2 != 0)
{
sceAudiocodecReleaseEDRAM ();
ra = ((int *) sp)[0];
}
else
{
ra = ((int *) sp)[0];
}
sp = sp + 0x10;
return;
}
int sub_06AB4 (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAtracSema);
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
waitSema ();
var6 = audiocodecCheckNeedMem (arg1, arg2, 0);
var7 = *((int *) mpegAtracSema);
signalSema ();
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int getAudioNeededMem (int arg1){
if(arg1)*arg1 = *((int *) 0x00007940);//0x0000A440
return pAudioCodecStruct[3];
}
int audiocodecDecode (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = *((int *) mpegAtracSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceAudiocodecDecode (arg1, 0x00001000);
if(var6 == 0)
{
var13 = *((int *) mpegAtracSema);
signalSema ();
var10 = 0;
}
else
{
var7 = *((int *) mpegAtracSema);
signalSema ();
var10 = var6;
}
ra = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return var10;
}
#ifdef VSH
void sub_093B8 (int arg1, int arg2){
var1 = ((int *) arg1)[3];
var2 = arg1;
var3 = MIN (arg2, var1);
var4 = var3;
if(!(var3 <= 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var2)[1];
while (1) {
var7 = !(((var5 < (var6 + var4)))) ? var4 : (var5 - var6);
var8 = var6 + var7;
var4 = var4 - var7;
((int *) var2)[1] = var8;
if(var8 == var5)
{
((int *) var2)[1] = 0;
}
if(!(var4 > 0))
break;
var6 = ((int *) var2)[1];
continue;
}
}
((int *) var2)[3] = (var1 - var3);
return;
}
void sub_09414 (int arg1, int arg2, int arg3){
var1 = MIN (arg2, arg3);
var2 = arg1;
var3 = var1;
if(!(var1 <= 0)){
var4 = ((int *) arg1)[0];
var5 = ((int *) var2)[2];
while (1) {
var6 = !(((var4 < (var5 + var3)))) ? var3 : (var4 - var5);
var7 = var5 + var6;
var3 = var3 - var6;
((int *) var2)[2] = var7;
if(var7 == var4)
{
((int *) var2)[2] = 0;
}
if(!(var3 > 0))
break;
var5 = ((int *) var2)[2];
continue;
}
}
var8 = ((int *) var2)[3];
((int *) var2)[3] = (var8 + var1);
return;
}
void sub_09470 (int arg1, int arg2, int arg3, int arg4){
arg1[0] = arg3;
arg1[1] = 0;
arg1[2] = 0;
arg1[3] = 0;
arg1[4] = arg4;
arg1[5] = arg2;
return;
}
int sub_0948C (int arg1){
return ((arg1[3] < 1));
}
int sub_09498 (int arg1){
return arg1[3];
}
void sub_094A0 (int arg1, int arg2, int arg3){
var1 = 0xFFFFFFFF;
if(arg2 < 0)
{
((int *) arg3)[0] = 0;
}
else
{
var2 = ((int *) arg1)[2];
var3 = ((int *) arg1)[0];
var1 = 0;
if(var3 == 0)
{
__asm__ ("break 0x00007;");
}
var4 = ((int *) arg1)[5];
var5 = ((int *) arg1)[4];
((int *) arg3)[0] = (var5 + (var4 * ((arg2 + var2) % var3)));
}
return;
}
void sub_094F4 (int arg1, int arg2, int arg3){
var1 = 0xFFFFFFFF;
var2 = arg1;
if(arg2 < 0)
{
label8:
((int *) arg3)[0] = 0;
}
else
{
var3 = ((int *) arg1)[3];
if(!(((arg2 < var3)) != 0))
goto label8;
var4 = ((int *) var2)[1];
var5 = ((int *) var2)[0];
var1 = 0;
if(var5 == 0)
{
__asm__ ("break 0x00007;");
}
var6 = ((int *) var2)[5];
var7 = ((int *) var2)[4];
((int *) arg3)[0] = (var7 + (var6 * ((arg2 + var4) % var5)));
}
return;
}
int sub_09554 (int arg1){
var1 = ((int *) arg1)[3];
var2 = ((int *) arg1)[0];
return (var2 - var1);
}
#endif
int strncmp (int arg1, int arg2, int arg3){
if(arg3 <= 0)
{
var3 = 0;
}
else
{
var1 = ((unsigned char *) arg1)[0];
while (1) {
var2 = ((unsigned char *) arg2)[0];
arg3 = arg3 + 0xFFFFFFFF;
arg1 = arg1 + 1;
arg2 = arg2 + 1;
if(var1 != var2)
break;
if(arg3 > 0)
{
var1 = ((unsigned char *) arg1)[0];
continue;
}
else
{
var3 = 0;
}
goto label10;
}
var3 = !(((var1 < var2))) ? 1 : 0xFFFFFFFF;
}
label10:
return var3;
}
void strncpy (char*arg1, char*arg2, int arg3){
if(!arg1)return;
while(arg3<=0){
arg1[0] = arg2[0];
arg3--;
arg2++;
arg1++;
}
}
void memset (int arg1, int arg2, int arg3){
if(!(arg1 == 0))
{
var1 = arg1;
if(!(arg3 <= 0))
{
while (1) {
arg3 = arg3 + 0xFFFFFFFF;
((char *) var1)[0] = (arg2 & 0xFF);
var1 = var1 + 1;
if(arg3 > 0)
continue;
break;
}
}
}
return;
}
int strcmp (int arg1, int arg2){
if((((arg1 < 1)) | ((arg2 < 1))) == 0)
{
var2 = ((unsigned char *) arg1)[0];
var3 = ((char *) arg2)[0];
var4 = (char) var2;
var5 = arg2 + 1;
if(var4 == var3)
{
var7 = var4;
while (1) {
arg1 = arg1 + 1;
var1 = 0;
if(var7 == 0)
break;
var2 = ((unsigned char *) arg1)[0];
var8 = ((char *) var5)[0];
var5 = var5 + 1;
var9 = (char) var2;
var7 = var9;
if(var9 == var8)
continue;
var6 = ((char *) var5)[-1];
label10:
var1 = ((char) var2) - var6;
goto label13;
}
}
else
{
var6 = ((char *) var5)[-1];
goto label10;
}
}
else
{
var1 = 0;
if(!(arg1 == arg2))
{
var1 = (arg1) ? 1 : 0xFFFFFFFF;
}
}
label13:
return var1;
}
int abs (int arg1){
return MAX(arg1,-arg1);
}
int getStream (int arg1, int arg2){
var1 = 0x806101FE;
var2 = 0;
if(!(((arg1 < 0x13)) == 0))
{
var3 = arg1 << 3;
var4 = ((int *) (var3 + stream))[1];
if(var4 == 0xFFFF0000)
{
var2 = 0x10;
label13:
label14:
var5 = ((int *) (var3 + stream))[0];
var1 = var5 | (arg2 << var2);
}
else
{
if(((0xFFFF0000 < var4)) != 0)
{
if(var4 == 0xFFFFFF00)
{
var2 = 8;
goto label13;
}
else
{
if(var4 != 0xFFFFFFFF)
{
var1 = 0;
}
else
{
goto label14;
}
}
}
else
{
if(var4 == 0xFF000000)
{
var2 = 0x18;
goto label13;
}
else
{
var1 = 0;
}
}
}
}
return var1;
}
void flushStream (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFD0;
var1 = 0;
((int *) sp)[8] = fp;
var2 = stream;
var3 = 0;
((int *) sp)[7] = s7;
var4 = 0;
var5 = 0;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
while (1) {
var6 = ((int *) var2)[1];
if(var6 == 0xFFFF0000)
{
var20 = ((int *) var2)[0];
var21 = arg3;
if(var20 == 0xBD400000)
{
label23:
var3 = (var21 & 0xFFF00000) | (0 & 0x000FFFFF);
label24:
var4 = 0x0F;
}
else
{
if(((0xBD400000 < var20)) != 0)
{
var23 = arg3;
if(var20 == 0xBD880000)
{
label12:
var3 = (var23 & 0xFFF80000) | (0 & 0x0007FFFF);
var4 = 0x07;
}
else
{
var3 = (var23 & 0xFFE00000) | (0 & 0x001FFFFF);
if(((0xBD880000 < var20)) != 0)
{
var23 = arg3;
if(var20 == 0xBD900000)
goto label12;
if(var20 != 0xBDA00000)
{
var22 = arg3;
label26:
var3 = (var22 & 0xFFFF0000) | (0 & 0x0000FFFF);
var4 = 0;
}
else
{
var23 = arg3;
goto label12;
}
}
else
{
var4 = 0x1F;
if(var20 != 0xBD800000)
{
label25:
var22 = arg3;
goto label26;
}
else
{
}
}
}
}
else
{
if(var20 == 0xBD100000)
{
var21 = arg3;
goto label23;
}
else
{
if(((0xBD100000 < var20)) != 0)
{
var21 = arg3;
if(var20 == 0xBD200000)
goto label23;
if(var20 != 0xBD300000)
{
var22 = arg3;
goto label26;
}
else
{
var3 = (arg3 & 0xFFF00000) | (0 & 0x000FFFFF);
goto label24;
}
}
else
{
var21 = arg3;
if(var20 == 0xBD000000)
goto label23;
goto label25;
}
}
}
}
if(var3 != var20)
{
var5 = var5 + 1;
}
else
{
var17 = (arg3 >> 0x10) & var4;
label37:
((int *) arg1)[0] = var5;
label51:
((int *) arg2)[0] = var17;
label52:
var5 = var5 + 1;
}
}
else
{
if(((0xFFFF0000 < var6)) != 0)
{
if(var6 == 0xFFFFFF00)
{
var19 = ((int *) var2)[0];
if(var19 == 0xBF01E000)
{
var3 = (arg3 & 0xFFFFE000) | (0 & 0x00001FFF);
var4 = 0x1F;
}
var17 = (arg3 >> 8) & var4;
if(!(var3 != var19))
goto label37;
goto label52;
}
else
{
if(var6 != 0xFFFFFFFF)
{
var5 = var5 + 1;
}
else
{
var18 = ((int *) var2)[0];
var3 = (arg3 & 0xFFFFFF00) | (0 & 0xFF);
if(var3 != var18)
{
var5 = var5 + 1;
}
else
{
var1 = 1;
((int *) arg1)[0] = var5;
((int *) arg2)[0] = (arg3 & 0x0000FFFF);
goto label52;
}
}
}
}
else
{
if(!(var6 == 0xFF000000))
goto label52;
var16 = ((int *) var2)[0];
var3 = (arg3 & 0xF0000000) | (0 & 0x0FFFFFFF);
var4 = 0x0F;
if(!(var16 == 0xE0000000))
{
var3 = (arg3 & 0xE0000000) | (0 & 0x1FFFFFFF);
var4 = 0x1F;
if(!(var16 == 0xC0000000))
{
var3 = (arg3 & 0xFF000000) | (0 & 0x00FFFFFF);
var4 = 0;
}
}
if(var3 != var16)
{
var5 = var5 + 1;
}
else
{
((int *) arg1)[0] = var5;
var17 = (arg3 >> 0x18) & var4;
goto label51;
}
}
}
var2 = var2 + 8;
if((((var5 < 0x13)) & ((var1 < 1))) != 0)
continue;
break;
}
var7 = ((int *) sp)[8];
var8 = ((int *) sp)[7];
var9 = ((int *) sp)[6];
var10 = ((int *) sp)[5];
var11 = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x30;
return;
}
int getStreamOffset (int arg1){
if(arg1>=0x13)return 0x806101FE;
return ((int *) ((arg1 << 3) + stream))[1];
}
int be2 (unsigned char * arg1){
return ((arg1[1] + (arg1[0] << 8)) & 0x0000FFFF);
}
int be3 (unsigned char * arg1){
return (((arg1[0] << 0x10) + (arg1[1] << 8)) + arg1[2]);
}
int be4 (unsigned char * arg1){
return ((((arg1[0] << 0x18) + (arg1[1] << 0x10)) + (arg1[2] << 8)) + arg1[3]);
}
int beN (unsigned char * arg1, int arg2){
if(arg2==2)
return (arg1[1] + (arg1[0] << 8)) & 0xFFFF;
if(arg2==3)
return ((arg1[0] << 0x10) + (arg1[1] << 8)) + arg1[2];
if(arg2==4)
return (((arg1[0] << 0x18) + (arg1[1] << 0x10)) + (arg1[2] << 8)) + arg1[3];
return arg1[0];
}
|
0xb15c077e
|
trunk/RE/PSP/mpeg.c
|
C
|
mit
| 194,205
|
#include <pspsdk.h>
#include "mpeg_vsh.h"
//Imports from library: ThreadManForUser
extern int sceKernelcheckThreadStack();
extern int sceKernelCreateSema (int arg1, int arg2, int arg3, int arg4, int arg5);
extern int sceKernelDeleteSema ();
extern int sceKernelSignalSema (int arg1, int arg2);
extern int sceKernelWaitSema (int arg1, int arg2, int arg3);
extern void sceKernelPollSema ();
extern void sceKernelReferSemaStatus ();
//Imports from library: UtilsForUser
extern void sceKernelDcacheWritebackInvalidateRange (int arg1, int arg2);
//Imports from library: sceVideocodec
extern int sceVideocodecInit (int arg1, int arg2);
extern int sceVideocodecGetFrameCrop (int arg1, int arg2);
extern int sceVideocodecGetVersion (int arg1, int arg2);
extern int sceVideocodecGetEDRAM (int arg1, int arg2);
extern int sceVideocodecDelete (int arg1, int arg2);
extern void sceVideocodecReleaseEDRAM (int arg1);
extern int sceVideocodecGetSEI (int arg1, int arg2);
extern int sceVideocodecSetMemory (int arg1, int arg2);
extern int sceVideocodec_893B32B1 (int arg1, int arg2);
extern int sceVideocodecStop (int arg1, int arg2);
extern int sceVideocodecOpen (int arg1, int arg2);
extern int sceVideocodecDecode (int arg1, int arg2);
//Imports from library: sceAudiocodec
extern void sceAudiocodecReleaseEDRAM ();
extern int sceAudiocodecGetEDRAM (int arg1, int arg2);
extern int sceAudiocodecInit (int arg1, int arg2);
extern int sceAudiocodecDecode (int arg1, int arg2);
extern int sceAudiocodecCheckNeedMem (int arg1, int arg2);
//Imports from library: sceMpegbase
extern void sceMpegbase_0530BE4E (int arg1);
extern int sceMpegBaseCscAvcRange (int arg1, int arg2, int arg3, int arg4, int arg5);
extern int sceMpegBaseCscInit (int arg1);
extern int sceMpegBaseYCrCbCopy (int arg1, int arg2, int arg3);
extern int sceMpegBaseCscAvc (int arg1, int arg2, int arg3, int arg4);
extern int sceMpegbase_BEA18F91 (int arg1);
int mpegIsInit;//0x0000A240
int stream;//0x0000A1A4
char*pAudioCodecStruct;//0x0000A380
char audioCodecStruct[0x6C];//0x0000A3C0
char*pVideoCodecStruct;
char videoCodecStruct[0x60];//0x0000A2C0
int mpegAvcSema;//0x0000A444
int mpegAtracSema;//0x0000A448
int mpegLibmpegSema;//0x0000A44C
int mpegFlushStream (int arg1, int arg2){
sp = sp + 0xFFFFFFD0;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
var1 = arg2;
((int *) sp)[8] = ra;
((int *) sp)[7] = s3;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
if(var5 == 0)
{
var10 = ((int *) var2)[411];
waitSema ();
var13 = ((int *) arg1)[0];
var14 = ((int *) var1)[0];
var17 = unRegistStream (var14, var13, 1);
var18 = var17;
var19 = sp;
var20 = sp + 4;
if(var17 == 0xFFFFFFFF)
{
var34 = ((int *) var2)[411];
signalSema ();
var5 = 0x806101FE;
}
else
{
var21 = ((int *) var17)[2];
if(!(var21 == 0xFFFFFFFF))
{
var22 = ((int *) var1)[2];
((int *) var18)[3] = 0;
((int *) var18)[0] = 0xFFFFFFFF;
((int *) var18)[1] = 0xFFFFFFFF;
if(!(var22 == 0xFFFFFFFF))
{
((int *) var22)[3] = 0;
((int *) var22)[1] = 0xFFFFFFFF;
((int *) var22)[0] = 0xFFFFFFFF;
}
}
((int *) var1)[4] = 0x00007FFF;
var23 = ((int *) var1)[0];
((int *) var1)[11] = 0;
flushStream (var19, var20, var23);
var26 = ((int *) sp)[0];
var27 = (var26 << 3) + 0x00009FCC;
var28 = ((int *) var1)[12];
var29 = ((int *) var27)[1];
var30 = ((int *) var27)[0];
((int *) var1)[10] = var30;
((int *) var1)[5] = var29;
((int *) var1)[6] = 1;
((int *) var1)[12] = ((var28 & 0xFFFFFFFB) | (0 & 1));
((int *) var1)[16] = 0;
((int *) var1)[8] = 0;
((int *) var1)[13] = 0;
((int *) var1)[14] = 0;
var31 = ((int *) var2)[411];
signalSema ();
var5 = var5;
}
}
ra = ((int *) sp)[8];
var6 = ((int *) sp)[7];
var7 = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x30;
return var5;
}
int mpegFlushAllStream (int arg1){
sp = sp + 0xFFFFFFE0;
((int *) sp)[2] = s2;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = ((int *) arg1)[0];
var4 = checkMpegLib (arg1);
var5 = var4;
if(!(var4 != 0))
{
var6 = 0;
var7 = ((int *) var1)[6];
while (1) {
var6 = var6 + 1;
var8 = ((int *) ((var6 << 4) + var7))[2];
if(var8 == 0xFFFFFFFF)
{
label10:
if(!(((var6 < 0x70)) != 0))
break;
var7 = ((int *) var1)[6];
continue;
}
else
{
var11 = mpegFlushStream (arg1, var8);
var5 = var11;
if(var11 != 0)
break;
goto label10;
}
}
}
ra = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x20;
return var5;
}
int mpegUnRegistStream (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[2] = ra;
((int *) sp)[0] = s0;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var9 = ((int *) var2)[411];
waitSema ();
var12 = ((int *) var1)[0];
var15 = unRegistStream (var12, var2, 1);
if(var15 == 0xFFFFFFFF)
{
var21 = ((int *) var2)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
var16 = ((int *) var15)[2];
if(!(var16 == 0xFFFFFFFF))
{
var17 = ((int *) var1)[2];
((int *) var15)[3] = 0;
((int *) var15)[2] = 0xFFFFFFFF;
((int *) var15)[0] = 0xFFFFFFFF;
((int *) var15)[1] = 0xFFFFFFFF;
if(!(var17 == 0xFFFFFFFF))
{
((int *) var17)[3] = 0;
((int *) var17)[1] = 0xFFFFFFFF;
((int *) var17)[2] = 0xFFFFFFFF;
((int *) var17)[0] = 0xFFFFFFFF;
}
}
var18 = ((int *) var2)[411];
signalSema ();
var6 = 0;
}
}
ra = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int mpegRegistStream (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s5;
var1 = 0xFFFFFFFF;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[3] = s3;
((int *) sp)[0] = s0;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
var8 = 0;
if(!(var7 != 0))
{
var9 = ((int *) var4)[411];
waitSema ();
var14 = getStream (var3, var2);
var17 = unRegistStream (var14, var4, 2);
if(var17 == 0xFFFFFFFF)
{
label17:
var31 = ((int *) var4)[411];
signalSema ();
var8 = 0;
}
else
{
if(!(var3 != 0))
{
var18 = ((int *) var4)[8];
var1 = var18 + (var2 << 0x0B);
}
var21 = sub_00CC0 (arg1, var3, var2, var1, var17);
if(var21 != 0)
goto label17;
var22 = ((int *) var4)[411];
signalSema ();
var8 = var17;
}
}
ra = ((int *) sp)[6];
var25 = ((int *) sp)[5];
var26 = ((int *) sp)[4];
var27 = ((int *) sp)[3];
var28 = ((int *) sp)[2];
var29 = ((int *) sp)[1];
var30 = ((int *) sp)[0];
sp = sp + 0x20;
return var8;
}
int mpegInit (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = mpegIsInit;
var2 = 0x80618005;
if(!(var1 != 0))
{
mpegIsInit = 1;
var5 = createSema (1, 1, "SceMpegLibmpeg", mpegLibmpegSema);
var2 = 0x80618006;
if(!(var5 != 0))
{
var8 = createSema (1, 1, "SceMpegAvc", mpegAvcSema);
var2 = 0x80618006;
if(!(var8 != 0))
{
var11 = createSema (1, 1, "SceMpegAtrac", mpegAtracSema);
var2 = 0x80618006;
if(!(var11 != 0))
{
initAudioCodec ();
initVideoCodec (0);
initVSH ();
var2 = 0;
}
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
int mpegFinish (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = mpegIsInit;
var2 = 0x80618005;
if(!(var1 == 0))
{
mpegIsInit = 0;
audiocodecReleaseEDRAM ();
videocodecReleaseEDRAM ();
var7 = *((int *) mpegLibmpegSema);
var10 = deleteSema ();
var2 = 0x80618006;
if(!(var10 != 0))
{
var11 = *((int *) mpegAvcSema);
var14 = deleteSema ();
var2 = 0x80618006;
if(!(var14 != 0))
{
var15 = *((int *) mpegAtracSema);
var18 = deleteSema ();
var2 = !(var18) ? 0 : 0x80618006;
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
int mpegQueryMemSize (int arg1){
if(sub_085D8()){
var5 = sp[0];
}else{
if(!sub_08588 (sp))var5 = sp[0];
}
((int *) sp)[0] = ((((var5 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)) + 0x0000023F);
if((((arg1 + 0xFFFFFFFD) < 4)) != 0)
{
var33 = sub_08F70 ();
var34 = ((int *) sp)[0];
((int *) sp)[0] = ((var34 + var33) + 0x00000640);
}
if(((((arg1 ^ 1) < 1)) | (((arg1 ^ 4) < 1))) != 0)
{
label36:
((int *) sp)[2] = 0;
var8 = sub_09330 (0);
if(var8 != 0)
{
audiocodecReleaseEDRAM ();
var9 = ((int *) sp)[2];
}
else
{
label42:
var9 = ((int *) sp)[2];
}
label43:
var10 = ((int *) sp)[0];
var11 = (((var9 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)) + 0x80;
((int *) sp)[2] = var11;
var12 = (0x0000B2F0 + (var10 + var11)) + 0x00000100;
ra = ((int *) sp)[6];
}
else
{
if(!(((((arg1 ^ 0x05) < 1)) | (((arg1 ^ 0x06) < 1))) == 0))
goto label36;
var17 = sp + 4;
var20 = sub_09330 (var17);
if(var20 == 0)
{
label28:
var27 = initVideoCodec (arg1);
if(var27 != 0)
{
var28 = sp + 8;
var12 = sub_092D0 (var28, arg1);
ra = ((int *) sp)[6];
if(!(var12 != 0))
{
var9 = ((int *) sp)[2];
goto label43;
}
}
else
{
label35:
((int *) sp)[2] = 0;
goto label42;
}
}
else
{
if(arg1 != 0)
{
label23:
var22 = ((int *) sp)[1];
if(arg1 == 3)
{
if(var22 != 1)
{
label26:
audiocodecReleaseEDRAM ();
goto label28;
}
else
{
((int *) sp)[2] = 0;
goto label35;
}
}
else
goto label26;
}
else
{
var21 = ((int *) sp)[1];
if(var21 == 0)
{
((int *) sp)[2] = 0;
goto label35;
}
else
{
goto label23;
}
}
}
}
return var12;
}
int mpegCreate (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
var1 = arg1;
var2 = arg6;
var3 = arg4;
((int *) sp)[7] = arg3;
((int *) sp)[6] = arg2;
((int *) sp)[8] = arg5;
((int *) sp)[9] = arg7;
var6 = mpegQueryMemSize (arg6);
var8 = 0x80610022;
if(!(((arg3 < var6)) != 0))
{
var9 = *((int *) mpegLibmpegSema);
var10 = arg2;
waitSema ();
var13 = arg3;
memset (var10, 0, var13);
var18 = ((var10 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var1)[0] = var18;
((int *) var18)[3] = 0xFFFFFFFF;
((int *) var18)[0] = *((int *) 0x00009F94);
var19 = var18;
((int *) var18)[1] = *((int *) 0x00009F98);
((int *) var18)[2] = 0x00313030;
((int *) var18)[414] = var2;
var22 = createSema (1, 1, "SceMpegMpegData", (var18 + 0x0000066C));
if(var22){
signalSema (mpegLibmpegSema);
return 0x80618006;
}
var23 = (((var18 + 0x000006E8) + 0x3F) & 0xFFFFFFC0);
((int *) var19)[6] = var23;
var24 = ((int *) var3)[8];
((int *) var19)[4] = var3;
((int *) var19)[5] = var24;
var25 = ((int *) var19)[6];
((int *) var3)[10] = var1;
var26 = 0x6F;
while (1) {
var26 = var26 + 0xFFFFFFFF;
((int *) var25)[0] = 0xFFFFFFFF;
((int *) var25)[1] = 0xFFFFFFFF;
((int *) var25)[2] = 0xFFFFFFFF;
((int *) var25)[3] = 0;
var25 = var25 + 0x10;
if(var26 >= 0)
continue;
break;
}
var27 = (((var23 + 0x00000704) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var19)[7] = var27;
var28 = 0x6E;
while (1) {
if(!(var28 >= 0))
break;
var28 = var28 + 0xFFFFFFFF;
continue;
}
var29 = (((var27 + 0x00001DC4) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
((int *) var19)[8] = var29;
memset (var29, 0, 0x00008000);
((int *) var19)[9] = 0;
var32 = 0;
var33 = var19;
while (1) {
((int *) var33)[10] = 0x63;
var34 = var33 + 0x2C;
var35 = 0;
var36 = var34;
while (1) {
var37 = var36 + 0x10;
sub_05A7C (var36, 0, 0, var37, 0);
var40 = ((int *) var33)[10];
var35 = var35 + 1;
var36 = var37;
if(((var35 < var40)) != 0)
continue;
break;
}
var32 = var32 + 1;
sub_05AB0 (((var34 + (var35 << 4)) + 0xFFFFFFF0), 0);
var33 = var33 + 0x00000644;
if(var32 <= 0)
continue;
break;
}
var43 = ((((var29 + 0x00008000) + 0x00000644) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F);
var44 = var43 + 0x80;
var45 = var44 + 0x40;
var46 = var2 + 0xFFFFFFFD;
var47 = var45 + 0xC0;
((int *) var19)[419] = var43;
var48 = var47 + 0x80;
((int *) var19)[420] = var44;
((int *) var19)[421] = var45;
((int *) var19)[422] = var47;
if(((var46 < 4)) != 0)
{
var113 = var48 + 0x00000540;
var114 = var113 + 0xC0;
((int *) var19)[423] = var48;
var115 = var114 + 0x40;
((int *) var19)[431] = var113;
((int *) var19)[432] = var114;
sub_08F78 ((var19 + 0x000006A0), var115);
var120 = sub_08F70 ();
var121 = ((int *) var19)[424];
var48 = var115 + var120;
sub_08FE0 (var121);
}
var51 = sub_085D8 ();
((int *) var19)[425] = var51;
if(var51 == 0)
{
((int *) var19)[425] = var48;
var108 = sp + 0x10;
var111 = sub_08588 (var108);
var69 = var111;
if(var111 != 0)
{
label68:
var104 = *((int *) mpegLibmpegSema);
}
else
{
var112 = ((int *) sp)[4];
var48 = var48 + (((var112 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F));
label45:
if(((var46 < 4)) != 0)
{
((char *) var19)[1665] = 1;
((int *) var19)[415] = 0;
((char *) var19)[1664] = 1;
((int *) var19)[417] = 0;
((int *) var19)[418] = 0;
}
else
{
((char *) var19)[1664] = 0;
((char *) var19)[1665] = 0;
var52 = ((int *) sp)[9];
((int *) var19)[415] = 2;
((int *) var19)[417] = 0x0004A000;
((int *) var19)[418] = 0x00062400;
if(var52 == 0)
{
((int *) sp)[9] = 0x09000000;
}
}
var53 = ((int *) sp)[9];
if(((var2 < 0x07)) == 0)
{
label54:
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 2;
((int *) var19)[426] = var53;
label57:
((int *) var19)[430] = 0;
}
else
{
var54 = ((int *) ((var2 << 2) + 0x0000A040))[0];
switch () {
case 0:
var55 = ((int *) sp)[9];
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 2;
((int *) var19)[426] = var55;
goto label57;
case 1:
case 4:
var105 = arg7;
((int *) var19)[427] = 0x000001E0;
((int *) var19)[428] = 0x00000110;
((int *) var19)[429] = 3;
((int *) var19)[426] = var105;
goto label57;
case 2:
var53 = ((int *) sp)[9];
goto label54;
case 3:
case 5:
var106 = ((int *) sp)[9];
((int *) var19)[427] = 0x000002D0;
((int *) var19)[428] = 0x000001E0;
((int *) var19)[429] = 3;
((int *) var19)[430] = 1;
((int *) var19)[426] = var106;
goto label58;
case 6:
var107 = ((int *) sp)[9];
((int *) var19)[427] = 0x000002D0;
((int *) var19)[428] = 0x00000240;
((int *) var19)[429] = 3;
((int *) var19)[430] = 1;
((int *) var19)[426] = var107;
goto label58;
}
}
label58:
var56 = ((int *) var19)[428];
var57 = ((int *) var19)[429];
var58 = ((int *) var19)[430];
var59 = ((int *) var19)[419];
var60 = ((int *) var19)[420];
var61 = ((int *) var19)[421];
var62 = ((int *) var19)[422];
var63 = ((int *) var19)[423];
var64 = ((int *) var19)[426];
var65 = ((int *) var19)[427];
((int *) sp)[0] = var56;
((int *) sp)[1] = var57;
((int *) sp)[2] = var58;
var68 = sub_083E4 (var59, var60, var61, var62, var63, (var19 + 0x000006A4), var64, var65);
var69 = var68;
if(var68 != 0)
goto label68;
if((((var2 + 0xFFFFFFFC) < 3)) == 0)
{
label65:
var74 = ((int *) sp)[8];
var77 = sceMpegBaseCscInit (var74);
var69 = var77;
if(var77 != 0)
goto label68;
var78 = var2 ^ 1;
var79 = var2 ^ 4;
if((((var78 < 1)) | ((var79 < 1))) != 0)
{
((int *) var19)[440] = 0;
label79:
((int *) var19)[439] = 0;
label80:
if((((var78 < 1)) | ((var79 < 1))) != 0)
{
((int *) var19)[438] = 0;
}
else
{
if(((((var2 ^ 0x05) < 1)) | (((var2 ^ 0x06) < 1))) == 0)
{
var96 = sub_09330 (0);
((int *) var19)[438] = var96;
if(!(var96 != 0))
{
var97 = ((int *) sp)[5];
((int *) var19)[438] = var48;
var48 = var48 + (((var97 + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F));
}
}
else
{
((int *) var19)[438] = 0;
}
}
var80 = ((int *) sp)[6];
var81 = ((int *) sp)[7];
var82 = *((int *) mpegLibmpegSema);
var69 = !(((var48 < (var80 + var81)))) ? 0x80610022 : var69;
}
else
{
if(((((var2 ^ 0x05) < 1)) | (((var2 ^ 0x06) < 1))) == 0)
{
((int *) var19)[440] = var48;
var98 = sp + 0x14;
var101 = sub_092D0 (var98, var2);
var69 = var101;
var48 = var48 + 0x80;
if(var101 != 0)
{
label76:
var103 = *((int *) mpegLibmpegSema);
}
else
{
var102 = ((int *) sp)[5];
((int *) var19)[439] = var102;
goto label80;
}
}
else
{
((int *) var19)[440] = 0;
goto label79;
}
}
}
else
{
var70 = ((int *) var19)[419];
var73 = sub_087B8 (var70, 1);
var69 = var73;
if(var73 != 0)
goto label76;
goto label65;
}
}
}
else
goto label45;
signalSema ();
var8 = var69;
}
return var8;
}
int mpegDelete (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var1 = ((int *) arg1)[0];
var4 = checkMpegLib (arg1);
if(var4 == 0)
{
var8 = ((int *) var1)[419];
delete (var8);
var11 = *((int *) mpegLibmpegSema);
waitSema ();
var14 = ((int *) var1)[6];
var15 = 0x6F;
while (1) {
var15 = var15 + 0xFFFFFFFF;
((int *) var14)[0] = 0xFFFFFFFF;
((int *) var14)[1] = 0xFFFFFFFF;
((int *) var14)[2] = 0xFFFFFFFF;
((int *) var14)[3] = 0;
var14 = var14 + 0x10;
if(var15 >= 0)
continue;
break;
}
var16 = ((int *) var1)[411];
var19 = deleteSema ();
if(var19 != 0)
{
var23 = *((int *) mpegLibmpegSema);
signalSema ();
var4 = 0x80618006;
}
else
{
var20 = *((int *) mpegLibmpegSema);
signalSema ();
var4 = var4;
}
}
ra = ((int *) sp)[3];
var5 = ((int *) sp)[2];
var6 = ((int *) sp)[1];
var7 = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
int mpegInitAu (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg3;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var4 = checkMpegLib (arg1);
var5 = var4;
if(!(var4 != 0))
{
((int *) var1)[4] = arg2;
var5 = 0;
((int *) var1)[5] = 0;
}
ra = ((int *) sp)[2];
var6 = ((int *) sp)[1];
var7 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
int sub_00CC0 (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg3;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var3 = arg5;
((int *) sp)[6] = ra;
((int *) sp)[5] = s5;
var6 = checkMpegLib (arg1);
var7 = var6;
if(!(var6 != 0))
{
var7 = 0x806101FE;
if(!(((var2 < 0x07)) == 0))
{
var8 = ((int *) arg1)[0];
var11 = getStream (var2, var1);
((int *) var3)[0] = var11;
var14 = getStreamOffset (var2);
var15 = (var2 << 3) + 0x00009FCC;
var16 = ((int *) var15)[1];
var17 = ((int *) var15)[0];
((int *) var3)[4] = 0x00007FFF;
((int *) var3)[6] = 1;
var18 = ((int *) var3)[0];
((int *) var3)[1] = var14;
((int *) var3)[3] = (!(var2) ? arg4 : 0);
((int *) var3)[10] = var17;
((int *) var3)[5] = var16;
((int *) var3)[11] = 0;
((int *) var3)[8] = 0;
((int *) var3)[13] = 0;
((int *) var3)[14] = 0;
((int *) var3)[12] = 0;
((int *) var3)[16] = 0;
var21 = unRegistStream (var18, var8, 1);
var22 = var21;
var7 = 0x806101FE;
if(!(var22 == 0xFFFFFFFF))
{
var23 = ((int *) var22)[2];
var7 = 0x80618005;
if(!(var23 != 0xFFFFFFFF))
{
((int *) var22)[1] = var23;
((int *) var22)[2] = var3;
((int *) var22)[3] = 0;
((int *) var22)[0] = var23;
if(var2 == 0)
{
var32 = getStream (0x06, var1);
var35 = unRegistStream (var32, var8, 1);
var7 = 0x806101FE;
if(!(var35 == var23))
{
var36 = ((int *) var35)[2];
var7 = 0x80618005;
if(!(var36 != var23))
{
((int *) var35)[1] = var23;
((int *) var3)[2] = var35;
((int *) var35)[2] = var3;
((int *) var35)[3] = 0;
((int *) var35)[0] = var23;
label23:
var7 = 0;
}
}
}
else
{
((int *) var3)[2] = var23;
goto label23;
}
}
}
}
}
ra = ((int *) sp)[6];
var24 = ((int *) sp)[5];
var25 = ((int *) sp)[4];
var26 = ((int *) sp)[3];
var27 = ((int *) sp)[2];
var28 = ((int *) sp)[1];
var29 = ((int *) sp)[0];
sp = sp + 0x20;
return var7;
}
int mpegAvcDecodeMode (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg2;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var2 = ((int *) arg1)[0];
var3 = ((int *) var2)[419];
var6 = checkMpegLib (arg1);
var7 = var6;
if(!(var6 != 0))
{
var8 = ((int *) var1)[0];
if(var8 == 0xFFFFFFFF)
{
label9:
var9 = ((int *) var1)[1];
if(var9 == 0xFFFFFFFF)
{
label14:
var7 = 0;
}
else
{
if(((var9 < 0xFFFFFFFF)) != 0)
{
label15:
label16:
var7 = 0x806101FE;
}
else
{
if(!(((var9 < 4)) != 0))
goto label15;
var12 = ((int *)(0x0000A05C)[var9];
sceMpegbase_0530BE4E (var12);
goto label14;
}
}
}
else
{
if(((var8 < 0xFFFFFFFF)) != 0)
goto label15;
if(((var8 < 3)) == 0)
goto label16;
((int *) var3)[13] = var8;
goto label9;
}
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int avcDecodeDetail (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s2;
var1 = arg3;
((int *) sp)[5] = s1;
var2 = arg2;
((int *) sp)[4] = s0;
((int *) sp)[7] = ra;
var3 = arg1;
var6 = checkMpegLib (arg1);
var7 = var6;
var8 = sp;
if(var6 == 0)
{
var12 = ((int *) var3)[0];
var15 = mpegAvcDecodeDetail2 (var3, var8);
var7 = var15;
if(var15 != 0)
{
label14:
ra = ((int *) sp)[7];
label15:
var9 = ((int *) sp)[6];
}
else
{
var16 = ((int *) var12)[414];
var17 = ((int *) sp)[0];
var18 = ((int *) var17)[4];
var7 = 0x806101FE;
var19 = ((int *) var17)[11];
if(!((((var16 + 0xFFFFFFFC) < 3)) == 0))
{
var18 = var18 + (((var2 << 2) + var2) << 3);
}
ra = ((int *) sp)[7];
if(var2 < 0)
goto label15;
var20 = ((int *) var18)[8];
if(((var2 < var20)) == 0)
{
var9 = ((int *) sp)[6];
}
else
{
var21 = ((int *) var17)[2];
var7 = 0;
((int *) var1)[0] = var21;
var22 = ((int *) (var19 + (var2 * 0x2C)))[8];
((int *) var1)[1] = var22;
var23 = ((int *) var18)[2];
((int *) var1)[2] = var23;
var24 = ((int *) var18)[3];
((int *) var1)[3] = var24;
var25 = ((int *) var18)[4];
((int *) var1)[4] = var25;
var26 = ((int *) var18)[5];
((int *) var1)[5] = var26;
var27 = ((int *) var18)[6];
((int *) var1)[6] = var27;
var28 = ((int *) var18)[7];
((int *) var1)[7] = var28;
var29 = ((int *) var18)[8];
((int *) var1)[8] = var29;
goto label15;
}
}
}
else
goto label14;
var10 = ((int *) sp)[5];
var11 = ((int *) sp)[4];
sp = sp + 0x20;
return var7;
}
int mpegAvcDecodeDetail2 (int arg1, int arg2){
var3 = checkMpegLib (arg1);
var4 = var3;
if(!(var3 != 0))
{
var5 = ((int *) (*arg1)[0];
var6 = (*arg1)[414];
if((((var6 + 0xFFFFFFFC) < 3)) != 0)
{
var10 = (*arg1)[424];
var7 = var10 + 0x2C;
}
else
{
var7 = (*arg1)[419];
}
((int *) arg2)[0] = var7;
var4 = 0;
}
return var4;
}
int mpegAvcDecodeGetDecodeSEI (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var3 = checkMpegLib (arg1);
var4 = var3;
if(!(var3 != 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var5)[414];
var4 = 0x806101FE;
if(!((((var6 + 0xFFFFFFFD) < 4)) == 0))
{
var7 = ((int *) var5)[431];
var8 = ((int *) var5)[419];
((int *) arg2)[0] = var7;
var11 = sub_086F8 (var8, var7);
var4 = var11;
}
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
int mpeg_AE693D0B (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var3 = checkMpegLib (arg1);
var4 = var3;
if(!(var3 != 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var5)[414];
var4 = 0x806101FE;
if(!((((var6 + 0xFFFFFFFD) < 4)) == 0))
{
var7 = ((int *) var5)[432];
var8 = ((int *) var5)[419];
((int *) arg2)[0] = var7;
var11 = sub_08758 (var8, var7);
var4 = var11;
}
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
int mpegAvcDecode (int arg1, int arg2, int arg3, int arg4, int arg5){
var1 = arg5;
var2 = arg2;
var3 = arg1;
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var16 = ((int *) var3)[0];
var17 = ((int *) var2)[4];
var18 = ((int *) var16)[421];
var19 = ((int *) var16)[419];
var20 = ((int *) var16)[420];
var23 = avcDecodeYCbCr (var3, var17);
var24 = ((int *) var2)[5];
((int *) var19)[9] = ((var23 & 0x0FFFFFFF) | (0 & 0x0F));
((int *) var19)[10] = var24;
var25 = ((int *) var16)[414];
if(!((((var25 + 0xFFFFFFFC) < 3)) == 0))
{
var26 = ((int *) var19)[13];
((int *) var19)[13] = (var26 | 0xC0000000);
var27 = ((int *) var16)[431];
((int *) var19)[20] = var27;
var28 = ((int *) var16)[432];
((int *) var19)[21] = var28;
}
var31 = sub_085E8 (var19);
((int *) var2)[5] = 0;
var32 = var31;
var33 = ((int *) var19)[13];
((int *) var19)[13] = ((var33 & 0x3FFFFFFF) | (0 & 3));
if(var31 == 0)
{
var42 = ((int *) var20)[8];
((int *) var1)[0] = var42;
var43 = ((int *) var16)[414];
if((((var43 + 0xFFFFFFFD) < 4)) != 0)
{
var7 = var32;
if(!((((var43 + 0xFFFFFFFC) < 3)) == 0))
{
var62 = ((int *) var19)[20];
var63 = ((int *) var19)[21];
var64 = ((int *) var16)[424];
var67 = sub_08818 (var64, var19, var62, var63);
var7 = var67;
if(!(var67 != 0))
{
var68 = ((int *) var16)[424];
var71 = sub_08A18 (var68, var19);
var32 = var71;
label33:
var7 = var32;
}
}
}
else
{
var44 = 0;
if(((var31 < var42)) == 0)
goto label33;
var45 = arg4;
var46 = ((int *) var45)[0];
while (1) {
var44 = var44 + 1;
var47 = sp;
var45 = var45 + 4;
var7 = 0x806101FE;
if(var46 == 0)
break;
var48 = ((int *) var20)[3];
((int *) sp)[0] = (var48 >> 4);
var49 = ((int *) var20)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var49 >> 4);
((int *) sp)[3] = 0;
var50 = ((int *) var18)[2];
var51 = ((int *) var18)[0];
var52 = ((int *) var18)[4];
var53 = ((int *) var18)[6];
var54 = ((int *) var18)[1];
var55 = ((int *) var18)[3];
var56 = ((int *) var18)[5];
var57 = ((int *) var18)[7];
((int *) sp)[6] = var50;
var18 = var18 + 0x2C;
((int *) sp)[4] = var51;
((int *) sp)[8] = var52;
((int *) sp)[10] = var53;
((int *) sp)[5] = var54;
((int *) sp)[7] = var55;
((int *) sp)[9] = var56;
((int *) sp)[11] = var57;
var60 = sceMpegBaseCscAvc (var46, 0, arg3, var47);
var32 = var60;
if(var60 != 0)
goto label33;
var61 = ((int *) var1)[0];
if(((var44 < var61)) != 0)
{
var46 = ((int *) var45)[0];
continue;
}
else
{
var7 = var32;
}
}
}
}
else
{
var34 = ((int *) var16)[414];
var7 = var32;
if(!((((var34 + 0xFFFFFFFC) < 3)) == 0))
{
var35 = ((int *) var16)[424];
var36 = var19;
var37 = var35 + 0x2C;
while (1) {
var38 = ((int *) var36)[0];
var39 = ((int *) var36)[1];
var40 = ((int *) var36)[2];
var41 = ((int *) var36)[3];
((int *) var37)[0] = var38;
var36 = var36 + 0x10;
var37 = var37 + 0x10;
((int *) var37)[1073741821] = var39;
((int *) var37)[1073741822] = var40;
((int *) var37)[1073741823] = var41;
if(var36 != (var19 + 0x60))
continue;
break;
}
goto label33;
}
}
}
return var7;
}
int mpegAvcDecodeStop (int arg1, int arg2, int arg3, int arg4){
var1 = arg4;
var2 = ((int *) arg1)[0];
var3 = ((int *) var2)[419];
var4 = ((int *) var2)[421];
var5 = ((int *) var2)[420];
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop(*arg1[419]))return ret;
var8 = videocodecStop (*arg1[419]);
var11 = ((int *) var5)[8];
*arg4 = var11;
var12 = ((int *) var2)[414];
if((((var12 + 0xFFFFFFFD) < 4)) != 0)
{
if((((var12 + 0xFFFFFFFC) < 3)) == 0)
{
var10 = var9;
}
else
{
var39 = ((int *) var2)[424];
var42 = sub_08A18 (var39, var3);
var43 = ((int *) var2)[424];
sub_08FE0 (var43);
var10 = var42;
}
}
else
{
var13 = 0;
if(((var8 < var11)) == 0)
{
label22:
var10 = var9;
}
else
{
var14 = arg3;
var15 = ((int *) var14)[0];
while (1) {
var13 = var13 + 1;
var16 = sp;
var14 = var14 + 4;
var10 = 0x806101FE;
if(var15 == 0)
break;
var17 = ((int *) var5)[3];
((int *) sp)[0] = (var17 >> 4);
var18 = ((int *) var5)[2];
((int *) sp)[2] = 0;
((int *) sp)[1] = (var18 >> 4);
((int *) sp)[3] = 0;
var19 = ((int *) var4)[0];
var20 = ((int *) var4)[2];
var21 = ((int *) var4)[4];
var22 = ((int *) var4)[6];
var23 = ((int *) var4)[1];
var24 = ((int *) var4)[3];
var25 = ((int *) var4)[5];
var26 = ((int *) var4)[7];
((int *) sp)[4] = var19;
var4 = var4 + 0x2C;
((int *) sp)[6] = var20;
((int *) sp)[8] = var21;
((int *) sp)[10] = var22;
((int *) sp)[5] = var23;
((int *) sp)[7] = var24;
((int *) sp)[9] = var25;
((int *) sp)[11] = var26;
var29 = sceMpegBaseCscAvc (var15, 0, arg2, var16);
var9 = var29;
if(var29 != 0)
goto label22;
if(!(((var13 < *arg4)) != 0))
goto label22;
var15 = ((int *) var14)[0];
continue;
}
}
}
return var10;
}
int mpegAvcDecodeFlush (int arg1){
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop (*arg1[419]))return ret;
if(*arg1[414]>=7)return 0;
ret = sub_08A18 (*arg1[424], *arg1[419]);
sub_08FE0 (*arg1[424]);
return ret;
}
int mpegAvcDecodeDetail (int arg1, int arg2){
return avcDecodeDetail (arg1, 0, arg2);
}
int mpegAvcInitYCbCr (int arg1, int arg2, int arg3, int arg4, int arg5){
if((ret=checkMpegLib(arg1)))return ret;
memset (arg5, 0, 0x80);
if(arg2 == 2){
arg5[4] = arg2;
arg5[5] = arg2;
arg5[6] = arg2;
arg5[7] = arg2;
arg5[8] = arg2;
arg5[9] = arg2;
arg5[10] = arg2;
arg5[11] = arg2;
return 0;
}
if(arg2!=1)return 0x806101FE;
int a,b;
if((ret=avcInitYCbCr (arg3, arg4,&a,&b)))return ret;
arg5[4] = arg5 + 0x80;
var23 = arg5[4] + a;
var25 = var23 + a;
var26 = var25 + a>>1;
var27 = var26 + a>>1;
var28 = var27 + b;
var29 = var28 + b;
arg5[5] = var27;
arg5[6] = var23;
arg5[7] = var28;
arg5[8] = var25;
arg5[9] = var29;
arg5[10] = var26;
arg5[11] = (var29 + (b >> 1));
return 0;
}
int mpegAvcQueryYCbCrSize (int arg1, int arg2, int arg3, int arg4, int arg5){
((int *) arg5)[0] = 0;
sp = sp + 0xFFFFFFD0;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
var1 = arg2;
((int *) sp)[4] = s0;
((int *) sp)[8] = ra;
var2 = arg5;
var5 = checkMpegLib (arg1);
var6 = var5;
var7 = var5;
if(!(var5 != 0))
{
if(var1 == 2)
{
((int *) var2)[0] = 0x80;
label12:
var7 = var6;
}
else
{
var8 = sp;
var9 = sp + 4;
var7 = 0x806101FE;
if(!(var1 != 1))
{
var12 = avcInitYCbCr (arg3, arg4, var8, var9);
var6 = var12;
var7 = var12;
if(!(var12 != 0))
{
var13 = ((int *) sp)[0];
var14 = ((int *) sp)[1];
var15 = var13 + var14;
((int *) var2)[0] = (((var15 << 1) + var15) + 0x80);
goto label12;
}
}
}
}
ra = ((int *) sp)[8];
var16 = ((int *) sp)[7];
var17 = ((int *) sp)[6];
var18 = ((int *) sp)[5];
var19 = ((int *) sp)[4];
sp = sp + 0x30;
return var7;
}
int mpegAvcCsc (int arg1, int arg2, int arg3, int arg4, int arg5){
var1 = arg4;
var2 = arg5;
var3 = arg3;
var4 = arg2;
var7 = checkMpegLib (arg1);
ra = ((int *) sp)[21];
if(!(var7 != 0))
{
var8 = ((int *) arg1)[0];
var9 = ((int *) var4)[1];
var10 = ((int *) var4)[0];
var11 = ((int *) var4)[2];
var12 = ((int *) var4)[3];
var13 = ((int *) var4)[4];
((int *) sp)[1] = var9;
((int *) sp)[0] = var10;
((int *) sp)[2] = var11;
((int *) sp)[3] = var12;
var14 = ((int *) var8)[421];
if(var13 == 2)
{
var54 = ((int *) var4)[12];
var55 = *((int *) 0x0000A248);
var56 = *((int *) 0x0000A24C);
var57 = *((int *) 0x0000A244);
var58 = var14 + (var54 * 0x2C);
var59 = *((int *) 0x0000A250);
var60 = ((int *) var58)[0];
var61 = ((int *) var58)[4];
var62 = ((int *) var58)[3];
var63 = ((int *) var58)[2];
var64 = ((int *) var58)[6];
var65 = ((int *) var58)[1];
var66 = ((int *) var58)[5];
var67 = ((int *) var58)[7];
var27 = var67 + var59;
((int *) sp)[4] = (var60 + var57);
((int *) sp)[6] = (var63 + var57);
((int *) sp)[8] = (var61 + var56);
((int *) sp)[10] = (var64 + var56);
((int *) sp)[5] = (var65 + var55);
((int *) sp)[7] = (var62 + var55);
((int *) sp)[9] = (var66 + var59);
}
else
{
var15 = var4 + 0x10;
var16 = *((int *) 0x0000A24C);
var17 = *((int *) 0x0000A248);
var18 = *((int *) 0x0000A244);
var19 = ((int *) var15)[1];
var20 = *((int *) 0x0000A250);
var21 = ((int *) var15)[2];
var22 = ((int *) var15)[4];
var23 = ((int *) var15)[6];
var24 = ((int *) var15)[3];
var25 = ((int *) var15)[5];
var26 = ((int *) var15)[7];
var27 = var26 + var20;
((int *) sp)[4] = (var13 + var18);
((int *) sp)[6] = (var21 + var18);
((int *) sp)[8] = (var22 + var16);
((int *) sp)[10] = (var23 + var16);
((int *) sp)[5] = (var19 + var17);
((int *) sp)[7] = (var24 + var17);
((int *) sp)[9] = (var25 + var20);
}
((int *) sp)[11] = var27;
var28 = ((int *) var3)[0];
if((var28 & 0x0F) != 0)
{
label28:
var7 = 0x806101FE;
ra = ((int *) sp)[21];
}
else
{
var29 = ((int *) var3)[1];
if((var29 & 0x0F) != 0)
{
goto label28;
}
else
{
var30 = ((int *) var3)[2];
if((var30 & 0x0F) != 0)
{
goto label28;
}
else
{
var31 = ((int *) var3)[3];
if((var31 & 0x0F) != 0)
{
goto label28;
}
else
{
((int *) sp)[12] = (var28 >> 4);
((int *) sp)[13] = (var29 >> 4);
((int *) sp)[14] = (var30 >> 4);
((int *) sp)[15] = (var31 >> 4);
var32 = ((int *) var8)[433];
if(var32 == 1)
{
var52 = sp + 0x30;
var53 = sp;
((int *) sp)[3] = 1;
label23:
((int *) sp)[2] = 1;
label24:
var7 = sceMpegBaseCscAvcRange (var2, var2, var44, var1, var47);
ra = ((int *) sp)[21];
}
else
{
if(((var32 < 2)) != 0)
{
if(var32 != 0)
goto label28;
var50 = sp + 0x30;
var51 = sp;
((int *) sp)[2] = 0;
((int *) sp)[3] = 0;
goto label24;
}
else
{
var33 = ((int *) sp)[4];
if(var32 == 2)
{
var39 = ((int *) sp)[5];
var40 = ((int *) sp)[6];
var41 = ((int *) sp)[7];
var42 = ((int *) sp)[10];
var43 = ((int *) sp)[8];
((int *) sp)[6] = var33;
((int *) sp)[7] = var39;
var44 = sp + 0x30;
var45 = ((int *) sp)[9];
var46 = ((int *) sp)[11];
((int *) sp)[10] = var43;
var47 = sp;
((int *) sp)[3] = 1;
((int *) sp)[4] = var40;
((int *) sp)[5] = var41;
((int *) sp)[8] = var42;
((int *) sp)[9] = var46;
((int *) sp)[11] = var45;
goto label23;
}
else
{
goto label28;
}
}
}
}
}
}
}
}
return var7;
}
int mpeg_0558B075 (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
if(((((arg2 < 1)) | ((arg3 < 1)))))return 0x806101FE;
if(arg2[4] == 2)return 0x806101FE;
ret = _0558B075 (arg1, arg2, arg3, 0xFFFFFFFF);
memcpy(&arg2[13],arg3[13],21-13);
return ret;
}
int mpegAvcDecodeYCbCr (int arg1, int arg2, int arg3, int arg4){
if((ret=checkMpegLib (arg1)))return ret;
*arg1[419][9] = (avcDecodeYCbCr (arg1, arg2[4]) & 0x0FFFFFFF);
*arg1[419][10] = arg2[5];
if((*arg1[414] + 0xFFFFFFFC) < 3){
var21 = *arg1[419][13];
*arg1[419][13] = (var21 | 0xC0000000);
var22 = *arg1[431];
*arg1[419][20] = var22;
var23 = *arg1[432];
*arg1[419][21] = var23;
}
var26 = sub_085E8 (*arg1[419]);
((int *) arg2)[5] = 0;
var27 = var26;
var28 = *arg1[419][13];
*arg1[419][13] = ((var28 & 0x3FFFFFFF) | (0 & 3));
if(var26 == 0)
{
var39 = avcDecodeStopYCbCr (arg1, arg3, arg4);
var40 = *arg1[414];
var41 = arg1;
if((((var40 + 0xFFFFFFFC) < 3)) == 0)
{
label24:
var6 = sub_02360 (var41, arg3);
ra = ((int *) sp)[6];
}
else
{
var42 = *arg1[419][20];
var43 = *arg1[419][21];
var44 = *arg1[424];
var6 = sub_08818 (var44, *arg1[419], var42, var43);
ra = ((int *) sp)[6];
if(!(var6 != 0))
{
var47 = *arg1[424];
var6 = sub_08A18 (var47, *arg1[419]);
if(var6 != 0)
{
ra = ((int *) sp)[6];
}
else
{
var41 = arg1;
goto label24;
}
}
}
}
else
{
var29 = *arg1[414];
var6 = var27;
if(!((((var29 + 0xFFFFFFFC) < 3)) == 0))
{
var30 = *arg1[424];
var31 = *arg1[419];
var32 = var30 + 0x2C;
while (1) {
var33 = ((int *) var31)[0];
var34 = ((int *) var31)[1];
var35 = ((int *) var31)[2];
var36 = ((int *) var31)[3];
((int *) var32)[0] = var33;
var31 = var31 + 0x10;
var32 = var32 + 0x10;
((int *) var32)[1073741821] = var34;
((int *) var32)[1073741822] = var35;
((int *) var32)[1073741823] = var36;
if(var31 != (*arg1[419] + 0x60))
continue;
break;
}
var6 = var27;
}
label31:
ra = ((int *) sp)[6];
}
return var6;
}
int mpegAvcDecodeStopYCbCr (int arg1, int arg2, int arg3){
if(ret=checkMpegLib(arg1))return ret;
if(ret=videocodecStop (*arg1[419]))return ret;
var16 = avcDecodeStopYCbCr (arg1, arg2, arg3);
if(*arg1[414]>=7)return sub_02360 (arg1, arg2);
ret = sub_08A18 (*arg1[424], *arg1[419]);
sub_08FE0 (*arg1[424]);
if(var16)return var16
return ret;
}
int mpegAvcCscInfo (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFC0;
((int *) sp)[11] = s3;
var1 = arg3;
((int *) sp)[10] = s2;
var2 = arg4;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
((int *) sp)[12] = ra;
var3 = arg2;
var6 = checkMpegLib (arg1);
var7 = var6;
if(!(var6 != 0))
{
var8 = ((int *) arg1)[0];
var7 = 0x806101FE;
if(!(var1 < 0))
{
var9 = ((int *) var3)[19];
((int *) var2)[11] = var9;
var10 = var2 + 0x2C;
var11 = ((int *) var3)[20];
((int *) sp)[0] = (var2 + 0x14);
((int *) var2)[12] = var11;
var12 = ((int *) var3)[21];
((int *) sp)[1] = (var2 + 0x20);
((int *) var2)[13] = var12;
var13 = ((int *) var3)[13];
((int *) var2)[5] = var13;
var14 = ((int *) var3)[14];
((int *) var2)[6] = var14;
var15 = ((int *) var3)[15];
((int *) var2)[7] = var15;
var16 = ((int *) var3)[16];
((int *) var2)[8] = var16;
var17 = ((int *) var3)[17];
((int *) var2)[9] = var17;
var18 = ((int *) var3)[18];
((int *) var2)[4] = 2;
((int *) var2)[10] = var18;
var19 = ((int *) var10)[1];
if(var19 == 0x0000138D)
{
var51 = ((int *) var10)[2];
if(var51 != 0x0003A980)
{
var20 = ((unsigned char *) var10)[1];
label13:
var21 = ((int *) sp)[0];
if(var20 == 1)
{
var49 = ((unsigned char *) var21)[0];
var22 = (var1 < 3);
if(!((var49 & 2) == 0))
{
var50 = ((unsigned char *) var21)[1];
if(!(((((var50 + 0xFFFFFFFB) & 0xFF) < 2)) == 0))
{
label16:
((int *) var2)[4] = 3;
label17:
var22 = (var1 < 3);
}
}
}
else
goto label17;
}
else
{
var52 = ((int *) var8)[434];
var22 = (var1 < 3);
if(!(var52 != 1))
{
goto label16;
}
}
}
else
{
var20 = ((unsigned char *) var10)[1];
goto label13;
}
if(var22 != 0)
{
var27 = ((unsigned char *) var10)[0];
if(var27 == 0)
{
label62:
var34 = 3;
if(var1 == 2)
{
label63:
((int *) var2)[0] = var34;
}
else
{
case 5:
case 6:
label64:
((int *) var2)[0] = 0;
}
}
else
{
var28 = ((int *) var10)[1];
if(var28 == 0x0000138D)
{
var47 = ((int *) var10)[2];
if(var47 != 0x0003A980)
{
var29 = ((unsigned char *) var10)[1];
label32:
if(var29 == 0)
goto label62;
var30 = ((int *) sp)[0];
var31 = ((unsigned char *) var30)[0];
if((var31 & 2) == 0)
{
goto label62;
}
else
{
var32 = ((unsigned char *) var30)[1];
if(((var32 < 0x07)) == 0)
{
goto label62;
}
else
{
var33 = ((int *) ((var32 << 2) + 0x0000A06C))[0];
switch () {
case 0:
goto label62;
case 1:
case 2:
var35 = ((unsigned char *) var30)[0];
var36 = 0;
if(!((var35 & 1) != 0))
{
var36 = ((int *) var30)[1];
}
var37 = ((int *) var30)[2];
var38 = ((int *) sp)[1];
((int *) sp)[4] = (var36 + var37);
var39 = ((unsigned char *) var38)[0];
var40 = 0;
if(!((var39 & 1) != 0))
{
var40 = ((int *) var38)[1];
}
var41 = ((int *) var38)[2];
var42 = var40 + var41;
((int *) sp)[5] = var42;
if(var1 == 2)
{
var34 = 3;
goto label63;
}
else
{
var43 = ((int *) sp)[4];
if(var1 != 0)
{
if(((var42 < var43)) == 0)
{
((int *) var2)[0] = 2;
}
else
{
var34 = 1;
goto label63;
}
}
else
{
var44 = ((int *) sp)[4];
var1 = (var42 < var44);
label58:
if(var1 != 0)
{
((int *) var2)[0] = 2;
}
else
{
var34 = 1;
goto label63;
}
}
}
case 3:
var34 = 3;
if(var1 == 2)
goto label63;
var45 = ((unsigned char *) var30)[2];
if(var45 == 0)
{
((int *) var2)[0] = 0;
}
else
{
}
goto label58;
case 4:
var34 = 3;
if(var1 == 2)
goto label63;
var46 = ((unsigned char *) var30)[2];
if(var46 == 0)
{
((int *) var2)[0] = 0;
}
var34 = 1;
if(var1 != 0)
goto label63;
((int *) var2)[0] = 2;
goto label65;
goto label64;
goto label64;
}
}
}
}
else
{
if(var1 != 2)
{
((int *) var2)[0] = 0;
}
else
{
var48 = ((int *) var8)[434];
if(var48 == 1)
{
((int *) var2)[0] = 0;
((int *) var8)[434] = 0;
}
else
{
((int *) var2)[0] = 3;
((int *) var8)[434] = 1;
}
}
}
}
else
{
var29 = ((unsigned char *) var10)[1];
goto label32;
}
}
label65:
var7 = 0;
}
else
{
var7 = 0;
((int *) var2)[0] = 3;
}
}
}
ra = ((int *) sp)[12];
var23 = ((int *) sp)[11];
var24 = ((int *) sp)[10];
var25 = ((int *) sp)[9];
var26 = ((int *) sp)[8];
sp = sp + 0x40;
return var7;
}
int mpegAvcCscMode (int arg1, int arg2){
if((ret=checkMpegLib (arg1)))return ret;
*arg1[433] = *arg2;
return 0;
}
int mpeg_E49EB257 (int arg1){
if((ret=checkMpegLib (arg1)))return ret;
((char *) *arg1)[1740] = 0;
*arg1[433] = 0;
*arg1[434] = 0;
return 0;
}
int avcInitYCbCr (int arg1, int arg2, int arg3, int arg4){
var1 = arg1 >> 4;
var2 = arg2 >> 4;
var3 = 0x806101FE;
if(!(((arg1 | arg2) & 0x0F) != 0))
{
var3 = 0x806101FE;
if(!((((((var1 + 0xFFFFFFFF) < maxW)) ^ 1) | ((var2 < 1))) != 0))
{
if(!(((var2 < maxH)) == 0))
{
var4 = var2 << 3;
var5 = (arg1 & 0xFFFFFFE0) | (0 & 0x1F);
if((var1 & 1) == 0)
{
var6 = ((((arg1 & 0xFFFFFFE0) | (0 & 0x1F)) >> 1) * var4);
((int *) arg3)[0] = var6;
((int *) arg4)[0] = var6;
}
else
{
((int *) arg3)[0] = (((var5 + 0x20) >> 1) * var4);
((int *) arg4)[0] = ((var5 >> 1) * var4);
}
var3 = 0;
}
}
}
return var3;
}
int _0558B075 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = ((int *) arg1)[0];
var2 = arg2;
var3 = arg2;
var4 = ((int *) var1)[420];
var5 = ((int *) var1)[421];
if(arg4 == 0xFFFFFFFF)
{
var17 = ((int *) arg3)[4];
if(var17 == 2)
{
arg4 = ((int *) arg3)[12];
label6:
}
else
{
}
}
else
goto label6;
var6 = arg4;
if(arg4 == 0xFFFFFFFF)
{
var16 = ((int *) var2)[4];
var11 = arg3 + 0x10;
var3 = var2;
var6 = 0xFFFFFFFF;
var15 = 0x806101FE;
if(!(var16 == 2))
{
var9 = ((int *) arg3)[0];
var10 = ((int *) arg3)[1];
label11:
var14 = mpegBaseYCrCbCopy (var3, var6, var10, var9, var11);
var15 = var14;
}
}
else
{
var7 = ((int *) var4)[3];
var8 = ((int *) var4)[2];
var9 = var7 >> 4;
var10 = var8 >> 4;
var11 = var5 + (arg4 * 0x2C);
goto label11;
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var15;
}
int avcDecodeStopYCbCr (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = 0;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = 0;
((int *) sp)[4] = ra;
((int *) sp)[0] = s0;
var4 = ((int *) arg1)[0];
var5 = ((int *) var4)[420];
var6 = ((int *) var5)[8];
((int *) var2)[0] = var6;
if(!(var6 <= 0))
{
var7 = arg2;
var8 = ((int *) var7)[0];
while (1) {
var3 = var3 + 1;
var7 = var7 + 4;
var1 = 0x806101FE;
if(var8 == 0)
break;
var11 = _0558B075 (arg1, var8, 0, var3);
var1 = var11;
if(var11 != 0)
break;
var12 = ((int *) var2)[0];
if(!(((var3 < var12)) != 0))
break;
var8 = ((int *) var7)[0];
continue;
}
}
ra = ((int *) sp)[4];
var13 = ((int *) sp)[3];
var14 = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x20;
return var1;
}
int sub_02360 (int arg1, int arg2){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s1;
var1 = sp;
((int *) sp)[6] = ra;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[0];
var5 = mpegAvcDecodeDetail2 (arg1, var1);
var6 = var5;
if(!(var5 != 0))
{
var7 = ((int *) sp)[0];
var8 = 0;
var9 = ((int *) var7)[4];
var10 = ((int *) var7)[12];
var11 = ((int *) var9)[8];
var12 = ((int *) var7)[11];
if(!(((var5 < var11)) == 0))
{
var13 = arg2;
var14 = ((int *) var13)[0];
while (1) {
var8 = var8 + 1;
var15 = var14;
var13 = var13 + 4;
((int *) sp)[0] = var14;
if(var14 == 0)
{
var6 = 0x806101FE;
}
else
{
var16 = ((int *) var9)[9];
if(var16 == 1)
{
((char *) var2)[1740] = var16;
var38 = ((unsigned char *) var10)[22];
if(var38 != var16)
{
var17 = ((int *) var2)[435];
}
else
{
var39 = ((unsigned char *) var10)[44];
((char *) var2)[1741] = var39;
var40 = ((int *) var10)[8];
((int *) var2)[436] = var40;
var41 = ((int *) var10)[9];
((int *) var2)[437] = var41;
label14:
var17 = ((int *) var2)[435];
}
}
else
goto label14;
((int *) var15)[19] = var17;
var18 = ((int *) var2)[436];
((int *) var15)[20] = var18;
var19 = ((int *) var2)[437];
((int *) var15)[21] = var19;
var20 = ((int *) var12)[9];
if(var20 == 0)
{
var35 = ((int *) var2)[414];
}
else
{
var21 = ((int *) var12)[10];
var22 = var15 + 0x34;
var23 = var15 + 0x40;
if(!(var21 == 0))
{
var24 = ((unsigned char *) var20)[0];
((char *) var15)[52] = var24;
var25 = ((unsigned char *) var20)[32];
((char *) var22)[1] = var25;
var26 = ((unsigned char *) var20)[36];
((char *) var22)[2] = var26;
var27 = ((int *) var20)[6];
((int *) var22)[1] = var27;
var28 = ((int *) var20)[7];
var29 = ((int *) var12)[10];
((int *) var22)[2] = var28;
var30 = ((unsigned char *) var29)[0];
((char *) var15)[64] = var30;
var31 = ((unsigned char *) var29)[32];
((char *) var23)[1] = var31;
var32 = ((unsigned char *) var29)[36];
((char *) var23)[2] = var32;
var33 = ((int *) var29)[6];
((int *) var23)[1] = var33;
var34 = ((int *) var29)[7];
((int *) var23)[2] = var34;
}
var35 = ((int *) var2)[414];
}
var12 = var12 + 0x2C;
if(!((((var35 + 0xFFFFFFFC) < 3)) == 0))
{
var9 = var9 + 0x28;
var10 = var10 + 0x64;
}
if(!(((var8 < var11)) != 0))
break;
var14 = ((int *) var13)[0];
continue;
}
}
}
}
ra = ((int *) sp)[6];
var36 = ((int *) sp)[5];
var37 = ((int *) sp)[4];
sp = sp + 0x20;
return var6;
}
int mpegBaseYCrCbCopy (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFFC0;
((int *) sp)[13] = ra;
((int *) sp)[12] = s0;
var1 = ((int *) arg1)[4];
((int *) arg1)[0] = arg4;
var2 = arg5;
var3 = 0;
((int *) arg1)[1] = arg3;
var4 = sp;
((int *) arg1)[2] = 0;
((int *) arg1)[3] = 0;
if(var1 == 2)
{
((int *) arg1)[12] = arg2;
}
else
{
var5 = *((int *) 0x0000A244);
var6 = *((int *) 0x0000A250);
var7 = *((int *) 0x0000A24C);
var8 = *((int *) 0x0000A248);
var9 = ((int *) var2)[7];
var10 = ((int *) var2)[0];
var11 = ((int *) var2)[2];
var12 = ((int *) var2)[4];
var13 = ((int *) var2)[6];
var14 = ((int *) var2)[1];
var15 = ((int *) var2)[3];
var16 = ((int *) var2)[5];
((int *) sp)[11] = (var9 + var6);
((int *) sp)[1] = (arg3 << 4);
((int *) sp)[0] = (arg4 << 4);
((int *) sp)[4] = (var10 + var5);
((int *) sp)[6] = (var11 + var5);
((int *) sp)[8] = (var12 + var7);
((int *) sp)[10] = (var13 + var7);
((int *) sp)[5] = (var14 + var8);
((int *) sp)[7] = (var15 + var8);
((int *) sp)[9] = (var16 + var6);
((int *) sp)[2] = 0;
((int *) sp)[3] = 0;
var19 = sceMpegBaseYCrCbCopy (arg1, var4, 3);
var3 = var19;
}
ra = ((int *) sp)[13];
var20 = ((int *) sp)[12];
sp = sp + 0x40;
return var3;
}
int mpegAtracDecode (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var1 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[4] = ra;
var4 = checkMpegLib (arg1);
var5 = var4;
if(!(var4 != 0))
{
var6 = ((int *) arg1)[0];
var7 = ((int *) var6)[440];
if(arg4 == 1)
{
var16 = ((int *) var1)[4];
var17 = ((int *) var6)[439];
var18 = ((int *) var6)[438];
var21 = audiocodecSetup (var7, var18, var17, (var16 + 2), (var16 + 4));
var5 = var21;
if(!(var21 != 0))
{
var8 = ((int *) var1)[4];
label11:
((int *) var7)[8] = arg3;
((int *) var7)[6] = var8;
var11 = audiocodecDecode (var7);
var5 = var11;
}
}
else
{
var8 = ((int *) var1)[4];
goto label11;
}
}
ra = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x20;
return var5;
}
int mpegQueryStreamOffset (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
var1 = arg3;
((int *) sp)[0] = s0;
var2 = arg2;
((int *) sp)[3] = ra;
((int *) sp)[1] = s1;
var3 = ((int *) arg1)[0];
var6 = strcmp (var3, "LIBMPEG");
var7 = 0x806101FE;
if(var6 == 0)
{
var13 = strncmp (var2, "PSMF", 4);
var7 = 0x806101FE;
if(var13 != 0)
{
label17:
((int *) var1)[0] = 0;
}
else
{
var16 = getPMFversion (var2);
((int *) var3)[3] = var16;
if(var16 < 0)
{
var7 = 0x80610002;
goto label17;
}
else
{
var19 = be4 ((var2 + 8));
((int *) var1)[0] = var19;
if((var19 & 0x000007FF) != 0)
{
label16:
var7 = 0x806101FE;
goto label17;
}
else
{
var7 = 0;
if(!(var19 != 0))
goto label16;
}
}
}
}
else
goto label17;
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int checkMpegLib (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = ((int *) arg1)[0];
var4 = strcmp (var1, "LIBMPEG");
ra = ((int *) sp)[0];
sp = sp + 0x10;
return (!(var4) ? 0 : 0x806101FE);
}
int mpegQueryStreamSize (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var1 = arg2;
var4 = be4 ((arg1 + 0x0C));
((int *) var1)[0] = var4;
var5 = 0;
if(!((var4 & 0x000007FF) == 0))
{
((int *) var1)[0] = 0;
var5 = 0x806101FE;
}
ra = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
int getPMFversion (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1 + 4;
((int *) sp)[1] = ra;
var4 = strncmp (var1, "0012", 4);
var5 = 0;
if(var4 != 0)
{
var9 = strncmp (var1, "0013", 4);
var5 = 1;
if(!(var9 == 0))
{
var12 = strncmp (var1, "0014", 4);
var5 = 2;
if(!(var12 == 0))
{
var15 = strncmp (var1, "0015", 4);
var5 = (var15) ? 0xFFFFFFFF : 3;
}
}
}
ra = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
int unRegistStream (int arg1, int arg2, int arg3){
if(((arg1 & 0xFFFFE000) | (0 & 0x00001FFF)) == 0xBF01E000)
{
var18 = (arg1 >> 8) & 0x1F;
if(arg3 == 1)
{
var19 = ((int *) arg2)[6];
var20 = var18 << 4;
}
else
{
var19 = ((int *) arg2)[7];
var20 = ((var18 << 4) + var18) << 2;
}
var2 = var19 + var20;
}
else
{
if(((arg1 & 0xE0000000) | (0 & 0x1FFFFFFF)) == 0xE0000000)
{
var15 = (arg1 >> 24) & 0x1F;
if(arg3 == 1)
{
var17 = ((int *) arg2)[6];
var2 = (var17 + (var15 << 4)) + 0x00000100;
}
else
{
var16 = ((int *) arg2)[7];
var2 = (var16 + (((var15 << 4) + var15) << 2)) + 0x00000440;
}
}
else
{
var1 = (arg1 & 0xFFF00000) | (0 & 0x000FFFFF);
if(var1 == 0xBD000000)
{
var12 = (arg1 >> 0x10) & 0x000042FF;
if(arg3 == 1)
{
var14 = ((int *) arg2)[6];
var2 = (var14 + (var12 << 4)) + 0x00000200;
}
else
{
var13 = ((int *) arg2)[7];
var2 = (var13 + (((var12 << 4) + var12) << 2)) + 0x00000880;
}
}
else
{
if(((arg1 & 0xFFE00000) | (0 & 0x001FFFFF)) == 0xBD800000)
{
var9 = (arg1 >> 0x10) & 0x0000427F;
if(arg3 == 1)
{
var11 = ((int *) arg2)[6];
var2 = (var11 + (var9 << 4)) + 0x00000400;
}
else
{
var10 = ((int *) arg2)[7];
var2 = (var10 + (((var9 << 4) + var9) << 2)) + 0x00001100;
}
}
else
{
if(var1 == 0xBD100000)
{
var6 = (arg1 >> 0x10) & 0x000042EF;
if(arg3 == 1)
{
var8 = ((int *) arg2)[6];
var2 = (var8 + (var6 << 4)) + 0x00000300;
}
else
{
var7 = ((int *) arg2)[7];
var2 = (var7 + (((var6 << 4) + var6) << 2)) + 0x00000CC0;
}
}
else
{
var2 = 0xFFFFFFFF;
if(var1 == 0xBD200000)
{
var3 = (arg1 >> 0x10) & 0x000042DF;
if(arg3 == 1)
{
var5 = ((int *) arg2)[6];
var2 = (var5 + (var3 << 4)) + 0x00000600;
}
else
{
var4 = ((int *) arg2)[7];
var2 = (var4 + (((var3 << 4) + var3) << 2)) + 0x00001980;
}
}
}
}
}
}
}
return var2;
}
void getAu (int arg1, int arg2, int arg3, int arg4, int arg5){
var1 = ((int *) arg1)[1];
((int *) arg5)[0] = 0;
var2 = 0x806101FE;
if(!(var1 == 0xFFFFFFFF))
{
var3 = ((int *) arg1)[3];
var2 = 0;
if(!(((arg2 < var3)) == 0))
{
var4 = var1;
if(!(arg2 <= 0))
{
var5 = arg2;
while (1) {
var5 = var5 + 0xFFFFFFFF;
var4 = ((int *) var4)[0];
if(var5 != 0)
continue;
break;
}
}
var6 = MIN ((var3 - arg2), arg3);
var7 = 0;
if(!(var6 <= 0))
{
var8 = 0;
while (1) {
var9 = var8 + arg4;
var10 = var4 + 8;
while (1) {
var11 = ((int *) var10)[0];
var12 = ((int *) var10)[1];
var13 = ((int *) var10)[2];
var14 = ((int *) var10)[3];
((int *) var9)[0] = var11;
var10 = var10 + 0x10;
var9 = var9 + 0x10;
((int *) var9)[1073741821] = var12;
((int *) var9)[1073741822] = var13;
((int *) var9)[1073741823] = var14;
if(var10 != (var4 + 0x28))
continue;
break;
}
var15 = ((int *) var10)[0];
var16 = ((int *) var10)[1];
var17 = ((int *) var10)[2];
((int *) var9)[0] = var15;
((int *) var9)[1] = var16;
((int *) var9)[2] = var17;
var7 = var7 + 1;
var4 = ((int *) var4)[0];
var8 = var8 + 0x2C;
if(((var7 < var6)) != 0)
continue;
break;
}
}
((int *) arg5)[0] = var6;
var2 = 0;
}
}
return;
}
void sub_02AEC (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[1];
((int *) arg3)[0] = 0;
var2 = 0x806101FE;
if(!(var1 == 0xFFFFFFFF))
{
var3 = ((int *) arg1)[3];
var4 = var1;
var5 = MIN (var3, arg2);
var6 = var3;
var7 = var5;
if(!(var5 <= 0))
{
while (1) {
var8 = ((int *) var4)[0];
var9 = var6 + 0xFFFFFFFF;
var7 = var7 + 0xFFFFFFFF;
((int *) var4)[0] = 0xFFFFFFFF;
var6 = var9;
((int *) var4)[1] = 0xFFFFFFFF;
var4 = var8;
((int *) arg1)[3] = var9;
if(var7 != 0)
continue;
break;
}
}
((int *) arg3)[0] = var5;
var10 = ((int *) arg1)[3];
((int *) arg1)[1] = var4;
if(!(var10 != 0))
{
((int *) arg1)[1] = 0xFFFFFFFF;
((int *) arg1)[0] = 0xFFFFFFFF;
}
var2 = 0;
}
return;
}
int ringbufferPutB (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF60;
((int *) sp)[34] = s6;
var1 = arg4;
((int *) sp)[29] = s1;
var2 = arg2;
((int *) sp)[28] = s0;
((int *) sp)[37] = ra;
((int *) sp)[36] = fp;
((int *) sp)[35] = s7;
((int *) sp)[33] = s5;
((int *) sp)[32] = s4;
((int *) sp)[31] = s3;
((int *) sp)[30] = s2;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 != 0)
{
label64:
ra = ((int *) sp)[37];
}
else
{
((int *) var1)[0] = 0;
var8 = ((int *) var2)[4];
var7 = 0x806101FE;
if(var8 != 0x00000800)
goto label64;
var11 = ringbufferPutBA (var2);
var12 = ((int *) var2)[4];
var13 = ((MIN (arg3, var11)) * var12);
var7 = 0;
if(!(var13 != 0))
goto label64;
var23 = ((int *) var3)[411];
var24 = var13 << 3;
var25 = sp;
waitSema ();
var28 = ((int *) var2)[4];
var29 = ((int *) var2)[1];
var30 = ((int *) var2)[0];
var31 = ((int *) var2)[5];
var32 = sp;
((int *) sp)[0] = 0;
var33 = var31 + (var29 * var28);
((int *) sp)[3] = var33;
var34 = (var30 * var28);
((int *) sp)[6] = (var31 + var34);
((int *) sp)[7] = var34;
((int *) sp)[2] = var33;
((int *) sp)[4] = 0;
((int *) sp)[1] = 0;
((int *) sp)[5] = var31;
ringStuff (var32, 0);
var37 = ((int *) sp)[0];
var38 = var25;
if(var37 == 0x000001BA)
{
label21:
var88 = sp + 0x20;
ringbufferPutBB (var38, var88);
var37 = ((int *) var25)[0];
goto label14;
}
label14:
var39 = ((int *) var25)[1];
var40 = 0;
var41 = 0;
while (1) {
if((var37 >> 8) != 1)
break;
if(var37 == 0x000001BA)
break;
if(var37 == 0x000001B9)
break;
var42 = sp + 0x20;
if(((var39 < var24)) == 0)
break;
var43 = var42 + 0x18;
var46 = ringbufferPutBC (var25, var43);
if(var46 < 0)
goto label49;
var39 = ((int *) var25)[1];
if(((var24 < var39)) != 0)
{
var37 = ((int *) var25)[0];
label63:
var40 = var40 + 1;
var41 = var41 + 0x34;
continue;
}
else
{
var47 = ((int *) sp)[14];
var50 = unRegistStream (var47, var3, 1);
var51 = var50;
if(var50 == 0xFFFFFFFF)
{
label60:
var74 = ((int *) var2)[4];
if(var74 == 0)
{
__asm__ ("break 0x00007;");
}
((int *) var1)[0] = ((var39 >> 3) / var74);
var37 = ((int *) var25)[0];
goto label63;
}
else
{
var52 = ((int *) var50)[2];
if(var52 == 0xFFFFFFFF)
goto label60;
var53 = ((int *) var2)[4];
var54 = ((int *) var1)[0];
if(var53 == 0)
{
__asm__ ("break 0x00007;");
}
var55 = ((int *) var2)[1];
var56 = ((int *) var2)[0];
var57 = ((int *) var3)[5];
var58 = var55 + ((var54 * var53) / var53);
if(((var40 < 2)) == 0)
goto label49;
var59 = ((int *) var51)[0];
var60 = (var57 + ((!(((var58 < var56))) ? (var58 - var56) : var58) * 0x68)) + var41;
((int *) var60)[0] = 0xFFFFFFFF;
((int *) var60)[1] = var59;
var61 = ((int *) var51)[0];
if(var61 != 0xFFFFFFFF)
{
((int *) var61)[0] = var60;
}
((int *) var51)[0] = var60;
var62 = var43;
var63 = sp + 0x20;
var64 = var60 + 8;
while (1) {
var65 = ((int *) var62)[0];
var66 = ((int *) var62)[1];
var67 = ((int *) var62)[2];
var68 = ((int *) var62)[3];
((int *) var64)[0] = var65;
var62 = var62 + 0x10;
var64 = var64 + 0x10;
((int *) var64)[1073741821] = var66;
((int *) var64)[1073741822] = var67;
((int *) var64)[1073741823] = var68;
if(var62 != (var63 + 0x38))
continue;
break;
}
var69 = ((int *) var62)[0];
var70 = ((int *) var62)[1];
var71 = ((int *) var62)[2];
((int *) var64)[0] = var69;
((int *) var64)[1] = var70;
((int *) var64)[2] = var71;
var72 = ((int *) var51)[1];
if(var72 == 0xFFFFFFFF)
{
var75 = ((int *) var51)[0];
((int *) var51)[1] = var75;
}
var73 = ((int *) var51)[3];
((int *) var51)[3] = (var73 + 1);
var39 = ((int *) var25)[1];
goto label60;
}
}
goto label65;
}
if(((var39 < var24)) != 0)
{
var38 = var25;
if(var37 == 0x000001BA)
goto label21;
var83 = ((int *) var3)[411];
signalSema ();
var86 = ((int *) var25)[1];
var87 = ((int *) var2)[4];
var7 = 0x80618007;
if(var87 == 0)
{
__asm__ ("break 0x00007;");
}
if(((var86 >> 3) % var87) == 0)
{
var7 = 0;
goto label64;
}
else
{
ra = ((int *) sp)[37];
}
}
else
{
var79 = ((int *) var2)[4];
if(var79 == 0)
{
__asm__ ("break 0x00007;");
}
if(((var39 >> 3) % var79) != 0)
{
label49:
var76 = ((int *) var3)[411];
signalSema ();
var7 = 0x80618007;
}
else
{
var80 = ((int *) var3)[411];
signalSema ();
var7 = 0;
}
goto label64;
}
}
label65:
var14 = ((int *) sp)[36];
var15 = ((int *) sp)[35];
var16 = ((int *) sp)[34];
var17 = ((int *) sp)[33];
var18 = ((int *) sp)[32];
var19 = ((int *) sp)[31];
var20 = ((int *) sp)[30];
var21 = ((int *) sp)[29];
var22 = ((int *) sp)[28];
sp = sp + 0xA0;
return var7;
}
void ringStuff (int arg1, int arg2){
var1 = arg1;
var2 = arg2;
while (1) {
if(((var2 < 0x19)) != 0)
break;
var3 = ((int *) var1)[4];
var4 = ((int *) var1)[0];
var5 = var3 + 0xFFFFFFE8;
((int *) var1)[0] = (var4 << 0x18);
((int *) var1)[4] = var5;
if(!(((var5 < 0x19)) == 0))
{
var6 = ((int *) var1)[6];
while (1) {
var7 = ((int *) var1)[3];
var8 = ((int *) var1)[4];
var9 = ((int *) var1)[0];
var10 = ((unsigned char *) var7)[0];
var11 = var7 + 1;
var12 = var8 + 8;
((int *) var1)[0] = (var9 | (var10 << (0x18 - var8)));
((int *) var1)[3] = var11;
if(!(((var11 < var6)) != 0))
{
var13 = ((int *) var1)[5];
((int *) var1)[3] = var13;
}
((int *) var1)[4] = var12;
if(((var12 < 0x19)) != 0)
continue;
break;
}
}
var14 = ((int *) var1)[1];
var2 = var2 + 0xFFFFFFE8;
((int *) var1)[1] = (var14 + 0x18);
continue;
}
var15 = ((int *) var1)[4];
var16 = ((int *) var1)[0];
var17 = var15 - var2;
((int *) var1)[0] = (var16 << var2);
((int *) var1)[4] = var17;
if(!(((var17 < 0x19)) == 0))
{
var18 = ((int *) var1)[6];
while (1) {
var19 = ((int *) var1)[3];
var20 = ((int *) var1)[4];
var21 = ((int *) var1)[0];
var22 = ((unsigned char *) var19)[0];
var23 = var19 + 1;
var24 = var20 + 8;
((int *) var1)[0] = (var21 | (var22 << (0x18 - var20)));
((int *) var1)[3] = var23;
if(!(((var23 < var18)) != 0))
{
var25 = ((int *) var1)[5];
((int *) var1)[3] = var25;
}
((int *) var1)[4] = var24;
if(((var24 < 0x19)) != 0)
continue;
break;
}
}
var26 = ((int *) var1)[1];
((int *) var1)[1] = (var26 + var2);
return;
}
void ringbufferPutBB (int arg1, int arg2){
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
var1 = arg2;
((int *) sp)[4] = s4;
var2 = arg1;
((int *) sp)[7] = ra;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
ringStuff (arg1, 0x22);
var5 = ((int *) var2)[0];
ringStuff (var2, 3);
ringStuff (var2, 1);
var10 = ((int *) var2)[0];
ringStuff (var2, 0x0F);
ringStuff (var2, 1);
var15 = ((int *) var2)[0];
ringStuff (var2, 0x0F);
ringStuff (var2, 1);
var20 = ((int *) var2)[0];
ringStuff (var2, 0x09);
((int *) var1)[0] = (var20 >> 0x17);
ringStuff (var2, 0x1E);
var25 = ((int *) var2)[0];
var26 = var25 >> 0x1D;
ringStuff (var2, 3);
((int *) var1)[1] = ((((var5 >> 0x1D) << 0x1E) | ((var10 >> 0x11) << 0x0F)) | (var15 >> 0x11));
var29 = 0;
((int *) var1)[2] = (var5 >> 0x1F);
if(var26 != 0)
{
var47 = var2;
while (1) {
var29 = var29 + 1;
ringStuff (var47, 8);
var47 = var2;
if(((var29 < var26)) != 0)
continue;
break;
}
var30 = ((int *) var2)[0];
}
else
{
var30 = ((int *) var2)[0];
}
if(var30 == 0x000001BB)
{
((int *) var1)[3] = 1;
ringStuff (var2, 0x38);
ringStuff (var2, 0x28);
var42 = ((int *) var2)[0];
ra = ((int *) sp)[7];
if(!((var42 >> 0x1F) != 1))
{
var43 = var2;
while (1) {
ringStuff (var43, 0x18);
var46 = ((int *) var2)[0];
var43 = var2;
if((var46 >> 0x1F) == 1)
continue;
break;
}
ra = ((int *) sp)[7];
}
}
else
{
((int *) var1)[3] = 0;
ra = ((int *) sp)[7];
}
var31 = ((int *) sp)[6];
var32 = ((int *) sp)[5];
var33 = ((int *) sp)[4];
var34 = ((int *) sp)[3];
var35 = ((int *) sp)[2];
var36 = ((int *) sp)[1];
var37 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
int ringbufferPutBC (int arg1, int arg2){
sp = sp + 0xFFFFFFC0;
((int *) sp)[9] = s5;
var1 = arg2;
((int *) sp)[8] = s4;
((int *) sp)[13] = ra;
((int *) sp)[12] = fp;
((int *) sp)[11] = s7;
((int *) sp)[10] = s6;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[1];
var3 = ((int *) arg1)[2];
var4 = ((int *) arg1)[6];
var5 = var3 + (var2 >> 3);
var6 = arg1;
if(!(((var5 < var4)) != 0))
{
var7 = ((int *) arg1)[7];
var5 = var5 - var7;
}
((int *) var1)[9] = var5;
ringStuff (arg1, 0x18);
var10 = ((unsigned char *) var6)[3];
ringStuff (var6, 8);
((int *) var1)[0] = (var10 << 0x18);
var13 = ((unsigned short *) var6)[1];
ringStuff (var6, 0x10);
var16 = ((int *) var1)[0];
((int *) var1)[1] = var13;
((int *) var1)[4] = 0xFFFFFFFF;
((int *) var1)[5] = 0xFFFFFFFF;
((int *) var1)[3] = 0xFFFFFFFF;
((int *) var1)[6] = 0xFFFFFFFF;
if((((0 < (var16 ^ 0xBC000000))) & ((0 < (var16 ^ 0xBE000000)))) == 0)
{
label17:
if(((((var16 ^ 0xBC000000) < 1)) | (((var16 ^ 0xBF000000) < 1))) != 0)
{
label23:
var165 = ((int *) var1)[1];
if(var16 == 0xBF000000)
{
var166 = ((int *) var6)[1];
var167 = ((int *) var6)[2];
var168 = ((int *) var6)[6];
var169 = var167 + (var166 >> 3);
if(((var169 < var168)) != 0)
{
((int *) var1)[8] = var165;
}
else
{
var170 = ((int *) var6)[7];
var169 = var169 - var170;
((int *) var1)[8] = var165;
}
var171 = ((int *) var6)[0];
((int *) var1)[7] = var169;
var165 = var165 + 0xFFFFFFFD;
ringStuff (var6, 0x18);
var174 = ((int *) var1)[0];
((int *) var1)[0] = (var174 | (var171 >> 8));
}
if(var165 == 0)
{
var65 = 1;
}
else
{
var66 = ((int *) var6)[1];
var67 = var165 << 3;
label155:
var68 = ((int *) var6)[2];
var69 = var66 + var67;
var70 = ((int *) var6)[6];
var71 = var68 + (var69 >> 3);
((int *) var6)[0] = 0;
((int *) var6)[4] = 0;
((int *) var6)[1] = var69;
((int *) var6)[3] = var71;
if(!(((var71 < var70)) != 0))
{
var72 = ((int *) var6)[7];
((int *) var6)[3] = (var71 - var72);
}
ringStuff (var6, 0);
var65 = 1;
}
}
else
{
if(var16 == 0xF0000000)
goto label23;
if(var16 == 0xF1000000)
goto label23;
if(var16 == 0xFF000000)
goto label23;
if(var16 == 0xF2000000)
goto label23;
if(var16 == 0xF8000000)
goto label23;
var65 = 1;
if(!(var16 != 0xBE000000))
{
var164 = ((int *) var1)[1];
if(var164 == 0)
{
var65 = 1;
}
else
{
var66 = ((int *) var6)[1];
var67 = var164 << 3;
goto label155;
}
}
}
}
else
{
if(var16 == 0xBF000000)
goto label17;
if(var16 == 0xF0000000)
goto label17;
if(var16 == 0xF1000000)
goto label17;
if(var16 == 0xFF000000)
goto label17;
if(var16 == 0xF2000000)
goto label17;
if(var16 == 0xF8000000)
goto label17;
ringStuff (var6, 2);
var19 = ((int *) var6)[0];
ringStuff (var6, 2);
((int *) var1)[2] = (var19 >> 0x1E);
ringStuff (var6, 4);
var24 = ((int *) var6)[0];
var25 = var24 >> 0x1E;
ringStuff (var6, 2);
var28 = ((int *) var6)[0];
((int *) sp)[1] = (var28 >> 0x1F);
ringStuff (var6, 1);
var31 = ((int *) var6)[0];
var32 = var31 >> 0x1C;
ringStuff (var6, 4);
var35 = ((int *) var6)[0];
var36 = var35 >> 0x1F;
ringStuff (var6, 1);
var39 = ((unsigned char *) var6)[3];
((int *) sp)[2] = var39;
ringStuff (var6, 8);
var42 = ((int *) var6)[1];
((int *) sp)[0] = var42;
if((var25 & 2) != 0)
{
ringStuff (var6, 4);
var149 = ((int *) var6)[0];
ringStuff (var6, 3);
ringStuff (var6, 1);
var154 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
var159 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
((int *) var1)[4] = ((((var149 >> 0x1D) << 0x1E) | ((var154 >> 0x11) << 0x0F)) | (var159 >> 0x11));
((int *) var1)[3] = (var149 >> 0x1F);
}
if(var25 == 3)
{
ringStuff (var6, 4);
var132 = ((int *) var6)[0];
ringStuff (var6, 3);
ringStuff (var6, 1);
var137 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
var142 = ((int *) var6)[0];
ringStuff (var6, 0x0F);
ringStuff (var6, 1);
((int *) var1)[6] = ((((var132 >> 0x1D) << 0x1E) | ((var137 >> 0x11) << 0x0F)) | (var142 >> 0x11));
((int *) var1)[5] = (var132 >> 0x1F);
}
else
{
}
var43 = ((int *) sp)[1];
if(var43 == 1)
{
ringStuff (var6, 0x30);
}
if(var32 != 0)
{
var125 = ((unsigned char *) (var32 + 0x0000A088))[0];
ringStuff (var6, var125);
}
if(var36 == 1)
{
var88 = ((int *) var6)[0];
ringStuff (var6, 1);
var91 = ((int *) var6)[0];
ringStuff (var6, 1);
var94 = ((int *) var6)[0];
ringStuff (var6, 1);
var97 = ((int *) var6)[0];
ringStuff (var6, 1);
ringStuff (var6, 3);
var102 = ((int *) var6)[0];
ringStuff (var6, 1);
if((var88 >> 0x1F) == var36)
{
ringStuff (var6, 0x30);
ringStuff (var6, 0x30);
ringStuff (var6, 0x20);
}
else
{
}
var65 = 0x80618007;
if(!((var91 >> 0x1F) == 1))
{
if((var94 >> 0x1F) == 1)
{
ringStuff (var6, 0x10);
}
if((var97 >> 0x1F) == 1)
{
ringStuff (var6, 0x10);
}
if((var102 >> 0x1F) != var36)
{
var44 = ((int *) var6)[1];
}
else
{
ringStuff (var6, 1);
var107 = ((int *) var6)[0];
var108 = var107 >> 0x19;
ringStuff (var6, 0x07);
var111 = 0;
if(var108 == 0)
{
label139:
var44 = ((int *) var6)[1];
}
else
{
var112 = var6;
while (1) {
var111 = var111 + 1;
ringStuff (var112, 8);
if(!(((var111 < var108)) != 0))
break;
var112 = var6;
continue;
}
var44 = ((int *) var6)[1];
}
}
var45 = ((int *) sp)[0];
var46 = ((int *) sp)[2];
var47 = var46 - ((var44 - var45) >> 3);
if(var47 == 0)
{
var55 = ((int *) var1)[1];
}
else
{
var48 = ((int *) var6)[2];
var49 = var44 + (var47 << 3);
var50 = ((int *) var6)[6];
var51 = var48 + (var49 >> 3);
((int *) var6)[0] = 0;
((int *) var6)[4] = 0;
((int *) var6)[1] = var49;
((int *) var6)[3] = var51;
if(!(((var51 < var50)) != 0))
{
var52 = ((int *) var6)[7];
((int *) var6)[3] = (var51 - var52);
}
ringStuff (var6, 0);
var55 = ((int *) var1)[1];
}
var56 = ((int *) sp)[2];
var57 = ((int *) var6)[2];
var58 = ((int *) var6)[6];
var59 = var55 - var56;
var60 = var59 + 0xFFFFFFFD;
((int *) var1)[8] = var60;
var61 = ((int *) var6)[1];
var62 = var57 + (var61 >> 3);
var63 = ((int *) var1)[0];
if(!(((var62 < var58)) != 0))
{
var64 = ((int *) var6)[7];
var62 = var62 - var64;
}
((int *) var1)[7] = var62;
if(var63 == 0xBD000000)
{
var84 = ((int *) var6)[0];
ringStuff (var6, 0x18);
var87 = ((int *) var1)[0];
var60 = var59 + 0xFFFFFFFA;
((int *) var1)[0] = (var87 | (var84 >> 8));
}
var65 = 1;
if(!(var60 == 0))
{
var66 = ((int *) var6)[1];
var67 = var60 << 3;
goto label155;
}
}
}
else
goto label139;
}
ra = ((int *) sp)[13];
var75 = ((int *) sp)[12];
var76 = ((int *) sp)[11];
var77 = ((int *) sp)[10];
var78 = ((int *) sp)[9];
var79 = ((int *) sp)[8];
var80 = ((int *) sp)[7];
var81 = ((int *) sp)[6];
var82 = ((int *) sp)[5];
var83 = ((int *) sp)[4];
sp = sp + 0x40;
return var65;
}
int mpegRingbufferPut (int arg1, int arg2, int arg3){
if((ret=ringbufferPutA (arg1, arg2, arg3))< 0)return ret;
ret = ringbufferPutB (arg1[10], arg1, var4, sp);
ret2 = ringbufferPutC (arg1, var4);
return ret?ret:ret2;
}
int ringbufferPutA (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[2] = s2;
var1 = arg1;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[7] = ra;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
var7 = var6;
if(var6 == 0)
{
var15 = ((int *) var3)[411];
var16 = MIN (arg2, arg3);
var17 = ((int *) var1)[6];
var18 = 0;
waitSema ();
if(var16 <= 0)
{
label30:
var45 = ((int *) var3)[411];
signalSema ();
var7 = var18;
}
else
{
var21 = ((int *) var1)[0];
var22 = ((int *) var1)[2];
while (1) {
if(var17 == 0)
{
var51 = ((int *) var3)[411];
signalSema ();
var7 = 0x80610103;
}
else
{
var23 = ((int *) var3)[411];
signalSema ();
var26 = ((int *) var1)[11];
var27 = gp;
gp = var26;
var28 = ((int *) var1)[4];
var29 = ((int *) var1)[2];
var30 = ((int *) var1)[5];
var31 = ((int *) var1)[7];
var34 var35 = (*var17) ((var30 + (var29 * var28)), ((((var21 < (var22 + var16)))) ? (var21 - var22) : var16), var31);
var36 = var34;
var37 = gp;
gp = var27;
var38 = ((int *) var3)[411];
waitSema ();
if(var36 < 0)
{
if(var18 <= 0)
{
var48 = ((int *) var3)[411];
signalSema ();
var7 = var36;
}
else
{
var36 = 0;
label25:
var41 = ((int *) var1)[2];
var42 = ((int *) var1)[0];
var18 = var18 + var36;
var43 = var41 + var36;
var16 = var16 - var36;
var21 = var42;
((int *) var1)[2] = var43;
if(var43 == var42)
{
((int *) var1)[2] = 0;
}
var44 = ((int *) var1)[3];
((int *) var1)[3] = (var44 + var36);
if(var36 == 0)
break;
if(!(var16 > 0))
break;
var22 = ((int *) var1)[2];
continue;
}
}
else
goto label25;
}
goto label33;
}
goto label30;
}
}
label33:
ra = ((int *) sp)[7];
var8 = ((int *) sp)[6];
var9 = ((int *) sp)[5];
var10 = ((int *) sp)[4];
var11 = ((int *) sp)[3];
var12 = ((int *) sp)[2];
var13 = ((int *) sp)[1];
var14 = ((int *) sp)[0];
sp = sp + 0x20;
return var7;
}
int mpegRingbufferAvailableSize (int arg1){
sp = sp + 0xFFFFFFD0;
((int *) sp)[6] = s2;
var1 = arg1;
((int *) sp)[8] = ra;
((int *) sp)[7] = s3;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
if(var6 == 0)
{
var11 = ((int *) var3)[411];
waitSema ();
var14 = ((int *) var1)[3];
var15 = ((int *) var1)[0];
var16 = 0;
if(var14 == var15)
{
var36 = ((int *) var3)[411];
signalSema ();
var6 = 0;
}
else
{
var17 = ((int *) var1)[1];
((int *) sp)[0] = var17;
var18 = ((int *) var3)[6];
while (1) {
var19 = var18 + (var16 << 4);
var20 = ((int *) var19)[2];
var16 = var16 + 1;
if(var20 == 0xFFFFFFFF)
{
label18:
var23 = (var16 < 0x70);
label19:
if(var23 != 0)
{
var18 = ((int *) var3)[6];
continue;
}
else
{
var24 = ((int *) sp)[0];
}
}
else
{
var21 = ((int *) var19)[1];
var22 = sp;
if(!(var21 != 0xFFFFFFFF))
goto label18;
var33 = ((int *) var21)[9];
ringbufferAvailableSize (var1, var22, var33);
var24 = ((int *) sp)[0];
var23 = (var16 < 0x70);
if(var24 != 0xFFFFFFFF)
goto label19;
break;
}
goto label22;
}
label22:
if(var24 == 0xFFFFFFFF)
{
var28 = ((int *) var1)[3];
var27 = ((int *) var1)[0];
var29 = var27 - var28;
}
else
{
var25 = ((int *) var1)[2];
var26 = ((int *) var1)[1];
var27 = ((int *) var1)[0];
if(((var25 < var26)) != 0)
{
label28:
var28 = ((int *) var1)[3];
var29 = var26 - var24;
}
else
{
if(!(((var26 < var24)) != 0))
goto label28;
var28 = ((int *) var1)[3];
var29 = (var27 - var24) + var26;
}
}
var30 = ((int *) var3)[411];
signalSema ();
var6 = ((var27 - var28) - var29);
}
}
ra = ((int *) sp)[8];
var7 = ((int *) sp)[7];
var8 = ((int *) sp)[6];
var9 = ((int *) sp)[5];
var10 = ((int *) sp)[4];
sp = sp + 0x30;
return var6;
}
int mpeg_C2F02CDD (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFD0;
((int *) sp)[7] = s7;
var1 = arg4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
((int *) sp)[8] = ra;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[1] = s1;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var15 = ((int *) arg2)[0];
var16 = ((int *) var2)[4];
var19 = unRegistStream (var15, var2, 1);
var20 = var19;
var5 = 0x806101FE;
if(!(var20 == 0xFFFFFFFF))
{
var21 = ((int *) arg3)[0];
var24 = unRegistStream (var21, var2, 1);
var25 = var24;
var5 = 0x806101FE;
if(!(var25 == 0xFFFFFFFF))
{
var26 = ((int *) var2)[411];
waitSema ();
var29 = ((int *) var20)[1];
if(var29 == 0xFFFFFFFF)
{
label16:
var6 = 0x80618001;
}
else
{
var30 = ((int *) var25)[1];
if(var30 == 0xFFFFFFFF)
{
goto label16;
}
else
{
var31 = ((int *) var16)[5];
var32 = ((int *) var29)[9];
var33 = ((int *) var16)[4];
var34 = ((int *) var30)[9];
if(var33 == 0)
{
__asm__ ("break 0x00007;");
}
var35 = ((var32 - var31) / var33);
var36 = ((var34 - var31) / var33);
if(var35 == var36)
{
((int *) var1)[0] = 0;
}
else
{
var37 = ((int *) var16)[2];
var38 = ((int *) var16)[1];
if(((var37 < var38)) != 0)
{
var40 = var35 - var36;
}
else
{
var39 = (var35 < var37);
if(((var35 < var38)) == 0)
{
label26:
if(var39 != 0)
{
label28:
if(((var35 < var36)) == 0)
{
var45 = ((int *) var16)[0];
var44 = var35 - var36;
}
else
{
var44 = ((int *) var16)[0];
var45 = var36 - var35;
}
var40 = var44 - var45;
}
else
{
var40 = var35 - var36;
if(((var36 < var37)) != 0)
goto label28;
}
}
else
{
var40 = var35 - var36;
if(!(((var36 < var38)) != 0))
{
var39 = (var35 < var37);
goto label26;
}
}
}
((int *) var1)[0] = var40;
}
}
}
var41 = ((int *) var2)[411];
signalSema ();
var5 = var6;
}
}
}
ra = ((int *) sp)[8];
var7 = ((int *) sp)[7];
var8 = ((int *) sp)[6];
var9 = ((int *) sp)[5];
var10 = ((int *) sp)[4];
var11 = ((int *) sp)[3];
var12 = ((int *) sp)[2];
var13 = ((int *) sp)[1];
var14 = ((int *) sp)[0];
sp = sp + 0x30;
return var5;
}
int mpegRingbufferQueryMemSize (int arg1){
return ((arg1 << 0x0B) + (arg1 * 0x68));
}
int mpegRingbufferQueryPackNum (int arg1){
return ((hi (arg1 * 0xF3A0D52D)) >> 0x0B);
}
int mpegRingbufferConstruct (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = arg2 << 0x0B;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var2 = arg1;
((int *) sp)[6] = s6;
var3 = 0x80610022;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[1] = s1;
var4 = arg3;
((int *) sp)[7] = ra;
if(!(((arg4 < (var1 + (arg2 * 0x68)))) != 0))
{
var5 = *((int *) mpegLibmpegSema);
waitSema ();
((int *) var2)[5] = var4;
((int *) var2)[4] = 0x00000800;
((int *) var2)[8] = (var4 + var1);
((int *) var2)[0] = arg2;
((int *) var2)[6] = arg5;
((int *) var2)[7] = arg6;
((int *) var2)[3] = 0;
((int *) var2)[2] = 0;
((int *) var2)[1] = 0;
((int *) var2)[10] = 0;
var8 = gp;
((int *) var2)[11] = var8;
var9 = *((int *) mpegLibmpegSema);
signalSema ();
var3 = 0;
}
ra = ((int *) sp)[7];
var12 = ((int *) sp)[6];
var13 = ((int *) sp)[5];
var14 = ((int *) sp)[4];
var15 = ((int *) sp)[3];
var16 = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x20;
return var3;
}
int mpegRingbufferDestruct (){
return 0;
}
int ringbufferPutBA (int arg1){
if((ret=checkMpegLib (*arg1[10])))return ret;
waitSema (*(arg1[10])[411]);
ret = arg1[3];
signalSema (*(arg1[10])[411]);
return ret;
}
int ringbufferPutC (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[10];
var3 = ((int *) var2)[0];
var6 = checkMpegLib (var2);
var7 = var6;
if(var6 == 0)
{
var11 = ((int *) var3)[411];
waitSema ();
var14 = ((int *) var1)[3];
var15 = MIN (arg2, var14);
var16 = var15;
if(!(var15 <= 0))
{
var17 = ((int *) var1)[0];
var18 = ((int *) var1)[1];
while (1) {
var19 = !(((var17 < (var18 + var16)))) ? var16 : (var17 - var18);
var20 = var18 + var19;
var16 = var16 - var19;
((int *) var1)[1] = var20;
if(var20 == var17)
{
((int *) var1)[1] = 0;
}
if(!(var16 > 0))
break;
var18 = ((int *) var1)[1];
continue;
}
}
((int *) var1)[3] = (var14 - var15);
var21 = ((int *) var3)[411];
signalSema ();
var7 = var15;
}
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
void ringbufferAvailableSize (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[5];
var2 = ((int *) arg1)[4];
var3 = arg3 - var1;
if(var2 == 0)
{
__asm__ ("break 0x00007;");
}
var4 = ((int *) arg1)[2];
var5 = (var3 / var2);
if(((((var5 ^ var4) < 1)) & ((0 < var3))) == 0)
{
var6 = ((int *) arg1)[1];
if(((var4 < var6)) == 0)
{
var9 = ((int *) arg2)[0];
if(((var4 < var5)) == 0)
{
if(!(((var6 < var9)) != 0))
{
if(!(((var5 < var6)) == 0))
{
if(((var5 < var9)) != 0)
{
((int *) arg2)[0] = var5;
}
else
{
}
}
}
label17:
}
else
{
var8 = (var5 < var9);
if(((var6 < var9)) == 0)
{
label18:
((int *) arg2)[0] = var5;
}
else
{
label16:
if(var8 == 0)
goto label17;
goto label18;
}
}
}
else
{
var7 = ((int *) arg2)[0];
var8 = (var5 < var7);
goto label16;
}
}
else
{
((int *) arg2)[0] = 0xFFFFFFFF;
}
return;
}
int deleteStuff (int arg1, int arg2, int arg3, int arg4){
((int *) sp)[13] = arg1;
var1 = arg2;
var2 = ((int *) sp)[13];
var3 = ((int *) arg2)[0];
((int *) sp)[14] = arg3;
var4 = ((int *) var2)[0];
((int *) sp)[15] = arg4;
var7 = unRegistStream (var3, var4, 1);
((int *) sp)[19] = var7;
var8 = ((int *) sp)[19];
((int *) sp)[16] = 0x80618001;
var9 = 0x806101FE;
if(!(var8 == 0xFFFFFFFF))
{
while (1) {
var10 = ((int *) sp)[13];
var11 = 0;
var12 = 0;
var15 = sub_063D8 (var10);
var16 = ((int *) sp)[19];
var17 = ((int *) sp)[15];
var18 = ((int *) var1)[9];
var19 = ((int *) var16)[3];
var20 = ((int *) var17)[4];
var21 = ((int *) sp)[13];
var22 = MIN (var19, 0x63);
((int *) sp)[20] = (var15 + 4);
var25 = avcDecodeYCbCr (var21, var20);
var26 = (var18 < 1);
((int *) sp)[17] = var25;
((int *) sp)[18] = 0;
if((((0 < var22)) & (var26 ^ 1)) == 0)
{
var44 = (0 < var22);
label44:
if(((var44 ^ 1) & (var26 ^ 1)) == 0)
{
((int *) var1)[8] = 0;
}
else
{
var45 = ((int *) var1)[11];
var46 = ((int *) var1)[8];
var47 = ((int *) sp)[18];
((int *) var1)[9] = var18;
((int *) var1)[11] = (var45 + var11);
((int *) var1)[8] = (var46 + var47);
}
var48 = ((int *) sp)[20];
var49 = ((int *) sp)[15];
((int *) (var48 + (var12 << 4)))[1073741822] = 0;
var50 = ((int *) var49)[5];
var51 = ((int *) sp)[13];
var52 = ((int *) sp)[14];
var55 = sub_05B5C (var51, (var50 + var11), var52);
if(var55 != 0)
{
((int *) sp)[16] = var55;
label64:
var58 = ((int *) sp)[18];
}
else
{
var56 = ((int *) var1)[12];
if((var56 & 0x05) != 0)
{
var58 = ((int *) sp)[18];
}
else
{
var57 = ((int *) sp)[20];
if((var56 & 2) == 0)
{
label55:
invalidateCsc (var57);
var81 = ((int *) sp)[15];
var82 = ((int *) sp)[17];
var83 = ((int *) var81)[5];
if((((0x003FFFFF < ((var82 >> 0) & 0x1FFFFFFF))) ^ 1) == 0)
{
var89 = ((int *) sp)[17];
sceKernelDcacheWritebackInvalidateRange (var89, (var83 + var11));
}
var84 = ((int *) sp)[20];
var87 = sceMpegbase_BEA18F91 (var84);
var88 = ((int *) sp)[16];
((int *) sp)[16] = ((var87) ? var87 : var88);
}
else
{
if(var56 < 0)
goto label55;
}
goto label64;
}
}
}
else
{
while (1) {
var27 = ((int *) sp)[19];
var28 = sp;
var29 = sp + 0x30;
getAu (var27, var12, 1, var28, var29);
var32 = ((int *) sp)[15];
var33 = ((short *) var1)[14];
var34 = ((int *) var1)[5];
var35 = ((int *) sp)[8];
var36 = ((int *) var32)[5];
var37 = ((int *) sp)[7];
var38 = ((int *) sp)[17];
var39 = var35 - (var34 + var33);
var18 = var18 - var39;
var40 = (var38 + var36) + var11;
var11 = var11 + var39;
if(var18 <= 0)
{
var98 = ((int *) sp)[18];
if(var18 != 0)
{
var105 = abs (var18);
var39 = var39 - var105;
var108 = abs (var18);
((short *) var1)[14] = (var39 + var33);
var11 = var11 - var108;
}
else
{
((short *) var1)[14] = 0;
((int *) sp)[18] = (var98 + 1);
}
var99 = ((int *) sp)[18];
if(var99 <= 0)
{
var101 = ((int *) var1)[8];
if(var101 > 0)
{
var100 = ((int *) var1)[6];
label28:
((int *) var1)[13] = 0;
((int *) var1)[6] = (var100 | 1);
label29:
var41 = ((int *) sp)[20];
}
else
{
var102 = ((int *) var1)[13];
var41 = ((int *) sp)[20];
if(!(var102 != 1))
{
var100 = ((int *) var1)[6];
goto label28;
}
}
}
else
{
var100 = ((int *) var1)[6];
goto label28;
}
}
else
goto label29;
var42 = var41 + (var12 << 4);
((int *) var42)[0] = ((var37 + var34) + var33);
((int *) var42)[2] = (var42 + 0x10);
((int *) var42)[1] = var40;
if(((var39 < 0x00001000)) == 0)
{
((int *) sp)[16] = 0x80618007;
((int *) var42)[3] = 0;
goto label64;
}
else
{
((int *) var42)[3] = var39;
if(var18 <= 0)
{
var92 = ((int *) var1)[10];
var12 = var12 + 1;
if(var92 == 0)
{
label41:
var44 = (var12 < var22);
}
else
{
if(var92 == 0)
{
__asm__ ("break 0x00007;");
}
var93 = (var11 % var92);
if(var93 == 0)
{
var44 = (var12 < var22);
}
else
{
var94 = ((int *) sp)[20];
var95 = var92 - var93;
var96 = var94 + (var12 << 4);
if(var92 == 0)
{
__asm__ ("break 0x00007;");
}
((int *) var96)[3] = (!(((var95 < 0x00001000))) ? 0 : var95);
var12 = var12 + 1;
((int *) var96)[0] = 0x0000A098;
((int *) var96)[1] = (var40 + var39);
((int *) var96)[2] = (var96 + 0x10);
var97 = ((int *) var1)[10];
var11 = var11 + (var97 - (var11 % var97));
goto label41;
}
}
var26 = (var18 < 1);
((int *) sp)[16] = 0;
((int *) var1)[11] = 0;
goto label44;
}
else
{
var43 = ((int *) sp)[18];
var12 = var12 + 1;
var26 = (var18 < 1);
var44 = (var12 < var22);
((short *) var1)[14] = 0;
((int *) sp)[18] = (var43 + 1);
if((var44 & (var26 ^ 1)) != 0)
continue;
break;
}
}
goto label65;
}
goto label44;
}
label65:
var59 = ((int *) sp)[19];
var60 = sp + 0x30;
sub_02AEC (var59, var58, var60);
var63 = ((int *) sp)[13];
dummy ();
var66 = ((int *) sp)[15];
var67 = ((int *) sp)[16];
var68 = ((int *) var66)[5];
var69 = ((int *) sp)[15];
((int *) var69)[5] = (var68 + var11);
if(((((var12 < 0x63)) ^ 1) & (((var67 ^ 0x80618001) < 1))) != 0)
continue;
break;
}
var9 = var67;
}
ra = ((int *) sp)[33];
var70 = ((int *) sp)[32];
var71 = ((int *) sp)[31];
var72 = ((int *) sp)[30];
var73 = ((int *) sp)[29];
var74 = ((int *) sp)[28];
var75 = ((int *) sp)[27];
var76 = ((int *) sp)[26];
var77 = ((int *) sp)[25];
var78 = ((int *) sp)[24];
sp = sp + 0x90;
return var9;
}
int mpegFlushAu (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var10 = ((int *) var2)[411];
waitSema ();
var13 = ((int *) var1)[0];
var14 = ((int *) arg1)[0];
var17 = unRegistStream (var13, var14, 1);
if(var17 == 0xFFFFFFFF)
{
var23 = ((int *) var2)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
var18 = ((int *) var1)[11];
if(!(var18 == 0))
{
var19 = ((int *) var1)[12];
((int *) var1)[12] = (var19 | 4);
}
var20 = ((int *) var2)[411];
signalSema ();
var6 = 0;
}
}
ra = ((int *) sp)[3];
var7 = ((int *) sp)[2];
var8 = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int sub_0445C (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
var1 = arg4;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[6] = ra;
((int *) sp)[4] = s4;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var14 = ((int *) var2)[411];
waitSema ();
var17 = ((int *) arg2)[0];
var18 = ((int *) arg1)[0];
var21 = unRegistStream (var17, var18, 1);
if(var21 == 0xFFFFFFFF)
{
var6 = 0x806101FE;
}
else
{
if(var1 != 0)
{
((int *) var1)[0] = var21;
}
var22 = ((int *) var21)[3];
((int *) arg3)[0] = var22;
}
var23 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
else
{
var7 = var6;
}
ra = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
var10 = ((int *) sp)[3];
var11 = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x20;
return var7;
}
int mpegGetPcmAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF90;
((int *) sp)[22] = s6;
var1 = arg4;
((int *) sp)[19] = s3;
var2 = arg1;
((int *) sp)[18] = s2;
var3 = arg3;
((int *) sp)[17] = s1;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[24] = fp;
((int *) sp)[23] = s7;
((int *) sp)[21] = s5;
((int *) sp)[20] = s4;
((int *) sp)[16] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var68 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
label21:
var65 = ((int *) var5)[411];
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 != 0)
{
label34:
if(!(var1 == 0))
{
var51 = ((int *) var4)[16];
((int *) var1)[0] = var51;
}
var54 = deleteStuff (var2, var4, 2, var3);
var55 = ((int *) var5)[411];
var56 = var54;
signalSema ();
var59 = ((int *) var4)[12];
if((((var59 >> 2) & 1) & ((var56 < 1))) != 0)
{
((int *) var4)[12] = ((var59 & 0xFFFFFFFB) | (0 & 1));
var62 = mpegGetPcmAu (var2, var4, var3, var1);
var56 = var62;
}
var8 = var56;
}
else
{
((int *) var3)[5] = 0;
var33 = sp + 0x30;
while (1) {
var34 = sp;
getAu (var26, 0, 1, var34, var33);
var37 = ((int *) sp)[12];
var38 = ((int *) sp)[7];
if(var37 != 1)
break;
var39 = ((int *) var4)[6];
if((var39 & 1) == 0)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label33:
var48 = ((unsigned char *) var38)[1];
((int *) var4)[16] = var48;
var49 = ((unsigned char *) var38)[1];
var50 = var49 & 0x0F;
((int *) var4)[9] = (((var50 << 2) + var50) << 0x05);
goto label34;
}
else
{
var42 = be2 ((var38 + 2));
((short *) var4)[14] = var42;
var43 = sp + 0x30;
if(((char) var42) == 0xFFFFFFFF)
{
sub_02AEC (var26, 1, var43);
var33 = sp + 0x30;
continue;
}
else
{
var44 = ((int *) sp)[4];
var45 = ((int *) sp)[5];
var46 = ((int *) sp)[6];
var47 = ((int *) sp)[3];
((int *) var3)[1] = var44;
((int *) var3)[0] = var47;
((int *) var3)[2] = var45;
((int *) var3)[3] = var46;
((int *) var4)[6] = 0;
goto label33;
}
}
goto label46;
}
goto label21;
}
}
}
}
label46:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
int _D4DD6E75 (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFF90;
((int *) sp)[24] = fp;
var1 = arg3;
((int *) sp)[22] = s6;
var2 = arg1;
((int *) sp)[21] = s5;
var3 = arg4;
((int *) sp)[18] = s2;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[23] = s7;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
((int *) sp)[17] = s1;
((int *) sp)[16] = s0;
((int *) sp)[13] = arg5;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var108 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
var107 = ((int *) var5)[411];
label39:
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 == 0)
{
((int *) var3)[5] = 0;
var93 = var26;
while (1) {
var94 = sp + 0x30;
var95 = sp;
getAu (var93, 0, 1, var95, var94);
var98 = ((int *) sp)[12];
var35 = var26;
var99 = sp + 0x30;
if(var98 != 1)
{
var106 = ((int *) var5)[411];
goto label39;
}
else
{
var100 = ((int *) sp)[3];
var101 = ((int *) sp)[4];
if(var100 != 0xFFFFFFFF)
break;
var102 = ((int *) sp)[5];
if(var101 != var100)
break;
var103 = ((int *) sp)[6];
if(var102 != var101)
break;
if(var103 != var102)
{
goto label35;
}
else
{
sub_02AEC (var35, 1, var99);
var93 = var26;
continue;
}
}
goto label84;
}
label34:
label35:
var36 = sp;
var37 = sp + 0x30;
getAu (var35, 0, 1, var36, var37);
var40 = ((int *) sp)[12];
if(var40 != 1)
{
var90 = ((int *) var5)[411];
goto label39;
}
else
{
var41 = ((int *) var4)[6];
if((var41 & 1) == 0)
{
var46 = ((short *) var4)[14];
}
else
{
var42 = ((int *) sp)[4];
var43 = ((int *) sp)[5];
var44 = ((int *) sp)[6];
var45 = ((int *) sp)[3];
((short *) var4)[14] = 0;
((int *) var3)[0] = var45;
((int *) var3)[1] = var42;
((int *) var3)[2] = var43;
((int *) var3)[3] = var44;
((int *) var4)[6] = 0;
var46 = ((short *) var4)[14];
}
var47 = ((int *) sp)[8];
var48 = ((int *) var4)[14];
var49 = var46 + 2;
var50 = var47 - var49;
if(!(var48 != 0))
{
((int *) var4)[14] = 4;
var48 = 4;
}
var51 = (var4 - var48) + 0x40;
var52 = 1;
while (1) {
if(((var50 < var48)) == 0)
break;
var53 = ((int *) sp)[7];
var51 = var51 + var50;
strncpy (var51, (var53 + var49), var50);
var56 = ((int *) var4)[14];
((int *) var4)[14] = (var56 - var50);
var57 = sp;
var58 = sp + 0x30;
getAu (var26, var52, 1, var57, var58);
var61 = ((int *) sp)[12];
var49 = 2;
var52 = var52 + 1;
if(var61 != 1)
{
((int *) var4)[9] = 4;
((int *) var4)[13] = 1;
}
else
{
var62 = ((int *) sp)[8];
var48 = ((int *) var4)[14];
var50 = var62 + 0xFFFFFFFE;
continue;
}
goto label60;
}
var83 = ((int *) sp)[7];
strncpy (var51, (var83 + var49), var48);
((int *) var4)[14] = 0;
var88 = be4 ((var4 + 0x3C));
var89 = ((int *) var4)[11];
((int *) var4)[9] = ((var88 - var89) + 4);
label60:
var34 = var2;
label61:
var65 = deleteStuff (var34, var4, var1, var3);
var66 = ((int *) var5)[411];
var67 = (var65 < 1);
var68 = var65;
signalSema ();
var71 = ((int *) sp)[13];
if((var67 & ((0 < var71))) == 0)
{
var74 = ((int *) var4)[12];
}
else
{
if(var1 == 3)
{
var82 = ((int *) var3)[4];
var72 = var82 + 8;
label75:
var73 = ((int *) sp)[13];
}
else
{
if(var1 == 0x05)
{
var79 = ((int *) var3)[4];
var72 = mpeg_C345DED2 (var79, 4);
var73 = ((int *) sp)[13];
}
else
{
var72 = ((int *) var3)[4];
goto label75;
}
}
((int *) var73)[0] = var72;
var74 = ((int *) var4)[12];
}
if((((var74 >> 2) & 1) & var67) != 0)
{
((int *) var4)[12] = ((var74 & 0xFFFFFFFB) | (0 & 1));
var75 = ((int *) sp)[13];
var78 = _D4DD6E75 (var2, var4, var1, var3, var75);
var68 = var78;
}
var8 = var68;
}
}
else
{
var33 = ((int *) var4)[14];
var34 = var2;
if(var33 == 0)
goto label61;
var35 = var26;
goto label34;
}
}
}
}
label84:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
int sub_04AA0 (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFF80;
((int *) sp)[27] = s7;
var1 = arg4;
((int *) sp)[26] = s6;
var2 = arg1;
((int *) sp)[21] = s1;
var3 = arg2;
((int *) sp)[29] = ra;
((int *) sp)[28] = fp;
((int *) sp)[25] = s5;
((int *) sp)[24] = s4;
((int *) sp)[23] = s3;
((int *) sp)[22] = s2;
((int *) sp)[20] = s0;
((int *) sp)[17] = arg3;
((int *) sp)[18] = arg5;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
if(var7 == 0)
{
var17 = ((int *) var4)[411];
waitSema ();
var20 = ((int *) var3)[0];
var21 = ((int *) var2)[0];
var24 = unRegistStream (var20, var21, 1);
var25 = var24;
if(var24 == 0xFFFFFFFF)
{
var128 = ((int *) var4)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var26 = sp;
var27 = sp + 0x40;
getAu (var24, 0, 1, var26, var27);
var30 = ((int *) sp)[16];
if(var30 != 1)
{
var127 = ((int *) var4)[411];
label40:
signalSema ();
var7 = 0x80618001;
}
else
{
var31 = ((int *) var3)[14];
var32 = ((int *) var3)[11];
if(var31 != 0)
{
label22:
if(var32 != 0)
{
label35:
var49 = var25;
label36:
var54 = sp;
var55 = sp + 0x40;
getAu (var49, 0, 1, var54, var55);
var58 = ((int *) sp)[16];
var59 = ((int *) sp)[8];
if(var58 != 1)
{
label39:
var124 = ((int *) var4)[411];
goto label40;
}
else
{
var60 = ((short *) var3)[14];
var61 = ((int *) var3)[14];
var62 = var60 + 2;
var63 = var59 - var62;
if(!(var61 != 0))
{
((int *) var3)[14] = 8;
var61 = 8;
}
var64 = 8 - var61;
var65 = sp + 0x30;
var66 = var65 + var64;
while (1) {
if(((var63 < var61)) == 0)
break;
var67 = ((int *) sp)[7];
var66 = var66 + var63;
strncpy (var66, (var67 + var62), var63);
var70 = ((int *) var3)[14];
((int *) var3)[14] = (var70 - var63);
var71 = sp;
var72 = sp + 0x40;
getAu (var25, 1, 1, var71, var72);
var75 = ((int *) sp)[16];
var76 = sp + 0x40;
var62 = 2;
if(var75 != 1)
{
((int *) var3)[13] = 1;
}
else
{
var77 = ((int *) var3)[11];
var78 = ((int *) sp)[8];
((int *) var3)[11] = (var77 + var63);
var63 = var78 + 0xFFFFFFFE;
sub_02AEC (var25, 1, var76);
var61 = ((int *) var3)[14];
continue;
}
goto label56;
}
var117 = ((int *) sp)[7];
strncpy (var66, (var117 + var62), var61);
var120 = ((unsigned short *) var3)[14];
var121 = ((unsigned short *) var3)[28];
var122 = ((int *) var3)[11];
var123 = ((int *) var3)[14];
((short *) var3)[14] = (var120 + var121);
((int *) var3)[11] = (var122 + var123);
((int *) var3)[14] = 0;
label56:
var81 = ((int *) var3)[14];
var82 = 8 - var81;
var83 = (var82 < 0x05);
if(!(((var64 < 4)) == 0))
{
var84 = var82 - var64;
if(!(var83 != 0))
{
var84 = 4 - var64;
}
var85 = sp + 0x30;
strncpy (((var3 + var64) + 0x3C), (var85 + var64), var84);
}
var88 = ((int *) sp)[18];
if(((var83 ^ 1) & ((0 < var88))) != 0)
{
var112 = MAX (var64, 4);
var113 = ((int *) sp)[18];
var114 = sp + 0x30;
strncpy ((var113 + var112), (var114 + var112), (var82 - var112));
var89 = ((int *) var3)[14];
}
else
{
var89 = ((int *) var3)[14];
}
if(var89 == 0)
{
var106 = be4 ((var3 + 0x3C));
var107 = ((int *) sp)[18];
((int *) var3)[9] = (var106 + 0xFFFFFFFC);
if(var107 == 0)
{
label71:
var33 = ((int *) sp)[17];
}
else
{
var108 = LWL (var3);
var109 = LWR (var3, var108, 0x3C);
SWL (var107, var109, 3);
SWR (var107, var109, 0);
var110 = LWL (sp, var109, 0x37);
var111 = LWR (sp, var110, 0x34);
SWL (var107, var111, 0x07);
SWR (var107, var111, 4);
var33 = ((int *) sp)[17];
}
}
else
goto label71;
label72:
var90 = var2;
label73:
var93 = deleteStuff (var90, var3, var33, var1);
var94 = ((int *) var4)[411];
var95 = var93;
signalSema ();
var98 = ((int *) var3)[12];
if((((var98 >> 2) & 1) & ((var95 < 1))) != 0)
{
((int *) var3)[12] = ((var98 & 0xFFFFFFFB) | (0 & 1));
var99 = ((int *) sp)[17];
var100 = ((int *) sp)[18];
var103 = sub_04AA0 (var2, var3, var99, var1, var100);
var95 = var103;
}
var7 = var95;
}
}
else
{
((int *) var1)[5] = 0;
var35 = var25;
while (1) {
var36 = sp + 0x40;
var37 = sp;
getAu (var35, 0, 1, var37, var36);
var40 = ((int *) sp)[16];
var41 = sp + 0x40;
if(var40 != 1)
goto label39;
var42 = ((int *) sp)[3];
var43 = ((int *) sp)[4];
if(var42 != 0xFFFFFFFF)
break;
var44 = ((int *) sp)[5];
if(var43 != var42)
break;
var45 = ((int *) sp)[6];
if(var44 != var43)
break;
if(var45 != var44)
{
var48 = ((int *) var3)[6];
goto label33;
}
else
{
sub_02AEC (var25, 1, var41);
var35 = var25;
continue;
}
goto label89;
}
var48 = ((int *) var3)[6];
label33:
var49 = var25;
if(!((var48 & 1) == 0))
{
var50 = ((int *) sp)[4];
var51 = ((int *) sp)[5];
var52 = ((int *) sp)[6];
var53 = ((int *) sp)[3];
((short *) var3)[14] = 0;
((int *) var1)[0] = var53;
((int *) var1)[1] = var50;
((int *) var1)[2] = var51;
((int *) var1)[3] = var52;
((int *) var3)[6] = 0;
goto label35;
}
goto label36;
}
}
else
{
var33 = ((int *) sp)[17];
if(var32 != 0)
goto label72;
var34 = ((int *) var3)[13];
if(var34 == var30)
{
var90 = var2;
goto label73;
}
else
{
goto label22;
}
}
}
}
}
label89:
ra = ((int *) sp)[29];
var8 = ((int *) sp)[28];
var9 = ((int *) sp)[27];
var10 = ((int *) sp)[26];
var11 = ((int *) sp)[25];
var12 = ((int *) sp)[24];
var13 = ((int *) sp)[23];
var14 = ((int *) sp)[22];
var15 = ((int *) sp)[21];
var16 = ((int *) sp)[20];
sp = sp + 0x80;
return var7;
}
int mpeg_C345DED2 (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
if(arg2 == 3)
{
var23 = ((unsigned char *) arg1)[13];
var2 = 0;
if(!((var23 & 1) == 0))
{
var26 = mpeg_C345DED2 (arg1, 0x00001F40);
var2 = var26;
}
}
else
{
if(((arg2 < 4)) == 0)
{
if(arg2 == 0x05)
{
var16 = ((unsigned char *) arg1)[13];
var2 = 0;
if(!((var16 & 2) == 0))
{
var19 = mpeg_C345DED2 (arg1, 0x00001F40);
var22 = be2 ((var19 + 0xFFFFFFFE));
var2 = var1 + var22;
}
}
else
{
if(((arg2 < 0x05)) != 0)
{
var14 = mpeg_C345DED2 (arg1, 0x00001F40);
var15 = ((unsigned char *) var1)[13];
var2 = var14;
if(!((var15 & 1) == 0))
{
var2 = var14 + 0x40;
}
}
else
{
if(arg2 != 0x00001F40)
{
var2 = 0;
}
else
{
var7 = mpeg_C345DED2 (arg1, 2);
var8 = var7;
if(var7 == 0)
{
var11 = mpeg_C345DED2 (var1, 1);
var8 = var11;
}
var2 = var8 + 0x06;
}
}
}
}
else
{
var2 = arg1 + 0x0E;
if(!(arg2 == 1))
{
if(arg2 == 2)
{
var4 = ((unsigned char *) var1)[13];
var2 = !((var4 & 2)) ? 0 : (var1 + 0x12);
}
else
{
var2 = 0;
}
}
}
}
ra = ((int *) sp)[1];
var3 = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
int mpegGetAtracAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF90;
((int *) sp)[24] = fp;
var1 = arg4;
((int *) sp)[22] = s6;
var2 = arg1;
((int *) sp)[21] = s5;
var3 = arg3;
((int *) sp)[18] = s2;
var4 = arg2;
((int *) sp)[25] = ra;
((int *) sp)[23] = s7;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
((int *) sp)[17] = s1;
((int *) sp)[16] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
if(var8 == 0)
{
var18 = ((int *) var5)[411];
waitSema ();
var21 = ((int *) var4)[0];
var22 = ((int *) var2)[0];
var25 = unRegistStream (var21, var22, 1);
var26 = var25;
if(var25 == 0xFFFFFFFF)
{
var91 = ((int *) var5)[411];
signalSema ();
var8 = 0x806101FE;
}
else
{
var27 = sp;
var28 = sp + 0x30;
getAu (var25, 0, 1, var27, var28);
var31 = ((int *) sp)[12];
if(var31 != 1)
{
label23:
var88 = ((int *) var5)[411];
signalSema ();
var8 = 0x80618001;
}
else
{
var32 = ((int *) var4)[11];
if(var32 == 0)
{
((int *) var3)[5] = 0;
label19:
var35 = sp;
while (1) {
var36 = sp + 0x30;
getAu (var26, 0, 1, var35, var36);
var39 = ((int *) sp)[12];
var40 = ((int *) sp)[7];
if(var39 != 1)
break;
var41 = ((int *) var4)[6];
if((var41 & 1) == 0)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label35:
var50 = ((short *) var4)[14];
var51 = ((int *) sp)[8];
var52 = ((int *) var4)[14];
var53 = var50 + 4;
var54 = var51 - var53;
if(!(var52 != 0))
{
((int *) var4)[14] = 4;
var52 = 4;
}
var55 = (var4 - var52) + 0x40;
var56 = 1;
while (1) {
var57 = var40 + var53;
if(((var54 < var52)) == 0)
break;
var55 = var55 + var54;
strncpy (var55, var57, var54);
var60 = ((int *) var4)[14];
((int *) var4)[14] = (var60 - var54);
var61 = sp;
var62 = sp + 0x30;
getAu (var26, var56, 1, var61, var62);
var65 = ((int *) sp)[12];
var53 = 4;
var56 = var56 + 1;
if(var65 != 1)
{
((int *) var4)[9] = 4;
((int *) var4)[13] = 1;
}
else
{
var66 = ((int *) sp)[8];
var52 = ((int *) var4)[14];
var40 = ((int *) sp)[7];
var54 = var66 + 0xFFFFFFFC;
continue;
}
goto label50;
}
strncpy (var55, var57, var52);
((int *) var4)[14] = 0;
var84 = sub_0630C ((var4 + 0x3C));
var85 = ((int *) var4)[11];
((int *) var4)[9] = ((var84 - var85) + 8);
label50:
var34 = var2;
label51:
var69 = deleteStuff (var34, var4, 1, var3);
var70 = ((int *) var5)[411];
var71 = var69;
signalSema ();
var74 = (var71 < 1);
if((var74 & ((0 < var1))) == 0)
{
var76 = ((int *) var4)[12];
}
else
{
var75 = ((int *) var3)[4];
((int *) var1)[0] = (var75 + 8);
var76 = ((int *) var4)[12];
}
if((((var76 >> 2) & 1) & var74) != 0)
{
((int *) var4)[12] = ((var76 & 0xFFFFFFFB) | (0 & 1));
var79 = mpegGetAtracAu (var2, var4, var3, var1);
var71 = var79;
}
var8 = var71;
}
else
{
var44 = be2 ((var40 + 2));
((short *) var4)[14] = var44;
var45 = sp + 0x30;
if(((char) var44) == 0xFFFFFFFF)
{
sub_02AEC (var26, 1, var45);
var35 = sp;
continue;
}
else
{
var46 = ((int *) sp)[4];
var47 = ((int *) sp)[5];
var48 = ((int *) sp)[6];
var49 = ((int *) sp)[3];
var40 = ((int *) sp)[7];
((int *) var3)[1] = var46;
((int *) var3)[0] = var49;
((int *) var3)[2] = var47;
((int *) var3)[3] = var48;
((int *) var4)[6] = 0;
goto label35;
}
}
goto label65;
}
goto label23;
}
else
{
var33 = ((int *) var4)[14];
var34 = var2;
if(var33 == 0)
goto label51;
goto label19;
}
}
}
}
label65:
ra = ((int *) sp)[25];
var9 = ((int *) sp)[24];
var10 = ((int *) sp)[23];
var11 = ((int *) sp)[22];
var12 = ((int *) sp)[21];
var13 = ((int *) sp)[20];
var14 = ((int *) sp)[19];
var15 = ((int *) sp)[18];
var16 = ((int *) sp)[17];
var17 = ((int *) sp)[16];
sp = sp + 0x70;
return var8;
}
int sub_052AC (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[4];
var2 = ((int *) arg1)[0];
var3 = ((int *) arg1)[2];
var4 = ((int *) arg1)[1];
var5 = ((int *) arg1)[5];
var6 = (arg2 < var5);
var7 = var5 + (var1 * var2);
var8 = (var7 < arg2);
var9 = var5 + (var1 * var3);
var10 = var5 + (var1 * var4);
if((var6 | var8) != 0)
{
label20:
var13 = 0x80618007;
}
else
{
var11 = (arg3 < var5);
var12 = (var7 < arg3);
if(!((var11 | var12) == 0))
goto label20;
if(((var9 < var10)) != 0)
{
var15 = (arg2 < arg3);
label18:
var13 = 1;
if(!(var15 != 0))
{
var13 = ((arg2 ^ arg3)) ? 3 : 2;
}
}
else
{
if(((var6 ^ 1) & (((var10 < arg2)) ^ 1)) == 0)
{
var14 = (arg2 < var9);
label12:
if(((var14 ^ 1) & (var8 ^ 1)) == 0)
{
label16:
var13 = !(((arg2 < arg3))) ? 1 : 3;
}
else
{
if(((((arg3 < var9)) ^ 1) & (var12 ^ 1)) == 0)
{
goto label16;
}
else
{
var15 = (arg2 < arg3);
goto label18;
}
}
}
else
{
if(((var11 ^ 1) & (((var10 < arg3)) ^ 1)) != 0)
{
var15 = (arg2 < arg3);
goto label18;
}
else
{
var14 = (arg2 < var9);
goto label12;
}
}
}
}
return var13;
}
int mpegGetAvcAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFF60;
((int *) sp)[36] = fp;
var1 = arg4;
((int *) sp)[35] = s7;
var2 = arg1;
((int *) sp)[32] = s4;
var3 = arg3;
((int *) sp)[31] = s3;
var4 = arg2;
((int *) sp)[37] = ra;
((int *) sp)[34] = s6;
((int *) sp)[33] = s5;
((int *) sp)[30] = s2;
((int *) sp)[29] = s1;
((int *) sp)[28] = s0;
var5 = ((int *) arg1)[0];
var8 = checkMpegLib (arg1);
var9 = var8;
if(!(var8 != 0))
{
var10 = ((int *) var4)[2];
var9 = 0x806101FE;
if(!(var10 == 0xFFFFFFFF))
{
var11 = ((int *) var5)[411];
waitSema ();
var14 = ((int *) var4)[0];
var15 = ((int *) var2)[0];
var18 = unRegistStream (var14, var15, 1);
if(var18 == 0xFFFFFFFF)
{
label22:
var128 = ((int *) var5)[411];
signalSema ();
var9 = 0x80618001;
}
else
{
var19 = sp;
while (1) {
var20 = sp + 0x60;
getAu (var18, 0, 1, var19, var20);
var23 = ((int *) sp)[24];
var24 = sp + 0x30;
var25 = sp + 0x60;
if(var23 != 1)
break;
var26 = ((int *) var4)[11];
if(var26 != 0)
{
var79 = ((int *) var4)[3];
label45:
var82 = sub_063D0 (var79);
var83 = ((int *) var4)[4];
var86 = sub_063AC (var82, var83);
var89 = sub_06340 (var86);
if(var89 == 0)
{
var124 = ((int *) var4)[12];
label61:
var92 = (var124 & 0x7FFFFFFF) | (0 & 1);
}
else
{
var90 = ((int *) var5)[3];
if(var90 == 0)
{
var119 = sub_063D0 (var79);
var122 = sub_063A4 (var119);
var123 = ((int *) var4)[4];
if(var123 != (var122 + 0xFFFFFFFF))
{
var91 = ((int *) var4)[12];
label63:
var92 = var91 | 0x80000000;
}
else
{
var124 = ((int *) var4)[12];
goto label61;
}
}
else
{
var91 = ((int *) var4)[12];
goto label63;
}
}
((int *) var4)[12] = var92;
if(!(var1 == 0))
{
var93 = ((int *) var4)[12];
((int *) var1)[0] = (var93 >> 0x1F);
var96 = getChar (var86);
var97 = ((int *) var1)[0];
((int *) var1)[0] = (var97 | (var96 << 1));
}
var100 = deleteStuff (var2, var4, 0, var3);
var101 = var100;
if(var100 == 0)
{
var111 = sub_063D0 (var79);
var114 = sub_063A4 (var111);
var115 = ((int *) var4)[4];
var116 = var115 + 1;
if(!(((var115 < (var114 + 0xFFFFFFFF))) != 0))
{
var116 = 0x00007FFF;
}
((int *) var4)[4] = var116;
}
var102 = ((int *) var5)[411];
signalSema ();
var105 = ((int *) var4)[12];
if((((var105 >> 2) & 1) & ((var101 < 1))) != 0)
{
((int *) var4)[12] = ((var105 & 0xFFFFFFFB) | (0 & 1));
var108 = mpegGetAvcAu (var2, var4, var3, var1);
var101 = var108;
}
var9 = var101;
}
else
{
((int *) var3)[5] = 0;
var27 = ((int *) var4)[4];
var28 = ((int *) sp)[4];
if(var27 != 0x00007FFF)
{
((int *) var3)[1] = 0xFFFFFFFF;
((int *) var3)[2] = 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
((int *) var3)[3] = 0xFFFFFFFF;
label38:
var68 = ((int *) var4)[3];
var71 = sub_063D0 (var68);
var72 = ((int *) var4)[4];
var75 = sub_063AC (var71, var72);
var78 = sub_06384 (var75);
var79 = ((int *) var4)[3];
((int *) var4)[9] = var78;
goto label45;
}
else
{
var29 = ((int *) sp)[5];
var30 = ((int *) sp)[6];
var31 = ((int *) sp)[3];
var32 = ((int *) var4)[2];
((int *) var3)[1] = var28;
((int *) var3)[0] = var31;
((int *) var3)[2] = var29;
((int *) var3)[3] = var30;
getAu (var32, 0, 1, var24, var25);
var35 = ((int *) sp)[24];
var36 = ((int *) sp)[19];
if(var35 != var23)
break;
var37 = ((int *) var5)[4];
var38 = ((int *) sp)[7];
var41 = sub_052AC (var37, var38, var36);
var42 = sp + 0x60;
if(var41 != var35)
{
sub_02AEC (var32, 1, var42);
var63 = ((int *) sp)[20];
if(((var63 < 0x00000801)) == 0)
{
var125 = ((int *) var5)[411];
signalSema ();
var9 = 0x80618007;
}
else
{
var64 = ((int *) var4)[3];
var65 = ((int *) sp)[19];
strncpy (var64, var65, var63);
((int *) var4)[4] = 0;
((short *) var4)[14] = 0;
goto label38;
}
}
else
{
var43 = ((int *) var5)[411];
signalSema ();
var48 = mpegNextAvcRpAu (var2, var4);
if(var48 != 0)
{
var9 = ((var48 ^ 0x80618004)) ? var48 : 0x80618001;
}
else
{
var49 = ((int *) var5)[411];
waitSema ();
var19 = sp;
continue;
}
}
}
}
goto label92;
}
goto label22;
}
}
}
label92:
ra = ((int *) sp)[37];
var52 = ((int *) sp)[36];
var53 = ((int *) sp)[35];
var54 = ((int *) sp)[34];
var55 = ((int *) sp)[33];
var56 = ((int *) sp)[32];
var57 = ((int *) sp)[31];
var58 = ((int *) sp)[30];
var59 = ((int *) sp)[29];
var60 = ((int *) sp)[28];
sp = sp + 0xA0;
return var9;
}
int mpegGetAvcEsAu (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFC0;
((int *) sp)[12] = s4;
((int *) sp)[11] = s3;
((int *) sp)[10] = s2;
var1 = arg1;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
((int *) sp)[13] = ra;
var2 = arg4;
var5 = checkMpegLib (arg1);
if(var5 == 0)
{
((int *) var2)[5] = 0;
var14 = sub_063D8 (var1);
((int *) sp)[4] = 0;
var15 = ((int *) var14)[0];
var16 = sp;
((int *) sp)[5] = var15;
((int *) sp)[6] = var14;
var19 = nalCpy (var1, var16, arg2, arg3, 0, var2);
var20 = var19;
var21 = sp;
if(!(var19 != 0))
{
var24 = sub_05C0C (var1, var21, var2);
var25 = var24;
if(!(var24 != 0))
{
((int *) sp)[4] = 0;
var25 = 0;
var26 = ((int *) sp)[6];
var27 = ((int *) var26)[0];
((int *) sp)[5] = var27;
}
var20 = var25;
}
dummy ();
var6 = var20;
}
else
{
var6 = var5;
}
ra = ((int *) sp)[13];
var7 = ((int *) sp)[12];
var8 = ((int *) sp)[11];
var9 = ((int *) sp)[10];
var10 = ((int *) sp)[9];
var11 = ((int *) sp)[8];
sp = sp + 0x40;
return var6;
}
int mpegGetAvcNalAu (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFB0;
((int *) sp)[15] = s7;
var1 = arg1;
((int *) sp)[14] = s6;
var2 = arg3;
((int *) sp)[12] = s4;
var3 = arg2;
((int *) sp)[17] = ra;
((int *) sp)[16] = fp;
((int *) sp)[13] = s5;
((int *) sp)[11] = s3;
((int *) sp)[10] = s2;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
var6 = checkMpegLib (arg1);
ra = ((int *) sp)[17];
if(!(var6 != 0))
{
((int *) var2)[5] = 0;
var7 = ((int *) var3)[4];
var8 = 0;
if(var7 == 0)
{
label55:
var6 = 0x806101FE;
}
else
{
if(((var7 < 3)) != 0)
{
label8:
var20 = sub_063D8 (var1);
((int *) sp)[4] = 0;
var21 = ((int *) var3)[7];
var22 = ((int *) var20)[0];
((int *) sp)[6] = var20;
((int *) sp)[5] = var22;
if((var21 & 1) == 0)
{
label19:
if((var21 & 2) == 0)
{
var25 = ((int *) var3)[6];
label30:
var26 = ((int *) var3)[5];
if(var25 <= 0)
{
label47:
var45 = sp;
var48 = sub_05C0C (var1, var45, var2);
var49 = var48;
if(!(var48 != 0))
{
((int *) sp)[4] = 0;
var49 = 0;
var50 = ((int *) sp)[6];
var51 = ((int *) var50)[0];
((int *) sp)[5] = var51;
}
var35 = var49;
}
else
{
var27 = ((int *) var3)[4];
while (1) {
var30 = beN (var26, var27);
var31 = ((int *) var3)[4];
var32 = var30;
var25 = var25 - (var31 + var30);
var33 = sp;
var34 = var26 + var31;
var35 = 0x80618007;
if(((var25 >> 0x1F) | ((var30 < 1))) != 0)
break;
if(var8 == 0)
{
var37 = 0;
}
else
{
var36 = ((unsigned char *) var34)[0];
var37 = 1;
if(!(((((var36 & 0x1F) + 0xFFFFFFF9) < 2)) == 0))
{
var37 = 0;
}
}
var40 = nalCpy (var1, var33, (var37 + 0x0000A188), (4 - var37), 0, var2);
var8 = 1;
var35 = var40;
var41 = sp;
var26 = var34 + var32;
if(var40 != 0)
break;
var44 = nalCpy (var1, var41, var34, var32, 0, var2);
var35 = var44;
if(var44 != 0)
break;
if(!(var25 > 0))
goto label47;
var27 = ((int *) var3)[4];
continue;
}
}
}
else
{
var24 = ((int *) var3)[2];
if(var24 != 0)
{
var54 = sp;
var57 = nalCpy (var1, var54, 0x0000A188, 4, 0, var2);
var35 = var57;
if(!(var57 != 0))
{
var58 = ((int *) var3)[2];
var59 = ((int *) var3)[3];
var60 = sp;
var63 = nalCpy (var1, var60, var58, var59, 0, var2);
var35 = var63;
if(!(var63 != 0))
{
var8 = 1;
label29:
var25 = ((int *) var3)[6];
goto label30;
}
}
}
else
goto label29;
}
}
else
{
var23 = ((int *) var3)[0];
if(!(var23 != 0))
goto label19;
var64 = sp;
var67 = nalCpy (var1, var64, 0x0000A188, 4, 0, var2);
var35 = var67;
if(!(var67 != 0))
{
var68 = ((int *) var3)[0];
var69 = ((int *) var3)[1];
var70 = sp;
var73 = nalCpy (var1, var70, var68, var69, 0, var2);
var35 = var73;
if(!(var73 != 0))
{
var21 = ((int *) var3)[7];
var8 = 1;
goto label19;
}
}
}
dummy ();
var6 = var35;
}
else
{
if(var7 == 4)
goto label8;
goto label55;
}
}
ra = ((int *) sp)[17];
}
var9 = ((int *) sp)[16];
var10 = ((int *) sp)[15];
var11 = ((int *) sp)[14];
var12 = ((int *) sp)[13];
var13 = ((int *) sp)[12];
var14 = ((int *) sp)[11];
var15 = ((int *) sp)[10];
var16 = ((int *) sp)[9];
var17 = ((int *) sp)[8];
sp = sp + 0x50;
return var6;
}
void sub_05A7C (int arg1, int arg2, int arg3, int arg4, int arg5){
arg1[0] = arg2;
arg1[1] = arg3;
arg1[2] = arg4;
if(((arg5 >= 0x00001000)){
arg1[3] = 0;
return 0x806101FE;
}
arg1[3] = arg5;
return 0;
}
void sub_05AB0 (int arg1, int arg2){
arg1[2] = arg2;
}
int mpegQueryUserdataEsSize2 (int arg1, int arg2, int arg3, int arg4){
return sub_04AA0 (arg1, arg2, 3, arg3, arg4);
}
int mpeg_D4DD6E75 (int arg1, int arg2, int arg3, int arg4){
return _D4DD6E75 (arg1, arg2, 0x05, arg3, arg4);
}
void invalidateCsc (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var1 = 0;
((int *) sp)[0] = s0;
var2 = arg1;
var3 = ((int *) var2)[3];
while (1) {
var4 = ((int *) var2)[0];
var1 = var1 + 1;
sceKernelDcacheWritebackInvalidateRange (var4, (var3 & 0x00000FFF));
var7 = ((int *) var2)[2];
var2 = var7;
if(var7 == 0)
break;
if(!(((var1 < 0x64)) != 0))
break;
var3 = ((int *) var2)[3];
continue;
}
ra = ((int *) sp)[2];
var8 = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
int sub_05B5C (int arg1, int arg2, int arg3){
var1 = ((int *) arg1)[0];
var2 = 0x80618007;
if(!(((arg3 < 0x07)) == 0))
{
var3 = ((int *) var1)[414];
if(((var3 < 0x06)) == 0)
{
if(var3 != 0x06)
{
label13:
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[0];
}
else
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[21];
}
}
else
{
if(((var3 < 4)) == 0)
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[14];
}
else
{
if(var3 == 3)
{
var4 = ((int *) ((arg3 << 2) + 0x0000A118))[7];
}
else
{
goto label13;
}
}
}
var2 = !(((var4 < arg2))) ? 0 : 0x80618007;
}
return var2;
}
int sub_05C0C (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = 0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[4] = ra;
((int *) sp)[0] = s0;
var2 = ((int *) arg2)[6];
var3 = ((int *) arg2)[4];
var4 = var2 + 4;
if(var3 != 0)
{
var9 = ((int *) arg3)[4];
var12 = avcDecodeYCbCr (arg1, var9);
var13 = ((int *) arg2)[4];
var14 = var12;
((int *) (var4 + (var13 << 4)))[1073741822] = 0;
invalidateCsc (var4);
var17 = ((int *) arg3)[5];
if((((0x003FFFFF < ((var14 >> 0) & 0x1FFFFFFF))) ^ 1) == 0)
{
sceKernelDcacheWritebackInvalidateRange (var14, var17);
}
var1 = sceMpegbase_BEA18F91 (var4);
ra = ((int *) sp)[4];
}
else
{
ra = ((int *) sp)[4];
}
var5 = ((int *) sp)[3];
var6 = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x20;
return var1;
}
int nalCpy (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
var1 = arg1;
var2 = arg6;
var3 = arg2;
var4 = ((int *) arg6)[5];
var7 = sub_05B5C (arg1, (var4 + arg4), arg5);
var8 = var7;
if(var7 != 0)
{
label18:
ra = ((int *) sp)[5];
}
else
{
var9 = ((int *) var2)[4];
var12 = avcDecodeYCbCr (var1, var9);
var13 = ((int *) var2)[5];
((int *) var3)[0] = arg3;
((int *) var3)[1] = (var12 + var13);
((int *) var3)[2] = arg4;
((int *) var3)[3] = 0;
while (1) {
var16 = sub_05DF4 (var3);
var8 = var16;
if(var16 != 0)
break;
var17 = ((int *) var3)[3];
var18 = ((int *) var3)[2];
var19 = ((int *) var3)[0];
var20 = ((int *) var3)[1];
((int *) var3)[2] = (var18 - var17);
var21 = ((int *) var2)[5];
((int *) var3)[0] = (var19 + var17);
((int *) var2)[5] = (var21 + var17);
var22 = ((int *) var3)[4];
var23 = ((int *) var3)[5];
((int *) var3)[1] = (var20 + var17);
if(((var22 < var23)) != 0)
break;
var24 = ((int *) var3)[3];
var25 = ((int *) var3)[2];
ra = ((int *) sp)[5];
if(!(((var24 < var25)) == 0))
{
var28 = sub_05C0C (var1, var3, var2);
var29 = var28;
if(!(var28 != 0))
{
((int *) var3)[4] = 0;
var29 = 0;
var30 = ((int *) var3)[6];
var31 = ((int *) var30)[0];
((int *) var3)[5] = var31;
}
var8 = var29;
if(var29 == 0)
continue;
break;
}
goto label19;
}
goto label18;
}
label19:
return var8;
}
int sub_05DF4 (int arg1){
var1 = ((int *) arg1)[4];
var2 = ((int *) arg1)[5];
var3 = ((int *) arg1)[6];
var4 = arg1;
((int *) arg1)[3] = 0;
var5 = 0;
var6 = ((int *) var4)[0];
var7 = ((int *) var4)[1];
if(!(((var1 < var2)) == 0))
{
var8 = ((int *) var4)[2];
if(!(var8 <= 0))
{
var9 = ((int *) var4)[3];
while (1) {
var10 = var8 - var9;
var11 = (((var10 < 0x00000FF0))) ? var10 : 0x00000FF0;
var12 = (var3 + 4) + (var1 << 4);
((int *) var12)[2] = (var12 + 0x10);
var5 = 0;
((int *) var12)[0] = var6;
var6 = var6 + 0x00000FF0;
((int *) var12)[1] = var7;
if(((var11 < 0x00001000)) == 0)
{
var5 = 0x806101FE;
((int *) var12)[3] = 0;
}
else
{
((int *) var12)[3] = var11;
var7 = var7 + 0x00000FF0;
var13 = ((int *) var4)[4];
var14 = ((int *) var4)[3];
var15 = ((int *) var4)[5];
var16 = var13 + 1;
var17 = var14 + var11;
var1 = var16;
((int *) var4)[3] = var17;
((int *) var4)[4] = var16;
if(((var16 < var15)) == 0)
break;
var8 = ((int *) var4)[2];
if(!(((var17 < var8)) != 0))
break;
var9 = ((int *) var4)[3];
continue;
}
}
}
}
return var5;
}
int mpegMallocAvcEsBuf (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = 0;
((int *) sp)[2] = ra;
((int *) sp)[0] = s0;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = 0;
if(!(var5 != 0))
{
var7 = ((int *) var2)[411];
waitSema ();
var10 = ((int *) var2)[415];
var11 = 0;
if(!(var10 <= 0))
{
var12 = 0 + var2;
while (1) {
var13 = ((unsigned char *) var12)[1664];
if(var13 == 0)
break;
var11 = var11 + 1;
if(((var11 < var10)) != 0)
{
var12 = var11 + var2;
continue;
}
else
{
}
goto label15;
}
var1 = var11 + 1;
((char *) var12)[1664] = 1;
}
label15:
var14 = ((int *) var2)[411];
signalSema ();
var6 = var1;
}
ra = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int mpegFreeAvcEsBuf (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
if(var5 == 0)
{
var11 = ((int *) var2)[411];
waitSema ();
if(var1 <= 0)
{
label9:
var6 = 0x806101FE;
}
else
{
var14 = ((int *) var2)[415];
if(((var14 < var1)) != 0)
goto label9;
((char *) (var1 + var2))[1663] = 0;
}
var15 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
else
{
var7 = var6;
}
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return var7;
}
int mpegQueryAtracEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
if(*arg1[414] == 3){
*arg2 = 0x00001040;
*arg3 = 0x00008000;
}else{
*arg2 = 0x00000840;
*arg3 = 0x00002000;
}
return 0;
}
int mpeg_988E9E12 (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
var1 = 0;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[7] = s7;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
if(!(arg1 <= 0))
{
while (1) {
var2 = var1 << 2;
var3 = var2 + arg2;
var4 = ((unsigned char *) var3)[0];
var5 = *((int *) 0x0000A278);
var6 = *((int *) 0x0000A27C);
var7 = *((int *) 0x0000A26C);
var8 = var6 << 0x07;
var9 = MAX ((var4 - var5), 0);
var10 = ((unsigned char *) var3)[1];
var11 = *((int *) 0x0000A270);
var12 = ((unsigned char *) var3)[2];
var13 = var10 - var8;
var14 = *((int *) 0x0000A254);
var15 = var12 - var8;
var16 = var2 + arg3;
var17 = *((int *) 0x0000A258);
var18 = *((int *) 0x0000A260);
var19 = *((int *) 0x0000A264);
var20 = *((int *) 0x0000A274);
var21 = *((int *) 0x0000A25C);
var22 = *((int *) 0x0000A268);
var1 = var1 + 1;
var23 = ((var7 * var9) + (var11 * var13)) + (var20 * var15);
var24 = ((var14 * var9) + (var17 * var13)) + (var21 * var15);
var25 = ((var18 * var9) + (var19 * var13)) + (var22 * var15);
var26 = MAX (((var23 + ((var23 >> 0x1F) >> 0x19)) >> 0x07), 0);
var27 = MAX (((var24 + ((var24 >> 0x1F) >> 0x19)) >> 0x07), 0);
var28 = MAX (((var25 + ((var25 >> 0x1F) >> 0x19)) >> 0x07), 0);
((char *) var16)[0] = (!(((var27 < 0x00000100))) ? 0xFF : var27);
((char *) var16)[1] = (!(((var28 < 0x00000100))) ? 0xFF : var28);
((char *) var16)[2] = (!(((var26 < 0x00000100))) ? 0xFF : var26);
var29 = ((unsigned char *) var3)[3];
((char *) var16)[3] = var29;
if(((var1 < arg1)) != 0)
continue;
break;
}
}
var30 = ((int *) sp)[7];
var31 = ((int *) sp)[6];
var32 = ((int *) sp)[5];
var33 = ((int *) sp)[4];
var34 = ((int *) sp)[3];
var35 = ((int *) sp)[2];
var36 = ((int *) sp)[1];
var37 = ((int *) sp)[0];
sp = sp + 0x20;
return 0;
}
int avcDecodeYCbCr (int arg1, int arg2){
var1 = *arg1;
if(arg2<=0)return arg2;
if(*arg1[415]<arg2)return arg2;
if(((unsigned char *) (arg2 + var1))[1663]!=1)return arg2;
return *arg1[416+arg2];
}
int mpegQueryPcmEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x00000140;
*arg3 = 0x00000140;
return 0;
}
int mpeg_11CAB459 (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x00019100;
*arg3 = 0x0002A300;
return 0;
}
int mpegQueryUserdataEsSize (int arg1, int arg2, int arg3){
if((ret=checkMpegLib (arg1)))return ret;
*arg2 = 0x000A0000;
*arg3 = 0x000A0000;
return 0;
}
int sub_0630C (int arg1){
return (((be2(arg1+2)&0x03FF)*8)+8);
}
int getChar (int arg1){
return (((unsigned char *) arg1)[0] & 0xF);
}
int sub_06340 (int arg1){
return (be3(arg1+1) >> 0x17);
}
void sub_06360 (int arg1, int arg2){
if(arg2 != 0)
{
var3 = ((unsigned char *) arg1)[1];
var2 = var3 | 0xFFFFFF80;
}
else
{
var1 = ((unsigned char *) arg1)[1];
var2 = var1 & 0x7F;
}
((char *) arg1)[1] = var2;
return;
}
int sub_06384 (int arg1){
return (be3(arg1+1) & 0x001FFFFF);
}
int sub_063A4 (int arg1){
var1 = ((unsigned char *) arg1)[3];
return var1;
}
int sub_063AC (int arg1, int arg2){
var1 = ((unsigned char *) arg1)[3];
var2 = 0;
if(!(((arg2 < var1)) == 0))
{
var2 = (arg1 + (arg2 << 2)) + 4;
}
return var2;
}
int sub_063D0 (int arg1){
return (arg1 + 14);
}
int sub_063D8 (int arg1){
return ((*arg1 + (*arg1[9] * 0x00000644)) + 0x28);
}
void dummy (){
return;
}
void initVSH (){
*((int *) 0x0000A27C) = 1;
*((int *) 0x0000A254) = 0x95;
*((int *) 0x0000A25C) = 0xCC;
*((int *) 0x0000A264) = 0xFFFFFFCE;
*((int *) 0x0000A268) = 0xFFFFFF98;
*((int *) 0x0000A26C) = 0x95;
*((int *) 0x0000A270) = 0x00000102;
*((int *) 0x0000A278) = 0x10;
*((int *) 0x0000A258) = 0;
*((int *) 0x0000A260) = 0x95;
*((int *) 0x0000A274) = 0;
return;
}
int mpegNextAvcRpAu (int arg1, int arg2){
sp = sp + 0xFFFFFF90;
((int *) sp)[21] = s5;
((int *) sp)[19] = s3;
var1 = arg2;
((int *) sp)[16] = s0;
((int *) sp)[25] = ra;
((int *) sp)[24] = fp;
((int *) sp)[23] = s7;
((int *) sp)[22] = s6;
((int *) sp)[20] = s4;
((int *) sp)[18] = s2;
((int *) sp)[17] = s1;
var2 = ((int *) arg1)[0];
var5 = checkMpegLib (arg1);
var6 = var5;
var7 = var5;
if(!(var5 != 0))
{
var8 = ((int *) var1)[2];
var7 = 0x806101FE;
if(!(var8 == 0xFFFFFFFF))
{
var9 = ((int *) var2)[411];
waitSema ();
var12 = ((int *) arg1)[0];
var13 = ((int *) var1)[0];
var16 = unRegistStream (var13, var12, 1);
var17 = var16;
if(var16 == 0xFFFFFFFF)
{
var52 = ((int *) var2)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var18 = ((int *) var1)[2];
var19 = sp;
var20 = sp + 0x30;
getAu (var18, 0, 1, var19, var20);
var23 = ((int *) sp)[12];
if(var23 == 1)
{
var24 = ((int *) sp)[7];
}
else
{
var6 = 0x80618004;
var24 = 0xFFFF0000;
}
var25 = ((int *) var17)[3];
var26 = 0;
if(var25 <= 0)
{
label31:
var39 = ((int *) var1)[12];
}
else
{
while (1) {
var27 = sp;
var28 = sp + 0x30;
getAu (var17, 0, 1, var27, var28);
var26 = var26 + 1;
if(var24 == 0xFFFF0000)
{
label28:
var36 = sp + 0x30;
sub_02AEC (var17, 1, var36);
if(((var26 < var25)) != 0)
continue;
break;
}
else
{
var31 = ((int *) var2)[4];
var32 = ((int *) sp)[7];
var35 = sub_052AC (var31, var24, var32);
if(!(var35 == 1))
goto label28;
var39 = ((int *) var1)[12];
}
goto label32;
}
goto label31;
}
label32:
((int *) var1)[4] = 0x00007FFF;
((int *) var1)[12] = ((var39 & 0xFFFFFFFB) | (0 & 1));
((int *) var1)[11] = 0;
var40 = ((int *) var2)[411];
signalSema ();
var7 = var6;
}
}
}
ra = ((int *) sp)[25];
var43 = ((int *) sp)[24];
var44 = ((int *) sp)[23];
var45 = ((int *) sp)[22];
var46 = ((int *) sp)[21];
var47 = ((int *) sp)[20];
var48 = ((int *) sp)[19];
var49 = ((int *) sp)[18];
var50 = ((int *) sp)[17];
var51 = ((int *) sp)[16];
sp = sp + 0x70;
return var7;
}
int mpeg_B27711A8 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFA0;
((int *) sp)[20] = s4;
((int *) sp)[19] = s3;
var1 = arg3;
((int *) sp)[18] = s2;
var2 = arg4;
((int *) sp)[17] = s1;
var3 = arg2;
((int *) sp)[16] = s0;
((int *) sp)[22] = ra;
((int *) sp)[21] = s5;
var4 = ((int *) arg1)[0];
var7 = checkMpegLib (arg1);
if(var7 == 0)
{
var14 = ((int *) var4)[411];
waitSema ();
var17 = ((int *) arg1)[0];
var18 = ((int *) var3)[0];
var21 = unRegistStream (var18, var17, 1);
if(var21 == 0xFFFFFFFF)
{
label11:
var75 = ((int *) var4)[411];
signalSema ();
var7 = 0x806101FE;
}
else
{
var22 = ((int *) var3)[2];
if(var22 == 0xFFFFFFFF)
goto label11;
var23 = var1;
if(var1 != 0)
{
label17:
var59 = sp;
var60 = sp + 0x30;
getAu (var22, var23, 1, var59, var60);
var63 = ((int *) sp)[12];
if(var63 != 1)
{
var71 = ((int *) sp)[8];
var72 = ((int *) var4)[411];
signalSema ();
var7 = 0x80618004;
}
else
{
var64 = ((int *) sp)[8];
var65 = ((int *) sp)[7];
if(((var64 < 0x00000801)) == 0)
{
var68 = ((int *) var4)[411];
signalSema ();
var7 = 0x80618007;
}
else
{
var26 = var2 + 8;
strncpy (var26, var65, var64);
((int *) var2)[1] = 0;
((int *) var2)[0] = 0;
label36:
var37 = ((int *) var4)[3];
label37:
if(var37 == 0)
{
var43 = sub_063D0 (var26);
var46 = sub_063A4 (var43);
var49 = sub_063D0 (var26);
var52 = sub_063AC (var49, (var46 + 0xFFFFFFFF));
sub_06360 (var52, 0);
}
var38 = ((int *) var4)[411];
signalSema ();
var7 = var7;
}
}
}
else
{
var24 = ((int *) var3)[4];
var25 = 0x00007FFF;
var26 = var2 + 8;
if(var24 == 0x00007FFF)
{
var23 = 0;
goto label17;
}
else
{
((int *) var2)[0] = var24;
var27 = var26;
var28 = ((int *) var3)[3];
var29 = ((int *) var3)[11];
var30 = var28 | var26;
var31 = var30 & 3;
((int *) var2)[1] = var29;
var32 = var28 + 0x00000800;
if(var31 == 0)
{
while (1) {
var55 = ((int *) var28)[0];
var56 = ((int *) var28)[1];
var57 = ((int *) var28)[2];
var58 = ((int *) var28)[3];
((int *) var27)[0] = var55;
var28 = var28 + 0x10;
var27 = var27 + 0x10;
((int *) var27)[1073741821] = var56;
((int *) var27)[1073741822] = var57;
((int *) var27)[1073741823] = var58;
if(var28 != var32)
continue;
break;
}
var37 = ((int *) var4)[3];
}
else
{
while (1) {
var33 = LWL (var28, var30, 3);
var30 = LWR (var28, var33, 0);
var34 = LWL (var28, var31, 0x07);
var31 = LWR (var28, var34, 4);
var35 = LWL (var28, var25, 0x0B);
var25 = LWR (var28, var35, 8);
var36 = LWL (var28, var32, 0x0F);
var32 = LWR (var28, var36, 0x0C);
SWL (var27, var30, 3);
SWR (var27, var30, 0);
SWL (var27, var31, 0x07);
SWR (var27, var31, 4);
SWL (var27, var25, 0x0B);
SWR (var27, var25, 8);
SWL (var27, var32, 0x0F);
SWR (var27, var32, 0x0C);
var28 = var28 + 0x10;
var27 = var27 + 0x10;
if(var28 != var32)
continue;
break;
}
goto label36;
}
goto label37;
}
}
}
}
ra = ((int *) sp)[22];
var8 = ((int *) sp)[21];
var9 = ((int *) sp)[20];
var10 = ((int *) sp)[19];
var11 = ((int *) sp)[18];
var12 = ((int *) sp)[17];
var13 = ((int *) sp)[16];
sp = sp + 0x60;
return var7;
}
int mpegChangeGetAvcAuMode (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg3;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[5] = ra;
((int *) sp)[3] = s3;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var13 = ((int *) var3)[411];
waitSema ();
var16 = ((int *) arg1)[0];
var17 = ((int *) var2)[0];
var20 = unRegistStream (var17, var16, 1);
if(var20 == 0xFFFFFFFF)
{
label11:
var28 = ((int *) var3)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
var21 = ((int *) var2)[2];
if(var21 == 0xFFFFFFFF)
goto label11;
if(var1 == 0)
{
var27 = ((int *) var2)[12];
var26 = (var27 & 0xFFFFFFFD) | (0 & 1);
label20:
((int *) var2)[12] = var26;
}
else
{
if(var1 == 2)
{
var25 = ((int *) var2)[12];
var26 = var25 | 2;
goto label20;
}
else
{
var7 = 0x806101FE;
}
}
var22 = ((int *) var3)[411];
signalSema ();
var6 = var7;
}
}
ra = ((int *) sp)[5];
var8 = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return var6;
}
int mpegChangeGetAuMode (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg3;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[5] = ra;
((int *) sp)[3] = s3;
var3 = ((int *) arg1)[0];
var6 = checkMpegLib (arg1);
var7 = var6;
if(var6 == 0)
{
var13 = ((int *) var3)[411];
waitSema ();
var16 = ((int *) var2)[0];
var17 = ((int *) arg1)[0];
var20 = unRegistStream (var16, var17, 1);
if(var20 == 0xFFFFFFFF)
{
var27 = ((int *) var3)[411];
signalSema ();
var6 = 0x806101FE;
}
else
{
if(var1 == 0)
{
var26 = ((int *) var2)[12];
var25 = (var26 & 0xFFFFFFFE) | (0 & 1);
label19:
((int *) var2)[12] = var25;
}
else
{
if(var1 == 1)
{
var24 = ((int *) var2)[12];
var25 = var24 | 1;
goto label19;
}
else
{
var7 = 0x806101FE;
}
}
var21 = ((int *) var3)[411];
signalSema ();
var6 = var7;
}
}
ra = ((int *) sp)[5];
var8 = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return var6;
}
void sceMpegQueryStreamOffset (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryStreamOffset (arg1, arg2, arg3);
}
void sceMpegQueryStreamSize (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryStreamSize (arg1, arg2);
}
void sceMpegInit (){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegInit ();
}
void sceMpegFinish (){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFinish ();
}
void sceMpegQueryMemSize (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
#ifdef VSH
return mpegQueryMemSize (arg1);
#else
#endif
}
void sceMpeg_42C679F6 (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryMemSize (arg1);
}
void sceMpegCreate (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegCreate (arg1, arg2, arg3, arg4, arg5, arg6, arg7);
}
void sceMpeg_75E21135 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegCreate (arg1, arg2, arg3, arg4, arg5, arg6, arg7);
}
void sceMpegDelete (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegDelete (arg1);
}
void sceMpegRegistStream (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0;
return mpegRegistStream (arg1, arg2, arg3);
}
void sceMpegUnRegistStream (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegUnRegistStream (arg1, arg2);
}
void sceMpegMallocAvcEsBuf (int arg1){
if(checkThreadStack()>=0x3F0)return 0;
return mpegMallocAvcEsBuf (arg1);
}
void sceMpegFreeAvcEsBuf (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFreeAvcEsBuf (arg1, arg2);
}
void sceMpegQueryAtracEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryAtracEsSize (arg1, arg2, arg3);
}
void sceMpegQueryPcmEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryPcmEsSize (arg1, arg2, arg3);
}
void sceMpegInitAu (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegInitAu (arg1, arg2, arg3);
}
void sceMpegChangeGetAvcAuMode (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegChangeGetAvcAuMode (arg1, arg2, arg3);
}
void sceMpegChangeGetAuMode (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegChangeGetAuMode (arg1, arg2, arg3);
}
void sceMpegNextAvcRpAu (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegNextAvcRpAu (arg1, arg2);
}
void sceMpegGetAvcAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAvcAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetPcmAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetPcmAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetAtracAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAtracAu (arg1, arg2, arg3, arg4);
}
void sceMpegFlushStream (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushStream (arg1, arg2);
}
void sceMpegFlushAllStream (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushAllStream (arg1);
}
void sceMpegAvcDecode (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecode (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcDecodeDetail (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeDetail (arg1, arg2);
}
void sceMpegAvcDecodeMode (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeMode (arg1, arg2);
}
void sceMpegAvcDecodeStop (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecodeStop (arg1, arg2, arg3, arg4);
}
void sceMpegAvcDecodeFlush (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeFlush (arg1);
}
void sceMpegAvcQueryYCbCrSize (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcQueryYCbCrSize (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcInitYCbCr (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcInitYCbCr (arg1, arg2, arg3, arg4, arg5);
}
void sceMpegAvcDecodeYCbCr (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcDecodeYCbCr (arg1, arg2, arg3, arg4);
}
void sceMpegAvcDecodeStopYCbCr (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeStopYCbCr (arg1, arg2, arg3);
}
void sceMpegAvcCsc (int arg1, int arg2, int arg3, int arg4, int arg5){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcCsc (arg1, arg2, arg3, arg4, arg5);
}
void sceMpeg_0558B075 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_0558B075 (arg1, arg2, arg3);
}
void sceMpegAtracDecode (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAtracDecode (arg1, arg2, arg3, arg4);
return 0x806101FE;
}
void sceMpegQueryUserdataEsSize (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegQueryUserdataEsSize (arg1, arg2, arg3);
}
void sceMpegQueryUserdataEsSize2 (int arg1, int arg2, int arg3, int arg4){//sceMpegQueryUserdataEsSize
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegQueryUserdataEsSize2 (arg1, arg2, arg3, arg4);
}
void sceMpegGetAvcEsAu (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegGetAvcEsAu (arg1, arg2, arg3, arg4);
}
void sceMpegGetAvcNalAu (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegGetAvcNalAu (arg1, arg2, arg3);
}
void sceMpegRingbufferQueryMemSize (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferQueryMemSize (arg1);
}
void sceMpegRingbufferQueryPackNum (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferQueryPackNum (arg1);
}
void sceMpegRingbufferConstruct (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegRingbufferConstruct (arg1, arg2, arg3, arg4, arg5, arg6);
}
void sceMpegRingbufferDestruct (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferDestruct ();
}
void sceMpegRingbufferPut (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferPut (arg1, arg2, arg3);
}
void sceMpegRingbufferAvailableSize (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegRingbufferAvailableSize (arg1);
}
void sceMpeg_11CAB459 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_11CAB459 (arg1, arg2, arg3);
}
void sceMpeg_C2F02CDD (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_C2F02CDD (arg1, arg2, arg3, arg4);
return;
}
void mpeg_5AC68A41 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return sub_0445C (arg1, arg2, arg3, arg4);
}
void sceMpegFlushAu (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegFlushAu (arg1, arg2);
}
void sceMpeg_B27711A8 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_B27711A8 (arg1, arg2, arg3, arg4);
}
void sceMpeg_D4DD6E75 (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpeg_D4DD6E75 (arg1, arg2, arg3, arg4);
}
void sceMpeg_C345DED2 (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0;
return mpeg_C345DED2 (arg1, arg2);
}
void sceMpeg_AB0E9556 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return avcDecodeDetail (arg1, arg2, arg3);
}
void sceMpegAvcDecodeDetail2 (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeDetail2 (arg1, arg2);
}
void sceMpegAvcDecodeGetDecodeSEI (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcDecodeGetDecodeSEI (arg1, arg2);
}
void sceMpeg_AE693D0B (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_AE693D0B (arg1, arg2);
}
void sceMpegAvcCscMode (int arg1, int arg2){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpegAvcCscMode (arg1, arg2);
}
void sceMpeg_E49EB257 (int arg1){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_E49EB257 (arg1);
}
void sceMpegAvcCscInfo (int arg1, int arg2, int arg3, int arg4){
if(checkThreadStack()>=0x3E0)return 0x80618008;
return mpegAvcCscInfo (arg1, arg2, arg3, arg4);
}
void sceMpeg_988E9E12 (int arg1, int arg2, int arg3){
if(checkThreadStack()>=0x3F0)return 0x80618008;
return mpeg_988E9E12 (arg1, arg2, arg3);
}
int createSema (int arg1, int arg2, int arg3, int arg4){
arg4[0] = sceKernelCreateSema (arg3, 0, arg1, arg2, 0);
return arg4[0]<0?0x80000041:0;
}
int deleteSema (){
return sceKernelDeleteSema()?0x80000041:0;
}
void waitSema (){
sceKernelWaitSema (arg1, 1, 0);
}
void signalSema (){
sceKernelSignalSema (arg1, 1);
}
int checkThreadStack(){
return sceKernelcheckThreadStack();
}
void initAudioCodec (){
pVideoCodecStruct = &videoCodecStruct;
memset (pVideoCodecStruct, 0, 0x60);
*((int *) 0x0000A340) = 0;
*((int *) 0x0000A344) = 0;
*((int *) 0x0000A348) = 0;
*((int *) 0x0000A34C) = 0;
*((int *) 0x0000A350) = 0;
*((int *) 0x0000A354) = 0;
*((int *) 0x0000A358) = 0;
*((int *) 0x0000A35C) = 0;
*((int *) 0x0000A360) = 0;
*((int *) 0x0000A364) = 0;
pVideoCodecStruct[4] = 0x0000A340;
*((int *) 0x0000A284) = pVideoCodecStruct[4];
var7 = videocodecOpen (sp);
var8 = var7;
if(var7 == 0)
{
var10 = *((int *) pVideoCodecStruct);
var13 = sceVideocodecGetEDRAM (var10, 0);
var8 = 0;
if(!(var13 == 0))
{
var14 = *((int *) pVideoCodecStruct);
var8 = var13;
((int *) var14)[5] = 0;
}
}
ra = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
int videocodecOpen (int arg1){
ret = sceVideocodecOpen (pVideoCodecStruct, 0);
*arg1 = pVideoCodecStruct[6];
return ret;
}
int sub_083E4 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7, int arg8){
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
var1 = arg1;
var2 = *((int *) mpegAvcSema);
((int *) sp)[0] = s0;
var3 = arg2;
((int *) sp)[9] = ra;
((int *) sp)[8] = fp;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var4 = arg4;
((int *) sp)[1] = s1;
var5 = arg3;
waitSema ();
((int *) var3)[0] = 0;
((int *) var3)[1] = 0;
((int *) var3)[2] = 0;
((int *) var3)[3] = 0;
((int *) var3)[4] = 0;
((int *) var3)[5] = 0;
((int *) var3)[6] = 0;
((int *) var3)[7] = 0;
((int *) var3)[8] = 0;
((int *) var3)[9] = 0;
memset (var5, 0, 0xB0);
memset (var4, 0, 0x64);
((int *) var1)[4] = var3;
((int *) var1)[11] = var5;
((int *) var1)[12] = var4;
((int *) var1)[15] = 4;
((int *) var1)[14] = arg5;
var14 = sceVideocodecOpen (var1, 0);
var15 = var14;
if(var14 != 0)
{
label23:
var29 = *((int *) mpegAvcSema);
signalSema ();
var32 = var15;
}
else
{
var16 = ((int *) arg6)[0];
((int *) var1)[7] = arg7;
((int *) var1)[5] = var16;
var19 = sceVideocodecInit (var1, 0);
var15 = var19;
if(var19 != 0)
goto label23;
var22 = sceVideocodecGetVersion (var1, 0);
var15 = var22;
if(var22 != 0)
goto label23;
((int *) var1)[16] = arg8;
var23 = ((int *) sp)[12];
((int *) var1)[17] = var23;
var24 = ((int *) sp)[13];
((int *) var1)[18] = var24;
var25 = ((int *) sp)[14];
((int *) var1)[19] = var25;
var28 = sceVideocodecSetMemory (var1, 0);
var15 = var28;
if(!(var28 == 0))
goto label23;
var42 = *((int *) mpegAvcSema);
signalSema ();
var32 = 0;
}
ra = ((int *) sp)[9];
var33 = ((int *) sp)[8];
var34 = ((int *) sp)[7];
var35 = ((int *) sp)[6];
var36 = ((int *) sp)[5];
var37 = ((int *) sp)[4];
var38 = ((int *) sp)[3];
var39 = ((int *) sp)[2];
var40 = ((int *) sp)[1];
var41 = ((int *) sp)[0];
sp = sp + 0x30;
return var32;
}
void videocodecReleaseEDRAM (){
var1 = *((int *) pVideoCodecStruct);
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceVideocodecReleaseEDRAM (var1);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
int sub_08588 (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = videocodecOpen (arg1);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int sub_085D8 ()
{
var1 = *((int *) pVideoCodecStruct);
var2 = ((int *) var1)[5];
return var2;
}
int sub_085E8 (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceVideocodecDecode (arg1, 0);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int videocodecStop (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceVideocodecStop (arg1, 0);
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
void delete (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = *((int *) mpegAvcSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceVideocodecDelete (arg1, 0);
if(var6 == 0)
{
var12 = *((int *) mpegAvcSema);
signalSema ();
}
else
{
var7 = *((int *) mpegAvcSema);
signalSema ();
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
int sub_087B8 (int arg1, int arg2){
waitSema (mpegAvcSema);
arg1[22] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
int sub_086F8 (int arg1, int arg2){
waitSema (mpegAvcSema);
arg1[20] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
int sub_08758 (int arg1, int arg2){
waitSema (mpegAvcSema);
arg1[21] = arg2;
var7 = sceVideocodec_893B32B1 (arg1, 0);
signalSema (mpegAvcSema);
return var7;
}
int sub_08818 (int arg1, int arg2, int arg3, int arg4){
sp = sp + 0xFFFFFFD0;
((int *) sp)[10] = s6;
((int *) sp)[7] = s3;
var1 = arg4;
((int *) sp)[5] = s1;
var2 = arg1;
((int *) sp)[4] = s0;
var3 = arg3;
((int *) sp)[11] = ra;
((int *) sp)[9] = s5;
((int *) sp)[8] = s4;
((int *) sp)[6] = s2;
var4 = *((int *) mpegAvcSema);
var5 = ((int *) arg2)[12];
var6 = ((int *) arg2)[4];
waitSema ();
var9 = ((unsigned char *) var3)[0];
if(!((var9 & 2) == 0))
{
var10 = ((int *) var3)[6];
var11 = ((int *) var2)[2];
var12 = ((int *) var2)[0];
var13 = var10 + var11;
((int *) var2)[1] = var13;
var14 = ((int *) var3)[7];
var15 = var13 + var14;
if((var12 & 2) == 0)
{
label12:
var18 = ((unsigned char *) var3)[0];
}
else
{
var16 = ((int *) var2)[3];
if(((var15 < var16)) == 0)
{
var17 = ((int *) var6)[8];
}
else
{
((int *) var2)[3] = var15;
((int *) var2)[4] = var15;
var17 = ((int *) var6)[8];
}
if(var17 == 0)
{
var18 = ((unsigned char *) var3)[0];
}
else
{
((int *) var2)[0] = ((var12 & 0xFFFFFFFD) | (0 & 1));
goto label12;
}
}
var19 = var2 + 0x14;
if((var18 & 1) != 0)
{
var32 = sub_09554 (var19);
if(var32 <= 0)
{
sub_093B8 (var19, 1);
var33 = ((int *) var6)[9];
}
else
{
var33 = ((int *) var6)[9];
}
if(var33 == 1)
{
var35 = sp;
sub_094A0 (var19, 0, var35);
var38 = ((int *) var1)[0];
var39 = ((int *) sp)[0];
var40 = var6;
((int *) var6)[4] = var38;
var41 = var39;
var42 = ((int *) var1)[1];
((int *) var6)[5] = var42;
var43 = ((int *) var1)[2];
((int *) var6)[6] = var43;
var44 = ((int *) var1)[3];
((int *) var6)[7] = var44;
while (1) {
var45 = ((int *) var40)[0];
var46 = ((int *) var40)[1];
var47 = ((int *) var40)[2];
var48 = ((int *) var40)[3];
((int *) var41)[0] = var45;
var40 = var40 + 0x10;
var41 = var41 + 0x10;
((int *) var41)[1073741821] = var46;
((int *) var41)[1073741822] = var47;
((int *) var41)[1073741823] = var48;
if(var40 != (var6 + 0x20))
continue;
break;
}
var49 = ((int *) var40)[0];
var50 = ((int *) var40)[1];
((int *) var41)[0] = var49;
((int *) var41)[1] = var50;
var51 = var39 + 0x28;
var52 = var5;
while (1) {
var53 = ((int *) var52)[0];
var54 = ((int *) var52)[1];
var55 = ((int *) var52)[2];
var56 = ((int *) var52)[3];
((int *) var51)[0] = var53;
var52 = var52 + 0x10;
var51 = var51 + 0x10;
((int *) var51)[1073741821] = var54;
((int *) var51)[1073741822] = var55;
((int *) var51)[1073741823] = var56;
if(var52 != (var5 + 0x60))
continue;
break;
}
var57 = ((int *) var52)[0];
((int *) var51)[0] = var57;
((int *) var39)[35] = var15;
var60 = sub_09554 (var19);
sub_09414 (var19, 1, var60);
var34 = ((int *) var2)[1];
}
else
{
var34 = ((int *) var2)[1];
}
((int *) var2)[2] = var34;
}
}
var20 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[11];
var23 = ((int *) sp)[10];
var24 = ((int *) sp)[9];
var25 = ((int *) sp)[8];
var26 = ((int *) sp)[7];
var27 = ((int *) sp)[6];
var28 = ((int *) sp)[5];
var29 = ((int *) sp)[4];
sp = sp + 0x30;
return 0;
}
int sub_08A18 (int arg1, int arg2){
sp = sp + 0xFFFFFFB0;
((int *) sp)[13] = s5;
var1 = arg1;
((int *) sp)[10] = s2;
var2 = arg2;
((int *) sp)[17] = ra;
((int *) sp)[16] = fp;
((int *) sp)[15] = s7;
((int *) sp)[14] = s6;
((int *) sp)[12] = s4;
((int *) sp)[11] = s3;
((int *) sp)[9] = s1;
((int *) sp)[8] = s0;
var3 = *((int *) mpegAvcSema);
var4 = ((int *) arg2)[4];
waitSema ();
var7 = ((int *) var4)[8];
var8 = var1 + 0x2C;
var9 = var2;
((int *) sp)[1] = var7;
while (1) {
var10 = ((int *) var9)[0];
var11 = ((int *) var9)[1];
var12 = ((int *) var9)[2];
var13 = ((int *) var9)[3];
((int *) var8)[0] = var10;
var9 = var9 + 0x10;
var8 = var8 + 0x10;
((int *) var8)[1073741821] = var11;
((int *) var8)[1073741822] = var12;
((int *) var8)[1073741823] = var13;
if(var9 != (var2 + 0x60))
continue;
break;
}
var14 = ((int *) sp)[1];
if(!(var14 <= 0))
{
((int *) sp)[3] = (var1 + 0x8C);
var15 = var1 + 0x0000012C;
var16 = var1;
((int *) sp)[4] = 0;
var17 = var1;
var18 = var15;
var19 = var14;
while (1) {
var20 = ((int *) var2)[14];
var21 = ((int *) sp)[4];
((int *) sp)[2] = 0xFFFFFFFF;
var22 = var20 + var21;
var23 = ((unsigned char *) var22)[0];
var24 = ((int *) sp)[2];
if(!((var23 & 2) == 0))
{
var25 = ((unsigned char *) var22)[32];
((int *) sp)[2] = var25;
var24 = ((int *) sp)[2];
}
var26 = var1 + 0x14;
if(((var24 < 0x07)) != 0)
{
var71 = sub_0948C (var26);
if(var71 != 0)
{
var27 = ((int *) var2)[21];
label47:
var28 = var4;
var29 = var16 + 0x8C;
var30 = ((int *) var27)[0];
((int *) var4)[4] = var30;
var31 = ((int *) var27)[1];
((int *) var4)[5] = var31;
var32 = ((int *) var27)[2];
((int *) var4)[6] = var32;
var33 = ((int *) var27)[3];
((int *) var4)[7] = var33;
while (1) {
var34 = ((int *) var28)[0];
var35 = ((int *) var28)[1];
var36 = ((int *) var28)[2];
var37 = ((int *) var28)[3];
((int *) var29)[0] = var34;
var28 = var28 + 0x10;
var29 = var29 + 0x10;
((int *) var29)[1073741821] = var35;
((int *) var29)[1073741822] = var36;
((int *) var29)[1073741823] = var37;
if(var28 != (var4 + 0x20))
continue;
break;
}
var38 = ((int *) var28)[0];
var39 = ((int *) var28)[1];
((int *) var29)[0] = var38;
((int *) var29)[1] = var39;
var40 = var18;
var41 = ((int *) var2)[12];
var42 = var41 + 0x60;
if(((var41 | var18) & 3) == 0)
{
while (1) {
var64 = ((int *) var41)[0];
var65 = ((int *) var41)[1];
var66 = ((int *) var41)[2];
var67 = ((int *) var41)[3];
((int *) var40)[0] = var64;
var41 = var41 + 0x10;
var40 = var40 + 0x10;
((int *) var40)[1073741821] = var65;
((int *) var40)[1073741822] = var66;
((int *) var40)[1073741823] = var67;
if(var41 != var42)
continue;
break;
}
var68 = ((int *) var41)[0];
((int *) var40)[0] = var68;
var50 = ((int *) sp)[4];
}
else
{
var43 = var42;
while (1) {
var44 = LWL (var41, var31, 3);
var31 = LWR (var41, var44, 0);
var45 = LWL (var41, var38, 0x07);
var38 = LWR (var41, var45, 4);
var46 = LWL (var41, var39, 0x0B);
var39 = LWR (var41, var46, 8);
var47 = LWL (var41, var42, 0x0F);
var42 = LWR (var41, var47, 0x0C);
SWL (var40, var31, 3);
SWR (var40, var31, 0);
SWL (var40, var38, 0x07);
SWR (var40, var38, 4);
SWL (var40, var39, 0x0B);
SWR (var40, var39, 8);
SWL (var40, var42, 0x0F);
SWR (var40, var42, 0x0C);
var41 = var41 + 0x10;
var40 = var40 + 0x10;
if(var41 != var43)
continue;
break;
}
var48 = LWL (var41, var43, 3);
var49 = LWR (var41, var48, 0);
SWL (var40, var49, 3);
SWR (var40, var49, 0);
label55:
var50 = ((int *) sp)[4];
}
}
else
{
var72 = sp;
sub_094F4 (var26, 1, var72);
var75 = ((int *) sp)[0];
var76 = sp;
if(!(var75 == 0))
{
var77 = ((int *) var75)[35];
var78 = ((int *) var1)[4];
if(((var78 < var77)) == 0)
{
sub_093B8 (var26, 1);
var136 = ((int *) var1)[0];
((int *) var1)[0] = (var136 | 4);
}
var76 = sp;
}
sub_094F4 (var26, 0, var76);
var81 = ((int *) sp)[0];
var82 = var16 + 0x8C;
var83 = var81;
if(var81 == 0)
{
var103 = ((int *) var2)[4];
var104 = ((int *) sp)[3];
var105 = (var103 | var104) & 3;
var106 = var103 + 0x20;
if(var105 == 0)
{
while (1) {
var130 = ((int *) var103)[0];
var131 = ((int *) var103)[1];
var132 = ((int *) var103)[2];
var133 = ((int *) var103)[3];
((int *) var104)[0] = var130;
var103 = var103 + 0x10;
var104 = var104 + 0x10;
((int *) var104)[1073741821] = var131;
((int *) var104)[1073741822] = var132;
((int *) var104)[1073741823] = var133;
if(var103 != var106)
continue;
break;
}
a0/* Invalid block 28 3 */ = ((int *) var103)[0];
var112 = ((int *) var103)[1];
((int *) var104)[0] = a0/* Invalid block 28 3 */;
((int *) var104)[1] = var112;
var115 = ((int *) var2)[12];
}
else
{
while (1) {
var107 = LWL (var103);
a1/* Invalid block 30 3 */ = LWR (var103, var107, 0);
var108 = LWL (var103, var106, 0x07);
var106 = LWR (var103, var108, 4);
var109 = LWL (var103, var105, 0x0B);
var105 = LWR (var103, var109, 8);
var110 = LWL (var103);
a0/* Invalid block 30 3 */ = LWR (var103, var110, 0x0C);
SWL (var104);
SWR (var104);
SWL (var104, var106, 0x07);
SWR (var104, var106, 4);
SWL (var104, var105, 0x0B);
SWR (var104, var105, 8);
SWL (var104);
SWR (var104);
var103 = var103 + 0x10;
var104 = var104 + 0x10;
if(var103 != var106)
continue;
break;
}
var111 = LWL (var103);
var112 = LWR (var103, var111, 0);
var113 = LWL (var103, var106, 0x07);
var114 = LWR (var103, var113, 4);
SWL (var104, var112, 3);
SWR (var104, var112, 0);
SWL (var104, var114, 0x07);
SWR (var104, var114, 4);
var115 = ((int *) var2)[12];
}
var116 = var15;
var117 = var115 + 0x60;
if(((var115 | var15) & 3) == 0)
{
while (1) {
var125 = ((int *) var115)[0];
var126 = ((int *) var115)[1];
var127 = ((int *) var115)[2];
var128 = ((int *) var115)[3];
((int *) var116)[0] = var125;
var115 = var115 + 0x10;
var116 = var116 + 0x10;
((int *) var116)[1073741821] = var126;
((int *) var116)[1073741822] = var127;
((int *) var116)[1073741823] = var128;
if(var115 != var117)
continue;
break;
}
var129 = ((int *) var115)[0];
((int *) var116)[0] = var129;
var97 = ((int *) sp)[1];
}
else
{
var118 = var117;
while (1) {
var119 = LWL (var115, var105, 3);
var105 = LWR (var115, var119, 0);
var120 = LWL (var115);
a0/* Invalid block 36 3 */ = LWR (var115, var120, 4);
var121 = LWL (var115, var112, 0x0B);
var112 = LWR (var115, var121, 8);
var122 = LWL (var115, var117, 0x0F);
var117 = LWR (var115, var122, 0x0C);
SWL (var116, var105, 3);
SWR (var116, var105, 0);
SWL (var116);
SWR (var116);
SWL (var116, var112, 0x0B);
SWR (var116, var112, 8);
SWL (var116, var117, 0x0F);
SWR (var116, var117, 0x0C);
var115 = var115 + 0x10;
var116 = var116 + 0x10;
if(var115 != var118)
continue;
break;
}
var123 = LWL (var115, var118, 3);
var124 = LWR (var115, var123, 0);
SWL (var116, var124, 3);
SWR (var116, var124, 0);
var97 = ((int *) sp)[1];
}
}
else
{
while (1) {
var84 = ((int *) var83)[0];
var85 = ((int *) var83)[1];
var86 = ((int *) var83)[2];
var87 = ((int *) var83)[3];
((int *) var82)[0] = var84;
var83 = var83 + 0x10;
var82 = var82 + 0x10;
((int *) var82)[1073741821] = var85;
((int *) var82)[1073741822] = var86;
((int *) var82)[1073741823] = var87;
if(var83 != (var81 + 0x20))
continue;
break;
}
var88 = ((int *) var83)[0];
var89 = ((int *) var83)[1];
((int *) var82)[0] = var88;
((int *) var82)[1] = var89;
var90 = var17 + 0x0000012C;
var91 = var81 + 0x28;
while (1) {
var92 = ((int *) var91)[0];
var93 = ((int *) var91)[1];
var94 = ((int *) var91)[2];
var95 = ((int *) var91)[3];
((int *) var90)[0] = var92;
var91 = var91 + 0x10;
var90 = var90 + 0x10;
((int *) var90)[1073741821] = var93;
((int *) var90)[1073741822] = var94;
((int *) var90)[1073741823] = var95;
if(var91 != (var81 + 0x88))
continue;
break;
}
var96 = ((int *) var91)[0];
((int *) var90)[0] = var96;
var97 = ((int *) sp)[1];
}
((int *) var16)[43] = var97;
var98 = ((int *) var1)[0];
if((var98 & 4) == 0)
{
((int *) var16)[44] = 0;
}
else
{
((int *) var16)[44] = 1;
var99 = ((int *) var1)[0];
((int *) var1)[0] = ((var99 & 0xFFFFFFFB) | (0 & 1));
}
var100 = ((int *) sp)[2];
var101 = ((int *) var1)[4];
var102 = ((unsigned char *) (var100 + 0x0000A18C))[0];
((int *) var1)[4] = (var101 + var102);
goto label55;
}
}
else
{
var27 = ((int *) var2)[21];
goto label47;
}
var51 = ((int *) sp)[3];
var19 = var19 + 0xFFFFFFFF;
((int *) sp)[4] = (var50 + 0x00000148);
var18 = var18 + 0x64;
var15 = var15 + 0x64;
((int *) sp)[3] = (var51 + 0x28);
var17 = var17 + 0x64;
var16 = var16 + 0x28;
if(var19 != 0)
continue;
break;
}
}
((int *) var1)[23] = (var1 + 0x0000012C);
((int *) var1)[15] = (var1 + 0x8C);
var52 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[17];
var55 = ((int *) sp)[16];
var56 = ((int *) sp)[15];
var57 = ((int *) sp)[14];
var58 = ((int *) sp)[13];
var59 = ((int *) sp)[12];
var60 = ((int *) sp)[11];
var61 = ((int *) sp)[10];
var62 = ((int *) sp)[9];
var63 = ((int *) sp)[8];
sp = sp + 0x50;
return 0;
}
int sub_08F70 (){
return 0x0000058C;
}
void sub_08F78 (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAvcSema);
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
var2 = arg2;
waitSema ();
((int *) arg1)[0] = var2;
sub_09470 ((var2 + 0x14), 0x90, 0x05, (var2 + 0x000002BC));
var7 = *((int *) mpegAvcSema);
signalSema ();
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sub_08FE0 (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = *((int *) mpegAvcSema);
((int *) sp)[1] = s1;
((int *) sp)[3] = ra;
var3 = var1 + 0x14;
waitSema ();
var8 = sub_09498 (var3);
sub_093B8 (var3, var8);
((int *) var1)[4] = 0xFFFFFFFF;
((int *) var1)[0] = 0x07;
((int *) var1)[3] = 0xFFFFFFFF;
((int *) var1)[1] = 0;
var11 = *((int *) mpegAvcSema);
((int *) var1)[2] = 0;
signalSema ();
ra = ((int *) sp)[3];
var14 = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
int initVideoCodec (int arg1){
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
((int *) sp)[6] = ra;
*((int *) pAudioCodecStruct) = &audioCodecStruct;
memset (audioCodecStruct, 0, 0x6C);
var3 = sp;
var6 = audiocodecCheckNeedMem (var3, arg1, 0x0000A440);
var7 = var6;
if(var6 == 0)
{
var10 = *((int *) pAudioCodecStruct);
var13 = sceAudiocodecGetEDRAM (var10, 0x00001000);
var7 = 0;
if(!(var13 == 0))
{
var14 = *((int *) pAudioCodecStruct);
var7 = var13;
((int *) var14)[3] = 0;
}
}
ra = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x20;
return var7;
}
int audiocodecCheckNeedMem (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
var1 = ((arg2 ^ 3) < 1);
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var2 = *((int *) pAudioCodecStruct);
var3 = (var1 << 1) + "(\\\";
var4 = (var1 << 2) + 0x0000A198;
if(!(arg3 == 0))
{
((int *) arg3)[0] = var1;
}
((int *) var2)[12] = 1;
var5 = *((int *) pAudioCodecStruct);
var6 = ((char *) var3)[0];
var7 = ((char *) var3)[1];
((char *) var5)[40] = var6;
((char *) var5)[41] = var7;
var8 = *((int *) pAudioCodecStruct);
var9 = LWL (var4, v0, 3);
var10 = LWR (var4, var9, 0);
SWL (var8, var10, 0x2F);
SWR (var8, var10, 0x2C);
var11 = *((int *) pAudioCodecStruct);
((int *) var11)[5] = 1;
var14 = sceAudiocodecCheckNeedMem (var11, 0x00001000);
var15 = *((int *) pAudioCodecStruct);
ra = ((int *) sp)[2];
var16 = ((int *) sp)[0];
var17 = ((int *) var15)[4];
((int *) arg1)[0] = var17;
var18 = ((int *) sp)[1];
sp = sp + 0x10;
return var14;
}
int audiocodecSetup (int arg1, int arg2, int arg3, int arg4, int arg5){
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var1 = arg1;
var2 = *((int *) mpegAtracSema);
((int *) sp)[6] = ra;
((int *) sp)[5] = s5;
((int *) sp)[2] = s2;
var3 = arg5;
((int *) sp)[1] = s1;
var4 = arg4;
((int *) sp)[0] = s0;
waitSema ();
((int *) var1)[3] = arg2;
((int *) var1)[12] = 1;
((int *) var1)[14] = 1;
var7 = ((char *) var4)[0];
var8 = ((char *) var4)[1];
((char *) var1)[40] = var7;
((char *) var1)[41] = var8;
var9 = LWL (var3, var7, 3);
var10 = LWR (var3, var9, 0);
SWL (var1, var10, 0x2F);
SWR (var1, var10, 0x2C);
((int *) var1)[5] = 1;
var13 = sceAudiocodecCheckNeedMem (var1, 0x00001000);
var14 = var13;
if(var13 != 0)
{
label14:
var29 = *((int *) mpegAtracSema);
signalSema ();
var19 = var14;
}
else
{
var15 = ((int *) var1)[4];
if(((arg3 < var15)) == 0)
{
var28 = sceAudiocodecInit (var1, 0x00001000);
var14 = var28;
if(!(var28 == 0))
goto label14;
var32 = *((int *) mpegAtracSema);
signalSema ();
var19 = 0;
}
else
{
var16 = *((int *) mpegAtracSema);
signalSema ();
var19 = 0x807F00FF;
}
}
ra = ((int *) sp)[6];
var20 = ((int *) sp)[5];
var21 = ((int *) sp)[4];
var22 = ((int *) sp)[3];
var23 = ((int *) sp)[2];
var24 = ((int *) sp)[1];
var25 = ((int *) sp)[0];
sp = sp + 0x20;
return var19;
}
void audiocodecReleaseEDRAM (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = *((int *) pAudioCodecStruct);
var2 = ((int *) var1)[3];
if(var2 != 0)
{
sceAudiocodecReleaseEDRAM ();
ra = ((int *) sp)[0];
}
else
{
ra = ((int *) sp)[0];
}
sp = sp + 0x10;
return;
}
int sub_092D0 (int arg1, int arg2){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var1 = *((int *) mpegAtracSema);
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
waitSema ();
var6 = audiocodecCheckNeedMem (arg1, arg2, 0);
var7 = *((int *) mpegAtracSema);
signalSema ();
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return var6;
}
int sub_09330 (int arg1){
var1 = *((int *) pAudioCodecStruct);
if(!(arg1 == 0))
{
var2 = *((int *) 0x0000A440);
((int *) arg1)[0] = var2;
}
var3 = ((int *) var1)[3];
return var3;
}
int audiocodecDecode (int arg1){
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = *((int *) mpegAtracSema);
((int *) sp)[2] = ra;
waitSema ();
var6 = sceAudiocodecDecode (arg1, 0x00001000);
if(var6 == 0)
{
var13 = *((int *) mpegAtracSema);
signalSema ();
var10 = 0;
}
else
{
var7 = *((int *) mpegAtracSema);
signalSema ();
var10 = var6;
}
ra = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return var10;
}
void sub_093B8 (int arg1, int arg2){
var1 = ((int *) arg1)[3];
var2 = arg1;
var3 = MIN (arg2, var1);
var4 = var3;
if(!(var3 <= 0))
{
var5 = ((int *) arg1)[0];
var6 = ((int *) var2)[1];
while (1) {
var7 = !(((var5 < (var6 + var4)))) ? var4 : (var5 - var6);
var8 = var6 + var7;
var4 = var4 - var7;
((int *) var2)[1] = var8;
if(var8 == var5)
{
((int *) var2)[1] = 0;
}
if(!(var4 > 0))
break;
var6 = ((int *) var2)[1];
continue;
}
}
((int *) var2)[3] = (var1 - var3);
return;
}
void sub_09414 (int arg1, int arg2, int arg3){
var1 = MIN (arg2, arg3);
var2 = arg1;
var3 = var1;
if(!(var1 <= 0))
{
var4 = ((int *) arg1)[0];
var5 = ((int *) var2)[2];
while (1) {
var6 = !(((var4 < (var5 + var3)))) ? var3 : (var4 - var5);
var7 = var5 + var6;
var3 = var3 - var6;
((int *) var2)[2] = var7;
if(var7 == var4)
{
((int *) var2)[2] = 0;
}
if(!(var3 > 0))
break;
var5 = ((int *) var2)[2];
continue;
}
}
var8 = ((int *) var2)[3];
((int *) var2)[3] = (var8 + var1);
return;
}
void sub_09470 (int arg1, int arg2, int arg3, int arg4){
((int *) arg1)[4] = arg4;
((int *) arg1)[5] = arg2;
((int *) arg1)[0] = arg3;
((int *) arg1)[1] = 0;
((int *) arg1)[3] = 0;
((int *) arg1)[2] = 0;
return;
}
int sub_0948C (int arg1){
var1 = ((int *) arg1)[3];
return ((var1 < 1));
}
int sub_09498 (int arg1){
var1 = ((int *) arg1)[3];
return var1;
}
void sub_094A0 (int arg1, int arg2, int arg3){
var1 = 0xFFFFFFFF;
if(arg2 < 0)
{
((int *) arg3)[0] = 0;
}
else
{
var2 = ((int *) arg1)[2];
var3 = ((int *) arg1)[0];
var1 = 0;
if(var3 == 0)
{
__asm__ ("break 0x00007;");
}
var4 = ((int *) arg1)[5];
var5 = ((int *) arg1)[4];
((int *) arg3)[0] = (var5 + (var4 * ((arg2 + var2) % var3)));
}
return;
}
void sub_094F4 (int arg1, int arg2, int arg3){
var1 = 0xFFFFFFFF;
var2 = arg1;
if(arg2 < 0)
{
label8:
((int *) arg3)[0] = 0;
}
else
{
var3 = ((int *) arg1)[3];
if(!(((arg2 < var3)) != 0))
goto label8;
var4 = ((int *) var2)[1];
var5 = ((int *) var2)[0];
var1 = 0;
if(var5 == 0)
{
__asm__ ("break 0x00007;");
}
var6 = ((int *) var2)[5];
var7 = ((int *) var2)[4];
((int *) arg3)[0] = (var7 + (var6 * ((arg2 + var4) % var5)));
}
return;
}
int sub_09554 (int arg1){
var1 = ((int *) arg1)[3];
var2 = ((int *) arg1)[0];
return (var2 - var1);
}
int strncmp (int arg1, int arg2, int arg3){
if(arg3 <= 0)
{
var3 = 0;
}
else
{
var1 = ((unsigned char *) arg1)[0];
while (1) {
var2 = ((unsigned char *) arg2)[0];
arg3 = arg3 + 0xFFFFFFFF;
arg1 = arg1 + 1;
arg2 = arg2 + 1;
if(var1 != var2)
break;
if(arg3 > 0)
{
var1 = ((unsigned char *) arg1)[0];
continue;
}
else
{
var3 = 0;
}
goto label10;
}
var3 = !(((var1 < var2))) ? 1 : 0xFFFFFFFF;
}
label10:
return var3;
}
void strncpy (char*arg1, char*arg2, int arg3){
if(!arg1)return;
while(arg3<=0){
arg1[0] = arg2[0];
arg3--;
arg2++;
arg1++;
}
}
void memset (int arg1, int arg2, int arg3){
if(!(arg1 == 0))
{
var1 = arg1;
if(!(arg3 <= 0))
{
while (1) {
arg3 = arg3 + 0xFFFFFFFF;
((char *) var1)[0] = (arg2 & 0xFF);
var1 = var1 + 1;
if(arg3 > 0)
continue;
break;
}
}
}
return;
}
int strcmp (int arg1, int arg2){
if((((arg1 < 1)) | ((arg2 < 1))) == 0)
{
var2 = ((unsigned char *) arg1)[0];
var3 = ((char *) arg2)[0];
var4 = (char) var2;
var5 = arg2 + 1;
if(var4 == var3)
{
var7 = var4;
while (1) {
arg1 = arg1 + 1;
var1 = 0;
if(var7 == 0)
break;
var2 = ((unsigned char *) arg1)[0];
var8 = ((char *) var5)[0];
var5 = var5 + 1;
var9 = (char) var2;
var7 = var9;
if(var9 == var8)
continue;
var6 = ((char *) var5)[-1];
label10:
var1 = ((char) var2) - var6;
goto label13;
}
}
else
{
var6 = ((char *) var5)[-1];
goto label10;
}
}
else
{
var1 = 0;
if(!(arg1 == arg2))
{
var1 = (arg1) ? 1 : 0xFFFFFFFF;
}
}
label13:
return var1;
}
int abs (int arg1){
return MAX(arg1,-arg1);
}
int getStream (int arg1, int arg2){
var1 = 0x806101FE;
var2 = 0;
if(!(((arg1 < 0x13)) == 0))
{
var3 = arg1 << 3;
var4 = ((int *) (var3 + stream))[1];
if(var4 == 0xFFFF0000)
{
var2 = 0x10;
label13:
label14:
var5 = ((int *) (var3 + stream))[0];
var1 = var5 | (arg2 << var2);
}
else
{
if(((0xFFFF0000 < var4)) != 0)
{
if(var4 == 0xFFFFFF00)
{
var2 = 8;
goto label13;
}
else
{
if(var4 != 0xFFFFFFFF)
{
var1 = 0;
}
else
{
goto label14;
}
}
}
else
{
if(var4 == 0xFF000000)
{
var2 = 0x18;
goto label13;
}
else
{
var1 = 0;
}
}
}
}
return var1;
}
void flushStream (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFD0;
var1 = 0;
((int *) sp)[8] = fp;
var2 = stream;
var3 = 0;
((int *) sp)[7] = s7;
var4 = 0;
var5 = 0;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
while (1) {
var6 = ((int *) var2)[1];
if(var6 == 0xFFFF0000)
{
var20 = ((int *) var2)[0];
var21 = arg3;
if(var20 == 0xBD400000)
{
label23:
var3 = (var21 & 0xFFF00000) | (0 & 0x000FFFFF);
label24:
var4 = 0x0F;
}
else
{
if(((0xBD400000 < var20)) != 0)
{
var23 = arg3;
if(var20 == 0xBD880000)
{
label12:
var3 = (var23 & 0xFFF80000) | (0 & 0x0007FFFF);
var4 = 0x07;
}
else
{
var3 = (var23 & 0xFFE00000) | (0 & 0x001FFFFF);
if(((0xBD880000 < var20)) != 0)
{
var23 = arg3;
if(var20 == 0xBD900000)
goto label12;
if(var20 != 0xBDA00000)
{
var22 = arg3;
label26:
var3 = (var22 & 0xFFFF0000) | (0 & 0x0000FFFF);
var4 = 0;
}
else
{
var23 = arg3;
goto label12;
}
}
else
{
var4 = 0x1F;
if(var20 != 0xBD800000)
{
label25:
var22 = arg3;
goto label26;
}
else
{
}
}
}
}
else
{
if(var20 == 0xBD100000)
{
var21 = arg3;
goto label23;
}
else
{
if(((0xBD100000 < var20)) != 0)
{
var21 = arg3;
if(var20 == 0xBD200000)
goto label23;
if(var20 != 0xBD300000)
{
var22 = arg3;
goto label26;
}
else
{
var3 = (arg3 & 0xFFF00000) | (0 & 0x000FFFFF);
goto label24;
}
}
else
{
var21 = arg3;
if(var20 == 0xBD000000)
goto label23;
goto label25;
}
}
}
}
if(var3 != var20)
{
var5 = var5 + 1;
}
else
{
var17 = (arg3 >> 0x10) & var4;
label37:
((int *) arg1)[0] = var5;
label51:
((int *) arg2)[0] = var17;
label52:
var5 = var5 + 1;
}
}
else
{
if(((0xFFFF0000 < var6)) != 0)
{
if(var6 == 0xFFFFFF00)
{
var19 = ((int *) var2)[0];
if(var19 == 0xBF01E000)
{
var3 = (arg3 & 0xFFFFE000) | (0 & 0x00001FFF);
var4 = 0x1F;
}
var17 = (arg3 >> 8) & var4;
if(!(var3 != var19))
goto label37;
goto label52;
}
else
{
if(var6 != 0xFFFFFFFF)
{
var5 = var5 + 1;
}
else
{
var18 = ((int *) var2)[0];
var3 = (arg3 & 0xFFFFFF00) | (0 & 0xFF);
if(var3 != var18)
{
var5 = var5 + 1;
}
else
{
var1 = 1;
((int *) arg1)[0] = var5;
((int *) arg2)[0] = (arg3 & 0x0000FFFF);
goto label52;
}
}
}
}
else
{
if(!(var6 == 0xFF000000))
goto label52;
var16 = ((int *) var2)[0];
var3 = (arg3 & 0xF0000000) | (0 & 0x0FFFFFFF);
var4 = 0x0F;
if(!(var16 == 0xE0000000))
{
var3 = (arg3 & 0xE0000000) | (0 & 0x1FFFFFFF);
var4 = 0x1F;
if(!(var16 == 0xC0000000))
{
var3 = (arg3 & 0xFF000000) | (0 & 0x00FFFFFF);
var4 = 0;
}
}
if(var3 != var16)
{
var5 = var5 + 1;
}
else
{
((int *) arg1)[0] = var5;
var17 = (arg3 >> 0x18) & var4;
goto label51;
}
}
}
var2 = var2 + 8;
if((((var5 < 0x13)) & ((var1 < 1))) != 0)
continue;
break;
}
var7 = ((int *) sp)[8];
var8 = ((int *) sp)[7];
var9 = ((int *) sp)[6];
var10 = ((int *) sp)[5];
var11 = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x30;
return;
}
int getStreamOffset (int arg1){
if(arg1>=0x13)return 0x806101FE;
return ((int *) ((arg1 << 3) + stream))[1];
}
int be2 (int arg1){
var1 = ((unsigned char *) arg1)[0];
var2 = ((unsigned char *) arg1)[1];
return ((var2 + (var1 << 8)) & 0x0000FFFF);
}
int be3 (int arg1){
var1 = ((unsigned char *) arg1)[0];
var2 = ((unsigned char *) arg1)[1];
var3 = ((unsigned char *) arg1)[2];
return (((var1 << 0x10) + (var2 << 8)) + var3);
}
int be4 (int arg1){
var1 = ((unsigned char *) arg1)[0];
var2 = ((unsigned char *) arg1)[1];
var3 = ((unsigned char *) arg1)[2];
var4 = ((unsigned char *) arg1)[3];
return ((((var1 << 0x18) + (var2 << 0x10)) + (var3 << 8)) + var4);
}
int beN (int arg1, int arg2){
var1 = arg1;
if(arg2 == 2)
{
var10 = ((unsigned char *) arg1)[0];
var11 = ((unsigned char *) arg1)[1];
var2 = (var11 + (var10 << 8)) & 0x0000FFFF;
}
else
{
if(((arg2 < 3)) == 0)
{
if(arg2 == 3)
{
var7 = ((unsigned char *) arg1)[0];
var8 = ((unsigned char *) arg1)[1];
var9 = ((unsigned char *) arg1)[2];
var2 = ((var7 << 0x10) + (var8 << 8)) + var9;
}
else
{
if(arg2 != 4)
{
label11:
var2 = 0;
}
else
{
var3 = ((unsigned char *) arg1)[1];
var4 = ((unsigned char *) arg1)[0];
var5 = ((unsigned char *) arg1)[2];
var6 = ((unsigned char *) var1)[3];
var2 = (((var4 << 0x18) + (var3 << 0x10)) + (var5 << 8)) + var6;
}
}
}
else
{
if(!(arg2 == 1))
goto label11;
var2 = ((unsigned char *) var1)[0];
}
}
return var2;
}
|
0xb15c077e
|
trunk/RE/PSP/mpeg_vsh.c
|
C
|
mit
| 226,622
|
#ifndef __MPEG_H
#define __MPEG_H
/*
* Exports from library: syslib
*/
/*
* Exports from library: sceMpeg
*/
void sceMpegQueryUserdataEsSize (void);
void sceMpeg_0558B075 (void);
void sceMpegAvcDecode (void);
void sceMpegAvcDecodeDetail (void);
void sceMpegGetAvcNalAu (void);
void sceMpegRingbufferDestruct (void);
void sceMpegInitAu (void);
void sceMpegAvcQueryYCbCrSize (void);
void sceMpegQueryStreamOffset (void);
void sceMpegChangeGetAvcAuMode (void);
void sceMpegAvcCsc (void);
void sceMpegRingbufferConstruct (void);
void sceMpegNextAvcRpAu (void);
void sceMpegRegistStream (void);
void sceMpeg_42C679F6 (void);
void sceMpegAvcDecodeFlush (void);
void sceMpegFlushStream (void);
void sceMpegUnRegistStream (void);
void sceMpegDelete (void);
void sceMpegQueryStreamSize (void);
void sceMpegAvcInitYCbCr (void);
void sceMpegInit (void);
void sceMpegFlushAllStream (void);
void sceMpegAvcDecodeStop (void);
void sceMpeg_75E21135 (void);
void sceMpegRingbufferQueryPackNum (void);
void sceMpegAtracDecode (void);
void sceMpegFinish (void);
void sceMpegGetPcmAu (void);
void sceMpegGetAvcEsAu (void);
void sceMpegChangeGetAuMode (void);
void sceMpegAvcDecodeMode (void);
void sceMpegMallocAvcEsBuf (void);
void sceMpegRingbufferPut (void);
void sceMpegRingbufferAvailableSize (void);
void sceMpegQueryPcmEsSize (void);
void sceMpegQueryMemSize (void);
void sceMpegQueryUserdataEsSize (void);
void sceMpegFreeAvcEsBuf (void);
void sceMpegRingbufferQueryMemSize (void);
void sceMpegCreate (void);
void sceMpegGetAtracAu (void);
void sceMpegAvcDecodeYCbCr (void);
void sceMpegAvcDecodeStopYCbCr (void);
void sceMpegQueryAtracEsSize (void);
void sceMpegGetAvcAu (void);
#endif /* __MPEG_H */
|
0xb15c077e
|
trunk/RE/PSP/mpeg.h
|
C
|
mit
| 1,756
|
#ifndef __AMCTRL_H
#define __AMCTRL_H
/*
* Exports from library: syslib
*/
void module_start (void);
/*
* Exports from library: sceAmctrl_driver
*/
void sceDrmBBCipherUpdate (void);
void sceDrmBBCipherInit (void);
void sceDrmBBMacInit (void);
void sceDrmBBMacUpdate (void);
void sceDrmBBCipherFinal (void);
void sceDrmBBMacFinal (void);
void sceDrmBBMacFinal2 (void);
#endif /* __AMCTRL_H */
|
0xb15c077e
|
trunk/RE/PSP/amctrl.h
|
C
|
mit
| 419
|
#ifndef __LED_H
#define __LED_H
/*
* Exports from library: syslib
*/
void module_start (void);
void module_reboot_before (void);
/*
* Exports from library: sceLed_driver
*/
void sceLedResume (void);
void sceLedEnd (void);
void sceLedInit (void);
void sceLedSuspend (void);
void sceLedSetMode (void);
#endif /* __LED_H */
|
0xb15c077e
|
trunk/RE/PSP/led.h
|
C
|
mit
| 347
|
#include <pspsdk.h>
#include "ctrl.h"
/*
* Imports from library: SysMemForKernel
*/
extern int SysMemForKernel_2CFF6F90 ();
/*
* Imports from library: sceSuspendForKernel
*/
extern void sceKernelPowerTick (int arg1);
/*
* Imports from library: sceSysEventForKernel
*/
extern void sceKernelRegisterSysEventHandler (int arg1);
extern void sceKernelUnregisterSysEventHandler (int arg1);
/*
* Imports from library: KDebugForKernel
*/
extern int KDebugForKernel_BB74144A ();
/*
* Imports from library: InterruptManagerForKernel
*/
extern int sceKernelCpuSuspendIntr ();
extern void sceKernelCpuResumeIntr (int arg1);
extern void InterruptManagerForKernel_668A0FF9 (int arg1, int arg2);
extern void InterruptManagerForKernel_CFFA1857 (int arg1, int arg2, int arg3, int arg4);
extern void sceKernelReleaseSubIntrHandler (int arg1, int arg2);
extern void sceKernelEnableSubIntr (int arg1, int arg2);
/*
* Imports from library: SysclibForKernel
*/
extern void memset (int arg1, int arg2, int arg3);
/*
* Imports from library: ThreadManForKernel
*/
extern void sceKernelSetEventFlag (int arg1, int arg2);
extern int sceKernelGetSystemTimeLow ();
extern int sceKernelWaitEventFlag (int arg1, int arg2, int arg3, int arg4, int arg5);
extern int sceKernelCreateEventFlag (int arg1, int arg2, int arg3, int arg4);
extern void sceKernelSetAlarm (int arg1, int arg2, int arg3);
extern void sceKernelClearEventFlag (int arg1, int arg2);
extern void sceKernelDeleteEventFlag (int arg1);
/*
* Imports from library: SysTimerForKernel
*/
extern void SysTimerForKernel_1013EB8B (int arg1);
extern int SysTimerForKernel_1E99FA82 ();
extern void SysTimerForKernel_62AB11D2 (int arg1);
extern void SysTimerForKernel_D9A211BC (int arg1);
extern void SysTimerForKernel_E0331FB2 (int arg1, int arg2, int arg3);
extern void SysTimerForKernel_F5A719D1 (int arg1, int arg2, int arg3, int arg4);
/*
* Imports from library: sceDisplay_driver
*/
extern void sceDisplay_driver_63CA4B93 ();
/*
* Imports from library: sceSyscon_driver
*/
extern int sceSysconCmdExecAsync (int arg1, int arg2, int arg3, int arg4);
extern void sceSyscon_driver_90D2024A (int arg1);
/**
* Subroutine at address 0x00000000
*/
void sceCtrl_driver_45F1294D ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[1] = s1;
memset (0x00001F00, 0x00000000, 0x00000AA8);
*((int *) 0x00001F14) = 0x00000001;
*((char *) 0x00002931) = 0xFFFFFF80;
*((char *) 0x00002930) = 0xFFFFFF80;
*((int *) 0x00001F18) = 0xFFFFFFFF;
var5 = sceKernelCreateEventFlag ("SceCtrl", 0x00000001, 0x00000000, 0x00000000);
*((int *) 0x00001F04) = var5;
var8 = SysTimerForKernel_1E99FA82 ();
var9 = var8;
if (!(var8 < 0))
{
*((int *) 0x00001F00) = var8;
SysTimerForKernel_E0331FB2 (var8, 0x00000001, 0x00000030);
*((char *) 0x00001F0F) = 0xFFFFFFFF;
sceKernelRegisterSysEventHandler (0x00001EC0);
sceSyscon_driver_90D2024A (0x00000000);
*((int *) 0x00002964) = 0x00000081;
*((int *) 0x00002944) = 0x0002F3F9;
*((int *) 0x0000294C) = 0x01FFF3F9;
*((int *) 0x00002950) = 0x39FFF3F9;
*((int *) 0x00002954) = 0x38F1F3F9;
*((int *) 0x00002958) = 0x390E0000;
*((int *) 0x00002960) = 0x00000081;
*((int *) 0x00002948) = 0x00000000;
*((int *) 0x0000295C) = 0x00000000;
InterruptManagerForKernel_CFFA1857 (0x0000001E, 0x00000013, 0x00000330, 0x00000000);
sceKernelEnableSubIntr (0x0000001E, 0x00000013);
var22 = KDebugForKernel_BB74144A ();
if (var22 == 0x00000000)
{
label26:
var9 = 0x00000000;
}
else
{
var23 = ((int *) var22)[0];
if (!(var23 == 0x00000030))
goto label26;
var27 = ((int *) var22)[11];
var30 var31 = (*var27) (0x00001E98);
var9 = 0x00000000;
}
}
ra = ((int *) sp)[3];
var24 = ((int *) sp)[2];
var25 = ((int *) sp)[1];
var26 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000160
*/
void sceCtrl_driver_A6CF75FE ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
sceKernelUnregisterSysEventHandler (0x00001EC0);
sceSyscon_driver_90D2024A (0x00000001);
sceDisplay_driver_63CA4B93 ();
var7 = *((int *) 0x00001F00);
*((int *) 0x00001F00) = 0xFFFFFFFF;
if (!(var7 < 0))
{
SysTimerForKernel_62AB11D2 (var7);
SysTimerForKernel_1013EB8B (var7);
}
sceKernelReleaseSubIntrHandler (0x0000001E, 0x00000013);
var14 = *((int *) 0x00001F04);
sceKernelDeleteEventFlag (var14);
var17 = *((int *) 0x00001F10);
if (!(var17 == 0x00000000))
{
while (1) {
sceDisplay_driver_63CA4B93 ();
var20 = *((int *) 0x00001F10);
if (var20 != 0x00000000)
continue;
break;
}
}
ra = ((int *) sp)[2];
var21 = ((int *) sp)[1];
var22 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000200
*/
void sub_00200 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
if (arg1 == 0x00000402)
{
var21 = *((int *) 0x00001F10);
if (var21 == 0x00000000)
{
label29:
ra = ((int *) sp)[2];
}
else
{
var22 = *((int *) 0x00001F18);
var1 = 0x80000021;
if (var22 == 0x00000000)
{
label28:
goto label29;
}
else
{
ra = ((int *) sp)[2];
}
}
}
else
{
if (((arg1 < 0x00000403)) == 0x00000000)
{
if (arg1 == 0x0000400C)
{
var15 = *((int *) 0x00001F08);
if (var15 != 0x00000000)
{
var18 = *((int *) 0x00001F00);
SysTimerForKernel_62AB11D2 (var18);
}
else
{
InterruptManagerForKernel_668A0FF9 (0x0000001E, 0x00000013);
}
}
else
{
if (!(arg1 != 0x0001000C))
{
var5 = *((int *) 0x00001F08);
*((char *) 0x00001F0F) = 0xFFFFFFFF;
if (var5 != 0x00000000)
{
var8 = *((int *) 0x00001F00);
SysTimerForKernel_D9A211BC (var8);
var11 = *((int *) 0x00001F08);
var12 = *((int *) 0x00001F00);
SysTimerForKernel_F5A719D1 (var12, var11, 0x000003F0, 0x00000000);
}
else
{
sceKernelEnableSubIntr (0x0000001E, 0x00000013);
}
*((int *) 0x00001F18) = 0xFFFFFFFF;
goto label28;
}
}
}
else
{
if (arg1 == 0x00000400)
{
var4 = *((int *) 0x00001F1C);
*((int *) 0x00001F18) = var4;
}
goto label28;
}
goto label29;
}
var2 = ((int *) sp)[1];
var3 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000330
*/
void sub_00330 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0x00001F08);
if (!(var4 != 0x00000000))
{
var5 = *((unsigned char *) 0x00001F10);
if (var5 != 0x00000000)
{
label15:
sceKernelSetAlarm (0x000002BC, 0x00001690, 0x00000000);
}
else
{
var6 = *((int *) 0x00001F14);
if (!(var6 != 0x00000000))
goto label15;
var13 = *((unsigned short *) 0x00001F0C);
*((char *) 0x00001F10) = 0x00000001;
var14 = 0x00000007;
if (!(var13 == 0x00000000))
{
var14 = 0x00000008;
}
*((char *) 0x00001F2C) = var14;
*((char *) 0x00001F2D) = 0x00000002;
var17 = sceSysconCmdExecAsync (0x00001F20, 0x00000001, 0x000004B0, 0x00000000);
if (var17 < 0)
{
*((char *) 0x00001F10) = 0x00000000;
}
else
{
}
}
}
sceKernelCpuResumeIntr (var3);
ra = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000003F0
*/
void sub_003F0 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0x00001F08);
if (!(var4 == 0x00000000))
{
var5 = *((unsigned char *) 0x00001F10);
if (var5 != 0x00000000)
{
label15:
sceKernelSetAlarm (0x000002BC, 0x00001690, 0x00000000);
}
else
{
var6 = *((int *) 0x00001F14);
if (!(var6 != 0x00000000))
goto label15;
var13 = *((unsigned short *) 0x00001F0C);
*((char *) 0x00001F10) = 0x00000001;
var14 = 0x00000007;
if (!(var13 == 0x00000000))
{
var14 = 0x00000008;
}
*((char *) 0x00001F2C) = var14;
*((char *) 0x00001F2D) = 0x00000002;
var17 = sceSysconCmdExecAsync (0x00001F20, 0x00000001, 0x000004B0, 0x00000000);
if (var17 < 0)
{
*((char *) 0x00001F10) = 0x00000000;
}
else
{
}
}
}
sceKernelCpuResumeIntr (var3);
ra = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000004B0
*/
void sub_004B0 (int arg1)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
var1 = arg1;
((int *) sp)[1] = s1;
((int *) sp)[7] = ra;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var2 = *((int *) 0x00001F18);
*((char *) 0x00001F10) = 0x00000000;
if (!(var2 <= 0))
{
var2 = var2 + 0xFFFFFFFF;
*((int *) 0x00001F18) = var2;
}
if (var2 == 0x00000000)
{
var67 = sceKernelCpuSuspendIntr ();
var68 = *((int *) 0x00001F18);
if (var68 != 0x00000000)
{
var70 = *((int *) 0x00002920);
}
else
{
var69 = *((int *) 0x00002920);
var70 = var69 & 0xFFFF0C06;
}
var71 = *((unsigned char *) 0x00002930);
var72 = *((unsigned char *) 0x00002931);
sub_00880 (var70, var71, var72);
var75 = *((int *) 0x00001F04);
sceKernelSetEventFlag (var75, 0x00000001);
sceKernelCpuResumeIntr (var67);
ra = ((int *) sp)[7];
}
else
{
var3 = ((unsigned char *) var1)[12];
var4 = *((int *) 0x00002920);
if (((((var3 ^ 0x00000002) < 0x00000001)) | (((var3 ^ 0x00000006) < 0x00000001))) == 0x00000000)
{
var7 = var4;
if (!((((var3 + 0xFFFFFFF9) < 0x00000002)) == 0x00000000))
{
var61 = ((unsigned char *) var1)[34];
var62 = ((unsigned char *) var1)[33];
var63 = ((unsigned char *) var1)[32];
var64 = ((unsigned char *) var1)[31];
var7 = ((((((((var61 & 0x00000003) << 0x0000001C) | ((var62 & 0x000000BF) << 0x00000014)) | ((var63 & 0x000000F0) << 0x0000000C)) | ((var64 & 0x000000F0) << 0x00000008)) | ((var63 & 0x00000006) << 0x00000007)) | ((var64 & 0x0000000F) << 0x00000004)) | (var63 & 0x00000009)) ^ 0x20F7F3F9;
}
}
else
{
var5 = ((unsigned char *) var1)[32];
var6 = ((unsigned char *) var1)[31];
var7 = (((((((var5 & 0x000000F0) << 0x0000000C) | ((var6 & 0x000000F0) << 0x00000008)) | ((var5 & 0x00000006) << 0x00000007)) | ((var6 & 0x0000000F) << 0x00000004)) | (var5 & 0x00000009)) ^ 0x0007F3F9) | ((var4 & 0xFFF00000) | (0x00000000 & 0x000FFFFF));
}
*((int *) 0x00002920) = var7;
if (var3 == 0x00000003)
{
var8 = ((unsigned char *) var1)[32];
var9 = ((unsigned char *) var1)[31];
}
else
{
if (var3 == 0x00000006)
{
var8 = ((unsigned char *) var1)[34];
var9 = ((unsigned char *) var1)[33];
}
else
{
if (var3 == 0x00000008)
{
var8 = ((unsigned char *) var1)[36];
var9 = ((unsigned char *) var1)[35];
}
else
{
var8 = *((unsigned char *) 0x00002931);
var9 = *((unsigned char *) 0x00002930);
}
}
}
*((char *) 0x00002930) = var9;
*((char *) 0x00002931) = var8;
sub_00880 (var7, var9, var8);
if ((var7 & 0x00020000) == 0x00000000)
{
var12 = *((int *) 0x00002950);
var13 = *((int *) 0x00002954);
var14 = *((int *) 0x00002960);
}
else
{
var12 = *((int *) 0x00002958);
var13 = *((int *) 0x0000295C);
var14 = *((int *) 0x00002964);
}
var15 = *((int *) 0x0000294C);
var16 = (((var7 ^ var4) & var12) | (var7 & var13)) & var15;
if (var16 != 0x00000000)
{
label40:
sceKernelPowerTick (0x00000000);
}
else
{
var17 = *((unsigned char *) 0x00001F0C);
var18 = var9 + 0xFFFFFF80;
if (!(var17 == 0x00000000))
{
var19 = var8 + 0xFFFFFF80;
var20 = (MAX (var18, (0x00000000 - var18))) & 0x000000FF;
var21 = (MAX (var19, (0x00000000 - var19))) & 0x000000FF;
if ((((!((var20 ^ 0x0000007F)) ? 0x00000080 : var20) < var14)) == 0x00000000)
{
label38:
var16 = 0x00000001;
}
else
{
if (!((((!((var21 ^ 0x0000007F)) ? 0x00000080 : var21) < var14)) != 0x00000000))
goto label38;
}
}
if (!(var16 == 0x00000000))
goto label40;
}
var24 = gp;
var25 = *((int *) 0x0000293C);
var26 = *((int *) 0x00002924);
var27 = 0x00001F00;
var28 = var7 | var25;
*((int *) 0x00002924) = var28;
var29 = 0x00000003;
while (1) {
var30 = ((int *) var27)[666];
var31 = (var28 ^ var26) & var30;
if (var31 == 0x00000000)
{
var29 = var29 + 0xFFFFFFFF;
}
else
{
var32 = ((int *) var27)[667];
if (var32 != 0x00000000)
{
var53 = ((int *) var27)[668];
var54 = gp;
gp = var53;
var55 = ((int *) var27)[667];
var56 = ((int *) var27)[669];
var59 var60 = (*var55) (var28, var26, var56, 0x00001F00, var31, var30, var32, var55);
var29 = var29 + 0xFFFFFFFF;
}
else
{
var29 = var29 + 0xFFFFFFFF;
}
}
var27 = var27 + 0x00000010;
if (var29 >= 0)
continue;
break;
}
var33 = gp;
gp = var24;
var34 = *((unsigned short *) 0x00001F0C);
var35 = *((unsigned char *) 0x00001F0E);
var36 = *((unsigned char *) 0x00001F0F);
var37 = (0x00000000 < var34);
var38 = (var35) ? (var37 | 0x00000002) : var37;
if (var38 == var36)
{
}
else
{
var39 = *((unsigned char *) 0x00001F11);
if (var39 == 0x00000000)
{
*((char *) 0x00001F11) = 0x00000001;
*((char *) 0x00001F8C) = 0x00000033;
*((char *) 0x00001F8D) = 0x00000003;
*((char *) 0x00001F8E) = var38;
var52 = sceSysconCmdExecAsync (0x00001F80, 0x00000000, 0x0000170C, 0x00000000);
if (var52 < 0)
{
*((char *) 0x00001F11) = 0x00000000;
label60:
}
else
{
}
}
else
goto label60;
}
var40 = *((int *) 0x00001F04);
sceKernelSetEventFlag (var40, 0x00000001);
ra = ((int *) sp)[7];
}
var43 = ((int *) sp)[6];
var44 = ((int *) sp)[5];
var45 = ((int *) sp)[4];
var46 = ((int *) sp)[3];
var47 = ((int *) sp)[2];
var48 = ((int *) sp)[1];
var49 = ((int *) sp)[0];
sp = sp + 0x00000020;
return;
}
/**
* Subroutine at address 0x00000880
*/
void sub_00880 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
var1 = arg1;
((int *) sp)[1] = s1;
var2 = arg3 & 0x000000FF;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
var3 = arg2 & 0x000000FF;
var6 = sceKernelGetSystemTimeLow ();
var7 = *((int *) 0x00001FF8);
var8 = *((int *) 0x00002418);
var9 = *((int *) 0x00001FF4);
var10 = var7 + 0x00000001;
var11 = var10 - (((var10 + ((var10 >> 0x0000001F) >> 0x0000001A)) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F));
var12 = var6;
var13 = (var7 << 0x00000004) + 0x00002000;
var14 = (var8 << 0x00000004) + 0x00002420;
*((int *) 0x00001FF8) = var11;
if (var11 == var9)
{
var65 = var11 + 0x00000001;
*((int *) 0x00001FF4) = (var65 - (((var65 + ((var65 >> 0x0000001F) >> 0x0000001A)) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F)));
}
var15 = var8 + 0x00000001;
var16 = *((int *) 0x00002414);
var17 = var15 - (((var15 + ((var15 >> 0x0000001F) >> 0x0000001A)) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F));
*((int *) 0x00002418) = var17;
if (var17 == var16)
{
var64 = var17 + 0x00000001;
*((int *) 0x00002414) = (var64 - (((var64 + ((var64 >> 0x0000001F) >> 0x0000001A)) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F)));
}
((int *) var13)[0] = var12;
((int *) var14)[0] = var12;
var18 = *((int *) 0x00002934);
if (!(var18 <= 0))
{
*((int *) 0x00002934) = (var18 + 0xFFFFFFFF);
var3 = *((unsigned char *) 0x00002932);
var2 = *((unsigned char *) 0x00002933);
}
((char *) var13)[8] = var3;
((char *) var13)[9] = var2;
((char *) var14)[8] = var3;
((char *) var14)[9] = var2;
var19 = *((unsigned char *) 0x00001F0C);
if (var19 != 0x00000000)
{
var20 = *((unsigned char *) 0x00001F0D);
}
else
{
((char *) var13)[9] = 0xFFFFFF80;
((char *) var13)[8] = 0xFFFFFF80;
var20 = *((unsigned char *) 0x00001F0D);
}
if (!(var20 != 0x00000000))
{
((char *) var14)[9] = 0xFFFFFF80;
((char *) var14)[8] = 0xFFFFFF80;
}
((short *) var13)[5] = 0x00000000;
var21 = var1;
((short *) var13)[6] = 0x00000000;
((short *) var13)[7] = 0x00000000;
((short *) var14)[5] = 0x00000000;
((short *) var14)[6] = 0x00000000;
((short *) var14)[7] = 0x00000000;
if (!((var1 & 0x00020000) == 0x00000000))
{
var21 = var1 & 0x030E0000;
}
var22 = *((int *) 0x0000293C);
var23 = var21 | var22;
((int *) var14)[1] = var23;
var24 = !var23;
var25 = *((int *) 0x0000292C);
var26 = *((int *) 0x00002408);
var27 = *((int *) 0x00002944);
var28 = *((int *) 0x0000240C);
var29 = *((int *) 0x00002400);
var30 = *((int *) 0x00002404);
var31 = *((int *) 0x00002410);
var32 = var25 ^ var23;
var33 = var1 & var27;
*((int *) 0x0000292C) = var23;
*((int *) 0x00002408) = (var26 | var23);
*((int *) 0x0000240C) = (var28 | var24);
*((int *) 0x00002400) = (var29 | (var32 & var23));
*((int *) 0x00002404) = (var30 | (var32 & var24));
*((int *) 0x00002410) = (var31 + 0x00000001);
if (!((var33 & 0x00020000) == 0x00000000))
{
var33 = var33 & 0x00030000;
}
var34 = *((int *) 0x00002938);
var35 = *((int *) 0x00002940);
var36 = var33 | var34;
if (!(var35 <= 0))
{
var37 = var35 + 0xFFFFFFFF;
*((int *) 0x00002940) = var37;
if (!(var37 != 0x00000000))
{
*((int *) 0x0000293C) = 0x00000000;
*((int *) 0x00002938) = 0x00000000;
}
}
var38 = 0x00002910;
var39 = 0x0000000F;
while (1) {
var40 = ((int *) var38)[0];
if (var40 == 0x00000000)
{
var39 = var39 + 0xFFFFFFFF;
}
else
{
var41 = ((int *) var38)[1];
if ((var36 & var40) == var41)
{
var57 = ((unsigned char *) var38)[12];
var58 = var57 >> 0x00000006;
var59 = ((var57 & 0x0000003F) + 0xFFFFFFFF) & 0x000000FF;
if (var58 != 0x00000000)
{
if (var58 == 0x00000002)
{
var63 = ((int *) var38)[2];
var36 = var36 | var63;
}
else
{
var62 = ((int *) var38)[2];
var36 = var36 & (!var62);
}
var61 = var58 << 0x00000006;
if (!(var59 != 0x00000000))
{
var60 = var58 ^ 0x00000001;
var59 = ((unsigned char *) (var38 + (var60 & 0x00000001)))[13];
label35:
var61 = var60 << 0x00000006;
}
}
else
{
var59 = ((unsigned char *) var38)[15];
var60 = 0x00000002;
goto label35;
}
((char *) var38)[12] = (var61 | var59);
}
else
{
((char *) var38)[12] = 0x00000000;
}
var39 = var39 + 0xFFFFFFFF;
}
var38 = var38 + 0xFFFFFFF0;
if (var39 >= 0)
continue;
break;
}
var42 = *((int *) 0x00002944);
var43 = *((int *) 0x00002948);
var44 = *((int *) 0x00002938);
var45 = (var36 & var42) | var43;
if (var44 == 0x00000000)
{
label43:
}
else
{
if (!((var45 & 0x00020000) == 0x00000000))
{
var45 = ((var45 & 0x0002F3F9)) ? ((var45 & 0xFFFDFFFF) | (0x00000000 & 0x00000001)) : var45;
goto label43;
}
}
if ((var45 & 0x00020000) == 0x00000000)
{
((int *) var13)[1] = var45;
}
else
{
var45 = var45 & 0x00030000;
((int *) var13)[1] = var45;
}
var46 = !var45;
var47 = *((int *) 0x00002928);
var48 = *((int *) 0x00001FE0);
var49 = *((int *) 0x00001FF0);
var50 = var47 ^ var45;
var51 = *((int *) 0x00001FE8);
var52 = *((int *) 0x00001FEC);
var53 = *((int *) 0x00001FE4);
ra = ((int *) sp)[3];
var54 = ((int *) sp)[2];
var55 = ((int *) sp)[1];
var56 = ((int *) sp)[0];
*((int *) 0x00001FF0) = (var49 + 0x00000001);
*((int *) 0x00001FE8) = (var51 | var45);
*((int *) 0x00001FEC) = (var52 | var46);
*((int *) 0x00001FE0) = (var48 | (var50 & var45));
*((int *) 0x00001FE4) = (var53 | (var50 & var46));
*((int *) 0x00002928) = var45;
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000BFC
*/
void sceCtrl_driver_87B0677D (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0x80000107;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = k1;
k1 = k1 >> 0x00000010;
var6 = k1 & 0x00000018;
var7 = ((var6 < 0x00000001)) + 0x00001F00;
var1 = ((unsigned char *) var7)[12];
((char *) var7)[12] = arg1;
k1 = var5;
sceKernelCpuResumeIntr (var4);
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000C70
*/
void sceCtrl_driver_6D4BEA72 (int arg1)
{
var1 = arg1;
var2 = k1;
k1 = k1 >> 0x00000010;
var3 = k1 & 0x00000018;
if (!(((0x00000000 - var3) & var1) < 0))
{
var4 = k1 & 0x00000018;
var5 = ((unsigned char *) (((var4 < 0x00000001)) + 0x00001F00))[12];
((int *) var1)[0] = var5;
}
k1 = var2;
return;
}
/**
* Subroutine at address 0x00000CB8
*/
void sceCtrl_driver_8AAECD34 (int arg1)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[5] = ra;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var2 = k1;
k1 = k1 >> 0x00000010;
var5 = sceKernelCpuSuspendIntr ();
if (var1 == 0x00000000)
{
var6 = *((int *) 0x00001F08);
*((int *) 0x00001F08) = 0x00000000;
sceKernelEnableSubIntr (0x0000001E, 0x00000013);
var27 = *((int *) 0x00001F00);
SysTimerForKernel_F5A719D1 (var27, 0x00000000, 0x00000000, 0x00000000);
var30 = *((int *) 0x00001F00);
SysTimerForKernel_62AB11D2 (var30);
}
else
{
var6 = 0x800001FE;
if (!(((var1 < 0x000015B3)) != 0x00000000))
{
var6 = 0x800001FE;
if (((var1 < 0x00004E21)) != 0x00000000)
{
var14 = *((int *) 0x00001F00);
var6 = *((int *) 0x00001F08);
*((int *) 0x00001F08) = var1;
SysTimerForKernel_D9A211BC (var14);
var19 = SysMemForKernel_2CFF6F90 ();
var20 = *((int *) 0x00001F00);
SysTimerForKernel_F5A719D1 (var20, (var1 + ((((0x0204FFFF < var19)) < 0x00000001))), 0x000003F0, 0x00000000);
InterruptManagerForKernel_668A0FF9 (0x0000001E, 0x00000013);
}
}
}
sceKernelCpuResumeIntr (var5);
k1 = var2;
ra = ((int *) sp)[5];
var9 = ((int *) sp)[4];
var10 = ((int *) sp)[3];
var11 = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x00000020;
return;
}
/**
* Subroutine at address 0x00000DDC
*/
void sceCtrl_driver_655A18BE (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var2 = k1;
k1 = k1 >> 0x00000010;
var5 = sceKernelCpuSuspendIntr ();
var6 = k1 & 0x00000018;
if (((0x00000000 - var6) & var1) < 0)
{
sceKernelCpuResumeIntr (var5);
k1 = var2;
}
else
{
var7 = k1 & 0x00000018;
if (var7 == 0x00000000)
{
var8 = *((int *) 0x00002400);
var9 = 0x00002400;
}
else
{
var8 = *((int *) 0x00001FE0);
var9 = 0x00001FE0;
}
((int *) var1)[0] = var8;
var10 = ((int *) var9)[1];
((int *) var1)[1] = var10;
var11 = ((int *) var9)[2];
((int *) var1)[2] = var11;
var12 = ((int *) var9)[3];
((int *) var1)[3] = var12;
var13 = ((int *) var9)[4];
sceKernelCpuResumeIntr (var5);
k1 = var2;
}
ra = ((int *) sp)[2];
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000E98
*/
void sceCtrl_driver_5068A531 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var2 = k1;
k1 = k1 >> 0x00000010;
var5 = sceKernelCpuSuspendIntr ();
var6 = k1 & 0x00000018;
if (((0x00000000 - var6) & var1) < 0)
{
sceKernelCpuResumeIntr (var5);
k1 = var2;
}
else
{
var7 = k1 & 0x00000018;
if (var7 == 0x00000000)
{
var17 = *((int *) 0x00002400);
((int *) var1)[0] = var17;
var18 = *((int *) 0x00002404);
((int *) var1)[1] = var18;
var19 = *((int *) 0x00002408);
((int *) var1)[2] = var19;
var20 = *((int *) 0x0000240C);
((int *) var1)[3] = var20;
*((int *) 0x00002400) = 0x00000000;
*((int *) 0x00002404) = 0x00000000;
*((int *) 0x00002408) = 0x00000000;
*((int *) 0x0000240C) = 0x00000000;
var12 = *((int *) 0x00002410);
*((int *) 0x00002410) = 0x00000000;
}
else
{
var8 = *((int *) 0x00001FE0);
((int *) var1)[0] = var8;
var9 = *((int *) 0x00001FE4);
((int *) var1)[1] = var9;
var10 = *((int *) 0x00001FE8);
((int *) var1)[2] = var10;
var11 = *((int *) 0x00001FEC);
((int *) var1)[3] = var11;
var12 = *((int *) 0x00001FF0);
*((int *) 0x00001FE0) = 0x00000000;
*((int *) 0x00001FF0) = 0x00000000;
*((int *) 0x00001FE4) = 0x00000000;
*((int *) 0x00001FE8) = 0x00000000;
*((int *) 0x00001FEC) = 0x00000000;
}
sceKernelCpuResumeIntr (var5);
k1 = var2;
}
ra = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000FA4
*/
void sceCtrl_driver_67B648BD (int arg1, int arg2, int arg3, int arg4)
{
if (!(arg1 == 0x00000000))
{
var1 = *((int *) 0x00002950);
((int *) arg1)[0] = var1;
}
if (!(arg2 == 0x00000000))
{
var2 = *((int *) 0x00002954);
((int *) arg2)[0] = var2;
}
if (!(arg3 == 0x00000000))
{
var3 = *((int *) 0x00002958);
((int *) arg3)[0] = var3;
}
if (!(arg4 == 0x00000000))
{
var4 = *((int *) 0x0000295C);
((int *) arg4)[0] = var4;
}
return;
}
/**
* Subroutine at address 0x00000FEC
*/
void sceCtrl_driver_03A81798 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
var2 = arg2;
var3 = 0x800001FE;
((int *) sp)[2] = ra;
if (!((((((arg1 + 0x00000001) < 0x00000082)) ^ 0x00000001) | ((arg2 < 0xFFFFFFFF))) != 0x00000000))
{
if (!(((var2 < 0x00000081)) == 0x00000000))
{
var6 = sceKernelCpuSuspendIntr ();
*((int *) 0x00002964) = (!((!var2)) ? 0x00000081 : var2);
*((int *) 0x00002960) = (!((!var1)) ? 0x00000081 : var1);
sceKernelCpuResumeIntr (var6);
var3 = 0x00000000;
}
}
ra = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00001078
*/
void sceCtrl_driver_E3F78BF9 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
var1 = arg2;
((int *) sp)[0] = s0;
var2 = arg1;
((int *) sp)[3] = ra;
((int *) sp)[1] = s1;
var3 = k1;
k1 = k1 >> 0x00000010;
var4 = k1 & 0x00000018;
if (((0x00000000 - var4) & var2) < 0)
{
label17:
k1 = var3;
}
else
{
var5 = k1 & 0x00000018;
if (!(((0x00000000 - var5) & arg2) >= 0))
goto label17;
var11 = sceKernelCpuSuspendIntr ();
if (!(var2 == 0x00000000))
{
var12 = *((int *) 0x00002960);
if (var12 == 0x00000081)
{
var12 = 0xFFFFFFFF;
}
((int *) var2)[0] = var12;
}
if (!(var1 == 0x00000000))
{
var13 = *((int *) 0x00002964);
if (var13 == 0x00000081)
{
var13 = 0xFFFFFFFF;
}
((int *) var1)[0] = var13;
}
sceKernelCpuResumeIntr (var11);
k1 = var3;
}
ra = ((int *) sp)[3];
var6 = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00001140
*/
void sceCtrl_driver_C24FF87A (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
var1 = 0x00000001;
((int *) sp)[1] = s1;
var2 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
var3 = arg1;
var6 = sceKernelCpuSuspendIntr ();
var7 = *((int *) 0x00002944);
var8 = *((int *) 0x00002948);
if (!((var7 & var3) == 0x00000000))
{
var1 = !((var8 & var3)) ? 0x00000000 : 0x00000002;
}
if (var2 != 0x00000000)
{
var14 = !var3;
if (var2 == 0x00000001)
{
var8 = var8 & var14;
var7 = var7 & var14;
label14:
}
else
{
if (!(var2 != 0x00000002))
{
var8 = var8 | var3;
label13:
var7 = var7 | var3;
goto label14;
}
}
}
else
{
var8 = var8 & (!var3);
goto label13;
}
*((int *) 0x00002948) = var8;
*((int *) 0x00002944) = var7;
sceKernelCpuResumeIntr (var6);
ra = ((int *) sp)[3];
var11 = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000011F4
*/
void sceCtrl_driver_09236627 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = 0x00000001;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var2 = arg1;
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0x00002944);
var7 = *((int *) 0x00002948);
if (!((var6 & var2) == 0x00000000))
{
var1 = !((var7 & var2)) ? 0x00000000 : 0x00000002;
}
sceKernelCpuResumeIntr (var5);
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00001258
*/
void sceCtrl_driver_F83A8920 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s5;
((int *) sp)[6] = s6;
((int *) sp)[4] = s4;
((int *) sp)[7] = s7;
((int *) sp)[3] = s3;
var1 = 0x80000102;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = arg2;
((int *) sp)[8] = ra;
((int *) sp)[0] = s0;
if (!(((arg1 < 0x00000010)) == 0x00000000))
{
var1 = 0x800001FE;
if (!((((((arg5 | arg6) | arg7) + 0xFFFFFFFF) < 0x0000003F)) == 0x00000000))
{
var4 = k1;
k1 = k1 >> 0x00000010;
var5 = k1 & 0x00000018;
if (var5 == 0x00000000)
{
label7:
var8 = sceKernelCpuSuspendIntr ();
var9 = (arg1 << 0x00000004) + 0x00001F00;
var10 = var9 + 0x00000920;
((char *) var10)[13] = arg6;
((char *) var9)[2351] = arg5;
((int *) var9)[584] = var3;
((int *) var9)[585] = var2;
((int *) var9)[586] = arg4;
((char *) var9)[2350] = arg7;
((char *) var10)[12] = 0x00000000;
sceKernelCpuResumeIntr (var8);
k1 = var4;
var1 = 0x00000000;
}
else
{
if (!((((var3 | var2) | arg4) & 0xFFFF0C06) != 0x00000000))
goto label7;
k1 = var4;
var1 = 0x80000023;
}
}
}
ra = ((int *) sp)[8];
var13 = ((int *) sp)[7];
var14 = ((int *) sp)[6];
var15 = ((int *) sp)[5];
var16 = ((int *) sp)[4];
var17 = ((int *) sp)[3];
var18 = ((int *) sp)[2];
var19 = ((int *) sp)[1];
var20 = ((int *) sp)[0];
sp = sp + 0x00000030;
return;
}
/**
* Subroutine at address 0x0000137C
*/
void module_start ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceCtrl_driver_45F1294D ();
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000139C
*/
void module_reboot_before ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceCtrl_driver_A6CF75FE ();
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000013BC
*/
void sceCtrl_driver_0194C9EC ()
{
var1 = *((int *) 0x00001F08);
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (var1 != 0x00000000)
{
var4 = *((int *) 0x00001F00);
SysTimerForKernel_62AB11D2 (var4);
ra = ((int *) sp)[0];
}
else
{
InterruptManagerForKernel_668A0FF9 (0x0000001E, 0x00000013);
ra = ((int *) sp)[0];
}
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00001404
*/
void sceCtrl_driver_33893636 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = *((int *) 0x00001F08);
((int *) sp)[2] = ra;
*((char *) 0x00001F0F) = 0xFFFFFFFF;
if (var1 != 0x00000000)
{
var6 = *((int *) 0x00001F00);
SysTimerForKernel_D9A211BC (var6);
var9 = *((int *) 0x00001F00);
var10 = *((int *) 0x00001F08);
SysTimerForKernel_F5A719D1 (var9, var10, 0x000003F0, 0x00000000);
ra = ((int *) sp)[2];
}
else
{
sceKernelEnableSubIntr (0x0000001E, 0x00000013);
ra = ((int *) sp)[2];
}
var4 = ((int *) sp)[1];
var5 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000147C
*/
void sceCtrl_driver_A0390EE8 (int arg1)
{
var1 = k1;
k1 = k1 >> 0x00000010;
var2 = k1 & 0x00000018;
if (!(((0x00000000 - var2) & arg1) < 0))
{
var3 = *((int *) 0x00001F08);
((int *) arg1)[0] = var3;
}
k1 = var1;
return;
}
/**
* Subroutine at address 0x000014AC
*/
void sceCtrl_driver_6B247CCE (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sub_01730 (arg1, arg2, 0x00000000);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000014C8
*/
void sceCtrl_driver_CC2D8C39 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sub_01730 (arg1, arg2, 0x00000001);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000014E4
*/
void sceCtrl_driver_919215D7 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sub_01730 (arg1, arg2, 0x00000002);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00001500
*/
void sceCtrl_driver_F54317C4 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sub_01730 (arg1, arg2, 0x00000003);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000151C
*/
void sceCtrl_driver_0A218F56 (int arg1, int arg2, int arg3, int arg4)
{
*((int *) 0x0000295C) = arg4;
*((int *) 0x00002950) = arg1;
*((int *) 0x00002954) = arg2;
*((int *) 0x00002958) = arg3;
return;
}
/**
* Subroutine at address 0x0000153C
*/
void sceCtrl_driver_7EBC7B38 (int arg1)
{
*((int *) 0x00001F14) = arg1;
return;
}
/**
* Subroutine at address 0x0000154C
*/
void sceCtrl_driver_189BA4F3 (int arg1)
{
if (!(((arg1 < 0x0000012D)) == 0x00000000))
{
*((int *) 0x00001F1C) = (!((arg1 ^ 0x00000001)) ? 0x00000000 : arg1);
}
return;
}
/**
* Subroutine at address 0x00001578
*/
void sceCtrl_driver_46C2F764 ()
{
var1 = *((int *) 0x00001F1C);
return;
}
/**
* Subroutine at address 0x00001584
*/
void sceCtrl_driver_B5507BFA (int arg1, int arg2, int arg3)
{
*((int *) 0x00002940) = arg3;
*((int *) 0x00002938) = arg1;
*((int *) 0x0000293C) = arg2;
return;
}
/**
* Subroutine at address 0x000015A0
*/
void sceCtrl_driver_81276F4B (int arg1, int arg2, int arg3)
{
*((int *) 0x00002934) = arg3;
*((char *) 0x00002932) = arg1;
*((char *) 0x00002933) = arg2;
return;
}
/**
* Subroutine at address 0x000015BC
*/
void sceCtrl_driver_2037F8E7 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
((int *) sp)[3] = s3;
var1 = 0x80000102;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[4] = ra;
if (!(((arg1 < 0x00000004)) == 0x00000000))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = (arg1 << 0x00000004) + 0x00001F00;
((int *) var5)[666] = arg2;
((int *) var5)[667] = arg3;
var6 = gp;
((int *) var5)[669] = arg4;
((int *) var5)[668] = var6;
sceKernelCpuResumeIntr (var4);
var1 = 0x00000000;
}
ra = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x00000020;
return;
}
/**
* Subroutine at address 0x0000164C
*/
void sceCtrl_driver_2393D6F3 ()
{
*((char *) 0x00001F0E) = 0x00000001;
return;
}
/**
* Subroutine at address 0x00001660
*/
void sceCtrl_driver_F17D609C (int arg1)
{
if (!(((arg1 < 0x00000010)) == 0x00000000))
{
((int *) ((arg1 << 0x00000004) + 0x00001F00))[584] = 0x00000000;
}
return;
}
/**
* Subroutine at address 0x00001690
*/
void sub_01690 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = s1;
((int *) sp)[2] = ra;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0x00001F18);
if (var4 != 0x00000000)
{
var6 = *((int *) 0x00002920);
}
else
{
var5 = *((int *) 0x00002920);
var6 = var5 & 0xFFFF0C06;
}
var7 = *((unsigned char *) 0x00002931);
var8 = *((unsigned char *) 0x00002930);
sub_00880 (var6, var8, var7);
var11 = *((int *) 0x00001F04);
sceKernelSetEventFlag (var11, 0x00000001);
sceKernelCpuResumeIntr (var3);
ra = ((int *) sp)[2];
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000170C
*/
void sub_0170C ()
{
var1 = *((unsigned char *) 0x00001F8E);
*((char *) 0x00001F0E) = 0x00000000;
*((char *) 0x00001F0F) = (var1 & 0x00000001);
*((char *) 0x00001F11) = 0x00000000;
return;
}
/**
* Subroutine at address 0x00001730
*/
void sub_01730 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[5] = s5;
var2 = 0x80000104;
((int *) sp)[4] = s4;
var3 = arg3;
((int *) sp)[7] = ra;
((int *) sp)[6] = s6;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
if (!((((arg2 + 0xFFFFFFFF) < 0x00000040)) == 0x00000000))
{
var4 = k1;
k1 = k1 >> 0x00000010;
var5 = k1 & 0x00000018;
if (((0x00000000 - var5) & arg1) < 0)
{
k1 = var4;
var2 = 0x80000023;
}
else
{
var6 = k1 & 0x00000018;
var7 = 0x00001FE0;
if (!(var6 != 0x00000000))
{
var7 = 0x00002400;
}
if ((var3 & 0x00000002) == 0x00000000)
{
var22 = 0x00000040;
var42 = sceKernelCpuSuspendIntr ();
var43 = ((int *) var7)[6];
var16 = var42;
var20 = var43;
if (!(((var1 < 0x00000040)) == 0x00000000))
{
var23 = var43 - var1;
label22:
var20 = (((var23 < 0x00000000))) ? (var23 + 0x00000040) : var23;
var22 = var1;
}
label23:
var24 = (var7 + (var20 << 0x00000004)) + 0x00000020;
if (!(var22 <= 0))
{
var25 = arg1;
var26 = var22;
var27 = ((int *) var24)[0];
while (1) {
var20 = var20 + 0x00000001;
var26 = var26 + 0xFFFFFFFF;
((int *) var25)[0] = var27;
var28 = ((int *) var24)[1];
((int *) var25)[1] = var28;
var29 = ((int *) var24)[2];
((int *) var25)[2] = var29;
var30 = ((int *) var24)[3];
((int *) var25)[1] = (((var3 & 0x00000001)) ? (!var28) : var28);
var24 = var24 + 0x00000010;
((int *) var25)[3] = var30;
var25 = var25 + 0x00000010;
if (var20 == 0x00000040)
{
var20 = 0x00000000;
var24 = var7 + 0x00000020;
}
if (!(var26 != 0x00000000))
break;
var27 = ((int *) var24)[0];
continue;
}
}
sceKernelCpuResumeIntr (var16);
k1 = var4;
var2 = var22;
}
else
{
var8 = *((int *) 0x00001F04);
var11 = sceKernelWaitEventFlag (var8, 0x00000001, 0x00000001, 0x00000000, 0x00000000);
if (var11 < 0)
{
k1 = var4;
var2 = var11;
}
else
{
var14 = sceKernelCpuSuspendIntr ();
var15 = *((int *) 0x00001F04);
var16 = var14;
sceKernelClearEventFlag (var15, 0xFFFFFFFE);
var19 = ((int *) var7)[6];
var20 = ((int *) var7)[5];
var21 = var19 - var20;
var22 = (((var21 < 0x00000000))) ? (var21 + 0x00000040) : var21;
((int *) var7)[5] = var19;
if (!(((var1 < var22)) == 0x00000000))
{
var23 = var19 - var1;
goto label22;
}
goto label23;
}
}
}
}
ra = ((int *) sp)[7];
var33 = ((int *) sp)[6];
var34 = ((int *) sp)[5];
var35 = ((int *) sp)[4];
var36 = ((int *) sp)[3];
var37 = ((int *) sp)[2];
var38 = ((int *) sp)[1];
var39 = ((int *) sp)[0];
sp = sp + 0x00000020;
return;
}
|
0xb15c077e
|
trunk/RE/PSP/ctrl.c
|
C
|
mit
| 43,493
|
#include <pspsdk.h>
#include "amctrl.h"
/*
* Imports from library: ThreadManForKernel
*/
extern int sceKernelSignalSema (int arg1, int arg2);
extern int sceKernelWaitSema (int arg1, int arg2, int arg3);
extern int sceKernelCreateSema (int arg1, int arg2, int arg3, int arg4, int arg5);
/*
* Imports from library: semaphore
*/
extern int sceUtilsBufferCopyWithRange (int arg1, int arg2, int arg3, int arg4, int arg5);
/**
* Subroutine at address 0x00000000
*/
int sub_00000 (int arg1, int arg2, int arg3)
{
((int *) arg1)[3] = arg3;
var1 = arg2 + 0x00000014;
sp = sp + 0xFFFFFFF0;
((int *) arg1)[0] = 0x00000004;
((int *) arg1)[1] = 0x00000000;
((int *) arg1)[2] = 0x00000000;
((int *) arg1)[4] = arg2;
((int *) sp)[0] = ra;
var4 = sceUtilsBufferCopyWithRange (arg1, var1, arg1, var1, 0x00000004);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return (!(var4) ? 0x00000000 : 0x80510311);
}
/**
* Subroutine at address 0x00000054
*/
int sub_00054 (int arg1, int arg2, int arg3)
{
((int *) arg1)[3] = arg3;
var1 = arg2 + 0x00000014;
sp = sp + 0xFFFFFFF0;
((int *) arg1)[0] = 0x00000005;
((int *) arg1)[1] = 0x00000000;
((int *) arg1)[2] = 0x00000000;
((int *) arg1)[4] = arg2;
((int *) sp)[0] = ra;
var4 = sceUtilsBufferCopyWithRange (arg1, var1, arg1, var1, 0x00000007);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return (!(var4) ? 0x00000000 : 0x80510311);
}
/**
* Subroutine at address 0x000000A8
*/
int sub_000A8 (int arg1, int arg2)
{
((int *) arg1)[0] = 0x00000004;
var1 = arg2 + 0x00000014;
((int *) arg1)[3] = 0x00000100;
sp = sp + 0xFFFFFFF0;
((int *) arg1)[1] = 0x00000000;
((int *) arg1)[2] = 0x00000000;
((int *) arg1)[4] = arg2;
((int *) sp)[0] = ra;
var4 = sceUtilsBufferCopyWithRange (arg1, var1, arg1, var1, 0x00000005);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return (!(var4) ? 0x00000000 : 0x80510312);
}
/**
* Subroutine at address 0x00000100
*/
int sub_00100 (int arg1, int arg2)
{
((int *) arg1)[0] = 0x00000005;
var1 = arg2 + 0x00000014;
((int *) arg1)[3] = 0x00000100;
sp = sp + 0xFFFFFFF0;
((int *) arg1)[1] = 0x00000000;
((int *) arg1)[2] = 0x00000000;
((int *) arg1)[4] = arg2;
((int *) sp)[0] = ra;
var4 = sceUtilsBufferCopyWithRange (arg1, var1, arg1, var1, 0x00000008);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return (!(var4) ? 0x00000000 : 0x80510312);
}
/**
* Subroutine at address 0x00000158
*/
int sub_00158 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[3] = ra;
var1 = 0x00000000;
((int *) sp)[2] = s2;
var2 = arg2;
((int *) sp)[1] = s1;
var3 = arg3;
((int *) sp)[0] = s0;
var4 = arg1;
while (1) {
var5 = var4 + var1;
var6 = ((unsigned char *) (var3 + var1))[0];
var7 = ((unsigned char *) var5)[20];
var1 = var1 + 0x00000001;
((char *) var5)[20] = (var7 ^ var6);
if (((var1 < 0x00000010)) != 0x00000000)
continue;
break;
}
var10 = sub_00000 (var4, var2, arg4);
ra = ((int *) sp)[3];
if (!(var10 != 0x00000000))
{
var11 = 0x00000000;
while (1) {
var12 = ((unsigned char *) ((var4 + var2) + var11))[4];
var11 = var11 + 0x00000001;
((char *) (var3 + var11))[0] = var12;
if (((var11 < 0x00000010)) != 0x00000000)
continue;
break;
}
var10 = 0x00000000;
ra = ((int *) sp)[3];
}
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var10;
}
/**
* Subroutine at address 0x000001F8
*/
int sub_001F8 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = ra;
var1 = 0x00000000;
((int *) sp)[5] = s1;
var2 = arg3;
((int *) sp)[4] = s0;
var3 = arg1;
while (1) {
var4 = ((unsigned char *) ((arg1 + arg2) + var1))[4];
var5 = sp + var1;
var1 = var1 + 0x00000001;
((char *) var5)[0] = var4;
if (((var1 < 0x00000010)) != 0x00000000)
continue;
break;
}
var8 = sub_00054 (var3, arg2, arg4);
ra = ((int *) sp)[6];
if (!(var8 != 0x00000000))
{
var9 = 0x00000000;
while (1) {
var10 = var3 + var9;
var11 = ((unsigned char *) (var2 + var9))[0];
var12 = ((unsigned char *) var10)[0];
var9 = var9 + 0x00000001;
((char *) var10)[0] = (var12 ^ var11);
if (((var9 < 0x00000010)) != 0x00000000)
continue;
break;
}
var13 = 0x00000000;
while (1) {
var14 = sp + var13;
var15 = ((unsigned char *) var14)[0];
var13 = var13 + 0x00000001;
((char *) (var2 + var13))[0] = var15;
if (((var13 < 0x00000010)) != 0x00000000)
continue;
break;
}
var8 = 0x00000000;
ra = ((int *) sp)[6];
}
var16 = ((int *) sp)[5];
var17 = ((int *) sp)[4];
sp = sp + 0x00000020;
return var8;
}
/**
* Subroutine at address 0x000003F0
*/
int sub_003F0 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceUtilsBufferCopyWithRange (arg1, 0x00000014, 0x00000000, 0x00000000, 0x0000000E);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return (!(var3) ? 0x00000000 : 0x80510315);
}
/**
* Subroutine at address 0x00000428
*/
int sub_00428 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6)
{
sp = sp + 0xFFFFFFC0;
((int *) sp)[12] = ra;
((int *) sp)[11] = s3;
var1 = 0x00000000;
((int *) sp)[10] = s2;
var2 = arg3;
((int *) sp)[9] = s1;
var3 = arg5;
((int *) sp)[8] = s0;
var4 = arg1;
while (1) {
var5 = ((unsigned char *) (arg4 + var1))[0];
var1 = var1 + 0x00000001;
((char *) (var4 + var1))[20] = var5;
if (((var1 < 0x00000010)) != 0x00000000)
continue;
break;
}
var6 = 0x00000000;
if (arg6 == 0x00000002)
{
while (1) {
var52 = var4 + var6;
var53 = ((unsigned char *) (var6 + 0x0000151C))[0];
var54 = ((unsigned char *) var52)[20];
var6 = var6 + 0x00000001;
((char *) var52)[20] = (var54 ^ var53);
if (((var6 < 0x00000010)) != 0x00000000)
continue;
break;
}
var57 = sub_00100 (var4, 0x00000010);
var13 = var57;
var58 = 0x00000000;
while (1) {
var59 = var4 + var58;
var60 = ((unsigned char *) (var58 + 0x0000150C))[0];
var61 = ((unsigned char *) var59)[0];
var58 = var58 + 0x00000001;
((char *) var59)[0] = (var61 ^ var60);
if (((var58 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
else
{
while (1) {
var7 = var4 + var6;
var8 = ((unsigned char *) (var6 + 0x0000151C))[0];
var9 = ((unsigned char *) var7)[20];
var6 = var6 + 0x00000001;
((char *) var7)[20] = (var9 ^ var8);
if (((var6 < 0x00000010)) != 0x00000000)
continue;
break;
}
var12 = sub_00054 (var4, 0x00000010, 0x00000039);
var13 = var12;
var14 = 0x00000000;
while (1) {
var15 = var4 + var14;
var16 = ((unsigned char *) (var14 + 0x0000150C))[0];
var17 = ((unsigned char *) var15)[0];
var14 = var14 + 0x00000001;
((char *) var15)[0] = (var17 ^ var16);
if (((var14 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
ra = ((int *) sp)[12];
if (!(var13 != 0x00000000))
{
var18 = 0x00000000;
var19 = sp + 0x00000010;
while (1) {
var20 = ((unsigned char *) (var4 + var18))[0];
var18 = var18 + 0x00000001;
((char *) (var19 + var18))[0] = var20;
if (((var18 < 0x00000010)) != 0x00000000)
continue;
break;
}
var21 = ((int *) var3)[0];
var22 = 0x00000000;
if (var21 == 0x00000001)
{
var50 = 0x00000000;
while (1) {
var51 = sp + var50;
var50 = var50 + 0x00000001;
((char *) var51)[0] = 0x00000000;
if (((var50 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
else
{
while (1) {
var23 = ((unsigned char *) (var19 + var22))[0];
var24 = sp + var22;
var22 = var22 + 0x00000001;
((char *) var24)[0] = var23;
if (((var22 < 0x0000000C)) != 0x00000000)
continue;
break;
}
var25 = ((unsigned char *) var3)[0];
var26 = var21 + 0xFFFFFFFF;
((char *) sp)[12] = (var25 + 0xFFFFFFFF);
((char *) sp)[13] = (var26 >> 0x00000008);
((char *) sp)[14] = (var26 >> 0x00000010);
((char *) sp)[15] = (var26 >> 0x00000018);
}
var28 = var2 + 0x00000014;
var29 = var4;
if (!(((0x00000014 < var28)) == 0x00000000))
{
while (1) {
var30 = 0x00000000;
var31 = var4 + var27;
while (1) {
var32 = ((unsigned char *) (var19 + var30))[0];
var30 = var30 + 0x00000001;
((char *) (var31 + var30))[0] = var32;
if (((var30 < 0x0000000C)) != 0x00000000)
continue;
break;
}
var33 = ((unsigned char *) var3)[0];
var27 = var27 + 0x00000010;
((char *) var31)[12] = var33;
var34 = ((int *) var3)[0];
((char *) var31)[13] = (var34 >> 0x00000008);
var35 = ((unsigned short *) var3)[1];
((char *) var31)[14] = var35;
var36 = ((unsigned char *) var3)[3];
((char *) var31)[15] = var36;
var37 = ((int *) var3)[0];
((int *) var3)[0] = (var37 + 0x00000001);
if (((var27 < var28)) != 0x00000000)
continue;
break;
}
var29 = var4;
}
var38 = sp;
var41 = sub_001F8 (var29, var2, var38, 0x00000063);
var13 = var41;
if (!(var41 != 0x00000000))
{
var42 = 0x00000000;
if (!(((var41 < var2)) == 0x00000000))
{
while (1) {
var43 = arg2 + var42;
var44 = ((unsigned char *) (var4 + var42))[0];
var45 = ((unsigned char *) var43)[0];
var42 = var42 + 0x00000001;
((char *) var43)[0] = (var45 ^ var44);
if (((var42 < var2)) != 0x00000000)
continue;
break;
}
}
var13 = 0x00000000;
}
ra = ((int *) sp)[12];
}
var46 = ((int *) sp)[11];
var47 = ((int *) sp)[10];
var48 = ((int *) sp)[9];
var49 = ((int *) sp)[8];
sp = sp + 0x00000040;
return var13;
}
/**
* Subroutine at address 0x000006DC
*/
void module_start ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceKernelCreateSema ("SceAmctrl", 0x00000000, 0x00000001, 0x00000001, 0x00000000);
ra = ((int *) sp)[0];
*((int *) 0x00001D94) = var3;
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000071C
*/
void sceDrmBBMacInit (int arg1, int arg2)
{
((int *) arg1)[0] = arg2;
var1 = 0x00000000;
while (1) {
var1 = var1 + 0x00000001;
((char *) (arg1 + var1))[4] = 0x00000000;
if (((var1 < 0x00000010)) != 0x00000000)
continue;
break;
}
var2 = 0x00000000;
var3 = arg1 + 0x00000014;
while (1) {
var2 = var2 + 0x00000001;
((char *) var3)[0] = 0x00000000;
var3 = var3 + 0x00000001;
if (((var2 < 0x00000010)) != 0x00000000)
continue;
break;
}
((int *) arg1)[9] = 0x00000000;
return;
}
/**
* Subroutine at address 0x00000760
*/
void sceDrmBBMacUpdate (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[2] = s2;
var1 = arg1;
var2 = *((int *) 0x00001D94);
((int *) sp)[4] = s4;
var3 = arg2;
((int *) sp)[1] = s1;
var4 = arg3;
((int *) sp)[0] = s0;
((int *) sp)[9] = ra;
((int *) sp)[8] = fp;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
var7 = sceKernelWaitSema (var2, 0x00000001, 0x00000000);
if (var7 != 0x00000000)
{
}
else
{
var8 = ((int *) var1)[9];
var9 = 0x80510302;
if (((var8 < 0x00000011)) == 0x00000000)
{
label33:
}
else
{
if ((((var8 + var4) < 0x00000011)) != 0x00000000)
{
var45 = 0x00000000;
if (!(var4 == 0x00000000))
{
while (1) {
var46 = ((unsigned char *) (var3 + var45))[0];
var45 = var45 + 0x00000001;
((char *) ((var1 + var8) + var45))[20] = var46;
if (((var45 < var4)) == 0x00000000)
break;
var8 = ((int *) var1)[9];
continue;
}
var8 = ((int *) var1)[9];
}
var9 = 0x00000000;
((int *) var1)[9] = (var8 + var4);
goto label33;
}
else
{
var10 = ((int *) var1)[0];
var11 = ((var10 ^ 0x00000002)) ? 0x00000038 : 0x0000003A;
var12 = 0x00000000;
if (!(var8 == 0x00000000))
{
var13 = var1 + 0x00000014;
while (1) {
var14 = *((int *) 0x00001544);
var15 = ((unsigned char *) var13)[0];
((char *) (var14 + var12))[0] = var15;
var12 = var12 + 0x00000001;
var8 = ((int *) var1)[9];
var13 = var13 + 0x00000001;
if (((var12 < var8)) != 0x00000000)
continue;
break;
}
}
var16 = (var8 + var4) & 0x0000000F;
var17 = !(var16) ? 0x00000010 : var16;
var18 = var8;
((int *) var1)[9] = var17;
var19 = var4 - var17;
var20 = 0x00000000;
if (!(var17 == 0x00000000))
{
var21 = var1 + 0x00000014;
while (1) {
var22 = ((unsigned char *) ((var3 + var19) + var20))[0];
var20 = var20 + 0x00000001;
((char *) var21)[0] = var22;
var21 = var21 + 0x00000001;
if (((var20 < var17)) != 0x00000000)
continue;
break;
}
}
var23 = 0x00000000;
if (var19 == 0x00000000)
{
label27:
if (var18 != 0x00000000)
{
var41 = sub_00158 (0x00001580, var18, (var1 + 0x00000004), var11);
var9 = var41;
if (var41 == 0x00000000)
{
label32:
var9 = 0x00000000;
goto label33;
}
else
{
}
}
else
goto label32;
}
else
{
while (1) {
if (var18 == 0x00000800)
{
var44 = sub_00158 (0x00001580, 0x00000800, (var1 + 0x00000004), var11);
var9 = var44;
if (var44 != 0x00000000)
break;
var18 = 0x00000000;
label26:
var24 = *((int *) 0x00001544);
var25 = ((unsigned char *) (var3 + var23))[0];
var23 = var23 + 0x00000001;
var18 = var18 + 0x00000001;
((char *) (var24 + var18))[0] = var25;
if (((var23 < var19)) != 0x00000000)
continue;
goto label27;
}
else
goto label26;
goto label34;
}
goto label33;
}
}
}
label34:
var26 = *((int *) 0x00001D94);
var29 = sceKernelSignalSema (var26, 0x00000001);
}
ra = ((int *) sp)[9];
var30 = ((int *) sp)[8];
var31 = ((int *) sp)[7];
var32 = ((int *) sp)[6];
var33 = ((int *) sp)[5];
var34 = ((int *) sp)[4];
var35 = ((int *) sp)[3];
var36 = ((int *) sp)[2];
var37 = ((int *) sp)[1];
var38 = ((int *) sp)[0];
sp = sp + 0x00000030;
return;
}
/**
* Subroutine at address 0x00000998
*/
int sceDrmBBMacFinal (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFB0;
((int *) sp)[10] = s2;
var1 = arg1;
var2 = *((int *) 0x00001D94);
((int *) sp)[13] = s5;
((int *) sp)[12] = s4;
var3 = arg3;
((int *) sp)[8] = s0;
((int *) sp)[17] = ra;
((int *) sp)[16] = fp;
((int *) sp)[15] = s7;
((int *) sp)[14] = s6;
((int *) sp)[11] = s3;
((int *) sp)[9] = s1;
var6 = sceKernelWaitSema (var2, 0x00000001, 0x00000000);
if (var6 != 0x00000000)
{
var78 = 0x80000041;
}
else
{
var7 = ((int *) var1)[9];
var8 = 0x80510302;
if (!(((var7 < 0x00000011)) == 0x00000000))
{
var9 = ((int *) var1)[0];
var10 = ((var9 ^ 0x00000002)) ? 0x00000038 : 0x0000003A;
var11 = 0x00000000;
while (1) {
var12 = *((int *) 0x00001544);
var11 = var11 + 0x00000001;
((char *) (var12 + var11))[0] = 0x00000000;
if (((var11 < 0x00000010)) != 0x00000000)
continue;
break;
}
var15 = sub_00000 (0x00001580, 0x00000010, var10);
var8 = var15;
if (!(var15 != 0x00000000))
{
var16 = *((int *) 0x00001544);
var17 = 0x00000000;
while (1) {
var18 = ((unsigned char *) (var16 + var17))[0];
var19 = sp + var17;
var17 = var17 + 0x00000001;
((char *) var19)[0] = var18;
if (((var17 < 0x00000010)) != 0x00000000)
continue;
break;
}
var20 = ((char *) sp)[0];
var21 = 0x00000000;
while (1) {
var22 = sp + var21;
var23 = ((unsigned char *) var22)[0];
var24 = ((unsigned char *) var22)[1];
var21 = var21 + 0x00000001;
((char *) var22)[0] = ((var24 >> 0x00000007) | (var23 << 0x00000001));
if (((var21 < 0x0000000F)) != 0x00000000)
continue;
break;
}
var25 = ((unsigned char *) sp)[15];
var26 = ((int *) var1)[9];
((char *) sp)[15] = (((((var20 < 0x00000000))) ? 0x00000087 : 0x00000000) ^ (var25 << 0x00000001));
if (!(var26 == 0x00000010))
{
var27 = ((char *) sp)[0];
var28 = 0x00000000;
while (1) {
var29 = sp + var28;
var30 = ((unsigned char *) var29)[0];
var31 = ((unsigned char *) var29)[1];
var28 = var28 + 0x00000001;
((char *) var29)[0] = ((var31 >> 0x00000007) | (var30 << 0x00000001));
if (((var28 < 0x0000000F)) != 0x00000000)
continue;
break;
}
var32 = ((unsigned char *) sp)[15];
var33 = var26 + 0x00000001;
((char *) sp)[15] = (((((var27 < 0x00000000))) ? 0x00000087 : 0x00000000) ^ (var32 << 0x00000001));
((char *) (var26 + var1))[20] = 0xFFFFFF80;
if (!(((var33 < 0x00000010)) == 0x00000000))
{
var34 = (var33 + var1) + 0x00000014;
while (1) {
var33 = var33 + 0x00000001;
((char *) var34)[0] = 0x00000000;
var34 = var34 + 0x00000001;
if (((var33 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
}
var35 = 0x00000000;
var36 = var1 + 0x00000010;
while (1) {
var37 = sp + var35;
var38 = ((unsigned char *) var37)[0];
var39 = ((unsigned char *) var36)[4];
var35 = var35 + 0x00000001;
((char *) var36)[4] = (var39 ^ var38);
var36 = var36 + 0x00000001;
if (((var35 < 0x00000010)) != 0x00000000)
continue;
break;
}
var40 = 0x00000000;
var41 = var1 + 0x00000014;
while (1) {
var42 = *((int *) 0x00001544);
var43 = ((unsigned char *) var41)[0];
var41 = var41 + 0x00000001;
var40 = var40 + 0x00000001;
((char *) (var42 + var40))[0] = var43;
if (((var40 < 0x00000010)) != 0x00000000)
continue;
break;
}
var44 = 0x00000000;
var45 = sp + 0x00000010;
while (1) {
var46 = ((unsigned char *) (var1 + var44))[4];
var44 = var44 + 0x00000001;
((char *) (var45 + var44))[0] = var46;
if (((var44 < 0x00000010)) != 0x00000000)
continue;
break;
}
var49 = sub_00158 (0x00001580, 0x00000010, var45, var10);
var8 = var49;
if (!(var49 != 0x00000000))
{
var50 = 0x00000000;
while (1) {
var51 = var45 + var50;
var52 = ((unsigned char *) (var50 + 0x000014FC))[0];
var53 = ((unsigned char *) var51)[0];
var50 = var50 + 0x00000001;
((char *) var51)[0] = (var53 ^ var52);
if (((var50 < 0x00000010)) != 0x00000000)
continue;
break;
}
var54 = ((int *) var1)[0];
var55 = 0x00000000;
if (var54 == 0x00000002)
{
while (1) {
var88 = *((int *) 0x00001544);
var89 = ((unsigned char *) (var45 + var55))[0];
var55 = var55 + 0x00000001;
((char *) (var88 + var55))[0] = var89;
if (((var55 < 0x00000010)) != 0x00000000)
continue;
break;
}
var92 = sub_000A8 (0x00001580, 0x00000010);
var8 = var92;
if (!(var92 != 0x00000000))
{
var95 = sub_00000 (0x00001580, 0x00000010, var10);
var8 = var95;
if (!(var95 != 0x00000000))
{
var96 = *((int *) 0x00001544);
var97 = 0x00000000;
while (1) {
var98 = ((unsigned char *) (var96 + var97))[0];
var97 = var97 + 0x00000001;
((char *) (var45 + var97))[0] = var98;
if (((var97 < 0x00000010)) != 0x00000000)
continue;
break;
}
label44:
var56 = 0x00000000;
if (var3 == 0x00000000)
{
label55:
while (1) {
var70 = ((unsigned char *) (var45 + var56))[0];
var56 = var56 + 0x00000001;
((char *) (arg2 + var56))[0] = var70;
if (((var56 < 0x00000010)) != 0x00000000)
continue;
break;
}
var71 = 0x00000000;
while (1) {
var71 = var71 + 0x00000001;
((char *) (var1 + var71))[4] = 0x00000000;
if (((var71 < 0x00000010)) != 0x00000000)
continue;
break;
}
var72 = 0x00000000;
var73 = var1 + 0x00000014;
while (1) {
var72 = var72 + 0x00000001;
((char *) var73)[0] = 0x00000000;
var73 = var73 + 0x00000001;
if (((var72 < 0x00000010)) != 0x00000000)
continue;
break;
}
((int *) var1)[9] = 0x00000000;
var8 = 0x00000000;
((int *) var1)[0] = 0x00000000;
}
else
{
var57 = 0x00000000;
while (1) {
var58 = var45 + var57;
var59 = ((unsigned char *) (var3 + var57))[0];
var60 = ((unsigned char *) var58)[0];
var57 = var57 + 0x00000001;
((char *) var58)[0] = (var60 ^ var59);
if (((var57 < 0x00000010)) != 0x00000000)
continue;
break;
}
var61 = 0x00000000;
while (1) {
var62 = *((int *) 0x00001544);
var63 = ((unsigned char *) (var45 + var61))[0];
var61 = var61 + 0x00000001;
((char *) (var62 + var61))[0] = var63;
if (((var61 < 0x00000010)) != 0x00000000)
continue;
break;
}
var66 = sub_00000 (0x00001580, 0x00000010, var10);
var8 = var66;
if (!(var66 != 0x00000000))
{
var67 = *((int *) 0x00001544);
var68 = 0x00000000;
while (1) {
var69 = ((unsigned char *) (var67 + var68))[0];
var68 = var68 + 0x00000001;
((char *) (var45 + var68))[0] = var69;
if (((var68 < 0x00000010)) != 0x00000000)
continue;
break;
}
var56 = 0x00000000;
goto label55;
}
}
}
}
}
else
goto label44;
}
}
}
var74 = *((int *) 0x00001D94);
var77 = sceKernelSignalSema (var74, 0x00000001);
var78 = ((var77) ? 0x80000041 : var8);
}
ra = ((int *) sp)[17];
var79 = ((int *) sp)[16];
var80 = ((int *) sp)[15];
var81 = ((int *) sp)[14];
var82 = ((int *) sp)[13];
var83 = ((int *) sp)[12];
var84 = ((int *) sp)[11];
var85 = ((int *) sp)[10];
var86 = ((int *) sp)[9];
var87 = ((int *) sp)[8];
sp = sp + 0x00000050;
return var78;
}
/**
* Subroutine at address 0x00000DEC
*/
void sceDrmBBMacFinal2 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s1;
var1 = arg2;
var2 = sp;
((int *) sp)[4] = s0;
((int *) sp)[8] = ra;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
var3 = ((int *) arg1)[0];
var6 = sceDrmBBMacFinal (arg1, var2, arg3);
var7 = var6;
if (!(var6 != 0x00000000))
{
var8 = *((int *) 0x00001D94);
var11 = sceKernelWaitSema (var8, 0x00000001, 0x00000000);
var7 = 0x80000041;
if (!(var11 != 0x00000000))
{
var12 = 0x00000000;
if (var3 == 0x00000003)
{
while (1) {
var30 = *((int *) 0x00001544);
var31 = ((unsigned char *) (var1 + var12))[0];
var12 = var12 + 0x00000001;
((char *) (var30 + var12))[0] = var31;
if (((var12 < 0x00000010)) != 0x00000000)
continue;
break;
}
var34 = sub_00054 (0x00001580, 0x00000010, 0x00000063);
var21 = var34;
if (var34 == 0x00000000)
{
label16:
var15 = *((int *) 0x00001540);
var16 = sp;
var17 = 0x00000000;
var18 = 0x00000000;
var19 = ((char *) var16)[0];
while (1) {
var20 = ((char *) var15)[0];
var18 = var18 + 0x00000001;
var16 = var16 + 0x00000001;
var15 = var15 + 0x00000001;
if (var19 != var20)
{
var17 = var19 - var20;
}
else
{
if (!(((var18 < 0x00000010)) != 0x00000000))
break;
var19 = ((char *) var16)[0];
continue;
}
}
var21 = (!(var17) ? 0x00000000 : 0x80510300);
var22 = *((int *) 0x00001D94);
}
else
{
var35 = *((int *) 0x00001D94);
}
}
else
{
while (1) {
var13 = *((int *) 0x00001540);
var14 = ((unsigned char *) (var1 + var12))[0];
var12 = var12 + 0x00000001;
((char *) (var13 + var12))[0] = var14;
if (((var12 < 0x00000010)) != 0x00000000)
continue;
break;
}
goto label16;
}
var25 = sceKernelSignalSema (var22, 0x00000001);
var7 = (var25) ? 0x80000041 : var21;
}
}
ra = ((int *) sp)[8];
var26 = ((int *) sp)[7];
var27 = ((int *) sp)[6];
var28 = ((int *) sp)[5];
var29 = ((int *) sp)[4];
sp = sp + 0x00000030;
return;
}
/**
* Subroutine at address 0x00000F3C
*/
void sceDrmBBCipherInit (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[7] = s7;
((int *) sp)[2] = s2;
var1 = arg1;
var2 = *((int *) 0x00001D94);
((int *) sp)[4] = s4;
((int *) sp)[0] = s0;
var3 = arg3;
((int *) sp)[6] = s6;
var4 = arg4;
((int *) sp)[5] = s5;
var5 = arg5;
((int *) sp)[3] = s3;
((int *) sp)[1] = s1;
((int *) sp)[8] = ra;
var6 = 0x80000041;
var9 = sceKernelWaitSema (var2, 0x00000001, 0x00000000);
if (var9 != 0x00000000)
{
}
else
{
((int *) var1)[0] = arg2;
if (var3 == 0x00000002)
{
((int *) var1)[1] = (arg6 + 0x00000001);
var72 = 0x00000000;
while (1) {
var73 = ((unsigned char *) (var4 + var72))[0];
var72 = var72 + 0x00000001;
((char *) (var1 + var72))[8] = var73;
if (((var72 < 0x00000010)) != 0x00000000)
continue;
break;
}
var74 = 0x00000000;
if (var5 == 0x00000000)
{
label42:
var10 = 0x00000000;
}
else
{
while (1) {
var75 = var1 + var74;
var76 = ((unsigned char *) (var5 + var74))[0];
var77 = ((unsigned char *) var75)[8];
var74 = var74 + 0x00000001;
((char *) var75)[8] = (var77 ^ var76);
if (((var74 < 0x00000010)) != 0x00000000)
continue;
break;
}
var10 = 0x00000000;
}
}
else
{
if (!(var3 == 0x00000001))
goto label42;
((int *) var1)[1] = var3;
var23 = *((int *) 0x0000154C);
var26 = sub_003F0 ();
var10 = var26;
if (!(var26 != 0x00000000))
{
var27 = 0x0000000F;
while (1) {
var28 = *((int *) 0x0000154C);
var29 = var28 + var27;
var30 = ((unsigned char *) var29)[0];
var27 = var27 + 0xFFFFFFFF;
((char *) var29)[20] = var30;
if (var27 >= 0)
continue;
break;
}
var31 = 0x00000000;
while (1) {
var32 = *((int *) 0x0000154C);
var31 = var31 + 0x00000001;
((char *) (var32 + var31))[32] = 0x00000000;
if (((var31 < 0x00000004)) != 0x00000000)
continue;
break;
}
var33 = ((int *) var1)[0];
if (var33 == 0x00000002)
{
var58 = 0x00000000;
while (1) {
var59 = *((int *) 0x00001550);
var60 = ((unsigned char *) (var58 + 0x0000150C))[0];
var61 = var59 + var58;
var62 = ((unsigned char *) var61)[0];
var58 = var58 + 0x00000001;
((char *) var61)[0] = (var62 ^ var60);
if (((var58 < 0x00000010)) != 0x00000000)
continue;
break;
}
var63 = *((int *) 0x00001548);
var66 = sub_000A8 (var63, 0x00000010);
var10 = var66;
var67 = 0x00000000;
while (1) {
var68 = *((int *) 0x00001550);
var69 = ((unsigned char *) (var67 + 0x0000151C))[0];
var70 = var68 + var67;
var71 = ((unsigned char *) var70)[0];
var67 = var67 + 0x00000001;
((char *) var70)[0] = (var71 ^ var69);
if (((var67 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
else
{
var34 = 0x00000000;
while (1) {
var35 = *((int *) 0x00001550);
var36 = ((unsigned char *) (var34 + 0x0000150C))[0];
var37 = var35 + var34;
var38 = ((unsigned char *) var37)[0];
var34 = var34 + 0x00000001;
((char *) var37)[0] = (var38 ^ var36);
if (((var34 < 0x00000010)) != 0x00000000)
continue;
break;
}
var39 = *((int *) 0x00001548);
var42 = sub_00000 (var39, 0x00000010, 0x00000039);
var10 = var42;
var43 = 0x00000000;
while (1) {
var44 = *((int *) 0x00001550);
var45 = ((unsigned char *) (var43 + 0x0000151C))[0];
var46 = var44 + var43;
var47 = ((unsigned char *) var46)[0];
var43 = var43 + 0x00000001;
((char *) var46)[0] = (var47 ^ var45);
if (((var43 < 0x00000010)) != 0x00000000)
continue;
break;
}
}
var48 = 0x00000000;
if (!(var10 != 0x00000000))
{
while (1) {
var49 = *((int *) 0x00001550);
var50 = ((unsigned char *) (var49 + var48))[0];
var48 = var48 + 0x00000001;
((char *) (var1 + var48))[8] = var50;
if (((var48 < 0x00000010)) != 0x00000000)
continue;
break;
}
var51 = 0x00000000;
while (1) {
var52 = *((int *) 0x00001550);
var53 = ((unsigned char *) (var52 + var51))[0];
var51 = var51 + 0x00000001;
((char *) (var4 + var51))[0] = var53;
if (((var51 < 0x00000010)) != 0x00000000)
continue;
break;
}
var54 = 0x00000000;
if (var5 == 0x00000000)
goto label42;
while (1) {
var55 = var1 + var54;
var56 = ((unsigned char *) (var5 + var54))[0];
var57 = ((unsigned char *) var55)[8];
var54 = var54 + 0x00000001;
((char *) var55)[8] = (var57 ^ var56);
if (((var54 < 0x00000010)) != 0x00000000)
continue;
break;
}
var10 = 0x00000000;
}
}
}
var11 = *((int *) 0x00001D94);
var14 = sceKernelSignalSema (var11, 0x00000001);
var6 = (var14) ? 0x80000041 : var10;
}
ra = ((int *) sp)[8];
var15 = ((int *) sp)[7];
var16 = ((int *) sp)[6];
var17 = ((int *) sp)[5];
var18 = ((int *) sp)[4];
var19 = ((int *) sp)[3];
var20 = ((int *) sp)[2];
var21 = ((int *) sp)[1];
var22 = ((int *) sp)[0];
sp = sp + 0x00000030;
return;
}
/**
* Subroutine at address 0x0000123C
*/
void sceDrmBBCipherUpdate (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[8] = fp;
((int *) sp)[6] = s6;
var1 = arg2;
((int *) sp)[3] = s3;
var2 = arg1;
((int *) sp)[1] = s1;
var3 = arg3;
((int *) sp)[0] = s0;
((int *) sp)[9] = ra;
((int *) sp)[7] = s7;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
var4 = *((int *) 0x00001D94);
var7 = sceKernelWaitSema (var4, 0x00000001, 0x00000000);
if (var7 != 0x00000000)
{
}
else
{
var8 = 0x00000000;
if (var3 == 0x00000000)
{
label20:
var15 = *((int *) 0x00001D94);
}
else
{
var8 = 0x80510301;
if ((var3 & 0x0000000F) != 0x00000000)
goto label20;
var9 = 0x00000000;
if (((var3 < 0x00000800)) != 0x00000000)
{
label14:
if (var3 != 0x00000000)
{
var28 = *((int *) 0x00001548);
var29 = ((int *) var2)[0];
var32 = sub_00428 (var28, (var1 + var9), var3, (var2 + 0x00000008), (var2 + 0x00000004), var29);
var8 = var32;
if (var32 == 0x00000000)
{
label19:
var8 = 0x00000000;
goto label20;
}
else
{
var33 = *((int *) 0x00001D94);
}
}
else
goto label19;
}
else
{
var10 = *((int *) 0x00001548);
while (1) {
var11 = ((int *) var2)[0];
var14 = sub_00428 (var10, (var1 + var9), 0x00000800, (var2 + 0x00000008), (var2 + 0x00000004), var11);
var3 = var3 + 0xFFFFF800;
var8 = var14;
var9 = var9 + 0x00000800;
if (var8 != 0x00000000)
break;
var10 = *((int *) 0x00001548);
if (((var3 < 0x00000800)) == 0x00000000)
continue;
goto label14;
}
goto label20;
}
}
var18 = sceKernelSignalSema (var15, 0x00000001);
}
ra = ((int *) sp)[9];
var19 = ((int *) sp)[8];
var20 = ((int *) sp)[7];
var21 = ((int *) sp)[6];
var22 = ((int *) sp)[5];
var23 = ((int *) sp)[4];
var24 = ((int *) sp)[3];
var25 = ((int *) sp)[2];
var26 = ((int *) sp)[1];
var27 = ((int *) sp)[0];
sp = sp + 0x00000030;
return;
}
/**
* Subroutine at address 0x00001384
*/
void sceDrmBBCipherFinal (int arg1)
{
var1 = 0x00000000;
while (1) {
var1 = var1 + 0x00000001;
((char *) (arg1 + var1))[8] = 0x00000000;
if (((var1 < 0x00000010)) != 0x00000000)
continue;
break;
}
((int *) arg1)[1] = 0x00000000;
((int *) arg1)[0] = 0x00000000;
return;
}
|
0xb15c077e
|
trunk/RE/PSP/amctrl.c
|
C
|
mit
| 37,719
|
int sceNet_lib_DA02F383 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
int ret = _sce_pspnet_ifioctl (0x00, 0xC01469D8, msg, 0x01);
*((int *) 0x0000B150) = 0;
if (!ret)
*arg2 = msg[4];
return ret;
}
int sceNet_lib_83FE280A (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
return _sce_pspnet_ifioctl (0x00, 0x801469E4, msg, 0x01);
}
int sceNet_lib_891723D5 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
return _sce_pspnet_ifioctl (0x00, 0x801469DF, msg, 0x01);
}
void sceNet_lib_F355C73B (int arg1, int arg2, int arg3);
int sceNet_lib_A55C914F (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
return _sce_pspnet_ifioctl (0, 0xC01469D7, msg, 1);
}
void sceNet_lib_7BA3ED91 (int arg1, int arg2, int*arg3, int arg4, int*arg5){
int msg[8];
sceNetMemset (msg, 0, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
msg[5] = *arg3;
msg[6] = arg4;
if (!_sce_pspnet_ifioctl (0, 0xC02069D4, msg, 1)){
*arg3 = msg[5];
*arg5 = msg[7];
}
}
void sceNet_lib_03164B12 (int arg1, int arg2, int arg3){
int msg[6];
sceNetMemset (msg, 0x00, 0x18);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
if (!_sce_pspnet_ifioctl (0x00, 0xC01869D5, msg, 0x01))
*arg3 = msg[5];
}
void sceNet_lib_389728AB (int arg1, int arg2, int arg3){
int msg[6];
sceNetMemset (msg, 0x00, 0x18);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
if (!_sce_pspnet_ifioctl (0x00, 0xC01869D6, msg, 0x01))
*arg3 = msg[5];
}
void sceNet_lib_B755FA98 (int arg1, int arg2, int arg3, int arg4, int arg5){
sceNet_lib_43EE76EC (arg1, arg2, arg3, arg4, arg5, 0x01);
}
void sceNet_lib_EB38431E (int arg1, int arg2){
p = *((int *) 0x0000B150);
if (!p)return 0x80410185;
sceNetMemcpy (arg2, (p+4), 0x5C);
return 0;
}
void sceNet_lib_AFA11338 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
return _sce_pspnet_ifioctl (0x00, 0x801469D2, msg, 0x01);
}
void sceNet_lib_B20F84F8 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
return _sce_pspnet_ifioctl (0x00, 0x401469D3, msg, 0x01);
}
void sceNet_lib_4F8F3808 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
_sce_pspnet_ifioctl (0x00, 0x401469DE, msg, 1);
}
void sceNet_lib_0DFF67F9 (int arg1, int*arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x14);
sceNetStrncpy (msg, arg1, 0x10);
if (!_sce_pspnet_ifioctl (0x00, 0x401469E0, msg, 1))
*arg2 = msg[4];
}
void sceNet_lib_0D633F53 (int arg1, int arg2, int arg3, int*arg4){
int msg[7];
sceNetMemset (msg, 0, 0x1C);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = arg2;
msg[5] = arg3;
if (!_sce_pspnet_ifioctl (0, 0xC01C69E1, msg, 1))
*arg4 = msg[6];
}
void sceNet_lib_AB375964 (int arg1, int arg2){
unsigned short msg[24];
sceNetMemset (msg, 0, 0x30);
sceNetStrncpy (msg, arg1, 0x10);
sceNetMemcpy (msg+10, arg2, 0x20);
_sce_pspnet_ifioctl (0, 0x803069E2, msg, 1);
}
void sceNet_lib_8DA79EB0 (int arg1, int arg2){
unsigned short msg[24];
sceNetMemset (msg, 0, 0x30);
sceNetStrncpy (msg, arg1, 0x10);
sceNetMemcpy (msg+10, arg2, 0x20);
_sce_pspnet_ifioctl (0, 0x803069E3, msg, 1);
}
void sceNetConfigUpInterface (int arg1){
unsigned short * msg[0x20];
sceNetMemset (msg, 0, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
if (_sce_pspnet_ifioctl (0, 0xC0206911, msg, 1))return;
msg[8] |= 1;
_sce_pspnet_ifioctl (0, 0x80206910, msg, 1);
}
void sceNetConfigDownInterface (int arg1){
unsigned short * msg[0x20];
sceNetMemset (msg, 0, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
if (_sce_pspnet_ifioctl (0, 0xC0206911, msg, 1))return;
msg[8] &= 0xFFFFFFFE;
_sce_pspnet_ifioctl (0, 0x80206910, msg, 1);
}
int sceNetConfigGetEtherAddr (char*ip,char*ether){
int*ret=_sce_pspnet_ifunit (ip);
if (!ret)return 0x80410180;
sceNetMemcpy (arg1, ((ret[56] + ((u8*)ret[56])[5]) + 8), 6);
return 0;
}
void sceNetGetLocalEtherAddr (char*ether){
if (sceKernelCheckThreadStack()<0x3F0)return 0x80410005;
int*ret = _sce_pspnet_ifunit ("wlan");
if (!ret)return 0x80410180;
sceNetMemcpy (arg1, ((ret[56] + ((u8*)ret[56])[5]) + 8), 6);
return 0;
}
void sceNetConfigGetIfEvent (int arg1, int arg2, int arg3){
int msg[8+2];
sceNetMemset (msg, 0x00, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = msg+0x20;
sceNetMemset (msg+0x20, 0x00, 0x08);
if (!_sce_pspnet_ifioctl (0x00, 0xC020693D, msg, 0x01)){
*arg2 = mag[8];
*arg3 = msg[9];
}
}
void sceNetConfigSetIfEventFlag (int arg1, int arg2, int arg3){
int msg[8];
sceNetMemset (msg, 0x00, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
msg[8] = arg2;
msg[9] = arg3;
msg[4] = &msg[8];
return _sce_pspnet_ifioctl (0x00, 0x8020693E, msg, 0x01);
}
void sceNetConfigGetIfEventFlag (int arg1, int*arg2, int*arg3){
int msg[5+2];
sceNetMemset (msg, 0x00, 0x20);
sceNetStrncpy (msg, arg1, 0x10);
msg[4] = msg + 0x20;
sceNetMemset (msg + 0x20, 0x00, 0x08);
if (!_sce_pspnet_ifioctl (0x00, 0xC020693E, msg, 0x01)){
*arg2 = msg[8];
*arg3 = msg[9];
}
}
void sceNet_lib_C1D2A7FB (int arg1, int arg2){
int msg[5+2];
sceNetMemset (msg, 0x00, 0x16);
sceNetStrncpy (msg, arg1, 0x10);
sceNetMemcpy (msg + 0x10, arg2, 0x06);
return _sce_pspnet_ifioctl (0x00, 0x801669FA, msg, 0x01);
}
void sceNet_lib_CFA79880 (int arg1, int arg2){
int msg[5];
sceNetMemset (msg, 0x00, 0x16);
sceNetStrncpy (msg, arg1, 0x10);
sceNetMemcpy (msg+0x10, arg2, 0x06);
return _sce_pspnet_ifioctl (0x00, 0x801669FB, msg, 0x01);
}
|
0xb15c077e
|
trunk/RE/PSP/pspnet.c
|
C
|
mit
| 5,840
|
.set noreorder
#include "pspstub.s"
STUB_START "ThreadManForKernel",0x00010011,0x00040005
STUB_FUNC 0xB7D098C6,sceKernelCreateMutex
STUB_FUNC 0xB011B11F,sceKernelLockMutex
STUB_FUNC 0x6B30100F,sceKernelUnlockMutex
STUB_FUNC 0x0DDCD2C9,sceKernelTryLockMutex
STUB_END
STUB_START "sceWmd_driver",0x00090011,0x00010005
STUB_FUNC 0x7A0E484C,sceWmd_driver_7A0E484C
STUB_END
STUB_START "sceDdr_driver",0x00010011,0x00010005
STUB_FUNC 0x87D86769,sceDdrFlush
STUB_END
STUB_START "sceSyscon_driver",0x00010011,0x00010005
STUB_FUNC 0x48728250,sceSysconCtrlTachyonAvcPower
STUB_END
STUB_START "UtilsForKernel",0x00010011,0x00010005
STUB_FUNC 0x6C6887EE,UtilsForKernel_6C6887EE
STUB_END
STUB_START "SysMemForKernel",0x00010011,0x00030005
STUB_FUNC 0x5339A163,SysMemForKernel_5339A163
STUB_FUNC 0x374E8E66,SysMemForKernel_374E8E66
STUB_FUNC 0x8D34BBDA,sceKernelMemset32
STUB_END
STUB_START "sceSysreg_driver",0x00010011,0x000c0005
STUB_FUNC 0xE2A5D1EE,sceSysregGetTachyonVersion
STUB_FUNC 0x9AFD029D,sceSysregPllGetFrequency
STUB_FUNC 0xB0FDD88C,sceSysregIntrEnd
STUB_FUNC 0x20C9E2C4,sceSysregMeResetEnable
STUB_FUNC 0x5F190A4E,sceSysregMeResetDisable
STUB_FUNC 0x4FFB12A2,sceSysregVmeResetEnable
STUB_FUNC 0xCEE8BAF6,sceSysregVmeResetDisable
STUB_FUNC 0x663D5471,sceSysregAvcResetEnable
STUB_FUNC 0x35BC4DD2,sceSysregAvcResetDisable
STUB_FUNC 0x08E0EE7E,sceSysregMeBusClockEnable
STUB_FUNC 0xCD36673C,sceSysregMeBusClockDisable
STUB_FUNC 0xEEE7B082,sceSysregInterruptToOther
STUB_END
|
0xb15c077e
|
trunk/RE/PSP/me_wrapper.imports.S
|
Motorola 68K Assembly
|
mit
| 1,585
|
TARGET = g729
OBJS = g729.o g729.imports.o
BUILD_PRX = 1
PRX_EXPORTS = g729.exports.exp
INCDIR =
CFLAGS = -O2 -G0 -Wall -std=c99
ASFLAGS = $(CFLAGS)
USE_KERNEL_LIBC = 1
USE_KERNEL_LIBS = 1
LIBDIR =
LDFLAGS = -mno-crt0 -nostartfiles
LIBS = -nodefaultlibs -nostdlib
PSPSDK=$(shell psp-config --pspsdk-path)
include $(PSPSDK)/lib/build.mak
all:
rm *.o $(TARGET).elf
|
0xb15c077e
|
trunk/RE/PSP/g729.mak
|
Makefile
|
mit
| 370
|
#ifndef __CTRL_H
#define __CTRL_H
/*
* Exports from library: syslib
*/
void module_start (void);
void module_reboot_before (void);
/*
* Exports from library: sceCtrl
*/
void sceCtrlGetSamplingCycle (void);
void sceCtrlReadLatch (void);
void sceCtrlSetSamplingMode (void);
void sceCtrlReadBufferPositive (void);
void sceCtrl_348D99D4 (void);
void sceCtrlPeekBufferPositive (void);
void sceCtrlReadBufferNegative (void);
void sceCtrlSetRapidFire (void);
void sceCtrlGetIdleCancelThreshold (void);
void sceCtrlSetSamplingCycle (void);
void sceCtrlClearRapidFire (void);
void sceCtrlSetIdleCancelThreshold (void);
void sceCtrl_AF5960F3 (void);
void sceCtrlPeekLatch (void);
void sceCtrlPeekBufferNegative (void);
void sceCtrlGetSamplingMode (void);
/*
* Exports from library: sceCtrl_driver
*/
void sceCtrl_driver_0194C9EC (void);
void sceCtrl_driver_03A81798 (void);
void sceCtrl_driver_09236627 (void);
void sceCtrl_driver_0A218F56 (void);
void sceCtrl_driver_189BA4F3 (void);
void sceCtrl_driver_2037F8E7 (void);
void sceCtrl_driver_2393D6F3 (void);
void sceCtrl_driver_33893636 (void);
void sceCtrl_driver_45F1294D (void);
void sceCtrl_driver_46C2F764 (void);
void sceCtrl_driver_5068A531 (void);
void sceCtrl_driver_655A18BE (void);
void sceCtrl_driver_67B648BD (void);
void sceCtrl_driver_6B247CCE (void);
void sceCtrl_driver_6D4BEA72 (void);
void sceCtrl_driver_7EBC7B38 (void);
void sceCtrl_driver_81276F4B (void);
void sceCtrl_driver_87B0677D (void);
void sceCtrl_driver_8AAECD34 (void);
void sceCtrl_driver_919215D7 (void);
void sceCtrl_driver_A0390EE8 (void);
void sceCtrl_driver_A6CF75FE (void);
void sceCtrl_driver_B5507BFA (void);
void sceCtrl_driver_C24FF87A (void);
void sceCtrl_driver_CC2D8C39 (void);
void sceCtrl_driver_E3F78BF9 (void);
void sceCtrl_driver_F17D609C (void);
void sceCtrl_driver_F54317C4 (void);
void sceCtrl_driver_F83A8920 (void);
#endif /* __CTRL_H */
|
0xb15c077e
|
trunk/RE/PSP/ctrl.h
|
C
|
mit
| 1,958
|
#ifndef __USBACC_H
#define __USBACC_H
/*
* Exports from library: syslib
*/
void module_start (void);
void module_stop (void);
/*
* Exports from library: sceUsbAcc_internal
*/
void sceUsbAccGetInfo (void);
void sceUsbAccUnregisterType (void);
void sceUsbAcc_internal_2A100C1F (void);
void sceUsbAccRegisterType (void);
void sceUsbAccGetAuthStat (void);
/*
* Exports from library: sceUsbAcc
*/
void sceUsbAccGetInfo (void);
void sceUsbAccGetAuthStat (void);
/*
* Exports from library: sceUsbAcc_driver
*/
void sceUsbAccGetInfo (void);
void sceUsbAccGetAuthStat (void);
#endif /* __USBACC_H */
|
0xb15c077e
|
trunk/RE/PSP/usbacc.h
|
C
|
mit
| 635
|
#include <pspsdk.h>
#include "500\dmacman.h"
#define UNQUEUED_MASK 0x0001
#define TRANSFER_MASK 0x0002
#define SUCCED_MASK 0x0010
#define PENDING_MASK 0x0020
#define FINISHED_MASK 0x0040
#define USED_MASK 0x0070
#define ASSIGNED_MASK 0x0100
#define MALLOCED_MASK 0x1000
typedef struct {
void* curr,//current op
void* next,//next op
int unk2,
int unk3,
void* onSuspend,
void* onResume,
int ev,
short state,
short unk15s,
int unk8,//reqA
int unk9,//reqA
int unk10,//reqB
int unk11,//reqB
int unk12,//0xC001 (action?)
short mask,
short unk27,
int unk14,
int unk15,
}DmaOp;
int ctx_header;//0x2000
int ctx[0x20*16];//0x2040 32 op
DmaOp*lastDMAop;//0x4000 [26]
DmaOp*currDMAop;//0x4050
DmaOp*nextDMAop;//0x4050
void *SyncCallback;//0x4058
void module_start (){
intr = sceKernelCpuSuspendIntr ();
memset (ctx,0,0x2000);
p1 = ctx;
lastDMAop = ctx;
ctx += 0x40;
p2 = p1+3*0x40;
int i = 2;
while (i < 2*0x40) {//try to understand this
p1[16] = p2;
p1[17] = p1;
p2 += 0x40;
p1 += 0x40;
(p1 + 0x10)[6] = 0x1000;
i++;
}
lastDMAop.mask = 0x1000;
nextDMAop = 0;
lastDMAop[0] = 0;
currDMAop = 0;
sceKernelRegisterSuspendHandler (0x14,suspendHandler,0);//0x1AF0
sceKernelRegisterResumeHandler (0x14,resumeHandler,0);//0x1B80
ret |= sceKernelRegisterIntrHandler (0x16,2,intrHandler,0,0);
ret |= sceKernelEnableIntr (0x16);
ret |= sceKernelRegisterIntrHandler (0x17,2,intrHandler,1,0);
ret |= sceKernelEnableIntr (0x17);
if(ret < 0){
ret = 0x800202BC;
for(int i=0;i<2;i++)
sceKernelReleaseIntrHandler (0x16+i);
}
_sceKernelDmaSetCallback (callback);
sceKernelCpuResumeIntr (intr);
return ret;
}
void sceKernelDmaExit (){
for (i=0;i < 2;i++) {
for(int j=0;j<8;j++) {
interupt = (i) ? ((j<<5) + 0xBCA00100) : ((j<<5) + 0xBC900100);
interupt[4] |= 0x00040000;
while (interupt[4] & 0x00020000){};
interupt[4] &= 0xFFFF3FFE;
}
}
sceKernelDmaOpAllCancel ();
for(i=0;i<2;i++) {
interupt = (i) ? 0xBCA00000 : 0xBC900000;
interupt[2] = 0xFF;
interupt[4] = 0xFF;
interupt[12] &= ~2;
sceKernelReleaseIntrHandler (i + 0x16);
intr2 = sceKernelCpuSuspendIntr ();
*((int *) 0xBC100050) &= !(0x0020 << (i+1));
sceKernelCpuResumeIntr (intr2);
}
return;
}
#define _sceKernelDmaSetSyncCallback DmacManForKernel_32757C57
void _sceKernelDmaSetSyncCallback (void* cb){
SyncCallback=(cb?cb:callback);
}
void sceKernelDmaSoftRequest (int type,int value,int a,int b){
int *var1 = (type) ? 0xBCA00000 : 0xBC900000;
var1[8+2*(!!b)+(!a)] = (1 << value);
__asm__ ("sync;");
}
void sceKernelDmaOpFree (DmaOp* op){
intr = sceKernelCpuSuspendIntr ();
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if(op.mask & UNQUEUED_MASK)return 0x800202BE;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
op[0] = lastDMAop;
op[1] = 0;
op[4] = 0;
op[8] = 0;
op[9] = 0;
op[10] = 0;
op[11] = 0;
op[12] = 0;
op.mask = 0;
op[15] = -1;
if(lastDMAop)lastDMAop.next = op;
op.mask = MALLOCED_MASK;
lastDMAop = op;
sceKernelDeleteEventFlag (op[6]);
sceKernelCpuResumeIntr (intr);
return 0;
}
void sceKernelDmaOpEnQueue (DmaOp* op){
if(!op)return 0x800202CF;
if(!op[2])return 0x800202CD;
intr = sceKernelCpuSuspendIntr ();
while (op[3]) {
if( op.mask & UNQUEUED_MASK)return = 0x800202BE;
if( op.mask & MALLOCED_MASK)return 0x800202C3;
if(!op.mask & ASSIGNED_MASK)return 0x800202C1;
if( op.mask & TRANSFER_MASK)return 0x800202C0;
if( op.mask & USED_MASK)return 0x800202C4;
if(!currDMAop)currDMAop=op;
op.curr = NULL;
op.next = nextDMAop
if(nextDMAop)*nextDMAop=op;
nextDMAop = op;
op.mask |= UNQUEUED_MASK;
buildDMAop ();
}
sceKernelCpuResumeIntr (intr);
return 0;
}
void sceKernelDmaOpDeQueue (DmaOp* op){
if(!op)return 0x800202CF;
if((op.mask & MALLOCED_MASK))return 0x800202C3;
if(!(op.mask & ASSIGNED_MASK))return 0x800202C1;
if((op.mask & TRANSFER_MASK))return 0x800202C0;
if(!(op.mask & UNQUEUED_MASK))return 0x800202BF;
intr = sceKernelCpuSuspendIntr ();
if(op.next)op.next.curr = op.curr;
if(op.curr)op.curr.next = op.next;
if(nextDMAop == op)nextDMAop = nextDMAop.next;
if(currDMAop == op)currDMAop = currDMAop.curr;
op.next = NULL;
op.curr = NULL;
op.mask &= ~2;
sceKernelCpuResumeIntr (intr);
}
void sceKernelDmaOpAllCancel (){
if(currDMAop)return 0x800202BF;
intr = sceKernelCpuSuspendIntr ();
for (int i=0;!*(0x2000);i++) {
if(i < 16){
*(0x2000) = ctx_header[i];
continue;
}
//nothing found in ctx header :
if(currDMAop){
currDMAop.next = NULL;
currDMAop.curr = NULL;
}
nextDMAop = NULL;
currDMAop = NULL;
sceKernelCpuResumeIntr (intr);
return 0x800202C0;
}
sceKernelCpuResumeIntr (intr);
}
void sceKernelDmaOpSetCallback (DmaOp* op,void* suspend,void* resume){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if((!op.mask & ASSIGNED_MASK))return 0x800202C1;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
if(op.mask & USED_MASK)return 0x800202C4;
op[4] = suspend;
op[5] = resume;
return 0;
}
void sceKernelDmaOpSetupMemcpy (DmaOp* op,int src,int dst,int len){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if((!op.mask & ASSIGNED_MASK))return 0x800202C1;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
if(op.mask & USED_MASK)return 0x800202C4;
if(len >= 0x1000)return 0x800202CE;
op[8] = dst;
op[9] = src;
op[10] = 0;
op[11] = (len | 0x8C4BF000);
op[12] |= 0xC001;
return 0;
}
void sceKernelDmaOpSetupNormal (DmaOp* op,int arg2,int arg3,int arg4,int arg5){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if((!op.mask & ASSIGNED_MASK))return 0x800202C1;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
if(op.mask & USED_MASK)return 0x800202C4;
op[8] = arg4;
op[9] = arg3;
op[10] = 0;
op[11] = (arg5 | 0x80000000);
op[12] |= (arg2 | 0xC001);
return 0;
}
void sceKernelDmaOpSetupLink (DmaOp* op,int cmd,DmaOp* arg3){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if((!op.mask & ASSIGNED_MASK))return 0x800202C1;
if(op.mask & 0x0002)return 0x800202C0;
if(op.mask & 0x0070)return 0x800202C4;
arg3 = 0xA0000000 | (((arg3 & 0xFFFFFFFC)) & 0x1FFFFFFF);
op.mask = arg3;
op[8] = arg3[0];
op[9] = arg3[1];
op[10] = arg3[2];
op[11] = arg3[3];
op[12] |= (cmd | 0xC001);
while (arg3[2]) {
arg3 = 0xA0000000 | (arg3[2] & 0x1FFFFFFF);
var17 = arg3[2];
var16 = arg3[2];
}
arg3[3] |= 0x80000000;
(*SyncCallback) (4,((op[12] | cmd) | 0xC001),op[12] | cmd,arg3[2],0xA0000000,var17,var16,0);
op[15] = arg3;
return 0;
}
void sceKernelDmaOpSync (DmaOp* op,int arg2,int evParam){
if(!(op.mask == 0x0000))return 0x800202CF;
if(!((op.mask & MALLOCED_MASK) != 0x0000))return 0x800202C3;
if(!((op.mask & ASSIGNED_MASK) == 0x0000))return 0x800202C1;
if(!((op.mask & PENDING_MASK) != 0x0000))return 0x800202C6;
if(arg2 == 1)return (sceKernelWaitEventFlag (op[6],0x0006,0x0011,0x0000,0x0000)) ? 0x80020001 : 0;
if(arg2 < 2){//error
if(arg2)return 0x80020001;//impossible ?
if(op.mask & FINISHED_MASK)return 0x80020001;
if(!(op.mask & SUCCED_MASK))return 0x800202C7;
if(!(op.mask & UNQUEUED_MASK))return 0x800202BE;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
return 0x800202BF;
}else{
if(arg2 != 0x0002)return 0x80020001;
res = sceKernelWaitEventFlag (op[6],0x0006,0x0010,0x0000,&arg3);
if(!res)return 0;
if(res != 0x800201A8)
return 0x80020001;
OpSync (op);
return 0x800202C2;
}
return 0;
}
void OpSync (int arg1){
addr = (op[15] >> 3) ? 0xBCA00000 : 0xBC900000;
while ((((op[15]&7)<<5)+addr)[4] &= ~2) & UNQUEUED_MASK) {}
var12 = 1 << (op[15] & 7);
op.mask = PENDING_MASK;
*((int *) 0x4048) &= !(1 << op[15]);
op[15] = -1;
((op[15] << 2) + 0x2000)[0] = 0;
addr[2] = var12;
addr[4] = var12;
}
void sceKernelDmaOpQuit (DmaOp* op){
intr = sceKernelCpuSuspendIntr ();
if(!op)return 0x800202CF;
if(!(op.mask & MALLOCED_MASK))return 0x800202C3;
if(op.mask & ASSIGNED_MASK)return 0x800202C1;
if(!(op.mask & FINISHED_MASK))return 0x800202BF;
if(!(op.mask & UNQUEUED_MASK))return 0x800202BE;
if(!(op.mask & SUCCED_MASK))return 0x800202C7;
if(!(op.mask & PENDING_MASK))return 0x800202C6;
if(op.mask & 0x0002)return 0x80020001;
OpSync (op);
sceKernelCpuResumeIntrWithSync (intr);
return 0;
}
void DmacManForKernel_E18A93A5 (DmaOp*op,int arg2){
if(!op)return;
var3 = 0xA0000000 | (arg2 & 0x1FFFFFFF);
while (var3[2])
var3 = 0xA0000000 | (var3[2] & 0x1FFFFFFF);
var3[3] |= 0x80000000;
var12 = (op.mask) & 0xFFFF;
if((var12 & 0x00001170) != 0x00000100)return 0;
intr = sceKernelCpuSuspendIntr ();
if(!(var12&2){
if(!var12&1)return 0x80020001;
op[15][2] = arg2;
op[15] = var3;
}else{
var17 = ((var14&7)<<5) + (((char) op[15])>>3)?0xBCA00100:0xBC900100;
var17[4] |= 0x00040000;
if(!var17[2]){
var36 = (var17[4]|0x00040000) & 0x01003800;
if(((((var36 ^ 0x01000000) < 1)) | (((var36 ^ 0x01001000) < 1))))return 0x800202BC;
if(var36 == 0x01003000)return 0x800202BC;
while (var17[4] & 0x00020000) {}
if(!(var17[3] & 0x0FFF))return 0x800202C4;
var17[4] &= ~2;
while (var17[4]&1) {}
var17[2] = arg2;
var17[4]|=1;
}else op[15][2] = arg2;
op[15] = var3;
var17[4] |= var17[4] & 0xFFFBFFFF;
}
(*0x00004058) (4,var17[4],op[15],var17[4],op[15],0,var20,0x00040000);
sceKernelCpuResumeIntrWithSync (intr);
}
void sceKernelDmaOpAssignMultiple (DmaOp**op,int n){
if((((n -2) >= 16)))return 0x800202BD;
for (int i=0;i<16;i++)
n -= 1&(((unsigned short *) op[0])[26] >> i);
if(n<0)return 0x800202BD;
for(i=0;i<n;i++) {
if(!op[i])return 0x800202CF;
if((op[i][14] & MALLOCED_MASK))return 0x800202C3;
if(!(op[i][14] & ASSIGNED_MASK))return 0x800202C1;
if((op[i][14] & UNQUEUED_MASK))return 0x800202BE;
if((op[i][14] & 0x0002))return 0x800202C0;
if((op[i][14] & 0x0070))return 0x800202C4;
}
intr = sceKernelCpuSuspendIntr ();
while (i=0;i < n-1;i++) {//re-reverse
op.curr[3] = op.next;
op.next[2] = op.curr;
op.curr.curr = NULL;
op.curr.next = NULL;
op.next.mask = op.curr.mask;
}
arg1.curr[27] = n;
sceKernelCpuResumeIntr (intr);
}
void intrHandler (int unused,int type){
intr = sceKernelCpuSuspendIntr ();
addr = (type) ? 0xBCA00000 : 0xBC900000;
value = (addr[3] | addr[1]) & 0xFF;
for (i = 0;value >= (1 << i);i++) {
if(value & (1 << i))continue;
op = (0x2000)[(type*2)+i];
if(!op){
if(!(*((int *) 0x4040) & (1 << ((type << 3) + i))))
Kprintf ("Fatal error: Stray interrupt occurred\n");
continue;
}
var46 = i << 5 + addr;
op[8] = var46[0];
op[9] = var46[1];
op[10] =var46[2];
op[11] =var46[3];
op[12] =var46[4];
if(!((addr[1][1] & (1 << i))){
if(var46[2]&&(var46[4]&1))OpSync (op);
op.mask |= 0x10;
*((int *) 0x4048) &= !(1 << ((type << 3) + i));
((int *) ((((type << 3) + i) << 2) + 0x2000))[0] = 0;
op.mask &= ~2;
op[15] = -1;
if(op[6] > 0)sceKernelSetEventFlag (op[6],4);
((type) ? 0xBCA00000 : 0xBC900000)[4] = (1 << i);
var61 = -1;
}else{
if(!var46[2] && !(var46[4]&1)){
*((int *) 0x4048) &= !(1 << ((type << 3) + i));
((int *) ((((type << 3) + i) << 2) + 0x2000))[0] = 0;
op.mask = ((op.mask | 0x0040) & ~2);
op[15] = -1;
if(op[6]>0)sceKernelSetEventFlag (op[6],2);
}
((type) ? 0xBCA00000 : 0xBC900000)[2] = (1 << i);
var61 = 0;
}
if(!op[4]||((*var62) (op,var61,((type << 3) + i),op[5]) != 1))continue;
if(op.mask){
op[8] = op.mask[0];
op[9] = op.mask[1];
op[10] = op.mask[2];
op[11] = op.mask[3];
}
if(!currDMAop)currDMAop = op;
op[0] = 0;
op[1] = nextDMAop;
if(nextDMAop)nextDMAop[0] = op;
nextDMAop = op;
op.mask |= 1;
}
if(!currDMAop)buildDMAop ();
var14 = *((int *) 0x4040) | *((int *) 0x4048);
if(!(var14 & 0xFF))
*((int *) 0xBC100050) &= ~0x20;
if(!(var14 & 0xFF00))
*((int *) 0xBC100050) &= ~0x40;
sceKernelCpuResumeIntr (intr);
}
void buildDMAop (){
var4 = *((int *) 0x4040) | *((int *) 0x4048);
var5 = var4 ^ 0xFFFF;
if((((0x0000 < currDMAop)) & ((0x0000 < var5)))){
var6 = currDMAop[3];
while (1) {
if(!var6||!currDMAop[2]){
var26 = currDMAop;
while (1) {
var27 = ((unsigned short *) var26)[15];
var28 = (char) var27;
if(var28 < 0){
var55 = ((unsigned short *) var26)[26];
var28 = CLZ ((BITREV ((var55 & (!var4)))));
if(((var28 < 0x0010)) == 0x0000)
break;
((int *) ((var28 << 0x0002) + 0x2000))[0] = var26;
var4 = var4 | (0x0001 << var28);
((short *) var26)[15] = var28;
}
var29 = *((int *) 0xBC100050);
var31 = 0x20 << (var28>>3);
if(!(var29&var31)){
*((int *) 0xBC100050) = (var29 | var31);
var32 = (var28>>3) ? 0xBCA00000 : 0xBC900000;
((int *) var32)[12]|= 1;
((int *) var32)[13] = 0;
for(i=7;i>=0;i--,var32+=0x20) {
var32[64] = 0;
var32[65] = 0;
var32[66] = 0;
var32[67] = 0;
var32[68] = 0;
}
((int *) var32)[2] = 0x00FF;
((int *) var32)[4] = 0x00FF;
}
var39 = ((var28 & 7)<<5) + (var28>>3) ?0xBCA00100:0xBC900100;
((int *) var39)[0] = ((int *) var26)[8];
((int *) var39)[1] = ((int *) var26)[9];
((int *) var39)[2] = ((int *) var26)[10];
((int *) var39)[3] = ((int *) var26)[11];
((int *) var39)[4] = ((int *) var26)[12];
((short *) var26)[14] |= 2;
if(((int *) var26)[2]){
var26 = ((int *) var26)[3];
}else{
var46 = ((unsigned short *) var26)[14];
((short *) var26)[14] = ((var46 & 0xFFFFFFFE) | (0x0000 & UNQUEUED_MASK));
if(nextDMAop == var26)nextDMAop = nextDMAop[1];
if(currDMAop == var26) currDMAop = *currDMAop;
var49 = ((int *) var26)[1];
if(var49){
((int *) var26)[1] = 0x0000;
((int *) var49)[0] = ((int *) var26)[0];
}
var51 = ((int *) var26)[0];
if(var51){
var52 = ((int *) var26)[1];
((int *) var26)[0] = 0x0000;
((int *) var51)[1] = var52;
}
var26 = ((int *) var26)[3];
}
if(var26)continue;
break;
}
currDMAop = currDMAop[0];
var5 = var4 ^ 0xFFFF;
label51:
if(!((((0x0000 < currDMAop)) & ((0x0000 < var5)))))
break;
var6 = currDMAop[3];
continue;
}else{
var9 = ((unsigned short *) currDMAop)[27];
var10 = ((unsigned short *) currDMAop)[26] & (!var4);
for (int i=1;i < 16;i++)
var9 -= ((var10 >> i) & UNQUEUED_MASK);
var12 = currDMAop;
if(var9 >= 0){
var23 = 0x1FFC;
for (int i=0;var12;i++) {
var25 = 1 << i;
if(var10 & var25){
var23[i] = var12;
var4 |= var25;
((short *) var12)[15] = i;
var12 = var12[3];
}
}
goto label16;
}else{
if((var13=currDMAop[0])){
var13[1] = currDMAop[1];
currDMAop[1] = var13;
currDMAop[0] = var13[0];
if(var13[1])var13[1][0] = var13;
else currDMAop = var13;
if(var13[0]) currDMAop[0][1] = currDMAop;
else nextDMAop = currDMAop;
var13[0] = currDMAop;
currDMAop = var13;
goto label51;
}
}
}
goto label54;
}
}
label54:
*((int *) 0x4048) = (var4 & (!*((int *) 0x4040)));
}
void sceKernelDmaChExclude (int ch,int arg2){
if(ch>15)return;
if(*((int *) 0x4044) & (1 << ch))return;
intr = sceKernelCpuSuspendIntr ();
if(arg2){
*((int *) 0x4040) |= (1 << ch));
clearDma (ch >> 3);
}else{
*((int *) 0x4040) &= (!(1 << ch));
}
sceKernelCpuResumeIntr (intr);
return;
}
void sceKernelDmaChReserve (int arg1,int arg2){
if(*((int *) 0x4040) & (1 << arg1))return;
intr = sceKernelCpuSuspendIntr ();
if(arg2 < 0) *((int *) 0x4044) &= !(1 << arg1);
else *((int *) 0x4044) |= (1 << arg1);
sceKernelCpuResumeIntr (intr);
}
void sceKernelDmaOpAlloc (){
if(!lastDMAop)return;
if(lastDMAop.mask & MALLOCED_MASK)return;
intr=sceKernelCpuSuspendIntr ();
op=*lastDMAop;
op[2] = 0;
op[3] = 0;
op[4] = 0;
op[6] = sceKernelCreateEventFlag ("SceDmacmanEvflag");
op.mask = 0;
op[15] = -1;
op[26] = -1;
sceKernelCpuResumeIntr (intr);
return;
}
void sceKernelDmaOpAssign (DmaOp* op,char lo,char hi,int arg4){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
if(op.mask & UNQUEUED_MASK)return 0x800202BE;
if(op.mask & TRANSFER_MASK)return 0x800202C0;
op[12]=arg4;
op[26]=(hi<<8)|lo;
op.mask=ASSIGNED_MASK;
return 0;
}
void DmacManForKernel_1FC036B7 (int op,int arg2){
op[15][2] = arg2;
(*SyncCallback) (0x0004,arg2,0x0000,arg4,arg5,arg6,arg7,arg8);
arg2 = 0xA0000000 | (arg2 & 0x1FFFFFFF);
while (arg2[2])
arg2 = (0xA0000000 | (arg2[2] & 0x1FFFFFFF))[2];
op[15] = arg2;
}
void sceKernelDmaOnDebugMode (){
return;
}
void sceKernelDmaOpFreeLink (DmaOp* op){
if(!op)return 0x800202CF;
if(op.mask & MALLOCED_MASK)return 0x800202C3;
return (op.mask & ASSIGNED_MASK) ? 0 : 0x800202C1;
}
void suspendHandler (){
for (n=15;n >= 0;n--)
if(0x2000[i])OpSync (*0x2000[i]);
*((int *) 0x4048) = 0;
sceKernelDmaOpAllCancel ();
sceKernelDisableIntr (0x16);
sceKernelDisableIntr (0x17);
}
void resumeHandler (){
if((*((int *) 0x4040) & 0xFF00))clearDma (1);
if((*((int *) 0x4040) & 0x00FF))clearDma (0);
sceKernelEnableIntr (0x16);
sceKernelEnableIntr (0x17);
}
void callback (){
__asm__ ("sync;");
return ((((ra >> 0x1F) + 2) << 0x1D) | ra)[0];
}
void clearDma (int type){
if(*(0xBC100050) & (0x20 << type))return;
*(0xBC100050)|=(0x20 << type);
addr = (type) ? 0xBCA00000 : 0xBC900000;
addr[12]|= 1;
addr[13] = 0;
for(i=8;i>=0;i--,addr+=0x20) {
addr[64] = 0;
addr[65] = 0;
addr[66] = 0;
addr[67] = 0;
addr[68] = 0;
}
addr[2] = 0xFF;
addr[4] = 0xFF;
}
/*
void sample (int src, int dst, int len){
if (!((0x00220202 >> ((src >> 27) & 0x1F))&1))return;
void*op=sceKernelDmaOpAlloc ();
sceKernelDmaOpAssign (op, 0xFF, 0xFF, 0, 0);
bloc = len >> 2;
sceKernelDmaOpSetupMemcpy (op,
(((((src >> 0x1F)^1) << 0x1E) & 0xE0000000)|(src&~0xE0000000)),
(((((dst >> 0x1F)^1) << 0x1E) & 0xE0000000)|(dst&~0xE0000000)), bloc);
_len = bloc << 2;
sceKernelDcacheInvalidateRange (src, _len);
sceKernelDcacheWritebackInvalidateRange (p, _len);
sceKernelDmaOpEnQueue (op);
sceKernelDmaOpSync (op, 1, 0);
sceDdrFlush (1);
sceKernelDmaOpFree (op);
}
*/
|
0xb15c077e
|
trunk/RE/PSP/dmacman.c
|
C
|
mit
| 18,722
|
#include <pspsdk.h>
void sceSysreg_driver_26D97F66 (){
setReset (1, 1);
}
void sceSysreg_driver_36DA035E (){
setReset (2, 1);
}
void sceSysreg_driver_20C9E2C4 (){
setReset (0x04, 1);
}
void sceSysreg_driver_5F190A4E (){
setReset (0x04, 0);
}
void sceSysreg_driver_2CFF6043 (){
setReset (0x08, 1);
}
void sceSysreg_driver_DBD8D3D2 (){
setReset (0x08, 0);
}
void sceSysreg_driver_4FFB12A2 (){
setReset (0x10, 1);
}
void sceSysreg_driver_CEE8BAF6 (){
setReset (0x10, 0);
}
void sceSysreg_driver_663D5471 (){
setReset (0x20, 1);
}
void sceSysreg_driver_35BC4DD2 (){
setReset (0x20, 0);
}
void sceSysreg_driver_E70F8FD3 (){
setReset (0x40, 1);
}
void sceSysreg_driver_09220B6F (){
setReset (0x40, 0);
}
void sceSysreg_driver_77F3701E (){
setReset (0x80, 1);
}
void sceSysreg_driver_B3F134C7 (){
setReset (0x80, 0);
}
void sceSysreg_driver_AE663FC3 (int arg1){
if((arg1>0)&&(arg1<2))setReset ((0x0100 << arg1), 1);
}
void sceSysreg_driver_63FBF749 (int arg1){
if((arg1>0)&&(arg1<2))setReset ((0x0100 << arg1), 0);
}
void sceSysreg_driver_1389C30D (){
setReset (0x0400, 1);
return;
}
void sceSysreg_driver_DA41BE07 (){
setReset (0x0400, 0);
}
void sceSysreg_driver_1DC62106 (){
setReset (0x1000, 1);
}
void sceSysreg_driver_C778A8A3 (){
setReset (0x1000, 0);
return;
}
void sceSysreg_driver_89C72A7B (){
setReset (0x2000, 1);
}
void sceSysreg_driver_8721EA15 (){
setReset (0x2000, 0);
}
void setReset (int arg1, int arg2){
int intr = sceKernelCpuSuspendIntr ();
if(arg2)*((int *) 0xBC10004C) |= arg1
else *((int *) 0xBC10004C) ^= arg1 & *((int *) 0xBC10004C);
sceKernelCpuResumeIntr (intr, arg2);
}
void sceSysreg_driver_08E0EE7E (){
setBusClock (1, 1);
}
void sceSysreg_driver_CD36673C (){
setBusClock (1, 0);
}
void sceSysreg_driver_3C5806AF (){
setBusClock (2, 1);
}
void sceSysreg_driver_126F5946 (){
setBusClock (2, 0);
}
void sceSysreg_driver_819ACEB6 (){
setBusClock (0x04, 1);
}
void sceSysreg_driver_FE32C7C1 (){
setBusClock (0x04, 0);
}
void sceSysreg_driver_05A0D371 (){
setBusClock (0x08, 1);
}
void sceSysreg_driver_BE63A2B9 (){
setBusClock (0x08, 0);
}
void sceSysregDmacplusBusClockEnable (){
setBusClock (0x10, 1);
}
void sceSysregDmacplusBusClockDisable (){
setBusClock (0x10, 0);
}
void sceSysreg_driver_E74CB850 (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x20 << arg1), 1);
}
void sceSysreg_driver_5ECA49E4 (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x20 << arg1), 0);
}
void sceSysreg_driver_3C7163B5 (){
setBusClock (0x80, 1);
}
void sceSysreg_driver_8A56E7F1 (){
setBusClock (0x80, 0);
}
void sceSysregAtaBusClockEnable (){
setBusClock (0x0100, 1);
}
void sceSysregAtaBusClockDisable (){
setBusClock (0x0100, 0);
}
void sceSysreg_driver_00CEA69D (){
setBusClock (0x0200, 1);
}
void sceSysreg_driver_04FA5F9F (){
setBusClock (0x0200, 0);
}
void sceSysreg_driver_CAC37836 (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x0400 << arg1), 1);
}
void sceSysreg_driver_4638FA5B (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x0400 << arg1), 0);
}
void sceSysreg_driver_A012D356 (){
setBusClock (0x1000, 1);
}
void sceSysreg_driver_31BE6914 (){
setBusClock (0x1000, 0);
}
void sceSysregEmcsmBusClockEnable (){
setBusClock (0x2000, 1);
}
void sceSysregEmcsmBusClockDisable (){
setBusClock (0x2000, 0);
}
void sceSysreg_driver_70DB03B3 (){
setBusClock (0x4000, 1);
}
void sceSysreg_driver_73F75CF8 (){
setBusClock (0x4000, 0);
}
void sceSysreg_driver_C7FC7669 (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x8000 << arg1), 1);
}
void sceSysreg_driver_F9A652BC (int arg1){
if((arg1>0)&&(arg1<2))setBusClock ((0x8000 << arg1), 0);
}
void sceSysreg_driver_97B76F89 (){
setBusClock (0x00020000, 1);
}
void sceSysreg_driver_58B2671B (){
setBusClock (0x00020000, 0);
}
void sceSysreg_driver_C367C076 (){
setBusClock (0x00040000, 1);
}
void sceSysreg_driver_C03903EE (){
setBusClock (0x00040000, 0);
}
void setBusClock (int arg1, int arg2){
int intr = sceKernelCpuSuspendIntr ();
if(arg2)*((int *) 0xBC100050) |= arg1;
else *((int *) 0xBC100050) ^= *((int *) 0xBC100050) & arg1;
sceKernelCpuResumeIntr (intr, arg2);
}
void sceSysreg_driver_AFD7C10B (){
setClk (1, 1);
}
void sceSysreg_driver_BD89766B (){
setClk (1, 0);
}
void sceSysreg_driver_3616B538 (){
setClk (2, 1);
}
void sceSysreg_driver_FC42CD72 (){
setClk (2, 0);
}
void sceSysreg_driver_7E046110 (){
setClk (0x00010000, 1);
}
void sceSysreg_driver_4F9452D7 (){
setClk (0x00010000, 0);
}
void sceSysreg_driver_6CD41073 (int arg1){
if((arg1>0)&&(arg1<2))setClk ((0x0100 << arg1), 1);
}
void sceSysreg_driver_3AAE2AE9 (int arg1){
if((arg1>0)&&(arg1<2))setClk ((0x0100 << arg1), 0);
}
void sceSysregSpiClkEnable (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x0100 << arg1), 1);
}
void sceSysregSpiClkDisable (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x0100 << arg1), 0);
}
void sceSysregUartClkEnable (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x40 << arg1), 1);
}
void sceSysregUartClkDisable (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x40 << arg1), 0);
}
void sceSysreg_driver_9C89F935 (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x1000 << arg1), 1);
}
void sceSysreg_driver_036D4A59 (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x1000 << arg1), 0);
}
void sceSysreg_driver_823FFD7A (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x00010000 << arg1), 1);
}
void sceSysreg_driver_E2412D26 (int arg1){
if((arg1>0)&&(arg1<2))setClkout ((0x00010000 << arg1), 0);
}
void sceSysreg_driver_F092AED8 (){
setClkout (0x00040000, 1);
}
void sceSysreg_driver_280F9241 (){
setClkout (0x00040000, 0);
}
void sceSysreg_driver_8684E7A1 (){
setClkout (0x00080000, 1);
}
void sceSysreg_driver_03BD35E5 (){
setClkout (0x00080000, 0);
}
void sceSysreg_driver_C0BC0E36 (){
setClkout (0x00100000, 1);
}
void sceSysreg_driver_4ACB2BB3 (){
setClkout (0x00100000, 0);
}
void sceSysreg_driver_04839CA2 (){
setClkout (0x00200000, 1);
}
void sceSysreg_driver_917F9660 (){
setClkout (0x00200000, 0);
}
void sceSysregSircsClkEnable (){
setClkout (0x00400000, 1);
}
void sceSysregSircsClkDisable (){
setClkout (0x00400000, 0);
}
void sceSysreg_driver_2E9CF295 (){
setClkout (0x00800000, 1);
}
void sceSysreg_driver_E987E988 (){
setClkout (0x00800000, 0);
}
void sceSysreg_driver_7A154A45 (){
setClkout (0x01000000, 1);
}
void sceSysreg_driver_CA84A2D9 (){
setClkout (0x01000000, 0);
}
void setClk (int arg1, int arg2){
int intr = sceKernelCpuSuspendIntr ();
if(arg2)*((int *) 0xBC100054) |= arg1;
else *((int *) 0xBC100054) ^= arg1 & *((int *) 0xBC100054);
sceKernelCpuResumeIntr (intr, arg2);
}
void setClkout (int arg1, int arg2){
int intr = sceKernelCpuSuspendIntr ();
if(arg2)*((int *) 0xBC100058) |= arg1;
else *((int *) 0xBC100058) ^= arg1 & *((int *) 0xBC100054);
sceKernelCpuResumeIntr (intr, arg2);
}
void sceSysreg_driver_D5F04B96 (int arg1){
setClkEx (arg1, 1);
}
void sceSysreg_driver_C60904D4 (int arg1){
setClkEx (arg1, 0);
}
void setClkEx (int arg1, int arg2){
int intr = sceKernelCpuSuspendIntr ();
if(!arg2) *((int *) 0xBC100054) = (*((int *) 0xBC100054)&~0xF0)|((((*((int *) 0xBC100054)>>4)&0xF)|arg1));
else *((int *) 0xBC100054) = (*((int *) 0xBC100054)&~0xF0)|((((*((int *) 0xBC100054)>>4)&0xF)|arg1)&0x0F);
sceKernelCpuResumeIntr (intr, arg2);
}
void sceSysregEmcsmIoEnable (){
setIo (2, 1);
}
void sceSysregEmcsmIoDisable (){
setIo (2, 0);
}
void sceSysreg_driver_03E84901 (){
setIo (0x04, 1);
}
void sceSysreg_driver_B5CD678F (){
setIo (0x04, 0);
}
void sceSysreg_driver_463B488C (){
setIo (0x08, 1);
}
void sceSysreg_driver_421E5DCF (){
setIo (0x08, 0);
}
void sceSysreg_driver_86D9213D (int arg1){
if((arg1>0)&&(arg1<2))setIo ((0x10 << arg1), 1);
}
void sceSysreg_driver_9FBCA4D0 (int arg1){
if((arg1>0)&&(arg1<2))setIo ((0x10 << arg1), 0);
}
void sceSysreg_driver_BEF287D5 (){
setIo (0x40, 1);
}
void sceSysreg_driver_FF6D37E7 (){
setIo (0x40, 0);
}
void sceSysreg_driver_410C74F7 (int arg1){
if (arg1 < 0)return;
if (((arg1 < 2)) == 0)return;
setIo ((0x80 << arg1), 1);
}
void sceSysreg_driver_3841D7C8 (int arg1){
if (arg1 < 0)return;
if (((arg1 < 2)) == 0)return;
setIo ((0x80 << arg1), 0);
}
void sceSysreg_driver_23944179 (){
setIo (0x0200, 1);
}
void sceSysreg_driver_6D204F2A (){
setIo (0x0200, 0);
}
void sceSysregSircsIoEnable (){
setIo (0x0400, 1);
}
void sceSysregSircsIoDisable (){
setIo (0x0400, 0);
}
void sceSysreg_driver_E46A0890 (){
setIo (0x0800, 1);
}
void sceSysreg_driver_77B582E9 (){
setIo (0x0800, 0);
}
void sceSysreg_driver_9B2871A8 (){
}
void sceSysreg_driver_3160E8A2 (){
}
void sceSysreg_driver_6B5C5FD0 (){
setIo (0x2000, 1);
}
void sceSysreg_driver_80995BB5 (){
setIo (0x2000, 0);
}
void sceSysreg_driver_FB40B1AA (){
setIo (0x4000, 1);
}
void sceSysreg_driver_3F0DF46D (){
setIo (0x4000, 0);
}
void sceSysregUartIoEnable (int arg1){
if (arg1 < 0)return
if (((arg1 < 6)) == 0)return;
setIo ((0x00010000 << arg1), 1);
}
void sceSysregUartIoDisable (int arg1){
if (arg1 < 0)return
if (((arg1 < 6)) == 0)return;
setIo ((0x00010000 << arg1), 0);
}
void sceSysregSpiIoEnable (int arg1){
if (arg1 < 0)return
if (((arg1 < 6)) == 0)return;
setIo ((0x01000000 << arg1), 1);
}
void sceSysregSpiIoDisable (int arg1){
if (arg1 < 0)return
if (((arg1 < 6)) == 0)return;
setIo ((0x01000000 << arg1), 0);
}
void setIo (int arg1, int arg2){
intr = sceKernelCpuSuspendIntr ();
prev = *((int *) 0xBC100078);
*((int *) 0xBC100078) = (!(arg2) ? (prev ^ prev & arg1) : (prev | arg1));
sceKernelCpuResumeIntr (intr, arg2);
}
void sceSysreg_driver_217316F7 (int arg1){
if (arg1<0)return;
if (arg1>=0x20)return;
sub_00B04 ((1 << arg1), 1);
}
void sceSysreg_driver_C0D33340 (int arg1){
if (arg1<0)return;
if (arg1>=0x20)return;
sub_00B04 ((1 << arg1), 0);
}
void sub_00B04 (int arg1, int arg2){
var3 = sceKernelCpuSuspendIntr ();
prev = *((int *) 0xBC10007C);
*((int *) 0xBC10007C) = (!(arg2) ? (prev ^ (prev & arg1)) : (prev | arg1));
sceKernelCpuResumeIntr (var3, arg2);
}
void sceSysreg_driver_64C2D131 (int arg1){
sub_00BA4 (arg1, 0, 1);
}
void sceSysreg_driver_ACA3F3A3 (int arg1){
sub_00BA4 (arg1, 1, 1);
}
void sceSysreg_driver_19DF2827 (int arg1){
sub_00BA4 (arg1, 0, 2);
}
void sceSysreg_driver_02A1F862 (int arg1){
sub_00BA4 (arg1, 1, 2);
}
void sceSysreg_driver_2FCFA7CD (){
sub_00BCC (0x0100, 1);
}
void sceSysreg_driver_E440DC4A (){
sub_00BCC (0x0100, 0);
}
void sub_00BA4 (int arg1, int arg2, int arg3){
if (arg1 < 0)return;
if (arg1 >= 2)return;
sub_00BCC ((arg3 << (arg1 << 2)), arg2);
}
void sub_00BCC (int arg1, int arg2){
intr = sceKernelCpuSuspendIntr ();
if(arg2)*((int *) 0xBC100074)|=arg1;
else *((int *) 0xBC100074)^=arg1&*((int *) 0xBC100074);
sceKernelCpuResumeIntr (intr, arg2);
return = 0 < *((int *) 0xBC100074) & arg1;
}
void sceSysreg_driver_12EF2C08 (){
return *((int *) 0xBC100080);
}
void sceSysreg_driver_0C3CFD86 (){
var1 = *((int *) 0xBC100080);
}
void sceSysreg_driver_7911A536 (int arg1){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC100080) = (((arg1 & ((*((int *) 0xBC100080) >> 1) & 0xF)) & 0xF) << 1);
sceKernelCpuResumeIntrWithSync (intr);
}
void sceSysreg_driver_F464A3D9 (){
return *((int *) 0xBC1000B0);
}
void sceSysreg_driver_8D4FE210 (int arg1){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC1000B0) = ((arg1 & (*((int *) 0xBC1000B0) & 7)) & 7);
sceKernelCpuResumeIntrWithSync (intr);
}
void sceSysreg_driver_49B453CB (int arg1){
if (arg1 < 0)return;
if (arg1 >= 2)return;
return *((int *) 0xBC100080);
}
void sceSysreg_driver_36BBA207 (int arg1){
if (arg1 < 0)return;
if (arg1 >= 2)return;
return *((int *) 0xBC100080);
}
void sceSysreg_driver_BA43633B (int arg1, int arg2){
if (arg1 < 0)return;
if (arg1 >= 2)return;
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC100080) = (((arg2 & (((*((int *) 0xBC100080) >> (arg1 << 3)) >> 9) & 7)) << 9) << (arg1 << 3));
sceKernelCpuResumeIntrWithSync (intr);
}
void sceSysreg_driver_EEE7B082 (){
__asm__ ("sync;");
*((int *) 0xBC100044) = 1;
__asm__ ("sync;");
}
int sceSysreg_driver_461B8077 (){
__asm__ ("mfc0 $v1, COP0_22;" : "=r"(var1));
__asm__ ("sync;");
*((int *) 0xBC100048) = var1 + 1;
return (!(((*((int *) 0xBC100048) & 3) ^ *((int *) 0xBC100048))) ? 0 : -1);
}
void sceSysreg_driver_0E6301D0 (){
__asm__ ("sync;");
*((int *) 0xBC100048) = 0;
__asm__ ("sync;");
}
int sceSysreg_driver_F03852E0 (int arg1){
intr = sceKernelCpuSuspendIntr ();
while (sceSysreg_driver_461B8077 ());
sceSysreg_driver_0E6301D0 ();
sceKernelCpuResumeIntr (intr);
return *arg1;
}
int sceSysreg_driver_9CE69EC1 (int arg1, int arg2, int arg3){
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
((int *) sp)[1] = arg1;
((int *) sp)[2] = arg2;
((int *) sp)[3] = arg3;
var3 = sceKernelCpuSuspendIntr ();
while (1) {
var6 = sceSysreg_driver_461B8077 ();
if (var6 < 0)
continue;
break;
}
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[3];
var10 = ((int *) var7)[0];
((int *) var7)[0] = ((var10 & var8) | var9);
((int *) sp)[3] = var10;
sceSysreg_driver_0E6301D0 ();
sceKernelCpuResumeIntr ();
ra = ((int *) sp)[0];
var15 = ((int *) sp)[3];
sp = sp + 0x10;
return var15;
}
void sceDdrInit (){
return;
}
void sceDdrEnd (){
return;
}
void sceDdrSuspend (){
return;
}
void sceDdrResume (){
return;
}
void sceDdrFlush (int arg1){
__asm__ ("sync;");
*((int *) 0xBD000004) = arg1 & 0xF;
while (*((int *) 0xBD000004) & (arg1 & 0xF));
}
void sceDdr_driver_647FEC11 (int arg1){
*((int *) 0xBD00002C) = ((((arg1 < 1))) ? 0 : (0x80000000 | arg1));
__asm__ ("sync;");
return;
}
void sceDdr_driver_DC921C35 (){
return *((int *) 0xBD00002C);
}
int sceDdr_driver_C6B7CCDE (){
var1 = 1;
var2 = 0x40;
while (var2--) {
*((int *) 0xBD000040) = 0x2B;
if ((*((int *) 0xBD000040) & 0x0100))break;
var1++;
}
var5 = var1 + 1;
while (var5--) {
*((int *) 0xBD000040) = 0x2A;
0 = *((int *) 0xBD000040);
}
*((int *) 0xBD000040) = 0x20;
__asm__ ("sync;");
return var1;
}
void sceDdr_driver_CFC352DF (int arg1, int arg2, int arg3){
while (((*((int *) 0xBD000020) >> 16) & 1));
*((int *) 0xBD000024) = ((((arg1 & 1) << 0x0A) | (arg2 << 0x10)) | (arg3 & 0x7BFF));
__asm__ ("sync;");
*((int *) 0xBD000020) = (arg1 | 0x8000);
__asm__ ("sync;");
while ((*((int *) 0xBD000020) >> 16) & 1);
}
void sceDdr_driver_75B600EF (int arg1, int arg2, int arg3, int arg4){
sceDdr_driver_19423D2C (arg3);
sceDdr_driver_D341BACD ();
var6 = t8;
if (var6<0)var6 = 1;
sceDdr_driver_740F2933 (t7, var6);
}
void sceDdr_driver_19423D2C (int arg1){
var1 = 0xB970 + (arg1 << 0x03);
var2 = ((int *) var1)[0];
var3 = ((int *) var1)[1];
var4 = *((int *) 0xBD000030);
*((int *) 0xBD000030) = (((var4 | 0x31) ^ 0x31) | var2);
*((int *) 0xBD000038) = var3;
__asm__ ("sync;");
return;
}
void sceDdr_driver_ABFCB233 (){
return *((int *) 0xBD000030);
}
void sceDdr_driver_740F2933 (int arg1, int arg2){
sceDdr_driver_CFC352DF (0x25, 0, 0);
sceDdr_driver_CFC352DF (0x22, 0, 0);
sceDdr_driver_CFC352DF (0x22, 0, 0);
sceDdr_driver_CFC352DF (0x20, 0, ((a3/* Invalid block 7 2 */ << 0x04) | 1));
sceDdr_driver_CFC352DF (0x20, 2, (t6/* Invalid block 9 2 */ << 0x05));
return;
}
/**
* Subroutine at address 0x111C
*/
void sceDdr_driver_B4D05E62 (int arg1, int arg2)
{
sceDdr_driver_CFC352DF (0x20, 2, (arg2 << 0x05));
return;
}
/**
* Subroutine at address 0x1130
*/
void sub_01130 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6)
{
var1 = ra;
sceDdr_driver_D341BACD ();
if (!(t5/* Invalid block 3 2 */ < 0))
{
sceDdr_driver_A0FA6221 (t5/* Invalid block 3 2 */);
}
*((int *) 0xBC100068) = (t4/* Invalid block 7 7 */ | 0x80);
__asm__ ("sync;");
if (!(t6/* Invalid block 7 7 */ < 0))
{
sceDdr_driver_7271F86A (t6/* Invalid block 7 7 */, t7/* Invalid block 7 7 */);
var8 = 2;
var9 = 0x015E;
while (1) {
var10 = *((int *) 0xBD000040);
var9 = var9 + 0xFFFFFFFF;
if (var9 < 0)
break;
if ((var10 & 0x0100) == 0)
continue;
while (1) {
var11 = *((int *) 0xBD000040);
var9 = var9 + 0xFFFFFFFF;
if (var9 < 0)
break;
if ((var11 & 0x0100) != 0)
continue;
var8 = var8 + 0xFFFFFFFF;
if (var8 > 0)
continue;
break;
}
}
if (!(t8/* Invalid block 9 2 */ == 0))
{
while (1) {
__asm__ ("cache 0x19, 0($t8);"
:
: "=r"(t8/* Invalid block 9 2 */));
var12 = ((int *) t8/* Invalid block 9 2 */)[0];
var13 = ((int *) t8/* Invalid block 9 2 */)[1];
var14 = ((int *) t8/* Invalid block 9 2 */)[2];
var15 = ((int *) t8/* Invalid block 9 2 */)[3];
if (((!(var13 & (var14 | var15))) | (var12 | ((ROTV (1, var14)) ^ var15))) != 0)
continue;
break;
}
}
}
return;
}
/**
* Subroutine at address 0x1210
*/
void sceDdr_driver_D341BACD ()
{
var1 = ra;
sceDdr_driver_D341BACD ();
var4 = ra + 0xD4;
var5 = var4 + (a0/* Invalid block 3 2 */ << 0x03);
var6 = ((int *) var5)[0];
var7 = ((int *) var5)[1];
var8 = *((int *) 0xBD000030);
*((int *) 0xBD000030) = ((var8 & 0x31) | (var6 | ((a1/* Invalid block 3 2 */ + 0xFFFFFFFD) << 0x0C)));
*((int *) 0xBD000044) = (var7 & 0xFFFF);
*((int *) 0xBD000034) = (var7 >> 0x10);
__asm__ ("sync;");
return;
}
/**
* Subroutine at address 0x1268
*/
void sceDdr_driver_A0FA6221 (int arg1)
{
var1 = 0x40;
while (1) {
*((int *) 0xBD000040) = 0x2B;
0 = *((int *) 0xBD000040);
var1 = var1 + 0xFFFFFFFF;
if (var1 != 0)
continue;
break;
}
var2 = arg1 + 1;
while (1) {
*((int *) 0xBD000040) = 0x2A;
0 = *((int *) 0xBD000040);
var2 = var2 + 0xFFFFFFFF;
if (var2 != 0)
continue;
break;
}
return;
}
/**
* Subroutine at address 0x12AC
*/
void sceDdr_driver_7271F86A (int arg1, int arg2)
{
*((int *) 0xBD000040) = (arg2 | 0x10);
0 = *((int *) 0xBD000040);
*((int *) 0xBD000040) = (arg1 | 0x10);
0 = *((int *) 0xBD000040);
*((int *) 0xBD000040) = 0x20;
__asm__ ("sync;");
return;
}
/**
* Subroutine at address 0x1370
*/
void module_start (int arg1, int arg2){
sceKernelUnregisterSysEventHandler (0xBD40);
sceSysreg_driver_9E170EF1 ();
sceSysreg_driver_2456AE40 ();
sceKernelRegisterSysEventHandler (0xBD40);
sceGpioInit ();
scePwm_driver_19D581D3 ();
sub_04494 ();
sub_04D04 ();
sceLcdc_driver_9182FB30 ();
sceNandInit();
sceDdrInit ();
memcpy (0xBFC00C00, 0x1130, (0x1370 - 0x1130));
DmacManForKernel_32757C57 (0x0F04);
}
/**
* Subroutine at address 0x13F8
*/
void module_reboot_before (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var1 = arg1;
sub_0A6B0 ();
sub_08DAC ();
sub_07DB4 ();
sub_04D88 ();
sub_04564 ();
sub_0332C ();
sub_02934 ();
sub_014A0 ();
ra = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x14A0
*/
void sub_014A0 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_B0FDD88C ();
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x14C0
*/
void sceSysregInit ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelUnregisterSysEventHandler (0xBD40);
sceSysreg_driver_9E170EF1 ();
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x14EC
*/
void sceSysregEnd ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_B0FDD88C ();
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x150C
*/
void sub_0150C ()
{
return;
}
/**
* Subroutine at address 0x1514
*/
int sceSysreg_driver_12DDDF43 (int arg1, int arg2){//sceSysregDoTimerEvent
if (arg1>1)return 0x80000102
if (arg2>3)return 0x80000107;
int intr = sceKernelCpuSuspendIntr ();
if (arg2 == 0){
*((int *) 0xBC10003C) &= !1<<arg1;
}else if (arg2 == 1){
*((int *) 0xBC10003C) |= 1<<arg1;
}else if (arg2 == 2){
*((int *) 0xBC10003C) |= 1<<arg1;
*((int *) 0xBC10003C) &= !1<<arg1;
}else if (arg2 == 3){
*((int *) 0xBC10003C) &= !1<<arg1;
*((int *) 0xBC10003C) |= 1<<arg1;
}
sceKernelCpuResumeIntrWithSync (intr);
return 0;
}
/**
* Subroutine at address 0x15FC
*/
void sceSysreg_driver_7F734EE7 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
var3 = sceSysregGetTachyonVersion ();
if (((0x004FFFFF < var3)) != 0)
{
var8 = sceKernelCpuSuspendIntr ();
__asm__ ("sync;");
var9 = *((int *) 0xBC100040);
if (arg1 == 0)
{
*((int *) 0xBC100040) = ((var9 & 0xFFFFFEFF) | (0 & 1));
}
else
{
*((int *) 0xBC100040) = (var9 | 0x0100);
}
sceKernelCpuResumeIntrWithSync (var8);
}
ra = ((int *) sp)[2];
var4 = ((int *) sp)[1];
var5 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1684
*/
int sceSysregGetTachyonVersion ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = *((int *) 0xBD80);
((int *) sp)[1] = s1;
var2 = var1;
((int *) sp)[2] = ra;
if (var1 == 0xFFFFFFFF)
{
var7 = sceKernelCpuSuspendIntr ();
var8 = *((int *) 0xBC100040);
var9 = (var8 & 0xFF000000) | (0 & 0x00FFFFFF);
var10 = var9 >> 0x08;
var11 = (var9) ? var10 : 0x00100000;
*((int *) 0xBD80) = var11;
sceKernelCpuResumeIntr (var7, var10, var9);
var2 = var11;
}
ra = ((int *) sp)[2];
var3 = ((int *) sp)[1];
var4 = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
/**
* Subroutine at address 0x16F4
*/
void sceSysreg_driver_F287DB37 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0xBC10003C);
*((int *) 0xBC10003C) = (!(arg1) ? ((var4 & 0xFFFFFFFE) | (0 & 1)) : (var4 | 1));
sceKernelCpuResumeIntrWithSync (var3);
ra = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x174C
*/
void sceSysreg_driver_0BF6F901 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0xBC10003C);
*((int *) 0xBC10003C) = (var4 ^ 1);
__asm__ ("sync;");
*((int *) 0xBC10003C) = var4;
sceKernelCpuResumeIntrWithSync (var3);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1790
*/
void sceSysreg_driver_17B132D5 (int arg1, int arg2)
{
__asm__ ("sync;");
var1 = *((int *) 0xBC000044);
if (arg2 == 0)
{
var2 = var1 & (!arg1);
}
else
{
var2 = var1 | arg1;
}
*((int *) 0xBC000044) = var2;
__asm__ ("sync;");
return;
}
/**
* Subroutine at address 0x17C0
*/
void sceSysregGetFuseId ()
{
var1 = *((int *) 0xBC100090);
var2 = *((int *) 0xBC100094);
return;
}
/**
* Subroutine at address 0x17E4
*/
void sceSysregGetFuseConfig ()
{
var1 = *((int *) 0xBC100098);
return;
}
/**
* Subroutine at address 0x17F4
*/
void sceSysreg_driver_FF39996C ()
{
__asm__ ("lwc1 $fpr00, -18012($v1);");
return;
}
/**
* Subroutine at address 0x1800
*/
void sceSysreg_driver_2456AE40 ()
{
var1 = *((int *) 0xBC100068);
var2 = *((int *) 0xBC1000FC);
__asm__ ("lwc1 $fpr00, -18008($t0);");
var3 = (var2 >> 8) & 0xFF;
__asm__ ("mtc1 $v1, $fpr5;"
:
: "=r"(var3));
__asm__ ("cvt.s.w $fpr04, $fpr05;");
__asm__ ("mul.s $fpr02, $fpr04, $fpr00;"
"lwc1 $fpr03, 0($a0);");
var4 = 0x00010000;
__asm__ ("mul.s $fpr00, $fpr02, $fpr03;");
__asm__ ("swc1 $fpr00, -16560($v1);"
:
: "=r"(0x00010000));
return;
}
/**
* Subroutine at address 0x1858
*/
void sceSysreg_driver_9AFD029D ()
{
__asm__ ("lwc1 $fpr00, -16560($v1);");
return;
}
/**
* Subroutine at address 0x1864
*/
void sceSysreg_driver_DA1CD053 ()
{
var1 = *((int *) 0xBC100068);
return;
}
/**
* Subroutine at address 0x1878
*/
void sceSysreg_driver_BC3D9C91 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
if (var1 < 0)
{
label9:
}
else
{
if (!((((arg1 & 0x07) < 6)) != 0))
goto label9;
var6 = sceKernelCpuSuspendIntr ();
var7 = *((int *) 0xBC100068);
__asm__ ("lwc1 $fpr01, -18004($a1);");
*((int *) 0xBC100068) = ((((var7 & 0xFFFFFFF0) | (0 & 0x0F)) | var1) | 0x80);
var8 = *((int *) 0xBC100068);
var9 = *((int *) 0xBC1000FC);
var10 = (var9 >> 8) & 0xFF;
__asm__ ("mtc1 $t2, $fpr5;"
:
: "=r"(var10));
__asm__ ("cvt.s.w $fpr02, $fpr05;"
"lwc1 $fpr04, 0($a2);");
var11 = 0x00010000;
__asm__ ("mul.s $fpr03, $fpr02, $fpr01;"
"mul.s $fpr00, $fpr03, $fpr04;");
__asm__ ("swc1 $fpr00, -16560($v1);"
:
: "=r"(0x00010000));
sceKernelCpuResumeIntr (var6, 0x00010000, (((var8 & 0x0F) << 2) + 0xB9BC));
}
ra = ((int *) sp)[2];
var2 = ((int *) sp)[1];
var3 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1944
*/
void sceSysreg_driver_B93CCA2B (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 2)) == 0))
{
var1 = 0x800001FE;
if (!(((arg2 < 0x03)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = arg1 << 1;
var6 = *((int *) 0xBC10005C);
var7 = (var6 & (!(0x03 << var5))) | (arg2 << var5);
var1 = (var6 >> var5) & 0x03;
*((int *) 0xBC10005C) = var7;
sceKernelCpuResumeIntr (var4, var6, var7);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x19E0
*/
void sceSysreg_driver_262667F9 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 2)) == 0))
{
var1 = 0x800001FE;
if (!(((arg2 < 0x08)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = arg1 << 2;
var6 = *((int *) 0xBC000050);
var7 = (var6 & (!(0x07 << var5))) | (arg2 << var5);
var1 = (var6 >> var5) & 0x07;
*((int *) 0xBC000050) = var7;
sceKernelCpuResumeIntr (var4, var6, var7);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1A7C
*/
void sceSysreg_driver_E46031A1 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 0x04)) == 0))
{
var1 = 0x800001FE;
if (!(((arg2 < 0x08)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = arg1 << 2;
var6 = *((int *) 0xBC100060);
var7 = (var6 & (!(0x07 << var5))) | (arg2 << var5);
var1 = (var6 >> var5) & 0x07;
*((int *) 0xBC100060) = var7;
sceKernelCpuResumeIntr (var4, var6, var7);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1B18
*/
void sceSysreg_driver_923509A1 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 2)) == 0))
{
var1 = 0x800001FE;
if (!(((arg2 < 2)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = arg1 + 0x10;
var6 = *((int *) 0xBC100060);
var7 = (var6 & (!(1 << var5))) | (arg2 << var5);
var1 = (var6 >> var5) & 1;
*((int *) 0xBC100060) = var7;
sceKernelCpuResumeIntr (var4, var6, var7);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1BB4
*/
void sceSysregSpiClkSelect (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 6)) == 0))
{
var1 = 0x800001FE;
if (!(((arg2 < 0x08)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = arg1 << 2;
var6 = *((int *) 0xBC100064);
var7 = (var6 & (!(0x07 << var5))) | (arg2 << var5);
var1 = (var6 >> var5) & 0x07;
*((int *) 0xBC100064) = var7;
sceKernelCpuResumeIntr (var4, var6, var7);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1C50
*/
void sceSysreg_driver_8FA2F8C0 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var1 = 0x80000102;
((int *) sp)[3] = ra;
if (!(((arg1 < 2)) == 0))
{
var1 = 0x80000102;
if (!(((arg2 < 0x03)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xBC100060);
var1 = (var5 >> 20) & 0x07;
var6 = ((var5 & 0xFF8FFFFF) | (0 & 0x07)) | (arg1 << 0x16);
var7 = var6 | (arg2 << 0x14);
*((int *) 0xBC100060) = var7;
sceKernelCpuResumeIntr (var4, var7, var6);
}
}
ra = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1CE0
*/
void sceSysreg_driver_7E94B309 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0x800001FE;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x03)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xBC10005C);
var1 = (var5 >> 4) & 0x03;
var6 = ((var5 & 0xFFFFFFCF) | (0 & 0x03)) | (arg1 << 0x04);
*((int *) 0xBC10005C) = var6;
sceKernelCpuResumeIntr (var4);
}
ra = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1D4C
*/
void sceSysreg_driver_AE32DCF5 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0x800001FE;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x03)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xBC10005C);
var1 = (var5 >> 8) & 0x03;
var6 = ((var5 & 0xFFFFFCFF) | (0 & 0x03)) | (arg1 << 0x08);
*((int *) 0xBC10005C) = var6;
sceKernelCpuResumeIntr (var4);
}
ra = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1DB8
*/
void sceSysreg_driver_48869494 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0x800001FE;
((int *) sp)[2] = ra;
if (!(((arg1 < 2)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xBC100060);
var1 = (var5 >> 18) & 1;
var6 = ((var5 & 0xFFFBFFFF) | (0 & 1)) | (arg1 << 0x12);
*((int *) 0xBC100060) = var6;
sceKernelCpuResumeIntr (var4);
}
ra = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1E24
*/
void sceSysreg_driver_94A99040 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
if (!(((((arg2 < 0x20)) ^ 1) | (((var1 < 2)) ^ 1)) != 0))
{
var4 = sceSysreg_driver_9CE69EC1 (((var1 << 2) + 0xBFC00400), 0, (1 << arg2));
__asm__ ("mfc0 $t3, COP0_22;"
: "=r"(var5));
if (!(var1 == var5))
{
sceSysreg_driver_EEE7B082 ();
}
}
ra = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1EA0
*/
void sceSysreg_driver_9E170EF1 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelRegisterIntrHandler (0x1F, 2, 0x204C, 0, 0xBA28);
sceKernelEnableIntr (0x1F);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1EE0
*/
void sceSysreg_driver_B0FDD88C ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelReleaseIntrHandler (0x1F);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1F00
*/
void sceSysreg_driver_D56A288F (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = 0x80000102;
((int *) sp)[1] = ra;
if (!(((arg1 < 0x20)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF54);
var7 = 1 << var1;
var8 = var6 | var7;
*((int *) 0xBF54) = var8;
sceKernelCpuResumeIntr (var5, var7, var8);
var2 = ((var6 >> var1) & 1);
}
ra = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1F68
*/
void sceSysreg_driver_06305339 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = 0x80000102;
((int *) sp)[1] = ra;
if (!(((arg1 < 0x20)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF54);
var7 = !(1 << var1);
var8 = var6 & var7;
*((int *) 0xBF54) = var8;
sceKernelCpuResumeIntr (var5, var7, var8);
var2 = ((var6 >> var1) & 1);
}
ra = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x1FD4
*/
void sceSysreg_driver_B5DDBE9F (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg2;
((int *) sp)[1] = ra;
var2 = 0x80000102;
if (!(((((var1 < 0x20)) ^ 1) | (((arg1 < 2)) ^ 1)) != 0))
{
var5 = sceSysreg_driver_9CE69EC1 (((arg1 << 2) + 0xBFC00400), (!(1 << arg2)), 0);
var2 = (var5 >> var1) & 1;
}
ra = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x204C
*/
void sub_0204C (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[5] = ra;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
__asm__ ("mfc0 $v0, COP0_22;"
: "=r"(var1));
var2 = (var1 << 2) + 0xBFC00400;
var5 = sceSysreg_driver_F03852E0 (var2);
var6 = *((int *) 0xBF54);
var7 = var5 & var6;
if (var7 != 0)
{
var13 = *((int *) 0xBF58);
var14 = ((var13 - (CLZ ((ROTV (var13, var7))))) + 0x1F) & 0x1F;
var17 = sceSysreg_driver_9CE69EC1 (var2, (!(1 << var14)), 0);
var18 = *((int *) 0xBF58);
*((int *) 0xBF58) = ((var18 + 1) & 0x1F);
InterruptManagerForKernel_8BE96A2E (arg1, var14, var14, arg3);
ra = ((int *) sp)[5];
}
else
{
ra = ((int *) sp)[5];
}
var8 = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x2120
*/
void sub_02120 (int arg1, int arg2)
{
var1 = *((int *) 0xBF54);
*((int *) 0xBF54) = (var1 | (1 << arg2));
return;
}
/**
* Subroutine at address 0x2140
*/
void sub_02140 (int arg1, int arg2)
{
var1 = *((int *) 0xBF54);
*((int *) 0xBF54) = (var1 & (!(1 << arg2)));
return;
}
/**
* Subroutine at address 0x2164
*/
void sub_02164 (int arg1, int arg2, int arg3)
{
if (!(arg3 == 0))
{
var1 = *((int *) 0xBF54);
((int *) arg3)[0] = ((var1 >> arg2) & 1);
}
var2 = *((int *) 0xBF54);
*((int *) 0xBF54) = (var2 & (!(1 << arg2)));
return;
}
/**
* Subroutine at address 0x219C
*/
void sub_0219C (int arg1, int arg2, int arg3)
{
var1 = *((int *) 0xBF54);
*((int *) 0xBF54) = (var1 | (arg3 << arg2));
return;
}
/**
* Subroutine at address 0x21B8
*/
void sub_021B8 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
__asm__ ("mfc0 $v0, COP0_22;"
: "=r"(var1));
var4 = sceSysreg_driver_F03852E0 (((var1 << 2) + 0xBFC00400));
ra = ((int *) sp)[1];
var5 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x21F8
*/
void sceSysreg_driver_0D2BE098 (int arg1, int arg2)
{
var1 = 0x800001FE;
if (!((((arg2 < arg1)) | (((arg1 < 0x0200)) ^ 1)) != 0))
{
if (!(arg2 == 0))
{
*((int *) 0xBC200000) = (((arg1 & 0x01FF) << 0x10) | (arg2 & 0x01FF));
__asm__ ("sync;");
var1 = 0;
}
}
return;
}
/**
* Subroutine at address 0x2240
*/
void sceSysreg_driver_B97B7828 (int arg1, int arg2)
{
if (!(arg1 == 0))
{
var1 = *((int *) 0xBC200000);
((int *) arg1)[0] = ((var1 >> 16) & 0x01FF);
}
if (!(arg2 == 0))
{
var2 = *((int *) 0xBC200000);
((int *) arg2)[0] = (var2 & 0x01FF);
}
return;
}
/**
* Subroutine at address 0x2278
*/
void sceSysreg_driver_3A930268 (int arg1, int arg2)
{
var1 = 0x800001FE;
if (!((((arg2 < arg1)) | (((arg1 < 0x0200)) ^ 1)) != 0))
{
if (!(arg2 == 0))
{
*((int *) 0xBC200004) = (((arg1 & 0x01FF) << 0x10) | (arg2 & 0x01FF));
__asm__ ("sync;");
var1 = 0;
}
}
return;
}
/**
* Subroutine at address 0x22C0
*/
void sceSysreg_driver_AB1EA306 (int arg1, int arg2)
{
if (!(arg1 == 0))
{
var1 = *((int *) 0xBC200004);
((int *) arg1)[0] = ((var1 >> 16) & 0x01FF);
}
if (!(arg2 == 0))
{
var2 = *((int *) 0xBC200004);
((int *) arg2)[0] = (var2 & 0x01FF);
}
return;
}
/**
* Subroutine at address 0x22F8
*/
void sceSysreg_driver_C387DAA3 ()
{
sp = sp + 0xFFFFFFE0;
__asm__ ("swc1 $fpr20, 16($sp);"
:
: "=r"(sp));
((int *) sp)[0] = ra;
__asm__ ("mov.s $fpr20, $fpr12;");
sceSysreg_driver_9AFD029D ();
__asm__ ("lwc1 $fpr03, -18000($t1);");
__asm__ ("mul.s $fpr02, $fpr20, $fpr03;"
"div.s $fpr01, $fpr02, $fpr00;"
"trunc.w.s $fpr00, $fpr01;"
"mfc1 $t0, $fpr0;"
: "=r"(var3));
*((int *) 0xBC200000) = ((((MIN ((MAX (var3, 1)), 0x01FF)) & 0x01FF) << 0x10) | 0x01FF);
__asm__ ("sync;");
ra = ((int *) sp)[0];
__asm__ ("lwc1 $fpr20, 16($sp);");
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x2360
*/
void sceSysreg_driver_030EBAD6 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_9AFD029D ();
var3 = *((int *) 0xBC200000);
ra = ((int *) sp)[0];
var4 = (var3 >> 16) & 0x01FF;
__asm__ ("mtc1 $v0, $fpr2;"
:
: "=r"(var4));
var5 = var3 & 0x01FF;
__asm__ ("mtc1 $v1, $fpr1;"
"cvt.s.w $fpr05, $fpr02;"
"cvt.s.w $fpr04, $fpr01;"
"mul.s $fpr02, $fpr00, $fpr05;"
"div.s $fpr00, $fpr02, $fpr04;"
:
: "=r"(var5));
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x23A4
*/
void sceSysreg_driver_DB23A6B7 ()
{
sp = sp + 0xFFFFFFE0;
__asm__ ("swc1 $fpr20, 16($sp);"
:
: "=r"(sp));
((int *) sp)[0] = ra;
__asm__ ("mov.s $fpr20, $fpr12;");
sceSysreg_driver_9AFD029D ();
__asm__ ("lwc1 $fpr03, -17996($t1);");
__asm__ ("mul.s $fpr02, $fpr20, $fpr03;"
"div.s $fpr01, $fpr02, $fpr00;"
"trunc.w.s $fpr00, $fpr01;"
"mfc1 $t0, $fpr0;"
: "=r"(var3));
*((int *) 0xBC200004) = ((((MIN ((MAX (var3, 1)), 0x01FF)) & 0x01FF) << 0x10) | 0x01FF);
__asm__ ("sync;");
ra = ((int *) sp)[0];
__asm__ ("lwc1 $fpr20, 16($sp);");
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x240C
*/
void sceSysreg_driver_F73DDE93 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_9AFD029D ();
var3 = *((int *) 0xBC200004);
ra = ((int *) sp)[0];
var4 = (var3 >> 16) & 0x01FF;
__asm__ ("mtc1 $v1, $fpr5;"
:
: "=r"(var4));
var5 = (var3 & 0x01FF) << 1;
__asm__ ("cvt.s.w $fpr02, $fpr05;"
"mtc1 $v0, $fpr3;"
"mul.s $fpr01, $fpr00, $fpr02;"
"cvt.s.w $fpr04, $fpr03;"
"div.s $fpr00, $fpr01, $fpr04;"
:
: "=r"(var5));
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2458
*/
void sceGpioInit ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
var1 = 0;
var4 = KDebugForKernel_E892D9A1 ();
if (!(var4 == 0))
{
var5 = ((int *) var4)[16];
var8 var9 = (*var5) ();
var1 = var8;
}
*((int *) 0xBF7C) = var1;
sceSysreg_driver_2E9CF295 ();
var12 = *((int *) 0xBE240000);
var13 = *((int *) 0xBE240040);
var14 = *((int *) 0xBE240010);
var15 = *((int *) 0xBE240014);
var16 = *((int *) 0xBE240018);
var17 = *((int *) 0xBE24001C);
var18 = var15 & var1;
var19 = var17 & var1;
var20 = var16 & var1;
var21 = var14 & var1;
*((int *) 0xBE240010) = var21;
*((int *) 0xBF5C) = var12;
*((int *) 0xBF78) = var13;
*((int *) 0xBE240014) = var18;
*((int *) 0xBF74) = 0;
*((int *) 0xBE240018) = var20;
*((int *) 0xBE24001C) = var19;
*((int *) 0xBF80) = 0;
*((int *) 0xBE240030) = 0;
*((int *) 0xBF60) = var21;
*((int *) 0xBF64) = var18;
*((int *) 0xBF68) = var20;
*((int *) 0xBF6C) = var19;
*((int *) 0xBF70) = 0;
*((int *) 0xBE240034) = 0;
sceKernelRegisterIntrHandler (0x04, 2, 0x2EA0, 0, 0xBA60);
sceKernelEnableIntr (0x04);
sceKernelRegisterSysEventHandler (0xBD84);
ra = ((int *) sp)[3];
var28 = ((int *) sp)[2];
var29 = ((int *) sp)[1];
var30 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2580
*/
void sceGpioSetPortMode (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = s1;
var2 = 0x80000102;
var3 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
if (!(((arg1 < 0x20)) == 0))
{
if (arg2 == 1)
{
var4 = 0;
var11 = 1;
label10:
var12 = 0;
var15 = sceKernelCpuSuspendIntr ();
var16 = *((int *) 0xBF5C);
var17 = 1 << var1;
if (!((var16 & var17) != 0))
{
var18 = *((int *) 0xBF78);
var12 = !((var18 & var17)) ? 2 : 1;
}
var19 = *((int *) 0xBF5C);
var20 = *((int *) 0xBF78);
var21 = !(1 << var1);
var22 = (var19 & var21) | (var4 << var1);
var23 = (var20 & var21) | (var11 << var1);
*((int *) 0xBF5C) = var22;
*((int *) 0xBE240000) = var22;
*((int *) 0xBF78) = var23;
*((int *) 0xBE240040) = var23;
if (var3 == 2)
{
sceSysreg_driver_C0D33340 (var1);
}
else
{
sceSysreg_driver_217316F7 (var1);
}
sceKernelCpuResumeIntr (var15);
var2 = var12;
}
else
{
var4 = 1;
if (((arg2 < 2)) != 0)
{
var11 = 0;
if (arg2 == 0)
goto label10;
label23:
var2 = 0x80000107;
}
else
{
if (!(var3 == 2))
goto label23;
var4 = 0;
var11 = 0;
goto label10;
}
}
}
ra = ((int *) sp)[6];
var5 = ((int *) sp)[5];
var6 = ((int *) sp)[4];
var7 = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x26DC
*/
void sceGpio_driver_FF5E7843 (int arg1)
{
var1 = 1 << arg1;
if (!(((arg1 < 0x20)) == 0))
{
var2 = *((int *) 0xBF5C);
var3 = 0;
if (!((var2 & var1) != 0))
{
var4 = *((int *) 0xBF78);
var3 = !((var4 & var1)) ? 2 : 1;
}
}
return;
}
/**
* Subroutine at address 0x272C
*/
void sceGpio_driver_54F1F60E (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[4] = ra;
var2 = 0x80000102;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
if (!(((arg1 < 0x20)) == 0))
{
var2 = 0x80000107;
if (!(((arg2 < 0x05)) == 0))
{
var3 = ((int *) ((arg2 << 2) + 0xBA6C))[0];
switch () {
case 0:
var4 = 1;
label12:
var5 = 1;
var6 = 0;
label13:
var9 = sceKernelCpuSuspendIntr ();
var10 = *((int *) 0xBF60);
var11 = *((int *) 0xBF64);
var12 = *((int *) 0xBF68);
var13 = !(1 << var1);
*((int *) 0xBF68) = ((var12 & var13) | (var6 << var1));
*((int *) 0xBF60) = ((var10 & var13) | (var4 << var1));
*((int *) 0xBF64) = ((var11 & var13) | (var5 << var1));
while (1) {
var14 = *((int *) 0xBE240048);
if ((var14 & 0x03) != 0)
continue;
break;
}
var15 = *((int *) 0xBE240010);
var16 = *((int *) 0xBF7C);
var17 = *((int *) 0xBF60);
var18 = *((int *) 0xBF64);
*((int *) 0xBE240010) = ((var15 & var16) | var17);
var19 = *((int *) 0xBE240014);
var20 = *((int *) 0xBF68);
*((int *) 0xBE240014) = ((var19 & var16) | var18);
var21 = *((int *) 0xBE240018);
*((int *) 0xBE240018) = ((var21 & var16) | var20);
*((int *) 0xBE240024) = (1 << var1);
sceKernelCpuResumeIntrWithSync (var9);
var2 = 0;
goto label20;
case 1:
var4 = 1;
label9:
var5 = 0;
label10:
var6 = 1;
goto label13;
case 2:
var4 = 0;
goto label12;
case 3:
var4 = 0;
goto label9;
case 4:
var4 = 0;
var5 = 1;
goto label10;
}
}
}
label20:
ra = ((int *) sp)[4];
var24 = ((int *) sp)[3];
var25 = ((int *) sp)[2];
var26 = ((int *) sp)[1];
var27 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x28C0
*/
void sceGpio_driver_29F152C3 (int arg1)
{
var1 = *((int *) 0xBF60);
var2 = *((int *) 0xBF64);
var3 = *((int *) 0xBF68);
var4 = (var2 >> arg1) & 1;
var5 = (var4 < 1);
if (!(((var1 >> arg1) & 1) != 0))
{
var5 = 0x04;
if (!((var4 & ((var3 >> arg1) & 1)) != 0))
{
var5 = !(var4) ? 0x03 : 2;
}
}
return;
}
/**
* Subroutine at address 0x2934
*/
void sub_02934 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelUnregisterSysEventHandler (0xBD84);
sceKernelReleaseIntrHandler (0x04);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2960
*/
void sceGpioEnd ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelUnregisterSysEventHandler (0xBD84);
sceKernelReleaseIntrHandler (0x04);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x298C
*/
void sceGpioSuspend ()
{
return;
}
/**
* Subroutine at address 0x2994
*/
void sceGpioResume ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_2E9CF295 ();
var3 = *((int *) 0xBE240000);
*((int *) 0xBF5C) = var3;
var4 = *((int *) 0xBE240040);
ra = ((int *) sp)[0];
*((int *) 0xBF78) = var4;
*((int *) 0xBF74) = 0;
*((int *) 0xBF6C) = 0;
*((int *) 0xBF60) = 0;
*((int *) 0xBF64) = 0;
*((int *) 0xBF68) = 0;
*((int *) 0xBF70) = 0;
*((int *) 0xBE24001C) = 0;
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x29FC
*/
void sceGpio_driver_A908E0BE ()
{
var1 = *((int *) 0xBE240004);
return;
}
/**
* Subroutine at address 0x2A0C
*/
void sceGpioPortSet (int arg1)
{
*((int *) 0xBE240008) = arg1;
__asm__ ("sync;");
return;
}
/**
* Subroutine at address 0x2A24
*/
void sceGpioPortClear (int arg1)
{
*((int *) 0xBE24000C) = arg1;
__asm__ ("sync;");
return;
}
/**
* Subroutine at address 0x2A3C
*/
void sceGpio_driver_010628FC (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = arg1;
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xBE240004);
*((int *) 0xBE24000C) = (var5 & var1);
*((int *) 0xBE240008) = ((!var5) & var1);
sceKernelCpuResumeIntr (var4, 0xBE240000, 0xBE240008);
ra = ((int *) sp)[2];
var8 = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2AA4
*/
void sceGpio_driver_66995E31 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
var2 = 0x80000102;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x20)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF6C);
var7 = *((int *) 0xBE24001C);
var8 = *((int *) 0xBF7C);
var9 = var6 | (1 << var1);
*((int *) 0xBE24001C) = ((var7 & var8) | var9);
var2 = (var6 >> var1) & 1;
*((int *) 0xBF6C) = var9;
sceKernelCpuResumeIntr (var5, var8);
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2B30
*/
void sceGpioDisableIntr (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
var2 = 0x80000102;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x20)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF6C);
var7 = *((int *) 0xBE24001C);
var8 = *((int *) 0xBF7C);
var9 = var6 & (!(1 << var1));
*((int *) 0xBE24001C) = ((var7 & var8) | var9);
var2 = (var6 >> var1) & 1;
*((int *) 0xBF6C) = var9;
sceKernelCpuResumeIntr (var5, var8);
}
ra = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2BC0
*/
void sceGpio_driver_EBDE13F6 (int arg1)
{
var1 = 0x80000102;
if (!(((arg1 < 0x20)) == 0))
{
var2 = *((int *) 0xBE240020);
var1 = (var2 >> arg1) & 1;
}
return;
}
/**
* Subroutine at address 0x2BEC
*/
void sceGpio_driver_7D484D6F (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
var2 = 0x80000102;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x20)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBE240020);
var2 = (var6 >> var1) & 1;
*((int *) 0xBE240024) = (var2 << var1);
sceKernelCpuResumeIntrWithSync (var5);
}
ra = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2C54
*/
void sceGpio_driver_D4BC4C75 (int arg1)
{
if (!(((arg1 < 0x04)) == 0))
{
var1 = *((int *) 0xBF70);
}
return;
}
/**
* Subroutine at address 0x2C80
*/
void sceGpio_driver_EE787A33 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
var1 = arg2;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
if (((((arg1 < 0x04)) ^ 1) | (arg2 >> 0x1F)) != 0)
{
label9:
}
else
{
if (!(((var1 < 0x20)) != 0))
goto label9;
var7 = sceKernelCpuSuspendIntr ();
var8 = *((int *) 0xBF70);
var9 = arg1 << 0x03;
var10 = (var8 & (!(0x1F << var9))) | (var1 << var9);
*((int *) 0xBF70) = var10;
*((int *) 0xBE240030) = var10;
sceKernelCpuResumeIntrWithSync (var7);
}
ra = ((int *) sp)[3];
var2 = ((int *) sp)[2];
var3 = ((int *) sp)[1];
var4 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2D30
*/
void sceGpio_driver_23A7C62C (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = 0x80000102;
((int *) sp)[1] = ra;
if (!(((arg1 < 0x04)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF74);
var7 = var6 | (1 << var1);
*((int *) 0xBF74) = var7;
*((int *) 0xBE240034) = var7;
sceKernelCpuResumeIntrWithSync (var5);
var2 = ((var6 >> var1) & 1);
}
ra = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2DA4
*/
void sceGpio_driver_D130755B (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[0] = s0;
var2 = 0x80000102;
((int *) sp)[2] = ra;
if (!(((arg1 < 0x04)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF74);
var7 = var6 & (!(1 << var1));
*((int *) 0xBF74) = var7;
var2 = (var6 >> var1) & 1;
*((int *) 0xBE240034) = var7;
sceKernelCpuResumeIntrWithSync (var5);
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2E20
*/
void sub_02E20 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (arg1 == 0x4002)
{
label7:
ra = ((int *) sp)[0];
}
else
{
if (!(arg1 == 0x00010002))
goto label7;
sceSysreg_driver_2E9CF295 ();
var3 = *((int *) 0xBE240000);
var4 = *((int *) 0xBE240040);
*((int *) 0xBF78) = var4;
*((int *) 0xBF74) = 0;
*((int *) 0xBF6C) = 0;
*((int *) 0xBF60) = 0;
*((int *) 0xBF64) = 0;
*((int *) 0xBF68) = 0;
*((int *) 0xBF70) = 0;
*((int *) 0xBF5C) = var3;
*((int *) 0xBE24001C) = 0;
ra = ((int *) sp)[0];
}
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2EA0
*/
void sub_02EA0 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = *((int *) 0xBE24001C);
var2 = *((int *) 0xBF7C);
var3 = *((int *) 0xBE240020);
var4 = (var1 & var3) & (!var2);
if (var4 != 0)
{
var5 = *((int *) 0xBF80);
*((int *) 0xBF80) = ((var5 + 1) & 0x1F);
var6 = ((var5 - (CLZ ((ROTV (var5, var4))))) + 0x1F) & 0x1F;
*((int *) 0xBE240024) = (1 << var6);
InterruptManagerForKernel_8BE96A2E (arg1, var6, var6, arg3);
ra = ((int *) sp)[0];
}
else
{
ra = ((int *) sp)[0];
}
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x2F30
*/
void sub_02F30 (int arg1, int arg2)
{
var1 = *((int *) 0xBF6C);
var2 = var1 | (1 << arg2);
*((int *) 0xBF6C) = var2;
var3 = *((int *) 0xBF7C);
var4 = *((int *) 0xBE24001C);
*((int *) 0xBE24001C) = ((var4 & var3) | var2);
return;
}
/**
* Subroutine at address 0x2F70
*/
void sub_02F70 (int arg1, int arg2)
{
var1 = *((int *) 0xBF6C);
var2 = var1 & (!(1 << arg2));
*((int *) 0xBF6C) = var2;
var3 = *((int *) 0xBF7C);
var4 = *((int *) 0xBE24001C);
*((int *) 0xBE24001C) = ((var4 & var3) | var2);
return;
}
/**
* Subroutine at address 0x2FB4
*/
void sub_02FB4 (int arg1, int arg2, int arg3)
{
if (!(arg3 == 0))
{
var1 = *((int *) 0xBF6C);
((int *) arg3)[0] = ((var1 >> arg2) & 1);
}
var2 = *((int *) 0xBE24001C);
var3 = *((int *) 0xBF6C);
var4 = *((int *) 0xBF7C);
var5 = var3 & (!(1 << arg2));
*((int *) 0xBE24001C) = ((var2 & var4) | var5);
*((int *) 0xBF6C) = var5;
return;
}
/**
* Subroutine at address 0x3010
*/
void sub_03010 (int arg1, int arg2, int arg3)
{
var1 = *((int *) 0xBF6C);
var2 = var1 | (arg3 << arg2);
*((int *) 0xBF6C) = var2;
var3 = *((int *) 0xBF7C);
var4 = *((int *) 0xBE24001C);
*((int *) 0xBE24001C) = ((var4 & var3) | var2);
return;
}
/**
* Subroutine at address 0x304C
*/
void sub_0304C (int arg1, int arg2)
{
var1 = *((int *) 0xBE240020);
return;
}
/**
* Subroutine at address 0x3064
*/
void scePwm_driver_19D581D3 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_8684E7A1 ();
sceSysreg_driver_6B5C5FD0 ();
var5 = 0xBF84;
var6 = 0xBE300000;
var7 = 2;
while (1) {
var8 = ((int *) var6)[1];
if ((var8 & 1) == 0)
{
((char *) var5)[0] = 0;
}
else
{
((char *) var5)[0] = 1;
}
var7 = var7 + 0xFFFFFFFF;
var6 = var6 + 0x20;
var5 = var5 + 1;
if (var7 >= 0)
continue;
break;
}
sceKernelRegisterSysEventHandler (0xBDC4);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x30D0
*/
void scePwm_driver_7B35F776 (int arg1, int arg2, int arg3, int arg4)
{
var1 = 0x80000102;
if (!(((arg1 < 0x03)) == 0))
{
var2 = (arg1 << 0x05) + 0xBE300000;
while (1) {
var3 = ((int *) var2)[0];
if ((var3 & 0x8000) != 0)
continue;
break;
}
var4 = ((unsigned char *) (arg1 + 0xBF84))[0];
if (var4 == 2)
{
var5 = ((int *) var2)[1];
var1 = 0x80000021;
if (!((var5 & 1) != 0))
{
var4 = 0;
label8:
((char *) (arg1 + 0xBF84))[0] = 1;
var1 = var4;
((int *) var2)[0] = (arg2 & 0x3F);
((int *) var2)[4] = (arg3 & 0xFFFF);
((int *) var2)[5] = (arg4 & 0xFFFF);
((int *) var2)[2] = 1;
((int *) var2)[1] = 1;
}
}
else
goto label8;
}
return;
}
/**
* Subroutine at address 0x3170
*/
void scePwm_driver_43799573 (int arg1)
{
var1 = arg1;
var2 = arg1 + 0xBF84;
var3 = (var1 << 0x05) + 0xBE300000;
var4 = 0x80000102;
if (!(((var1 < 0x03)) == 0))
{
var5 = ((unsigned char *) var2)[0];
var6 = var2;
var4 = 0;
if (var5 == 2)
{
var8 = ((int *) var3)[1];
if (!((var8 & 1) != 0))
{
((char *) var2)[0] = 0;
var5 = 0;
}
}
if (!(var5 == 0))
{
((int *) var3)[1] = 0;
var4 = var5;
((char *) var6)[0] = 2;
var7 = ((int *) var3)[1];
if ((var7 & 1) == 0)
{
((char *) var6)[0] = 0;
}
}
}
return;
}
/**
* Subroutine at address 0x31F8
*/
void scePwm_driver_91C21CC0 (int arg1, int arg2, int arg3)
{
var1 = 0x80000102;
if (!(((arg1 < 0x03)) == 0))
{
var2 = ((unsigned char *) (arg1 + 0xBF84))[0];
var3 = (arg1 << 0x05) + 0xBE300000;
var1 = 0x80000021;
if (!(var2 == 2))
{
((int *) var3)[4] = (arg2 & 0xFFFF);
var1 = 0;
((int *) var3)[5] = (arg3 & 0xFFFF);
((int *) var3)[2] = 1;
}
}
return;
}
/**
* Subroutine at address 0x3258
*/
void scePwm_driver_965DD38D (int arg1, int arg2, int arg3, int arg4)
{
var1 = 0x80000102;
if (!(((arg1 < 0x03)) == 0))
{
var2 = (arg1 << 0x05) + 0xBE300000;
if (!(arg2 == 0))
{
var3 = ((int *) var2)[4];
((short *) arg2)[0] = var3;
}
if (!(arg3 == 0))
{
var4 = ((int *) var2)[5];
((short *) arg3)[0] = var4;
}
if (!(arg4 == 0))
{
var5 = ((int *) var2)[3];
((int *) arg4)[0] = var5;
}
var6 = arg1 + 0xBF84;
var7 = ((unsigned char *) var6)[0];
if (var7 == 2)
{
var8 = ((int *) var2)[1];
if ((var8 & 1) == 0)
{
((char *) var6)[0] = 0;
}
var7 = 0;
}
var1 = var7;
}
return;
}
/**
* Subroutine at address 0x32E0
*/
void scePwm_driver_F3FA2FD7 (int arg1)
{
if (!(((arg1 < 0x03)) == 0))
{
var1 = ((int *) ((arg1 << 0x05) + 0xBE300000))[2];
}
return;
}
void sub_0332C ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelUnregisterSysEventHandler (0xBDC4);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x3350
*/
void scePwm_driver_BF8793AF ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceKernelUnregisterSysEventHandler (0xBDC4);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x3374
*/
void scePwm_driver_117678BA ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_80995BB5 ();
sceSysreg_driver_03BD35E5 ();
var5 = 0;
while (1) {
var5 = var5 + 1;
((char *) (var5 + 0xBF84))[0] = 0;
if (((var5 < 0x03)) != 0)
continue;
break;
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x33BC
*/
void scePwm_driver_99B6802D ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
sceSysreg_driver_8684E7A1 ();
sceSysreg_driver_6B5C5FD0 ();
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x33E4
*/
void scePwm_driver_E5C8190D (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
scePwm_driver_965DD38D (arg1, arg2, arg3, 0);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x3400
*/
void sub_03400 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (arg1 == 0x4004)
{
sceSysreg_driver_80995BB5 ();
sceSysreg_driver_03BD35E5 ();
var9 = 0;
while (1) {
var9 = var9 + 1;
((char *) (var9 + 0xBF84))[0] = 0;
if (((var9 < 0x03)) != 0)
continue;
break;
}
ra = ((int *) sp)[0];
}
else
{
if (arg1 == 0x00010004)
{
sceSysreg_driver_8684E7A1 ();
sceSysreg_driver_6B5C5FD0 ();
ra = ((int *) sp)[0];
}
else
{
ra = ((int *) sp)[0];
}
}
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x3480
*/
void sub_03480 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (arg1 == 0x400F)
{
*((int *) 0xBF90) = 1;
label23:
}
else
{
if (((arg1 < 0x4010)) == 0)
{
if (arg1 == 0x00010004)
{
sceSysreg_driver_04839CA2 ();
sceSysreg_driver_23944179 ();
var10 = *((int *) 0xBFA0);
var11 = *((int *) 0xBF9C);
sceI2c_driver_EF4EF213 (var11, var10);
}
else
{
if (!(arg1 != 0x00040000))
{
*((int *) 0xBF90) = 0;
}
}
}
else
{
if (arg1 == 0x0402)
{
var5 = *((int *) 0xBF94);
}
else
{
if (!(arg1 == 0x4004))
goto label23;
sceSysreg_driver_6D204F2A ();
sceSysreg_driver_917F9660 ();
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x3548
*/
void sceI2c_driver_EF4EF213 (int arg1, int arg2)
{
*((int *) 0xBFA0) = arg2;
*((int *) 0xBF9C) = arg1;
return;
}
/**
* Subroutine at address 0x3560
*/
void sceI2c_driver_48674B64 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s1;
var1 = arg3;
((int *) sp)[8] = s4;
var2 = 0x80000104;
var3 = arg1;
((int *) sp)[6] = s2;
var4 = arg2;
((int *) sp)[9] = ra;
((int *) sp)[7] = s3;
((int *) sp)[4] = s0;
if (!(((arg3 < 0x10)) == 0))
{
var5 = *((int *) 0xBF90);
if (var5 == 0)
{
var67 = *((int *) 0xBF8C);
var70 = sceKernelLockMutex (var67, 1, 0);
var2 = var70;
if (var70 >= 0)
{
label9:
*((int *) 0xBF94) = 1;
var2 = 0;
}
else
{
}
}
else
goto label9;
if (!(var2 < 0))
{
var6 = *((int *) 0xBF98);
if (var6 != 0)
{
var62 = ((int *) var6)[1];
var65 var66 = (*var62) (var3, var4, var1, 0xBF88, arg5, arg6, arg7, arg8);
}
sub_047E4 ();
var9 = *((int *) 0xBE200008);
if ((var9 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var61 = *((int *) 0xBE200008);
if ((var61 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200008) = var1;
var10 = *((int *) 0xBE200008);
if ((var10 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var58 = *((int *) 0xBE200008);
if ((var58 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE20000C) = var3;
var11 = 0;
if (!(var1 <= 0))
{
var12 = var4 + 0;
while (1) {
var13 = ((unsigned char *) var12)[0];
var11 = var11 + 1;
*((int *) 0xBE20000C) = var13;
var12 = var4 + var11;
if (((var11 < var1)) != 0)
continue;
break;
}
}
var14 = *((int *) 0xBE200004);
if ((var14 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var55 = *((int *) 0xBE200004);
if ((var55 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x87;
var15 = *((int *) 0xBE200004);
var16 = var15 & 0x8000;
if (var16 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var52 = *((int *) 0xBE200004);
if ((var52 & 0x8000) != 0)
continue;
break;
}
var17 = *((int *) 0xBF90);
}
else
{
var17 = *((int *) 0xBF90);
}
if (var17 == 0)
{
sceKernelEnableIntr (0x0C);
var43 = *((int *) 0xBF88);
var44 = sp;
var47 = sceKernelWaitEventFlag (var43, 1, 0x11, var44, 0);
sceKernelDisableIntr (0x0C);
var18 = *((unsigned short *) 0xBFA4);
}
else
{
var18 = *((unsigned short *) 0xBFA4);
}
var19 = *((int *) 0xBF98);
var20 = var18 & 0x20;
var21 = !(var20) ? 0 : 0x803F4900;
if (var19 != 0)
{
var36 = ((int *) var19)[2];
var39 var40 = (*var36) (var18, var16, 0x87);
}
*((int *) 0xBE20001C) = 0;
var22 = *((int *) 0xBE20001C);
if ((var22 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var35 = *((int *) 0xBE20001C);
if ((var35 & 0x8000) != 0)
continue;
break;
}
var23 = *((int *) 0xBF90);
}
else
{
var23 = *((int *) 0xBF90);
}
if (var23 == 0)
{
var29 = *((int *) 0xBF8C);
var32 = sceKernelUnlockMutex (var29, 1);
if (var32 >= 0)
{
*((int *) 0xBF94) = 0;
label69:
var2 = var21;
}
else
{
var2 = var21;
}
}
else
{
*((int *) 0xBF94) = 0;
goto label69;
}
}
}
ra = ((int *) sp)[9];
var24 = ((int *) sp)[8];
var25 = ((int *) sp)[7];
var26 = ((int *) sp)[6];
var27 = ((int *) sp)[5];
var28 = ((int *) sp)[4];
sp = sp + 0x30;
return;
}
/**
* Subroutine at address 0x3828
*/
void sceI2c_driver_FE95ACD7 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[9] = s5;
var1 = arg3 + 0xFFFFFFFF;
((int *) sp)[5] = s1;
var2 = arg3;
((int *) sp)[7] = s3;
var3 = 0x80000104;
var4 = arg2;
((int *) sp)[4] = s0;
var5 = arg1;
((int *) sp)[10] = ra;
((int *) sp)[8] = s4;
((int *) sp)[6] = s2;
if (!(((var1 < 0x10)) == 0))
{
var6 = *((int *) 0xBF90);
if (var6 == 0)
{
var129 = *((int *) 0xBF8C);
var132 = sceKernelLockMutex (var129, 1, 0);
var7 = var132;
if (var132 >= 0)
{
label9:
*((int *) 0xBF94) = 1;
var7 = 0;
}
else
{
}
}
else
goto label9;
var3 = var7;
if (!(var7 < 0))
{
var8 = *((int *) 0xBF98);
if (var8 != 0)
{
var124 = ((int *) var8)[3];
var127 var128 = (*var124) (var5, var2, 0xBF88, arg4, arg5, arg6, arg7, arg8);
}
sub_047E4 ();
var11 = *((int *) 0xBE200008);
var12 = var11 & 0x8000;
if (var12 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var123 = *((int *) 0xBE200008);
if ((var123 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200008) = 0;
var13 = *((int *) 0xBE200008);
var14 = var13 & 0x8000;
var15 = var5 | 1;
if (var14 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var120 = *((int *) 0xBE200008);
var15 = var5 | 1;
if ((var120 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE20000C) = var15;
var16 = *((int *) 0xBE200004);
if ((var16 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var117 = *((int *) 0xBE200004);
if ((var117 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x85;
var17 = *((int *) 0xBE200004);
if ((var17 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var114 = *((int *) 0xBE200004);
if ((var114 & 0x8000) != 0)
continue;
break;
}
var18 = *((int *) 0xBF90);
}
else
{
var18 = *((int *) 0xBF90);
}
if (var18 == 0)
{
sceKernelEnableIntr (0x0C);
var105 = *((int *) 0xBF88);
var106 = sp;
var109 = sceKernelWaitEventFlag (var105, 1, 0x11, var106, 0);
sceKernelDisableIntr (0x0C);
var19 = *((unsigned short *) 0xBFA4);
}
else
{
var19 = *((unsigned short *) 0xBFA4);
}
var20 = var19 & 0x20;
if (var20 != 0)
{
var88 = *((int *) 0xBF98);
if (var88 != 0)
{
var98 = ((int *) var88)[4];
var101 var102 = (*var98) (var19, 0, 0, var12, var11, var20);
}
*((int *) 0xBE20001C) = 0;
var89 = *((int *) 0xBE20001C);
if ((var89 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var97 = *((int *) 0xBE20001C);
if ((var97 & 0x8000) != 0)
continue;
break;
}
var90 = *((int *) 0xBF90);
}
else
{
var90 = *((int *) 0xBF90);
}
if (var90 == 0)
{
var91 = *((int *) 0xBF8C);
var94 = sceKernelUnlockMutex (var91, 1);
if (var94 >= 0)
{
*((int *) 0xBF94) = 0;
label69:
}
else
{
}
}
else
{
*((int *) 0xBF94) = 0;
goto label69;
}
var3 = 0x803F4900;
}
else
{
var21 = *((int *) 0xBE200008);
if ((var21 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var87 = *((int *) 0xBE200008);
if ((var87 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200008) = var1;
var22 = *((int *) 0xBE200008);
if ((var22 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var84 = *((int *) 0xBE200008);
if ((var84 & 0x8000) != 0)
continue;
break;
}
}
var23 = *((int *) 0xBE200004);
if ((var23 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var81 = *((int *) 0xBE200004);
if ((var81 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x8A;
var24 = *((int *) 0xBE200004);
var25 = var24 & 0x8000;
if (var25 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var78 = *((int *) 0xBE200004);
if ((var78 & 0x8000) != 0)
continue;
break;
}
var26 = *((int *) 0xBF90);
}
else
{
var26 = *((int *) 0xBF90);
}
if (var26 == 0)
{
sceKernelEnableIntr (0x0C);
var69 = *((int *) 0xBF88);
var70 = sp + 0x04;
var73 = sceKernelWaitEventFlag (var69, 1, 0x11, var70, 0);
sceKernelDisableIntr (0x0C);
var27 = *((unsigned short *) 0xBFA4);
}
else
{
var27 = *((unsigned short *) 0xBFA4);
}
if ((var27 & 0x20) != 0)
{
var52 = *((int *) 0xBF98);
if (var52 != 0)
{
var62 = ((int *) var52)[4];
var65 var66 = (*var62) (var27, 0, 1, var12, var25, 0x8A);
}
*((int *) 0xBE20001C) = 0;
var53 = *((int *) 0xBE20001C);
if ((var53 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var61 = *((int *) 0xBE20001C);
if ((var61 & 0x8000) != 0)
continue;
break;
}
var54 = *((int *) 0xBF90);
}
else
{
var54 = *((int *) 0xBF90);
}
if (var54 == 0)
{
var55 = *((int *) 0xBF8C);
var58 = sceKernelUnlockMutex (var55, 1);
if (var58 >= 0)
{
*((int *) 0xBF94) = 0;
label122:
}
else
{
}
}
else
{
*((int *) 0xBF94) = 0;
goto label122;
}
var3 = 0x803F4901;
}
else
{
var28 = 0;
if (!(var2 <= 0))
{
while (1) {
var29 = *((int *) 0xBE20000C);
var28 = var28 + 1;
((char *) (var4 + var28))[0] = var29;
if (((var28 < var2)) != 0)
continue;
break;
}
}
var30 = *((int *) 0xBF98);
if (var30 != 0)
{
var46 = *((unsigned short *) 0xBFA4);
var47 = ((int *) var30)[4];
var50 var51 = (*var47) (var46, var4, var2, var12, var25, 0x8A);
}
*((int *) 0xBE20001C) = 0;
var31 = *((int *) 0xBE20001C);
if ((var31 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var45 = *((int *) 0xBE20001C);
if ((var45 & 0x8000) != 0)
continue;
break;
}
var32 = *((int *) 0xBF90);
}
else
{
var32 = *((int *) 0xBF90);
}
if (var32 == 0)
{
var39 = *((int *) 0xBF8C);
var42 = sceKernelUnlockMutex (var39, 1);
if (var42 >= 0)
{
*((int *) 0xBF94) = 0;
label145:
var3 = var7;
}
else
{
var3 = var7;
}
}
else
{
*((int *) 0xBF94) = 0;
goto label145;
}
}
}
}
}
ra = ((int *) sp)[10];
var33 = ((int *) sp)[9];
var34 = ((int *) sp)[8];
var35 = ((int *) sp)[7];
var36 = ((int *) sp)[6];
var37 = ((int *) sp)[5];
var38 = ((int *) sp)[4];
sp = sp + 0x30;
return;
}
void sceI2c_driver_ECE95479 (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
var1 = arg3;
var2 = arg6;
var3 = (var2 < 1);
var4 = (((arg3 + 0xFFFFFFFF) < 0x0F)) ^ 1;
var5 = arg4;
var6 = arg5;
var7 = arg1;
var8 = arg2;
if (var4 | var3)return;
if (var2>=0x11)return;
ret = 0;
if (*((int *) 0xBF90))*((int *) 0xBF94) = 1;
else if ((ret=sceKernelLockMutex (*((int *) 0xBF8C), 1, 0)) >= 0)
*((int *) 0xBF94) = 1;
if (ret<0)return;
if (*((int *) 0xBF98))
(*(*((int *) 0xBF98))[5]) (var7, var8, arg3, var5, var2, var4, var3, 1);
sub_047E4 ();
while ((*((int *) 0xBE200008) & 0x8000))
sceKernelDelayThread (0x64);
*((int *) 0xBE200008) = arg3;
while ((*((int *) 0xBE200008) & 0x8000))
sceKernelDelayThread (0x64);
*((int *) 0xBE20000C) = var7;
var25 = var8;
while (var1 > 0) {
*((int *) 0xBE20000C) = ((unsigned char *) var25)[0];
var25++;
}
var27 = *((int *) 0xBE200004);
if ((var27 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var162 = *((int *) 0xBE200004);
if ((var162 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x85;
var28 = *((int *) 0xBE200004);
var29 = var28 & 0x8000;
if (var29 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var159 = *((int *) 0xBE200004);
if ((var159 & 0x8000) != 0)
continue;
break;
}
var30 = *((int *) 0xBF90);
}
else
{
var30 = *((int *) 0xBF90);
}
if (var30 == 0)
{
sceKernelEnableIntr (0x0C);
var150 = *((int *) 0xBF88);
var151 = sp;
var154 = sceKernelWaitEventFlag (var150, 1, 0x11, var151, 0);
sceKernelDisableIntr (0x0C);
var31 = *((unsigned short *) 0xBFA4);
}
else
{
var31 = *((unsigned short *) 0xBFA4);
}
if ((var31 & 0x20) != 0)
{
var138 = *((int *) 0xBF98);
if (var138 != 0)
{
var143 = ((int *) var138)[6];
var146 var147 = (*var143) (var31, 0, 0, var29, var28);
}
*((int *) 0xBE20001C) = 0;
var139 = *((int *) 0xBE20001C);
if ((var139 & 0x8000) == 0)
{
}
else
{
while (1) {
sceKernelDelayThread (0x64);
var142 = *((int *) 0xBE20001C);
if ((var142 & 0x8000) != 0)
continue;
break;
}
}
label107:
var104 = *((int *) 0xBF90);
label108:
if (var104 == 0)
{
var105 = *((int *) 0xBF8C);
var108 = sceKernelUnlockMutex (var105, 1);
if (var108 >= 0)
{
*((int *) 0xBF94) = 0;
label116:
}
else
{
}
}
else
{
*((int *) 0xBF94) = 0;
goto label116;
}
}
else
{
var32 = *((int *) 0xBE200008);
if ((var32 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var137 = *((int *) 0xBE200008);
if ((var137 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200008) = 0;
var33 = *((int *) 0xBE200008);
var34 = var5 | 1;
if ((var33 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var134 = *((int *) 0xBE200008);
var34 = var5 | 1;
if ((var134 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE20000C) = var34;
var35 = *((int *) 0xBE200004);
if ((var35 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var131 = *((int *) 0xBE200004);
if ((var131 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x85;
var36 = *((int *) 0xBE200004);
var37 = var36 & 0x8000;
if (var37 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var128 = *((int *) 0xBE200004);
if ((var128 & 0x8000) != 0)
continue;
break;
}
var38 = *((int *) 0xBF90);
}
else
{
var38 = *((int *) 0xBF90);
}
if (var38 == 0)
{
sceKernelEnableIntr (0x0C);
var119 = *((int *) 0xBF88);
var120 = sp + 0x04;
var123 = sceKernelWaitEventFlag (var119, 1, 0x11, var120, 0);
sceKernelDisableIntr (0x0C);
var39 = *((unsigned short *) 0xBFA4);
}
else
{
var39 = *((unsigned short *) 0xBFA4);
}
if ((var39 & 0x20) != 0)
{
var102 = *((int *) 0xBF98);
if (var102 != 0)
{
var112 = ((int *) var102)[6];
var115 var116 = (*var112) (var39, 0, 1, var29, var28);
}
*((int *) 0xBE20001C) = 0;
var103 = *((int *) 0xBE20001C);
if (!((var103 & 0x8000) != 0))
goto label107;
while (1) {
sceKernelDelayThread (0x64);
var111 = *((int *) 0xBE20001C);
if ((var111 & 0x8000) != 0)
continue;
break;
}
var104 = *((int *) 0xBF90);
goto label108;
}
else
{
var40 = *((int *) 0xBE200008);
var41 = var40 & 0x8000;
if (var41 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var101 = *((int *) 0xBE200008);
if ((var101 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200008) = (var2 + 0xFFFFFFFF);
var42 = *((int *) 0xBE200008);
if ((var42 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var98 = *((int *) 0xBE200008);
if ((var98 & 0x8000) != 0)
continue;
break;
}
}
var43 = *((int *) 0xBE200004);
var44 = var43 & 0x8000;
if (var44 != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var95 = *((int *) 0xBE200004);
if ((var95 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200004) = 0x8A;
var45 = *((int *) 0xBE200004);
if ((var45 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var92 = *((int *) 0xBE200004);
if ((var92 & 0x8000) != 0)
continue;
break;
}
var46 = *((int *) 0xBF90);
}
else
{
var46 = *((int *) 0xBF90);
}
if (var46 == 0)
{
sceKernelEnableIntr (0x0C);
var83 = *((int *) 0xBF88);
var84 = sp + 0x08;
var87 = sceKernelWaitEventFlag (var83, 1, 0x11, var84, 0);
sceKernelDisableIntr (0x0C);
var47 = *((unsigned short *) 0xBFA4);
}
else
{
var47 = *((unsigned short *) 0xBFA4);
}
if ((var47 & 0x20) != 0)
{
var66 = *((int *) 0xBF98);
if (var66 != 0)
{
var76 = ((int *) var66)[6];
var79 var80 = (*var76) (var47, 0, 2, var44, var43);
}
*((int *) 0xBE20001C) = 0;
var67 = *((int *) 0xBE20001C);
if ((var67 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var75 = *((int *) 0xBE20001C);
if ((var75 & 0x8000) != 0)
continue;
break;
}
var68 = *((int *) 0xBF90);
}
else
{
var68 = *((int *) 0xBF90);
}
if (var68 == 0)
{
var69 = *((int *) 0xBF8C);
var72 = sceKernelUnlockMutex (var69, 1);
if (var72 >= 0)
{
*((int *) 0xBF94) = 0;
label169:
}
else
{
}
}
else
{
*((int *) 0xBF94) = 0;
goto label169;
}
}
else
{
var48 = 0;
if (!(var2 <= 0))
{
while (1) {
var49 = *((int *) 0xBE20000C);
var48 = var48 + 1;
((char *) (var6 + var48))[0] = var49;
if (((var48 < var2)) != 0)
continue;
break;
}
}
var50 = *((int *) 0xBF98);
if (var50 != 0)
{
var60 = *((unsigned short *) 0xBFA4);
var61 = ((int *) var50)[6];
var64 var65 = (*var61) (var60, var6, var2, var44, var43);
}
*((int *) 0xBE20001C) = 0;
var51 = *((int *) 0xBE20001C);
if ((var51 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var59 = *((int *) 0xBE20001C);
if ((var59 & 0x8000) != 0)
continue;
break;
}
var52 = *((int *) 0xBF90);
}
else
{
var52 = *((int *) 0xBF90);
}
if (var52 == 0)
{
var53 = *((int *) 0xBF8C);
var56 = sceKernelUnlockMutex (var53, 1);
if (var56 >= 0)
{
*((int *) 0xBF94) = 0;
label192:
}
else
{
}
}
else
{
*((int *) 0xBF94) = 0;
goto label192;
}
}
}
}
}
void sub_04494 (){
*((int *) 0xBF88) = 0;
*((int *) 0xBF8C) = 0;
*((int *) 0xBF90) = 0;
*((int *) 0xBF94) = 0;
*((int *) 0xBF98) = 0;
*((int *) 0xBF9C) = 0;
*((int *) 0xBFA0) = 0;
*((int *) 0xBFA4) = 0;
sceSysreg_driver_04839CA2 ();
sceSysreg_driver_23944179 ();
sceI2c_driver_EF4EF213 (0x09, 0x09);
var9 = sceKernelCreateMutex (0xB8D0, 1, 0, 0);
*((int *) 0xBF8C) = var9;
var12 = sceKernelCreateEventFlag (0xB8D0, 1, 0, 0);
*((int *) 0xBF88) = var12;
sceKernelRegisterIntrHandler (0x0C, 2, 0x478C, 0, 0);
sceKernelRegisterSysEventHandler (0xBE04);
}
void sub_04564 (){
sceKernelUnregisterSysEventHandler (0xBE04);
sceKernelReleaseIntrHandler (0x0C);
sceKernelDeleteMutex (*((int *) 0xBF8C));
sceKernelDeleteEventFlag (*((int *) 0xBF88));
}
void sceI2c_driver_5DDBAB44 (){
*((int *) 0xBF88) = 0;
*((int *) 0xBF8C) = 0;
*((int *) 0xBF90) = 0;
*((int *) 0xBF94) = 0;
*((int *) 0xBF98) = 0;
*((int *) 0xBF9C) = 0;
*((int *) 0xBFA0) = 0;
*((int *) 0xBFA4) = 0;
sceSysreg_driver_04839CA2 ();
sceSysreg_driver_23944179 ();
sceI2c_driver_EF4EF213 (0x09, 0x09);
*((int *) 0xBF8C) = sceKernelCreateMutex (0xB8D0, 1, 0, 0);
*((int *) 0xBF88) = sceKernelCreateEventFlag (0xB8D0, 1, 0, 0);
sceKernelRegisterIntrHandler (0x0C, 2, 0x478C, 0, 0);
sceKernelRegisterSysEventHandler (0xBE04);
}
void sceI2c_driver_E79736C3 (){
sceKernelUnregisterSysEventHandler (0xBE04);
sceKernelReleaseIntrHandler (0x0C);
sceKernelDeleteMutex (*((int *) 0xBF8C));
sceKernelDeleteEventFlag (*((int *) 0xBF88));
}
void sceI2c_driver_8C5A4D15 (){
sceSysreg_driver_6D204F2A ();
sceSysreg_driver_917F9660 ();
}
void sceI2c_driver_E6360CA1 (){
sceSysreg_driver_04839CA2 ();
sceSysreg_driver_23944179 ();
sceI2c_driver_EF4EF213 (*((int *) 0xBF9C), *((int *) 0xBFA0));
}
void sceI2c_driver_7B762CAF (int arg1){
*((int *) 0xBF98) = arg1;
}
void sceI2c_driver_46AA2E3C (int arg1){
*((int *) 0xBF90) = arg1;
}
void sceI2c_driver_0654A583 (){
*((int *) 0xBE200020) = 1;
sceKernelDelayThread (0x64);
*((int *) 0xBE200020) = 0;
}
void sub_0478C (){
*((int *) 0xBE200028) = 1;
*((short *) 0xBFA4) = *((int *) 0xBE200000);
sceKernelDisableIntr (0x0C);
sceKernelSetEventFlag (*((int *) 0xBF88), 1);
}
void sub_047E4 (){
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
*((int *) 0xBE20001C) = 1;
var1 = *((int *) 0xBE20001C);
if ((var1 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var26 = *((int *) 0xBE20001C);
if ((var26 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE20002C) = 1;
var2 = *((int *) 0xBF9C);
var3 = *((int *) 0xBE200010);
if (var3 == var2)
{
label18:
var6 = *((int *) 0xBFA0);
}
else
{
var4 = *((int *) 0xBE200010);
if ((var4 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var23 = *((int *) 0xBE200010);
if ((var23 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200010) = var2;
var5 = *((int *) 0xBE200010);
if (!((var5 & 0x8000) != 0))
goto label18;
while (1) {
sceKernelDelayThread (0x64);
var20 = *((int *) 0xBE200010);
if ((var20 & 0x8000) != 0)
continue;
break;
}
var6 = *((int *) 0xBFA0);
}
var7 = *((int *) 0xBE200014);
ra = ((int *) sp)[2];
if (var7 == var6)
{
label30:
var10 = ((int *) sp)[1];
}
else
{
var8 = *((int *) 0xBE200014);
if ((var8 & 0x8000) != 0)
{
while (1) {
sceKernelDelayThread (0x64);
var17 = *((int *) 0xBE200014);
if ((var17 & 0x8000) != 0)
continue;
break;
}
}
*((int *) 0xBE200014) = var6;
var9 = *((int *) 0xBE200014);
ra = ((int *) sp)[2];
if (!((var9 & 0x8000) != 0))
goto label30;
while (1) {
sceKernelDelayThread (0x64);
var14 = *((int *) 0xBE200014);
ra = ((int *) sp)[2];
if ((var14 & 0x8000) != 0)
continue;
break;
}
var10 = ((int *) sp)[1];
}
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x4974
*/
void sceDmacplus_driver_78ED5F43 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceDmacplus_driver_C751F860 ();
ra = ((int *) sp)[0];
if (!(var3 < 0))
{
var6 = sceDmacplus_driver_A79EE6F6 ();
ra = ((int *) sp)[0];
if (!(var6 < 0))
{
var9 = sceDmacplus_driver_8B6B73F9 ();
ra = ((int *) sp)[0];
if (!(var9 < 0))
{
var12 = sceDmacplus_driver_4ABEFBC1 ();
ra = ((int *) sp)[0];
if (!(var12 < 0))
{
var15 = sceDmacplus_driver_9C57AB36 ();
ra = ((int *) sp)[0];
}
}
}
}
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x49D8
*/
void sceDmacplus_driver_61989D3A (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
if (!(var1 == 0))
{
if (!(((var1 < 0x0A)) == 0))
{
var2 = *((unsigned short *) 0xD70C);
var3 = (var2 >> var1) & 1;
if (var3 == 0)
{
var9 = sceKernelCpuSuspendIntr ();
var10 = *((unsigned short *) 0xD70C);
var11 = var10 | (1 << var1);
*((short *) 0xD70C) = var11;
sceKernelCpuResumeIntr (var9);
}
else
{
}
}
}
ra = ((int *) sp)[3];
var4 = ((int *) sp)[2];
var5 = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x4A6C
*/
void sceDmacplus_driver_A258A023 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
if (!(var1 == 0))
{
if (!(((var1 < 0x0A)) == 0))
{
var2 = *((unsigned short *) 0xD70C);
var3 = (var2 >> var1) & 1;
if (var3 != 0)
{
var9 = sceKernelCpuSuspendIntr ();
var10 = *((unsigned short *) 0xD70C);
var11 = var10 & (!(1 << var1));
*((short *) 0xD70C) = var11;
sceKernelCpuResumeIntr (var9);
}
else
{
}
}
}
ra = ((int *) sp)[3];
var4 = ((int *) sp)[2];
var5 = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x4B04
*/
int sceDmacplus_driver_6BB2E47C (int arg1)
{
var1 = 0;
if (arg1 == 0)
{
label6:
}
else
{
var1 = 0x80000102;
if (((arg1 < 0x0A)) == 0)
goto label6;
var2 = (arg1 + (arg1 >> 0x1F)) >> 1;
if ((arg1 & 1) != 0)
{
var4 = *((int *) 0xBC800018);
var1 = (var4 >> var2) & 1;
goto label6;
}
else
{
var3 = *((int *) 0xBC800014);
var1 = (var3 >> var2) & 1;
}
}
return var1;
}
/**
* Subroutine at address 0x4B5C
*/
void sceDmacplus_driver_1068393E (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
if (!(arg1 == 0))
{
if (!(((arg1 < 0x0A)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = (var1 + (var1 >> 0x1F)) >> 1;
if ((var1 & 1) != 0)
{
var11 = *((int *) 0xBC80000C);
var7 = (var11 >> var5) & 1;
*((int *) 0xBC800010) = (var7 << var5);
}
else
{
var6 = *((int *) 0xBC800004);
var7 = (var6 >> var5) & 1;
*((int *) 0xBC800008) = (var7 << var5);
}
sceKernelCpuResumeIntrWithSync (var4);
}
}
ra = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x4BFC
*/
void sub_04BFC (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[2] = s2;
((int *) sp)[5] = ra;
var1 = *((unsigned short *) 0xD70C);
((int *) sp)[4] = s4;
var2 = arg1;
((int *) sp)[3] = s3;
var3 = arg3;
((int *) sp)[1] = s1;
var4 = 0;
((int *) sp)[0] = s0;
var5 = 0;
while (1) {
var6 = 1 << var4;
if (!(var5 == 0))
{
var7 = *((int *) 0xBC800004);
if (!((var7 & var6) == 0))
{
*((int *) 0xBC800008) = var6;
if ((var1 & (1 << var5)) != 0)
{
InterruptManagerForKernel_8BE96A2E (var2, var5, var5, var3);
}
}
}
var8 = *((int *) 0xBC80000C);
var9 = var5 + 1;
var10 = 1 << var4;
var5 = var5 + 2;
var4 = var4 + 1;
if ((var8 & var10) == 0)
{
label14:
var11 = (var5 < 0x0A);
}
else
{
*((int *) 0xBC800010) = var10;
if (!((var1 & (1 << var9)) != 0))
goto label14;
InterruptManagerForKernel_8BE96A2E (var2, var9, var9, var3);
var11 = (var5 < 0x0A);
}
if (!(var11 != 0))
break;
continue;
}
ra = ((int *) sp)[5];
var12 = ((int *) sp)[4];
var13 = ((int *) sp)[3];
var14 = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
void sub_04D04 (){
sceSysreg_driver_3A14B278 ();
*((short *) 0xD70C) = 0;
sceKernelRegisterIntrHandler (0x15, 2, 0x4BFC, 0, 0xBAAC);
sceKernelEnableIntr (0x15);
sceDmacplus_driver_8472BB23 ();
sceDmacplus_driver_6292E01D ();
sceDmacplus_driver_84EBD5B1 ();
sceDmacplus_driver_54A776A3 ();
sceDmacplus_driver_4DB8CA36 ();
sceKernelRegisterSysEventHandler (0xBE44);
}
void sub_04D88 (){
sceKernelUnregisterSysEventHandler (0xBE44);
sceDmacplus_driver_5FEC19EE ();
sceDmacplus_driver_3A5F9CC1 ();
sceDmacplus_driver_4391D45C ();
sceDmacplus_driver_983FABB2 ();
sceDmacplus_driver_BB77E17A ();
sceKernelReleaseIntrHandler (0x15);
}
void sceDmacplus_driver_BF888BEC (){
sceSysreg_driver_3A14B278 ();
*((short *) 0xD70C) = 0;
sceKernelRegisterIntrHandler (0x15, 2, 0x4BFC, 0, 0xBAAC);
sceKernelEnableIntr (0x15);
sceDmacplus_driver_8472BB23 ();
sceDmacplus_driver_6292E01D ();
sceDmacplus_driver_84EBD5B1 ();
sceDmacplus_driver_54A776A3 ();
sceDmacplus_driver_4DB8CA36 ();
sceKernelRegisterSysEventHandler (0xBE44);
}
void sceDmacplus_driver_3B3C6252 (){
sceKernelUnregisterSysEventHandler (0xBE44);
sceDmacplus_driver_5FEC19EE ();
sceDmacplus_driver_3A5F9CC1 ();
sceDmacplus_driver_4391D45C ();
sceDmacplus_driver_983FABB2 ();
sceDmacplus_driver_BB77E17A ();
sceKernelReleaseIntrHandler (0x15);
}
void sceDmacplus_driver_E7580E49 (){
sceDmacplus_driver_B94CB1D4 ();
sceDmacplus_driver_0F01FE4A ();
sceDmacplus_driver_539A58C9 ();
sceDmacplus_driver_F5F2AD5E ();
sceDmacplus_driver_A05CA13D ();
sceSysreg_driver_B595FC22 ();
}
void sceDmacplus_driver_3E868CEE (){
sceSysreg_driver_3A14B278 ();
sceDmacplus_driver_0B1C48AA ();
sceDmacplus_driver_7D7BE745 ();
sceDmacplus_driver_975BB7E2 ();
sceDmacplus_driver_A836FBEA ();
sceDmacplus_driver_7A9001AF ();
}
/**
* Subroutine at address 0x4F44
*/
void sub_04F44 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (arg1 == 0x4004)
{
sceDmacplus_driver_B94CB1D4 ();
sceDmacplus_driver_0F01FE4A ();
sceDmacplus_driver_539A58C9 ();
sceDmacplus_driver_F5F2AD5E ();
sceDmacplus_driver_A05CA13D ();
sceSysreg_driver_B595FC22 ();
label37:
ra = ((int *) sp)[0];
}
else
{
if (((arg1 < 0x4005)) == 0)
{
if (arg1 != 0x00010004)
{
}
else
{
sceSysreg_driver_3A14B278 ();
sceDmacplus_driver_0B1C48AA ();
sceDmacplus_driver_7D7BE745 ();
sceDmacplus_driver_975BB7E2 ();
sceDmacplus_driver_A836FBEA ();
sceDmacplus_driver_7A9001AF ();
}
goto label37;
}
else
{
if (arg1 == 0x0402)
{
sceDmacplus_driver_78ED5F43 ();
ra = ((int *) sp)[0];
}
else
{
goto label37;
}
}
}
sp = sp + 0x10;
return;
}
void sub_05008 (int arg1, int arg2){
*((short *) 0xD70C) = (*((unsigned short *) 0xD70C) | (1 << arg2));
}
void sub_05028 (int arg1, int arg2){
*((short *) 0xD70C) = (*((unsigned short *) 0xD70C) & (!(1 << arg2)));
}
/**
* Subroutine at address 0x504C
*/
void sceDmacplus_driver_8472BB23 (){
memset (0xBFC0, 0, 0x1000);
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBC800110);
var7 = *((unsigned short *) 0xD70E);
var8 = (var7 & 0xFFFFFFFE) | (0 & 1);
var9 = 0;
*((int *) 0xBFA8) = 0;
*((int *) 0xBFAC) = 0xFFFFFFFF;
*((short *) 0xD70E) = var8;
if (!((var6 & 1) == 0))
{
var10 = *((int *) 0xBC80010C);
*((short *) 0xD70E) = (var8 | 1);
var11 = *((int *) 0xBC800108);
var12 = *((int *) 0xBC800104);
*((int *) 0xBFB8) = var10;
*((int *) 0xBFBC) = var12;
*((int *) 0xBFB4) = var11;
if (!(var10 == 0))
{
var9 = *((int *) 0xBC800100);
}
}
sceDmacplus_driver_BA1605D2 (var9);
InterruptManagerForKernel_CFFA1857 (0x15, 1, 0x56A8, 0);
sceKernelEnableSubIntr (0x15, 1);
*((int *) 0xBC800110) |= 2;
sceKernelCpuResumeIntrWithSync (var5);
sceDmacplus_driver_CBE11C48 ();
ra = ((int *) sp)[1];
var24 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x5150
*/
void sceDmacplus_driver_0B1C48AA ()
{
var1 = *((int *) 0xBFB8);
var4 = *((int *) 0xBFB0);
*((int *) 0xBC800110) = 2;
*((int *) 0xBC800108) = *((int *) 0xBFB4);
*((int *) 0xBC80010C) = var1;
*((int *) 0xBC800104) = *((int *) 0xBFBC);
if (var4){
*((int *) 0xBC800100) = ((var4 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC80010C) = var1;
var5 = *((int *) 0xBFA8);
}else{
*((int *) 0xBC800100) = ((0xBFC0 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC80010C) = 0;
var5 = *((int *) 0xBFA8);
}
if (!var5)
if (*((unsigned short *) 0xD70E) & 1)
*((int *) 0xBC800110) |= 1;
return;
}
/**
* Subroutine at address 0x5204
*/
void sceDmacplus_driver_BA1605D2 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
if (arg1 == 0)
{
label12:
var7 = sceKernelCpuSuspendIntr ();
if (var1 == 0)
{
var18 = *((int *) 0xBFAC);
if (var18 == 1)
{
var11 = *((int *) 0xBFA8);
}
else
{
var17 = *((int *) 0xBC800110);
*((int *) 0xBFAC) = 1;
*((int *) 0xBC800110) = ((var17 & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBC800100) = ((0xBFC0 >> 0) & 0x1FFFFFFF);
label23:
*((int *) 0xBC80010C) = 0;
*((int *) 0xBC800110) = var17;
var11 = *((int *) 0xBFA8);
}
}
else
{
if (((var1 >> 14) & 0x7FFF) == 0x04)
{
if (((0x35 >> ((var1 >> 29) & 0x07)) & 1) == 0)
{
label25:
var8 = *((int *) 0xBFAC);
if (var8 == 0)
{
*((int *) 0xBC800100) = ((var1 >> 0) & 0x1FFFFFFF);
var11 = *((int *) 0xBFA8);
}
else
{
var9 = *((int *) 0xBC800110);
var10 = *((int *) 0xBFB8);
*((int *) 0xBC800110) = ((var9 & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBC800100) = ((var1 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC80010C) = var10;
*((int *) 0xBC800110) = var9;
*((int *) 0xBFAC) = 0;
var11 = *((int *) 0xBFA8);
}
}
else
{
var16 = *((int *) 0xBFAC);
if (var16 == 2)
{
var11 = *((int *) 0xBFA8);
}
else
{
var17 = *((int *) 0xBC800110);
*((int *) 0xBFAC) = 2;
*((int *) 0xBC800110) = ((var17 & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBC800100) = ((var1 >> 0) & 0x1FFFFFFF);
goto label23;
}
}
}
else
{
goto label25;
}
}
*((int *) 0xBFB0) = var1;
if (!(var11 == 0))
{
var12 = *((unsigned short *) 0xD70E);
if (!((var12 & 1) == 0))
{
var13 = *((int *) 0xBC800110);
*((int *) 0xBC800110) = (var13 | 1);
}
}
sceKernelCpuResumeIntrWithSync (var7);
var2 = 0;
}
else
{
var2 = 0x80000103;
if (!((arg1 & 0x0F) != 0))
{
if (((var1 >> 23) & 0x3F) == 0x08)
{
var3 = (var1 >> 27) & 0x1F;
if (((0x35 >> ((var1 >> 29) & 0x07)) & 1) != 0)
goto label12;
label8:
if (((0x00220202 >> var3) & 1) != 0)
goto label12;
if (((var1 >> 14) & 0x7FFF) == 0x04)
{
if (!(((0x35 >> ((var1 >> 29) & 0x07)) & 1) == 0))
goto label12;
label36:
var2 = 0x80000103;
}
else
{
goto label36;
}
}
else
{
var3 = (var1 >> 27) & 0x1F;
goto label8;
}
}
}
ra = ((int *) sp)[1];
var4 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x5428
*/
void sceDmacplus_driver_FFF6EE05 (int arg1, int arg2, int arg3)
{
var1 = 0x80000104;
if (!((arg1 & 0x07) != 0))
{
if (!((arg2 & 0x3F) != 0))
{
var1 = 0x80000108;
if (!(((arg3 < 0x04)) == 0))
{
var2 = *((int *) 0xBFA8);
var1 = 0x80000021;
if (var2 != 0)
{
label7:
*((int *) 0xBFBC) = arg3;
var1 = 0;
*((int *) 0xBFB4) = arg1;
*((int *) 0xBFB8) = arg2;
*((int *) 0xBC800108) = arg1;
*((int *) 0xBC80010C) = arg2;
*((int *) 0xBC800104) = arg3;
}
else
{
var3 = *((unsigned short *) 0xD70E);
if (!((var3 & 1) != 0))
goto label7;
}
}
}
}
return;
}
void sceDmacplus_driver_464AB3C1 (int arg1, int arg2, int arg3){
if (arg1)*arg1=*((int *) 0xBFB4);
if (arg2)*arg2=*((int *) 0xBFB8);
if (arg3)*arg3=*((int *) 0xBFBC);
}
/**
* Subroutine at address 0x54E4
*/
void sceDmacplus_driver_CBE11C48 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var3 = sceKernelCpuSuspendIntr ();
var4 = *((unsigned short *) 0xD70E);
var5 = var4 & 1;
if (var5 == 0)
{
label6:
*((short *) 0xD70E) = (var4 | 1);
var7 = *((int *) 0xBFB0);
var8 = (0xBFC0 >> 0) & 0x1FFFFFFF;
*((int *) 0xBFA8) = 0;
if (var7 == 0)
{
label9:
*((int *) 0xBC800100) = var8;
*((int *) 0xBC80010C) = 0;
}
else
{
if (((var7 >> 14) & 0x7FFF) == 0x04)
{
var8 = (var7 >> 0) & 0x1FFFFFFF;
if (!(((0x35 >> ((var7 >> 29) & 0x07)) & 1) == 0))
goto label9;
label10:
var9 = *((int *) 0xBFB0);
var10 = *((int *) 0xBFB8);
*((int *) 0xBC800100) = ((var9 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC80010C) = var10;
}
else
goto label10;
}
var11 = *((int *) 0xBC800110);
*((int *) 0xBC800110) = (var11 | 1);
}
else
{
var6 = *((int *) 0xBFA8);
if (!(var6 == 0))
goto label6;
}
sceKernelCpuResumeIntrWithSync (var3);
ra = ((int *) sp)[1];
var14 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sceDmacplus_driver_BB77E17A (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC800110) &= 0xFFFFFFFD;
sceKernelReleaseSubIntrHandler (0x15, 1);
sceKernelCpuResumeIntr (intr);
}
int sceDmacplus_driver_C751F860 (){
return 0;
}
void sceDmacplus_driver_B94CB1D4 (){
*((int *) 0xBC800110) = 0;
}
void sceDmacplus_driver_8438DB83 (){
return *((int *) 0xBFB0);
}
void sceDmacplus_driver_7321EDEE (){
intr = sceKernelCpuSuspendIntr ();
var4 = *((unsigned short *) 0xD70E);
if (var4 & 1){
*((short *) 0xD70E) = (var4 - var4 & 1);
*((int *) 0xBC800110) = ((*((int *) 0xBC800110) & 0xFFFFFFFE) | (0 & 1));
}
sceKernelCpuResumeIntrWithSync (intr);
}
void sub_056A8 (){
*((int *) 0xBC800110) = ((*((int *) 0xBC800110) & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBFB0) = 0;
*((int *) 0xBFA8) = 1;
}
/**
* Subroutine at address 0x56D8
*/
void sceDmacplus_driver_6BB9BD45 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFC0;
((int *) sp)[12] = fp;
var1 = arg2;
((int *) sp)[11] = s7;
var2 = arg1;
((int *) sp)[10] = s6;
var3 = arg3;
((int *) sp)[13] = ra;
((int *) sp)[9] = s5;
((int *) sp)[8] = s4;
((int *) sp)[7] = s3;
((int *) sp)[6] = s2;
((int *) sp)[5] = s1;
((int *) sp)[4] = s0;
if (!(arg1 == 0))
{
var6 = sceKernelCpuSuspendIntr ();
var7 = *((unsigned short *) 0xD70E);
var8 = var7 & 0x0A;
((int *) sp)[0] = var6;
if (var8 != 0)
{
var41 = ((int *) sp)[0];
sceKernelCpuResumeIntr (var41, var8);
}
else
{
var9 = *((int *) 0xD008);
var10 = var7 | 2;
*((short *) 0xD70E) = var10;
if (!(var9 == 0))
{
*((short *) 0xD70E) = (var10 | 0xFFFF8000);
}
var11 = ((int *) var3)[4];
var12 = ((int *) var3)[5];
var13 = ((int *) var3)[6];
var14 = ((int *) var3)[7];
var15 = ((int *) var3)[8];
var16 = ((int *) var3)[9];
var17 = ((int *) var3)[10];
var18 = ((int *) var3)[11];
*((int *) 0xBC800120) = (((((var11 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var11 & 0x1FFFFFFF));
*((int *) 0xBC800124) = (((((var12 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var12 & 0x1FFFFFFF));
*((int *) 0xBC800128) = (((((var13 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var13 & 0x1FFFFFFF));
*((int *) 0xBC80012C) = (((((var14 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var14 & 0x1FFFFFFF));
*((int *) 0xBC800130) = (((((var15 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var15 & 0x1FFFFFFF));
*((int *) 0xBC800134) = (((((var16 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var16 & 0x1FFFFFFF));
*((int *) 0xBC800138) = (((((var17 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var17 & 0x1FFFFFFF));
*((int *) 0xBC80013C) = (((((var18 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var18 & 0x1FFFFFFF));
*((int *) 0xBC800144) = (((((var2 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var2 & 0x1FFFFFFF));
*((int *) 0xBC800148) = (((((var1 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var1 & 0x1FFFFFFF));
if (var1 == 0)
{
var40 = *((int *) 0xD004);
var20 = (var40 << 0x08) | (var9 << 1);
}
else
{
var19 = *((int *) 0xD004);
var20 = ((var19 << 0x08) | (var9 << 1)) | 1;
}
*((int *) 0xBC80014C) = var20;
var21 = ((int *) var3)[0];
var22 = ((int *) var3)[1];
var23 = ((int *) var3)[2];
var24 = ((int *) var3)[3];
var25 = *((int *) 0xCFC0);
*((int *) 0xBC800140) = (((((var21 & 0x3F) << 0x10) | ((var22 & 0x3F) << 0x08)) | ((var23 & 1) << 2)) | ((var24 & 1) << 1));
*((int *) 0xBC800160) = 0x0D;
sceKernelClearEventFlag (var25, 0xFFFFFFFC);
var28 = ((int *) sp)[0];
sceKernelCpuResumeIntrWithSync (var28);
}
}
ra = ((int *) sp)[13];
var31 = ((int *) sp)[12];
var32 = ((int *) sp)[11];
var33 = ((int *) sp)[10];
var34 = ((int *) sp)[9];
var35 = ((int *) sp)[8];
var36 = ((int *) sp)[7];
var37 = ((int *) sp)[6];
var38 = ((int *) sp)[5];
var39 = ((int *) sp)[4];
sp = sp + 0x40;
return;
}
/**
* Subroutine at address 0x597C
*/
void sceDmacplus_driver_86EAC84A (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
var1 = arg2;
((int *) sp)[3] = s3;
var2 = arg1;
((int *) sp)[2] = s2;
var3 = arg3;
((int *) sp)[6] = ra;
((int *) sp)[5] = s5;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
if (!(arg1 == 0))
{
var6 = sceKernelCpuSuspendIntr ();
var7 = ((int *) var3)[1];
var8 = *((unsigned short *) 0xD70E);
var9 = var6;
var10 = var7 & 0x07;
if (((var8 & 0xFFFF) & (!(var10) ? 0x0A : 0x1A)) != 0)
{
sceKernelCpuResumeIntr (var9, 0x0A, var10);
}
else
{
var11 = ((int *) var3)[4];
var12 = ((int *) var3)[5];
var13 = ((int *) var3)[6];
var14 = ((int *) var3)[7];
var15 = ((int *) var3)[8];
var16 = ((int *) var3)[9];
*((int *) 0xBC800120) = (((((var11 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var11 & 0x1FFFFFFF));
*((short *) 0xD70E) = (var8 | 0xFFFF8002);
*((int *) 0xBC800128) = (((((var12 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var12 & 0x1FFFFFFF));
*((int *) 0xBC800130) = (((((var13 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var13 & 0x1FFFFFFF));
*((int *) 0xBC800134) = (((((var14 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var14 & 0x1FFFFFFF));
*((int *) 0xBC800138) = (((((var15 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var15 & 0x1FFFFFFF));
*((int *) 0xBC80013C) = (((((var16 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var16 & 0x1FFFFFFF));
*((int *) 0xBC800144) = (((((var2 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var2 & 0x1FFFFFFF));
*((int *) 0xBC800148) = (((((var1 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var1 & 0x1FFFFFFF));
if (var1 == 0)
{
var35 = *((int *) 0xD008);
var36 = *((int *) 0xD004);
var19 = (var36 << 0x08) | (var35 << 1);
}
else
{
var17 = *((int *) 0xD008);
var18 = *((int *) 0xD004);
var19 = ((var18 << 0x08) | (var17 << 1)) | 1;
}
*((int *) 0xBC80014C) = var19;
var20 = ((int *) var3)[0];
var21 = ((int *) var3)[1];
var22 = ((int *) var3)[2];
var23 = ((int *) var3)[3];
var24 = *((int *) 0xCFC0);
*((int *) 0xBC800140) = ((((((var20 & 0x3F) << 0x10) | ((var21 & 0x3F) << 0x08)) | ((var22 & 1) << 2)) | ((var23 & 1) << 1)) | 1);
*((int *) 0xBC800160) = 0x0D;
sceKernelClearEventFlag (var24, 0xFFFFFFFC);
sceKernelCpuResumeIntrWithSync (var9);
}
}
ra = ((int *) sp)[6];
var29 = ((int *) sp)[5];
var30 = ((int *) sp)[4];
var31 = ((int *) sp)[3];
var32 = ((int *) sp)[2];
var33 = ((int *) sp)[1];
var34 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x5BDC
*/
void sceDmacplus_driver_0A40EF79 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s0;
var1 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[5] = s1;
if (arg1 == 0)
{
var25 = *((int *) 0xCFC0);
var26 = sp;
var29 = sceKernelWaitEventFlag (var25, 0x03, 1, var26, 0);
var8 = var29;
label10:
var2 = var8;
if (var8 < 0)
{
label15:
ra = ((int *) sp)[6];
}
else
{
var9 = ((int *) sp)[0];
ra = ((int *) sp)[6];
if (!((var9 & 2) == 0))
{
if (!(var1 == 0))
{
var10 = *((int *) 0xCFC4);
((int *) var1)[0] = var10;
var11 = *((int *) 0xCFC8);
((int *) var1)[1] = var11;
var12 = *((int *) 0xCFCC);
((int *) var1)[2] = var12;
var13 = *((int *) 0xCFD0);
((int *) var1)[3] = var13;
var14 = *((int *) 0xCFD4);
((int *) var1)[4] = var14;
var15 = *((int *) 0xCFD8);
((int *) var1)[5] = var15;
var16 = *((int *) 0xCFDC);
((int *) var1)[6] = var16;
var17 = *((int *) 0xCFE0);
((int *) var1)[7] = var17;
var18 = *((int *) 0xCFE4);
((int *) var1)[8] = var18;
var19 = *((int *) 0xCFE8);
((int *) var1)[9] = var19;
var20 = *((int *) 0xCFEC);
((int *) var1)[10] = var20;
var21 = *((int *) 0xCFF0);
((int *) var1)[11] = var21;
}
var22 = *((unsigned short *) 0xD70E);
*((short *) 0xD70E) = (var22 & 0x7FFD);
var2 = 0xFFFFFFFF;
goto label15;
}
}
}
else
{
var2 = 0x80000107;
if (arg1 != 1)
goto label15;
var3 = *((int *) 0xCFC0);
var4 = sp;
var7 = sceKernelPollEventFlag (var3, 0x03, 1, var4);
var8 = var7;
var2 = 1;
if (var7 == 0x800201AF)
goto label15;
goto label10;
}
var23 = ((int *) sp)[5];
var24 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x5D08
*/
void sceDmacplus_driver_6292E01D ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
var3 = sceKernelCpuSuspendIntr ();
memset (0xCFC0, 0, 0x4C);
var6 = *((int *) 0xBC800150);
*((int *) 0xCFF4) = var6;
var7 = *((int *) 0xBC800154);
*((int *) 0xCFF8) = var7;
var8 = *((int *) 0xBC800158);
*((int *) 0xCFFC) = var8;
var9 = *((int *) 0xBC80015C);
*((int *) 0xD000) = var9;
var12 = sceKernelCreateEventFlag ("SceDmacplusAvc", 0x0201, 1, 0);
*((int *) 0xCFC0) = var12;
InterruptManagerForKernel_CFFA1857 (0x15, 0x03, 0x602C, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 2, 0x612C, 0);
sceKernelEnableSubIntr (0x15, 0x03);
sceKernelEnableSubIntr (0x15, 2);
*((int *) 0xBC800160) = 0;
sceKernelCpuResumeIntrWithSync (var3);
ra = ((int *) sp)[3];
var23 = ((int *) sp)[2];
var24 = ((int *) sp)[1];
var25 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sceDmacplus_driver_983FABB2 (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC800160) = 0;
sceKernelReleaseSubIntrHandler (0x15, 0x03);
sceKernelReleaseSubIntrHandler (0x15, 2);
sceKernelDeleteEventFlag (*((int *) 0xCFC0));
sceKernelCpuResumeIntr (intr);
}
int sceDmacplus_driver_A79EE6F6 (){
return (*((unsigned short *) 0xD70E)&2) ? -1 : 0;
}
void sceDmacplus_driver_0F01FE4A (){
*((int *) 0xBC800160) = 0;
}
void sceDmacplus_driver_7D7BE745 (){
*((int *) 0xBC800150) = *((int *) 0xCFF4);
*((int *) 0xBC800154) = *((int *) 0xCFF8);
*((int *) 0xBC800158) = *((int *) 0xCFFC);
*((int *) 0xBC80015C) = *((int *) 0xD000);
}
void sceDmacplus_driver_960D7B8A (int arg1, int arg2, int arg3){
var4 = sceKernelCpuSuspendIntr ();
if (*((unsigned short *) 0xD70E) & 2){
sceKernelCpuResumeIntr (var4, var6, 0x00010000);
return;
}
var7 = ((unsigned short *) arg3)[2];
var8 = ((unsigned short *) arg3)[1];
var9 = ((unsigned short *) arg3)[5];
var10 = ((unsigned short *) arg3)[4];
var11 = ((unsigned short *) arg3)[8];
var12 = ((unsigned short *) arg3)[7];
var13 = ((unsigned short *) arg3)[10];
var14 = ((unsigned short *) arg3)[6];
var15 = ((unsigned short *) arg3)[0];
var16 = ((unsigned short *) arg3)[3];
var17 = var12 & 0x03FF;
var18 = ((unsigned char *) arg3)[18];
var19 = (var7 & 0x03FF) << 0x14;
var20 = (var19 | ((var8 & 0x03FF) << 0x0A)) | (var15 & 0x03FF);
var21 = (((var9 & 0x03FF) << 0x14) | ((var10 & 0x03FF) << 0x0A)) | (var16 & 0x03FF);
var22 = (((var11 & 0x03FF) << 0x14) | (var17 << 0x0A)) | (var14 & 0x03FF);
var23 = ((var13 & 1) << 0x08) | var18;
*((int *) 0xD008) = arg1;
*((int *) 0xBC800150) = var20;
*((int *) 0xD004) = arg2;
*((int *) 0xBC800154) = var21;
*((int *) 0xBC800158) = var22;
*((int *) 0xBC80015C) = var23;
*((int *) 0xCFF4) = var20;
*((int *) 0xCFF8) = var21;
*((int *) 0xCFFC) = var22;
*((int *) 0xD000) = var23;
sceKernelCpuResumeIntr (var4, var19, var17);
}
/**
* Subroutine at address 0x602C
*/
void sub_0602C ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = *((int *) 0xBC800160);
*((int *) 0xBC800160) = ((var1 & 0xFFFFFFFE) | (0 & 1));
var2 = *((int *) 0xBC800120);
*((int *) 0xCFC4) = var2;
var3 = *((int *) 0xBC800124);
*((int *) 0xCFC8) = var3;
var4 = *((int *) 0xBC800128);
*((int *) 0xCFCC) = var4;
var5 = *((int *) 0xBC80012C);
*((int *) 0xCFD0) = var5;
var6 = *((int *) 0xBC800130);
*((int *) 0xCFD4) = var6;
var7 = *((int *) 0xBC800134);
var8 = *((int *) 0xCFC0);
*((int *) 0xCFD8) = var7;
var9 = *((int *) 0xBC800138);
*((int *) 0xCFDC) = var9;
var10 = *((int *) 0xBC80013C);
*((int *) 0xCFE0) = var10;
var11 = *((int *) 0xBC800140);
*((int *) 0xCFE4) = var11;
var12 = *((int *) 0xBC800144);
*((int *) 0xCFE8) = var12;
var13 = *((int *) 0xBC800148);
*((int *) 0xCFEC) = var13;
var14 = *((int *) 0xBC80014C);
*((int *) 0xCFF0) = var14;
sceKernelSetEventFlag (var8, 2);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sub_0612C (){
sceKernelSetEventFlag (*((int *) 0xCFC0), 1);
*((short *) 0xD70E) &= 0x7FFD);
}
/**
* Subroutine at address 0x6168
*/
void sceDmacplus_driver_FBE5DE3E (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
((int *) sp)[2] = s2;
var1 = 0x80000104;
((int *) sp)[1] = s1;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
if (!(((arg3 < 0x1000)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((unsigned short *) 0xD70E);
var6 = arg3 | 0x82909000;
if ((var5 & 0x0C) != 0)
{
sceKernelCpuResumeIntr (var4, 0xFFFFFFFC, var6);
var1 = 0x80000021;
}
else
{
var7 = *((int *) 0xD00C);
*((short *) 0xD70E) = (var5 | 0x04);
*((int *) 0xBC800180) = ((arg2 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC800184) = ((arg1 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC800188) = 0;
*((int *) 0xBC80018C) = var6;
*((int *) 0xBC800190) = 0xC001;
sceKernelClearEventFlag (var7, 0xFFFFFFFC);
sceKernelCpuResumeIntrWithSync (var4);
var1 = 0;
}
}
ra = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x6258
*/
void sceDmacplus_driver_8AA7F020 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var1 = arg1;
var4 = sceKernelCpuSuspendIntr ();
var5 = var4;
var6 = *((unsigned short *) 0xD70E);
var7 = var6 | 0x04;
if ((var6 & 0x0C) != 0)
{
sceKernelCpuResumeIntr (var5, var6, var7);
}
else
{
var8 = ((int *) var1)[0];
*((short *) 0xD70E) = var7;
*((int *) 0xBC800180) = var8;
var9 = ((int *) var1)[1];
*((int *) 0xBC800184) = var9;
var10 = ((int *) var1)[2];
*((int *) 0xBC800188) = var10;
var11 = ((int *) var1)[3];
if ((var11 & 0x08000000) != 0)
{
*((int *) 0xBC80018C) = (var11 | 0x0A909000);
}
else
{
*((int *) 0xBC80018C) = (var11 | 0x02489000);
}
var12 = *((int *) 0xD00C);
*((int *) 0xBC800190) = 0xC001;
sceKernelClearEventFlag (var12, 0xFFFFFFFC);
sceKernelCpuResumeIntrWithSync (var5);
}
ra = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x6348
*/
void sceDmacplus_driver_915A917C (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s0;
var1 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[5] = s1;
if (arg1 == 0)
{
var17 = *((int *) 0xD00C);
var18 = sp;
var21 = sceKernelWaitEventFlag (var17, 0x03, 1, var18, 0);
var8 = var21;
label10:
var2 = var8;
if (var8 < 0)
{
label15:
ra = ((int *) sp)[6];
}
else
{
var9 = ((int *) sp)[0];
ra = ((int *) sp)[6];
if (!((var9 & 2) == 0))
{
if (!(var1 == 0))
{
var10 = *((int *) 0xD010);
((int *) var1)[0] = var10;
var11 = *((int *) 0xD014);
((int *) var1)[1] = var11;
var12 = *((int *) 0xD018);
((int *) var1)[2] = var12;
var13 = *((int *) 0xD01C);
((int *) var1)[3] = var13;
}
var14 = *((unsigned short *) 0xD70E);
*((short *) 0xD70E) = ((var14 & 0xFFFFFFFB) | (0 & 1));
var2 = 0xFFFFFFFF;
goto label15;
}
}
}
else
{
var2 = 0x80000107;
if (arg1 != 1)
goto label15;
var3 = *((int *) 0xD00C);
var4 = sp;
var7 = sceKernelPollEventFlag (var3, 0x03, 1, var4);
var8 = var7;
var2 = 1;
if (var7 == 0x800201AF)
goto label15;
goto label10;
}
var15 = ((int *) sp)[5];
var16 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
void sceDmacplus_driver_84EBD5B1 (){
intr = sceKernelCpuSuspendIntr ();
*((short *) 0xD70E) &= 0xFFFFFFFB;
*((int *) 0xD00C) = sceKernelCreateEventFlag ("SceDmacplusSc2Me", 0x0201, 1, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 0x05, 0x6568, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 0x04, 0x65E8, 0);
sceKernelEnableSubIntr (0x15, 0x05);
sceKernelEnableSubIntr (0x15, 0x04);
sceKernelCpuResumeIntrWithSync (intr);
}
void sceDmacplus_driver_4391D45C (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC800190) = 0;
sceKernelReleaseSubIntrHandler (0x15, 0x05);
sceKernelReleaseSubIntrHandler (0x15, 0x04);
sceKernelDeleteEventFlag (*((int *) 0xD00C));
sceKernelCpuResumeIntrWithSync (intr);
}
int sceDmacplus_driver_8B6B73F9 (){
return (!((*((unsigned short *) 0xD70E) & 0x04)) ? 0 : 0xFFFFFFFF);
}
void sceDmacplus_driver_539A58C9 (){
return;
}
void sceDmacplus_driver_975BB7E2 (){
return;
}
void sub_06568 (){
*((int *) 0xBC800190) &= 0xFFFFFFFE;
*((int *) 0xD010) = *((int *) 0xBC800180);
*((int *) 0xD014) = *((int *) 0xBC800184);
*((int *) 0xD018) = *((int *) 0xBC800188);
*((int *) 0xD01C) = *((int *) 0xBC80018C);
sceKernelSetEventFlag (*((int *) 0xD00C);, 2);
}
void sub_065E8 (){
sceKernelSetEventFlag (*((int *) 0xD00C), 1);
*((short *) 0xD70E) &= 0xFFFFFFFB;
}
/**
* Subroutine at address 0x6624
*/
void sceDmacplus_driver_21DA182B (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[0] = s0;
((int *) sp)[2] = s2;
var1 = 0x80000104;
((int *) sp)[1] = s1;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
if (!(((arg3 < 0x1000)) == 0))
{
var4 = sceKernelCpuSuspendIntr ();
var5 = *((unsigned short *) 0xD70E);
var6 = arg3 | 0x81909000;
if ((var5 & 0x0E) != 0)
{
sceKernelCpuResumeIntr (var4, 0xFFFFFFFC, var6);
var1 = 0x80000021;
}
else
{
var7 = *((int *) 0xD020);
*((short *) 0xD70E) = (var5 | 0x08);
*((int *) 0xBC8001A0) = ((arg2 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC8001A4) = ((arg1 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC8001A8) = 0;
*((int *) 0xBC8001AC) = var6;
*((int *) 0xBC8001B0) = 0xC001;
sceKernelClearEventFlag (var7, 0xFFFFFFFC);
sceKernelCpuResumeIntrWithSync (var4);
var1 = 0;
}
}
ra = ((int *) sp)[4];
var12 = ((int *) sp)[3];
var13 = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x6714
*/
void sceDmacplus_driver_1D65E667 (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s0;
var1 = arg2;
((int *) sp)[6] = ra;
((int *) sp)[5] = s1;
if (arg1 == 0)
{
var17 = *((int *) 0xD020);
var18 = sp;
var21 = sceKernelWaitEventFlag (var17, 0x03, 1, var18, 0);
var8 = var21;
label10:
var2 = var8;
if (var8 < 0)
{
label15:
ra = ((int *) sp)[6];
}
else
{
var9 = ((int *) sp)[0];
ra = ((int *) sp)[6];
if (!((var9 & 2) == 0))
{
if (!(var1 == 0))
{
var10 = *((int *) 0xD024);
((int *) var1)[0] = var10;
var11 = *((int *) 0xD028);
((int *) var1)[1] = var11;
var12 = *((int *) 0xD02C);
((int *) var1)[2] = var12;
var13 = *((int *) 0xD030);
((int *) var1)[3] = var13;
}
var14 = *((unsigned short *) 0xD70E);
*((short *) 0xD70E) = ((var14 & 0xFFFFFFF7) | (0 & 1));
var2 = 0xFFFFFFFF;
goto label15;
}
}
}
else
{
var2 = 0x80000107;
if (arg1 != 1)
goto label15;
var3 = *((int *) 0xD020);
var4 = sp;
var7 = sceKernelPollEventFlag (var3, 0x03, 1, var4);
var8 = var7;
var2 = 1;
if (var7 == 0x800201AF)
goto label15;
goto label10;
}
var15 = ((int *) sp)[5];
var16 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
void sceDmacplus_driver_54A776A3 (){
intr = sceKernelCpuSuspendIntr ();
*((short *)0xD70E)&= 0xFFFFFFF7;
*((int *) 0xD020) = sceKernelCreateEventFlag ("SceDmacplusMe2Sc", 0x0201, 1, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 7, 0x69F0, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 6, 0x6A70, 0);
sceKernelEnableSubIntr (0x15, 7);
sceKernelEnableSubIntr (0x15, 6);
sceKernelCpuResumeIntrWithSync (intr);
return;
}
void sceDmacplus_driver_3A5F9CC1 (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC8001B0) = 0;
sceKernelReleaseSubIntrHandler (0x15, 7);
sceKernelReleaseSubIntrHandler (0x15, 6);
sceKernelDeleteEventFlag (*((int *) 0xD020));
sceKernelCpuResumeIntrWithSync (intr);
}
int sceDmacplus_driver_4ABEFBC1 (){
return (*((unsigned short *) 0xD70E) & 0x08) ? -1 : 0);
}
void sceDmacplus_driver_F5F2AD5E (){
return;
}
void sceDmacplus_driver_A836FBEA (){
return;
}
/**
* Subroutine at address 0x6934
*/
void sceDmacplus_driver_24B3E74C (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var1 = arg1;
var4 = sceKernelCpuSuspendIntr ();
var5 = *((unsigned short *) 0xD70E);
var6 = var5 | 0x08;
if ((var5 & 0x0E) != 0)
{
sceKernelCpuResumeIntr (var4, 0xFFFFFFFC, var6);
}
else
{
var7 = ((int *) var1)[0];
*((short *) 0xD70E) = var6;
*((int *) 0xBC8001A0) = var7;
var8 = ((int *) var1)[1];
var9 = *((int *) 0xD020);
*((int *) 0xBC8001A4) = var8;
var10 = ((int *) var1)[2];
*((int *) 0xBC8001A8) = var10;
var11 = ((int *) var1)[3];
*((int *) 0xBC8001AC) = var11;
*((int *) 0xBC8001B0) = 0xC001;
sceKernelClearEventFlag (var9, 0xFFFFFFFC);
sceKernelCpuResumeIntrWithSync (var4);
}
ra = ((int *) sp)[2];
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sub_069F0 (){
*((int *) 0xBC8001B0) &= 0xFFFFFFFE);
*((int *) 0xD024) = *((int *) 0xBC8001A0);
*((int *) 0xD028) = *((int *) 0xBC8001A4);
*((int *) 0xD02C) = *((int *) 0xBC8001A8);
*((int *) 0xD030) = *((int *) 0xBC8001AC);
sceKernelSetEventFlag (*((int *) 0xD020), 2);
}
void sub_06A70 (){
sceKernelSetEventFlag (var1, 1);
*((short *) 0xD70E) &= 0xFFFFFFF7);
return;
}
void sceDmacplus_driver_A05CA13D (){
if (*((unsigned short *) 0xD70E) & 0x10){
while (1) {
if (sceDmacplus_driver_6BB2E47C (0x08)){
sub_06B2C ();
var10 = 0x08;
}
if (!sceDmacplus_driver_6BB2E47C (0x09))continue;
sub_06B80 ();
var10 = 0x09;
break;
}
sceDmacplus_driver_1068393E (var10);
}
}
void sub_06B2C (){
*((short *) 0xD70E) &= 0xFFFFFFEF;
sceKernelSetEventFlag (*((int *) 0xD038), 1);
sceKernelSignalSema (*((int *) 0xD034), 1);
}
void sub_06B80 (){
*((int *) 0xD03C) = *((int *) 0xBC8001C0);
*((int *) 0xD040) = *((int *) 0xBC8001C4);
*((int *) 0xD044) = *((int *) 0xBC8001C8);
*((int *) 0xD048) = *((int *) 0xBC8001CC);
*((short*)0xD70E)&= 0xFFFFFFEF;
sceKernelSetEventFlag (*((int *) 0xD038), 2);
}
void sceDmacplus_driver_AC024305 (int arg1, int arg2, int arg3){
sub_06C10 (arg1, arg2, arg3, 0);
return;
}
void sceDmacplus_driver_50FCAA20 (int arg1, int arg2, int arg3){
sub_06C10 (arg1, arg2, arg3, 1);
return;
}
/**
* Subroutine at address 0x6C10
*/
void sub_06C10 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFC70;
((int *) sp)[221] = s5;
var1 = arg1;
var2 = arg2;
((int *) sp)[217] = s1;
var3 = 0;
var4 = arg3;
((int *) sp)[225] = ra;
((int *) sp)[224] = fp;
((int *) sp)[223] = s7;
((int *) sp)[222] = s6;
((int *) sp)[220] = s4;
((int *) sp)[219] = s3;
((int *) sp)[218] = s2;
((int *) sp)[216] = s0;
((int *) sp)[209] = arg4;
if (!(arg3 == 0))
{
if (!((((arg1 < 1)) | ((arg2 < 1))) != 0))
{
var5 = k1;
k1 = k1 >> 0x10;
((int *) sp)[211] = var5;
var6 = k1 & 0x18;
var7 = ((int *) sp)[211];
if (((0 - var6) & (((var2 + var4) | var2) | var4)) < 0)
{
label69:
k1 = var7;
}
else
{
var8 = k1 & 0x18;
if (((0 - var8) & (((var1 + var4) | var1) | var4)) >= 0)
{
var18 = ((((var2 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var2 & 0x1FFFFFFF);
var19 = ((((var1 >> 0x1F) ^ 1) << 0x1E) & 0xE0000000) | (var1 & 0x1FFFFFFF);
var20 = CLZ ((BITREV ((((var18 ^ var19) & 0x0F) | 0x10))));
var21 = (0x00012333 >> (var20 << 2)) & 0x07;
var22 = 1 << var20;
var23 = var18 & (var22 + 0xFFFFFFFF);
var24 = var1 | (((var1 >> 0x1F) + 2) << 0x1D);
var25 = var2 | (((var2 >> 0x1F) + 2) << 0x1D);
((int *) sp)[210] = ((((var20 << 0x12) | (var21 << 0x0C)) | 0x0C000000) | ((var20 << 0x15) | (var21 << 0x0F)));
if (!(var23 == 0))
{
var26 = var23 - var22;
var4 = var4 + var26;
var18 = var18 - var26;
var19 = var19 - var26;
while (1) {
var27 = ((unsigned char *) var25)[0];
var26 = var26 + 1;
var25 = var25 + 1;
((char *) var24)[0] = var27;
var24 = var24 + 1;
if (var26 != 0)
continue;
break;
}
}
var28 = var4 & ((1 << var20) + 0xFFFFFFFF);
if (var28 == 0)
{
var32 = (var4 < 0x0101);
}
else
{
var4 = var4 - var28;
var29 = var24 + var4;
var30 = var25 + var4;
if (!(var28 <= 0))
{
while (1) {
var31 = ((unsigned char *) var30)[0];
var28 = var28 + 0xFFFFFFFF;
var30 = var30 + 1;
((char *) var29)[0] = var31;
var29 = var29 + 1;
if (var28 != 0)
continue;
break;
}
}
var32 = (var4 < 0x0101);
}
if (var32 != 0)
{
memcpy (var24, var25, var4);
var88 = ((int *) sp)[211];
k1 = var88;
}
else
{
if (var4 == 0)
{
label67:
var66 = ((int *) sp)[211];
k1 = var66;
}
else
{
var33 = sp | 0x3F;
((int *) sp)[214] = var33;
var34 = 0x0FFF << var20;
var35 = ((int *) sp)[214];
while (1) {
var36 = 0;
var37 = (var35 ^ 0x3F) + 0x40;
var38 = var37;
((int *) sp)[212] = var18;
((int *) sp)[213] = var19;
if (((var34 < var4)) != 0)
{
var82 = ((int *) sp)[210];
var40 = var82 | 0x0FFF;
var18 = var18 + var34;
var19 = var19 + var34;
var4 = var4 - var34;
var83 = 0;
while (1) {
var84 = var38 + 0x10;
((int *) var38)[0] = var18;
((int *) var38)[1] = var19;
if (((var34 < var4)) == 0)
{
var85 = ((int *) sp)[210];
var4 = 0;
var83 = var83 + 1;
((int *) var38)[3] = ((var85 | (var4 >> var20)) | 0x80000000);
((int *) var38)[2] = 0;
}
else
{
if (var83 == 0x2F)
{
((int *) var38)[2] = 0;
((int *) var38)[3] = (var82 | 0x80000FFF);
}
else
{
((int *) var38)[2] = ((var84 >> 0) & 0x1FFFFFFF);
((int *) var38)[3] = var40;
}
var83 = var83 + 1;
var38 = var84;
var18 = var18 + var34;
var19 = var19 + var34;
var4 = var4 - var34;
if (((var83 < 0x30)) != 0)
continue;
break;
}
}
var36 = var83;
}
else
{
var39 = ((int *) sp)[210];
var40 = (var39 | (var4 >> var20)) | 0x80000000;
var37 = 0;
var4 = 0;
}
var41 = ((int *) sp)[209];
if (var41 != 0)
{
var79 = *((int *) 0xD034);
var45 = sceKernelPollSema (var79, 1);
}
else
{
var42 = *((int *) 0xD034);
var45 = sceKernelWaitSema (var42, 1, 0);
}
if (var45 < 0)
{
var78 = ((int *) sp)[211];
k1 = var78;
}
else
{
var46 = var36 + 0x03;
if (!(var37 == 0))
{
var47 = (var46 + ((var46 >> 0x1F) >> 0x1E)) >> 2;
var48 = var47;
if (!(var47 <= 0))
{
var49 = var37;
while (1) {
__asm__ ("cache 0x1A, 0($v0);"
:
: "=r"(var49));
var48 = var48 + 0xFFFFFFFF;
var49 = var49 + 0x40;
if (var48 != 0)
continue;
break;
}
}
}
var52 = sceKernelCpuSuspendIntr ();
var53 = *((short *) 0xD70E);
var54 = var52;
if (var53 < 0)
{
while (1) {
sceKernelCpuResumeIntr (var54, 0xD70C);
sceDmacplus_driver_0A40EF79 (0, 0);
var76 = sceKernelCpuSuspendIntr ();
var77 = *((short *) 0xD70E);
if (var77 < 0)
continue;
break;
}
}
else
{
}
var55 = *((unsigned short *) 0xD70E);
var56 = ((int *) sp)[212];
*((short *) 0xD70E) = (var55 | 0x10);
var57 = ((int *) sp)[213];
*((int *) 0xBC8001C0) = var56;
*((int *) 0xBC8001C4) = var57;
*((int *) 0xBC8001C8) = ((var37 >> 0) & 0x1FFFFFFF);
*((int *) 0xBC8001CC) = var40;
*((int *) 0xBC8001D0) = 0xC001;
sceKernelCpuResumeIntrWithSync (var54);
var60 = *((int *) 0xD038);
var61 = sp + 0x0340;
var64 = sceKernelWaitEventFlag (var60, 0x03, 0x21, var61, 0);
var3 = var64;
if (!(var64 != 0))
{
var65 = ((int *) sp)[208];
if ((var65 & 2) != 0)
{
var67 = *((int *) 0xD034);
var3 = 0x80000103;
sceKernelSignalSema (var67, 1);
}
}
var35 = ((int *) sp)[214];
if (var4 != 0)
continue;
break;
}
goto label70;
}
goto label67;
}
}
}
else
{
var7 = ((int *) sp)[211];
goto label69;
}
}
}
}
label70:
ra = ((int *) sp)[225];
var9 = ((int *) sp)[224];
var10 = ((int *) sp)[223];
var11 = ((int *) sp)[222];
var12 = ((int *) sp)[221];
var13 = ((int *) sp)[220];
var14 = ((int *) sp)[219];
var15 = ((int *) sp)[218];
var16 = ((int *) sp)[217];
var17 = ((int *) sp)[216];
sp = sp + 0x0390;
return;
}
void sceDmacplus_driver_48632A5F (int arg1){
if (sceKernelWaitSema (*((int *) 0xD034), 1, 0) < 0)return;
var5 = (0xA0000000 & 0xE0000000) | (arg1 & 0x1FFFFFFF);
*((int *) 0xBC8001C0) = ((int *) var5)[0];
*((int *) 0xBC8001C4) = ((int *) var5)[1];
*((int *) 0xBC8001C8) = ((int *) var5)[2];
*((int *) 0xBC8001CC) = ((int *) var5)[3];
*((int *) 0xBC8001D0) = 0xC001;
__asm__ ("sync;");
int*var11;
if (sceKernelWaitEventFlag (*((int *) 0xD038), 0x03, 0x21,&var11, 0))return;
if (!(var11 & 2))return;
sceKernelSignalSema (*((int *) 0xD034), 1);
}
void sceDmacplus_driver_4DB8CA36 (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xD034) = sceKernelCreateSema (0xB91C, 1, 1, 1, 0);
*((int *) 0xD038) = sceKernelCreateEventFlag (0xB91C, 0x0201, 0, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 0x08, 0x6B2C, 0);
InterruptManagerForKernel_CFFA1857 (0x15, 0x09, 0x6B80, 0);
sceKernelEnableSubIntr (0x15, 0x08);
sceKernelEnableSubIntr (0x15, 0x09);
sceKernelCpuResumeIntr (intr);
}
void sceDmacplus_driver_5FEC19EE (){
intr = sceKernelCpuSuspendIntr ();
*((int *) 0xBC8001D0) = 0;
sceKernelReleaseSubIntrHandler (0x15, 0x08);
sceKernelReleaseSubIntrHandler (0x15, 0x09);
sceKernelDeleteSema (*((int *) 0xD034));
sceKernelDeleteEventFlag (*((int *) 0xD038));
sceKernelCpuResumeIntr (intr);
}
int sceDmacplus_driver_9C57AB36 (){
return 0;
}
void sceDmacplus_driver_7A9001AF (){
return;
}
void sceLcdc_driver_9182FB30 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
memset (0xD04C, 0, 0x48);
*((int *) 0xD04C) = 1;
sceSysreg_driver_F092AED8 ();
sceSysreg_driver_BEF287D5 ();
var9 = sceSysregGetTachyonVersion ();
if (((0x004FFFFF < var9)) != 0)
{
*((int *) 0xD058) = 0x03;
*((int *) 0xBB0C) = 0xFFFFFFFF;
*((char *) 0xBBA1) = 1;
*((int *) 0xD050) = 1;
*((int *) 0xD054) = 1;
*((int *) 0xBE140070) = 1;
*((char *) 0xBAC1) = 1;
*((char *) 0xBADC) = 1;
*((char *) 0xBADD) = 1;
*((int *) 0xBAF0) = 0xFFFFFFFF;
*((char *) 0xBB30) = 1;
*((char *) 0xBB31) = 1;
*((char *) 0xBB4C) = 1;
*((char *) 0xBB4D) = 1;
*((char *) 0xBB68) = 1;
*((char *) 0xBB69) = 1;
*((char *) 0xBB85) = 1;
*((char *) 0xBBA0) = 1;
}
else
{
*((int *) 0xD058) = 1;
}
var10 = *((int *) 0xBE140004);
var11 = *((int *) 0xBE140008);
__asm__ ("lwc1 $fpr01, -17992($t1);");
var12 = *((int *) 0xBE140010);
var13 = *((int *) 0xBE140014);
var14 = *((int *) 0xBE140018);
var15 = *((int *) 0xBE14001C);
var16 = *((int *) 0xBE140020);
var17 = *((int *) 0xBE140024);
var18 = *((int *) 0xBE140028);
var19 = *((int *) 0xBE14002C);
var20 = 0xD04C;
*((int *) 0xD068) = var11;
*((short *) 0xD07A) = var12;
*((short *) 0xD07C) = var13;
*((short *) 0xD078) = var14;
*((short *) 0xD07E) = var15;
*((short *) 0xD082) = var16;
*((short *) 0xD084) = var17;
*((short *) 0xD080) = var18;
*((short *) 0xD086) = var19;
__asm__ ("swc1 $fpr01, 36($t5);"
:
: "=r"(0xD04C));
*((short *) 0xD076) = var10;
if ((var10 & 0xFFFF) != 0)
{
var56 = *((int *) 0xBE140048);
var57 = *((int *) 0xBE14004C);
var58 = *((int *) 0xBE140040);
var59 = *((int *) 0xBE140044);
*((int *) 0xD060) = var56;
*((int *) 0xD08C) = var59;
*((int *) 0xD064) = var57;
*((int *) 0xD090) = var58;
}
else
{
var21 = *((int *) 0xBE14001C);
var22 = *((int *) 0xBE14002C);
*((int *) 0xD060) = var21;
*((int *) 0xD064) = var22;
}
var23 = *((int *) 0xD050);
if (!(var23 == 0))
{
var24 = *((int *) 0xBC100060);
var25 = var24 & 0x00300000;
*((char *) 0xD074) = ((var24 >> 22) & 1);
if (var25 == 0x00100000)
{
var26 = 1;
label23:
*((char *) 0xD075) = var26;
label24:
}
else
{
if (((0x00100000 < var25)) != 0)
{
if (!(var25 != 0x00200000))
{
var26 = 2;
goto label23;
}
}
else
{
var26 = 0x03;
if (var25 == 0)
goto label23;
goto label24;
}
}
}
var36 = *((int *) 0xD058);
unsigned short * var37 = 0xBAB8;
i = 0;
while (1) {
i = i + 1;
if ((((0xD078 + 0xD07A) + 0xD07C) + 0xD07E) == ((((var37[6] + var37[7]) + var37[8]) + var37[9]) * var36)){
label34:
var37+=0x1C;
if (i < 0x0C)continue;
break;
if ((((0xD080 + 0xD082) + 0xD084) + 0xD086) == (((var37)[10] + var37)[11]) + var37)[12]) + var37)[13])){
if (0xD082 != var37[11])goto label34;
__asm__ ("lwc1 $fpr02, 4($a1);");
var53 = ((int *) var37)[0];
__asm__ ("swc1 $fpr02, 36($t6);":"=r"(0xD04C));
*((int *) 0xD05C) = var53;
if (var53){
if (*0xD076){
var55 = *((unsigned short *) 0xD07C);
if (!var36)__asm__ ("break 0x7;");
*((int *) 0xD088) = ((var55 / var36) - var41);
}
}
}
}
}
*((int *) 0xBE140000) |= 3;
sceKernelRegisterSysEventHandler (0xBE84);
return;
}
/**
* Subroutine at address 0x7638
*/
void sceLcdc_driver_88EC8DFE ()//init
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[3] = ra;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
sceSysreg_driver_280F9241 ();
var3 = *((unsigned char *) 0xBAC1);
sceSysreg_driver_8FA2F8C0 (0, var3);
sceSysreg_driver_F092AED8 ();
var8 = *((int *) 0xD068);
var9 = *((int *) 0xD090);
var10 = *((int *) 0xD08C);
var11 = *((int *) 0xD060);
var12 = *((int *) 0xD064);
var13 = *((unsigned short *) 0xD076);
var14 = *((unsigned short *) 0xD07A);
var15 = *((unsigned short *) 0xD07C);
var16 = *((unsigned short *) 0xD078);
var17 = *((unsigned short *) 0xD07E);
var18 = *((unsigned short *) 0xD082);
var19 = *((unsigned short *) 0xD084);
var20 = *((unsigned short *) 0xD080);
var21 = *((unsigned short *) 0xD086);
*((int *) 0xBE140004) = var13;
*((int *) 0xBE140008) = var8;
*((int *) 0xBE140010) = var14;
*((int *) 0xBE140014) = var15;
*((int *) 0xBE140018) = var16;
*((int *) 0xBE14001C) = var17;
*((int *) 0xBE140020) = var18;
*((int *) 0xBE140024) = var19;
*((int *) 0xBE140028) = var20;
*((int *) 0xBE14002C) = var21;
*((int *) 0xBE140040) = var9;
*((int *) 0xBE140044) = var10;
*((int *) 0xBE140048) = var11;
*((int *) 0xBE14004C) = var12;
var22 = *((int *) 0xBE140000);
var23 = *((int *) 0xD054);
*((int *) 0xBE140000) = (var22 | 0x03);
if (!(var23 == 0))
{
*((int *) 0xBE140070) = 1;
}
sceSysreg_driver_280F9241 ();
var26 = *((unsigned char *) 0xD075);
var27 = *((unsigned char *) 0xD074);
sceSysreg_driver_8FA2F8C0 (var27, var26);
sceSysreg_driver_F092AED8 ();
var32 = *((int *) 0xD04C);
if (var32 != 0)
{
sceSysreg_driver_BEF287D5 ();
ra = ((int *) sp)[3];
}
else
{
ra = ((int *) sp)[3];
}
var33 = ((int *) sp)[2];
var34 = ((int *) sp)[1];
var35 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x7760
*/
int sceLcdc_driver_B730DAE0 (int arg1, int arg2, int arg3, int arg4)
{
var1 = 0x80000108;
if (!(((arg4 < 0x04)) == 0))
{
var2 = 0xBAB8;
var3 = 0;
var4 = 0xBAB8;
var5 = *((int *) 0xBAB8);
while (1) {
var3 = var3 + 1;
var6 = var4;
var2 = var2 + 0x1C;
var4 = var4 + 0x1C;
if (var5 == arg1)
break;
if (((var3 < 0x0C)) != 0)
{
var5 = ((int *) var2)[0];
continue;
}
else
{
var6 = 0;
}
}
var1 = 0x80000107;
if (!(var6 == 0))
{
if (((arg2 < 0x01E0)) == 0)
{
var10 = ((unsigned short *) var6)[9];
var1 = 0x80000104;
if (((var10 < arg2)) == 0)
{
label14:
var1 = 0x80000104;
if (!((arg2 & 0x03) != 0))
{
if (((arg3 < 0x0110)) == 0)
{
var9 = ((unsigned short *) var6)[13];
var1 = 0x80000104;
if (((var9 < arg3)) == 0)
{
label20:
var1 = 0;
}
else
{
}
}
else
{
var8 = ((unsigned short *) var6)[13];
var1 = 0x80000104;
if (!(((var8 < 0x0110)) == 0))
goto label20;
}
}
}
else
{
}
}
else
{
var7 = ((unsigned short *) var6)[9];
var1 = 0x80000104;
if (!(((var7 < 0x01E0)) == 0))
goto label14;
}
}
}
return var1;
}
/**
* Subroutine at address 0x7840
*/
void sceLcdc_driver_E2761BFB (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var1 = arg1;
((int *) sp)[2] = s2;
((int *) sp)[8] = ra;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var4 = sceLcdc_driver_B730DAE0 (arg1, arg2, arg3, arg4);
var5 = var4;
if (!(var4 < 0))
{
var6 = *((int *) 0xD058);
var7 = 0xBAB8;
var8 = 0xBAB8;
var9 = 0;
var10 = *((int *) 0xBAB8);
while (1) {
var9 = var9 + 1;
var11 = var8;
var7 = var7 + 0x1C;
var8 = var8 + 0x1C;
if (var10 == var1)
break;
if (((var9 < 0x0C)) != 0)
{
var10 = ((int *) var7)[0];
continue;
}
else
{
var11 = 0;
}
}
var14 = sceKernelCpuSuspendIntr ();
*((int *) 0xD060) = (arg2 * var6);
*((int *) 0xD064) = arg3;
*((int *) 0xD068) = arg4;
*((int *) 0xD05C) = var1;
var15 = *((unsigned short *) 0xD074);
var16 = ((unsigned short *) var11)[4];
if (!(var15 == var16))
{
sceSysreg_driver_280F9241 ();
var19 = ((unsigned char *) var11)[8];
var20 = ((unsigned char *) var11)[9];
sceSysreg_driver_8FA2F8C0 (var19, var20);
sceSysreg_driver_F092AED8 ();
}
var25 = ((int *) var11)[0];
var26 = *((int *) 0xD058);
*((int *) 0xD06C) = var25;
var27 = ((int *) var11)[1];
*((int *) 0xD070) = var27;
var28 = ((int *) var11)[2];
*((int *) 0xD074) = var28;
var29 = ((int *) var11)[3];
*((int *) 0xD078) = var29;
var30 = ((int *) var11)[4];
*((int *) 0xD07C) = var30;
var31 = ((int *) var11)[5];
*((int *) 0xD080) = var31;
var32 = ((int *) var11)[6];
*((int *) 0xD084) = var32;
if (!(var26 == 1))
{
var33 = *((unsigned short *) 0xD07A);
var34 = *((unsigned short *) 0xD07E);
var35 = *((unsigned short *) 0xD07C);
var36 = *((unsigned short *) 0xD078);
*((short *) 0xD07A) = (var33 * var26);
*((short *) 0xD07E) = (var34 * var26);
*((short *) 0xD07C) = (var35 * var26);
*((short *) 0xD078) = (var36 * var26);
}
var37 = *((unsigned short *) 0xD076);
if (var37 == 1)
{
var92 = *((unsigned short *) 0xD07E);
var93 = *((int *) 0xD060);
if (var92 == var93)
{
*((short *) 0xD076) = 0;
label26:
}
else
{
}
}
else
goto label26;
var38 = *((unsigned short *) 0xD076);
if (var38 != 0)
{
var73 = *((unsigned short *) 0xD086);
var74 = *((int *) 0xD064);
var75 = *((unsigned short *) 0xD07E);
var76 = *((int *) 0xD060);
var77 = (var73 & 0xFFFF) - var74;
var78 = (var75 & 0xFFFF) - var76;
var79 = !((var1 ^ 6)) ? 0 : ((var77 + (var77 >> 0x1F)) >> 1);
if (!(var79 != 0))
{
var80 = *((unsigned short *) 0xD084);
*((short *) 0xD086) = (var73 + 1);
var79 = 1;
*((short *) 0xD084) = (var80 + 0xFFFFFFFF);
}
var81 = *((int *) 0xD058);
var82 = var81 << 0x03;
if (var82 == 0)
{
__asm__ ("break 0x7;");
}
var83 = ((((var78 + (var78 >> 0x1F)) >> 1) / var82) * var82);
if (((var83 < 0xF0)) != 0)
{
}
else
{
var84 = *((unsigned short *) 0xD07C);
var85 = var83 + 0xFFFFFF10;
var86 = var84 + var85;
var87 = var86 & 0xFFFF;
*((short *) 0xD07E) = (var75 - var85);
var83 = 0xF0;
*((short *) 0xD07C) = var86;
if (!(((var87 < 0x0100)) != 0))
{
var88 = *((int *) 0xD050);
*((short *) 0xD07C) = 0xFF;
var89 = var87 + 0xFFFFFF01;
if (!(var88 == 0))
{
var90 = *((unsigned short *) 0xD07A);
*((short *) 0xD07A) = (var90 + var89);
var89 = 0;
}
var91 = *((unsigned short *) 0xD07E);
*((short *) 0xD07E) = (var91 + var89);
}
}
*((int *) 0xD08C) = var83;
*((int *) 0xD090) = var79;
}
else
{
var39 = *((int *) 0xD05C);
*((int *) 0xD090) = 0;
var40 = 0;
*((int *) 0xD08C) = 0;
if (!(var39 == 0))
{
var41 = *((int *) 0xD058);
var42 = *((int *) 0xD088);
var40 = (var42 * var41);
}
var43 = *((unsigned short *) 0xD086);
var44 = *((unsigned short *) 0xD07C);
var45 = *((unsigned short *) 0xD078);
var46 = *((int *) 0xD064);
*((short *) 0xD07C) = (var44 + var40);
*((short *) 0xD078) = (var45 - var40);
if (!(((var46 < (var43 & 0xFFFF))) == 0))
{
var47 = *((unsigned short *) 0xD064);
var48 = *((unsigned short *) 0xD080);
*((short *) 0xD086) = var47;
*((short *) 0xD080) = (var48 + (var43 - var47));
}
}
var49 = *((int *) 0xD068);
var50 = *((int *) 0xD090);
var51 = *((int *) 0xD08C);
var52 = *((int *) 0xD060);
var53 = *((int *) 0xD064);
var54 = *((unsigned short *) 0xD076);
var55 = *((unsigned short *) 0xD07A);
var56 = *((unsigned short *) 0xD07C);
var57 = *((unsigned short *) 0xD078);
var58 = *((unsigned short *) 0xD07E);
var59 = *((unsigned short *) 0xD082);
var60 = *((unsigned short *) 0xD084);
var61 = *((unsigned short *) 0xD080);
var62 = *((unsigned short *) 0xD086);
*((int *) 0xBE140004) = var54;
*((int *) 0xBE140008) = var49;
*((int *) 0xBE140010) = var55;
*((int *) 0xBE140014) = var56;
*((int *) 0xBE140018) = var57;
*((int *) 0xBE14001C) = var58;
*((int *) 0xBE140020) = var59;
*((int *) 0xBE140024) = var60;
*((int *) 0xBE140028) = var61;
*((int *) 0xBE14002C) = var62;
*((int *) 0xBE140040) = var50;
*((int *) 0xBE140044) = var51;
*((int *) 0xBE140048) = var52;
*((int *) 0xBE14004C) = var53;
if (var1 == 0x0E)
{
*((int *) 0xD054) = 0;
*((int *) 0xBE140070) = 0;
}
sceKernelCpuResumeIntr (var14, var49, 0xD04C);
var5 = 0;
}
ra = ((int *) sp)[8];
var65 = ((int *) sp)[7];
var66 = ((int *) sp)[6];
var67 = ((int *) sp)[5];
var68 = ((int *) sp)[4];
var69 = ((int *) sp)[3];
var70 = ((int *) sp)[2];
var71 = ((int *) sp)[1];
var72 = ((int *) sp)[0];
sp = sp + 0x30;
return;
}
/**
* Subroutine at address 0x7BEC
*/
void sceLcdc_driver_46936BAA (int arg1, int arg2, int arg3, int arg4)
{
if (!(arg1 == 0))
{
var1 = *((int *) 0xD05C);
((int *) arg1)[0] = var1;
}
if (!(arg2 == 0))
{
var2 = *((int *) 0xD058);
var3 = *((int *) 0xD060);
if (var2 == 0)
{
__asm__ ("break 0x7;");
}
((int *) arg2)[0] = (var3 / var2);
}
if (!(arg3 == 0))
{
var4 = *((int *) 0xD064);
((int *) arg3)[0] = var4;
}
if (!(arg4 == 0))
{
var5 = *((int *) 0xD068);
((int *) arg4)[0] = var5;
}
return;
}
/**
* Subroutine at address 0x7C50
*/
void sceLcdc_driver_CB66284F (int arg1, int arg2, int arg3, int arg4, int arg5)
{
if (!(arg1 == 0))
{
var1 = *((unsigned short *) 0xD080);
((int *) arg1)[0] = var1;
}
if (!(arg2 == 0))
{
var2 = *((unsigned short *) 0xD082);
((int *) arg2)[0] = var2;
}
if (!(arg3 == 0))
{
var3 = *((unsigned short *) 0xD084);
((int *) arg3)[0] = var3;
}
if (!(arg4 == 0))
{
var4 = *((unsigned short *) 0xD080);
var5 = *((unsigned short *) 0xD082);
var6 = *((unsigned short *) 0xD084);
((int *) arg4)[0] = ((var4 + var5) + var6);
}
if (!(arg5 == 0))
{
var7 = *((unsigned short *) 0xD080);
var8 = *((unsigned short *) 0xD082);
var9 = *((unsigned short *) 0xD084);
var10 = *((unsigned short *) 0xD086);
((int *) arg5)[0] = (((var7 + var8) + var9) + var10);
}
return;
}
/**
* Subroutine at address 0x7CDC
*/
void sceLcdc_driver_75EAAE61 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
var3 = sceKernelCpuSuspendIntr ();
var4 = 1;
while (1) {
var5 = 0xFFFFFFFF;
if (((var4 < 0x65)) == 0)
break;
var5 = *((int *) 0xBE140030);
var6 = *((int *) 0xBE140030);
var4 = var4 + 1;
if (var6 != var5)
continue;
break;
}
sceKernelCpuResumeIntr (var3, var6);
ra = ((int *) sp)[1];
var9 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
void sceLcdc_driver_AB398E0D (){
var3 = sceKernelCpuSuspendIntr ();
for(int i=1;i<4;i++) {
if (*((int *) 0xBE140034) == *((int *) 0xBE140034))break;
}
sceKernelCpuResumeIntr (var3, var6);
}
void sub_07DB4 (){
sceKernelUnregisterSysEventHandler (0xBE84);
}
void sceLcdc_driver_FCA0D3AF (){
sceKernelUnregisterSysEventHandler (0xBE84);
}
void sceLcdc_driver_0C5D83DF (){
sceSysreg_driver_FF6D37E7 ();
sceSysreg_driver_280F9241 ();
}
void sceLcdc_driver_668B0E11 (){
sceSysreg_driver_BEF287D5 ();
}
void sceLcdc_driver_83DD6210 (){
sceSysreg_driver_FF6D37E7 ();
}
void sceLcdc_driver_AFF57718 (int arg1, int arg2){
var1 = arg2;
var4 = sceKernelCpuSuspendIntr ();
var5 = *((int *) 0xD05C);
var6 = *((int *) 0xD088);
*((int *) 0xD088) = var1;
if (!(var5 == 0))
{
var7 = *((unsigned short *) 0xD076);
if (!(var7 != 0))
{
var8 = *((int *) 0xD058);
var9 = *((unsigned short *) 0xD078);
var10 = *((unsigned short *) 0xD07C);
var11 = *((unsigned short *) 0xD07E);
var12 = ((var1 - var6) * var8);
var13 = var9 - var12;
*((int *) 0xBE140018) = (var13 & 0xFFFF);
*((short *) 0xD07C) = (var10 + var12);
*((int *) 0xBE14001C) = var11;
*((short *) 0xD078) = var13;
}
}
sceKernelCpuResumeIntr (var4, var8, var12);
}
void sceLcdcReset (){//sceLcdc_driver_ABE22CB0
var3 = sceKernelCpuSuspendIntr ();
var4 = *((int *) 0xBE140000);
*((int *) 0xBE140000) = (var4 & 0xFFFFFFFE);
*((int *) 0xBE140000) = var4;
sceKernelCpuResumeIntr (var3);
}
/**
* Subroutine at address 0x7F48
*/
void sceLcdc_driver_6DD61A32 ()
{
__asm__ ("lwc1 $fpr00, 12($v1);"
"lwc1 $fpr03, 36($v1);"
"cvt.s.w $fpr04, $fpr00;");
__asm__ ("mul.s $fpr00, $fpr03, $fpr04;");
return;
}
/**
* Subroutine at address 0x7F64
*/
void sceLcdc_driver_61C21DCE ()
{
var1 = *((int *) 0xD058);
return;
}
/**
* Subroutine at address 0x7F70
*/
void sceLcdc_driver_55BD62D7 ()
{
__asm__ ("lwc1 $fpr00, -12176($v1);");
return;
}
/**
* Subroutine at address 0x7F7C
*/
void sceLcdc_driver_813257DC ()
{
var1 = *((unsigned short *) 0xD078);
var2 = *((unsigned short *) 0xD07A);
var3 = *((unsigned short *) 0xD07C);
__asm__ ("lwc1 $fpr04, 12($a2);");
var4 = *((unsigned short *) 0xD07E);
__asm__ ("cvt.s.w $fpr05, $fpr04;");
var5 = ((var1 + var2) + var3) + var4;
__asm__ ("lwc1 $fpr02, 36($a2);"
"mtc1 $v0, $fpr1;"
"mul.s $fpr04, $fpr02, $fpr05;"
"cvt.s.w $fpr03, $fpr01;"
:
: "=r"(var5));
__asm__ ("div.s $fpr00, $fpr04, $fpr03;");
return;
}
/**
* Subroutine at address 0x7FC0
*/
void sceLcdc_driver_90960D49 ()
{
var1 = *((unsigned short *) 0xD078);
var2 = *((unsigned short *) 0xD07A);
var3 = *((unsigned short *) 0xD080);
var4 = *((unsigned short *) 0xD082);
var5 = *((unsigned short *) 0xD07C);
var6 = *((unsigned short *) 0xD084);
var7 = *((unsigned short *) 0xD086);
var8 = *((unsigned short *) 0xD07E);
__asm__ ("lwc1 $fpr02, 12($t3);"
"lwc1 $fpr05, 36($t3);"
"cvt.s.w $fpr06, $fpr02;");
var9 = ((((var1 + var2) + var5) + var8) * (((var3 + var4) + var6) + var7));
__asm__ ("mtc1 $v1, $fpr1;"
"mul.s $fpr03, $fpr05, $fpr06;"
"cvt.s.w $fpr04, $fpr01;"
:
: "=r"(var9));
__asm__ ("div.s $fpr00, $fpr03, $fpr04;");
return;
}
/**
* Subroutine at address 0x8028
*/
void sceLcdc_driver_244FA9A4 ()
{
var1 = *((int *) 0xBE140050);
if (var1 == 1)
{
*((int *) 0xBE140050) = var1;
}
return;
}
/**
* Subroutine at address 0x8050
*/
void sub_08050 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
if (arg1 == 0x4004)
{
sceSysreg_driver_FF6D37E7 ();
sceSysreg_driver_280F9241 ();
ra = ((int *) sp)[0];
}
else
{
if (arg1 == 0x00010004)
{
sceLcdc_driver_88EC8DFE ();
ra = ((int *) sp)[0];
}
else
{
ra = ((int *) sp)[0];
}
}
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x80A8
*/
void sceNandInit ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[3] = ra;
((int *) sp)[0] = s0;
memset (0xD094, 0, 0x40);
sceSysregEmcsmBusClockEnable ();
sceSysregEmcsmIoEnable ();
var9 = sceKernelCreateMutex (0xB938, 0x0801, 0, 0);
*((int *) 0xD094) = var9;
var12 = sceKernelCreateEventFlag (0xB938, 1, 0, 0);
*((int *) 0xD098) = var12;
var15 = KDebugForKernel_E892D9A1 ();
*((int *) 0xD09C) = 0;
*((int *) 0xD0A0) = var15;
*((int *) 0xBD101038) = 0x0303;
var18 = sceSysregGetTachyonVersion ();
if (((0x004FFFFF < var18)) != 0)
{
*((int *) 0xD0CC) = 0x0B060309;
}
else
{
*((int *) 0xD0CC) = 0x0B040205;
}
var19 = *((int *) 0xD0CC);
*((int *) 0xBD101200) = var19;
sceKernelRegisterIntrHandler (0x14, 2, 0x8210, 0, 0);
sceKernelEnableIntr (0x14);
sceKernelRegisterSysEventHandler (0xBEC4);
sceNandLock (0);
var30 = sub_08200 ();
if (var30 != 0)
{
sceNandReset (0);
sceNandDetectChip ();
}
else
{
*((int *) 0xD0C8) = 1;
}
sceNandUnlock ();
ra = ((int *) sp)[3];
var33 = ((int *) sp)[2];
var34 = ((int *) sp)[1];
var35 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8200
*/
int sub_08200 (){
return (*((int *) 0xBD101004) & 1);
}
/**
* Subroutine at address 0x8210
*/
void sub_08210 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = ra;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = ((((var1 & 0xFFFFFFFC) | (0 & 0x03)) | ((var1 & (var1 >> 0x08)) & 0x03)) | 0x0300);
__asm__ ("sync;");
var2 = *((int *) 0xD0A4);
if (var2 == 0x03)
{
var43 = *((int *) 0xD0BC);
var44 = *((int *) 0xD0B8);
var45 = *((int *) 0xD0B0);
var46 = *((int *) 0xD0B4);
var49 = sub_090B0 (var43, var45, var46, var44);
var50 = *((int *) 0xD0A8);
var51 = *((int *) 0xD0B0);
var52 = *((int *) 0xD0B4);
*((int *) 0xD0A8) = (var50 | var49);
*((int *) 0xD0B0) = (var51 + 1);
if (!(var52 == 0))
{
*((int *) 0xD0B4) = (var52 + 0x0200);
}
var53 = *((int *) 0xD0B8);
if (var53 == 0)
{
}
else
{
var54 = *((int *) 0xD0BC);
var55 = var53 + 0x10;
if (!((var54 & 1) != 0))
{
var55 = var53 + 0x0C;
}
*((int *) 0xD0B8) = var55;
}
var56 = *((int *) 0xD0AC);
var57 = var56 + 0xFFFFFFFF;
*((int *) 0xD0AC) = var57;
if (var57 <= 0)
{
label64:
}
else
{
var60 = sub_08200 ();
if (var60 == 0)
{
var66 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var66 & 0xFFFFFDFC);
var69 = sub_08200 ();
if (var69 == 0)
{
var42 = 1;
label44:
*((int *) 0xD0A4) = var42;
goto label64;
}
else
{
var70 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (((var70 & 0xFFFFFFFE) | (0 & 1)) | 0x0202);
label21:
var61 = *((int *) 0xD0BC);
*((int *) 0xD0A4) = 0x03;
var62 = *((int *) 0xD0B0);
if ((var61 & 0x10) == 0)
{
var65 = *((int *) 0xBD101000);
var64 = var65 | 0x00010000;
}
else
{
var63 = *((int *) 0xBD101000);
var64 = (var63 & 0xFFFEFFFF) | (0 & 1);
}
*((int *) 0xBD101000) = var64;
var20 = var62 << 0x0A;
label57:
*((int *) 0xBD101020) = var20;
var21 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var21 & 0xFFFFFEFC);
*((int *) 0xBD101024) = 0x0301;
}
}
else
goto label21;
}
label65:
var4 = *((int *) 0xD0AC);
}
else
{
if (((var2 < 0x04)) == 0)
{
if (var2 != 0x04)
{
label49:
var23 = *((int *) 0xD0A4);
Kprintf ("PANIC: EMC_SM interrupt occured!! (%08X, %08X)\n", var23);
goto label65;
}
else
{
var26 = *((int *) 0xBD101028);
var27 = *((int *) 0xD0A8);
var28 = *((int *) 0xD0B0);
var29 = *((int *) 0xD0B4);
*((int *) 0xD0A8) = (var27 | ((0 < var26)));
*((int *) 0xD0B0) = (var28 + 1);
if (!(var29 == 0))
{
*((int *) 0xD0B4) = (var29 + 0x0200);
}
var30 = *((int *) 0xD0B8);
if (var30 == 0)
{
}
else
{
var31 = *((int *) 0xD0BC);
if ((var31 & 1) == 0)
{
*((int *) 0xD0B8) = (var30 + 0x0C);
}
else
{
*((int *) 0xD0B8) = (var30 + 0x10);
}
}
var32 = *((int *) 0xD0AC);
var33 = var32 + 0xFFFFFFFF;
*((int *) 0xD0AC) = var33;
if (var33 <= 0)
goto label64;
var36 = sub_08200 ();
if (var36 == 0)
{
var37 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var37 & 0xFFFFFDFC);
var40 = sub_08200 ();
if (var40 == 0)
{
var42 = 2;
goto label44;
}
else
{
var41 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (((var41 & 0xFFFFFFFE) | (0 & 1)) | 0x0202);
label46:
var10 = *((int *) 0xD0B8);
var11 = *((int *) 0xD0BC);
var12 = *((int *) 0xD0B0);
var13 = *((int *) 0xD0B4);
*((int *) 0xD0A4) = 0x04;
label61:
sub_092D4 (var11, var12, var13, var10);
var4 = *((int *) 0xD0AC);
}
}
else
goto label46;
}
}
else
{
if (var2 < 0)
{
goto label49;
}
else
{
var3 = *((int *) 0xD0A4);
if (var3 == 1)
{
var16 = *((int *) 0xD0BC);
*((int *) 0xD0A4) = 0x03;
var17 = *((int *) 0xD0B0);
if ((var16 & 0x10) == 0)
{
var22 = *((int *) 0xBD101000);
var19 = var22 | 0x00010000;
}
else
{
var18 = *((int *) 0xBD101000);
var19 = (var18 & 0xFFFEFFFF) | (0 & 1);
}
var20 = var17 << 0x0A;
*((int *) 0xBD101000) = var19;
goto label57;
}
else
{
if (!(var3 == 2))
goto label64;
var10 = *((int *) 0xD0B8);
var11 = *((int *) 0xD0BC);
var12 = *((int *) 0xD0B0);
var13 = *((int *) 0xD0B4);
*((int *) 0xD0A4) = 0x04;
goto label61;
}
}
}
}
if (var4 == 0)
{
var7 = *((int *) 0xD098);
sceKernelSetEventFlag (var7, 1);
*((int *) 0xD0A4) = 0xFFFFFFFF;
}
ra = ((int *) sp)[2];
var5 = ((int *) sp)[1];
var6 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x858C
*/
void sceNandSetWriteProtect (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[2] = ra;
((int *) sp)[0] = s0;
var1 = *((int *) 0xBD101004);
if (arg1 == 0)
{
*((int *) 0xBD101004) = (var1 | 0x80);
while (1) {
var4 = *((int *) 0xBD101004);
if ((var4 & 0x80) == 0)
continue;
break;
}
*((int *) 0xD0C0) = 1;
var7 = sceKernelGetSystemTimeLow ();
*((int *) 0xD0C4) = var7;
}
else
{
*((int *) 0xBD101004) = ((var1 & 0xFFFFFF7F) | (0 & 1));
}
ra = ((int *) sp)[2];
var2 = ((int *) sp)[1];
var3 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x860C
*/
void sceNandLock (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = *((int *) 0xD094);
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var4 = sceKernelLockMutex (var1, 1, 0);
var5 = var4;
if (!(var4 < 0))
{
var6 = *((int *) 0xD09C);
if (var6 == 0)
{
*((int *) 0xD09C) = 1;
sceSysregEmcsmBusClockEnable ();
}
var7 = 0;
if (!(arg1 != 0))
{
var7 = 1;
}
sceNandSetWriteProtect (var7);
var5 = 0;
}
ra = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x868C
*/
void sceNandUnlock ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
*((int *) 0xD0D0) = 0;
sceNandSetWriteProtect (1);
var3 = *((int *) 0xD0A0);
if (var3 == 0)
{
label8:
*((int *) 0xD09C) = 0;
sceSysregEmcsmBusClockDisable ();
var12 = *((int *) 0xD094);
}
else
{
var4 = ((int *) var3)[3];
var7 var8 = (*var4) ();
var9 = *((int *) 0xD094);
if (!(var7 != 0))
goto label8;
}
var15 = sceKernelUnlockMutex (var12, 1);
ra = ((int *) sp)[2];
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x86F8
*/
void sceNandReset (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
((int *) sp)[1] = ra;
var2 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = ((var2 & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBD101008) = 0xFF;
var5 = sub_0953C ();
var6 = var5;
if (!(var5 < 0))
{
*((int *) 0xBD101008) = 0x70;
var7 = *((int *) 0xBD101300);
if (var1 != 0)
{
((char *) var1)[0] = var7;
}
*((int *) 0xBD101014) = 1;
var6 = !((var7 & 1)) ? 0 : 0x80230001;
}
ra = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8780
*/
int sceNandReadId (int arg1, int arg2)
{
*((int *) 0xBD101008) = 0x90;
var1 = 0;
*((int *) 0xBD10100C) = 0;
if (!(arg2 <= 0))
{
while (1) {
var2 = *((int *) 0xBD101300);
var1 = var1 + 1;
if (!(arg1 == 0))
{
((char *) (arg1 + var1))[0] = (var2 & 0xFF);
}
if (!(((var1 < arg2)) != 0))
break;
continue;
}
}
*((int *) 0xBD101014) = 1;
return 0;
}
/**
* Subroutine at address 0x87D8
*/
int sceNandReadAccess (int arg1, int arg2, int arg3, int arg4, int arg5)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[5] = s5;
var1 = arg5;
((int *) sp)[4] = s4;
var2 = arg1;
((int *) sp)[3] = s3;
var3 = arg3;
((int *) sp)[2] = s2;
var4 = arg2;
((int *) sp)[1] = s1;
var5 = arg4;
var6 = 0x80000104;
((int *) sp)[8] = ra;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[0] = s0;
if (!(((arg4 < 0x21)) == 0))
{
var6 = 0x80230008;
if (!(((((arg1 & 0x1F) + var5) < 0x21)) == 0))
{
var6 = 0x80000103;
if (!(((var4 | var3) & 0x03) != 0))
{
var9 = sceKernelCpuSuspendIntr ();
*((int *) 0xD0AC) = var5;
*((int *) 0xD0B4) = var4;
*((int *) 0xD0B8) = var3;
*((int *) 0xD0A8) = 0;
*((int *) 0xD0B0) = var2;
*((int *) 0xD0BC) = var1;
var12 = sub_08200 ();
if (var12 == 0)
{
var32 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var32 & 0xFFFFFDFC);
var35 = sub_08200 ();
if (var35 == 0)
{
*((int *) 0xD0A4) = 1;
}
else
{
var36 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (((var36 & 0xFFFFFFFE) | (0 & 1)) | 0x0202);
label16:
*((int *) 0xD0A4) = 0x03;
if ((var1 & 0x10) == 0)
{
var31 = *((int *) 0xBD101000);
var14 = var31 | 0x00010000;
}
else
{
var13 = *((int *) 0xBD101000);
var14 = (var13 & 0xFFFEFFFF) | (0 & 1);
}
*((int *) 0xBD101000) = var14;
*((int *) 0xBD101020) = (var2 << 0x0A);
var15 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var15 & 0xFFFFFEFC);
*((int *) 0xBD101024) = 0x0301;
}
}
else
{
goto label16;
}
sceKernelCpuResumeIntrWithSync (var9);
var18 = *((int *) 0xD098);
var21 = sceKernelWaitEventFlag (var18, 1, 0x21, 0, 0);
var6 = var21;
if (!(var21 < 0))
{
var22 = *((int *) 0xD0A8);
var6 = 0x80230003;
if (!((var22 & 1) != 0))
{
var6 = !((var22 & 2)) ? 0 : 0x80230009;
}
}
}
}
}
ra = ((int *) sp)[8];
var23 = ((int *) sp)[7];
var24 = ((int *) sp)[6];
var25 = ((int *) sp)[5];
var26 = ((int *) sp)[4];
var27 = ((int *) sp)[3];
var28 = ((int *) sp)[2];
var29 = ((int *) sp)[1];
var30 = ((int *) sp)[0];
sp = sp + 0x30;
return var6;
}
/**
* Subroutine at address 0x89BC
*/
int sceNandWriteAccess (int arg1, int arg2, int arg3, int arg4, int arg5)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[1] = s1;
var1 = arg4;
((int *) sp)[5] = s5;
var2 = 0x80000104;
var3 = arg2;
((int *) sp)[4] = s4;
var4 = arg5;
((int *) sp)[3] = s3;
var5 = arg1;
((int *) sp)[2] = s2;
var6 = arg3;
((int *) sp)[8] = ra;
((int *) sp)[7] = s7;
((int *) sp)[6] = s6;
((int *) sp)[0] = s0;
if (((arg4 < 0x21)) == 0)
{
label33:
ra = ((int *) sp)[8];
}
else
{
var2 = 0x80230008;
if (((((arg1 & 0x1F) + var1) < 0x21)) == 0)
goto label33;
var2 = 0x80000103;
if ((var6 & 0x03) != 0)
goto label33;
if (var3 == 0)
{
var2 = 0x80000107;
if ((var4 & 0x10) != 0)
{
label8:
if (var6 == 0)
{
var2 = 0x80000107;
if ((var4 & 0x20) != 0)
{
label11:
var9 = sub_0953C ();
var2 = var9;
if (!(var9 < 0))
{
var12 = sceKernelCpuSuspendIntr ();
*((int *) 0xD0AC) = var1;
*((int *) 0xD0A8) = 0;
*((int *) 0xD0B0) = var5;
*((int *) 0xD0B4) = var3;
*((int *) 0xD0B8) = var6;
*((int *) 0xD0BC) = var4;
var15 = sub_08200 ();
var16 = var5;
if (var15 == 0)
{
var34 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var34 & 0xFFFFFDFC);
var37 = sub_08200 ();
if (var37 == 0)
{
*((int *) 0xD0A4) = 2;
}
else
{
var38 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (((var38 & 0xFFFFFFFE) | (0 & 1)) | 0x0202);
var16 = var5;
label25:
*((int *) 0xD0A4) = 0x04;
sub_092D4 (var4, var16, var3, var6);
}
}
else
goto label25;
sceKernelCpuResumeIntrWithSync (var12);
var21 = *((int *) 0xD098);
var24 = sceKernelWaitEventFlag (var21, 1, 0x21, 0, 0);
var2 = var24;
if (!(var24 < 0))
{
var25 = *((int *) 0xD0A8);
var2 = !(var25) ? 0 : 0x80230005;
}
}
goto label33;
}
else
{
ra = ((int *) sp)[8];
}
}
else
goto label11;
}
else
{
ra = ((int *) sp)[8];
}
}
else
goto label8;
}
var26 = ((int *) sp)[7];
var27 = ((int *) sp)[6];
var28 = ((int *) sp)[5];
var29 = ((int *) sp)[4];
var30 = ((int *) sp)[3];
var31 = ((int *) sp)[2];
var32 = ((int *) sp)[1];
var33 = ((int *) sp)[0];
sp = sp + 0x30;
return var2;
}
/**
* Subroutine at address 0x8B80
*/
int sceNandEraseBlock (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var1 = arg1;
var4 = sub_0953C ();
var5 = var4;
if (!(var4 < 0))
{
var6 = *((int *) 0xD0C0);
if (var6 != 0)
{
*((int *) 0xD0C0) = 0;
var18 = sceKernelGetSystemTimeLow ();
var19 = *((int *) 0xD0C4);
if ((((var18 - var19) < 0x0A)) == 0)
{
label12:
var7 = var1 << 0x0A;
}
else
{
sceKernelDelayThread (0x0A);
var7 = var1 << 0x0A;
}
}
else
goto label12;
*((int *) 0xBD101008) = 0x60;
*((int *) 0xBD10100C) = var7;
var8 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = ((var8 & 0xFFFFFFFE) | (0 & 1));
*((int *) 0xBD101008) = 0xD0;
var11 = sub_0953C ();
var5 = var11;
if (!(var11 < 0))
{
*((int *) 0xBD101008) = 0x70;
var12 = *((int *) 0xBD101300);
var5 = 0x80230007;
*((int *) 0xBD101014) = 1;
var13 = var12 & 0xFF;
if (((char) var13) < 0)
{
var5 = !((var13 & 1)) ? 0 : 0x80230004;
}
}
}
ra = ((int *) sp)[2];
var14 = ((int *) sp)[1];
var15 = ((int *) sp)[0];
sp = sp + 0x10;
return var5;
}
/**
* Subroutine at address 0x8C84
*/
void sceNandReadExtraOnly (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[3] = s3;
var1 = arg3;
((int *) sp)[1] = s1;
var2 = 0x80000104;
var3 = arg1;
((int *) sp)[0] = s0;
var4 = arg2;
((int *) sp)[5] = ra;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
if (!(((arg3 < 0x21)) == 0))
{
var2 = 0x80230008;
if (!(((((arg1 & 0x1F) + var1) < 0x21)) == 0))
{
var2 = 0x80000103;
if (!(var4 == 0))
{
var5 = 0;
var6 = 0;
if (!(var1 <= 0))
{
while (1) {
var9 = sub_0953C ();
var5 = var9;
if (var9 < 0)
break;
*((int *) 0xBD101008) = 0x50;
var10 = 0x03;
*((int *) 0xBD10100C) = (var3 << 0x0A);
while (1) {
var11 = *((int *) 0xBD101300);
var10 = var10 + 0xFFFFFFFF;
((char *) var4)[1] = (var11 >> 0x08);
((char *) var4)[2] = (var11 >> 0x10);
((char *) var4)[3] = (var11 >> 0x18);
((char *) var4)[0] = var11;
var4 = var4 + 0x04;
if (var10 >= 0)
continue;
break;
}
var6 = var6 + 1;
var3 = var3 + 1;
if (((var6 < var1)) != 0)
continue;
break;
}
}
*((int *) 0xBD101014) = 1;
var2 = var5;
}
}
}
ra = ((int *) sp)[5];
var12 = ((int *) sp)[4];
var13 = ((int *) sp)[3];
var14 = ((int *) sp)[2];
var15 = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x8DAC
*/
void sub_08DAC ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
sceNandLock (0);
sceKernelUnregisterSysEventHandler (0xBEC4);
var5 = *((int *) 0xD094);
sceKernelDeleteMutex (var5);
var8 = *((int *) 0xD098);
sceKernelDeleteEventFlag (var8);
sceKernelReleaseIntrHandler (0x14);
ra = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8E00
*/
void sceNandEnd ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
sceNandLock (0);
sceKernelUnregisterSysEventHandler (0xBEC4);
var5 = *((int *) 0xD094);
sceKernelDeleteMutex (var5);
var8 = *((int *) 0xD098);
sceKernelDeleteEventFlag (var8);
sceKernelReleaseIntrHandler (0x14);
ra = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8E54
*/
void sceNandSuspend ()
{
return;
}
/**
* Subroutine at address 0x8E5C
*/
void sceNandResume ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
sceSysregEmcsmBusClockEnable ();
sceSysregEmcsmIoEnable ();
var5 = *((int *) 0xD0CC);
*((int *) 0xBD101038) = 0x0303;
*((int *) 0xBD101200) = var5;
sceNandSetWriteProtect (0);
var8 = *((int *) 0xD0A0);
if (var8 == 0)
{
label13:
*((int *) 0xD09C) = 0;
sceSysregEmcsmBusClockDisable ();
}
else
{
var9 = ((int *) var8)[3];
var12 var13 = (*var9) ();
if (!(var12 != 0))
goto label13;
*((int *) 0xD09C) = 1;
}
ra = ((int *) sp)[1];
var16 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8EE0
*/
void sceNandReadStatus ()
{
*((int *) 0xBD101008) = 0x70;
var1 = *((int *) 0xBD101300);
*((int *) 0xBD101014) = 1;
return;
}
/**
* Subroutine at address 0x8F14
*/
void sceNandSetScramble (int arg1)
{
*((int *) 0xD0D0) = arg1;
return;
}
/**
* Subroutine at address 0x8F24
*/
int sceNandReadPages (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
var3 = sceNandReadAccess (arg1, arg2, arg3, arg4, 0);
ra = ((int *) sp)[1];
var4 = ((int *) sp)[0];
sp = sp + 0x10;
return (((((arg3 < 1)) & (((var3 ^ 0x80230009) < 1)))) ? 0 : var3);
}
/**
* Subroutine at address 0x8F68
*/
int sceNandWritePages (int arg1, int arg2, int arg3, int arg4)
{
var1 = (arg2) ? 0 : 0x10;
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var4 = sceNandWriteAccess (arg1, arg2, arg3, arg4, (!(arg3) ? (var1 | 0x20) : var1));
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var4;
}
/**
* Subroutine at address 0x8F90
*/
void sceNandReadPagesRawExtra (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceNandReadAccess (arg1, arg2, arg3, arg4, 0x20);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8FAC
*/
void sceNandWritePagesRawExtra (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceNandWriteAccess (arg1, arg2, arg3, arg4, (!(arg2) ? 0x30 : 0x20));
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x8FD0
*/
int sceNandReadPagesRawAll (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceNandReadAccess (arg1, arg2, arg3, arg4, 0x31);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var3;
}
/**
* Subroutine at address 0x8FEC
*/
void sceNandWritePagesRawAll (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceNandWriteAccess (arg1, arg2, arg3, arg4, 0x31);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x9008
*/
void sub_09008 (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
if (arg1 == 0x4004)
{
label18:
ra = ((int *) sp)[1];
}
else
{
if (!(arg1 == 0x00010004))
goto label18;
sceSysregEmcsmBusClockEnable ();
sceSysregEmcsmIoEnable ();
var6 = *((int *) 0xD0CC);
*((int *) 0xBD101038) = 0x0303;
*((int *) 0xBD101200) = var6;
sceNandSetWriteProtect (0);
var9 = *((int *) 0xD0A0);
if (var9 == 0)
{
label15:
*((int *) 0xD09C) = 0;
sceSysregEmcsmBusClockDisable ();
ra = ((int *) sp)[1];
}
else
{
var10 = ((int *) var9)[3];
var13 var14 = (*var10) ();
if (!(var13 != 0))
goto label15;
*((int *) 0xD09C) = 1;
goto label18;
}
}
var1 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0x90B0
*/
int sub_090B0 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s2;
var1 = arg2;
var2 = 0;
((int *) sp)[5] = s1;
var3 = arg1;
((int *) sp)[4] = s0;
var4 = arg4;
((int *) sp)[7] = ra;
if (arg3 == 0)
{
label15:
var24 = var3 & 0x10;
}
else
{
var5 = arg3;
var6 = 0x9FF00000;
__asm__ ("cache 0x19, 0($t4);"
"cache 0x19, 64($t4);"
"cache 0x19, 128($t4);"
"cache 0x19, 192($t4);"
"cache 0x19, 256($t4);"
"cache 0x19, 320($t4);"
"cache 0x19, 384($t4);"
"cache 0x19, 448($t4);"
:
: "=r"(0x9FF00000));
if (((0xD3 >> ((arg3 >> 29) & 0x07)) & 1) == 0)
{
}
else
{
var7 = arg3 & 0x3F;
if (var7 == 0)
{
__asm__ ("cache 0x18, 0($a2);"
:
: "=r"(arg3));
}
__asm__ ("cache 0x18, 64($a2);"
"cache 0x18, 128($a2);"
"cache 0x18, 192($a2);"
"cache 0x18, 256($a2);"
"cache 0x18, 320($a2);"
"cache 0x18, 384($a2);"
:
: "=r"(arg3));
if (var7 == 0)
{
__asm__ ("cache 0x18, 448($a2);"
:
: "=r"(arg3));
}
}
var8 = *((int *) 0xD0D0);
var9 = 0x7F;
if (var8 == 0)
{
while (1) {
var46 = ((int *) var6)[0];
var9 = var9 + 0xFFFFFFFF;
var6 = var6 + 0x04;
((int *) var5)[0] = var46;
var5 = var5 + 0x04;
if (var9 >= 0)
continue;
break;
}
var24 = var3 & 0x10;
}
else
{
var10 = ROTV (0x15, var8);
var11 = (ROTV (0x11, var1)) ^ ((var10 << 0x03) - var10);
var12 = (0x9FF00000 & 0xFFFFFE0F) | ((var1 ^ var10) & 0x1F);
while (1) {
var13 = ((int *) var12)[0];
var14 = ((int *) var12)[1];
var15 = ((int *) var12)[2];
var16 = ((int *) var12)[3];
var17 = var13 - var11;
var18 = var11 + var17;
((int *) var5)[0] = var17;
var19 = var14 - var18;
var20 = var18 ^ var19;
((int *) var5)[1] = var19;
var21 = var15 - var20;
var22 = var20 - var21;
((int *) var5)[2] = var21;
var23 = var16 - var22;
((int *) var5)[3] = var23;
var5 = var5 + 0x10;
var12 = ((var12 + 0x10) & 0xFFFFFDFF) | (0 & 1);
var11 = BITREV (((var22 + var23) + var10));
if (var5 != (var5 + 0x0200))
continue;
break;
}
goto label15;
}
}
if (!(var24 != 0))
{
var25 = *((int *) 0xBD101028);
var2 = (var25) ? 1 : 0;
}
var26 = *((int *) 0xBFF00800);
((int *) sp)[0] = var26;
var27 = *((int *) 0xBFF00900);
((int *) sp)[1] = var27;
var28 = *((int *) 0xBFF00904);
((int *) sp)[2] = var28;
var29 = *((int *) 0xBFF00908);
((int *) sp)[3] = var29;
if ((var3 & 0x20) == 0)
{
var40 = ((unsigned char *) sp)[13];
var41 = ((unsigned char *) sp)[12];
var42 = sp + 0x04;
var45 = sceNandCollectEcc (var42, (((var40 << 0x08) | var41) & 0x0FFF));
var2 = !((var45 ^ 0xFFFFFFFD)) ? (var2 | 2) : var2;
}
if (!(var4 == 0))
{
var30 = ((int *) sp)[2];
if ((var3 & 1) == 0)
{
var38 = ((int *) sp)[3];
var39 = ((int *) sp)[1];
((int *) var4)[1] = var30;
((int *) var4)[0] = var39;
((int *) var4)[2] = var38;
}
else
{
var31 = ((int *) sp)[1];
var32 = ((int *) sp)[2];
var33 = ((int *) sp)[3];
var34 = ((int *) sp)[0];
((int *) var4)[1] = var31;
((int *) var4)[0] = var34;
((int *) var4)[3] = var33;
((int *) var4)[2] = var32;
}
}
ra = ((int *) sp)[7];
var35 = ((int *) sp)[6];
var36 = ((int *) sp)[5];
var37 = ((int *) sp)[4];
sp = sp + 0x20;
return var2;
}
/**
* Subroutine at address 0x92D4
*/
void sub_092D4 (int arg1, int arg2, int arg3, int arg4)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s0;
var1 = arg1;
var2 = arg2;
((int *) sp)[5] = ra;
var3 = 0x9FF00000;
__asm__ ("cache 0x18, 0($t5);"
"cache 0x18, 64($t5);"
"cache 0x18, 128($t5);"
"cache 0x18, 192($t5);"
"cache 0x18, 256($t5);"
"cache 0x18, 320($t5);"
"cache 0x18, 384($t5);"
"cache 0x18, 448($t5);"
:
: "=r"(0x9FF00000));
if (arg3 == 0)
{
var40 = 0x7F;
while (1) {
var40 = var40 + 0xFFFFFFFF;
((int *) var3)[0] = 0xFFFFFFFF;
var3 = var3 + 0x04;
if (var40 >= 0)
continue;
break;
}
}
else
{
var4 = *((int *) 0xD0D0);
var5 = 0;
if (var4 == 0)
{
while (1) {
var39 = ((int *) arg3)[0];
var5 = var5 + 1;
((int *) var3)[0] = var39;
arg3 = arg3 + 0x04;
var3 = var3 + 0x04;
if (((var5 < 0x80)) != 0)
continue;
break;
}
}
else
{
var6 = ROTV (0x15, var4);
var7 = (ROTV (0x11, var2)) ^ ((var6 << 0x03) - var6);
var8 = (0x9FF00000 & 0xFFFFFE0F) | ((var2 ^ var6) & 0x1F);
while (1) {
var9 = ((int *) arg3)[0];
var10 = ((int *) arg3)[1];
var11 = ((int *) arg3)[2];
var12 = ((int *) arg3)[3];
arg3 = arg3 + 0x10;
var13 = var7 + var9;
((int *) var8)[0] = (var9 + var7);
var14 = var13 ^ var10;
((int *) var8)[1] = (var10 + var13);
var15 = var14 - var11;
((int *) var8)[2] = (var11 + var14);
((int *) var8)[3] = (var12 + var15);
var8 = ((var8 + 0x10) & 0xFFFFFDFF) | (0 & 1);
var7 = BITREV (((var15 + var12) + var6));
if (arg3 != (arg3 + 0x0200))
continue;
break;
}
}
}
__asm__ ("cache 0x1B, 0($v0);"
"cache 0x1B, 64($v0);"
"cache 0x1B, 128($v0);"
"cache 0x1B, 192($v0);"
"cache 0x1B, 256($v0);"
"cache 0x1B, 320($v0);"
"cache 0x1B, 384($v0);"
"cache 0x1B, 448($v0);"
:
: "=r"(0x9FF00000));
if ((var1 & 0x10) == 0)
{
var38 = *((int *) 0xBD101000);
var22 = var38 | 0x00020000;
}
else
{
var17 = 0xFFFFFFFF;
if (!((var1 & 1) == 0))
{
var18 = ((unsigned char *) arg4)[2];
var19 = ((unsigned char *) arg4)[1];
var20 = ((unsigned char *) arg4)[0];
var17 = ((var18 << 0x10) | (var19 << 0x08)) | var20;
}
*((int *) 0xBFF00800) = var17;
var21 = *((int *) 0xBD101000);
var22 = (var21 & 0xFFFDFFFF) | (0 & 1);
}
*((int *) 0xBD101000) = var22;
if (arg4 == 0)
{
var26 = 0xFFFFFFFF;
*((int *) 0xBFF00900) = 0xFFFFFFFF;
*((int *) 0xBFF00904) = 0xFFFFFFFF;
var27 = var2 << 0x0A;
}
else
{
var23 = ((var1 & 1)) ? (arg4 + 0x04) : arg4;
if ((var1 & 0x20) == 0)
{
var30 = ((int *) var23)[0];
var31 = sp;
((int *) sp)[0] = var30;
var32 = ((int *) var23)[1];
((int *) sp)[1] = var32;
var35 = sceNandCalcEcc (var31);
var36 = ((int *) sp)[0];
var26 = var35 | 0xFFFFF000;
*((int *) 0xBFF00900) = var36;
var37 = ((int *) sp)[1];
*((int *) 0xBFF00904) = var37;
var27 = var2 << 0x0A;
}
else
{
var24 = ((int *) var23)[0];
*((int *) 0xBFF00900) = var24;
var25 = ((int *) var23)[1];
*((int *) 0xBFF00904) = var25;
var26 = ((int *) var23)[2];
var27 = var2 << 0x0A;
}
}
*((int *) 0xBFF00908) = var26;
*((int *) 0xBD101020) = var27;
var28 = *((int *) 0xBD101038);
ra = ((int *) sp)[5];
*((int *) 0xBD101038) = (var28 & 0xFFFFFEFC);
*((int *) 0xBD101024) = 0x0303;
var29 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x953C
*/
int sub_0953C ()
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var3 = sub_08200 ();
var4 = 0;
if (var3 == 0)
{
var11 = sceKernelIsIntrContext ();
if (var11 == 0)
{
var18 = sceKernelCpuSuspendIntr ();
var19 = var18;
*((int *) 0xD0A4) = 0;
*((int *) 0xD0AC) = 0;
var22 = sub_08200 ();
if (var22 == 0)
{
var25 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (var25 & 0xFFFFFDFC);
var28 = sub_08200 ();
if (var28 == 0)
{
sceKernelCpuResumeIntrWithSync (var19);
var32 = *((int *) 0xD098);
var35 = sceKernelWaitEventFlag (var32, 1, 0x21, 0, 0);
var4 = MIN (var35, var28);
}
else
{
var29 = *((int *) 0xBD101038);
*((int *) 0xBD101038) = (((var29 & 0xFFFFFFFE) | (0 & 1)) | 0x0202);
label22:
*((int *) 0xD0A4) = 0xFFFFFFFF;
sceKernelCpuResumeIntrWithSync (var19);
var4 = 0;
}
}
else
goto label22;
}
else
{
while (1) {
var14 = sub_08200 ();
var4 = 0;
if (var14 != 0)
break;
var15 = 0x03E6;
while (1) {
if (!(var15 >= 0))
break;
var15 = var15 + 0xFFFFFFFF;
continue;
}
continue;
}
}
}
ra = ((int *) sp)[4];
var5 = ((int *) sp)[3];
var6 = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x20;
return var4;
}
/**
* Subroutine at address 0x9660
*/
void sceNandDetectChip ()
{
sp = sp + 0xFFFFFFE0;
var1 = sp;
((int *) sp)[5] = ra;
((int *) sp)[4] = s0;
var4 = sceNandReadId (var1, 2);
var5 = var4;
if (!(var4 < 0))
{
var6 = ((unsigned char *) sp)[1];
var7 = ((unsigned char *) sp)[0];
*((int *) 0xD704) = 0;
*((char *) 0xD709) = var6;
*((int *) 0xD6FC) = 0;
var8 = 0;
*((int *) 0xD700) = 0;
*((char *) 0xD708) = var7;
var9 = 0xBC08;
while (1) {
var10 = ((unsigned char *) var9)[0];
if (var10 == var7)
{
var23 = ((unsigned char *) var9)[1];
if (!(var23 != var6))
break;
var8 = var8 + 1;
label12:
var9 = var9 + 0x0C;
if (((var8 < 0x14)) != 0)
continue;
var5 = 0x80000004;
if (!(0 == 0))
{
var11 = var8 << 1;
goto label15;
}
}
else
{
var8 = var8 + 1;
goto label12;
}
goto label22;
}
var11 = var8 << 1;
label15:
var12 = ((var11 + var8) << 2) + 0xBC08;
var13 = ((unsigned char *) var12)[3];
var14 = ((unsigned short *) var12)[3];
var15 = ((int *) var12)[2];
var16 = ((unsigned short *) var12)[2];
*((int *) 0xD700) = var14;
*((int *) 0xD704) = var15;
*((char *) 0xD70A) = var13;
*((int *) 0xD6FC) = var16;
var19 = sceSysregGetTachyonVersion ();
if (!(((0x004FFFFF < var19)) != 0))
{
*((char *) 0xD70A) = 1;
}
var20 = *((int *) 0xD6FC);
if (var20 != 0x0200)
{
label21:
var5 = 0x80000003;
}
else
{
var21 = *((int *) 0xD700);
var5 = 0;
if (!(var21 == 0x20))
goto label21;
}
}
label22:
ra = ((int *) sp)[5];
var22 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9784
*/
int sceNandWriteBlockWithVerify (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = ra;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
var1 = arg2;
((int *) sp)[2] = s2;
var2 = arg3;
((int *) sp)[1] = s1;
var3 = 0;
((int *) sp)[0] = s0;
var4 = arg1;
while (1) {
var7 = sceNandEraseBlockWithRetry (var4);
var3 = var3 + 1;
var8 = var4;
var9 = var1;
if (!(var7 < 0))
{
var10 = *((int *) 0xD700);
var13 = sceNandWritePages (var8, var9, var2, var10);
var7 = MIN (var13, 0);
var8 = var4;
var9 = var1;
}
var14 = var7;
if (var7 < 0)
break;
var17 = sceNandVerifyBlockWithRetry (var8, var9, var2);
var14 = 0;
if (var17 >= 0)
break;
var14 = var17;
if (((var3 < 0x04)) != 0)
continue;
break;
}
ra = ((int *) sp)[5];
var18 = ((int *) sp)[4];
var19 = ((int *) sp)[3];
var20 = ((int *) sp)[2];
var21 = ((int *) sp)[1];
var22 = ((int *) sp)[0];
sp = sp + 0x20;
return var14;
}
/**
* Subroutine at address 0x9838
*/
void sceNandReadBlockWithRetry (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = ra;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0;
while (1) {
var2 = *((int *) 0xD700);
var5 = sceNandReadPages (arg1, arg2, arg3, var2);
var1 = var1 + 1;
var6 = 0;
if (var5 >= 0)
break;
var6 = var5;
if (((var1 < 0x04)) != 0)
continue;
break;
}
ra = ((int *) sp)[5];
var7 = ((int *) sp)[4];
var8 = ((int *) sp)[3];
var9 = ((int *) sp)[2];
var10 = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x98BC
*/
int sceNandVerifyBlockWithRetry (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFC0;
((int *) sp)[9] = s5;
((int *) sp)[6] = s2;
var1 = 0;
var2 = arg2;
((int *) sp)[5] = s1;
var3 = arg3;
((int *) sp)[13] = ra;
((int *) sp)[12] = fp;
((int *) sp)[11] = s7;
((int *) sp)[10] = s6;
((int *) sp)[8] = s4;
((int *) sp)[7] = s3;
((int *) sp)[4] = s0;
var4 = *((int *) 0xD700);
((int *) sp)[0] = arg1;
if (var4 <= 0)
{
label20:
var17 = 0;
label21:
ra = ((int *) sp)[13];
}
else
{
((int *) sp)[1] = 0;
while (1) {
var5 = ((int *) sp)[0];
var6 = ((int *) sp)[1];
var7 = 0;
var8 = var5 + var1;
var9 = var8;
while (1) {
var12 = sceNandReadPages (var9, 0xD0D4, 0xD2D4, 1);
if (var12 < 0)
{
var7 = var7 + 1;
var17 = var12;
if (((var7 < 0x04)) != 0)
{
label10:
if (var2 == 0)
{
label14:
if (var3 == 0)
{
label18:
var9 = var8;
if (var12 < 0)
continue;
var21 = ((int *) sp)[1];
var22 = *((int *) 0xD700);
var1 = var1 + 1;
((int *) sp)[1] = (var21 + 0x0C);
if (((var1 < var22)) != 0)
continue;
goto label20;
}
else
{
var20 = memcmp (0xD2D4, (var3 + var6), 0x08);
var17 = 0x80230006;
if (var20 != 0)
break;
goto label18;
}
}
else
{
var13 = *((int *) 0xD6FC);
var16 = memcmp (0xD0D4, (var2 + (var13 * var1)), var13);
var17 = 0x80230006;
if (var16 != 0)
break;
goto label14;
}
}
else
{
ra = ((int *) sp)[13];
}
}
else
goto label10;
goto label22;
}
}
goto label21;
}
label22:
var23 = ((int *) sp)[12];
var24 = ((int *) sp)[11];
var25 = ((int *) sp)[10];
var26 = ((int *) sp)[9];
var27 = ((int *) sp)[8];
var28 = ((int *) sp)[7];
var29 = ((int *) sp)[6];
var30 = ((int *) sp)[5];
var31 = ((int *) sp)[4];
sp = sp + 0x40;
return var17;
}
/**
* Subroutine at address 0x9A0C
*/
int sceNandEraseBlockWithRetry (int arg1)
{
var1 = *((int *) 0xD700);
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var2 = 0x80230008;
((int *) sp)[2] = ra;
((int *) sp)[0] = s0;
if (var1 == 0)
{
__asm__ ("break 0x7;");
}
var3 = 0;
if (!((arg1 % var1) != 0))
{
while (1) {
var6 = sceNandEraseBlock (arg1);
var3 = var3 + 1;
var2 = 0;
if (var6 >= 0)
break;
var2 = var6;
if (((var3 < 0x04)) != 0)
continue;
break;
}
}
ra = ((int *) sp)[2];
var7 = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x10;
return var2;
}
/**
* Subroutine at address 0x9A80
*/
void sceNandIsBadBlock (int arg1)
{
var1 = *((int *) 0xD700);
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s1;
var2 = 0x80230008;
((int *) sp)[6] = ra;
((int *) sp)[4] = s0;
if (var1 == 0)
{
__asm__ ("break 0x7;");
}
var3 = 0;
if (!((arg1 % var1) != 0))
{
while (1) {
var4 = sp;
var3 = var3 + 1;
var7 = sceNandReadPagesRawAll (arg1, 0, var4, 1);
if (var7 >= 0)
{
var10 = ((unsigned char *) sp)[5];
var2 = (0 < (var10 ^ 0xFF));
}
else
{
var2 = var7;
if (((var3 < 0x04)) != 0)
continue;
break;
}
}
}
ra = ((int *) sp)[6];
var8 = ((int *) sp)[5];
var9 = ((int *) sp)[4];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9B0C
*/
void sceNandDoMarkAsBadBlock (int arg1)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[5] = s5;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[7] = ra;
((int *) sp)[6] = s6;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
var2 = *((int *) 0xD700);
if (var2 == 0)
{
__asm__ ("break 0x7;");
}
var3 = 0x80230008;
if (!((arg1 % var2) != 0))
{
memset (0xD2E0, 0, 0x0200);
memset (0xD4E0, 0xFF, 0x0C);
var8 = *((int *) 0xD700);
*((char *) 0xD4E1) = 0xFFFFFFF0;
var9 = 0;
var10 = 0;
if (!(var8 <= 0))
{
var11 = var1 + 0;
while (1) {
var12 = var11;
while (1) {
var15 = sceNandWritePages (var12, 0xD2E0, 0xD4E0, 1);
if (var15 >= 0)
break;
var9 = var9 + 1;
var12 = var11;
if (((var9 < 0x04)) != 0)
continue;
var16 = *((int *) 0xD700);
goto label18;
}
var16 = *((int *) 0xD700);
label18:
var10 = var10 + 1;
var11 = var1 + var10;
if (((var10 < var16)) != 0)
continue;
break;
}
}
var3 = 0;
}
ra = ((int *) sp)[7];
var17 = ((int *) sp)[6];
var18 = ((int *) sp)[5];
var19 = ((int *) sp)[4];
var20 = ((int *) sp)[3];
var21 = ((int *) sp)[2];
var22 = ((int *) sp)[1];
var23 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9C18
*/
void sceNandDumpWearBBMSize ()
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[6] = s6;
((int *) sp)[1] = s1;
var1 = 0;
((int *) sp)[0] = s0;
((int *) sp)[7] = ra;
((int *) sp)[5] = s5;
((int *) sp)[4] = s4;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var2 = *((int *) 0xD704);
var3 = 0;
if (var2 <= 0)
{
label21:
var9 = var1;
}
else
{
while (1) {
var4 = *((int *) 0xD700);
var5 = 0;
var8 = sceNandDetectChipMakersBBM ((var3 * var4));
var9 = var8;
if (var8 < 0)
break;
if (var8 == 1)
{
var1 = var1 + 1;
label19:
var14 = *((int *) 0xD704);
}
else
{
var10 = *((int *) 0xD700);
var13 = sceNandTestBlock ((var3 * var10));
if (var13 < 0)
{
var22 = *((int *) 0xD700);
var5 = 1;
sceNandDoMarkAsBadBlock ((var3 * var22));
}
if (var5 == 0)
{
var14 = *((int *) 0xD704);
}
else
{
var1 = var1 + 1;
goto label19;
}
}
var3 = var3 + 1;
if (((var3 < var14)) != 0)
continue;
goto label21;
}
}
ra = ((int *) sp)[7];
var15 = ((int *) sp)[6];
var16 = ((int *) sp)[5];
var17 = ((int *) sp)[4];
var18 = ((int *) sp)[3];
var19 = ((int *) sp)[2];
var20 = ((int *) sp)[1];
var21 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9D04
*/
void sceNandCountChipMakersBBM ()
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var2 = *((int *) 0xD704);
var3 = 0;
if (var2 <= 0)
{
label9:
var8 = var1;
}
else
{
var4 = *((int *) 0xD700);
while (1) {
var3 = var3 + 1;
var7 = sceNandDetectChipMakersBBM ((var3 * var4));
var1 = var1 + (((var7 ^ 1) < 1));
var8 = var7;
if (var7 < 0)
break;
var9 = *((int *) 0xD704);
if (!(((var3 < var9)) != 0))
goto label9;
var4 = *((int *) 0xD700);
continue;
}
}
ra = ((int *) sp)[4];
var10 = ((int *) sp)[3];
var11 = ((int *) sp)[2];
var12 = ((int *) sp)[1];
var13 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9D98
*/
int sceNandDetectChipMakersBBM (int arg1)
{
sp = sp + 0xFFFFFFD0;
((int *) sp)[6] = s6;
((int *) sp)[5] = s5;
var1 = 0;
((int *) sp)[4] = s4;
((int *) sp)[9] = ra;
((int *) sp)[8] = fp;
((int *) sp)[7] = s7;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var2 = *((unsigned char *) 0xD70A);
var3 = 0;
if (var2 == 0)
{
label10:
var8 = 0;
}
else
{
while (1) {
var4 = var4 + 1;
var7 = sceNandReadPagesRawAll ((arg1 + var3), 0xD4EC, 0xD6EC, 1);
if (var7 >= 0)
{
var18 = *((unsigned char *) 0xD6F1);
var1 = ((var18 ^ 0xFF)) ? 1 : var1;
var8 = 1;
if (var1 != 0)
break;
var19 = *((unsigned char *) 0xD70A);
var3 = var3 + 1;
if (((var3 < var19)) != 0)
continue;
goto label10;
}
else
{
var8 = var7;
if (((var4 < 0x04)) != 0)
continue;
}
}
}
ra = ((int *) sp)[9];
var9 = ((int *) sp)[8];
var10 = ((int *) sp)[7];
var11 = ((int *) sp)[6];
var12 = ((int *) sp)[5];
var13 = ((int *) sp)[4];
var14 = ((int *) sp)[3];
var15 = ((int *) sp)[2];
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x30;
return var8;
}
/**
* Subroutine at address 0x9E90
*/
void sceNandEraseAllBlock ()
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = 0;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
var2 = *((int *) 0xD704);
var3 = 0;
if (!(var2 <= 0))
{
var4 = *((int *) 0xD700);
while (1) {
var3 = var3 + 1;
var7 = sceNandEraseBlockWithRetry ((var3 * var4));
var1 = var1 + ((var7 < 0));
if (var7 == 0x80230007)
{
var1 = 0x80230007;
}
else
{
var8 = *((int *) 0xD704);
if (!(((var3 < var8)) != 0))
break;
var4 = *((int *) 0xD700);
continue;
}
}
}
ra = ((int *) sp)[4];
var9 = ((int *) sp)[3];
var10 = ((int *) sp)[2];
var11 = ((int *) sp)[1];
var12 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
/**
* Subroutine at address 0x9F28
*/
int sceNandTestBlock (int arg1)
{
sp = sp + 0xFFFFBDE0;
((int *) sp)[4226] = s2;
((int *) sp)[4225] = s1;
var1 = arg1;
((int *) sp)[4229] = ra;
((int *) sp)[4228] = s4;
((int *) sp)[4227] = s3;
((int *) sp)[4224] = s0;
var2 = *((int *) 0xD700);
if (var2 == 0)
{
__asm__ ("break 0x7;");
}
var3 = 0x80230008;
if (!((arg1 % var2) != 0))
{
var6 = sceNandEraseBlockWithRetry (arg1);
var3 = var6;
if (!(var6 < 0))
{
var7 = *((int *) 0xD700);
var8 = sp + 0x4000;
var9 = sp;
var12 = sceNandReadPagesRawAll (var1, var9, var8, var7);
var3 = var12;
if (!(var12 < 0))
{
var13 = *((int *) 0xD700);
var14 = 0;
if (var13 <= 0)
{
label21:
var25 = 0;
var26 = sp;
while (1) {
if (var25 == 0)
{
memset (var26, 0, 0x4000);
label30:
memset (var8, 0xFF, 0x0180);
var27 = var1;
}
else
{
if (var25 == 1)
{
memset (var26, 0xFF, 0x4000);
goto label30;
}
else
{
var27 = var1;
}
}
var28 = sp;
var31 = sceNandWriteBlockWithVerify (var27, var28, var8);
var25 = var25 + 1;
var32 = var31;
if (var32 < 0)
break;
var33 = sp;
if (((var25 < 2)) != 0)
continue;
break;
}
var36 = sceNandEraseBlockWithRetry (var1);
var3 = var32;
}
else
{
var15 = sp;
var16 = sp;
while (1) {
var17 = 0;
var18 = var16;
var19 = var18 + 0;
while (1) {
var20 = ((int *) var19)[0];
var17 = var17 + 0x04;
var3 = 0x80230004;
if (var20 != 0xFFFFFFFF)
break;
var19 = var18 + var17;
if (((var17 < 0x0200)) != 0)
continue;
var21 = 0x04;
var22 = var15;
var23 = var22 + 0x04;
while (1) {
var24 = ((unsigned char *) var23)[16384];
var21 = var21 + 1;
var3 = 0x80230004;
if (var24 != 0xFF)
break;
if (((var21 < 0x10)) != 0)
{
var23 = var22 + var21;
continue;
}
else
{
var14 = var14 + 1;
var16 = var16 + 0x0200;
var15 = var15 + 0x10;
if (((var14 < var13)) != 0)
continue;
goto label21;
}
}
}
}
}
}
}
}
ra = ((int *) sp)[4229];
var37 = ((int *) sp)[4228];
var38 = ((int *) sp)[4227];
var39 = ((int *) sp)[4226];
var40 = ((int *) sp)[4225];
var41 = ((int *) sp)[4224];
sp = sp + 0x4220;
return var3;
}
/**
* Subroutine at address 0xA0D8
*/
void sceNandGetPageSize ()
{
var1 = *((int *) 0xD6FC);
return;
}
/**
* Subroutine at address 0xA0E4
*/
void sceNandGetPagesPerBlock ()
{
var1 = *((int *) 0xD700);
return;
}
/**
* Subroutine at address 0xA0F0
*/
void sceNandGetTotalBlocks ()
{
var1 = *((int *) 0xD704);
return;
}
/**
* Subroutine at address 0xA0FC
*/
void sceNandWriteBlock (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
((int *) sp)[3] = ra;
var3 = sceNandEraseBlockWithRetry (arg1);
if (!(var3 < 0))
{
var4 = *((int *) 0xD700);
var7 = sceNandWritePages (arg1, arg2, arg3, var4);
}
ra = ((int *) sp)[3];
var8 = ((int *) sp)[2];
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0xA15C
*/
int sceNandCalcEcc (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[3] = s3;
((int *) sp)[2] = s2;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = ((unsigned char *) arg1)[0];
var2 = ((unsigned char *) arg1)[1];
var3 = ((unsigned char *) arg1)[2];
var4 = ((unsigned char *) arg1)[3];
var5 = ((unsigned char *) arg1)[4];
var6 = var1 ^ var2;
var7 = ((unsigned char *) arg1)[5];
var8 = ((unsigned char *) arg1)[6];
var9 = var4 ^ (var3 ^ var6);
var10 = ((unsigned char *) arg1)[7];
var11 = (var10 ^ (var8 ^ (var7 ^ (var5 ^ var9)))) & 0xFF;
var12 = var9 & 0xFF;
var13 = (var10 ^ (var8 ^ (var5 ^ var7))) & 0xFF;
var14 = (var10 ^ (var8 ^ (var3 ^ var4))) & 0xFF;
var15 = (var7 ^ (var5 ^ var6)) & 0xFF;
var16 = (var10 ^ (var7 ^ (var2 ^ var4))) & 0xFF;
var17 = (var8 ^ (var5 ^ (var1 ^ var3))) & 0xFF;
var18 = ((int *) sp)[3];
var19 = ((int *) sp)[2];
var20 = ((int *) sp)[1];
var21 = ((int *) sp)[0];
sp = sp + 0x10;
return (((((((((0x6996 >> (var11 >> 0x04)) & 1) << 0x08) | (((0x6996 >> (var11 & 0x0F)) & 1) << 2)) | ((((0x6996 >> (var11 & 0x0C)) ^ (0x6996 >> ((var11 & 0xCC) >> 0x04))) & 1) << 0x07)) | ((((0x6996 >> (var11 & 0x03)) ^ (0x6996 >> ((var11 >> 4) & 0x03))) & 1) << 1)) | ((((0x6996 >> (var11 & 0x0A)) ^ (0x6996 >> ((var11 & 0xAA) >> 0x04))) & 1) << 6)) | (((0x6996 >> (var11 & 0x05)) ^ (0x6996 >> ((var11 & 0x55) >> 0x04))) & 1)) | (((((((((0x6996 >> (var13 & 0x0F)) ^ (0x6996 >> (var13 >> 0x04))) & 1) << 0x0B) | ((((0x6996 >> (var12 & 0x0F)) ^ (0x6996 >> (var12 >> 0x04))) & 1) << 0x05)) | ((((0x6996 >> (var14 & 0x0F)) ^ (0x6996 >> (var14 >> 0x04))) & 1) << 0x0A)) | ((((0x6996 >> (var15 & 0x0F)) ^ (0x6996 >> (var15 >> 0x04))) & 1) << 0x04)) | ((((0x6996 >> (var16 & 0x0F)) ^ (0x6996 >> (var16 >> 0x04))) & 1) << 0x09)) | ((((0x6996 >> (var17 & 0x0F)) ^ (0x6996 >> (var17 >> 0x04))) & 1) << 0x03)));
}
/**
* Subroutine at address 0xA388
*/
void sceNandVerifyEcc (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sub_0A3C0 (arg1, arg2, 0);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0xA3A4
*/
int sceNandCollectEcc (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sub_0A3C0 (arg1, arg2, 1);
ra = ((int *) sp)[0];
sp = sp + 0x10;
return var3;
}
/**
* Subroutine at address 0xA3C0
*/
int sub_0A3C0 (int arg1, int arg2, int arg3)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
((int *) sp)[5] = s5;
((int *) sp)[3] = s3;
((int *) sp)[1] = s1;
((int *) sp)[0] = s0;
var1 = ((unsigned char *) arg1)[0];
var2 = ((unsigned char *) arg1)[1];
var3 = ((unsigned char *) arg1)[2];
var4 = ((unsigned char *) arg1)[3];
var5 = ((unsigned char *) arg1)[4];
var6 = var1 ^ var2;
var7 = ((unsigned char *) arg1)[5];
var8 = ((unsigned char *) arg1)[6];
var9 = var4 ^ (var3 ^ var6);
var10 = ((unsigned char *) arg1)[7];
var11 = (var10 ^ (var8 ^ (var7 ^ (var5 ^ var9)))) & 0xFF;
var12 = var9 & 0xFF;
var13 = (var10 ^ (var8 ^ (var5 ^ var7))) & 0xFF;
var14 = (var10 ^ (var8 ^ (var3 ^ var4))) & 0xFF;
var15 = (var7 ^ (var5 ^ var6)) & 0xFF;
var16 = (var10 ^ (var7 ^ (var2 ^ var4))) & 0xFF;
var17 = (var8 ^ (var5 ^ (var1 ^ var3))) & 0xFF;
var18 = (((((((((0x6996 >> (var11 >> 0x04)) & 1) << 0x08) | (((0x6996 >> (var11 & 0x0F)) & 1) << 2)) | ((((0x6996 >> (var11 & 0x0C)) ^ (0x6996 >> ((var11 & 0xCC) >> 0x04))) & 1) << 0x07)) | ((((0x6996 >> (var11 & 0x03)) ^ (0x6996 >> ((var11 >> 4) & 0x03))) & 1) << 1)) | ((((0x6996 >> (var11 & 0x0A)) ^ (0x6996 >> ((var11 & 0xAA) >> 0x04))) & 1) << 6)) | (((0x6996 >> (var11 & 0x05)) ^ (0x6996 >> ((var11 & 0x55) >> 0x04))) & 1)) | (((((((((0x6996 >> (var13 & 0x0F)) ^ (0x6996 >> (var13 >> 0x04))) & 1) << 0x0B) | ((((0x6996 >> (var12 & 0x0F)) ^ (0x6996 >> (var12 >> 0x04))) & 1) << 0x05)) | ((((0x6996 >> (var14 & 0x0F)) ^ (0x6996 >> (var14 >> 0x04))) & 1) << 0x0A)) | ((((0x6996 >> (var15 & 0x0F)) ^ (0x6996 >> (var15 >> 0x04))) & 1) << 0x04)) | ((((0x6996 >> (var16 & 0x0F)) ^ (0x6996 >> (var16 >> 0x04))) & 1) << 0x09)) | ((((0x6996 >> (var17 & 0x0F)) ^ (0x6996 >> (var17 >> 0x04))) & 1) << 0x03))) ^ arg2;
var19 = 0;
if (!(var18 == 0))
{
var20 = ((var18 >> 6) ^ var18) & 0x3F;
var21 = 0;
if (var20 == 0x3F)
{
var19 = 0xFFFFFFFF;
if (!(arg3 == 0))
{
((char *) arg1)[7] = (var10 ^ 0x80);
}
}
else
{
while (1) {
var19 = var19 + 1;
var21 = var21 + ((var20 >> var19) & 1);
if (((var19 < 6)) != 0)
continue;
break;
}
var19 = ((var21 ^ 1)) ? 0xFFFFFFFD : 0xFFFFFFFE;
}
}
var22 = ((int *) sp)[5];
var23 = ((int *) sp)[4];
var24 = ((int *) sp)[3];
var25 = ((int *) sp)[2];
var26 = ((int *) sp)[1];
var27 = ((int *) sp)[0];
sp = sp + 0x20;
return var19;
}
void sub_0A6B0 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
DmacManForKernel_32757C57 (0);
sceDdrEnd ();
ra = ((int *) sp)[0];
sp = sp + 0x10;
return;
}
/**
* Subroutine at address 0xA6D8
*/
void sceDdr_driver_B639BE04 (int arg1)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[1] = s1;
var1 = arg1;
((int *) sp)[3] = s3;
var2 = 0x800001FE;
((int *) sp)[5] = ra;
((int *) sp)[4] = s4;
((int *) sp)[2] = s2;
((int *) sp)[0] = s0;
if (!((((arg1 | 0x08) < 0x0E)) == 0))
{
var5 = sceKernelCpuSuspendIntr ();
var6 = *((int *) 0xBF04);
if (!(var6 < 0))
{
var9 = sceDdr_driver_C6B7CCDE ();
((int *) ((var6 << 2) + 0xBF08))[0] = var9;
}
*((int *) 0xBF04) = var1;
var10 = ((int *) ((var1 << 2) + 0xBF08))[0];
sceKernelDcacheWritebackAll ();
var13 = *((int *) 0xBC000044);
var14 = 0x0F;
*((int *) 0xBC000044) = ((var13 & 0xC000FFFF) | (0 & 0x3FFF));
var15 = *((int *) 0xBC100068);
var16 = *((int *) 0xBC10004C);
if ((var16 & 0x04) != 0)
{
var14 = 0x05;
}
sceDdrFlush (var14);
var21 var22 = (*0xBFC00C00) (var1, 0x03, var10, 0x08, 0x0A, 0xBD00);
*((int *) 0xBC000044) = var13;
sceSysreg_driver_2456AE40 ();
sceKernelCpuResumeIntrWithSync (var5);
var2 = 0;
}
ra = ((int *) sp)[5];
var27 = ((int *) sp)[4];
var28 = ((int *) sp)[3];
var29 = ((int *) sp)[2];
var30 = ((int *) sp)[1];
var31 = ((int *) sp)[0];
sp = sp + 0x20;
return;
}
|
0xb15c077e
|
trunk/RE/PSP/lowio.c
|
C
|
mit
| 203,390
|
#include <pspsdk.h>
#include "usbacc.h"
void sceUsbAccGetAuthStat (){
intr = sceKernelCpuSuspendIntr ();
if (*((unsigned char *) 0x00000D63))ret = sceUsbBus_driver_8A3EB5D2 ()?0:0x80243701;
else ret = 0x80243007;
sceKernelCpuResumeIntr (intr);
}
void sceUsbAccGetInfo (int arg1){
var1 = 0;
if (!*((unsigned char *) 0x00000D63))return
if (!(ret = sceUsbBus_driver_8A3EB5D2 ()))return;
if (!arg1)return 0x80243002;
if ((((arg1 + 0x00000008) | arg1) & (0 - k1&0x18)) < 0)return;
_k1 = k1;
k1 = k1 >> 0x00000010;
intr = sceKernelCpuSuspendIntr ();
var20 = LWL (0x00000D20, k1&0x18, 0x00000003);
var21 = LWR (0x00000D20, var20, 0);
var22 = LWL (0x00000D20, ret, 0x00000007);
var23 = LWR (0x00000D20, var22, 0x00000004);
SWL (arg1, var21, 0x00000003);
SWR (arg1, var21, 0);
SWL (arg1, var23, 0x00000007);
SWR (arg1, var23, 0x00000004);
k1 = _k1;
sceKernelCpuResumeIntr (intr);
}
void sceUsbAcc_internal_2A100C1F (int arg1){
if (!*((unsigned char *) 0x00000D63))return 0x80243007;
var4 = ((int *) arg1)[1];
if (((unsigned char *) var4)[3]>=0x3D)return 0x80243002;
sceKernelDcacheWritebackRange (((int *) arg1)[1], ((int *) arg1)[2]);
((int *) arg1)[0] = 0x00000CBC;
((int *) arg1)[2] = (((unsigned char *) var4)[3] + 0x00000004);
return sceUsbbdReqSend (arg1);
}
void sub_001E8 (int arg1, int arg2, int arg3){
var1 = arg3;
var2 = LWL (var1, v0, 0x00000003);
var3 = LWR (var1, var2, 0);
var4 = LWL (var1, 0, 0x00000007);
var5 = LWR (var1, var4, 0x00000004);
SWL (0x00000D30, var3, 0xFFFFFFFB);
SWR (0x00000D30, var3, 0xFFFFFFF8);
SWL (0x00000D30, var5, 0xFFFFFFFF);
SWR (0x00000D30, var5, 0xFFFFFFFC);
var6 = 0xFFFFFFFF;
if (arg2 < 0)
{
label37:
ra = ((int *) sp)[3];
}
else
{
var7 = ((unsigned char *) var1)[0];
var8 = 0x00000C1C;
var9 = 0;
while (1) {
var10 = ((unsigned char *) var8)[0];
if ((var7 & 0x000000FF) == var10)
{
var37 = ((unsigned char *) var8)[1];
var38 = ((unsigned char *) var1)[1];
if (!(var38 != var37))
break;
var9 = var9 + 0x00000001;
label10:
var8 = var8 + 0x00000008;
if (((var9 < 0x00000002)) != 0)
continue;
}
else
{
var9 = var9 + 0x00000001;
goto label10;
}
goto label12;
}
label12:
var6 = 0xFFFFFFFF;
if (var9 == 0x00000002)
goto label37;
if (((char) var7) < 0)
{
var20 = ((unsigned char *) var1)[1];
ra = ((int *) sp)[3];
if (!(var20 != 0x00000001))
{
var23 = sceUsbBus_driver_48CCE3C1 ();
if (var23 == 0)
{
var26 = *((int *) 0x00000D34);
label25:
((char *) var26)[0] = var20;
var27 = *((int *) 0x00000D34);
}
else
{
var24 = *((unsigned short *) 0x00000D60);
var25 = ((unsigned short *) var1)[1];
if ((var24 & 0x0000FFFF) == (var24 & var25))
{
var33 = *((int *) 0x00000D34);
((char *) var33)[0] = 0;
sceUsbBus_driver_FBA2072B ();
var36 = *((int *) 0x00000D34);
}
else
{
var26 = *((int *) 0x00000D34);
goto label25;
}
}
*((int *) 0x00000D38) = 0x00000001;
sceKernelDcacheWritebackRange (var27, 0x00000001);
var32 = sceUsbbdReqSend (0x00000D30);
var6 = 0;
goto label37;
}
}
else
{
var11 = ((unsigned char *) var1)[1];
ra = ((int *) sp)[3];
if (!(var11 != 0x00000001))
{
var12 = *((int *) 0x00000D34);
sceKernelDcacheInvalidateRange (var12, 0x00000040);
*((int *) 0x00000D38) = 0x00000040;
sceUsbbdReqRecv (0x00000D30);
var6 = 0;
goto label37;
}
}
}
}
void sub_0034C (){
var3 = sceKernelCreateFpl ("SceUsbAcc", 0x00000001, 0x00000100, 0x00000170, 0x00000001, 0);
var4 = 0xFFFFFFFF;
*((int *) 0x00000D5C) = var3;
if (!(var3 < 0))
{
var5 = sp;
var8 = sceKernelTryAllocateFpl (var3, var5);
var9 = ((int *) sp)[0];
if (var8 < 0)
{
var29 = *((int *) 0x00000D5C);
sceKernelDeleteFpl (var29);
var4 = 0xFFFFFFFF;
}
else
{
*((int *) 0x00000D58) = var9;
var10 = var9 + 0x00000064;
var11 = var9 + 0x00000040;
var12 = var9 + 0x00000054;
*((int *) 0x00000CE4) = var11;
*((int *) 0x00000CE8) = var12;
((int *) sp)[0] = var10;
var15 = sub_0067C (0x00000002, var11, var12, var10);
var16 = var15 + 0x00000014;
var17 = var15 + 0x00000024;
*((int *) 0x00000CF0) = var16;
*((int *) 0x00000CEC) = var15;
((int *) sp)[0] = var17;
var20 = sub_0067C (0x00000001, var15, var16, var17);
((int *) sp)[0] = var20;
var21 = 0x00000CB8;
*((int *) 0x00000D20) = 0;
var22 = 0x00000001;
*((int *) 0x00000D24) = 0;
*((char *) 0x00000D63) = 0;
while (1) {
var22 = var22 + 0xFFFFFFFF;
((int *) var21)[0] = 0;
var21 = var21 + 0x0000000C;
if (var22 >= 0)
continue;
break;
}
var23 = *((int *) 0x00000D58);
*((int *) 0x00000D30) = 0x00000CB0;
*((int *) 0x00000D34) = var23;
*((int *) 0x00000D38) = 0x00000040;
*((int *) 0x00000D40) = 0x000005C0;
*((int *) 0x00000D48) = 0;
*((int *) 0x00000D3C) = 0x00000001;
*((int *) 0x00000D4C) = 0;
*((int *) 0x00000D50) = 0;
*((int *) 0x00000D44) = 0;
sceUsbBus_driver_90B82F55 ();
var4 = 0;
*((char *) 0x00000D62) = 0x00000001;
}
}
}
/**
* Subroutine at address 0x000004B8
*/
void sceUsbAccRegisterType (int arg1){
if (*((unsigned short *) 0x00000D60) & arg1)
*((short *) 0x00000D60) |= arg1;
}
void sceUsbAccUnregisterType (int arg1){
if ((*((unsigned short *) 0x00000D60) & 0x0000FFFF) & arg1)
*((short *) 0x00000D60) &= !arg1;
}
void module_start (){
if (sceUsbbdRegister (0x00000CD4)>=0){
*((short *) 0x00000D60) = 0;
*((char *) 0x00000D62) = 0;
return 0;
}
return 1;
}
void module_stop (){
return sceUsbbdUnregister (0x00000CD4);
}
void sub_00588 (){
sceUsbBus_driver_7B87815D ();
sceKernelDeleteFpl (*((int *) 0x00000D5C));
*((char *) 0x00000D62) = 0;
}
void sub_005C0 (int arg1){
if (arg1[6])return;
if (*((char *) 0x00000D28)<0)return;
if (*((char *) 0x00000D29)!=1)return;
var5 = LWL (arg1[1], 0x00000D20, 3);
var6 = LWR (arg1[1], var5, 0);
var7 = LWL (arg1[1], arg1, 7);
var8 = LWR (arg1[1], var7, 4);
SWL (0x00000D20, var6, 3);
SWR (0x00000D20, var6, 0);
SWL (0x00000D20, var8, 7);
SWR (0x00000D20, var8, 4);
}
/**
* Subroutine at address 0x00000618
*/
void sub_00618 (){
if (!*((char *) 0x00000D63))
*((char *) 0x00000D63) = 1;
}
void sub_00638 (){
if (!*((unsigned char *) 0x00000D63))return;
*((int *) 0x00000D24) = 0;
*((char *) 0x00000D63) = 0;
*((int *) 0x00000D20) = 0;
var2 = 0x00000CB8;
var3 = 1;
while (var3>=0) {
var3--;
var2[0]=0;
var2+=12;
}
}
int sub_0067C (int arg1, int arg2, int arg3, int arg4){
var1 = arg4 + 0x00000018;
sp = sp + 0xFFFFFFF0;
var2 = var1 + 0x0000000C;
((int *) sp)[3] = s3;
var3 = arg4;
((int *) sp)[2] = s2;
var4 = arg2;
var5 = var2 + 0x00000030;
((int *) arg3)[1] = var1;
var6 = 0x00000B94;
((int *) sp)[1] = s1;
var7 = 0x00000BA4;
var8 = (var4 | 0x00000B94) & 0x00000003;
((int *) sp)[0] = s0;
var9 = var5;
((int *) arg3)[2] = var2;
((int *) arg3)[0] = arg4;
var10 = 0x00000BA4;
((int *) arg3)[3] = var5;
var11 = ((int *) arg3)[1];
var12 = ((int *) arg3)[2];
var13 = var4;
if (var8 == 0)
{
while (1) {
var48 = ((int *) var6)[0];
var49 = ((int *) var6)[3];
var50 = ((int *) var6)[1];
var51 = ((int *) var6)[2];
((int *) var13)[0] = var48;
var13 = var13 + 0x00000010;
var6 = var7;
((int *) var13)[1073741821] = var50;
((int *) var13)[1073741822] = var51;
((int *) var13)[1073741823] = var49;
if (var7 == 0x00000BA4)
break;
var7 = var7 + 0x00000010;
continue;
}
var52 = ((int *) var7)[0];
((int *) var13)[0] = var52;
}
else
{
while (1) {
var14 = LWL (var6, var8, 0x00000003);
var8 = LWR (var6, var14, 0);
var15 = LWL (var6, arg1, 0x00000007);
arg1 = LWR (var6, var15, 0x00000004);
var16 = LWL (var6, var5, 0x0000000B);
var5 = LWR (var6, var16, 0x00000008);
var17 = LWL (var6, var10, 0x0000000F);
var10 = LWR (var6, var17, 0x0000000C);
SWL (var13, var8, 0x00000003);
SWR (var13, var8, 0);
SWL (var13, arg1, 0x00000007);
SWR (var13, arg1, 0x00000004);
SWL (var13, var5, 0x0000000B);
SWR (var13, var5, 0x00000008);
SWL (var13, var10, 0x0000000F);
SWR (var13, var10, 0x0000000C);
var6 = var6 + 0x00000010;
var13 = var13 + 0x00000010;
if (var6 != 0x00000BA4)
continue;
break;
}
var18 = LWL (var6, 0x00000BA4, 0x00000003);
var19 = LWR (var6, var18, 0);
SWL (var13, var19, 0x00000003);
SWR (var13, var19, 0);
}
var20 = *((int *) 0x00000BA8);
var21 = *((int *) 0x00000BC0);
var22 = *((int *) 0x00000BC8);
var23 = *((int *) 0x00000BAC);
var24 = *((int *) 0x00000BC4);
var25 = *((int *) 0x00000BBC);
var26 = *((int *) 0x00000BB0);
var27 = *((int *) 0x00000BB4);
var28 = *((int *) 0x00000BB8);
((int *) var3)[0] = var20;
var29 = 0x00000BCC;
((int *) var3)[1] = var23;
var30 = var12;
((int *) var3)[2] = var26;
((int *) var3)[3] = var27;
((int *) var3)[4] = var28;
((int *) var3)[5] = var25;
((int *) var11)[0] = var21;
((int *) var11)[1] = var24;
((int *) var11)[2] = var22;
while (1) {
var31 = ((int *) var29)[0];
var32 = ((int *) var29)[1];
var33 = ((int *) var29)[2];
var34 = ((int *) var29)[3];
((int *) var30)[0] = var31;
var29 = var29 + 0x00000010;
var30 = var30 + 0x00000010;
((int *) var30)[1073741821] = var32;
((int *) var30)[1073741822] = var33;
((int *) var30)[1073741823] = var34;
if (var29 != 0x00000BFC)
continue;
break;
}
var35 = *((int *) 0x00000BFC);
var36 = *((int *) 0x00000C18);
var37 = *((int *) 0x00000C00);
var38 = *((int *) 0x00000C04);
var39 = *((int *) 0x00000C08);
var40 = *((int *) 0x00000C0C);
var41 = *((int *) 0x00000C10);
var42 = *((int *) 0x00000C14);
((int *) var9)[1] = var37;
var43 = 0x00000007;
((int *) var9)[0] = var35;
((int *) var9)[2] = var38;
((int *) var9)[3] = var39;
((int *) var9)[4] = var40;
((int *) var9)[5] = var41;
((int *) var9)[6] = var42;
((int *) var9)[7] = var36;
((int *) var3)[3] = var11;
((int *) var11)[0] = var12;
((int *) var12)[3] = var9;
((char *) var4)[7] = 0x00000040;
((short *) var9)[2] = 0x00000040;
if (!(arg1 == 0x00000002))
{
var43 = 0x00000008;
}
var44 = ((int *) sp)[3];
var45 = ((int *) sp)[2];
var46 = ((int *) sp)[1];
var47 = ((int *) sp)[0];
((char *) var9)[6] = var43;
sp = sp + 0x00000010;
return (var5 + 0x00000020);
}
|
0xb15c077e
|
trunk/RE/PSP/usbacc.c
|
C
|
mit
| 11,511
|
#include <pspsdk.h>
#include "avcodec.h"
int sceAudiocodecCheckNeedMem (int arg1, int arg2){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if ((((arg2 + 0xFFFFF000) >= 0x6)))return 0x80000004;
_k1 = k1;
k1 = k1 >> 16;
if (((((arg1 + 0x68) | arg1) & -(k1&0x18)) < 0))return;
arg1[0] = 0x5100601;
ret = sceMeAudio_driver_BB9821AC (arg2, arg1);
ret = ((0x4444)[ret<0?0:ret]);
k1 = _k1;
return 0;
}
int sceAudiocodecInit (int arg1, int arg2){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if (!(((arg2 + 0xFFFFF000) < 0x6)))return 0x80000004;
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x68) | arg1) & (0 - k1&0x18)) < 0)return 0x80000004;
if (((0 - k1&0x18) & (((arg1[3] + arg1[4]) | arg1[3]) | arg1[4])) < 0)return 0x80000004;
if (arg2 == 0x1002)
arg1[14] = 0x270F;
if (((0x220202 >> ((arg1[3] >> 27) & 0x1F)) & 1))
sceKernelDcacheWritebackInvalidateRange (arg1[3], arg1[4]);
arg1[0] = 0x5100601;
ret = sceMeAudio_driver_F5F87C12 (arg2, arg1);
if (ret)return ((int *) ((((((ret < 0xFFFFFFFC))) ? 0 : ret) << 2) + 0x4444))[4];
k1 = _k1;
return 0;
}
int sceAudiocodec_3DD7EE1A (int arg1, int arg2){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if (!(((arg2 + 0xFFFFF000) < 0x6)))return 0x80000004;
var7 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x68) | arg1) & (0 - k1&0x18)) < 0)return 0x80000004;
if (((0 - k1&0x18) & (((arg1[3] + arg1[4]) | arg1[3]) | arg1[4]))<0)return 0x80000004;
if (arg2 == 0x1002)
arg1[14] = 0x270F;
if (((0x220202 >> ((arg1[3] >> 27) & 0x1F)) & 1))
sceKernelDcacheWritebackInvalidateRange (arg1[3], arg1[4]);
arg1[0] = 0x5100601;
ret = sceMeAudio_driver_24AFB7E1 (arg2, arg1);
if (ret)
return ((int *) ((((((var15 < 0xFFFFFFFC))) ? 0 : var15) << 2) + 0x4444))[4];
k1 = var7;
}
int sceAudiocodecDecode (int arg1, int arg2){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if (!(((arg2 + 0xFFFFF000) < 0x6)))return 0x80000004;
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x68) | arg1) & (0 - k1&0x18)) < 0)return 0x80000004;
if (((0 - k1&0x18) & (((arg1[3] + arg1[4]) | arg1[3]) | arg1[4]))<0)return 0x80000004;
if ((((arg1[6] + 0x10000) | arg1[6]) & (0 - k1 & 0x18)) < 0)return 0x80000004;
if ((((arg1[8] + 0x10000) | arg1[8]) & (0 - k1 & 0x18)) >= 0)
if (arg2 == 0x1002)len = arg1[10];
else if (arg2 == 0x1004)len = arg1[10];
else if(len=audiocodecGetInfo (arg1, arg2)<0)return len;
sceKernelDcacheWritebackRange (arg1[6], len);
if (len=getSizeofSample (arg1, arg2)<0)return len;
sceKernelDcacheWritebackInvalidateRange (arg1[8], len);
ret = sceMeAudio_driver_310C9CDA (arg2, arg1);
if (ret)
return = ((int *) ((((((var31 < 0xFFFFFFFC))) ? 0 : var31) << 2) + 0x4444))[4];
k1 = _k1;
return 0;
}
int sceAudiocodecGetInfo (int arg1, int arg2){
var1 = arg1;
var2 = 0x807F0002;
sp[0] = s0;
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return
if (!(((arg2 + 0xFFFFF000) < 0x6)))return;
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x68) | arg1) & (0 - k1&0x18)) < 0)return;
if (((0 - k1 & 0x18) & (((arg1[3] + arg1[4]) | arg1[3]) | arg1[4])) < 0)return;
if (((((arg2 ^ 0x1002) < 1)) | (((arg2 ^ 0x1004) < 1)))==0)
if ((((0 - k1&0x18) & (((arg1[6] + arg1[10]) | arg1[6]) | arg1[10])) < 0))return 0x80000023;
arg1[0] = 0x5100601;
ret = sceMeAudio_driver_7C8ADD5E (arg2,(arg2==0x1000)4:2);
if (ret)
return ((int *) ((((((ret < 0xFFFFFFFC))) ? 0 : ret) << 2) + 0x4444))[4];
k1 = _k1;
return 0;
}
int sceAudiocodec_59176A0F (int arg1, int arg2, int arg3){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if (!(((arg2 + 0xFFFFF000) < 0x6)))return 0x80000004;
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x68) | arg1) & (0 - k1&0x18)) < 0)return 0x80000004;
if ((((arg3 + 4) | arg3) & (0 - k1 & 0x18)) < 0)return;
len = getSizeofSample (arg1, arg2);
if (len>=0)arg3[0] = len;
return 0;
}
int sceAudiocodecGetEDRAM (int arg1, int arg2){
if (!((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))return 0x807F0002;
if (!(((arg2 + 0xFFFFF000) < 0x6)))return 0x80000004;
var7 = k1;
k1 = k1 >> 16;
var8 = k1 & 0x18;
if ((((arg1 + 0x6C) | arg1) & (0 - var8)) < 0)return;
arg1[26] = sceMeMemory_driver_3D0D8BAF (((arg1[4] + 0x3F) | 0x3F));
if (arg1[26]){
if ((((0x3FFFFF < ((arg1[26] >> 0) & 0x1FFFFFFF))) ^ 1))return;
arg1[3] = (((arg1[26] + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F));
}
sceMeMemory_driver_F9318AF4 (arg1[26]);
arg1[26] = 0;
arg1[3] = 0;
return var3 = 0x807F0003;//??
}
int sceAudiocodecReleaseEDRAM (int arg1){
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x6C) | arg1) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg1[3] + arg1[4]) | arg1[3]) | arg1[4]))<0)return;
if (!arg1[26])return 0x807F0004;
if (((((0x3FFFFF < ((arg1[26] >> 0) & 0x1FFFFFFF))) ^ 1)){
sceMeMemory_driver_F9318AF4 (arg1[26]);
arg1[26] = 0;
arg1[3] = 0;
}
k1 = _k1;
return 0;
}
int audiocodecGetInfo (int arg1, int arg2){
if (arg2 >= 0x1006)return 0x80000004;
switch (((int *)0x446C)[arg2-0x1000]) {
case 0:
var5 = arg1[12];
var2 = 0x100A;
if (!(var5 != 0))
{
var6 = arg1[16];
var2 = var6 + 2;
}
goto label19;
case 1:
var8 = arg1[12];
var2 = (var8 << 1) + 1;
goto label19;
case 2:
if (arg1[14] == 0x270F)
if((ret = sceAudiocodecGetInfo (arg1, 0x1002))<0)return ret;
return getSampleLen (arg1[14], arg1[15], arg1[17], arg1[18], (arg1 + 0x28));
case 3:
return ((unsigned char *) arg1)[44] ? 0x609 : 0x600;
case 4:
return getSampleLen (arg1[12], arg1[13], arg1[15], arg1[16], (arg1 + 0x28));
case 5:
return = 0x420D;
}
return 0;
}
int getSizeofSample (int arg1, int arg2){
if (arg2 >= 0x1006)return 0x1000;
switch (((int *)0x4484)[arg2-0x1000]){
case 0:
if ((arg1[14] == 1)&&(arg1[18] != arg1[14]))return 0x2000;
return arg1[18] << 0xC;
case 1:
return 0x1000;
case 2:
if (arg1[14] == 0x270F)
if (ret=sceAudiocodecGetInfo (arg1, 0x1002)<0)return ret;
return arg1[14]^1 ? 0x900 : 0x1200;
case 3:
return ((unsigned char *) arg1)[45] ? 0x2000 : 0x1000;
case 4:
return 0x1200;
case 5:
return 0x2F00;
}
return 0x1000;
}
int getSampleLen (int arg1, int arg2, int arg3, int arg4, int arg5){
var3 = 0;
if (((arg1<3) & ((!arg3) >> 0x1F))&&(arg3 < 0xF))
var3 = ((unsigned char *) ((((arg1&1*16) - arg1&1) + 0x449C) + arg3))[0]<<3;
var6 = 0;
if (((arg1<3) & ((!arg4) >> 0x1F))&&(arg4 < 4))
var6 = ((unsigned short *) ((((arg1*4)+arg4)*2) + 0x44BC))[0];
var7 = 0x7C9;
if ((((0 < var3)) & ((0 < var6)))){
if (arg2 < 3){
var8 = ((((var3 << 3) + var3) << 4) / var6) + 1;
var7 = !(((var8 < 0x7CA))) ? 0x7C9 : var8;
}
var9 = var7 >> 1;
}else var9 = 0x7C9 >> 1;
*arg5 = ((arg1 ^ 1)) ? var9 : var7;
return *arg5;
}
int sceVideocodecGetEDRAM (int arg1){
_k1=k1;k1=k1>>16;_k1=k1&0x18;
if (arg1[23])return 0x806201FE;
if (!(arg1[23]=sceMeMemory_driver_198F17FD (((arg1[6]+0x3F)|0x3F), 1)))return 0x806201FE;
arg1[5] = (((arg1[23]+0x3F) & ~0x3F));
k1=_k1;
return 0;
}
int sceVideocodecReleaseEDRAM (int arg1){
_k1 = k1;k1 = k1 >> 16;_k1 = k1 & 0x18;
if (!arg1[23])return 0x806201FE;
sceMeMemory_driver_F9318AF4 (arg1[23]);
arg1[5] = 0;
arg1[23] = 0;
k1 = _k1;
}
int sceVideocodecOpen (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (ret=checkAlign (arg1, arg2))return ret;
arg1[0] = 0x5100601;
sceKernelDcacheWritebackInvalidateRange (arg1[4],arg2?0x100:0x28);
if (ret=sceMeVideo_driver_F24820D4 (arg2, arg1))return ret;
sceMePower_driver_52E7CD99(0);
sceMePower_driver_2ECCB138(0);
ret = ((0x4458)[ret<0?0:ret]);
k1 = _k1;
}
int sceVideocodecInit (int arg1, int arg2){
_k1 = k1;
k1 = k1 >> 16;
if(checkArgMem (arg1, arg2))return;
sceKernelDcacheWritebackInvalidateRange (arg1[4], ((arg2) ? 0x100 : 0x28));
if (!(((0x3FFFFF < (arg1[5] & 0x1FFFFFFF))) ^ 1))
sceKernelDcacheWritebackInvalidateRange (arg1[5], arg1[6]);
sceKernelDcacheWritebackInvalidateRange (arg1[7], arg1[8]);
ret = sceMeVideo_driver_93EED793 (arg2, arg1);
if (((0x4458)[ret<0?0:ret])>=0)sceKernelSetEventFlag (SemaMpegBaseCSC, 1);
k1 = _k1;
return;
}
int sceVideocodecSetMemory (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (checkAlign (arg1, arg2))return;
if (arg2)return;
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x28);
ret = sceMeVideo_driver_994BBA92 (0, 1, arg1);
return ((0x4458)[ret<0?0:ret]);
k1 = _k1;
return;
}
int sceVideocodecScanHeader (int arg1, int arg2){
_k1 = k1;
k1 = k1 >> 16;
if ((((arg1 + 0x60) | arg1) & (0 - k1&0x18)) < 0)return;
if ((((arg1[4] + 0x100) | arg1[4]) & (0 - k1&0x18)) < 0)return;
if (((0 - k1&0x18) & (((arg1[9] + arg1[10]) | arg1[9]) | arg1[10])) < 0)return;
if (arg2>=3)return;
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x100);
if (!((0x3FFFFF < (arg1[9] & 0x1FFFFFFF)))^1)
sceKernelDcacheWritebackInvalidateRange (arg1[9], arg1[10]);
ret = sceMeVideo_driver_994BBA92 (arg2, 2, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecGetVersion (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (!((((arg1 + 0x60) | arg1) & -(k1&0x18)) < 0))return;
if (((arg2 < 3)))return;
ret = sceMeVideo_driver_994BBA92 (arg2, 3, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecGetSEI (int arg1, int arg2){
_k1 = k1;
k1 = k1 >> 16;
if (arg2)return 0x806201FE;
if (ret=checkAlign (arg1, arg2))return ret;
if((((-(k1&0x18) & (((arg1[20] + 0xA4) | arg1[20]) | 0xA4))) >> 0x1F))return 0x80000023;
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x28);
sceKernelDcacheInvalidateRange (arg1[20], 0xC0);
ret = sceMeVideo_driver_994BBA92 (0, 5, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecGetFrameCrop (int arg1, int arg2){
_k1 = k1;
k1 = k1 >> 16;
if (arg2)return 0x806201FE;
if (ret=checkAlign (arg1, arg2))return ret;
if((((-(k1&0x18) & (((arg1[21] + 16) | arg1[21]) | 16))) >> 0x1F))return 0x80000023;
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x28);
sceKernelDcacheInvalidateRange (arg1[21], 0x40);
ret = sceMeVideo_driver_994BBA92 (0, 0x6, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodec_893B32B1 (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (arg2)return 0x806201FE;
if (ret=checkAlign (arg1, arg2))return var6;
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x28);
ret = sceMeVideo_driver_994BBA92 (0, 7, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecDecode (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (ret=checkStruct (arg1, arg2))return ret;
invalidateDecStruct (arg1, arg2);
invalidateDecStruct2(arg1, arg2);
ret = sceMeVideo_driver_2C38DB84 (arg2, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecStop (int arg1, int arg2){
_k1 = k1;k1 >>= 16;
if ((((arg1 + 0x60) | arg1) & (0 - var2)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & arg1[3]) < 0)return 0x80000023;
if (arg2 < 3)return 0x806201FE;
if (((((arg1[4] + arg2?0x100:0x28) | arg1[4]) & (0 - k1 & 0x18)) < 0))return 0x80000023;
if (!arg2)return 0;
if (((0 - k1 & 0x18) & (((arg1[11] + (arg1[15] * 0x2C)) | arg1[11]) | (arg1[15] * 0x2C))) < 0)return 0x80000023;
if ((((arg1[12] + 0x64) | arg1[12]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if (arg1[14]&&(((0 - k1 & 0x18) & (((arg1[14] + (arg1[15]*0x148)) | arg1[14]) | (arg1[15]*0x148))) < 0))return 0x80000023;
if(!arg2)sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x28);
if ((((0x3FFFFF >= (arg1[5] & 0x1FFFFFFF))) ^ 1))
sceKernelDcacheWritebackInvalidateRange (arg1[5], arg1[6]);
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x100);
invalidateDecStruct2 (arg1, arg2);
ret = sceMeVideo_driver_6401013A (arg2, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int sceVideocodecDelete (int arg1, int arg2){
_k1 = k1;k1 = k1 >> 16;
if (checkAlign (arg1, arg2) < 0)return;
sceKernelDcacheWritebackInvalidateRange (arg1[4], (arg2 ? 0x100 : 0x28));
sceKernelPollEventFlag (SemaMpegBaseCSC, 1, 0x21, 0);
ret = sceMeVideo_driver_2DAAC3A9 (arg2, arg1);
k1 = _k1;
return ((0x4458)[ret<0?0:ret]);
}
int checkAlign (int arg1, int arg2){
if (((((arg1 + 0x60) | arg1) & -k1&0x18) < 0))return 0x80000023;
var3 = arg2?0x100:0x28;
if (arg2>=3)return 0x806201FE;
return (((!((0 - k1&0x18) & (((arg1[4] + var3) | arg1[4]) | var3))) >> 0x1F)) ? 0 : 0x80000023;
}
int checkArgMem (int arg1, int arg2){
_k1 = k1 & 0x18;
if ((((arg1 + 0x60) | arg1) & (0 - arg2)) < 0)return 0x80000023;
if (((0 - k1&0x18) & (((arg1[5] + arg1[6]) | arg1[5]) | arg1[6])) < 0)return 0x80000023;
if (((0 - k1&0x18) & (((arg1[7] + arg1[8]) | arg1[7]) | arg1[8])) < 0)return 0x80000023;
if((arg2 >= 3))return 0x806201FE;
var10 = arg2?0x100:0x28;
return (((((0 - k1&0x18) & (((arg1[4] + var10) | arg1[4]) | var10))) >> 0x1F)) ? 0x80000023 : 0;
}
int checkStruct (int arg1, int arg2){//return 0; >:D
var1 = arg1;
_k1 = k1 & 0x18;
if ((((arg1 + 0x60) | var1) & (0 - var2)) < 0)
{
label36:
var15 = 0x80000023;
}
else
{
var3 = var1[3];
_k1 = k1 & 0x18;
if (((0 - var4) & var3) < 0)
{
goto label36;
}
else
{
var5 = var1[5];
var6 = var1[6];
var7 = k1 & 0x18;
if (((0 - var7) & (((var5 + var6) | var5) | var6)) < 0)
{
goto label36;
}
else
{
var8 = var1[7];
var9 = var1[8];
var10 = k1 & 0x18;
if (((0 - var10) & (((var8 + var9) | var8) | var9)) < 0)
{
goto label36;
}
else
{
var11 = var1[9];
var12 = var1[10];
var13 = k1 & 0x18;
if (((0 - var13) & (((var11 + var12) | var11) | var12)) < 0)
{
goto label36;
}
else
{
var14 = 0x28;
if (arg2 == 0)
{
label15:
var16 = var1[4];
var17 = k1 & 0x18;
var15 = 0x80000023;
if (!((((var16 + var14) | var16) & (0 - var17)) < 0))
{
var15 = 0;
if (!(arg2 != 0))
{
var18 = var1[15];
var19 = var1[11];
var20 = (var18 * 0x2C);
var21 = k1 & 0x18;
if (((0 - var21) & (((var19 + var20) | var19) | var20)) < 0)
{
goto label36;
}
else
{
var22 = var1[12];
var23 = k1 & 0x18;
if ((((var22 + 0x64) | var22) & (0 - var23)) >= 0)
{
var24 = var1[14];
if (var24 == 0)
{
var27 = var1[13];
label25:
if (var27 < 0)
{
var30 = var1[20];
if (var30 == 0)
{
label31:
var15 = 0;
if (!((var27 & 0x40000000) == 0))
{
var28 = var1[21];
if (!(var28 == 0))
{
var29 = k1 & 0x18;
var15 = 0x80000023;
if (!((((var28 + 16) | var28) & (0 - var29)) < 0))
{
var15 = 0;
}
}
}
}
else
{
var31 = k1 & 0x18;
var15 = 0x80000023;
if ((((var30 + 0xA4) | var30) & (0 - var31)) >= 0)
{
label30:
goto label31;
}
else
{
}
}
}
else
goto label30;
}
else
{
var25 = (var18 * 0x148);
var26 = k1 & 0x18;
var15 = 0x80000023;
if (!(((0 - var26) & (((var24 + var25) | var24) | var25)) < 0))
{
var27 = var1[13];
goto label25;
}
}
}
else
{
goto label36;
}
}
}
}
}
else
{
var15 = 0x806201FE;
if (!(((arg2 < 3)) == 0))
{
var14 = 0x100;
goto label15;
}
}
}
}
}
}
}
return var15;
}
void invalidateDecStruct (int arg1, int arg2){
sceKernelDcacheWritebackInvalidateRange (arg1[4], 0x100);
if (arg2){
sceKernelDcacheWritebackInvalidateRange (arg1[5], arg1[6]);
sceKernelDcacheWritebackInvalidateRange (arg1[7], arg1[8]);
}
sceKernelDcacheWritebackInvalidateRange (arg1[9], arg1[10]);
}
void invalidateDecStruct2 (int arg1, int arg2){
if (arg2)return;
sceKernelDcacheInvalidateRange (arg1[11], ((((arg1[15] * 0x2C) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)));
sceKernelDcacheInvalidateRange (arg1[12], 0x40);
if (arg1[14])
sceKernelDcacheInvalidateRange (arg1[14], ((((arg1[15] * 0x148) + 0x3F) & 0xFFFFFFC0) | (0 & 0x3F)));
if (arg1[13] < 0)
if (arg1[20])sceKernelDcacheInvalidateRange (arg1[20], 0xC0);
if (arg1[13] & 0x40000000 && arg1[21])
sceKernelDcacheInvalidateRange (arg1[21], 0x40);
}
int sceMpegBaseYCrCbCopy (int arg1, int arg2, int arg3){
_k1 = k1;k1 = k1 >> 16;
if ((((arg2 + 0x30) | arg2) & (0 - k1&0x18)) < 0)return 0x80000023;
if ((((arg1 + 0x30) | arg1) & (0 - k1&0x18)) < 0)return 0x80000023;
var20 = (((arg2[1]+16)*64)*arg2[0]);
var22 = (((arg2[1]+ 0)*64)*arg2[0]);
if (0xBFF4 < var20)return 0x80000104;
if (sceKernelWaitSema (SemaMpegBaseLLI, 1, 0) < 0)return
var28 = 0x45C0;
__asm__ ("cache 0x18, 0($s7);" : : "=r"(0x45C0));
if(arg3&1){
var61 = sub_02018 (0x45C0, arg1[4], arg2[4], var20);
var66 = sub_02018 (var61, arg1[5], arg2[5], var22);
var71 = sub_02018 (var66, arg1[8], arg2[8], var20*2);
var28 = sub_02018 (var71, arg1[9], arg2[9], var22*2);
}
if(arg3&2){
var40 = sub_02018 (var28, arg1[6 ], arg2[6 ], var20);
var45 = sub_02018 (var40, arg1[7 ], arg2[7 ], var22);
var50 = sub_02018 (var45, arg1[10], arg2[10], var20*2);
var28 = sub_02018 (var50, arg1[11], arg2[11], var22*2);
}
if (var28 != 0x45C0)
ret = copyVme (var28);
sceKernelSignalSema (SemaMpegBaseLLI, 1);
k1 = _k1;
return ret;
}
int sceMpegBaseYCrCbCopyVme (int arg1, int arg2, int arg3){
_k1 = k1;
k1 = k1 >> 16;
if ((((arg2 + 0x28) | arg2) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg1 + 0x28) | arg1) & (0 - k1 & 0x18)) < 0)return 0x80000023;
var18 = (((((arg2[1] & 0x7F) ^ 0x50)) ? (arg2[1] + 0x20) : (arg2[1] + 0x30)) * arg2[0]);
if (!(((0xBFF4 < var18 >> 5))))return 0x80000104;
if((ret= sceKernelWaitSema (SemaMpegBaseLLI, 1, 0))<0)return ret;
var26 = 0x45C0;
__asm__ ("cache 0x18, 0($s7);" : : "=r"(0x45C0));
if (arg3 & 1){
var53 = sub_02018 (var26, arg1[4], arg2[4], var18 >> 5);
var58 = sub_02018 (var53, arg1[6], arg2[6], var18 >> 7);
var26 = sub_02018 (var58, arg1[7], arg2[7], var18 >> 7);
}
if (arg3 & 2){
var38 = sub_02018 (var26, arg1[5], arg1[5], var18 >> 5);
var43 = sub_02018 (var38, arg1[8], arg1[8], var18 >> 7);
var26 = sub_02018 (var43, arg1[9], arg1[9], var18 >> 7);
}
if (var26 != 0x45C0)
ret=copyVme (var26);
sceKernelSignalSema (SemaMpegBaseLLI, 1);
k1 = _k1;
return;
}
int sub_02018 (int arg1, int arg2, int arg3, int arg4){
while (arg4){
i = MIN(arg4,0xFFF);
arg4-= i;
arg1[0] = ((((k1&0x18) ? 0x40000000 : 0) & 0xE0000000) | (arg3+=i*16 & 0x1FFFFFFF));
arg1[1] = ((((k1&0x18) ? 0x40000000 : 0) & 0xE0000000) | (arg2+=i*16 & 0x1FFFFFFF));
arg1[2] = (arg1+=16 & 0x1FFFFFFF);
arg1[3] = (i | 0x1909000);
}
return arg1;
}
int copyVme (int arg1){
arg1[0] = 0;
arg1[-1]|= 0x80000000;
sceKernelDcacheWritebackInvalidateRange (0x45C0, (arg1 - 0x45C0));
while(1){
if ((ret=sceDmacplus_driver_24B3E74C (0x45C0))&&(ret!=0x80000021))return ret;
if(!sceDmacplus_driver_1D65E667 (0,0))break;
}
return ret;
}
int sceMpegbase_driver_BEA18F91 (int arg1){
_k1 = k1;
k1 = k1 >> 16;
_k1 = k1 & 0x18;
if (((0 - var3) & arg1) < 0)return;
if ((ret=sceKernelWaitSema (SemaMpegBaseLLI, 1, 0)) < 0)return ret;
var10 = 0x45C0;
__asm__ ("cache 0x18, 0($s2);" : : "=r"(0x45C0));
var1 = arg1;
while (1) {
var10[0] = ((((k1 & 0x18) ? 0x40000000 : 0) & 0xE0000000) | (var1[0] & 0x1FFFFFFF));
var10[1] = ((((k1 & 0x18) ? 0x40000000 : 0) & 0xE0000000) | (var1[1] & 0x1FFFFFFF));
if (!(var1[3] & 0xFFF))return 0;
var1 += 16;
if (var1[2]){
var10[2] = ((var10+16) & 0x1FFFFFFF);
var10[3] = (var17 | 0xA909000);
var10 = (var10+16);
if ((var10+16) == 0x4C00)return 0;
}else{
var10[3] = ((var1[3] & 0xFFF) | 0x8A909000);
var10[2] = 0;
sceKernelDcacheWritebackRange (0x45C0, (var10 + (16 - 0x45C0)));
while (1) {
if ((ret = sceDmacplus_driver_8AA7F020 (0x45C0))&&(ret == 0x80000021))return ret;
if(!sceDmacplus_driver_915A917C (0, 0))break;
}
break;
}
}
sceKernelSignalSema (SemaMpegBaseLLI, 1);
k1 = _k1;
return 0;
}
int sceJpegInitMJpeg (){
_k1 = k1;
k1 = k1 >> 16;
if ((ret=sceKernelWaitSema (SemaJpeg, 1, 0)) < 0){k1 = _k1;return ret;}
CodecVersion = 0x5100601;
if ((ret=sceMeVideo_driver_93EED793 (3, &CodecVersion)) < 0)
ret = (((((var9 < 0xFFFFFFF7)) ^ 1) & (var9 >> 0x1F))) ? 0x80650042 : ret;
else{
JpegFlag = 1;
sceKernelSetEventFlag (SemaMpegBaseCSC, 2);
}
sceKernelSignalSema (SemaJpeg, 1);
k1 = _k1;
return ret;
}
int sceJpegCreateMJpeg (int arg1, int arg2){
if (arg1 >= 0x401)return 0x80650020;
_k1 = k1;
k1 = k1 >> 16;
if ((ret = sceKernelWaitSema (SemaJpeg, 1, 0)) < 0){k1 = _k1;return ret;}
if (JpegFlag != 1){sceKernelSignalSema (SemaJpeg, 1);k1 = _k1;return 0x80650039;}
if ((ret=sceMpegbase_driver_AC9E717E (arg1, 0x44D4)) < 0){ sceKernelSignalSema (SemaJpeg, 1);k1 = _k1;return ret;}
JpegFlag = 2;
*((int *) 0x4544) = arg1;
*((int *) 0x4548) = arg2;
sceKernelSignalSema (SemaJpeg, 1);
k1 = _k1;
return ret;
}
int sceJpegDeleteMJpeg (){
_k1 = k1;
k1 = k1 >> 16;
if (sceKernelWaitSema (SemaJpeg, 1, 0) < 0){k1 = _k1;return;}
if (JpegFlag != 2){sceKernelSignalSema (SemaJpeg, 1);k1 = _k1;return;}
JpegFlag = 1;
sceKernelSignalSema (SemaJpeg, 1);
k1 = _k1;
return;
}
int sceJpegFinishMJpeg (){
_k1 = k1;
k1 = k1 >> 16;
if ((ret = sceKernelWaitSema (SemaJpeg, 1, 0)) < 0){k1 = _k1;return;}
if (JpegFlag != 1){sceKernelSignalSema (SemaJpeg, 1);k1 = _k1;return;}
var11 = sceKernelPollEventFlag (SemaMpegBaseCSC, 2, 0x21, 0);
CodecVersion = 0x5100601;
if ((ret = sceMeVideo_driver_2DAAC3A9 (3, &CodecVersion)) < 0)
ret = (((((ret < 0xFFFFFFF7)) ^ 1) & (ret >> 0x1F))) ? 0x80650043 : ret;
else
JpegFlag = 0;
sceKernelSignalSema (SemaJpeg, 1);
k1 = _k1;
return ret;
}
int sceJpegMJpegCsc (int arg1, int arg2, int height, int width){//max:1024x720
if ((((((width < 0x401)) ^ 1) | (((((height>>16)&0xFFF) < 0x2D1)) ^ 1))))return 0x80650020;
if (((((height&0xFFF) < 0x1E1))return 0x80650020;
var8 = (((height>>16) & 0x70) ^ 0x70) ? (height>>16)&0xFFF : ((height>>16)&0xFFF)+ 16;
var9 = (var8 * (height&0xFFF));
var10 = var9 + (var9 >> 0x1F);
_k1 = k1;
k1 = k1 >> 16;
var13 = k1 & 0x18;
if (((0 - var13) & arg2) < 0)return
if (((0 - k1 & 0x18) & arg1) < 0)return 0x80000023;
var15 = (var10*2 + ((var10 >> 0x1F) >> 0x1E)) >> 2;
sp[0] = ((height&0xFFF) >> 4);
sp[1] = (var8 >> 4);
sp[2] = 0;
sp[3] = 1;
sp[4] = arg2;
sp[5] = arg2 + 2*var10;
sp[6] = arg2 + 4*var10;
sp[8] = arg2 + 4*var10 + 1*var15;
sp[7] = arg2 + 4*var10 + 2*var15;
sp[9] = arg2 + 4*var10 + 3*var15;
sceKernelDcacheInvalidateRange (arg1, width*(height&0xFFF)*2);
ret = sceMpegBaseCscVme (arg1, (arg1+(width*(height&0xFFF)*2), width, sp);
k1 = _k1;
return ret;
}
int sceJpegDecodeMJpeg (int arg1, int arg2, int arg3, int arg4){
_k1 = k1;
k1 >>= 16;
if ((-(k1&0x18) & (((arg1 + arg2) | arg1) | arg2))<0){k1 = _k1;return 0x80000023;}
sceKernelDcacheWritebackRange (arg1, arg2);
if (((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))
sceKernelDcacheInvalidateRange (0x40, 0x100000);
dec = sceMeCore_driver_F702E73A (0x144, arg1, arg2, 0x40, 0x100000, ((arg4) ? 2 : 1));
k1 = _k1;
if (dec < 0)return dec;
if (((*((int *) 0x4548) < (dec & 0xFFFF))))return 0x80000023;
if ((((*((int *) 0x4544) < (dec >> 16)))))return 0x80000023;
return sceJpegMJpegCsc (arg3, 0x40, dec, var17);
}
int sceJpegDecodeMJpegYCbCrSuccessively (int arg1, int arg2, int arg3, int arg4, int arg5){
_k1 = k1;
k1 = k1 >> 16;
if ((ret=sceMeCore_driver_F702E73A (0x141, arg2, arg3, arg4, arg5, arg6, arg7))<0)return ret;
if (!(p=sceMeMemory_driver_3D0D8BAF (ret)))return 0x80650041;
p64 = ((p + 0x7F) & ~0x7F);
if ((ret=sceMeCore_driver_F702E73A (0x140, p64, arg1, arg2, 1, ((arg5) ? 2 : 1)))<0)return ret;
if (arg4 >= ret)return 0x80650041;
if ((ret=sceMeCore_driver_F702E73A (0x143, p64, arg3, 0, 0, 0, 0))<0)return ret;
while ((ret=sceMeCore_driver_278F2C25 (0x142, p64))>0);
if (!ret)ret=sceMeCore_driver_F702E73A (0x147, p64);
sceMeMemory_driver_F9318AF4 (p);
k1 = _k1;
return 0;
}
int sceJpegDecodeMJpegSuccessively (int arg1, int arg2, int arg3, int arg4){
if (dec = sceJpegDecodeMJpegYCbCrSuccessively (arg1, arg2, 0x40, 0x100000, arg4)<0)return ret;
if ((((*((int *) 0x4548) < (dec & 0xFFFF)))))return 0x80650020;
if (((*((int *) 0x4544) < (dec >> 16))))return 0x80650020;
if(res=sceJpegMJpegCsc (arg3, 0x40, dec, *((int *) 0x4544))<0)return res
return dec;
}
int sceJpegGetOutputInfo (int arg1, int arg2, int arg3, int arg4){
_k1 = k1;
k1 = k1 >> 16;
if (((0 - k1 & 0x18) & (((arg1 + arg2) | arg1) | arg2)) < 0)return;
if ((arg3)&&(((0 - (k1 & 0x18)) & arg3) < 0))return;
if ((len = sceMeCore_driver_F702E73A (0x141, 0 - k1 & 0x18, ((arg1 + arg2) | arg1) | arg2, k1 & 0x18, var10, var9, var8)) < 0)return;
if (!(p = sceMeMemory_driver_3D0D8BAF (len)))return;
sceKernelDcacheWritebackRange (arg1, arg2);
var22 = sceMeCore_driver_F702E73A (0x140, var17, arg1, arg2, 1, (!(arg4) ? 0 : 2));
if (var22>=0&&arg3)
info = sceMeCore_driver_F702E73A (0x146, var17);
*arg3 = (((((info >> 4) & 0xF) << 16) | ((1 << (((info >> 2) & 3)-1)) << 8)) | (1 << ((info & 3)-1)));
if (info&3){
if ((info & 0xC) == 0) *arg3 = 0;
else if (!(info & 0xF0))*arg3 = 0;
}else *arg3 = 0;
return sceMeMemory_driver_F9318AF4 (var17);
k1 = _k1;
}
int sceJpegDecompressAllImage (int arg1, int arg2, int arg3, int arg4){
return decodeMjpeg (arg1, arg2, arg3, arg4, 0);
}
int sceJpegCsc (){
return;
}
int sceJpegDecodeMJpegYCbCr (int arg1, int arg2, int arg3, int arg4, int arg5){
return decodeMjpeg (arg1, arg2, arg3, arg4, ((arg5) ? 2 : 1));
}
int sceJpeg_9B36444C (){
return;
}
int decodeMjpeg (int arg1, int arg2, int arg3, int arg4, int arg5){
_k1 = k1;
k1 >>= 16;
if ((-(k1&0x18) & (((arg1 + arg2) | arg1) | arg2)) < 0)return;
if (((-(k1&0x18) & (((arg3 + arg4) | arg3) | arg4)) < 0))return;
sceKernelDcacheWritebackRange (arg1, arg2);
if (((0x220202 >> ((arg1 >> 27) & 0x1F)) & 1))
sceKernelDcacheInvalidateRange (arg3, arg4);
ret = sceMeCore_driver_F702E73A (0x144, arg1, arg2, arg3, arg4, arg5);
k1 = _k1;
return ret;
}
int sceMpegBaseCscAvc (int arg1, int arg2, int arg3, int arg4){
var5 = k1;
k1 = k1 >> 16;
res = (arg4[0] * arg4[1]) << 8;
a = res>>3;
b = res>>2;
if (!arg3)arg3 = *((int *) 0x4C28);
if ((((arg4 + 0x30) | arg4) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[ 4] + b) | arg4[ 4]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[ 5] + b) | arg4[ 5]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[ 6] + b) | arg4[ 6]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[ 7] + b) | arg4[ 7]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[ 8] + a) | arg4[ 8]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((var4[ 9] + a) | var4[ 9]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[10] + a) | arg4[10]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[11] + a) | arg4[11]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
var11 = (arg3 * arg4[1]) << 2;
if (((0 - k1 & 0x18) & (((arg1 + var11) | arg1) | var11)) < 0)return 0x80000023;
if (arg2&&(((0 - k1 & 0x18) & (((arg2 + var11) | arg2) | var11)) < 0))return 0x80000023;
if (arg3&&(ret = checkCscWidth (*((int *) 0x4C2C), arg3, 0x4C10)))return ret;
ret = sceKernelPollEventFlag (SemaMpegBaseCSC, 0x80000000, 0x21, sp);
if (!(((((ret ^ 0x800201AF) < 1)) | ((!ret) >> 0x1F))))return ret;
if (!((sp[0] & 3)))return 0x80000001;
while (1) {
if ((ret=sceDmacplus_driver_6BB9BD45 (arg1, arg2, arg4))&&(ret!=0x80000021))return ret;
if (!sceDmacplus_driver_0A40EF79 (0, 0))break;
}
return 0;
}
int sceMpegBaseCscVme (int arg1, int arg2, int arg3, int arg4){
var5 = k1;
k1 = k1 >> 16;
var6 = k1 & 0x18;
if ((((arg4 + 0x28) | arg4) & (0 - var6)) < 0)return 0x80000023;
var10 = (arg4[0] * arg4[1]) << 7;
var11 = var10 >> 2;
if (!arg3)arg3 = *((int *) 0x4C28);
if (!(((arg3 < (arg4[1] << 4)))))return 0x800001FE;
var13 = arg4[4];
var14 = (arg3 * arg4[1]) << 2;
if (((0 - k1 & 0x18) & (((var13 + var10) | var13) | var10)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((var16 + var10) | var16) | var10)) < 0)return 0x80000023;
if ((((arg4[6] + var11) | arg4[6]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[7] + var11) | arg4[7]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[8] + var11) | arg4[8]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg4[9] + var11) | arg4[9]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg1 + var14) | arg1) | var14)) < 0)return 0x80000023;
if ((!arg2)&&(((0 - k1 & 0x18) & (((arg2 + var14) | arg2) | var14)) < 0))return 0x80000023;
if (arg3&&(ret=checkCscWidth (*((int *) 0x4C2C), arg3, 0x4C10)))return ret;
ret = sceKernelPollEventFlag (SemaMpegBaseCSC, 0x80000000, 0x21, sp);
if (!(((((ret ^ 0x800201AF) < 1)) | ((!ret) >> 0x1F))))return ret;
if (!(sp[0] & 3))return 0x80000001;
while (1) {
if ((ret=sceDmacplus_driver_86EAC84A (arg1, arg2, arg4))&&ret!=0x80000021)return ret;
if (!sceDmacplus_driver_0A40EF79 (0, 0))break
}
return 0;
}
int sceMpegBaseCscAvcRange (int arg1, int arg2, int arg3, int arg4, int arg5){
var6 = k1;
k1 = k1 >> 16;
if ((((arg5 + 0x30) | arg5) & (0 - k1 & 0x18)) < 0)return 0x80000023;
res = (arg5[0] * arg5[1]) << 6;
a = res >> 1;
if (!arg4)
arg4 = *((int *) 0x4C28);
if ((arg4 < (arg3[2] << 4)))return 0x800001FE;
if (((0 - k1 & 0x18) & (((arg5[4] + res) | arg5[4]) | res)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg5[6] + res) | arg5[6]) | res)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg5[5] + res) | arg5[5]) | res)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg5[7] + res) | arg5[7]) | res)) < 0)return 0x80000023;
if ((((arg5[ 8] + a) | arg5[ 8]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg5[ 9] + a) | arg5[ 9]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg5[10] + a) | arg5[10]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if ((((arg5[11] + a) | arg5[11]) & (0 - k1 & 0x18)) < 0)return 0x80000023;
if (((0 - k1 & 0x18) & (((arg1 + ((arg4 * arg5[1]) << 2)) | arg1) | ((arg4 * arg5[1]) << 2))) < 0)return 0x80000023;
if (arg2&&(((0 - k1 & 0x18) & (((arg2 + var16) | arg2) | var16)) < 0))return;
if (((arg5[1] < (arg3[0] + arg3[2]))))return 0x800001FE;
if (((arg5[0] < (arg3[1] + arg3[3]))))return;
if (arg4){
if ((ret=checkCscWidth (*((int *) 0x4C2C), arg4, 0x4C10)))return ret;
arg5[0] = arg5[0];
}
if (arg5[0]!=arg3[3])return sub_03C14 (arg1, arg2, arg3, arg5);
if (arg5[1]!=arg3[2]){
sp[16] = arg1;
sp[17] = arg2;
if ((ret=mpegBaseCscAvcRange (sp+0x40, sp+0x44, arg3, arg5, sp+0x30, sp+0x48)))return ret;
sp[2] = arg5[2];
sp[3] = arg5[3];
sp[0] = arg3[3];
sp[1] = (arg3[2] - sp[18]);
sub_03900 (sp, arg5, sp+0x30, 0);
}
return mpegBaseCscAvc (arg1, arg2, arg5);
}
int checkCscWidth (int arg1, int arg2, int arg3){
while (1) {
if ((ret = sceDmacplus_driver_960D7B8A (arg1, arg2, arg3)) != 0x80000021)break;
sceDmacplus_driver_0A40EF79 (0, 0);
}
return ret;
}
int sceMpegbase_driver_0530BE4E (int arg1){
return checkCscWidth ((*((int *) 0x4C2C) = arg1), *((int *) 0x4C28), 0x4C10);
}
int sceMpegbase_driver_AC9E717E (int arg1, int arg2){
_k1 = k1;
k1 = k1 >> 16;
var5 = ((arg2 + 0x16) | arg2) & (0 - k1 & 0x18);
if (var5<0)return 0x80000023;
var9 = 0x4C10;
*((int *) 0x4C2C) = 0;
var10 = arg2;
var11 = arg2 + 16;
*((int *) 0x4C28) = arg1;
if ((arg2 | 0x4C10) & 3){
var8 = 0;
var6 = 0x80000000;
var12 = var11;
while (1) {
var13 = LWL (var10, var8, 3);
var8 = LWR (var10, var13, 0);
var14 = LWL (var10, var5, 0x7);
var5 = LWR (var10, var14, 4);
var15 = LWL (var10, var6, 0xB);
var6 = LWR (var10, var15, 0x8);
var16 = LWL (var10, var11, 0xF);
var11 = LWR (var10, var16, 0xC);
SWL (var9, var8, 3);
SWR (var9, var8, 0);
SWL (var9, var5, 0x7);
SWR (var9, var5, 4);
SWL (var9, var6, 0xB);
SWR (var9, var6, 0x8);
SWL (var9, var11, 0xF);
SWR (var9, var11, 0xC);
var10 += 16;
var9 += 16;
if (var10 != var12)
continue;
break;
}
var17 = LWL (var10, var12, 3);
var18 = LWR (var10, var17, 0);
SWL (var9, var18, 3);
SWR (var9, var18, 0);
((char *) var9)[4] = ((char *) var10)[4];
((char *) var9)[5] = ((char *) var10)[5];
}else{
do{
var9[0] = var10[0];
var9[1] = var10[1];//uncached
var9[2] = var10[2];//uncached
var9[3] = var10[3];//uncached
var10+=16;
var9 +=16;
}while(var10 != var11);
var9[0] = var10[0];
((short *) var9)[2] = ((short *) var10)[2];
}
return checkCscWidth (0, arg1, arg2);
k1 = _k1;
ra = sp[1];
}
int sceMpegBaseCscInit (int arg1){
_k1 = k1;
k1 = k1 >> 16;
ret = sceMpegbase_driver_AC9E717E (arg1, 0x44EC);
k1 = _k1;
return ret;
}
void sub_03900 (int arg1, int arg2, int arg3, int arg4){
if ((arg4&2)){
var10 = arg2[7] + arg3[1];
var11 = arg2[5] + arg3[1];
var12 = arg2[9] + arg3[3];
var13 = arg2[11] + arg3[3];
}else{
var10 = arg2[6] + arg3[0];
var11 = arg2[4] + arg3[0];
var13 = arg2[10] + arg3[2];
var12 = arg2[8] + arg3[2];
}
arg1[4] = var11;
arg1[6] = var10;
arg1[8] = var12;
arg1[10] = var13;
if (!arg4){
var10 = arg2[7] + arg3[1];
var13 = arg2[11] + arg3[3];
var11 = arg2[5] + arg3[1];
var12 = arg2[9] + arg3[3];
}
arg1[11] = var13;
arg1[5] = var11;
arg1[7] = var10;
arg1[9] = var12;
}
int mpegBaseCscAvc (int arg1, int arg2, int arg3){
ret = sceKernelPollEventFlag (SemaMpegBaseCSC, 0x80000000, 0x21, sp);
if (!((((ret ^ 0x800201AF) < 1)) | ((!ret) >> 0x1F)))return ret;
if (!(sp[0] & 3))return 0x80000001;
while (1) {
if ((ret=sceDmacplus_driver_6BB9BD45 (arg1, arg2, arg3))&&ret!=0x80000021)return ret;
if (!sceDmacplus_driver_0A40EF79 (0, 0))break;
}
return 0;
}
int mpegBaseCscAvcRange (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6){
sp[1] = 0;
if (*arg3 & 1){
var18 = (arg4[0] << 4) >> 1;
arg5[0] = (var18 * ((*arg3+1)>>1)) << 4;
arg5[1] = (var18 * ((*arg3+0)>>1)) << 4;
arg5[2] = (arg5[0] >> 1);
arg5[3] = (arg5[1] >> 1);
sp[0] = arg3[3];
sp[1] = 1;
sp[2] = arg4[2];
sp[3] = arg4[3];
sub_03900 (sp, arg4, arg5, 2);
if ((ret=mpegBaseCscAvc (arg1[0], arg2[0], sp)))return ret;
arg1[0] = (arg1[0] + 0x40);
if (arg2[0])
arg2[0] = (arg2[0] + 0x40);
arg5[1] += var18 << 4;
arg5[3] += ((var18 << 4) >> 1);
}else{
var10 = (((arg4[0] << 4) >> 1) * (*arg3 >> 1)) << 4;
arg5[0] = var10;
arg5[1] = var10;
arg5[2] = var10 >> 1;
arg5[3] = var10 >> 1;
}
*arg6 = sp[1];
return 0;
}
int sub_03C14 (int arg1, int arg2, int arg3, int arg4){
if ((ret=mpegBaseCscAvcRange (sp+0x40, sp+0x44, arg3, arg4, sp+0x30, sp+0x48)))return ret;
var16 = arg3[2] - sp[18];
sp[0] = arg3[3];
sp[2] = arg4[2];
sp[3] = arg4[3];
sp[1] = 2;
for (i=0,var20=arg4[0]<<7,var21=var20>>1;i < var16>>1;i++) {
sub_03900 (sp, arg4, var1, 0);
if ((ret=mpegBaseCscAvc (arg1,arg2, sp)))return ret;
arg1+=0x80;
if (arg2)arg2+=0x80;
sp[12]+=var20;
sp[14]+=var21;
sp[13]+=var20;
sp[15]+=var21;
}
if (var16 & 1){
sp[1] = 1;
sub_03900 (sp, arg4, var1, 0);
return mpegBaseCscAvc (arg1,arg2, sp);
}
return 0;
}
int sceAvcodecStartEntry (){//module_start
SemaMpegBaseLLI = sceKernelCreateSema ("SceMpegBaseLLI", 0, 1, 1, 0);
*((int *) 0x4C28) = 0;
*((int *) 0x4C2C) = 0;
SemaMpegBaseCSC = sceKernelCreateEventFlag ("SceMpegBaseCSC", 0x200, 0, 0);
sceMePower_driver_52E7CD99 (0);
sceMePower_driver_2ECCB138 (0);
JpegFlag = 0;
SemaJpeg = sceKernelCreateSema ("SceJpeg", 0, 1, 1, 0);
return;
}
int sceAvcodecEndEntry (){//module_stop
sceKernelDeleteEventFlag (SemaMpegBaseCSC);
sceKernelDeleteSema (SemaMpegBaseLLI);
sceKernelDeleteSema (SemaJpeg);
}
|
0xb15c077e
|
trunk/RE/PSP/avcodec.c
|
C
|
mit
| 37,061
|
#ifndef __AVCODEC_H
#define __AVCODEC_H
/*
* Exports from library: syslib
*/
void module_start (void);
void module_stop (void);
/*
* Exports from library: sceAvcodec_driver
*/
void sceAvcodecStartEntry (void);
void sceAvcodecEndEntry (void);
/*
* Exports from library: sceVideocodec
*/
void sceVideocodecInit (void);
void sceVideocodecGetFrameCrop (void);
void sceVideocodecGetVersion (void);
void sceVideocodecGetEDRAM (void);
void sceVideocodecScanHeader (void);
void sceVideocodecDelete (void);
void sceVideocodecReleaseEDRAM (void);
void sceVideocodecGetSEI (void);
void sceVideocodecSetMemory (void);
void sceVideocodec_893B32B1 (void);
void sceVideocodecStop (void);
void sceVideocodecOpen (void);
void sceVideocodecDecode (void);
/*
* Exports from library: sceAudiocodec
*/
void sceAudiocodecReleaseEDRAM (void);
void sceAudiocodecGetEDRAM (void);
void sceAudiocodec_3DD7EE1A (void);
void sceAudiocodec_59176A0F (void);
void sceAudiocodecInit (void);
void sceAudiocodecDecode (void);
void sceAudiocodecGetInfo (void);
void sceAudiocodecCheckNeedMem (void);
/*
* Exports from library: sceMpegbase
*/
void sceMpegbase_0530BE4E (void);
void sceMpegBaseCscAvcRange (void);
void sceMpegBaseCscInit (void);
void sceMpegBaseYCrCbCopy (void);
void sceMpegBaseCscAvc (void);
void sceMpegbase_AC9E717E (void);
void sceMpegBaseYCrCbCopyVme (void);
void sceMpegbase_BEA18F91 (void);
void sceMpegBaseCscVme (void);
/*
* Exports from library: sceMpegbase_driver
*/
void sceMpegbase_driver_0530BE4E (void);
void sceMpegBaseCscAvcRange (void);
void sceMpegBaseCscInit (void);
void sceMpegBaseYCrCbCopy (void);
void sceMpegBaseCscAvc (void);
void sceMpegbase_driver_AC9E717E (void);
void sceMpegBaseYCrCbCopyVme (void);
void sceMpegbase_driver_BEA18F91 (void);
void sceMpegBaseCscVme (void);
/*
* Exports from library: sceJpeg
*/
void sceJpegDecompressAllImage (void);
void sceJpegMJpegCsc (void);
void sceJpegDecodeMJpeg (void);
void sceJpegDecodeMJpegYCbCrSuccessively (void);
void sceJpegDeleteMJpeg (void);
void sceJpegDecodeMJpegSuccessively (void);
void sceJpegCsc (void);
void sceJpegFinishMJpeg (void);
void sceJpegGetOutputInfo (void);
void sceJpegDecodeMJpegYCbCr (void);
void sceJpeg_9B36444C (void);
void sceJpegCreateMJpeg (void);
void sceJpegInitMJpeg (void);
#endif /* __AVCODEC_H */
|
0xb15c077e
|
trunk/RE/PSP/avcodec.h
|
C
|
mit
| 2,399
|
/*
*/
#include <pspkernel.h>
#include <string.h>
/*error*/
#define ERROR(mod,errno) ((1<<31)|(mod<<16)|errno)
#define MOD_G729 0x68
#define ERROR_G729 ERROR(MOD_G729,0)//0x80680000
#define ERROR_G729_BADARG ERROR(MOD_G729,1)//0x80680001
#define ERROR_G729_NOTREADY ERROR(MOD_G729,2)//0x80680002
#define ERROR_G729_NOFPL ERROR(MOD_G729,3)//0x80680003
#define ERROR_G729_TOOLARGE ERROR(MOD_G729,5)//0x80680005
/*macro*/
#define VALID_ADDR(addr) ((((addr+0xA0)|addr)&(0-(k1&0x18)))<0)
#define VALID_ADDR_SIZE(addr,size) (((0-(k1&0x18))&(((((int)addr)+(size))|((int)addr))|(size)))<0)
#define ROUNDUP64(n) ((((int)n)+0x3F)&~0x3F)
/*import*/
extern int sceMeCore_driver_278F2C25(int,...);
extern int sceMeCore_driver_F702E73A(int,...);
/*syslib*/
PSP_MODULE_INFO("sceG729", 0x1006, 0, 0);
int module_start(int argc, char *argv[]){return 0;}
/*.data*/
int G729EncodeHandles=0;//0x1160
int G729EncodeFpl=-1;//0x1164
void*G729EncodeFplAddr=NULL;//0x1168
int G729EncodeFplAddr64=0;//0x116C
int G729DecodeHandles=0;//0x1170
int G729DecodeFpl=-1;//0x1174
void*G729DecodeFplAddr=NULL;//0x1178
int G729DecodeFplAddr64=0;//0x117C
/*.text*/
inline int shiftK1(){
int ret;
__asm__ __volatile__ (
"move %0, $27\n"
"srl $27, $27, 16\n"
:"=r"(ret):);
return ret;
}
inline void setK1(int k1){
__asm__ __volatile__ (
"move $27, %0\n"
::"r"(k1));
}
int sceG729EncodeInitResource(int handles){
if(handles>=5)return ERROR_G729_TOOLARGE;
int ret;//,k1=shiftK1();
if(G729EncodeFplAddr)return ERROR_G729_NOFPL;
if((G729EncodeFpl=sceKernelCreateFpl("SceLibG729EncodeResource",2,0,((handles * 0x1840)+0x40),1,0))<0)return ERROR_G729;
if((ret=sceKernelAllocateFpl(G729EncodeFpl,&G729EncodeFplAddr,0))<0){
sceKernelDeleteFpl(G729EncodeFpl);
G729EncodeFpl=-1;
return ret;
}
G729EncodeFplAddr64=ROUNDUP64(G729EncodeFplAddr);
int*addr=(int*)G729EncodeFplAddr64;
for(int i=0;i<handles;i++,addr+=0x1840)
addr[16]=0;
G729EncodeHandles=handles;
//setK1(k1);
return 0;
}
int sceG729EncodeTermResource(){
int ret;//,k1=shiftK1();
if((!G729EncodeFplAddr)||(!G729EncodeHandles)||(G729EncodeFpl==-1))return ERROR_G729_NOTREADY;
int*addr=(int*)G729EncodeFplAddr64;
for(int i=0;i<G729EncodeHandles;i++,addr+=0x1840)
if(addr[16]==1)return ERROR_G729_BADARG;
if((ret=sceKernelFreeFpl(G729EncodeFpl,G729EncodeFplAddr))<0)return ret;
G729EncodeFplAddr64=0;
G729EncodeFplAddr=0;
if((ret=sceKernelDeleteFpl(G729EncodeFpl))<0)return ret;
G729EncodeFpl=-1;
//setK1(k1);
return 0;
}
int sceG729EncodeInit(int profile,int unk){
if((profile<0)||(profile>2)||(unk>1))return ERROR_G729_BADARG;
if((!G729EncodeFplAddr)||(!G729EncodeHandles)||(G729EncodeFpl==-1))return ERROR_G729_NOTREADY;
int intr=sceKernelCpuSuspendIntr();
int handle=0;
for(int*addr=(int*)G729EncodeFplAddr64;handle<G729EncodeHandles;handle++,addr+=0x1840)
if(!addr[16])addr[16]=1;
sceKernelCpuResumeIntr(intr);
if(handle>=G729EncodeHandles)return ERROR_G729;
int*var20=(int*)G729EncodeFplAddr64+(handle * 0x1840);
int*var22=var20+0x40;
if(var20[16]!=1)return ERROR_G729_NOTREADY;
var22[1]=profile;
var22[2]=unk;
var22[3]=profile?profile!=1?16:10:8;//10=8kbit/s 8=6.4kbit/s
int k1=shiftK1(),ret=sceMeCore_driver_278F2C25(352,(var20+0x80),profile,unk);
setK1(k1);
return ret<0?ret:handle;
}
int sceG729EncodeReset(int handle){
if((handle<0)||(handle>=G729EncodeHandles))return ERROR_G729_BADARG;
if((!G729EncodeFplAddr)||(!G729EncodeHandles)||(G729EncodeFpl==-1))return ERROR_G729_NOTREADY;
int*var7=(int*)G729EncodeFplAddr64+(handle * 0x1840);
if(var7[16]!=1)return ERROR_G729_NOTREADY;
int k1=shiftK1(),ret=sceMeCore_driver_278F2C25(352,(var7+0x80),(var7+0x40)[1],(var7+0x40)[2]);
setK1(k1);
return ret;
}
int sceG729EncodeExit(int handle){
if((handle<0)||(handle>=G729EncodeHandles))return ERROR_G729_BADARG;
if((!G729EncodeFplAddr)||(!G729EncodeHandles)||(G729EncodeFpl==-1))return ERROR_G729_NOTREADY;
int k1=shiftK1();
int intr=sceKernelCpuSuspendIntr();
((int*)(G729EncodeFplAddr64+(handle*0x1840)))[16]=0;
sceKernelCpuResumeIntr(intr);
setK1(k1);
return 0;
}
int sceG729EncodeCore(int handle,int src,int dst){
if((handle<0)||(handle>=G729EncodeHandles)||(src<1)||(dst<1)||(src&1))return ERROR_G729_BADARG;
if(!((0x00220202>>((src>>27)&0x1F))&1))return ERROR_G729_BADARG;
if(!((0x00220202>>((dst>>27)&0x1F))&1))return ERROR_G729_BADARG;
if((!G729EncodeFplAddr)||(!G729EncodeHandles)||(G729EncodeFpl==-1))return ERROR_G729_NOTREADY;
int*addr=(int*)G729EncodeFplAddr64+(handle * 0x1840);
int*var17=addr+0x40;
if(addr[16]!=1)return ERROR_G729_BADARG;
// if(VALID_ADDR(src))return 0x80000023;
// if(VALID_ADDR_SIZE(dst,var17[3]))return 0x80000023;
sceKernelDcacheWritebackInvalidateRange((void*)src,0xA0);
sceKernelDcacheInvalidateRange(addr,ROUNDUP64(var17[3]));
sceKernelDcacheInvalidateRange(addr,ROUNDUP64(var17[3]));
int k1=shiftK1(),ret=sceMeCore_driver_F702E73A(0x0161,(addr+0x80),src,(0x40000000 |((int)addr&0x1FFFFFFF)));
memcpy((void*)dst,addr,var17[3]);
setK1(k1);
return ret;
}
int sceG729DecodeInitResource(int handles){
if(handles>=5)return ERROR_G729_TOOLARGE;
// k1=shiftK1()
if(G729DecodeFplAddr)return ERROR_G729_NOFPL;
(G729DecodeFpl=sceKernelCreateFpl("SceLibG729DecodeResource",2,0,((((handles<<2)+handles)<<10)+0x40),1,0));
if((G729DecodeFpl=sceKernelCreateFpl("SceLibG729DecodeResource",2,0,((((handles<<2)+handles)<<10)+0x40),1,0))<0)return ERROR_G729;
int ret;
if((ret=sceKernelAllocateFpl(G729DecodeFpl,&G729DecodeFplAddr,0))<0){
sceKernelDeleteFpl(G729DecodeFpl);
G729DecodeFpl=-1;
return ret;
}
G729DecodeFplAddr64=ROUNDUP64(G729DecodeFplAddr);
for(int i=0,*addr=(int*)G729DecodeFplAddr64;i<handles;i++,addr+=0x1400)
addr[48]=0;
G729DecodeHandles=handles;
// setK1(k1);
return 0;
}
int sceG729DecodeTermResource(){
// k1=shiftK1()
if((!G729DecodeFplAddr)||(!G729DecodeHandles)||(G729DecodeFpl==-1))return ERROR_G729_NOTREADY;
int ret=0;
for(int i=0,*addr=(int*)G729DecodeFplAddr64;i<G729DecodeHandles;i++,addr+=0x1400)
if(addr[48]==1)return ERROR_G729_NOTREADY;
if(sceKernelFreeFpl(G729DecodeFpl,G729DecodeFplAddr)<0)return ret;
G729DecodeFplAddr64=0;
G729DecodeFplAddr=0;
if((ret=sceKernelDeleteFpl(G729DecodeFpl))<0)return ret;
G729DecodeFpl=-1;
// setK1(k1);
return ret;
}
int sceG729DecodeInit(){
if((!G729DecodeFplAddr)||(!G729DecodeHandles)||(G729DecodeFpl==-1))return ERROR_G729_NOTREADY;
int intr=sceKernelCpuSuspendIntr(),handle=0;
for(int*addr=(int*)G729DecodeFplAddr64;handle<G729DecodeHandles;handle++,addr+=0x1400)
if(!addr[48])addr[48]=1;
sceKernelCpuResumeIntr(intr);
if(handle>=G729DecodeHandles)return ERROR_G729_NOTREADY;
int*var16=(int*)G729DecodeFplAddr64+(((handle<<2)+handle)<<10);
if(var16[48]!=1)return ERROR_G729_NOTREADY;
int k1=shiftK1(),ret=sceMeCore_driver_278F2C25(354,(var16+0x0100));
setK1(k1);
return ret;
}
int sceG729DecodeReset(int handle){
if((handle<0)||(handle>=G729DecodeHandles))return ERROR_G729_BADARG;
if((!G729DecodeFplAddr)||(!G729DecodeHandles)||(G729DecodeFpl==-1))return ERROR_G729_NOTREADY;
int*var9=(int*)G729DecodeFplAddr64+(((handle<<2)+handle)<<10);
if(var9[48]!=1)return ERROR_G729_NOTREADY;
int k1=shiftK1(),ret=sceMeCore_driver_278F2C25(354,(var9+0x0100),G729DecodeFplAddr,G729DecodeFpl);
setK1(k1);
return ret;
}
int sceG729DecodeExit(int handle){
if((handle<0)||(handle>=G729DecodeHandles))return ERROR_G729_BADARG;
if((!G729DecodeFplAddr)||(!G729DecodeHandles)||(G729DecodeFpl==-1))return ERROR_G729_NOTREADY;
int k1=shiftK1(),intr=sceKernelCpuSuspendIntr();
((int*)(G729DecodeFplAddr64+(((handle<<2)+handle)<<10)))[48]=0;
sceKernelCpuResumeIntr(intr);
setK1(k1);
return 0;
}
int sceG729DecodeCore(int handle,int len,int unk,int src,int*dst){
if((src<1)||((int)dst<1)||((int)dst&1))return ERROR_G729_BADARG;
if(!((0x00220202>>(((int)src>>27)&0x1F))&1))return ERROR_G729_BADARG;
if(!((0x00220202>>(((int)dst>>27)&0x1F))&1))return ERROR_G729_BADARG;
if((len>0)&&((len^16)>0)){
if((len^0x10)>0&&(len^0x40)>0)return ERROR_G729_BADARG;
if((len^0x50)>0&&(len^0x76)>0)return ERROR_G729_BADARG;
}
if((handle<0)||(handle>=G729DecodeHandles)||(unk>1))return ERROR_G729_BADARG;
if((!G729DecodeFplAddr)||(!G729DecodeHandles)||(G729DecodeFpl==-1))return ERROR_G729_NOTREADY;
int*var18=(int*)G729DecodeFplAddr64+(((handle*4)+handle)<<10);
if(var18[48]!=1)return ERROR_G729_NOTREADY;
// if(VALID_ADDR_SIZE(dst,0xA0))return 0x80000023;
// if(VALID_ADDR_SIZE(src,(len+7)>>3))return 0x80000023;
sceKernelDcacheWritebackInvalidateRange((void*)src,(len+7)>>3);
sceKernelDcacheInvalidateRange(var18,0xC0);
int k1=shiftK1(),ret=sceMeCore_driver_F702E73A(0x0163,(var18+0x0100),len,unk,src,(0x40000000 |((int)var18&0x1FFFFFFF)));
setK1(k1);
int*var35=var18+0xA0;
if((int)((int)var18|(int)dst)&3){//if arg5 or arg5 are not 16 aligned ?
for(int*var33=var18,*var34=dst;var33!=var35;var33+=0x10,var34+=0x10){
/*
a0=LWR(var33,LWL(var33),0);
a1=LWR(var33,LWL(var33),4);
var38=LWL(var33,var35,11);
var35=LWR(var33,var38,8);
var39=LWL(var33,ret,15);
ret=LWR(var33,var39,12);
SWR(var34);
SWL(var34);
SWR(var34);
SWL(var34,var35,11);
SWR(var34,var35,8);
SWL(var34,ret,15);
SWR(var34,ret,12);
*/
}
}else{
for(int*var33=var18,*var34=dst;
var33!=var35;
var34+=0x10,var33+=0x10) {
var34[-0]=var33[0];
var34[-3]=var33[1];//unchached
var34[-2]=var33[2];//unchached
var34[-1]=var33[3];//unchached
}
}
return ret;
}
|
0xb15c077e
|
trunk/RE/PSP/g729.c
|
C
|
mit
| 9,676
|
# Utopia ME Wrapper Module 5.00 clone
# Copyright (c) 2011 by Musa Mitchell <mowglisanu@gmain.com>
#include <machine/regdef.h>
#define Status $12
#define Cause $13
#define Config $16
#define TagLo $28
#define TagHi $29
.global me_boot_code_end
.global me_boot_code
.global decompressAndRunMeImage
.set noreorder
.ent me_boot_code
me_boot_code:
lui v0, 0xBC10
lw v0, 0(v0)
beqz v0, reset_start
nop
cfc0 v0, $9
jr v0
nop
nop
reset_start:
li t1, 0 #;rewritten so t1 is the same as first 2 bits of 0xBC100040 on sc
lui a0, 0x0 #;
ori a0, a0, 0x0 #;rewritten so a0 is address of compressed me image
lui a3, 0xBC10 #;
sw t1, 64(a3) #;*0xBC100040 = [0,1,2,3]
li t1, 7 #;
sw t1, 80(a3) #;*0xBC100050 = 7
li t1, -1 #;
sw t1, 4(a3) #;*0xBC100004 = 0
sync #;
mfc0 k0, Config #;k0 = Config
mtc0 zero, TagLo #;TagLo = 0
mtc0 zero, TagHi #;TagHi = 0
ext t0, k0, 9, 3 #;t0 = k0.bits[9..11]
li t9, 2048 #;t9 = 2048
sllv k1, t9, t0 #;k1 = 2048 << [0..7]
cacheLoop1: #;
addi k1, k1, -64 #;k1 -= 64
bnez k1, cacheLoop1 #;if (k1 != 0) goto 0x881F8460
cache 0x1, 0(k1) #;cache
#;
ext t0, k0, 6, 3 #;t0 = k0.bits[6..8]
sllv k1, t9, t0 #;k0 = 2048 << [0..7]
cacheLoop2: #;
addi k1, k1, -64 #;k1 -= 64
bnez k1, cacheLoop2 #;if (k1 != 0) 0x881F8474
cache 0x11, 0(k1) #;cache
#;
mtc0 zero, Cause #;Cause = 0
lui k0, 0x2000 #;
mtc0 k0, Status #;Status = 0x20000000
lui k0, 0xBCC0 #;
li t1, 1 #;
sw t1, 16(k0) #;*0xBCC00010 = 1
hwLoop: #;
lw t0, 16(k0) #;t0 = *0xBCC00010
andi t0, t0, 0x1 #;t0 = *0xBCC00010 and 1
beq t0, t1, hwLoop #;if ([0,1] == 1) goto 0x881F8498
nop #;
#;
li t1, 1 #;t1 = 1
sw t1, 112(k0) #;*0xBCC00070 = 1
li t1, 8 #;
sw t1, 48(k0) #;*0xBCC00030 = 8
li t1, 2 #;
sw t1, 64(k0) #;*0xBCC00040 = 2
lui ra, %hi(decompressAndRunMeImage)
addiu ra, ra, %lo(decompressAndRunMeImage)
lui sp, 0x8840
jr ra
sync
me_boot_code_end:
.end me_boot_code
|
0xb15c077e
|
trunk/RE/PSP/me_wrapper.boot.S
|
Motorola 68K Assembly
|
mit
| 3,016
|
#ifndef __DMACMAN_H
#define __DMACMAN_H
/*
* Exports from library: syslib
*/
void module_bootstart (void);
void module_start (void);
void module_reboot_before (void);
/*
* Exports from library: DmacManForKernel
*/
void sceKernelDmaExit (void);
void DmacManForKernel_1FC036B7 (void);
void sceKernelDmaChReserve (void);
void DmacManForKernel_32757C57 (void);
void sceKernelDmaOpEnQueue (void);
void sceKernelDmaOpSetupMemcpy (void);
void sceKernelDmaOpAlloc (void);
void sceKernelDmaOpQuit (void);
void sceKernelDmaOpFree (void);
void sceKernelDmaSoftRequest (void);
void sceKernelDmaOpSetupLink (void);
void sceKernelDmaOpAssignMultiple (void);
void sceKernelDmaOpDeQueue (void);
void sceKernelDmaOpAllCancel (void);
void sceKernelDmaOpFreeLink (void);
void sceKernelDmaOpSetupNormal (void);
void sceKernelDmaOpSetCallback (void);
void sceKernelDmaOnDebugMode (void);
void sceKernelDmaChExclude (void);
void sceKernelDmaOpSync (void);
void DmacManForKernel_E18A93A5 (void);
void sceKernelDmaOpAssign (void);
#endif /* __DMACMAN_H */
|
0xb15c077e
|
trunk/RE/PSP/dmacman.h
|
C
|
mit
| 1,076
|
#include <pspsdk.h>
#include "libmp3.h"
/*
* Imports from library: Kernel_Library
*/
extern int sceKernelCpuSuspendIntr (int arg1, int arg2, int arg3, int arg4, int arg5, int arg6, int arg7);
extern void sceKernelCpuResumeIntr (int arg1);
/*
* Imports from library: sceAudiocodec
*/
extern int sceAudiocodecReleaseEDRAM (int arg1);
extern int sceAudiocodecGetEDRAM (int arg1, int arg2);
extern int sceAudiocodec_59176A0F (int arg1, int arg2, int arg3);
extern int sceAudiocodecInit (int arg1, int arg2);
extern int sceAudiocodecDecode (int arg1, int arg2);
extern int sceAudiocodecGetInfo (int arg1, int arg2);
extern int sceAudiocodecCheckNeedMem (int arg1, int arg2);
/*
* Imports from library: SysMemUserForUser
*/
extern int sceKernelGetCompiledSdkVersion ();
/**
* Subroutine at address 0x00000000
*/
int sub_00000 ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var3 = sceAudiocodecCheckNeedMem (0x00001600, 0x00001002);
var4 = var3;
if (!(var3 < 0))
{
var5 = *((int *) 0x00001610);
var6 = ((var5 + 0x0000003F) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F);
*((int *) 0x000015D4) = var6;
*((int *) 0x00001610) = (var6 << 0x00000001);
var9 = sceAudiocodecGetEDRAM (0x00001600, 0x00001002);
var4 = var9;
if (!(var9 < 0))
{
var10 = *((int *) 0x0000160C);
var4 = 0x00000000;
*((int *) 0x000015D0) = var10;
}
}
ra = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var4;
}
/**
* Subroutine at address 0x0000007C
*/
void sub_0007C (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[2] = ra;
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
((int *) sp)[1] = s1;
var2 = var1 + 0x00001680;
var3 = ((int *) var2)[8];
var4 = ((int *) var2)[7];
var5 = ((int *) var2)[6];
var6 = ((int *) (var1 + 0x00001600))[6];
if ((((((var5 + (var4 << 0x00000001)) - var6) + 0x000005C0) < 0x000005A1)) != 0x00000000)
{
sub_0014C (arg1);
var4 = ((int *) var2)[7];
}
var7 = ((int *) var2)[10];
ra = ((int *) sp)[2];
if (!(((var4 < var7)) != 0x00000000))
{
var8 = ((int *) var2)[9];
if (var8 == ((var5 + (var4 * (var3 + 0x00000001))) + 0x000005C0))
{
var11 = ((int *) var2)[8];
var12 = ((int *) var2)[6];
var13 = var11 ^ 0x00000001;
((int *) var2)[8] = var13;
((int *) var2)[9] = ((var12 + (var4 * var13)) + 0x000005C0);
}
ra = ((int *) sp)[2];
}
var9 = ((int *) sp)[1];
var10 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x0000014C
*/
void sub_0014C (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = var1 + 0x00001680;
var3 = ((int *) var2)[7];
var4 = ((int *) var2)[6];
var5 = var1 + 0x00001600;
var6 = ((int *) var5)[6];
var7 = (var4 + (var3 << 0x00000001)) - var6;
var8 = var4 - var7;
var9 = var7 + 0x000005C0;
var10 = var8;
if (((var10 >> 30) & 0x00000001) != 0x00000000)
{
var11 = var10 + var9;
label12:
while (1) {
var10 = var10 + 0x00000001;
var29 = ((unsigned char *) var6)[0];
var6 = var6 + 0x00000001;
((char *) var10)[-1] = var29;
if (var10 != var11)
continue;
break;
}
}
else
{
var11 = var10 + var9;
if (((var9 < 0x00000080)) != 0x00000000)
{
label11:
if (!(var10 == var11))
goto label12;
}
else
{
if (((var10 ^ var6) & 0x00000003) != 0x00000000)
goto label12;
while (1) {
var12 = ((unsigned char *) var6)[0];
if ((((var10 + 0x0000003F) & 0xFFFFFFC0) | (0x00000000 & 0x0000003F)) == var10)
break;
var10 = var10 + 0x00000001;
var6 = var6 + 0x00000001;
((char *) var10)[-1] = var12;
continue;
}
while (1) {
__asm__ ("cache 0x18, 0($v1);"
:
: "=r"(var10));
var13 = ((int *) var6)[0];
((int *) var10)[0] = var13;
var14 = ((int *) var6)[1];
((int *) var10)[1] = var14;
var15 = ((int *) var6)[2];
((int *) var10)[2] = var15;
var16 = ((int *) var6)[3];
((int *) var10)[3] = var16;
var17 = ((int *) var6)[4];
((int *) var10)[4] = var17;
var18 = ((int *) var6)[5];
((int *) var10)[5] = var18;
var19 = ((int *) var6)[6];
((int *) var10)[6] = var19;
var20 = ((int *) var6)[7];
((int *) var10)[7] = var20;
var21 = ((int *) var6)[8];
((int *) var10)[8] = var21;
var22 = ((int *) var6)[9];
((int *) var10)[9] = var22;
var23 = ((int *) var6)[10];
((int *) var10)[10] = var23;
var24 = ((int *) var6)[11];
((int *) var10)[11] = var24;
var25 = ((int *) var6)[12];
((int *) var10)[12] = var25;
var26 = ((int *) var6)[13];
((int *) var10)[13] = var26;
var27 = ((int *) var6)[14];
((int *) var10)[14] = var27;
var10 = var10 + 0x00000040;
var28 = ((int *) var6)[15];
var6 = var6 + 0x00000040;
((int *) var10)[1073741823] = var28;
if (var10 != ((var11 & 0xFFFFFFC0) | (0x00000000 & 0x0000003F)))
continue;
break;
}
goto label11;
}
}
((int *) var5)[6] = var8;
return;
}
/**
* Subroutine at address 0x00000290
*/
int sceMp3TermResource ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = ra;
((int *) sp)[0] = s0;
var1 = 0x00000000;
while (1) {
var4 = sceMp3ReleaseMp3Handle (var1);
var1 = var1 + 0x00000001;
if (var4 < 0)
break;
if (((var1 < 0x00000002)) != 0x00000000)
continue;
var7 = mp3InitRessource (0x00000000);
var4 = MIN (var7, 0x00000000);
goto label10;
}
label10:
ra = ((int *) sp)[1];
var8 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var4;
}
/**
* Subroutine at address 0x000002DC
*/
void sceMp3ReserveMp3Handle (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[1] = s1;
var1 = 0xFFFFFFFF;
((int *) sp)[0] = s0;
var2 = arg1;
((int *) sp)[2] = ra;
if (arg1 == 0x00000000)
{
label28:
label29:
var5 = 0x80671002;
}
else
{
var3 = ((int *) arg1)[4];
if (var3 == 0x00000000)
goto label29;
var4 = ((int *) arg1)[6];
if (!(var4 != 0x00000000))
goto label28;
var8 = ((int *) arg1)[1];
if (var8 < 0)
{
label27:
var5 = 0x80671003;
}
else
{
var9 = ((int *) arg1)[3];
var10 = (var8 < var9);
if (var10 != 0x00000000)
{
var14 = ((int *) var2)[5];
label13:
var15 = (var14 < 0x00002000);
if (var15 != 0x00000000)
goto label27;
var16 = ((int *) var2)[7];
if (((var16 < 0x00002400)) != 0x00000000)
{
var5 = 0x80671003;
}
else
{
var19 = sceKernelCpuSuspendIntr (var13, var10, var12, var11, var15, var14, 0x80671003);
var20 = 0x00001600;
var21 = 0x00000000;
var22 = 0x00001680;
while (1) {
var23 = ((int *) var22)[0];
var22 = var22 + 0x000000C0;
if (var23 == 0x00000000)
{
var1 = var21;
((int *) var20)[32] = 0x00000001;
}
else
{
var21 = var21 + 0x00000001;
var20 = var20 + 0x000000C0;
if (((var21 < 0x00000002)) != 0x00000000)
continue;
break;
}
}
sceKernelCpuResumeIntr (var19);
var5 = 0x80671201;
if (!(var1 < 0))
{
var26 = ((int *) var2)[0];
var27 = ((int *) var2)[2];
var28 = ((var1 << 0x00000001) + var1) << 0x00000006;
var29 = var28 + 0x00001680;
((int *) var29)[1] = 0xFFFFFFFF;
((int *) var29)[3] = var26;
var30 = var28 + 0x00001600;
((int *) var29)[4] = var27;
var5 = var1;
((int *) var29)[5] = var26;
((int *) var29)[2] = 0x00000000;
var31 = ((int *) var2)[4];
var32 = ((int *) var2)[5];
var33 = *((int *) 0x000015C0);
var34 = var31 + 0x000005C0;
var35 = var32 + 0xFFFFFA40;
((int *) var29)[6] = var31;
((int *) var29)[9] = var34;
var36 = ((int *) var2)[6];
((int *) var29)[7] = ((var35 + (var35 >> 0x0000001F)) >> 0x00000001);
((int *) var29)[8] = ((0x00000000 < var33));
((int *) var29)[11] = (var27 - var26);
((int *) var29)[10] = 0x00000000;
((int *) var29)[12] = var36;
var37 = ((int *) var2)[7];
((int *) var30)[6] = var34;
var38 = ((int *) var29)[12];
((int *) var29)[14] = 0x00000000;
((int *) var29)[13] = ((var37 + (var37 >> 0x0000001F)) >> 0x00000001);
((int *) var29)[15] = 0x00000000;
((int *) var30)[8] = var38;
((int *) var30)[10] = 0x000005A1;
((int *) var29)[0] = 0x00000002;
}
}
}
else
{
if (var9 == var8)
{
var11 = ((int *) var2)[2];
var12 = ((int *) var2)[0];
var13 = (var12 < var11);
if (var13 == 0x00000000)
goto label27;
var14 = ((int *) var2)[5];
goto label13;
}
else
{
goto label27;
}
}
}
}
ra = ((int *) sp)[2];
var6 = ((int *) sp)[1];
var7 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000004B8
*/
int sceMp3ReleaseMp3Handle (int arg1)
{
sp = sp + 0xFFFFFFF0;
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = (arg1 < 0x00000002);
((int *) sp)[0] = s0;
var3 = var1 + 0x00001680;
var4 = 0x80671001;
((int *) sp)[1] = ra;
if (!(var2 == 0x00000000))
{
var7 = sceKernelCpuSuspendIntr (arg1, 0x80671001, var2, 0x80670000, var1, 0x00000000, arg7);
var8 = ((int *) var3)[0];
if (!(var8 <= 0))
{
((int *) var3)[0] = 0x00000000;
}
sceKernelCpuResumeIntr (var7);
var4 = 0x00000000;
}
ra = ((int *) sp)[1];
var11 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var4;
}
/**
* Subroutine at address 0x00000524
*/
void sceMp3Init (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = ((arg1 << 0x00000001) + var1) << 0x00000006;
((int *) sp)[2] = s2;
var3 = 0x80671001;
var4 = var2 + 0x00001680;
((int *) sp)[3] = ra;
((int *) sp)[1] = s1;
if (!(((var1 < 0x00000002)) == 0x00000000))
{
var5 = ((int *) var4)[0];
var6 = var2 + 0x00001600;
var3 = 0x80671102;
if (!(((var5 < 0x00000002)) != 0x00000000))
{
var9 = sceAudiocodecInit (var6, 0x00001002);
if (!(var9 < 0))
{
var12 = sceAudiocodecGetInfo (var6, 0x00001002);
var9 = MIN (var12, 0x00000000);
}
var3 = var9;
if (!(var9 < 0))
{
var15 = mp3Init (var1);
var3 = var15;
if (!(var15 < 0))
{
((int *) var4)[0] = 0x00000003;
var3 = 0x00000000;
}
}
}
}
ra = ((int *) sp)[3];
var16 = ((int *) sp)[2];
var17 = ((int *) sp)[1];
var18 = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x000005F0
*/
void sceMp3Decode (int arg1, int arg2)
{
sp = sp + 0xFFFFFFE0;
((int *) sp)[1] = s1;
var1 = arg1;
var2 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
((int *) sp)[2] = s2;
var3 = var2 + 0x00001600;
var4 = 0x80671001;
((int *) sp)[0] = s0;
var5 = var2 + 0x00001680;
((int *) sp)[4] = ra;
((int *) sp)[3] = s3;
if (!(((var1 < 0x00000002)) == 0x00000000))
{
var6 = ((int *) var5)[0];
var4 = 0x80671103;
if (!(((var6 < 0x00000003)) != 0x00000000))
{
if (arg2 == 0x00000000)
{
var8 = ((int *) var5)[2];
}
else
{
var7 = ((int *) var3)[8];
((int *) arg2)[0] = var7;
var8 = ((int *) var5)[2];
}
if (var8 == 0x00000000)
{
var23 = ((int *) var5)[5];
var24 = ((int *) var5)[4];
if (var23 == var24)
{
var58 = ((int *) var5)[11];
if (var58 > 0)
{
label14:
var38 = sceAudiocodecDecode (var3, 0x00001002);
if (var38 < 0)
{
var55 = mp3Decode (var1);
var4 = var38;
if (!(var55 == 0x00000000))
{
sub_0118C (var1);
var4 = 0x80671402;
}
}
else
{
var39 = ((int *) var3)[9];
var4 = 0x80671401;
if (!(var39 == 0x00000000))
{
var40 = ((int *) var3)[7];
var41 = ((int *) var5)[10];
var42 = ((int *) var3)[6];
var43 = ((int *) var5)[11];
((int *) var5)[10] = (var41 - var40);
var44 = ((int *) var3)[7];
var45 = ((int *) var5)[14];
var46 = ((int *) var5)[13];
var47 = var45 ^ 0x00000001;
((int *) var3)[6] = (var42 + var40);
((int *) var5)[11] = (var43 - var44);
var48 = ((int *) var5)[15];
var49 = ((int *) var3)[9];
var50 = ((int *) var5)[12];
((int *) var3)[8] = (var50 + (var46 * var47));
((int *) var5)[15] = (var48 + var49);
((int *) var5)[14] = var47;
sub_0118C (var1);
var4 = ((int *) var3)[9];
}
}
}
else
{
var26 = ((int *) var3)[8];
label28:
var27 = 0x00000000;
var28 = ((int *) var5)[13];
var29 = var26 + var28;
if (((var26 >> 30) & 0x00000001) != 0x00000000)
{
label34:
while (1) {
if (var26 == var29)
break;
var26 = var26 + 0x00000001;
((char *) var26)[-1] = var27;
continue;
}
}
else
{
var30 = (0x00000000 & 0xFFFF00FF) | (0x00000000 & 0x000000FF);
var27 = (var30 & 0x0000FFFF) | (var30 & 0x0000FFFF);
while (1) {
if (var26 == var29)
break;
((char *) var26)[0] = var27;
if ((var26 & 0x0000003F) == 0x00000000)
{
var31 = (var29 & 0xFFFFFFC0) | (0x00000000 & 0x0000003F);
if (!(var26 == var31))
{
while (1) {
__asm__ ("cache 0x18, 0($t8);"
:
: "=r"(var26));
((int *) var26)[0] = var27;
((int *) var26)[1] = var27;
((int *) var26)[2] = var27;
((int *) var26)[3] = var27;
((int *) var26)[4] = var27;
((int *) var26)[5] = var27;
((int *) var26)[6] = var27;
((int *) var26)[7] = var27;
((int *) var26)[8] = var27;
((int *) var26)[9] = var27;
((int *) var26)[10] = var27;
((int *) var26)[11] = var27;
((int *) var26)[12] = var27;
((int *) var26)[13] = var27;
((int *) var26)[14] = var27;
var26 = var26 + 0x00000040;
((int *) var26)[1073741823] = var27;
if (var26 != var31)
continue;
break;
}
}
goto label34;
}
else
{
var26 = var26 + 0x00000001;
continue;
}
}
}
var32 = ((int *) var5)[14];
var33 = ((int *) var5)[13];
var34 = ((int *) var5)[12];
var35 = var32 ^ 0x00000001;
((int *) var5)[14] = var35;
var4 = var33;
((int *) var3)[8] = (var34 + (var33 * var35));
}
}
else
{
var25 = ((int *) var5)[10];
if (((var25 < 0x000005A1)) == 0x00000000)
goto label14;
var26 = ((int *) var3)[8];
goto label28;
}
}
else
{
var9 = ((int *) var3)[8];
var10 = 0x00000000;
var11 = ((int *) var5)[13];
var12 = var9 + var11;
if (((var9 >> 30) & 0x00000001) != 0x00000000)
{
label45:
while (1) {
if (var9 == var12)
break;
var9 = var9 + 0x00000001;
((char *) var9)[-1] = var10;
continue;
}
}
else
{
var13 = (0x00000000 & 0xFFFF00FF) | (0x00000000 & 0x000000FF);
var10 = (var13 & 0x0000FFFF) | (var13 & 0x0000FFFF);
while (1) {
if (var9 == var12)
break;
((char *) var9)[0] = var10;
if ((var9 & 0x0000003F) == 0x00000000)
{
var14 = (var12 & 0xFFFFFFC0) | (0x00000000 & 0x0000003F);
if (!(var9 == var14))
{
while (1) {
__asm__ ("cache 0x18, 0($t1);"
:
: "=r"(var9));
((int *) var9)[0] = var10;
((int *) var9)[1] = var10;
((int *) var9)[2] = var10;
((int *) var9)[3] = var10;
((int *) var9)[4] = var10;
((int *) var9)[5] = var10;
((int *) var9)[6] = var10;
((int *) var9)[7] = var10;
((int *) var9)[8] = var10;
((int *) var9)[9] = var10;
((int *) var9)[10] = var10;
((int *) var9)[11] = var10;
((int *) var9)[12] = var10;
((int *) var9)[13] = var10;
((int *) var9)[14] = var10;
var9 = var9 + 0x00000040;
((int *) var9)[1073741823] = var10;
if (var9 != var14)
continue;
break;
}
}
goto label45;
}
else
{
var9 = var9 + 0x00000001;
continue;
}
}
}
var15 = ((int *) var5)[14];
var16 = ((int *) var5)[13];
var17 = ((int *) var5)[12];
var18 = var15 ^ 0x00000001;
var4 = 0x00000000;
((int *) var5)[14] = var18;
((int *) var3)[8] = (var17 + (var16 * var18));
}
}
}
ra = ((int *) sp)[4];
var19 = ((int *) sp)[3];
var20 = ((int *) sp)[2];
var21 = ((int *) sp)[1];
var22 = ((int *) sp)[0];
sp = sp + 0x00000020;
return;
}
/**
* Subroutine at address 0x00000908
*/
void sceMp3GetInfoToAddStreamData (int arg1, int arg2, int arg3, int arg4)
{
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = ((int *) var1)[8];
var3 = ((int *) var1)[7];
var4 = ((int *) var1)[6];
var5 = (var4 + (var3 * (var2 + 0x00000001))) + 0x000005C0;
var6 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var7 = ((int *) var1)[0];
var6 = 0x80671102;
if (!(((var7 < 0x00000002)) != 0x00000000))
{
var8 = ((int *) var1)[5];
var9 = ((int *) var1)[4];
if (var8 == var9)
{
label6:
if (arg4 != 0x00000000)
{
((int *) arg4)[0] = 0x00000000;
}
if (arg2 != 0x00000000)
{
((int *) arg2)[0] = 0x00000000;
}
if (arg3 != 0x00000000)
{
((int *) arg3)[0] = 0x00000000;
label19:
var6 = 0x00000000;
}
else
{
var6 = 0x00000000;
}
}
else
{
var10 = ((int *) var1)[9];
if (((var10 < var5)) == 0x00000000)
goto label6;
if (arg4 != 0x00000000)
{
((int *) arg4)[0] = var8;
}
if (!(arg2 == 0x00000000))
{
var11 = ((int *) var1)[9];
((int *) arg2)[0] = var11;
}
var6 = 0x00000000;
if (!(arg3 == 0x00000000))
{
var12 = ((int *) var1)[9];
((int *) arg3)[0] = (var5 - var12);
goto label19;
}
}
}
}
return;
}
/**
* Subroutine at address 0x000009DC
*/
void sceMp3NotifyAddStreamData (int arg1, int arg2)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = ((int *) var1)[8];
var3 = ((int *) var1)[7];
var4 = ((int *) var1)[6];
var5 = ((int *) var1)[4];
var6 = ((int *) var1)[9];
var7 = ((int *) var1)[5];
var8 = var5 - var7;
var9 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var10 = ((int *) var1)[0];
var9 = 0x80671102;
if (!(((var10 < 0x00000002)) != 0x00000000))
{
var9 = 0x80671003;
if (!(((arg2 >> 0x0000001F) & (((((var4 + (var3 * (var2 + 0x00000001))) + 0x000005C0) - var6) < arg2))) != 0x00000000))
{
if (((var8 < arg2)) == 0x00000000)
{
var15 = ((int *) var1)[10];
((int *) var1)[5] = (var7 + arg2);
var12 = var15 + arg2;
((int *) var1)[9] = (var6 + arg2);
}
else
{
var11 = ((int *) var1)[10];
((int *) var1)[5] = var5;
var12 = var11 + var8;
((int *) var1)[9] = (var6 + var8);
}
((int *) var1)[10] = var12;
sub_0007C (arg1);
var9 = 0x00000000;
}
}
}
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000AC8
*/
void sceMp3ResetPlayPosition (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = var1 + 0x00001680;
var3 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var4 = ((int *) var2)[0];
var3 = 0x80671103;
if (!(((var4 < 0x00000003)) != 0x00000000))
{
var5 = ((int *) var2)[6];
var6 = *((int *) 0x000015C0);
((int *) (var1 + 0x00001600))[6] = (var5 + 0x000005C0);
var3 = 0x00000000;
var7 = ((int *) var2)[3];
var8 = ((int *) var2)[4];
var9 = ((int *) var2)[6];
((int *) var2)[2] = 0x00000000;
((int *) var2)[10] = 0x00000000;
((int *) var2)[8] = ((0x00000000 < var6));
((int *) var2)[9] = (var9 + 0x000005C0);
((int *) var2)[11] = (var8 - var7);
((int *) var2)[5] = var7;
((int *) var2)[15] = 0x00000000;
}
}
return;
}
/**
* Subroutine at address 0x00000B60
*/
void sceMp3SetLoopNum (int arg1, int arg2)
{
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var3 = ((int *) var1)[0];
var2 = 0x80671102;
if (!(((var3 < 0x00000002)) != 0x00000000))
{
if (arg2 < 0)
{
arg2 = 0xFFFFFFFF;
}
((int *) var1)[1] = arg2;
var2 = 0x00000000;
}
}
return;
}
/**
* Subroutine at address 0x00000BB4
*/
void sceMp3GetMaxOutputSample (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
sp = sp + 0xFFFFFFE0;
((int *) sp)[4] = ra;
var2 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var3 = ((int *) (var1 + 0x00001680))[0];
var4 = sp;
var2 = 0x80671103;
if (!(((var3 < 0x00000003)) != 0x00000000))
{
var7 = sceAudiocodec_59176A0F ((var1 + 0x00001600), 0x00001002, var4);
var2 = var7;
if (!(var7 < 0))
{
var8 = ((int *) sp)[0];
var2 = var8 >> 0x00000002;
}
}
}
ra = ((int *) sp)[4];
sp = sp + 0x00000020;
return;
}
/**
* Subroutine at address 0x00000C34
*/
void sceMp3GetSamplingRate (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = var1 + 0x00001600;
var3 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var4 = ((int *) (var1 + 0x00001680))[0];
var3 = 0x80671103;
if (!(((var4 < 0x00000003)) != 0x00000000))
{
var5 = ((int *) var2)[14];
var6 = ((int *) var2)[18];
var3 = ((int *) (((((var5 << 0x00000001) + var5) + var6) << 0x00000002) + 0x0000149C))[0];
}
}
return;
}
/**
* Subroutine at address 0x00000CA8
*/
void sceMp3GetBitRate (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = var1 + 0x00001600;
var3 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var4 = ((int *) (var1 + 0x00001680))[0];
var3 = 0x80671103;
if (!(((var4 < 0x00000003)) != 0x00000000))
{
var5 = ((int *) var2)[14];
var6 = ((int *) var2)[17];
var3 = ((int *) ((((var5 << 0x00000004) + var6) << 0x00000002) + 0x000014C0))[0];
}
}
return;
}
/**
* Subroutine at address 0x00000D18
*/
void sceMp3GetMp3ChannelNum (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var3 = ((int *) (var1 + 0x00001680))[0];
var2 = 0x80671103;
if (!(((var3 < 0x00000003)) != 0x00000000))
{
var4 = ((int *) (var1 + 0x00001600))[21];
var2 = ((var4 ^ 0x00000003)) ? 0x00000002 : 0x00000001;
}
}
return;
}
/**
* Subroutine at address 0x00000D78
*/
void sceMp3StartEntry (int arg1, int arg2)
{
if ((((0x00000000 < arg2)) & (((arg1 ^ 0x00000004) < 0x00000001))) == 0x00000000)
{
var1 = 0x00000001;
}
else
{
var1 = ((int *) arg2)[0];
}
*((int *) 0x000015C0) = var1;
return;
}
/**
* Subroutine at address 0x00000DA4
*/
void sceMp3EndEntry ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = sceMp3TermResource ();
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000DC8
*/
void sceMp3InitResource ()
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var3 = mp3InitRessource (0x00000002);
ra = ((int *) sp)[0];
sp = sp + 0x00000010;
return;
}
/**
* Subroutine at address 0x00000DEC
*/
void sceMp3CheckStreamDataNeeded (int arg1)
{
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = ((int *) var1)[8];
var3 = ((int *) var1)[7];
var4 = ((int *) var1)[6];
var5 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var6 = ((int *) var1)[0];
var5 = 0x80671102;
if (!(((var6 < 0x00000002)) != 0x00000000))
{
var7 = ((int *) var1)[5];
var8 = ((int *) var1)[4];
var5 = 0x00000000;
if (!(var7 == var8))
{
var9 = ((int *) var1)[9];
var5 = ((var9 < ((var4 + (var3 * (var2 + 0x00000001))) + 0x000005C0)));
}
}
}
return;
}
/**
* Subroutine at address 0x00000E70
*/
void sceMp3GetSumDecodedSample (int arg1)
{
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var3 = ((int *) var1)[0];
var2 = 0x80671102;
if (!(((var3 < 0x00000002)) != 0x00000000))
{
var4 = ((int *) var1)[15];
var2 = var4 >> 0x00000002;
}
}
return;
}
/**
* Subroutine at address 0x00000EBC
*/
void sceMp3GetLoopNum (int arg1)
{
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = 0x80671001;
if (!(((arg1 < 0x00000002)) == 0x00000000))
{
var3 = ((int *) var1)[0];
var2 = 0x80671102;
if (!(((var3 < 0x00000002)) != 0x00000000))
{
var2 = ((int *) var1)[1];
}
}
return;
}
/**
* Subroutine at address 0x00000F04
*/
int mp3InitRessource (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
var1 = arg1;
var2 = (arg1 < 0x00000003);
((int *) sp)[2] = ra;
var3 = 0x80671001;
((int *) sp)[1] = s1;
if (var2 == 0x00000000)
{
label33:
ra = ((int *) sp)[2];
}
else
{
var6 = sceKernelCpuSuspendIntr (var2, arg2, arg3, arg4, arg5, arg6, arg7);
var7 = var6;
var8 = 0x00001680;
var9 = 0x00000000;
var10 = *((int *) 0x00001680);
while (1) {
var9 = var9 + 0x00000001;
var8 = var8 + 0x000000C0;
if (var10 > 0)
break;
if (((var9 < 0x00000002)) != 0x00000000)
{
var10 = ((int *) var8)[0];
continue;
}
else
{
var11 = 0x00001680;
var12 = 0x00000001;
while (1) {
var12 = var12 + 0xFFFFFFFF;
((int *) var11)[0] = 0xFFFFFFFF;
var11 = var11 + 0x000000C0;
if (var12 >= 0)
continue;
break;
}
sceKernelCpuResumeIntr (var7);
if (var1 != 0x00000000)
{
var21 = *((int *) 0x000015D0);
if (var21 == 0x00000000)
{
var28 = sub_00000 ();
var3 = var28;
if (var28 >= 0)
{
label23:
if (var1 <= 0)
{
label32:
var3 = 0x00000000;
}
else
{
var22 = *((int *) 0x000015D4);
var23 = *((int *) 0x000015D0);
var24 = 0x00001600;
var25 = var1;
while (1) {
var25 = var25 + 0xFFFFFFFF;
((int *) var24)[3] = var23;
var23 = var23 + var22;
((int *) var24)[5] = 0x00000001;
((int *) var24)[32] = 0x00000000;
var24 = var24 + 0x000000C0;
if (var25 != 0x00000000)
continue;
break;
}
var3 = 0x00000000;
}
goto label33;
}
else
{
ra = ((int *) sp)[2];
}
}
else
goto label23;
}
else
{
var15 = *((int *) 0x000015D0);
if (!(var15 != 0x00000000))
goto label32;
*((int *) 0x000015D0) = 0x00000000;
*((int *) 0x000015D4) = 0x00000000;
var20 = sceAudiocodecReleaseEDRAM (0x00001600);
var3 = var20;
if (var20 >= 0)
goto label32;
ra = ((int *) sp)[2];
}
}
goto label34;
}
sceKernelCpuResumeIntr (var7);
var3 = 0x80671101;
goto label33;
}
label34:
var16 = ((int *) sp)[1];
var17 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var3;
}
/**
* Subroutine at address 0x0000105C
*/
int mp3Init (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = s0;
((int *) sp)[1] = ra;
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001600;
var2 = ((int *) var1)[14];
var3 = 0x80671301;
if (var2 != 0x00000001)
{
label12:
ra = ((int *) sp)[1];
}
else
{
var4 = ((int *) var1)[15];
if (!(var4 == 0x00000003))
goto label12;
var8 = sceKernelGetCompiledSdkVersion ();
var3 = 0x80671302;
if (((0x030904FF < var8)) != 0x00000000)
{
var10 = ((int *) var1)[18];
if (((var10 < 0x00000003)) != 0x00000000)
{
var3 = 0x00000000;
goto label12;
}
else
{
ra = ((int *) sp)[1];
}
}
else
{
var9 = ((int *) var1)[18];
var3 = 0x80671302;
if (!(var9 != 0x00000000))
{
var3 = 0x00000000;
}
goto label12;
}
}
var5 = ((int *) sp)[0];
sp = sp + 0x00000010;
return var3;
}
/**
* Subroutine at address 0x00001108
*/
int mp3Decode (int arg1)
{
var1 = ((arg1 << 0x00000001) + arg1) << 0x00000006;
var2 = var1 + 0x00001680;
var3 = var1 + 0x00001600;
var4 = 0x00000000;
var5 = ((int *) var3)[6];
while (1) {
var6 = ((int *) var2)[10];
var7 = ((int *) var2)[11];
var8 = var5 + 0x00000001;
((int *) var2)[10] = (var6 + 0xFFFFFFFF);
var4 = var4 + 0x00000001;
((int *) var2)[11] = (var7 + 0xFFFFFFFF);
((int *) var3)[6] = var8;
var9 = ((unsigned char *) var5)[1];
var10 = ((unsigned char *) var8)[1];
var11 = 0x00000001;
if ((((var9 << 0x00000008) | var10) & 0x0000FFFE) == 0x0000FFFA)
break;
if (((var4 < 0x000005A1)) != 0x00000000)
{
var5 = ((int *) var3)[6];
continue;
}
else
{
var11 = 0x00000000;
}
}
return var11;
}
/**
* Subroutine at address 0x0000118C
*/
void sub_0118C (int arg1)
{
sp = sp + 0xFFFFFFF0;
((int *) sp)[0] = ra;
var1 = (((arg1 << 0x00000001) + arg1) << 0x00000006) + 0x00001680;
var2 = ((int *) var1)[5];
var3 = ((int *) var1)[4];
if (var2 == var3)
{
var6 = ((int *) var1)[11];
if (var6 > 0)
{
label9:
sub_0007C (arg1);
label11:
ra = ((int *) sp)[0];
}
else
{
var7 = ((int *) var1)[1];
if (var7 != 0x00000000)
{
((int *) var1)[1] = (var7 - ((0x00000000 < var7)));
sceMp3ResetPlayPosition (arg1);
ra = ((int *) sp)[0];
}
else
{
((int *) var1)[2] = 0x00000001;
goto label11;
}
}
}
else
goto label9;
sp = sp + 0x00000010;
return;
}
|
0xb15c077e
|
trunk/RE/PSP/libmp3.c
|
C
|
mit
| 34,876
|
/*
* Utopia ME Wrapper Module 5.00 clone
* Copyright (c) 2011 by Musa Mitchell <mowglisanu@gmain.com>
*/
/*
Tested:
MP4 video
PMF video
UMD audio/video
mp3/aac/wma/at3/at3+
standby/resume/poweroff
*/
#include <pspkernel.h>
#include <pspctrl.h>
#include <pspsysevent.h>
#include <pspsysmem_kernel.h>
#include <stdarg.h>
#include "me_wrapper.h"
#include "stdio.h"
PSP_MODULE_INFO("sceMeCodecWrapper", 0x1007, 1, 9);
u32 module_sdk_version = 0x05000010;
int meStarted;
MERpc meRpc;
int interruptHandler(int a0, int SceMediaEngineRpcWait){
sceKernelSetEventFlag(SceMediaEngineRpcWait, 1);
return -1;
}
int initRpc(){
if ((meRpc.mutex = sceKernelCreateMutex("SceMediaEngineRpc", 0x101, 0, 0)) < 0)return meRpc.mutex;
if ((meRpc.sema = sceKernelCreateSema("SceMediaEngineAvcPower" , 0x101, 1, 1, 0)) < 0)return meRpc.sema;
if ((meRpc.event = sceKernelCreateEventFlag("SceMediaEngineRpcWait", 0x201, 0, 0)) < 0)return meRpc.event;
sceSysregIntrEnd();
int ret = sceKernelRegisterIntrHandler(PSP_MECODEC_INT, 2, (void*)&interruptHandler, (void*)meRpc.event, 0);
if (ret < 0)return ret;
return sceKernelEnableIntr(PSP_MECODEC_INT);
}
int sub_1026(){
int ret = 0;
volatile int* address = (int*)0xbfc00700;
if (*address == 0){
ret = sceKernelTryLockMutex(meRpc.mutex, 1);
if (ret>=0){
sceKernelUnlockMutex(meRpc.mutex, 1);
}
}
else{
if (*address != -1){
*address = -2;
}
}
return ret;
}
int sub_0x10005(){
return sub_881FA1D8((void*)(0x80000000|((u32)SysMemForKernel_5339A163/*0xCDA3A2F7*/()&0x1fffffff)), 0);
}
int sub_16389(){
volatile int *hwAddress = (int*)0xbfc00700;
*hwAddress = -1;
int* meTable = (int*)0xbfc00600;
meTable[0] = 399;//copy SysMemForKernel_374E8E66 bytes on me main memory to SysMemForKernel_5339A163 then halt me
meTable[2] = (int)SysMemForKernel_5339A163();//0xCDA3A2F7
meTable[3] = SysMemForKernel_374E8E66();//0xB9F8561C
meTable[4] = 0;
meTable[5] = 0;
meTable[6] = 0;
meTable[7] = 0;
meTable[8] = 0;
meTable[9] = 0;
sceDdrFlush(5);
sceSysregInterruptToOther();
while (*hwAddress != -2);
sceDdrFlush(8);
printf("sysrpc 399 0x%x\n", meTable[10]);
sceSysregMeResetEnable();
sceSysregMeBusClockDisable();
*(int*)0xbfc00718 = *(int*)0xbc100070 & 4;
sceKernelClearEventFlag(meRpc.event, 0);
return 0;
}
int sub_0x100000(){
sceMeRpcLock();
if (*(int*)0xbfc00718 == 0)
sceSysconCtrlTachyonAvcPower(0);
sceMeRpcUnlock();
return 0;
}
int sub_0x1000020(){
volatile int* address = (int*)0xbfc0070c;
int first = *address;
int second = *address;
int* meTable = (int*)0xbfc00600;
meTable[0] = 391;
meTable[2] = (first & 0x1ff0000)>>16;
meTable[3] = second & 0x1ff;
meTable[4] = 0;
meTable[5] = 0;
meTable[6] = 0;
meTable[7] = 0;
meTable[8] = 0;
meTable[9] = 0;
sceDdrFlush(5);
sceSysregInterruptToOther();
sceKernelWaitEventFlag(meRpc.event, 1, PSP_EVENT_WAITCLEAR, 0, 0);
printf("sysrpc 391 0x%x\n", meTable[10]);
sceKernelUnlockMutex(meRpc.mutex, 1);
return 0;
}
/*
dark
0xBFC0070C: 0x00010002
0xBFC00710: 0x0000005F
0xBFC00714: 0x00000002
light
0xBFC0070C: 0x00010002
0xBFC00710: 0x000000DE
0xBFC00714: 0x00000002
standby
17 phase 2
30 phase 1
restart
17 phase 2
42 phaze 1
poweroff
17 phase 2
40 phaze 1
*/
int sub_0x1000002(int arg){
sceKernelLockMutex(meRpc.mutex, 1, 0);
int argSr = arg >> 1;
int val = *(int*)0xbfc00714;
int comp1 = argSr < 133;
int comp2 = argSr < 148;
u32 swapBit0 = val^1;
int isValEq1 = swapBit0 < 1;
u32 swapBits0And1 = val^3;
int notComp1 = comp1^1;
int notComp2 = comp2^1;
int isValEq3 = swapBits0And1 < 1;
int result1 = notComp1 & isValEq1;
int result2 = notComp2 & isValEq3;
*(int*)0xbfc00710 = arg;
int arg0 = 0;
if (result1 == 0){//if (((arg >> 1) < 133) || (val != 1))
if (result2 == 0){//if (((arg >> 1) < 148) || (val != 3))
return 0;//if (((arg >> 1) < 148) || (val != 3) || (val != 1))
}
else{
arg0 = 2;
}
}
int* meTable = (int*)0xbfc00600;
meTable[0] = 7;//sets 0xbfc00714 to arg0 then calls sceSysregMsifClkSelect(0, arg0)
meTable[2] = arg0;//if (val==1 && ((arg>>1)>=133)) arg = 0, if (val==3 && ((arg>>1)>=133)) arg0 = 2
meTable[3] = 0;
meTable[4] = 0;
meTable[5] = 0;
meTable[6] = 0;
meTable[7] = 0;
meTable[8] = 0;
meTable[9] = 0;
sceDdrFlush(5);
sceSysregInterruptToOther();
sceKernelWaitEventFlag(meRpc.event, 1, PSP_EVENT_WAITCLEAR, 0, 0);
printf("sysrpc 7 0x%x\n", meTable[10]);
return 0;
}
int sub_0x1000f(){
volatile int *hwAddress = (int*)0xbfc00700;
while (*hwAddress != -4);
if (*(int*)0xbfc00718 == 0){
*(int*)0xbc100070 = *(int*)0xbc100070 & (~4);//clear 3rd bit
sceSysregAvcResetEnable();
}
*(int*)0xbfc00700 = 0;
return 0;
}
/*start up
0x01000000
0x01000002
0x01000010 phase0
0x01000011 phase1
0x01000020
*/
/* loading eboot ev_ids, back light on/off
0x1000000
0x1000002
0x1000020*/
int eventHandler(int ev_id, char *ev_name, void *param, int *result){
sceIoWrite(2,"EVENT\n\n",7);
printf("event 0x%x %d %s %p %p %d\n", ev_id, ev_id, ev_name?ev_name:"", param, result, result?*result:0);
if (!meStarted)
return 0;
switch (ev_id){
case 1026:
return sub_1026();
break;
case 0x10005:
return sub_0x10005();
break;
case 16389:
return sub_16389();
break;
case 0x100000:
return sub_0x100000();
break;
case 0x1000020:
sub_0x1000020();
break;
case 0x1000002:
sub_0x1000002(((int*)param)[1]);
break;
case 0x1000f:
return sub_0x1000f();
break;
}
return 0;
}
PspSysEventHandler SceMeRpc = {sizeof(PspSysEventHandler), "SceMeRpc", 0x01ffff00, &eventHandler, 0,0, NULL, {0,0,0,0,0,0,0,0,0}};
int module_start(int argc, char *argv[]){//sceMeWrapperInit
#ifdef DEBUG
sceKernelDelayThread(2000000);
#endif
// printf_init();
initRpc();
sceMeBootStart(2);
*(int*)0xbfc00710 = (int)sceSysregPllGetFrequency();
/* This is what makes mediaengine.prx hang on standby/poweroff */
sceKernelRegisterSysEventHandler(&SceMeRpc);
sceMePowerControlAvcPower(0);
if (sceSysregGetTachyonVersion() > 0x4fffff){
PspSysmemPartitionInfo info;
info.size = sizeof(PspSysmemPartitionInfo);
if (sceKernelQueryMemoryPartitionInfo(4, &info) < 0){
sceKernelAllocPartitionMemory(1, "old ME partition", 2, 0x100000, (void*)0x88300000);
}
else if (info.startaddr != 0x88300000){
sceKernelAllocPartitionMemory(1, "old ME partition", 2, 0x100000, (void*)0x88300000);
}
}
return 0;
}
int sceMeWrapperEnd(){//0x8D46A04D
printf("sceMeWrapperEnd\n");
sceSysregVmeResetEnable();
sceSysregAvcResetEnable();
sceSysregMeResetEnable();
sceSysregMeBusClockDisable();
sceKernelUnregisterSysEventHandler(&SceMeRpc);
return 0;
}
int module_reboot_phase(int argc, char *argv[]){
printf("module_reboot_phase\n");
if (argc == 1){
sceMeWrapperEnd();
}
return 0;
}
/**************************sceMePower_driver****************************/
inline int shiftK1(){
int ret;
asm volatile (
"move %0, $27\n"
"srl $27, $27, 16\n"
:"=r"(ret):);
return ret;
}
inline void setK1(int k1){
asm volatile (
"move $27, %0\n"
::"r"(k1));
}
int sceMeCore_driver_F702E73A(int index,...){//working
va_list ap;
va_start(ap,index);
int ret = sceKernelLockMutex(meRpc.mutex, 1, 0);
if (ret < 0){
printf("rpc mutex %d %x\n", index, ret);
return ret;
}
int* meTable = (int*)0xbfc00600;
meTable[0] = index;
meTable[2] = va_arg(ap,int);
meTable[3] = va_arg(ap,int);
meTable[4] = va_arg(ap,int);
meTable[5] = va_arg(ap,int);
meTable[6] = va_arg(ap,int);
meTable[7] = va_arg(ap,int);
meTable[8] = va_arg(ap,int);
meTable[9] = va_arg(ap,int);
va_end(ap);
sceDdrFlush(5);
sceSysregInterruptToOther();
sceKernelWaitEventFlag(meRpc.event, 1, PSP_EVENT_WAITCLEAR, 0, 0);
ret = meTable[10];
//printf("rpc %d %x\n", index, ret);
sceKernelUnlockMutex(meRpc.mutex, 1);
return ret;
}
int sceMeCore_driver_278F2C25(int index,...){
sceKernelDcacheWritebackInvalidateAll();
va_list ap;
va_start(ap,index);
int ret=sceMeCore_driver_F702E73A(index, va_arg(ap, int), va_arg(ap, int), va_arg(ap, int), va_arg(ap, int), va_arg(ap, int), va_arg(ap, int), va_arg(ap, int), va_arg(ap, int));
va_end(ap);
return ret;
}
int sceMePower_driver_23481212(int numerator, int denominator){//55F11AF6
int k1 = shiftK1();
int ret = sceMeCore_driver_F702E73A(390, numerator, denominator);//setCpuGranuality
setK1(k1);
return ret;
}
int sceMePower_driver_68B70336(int numerator, int denominator){//8EBBBBA3
int k1 = shiftK1();
int ret = sceMeCore_driver_F702E73A(391, numerator, denominator);//setBusGranuality,meSysregDmac0BusClockEnable,...,meSysregDmac0BusClockEnable
setK1(k1);
return ret;
}
int sceMePowerSelectAvcClock(int arg0){
printf("sceMePowerSelectAvcClock\n");
int k1 = shiftK1();
int ret = sceMeCore_driver_F702E73A(7, arg0);//meSysregMsifClkSelect(0, arg0)
setK1(k1);
return ret;
}
int sceMePower_driver_52E7CD99(int enable){
int k1 = shiftK1();
int ret = sceMeCore_driver_F702E73A(enable?387:388);
setK1(k1);
return ret;
}
void sceMePowerControlAvcPower(int arg0){
int k1 = shiftK1();
if (sceKernelWaitSema(meRpc.sema, 1, 0) < 0){
return;
}
volatile int* hwAddress = (int*)0xbc100070;
int val = *hwAddress & 4;
if (arg0 == 0){
if (val != 0){
sceSysregAvcResetEnable();
int intr = sceKernelCpuSuspendIntr();
*hwAddress = *hwAddress & 0xfffffffb;//clear bit 2
sceKernelCpuResumeIntr(intr);
sceSysconCtrlTachyonAvcPower(0);
}
}
else if (val == 0){
sceSysconCtrlTachyonAvcPower(arg0);
int intr = sceKernelCpuSuspendIntr();
*hwAddress = *hwAddress | 4;
sceKernelCpuResumeIntr(intr);
sceMeCore_driver_F702E73A(8);
sceSysregAvcResetDisable();
}
*(int*)0xbfc00718 = *hwAddress & 4;
sceKernelSignalSema(meRpc.sema, 1);
setK1(k1);
}
/**************************sceMeVideo_driver****************************/
int sub_881F9560(u32 *arg0, int error){
printf("sub_881F9560\n");
if (error == 0x80000003) return -1;
arg0[2] = error;
return (error ^ -8)?-3:-4;//-8 = 0xfffffff8
// if (error == -8) return -4;
// return -3;
}
int sub_881F9590(u32 *arg0, int val){//is val an error?
printf("sub_881F9590\n");
if (val == 0x80000003) return -1;
arg0[2] = val;
return (val >= 0)?-3:-4;
}
int sceMeVideo_driver_F24820D4(int arg0, u32 *arg1){
printf("sceMeVideo_driver_F24820D4\n");
if (0x5100601 < arg1[0]) return -2;
if (arg1[4] == 0) return -1;
int ret;
if (arg0 == 0){
ret = sceMeCore_driver_278F2C25(0, arg1[4]);
arg1[6] = ret;
if (ret == 0){
arg1[2] = -8;
arg1[8] = 0;
return -3;
}
else{
arg1[2] = 1;
arg1[8] = ((u32*)arg1[4])[1];
return 0;
}
}
else if (arg0 == 1){
u32 val = sceMeCore_driver_F702E73A(36);
ret = sceMeCore_driver_F702E73A(35, arg1[11], arg1[12], arg1[13]);
arg1[6] = val;
arg1[8] = ret;
if ((ret <= 0) || (val <= 0)){
arg1[2] = 0x80000000;
return -3;
}
else{
arg1[2] = 0;
return 0;
}
}
return -1;
}
int unkVideo;
int sceMeVideo_driver_93EED793(int arg0, u32 *arg1){//06F0236A
printf("sceMeVideo_driver_93EED793\n");
if (0x5100601 < arg1[0]) return -2;
arg1[2] = 0;
int intr = sceKernelCpuSuspendIntr();//huh?
if (unkVideo != 0){
sceKernelCpuResumeIntr(intr);
return -4;
}
unkVideo = 1 << arg0;
sceKernelCpuResumeIntr(intr);
int ret;
if (arg0 == 1){
ret = sceMeCore_driver_278F2C25(37, &arg1[3], arg1[5], arg1[6], 0);
if (ret != 0){
return sub_881F9590(arg1, ret);
}
}
else if (arg0 == 0){
ret = sceMeCore_driver_278F2C25(1, &arg1[3], arg1[5], arg1[7]);
if (ret < 0){
return sub_881F9560(arg1, ret);
}
else{
sceMePowerControlAvcPower(1);
}
}
else if (arg0 != 3){
return -1;
}
sceMePower_driver_52E7CD99(1);
return 0;
}
//decode
int sceMeVideo_driver_2C38DB84(int arg0, u32 *arg1){
printf("sceMeVideo_driver_2C38DB84\n\n");
if (0x5100601 < arg1[0]) return -2;
int ret;
arg1[2] = 0;
if (arg0 == 0){
int count = arg1[15] - 1;
if (count >= 4){
return -1;
}
else{
u32 *loc = (u32*)((u32)(count*44)+arg1[11]);
if (arg1[14] != 0){
u32 val = (u32)(count*328)+arg1[14];
do{
loc[9] = val;
loc[10] = val + 164;
val -= 328;
loc -= 11;//44 bytes
count -= 1;
}
while (count >= 0);
}
else{
do{
loc[9] = 0;
loc[10] = 0;
count -= 1;
loc -= 11;//44 bytes
}
while (count >= 0);
}
sceKernelDcacheWritebackInvalidateRange((void*)arg1[11], arg1[15]*44);
sceKernelDcacheWritebackInvalidateRange(&arg1[11], 48);
ret = sceMeCore_driver_F702E73A(2, arg1[3], arg1[9], arg1[10], arg1[4], arg1[11], arg1[12], arg1[13], &arg1[11]);
if (ret < 0){
return sub_881F9560(arg1, ret);
}
return 0;
}
}
else if (arg0 == 1){
((u32*)arg1[4])[0] = arg1[9];
((u32*)arg1[4])[1] = arg1[10];
((u32*)arg1[4])[2] = arg1[14];
((u32*)arg1[4])[3] = 64;
((u32*)arg1[4])[4] = 0;
sceKernelDcacheWritebackInvalidateRange((void*)arg1[4], 256);
ret = sceMeCore_driver_F702E73A(32, arg1[3], arg1[4], arg1[7], arg1[8]);
if (ret != 0){
return sub_881F9590(arg1, ret);
}
return 0;
}
return -1;
}
//Stop
int sceMeVideo_driver_6401013A(int arg0, u32 *arg1){//DE2E7E89
printf("sceMeVideo_driver_6401013A\n");
if (0x5100601 < arg1[0]) return -2;
arg1[2] = 0;
int ret;
if (arg0 == 0){
int count = (arg1[15] - 1);
if ((u32)count >= 4){
return -1;
}
else{
u32 *loc = (u32*)(((u32)count*44)+arg1[11]);
if (arg1[14] != 0){
u32 val = ((u32)count*328)+arg1[14];
u32 *loc = (u32*)(((u32)count*44)+arg1[11]);
do{
loc[9] = val;
loc[10] = val + 164;
val -= 328;
count--;
loc -= 11;//44 bytes
}
while (count >= 0);
}
else{
do{
loc[9] = 0;
loc[10] = 0;
count--;
loc -= 11;//44 bytes
}
while (count >= 0);
}
ret = sceMeCore_driver_278F2C25(3, arg1[3], arg1[4], arg1[11]);
if (ret < 0){
return sub_881F9560(arg1, ret);
}
return 0;
}
}
else if (arg0 == 1){
ret = sceMeCore_driver_278F2C25(33, arg1[3]);
if (ret != 0){
return sub_881F9590(arg1, ret);
}
return 0;
}
return -1;
}
//Delete, FinishMJPEG
int sceMeVideo_driver_2DAAC3A9(int arg0, u32 *arg1){
printf("sceMeVideo_driver_2DAAC3A9\n");
if (0x5100601 < arg1[0]) return -2;
int ret;
int intr = sceKernelCpuSuspendIntr();
if (((unkVideo >> arg0) & 1) == 0){
sceKernelCpuResumeIntr(intr);
return -4;
}
unkVideo = unkVideo - (1 << arg0);
sceKernelCpuResumeIntr(intr);
arg1[2] = 0;
if (arg0 == 0){
ret = sceMeCore_driver_278F2C25(4, arg1[3]);
if (ret < 0){
return sub_881F9560(arg1, ret);
}
sceMePowerControlAvcPower(0);
}
else if (arg0 == 1){
ret = sceMeCore_driver_278F2C25(34, arg1[3]);
if (ret != 0){
return sub_881F9590(arg1, ret);
}
}
else if (arg0 != 3){
return -1;
}
if (unkVideo == 0){
sceMePower_driver_52E7CD99(0);
}
return 0;
}
//GetFrameCrop, SetMemory, ScanHeader, GetVersion, GetSEI, _893B32B1
int sceMeVideo_driver_994BBA92(int arg0, u32 arg1, u32 *arg2){//1C6A60E1
printf("sceMeVideo_driver_994BBA92\n");
if (0x5100601 < arg2[0]) return -2;
int ret;
switch (arg1){
case 0:
case 4:
default:
return -1;
break;
case 1:
if (arg0 != 0){
return -1;
}
arg2[2] = 0;
ret = sceMeCore_driver_278F2C25(5, arg2[3], arg2[4], arg2[16], arg2[17], arg2[18], arg2[19]);
arg2[2] = 0;
if (ret < 0){
return sub_881F9560(arg2, ret);
}
return 0;
break;
case 2:
if (arg0 != 1){
return -1;
}
((u32*)arg2[4])[0] = arg2[9];
((u32*)arg2[4])[1] = arg2[10];
ret = sceMeCore_driver_278F2C25(38, arg2[3], arg2[4]);
if (ret != 0){
arg2[11] = 0;
arg2[12] = 0;
arg2[13] = 0;
return sub_881F9590(arg2, ret);
}
arg2[2] = 0;
arg2[11] = ((u32*)arg2[4])[12];
arg2[12] = ((u32*)arg2[4])[13];
arg2[13] = ((u32*)arg2[4])[14];
return 0;
break;
case 3:
if (arg0 == 0){
sceMeCore_driver_278F2C25(6, &arg2[1]);
return 0;
}
else if (arg0 == 1){
arg2[1] = sceMeCore_driver_F702E73A(39);
return 0;
}
return -1;
break;
case 5:
if (arg0 != 0){
return -1 ;
}
arg2[2] = 0;
ret = sceMeCore_driver_278F2C25(9, arg2[3], arg2[20]);
arg2[2] = 0;
if (ret < 0){
return sub_881F9560(arg2, ret);
}
return 0;
break;
case 6:
if (arg0 != 0){
return -1;
}
arg2[2] = 0;
ret = sceMeCore_driver_278F2C25(10, arg2[3], arg2[21]);
arg2[2] = 0;
if (ret < 0){
return sub_881F9560(arg2, ret);
}
return 0;
break;
case 7:
if (arg0 != 0){
return -1;
}
arg2[2] = 0;
ret = sceMeCore_driver_278F2C25(11, arg2[3], arg2[22]);
arg2[2] = 0;
if (ret < 0){
return sub_881F9560(arg2, ret);
}
return 0;
break;
}
return 0xf00d;
}
/**************************sceMeAudio_driver****************************/
int sub_881F95BC(u32 codec, unsigned long *codec_buffer, int error){
printf("sub_881F95BC\n");
if (error == 0x80000003) return -1;
u32 codecIndex = codec - 0x1000;
if (codecIndex > 5) return -1;
switch (codecIndex){
case 0://at3+
sceMeCore_driver_278F2C25(106, &codec_buffer[2], codec_buffer[3]);
if (error>=256){
codec_buffer[9] = 0;
}
return error<256?-3:-4;
break;
case 1://at3
sceMeCore_driver_278F2C25(113, &codec_buffer[2], codec_buffer[3]);
if (error>=256){
codec_buffer[9] = 0;
}
return error<256?-3:-4;
break;
case 2://mp3
codec_buffer[2] = (u32)error;
return -3;
break;
case 3://aac
sceMeCore_driver_278F2C25(145, &codec_buffer[2], codec_buffer[3]);
if (error>=256){
codec_buffer[9] = 0;
}
return error<256?-3:-4;
break;
// case 4:
// return -1;
break;
case 5://wma
sceMeCore_driver_278F2C25(230, &codec_buffer[2], codec_buffer[3]);
if (error<0){
codec_buffer[9] = 0;
}
return error>=0?-3:-4;
break;
}
return -1;
}
//decode
int sceMeAudio_driver_310C9CDA(u32 codec, unsigned long *codec_buffer){
unsigned long *cb17 = &codec_buffer[17];
unsigned long *cb16 = &codec_buffer[16];
void *memory = (void*)codec_buffer[3];
void *data = (void*)codec_buffer[6];
u32 samples = codec_buffer[8];
if (codec_buffer[0] > 0x05100601) return -2;
if (codec_buffer[3] == 0) return 0x80000103;
codec_buffer[9] = 0;
codec_buffer[2] = 0;
sceKernelDcacheWritebackInvalidateRange(codec_buffer, 104);
u32 codecIndex = codec - 0x1000;
if (codecIndex > 5) return -1;
int ret = 0;
switch (codecIndex){
case 0:
ret = sceMeCore_driver_F702E73A(96, codec_buffer);
break;
case 1:
ret = sceMeCore_driver_F702E73A(112, codec_buffer);
break;
case 2:
ret = sceMeCore_driver_F702E73A(140, codec_buffer);
break;
case 3:
// ret = sceMeCore_driver_F702E73A(144, codec_buffer[6], &codec_buffer[7], codec_buffer[8], &codec_buffer[9], codec_buffer[3]);
ret = sceMeCore_driver_F702E73A(144, data, &codec_buffer[7], samples, &codec_buffer[9], memory);
break;
default:
case 4:
return -1;
break;
case 5:
// ret = sceMeCore_driver_F702E73A(229, codec_buffer[6], codec_buffer[15], &codec_buffer[16], codec_buffer[8], &codec_buffer[9], &codec_buffer[17], codec_buffer[3]);
ret = sceMeCore_driver_F702E73A(229, data, codec_buffer[15], cb16, samples, &codec_buffer[9], cb17, memory);
break;
}
if (ret < 0){
return sub_881F95BC(codec, codec_buffer, ret);
}
return 0;
}
//check need memory
int sceMeAudio_driver_BB9821AC(u32 codec, unsigned long *codec_buffer){
if (0x5100601 < codec_buffer[0]) return -2;
u32 codecIndex = codec - 0x1000;
if (codecIndex > 5) return -1;
int ret = 0;
switch (codecIndex){
case 0://at3+
ret = sceMeCore_driver_278F2C25(99, &codec_buffer[13], &codec_buffer[15], &codec_buffer[16], &codec_buffer[10]);
if (ret >= 0){
codec_buffer[2] = 0;
ret = sceMeCore_driver_278F2C25(102, codec_buffer[15], &codec_buffer[4], &codec_buffer[2]);
if (ret == 0){
return 0;
}
return -3;
}
break;
case 1://at3
/* how could i mistake 114 for 144 */
ret = sceMeCore_driver_278F2C25(114, 2, &codec_buffer[4], &codec_buffer[2]);
if (ret == 0){
return 0;
}
return -3;
break;
case 2://mp3
ret = sceMeCore_driver_278F2C25(138, 2, &codec_buffer[4], &codec_buffer[2]);
if (ret == 0){
return 0;
}
return -3;
break;
case 3://aac
codec_buffer[4] = sceMeCore_driver_F702E73A(146);//=0x648c
codec_buffer[2] = 0;
return 0;
break;
case 4://not supported
return -1;
break;
case 5://wma
codec_buffer[4] = sceMeCore_driver_F702E73A(226);
codec_buffer[2] = 0;
return 0;
break;
}
return sub_881F95BC(codec, codec_buffer, ret);
}
int unk[] = {//guessed, codec_buffer[10] should be 4 or 6, got 8744 from a snd0 file
0x00000000,
0x00000100,
0x00000001,
0x00000100,
0x00000000,
0x000000D4,
0x00000001,
0x000000D4,
0x00000000,
0x000000C0,
0x00000001,
0x000000C0,
0x00000000,
0x00000098,
0x00000001,
0x00000098,
0x00000000,
0x00000088,
0x00000001,
0x00000088,
0x00000000,
0x00000060,
0x00000001,
0x00000060,
0x00000001,
0x00000044,
0x00000001,
0x00000030,
0x00000002,
0x000000C0,
0x00000002,
0x00000098};
//init
int sceMeAudio_driver_F5F87C12(u32 codec, unsigned long *codec_buffer){
if (0x05100601 < codec_buffer[0]) return -2;
u32 codecIndex = codec - 0x1000;
codec_buffer[2] = 0;
if (codecIndex > 5) return -1;
int ret = 0;
switch (codecIndex){
case 0://at3+
ret = sceMeCore_driver_278F2C25(99, &codec_buffer[13], &codec_buffer[15], &codec_buffer[16], &codec_buffer[10]);
if (ret >= 0){
int val = codec_buffer[15];
switch (val){
case 0:
default :
codec_buffer[2] = 514;
return -3;
break;
case 1:
val = 2;
break;
case 2:
case 3:
case 4:
break;
case 5:
case 6:
case 7:
val++;
break;
}
codec_buffer[18] = 2;
ret = sceMeCore_driver_278F2C25(103, codec_buffer[13], codec_buffer[15], codec_buffer[16], 2, codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_278F2C25(105, &codec_buffer[11], codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_278F2C25(100, &codec_buffer[17], codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_F702E73A(104, codec_buffer[5], codec_buffer[3]);
}
}
}
}
break;
case 1://at3
codec_buffer[11] = 44100;
codec_buffer[12] = unk[codec_buffer[10]*2+1];
ret = sceMeCore_driver_278F2C25(115, unk[codec_buffer[10]*2], 44100, unk[codec_buffer[10]*2+1], codec_buffer[3]);
if ((codec_buffer[10]-14)<2){
codec_buffer[13] = 2;
}
break;
case 2://mp3
ret = sceMeCore_driver_278F2C25(139, codec_buffer[3]);
break;
case 3://aac
switch (codec_buffer[10]){
case 96000:
case 88200:
case 64000:
case 48000:
case 44100:
case 32000:
case 24000:
case 22050:
case 16000:
// case 12000: not supported
case 11050:
case 8000:
ret = sceMeCore_driver_278F2C25(147, codec_buffer[10], codec_buffer[3]);
if (ret >= 0){
if (((short*)codec_buffer)[22] != 0){
ret = sceMeCore_driver_278F2C25(149, ((u8*)codec_buffer)[44], codec_buffer[3]);
if (ret >= 0){
if (((char*)codec_buffer)[45] != 0){
ret = sceMeCore_driver_278F2C25(151, 0, 2, 0, codec_buffer[3]);
}
}
}
else{
if (((char*)codec_buffer)[45] != 0){
ret = sceMeCore_driver_278F2C25(151, 0, 2, 0, codec_buffer[3]);
}
}
}
break;
default:
return -1;
break;
}
break;
case 4://not used
return -1;
break;
case 5://wma
ret = sceMeCore_driver_278F2C25(227, &codec_buffer[10], codec_buffer[3]);
break;
}
if (ret < 0){
return sub_881F95BC(codec, codec_buffer, ret);
}
return ret;
}
//probably for umd(only at3/+)
int sceMeAudio_driver_24AFB7E1(u32 codec, unsigned long *codec_buffer){//3D6CC0D9
printf("sceMeAudio_driver_24AFB7E1\n");
if (0x5100601 < codec_buffer[0]) return -2;
codec_buffer[2] = 0;
int ret;
if (codec == 0x1000){
ret = sceMeCore_driver_278F2C25(99, &codec_buffer[13], &codec_buffer[15], &codec_buffer[16], &codec_buffer[10]);
if (ret >= 0){
codec_buffer[2] = 0;
if (codec_buffer[15] != -1){
return -1;
}
codec_buffer[18] = codec_buffer[15];
ret = sceMeCore_driver_278F2C25(103, codec_buffer[13], 1, codec_buffer[16], 1, codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_278F2C25(105, &codec_buffer[11], codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_278F2C25(100, &codec_buffer[17], codec_buffer[3]);
if (ret >= 0){
ret = sceMeCore_driver_F702E73A(104, codec_buffer[5], codec_buffer[3]);
}
}
}
}
}
else if (codec == 0x1001){
if ((u32)(codec_buffer[10]-14) >= 2){
return -1;
}
codec_buffer[13] = 1;
codec_buffer[12] = unk[codec_buffer[10]*2+1];
ret = sceMeCore_driver_278F2C25(115, unk[codec_buffer[10]*2], 44100, unk[codec_buffer[10]*2+1], codec_buffer[3]);
}
else{
return -1;
}
if (ret < 0){
return sub_881F95BC(codec, codec_buffer, ret);
}
return ret;
}
//get info?
int sceMeAudio_driver_7C8ADD5E(u32 codec, u32 arg1, unsigned long *codec_buffer){
printf("sceMeAudio_driver_7C8ADD5E\n");
if (0x5100601 < codec_buffer[0]) return -2;
codec_buffer[2] = 0;
int ret;
if (arg1 == 3){
u32 codecIndex = codec - 0x1000;
int index;
switch(codecIndex){
case 0:
index = 97;//ret = 0x20400
break;
case 1:
index = 116;//ret = 0x30600
break;
case 2:
index = 129;//ret = 0x30600
break;
case 3:
index = 148;//ret = 0x50021
break;
case 4:
default:
return -1;
break;
case 5:
index = 225;//ret = 0x80000003 need to call sceMeBootStart(3) before
break;
}
ret = sceMeCore_driver_F702E73A(index);
codec_buffer[1] = ret;
return ret;
}
else if (arg1 >= 4){
if (arg1 != 4){
return -1;
}
if (codec != 4096){
return -1;
}
//at3+ checkneed mem
ret = sceMeCore_driver_278F2C25(99, &codec_buffer[13], &codec_buffer[15], &codec_buffer[16], &codec_buffer[10]);
if (ret < 0){
return sub_881F95BC(codec, codec_buffer, ret);
}
return ret;
}
else if (arg1 == 2){
if (codec != 4098){
return -1;
}
ret = sceMeCore_driver_278F2C25(137, codec_buffer[10], codec_buffer[3]);
if (ret == 0){
ret = sceMeCore_driver_278F2C25(130, codec_buffer[6], &codec_buffer[11], &codec_buffer[14], codec_buffer[3]);
}
if (ret < 0){
return sub_881F95BC(codec, codec_buffer, ret);
}
return ret;
}
return -1;
}
/**************************sceMeMemory_driver****************************/
void *sceMeMalloc(int size){
return (void*)sceMeCore_driver_F702E73A(384, size);
}
void *sceMeCalloc(int num, int size){
return (void*)sceMeCore_driver_F702E73A(386, num, size);
}
void sceMeFree(void *ptr){
sceMeCore_driver_F702E73A(385, ptr);
}
/**************************sceMeCore_driver****************************/
int sceMeRpcLock(){
return sceKernelLockMutex(meRpc.mutex, 1, 0);
}
int sceMeRpcUnlock(){
return sceKernelUnlockMutex(meRpc.mutex, 1);
}
//me*img.img contains 2 sets of compressed data(except maybe sd), code and contents of main memory
void decompressAndRunMeImage(void *data){
void *end = data;
int ret;
if (0x3fffff < ((u32)data & ~0x88000000)){
((void (*)(void*))0x88300000)(end);
}
*(int*)0xbfc00700 = -4;
if (memcmp(data, "KL4E", 4) == 0){
ret = UtilsForKernel_6C6887EE((void*)0x88300000, (void*)((u32)data & ~0x88300000), data + 4, &end);//decompress meimg.img
if (ret >= 0){
sceKernelDcacheWritebackInvalidateAll() ;
sceKernelIcacheInvalidateAll();
((void (*)(void*))0x88300000)(end);
}
}
sceKernelMemset32(end, 0, (void*)0x88400000 - (u32)end);
*(int*)0xBFC00700 = -5;
*(int*)0xBFC00710 = -2;
//dead end
asm volatile("haltLoop:\n"
".word 0x70000000\n"
"b haltLoop\n"
"nop\n");
}
int sub_881FA1AC(void *data, int size){
int ret, newSize;
//decryption won't be nessasary, as encryption is not possible or needed
ret = sceWmd_driver_7A0E484C(data, size, &newSize);
if (ret < 0){
return ret;
}
return newSize;
}
int sub_881FA1D8(void* data, int wait){
sceSysregMeResetEnable();
sceSysregMeBusClockEnable();
int size = (u32)me_boot_code_end - (u32)me_boot_code;
memcpy((void*)0xbfc00040, (void*)me_boot_code, size);
*(int*)0xbfc00060 = *(int*)0xbfc00060 | (*(int*)0xbc100040 & 3);//li $t, [0,1,2,3]
*(int*)0xbfc00064 = *(int*)0xbfc00064 | ((u32)data >> 16);
*(int*)0xbfc00068 = *(int*)0xbfc00068 | ((u32)data & 0xffff);
sceKernelDcacheWritebackInvalidateAll();
sceDdrFlush(4);
*(int*)0xbfc0070c = 0x1ff01ff;
*(int*)0xbfc00714 = 2;
volatile int *hwAddress = (int*)0xbfc00700;
*hwAddress = -3;
sceSysregAvcResetDisable();
sceSysregVmeResetDisable();
sceSysregMeResetDisable();
if (wait){
while (*hwAddress == -3){
sceKernelDelayThread(1000);
}
}
*hwAddress = 0;
sceDdrFlush(8);
return 0;
}
int sceMeBootStart(u32 arg){
printf("sceMeBootStart %d\n", arg);
if (arg >= 5) return 0x80000102;
int genArg = arg;
u32 tachyon = sceSysregGetTachyonVersion();
if (tachyon > 0x4fffff){//if not first generation
if (genArg != 2){
genArg = 3;
}
// genArg ^= 2;
// genArg = genArg?3:2;
}
if (genArg == meStarted){
return 0;
}
int ret = sceMeRpcLock();
if (ret < 0){
return ret;
}
if (((genArg == 3)&&(meStarted == 2)) || ((genArg == 2)&&(meStarted == 3))){
meStarted = genArg;
sceMeRpcUnlock();
sceMeCore_driver_F702E73A(389, (u32)(genArg^2)>0);//genArg==2?0:1
return 0;
}
char *meImage;
if (tachyon > 0x4fffff){
meImage = "flash0:/kd/resource/me_t2img.img";
}
else if (genArg == 1){
meImage = "flash0:/kd/resource/me_sdimg.img";
}
else if (genArg == 4){
meImage = "flash0:/kd/resource/me_blimg.img";
}
else{
meImage = "flash0:/kd/resource/meimg.img";
}
SceUID fd = sceIoOpen(meImage, PSP_O_UNKNOWN0|PSP_O_RDONLY, 0);
if (fd < 0){
sceMeRpcUnlock();
return fd;
}
int size = sceIoLseek(fd, 0, PSP_SEEK_END);
sceIoLseek(fd, 0, PSP_SEEK_SET);
if (size > 0x5ffff){//charge to actual size when me image is written
sceIoClose(fd);
sceMeRpcUnlock();
return 0x80000022;
}
sceSysregMeResetEnable();
void *address = (void*)((u32)0x883ff000 - (size & 0xffffffc0));
int read = sceIoRead(fd, address, size);
sceIoClose(fd);
if (read != size){
sceMeRpcUnlock();
return (read<0)?read:0x80000022;
}
sub_881FA1AC(address, read);
sub_881FA1D8(address, 1);
meStarted = genArg;
sceMeRpcUnlock();
sceMeCore_driver_F702E73A(389, ((u32)(genArg^2))>0);
return 0;
}
/*called
sceMeBootStart
sceMeCore_driver_278F2C25
sceMeCore_driver_F702E73A
sceMePowerControlAvcPower
sceMePower_driver_23481212
sceMePower_driver_52E7CD99
sceMePower_driver_68B70336
sceMeVideo_driver_2C38DB84
sceMeVideo_driver_2DAAC3A9
sceMeVideo_driver_6401013A//umd video
sceMeVideo_driver_93EED793
sceMeVideo_driver_994BBA92
sceMeVideo_driver_F24820D4
sceMeAudio_driver_310C9CDA
sceMeAudio_driver_BB9821AC
sceMeAudio_driver_F5F87C12
*/
|
0xb15c077e
|
trunk/RE/PSP/me_wrapper.c
|
C
|
mit
| 30,805
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __MEMORY_H__
#define __MEMORY_H__
#include <fstream>
#include "Cartridge.h"
#include "Sound.h"
#include "Pad.h"
#define SIZE_MEM 65536
class Memory
{
protected:
Cartridge *c;
Sound * s;
private:
void DmaTransfer(BYTE direction);
public:
BYTE memory[SIZE_MEM];
public:
Memory(Sound * s);
~Memory();
Memory *GetPtrMemory();
void ResetMem();
void LoadCartridge(Cartridge *c);
void MemW(WORD direction, BYTE value);
inline void MemWNoCheck(WORD direction, BYTE value){ memory[direction] = value; };
inline BYTE MemR(WORD direction)
{
if ((direction < 0x8000) || ((direction >=0xA000) && (direction < 0xC000)))
{
return c->Read(direction);
}
else if ((direction >= 0xFF10) && (direction <= 0xFF3F))
{
if(s)
return s->ReadRegister(direction);
}
return memory[direction];
}
void SaveMemory(std::ofstream * file);
void LoadMemory(std::ifstream * file);
};
#endif
|
08erikal-gbpaclone
|
src/Memory.h
|
C++
|
gpl3
| 1,623
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __MBC_H__
#define __MBC_H__
#include <string>
#include "Def.h"
void InitMBCNone(std::string nameROM, BYTE * memCartridge, int romSize);
void InitMBC1(std::string, BYTE * memCartridge, int romSize, int ramHeaderSize);
void InitMBC2(std::string, BYTE * memCartridge, int romSize);
void InitMBC3(std::string, BYTE * memCartridge, int romSize, int ramHeaderSize);
void InitMBC5(std::string, BYTE * memCartridge, int romSize, int ramHeaderSize);
void DestroyMBC();
BYTE NoneRead(WORD direction);
void NoneWrite(WORD direction, BYTE value);
BYTE MBC1Read(WORD direction);
void MBC1Write(WORD direction, BYTE value);
BYTE MBC2Read(WORD direction);
void MBC2Write(WORD direction, BYTE value);
BYTE MBC3Read(WORD direction);
void MBC3Write(WORD direction, BYTE value);
BYTE MBC5Read(WORD direction);
void MBC5Write(WORD direction, BYTE value);
void MBCPathBatteries(std::string path);
void MBCSaveState(std::ofstream * file);
void MBCLoadState(std::ifstream * file);
#endif
|
08erikal-gbpaclone
|
src/MBC.h
|
C++
|
gpl3
| 1,688
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <iostream>
#include "Sound.h"
using namespace std;
enum SoundError { ERROR, NO_ERROR };
int Sound::HandleError( const char* str )
{
if ( str )
{
cerr << "Error: " << str << endl;
return ERROR;
}
else
return NO_ERROR;
}
Sound::Sound()
{
enabled = false;
initialized = true;
sampleRate = 44100;//22050;
if ( SDL_Init( SDL_INIT_AUDIO ) < 0 )
{
initialized = false;
return;
}
atexit( SDL_Quit );
if (ChangeSampleRate(sampleRate) == ERROR)
{
initialized = false;
return;
}
if (Start() == ERROR)
{
initialized = false;
return;
}
}
Sound::~Sound()
{
}
int Sound::ChangeSampleRate(long newSampleRate)
{
if (!initialized)
return NO_ERROR;
sampleRate = newSampleRate;
bool wasEnabled = enabled;
if (wasEnabled)
Stop();
// Set sample rate and check for out of memory error
if (HandleError( apu.set_sample_rate(sampleRate) ) == ERROR)
return ERROR;
if (wasEnabled)
{
if (Start() == ERROR)
return ERROR;
}
return NO_ERROR;
}
int Sound::Start()
{
if (!initialized)
return NO_ERROR;
if (!enabled)
{
// Generate a few seconds of sound and play using SDL
if (HandleError( sound.start(sampleRate, 2) ) == ERROR)
return ERROR;
}
enabled = true;
return NO_ERROR;
}
int Sound::Stop()
{
if (!initialized)
return NO_ERROR;
if (enabled)
sound.stop();
enabled = false;
return NO_ERROR;
}
bool Sound::GetEnabled()
{
return enabled;
}
void Sound::SetEnabled(bool enabled)
{
if (enabled)
Start();
else
Stop();
}
void Sound::EndFrame()
{
if ((!initialized) || (!enabled))
return;
apu.end_frame();
int const buf_size = 2048;
static blip_sample_t buf [buf_size];
if ( apu.samples_avail() >= buf_size )
{
// Play whatever samples are available
long count = apu.read_samples( buf, buf_size );
sound.write( buf, count );
}
}
|
08erikal-gbpaclone
|
src/Sound.cpp
|
C++
|
gpl3
| 2,501
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <sstream>
#include <fstream>
#include <iomanip>
#include "Registers.h"
#include "GBException.h"
using namespace std;
Registers::Registers() {ResetRegs();}
Registers::~Registers()
{
}
Registers *Registers::GetPtrRegisters() {return this;}
WORD Registers::Get_Reg(e_registers reg)
{
switch (reg){
case A: return this->Get_A(); break;
case B: return this->Get_B(); break;
case C: return this->Get_C(); break;
case D: return this->Get_D(); break;
case E: return this->Get_E(); break;
case F: return this->Get_F(); break;
case H: return this->Get_H(); break;
case L: return this->Get_L(); break;
case AF: return this->Get_AF(); break;
case BC: return this->Get_BC(); break;
case DE: return this->Get_DE(); break;
case HL: return this->Get_HL(); break;
case PC: return this->Get_PC(); break;
case SP: return this->Get_SP(); break;
default:
stringstream out;
out << "Get_Reg - Error, incorrect register: " << reg << endl;
throw GBException(out.str().data());
}
}
void Registers::Set_Reg(e_registers reg, WORD value)
{
switch (reg){
case A: this->Set_A((BYTE)value); break;
case B: this->Set_B((BYTE)value); break;
case C: this->Set_C((BYTE)value); break;
case D: this->Set_D((BYTE)value); break;
case E: this->Set_E((BYTE)value); break;
case F: this->Set_F((BYTE)value); break;
case H: this->Set_H((BYTE)value); break;
case L: this->Set_L((BYTE)value); break;
case AF: this->Set_AF(value); break;
case BC: this->Set_BC(value); break;
case DE: this->Set_DE(value); break;
case HL: this->Set_HL(value); break;
case PC: this->Set_PC(value); break;
case SP: this->Set_SP(value); break;
default:
stringstream out;
out << "Set_Reg - Error, incorrect register: " << reg << endl;
throw GBException(out.str().data());
}
}
BYTE Registers::Get_Flag(e_registers flag)
{
switch (flag){
case f_C: return this->Get_flagC();
case f_H: return this->Get_flagH();
case f_N: return this->Get_flagN();
case f_Z: return this->Get_flagZ();
default:
stringstream out;
out << "Error, incorrect flag (Get): " << flag << endl;
throw GBException(out.str().data());
}
}
void Registers::Set_Flag(e_registers flag, BYTE value)
{
switch (flag){
case f_C: this->Set_flagC(value);
case f_H: this->Set_flagH(value);
case f_N: this->Set_flagN(value);
case f_Z: this->Set_flagZ(value);
default:
stringstream out;
out << "Error, incorrect flag (Set): " << flag << endl;
throw GBException(out.str().data());
}
}
void Registers::ResetRegs()
{
this->Set_AF(0x01B0);
this->Set_BC(0x0013);
this->Set_DE(0x00D8);
this->Set_HL(0x014D);
this->Set_PC(0x0100);
this->Set_SP(0xFFFE);
this->Set_Halt(false);
this->Set_Stop(false);
this->Set_IME(false);
}
string Registers::ToString()
{
stringstream out;
/*out << "PC: " << setfill('0') << setw(4) << uppercase << hex << (int)Get_PC()
<< ", AF: " << setfill('0') << setw(4) << uppercase << hex << (int)Get_AF()
<< ", BC: " << setfill('0') << setw(4) << uppercase << hex << (int)Get_BC()
<< ", DE: " << setfill('0') << setw(4) << uppercase << hex << (int)Get_DE()
<< ", HL: " << setfill('0') << setw(4) << uppercase << hex << (int)Get_HL()
<< ", SP: " << setfill('0') << setw(4) << uppercase << hex << (int) Get_SP()
<< ", H: " << Get_Halt() << ", S: " << Get_Stop() << ", I: " << Get_IME();*/
out << "PC = " << hex << (int)Get_PC()
<< " SP = " << hex << (int)Get_SP()
<< " AF = " << hex << (int)Get_AF()
<< " BC = " << hex << (int)Get_BC()
<< " DE = " << hex << (int)Get_DE()
<< " HL = " << hex << (int)Get_HL()
<< " Interrupts = " << Get_IME();
return out.str();
}
void Registers::SaveRegs(ofstream * file)
{
//file->write((char *)this, sizeof(Registers));
file->write((char *)&this->af.doble, sizeof(WORD));
file->write((char *)&this->bc.doble, sizeof(WORD));
file->write((char *)&this->de.doble, sizeof(WORD));
file->write((char *)&this->hl.doble, sizeof(WORD));
file->write((char *)&this->pc, sizeof(WORD));
file->write((char *)&this->sp, sizeof(WORD));
file->write((char *)&this->IME, sizeof(bool));
file->write((char *)&this->pendingIME, sizeof(bool));
file->write((char *)&this->pendingIMEvalue, sizeof(bool));
file->write((char *)&this->halt, sizeof(bool));
file->write((char *)&this->stop, sizeof(bool));
}
void Registers::LoadRegs(ifstream * file)
{
file->read((char *)&this->af.doble, sizeof(WORD));
file->read((char *)&this->bc.doble, sizeof(WORD));
file->read((char *)&this->de.doble, sizeof(WORD));
file->read((char *)&this->hl.doble, sizeof(WORD));
file->read((char *)&this->pc, sizeof(WORD));
file->read((char *)&this->sp, sizeof(WORD));
file->read((char *)&this->IME, sizeof(bool));
file->read((char *)&this->pendingIME, sizeof(bool));
file->read((char *)&this->pendingIMEvalue, sizeof(bool));
file->read((char *)&this->halt, sizeof(bool));
file->read((char *)&this->stop, sizeof(bool));
}
|
08erikal-gbpaclone
|
src/Registers.cpp
|
C++
|
gpl3
| 5,732
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "CPU.h"
#include "Instructions.h"
#include <iomanip>
#include <fstream>
#include <sstream>
#include "Registers.h"
#include "GBException.h"
#include "Log.h"
using namespace std;
CPU::CPU(Video *v, Sound * s): Memory(s)
{
Init(v);
}
CPU::CPU(Video *v, Cartridge *c, Sound * s): Memory(s)
{
Init(v);
LoadCartridge(c);
}
void CPU::Init(Video *v)
{
numInstructions = 0;
cyclesLCD = 0;
bitSerial = -1;
this->v = v;
v->SetMem(this->GetPtrMemory());
FillInstructionCycles();
FillInstructionCyclesCB();
//this->log = new QueueLog(1000000);
}
CPU::~CPU()
{
}
void CPU::Reset()
{
ResetRegs();
ResetMem();
v->ClearScreen();
if (s && (s->GetEnabled()))
{
s->Stop();
s->Start();
}
}
void CPU::ExecuteOneFrame()
{
if (!this->c)
return;
actualCycles = 0;
BYTE OpCode = 0, NextOpcode = 0, lastOpCode = 0;
Instructions inst(this->GetPtrRegisters(), this->GetPtrMemory());
frameCompleted = false;
UpdatePad();
//log->Enqueue("\n\nStartFrame", NULL, "");
while (!frameCompleted)
{
numInstructions++;
lastOpCode = OpCode;
OpCode = MemR(Get_PC());
NextOpcode = MemR(Get_PC() + 1);
/*
stringstream ssOpCode;
ssOpCode << numInstructions << " - ";
ssOpCode << "OpCode: " << setfill('0') << setw(2) << uppercase << hex << (int)OpCode;
if (OpCode == 0xCB)
ssOpCode << setfill('0') << setw(2) << uppercase << hex << (int)NextOpcode;
ssOpCode << ", ";
log->Enqueue(ssOpCode.str(), this->GetPtrRegisters(), "");
*/
lastCycles = 4;
if (!Get_Halt() && !Get_Stop())
{
/*ssOpCode << " FF41 = " << hex << (int)memory[0xFF41];
ssOpCode << " FFFF = " << hex << (int)memory[0xFFFF];
log->Enqueue("", this->GetPtrRegisters(), ssOpCode.str());*/
switch(OpCode)
{
case (0x00): inst.NOP(); break;
case (0x01): inst.LD_n_nn(BC); break;
case (0x02): inst.LD_n_A(c_BC); break;
case (0x03): inst.INC_nn(BC); break;
case (0x04): inst.INC_n(B); break;
case (0x05): inst.DEC_n(B); break;
case (0x06): inst.LD_nn_n(B); break;
case (0x07): inst.RLCA(); break;
case (0x08): inst.LD_nn_SP(); break;
case (0x09): inst.ADD_HL_n(BC); break;
case (0x0A): inst.LD_A_n(c_BC); break;
case (0x0B): inst.DEC_nn(BC); break;
case (0x0C): inst.INC_n(C); break;
case (0x0D): inst.DEC_n(C); break;
case (0x0E): inst.LD_nn_n(C); break;
case (0x0F): inst.RRC_n(A); break;
case (0x10): inst.STOP(); break;
case (0x11): inst.LD_n_nn(DE); break;
case (0x12): inst.LD_n_A(c_DE); break;
case (0x13): inst.INC_nn(DE); break;
case (0x14): inst.INC_n(D); break;
case (0x15): inst.DEC_n(D); break;
case (0x16): inst.LD_nn_n(D); break;
case (0x17): inst.RL_n(A); break;
case (0x18): inst.JR(); break;
case (0x19): inst.ADD_HL_n(DE); break;
case (0x1A): inst.LD_A_n(c_DE); break;
case (0x1B): inst.DEC_nn(DE); break;
case (0x1C): inst.INC_n(E); break;
case (0x1D): inst.DEC_n(E); break;
case (0x1E): inst.LD_nn_n(E); break;
case (0x1F): inst.RR_n(A); break;
case (0x20): inst.JR_CC_n(f_Z, 0); break;
case (0x21): inst.LD_n_nn(HL); break;
case (0x22): inst.LDI_cHL_A(); break;
case (0x23): inst.INC_nn(HL); break;
case (0x24): inst.INC_n(H); break;
case (0x25): inst.DEC_n(H); break;
case (0x26): inst.LD_nn_n(H); break;
case (0x27): inst.DAA(); break;
case (0x28): inst.JR_CC_n(f_Z, 1); break;
case (0x29): inst.ADD_HL_n(HL); break;
case (0x2A): inst.LDI_A_cHL(); break;
case (0x2B): inst.DEC_nn(HL); break;
case (0x2C): inst.INC_n(L); break;
case (0x2D): inst.DEC_n(L); break;
case (0x2E): inst.LD_nn_n(L); break;
case (0x2F): inst.CPL(); break;
case (0x30): inst.JR_CC_n(f_C, 0); break;
case (0x31): inst.LD_n_nn(SP); break;
case (0x32): inst.LDD_cHL_A(); break;
case (0x33): inst.INC_nn(SP); break;
case (0x34): inst.INC_n(c_HL); break;
case (0x35): inst.DEC_n(c_HL); break;
case (0x36): inst.LD_r1_r2(c_HL, $); break;
case (0x37): inst.SCF(); break;
case (0x38): inst.JR_CC_n(f_C, 1); break;
case (0x39): inst.ADD_HL_n(SP); break;
case (0x3A): inst.LDD_A_cHL(); break;
case (0x3B): inst.DEC_nn(SP); break;
case (0x3C): inst.INC_n(A); break;
case (0x3D): inst.DEC_n(A); break;
case (0x3E): inst.LD_A_n($); break;
case (0x3F): inst.CCF(); break;
case (0x40): inst.LD_r1_r2(B, B); break;
case (0x41): inst.LD_r1_r2(B, C); break;
case (0x42): inst.LD_r1_r2(B, D); break;
case (0x43): inst.LD_r1_r2(B, E); break;
case (0x44): inst.LD_r1_r2(B, H); break;
case (0x45): inst.LD_r1_r2(B, L); break;
case (0x46): inst.LD_r1_r2(B, c_HL); break;
case (0x47): inst.LD_n_A(B); break;
case (0x48): inst.LD_r1_r2(C, B); break;
case (0x49): inst.LD_r1_r2(C, C); break;
case (0x4A): inst.LD_r1_r2(C, D); break;
case (0x4B): inst.LD_r1_r2(C, E); break;
case (0x4C): inst.LD_r1_r2(C, H); break;
case (0x4D): inst.LD_r1_r2(C, L); break;
case (0x4E): inst.LD_r1_r2(C, c_HL); break;
case (0x4F): inst.LD_n_A(C); break;
case (0x50): inst.LD_r1_r2(D, B); break;
case (0x51): inst.LD_r1_r2(D, C); break;
case (0x52): inst.LD_r1_r2(D, D); break;
case (0x53): inst.LD_r1_r2(D, E); break;
case (0x54): inst.LD_r1_r2(D, H); break;
case (0x55): inst.LD_r1_r2(D, L); break;
case (0x56): inst.LD_r1_r2(D, c_HL); break;
case (0x57): inst.LD_n_A(D); break;
case (0x58): inst.LD_r1_r2(E, B); break;
case (0x59): inst.LD_r1_r2(E, C); break;
case (0x5A): inst.LD_r1_r2(E, D); break;
case (0x5B): inst.LD_r1_r2(E, E); break;
case (0x5C): inst.LD_r1_r2(E, H); break;
case (0x5D): inst.LD_r1_r2(E, L); break;
case (0x5E): inst.LD_r1_r2(E, c_HL); break;
case (0x5F): inst.LD_n_A(E); break;
case (0x60): inst.LD_r1_r2(H, B); break;
case (0x61): inst.LD_r1_r2(H, C); break;
case (0x62): inst.LD_r1_r2(H, D); break;
case (0x63): inst.LD_r1_r2(H, E); break;
case (0x64): inst.LD_r1_r2(H, H); break;
case (0x65): inst.LD_r1_r2(H, L); break;
case (0x66): inst.LD_r1_r2(H, c_HL); break;
case (0x67): inst.LD_n_A(H); break;
case (0x68): inst.LD_r1_r2(L, B); break;
case (0x69): inst.LD_r1_r2(L, C); break;
case (0x6A): inst.LD_r1_r2(L, D); break;
case (0x6B): inst.LD_r1_r2(L, E); break;
case (0x6C): inst.LD_r1_r2(L, H); break;
case (0x6D): inst.LD_r1_r2(L, L); break;
case (0x6E): inst.LD_r1_r2(L, c_HL); break;
case (0x6F): inst.LD_n_A(L); break;
case (0x70): inst.LD_r1_r2(c_HL, B); break;
case (0x71): inst.LD_r1_r2(c_HL, C); break;
case (0x72): inst.LD_r1_r2(c_HL, D); break;
case (0x73): inst.LD_r1_r2(c_HL, E); break;
case (0x74): inst.LD_r1_r2(c_HL, H); break;
case (0x75): inst.LD_r1_r2(c_HL, L); break;
case (0x76): inst.HALT(); break;
case (0x77): inst.LD_n_A(c_HL); break;
case (0x78): inst.LD_A_n(B); break;
case (0x79): inst.LD_A_n(C); break;
case (0x7A): inst.LD_A_n(D); break;
case (0x7B): inst.LD_A_n(E); break;
case (0x7C): inst.LD_A_n(H); break;
case (0x7D): inst.LD_A_n(L); break;
case (0x7E): inst.LD_A_n(c_HL); break;
case (0x7F): inst.LD_n_A(A); break;
case (0x80): inst.ADD_A_n(B); break;
case (0x81): inst.ADD_A_n(C); break;
case (0x82): inst.ADD_A_n(D); break;
case (0x83): inst.ADD_A_n(E); break;
case (0x84): inst.ADD_A_n(H); break;
case (0x85): inst.ADD_A_n(L); break;
case (0x86): inst.ADD_A_n(c_HL); break;
case (0x87): inst.ADD_A_n(A); break;
case (0x88): inst.ADC_A_n(B); break;
case (0x89): inst.ADC_A_n(C); break;
case (0x8A): inst.ADC_A_n(D); break;
case (0x8B): inst.ADC_A_n(E); break;
case (0x8C): inst.ADC_A_n(H); break;
case (0x8D): inst.ADC_A_n(L); break;
case (0x8E): inst.ADC_A_n(c_HL); break;
case (0x8F): inst.ADC_A_n(A); break;
case (0x90): inst.SUB_n(B); break;
case (0x91): inst.SUB_n(C); break;
case (0x92): inst.SUB_n(D); break;
case (0x93): inst.SUB_n(E); break;
case (0x94): inst.SUB_n(H); break;
case (0x95): inst.SUB_n(L); break;
case (0x96): inst.SUB_n(c_HL); break;
case (0x97): inst.SUB_n(A); break;
case (0x98): inst.SBC_A(B); break;
case (0x99): inst.SBC_A(C); break;
case (0x9A): inst.SBC_A(D); break;
case (0x9B): inst.SBC_A(E); break;
case (0x9C): inst.SBC_A(H); break;
case (0x9D): inst.SBC_A(L); break;
case (0x9E): inst.SBC_A(c_HL); break;
case (0x9F): inst.SBC_A(A); break;
case (0xA0): inst.AND(B); break;
case (0xA1): inst.AND(C); break;
case (0xA2): inst.AND(D); break;
case (0xA3): inst.AND(E); break;
case (0xA4): inst.AND(H); break;
case (0xA5): inst.AND(L); break;
case (0xA6): inst.AND(c_HL); break;
case (0xA7): inst.AND(A); break;
case (0xA8): inst.XOR_n(B); break;
case (0xA9): inst.XOR_n(C); break;
case (0xAA): inst.XOR_n(D); break;
case (0xAB): inst.XOR_n(E); break;
case (0xAC): inst.XOR_n(H); break;
case (0xAD): inst.XOR_n(L); break;
case (0xAE): inst.XOR_n(c_HL); break;
case (0xAF): inst.XOR_n(A); break;
case (0xB0): inst.OR_n(B); break;
case (0xB1): inst.OR_n(C); break;
case (0xB2): inst.OR_n(D); break;
case (0xB3): inst.OR_n(E); break;
case (0xB4): inst.OR_n(H); break;
case (0xB5): inst.OR_n(L); break;
case (0xB6): inst.OR_n(c_HL); break;
case (0xB7): inst.OR_n(A); break;
case (0xB8): inst.CP_n(B); break;
case (0xB9): inst.CP_n(C); break;
case (0xBA): inst.CP_n(D); break;
case (0xBB): inst.CP_n(E); break;
case (0xBC): inst.CP_n(H); break;
case (0xBD): inst.CP_n(L); break;
case (0xBE): inst.CP_n(c_HL); break;
case (0xBF): inst.CP_n(A); break;
case (0xC0): inst.RET_cc(f_Z, 0); break;
case (0xC1): inst.POP_nn(BC); break;
case (0xC2): inst.JP_cc_nn(f_Z, 0); break;
case (0xC3): inst.JP_nn(); break;
case (0xC4): inst.CALL_cc_nn(f_Z, 0); break;
case (0xC5): inst.PUSH_nn(BC); break;
case (0xC6): inst.ADD_A_n($); break;
case (0xC7): inst.RST_n(0x00); break;
case (0xC8): inst.RET_cc(f_Z, 1); break;
case (0xC9): inst.RET(); break;
case (0xCA): inst.JP_cc_nn(f_Z, 1); break;
case (0xCB): OpCodeCB(&inst); break;
case (0xCC): inst.CALL_cc_nn(f_Z, 1); break;
case (0xCD): inst.CALL_nn(); break;
case (0xCE): inst.ADC_A_n($); break;
case (0xCF): inst.RST_n(0x08); break;
case (0xD0): inst.RET_cc(f_C, 0); break;
case (0xD1): inst.POP_nn(DE); break;
case (0xD2): inst.JP_cc_nn(f_C, 0); break;
case (0xD4): inst.CALL_cc_nn(f_C, 0); break;
case (0xD5): inst.PUSH_nn(DE); break;
case (0xD6): inst.SUB_n($); break;
case (0xD7): inst.RST_n(0x10); break;
case (0xD8): inst.RET_cc(f_C, 1); break;
case (0xD9): inst.RETI(); break;
case (0xDA): inst.JP_cc_nn(f_C, 1); break;
case (0xDC): inst.CALL_cc_nn(f_C, 1); break;
case (0xDE): inst.SBC_A($); break;
case (0xDF): inst.RST_n(0x18); break;
case (0xE0): inst.LDH_c$_A(); break;
case (0xE1): inst.POP_nn(HL); break;
case (0xE2): inst.LD_cC_A(); break;
case (0xE5): inst.PUSH_nn(HL); break;
case (0xE6): inst.AND($); break;
case (0xE7): inst.RST_n(0x20); break;
case (0xE8): inst.ADD_SP_n(); break;
case (0xE9): inst.JP_HL(); break;
case (0xEA): inst.LD_n_A(c_$$); break;
case (0xEE): inst.XOR_n($); break;
case (0xEF): inst.RST_n(0x28); break;
case (0xF0): inst.LDH_A_n(); break;
case (0xF1): inst.POP_nn(AF); break;
case (0xF2): inst.LD_A_cC(); break;
case (0xF3): inst.DI(); break;
case (0xF5): inst.PUSH_nn(AF); break;
case (0xF6): inst.OR_n($); break;
case (0xF7): inst.RST_n(0x30); break;
case (0xF8): inst.LDHL_SP_n(); break;
case (0xF9): inst.LD_SP_HL(); break;
case (0xFA): inst.LD_A_n(c_$$); break;
case (0xFB): inst.EI(); break;
case (0xFE): inst.CP_n($); break;
case (0xFF): inst.RST_n(0x38); break;
default:
stringstream out;
out << "Error, instruction not implemented: 0x";
out << setfill('0') << setw(2) << uppercase << hex << (int)OpCode << endl;
throw GBException(out.str());
}
if (OpCode == 0xCB)
lastCycles = instructionCyclesCB[NextOpcode];
else
lastCycles = instructionCycles[OpCode];
}
cyclesLCD += lastCycles;
cyclesTimer += lastCycles;
cyclesDIV += lastCycles;
actualCycles += lastCycles;
cyclesSerial += lastCycles;
UpdateStateLCD();
UpdateTimer();
UpdateSerial();
Interrupts(&inst);
}//end for
}
void CPU::OpCodeCB(Instructions * inst)
{
BYTE OpCode;
OpCode = MemR(Get_PC() + 1);
switch (OpCode)
{
case (0x00): inst->RLC_n(B); break;
case (0x01): inst->RLC_n(C); break;
case (0x02): inst->RLC_n(D); break;
case (0x03): inst->RLC_n(E); break;
case (0x04): inst->RLC_n(H); break;
case (0x05): inst->RLC_n(L); break;
case (0x06): inst->RLC_n(c_HL); break;
case (0x07): inst->RLC_n(A); break;
case (0x08): inst->RRC_n(B); break;
case (0x09): inst->RRC_n(C); break;
case (0x0A): inst->RRC_n(D); break;
case (0x0B): inst->RRC_n(E); break;
case (0x0C): inst->RRC_n(H); break;
case (0x0D): inst->RRC_n(L); break;
case (0x0E): inst->RRC_n(c_HL); break;
case (0x0F): inst->RRC_n(A); break;
case (0x10): inst->RL_n(B); break;
case (0x11): inst->RL_n(C); break;
case (0x12): inst->RL_n(D); break;
case (0x13): inst->RL_n(E); break;
case (0x14): inst->RL_n(H); break;
case (0x15): inst->RL_n(L); break;
case (0x16): inst->RL_n(c_HL); break;
case (0x17): inst->RL_n(A); break;
case (0x18): inst->RR_n(B); break;
case (0x19): inst->RR_n(C); break;
case (0x1A): inst->RR_n(D); break;
case (0x1B): inst->RR_n(E); break;
case (0x1C): inst->RR_n(H); break;
case (0x1D): inst->RR_n(L); break;
case (0x1E): inst->RR_n(c_HL); break;
case (0x1F): inst->RR_n(A); break;
case (0x20): inst->SLA_n(B); break;
case (0x21): inst->SLA_n(C); break;
case (0x22): inst->SLA_n(D); break;
case (0x23): inst->SLA_n(E); break;
case (0x24): inst->SLA_n(H); break;
case (0x25): inst->SLA_n(L); break;
case (0x26): inst->SLA_n(c_HL); break;
case (0x27): inst->SLA_n(A); break;
case (0x28): inst->SRA_n(B); break;
case (0x29): inst->SRA_n(C); break;
case (0x2A): inst->SRA_n(D); break;
case (0x2B): inst->SRA_n(E); break;
case (0x2C): inst->SRA_n(H); break;
case (0x2D): inst->SRA_n(L); break;
case (0x2E): inst->SRA_n(c_HL); break;
case (0x2F): inst->SRA_n(A); break;
case (0x30): inst->SWAP(B); break;
case (0x31): inst->SWAP(C); break;
case (0x32): inst->SWAP(D); break;
case (0x33): inst->SWAP(E); break;
case (0x34): inst->SWAP(H); break;
case (0x35): inst->SWAP(L); break;
case (0x36): inst->SWAP(c_HL); break;
case (0x37): inst->SWAP(A); break;
case (0x38): inst->SRL_n(B); break;
case (0x39): inst->SRL_n(C); break;
case (0x3A): inst->SRL_n(D); break;
case (0x3B): inst->SRL_n(E); break;
case (0x3C): inst->SRL_n(H); break;
case (0x3D): inst->SRL_n(L); break;
case (0x3E): inst->SRL_n(c_HL); break;
case (0x3F): inst->SRL_n(A); break;
case (0x40): inst->BIT_b_r(0, B); break;
case (0x41): inst->BIT_b_r(0, C); break;
case (0x42): inst->BIT_b_r(0, D); break;
case (0x43): inst->BIT_b_r(0, E); break;
case (0x44): inst->BIT_b_r(0, H); break;
case (0x45): inst->BIT_b_r(0, L); break;
case (0x46): inst->BIT_b_r(0, c_HL); break;
case (0x47): inst->BIT_b_r(0, A); break;
case (0x48): inst->BIT_b_r(1, B); break;
case (0x49): inst->BIT_b_r(1, C); break;
case (0x4A): inst->BIT_b_r(1, D); break;
case (0x4B): inst->BIT_b_r(1, E); break;
case (0x4C): inst->BIT_b_r(1, H); break;
case (0x4D): inst->BIT_b_r(1, L); break;
case (0x4E): inst->BIT_b_r(1, c_HL); break;
case (0x4F): inst->BIT_b_r(1, A); break;
case (0x50): inst->BIT_b_r(2, B); break;
case (0x51): inst->BIT_b_r(2, C); break;
case (0x52): inst->BIT_b_r(2, D); break;
case (0x53): inst->BIT_b_r(2, E); break;
case (0x54): inst->BIT_b_r(2, H); break;
case (0x55): inst->BIT_b_r(2, L); break;
case (0x56): inst->BIT_b_r(2, c_HL); break;
case (0x57): inst->BIT_b_r(2, A); break;
case (0x58): inst->BIT_b_r(3, B); break;
case (0x59): inst->BIT_b_r(3, C); break;
case (0x5A): inst->BIT_b_r(3, D); break;
case (0x5B): inst->BIT_b_r(3, E); break;
case (0x5C): inst->BIT_b_r(3, H); break;
case (0x5D): inst->BIT_b_r(3, L); break;
case (0x5E): inst->BIT_b_r(3, c_HL); break;
case (0x5F): inst->BIT_b_r(3, A); break;
case (0x60): inst->BIT_b_r(4, B); break;
case (0x61): inst->BIT_b_r(4, C); break;
case (0x62): inst->BIT_b_r(4, D); break;
case (0x63): inst->BIT_b_r(4, E); break;
case (0x64): inst->BIT_b_r(4, H); break;
case (0x65): inst->BIT_b_r(4, L); break;
case (0x66): inst->BIT_b_r(4, c_HL); break;
case (0x67): inst->BIT_b_r(4, A); break;
case (0x68): inst->BIT_b_r(5, B); break;
case (0x69): inst->BIT_b_r(5, C); break;
case (0x6A): inst->BIT_b_r(5, D); break;
case (0x6B): inst->BIT_b_r(5, E); break;
case (0x6C): inst->BIT_b_r(5, H); break;
case (0x6D): inst->BIT_b_r(5, L); break;
case (0x6E): inst->BIT_b_r(5, c_HL); break;
case (0x6F): inst->BIT_b_r(5, A); break;
case (0x70): inst->BIT_b_r(6, B); break;
case (0x71): inst->BIT_b_r(6, C); break;
case (0x72): inst->BIT_b_r(6, D); break;
case (0x73): inst->BIT_b_r(6, E); break;
case (0x74): inst->BIT_b_r(6, H); break;
case (0x75): inst->BIT_b_r(6, L); break;
case (0x76): inst->BIT_b_r(6, c_HL); break;
case (0x77): inst->BIT_b_r(6, A); break;
case (0x78): inst->BIT_b_r(7, B); break;
case (0x79): inst->BIT_b_r(7, C); break;
case (0x7A): inst->BIT_b_r(7, D); break;
case (0x7B): inst->BIT_b_r(7, E); break;
case (0x7C): inst->BIT_b_r(7, H); break;
case (0x7D): inst->BIT_b_r(7, L); break;
case (0x7E): inst->BIT_b_r(7, c_HL); break;
case (0x7F): inst->BIT_b_r(7, A); break;
case (0x80): inst->RES_b_r(0, B); break;
case (0x81): inst->RES_b_r(0, C); break;
case (0x82): inst->RES_b_r(0, D); break;
case (0x83): inst->RES_b_r(0, E); break;
case (0x84): inst->RES_b_r(0, H); break;
case (0x85): inst->RES_b_r(0, L); break;
case (0x86): inst->RES_b_r(0, c_HL); break;
case (0x87): inst->RES_b_r(0, A); break;
case (0x88): inst->RES_b_r(1, B); break;
case (0x89): inst->RES_b_r(1, C); break;
case (0x8A): inst->RES_b_r(1, D); break;
case (0x8B): inst->RES_b_r(1, E); break;
case (0x8C): inst->RES_b_r(1, H); break;
case (0x8D): inst->RES_b_r(1, L); break;
case (0x8E): inst->RES_b_r(1, c_HL); break;
case (0x8F): inst->RES_b_r(1, A); break;
case (0x90): inst->RES_b_r(2, B); break;
case (0x91): inst->RES_b_r(2, C); break;
case (0x92): inst->RES_b_r(2, D); break;
case (0x93): inst->RES_b_r(2, E); break;
case (0x94): inst->RES_b_r(2, H); break;
case (0x95): inst->RES_b_r(2, L); break;
case (0x96): inst->RES_b_r(2, c_HL); break;
case (0x97): inst->RES_b_r(2, A); break;
case (0x98): inst->RES_b_r(3, B); break;
case (0x99): inst->RES_b_r(3, C); break;
case (0x9A): inst->RES_b_r(3, D); break;
case (0x9B): inst->RES_b_r(3, E); break;
case (0x9C): inst->RES_b_r(3, H); break;
case (0x9D): inst->RES_b_r(3, L); break;
case (0x9E): inst->RES_b_r(3, c_HL); break;
case (0x9F): inst->RES_b_r(3, A); break;
case (0xA0): inst->RES_b_r(4, B); break;
case (0xA1): inst->RES_b_r(4, C); break;
case (0xA2): inst->RES_b_r(4, D); break;
case (0xA3): inst->RES_b_r(4, E); break;
case (0xA4): inst->RES_b_r(4, H); break;
case (0xA5): inst->RES_b_r(4, L); break;
case (0xA6): inst->RES_b_r(4, c_HL); break;
case (0xA7): inst->RES_b_r(4, A); break;
case (0xA8): inst->RES_b_r(5, B); break;
case (0xA9): inst->RES_b_r(5, C); break;
case (0xAA): inst->RES_b_r(5, D); break;
case (0xAB): inst->RES_b_r(5, E); break;
case (0xAC): inst->RES_b_r(5, H); break;
case (0xAD): inst->RES_b_r(5, L); break;
case (0xAE): inst->RES_b_r(5, c_HL); break;
case (0xAF): inst->RES_b_r(5, A); break;
case (0xB0): inst->RES_b_r(6, B); break;
case (0xB1): inst->RES_b_r(6, C); break;
case (0xB2): inst->RES_b_r(6, D); break;
case (0xB3): inst->RES_b_r(6, E); break;
case (0xB4): inst->RES_b_r(6, H); break;
case (0xB5): inst->RES_b_r(6, L); break;
case (0xB6): inst->RES_b_r(6, c_HL); break;
case (0xB7): inst->RES_b_r(6, A); break;
case (0xB8): inst->RES_b_r(7, B); break;
case (0xB9): inst->RES_b_r(7, C); break;
case (0xBA): inst->RES_b_r(7, D); break;
case (0xBB): inst->RES_b_r(7, E); break;
case (0xBC): inst->RES_b_r(7, H); break;
case (0xBD): inst->RES_b_r(7, L); break;
case (0xBE): inst->RES_b_r(7, c_HL); break;
case (0xBF): inst->RES_b_r(7, A); break;
case (0xC0): inst->SET_b_r(0, B); break;
case (0xC1): inst->SET_b_r(0, C); break;
case (0xC2): inst->SET_b_r(0, D); break;
case (0xC3): inst->SET_b_r(0, E); break;
case (0xC4): inst->SET_b_r(0, H); break;
case (0xC5): inst->SET_b_r(0, L); break;
case (0xC6): inst->SET_b_r(0, c_HL); break;
case (0xC7): inst->SET_b_r(0, A); break;
case (0xC8): inst->SET_b_r(1, B); break;
case (0xC9): inst->SET_b_r(1, C); break;
case (0xCA): inst->SET_b_r(1, D); break;
case (0xCB): inst->SET_b_r(1, E); break;
case (0xCC): inst->SET_b_r(1, H); break;
case (0xCD): inst->SET_b_r(1, L); break;
case (0xCE): inst->SET_b_r(1, c_HL); break;
case (0xCF): inst->SET_b_r(1, A); break;
case (0xD0): inst->SET_b_r(2, B); break;
case (0xD1): inst->SET_b_r(2, C); break;
case (0xD2): inst->SET_b_r(2, D); break;
case (0xD3): inst->SET_b_r(2, E); break;
case (0xD4): inst->SET_b_r(2, H); break;
case (0xD5): inst->SET_b_r(2, L); break;
case (0xD6): inst->SET_b_r(2, c_HL); break;
case (0xD7): inst->SET_b_r(2, A); break;
case (0xD8): inst->SET_b_r(3, B); break;
case (0xD9): inst->SET_b_r(3, C); break;
case (0xDA): inst->SET_b_r(3, D); break;
case (0xDB): inst->SET_b_r(3, E); break;
case (0xDC): inst->SET_b_r(3, H); break;
case (0xDD): inst->SET_b_r(3, L); break;
case (0xDE): inst->SET_b_r(3, c_HL); break;
case (0xDF): inst->SET_b_r(3, A); break;
case (0xE0): inst->SET_b_r(4, B); break;
case (0xE1): inst->SET_b_r(4, C); break;
case (0xE2): inst->SET_b_r(4, D); break;
case (0xE3): inst->SET_b_r(4, E); break;
case (0xE4): inst->SET_b_r(4, H); break;
case (0xE5): inst->SET_b_r(4, L); break;
case (0xE6): inst->SET_b_r(4, c_HL); break;
case (0xE7): inst->SET_b_r(4, A); break;
case (0xE8): inst->SET_b_r(5, B); break;
case (0xE9): inst->SET_b_r(5, C); break;
case (0xEA): inst->SET_b_r(5, D); break;
case (0xEB): inst->SET_b_r(5, E); break;
case (0xEC): inst->SET_b_r(5, H); break;
case (0xED): inst->SET_b_r(5, L); break;
case (0xEE): inst->SET_b_r(5, c_HL); break;
case (0xEF): inst->SET_b_r(5, A); break;
case (0xF0): inst->SET_b_r(6, B); break;
case (0xF1): inst->SET_b_r(6, C); break;
case (0xF2): inst->SET_b_r(6, D); break;
case (0xF3): inst->SET_b_r(6, E); break;
case (0xF4): inst->SET_b_r(6, H); break;
case (0xF5): inst->SET_b_r(6, L); break;
case (0xF6): inst->SET_b_r(6, c_HL); break;
case (0xF7): inst->SET_b_r(6, A); break;
case (0xF8): inst->SET_b_r(7, B); break;
case (0xF9): inst->SET_b_r(7, C); break;
case (0xFA): inst->SET_b_r(7, D); break;
case (0xFB): inst->SET_b_r(7, E); break;
case (0xFC): inst->SET_b_r(7, H); break;
case (0xFD): inst->SET_b_r(7, L); break;
case (0xFE): inst->SET_b_r(7, c_HL); break;
case (0xFF): inst->SET_b_r(7, A); break;
default:
stringstream out;
out << "Error, instruction not implemented: 0xCB";
out << setfill('0') << setw(2) << uppercase << hex << (int)OpCode << "\n";
throw GBException(out.str().data());
}
}
void CPU::FillInstructionCycles()
{
for (int i=0; i<0x100; i++)
instructionCycles[i] = 4;
instructionCycles[0x01] = 12;
instructionCycles[0x02] = 8;
instructionCycles[0x03] = 8;
instructionCycles[0x06] = 8;
instructionCycles[0x08] = 20;
instructionCycles[0x09] = 8;
instructionCycles[0x0A] = 8;
instructionCycles[0x0B] = 8;
instructionCycles[0x0E] = 8;
instructionCycles[0x11] = 12;
instructionCycles[0x12] = 8;
instructionCycles[0x13] = 8;
instructionCycles[0x16] = 8;
instructionCycles[0x18] = 8;
instructionCycles[0x19] = 8;
instructionCycles[0x1A] = 8;
instructionCycles[0x1B] = 8;
instructionCycles[0x1E] = 8;
instructionCycles[0x20] = 8;
instructionCycles[0x21] = 12;
instructionCycles[0x22] = 8;
instructionCycles[0x23] = 8;
instructionCycles[0x26] = 8;
instructionCycles[0x28] = 8;
instructionCycles[0x29] = 8;
instructionCycles[0x2A] = 8;
instructionCycles[0x2B] = 8;
instructionCycles[0x2E] = 8;
instructionCycles[0x30] = 8;
instructionCycles[0x31] = 12;
instructionCycles[0x32] = 8;
instructionCycles[0x33] = 8;
instructionCycles[0x34] = 12;
instructionCycles[0x35] = 12;
instructionCycles[0x36] = 12;
instructionCycles[0x38] = 8;
instructionCycles[0x39] = 8;
instructionCycles[0x3A] = 8;
instructionCycles[0x3B] = 8;
instructionCycles[0x3E] = 8;
instructionCycles[0x46] = 8;
instructionCycles[0x4E] = 8;
instructionCycles[0x56] = 8;
instructionCycles[0x5E] = 8;
instructionCycles[0x66] = 8;
instructionCycles[0x70] = 8;
instructionCycles[0x71] = 8;
instructionCycles[0x72] = 8;
instructionCycles[0x73] = 8;
instructionCycles[0x74] = 8;
instructionCycles[0x77] = 8;
instructionCycles[0x7E] = 8;
instructionCycles[0x86] = 8;
instructionCycles[0x8E] = 8;
instructionCycles[0x96] = 8;
instructionCycles[0x9E] = 8;
instructionCycles[0xA6] = 8;
instructionCycles[0xAE] = 8;
instructionCycles[0xB6] = 8;
instructionCycles[0xDE] = 8;
instructionCycles[0xC0] = 8;
instructionCycles[0xC1] = 12;
instructionCycles[0xC2] = 12;
instructionCycles[0xC3] = 12;
instructionCycles[0xC4] = 12;
instructionCycles[0xC5] = 16;
instructionCycles[0xC6] = 8;
instructionCycles[0xC7] = 32;
instructionCycles[0xC8] = 8;
instructionCycles[0xC9] = 8;
instructionCycles[0xCA] = 12;
instructionCycles[0xCC] = 12;
instructionCycles[0xCD] = 12;
instructionCycles[0xCE] = 8;
instructionCycles[0xCF] = 32;
instructionCycles[0xD0] = 8;
instructionCycles[0xD1] = 12;
instructionCycles[0xD2] = 12;
instructionCycles[0xD4] = 12;
instructionCycles[0xD5] = 16;
instructionCycles[0xD6] = 8;
instructionCycles[0xD7] = 32;
instructionCycles[0xD8] = 8;
instructionCycles[0xD9] = 8;
instructionCycles[0xDA] = 12;
instructionCycles[0xDC] = 12;
instructionCycles[0xDF] = 32;
instructionCycles[0xE0] = 12;
instructionCycles[0xE1] = 12;
instructionCycles[0xE2] = 8;
instructionCycles[0xE5] = 16;
instructionCycles[0xE6] = 8;
instructionCycles[0xE7] = 32;
instructionCycles[0xE8] = 16;
instructionCycles[0xEA] = 16;
instructionCycles[0xEE] = 8;
instructionCycles[0xEF] = 32;
instructionCycles[0xF0] = 12;
instructionCycles[0xF1] = 12;
instructionCycles[0xF2] = 8;
instructionCycles[0xF5] = 16;
instructionCycles[0xF6] = 8;
instructionCycles[0xF7] = 32;
instructionCycles[0xF8] = 12;
instructionCycles[0xF9] = 8;
instructionCycles[0xFA] = 16;
instructionCycles[0xFE] = 8;
instructionCycles[0xFF] = 32;
}
void CPU::FillInstructionCyclesCB()
{
for (int i=0; i<0x100; i++)
instructionCyclesCB[i] = 8;
instructionCyclesCB[0x06] = 16;
instructionCyclesCB[0x0E] = 16;
instructionCyclesCB[0x16] = 16;
instructionCyclesCB[0x1E] = 16;
instructionCyclesCB[0x26] = 16;
instructionCyclesCB[0x2E] = 16;
instructionCyclesCB[0x36] = 16;
instructionCyclesCB[0x3E] = 16;
instructionCyclesCB[0x46] = 12; //16?
instructionCyclesCB[0x4E] = 12; //16?
instructionCyclesCB[0x56] = 12; //16?
instructionCyclesCB[0x5E] = 12; //16?
instructionCyclesCB[0x66] = 12; //16?
instructionCyclesCB[0x6E] = 12; //16?
instructionCyclesCB[0x76] = 12; //16?
instructionCyclesCB[0x7E] = 12; //16?
instructionCyclesCB[0x86] = 16;
instructionCyclesCB[0x8E] = 16;
instructionCyclesCB[0x96] = 16;
instructionCyclesCB[0x9E] = 16;
instructionCyclesCB[0xA6] = 16;
instructionCyclesCB[0xAE] = 16;
instructionCyclesCB[0xB6] = 16;
instructionCyclesCB[0xBE] = 16;
instructionCyclesCB[0xC6] = 16;
instructionCyclesCB[0xCE] = 16;
instructionCyclesCB[0xD6] = 16;
instructionCyclesCB[0xDE] = 16;
instructionCyclesCB[0xE6] = 16;
instructionCyclesCB[0xEE] = 16;
instructionCyclesCB[0xF6] = 16;
instructionCyclesCB[0xFE] = 16;
}
void CPU::UpdatePad()
{
int interrupt = PadCheckKeyboard(&memory[P1]);
if (interrupt)
memory[IF] |= 0x10;
}
void CPU::UpdateStateLCD()
{
BYTE screenOn = BIT7(memory[LCDC]);
BYTE mode = BITS01(memory[STAT]);
switch (mode)
{
case (0): // Durante H-Blank
if (cyclesLCD >= MAX_LCD_MODE_0)
{
if (memory[LY] == 144) // Si estamos en la linea 144, cambiamos al modo 1 (V-Blank)
{
// Poner a 01 el flag (bits 0-1) del modo 1.
memory[STAT] = (memory[STAT] & ~0x03) | 0x01;
if (screenOn)
{
// Interrupcion V-Blank
memory[IF] |= 0x01;
// Si interrupcion V-Blank habilitada, marcar peticion de interrupcion
// en 0xFF0F. Bit 1, flag de interrupcion de LCD STAT.
if (BIT4(memory[STAT]))
memory[IF] |= 0x02;
}
}
else // Sino, cambiamos al modo 2
{
// Poner a 10 el flag (bits 0-1) del modo 2.
memory[STAT] = (memory[STAT] & ~0x03) | 0x02;
// Si interrupcion OAM habilitada, marcar peticion de interrupcion
// en 0xFF0F. Bit 1, flag de interrupcion de LCD STAT
if (BIT5(memory[STAT]) && screenOn)
memory[IF] |= 0x02;
v->UpdateLine(memory[LY]);
}
memory[LY]++;
CheckLYC();
cyclesLCD -= MAX_LCD_MODE_0;
}
break;
case (1): // Durante V-Blank
if (cyclesLCD >= MAX_LCD_MODE_1)
{
// Si hemos llegado al final
if (memory[LY] == 153)
{
memory[LY] = 0;
// Poner a 10 el flag (bits 0-1) del modo 2.
memory[STAT] = (memory[STAT] & ~0x03) | 0x02;
// Si interrupcion OAM habilitada, marcar peticion de interrupcion
// en 0xFF0F. Bit 1, flag de interrupcion de LCD STAT
if (BIT5(memory[STAT]) && screenOn)
memory[IF] |= 0x02;
OnEndFrame();
}
else
memory[LY]++;
CheckLYC();
cyclesLCD -= MAX_LCD_MODE_1;
}
break;
case (2): // Cuando OAM se esta usando
if (cyclesLCD >= MAX_LCD_MODE_2)
{
// Poner a 11 el flag (bits 0-1) del modo 3.
memory[STAT] = (memory[STAT] & ~0x03) | 0x03;
cyclesLCD -= MAX_LCD_MODE_2;
}
break;
case (3): // Cuando OAM y memoria de video se estan usando (Se esta pasando informacion al LCD)
if (cyclesLCD >= MAX_LCD_MODE_3)
{
// Poner a 00 el flag (bits 0-1) del modo 0.
memory[STAT] &= ~0x03;
// Si interrupcion H-Blank habilitada, marcar peticion de interrupcion
// en 0xFF0F. Bit 1, flag de interrupcion de LCD STAT
if (BIT3(memory[STAT]) && screenOn)
memory[IF] |= 0x02;
cyclesLCD -= MAX_LCD_MODE_3;
}
break;
}
}
inline void CPU::CheckLYC()
{
if (memory[LY] == memory[LYC])
{
memory[STAT] |= 0x04;
if (BIT6(memory[STAT]))
memory[IF] |= 0x02;
}
else
memory[STAT] &= ~0x04;
}
inline void CPU::UpdateSerial()
{
if (BIT7(memory[SC]) && BIT0(memory[SC]))
{
if (bitSerial < 0)
{
bitSerial = 0;
cyclesSerial = 0;
return;
}
if (cyclesSerial >= 512)
{
if (bitSerial > 7)
{
memory[SC] &= 0x7F;
memory[IF] |= 0x08;
bitSerial = -1;
return;
}
memory[SB] = memory[SB] << 1;
memory[SB] |= 0x01;
cyclesSerial -= 512;
bitSerial++;
}
}
}
void CPU::Interrupts(Instructions * inst)
{
if (!Get_IME())
return;
BYTE interrupts = memory[IE] & memory[IF];
if (!interrupts)
return;
Set_IME(false);
Set_Halt(false);
inst->PUSH_PC();
if (BIT0(interrupts)) //V-Blank
{
Set_PC(0x40);
memory[IF] &= ~0x01;
}
else if (BIT1(interrupts)) //LCD-Stat
{
Set_PC(0x48);
memory[IF] &= ~0x02;
}
else if (BIT2(interrupts)) //Timer
{
Set_PC(0x50);
memory[IF] &= ~0x04;
}
else if(BIT3(interrupts)) //Serial
{
Set_PC(0x58);
memory[IF] &= ~0x08;
}
else if (BIT4(interrupts)) //Joypad
{
Set_PC(0x60);
memory[IF] &= ~0x10;
}
}
void CPU::UpdateTimer()
{
// Estos serian los valores en Hz que puede tomar TAC:
// 4096, 262144, 65536, 16384
// En overflowTimer se encuentran estos valores en ciclos
// maquina
WORD overflowTimer[] = {1024, 16, 64, 256};
if (BIT2(memory[TAC])) //Si esta habilitado el timer
{
if (cyclesTimer >= overflowTimer[BITS01(memory[TAC])])
{
if (memory[TIMA] == 0xFF)
{
memory[TIMA] = memory[TMA];
memory[IF] |= 0x04;
}
else
memory[TIMA]++;
cyclesTimer = 0;
}
}
else
cyclesTimer = 0;
if (cyclesDIV >= 256)
{
memory[DIV]++;
cyclesDIV = 0;
}
}
void CPU::OnEndFrame()
{
v->RefreshScreen();
if (s)
s->EndFrame();
frameCompleted = true;
}
void CPU::SaveLog()
{
log->Save("log.txt");
}
void CPU::SaveState(string saveDirectory, int numSlot)
{
if (c == NULL)
{
throw GBException("There is not rom loaded. The process can't continue.");
}
stringstream st;
st << saveDirectory << c->GetName().c_str();
st << "-" << numSlot << ".sav";
string fileName = st.str();
ofstream * file = new ofstream(fileName.c_str(), ios::out|ios::binary|ios::trunc);
if (file && file->is_open())
{
int version = SAVE_STATE_VERSION;
file->write((char *)&version, sizeof(int));
file->write(c->GetName().c_str(), 16);
SaveRegs(file);
SaveMemory(file);
c->SaveMBC(file);
file->close();
}
if (file)
delete file;
}
void CPU::LoadState(string loadDirectory, int numSlot)
{
if (c == NULL)
{
throw GBException("There is not rom loaded. The process can't continue.");
}
stringstream st;
st << loadDirectory << c->GetName().c_str();
st << "-" << numSlot << ".sav";
string fileName = st.str();
ifstream * file = new ifstream(fileName.c_str(), ios::in|ios::binary);
if (file && file->is_open())
{
int version = 0;
file->read((char *)&version, sizeof(int));
if (version != SAVE_STATE_VERSION)
{
file->close();
delete file;
throw GBException("This filesave is not compatible and can't be loaded.");
}
char * buffer = new char[16];
file->read(buffer, 16);
string cartName = string(buffer, 16);
delete[] buffer;
if (cartName != c->GetName())
{
file->close();
delete file;
throw GBException("This filesave does not correspond to this rom and can't be loaded.");
}
LoadRegs(file);
LoadMemory(file);
c->LoadMBC(file);
file->close();
delete file;
}
else
{
if (file)
delete file;
throw GBException("Unable to open the filesave.");
}
}
|
08erikal-gbpaclone
|
src/CPU.cpp
|
C++
|
gpl3
| 37,611
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __SETTINGS_H__
#define __SETTINGS_H__
#include <string>
class Settings
{
public:
bool greenScale;
int windowZoom;
bool soundEnabled;
int soundSampleRate;
int padKeys[8];
std::string recentRoms[10];
public:
Settings();
};
Settings SettingsGetCopy();
bool SettingsGetGreenScale();
int SettingsGetWindowZoom();
bool SettingsGetSoundEnabled();
int SettingsGetSoundSampleRate();
int* SettingsGetInput();
std::string* SettingsGetRecentRoms();
void SettingsSetNewValues(Settings newSettings);
void SettingsSetGreenScale(bool greenScale);
void SettingsSetWindowZoom(int windowZoom);
void SettingsSetSoundEnabled(bool enabled);
void SettingsSetSoundSampleRate(int sampleRate);
void SettingsSetInput(const int* padKeys);
void SettingsSetRecentRoms(const std::string* recentRoms);
#endif
|
08erikal-gbpaclone
|
src/Settings.h
|
C++
|
gpl3
| 1,462
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "GBException.h"
using namespace std;
GBException::GBException(): exception()
{
newException("", GBUnknown);
}
GBException::GBException(string description): exception()
{
newException(description, GBUnknown);
}
GBException::GBException(string description, ExceptionType type): exception()
{
newException(description, type);
}
GBException::~GBException() throw()
{
}
ExceptionType GBException::GetType()
{
return type;
}
void GBException::newException(string description, ExceptionType type)
{
this->description = description;
this->type = type;
}
const char * GBException::what() const throw()
{
return description.c_str();
}
|
08erikal-gbpaclone
|
src/GBException.cpp
|
C++
|
gpl3
| 1,360
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __INSTRUCCIONES_H__
#define __INSTRUCCIONES_H__
#include "Registers.h"
#include "Memory.h"
class Instructions
{
private:
Registers *reg;
Memory *mem;
public:
Instructions(Registers *reg, Memory *mem);
~Instructions(void);
void ADC_A_n(e_registers place);
void ADD_A_n(e_registers place);
void ADD_HL_n(e_registers place);
void ADD_SP_n();
void AND(e_registers place);
void BIT_b_r(BYTE bit, e_registers place);
void CALL_nn();
void CALL_cc_nn(e_registers flag, BYTE value2check);
void CCF();
void CP_n(e_registers place);
void CPL();
void DAA();
void DEC_n(e_registers place);
void DEC_nn(e_registers place);
void DI();
void EI();
void HALT();
void INC_n(e_registers place);
void INC_nn(e_registers place);
void JP_nn();
void JP_cc_nn(e_registers flag, BYTE value2check);
void JP_HL();
void JR();
void JR_CC_n(e_registers flag, BYTE value2check);
void LDD_A_cHL();
void LDD_cHL_A();
void LDH_c$_A();
void LDH_A_n();
void LDHL_SP_n();
void LDI_A_cHL();
void LDI_cHL_A();
void LD_n_A(e_registers place);
void LD_n_nn(e_registers place);
void LD_nn_n(e_registers place);
void LD_A_n(e_registers place);
void LD_A_cC();
void LD_cC_A();
void LD_nn_SP();
void LD_r1_r2(e_registers e_reg1, e_registers e_reg2);
void LD_SP_HL();
void NOP();
void OR_n(e_registers place);
void POP_nn(e_registers place);
void PUSH_nn(e_registers place);
void PUSH_PC();
void RES_b_r(BYTE bit, e_registers place);
void RET();
void RETI();
void RET_cc(e_registers flag, BYTE value2check);
void RL_n(e_registers place);
//void RLA();
void RLCA();
void RLC_n(e_registers place);
void RR_n(e_registers place);
void RRC_n(e_registers place);
//void RRCA();
void RST_n(BYTE desp);
void SBC_A(e_registers place);
void SET_b_r(BYTE bit, e_registers place);
void SCF();
void SLA_n(e_registers place);
void SRA_n(e_registers place);
void SRL_n(e_registers place);
void STOP();
void SUB_n(e_registers place);
void SWAP(e_registers place);
void XOR_n(e_registers place);
};
#endif
|
08erikal-gbpaclone
|
src/Instructions.h
|
C++
|
gpl3
| 2,823
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <iostream>
#include "Video.h"
using namespace std;
Video::Video(IGBScreenDrawable * screen)
{
this->pixel = new VideoPixel();
this->screen = screen;
}
Video::~Video(void)
{
}
void Video::SetMem(Memory *mem)
{
this->mem = mem;
}
void Video::UpdateLine(BYTE y)
{
screen->OnPreDraw();
OrderOAM(y);
UpdateBG(y);
UpdateWin(y);
UpdateOAM(y);
screen->OnPostDraw();
}
void Video::RefreshScreen()
{
screen->OnRefreshScreen();
}
void Video::ClearScreen()
{
screen->OnClear();
}
void Video::UpdateBG(int y)
{
int x, yScrolled;
BYTE valueLCDC, valueSCX;
bool display;
valueLCDC = mem->memory[LCDC];
valueSCX = mem->memory[SCX];
display = BIT7(valueLCDC) && BIT0(valueLCDC);
//Si el LCD o Background desactivado
//pintamos la linea de blanco
if (!display)
{
for (x=0; x<GB_SCREEN_W; x++)
screen->OnDrawPixel(3, x, y);
return;
}
//Seleccionar el tile map
pixel->mapIni = BIT3(valueLCDC) ? 0x9C00 : 0x9800;
GetPalette(pixel->palette, BGP);
yScrolled = (y + mem->memory[SCY]);
if (yScrolled < 0)
yScrolled += 256;
else if (yScrolled > 255)
yScrolled -= 256;
pixel->yTile = yScrolled % 8;
pixel->rowMap = (yScrolled/8 * 32);
pixel->tileDataSelect = BIT4(valueLCDC);
for (x=0; x<GB_SCREEN_W; x++)
{
pixel->x = x;
pixel->xScrolled = (x + valueSCX);
if (pixel->xScrolled > 255)
pixel->xScrolled -= 256;
GetColor(pixel);
screen->OnDrawPixel(pixel->color, x, y);
indexColorsBGWnd[x][y] = pixel->indexColor;
}
}
void Video::UpdateWin(int y)
{
int x, wndPosX, xIni, yScrolled;
WORD wndPosY;
//Si la ventana esta desactivada no hacemos nada
if (!BIT5(mem->memory[LCDC]))
return;
wndPosX = mem->memory[WX] - 7;
wndPosY = mem->memory[WY];
if (y < wndPosY)
return;
if (wndPosX < 0) xIni = 0;
else if (wndPosX > GB_SCREEN_W) xIni = GB_SCREEN_W;
else xIni = wndPosX;
GetPalette(pixel->palette, BGP);
pixel->mapIni = BIT6(mem->memory[LCDC]) ? 0x9C00 : 0x9800;
yScrolled = y - wndPosY;
pixel->yTile = yScrolled % 8;
pixel->rowMap = yScrolled/8 * 32;
pixel->tileDataSelect = BIT4(mem->memory[LCDC]);
pixel->y = y;
for (x=xIni; x<GB_SCREEN_W; x++)
{
pixel->x = x;
pixel->xScrolled = x - wndPosX;
GetColor(pixel);
screen->OnDrawPixel(pixel->color, x, y);
indexColorsBGWnd[x][y] = pixel->indexColor;
}
}
inline void Video::GetColor(VideoPixel * p)
{
BYTE xTile, line[2];
WORD idTile, dirTile;
idTile = p->mapIni + (p->rowMap + p->xScrolled/8);
if (!p->tileDataSelect) //Seleccionar el tile data
{
//0x8800 = 0x9000 - (128 * 16)
dirTile = (WORD)(0x9000 + ((char)mem->memory[idTile])*16); //Se multiplica por 16 porque cada tile ocupa 16 bytes
}
else
{
dirTile = 0x8000 + mem->memory[idTile]*16;
}
xTile = p->xScrolled % 8;
line[0] = mem->memory[dirTile + (p->yTile * 2)]; //yTile * 2 porque cada linea de 1 tile ocupa 2 bytes
line[1] = mem->memory[dirTile + (p->yTile * 2) + 1];
BYTE pixX = (BYTE)abs((int)xTile - 7);
//Un pixel lo componen 2 bits. Seleccionar la posicion del bit en los dos bytes (line[0] y line[1])
//Esto devolvera un numero de color que junto a la paleta de color nos dara el color requerido
p->indexColor = (((line[1] & (0x01 << pixX)) >> pixX) << 1) | ((line[0] & (0x01 << pixX)) >> pixX);
p->color = p->palette[p->indexColor];
}
void Video::OrderOAM(int y)
{
int ySprite, hSprite, dir;
orderedOAM.clear();
if (!BIT1(mem->memory[LCDC])) //OAM desactivado
return;
hSprite = BIT2(mem->memory[LCDC]) ? 16 : 8;
for(dir=0xFE00; dir<0xFEA0; dir+=0x04)
{
ySprite = mem->memory[dir];
ySprite -= 16; //y en pantalla
if ((ySprite > y-hSprite) && (ySprite <= y))
orderedOAM.insert(pair<int, int>(mem->memory[dir+1], dir));
}
}
void Video::UpdateOAM(int y)
{
int x, xSprite, numSpritesLine, xBeg;
int attrSprite, xTile, yTile, xFlip, yFlip, countX, countY, behind, mode16, ySprite;
WORD dirSprite, tileNumber, dirTile;
int color;
int palette0[4], palette1[4];
BYTE line[2];
if (!BIT1(mem->memory[LCDC])) //OAM desactivado
return;
mode16 = BIT2(mem->memory[LCDC]);
GetPalette(palette0, OBP0);
GetPalette(palette1, OBP1);
multimap<int, int>::iterator it;
numSpritesLine = 0;
for (it=orderedOAM.begin(); (it != orderedOAM.end()) && (numSpritesLine < 10); it++)
{
numSpritesLine++;
dirSprite = (*it).second;
ySprite = mem->memory[dirSprite] - 16; //=mem->MemR(dirSprite + 0);
xSprite = (*it).first - 8; //=mem->MemR(dirSprite + 1);
if (xSprite == -8)
continue;
tileNumber = mem->memory[dirSprite + 2];
if (mode16)
tileNumber = tileNumber & 0xFE;
//!!!!!!!!!Si toca la parte de abajo del tile de 8x16 hay que sumar uno (tileNumber | 0x01)
attrSprite = mem->memory[dirSprite + 3];
dirTile = 0x8000 + tileNumber*16;
xFlip = BIT5(attrSprite);
yFlip = BIT6(attrSprite);
behind = BIT7(attrSprite);
xTile = countX = countY = 0;
yTile = y - ySprite;
countY = yTile;
if (yFlip)
yTile = abs(yTile - (mode16 ? 15 : 7));
if (xSprite>0)
{
xBeg = xSprite;
countX = 0;
}
else
{
xBeg = 0;
countX = abs(xSprite);
}
for (x=xBeg; ((x<xSprite+8) && (x<GB_SCREEN_W)); x++)
{
xTile = xFlip ? abs(countX - 7) : countX;
line[0] = mem->memory[dirTile + (yTile * 2)]; //yTile * 2 porque cada linea de 1 tile ocupa 2 bytes
line[1] = mem->memory[dirTile + (yTile * 2) + 1];
int pixX = abs((int)xTile - 7);
//Un pixel lo componen 2 bits. Seleccionar la posicion del bit en los dos bytes (line[0] y line[1])
//Esto devolvera un numero de color que junto a la paleta de color nos dara el color requerido
BYTE index = (((line[1] & (0x01 << pixX)) >> pixX) << 1) | ((line[0] & (0x01 << pixX)) >> pixX);
//El 0 es transparente (no pintar)
if ((index) && ((!behind) || (!indexColorsBGWnd[xSprite + countX][ySprite + countY])))
{
//color = !BIT4(attrSprite) ? palette0[index] : palette1[index];
if (!BIT4(attrSprite))
color = palette0[index];
else
color = palette1[index];
screen->OnDrawPixel(color, xSprite + countX, ySprite + countY);
}
countX++;
}
}
}
void Video::GetPalette(int * palette, int dir)
{
BYTE paletteData = mem->memory[dir];
palette[0] = abs((int)(BITS01(paletteData) - 3));
palette[1] = abs((int)((BITS23(paletteData) >> 2) - 3));
palette[2] = abs((int)((BITS45(paletteData) >> 4) - 3));
palette[3] = abs((int)((BITS67(paletteData) >> 6) - 3));
}
|
08erikal-gbpaclone
|
src/Video.cpp
|
C++
|
gpl3
| 7,341
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __VIDEO_H__
#define __VIDEO_H__
#include "map"
#include "Def.h"
#include "Memory.h"
#include "IGBScreenDrawable.h"
struct VideoPixel
{
int x, y;
int rowMap, tileDataSelect;
int color, indexColor, xScrolled;
int palette[4];
WORD mapIni;
BYTE yTile;
};
class Video
{
private:
Memory *mem;
std::multimap<int, int> orderedOAM; //posicion x, dir. memoria
int indexColorsBGWnd[GB_SCREEN_W][GB_SCREEN_H]; //Indice de color en pantalla pintadas por background y window
IGBScreenDrawable * screen;
VideoPixel * pixel;
public:
Video(IGBScreenDrawable * screen);
~Video(void);
void SetMem(Memory *mem);
void RefreshScreen();
void ClearScreen();
void UpdateLine(BYTE line);
private:
void UpdateBG(int line);
void UpdateWin(int line);
void OrderOAM(int line);
void UpdateOAM(int line);
inline void GetColor(VideoPixel * p);
void GetPalette(int * palette, int dir);
};
#endif
|
08erikal-gbpaclone
|
src/Video.h
|
C++
|
gpl3
| 1,611
|
// Simplified Nintendo Game Boy PAPU sound chip emulator
// Gb_Snd_Emu 0.1.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef BASIC_GB_APU_H
#define BASIC_GB_APU_H
#include "gb_apu/Gb_Apu.h"
#include "gb_apu/Multi_Buffer.h"
class Basic_Gb_Apu {
public:
Basic_Gb_Apu();
~Basic_Gb_Apu();
// Set output sample rate
blargg_err_t set_sample_rate( long rate );
// Pass reads and writes in the range 0xff10-0xff3f
void write_register( gb_addr_t, int data );
int read_register( gb_addr_t );
// End a 1/60 sound frame and add samples to buffer
void end_frame();
// Samples are generated in stereo, left first. Sample counts are always
// a multiple of 2.
// Number of samples in buffer
long samples_avail() const;
// Read at most 'count' samples out of buffer and return number actually read
typedef blip_sample_t sample_t;
long read_samples( sample_t* out, long count );
private:
Gb_Apu apu;
Stereo_Buffer buf;
blip_time_t time;
// faked CPU timing
blip_time_t clock() { return time += 4; }
};
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Basic_Gb_Apu.h
|
C++
|
gpl3
| 1,051
|
// Gb_Snd_Emu 0.1.4. http://www.slack.net/~ant/libs/
#include "Wave_Writer.h"
#include <assert.h>
#include <stdlib.h>
/* Copyright (C) 2003-2005 by Shay Green. Permission is hereby granted, free
of charge, to any person obtaining a copy of this software and associated
documentation files (the "Software"), to deal in the Software without
restriction, including without limitation the rights to use, copy, modify,
merge, publish, distribute, sublicense, and/or sell copies of the Software, and
to permit persons to whom the Software is furnished to do so, subject to the
following conditions: The above copyright notice and this permission notice
shall be included in all copies or substantial portions of the Software. THE
SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
const int header_size = 0x2C;
static void exit_with_error( const char* str ) {
fprintf( stderr, "Error: %s\n", str );
exit( EXIT_FAILURE );
}
Wave_Writer::Wave_Writer( long sample_rate, const char* filename )
{
sample_count_ = 0;
rate = sample_rate;
buf_pos = header_size;
stereo( 0 );
buf = new unsigned char [buf_size];
if ( !buf )
exit_with_error( "Out of memory" );
file = fopen( filename, "wb" );
if ( !file )
exit_with_error( "Couldn't open WAVE file for writing" );
}
void Wave_Writer::flush()
{
if ( buf_pos && !fwrite( buf, buf_pos, 1, file ) )
exit_with_error( "Couldn't write WAVE data" );
buf_pos = 0;
}
void Wave_Writer::write( const sample_t* in, long remain, int skip )
{
sample_count_ += remain;
while ( remain )
{
if ( buf_pos >= buf_size )
flush();
long n = (unsigned long) (buf_size - buf_pos) / sizeof (sample_t);
if ( n > remain )
n = remain;
remain -= n;
// convert to lsb first format
unsigned char* p = &buf [buf_pos];
while ( n-- )
{
int s = *in;
in += skip;
*p++ = (unsigned char) s;
*p++ = (unsigned char) (s >> 8);
}
buf_pos = p - buf;
assert( buf_pos <= buf_size );
}
}
void Wave_Writer::write( const float* in, long remain, int skip )
{
sample_count_ += remain;
while ( remain )
{
if ( buf_pos >= buf_size )
flush();
long n = (unsigned long) (buf_size - buf_pos) / sizeof (sample_t);
if ( n > remain )
n = remain;
remain -= n;
// convert to lsb first format
unsigned char* p = &buf [buf_pos];
while ( n-- )
{
long s = *in * 0x7fff;
in += skip;
if ( (short) s != s )
s = 0x7fff - (s >> 24); // clamp to 16 bits
*p++ = (unsigned char) s;
*p++ = (unsigned char) (s >> 8);
}
buf_pos = p - buf;
assert( buf_pos <= buf_size );
}
}
Wave_Writer::~Wave_Writer()
{
flush();
// generate header
long ds = sample_count_ * sizeof (sample_t);
long rs = header_size - 8 + ds;
int frame_size = chan_count * sizeof (sample_t);
long bps = rate * frame_size;
unsigned char header [header_size] = {
'R','I','F','F',
rs,rs>>8, // length of rest of file
rs>>16,rs>>24,
'W','A','V','E',
'f','m','t',' ',
0x10,0,0,0, // size of fmt chunk
1,0, // uncompressed format
chan_count,0, // channel count
rate,rate >> 8, // sample rate
rate>>16,rate>>24,
bps,bps>>8, // bytes per second
bps>>16,bps>>24,
frame_size,0, // bytes per sample frame
16,0, // bits per sample
'd','a','t','a',
ds,ds>>8,ds>>16,ds>>24// size of sample data
// ... // sample data
};
// write header
fseek( file, 0, SEEK_SET );
fwrite( header, sizeof header, 1, file );
fclose( file );
delete [] buf;
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Wave_Writer.cpp
|
C++
|
gpl3
| 3,941
|
// Private oscillators used by Gb_Apu
// Gb_Snd_Emu 0.1.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef GB_OSCS_H
#define GB_OSCS_H
#include "Blip_Buffer.h"
enum { gb_apu_max_vol = 7 };
struct Gb_Osc {
Blip_Buffer* outputs [4]; // NULL, right, left, center
Blip_Buffer* output;
int output_select;
int delay;
int last_amp;
int period;
int volume;
int global_volume;
int frequency;
int length;
int new_length;
bool enabled;
bool length_enabled;
Gb_Osc();
void clock_length();
void reset();
virtual void run( gb_time_t begin, gb_time_t end ) = 0;
virtual void write_register( int reg, int value );
};
struct Gb_Env : Gb_Osc {
int env_period;
int env_dir;
int env_delay;
int new_volume;
Gb_Env();
void reset();
void clock_envelope();
void write_register( int, int );
};
struct Gb_Square : Gb_Env {
int phase;
int duty;
int sweep_period;
int sweep_delay;
int sweep_shift;
int sweep_dir;
int sweep_freq;
bool has_sweep;
typedef Blip_Synth<blip_good_quality,15 * gb_apu_max_vol * 2> Synth;
const Synth* synth;
Gb_Square();
void reset();
void run( gb_time_t, gb_time_t );
void write_register( int, int );
void clock_sweep();
};
struct Gb_Wave : Gb_Osc {
int volume_shift;
unsigned wave_pos;
enum { wave_size = 32 };
bool new_enabled;
BOOST::uint8_t wave [wave_size];
typedef Blip_Synth<blip_med_quality,15 * gb_apu_max_vol * 2> Synth;
const Synth* synth;
Gb_Wave();
void reset();
void run( gb_time_t, gb_time_t );
void write_register( int, int );
};
struct Gb_Noise : Gb_Env {
unsigned bits;
int tap;
typedef Blip_Synth<blip_med_quality,15 * gb_apu_max_vol * 2> Synth;
const Synth* synth;
Gb_Noise();
void reset();
void run( gb_time_t, gb_time_t );
void write_register( int, int );
};
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Gb_Oscs.h
|
C
|
gpl3
| 1,795
|
// Nintendo Game Boy PAPU sound chip emulator
// Gb_Snd_Emu 0.1.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef GB_APU_H
#define GB_APU_H
typedef long gb_time_t; // clock cycle count
typedef unsigned gb_addr_t; // 16-bit address
#include "Gb_Oscs.h"
class Gb_Apu {
public:
Gb_Apu();
~Gb_Apu();
// Set overall volume of all oscillators, where 1.0 is full volume
void volume( double );
// Set treble equalization
void treble_eq( const blip_eq_t& );
// Reset oscillators and internal state
void reset();
// Assign all oscillator outputs to specified buffer(s). If buffer
// is NULL, silence all oscillators.
void output( Blip_Buffer* mono );
void output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
// Assign single oscillator output to buffer(s). Valid indicies are 0 to 3,
// which refer to Square 1, Square 2, Wave, and Noise.
// If buffer is NULL, silence oscillator.
enum { osc_count = 4 };
void osc_output( int index, Blip_Buffer* mono );
void osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
// Reads and writes at addr must satisfy start_addr <= addr <= end_addr
enum { start_addr = 0xff10 };
enum { end_addr = 0xff3f };
enum { register_count = end_addr - start_addr + 1 };
// Write 'data' to address at specified time
void write_register( gb_time_t, gb_addr_t, int data );
// Read from address at specified time
int read_register( gb_time_t, gb_addr_t );
// Run all oscillators up to specified time, end current time frame, then
// start a new frame at time 0. Return true if any oscillators added
// sound to one of the left/right buffers, false if they only added
// to the center buffer.
bool end_frame( gb_time_t );
private:
// noncopyable
Gb_Apu( const Gb_Apu& );
Gb_Apu& operator = ( const Gb_Apu& );
Gb_Osc* oscs [osc_count];
gb_time_t next_frame_time;
gb_time_t last_time;
int frame_count;
bool stereo_found;
Gb_Square square1;
Gb_Square square2;
Gb_Wave wave;
Gb_Noise noise;
BOOST::uint8_t regs [register_count];
Gb_Square::Synth square_synth; // shared between squares
Gb_Wave::Synth other_synth; // shared between wave and noise
void run_until( gb_time_t );
};
inline void Gb_Apu::output( Blip_Buffer* b ) { output( b, NULL, NULL ); }
inline void Gb_Apu::osc_output( int i, Blip_Buffer* b ) { osc_output( i, b, NULL, NULL ); }
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Gb_Apu.h
|
C++
|
gpl3
| 2,450
|
// Blip_Buffer 0.3.4. http://www.slack.net/~ant/libs/
#include "Multi_Buffer.h"
/* Copyright (C) 2003-2005 Shay Green. This module is free software; you
can redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version. This
module is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
more details. You should have received a copy of the GNU Lesser General
Public License along with this module; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include BLARGG_SOURCE_BEGIN
Multi_Buffer::Multi_Buffer( int spf ) : samples_per_frame_( spf )
{
length_ = 0;
sample_rate_ = 0;
channels_changed_count_ = 1;
}
blargg_err_t Multi_Buffer::set_channel_count( int )
{
return blargg_success;
}
Mono_Buffer::Mono_Buffer() : Multi_Buffer( 1 )
{
}
Mono_Buffer::~Mono_Buffer()
{
}
blargg_err_t Mono_Buffer::set_sample_rate( long rate, int msec )
{
BLARGG_RETURN_ERR( buf.set_sample_rate( rate, msec ) );
return Multi_Buffer::set_sample_rate( buf.sample_rate(), buf.length() );
}
// Silent_Buffer
Silent_Buffer::Silent_Buffer() : Multi_Buffer( 1 ) // 0 channels would probably confuse
{
chan.left = NULL;
chan.center = NULL;
chan.right = NULL;
}
// Mono_Buffer
Mono_Buffer::channel_t Mono_Buffer::channel( int index )
{
channel_t ch;
ch.center = &buf;
ch.left = &buf;
ch.right = &buf;
return ch;
}
void Mono_Buffer::end_frame( blip_time_t t, bool )
{
buf.end_frame( t );
}
// Stereo_Buffer
Stereo_Buffer::Stereo_Buffer() : Multi_Buffer( 2 )
{
chan.center = &bufs [0];
chan.left = &bufs [1];
chan.right = &bufs [2];
}
Stereo_Buffer::~Stereo_Buffer()
{
}
blargg_err_t Stereo_Buffer::set_sample_rate( long rate, int msec )
{
for ( int i = 0; i < buf_count; i++ )
BLARGG_RETURN_ERR( bufs [i].set_sample_rate( rate, msec ) );
return Multi_Buffer::set_sample_rate( bufs [0].sample_rate(), bufs [0].length() );
}
void Stereo_Buffer::clock_rate( long rate )
{
for ( int i = 0; i < buf_count; i++ )
bufs [i].clock_rate( rate );
}
void Stereo_Buffer::bass_freq( int bass )
{
for ( unsigned i = 0; i < buf_count; i++ )
bufs [i].bass_freq( bass );
}
void Stereo_Buffer::clear()
{
stereo_added = false;
was_stereo = false;
for ( int i = 0; i < buf_count; i++ )
bufs [i].clear();
}
void Stereo_Buffer::end_frame( blip_time_t clock_count, bool stereo )
{
for ( unsigned i = 0; i < buf_count; i++ )
bufs [i].end_frame( clock_count );
stereo_added |= stereo;
}
long Stereo_Buffer::read_samples( blip_sample_t* out, long count )
{
require( !(count & 1) ); // count must be even
count = (unsigned) count / 2;
long avail = bufs [0].samples_avail();
if ( count > avail )
count = avail;
if ( count )
{
if ( stereo_added || was_stereo )
{
mix_stereo( out, count );
bufs [0].remove_samples( count );
bufs [1].remove_samples( count );
bufs [2].remove_samples( count );
}
else
{
mix_mono( out, count );
bufs [0].remove_samples( count );
bufs [1].remove_silence( count );
bufs [2].remove_silence( count );
}
// to do: this might miss opportunities for optimization
if ( !bufs [0].samples_avail() ) {
was_stereo = stereo_added;
stereo_added = false;
}
}
return count * 2;
}
#include BLARGG_ENABLE_OPTIMIZER
void Stereo_Buffer::mix_stereo( blip_sample_t* out, long count )
{
Blip_Reader left;
Blip_Reader right;
Blip_Reader center;
left.begin( bufs [1] );
right.begin( bufs [2] );
int bass = center.begin( bufs [0] );
while ( count-- )
{
int c = center.read();
long l = c + left.read();
long r = c + right.read();
center.next( bass );
out [0] = l;
out [1] = r;
out += 2;
if ( (BOOST::int16_t) l != l )
out [-2] = 0x7FFF - (l >> 24);
left.next( bass );
right.next( bass );
if ( (BOOST::int16_t) r != r )
out [-1] = 0x7FFF - (r >> 24);
}
center.end( bufs [0] );
right.end( bufs [2] );
left.end( bufs [1] );
}
void Stereo_Buffer::mix_mono( blip_sample_t* out, long count )
{
Blip_Reader in;
int bass = in.begin( bufs [0] );
while ( count-- )
{
long s = in.read();
in.next( bass );
out [0] = s;
out [1] = s;
out += 2;
if ( (BOOST::int16_t) s != s ) {
s = 0x7FFF - (s >> 24);
out [-2] = s;
out [-1] = s;
}
}
in.end( bufs [0] );
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Multi_Buffer.cpp
|
C++
|
gpl3
| 4,590
|
// Multi-channel sound buffer interface, and basic mono and stereo buffers
// Blip_Buffer 0.3.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef MULTI_BUFFER_H
#define MULTI_BUFFER_H
#include "Blip_Buffer.h"
// Interface to one or more Blip_Buffers mapped to one or more channels
// consisting of left, center, and right buffers.
class Multi_Buffer {
public:
Multi_Buffer( int samples_per_frame );
virtual ~Multi_Buffer() { }
// Set the number of channels available
virtual blargg_err_t set_channel_count( int );
// Get indexed channel, from 0 to channel count - 1
struct channel_t {
Blip_Buffer* center;
Blip_Buffer* left;
Blip_Buffer* right;
};
virtual channel_t channel( int index ) = 0;
// See Blip_Buffer.h
virtual blargg_err_t set_sample_rate( long rate, int msec = blip_default_length ) = 0;
virtual void clock_rate( long ) = 0;
virtual void bass_freq( int ) = 0;
virtual void clear() = 0;
long sample_rate() const;
// Length of buffer, in milliseconds
int length() const;
// See Blip_Buffer.h. For optimal operation, pass false for 'added_stereo'
// if nothing was added to the left and right buffers of any channel for
// this time frame.
virtual void end_frame( blip_time_t, bool added_stereo = true ) = 0;
// Number of samples per output frame (1 = mono, 2 = stereo)
int samples_per_frame() const;
// Count of changes to channel configuration. Incremented whenever
// a change is made to any of the Blip_Buffers for any channel.
unsigned channels_changed_count() { return channels_changed_count_; }
// See Blip_Buffer.h
virtual long read_samples( blip_sample_t*, long ) = 0;
virtual long samples_avail() const = 0;
protected:
void channels_changed() { channels_changed_count_++; }
private:
// noncopyable
Multi_Buffer( const Multi_Buffer& );
Multi_Buffer& operator = ( const Multi_Buffer& );
unsigned channels_changed_count_;
long sample_rate_;
int length_;
int const samples_per_frame_;
};
// Uses a single buffer and outputs mono samples.
class Mono_Buffer : public Multi_Buffer {
Blip_Buffer buf;
public:
Mono_Buffer();
~Mono_Buffer();
// Buffer used for all channels
Blip_Buffer* center() { return &buf; }
// See Multi_Buffer
blargg_err_t set_sample_rate( long rate, int msec = blip_default_length );
void clock_rate( long );
void bass_freq( int );
void clear();
channel_t channel( int );
void end_frame( blip_time_t, bool unused = true );
long samples_avail() const;
long read_samples( blip_sample_t*, long );
};
// Uses three buffers (one for center) and outputs stereo sample pairs.
class Stereo_Buffer : public Multi_Buffer {
public:
Stereo_Buffer();
~Stereo_Buffer();
// Buffers used for all channels
Blip_Buffer* center() { return &bufs [0]; }
Blip_Buffer* left() { return &bufs [1]; }
Blip_Buffer* right() { return &bufs [2]; }
// See Multi_Buffer
blargg_err_t set_sample_rate( long, int msec = blip_default_length );
void clock_rate( long );
void bass_freq( int );
void clear();
channel_t channel( int index );
void end_frame( blip_time_t, bool added_stereo = true );
long samples_avail() const;
long read_samples( blip_sample_t*, long );
private:
enum { buf_count = 3 };
Blip_Buffer bufs [buf_count];
channel_t chan;
bool stereo_added;
bool was_stereo;
void mix_stereo( blip_sample_t*, long );
void mix_mono( blip_sample_t*, long );
};
// Silent_Buffer generates no samples, useful where no sound is wanted
class Silent_Buffer : public Multi_Buffer {
channel_t chan;
public:
Silent_Buffer();
blargg_err_t set_sample_rate( long rate, int msec = blip_default_length );
void clock_rate( long ) { }
void bass_freq( int ) { }
void clear() { }
channel_t channel( int ) { return chan; }
void end_frame( blip_time_t, bool unused = true ) { }
long samples_avail() const { return 0; }
long read_samples( blip_sample_t*, long ) { return 0; }
};
// End of public interface
inline blargg_err_t Silent_Buffer::set_sample_rate( long rate, int msec )
{
return Multi_Buffer::set_sample_rate( rate, msec );
}
inline blargg_err_t Multi_Buffer::set_sample_rate( long rate, int msec )
{
sample_rate_ = rate;
length_ = msec;
return blargg_success;
}
inline int Multi_Buffer::samples_per_frame() const { return samples_per_frame_; }
inline long Stereo_Buffer::samples_avail() const { return bufs [0].samples_avail() * 2; }
inline Stereo_Buffer::channel_t Stereo_Buffer::channel( int index ) { return chan; }
inline long Multi_Buffer::sample_rate() const { return sample_rate_; }
inline int Multi_Buffer::length() const { return length_; }
inline void Mono_Buffer::clock_rate( long rate ) { buf.clock_rate( rate ); }
inline void Mono_Buffer::clear() { buf.clear(); }
inline void Mono_Buffer::bass_freq( int freq ) { buf.bass_freq( freq ); }
inline long Mono_Buffer::read_samples( blip_sample_t* p, long s ) { return buf.read_samples( p, s ); }
inline long Mono_Buffer::samples_avail() const { return buf.samples_avail(); }
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Multi_Buffer.h
|
C++
|
gpl3
| 5,017
|
// Sets up common environment for Shay Green's libraries.
//
// Don't modify this file directly; #define HAVE_CONFIG_H and put your
// configuration into "config.h".
// Copyright (C) 2004-2005 Shay Green.
#ifndef BLARGG_COMMON_H
#define BLARGG_COMMON_H
// Allow prefix configuration file *which can re-include blargg_common.h*
// (probably indirectly).
#ifdef HAVE_CONFIG_H
#undef BLARGG_COMMON_H
#include "config.h"
#define BLARGG_COMMON_H
#endif
// Source files use #include BLARGG_ENABLE_OPTIMIZER before performance-critical code
#ifndef BLARGG_ENABLE_OPTIMIZER
#define BLARGG_ENABLE_OPTIMIZER "blargg_common.h"
#endif
// Source files have #include BLARGG_SOURCE_BEGIN at the beginning
#ifndef BLARGG_SOURCE_BEGIN
#define BLARGG_SOURCE_BEGIN "blargg_source.h"
#endif
// Determine compiler's language support
#if defined (__MWERKS__)
// Metrowerks CodeWarrior
#define BLARGG_COMPILER_HAS_NAMESPACE 1
#if !__option(bool)
#define BLARGG_COMPILER_HAS_BOOL 0
#endif
#elif defined (_MSC_VER)
// Microsoft Visual C++
#if _MSC_VER < 1100
#define BLARGG_COMPILER_HAS_BOOL 0
#endif
#elif defined (__GNUC__)
// GNU C++
#define BLARGG_COMPILER_HAS_NAMESPACE 1
#define BLARGG_COMPILER_HAS_BOOL 1
#elif defined (__MINGW32__)
// Mingw?
#define BLARGG_COMPILER_HAS_BOOL 1
#elif __cplusplus < 199711
// Pre-ISO C++ compiler
#define BLARGG_COMPILER_HAS_BOOL 0
#define STATIC_CAST( type ) (type)
#endif
// STATIC_CAST(T) (expr) -> static_cast< T > (expr)
#ifndef STATIC_CAST
#define STATIC_CAST( type ) static_cast< type >
#endif
// Set up boost
#include "boost/config.hpp"
#ifndef BOOST_MINIMAL
#define BOOST boost
#ifndef BLARGG_COMPILER_HAS_NAMESPACE
#define BLARGG_COMPILER_HAS_NAMESPACE 1
#endif
#ifndef BLARGG_COMPILER_HAS_BOOL
#define BLARGG_COMPILER_HAS_BOOL 1
#endif
#endif
// Bool support
#ifndef BLARGG_COMPILER_HAS_BOOL
#define BLARGG_COMPILER_HAS_BOOL 1
#elif !BLARGG_COMPILER_HAS_BOOL
typedef int bool;
const bool true = 1;
const bool false = 0;
#endif
// Set up namespace support
#ifndef BLARGG_COMPILER_HAS_NAMESPACE
#define BLARGG_COMPILER_HAS_NAMESPACE 0
#endif
#ifndef BLARGG_USE_NAMESPACE
#define BLARGG_USE_NAMESPACE BLARGG_COMPILER_HAS_NAMESPACE
#endif
#ifndef BOOST
#if BLARGG_USE_NAMESPACE
#define BOOST boost
#else
#define BOOST
#endif
#endif
#undef BLARGG_BEGIN_NAMESPACE
#undef BLARGG_END_NAMESPACE
#if BLARGG_USE_NAMESPACE
#define BLARGG_BEGIN_NAMESPACE( name ) namespace name {
#define BLARGG_END_NAMESPACE }
#else
#define BLARGG_BEGIN_NAMESPACE( name )
#define BLARGG_END_NAMESPACE
#endif
#if BLARGG_USE_NAMESPACE
#define STD std
#else
#define STD
#endif
// BOOST::uint8_t, BOOST::int16_t, etc.
#include "boost/cstdint.hpp"
// BOOST_STATIC_ASSERT( expr )
#include "boost/static_assert.hpp"
// Common standard headers
#if BLARGG_COMPILER_HAS_NAMESPACE
#include <cstddef>
#include <cassert>
#else
#include <stddef.h>
#include <assert.h>
#endif
// blargg_err_t (NULL on success, otherwise error string)
typedef const char* blargg_err_t;
const blargg_err_t blargg_success = 0;
// BLARGG_NEW is used in place of 'new' to create objects. By default,
// plain new is used.
#ifndef BLARGG_NEW
#define BLARGG_NEW new
#endif
// BLARGG_BIG_ENDIAN and BLARGG_LITTLE_ENDIAN
// Only needed if modules are used which must know byte order.
#if !defined (BLARGG_BIG_ENDIAN) && !defined (BLARGG_LITTLE_ENDIAN)
#if defined (__powerc) || defined (macintosh)
#define BLARGG_BIG_ENDIAN 1
#elif defined (_MSC_VER) && defined (_M_IX86)
#define BLARGG_LITTLE_ENDIAN 1
#endif
#endif
// BLARGG_NONPORTABLE (allow use of nonportable optimizations/features)
#ifndef BLARGG_NONPORTABLE
#define BLARGG_NONPORTABLE 0
#endif
#ifdef BLARGG_MOST_PORTABLE
#error "BLARGG_MOST_PORTABLE has been removed; use BLARGG_NONPORTABLE."
#endif
// BLARGG_CPU_*
#if !defined (BLARGG_CPU_POWERPC) && !defined (BLARGG_CPU_X86)
#if defined (__powerc)
#define BLARGG_CPU_POWERPC 1
#elif defined (_MSC_VER) && defined (_M_IX86)
#define BLARGG_CPU_X86 1
#endif
#endif
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/blargg_common.h
|
C
|
gpl3
| 4,052
|
// Blip_Buffer 0.3.4. http://www.slack.net/~ant/libs/
#include "Blip_Buffer.h"
#include <string.h>
#include <stddef.h>
#include <math.h>
/* Copyright (C) 2003-2005 Shay Green. This module is free software; you
can redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version. This
module is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
more details. You should have received a copy of the GNU Lesser General
Public License along with this module; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include BLARGG_SOURCE_BEGIN
Blip_Buffer::Blip_Buffer()
{
samples_per_sec = 44100;
buffer_ = NULL;
// try to cause assertion failure if buffer is used before these are set
clocks_per_sec = 0;
factor_ = ~0ul;
offset_ = 0;
buffer_size_ = 0;
length_ = 0;
bass_freq_ = 16;
}
void Blip_Buffer::clear( bool entire_buffer )
{
long count = (entire_buffer ? buffer_size_ : samples_avail());
offset_ = 0;
reader_accum = 0;
if ( buffer_ )
memset( buffer_, sample_offset_ & 0xFF, (count + widest_impulse_) * sizeof (buf_t_) );
}
blargg_err_t Blip_Buffer::set_sample_rate( long new_rate, int msec )
{
unsigned new_size = (ULONG_MAX >> BLIP_BUFFER_ACCURACY) + 1 - widest_impulse_ - 64;
if ( msec != blip_default_length )
{
size_t s = (new_rate * (msec + 1) + 999) / 1000;
if ( s < new_size )
new_size = s;
else
require( false ); // requested buffer length exceeds limit
}
if ( buffer_size_ != new_size )
{
delete [] buffer_;
buffer_ = NULL; // allow for exception in allocation below
buffer_size_ = 0;
offset_ = 0;
int const count_clocks_extra = 2;
buffer_ = BLARGG_NEW buf_t_ [new_size + widest_impulse_ + count_clocks_extra];
BLARGG_CHECK_ALLOC( buffer_ );
}
buffer_size_ = new_size;
length_ = new_size * 1000 / new_rate - 1;
if ( msec )
assert( length_ == msec ); // ensure length is same as that passed in
samples_per_sec = new_rate;
if ( clocks_per_sec )
clock_rate( clocks_per_sec ); // recalculate factor
bass_freq( bass_freq_ ); // recalculate shift
clear();
return blargg_success;
}
blip_resampled_time_t Blip_Buffer::clock_rate_factor( long clock_rate ) const
{
blip_resampled_time_t factor = (unsigned long) floor(
(double) samples_per_sec / clock_rate * (1L << BLIP_BUFFER_ACCURACY) + 0.5 );
require( factor > 0 ); // clock_rate/sample_rate ratio is too large
return factor;
}
Blip_Buffer::~Blip_Buffer()
{
delete [] buffer_;
}
void Blip_Buffer::bass_freq( int freq )
{
bass_freq_ = freq;
if ( freq == 0 )
{
bass_shift = 31; // 32 or greater invokes undefined behavior elsewhere
return;
}
bass_shift = 1 + (int) floor( 1.442695041 * log( 0.124 * samples_per_sec / freq ) );
if ( bass_shift < 0 )
bass_shift = 0;
if ( bass_shift > 24 )
bass_shift = 24;
}
long Blip_Buffer::count_samples( blip_time_t t ) const
{
return (resampled_time( t ) >> BLIP_BUFFER_ACCURACY) - (offset_ >> BLIP_BUFFER_ACCURACY);
}
blip_time_t Blip_Buffer::count_clocks( long count ) const
{
if ( count > buffer_size_ )
count = buffer_size_;
return ((count << BLIP_BUFFER_ACCURACY) - offset_ + (factor_ - 1)) / factor_;
}
void Blip_Impulse_::init( blip_pair_t_* imps, int w, int r, int fb )
{
fine_bits = fb;
width = w;
impulses = (imp_t*) imps;
generate = true;
volume_unit_ = -1.0;
res = r;
buf = NULL;
impulse = &impulses [width * res * 2 * (fine_bits ? 2 : 1)];
offset = 0;
}
const int impulse_bits = 15;
const long impulse_amp = 1L << impulse_bits;
const long impulse_offset = impulse_amp / 2;
void Blip_Impulse_::scale_impulse( int unit, imp_t* imp_in ) const
{
long offset = ((long) unit << impulse_bits) - impulse_offset * unit +
(1 << (impulse_bits - 1));
imp_t* imp = imp_in;
imp_t* fimp = impulse;
for ( int n = res / 2 + 1; n--; )
{
int error = unit;
for ( int nn = width; nn--; )
{
long a = ((long) *fimp++ * unit + offset) >> impulse_bits;
error -= a - unit;
*imp++ = (imp_t) a;
}
// add error to middle
imp [-width / 2 - 1] += (imp_t) error;
}
if ( res > 2 )
{
// second half is mirror-image
const imp_t* rev = imp - width - 1;
for ( int nn = (res / 2 - 1) * width - 1; nn--; )
*imp++ = *--rev;
*imp++ = (imp_t) unit;
}
// copy to odd offset
*imp++ = (imp_t) unit;
memcpy( imp, imp_in, (res * width - 1) * sizeof *imp );
/*
for ( int i = 0; i < res; i++ )
{
for ( int j = 0; j < width; j++ )
printf( "%6d,", imp_in [i * width + j] - 0x8000 );
printf( "\n" );
}*/
}
const int max_res = 1 << blip_res_bits_;
void Blip_Impulse_::fine_volume_unit()
{
// to do: find way of merging in-place without temporary buffer
imp_t temp [max_res * 2 * Blip_Buffer::widest_impulse_];
scale_impulse( (offset & 0xffff) << fine_bits, temp );
imp_t* imp2 = impulses + res * 2 * width;
scale_impulse( offset & 0xffff, imp2 );
// merge impulses
imp_t* imp = impulses;
imp_t* src2 = temp;
for ( int n = res / 2 * 2 * width; n--; )
{
*imp++ = *imp2++;
*imp++ = *imp2++;
*imp++ = *src2++;
*imp++ = *src2++;
}
}
void Blip_Impulse_::volume_unit( double new_unit )
{
if ( new_unit == volume_unit_ )
return;
if ( generate )
treble_eq( blip_eq_t( -8.87, 8800, 44100 ) );
volume_unit_ = new_unit;
offset = 0x10001 * (unsigned long) floor( volume_unit_ * 0x10000 + 0.5 );
if ( fine_bits )
fine_volume_unit();
else
scale_impulse( offset & 0xffff, impulses );
}
static const double pi = 3.1415926535897932384626433832795029L;
void Blip_Impulse_::treble_eq( const blip_eq_t& new_eq )
{
if ( !generate && new_eq.treble == eq.treble && new_eq.cutoff == eq.cutoff &&
new_eq.sample_rate == eq.sample_rate )
return; // already calculated with same parameters
generate = false;
eq = new_eq;
double treble = pow( 10.0, 1.0 / 20 * eq.treble ); // dB (-6dB = 0.50)
if ( treble < 0.000005 )
treble = 0.000005;
const double treble_freq = 22050.0; // treble level at 22 kHz harmonic
const double sample_rate = eq.sample_rate;
const double pt = treble_freq * 2 / sample_rate;
double cutoff = eq.cutoff * 2 / sample_rate;
if ( cutoff >= pt * 0.95 || cutoff >= 0.95 )
{
cutoff = 0.5;
treble = 1.0;
}
// DSF Synthesis (See T. Stilson & J. Smith (1996),
// Alias-free digital synthesis of classic analog waveforms)
// reduce adjacent impulse interference by using small part of wide impulse
const double n_harm = 4096;
const double rolloff = pow( treble, 1.0 / (n_harm * pt - n_harm * cutoff) );
const double rescale = 1.0 / pow( rolloff, n_harm * cutoff );
const double pow_a_n = rescale * pow( rolloff, n_harm );
const double pow_a_nc = rescale * pow( rolloff, n_harm * cutoff );
double total = 0.0;
const double to_angle = pi / 2 / n_harm / max_res;
float buf [max_res * (Blip_Buffer::widest_impulse_ - 2) / 2];
const int size = max_res * (width - 2) / 2;
for ( int i = size; i--; )
{
double angle = (i * 2 + 1) * to_angle;
// equivalent
//double y = dsf( angle, n_harm * cutoff, 1.0 );
//y -= rescale * dsf( angle, n_harm * cutoff, rolloff );
//y += rescale * dsf( angle, n_harm, rolloff );
const double cos_angle = cos( angle );
const double cos_nc_angle = cos( n_harm * cutoff * angle );
const double cos_nc1_angle = cos( (n_harm * cutoff - 1.0) * angle );
double b = 2.0 - 2.0 * cos_angle;
double a = 1.0 - cos_angle - cos_nc_angle + cos_nc1_angle;
double d = 1.0 + rolloff * (rolloff - 2.0 * cos_angle);
double c = pow_a_n * rolloff * cos( (n_harm - 1.0) * angle ) -
pow_a_n * cos( n_harm * angle ) -
pow_a_nc * rolloff * cos_nc1_angle +
pow_a_nc * cos_nc_angle;
// optimization of a / b + c / d
double y = (a * d + c * b) / (b * d);
// fixed window which affects wider impulses more
if ( width > 12 )
{
double window = cos( n_harm / 1.25 / Blip_Buffer::widest_impulse_ * angle );
y *= window * window;
}
total += (float) y;
buf [i] = (float) y;
}
// integrate runs of length 'max_res'
double factor = impulse_amp * 0.5 / total; // 0.5 accounts for other mirrored half
imp_t* imp = impulse;
const int step = max_res / res;
int offset = res > 1 ? max_res : max_res / 2;
for ( int n = res / 2 + 1; n--; offset -= step )
{
for ( int w = -width / 2; w < width / 2; w++ )
{
double sum = 0;
for ( int i = max_res; i--; )
{
int index = w * max_res + offset + i;
if ( index < 0 )
index = -index - 1;
if ( index < size )
sum += buf [index];
}
*imp++ = (imp_t) floor( sum * factor + (impulse_offset + 0.5) );
}
}
// rescale
double unit = volume_unit_;
if ( unit >= 0 )
{
volume_unit_ = -1;
volume_unit( unit );
}
}
void Blip_Buffer::remove_samples( long count )
{
require( buffer_ ); // sample rate must have been set
if ( !count ) // optimization
return;
remove_silence( count );
// Allows synthesis slightly past time passed to end_frame(), as long as it's
// not more than an output sample.
// to do: kind of hacky, could add run_until() which keeps track of extra synthesis
int const copy_extra = 1;
// copy remaining samples to beginning and clear old samples
long remain = samples_avail() + widest_impulse_ + copy_extra;
if ( count >= remain )
memmove( buffer_, buffer_ + count, remain * sizeof (buf_t_) );
else
memcpy( buffer_, buffer_ + count, remain * sizeof (buf_t_) );
memset( buffer_ + remain, sample_offset_ & 0xFF, count * sizeof (buf_t_) );
}
#include BLARGG_ENABLE_OPTIMIZER
long Blip_Buffer::read_samples( blip_sample_t* out, long max_samples, bool stereo )
{
require( buffer_ ); // sample rate must have been set
long count = samples_avail();
if ( count > max_samples )
count = max_samples;
if ( !count )
return 0; // optimization
int sample_offset_ = this->sample_offset_;
int bass_shift = this->bass_shift;
buf_t_* buf = buffer_;
long accum = reader_accum;
if ( !stereo )
{
for ( long n = count; n--; )
{
long s = accum >> accum_fract;
accum -= accum >> bass_shift;
accum += (long (*buf++) - sample_offset_) << accum_fract;
*out++ = (blip_sample_t) s;
// clamp sample
if ( (BOOST::int16_t) s != s )
out [-1] = blip_sample_t (0x7FFF - (s >> 24));
}
}
else
{
for ( long n = count; n--; )
{
long s = accum >> accum_fract;
accum -= accum >> bass_shift;
accum += (long (*buf++) - sample_offset_) << accum_fract;
*out = (blip_sample_t) s;
out += 2;
// clamp sample
if ( (BOOST::int16_t) s != s )
out [-2] = blip_sample_t (0x7FFF - (s >> 24));
}
}
reader_accum = accum;
remove_samples( count );
return count;
}
void Blip_Buffer::mix_samples( const blip_sample_t* in, long count )
{
buf_t_* buf = &buffer_ [(offset_ >> BLIP_BUFFER_ACCURACY) + (widest_impulse_ / 2 - 1)];
int prev = 0;
while ( count-- )
{
int s = *in++;
*buf += s - prev;
prev = s;
++buf;
}
*buf -= *--in;
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Blip_Buffer.cpp
|
C++
|
gpl3
| 11,198
|
// Gb_Snd_Emu 0.1.4. http://www.slack.net/~ant/libs/
#include "Gb_Apu.h"
#include <string.h>
/* Copyright (C) 2003-2005 Shay Green. This module is free software; you
can redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version. This
module is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
more details. You should have received a copy of the GNU Lesser General
Public License along with this module; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include BLARGG_SOURCE_BEGIN
const int trigger = 0x80;
// Gb_Osc
Gb_Osc::Gb_Osc()
{
output = NULL;
outputs [0] = NULL;
outputs [1] = NULL;
outputs [2] = NULL;
outputs [3] = NULL;
}
void Gb_Osc::reset()
{
delay = 0;
last_amp = 0;
period = 2048;
volume = 0;
global_volume = 7; // added
frequency = 0;
length = 0;
enabled = false;
length_enabled = false;
output_select = 3;
output = outputs [output_select];
}
void Gb_Osc::clock_length()
{
if ( length_enabled && length )
--length;
}
void Gb_Osc::write_register( int reg, int value )
{
if ( reg == 4 )
length_enabled = value & 0x40;
}
// Gb_Env
void Gb_Env::reset()
{
env_period = 0;
env_dir = 0;
env_delay = 0;
new_volume = 0;
Gb_Osc::reset();
}
Gb_Env::Gb_Env()
{
}
void Gb_Env::clock_envelope()
{
if ( env_delay && !--env_delay )
{
env_delay = env_period;
if ( env_dir )
{
if ( volume < 15 )
++volume;
}
else if ( volume > 0 )
{
--volume;
}
}
}
void Gb_Env::write_register( int reg, int value )
{
if ( reg == 2 ) {
env_period = value & 7;
env_dir = value & 8;
volume = new_volume = value >> 4;
}
else if ( reg == 4 && (value & trigger) ) {
env_delay = env_period;
volume = new_volume;
enabled = true;
}
Gb_Osc::write_register( reg, value );
}
// Gb_Square
void Gb_Square::reset()
{
phase = 1;
duty = 1;
sweep_period = 0;
sweep_delay = 0;
sweep_shift = 0;
sweep_dir = 0;
sweep_freq = 0;
new_length = 0;
Gb_Env::reset();
}
Gb_Square::Gb_Square()
{
has_sweep = false;
}
void Gb_Square::clock_sweep()
{
if ( sweep_period && sweep_delay && !--sweep_delay )
{
sweep_delay = sweep_period;
frequency = sweep_freq;
period = (2048 - frequency) * 4;
int offset = sweep_freq >> sweep_shift;
if ( sweep_dir )
offset = -offset;
sweep_freq += offset;
if ( sweep_freq < 0 )
{
sweep_freq = 0;
}
else if ( sweep_freq >= 2048 )
{
sweep_delay = 0;
sweep_freq = 2048; // stop sound output
}
}
}
void Gb_Square::write_register( int reg, int value )
{
static unsigned char const duty_table [4] = { 1, 2, 4, 6 };
switch ( reg )
{
case 0:
sweep_period = (value >> 4) & 7; // changed
sweep_shift = value & 7;
sweep_dir = value & 0x08;
break;
case 1:
new_length = length = 64 - (value & 0x3f);
duty = duty_table [value >> 6];
break;
case 3:
frequency = (frequency & ~0xFF) + value;
length = new_length;
break;
case 4:
frequency = (value & 7) * 0x100 + (frequency & 0xFF);
length = new_length;
if ( value & trigger )
{
sweep_freq = frequency;
if ( has_sweep && sweep_period && sweep_shift )
{
sweep_delay = 1;
clock_sweep();
}
}
break;
}
period = (2048 - frequency) * 4;
Gb_Env::write_register( reg, value );
}
void Gb_Square::run( gb_time_t time, gb_time_t end_time )
{
// to do: when frequency goes above 20000 Hz output should actually be 1/2 volume
// rather than 0
if ( !enabled || (!length && length_enabled) || !volume || sweep_freq == 2048 ||
!frequency || period < 27 )
{
if ( last_amp )
{
synth->offset( time, -last_amp, output );
last_amp = 0;
}
delay = 0;
}
else
{
int amp = (phase < duty) ? volume : -volume;
amp *= global_volume;
if ( amp != last_amp )
{
synth->offset( time, amp - last_amp, output );
last_amp = amp;
}
time += delay;
if ( time < end_time )
{
Blip_Buffer* const output = this->output;
const int duty = this->duty;
int phase = this->phase;
amp *= 2;
do
{
phase = (phase + 1) & 7;
if ( phase == 0 || phase == duty )
{
amp = -amp;
synth->offset_inline( time, amp, output );
}
time += period;
}
while ( time < end_time );
this->phase = phase;
last_amp = amp >> 1;
}
delay = time - end_time;
}
}
// Gb_Wave
void Gb_Wave::reset()
{
volume_shift = 0;
wave_pos = 0;
new_length = 0;
memset( wave, 0, sizeof wave );
Gb_Osc::reset();
}
Gb_Wave::Gb_Wave() {
}
void Gb_Wave::write_register( int reg, int value )
{
switch ( reg )
{
case 0:
new_enabled = value & 0x80;
enabled &= new_enabled;
break;
case 1:
new_length = length = 256 - value;
break;
case 2:
volume = ((value >> 5) & 3);
volume_shift = (volume - 1) & 7; // silence = 7
break;
case 3:
frequency = (frequency & ~0xFF) + value;
break;
case 4:
frequency = (value & 7) * 0x100 + (frequency & 0xFF);
if ( new_enabled && (value & trigger) )
{
wave_pos = 0;
length = new_length;
enabled = true;
}
break;
}
period = (2048 - frequency) * 2;
Gb_Osc::write_register( reg, value );
}
void Gb_Wave::run( gb_time_t time, gb_time_t end_time )
{
// to do: when frequency goes above 20000 Hz output should actually be 1/2 volume
// rather than 0
if ( !enabled || (!length && length_enabled) || !volume || !frequency || period < 7 )
{
if ( last_amp ) {
synth->offset( time, -last_amp, output );
last_amp = 0;
}
delay = 0;
}
else
{
int const vol_factor = global_volume * 2;
// wave data or shift may have changed
int diff = (wave [wave_pos] >> volume_shift) * vol_factor - last_amp;
if ( diff )
{
last_amp += diff;
synth->offset( time, diff, output );
}
time += delay;
if ( time < end_time )
{
int const volume_shift = this->volume_shift;
int wave_pos = this->wave_pos;
do
{
wave_pos = unsigned (wave_pos + 1) % wave_size;
int amp = (wave [wave_pos] >> volume_shift) * vol_factor;
int delta = amp - last_amp;
if ( delta )
{
last_amp = amp;
synth->offset_inline( time, delta, output );
}
time += period;
}
while ( time < end_time );
this->wave_pos = wave_pos;
}
delay = time - end_time;
}
}
// Gb_Noise
void Gb_Noise::reset()
{
bits = 1;
tap = 14;
Gb_Env::reset();
}
Gb_Noise::Gb_Noise() {
}
void Gb_Noise::write_register( int reg, int value )
{
if ( reg == 1 ) {
new_length = length = 64 - (value & 0x3f);
}
else if ( reg == 2 ) {
// based on VBA code, noise is the only exception to the envelope code
// while the volume level here is applied when the channel is enabled,
// current volume is only affected by writes to this register if volume
// is zero and direction is up... (definitely needs verification)
int temp = volume;
Gb_Env::write_register( reg, value );
if ( ( value & 0xF8 ) != 0 ) volume = temp;
return;
}
else if ( reg == 3 ) {
tap = 14 - (value & 8);
// noise formula and frequency tested against Metroid 2 and Zelda LA
int divisor = (value & 7) * 16;
if ( !divisor )
divisor = 8;
period = divisor << (value >> 4);
}
else if ( reg == 4 && value & trigger ) {
bits = ~0u;
length = new_length;
}
Gb_Env::write_register( reg, value );
}
#include BLARGG_ENABLE_OPTIMIZER
void Gb_Noise::run( gb_time_t time, gb_time_t end_time )
{
if ( !enabled || (!length && length_enabled) || !volume ) {
if ( last_amp ) {
synth->offset( time, -last_amp, output );
last_amp = 0;
}
delay = 0;
}
else
{
int amp = bits & 1 ? -volume : volume;
amp *= global_volume;
if ( amp != last_amp ) {
synth->offset( time, amp - last_amp, output );
last_amp = amp;
}
time += delay;
if ( time < end_time )
{
Blip_Buffer* const output = this->output;
// keep parallel resampled time to eliminate multiplication in the loop
const blip_resampled_time_t resampled_period =
output->resampled_duration( period );
blip_resampled_time_t resampled_time = output->resampled_time( time );
const unsigned mask = ~(1u << tap);
unsigned bits = this->bits;
amp *= 2;
do {
unsigned feedback = bits;
bits >>= 1;
feedback = 1 & (feedback ^ bits);
time += period;
bits = (feedback << tap) | (bits & mask);
// feedback just happens to be true only when the level needs to change
// (the previous and current bits are different)
if ( feedback ) {
amp = -amp;
synth->offset_resampled( resampled_time, amp, output );
}
resampled_time += resampled_period;
}
while ( time < end_time );
this->bits = bits;
last_amp = amp >> 1;
}
delay = time - end_time;
}
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Gb_Oscs.cpp
|
C++
|
gpl3
| 8,971
|
// Buffer of sound samples into which band-limited waveforms can be synthesized
// using Blip_Wave or Blip_Synth.
// Blip_Buffer 0.3.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef BLIP_BUFFER_H
#define BLIP_BUFFER_H
#include "blargg_common.h"
class Blip_Reader;
// Source time unit.
typedef long blip_time_t;
// Type of sample produced. Signed 16-bit format.
typedef BOOST::int16_t blip_sample_t;
// Make buffer as large as possible (currently about 65000 samples)
const int blip_default_length = 0;
typedef unsigned long blip_resampled_time_t; // not documented
class Blip_Buffer {
public:
// Construct an empty buffer.
Blip_Buffer();
~Blip_Buffer();
// Set output sample rate and buffer length in milliseconds (1/1000 sec),
// then clear buffer. If length is not specified, make as large as possible.
// If there is insufficient memory for the buffer, sets the buffer length
// to 0 and returns error string (or propagates exception if compiler supports it).
blargg_err_t set_sample_rate( long samples_per_sec, int msec_length = blip_default_length );
// Length of buffer, in milliseconds
int length() const;
// Current output sample rate
long sample_rate() const;
// Number of source time units per second
void clock_rate( long );
long clock_rate() const;
// Set frequency at which high-pass filter attenuation passes -3dB
void bass_freq( int frequency );
// Remove all available samples and clear buffer to silence. If 'entire_buffer' is
// false, just clear out any samples waiting rather than the entire buffer.
void clear( bool entire_buffer = true );
// End current time frame of specified duration and make its samples available
// (along with any still-unread samples) for reading with read_samples(). Begin
// a new time frame at the end of the current frame. All transitions must have
// been added before 'time'.
void end_frame( blip_time_t time );
// Number of samples available for reading with read_samples()
long samples_avail() const;
// Read at most 'max_samples' out of buffer into 'dest', removing them from from
// the buffer. Return number of samples actually read and removed. If stereo is
// true, increment 'dest' one extra time after writing each sample, to allow
// easy interleving of two channels into a stereo output buffer.
long read_samples( blip_sample_t* dest, long max_samples, bool stereo = false );
// Remove 'count' samples from those waiting to be read
void remove_samples( long count );
// Number of samples delay from synthesis to samples read out
int output_latency() const;
// Beta features
// Number of raw samples that can be mixed within frame of specified duration
long count_samples( blip_time_t duration ) const;
// Mix 'count' samples from 'buf' into buffer.
void mix_samples( const blip_sample_t* buf, long count );
// Count number of clocks needed until 'count' samples will be available.
// If buffer can't even hold 'count' samples, returns number of clocks until
// buffer is full.
blip_time_t count_clocks( long count ) const;
// not documented yet
void remove_silence( long count );
blip_resampled_time_t resampled_time( blip_time_t t ) const
{
return t * blip_resampled_time_t (factor_) + offset_;
}
blip_resampled_time_t clock_rate_factor( long clock_rate ) const;
blip_resampled_time_t resampled_duration( int t ) const
{
return t * blip_resampled_time_t (factor_);
}
private:
// noncopyable
Blip_Buffer( const Blip_Buffer& );
Blip_Buffer& operator = ( const Blip_Buffer& );
// Don't use the following members. They are public only for technical reasons.
public:
enum { sample_offset_ = 0x7F7F }; // repeated byte allows memset to clear buffer
enum { widest_impulse_ = 24 };
typedef BOOST::uint16_t buf_t_;
unsigned long factor_;
blip_resampled_time_t offset_;
buf_t_* buffer_;
unsigned buffer_size_;
private:
long reader_accum;
int bass_shift;
long samples_per_sec;
long clocks_per_sec;
int bass_freq_;
int length_;
enum { accum_fract = 15 }; // less than 16 to give extra sample range
friend class Blip_Reader;
};
// Low-pass equalization parameters (see notes.txt)
class blip_eq_t {
public:
blip_eq_t( double treble = 0 );
blip_eq_t( double treble, long cutoff, long sample_rate );
private:
double treble;
long cutoff;
long sample_rate;
friend class Blip_Impulse_;
};
// not documented yet (see Multi_Buffer.cpp for an example of use)
class Blip_Reader {
const Blip_Buffer::buf_t_* buf;
long accum;
#ifdef __MWERKS__
void operator = ( struct foobar ); // helps optimizer
#endif
public:
// avoid anything which might cause optimizer to put object in memory
int begin( Blip_Buffer& blip_buf ) {
buf = blip_buf.buffer_;
accum = blip_buf.reader_accum;
return blip_buf.bass_shift;
}
int read() const {
return accum >> Blip_Buffer::accum_fract;
}
void next( int bass_shift = 9 ) {
accum -= accum >> bass_shift;
accum += ((long) *buf++ - Blip_Buffer::sample_offset_) << Blip_Buffer::accum_fract;
}
void end( Blip_Buffer& blip_buf ) {
blip_buf.reader_accum = accum;
}
};
// End of public interface
#ifndef BLIP_BUFFER_ACCURACY
#define BLIP_BUFFER_ACCURACY 16
#endif
const int blip_res_bits_ = 5;
typedef BOOST::uint32_t blip_pair_t_;
class Blip_Impulse_ {
typedef BOOST::uint16_t imp_t;
blip_eq_t eq;
double volume_unit_;
imp_t* impulses;
imp_t* impulse;
int width;
int fine_bits;
int res;
bool generate;
void fine_volume_unit();
void scale_impulse( int unit, imp_t* ) const;
public:
Blip_Buffer* buf;
BOOST::uint32_t offset;
void init( blip_pair_t_* impulses, int width, int res, int fine_bits = 0 );
void volume_unit( double );
void treble_eq( const blip_eq_t& );
};
inline blip_eq_t::blip_eq_t( double t ) :
treble( t ), cutoff( 0 ), sample_rate( 44100 ) {
}
inline blip_eq_t::blip_eq_t( double t, long c, long sr ) :
treble( t ), cutoff( c ), sample_rate( sr ) {
}
inline int Blip_Buffer::length() const {
return length_;
}
inline long Blip_Buffer::samples_avail() const {
return long (offset_ >> BLIP_BUFFER_ACCURACY);
}
inline long Blip_Buffer::sample_rate() const {
return samples_per_sec;
}
inline void Blip_Buffer::end_frame( blip_time_t t ) {
offset_ += t * factor_;
assert(( "Blip_Buffer::end_frame(): Frame went past end of buffer",
samples_avail() <= (long) buffer_size_ ));
}
inline void Blip_Buffer::remove_silence( long count ) {
assert(( "Blip_Buffer::remove_silence(): Tried to remove more samples than available",
count <= samples_avail() ));
offset_ -= blip_resampled_time_t (count) << BLIP_BUFFER_ACCURACY;
}
inline int Blip_Buffer::output_latency() const {
return widest_impulse_ / 2;
}
inline long Blip_Buffer::clock_rate() const {
return clocks_per_sec;
}
inline void Blip_Buffer::clock_rate( long cps )
{
clocks_per_sec = cps;
factor_ = clock_rate_factor( cps );
}
#include "Blip_Synth.h"
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Blip_Buffer.h
|
C++
|
gpl3
| 6,982
|
// By default, #included at beginning of library source files
// Copyright (C) 2005 Shay Green.
#ifndef BLARGG_SOURCE_H
#define BLARGG_SOURCE_H
// If debugging is enabled, abort program if expr is false. Meant for checking
// internal state and consistency. A failed assertion indicates a bug in the module.
// void assert( bool expr );
#include <assert.h>
// If debugging is enabled and expr is false, abort program. Meant for checking
// caller-supplied parameters and operations that are outside the control of the
// module. A failed requirement indicates a bug outside the module.
// void require( bool expr );
#undef require
#define require( expr ) assert(( "unmet requirement", expr ))
// Like printf() except output goes to debug log file. Might be defined to do
// nothing (not even evaluate its arguments).
// void dprintf( const char* format, ... );
#undef dprintf
#define dprintf (1) ? ((void) 0) : (void)
// If enabled, evaluate expr and if false, make debug log entry with source file
// and line. Meant for finding situations that should be examined further, but that
// don't indicate a problem. In all cases, execution continues normally.
#undef check
#define check( expr ) ((void) 0)
// If expr returns non-NULL error string, return it from current function, otherwise continue.
#define BLARGG_RETURN_ERR( expr ) do { \
blargg_err_t blargg_return_err_ = (expr); \
if ( blargg_return_err_ ) return blargg_return_err_; \
} while ( 0 )
// If ptr is NULL, return out of memory error string.
#define BLARGG_CHECK_ALLOC( ptr ) do { if ( !(ptr) ) return "Out of memory"; } while ( 0 )
// Avoid any macros which evaluate their arguments multiple times
#undef min
#undef max
// using const references generates crappy code, and I am currenly only using these
// for built-in types, so they take arguments by value
template<class T>
inline T min( T x, T y )
{
if ( x < y )
return x;
return y;
}
template<class T>
inline T max( T x, T y )
{
if ( x < y )
return y;
return x;
}
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/blargg_source.h
|
C++
|
gpl3
| 2,062
|
// Gb_Snd_Emu 0.1.4. http://www.slack.net/~ant/libs/
#include "Gb_Apu.h"
#include <string.h>
/* Copyright (C) 2003-2005 Shay Green. This module is free software; you
can redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version. This
module is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
more details. You should have received a copy of the GNU Lesser General
Public License along with this module; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include BLARGG_SOURCE_BEGIN
Gb_Apu::Gb_Apu()
{
square1.synth = &square_synth;
square2.synth = &square_synth;
square1.has_sweep = true;
wave.synth = &other_synth;
noise.synth = &other_synth;
oscs [0] = &square1;
oscs [1] = &square2;
oscs [2] = &wave;
oscs [3] = &noise;
volume( 1.0 );
reset();
}
Gb_Apu::~Gb_Apu()
{
}
void Gb_Apu::treble_eq( const blip_eq_t& eq )
{
square_synth.treble_eq( eq );
other_synth.treble_eq( eq );
}
void Gb_Apu::volume( double vol )
{
vol *= 0.60 / osc_count;
square_synth.volume( vol );
other_synth.volume( vol );
}
void Gb_Apu::output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
{
for ( int i = 0; i < osc_count; i++ )
osc_output( i, center, left, right );
}
void Gb_Apu::reset()
{
next_frame_time = 0;
last_time = 0;
frame_count = 0;
stereo_found = false;
square1.reset();
square2.reset();
wave.reset();
noise.reset();
memset( regs, 0, sizeof regs );
}
void Gb_Apu::osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
{
require( (unsigned) index < osc_count );
Gb_Osc& osc = *oscs [index];
if ( center && !left && !right )
{
// mono
left = center;
right = center;
}
else
{
// must be silenced or stereo
require( (!left && !right) || (left && right) );
}
osc.outputs [1] = right;
osc.outputs [2] = left;
osc.outputs [3] = center;
osc.output = osc.outputs [osc.output_select];
}
void Gb_Apu::run_until( gb_time_t end_time )
{
require( end_time >= last_time ); // end_time must not be before previous time
if ( end_time == last_time )
return;
while ( true )
{
gb_time_t time = next_frame_time;
if ( time > end_time )
time = end_time;
// run oscillators
for ( int i = 0; i < osc_count; ++i ) {
Gb_Osc& osc = *oscs [i];
if ( osc.output ) {
if ( osc.output != osc.outputs [3] )
stereo_found = true;
osc.run( last_time, time );
}
}
last_time = time;
if ( time == end_time )
break;
next_frame_time += 4194304 / 256; // 256 Hz
// 256 Hz actions
square1.clock_length();
square2.clock_length();
wave.clock_length();
noise.clock_length();
frame_count = (frame_count + 1) & 3;
if ( frame_count == 0 ) {
// 64 Hz actions
square1.clock_envelope();
square2.clock_envelope();
noise.clock_envelope();
}
if ( frame_count & 1 )
square1.clock_sweep(); // 128 Hz action
}
}
bool Gb_Apu::end_frame( gb_time_t end_time )
{
if ( end_time > last_time )
run_until( end_time );
assert( next_frame_time >= end_time );
next_frame_time -= end_time;
assert( last_time >= end_time );
last_time -= end_time;
bool result = stereo_found;
stereo_found = false;
return result;
}
void Gb_Apu::write_register( gb_time_t time, gb_addr_t addr, int data )
{
require( (unsigned) data < 0x100 );
int reg = addr - start_addr;
if ( (unsigned) reg >= register_count )
return;
run_until( time );
regs [reg] = data;
if ( addr < 0xff24 )
{
// oscillator
int index = reg / 5;
oscs [index]->write_register( reg - index * 5, data );
}
// added
else if ( addr == 0xff24 )
{
int global_volume = data & 7;
int old_volume = square1.global_volume;
if ( old_volume != global_volume )
{
int any_enabled = false;
for ( int i = 0; i < osc_count; i++ )
{
Gb_Osc& osc = *oscs [i];
if ( osc.enabled )
{
if ( osc.last_amp )
{
int new_amp = osc.last_amp * global_volume / osc.global_volume;
if ( osc.output )
square_synth.offset( time, new_amp - osc.last_amp, osc.output );
osc.last_amp = new_amp;
}
any_enabled |= osc.volume;
}
osc.global_volume = global_volume;
}
if ( !any_enabled && square1.outputs [3] )
square_synth.offset( time, (global_volume - old_volume) * 15 * 2, square1.outputs [3] );
}
}
else if ( addr == 0xff25 || addr == 0xff26 )
{
int mask = (regs [0xff26 - start_addr] & 0x80) ? ~0 : 0;
int flags = regs [0xff25 - start_addr] & mask;
// left/right assignments
for ( int i = 0; i < osc_count; i++ )
{
Gb_Osc& osc = *oscs [i];
osc.enabled &= mask;
int bits = flags >> i;
Blip_Buffer* old_output = osc.output;
osc.output_select = (bits >> 3 & 2) | (bits & 1);
osc.output = osc.outputs [osc.output_select];
if ( osc.output != old_output && osc.last_amp )
{
if ( old_output )
square_synth.offset( time, -osc.last_amp, old_output );
osc.last_amp = 0;
}
}
}
else if ( addr >= 0xff30 )
{
int index = (addr & 0x0f) * 2;
wave.wave [index] = data >> 4;
wave.wave [index + 1] = data & 0x0f;
}
}
int Gb_Apu::read_register( gb_time_t time, gb_addr_t addr )
{
// function now takes actual address, i.e. 0xFFXX
require( start_addr <= addr && addr <= end_addr );
run_until( time );
int data = regs [addr - start_addr];
if ( addr == 0xff26 )
{
data &= 0xf0;
for ( int i = 0; i < osc_count; i++ )
{
const Gb_Osc& osc = *oscs [i];
if ( osc.enabled && (osc.length || !osc.length_enabled) )
data |= 1 << i;
}
}
return data;
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Gb_Apu.cpp
|
C++
|
gpl3
| 5,890
|
// Blip_Synth and Blip_Wave are waveform transition synthesizers for adding
// waveforms to a Blip_Buffer.
// Blip_Buffer 0.3.4. Copyright (C) 2003-2005 Shay Green. GNU LGPL license.
#ifndef BLIP_SYNTH_H
#define BLIP_SYNTH_H
#ifndef BLIP_BUFFER_H
#include "Blip_Buffer.h"
#endif
// Quality level. Higher levels are slower, and worse in a few cases.
// Use blip_good_quality as a starting point.
const int blip_low_quality = 1;
const int blip_med_quality = 2;
const int blip_good_quality = 3;
const int blip_high_quality = 4;
// Blip_Synth is a transition waveform synthesizer which adds band-limited
// offsets (transitions) into a Blip_Buffer. For a simpler interface, use
// Blip_Wave (below).
//
// Range specifies the greatest expected offset that will occur. For a
// waveform that goes between +amp and -amp, range should be amp * 2 (half
// that if it only goes between +amp and 0). When range is large, a higher
// accuracy scheme is used; to force this even when range is small, pass
// the negative of range (i.e. -range).
template<int quality,int range>
class Blip_Synth {
BOOST_STATIC_ASSERT( 1 <= quality && quality <= 5 );
BOOST_STATIC_ASSERT( -32768 <= range && range <= 32767 );
enum {
abs_range = (range < 0) ? -range : range,
fine_mode = (range > 512 || range < 0),
width = (quality < 5 ? quality * 4 : Blip_Buffer::widest_impulse_),
res = 1 << blip_res_bits_,
impulse_size = width / 2 * (fine_mode + 1),
base_impulses_size = width / 2 * (res / 2 + 1),
fine_bits = (fine_mode ? (abs_range <= 64 ? 2 : abs_range <= 128 ? 3 :
abs_range <= 256 ? 4 : abs_range <= 512 ? 5 : abs_range <= 1024 ? 6 :
abs_range <= 2048 ? 7 : 8) : 0)
};
blip_pair_t_ impulses [impulse_size * res * 2 + base_impulses_size];
Blip_Impulse_ impulse;
void init() { impulse.init( impulses, width, res, fine_bits ); }
public:
Blip_Synth() { init(); }
Blip_Synth( double volume ) { init(); this->volume( volume ); }
// Configure low-pass filter (see notes.txt). Not optimized for real-time control
void treble_eq( const blip_eq_t& eq ) { impulse.treble_eq( eq ); }
// Set volume of a transition at amplitude 'range' by setting volume_unit
// to v / range
void volume( double v ) { impulse.volume_unit( v * (1.0 / abs_range) ); }
// Set base volume unit of transitions, where 1.0 is a full swing between the
// positive and negative extremes. Not optimized for real-time control.
void volume_unit( double unit ) { impulse.volume_unit( unit ); }
// Default Blip_Buffer used for output when none is specified for a given call
Blip_Buffer* output() const { return impulse.buf; }
void output( Blip_Buffer* b ) { impulse.buf = b; }
// Add an amplitude offset (transition) with a magnitude of delta * volume_unit
// into the specified buffer (default buffer if none specified) at the
// specified source time. Delta can be positive or negative. To increase
// performance by inlining code at the call site, use offset_inline().
void offset( blip_time_t, int delta, Blip_Buffer* ) const;
void offset_resampled( blip_resampled_time_t, int delta, Blip_Buffer* ) const;
void offset_resampled( blip_resampled_time_t t, int o ) const {
offset_resampled( t, o, impulse.buf );
}
void offset( blip_time_t t, int delta ) const {
offset( t, delta, impulse.buf );
}
void offset_inline( blip_time_t time, int delta, Blip_Buffer* buf ) const {
offset_resampled( time * buf->factor_ + buf->offset_, delta, buf );
}
void offset_inline( blip_time_t time, int delta ) const {
offset_inline( time, delta, impulse.buf );
}
};
// Blip_Wave is a synthesizer for adding a *single* waveform to a Blip_Buffer.
// A wave is built from a series of delays and new amplitudes. This provides a
// simpler interface than Blip_Synth, nothing more.
template<int quality,int range>
class Blip_Wave {
Blip_Synth<quality,range> synth;
blip_time_t time_;
int last_amp;
void init() { time_ = 0; last_amp = 0; }
public:
// Start wave at time 0 and amplitude 0
Blip_Wave() { init(); }
Blip_Wave( double volume ) { init(); this->volume( volume ); }
// See Blip_Synth for description
void volume( double v ) { synth.volume( v ); }
void volume_unit( double v ) { synth.volume_unit( v ); }
void treble_eq( const blip_eq_t& eq){ synth.treble_eq( eq ); }
Blip_Buffer* output() const { return synth.output(); }
void output( Blip_Buffer* b ) { synth.output( b ); if ( !b ) time_ = last_amp = 0; }
// Current time in frame
blip_time_t time() const { return time_; }
void time( blip_time_t t ) { time_ = t; }
// Current amplitude of wave
int amplitude() const { return last_amp; }
void amplitude( int );
// Move forward by 't' time units
void delay( blip_time_t t ) { time_ += t; }
// End time frame of specified duration. Localize time to new frame.
// If wave hadn't been run to end of frame, start it at beginning of new frame.
void end_frame( blip_time_t duration )
{
time_ -= duration;
if ( time_ < 0 )
time_ = 0;
}
};
// End of public interface
template<int quality,int range>
void Blip_Wave<quality,range>::amplitude( int amp ) {
int delta = amp - last_amp;
last_amp = amp;
synth.offset_inline( time_, delta );
}
template<int quality,int range>
inline void Blip_Synth<quality,range>::offset_resampled( blip_resampled_time_t time,
int delta, Blip_Buffer* blip_buf ) const
{
typedef blip_pair_t_ pair_t;
unsigned sample_index = (time >> BLIP_BUFFER_ACCURACY) & ~1;
assert(( "Blip_Synth/Blip_wave: Went past end of buffer",
sample_index < blip_buf->buffer_size_ ));
enum { const_offset = Blip_Buffer::widest_impulse_ / 2 - width / 2 };
pair_t* buf = (pair_t*) &blip_buf->buffer_ [const_offset + sample_index];
enum { shift = BLIP_BUFFER_ACCURACY - blip_res_bits_ };
enum { mask = res * 2 - 1 };
const pair_t* imp = &impulses [((time >> shift) & mask) * impulse_size];
pair_t offset = impulse.offset * delta;
if ( !fine_bits )
{
// normal mode
for ( int n = width / 4; n; --n )
{
pair_t t0 = buf [0] - offset;
pair_t t1 = buf [1] - offset;
t0 += imp [0] * delta;
t1 += imp [1] * delta;
imp += 2;
buf [0] = t0;
buf [1] = t1;
buf += 2;
}
}
else
{
// fine mode
enum { sub_range = 1 << fine_bits };
delta += sub_range / 2;
int delta2 = (delta & (sub_range - 1)) - sub_range / 2;
delta >>= fine_bits;
for ( int n = width / 4; n; --n )
{
pair_t t0 = buf [0] - offset;
pair_t t1 = buf [1] - offset;
t0 += imp [0] * delta2;
t0 += imp [1] * delta;
t1 += imp [2] * delta2;
t1 += imp [3] * delta;
imp += 4;
buf [0] = t0;
buf [1] = t1;
buf += 2;
}
}
}
template<int quality,int range>
void Blip_Synth<quality,range>::offset( blip_time_t time, int delta, Blip_Buffer* buf ) const {
offset_resampled( time * buf->factor_ + buf->offset_, delta, buf );
}
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/gb_apu/Blip_Synth.h
|
C++
|
gpl3
| 7,041
|
// Gb_Snd_Emu 0.1.4. http://www.slack.net/~ant/libs/
#include "Basic_Gb_Apu.h"
/* Copyright (C) 2003-2005 Shay Green. This module is free software; you
can redistribute it and/or modify it under the terms of the GNU Lesser
General Public License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version. This
module is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
more details. You should have received a copy of the GNU Lesser General
Public License along with this module; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
gb_time_t const frame_length = 70224;
Basic_Gb_Apu::Basic_Gb_Apu()
{
time = 0;
// Adjust frequency equalization to make it sound like a tiny speaker
apu.treble_eq( -20.0 ); // lower values muffle it more
buf.bass_freq( 461 ); // higher values simulate smaller speaker
}
Basic_Gb_Apu::~Basic_Gb_Apu()
{
}
blargg_err_t Basic_Gb_Apu::set_sample_rate( long rate )
{
apu.output( buf.center(), buf.left(), buf.right() );
buf.clock_rate( 4194304 );
return buf.set_sample_rate( rate );
}
void Basic_Gb_Apu::write_register( gb_addr_t addr, int data )
{
apu.write_register( clock(), addr, data );
}
int Basic_Gb_Apu::read_register( gb_addr_t addr )
{
return apu.read_register( clock(), addr );
}
void Basic_Gb_Apu::end_frame()
{
time = 0;
bool stereo = apu.end_frame( frame_length );
buf.end_frame( frame_length, stereo );
}
long Basic_Gb_Apu::samples_avail() const
{
return buf.samples_avail();
}
long Basic_Gb_Apu::read_samples( sample_t* out, long count )
{
return buf.read_samples( out, count );
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Basic_Gb_Apu.cpp
|
C++
|
gpl3
| 1,833
|
// Use Basic_Gb_Apu to play random tones. Writes output to sound file "out.wav".
#include "Basic_Gb_Apu.h"
#include "Wave_Writer.h"
#include <stdlib.h>
static Basic_Gb_Apu apu;
// "emulate" 1/60 second of sound
static void emulate_frame()
{
static int delay;
if ( --delay <= 0 )
{
delay = 12;
// Start a new random tone
int chan = rand() & 0x11;
apu.write_register( 0xff26, 0x80 );
apu.write_register( 0xff25, chan ? chan : 0x11 );
apu.write_register( 0xff11, 0x80 );
int freq = (rand() & 0x3ff) + 0x300;
apu.write_register( 0xff13, freq & 0xff );
apu.write_register( 0xff12, 0xf1 );
apu.write_register( 0xff14, (freq >> 8) | 0x80 );
}
// Generate 1/60 second of sound into APU's sample buffer
apu.end_frame();
}
int main( int argc, char** argv )
{
long const sample_rate = 44100;
// Set sample rate and check for out of memory error
if ( apu.set_sample_rate( sample_rate ) )
return EXIT_FAILURE;
// Generate a few seconds of sound into wave file
Wave_Writer wave( sample_rate );
wave.stereo( true );
for ( int n = 60 * 4; n--; )
{
// Simulate emulation of 1/60 second frame
emulate_frame();
// Samples from the frame can now be read out of the apu, or
// allowed to accumulate and read out later. Use samples_avail()
// to find out how many samples are currently in the buffer.
int const buf_size = 2048;
static blip_sample_t buf [buf_size];
// Play whatever samples are available
long count = apu.read_samples( buf, buf_size );
wave.write( buf, count );
}
return 0;
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/demo.cpp
|
C++
|
gpl3
| 1,555
|
// Gb_Snd_Emu 0.1.4. http://www.slack.net/~ant/
#include "Sound_Queue.h"
#include <assert.h>
#include <string.h>
/* Copyright (C) 2005 by Shay Green. Permission is hereby granted, free of
charge, to any person obtaining a copy of this software module and associated
documentation files (the "Software"), to deal in the Software without
restriction, including without limitation the rights to use, copy, modify,
merge, publish, distribute, sublicense, and/or sell copies of the Software, and
to permit persons to whom the Software is furnished to do so, subject to the
following conditions: The above copyright notice and this permission notice
shall be included in all copies or substantial portions of the Software. THE
SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
// Return current SDL_GetError() string, or str if SDL didn't have a string
static const char* sdl_error( const char* str )
{
const char* sdl_str = SDL_GetError();
if ( sdl_str && *sdl_str )
str = sdl_str;
return str;
}
Sound_Queue::Sound_Queue()
{
bufs = NULL;
free_sem = NULL;
sound_open = false;
}
Sound_Queue::~Sound_Queue()
{
stop();
}
const char* Sound_Queue::start( long sample_rate, int chan_count )
{
assert( !bufs ); // can only be initialized once
write_buf = 0;
write_pos = 0;
read_buf = 0;
bufs = new sample_t [(long) buf_size * buf_count];
if ( !bufs )
return "Out of memory";
currently_playing_ = bufs;
free_sem = SDL_CreateSemaphore( buf_count - 1 );
if ( !free_sem )
return sdl_error( "Couldn't create semaphore" );
SDL_AudioSpec as;
as.freq = sample_rate;
as.format = AUDIO_S16SYS;
as.channels = chan_count;
as.silence = 0;
as.samples = buf_size / chan_count;
as.size = 0;
as.callback = fill_buffer_;
as.userdata = this;
if ( SDL_OpenAudio( &as, NULL ) < 0 )
return sdl_error( "Couldn't open SDL audio" );
SDL_PauseAudio( false );
sound_open = true;
return NULL;
}
void Sound_Queue::stop()
{
if ( sound_open )
{
sound_open = false;
SDL_PauseAudio( true );
SDL_CloseAudio();
}
if ( free_sem )
{
SDL_DestroySemaphore( free_sem );
free_sem = NULL;
}
delete [] bufs;
bufs = NULL;
}
int Sound_Queue::sample_count() const
{
int buf_free = SDL_SemValue( free_sem ) * buf_size + (buf_size - write_pos);
return buf_size * buf_count - buf_free;
}
inline Sound_Queue::sample_t* Sound_Queue::buf( int index )
{
assert( (unsigned) index < buf_count );
return bufs + (long) index * buf_size;
}
void Sound_Queue::write( const sample_t* in, int count )
{
while ( count )
{
int n = buf_size - write_pos;
if ( n > count )
n = count;
memcpy( buf( write_buf ) + write_pos, in, n * sizeof (sample_t) );
in += n;
write_pos += n;
count -= n;
if ( write_pos >= buf_size )
{
write_pos = 0;
write_buf = (write_buf + 1) % buf_count;
SDL_SemWait( free_sem );
}
}
}
void Sound_Queue::fill_buffer( Uint8* out, int count )
{
if ( SDL_SemValue( free_sem ) < buf_count - 1 )
{
currently_playing_ = buf( read_buf );
memcpy( out, buf( read_buf ), count );
read_buf = (read_buf + 1) % buf_count;
SDL_SemPost( free_sem );
}
else
{
memset( out, 0, count );
}
}
void Sound_Queue::fill_buffer_( void* user_data, Uint8* out, int count )
{
((Sound_Queue*) user_data)->fill_buffer( out, count );
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Sound_Queue.cpp
|
C++
|
gpl3
| 3,698
|
// WAVE sound file writer for recording 16-bit output during program development
// Copyright (C) 2003-2004 Shay Green. MIT license.
#ifndef WAVE_WRITER_HPP
#define WAVE_WRITER_HPP
#include <stddef.h>
#include <stdio.h>
class Wave_Writer {
public:
typedef short sample_t;
// Create sound file with given sample rate (in Hz) and filename.
// Exit program if there's an error.
Wave_Writer( long sample_rate, char const* filename = "out.wav" );
// Enable stereo output
void stereo( int );
// Append 'count' samples to file. Use every 'skip'th source sample; allows
// one channel of stereo sample pairs to be written by specifying a skip of 2.
void write( const sample_t*, long count, int skip = 1 );
// Append 'count' floating-point samples to file. Use every 'skip'th source sample;
// allows one channel of stereo sample pairs to be written by specifying a skip of 2.
void write( const float*, long count, int skip = 1 );
// Number of samples written so far
long sample_count() const;
// Write sound file header and close file. If no samples were written,
// delete file.
~Wave_Writer();
// End of public interface
private:
enum { buf_size = 32768 * 2 };
unsigned char* buf;
FILE* file;
long sample_count_;
long rate;
long buf_pos;
int chan_count;
void flush();
};
inline void Wave_Writer::stereo( int s ) {
chan_count = s ? 2 : 1;
}
inline long Wave_Writer::sample_count() const {
return sample_count_;
}
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Wave_Writer.h
|
C++
|
gpl3
| 1,482
|
// Simple sound queue for synchronous sound handling in SDL
// Copyright (C) 2005 Shay Green. MIT license.
#ifndef SOUND_QUEUE_H
#define SOUND_QUEUE_H
#include "SDL.h"
// Simple SDL sound wrapper that has a synchronous interface
class Sound_Queue {
public:
Sound_Queue();
~Sound_Queue();
// Initialize with specified sample rate and channel count.
// Returns NULL on success, otherwise error string.
const char* start( long sample_rate, int chan_count = 1 );
// Number of samples in buffer waiting to be played
int sample_count() const;
// Write samples to buffer and block until enough space is available
typedef short sample_t;
void write( const sample_t*, int count );
// Pointer to samples currently playing (for showing waveform display)
sample_t const* currently_playing() const { return currently_playing_; }
// Stop audio output
void stop();
private:
enum { buf_size = 4096 };
enum { buf_count = 3 };
sample_t* volatile bufs;
SDL_sem* volatile free_sem;
sample_t* volatile currently_playing_;
int volatile read_buf;
int write_buf;
int write_pos;
bool sound_open;
sample_t* buf( int index );
void fill_buffer( Uint8*, int );
static void fill_buffer_( void*, Uint8*, int );
};
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/Sound_Queue.h
|
C++
|
gpl3
| 1,237
|
// Use Sound_Queue to play APU sound using SDL
#include "Basic_Gb_Apu.h"
#include "Sound_Queue.h"
#include "SDL.h"
#include <stdlib.h>
static Basic_Gb_Apu apu;
// "emulate" 1/60 second of sound
static void emulate_frame()
{
static int delay;
if ( --delay <= 0 )
{
delay = 12;
// Start a new random tone
int chan = rand() & 0x11;
apu.write_register( 0xff26, 0x80 );
apu.write_register( 0xff25, chan ? chan : 0x11 );
apu.write_register( 0xff11, 0x80 );
int freq = (rand() & 0x3ff) + 0x300;
apu.write_register( 0xff13, freq & 0xff );
apu.write_register( 0xff12, 0xf1 );
apu.write_register( 0xff14, (freq >> 8) | 0x80 );
}
// Generate 1/60 second of sound into APU's sample buffer
apu.end_frame();
}
static void handle_error( const char* str )
{
if ( str )
{
fprintf( stderr, "Error: %s\n", str );
exit( EXIT_FAILURE );
}
}
int main( int argc, char** argv )
{
long const sample_rate = 44100;
if ( SDL_Init( SDL_INIT_AUDIO ) < 0 )
return EXIT_FAILURE;
atexit( SDL_Quit );
// Set sample rate and check for out of memory error
handle_error( apu.set_sample_rate( sample_rate ) );
// Generate a few seconds of sound and play using SDL
Sound_Queue sound;
handle_error( sound.start( sample_rate, 2 ) );
for ( int n = 60 * 4; n--; )
{
// Simulate emulation of 1/60 second frame
emulate_frame();
// Samples from the frame can now be read out of the apu, or
// allowed to accumulate and read out later. Use samples_avail()
// to find out how many samples are currently in the buffer.
int const buf_size = 2048;
static blip_sample_t buf [buf_size];
// Play whatever samples are available
long count = apu.read_samples( buf, buf_size );
sound.write( buf, count );
}
return 0;
}
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/demo_sdl.cpp
|
C++
|
gpl3
| 1,759
|
// Boost substitute. For full boost library see http://boost.org
#ifndef BOOST_CSTDINT_HPP
#define BOOST_CSTDINT_HPP
#if BLARGG_USE_NAMESPACE
#include <climits>
#else
#include <limits.h>
#endif
BLARGG_BEGIN_NAMESPACE( boost )
#if UCHAR_MAX != 0xFF || SCHAR_MAX != 0x7F
# error "No suitable 8-bit type available"
#endif
typedef unsigned char uint8_t;
typedef signed char int8_t;
#if USHRT_MAX != 0xFFFF
# error "No suitable 16-bit type available"
#endif
typedef short int16_t;
typedef unsigned short uint16_t;
#if ULONG_MAX == 0xFFFFFFFF
typedef long int32_t;
typedef unsigned long uint32_t;
#elif UINT_MAX == 0xFFFFFFFF
typedef int int32_t;
typedef unsigned int uint32_t;
#else
# error "No suitable 32-bit type available"
#endif
BLARGG_END_NAMESPACE
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/boost/cstdint.hpp
|
C++
|
gpl3
| 826
|
// Boost substitute. For full boost library see http://boost.org
#ifndef BOOST_STATIC_ASSERT_HPP
#define BOOST_STATIC_ASSERT_HPP
#if defined (_MSC_VER) && _MSC_VER <= 1200
// MSVC6 can't handle the ##line concatenation
#define BOOST_STATIC_ASSERT( expr ) struct { int n [1 / ((expr) ? 1 : 0)]; }
#else
#define BOOST_STATIC_ASSERT3( expr, line ) \
typedef int boost_static_assert_##line [1 / ((expr) ? 1 : 0)]
#define BOOST_STATIC_ASSERT2( expr, line ) BOOST_STATIC_ASSERT3( expr, line )
#define BOOST_STATIC_ASSERT( expr ) BOOST_STATIC_ASSERT2( expr, __LINE__ )
#endif
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/boost/static_assert.hpp
|
C++
|
gpl3
| 594
|
// Boost substitute. For full boost library see http://boost.org
#ifndef BOOST_CONFIG_HPP
#define BOOST_CONFIG_HPP
#define BOOST_MINIMAL 1
#define BLARGG_BEGIN_NAMESPACE( name )
#define BLARGG_END_NAMESPACE
#endif
|
08erikal-gbpaclone
|
src/Gb_Snd_Emu-0.1.4/boost/config.hpp
|
C++
|
gpl3
| 220
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __LOGQUEUE_H__
#define __LOGQUEUE_H__
#include "Registers.h"
struct ItemLog {
std::string prefix;
Registers * regs;
std::string suffix;
ItemLog * next;
ItemLog * prev;
};
//Esta clase se encarga de guardar los valores de los registros hasta un
//número máximo. Cuando se alcanza dicho máximo y antes de insertar uno
//nuevo, se borra el más antiguo. Es decir, tiene el funcionamiento de un cola.
//El más nuevo será el apuntado por last y el más viejo por first.
// item1 -> item2 -> item3
// ^ ^
// first last
class QueueLog
{
private:
int maxItems;
int numItems;
ItemLog * first;
ItemLog * last;
public:
QueueLog(int maxItems);
~QueueLog();
void Enqueue(std::string prefix, Registers * regs, std::string suffix);
void Save(std::string path);
};
#endif
|
08erikal-gbpaclone
|
src/Log.h
|
C++
|
gpl3
| 1,451
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __CARTRIDGE_H__
#define __CARTRIDGE_H__
#include <string>
#include "Def.h"
#define CART_NAME 0x0134
#define CART_TYPE 0x0147
#define CART_ROM_SIZE 0x0148
#define CART_RAM_SIZE 0x0149
class Cartridge
{
private:
unsigned long _romSize;
std::string _name;
bool _isLoaded;
BYTE * _memCartridge;
BYTE (*ptrRead)(WORD);
void (*ptrWrite)(WORD, BYTE);
void CheckCartridge(std::string batteriesPath="");
int CheckRomSize(int numHeaderSize, int fileSize);
public:
Cartridge(std::string fileName, std::string batteriesPath="");
Cartridge(BYTE * cartridgeBuffer, unsigned long size, std::string batteriesPath="");
~Cartridge();
BYTE *GetData();
unsigned int GetSize();
std::string GetName();
bool IsLoaded();
inline BYTE Read(WORD direction) { return ptrRead(direction); };
inline void Write(WORD direction, BYTE value) { ptrWrite(direction, value); };
void Print(int beg, int end);
void SaveMBC(std::ofstream * file);
void LoadMBC(std::ifstream * file);
};
#endif
|
08erikal-gbpaclone
|
src/Cartridge.h
|
C++
|
gpl3
| 1,709
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <string.h>
#include "Memory.h"
#include "Cartridge.h"
using namespace std;
Memory::Memory(Sound * s)
{
this->c = NULL;
this->s = s;
ResetMem();
}
Memory::~Memory()
{
}
Memory *Memory::GetPtrMemory() { return this; }
void Memory::LoadCartridge(Cartridge *c)
{
this->c = c;
}
void Memory::ResetMem()
{
/*for (WORD i=0; i<(SIZE_MEM - 1); i++ )
memory[i] = 0x00;*/
memset(&memory, 0x00, SIZE_MEM);
memory[TIMA] = 0x00; //TIMA
memory[TMA] = 0x00; //TMA
memory[TAC] = 0x00; //TAC
if (s)
{
s->WriteRegister(NR10, 0x80); //NR10
s->WriteRegister(NR11, 0xBF); //NR11
s->WriteRegister(NR12, 0xF3); //NR12
s->WriteRegister(NR14, 0xBF); //NR14
s->WriteRegister(NR21, 0x3F); //NR21
s->WriteRegister(NR22, 0x00); //NR22
s->WriteRegister(NR24, 0xBF); //NR24
s->WriteRegister(NR30, 0x7F); //NR30
s->WriteRegister(NR31, 0xFF); //NR31
s->WriteRegister(NR32, 0x9F); //NR32
s->WriteRegister(NR33, 0xBF); //NR33
s->WriteRegister(NR41, 0xFF); //NR41
s->WriteRegister(NR42, 0x00); //NR42
s->WriteRegister(NR43, 0x00); //NR43
s->WriteRegister(NR30, 0xBF); //NR30
s->WriteRegister(NR50, 0x77); //NR50
s->WriteRegister(NR51, 0xF3); //NR51
s->WriteRegister(NR52, 0xF1); //NR52
}
memory[LCDC] = 0x91; //LCDC
memory[SCY] = 0x00; //SCY
memory[SCX] = 0x00; //SCX
memory[LYC] = 0x00; //LYC
memory[BGP] = 0xFC; //BGP
memory[OBP0] = 0xFF; //OBP0
memory[OBP1] = 0xFF; //OBP1
memory[WY] = 0x00; //WY
memory[WX] = 0x00; //WX
memory[IE] = 0x00; //IE
memory[STAT] = 0x02; //LCD_STAT
}
void Memory::MemW(WORD direction, BYTE value)
{
if ((direction < 0x8000) || ((direction >= 0xA000)&&(direction < 0xC000)))
{
c->Write(direction, value);
return;
}
else if ((direction >= 0xC000) && (direction < 0xDE00))//C000-DDFF
memory[direction + 0x2000] = value;
else if ((direction >= 0xE000) && (direction < 0xFE00))//E000-FDFF
memory[direction - 0x2000] = value;
else if ((direction >= 0xFF10) && (direction <= 0xFF3F))
{
if(s)
s->WriteRegister(direction, value);
}
else
{
switch (direction)
{
case DMA:
DmaTransfer(value);
break;
case P1:
BYTE oldP1;
oldP1 = memory[P1];
value = (value & 0xF0) | (oldP1 & ~0xF0);
value = PadUpdateInput(value);
if ((value != oldP1) && ((value & 0x0F) != 0x0F))
{
//Debe producir una interrupcion
memory[IF] |= 0x10;
}
break;
case STAT: value = (value & ~0x07) | (memory[STAT] & 0x07); break;
case LY:
case DIV: value = 0; break;
}
}
memory[direction] = value;
}
void Memory::DmaTransfer(BYTE direction)
{
BYTE i;
for (i=0; i<0xA0; i++)
MemWNoCheck(0xFE00 + i, MemR((direction << 8) + i));
}
void Memory::SaveMemory(ofstream * file)
{
file->write((char *)&memory[0x8000], 0x8000);
}
void Memory::LoadMemory(ifstream * file)
{
file->read((char *)&memory[0x8000], 0x8000);
if (s)
{
for (int dir=0xFF10; dir<0xFF40; dir++)
s->WriteRegister(dir, memory[dir]);
}
}
|
08erikal-gbpaclone
|
src/Memory.cpp
|
C++
|
gpl3
| 3,798
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __MAINAPP_H__
#define __MAINAPP_H__
#include <wx/wx.h>
#include "MainFrame.h"
#undef main
/*******************************************************************************
// MainApp Class
*******************************************************************************/
class MainApp : public wxApp {
DECLARE_CLASS(MainApp)
private:
MainFrame *frame;
public:
/**
* Called to initialize this MainApp.
*
* @return true if initialization succeeded; false otherwise.
*/
bool OnInit();
/**
* Called to run this MainApp.
*
* @return The status code (0 if good, non-0 if bad).
*/
int OnRun();
/**
* Called when this MainApp is ready to exit.
*
* @return The exit code.
*/
int OnExit();
void MacOpenFile(const wxString &fileName);
};
#endif
|
08erikal-gbpaclone
|
src/GUI/MainApp.h
|
C++
|
gpl3
| 1,515
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <wx/artprov.h>
#include <wx/bookctrl.h>
#include <wx/spinctrl.h>
#include <wx/config.h>
#include <wx/fileconf.h>
#include <wx/stdpaths.h>
#include <wx/filename.h>
#include "SettingsDialog.h"
#include "IDControls.h"
#include "InputTextCtrl.h"
#include "../Pad.h"
#include "Xpm/preferences1.xpm"
IMPLEMENT_CLASS(SettingsDialog, wxPropertySheetDialog)
BEGIN_EVENT_TABLE(SettingsDialog, wxPropertySheetDialog)
END_EVENT_TABLE()
SettingsDialog::SettingsDialog(wxWindow* win)
{
settings = SettingsGetCopy();
m_imageList = NULL;
bool useToolBook = false;
int sheetStyle = wxPROPSHEET_SHRINKTOFIT;
if (useToolBook)
{
sheetStyle |= wxPROPSHEET_BUTTONTOOLBOOK;
//SetSheetInnerBorder(0);
//SetSheetOuterBorder(0);
wxBitmap preferences1(preferences1_xpm);
// create a dummy image list with a few icons
const wxSize imageSize(32, 32);
m_imageList = new wxImageList(imageSize.GetWidth(), imageSize.GetHeight());
m_imageList->Add(preferences1);
m_imageList->Add(wxArtProvider::GetIcon(wxART_QUESTION, wxART_OTHER, imageSize));
}
SetSheetStyle(sheetStyle);
Create(win, wxID_ANY, _("Preferences"));
wxBookCtrlBase* notebook = GetBookCtrl();
if (useToolBook)
notebook->SetImageList(m_imageList);
CreateButtons(wxOK | wxCANCEL);
wxPanel* generalSettings = CreateGeneralSettingsPage(notebook);
wxPanel* soundSettings = CreateSoundSettingsPage(notebook);
wxPanel* inputSettings = CreateInputSettingsPage(notebook);
notebook->AddPage(generalSettings, _("General"), true);
notebook->AddPage(soundSettings, _("Sound"), false);
notebook->AddPage(inputSettings, _("Input"), false);
LayoutDialog();
}
SettingsDialog::~SettingsDialog()
{
if (m_imageList)
delete m_imageList;
}
/*! * Transfer data to the window */
bool SettingsDialog::TransferDataToWindow()
{
settings = SettingsGetCopy();
wxRadioBox* greenscaleCtrl = (wxRadioBox*) FindWindow(ID_GREENSCALE);
wxChoice* winZoomCtrl = (wxChoice*) FindWindow(ID_WINZOOM);
wxCheckBox* soundEnabledCtrl = (wxCheckBox*) FindWindow(ID_SOUND_ENABLED);
wxChoice* soundSRCtrl = (wxChoice*) FindWindow(ID_SOUND_SR);
InputTextCtrl* upCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_UP);
InputTextCtrl* downCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_DOWN);
InputTextCtrl* leftCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_LEFT);
InputTextCtrl* rightCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_RIGHT);
InputTextCtrl* aCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_A);
InputTextCtrl* bCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_B);
InputTextCtrl* selectCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_SELECT);
InputTextCtrl* startCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_START);
greenscaleCtrl->SetSelection(settings.greenScale);
winZoomCtrl->SetSelection(settings.windowZoom - 1);
soundEnabledCtrl->SetValue(settings.soundEnabled);
int sampleRates[] = { 22050, 32000, 44100, 48000 };
int idSampleRate = 2;
for (int i=0; i<4; i++)
{
if (settings.soundSampleRate == sampleRates[i])
idSampleRate = i;
}
soundSRCtrl->SetSelection(idSampleRate);
upCtrl->OnChangeKey( settings.padKeys[0]);
downCtrl->OnChangeKey( settings.padKeys[1]);
leftCtrl->OnChangeKey( settings.padKeys[2]);
rightCtrl->OnChangeKey( settings.padKeys[3]);
aCtrl->OnChangeKey( settings.padKeys[4]);
bCtrl->OnChangeKey( settings.padKeys[5]);
selectCtrl->OnChangeKey(settings.padKeys[6]);
startCtrl->OnChangeKey( settings.padKeys[7]);
return true;
}
/*! * Transfer data from the window */
bool SettingsDialog::TransferDataFromWindow()
{
wxRadioBox* greenscaleCtrl = (wxRadioBox*) FindWindow(ID_GREENSCALE);
wxChoice* winZoomCtrl = (wxChoice*) FindWindow(ID_WINZOOM);
wxCheckBox* soundEnabledCtrl = (wxCheckBox*) FindWindow(ID_SOUND_ENABLED);
wxChoice* soundSRCtrl = (wxChoice*) FindWindow(ID_SOUND_SR);
InputTextCtrl* upCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_UP);
InputTextCtrl* downCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_DOWN);
InputTextCtrl* leftCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_LEFT);
InputTextCtrl* rightCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_RIGHT);
InputTextCtrl* aCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_A);
InputTextCtrl* bCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_B);
InputTextCtrl* selectCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_SELECT);
InputTextCtrl* startCtrl = (InputTextCtrl*) FindWindow(ID_TEXTCTRL_START);
settings.greenScale = greenscaleCtrl->GetSelection();
settings.windowZoom = winZoomCtrl->GetSelection()+1;
settings.soundEnabled = soundEnabledCtrl->GetValue();
int sampleRates[] = { 22050, 32000, 44100, 48000 };
int idSampleRate = soundSRCtrl->GetSelection();
settings.soundSampleRate = sampleRates[idSampleRate];
settings.padKeys[0] = upCtrl->keyCode;
settings.padKeys[1] = downCtrl->keyCode;
settings.padKeys[2] = leftCtrl->keyCode;
settings.padKeys[3] = rightCtrl->keyCode;
settings.padKeys[4] = aCtrl->keyCode;
settings.padKeys[5] = bCtrl->keyCode;
settings.padKeys[6] = selectCtrl->keyCode;
settings.padKeys[7] = startCtrl->keyCode;
SaveToFile();
return true;
}
wxPanel* SettingsDialog::CreateGeneralSettingsPage(wxWindow* parent)
{
wxPanel* panel = new wxPanel(parent, wxID_ANY);
wxStaticText * grayGreenLabel = new wxStaticText(panel, wxID_ANY, wxT("Color palette:"));
wxString grayGreenChoices[2];
grayGreenChoices[0] = wxT("Grayscale");
grayGreenChoices[1] = wxT("Greenscale");
wxRadioBox* grayGreenRadioBox = new wxRadioBox(panel, ID_GREENSCALE, wxT(""),
wxDefaultPosition, wxDefaultSize, 2, grayGreenChoices, 1, wxRA_SPECIFY_COLS);
wxStaticText * winZoomLabel = new wxStaticText(panel, wxID_ANY, wxT("Window size:"));
wxChoice* winZoomChoice = new wxChoice(panel, ID_WINZOOM);
winZoomChoice->Append(wxT("1x"));
winZoomChoice->Append(wxT("2x"));
winZoomChoice->Append(wxT("3x"));
winZoomChoice->Append(wxT("4x"));
wxFlexGridSizer *grid = new wxFlexGridSizer(2, 3, 5);
grid->Add(grayGreenLabel, 0, wxUP, 7);
grid->Add(grayGreenRadioBox);
grid->Add(winZoomLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(winZoomChoice);
wxBoxSizer *topSizer = new wxBoxSizer( wxVERTICAL );
topSizer->Add(grid, 0, wxALL, 10);
panel->SetSizerAndFit(topSizer);
return panel;
}
wxPanel* SettingsDialog::CreateSoundSettingsPage(wxWindow* parent)
{
wxPanel* panel = new wxPanel(parent, wxID_ANY);
wxStaticText * enabledLabel = new wxStaticText(panel, wxID_ANY, wxT("Enabled:"));
wxCheckBox * enabledCheckBox = new wxCheckBox(panel, ID_SOUND_ENABLED, wxT(""));
enabledCheckBox->SetValue(true);
wxStaticText * sampleRateLabel = new wxStaticText(panel, wxID_ANY, wxT("Sample Rate:"));
wxChoice* sampleRateChoice = new wxChoice(panel, ID_SOUND_SR);
sampleRateChoice->Append(wxT("22050 Hz"));
sampleRateChoice->Append(wxT("32000 Hz"));
sampleRateChoice->Append(wxT("44100 Hz"));
sampleRateChoice->Append(wxT("48000 Hz"));
sampleRateChoice->SetSelection(0);
wxFlexGridSizer *grid = new wxFlexGridSizer(2, 3, 5);
grid->Add(enabledLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(enabledCheckBox);
grid->Add(sampleRateLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(sampleRateChoice);
wxBoxSizer *topSizer = new wxBoxSizer( wxVERTICAL );
topSizer->Add(grid, 0, wxALL, 10);
panel->SetSizerAndFit(topSizer);
return panel;
}
wxPanel* SettingsDialog::CreateInputSettingsPage(wxWindow* parent)
{
wxPanel* panel = new wxPanel(parent, wxID_ANY);
wxStaticText * upLabel = new wxStaticText(panel, wxID_ANY, wxT("Up:"));
InputTextCtrl * upTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_UP);
wxStaticText * downLabel = new wxStaticText(panel, wxID_ANY, wxT("Down:"));
InputTextCtrl * downTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_DOWN);
wxStaticText * leftLabel = new wxStaticText(panel, wxID_ANY, wxT("Left:"));
InputTextCtrl * leftTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_LEFT);
wxStaticText * rightLabel = new wxStaticText(panel, wxID_ANY, wxT("Right:"));
InputTextCtrl * rightTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_RIGHT);
wxStaticText * aLabel = new wxStaticText(panel, wxID_ANY, wxT("A:"));
InputTextCtrl * aTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_A);
wxStaticText * bLabel = new wxStaticText(panel, wxID_ANY, wxT("B:"));
InputTextCtrl * bTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_B);
wxStaticText * selectLabel = new wxStaticText(panel, wxID_ANY, wxT("Select:"));
InputTextCtrl * selectTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_SELECT);
wxStaticText * startLabel = new wxStaticText(panel, wxID_ANY, wxT("Start:"));
InputTextCtrl * startTextCtrl = new InputTextCtrl(panel, ID_TEXTCTRL_START);
wxFlexGridSizer *grid = new wxFlexGridSizer(2, 3, 5);
grid->Add(upLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(upTextCtrl);
grid->Add(downLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(downTextCtrl);
grid->Add(leftLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(leftTextCtrl);
grid->Add(rightLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(rightTextCtrl);
grid->Add(aLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(aTextCtrl);
grid->Add(bLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(bTextCtrl);
grid->Add(selectLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(selectTextCtrl);
grid->Add(startLabel, 0, wxALL|wxALIGN_CENTER_VERTICAL, 0);
grid->Add(startTextCtrl);
wxBoxSizer * topSizer = new wxBoxSizer(wxVERTICAL);
topSizer->Add(0, 10);
topSizer->Add(grid, 0, wxRIGHT|wxLEFT, 30);
topSizer->Add(0, 10);
panel->SetSizerAndFit(topSizer);
return panel;
}
void SettingsDialog::SaveToFile(bool reloadSettings)
{
if (reloadSettings)
settings = SettingsGetCopy();
wxString configDir = wxStandardPaths::Get().GetUserDataDir();
if (!wxFileName::DirExists(configDir))
wxFileName::Mkdir(configDir, 0777, wxPATH_MKDIR_FULL);
wxFileName configPath(configDir, wxT("config.ini"));
// Guardar a disco
wxFileConfig fileConfig(wxT("gbpablog"), wxT("pablogasco"), configPath.GetFullPath());
fileConfig.Write(wxT("General/greenScale"), settings.greenScale);
fileConfig.Write(wxT("General/windowZoom"), settings.windowZoom);
fileConfig.Write(wxT("Sound/enabled"), settings.soundEnabled);
fileConfig.Write(wxT("Sound/sampleRate"), settings.soundSampleRate);
fileConfig.Write(wxT("Input/up"), settings.padKeys[0]);
fileConfig.Write(wxT("Input/down"), settings.padKeys[1]);
fileConfig.Write(wxT("Input/left"), settings.padKeys[2]);
fileConfig.Write(wxT("Input/right"), settings.padKeys[3]);
fileConfig.Write(wxT("Input/a"), settings.padKeys[4]);
fileConfig.Write(wxT("Input/b"), settings.padKeys[5]);
fileConfig.Write(wxT("Input/select"), settings.padKeys[6]);
fileConfig.Write(wxT("Input/start"), settings.padKeys[7]);
wxString auxString[10];
for (int i=0; i<10; i++)
{
auxString[i] = wxString(settings.recentRoms[i].c_str(), wxConvUTF8);
}
fileConfig.Write(wxT("RecentRoms/01"), auxString[0]);
fileConfig.Write(wxT("RecentRoms/02"), auxString[1]);
fileConfig.Write(wxT("RecentRoms/03"), auxString[2]);
fileConfig.Write(wxT("RecentRoms/04"), auxString[3]);
fileConfig.Write(wxT("RecentRoms/05"), auxString[4]);
fileConfig.Write(wxT("RecentRoms/06"), auxString[5]);
fileConfig.Write(wxT("RecentRoms/07"), auxString[6]);
fileConfig.Write(wxT("RecentRoms/08"), auxString[7]);
fileConfig.Write(wxT("RecentRoms/09"), auxString[8]);
fileConfig.Write(wxT("RecentRoms/10"), auxString[9]);
}
void SettingsDialog::LoadFromFile()
{
wxString configDir = wxStandardPaths::Get().GetUserDataDir();
wxFileName configPath(configDir, wxT("config.ini"));
// Cargar de disco
wxFileConfig fileConfig(wxT("gbpablog"), wxT("pablogasco"), configPath.GetFullPath());
fileConfig.Read(wxT("General/greenScale"), &settings.greenScale);
fileConfig.Read(wxT("General/windowZoom"), &settings.windowZoom);
fileConfig.Read(wxT("Sound/enabled"), &settings.soundEnabled);
fileConfig.Read(wxT("Sound/sampleRate"), &settings.soundSampleRate);
fileConfig.Read(wxT("Input/up"), &settings.padKeys[0]);
fileConfig.Read(wxT("Input/down"), &settings.padKeys[1]);
fileConfig.Read(wxT("Input/left"), &settings.padKeys[2]);
fileConfig.Read(wxT("Input/right"), &settings.padKeys[3]);
fileConfig.Read(wxT("Input/a"), &settings.padKeys[4]);
fileConfig.Read(wxT("Input/b"), &settings.padKeys[5]);
fileConfig.Read(wxT("Input/select"), &settings.padKeys[6]);
fileConfig.Read(wxT("Input/start"), &settings.padKeys[7]);
wxString auxString[10];
fileConfig.Read(wxT("RecentRoms/01"), &auxString[0]);
fileConfig.Read(wxT("RecentRoms/02"), &auxString[1]);
fileConfig.Read(wxT("RecentRoms/03"), &auxString[2]);
fileConfig.Read(wxT("RecentRoms/04"), &auxString[3]);
fileConfig.Read(wxT("RecentRoms/05"), &auxString[4]);
fileConfig.Read(wxT("RecentRoms/06"), &auxString[5]);
fileConfig.Read(wxT("RecentRoms/07"), &auxString[6]);
fileConfig.Read(wxT("RecentRoms/08"), &auxString[7]);
fileConfig.Read(wxT("RecentRoms/09"), &auxString[8]);
fileConfig.Read(wxT("RecentRoms/10"), &auxString[9]);
for (int i=0; i<10; i++)
{
settings.recentRoms[i] = auxString[i].mb_str();
}
}
|
08erikal-gbpaclone
|
src/GUI/SettingsDialog.cpp
|
C++
|
gpl3
| 13,944
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __SETTINGSDIALOG_H__
#define __SETTINGSDIALOG_H__
#include <wx/wx.h>
#include <wx/propdlg.h>
#include <wx/generic/propdlg.h>
#include <wx/imaglist.h>
#include "../Settings.h"
class SettingsDialog: public wxPropertySheetDialog
{
DECLARE_CLASS(SettingsDialog)
DECLARE_EVENT_TABLE()
private:
bool TransferDataToWindow();
bool TransferDataFromWindow();
wxPanel* CreateGeneralSettingsPage(wxWindow* parent);
wxPanel* CreateSoundSettingsPage(wxWindow* parent);
wxPanel* CreateInputSettingsPage(wxWindow* parent);
public:
SettingsDialog(wxWindow* parent);
~SettingsDialog();
void SaveToFile(bool reloadSettings=false);
void LoadFromFile();
Settings settings;
protected:
wxImageList* m_imageList;
};
#endif
|
08erikal-gbpaclone
|
src/GUI/SettingsDialog.h
|
C++
|
gpl3
| 1,396
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "InputTextCtrl.h"
IMPLEMENT_CLASS(InputTextCtrl, wxTextCtrl)
BEGIN_EVENT_TABLE(InputTextCtrl, wxTextCtrl)
EVT_KEY_DOWN(InputTextCtrl::OnKeyDown)
END_EVENT_TABLE()
wxString InputTextCtrl::keyNames[NUM_KEYNAMES];
bool InputTextCtrl::keyNamesInitialized = false;
void InputTextCtrl::InitializeKeyNames()
{
if (InputTextCtrl::keyNamesInitialized)
return;
for (int i=0; i<NUM_KEYNAMES; i++)
InputTextCtrl::keyNames[i] = wxT("");
/* ASCII */
/*
InputTextCtrl::keyNames['!'] = wxT("!");
InputTextCtrl::keyNames['\"'] = wxT("\"");
InputTextCtrl::keyNames['#'] = wxT("#");
InputTextCtrl::keyNames['$'] = wxT("$");
InputTextCtrl::keyNames['%'] = wxT("%");
InputTextCtrl::keyNames['&'] = wxT("&");
InputTextCtrl::keyNames['\''] = wxT("'");
InputTextCtrl::keyNames['('] = wxT("(");
InputTextCtrl::keyNames[')'] = wxT(")");
InputTextCtrl::keyNames['*'] = wxT("*");
InputTextCtrl::keyNames['+'] = wxT("+");
InputTextCtrl::keyNames[','] = wxT(",");
InputTextCtrl::keyNames['-'] = wxT("-");
InputTextCtrl::keyNames['.'] = wxT(".");
InputTextCtrl::keyNames['/'] = wxT("/");
*/
InputTextCtrl::keyNames['0'] = wxT("0");
InputTextCtrl::keyNames['1'] = wxT("1");
InputTextCtrl::keyNames['2'] = wxT("2");
InputTextCtrl::keyNames['3'] = wxT("3");
InputTextCtrl::keyNames['4'] = wxT("4");
InputTextCtrl::keyNames['5'] = wxT("5");
InputTextCtrl::keyNames['6'] = wxT("6");
InputTextCtrl::keyNames['7'] = wxT("7");
InputTextCtrl::keyNames['8'] = wxT("8");
InputTextCtrl::keyNames['9'] = wxT("9");
/*
InputTextCtrl::keyNames[':'] = wxT(":");
InputTextCtrl::keyNames[';'] = wxT(";");
InputTextCtrl::keyNames['<'] = wxT("<");
InputTextCtrl::keyNames['='] = wxT("=");
InputTextCtrl::keyNames['>'] = wxT(">");
InputTextCtrl::keyNames['?'] = wxT("?");
InputTextCtrl::keyNames['@'] = wxT("@");
*/
InputTextCtrl::keyNames['A'] = wxT("A");
InputTextCtrl::keyNames['B'] = wxT("B");
InputTextCtrl::keyNames['C'] = wxT("C");
InputTextCtrl::keyNames['D'] = wxT("D");
InputTextCtrl::keyNames['E'] = wxT("E");
InputTextCtrl::keyNames['F'] = wxT("F");
InputTextCtrl::keyNames['G'] = wxT("G");
InputTextCtrl::keyNames['H'] = wxT("H");
InputTextCtrl::keyNames['I'] = wxT("I");
InputTextCtrl::keyNames['J'] = wxT("J");
InputTextCtrl::keyNames['K'] = wxT("K");
InputTextCtrl::keyNames['L'] = wxT("L");
InputTextCtrl::keyNames['M'] = wxT("M");
InputTextCtrl::keyNames['N'] = wxT("N");
InputTextCtrl::keyNames['O'] = wxT("O");
InputTextCtrl::keyNames['P'] = wxT("P");
InputTextCtrl::keyNames['Q'] = wxT("Q");
InputTextCtrl::keyNames['R'] = wxT("R");
InputTextCtrl::keyNames['S'] = wxT("S");
InputTextCtrl::keyNames['T'] = wxT("T");
InputTextCtrl::keyNames['U'] = wxT("U");
InputTextCtrl::keyNames['V'] = wxT("V");
InputTextCtrl::keyNames['W'] = wxT("W");
InputTextCtrl::keyNames['X'] = wxT("X");
InputTextCtrl::keyNames['Y'] = wxT("Y");
InputTextCtrl::keyNames['Z'] = wxT("Z");
/*
InputTextCtrl::keyNames['['] = wxT("[");
InputTextCtrl::keyNames['\\'] = wxT("\\");
InputTextCtrl::keyNames[']'] = wxT("]");
InputTextCtrl::keyNames['^'] = wxT("^");
InputTextCtrl::keyNames['_'] = wxT("_");
InputTextCtrl::keyNames['`'] = wxT("`");
InputTextCtrl::keyNames['{'] = wxT("{");
InputTextCtrl::keyNames['|'] = wxT("|");
InputTextCtrl::keyNames['}'] = wxT("}");
InputTextCtrl::keyNames['~'] = wxT("~");
*/
/* NO ASCII */
InputTextCtrl::keyNames[WXK_BACK] = wxT("Backspace");
InputTextCtrl::keyNames[WXK_TAB] = wxT("Tab");
InputTextCtrl::keyNames[WXK_RETURN] = wxT("Return");
InputTextCtrl::keyNames[WXK_ESCAPE] = wxT("Escape");
InputTextCtrl::keyNames[WXK_SPACE] = wxT("Space");
InputTextCtrl::keyNames[WXK_DELETE] = wxT("Delete");
InputTextCtrl::keyNames[WXK_START] = wxT("Start");
InputTextCtrl::keyNames[WXK_LBUTTON] = wxT("Left Mouse Button");
InputTextCtrl::keyNames[WXK_RBUTTON] = wxT("Right Mouse Button");
InputTextCtrl::keyNames[WXK_CANCEL] = wxT("Control-Break");
InputTextCtrl::keyNames[WXK_MBUTTON] = wxT("Middle Mouse Button");
InputTextCtrl::keyNames[WXK_CLEAR] = wxT("Clear");
InputTextCtrl::keyNames[WXK_SHIFT] = wxT("Shift");
InputTextCtrl::keyNames[WXK_ALT] = wxT("Alt");
InputTextCtrl::keyNames[WXK_CONTROL] = wxT("Control");
InputTextCtrl::keyNames[WXK_MENU] = wxT("Menu");
InputTextCtrl::keyNames[WXK_PAUSE] = wxT("Pause");
InputTextCtrl::keyNames[WXK_CAPITAL] = wxT("CapsLock");
InputTextCtrl::keyNames[WXK_END] = wxT("End");
InputTextCtrl::keyNames[WXK_HOME] = wxT("Home");
InputTextCtrl::keyNames[WXK_LEFT] = wxT("Left");
InputTextCtrl::keyNames[WXK_UP] = wxT("Up");
InputTextCtrl::keyNames[WXK_RIGHT] = wxT("Right");
InputTextCtrl::keyNames[WXK_DOWN] = wxT("Down");
InputTextCtrl::keyNames[WXK_SELECT] = wxT("Select");
InputTextCtrl::keyNames[WXK_PRINT] = wxT("Print");
InputTextCtrl::keyNames[WXK_EXECUTE] = wxT("Execute");
InputTextCtrl::keyNames[WXK_SNAPSHOT] = wxT("Print Screen");
InputTextCtrl::keyNames[WXK_INSERT] = wxT("Insert");
InputTextCtrl::keyNames[WXK_HELP] = wxT("Help");
InputTextCtrl::keyNames[WXK_NUMPAD0] = wxT("Numpad 0");
InputTextCtrl::keyNames[WXK_NUMPAD1] = wxT("Numpad 1");
InputTextCtrl::keyNames[WXK_NUMPAD2] = wxT("Numpad 2");
InputTextCtrl::keyNames[WXK_NUMPAD3] = wxT("Numpad 3");
InputTextCtrl::keyNames[WXK_NUMPAD4] = wxT("Numpad 4");
InputTextCtrl::keyNames[WXK_NUMPAD5] = wxT("Numpad 5");
InputTextCtrl::keyNames[WXK_NUMPAD6] = wxT("Numpad 6");
InputTextCtrl::keyNames[WXK_NUMPAD7] = wxT("Numpad 7");
InputTextCtrl::keyNames[WXK_NUMPAD8] = wxT("Numpad 8");
InputTextCtrl::keyNames[WXK_NUMPAD9] = wxT("Numpad 9");
InputTextCtrl::keyNames[WXK_MULTIPLY] = wxT("*");
InputTextCtrl::keyNames[WXK_ADD] = wxT("+");
InputTextCtrl::keyNames[WXK_SEPARATOR] = wxT("'");
InputTextCtrl::keyNames[WXK_SUBTRACT] = wxT("-");
InputTextCtrl::keyNames[WXK_DECIMAL] = wxT(".");
InputTextCtrl::keyNames[WXK_DIVIDE] = wxT("/");
InputTextCtrl::keyNames[WXK_F1] = wxT("F1");
InputTextCtrl::keyNames[WXK_F2] = wxT("F2");
InputTextCtrl::keyNames[WXK_F3] = wxT("F3");
InputTextCtrl::keyNames[WXK_F4] = wxT("F4");
InputTextCtrl::keyNames[WXK_F5] = wxT("F5");
InputTextCtrl::keyNames[WXK_F6] = wxT("F6");
InputTextCtrl::keyNames[WXK_F7] = wxT("F7");
InputTextCtrl::keyNames[WXK_F8] = wxT("F8");
InputTextCtrl::keyNames[WXK_F9] = wxT("F9");
InputTextCtrl::keyNames[WXK_F10] = wxT("F10");
InputTextCtrl::keyNames[WXK_F11] = wxT("F11");
InputTextCtrl::keyNames[WXK_F12] = wxT("F12");
InputTextCtrl::keyNames[WXK_F13] = wxT("F13");
InputTextCtrl::keyNames[WXK_F14] = wxT("F14");
InputTextCtrl::keyNames[WXK_F15] = wxT("F15");
InputTextCtrl::keyNames[WXK_F16] = wxT("F16");
InputTextCtrl::keyNames[WXK_F17] = wxT("F17");
InputTextCtrl::keyNames[WXK_F18] = wxT("F18");
InputTextCtrl::keyNames[WXK_F19] = wxT("F19");
InputTextCtrl::keyNames[WXK_F20] = wxT("F20");
InputTextCtrl::keyNames[WXK_F21] = wxT("F21");
InputTextCtrl::keyNames[WXK_F22] = wxT("F22");
InputTextCtrl::keyNames[WXK_F23] = wxT("F23");
InputTextCtrl::keyNames[WXK_F24] = wxT("F24");
InputTextCtrl::keyNames[WXK_NUMLOCK] = wxT("NumLock");
InputTextCtrl::keyNames[WXK_SCROLL] = wxT("ScrollLock");
InputTextCtrl::keyNames[WXK_PAGEUP] = wxT("PageUp");
InputTextCtrl::keyNames[WXK_PAGEDOWN] = wxT("PageDown");
InputTextCtrl::keyNames[WXK_PRIOR] = wxT("PageUp");
InputTextCtrl::keyNames[WXK_NEXT] = wxT("PageDown");
InputTextCtrl::keyNames[WXK_NUMPAD_SPACE] = wxT("Numpad Space");
InputTextCtrl::keyNames[WXK_NUMPAD_TAB] = wxT("Numpad Tab");
InputTextCtrl::keyNames[WXK_NUMPAD_ENTER] = wxT("Numpad Enter");
InputTextCtrl::keyNames[WXK_NUMPAD_F1] = wxT("Numpad F1");
InputTextCtrl::keyNames[WXK_NUMPAD_F2] = wxT("Numpad F2");
InputTextCtrl::keyNames[WXK_NUMPAD_F3] = wxT("Numpad F3");
InputTextCtrl::keyNames[WXK_NUMPAD_F4] = wxT("Numpad F4");
InputTextCtrl::keyNames[WXK_NUMPAD_HOME] = wxT("Numpad Home");
InputTextCtrl::keyNames[WXK_NUMPAD_LEFT] = wxT("Numpad Left");
InputTextCtrl::keyNames[WXK_NUMPAD_UP] = wxT("Numpad Up");
InputTextCtrl::keyNames[WXK_NUMPAD_RIGHT] = wxT("Numpad Right");
InputTextCtrl::keyNames[WXK_NUMPAD_DOWN] = wxT("Numpad Down");
InputTextCtrl::keyNames[WXK_NUMPAD_PAGEUP] = wxT("Numpad PageUp");
InputTextCtrl::keyNames[WXK_NUMPAD_PAGEDOWN] = wxT("Numpad PageDown");
InputTextCtrl::keyNames[WXK_NUMPAD_PRIOR] = wxT("Numpad PageUp");
InputTextCtrl::keyNames[WXK_NUMPAD_NEXT] = wxT("Numpad PageDown");
InputTextCtrl::keyNames[WXK_NUMPAD_END] = wxT("Numpad End");
InputTextCtrl::keyNames[WXK_NUMPAD_BEGIN] = wxT("Numpad Begin");
InputTextCtrl::keyNames[WXK_NUMPAD_INSERT] = wxT("Numpad Insert");
InputTextCtrl::keyNames[WXK_NUMPAD_DELETE] = wxT("Numpad Delete");
InputTextCtrl::keyNames[WXK_NUMPAD_EQUAL] = wxT("Numpad =");
InputTextCtrl::keyNames[WXK_NUMPAD_MULTIPLY] = wxT("Numpad *");
InputTextCtrl::keyNames[WXK_NUMPAD_ADD] = wxT("Numpad +");
InputTextCtrl::keyNames[WXK_NUMPAD_SEPARATOR] = wxT("Numpad Separator");
InputTextCtrl::keyNames[WXK_NUMPAD_SUBTRACT] = wxT("Numpad -");
InputTextCtrl::keyNames[WXK_NUMPAD_DECIMAL] = wxT("Numpad .");
InputTextCtrl::keyNames[WXK_NUMPAD_DIVIDE] = wxT("Numpad /");
InputTextCtrl::keyNames[WXK_WINDOWS_LEFT] = wxT("Windows Left");
InputTextCtrl::keyNames[WXK_WINDOWS_RIGHT] = wxT("Windows Right");
InputTextCtrl::keyNames[WXK_WINDOWS_MENU] = wxT("Application");
InputTextCtrl::keyNames[WXK_COMMAND] = wxT("Command");
InputTextCtrl::keyNames[WXK_SPECIAL1] = wxT("Special 1");
InputTextCtrl::keyNames[WXK_SPECIAL2] = wxT("Special 2");
InputTextCtrl::keyNames[WXK_SPECIAL3] = wxT("Special 3");
InputTextCtrl::keyNames[WXK_SPECIAL4] = wxT("Special 4");
InputTextCtrl::keyNames[WXK_SPECIAL5] = wxT("Special 5");
InputTextCtrl::keyNames[WXK_SPECIAL6] = wxT("Special 6");
InputTextCtrl::keyNames[WXK_SPECIAL7] = wxT("Special 7");
InputTextCtrl::keyNames[WXK_SPECIAL8] = wxT("Special 8");
InputTextCtrl::keyNames[WXK_SPECIAL9] = wxT("Special 9");
InputTextCtrl::keyNames[WXK_SPECIAL10] = wxT("Special 10");
InputTextCtrl::keyNames[WXK_SPECIAL11] = wxT("Special 11");
InputTextCtrl::keyNames[WXK_SPECIAL12] = wxT("Special 12");
InputTextCtrl::keyNames[WXK_SPECIAL13] = wxT("Special 13");
InputTextCtrl::keyNames[WXK_SPECIAL14] = wxT("Special 14");
InputTextCtrl::keyNames[WXK_SPECIAL15] = wxT("Special 15");
InputTextCtrl::keyNames[WXK_SPECIAL16] = wxT("Special 16");
InputTextCtrl::keyNames[WXK_SPECIAL17] = wxT("Special 17");
InputTextCtrl::keyNames[WXK_SPECIAL18] = wxT("Special 18");
InputTextCtrl::keyNames[WXK_SPECIAL19] = wxT("Special 19");
InputTextCtrl::keyNames[WXK_SPECIAL20] = wxT("Special 20");
InputTextCtrl::keyNamesInitialized = true;
}
InputTextCtrl::InputTextCtrl(wxWindow* parent, wxWindowID id)
{
keyCode = 0;
InputTextCtrl::InitializeKeyNames();
Create(parent, id, wxT(""), wxDefaultPosition, wxDefaultSize, wxTE_PROCESS_ENTER|wxTE_PROCESS_TAB );
}
void InputTextCtrl::OnKeyDown(wxKeyEvent& event)
{
int keyCode = event.GetKeyCode();
OnChangeKey(keyCode);
}
void InputTextCtrl::OnChangeKey(int keyCode)
{
if (InputTextCtrl::keyNames[keyCode] == wxT(""))
{
if (!keyCode)
{
this->SetBackgroundColour(*wxRED);
this->ChangeValue(wxT("Invalid key"));
}
else
{
this->SetBackgroundColour(*wxWHITE);
this->ChangeValue(wxString::Format(wxT("Key %i"),keyCode));
}
}
else
{
this->SetBackgroundColour(*wxWHITE);
this->ChangeValue(InputTextCtrl::keyNames[keyCode]);
}
this->keyCode = keyCode;
}
|
08erikal-gbpaclone
|
src/GUI/InputTextCtrl.cpp
|
C++
|
gpl3
| 12,247
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <wx/dcbuffer.h>
#include <wx/image.h>
#include "MainPanel.h"
#include "MainFrame.h"
#include "IDControls.h"
#include "../Def.h"
#include "../Settings.h"
inline void MainPanel::OnEraseBackground(wxEraseEvent &) { /* do nothing */ }
IMPLEMENT_CLASS(MainPanel, wxPanel)
BEGIN_EVENT_TABLE(MainPanel, wxPanel)
EVT_PAINT(MainPanel::OnPaint)
EVT_ERASE_BACKGROUND(MainPanel::OnEraseBackground)
END_EVENT_TABLE()
BYTE palettes[][4][3] = {
{
{ 16, 57, 16},
{ 49, 99, 49},
{140, 173, 16},
{156, 189, 16}
},
{
{ 0, 0, 0},
{ 85, 85, 85},
{170, 170, 170},
{255, 255, 255}
}
};
MainPanel::MainPanel(wxWindow *parent) : wxPanel(parent, ID_MAINPANEL) {
imgBuf = NULL;
SetBackgroundStyle(wxBG_STYLE_CUSTOM);
windowParent = parent;
CreateScreen();
ChangeSize();
this->SetDropTarget(new DnDFile(parent));
}
MainPanel::~MainPanel() {
delete[] imgBuf;
}
void MainPanel::CreateScreen() {
imgBuf = new BYTE[GB_SCREEN_W*GB_SCREEN_H*3];
OnClear();
ChangePalette(SettingsGetGreenScale());
}
void MainPanel::ChangeSize()
{
int zoom = SettingsGetWindowZoom();
wxSize size(GB_SCREEN_W*zoom, GB_SCREEN_H*zoom);
SetMinSize(size);
SetMaxSize(size);
}
void MainPanel::OnPaint(wxPaintEvent &) {
wxImage img = wxImage(GB_SCREEN_W, GB_SCREEN_H, imgBuf, true);
int winZoom = SettingsGetWindowZoom();
if (winZoom > 1)
img.Rescale(GB_SCREEN_W*winZoom, GB_SCREEN_H*winZoom, wxIMAGE_QUALITY_NORMAL);
wxBitmap bmp(img);
// paint the screen
wxAutoBufferedPaintDC dc(this);
dc.DrawBitmap(bmp, 0, 0);
// dc.DrawText(wxString("Pokemon"), 0, 0);
}
void MainPanel::OnPreDraw()
{
}
void MainPanel::OnPostDraw()
{
}
void MainPanel::OnRefreshScreen()
{
// refresh the panel
Refresh(false);
Update();
}
void MainPanel::ChangePalette(bool original)
{
if (original)
selPalette = 0;
else
selPalette = 1;
}
void MainPanel::OnClear()
{
int size = GB_SCREEN_W*GB_SCREEN_H*3;
memset(imgBuf, 0, size);
}
void MainPanel::OnDrawPixel(int idColor, int x, int y)
{
/*
int zoom = SettingsGetWindowZoom();
void * ptrPalette = &palettes[selPalette][idColor][0];
unsigned long offsetBuf = 0;
int sizeLine = GB_SCREEN_W * 3 * zoom;
int offsetX = x * 3 * zoom;
int offsetY = 0;
int i, j;
for (i=0; i<zoom; i++)
{
offsetY = (y * zoom + i) * sizeLine;
offsetBuf = offsetY + offsetX;
for (j=0; j<zoom; j++)
{
memcpy(&imgBuf[offsetBuf], ptrPalette, 3);
offsetBuf += 3;
}
}
*/
BYTE colorR = palettes[selPalette][idColor][0];
BYTE colorG = palettes[selPalette][idColor][1];
BYTE colorB = palettes[selPalette][idColor][2];
int sizeLine = GB_SCREEN_W * 3;
int offsetX = x * 3;
int offsetY = y * sizeLine;
int offsetBuf = offsetY + offsetX;
imgBuf[offsetBuf + 0] = colorR;
imgBuf[offsetBuf + 1] = colorG;
imgBuf[offsetBuf + 2] = colorB;
}
DnDFile::DnDFile(wxWindow * parent)
{
this->parent = parent;
}
bool DnDFile::OnDropFiles(wxCoord x, wxCoord y, const wxArrayString& filenames)
{
MainFrame * frame = (MainFrame *)parent;
frame->ChangeFile(filenames[0]);
return true;
}
|
08erikal-gbpaclone
|
src/GUI/MainPanel.cpp
|
C++
|
gpl3
| 3,848
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <string>
#include <wx/wfstream.h>
#include <wx/zipstrm.h>
#include <wx/stdpaths.h>
#include "MainFrame.h"
#include "AboutDialog.h"
#include "IDControls.h"
#include "../Settings.h"
#include "../Pad.h"
#include "../GBException.h"
#include "Xpm/open.xpm"
#include "Xpm/play.xpm"
#include "Xpm/pause.xpm"
#include "Xpm/stop.xpm"
#include "Xpm/recent.xpm"
#include "Xpm/gb16.xpm"
#include "Xpm/gb32.xpm"
using namespace std;
IMPLEMENT_CLASS(MainFrame, wxFrame)
BEGIN_EVENT_TABLE(MainFrame, wxFrame)
EVT_MENU(wxID_EXIT, MainFrame::OnFileExit)
EVT_MENU(wxID_OPEN, MainFrame::OnFileOpen)
EVT_MENU(ID_OPEN_RECENT, MainFrame::OnRecent)
EVT_MENU_RANGE(ID_RECENT0, ID_RECENT9, MainFrame::OnRecentItem)
EVT_MENU(ID_CLEAR_RECENT, MainFrame::OnClearRecent)
EVT_MENU_RANGE(ID_LOADSTATE0, ID_LOADSTATE9, MainFrame::OnLoadState)
EVT_MENU_RANGE(ID_SAVESTATE0, ID_SAVESTATE9, MainFrame::OnSaveState)
EVT_MENU(wxID_PREFERENCES, MainFrame::OnSettings)
EVT_MENU(wxID_ABOUT, MainFrame::OnAbout)
EVT_MENU(ID_START, MainFrame::OnPlay)
EVT_MENU(ID_PAUSE, MainFrame::OnPause)
EVT_MENU(ID_STOP, MainFrame::OnStop)
EVT_UPDATE_UI( ID_START, MainFrame::OnPlayUpdateUI )
EVT_UPDATE_UI( ID_PAUSE, MainFrame::OnPauseUpdateUI )
EVT_UPDATE_UI( ID_STOP, MainFrame::OnStopUpdateUI )
EVT_UPDATE_UI_RANGE(ID_LOADSTATE0, ID_LOADSTATE9, MainFrame::OnLoadStateUpdateUI)
EVT_UPDATE_UI_RANGE(ID_SAVESTATE0, ID_SAVESTATE9, MainFrame::OnSaveStateUpdateUI)
EVT_TIMER(ID_TIMER, MainFrame::OnTimer)
END_EVENT_TABLE()
MainFrame::MainFrame(wxString fileName)
{
// Create the MainFrame
this->Create(0, ID_MAINFRAME, wxT("gbpablog"), wxDefaultPosition,
wxDefaultSize, wxCAPTION | wxSYSTEM_MENU |
wxMINIMIZE_BOX | wxCLOSE_BOX);
wxIconBundle * icons = new wxIconBundle(wxIcon(gb16_xpm));
icons->AddIcon(wxIcon(gb32_xpm));
this->SetIcons(*icons);
this->CreateMenuBar();
this->CreateToolBar();
numRecentFiles = 0;
settingsDialog = new SettingsDialog(this);
settingsDialog->CentreOnScreen();
settingsDialog->LoadFromFile();
SettingsSetNewValues(settingsDialog->settings);
PadSetKeys(SettingsGetInput());
this->CreateRecentMenu(SettingsGetRecentRoms());
// create the MainPanel
panel = new MainPanel(this);
sound = new Sound();
video = new Video(panel);
cpu = new CPU(video, sound);
cartridge = NULL;
emuState = NotStartedYet;
this->SetClientSize(GB_SCREEN_W*SettingsGetWindowZoom(), GB_SCREEN_H*SettingsGetWindowZoom());
sound->ChangeSampleRate(SettingsGetSoundSampleRate());
sound->SetEnabled(SettingsGetSoundEnabled());
if (fileName != wxT(""))
ChangeFile(fileName);
timerExecution = new wxTimer(this, ID_TIMER);
timerExecution->Start(16);
//ShowFullScreen(true, wxFULLSCREEN_ALL);
}
MainFrame::~MainFrame()
{
this->Clean();
}
void MainFrame::CreateMenuBar()
{
// create the main menubar
mb = new wxMenuBar();
// create the file menu
wxMenu *fileMenu = new wxMenu;
fileMenu->Append(wxID_OPEN, wxT("&Open\tCtrl+O"));
recentMenuFile = new wxMenu;
recentMenuFile->AppendSeparator();
recentMenuFile->Append(ID_CLEAR_RECENT, wxT("Clear recent roms"));
fileMenu->AppendSubMenu(recentMenuFile, wxT("Open Recent"));
// Se crea un wxMenu que se tratará exactamente igual que a recentMenuFile
// para poder tener uno en el menuBar y otro como popUp
recentMenuPopup = new wxMenu;
recentMenuPopup->AppendSeparator();
recentMenuPopup->Append(ID_CLEAR_RECENT, wxT("Clear recent roms"));
wxMenu * loadMenuFile = new wxMenu;
wxMenu * saveMenuFile = new wxMenu;
wxString slotMenu;
for (int i=1; i<11; i++)
{
int id = i % 10;
slotMenu = wxT("");
slotMenu << wxT("Slot ") << id << wxT("\tCtrl+Alt+") << id;
loadMenuFile->Append(ID_LOADSTATE0+id, slotMenu);
slotMenu = wxT("");
slotMenu << wxT("Slot ") << id << wxT("\tCtrl+") << id;
saveMenuFile->Append(ID_SAVESTATE0+id, slotMenu);
}
fileMenu->AppendSubMenu(loadMenuFile, wxT("Load State"));
fileMenu->AppendSubMenu(saveMenuFile, wxT("Save State"));
fileMenu->Append(wxID_EXIT, wxT("E&xit"));
// add the file menu to the menu bar
mb->Append(fileMenu, wxT("&File"));
// create the emulation menu
wxMenu *emulationMenu = new wxMenu;
emulationMenu->Append(wxID_PREFERENCES, wxT("&Settings\tCtrl+E"));
emulationMenu->Append(ID_START, wxT("&Start\tCtrl+S"));
emulationMenu->Append(ID_PAUSE, wxT("&Pause\tCtrl+P"));
emulationMenu->Append(ID_STOP, wxT("S&top\tCtrl+T"));
// add the file menu to the menu bar
mb->Append(emulationMenu, wxT("&Emulation"));
// create the help menu
wxMenu *helpMenu = new wxMenu;
helpMenu->Append(wxID_ABOUT, wxT("&About"));
// add the help menu to the menu bar
mb->Append(helpMenu, wxT("&Help"));
// add the menu bar to the MainFrame
this->SetMenuBar(mb);
}
void MainFrame::CreateToolBar()
{
toolBar = new wxToolBar(this, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTB_HORIZONTAL|wxNO_BORDER);
wxBitmap bmpOpen(open_xpm);
toolBar->AddTool(wxID_OPEN, bmpOpen, wxT("Open"));
wxBitmap bmpRecent(recent_xpm);
toolBar->AddTool(ID_OPEN_RECENT, bmpRecent, wxT("Recent"));
toolBar->AddSeparator();
wxBitmap bmpPlay(play_xpm);
toolBar->AddTool(ID_START, bmpPlay, wxT("Start"));
wxBitmap bmpPause(pause_xpm);
toolBar->AddTool(ID_PAUSE, bmpPause, wxT("Pause"));
wxBitmap bmpStop(stop_xpm);
toolBar->AddTool(ID_STOP, bmpStop, wxT("Stop"));
toolBar->EnableTool(ID_START, false);
toolBar->EnableTool(ID_PAUSE, false);
toolBar->EnableTool(ID_STOP, false);
toolBar->Realize();
this->SetToolBar(toolBar);
}
void MainFrame::OnRecent(wxCommandEvent &event)
{
this->PopupMenu(recentMenuPopup, 0, 0);
}
void MainFrame::OnFileOpen(wxCommandEvent &) {
wxFileDialog* openDialog = new wxFileDialog(this, wxT("Choose a gameboy rom to open"), wxEmptyString, wxEmptyString,
wxT("Gameboy roms (*.gb; *.zip)|*.gb;*.zip"),
wxFD_OPEN, wxDefaultPosition);
// Creates a "open file" dialog
if (openDialog->ShowModal() == wxID_OK) // if the user click "Open" instead of "Cancel"
this->ChangeFile(openDialog->GetPath());
// Clean up after ourselves
openDialog->Destroy();
}
void MainFrame::OnRecentItem(wxCommandEvent &event)
{
int idAux = event.GetId();
int id = idAux - ID_RECENT0;
ChangeFile(recentFiles[id].fullName);
}
void MainFrame::OnLoadState(wxCommandEvent &event)
{
int idAux = event.GetId();
int id = idAux - ID_LOADSTATE0;
wxString savesDir = wxStandardPaths::Get().GetUserDataDir() + wxFileName::GetPathSeparator()
+ wxT("SaveStates") + wxFileName::GetPathSeparator();
try
{
cpu->LoadState(string(savesDir.mb_str()), id);
}
catch(GBException e)
{
wxMessageBox(wxString(e.what(), wxConvUTF8), wxT("Error"), wxICON_WARNING);
}
}
void MainFrame::OnSaveState(wxCommandEvent &event)
{
int idAux = event.GetId();
int id = idAux - ID_SAVESTATE0;
wxString savesDir = wxStandardPaths::Get().GetUserDataDir() + wxFileName::GetPathSeparator()
+ wxT("SaveStates");
if (!wxFileName::DirExists(savesDir))
wxFileName::Mkdir(savesDir, 0777, wxPATH_MKDIR_FULL);
savesDir += wxFileName::GetPathSeparator();
try
{
cpu->SaveState(string(savesDir.mb_str()), id);
}
catch(GBException e)
{
wxMessageBox(wxString(e.what(), wxConvUTF8), wxT("Error"), wxICON_WARNING);
}
}
void MainFrame::OnClearRecent(wxCommandEvent &)
{
for (int i=0; i<numRecentFiles; i++)
{
recentMenuFile->Delete(ID_RECENT0+i);
recentMenuPopup->Delete(ID_RECENT0+i);
}
numRecentFiles = 0;
this->RecentRomsToSettings();
settingsDialog->SaveToFile(true);
}
void MainFrame::ChangeFile(const wxString fileName)
{
BYTE * buffer = NULL;
unsigned long size = 0;
bool isZip = false;
if (!wxFileExists(fileName))
{
wxMessageBox(wxT("The file:\n")+fileName+wxT("\ndoesn't exist"), wxT("Error"));
return;
}
wxString fileLower = fileName.Lower();
if (fileLower.EndsWith(wxT(".zip")))
{
isZip = true;
this->LoadZip(fileName, &buffer, &size);
if ((buffer == NULL) || (size == 0))
return;
}
else if (!fileLower.EndsWith(wxT(".gb")))
{
wxMessageBox(wxT("Only gb and zip files allowed!"), wxT("Error"));
return;
}
// Si ha llegado aquí es que es un archivo permitido
cpu->Reset();
if (cartridge)
delete cartridge;
wxString battsDir = wxStandardPaths::Get().GetUserDataDir() + wxFileName::GetPathSeparator()
+ wxT("Batts");
if (!wxFileName::DirExists(battsDir))
wxFileName::Mkdir(battsDir, 0777, wxPATH_MKDIR_FULL);
battsDir += wxFileName::GetPathSeparator();
if (isZip) {
cartridge = new Cartridge(buffer, size, string(battsDir.mb_str()));
}else {
cartridge = new Cartridge(string(fileName.mb_str()), string(battsDir.mb_str()));
}
cpu->LoadCartridge(cartridge);
emuState = Playing;
this->UpdateRecentMenu(fileName);
}
/*
* Carga un fichero comprimido con zip y busca una rom de gameboy (un fichero con extension gb).
* Si existe mas de una rom solo carga la primera. Si se ha encontrado, la rom se devuelve en un buffer
* junto con su tamaño, sino las variables se dejan intactas
*/
void MainFrame::LoadZip(const wxString zipPath, BYTE ** buffer, unsigned long * size)
{
wxString fileInZip, fileLower;
wxZipEntry* entry;
wxFFileInputStream in(zipPath);
wxZipInputStream zip(in);
while (entry = zip.GetNextEntry())
{
fileInZip = entry->GetName();
fileLower = fileInZip.Lower();
if (fileLower.EndsWith(wxT(".gb")))
{
*size = zip.GetSize();
*buffer = new BYTE[*size];
zip.Read(*buffer, *size);
delete entry;
return;
}
else
{
delete entry;
continue;
}
}
// Archivo no encontrado
wxMessageBox(wxT("GameBoy rom not found in the file:\n")+zipPath, wxT("Error"));
return;
}
void MainFrame::CreateRecentMenu(std::string * roms)
{
for (int i=0; i<MAX_RECENT_FILES; i++)
{
if (roms[i] == "")
break;
recentFiles[i].fullName = wxString(roms[i].c_str(), wxConvUTF8);
recentFiles[i].shortName = recentFiles[i].fullName.substr(recentFiles[i].fullName.rfind(wxFileName::GetPathSeparator())+1);
int id = ID_RECENT0 + numRecentFiles;
recentMenuFile->Insert(numRecentFiles, id, recentFiles[i].shortName);
recentMenuPopup->Insert(numRecentFiles, id, recentFiles[i].shortName);
numRecentFiles++;
}
}
void MainFrame::UpdateRecentMenu(wxString fileName)
{
wxString shortName = fileName.substr(fileName.rfind(wxFileName::GetPathSeparator())+1);
int previousIndex = -1;
for (int i=0; i<numRecentFiles; i++)
{
if (recentFiles[i].fullName == fileName)
{
previousIndex = i;
break;
}
}
int startFrom;
// Si ya existia de antes y es el primero
if (previousIndex == 0)
{
return;
}
// Si ya existia de antes y no es el primero
else if (previousIndex > 0)
{
startFrom = previousIndex-1;
}
// Si no existia pero no hemos llegado al limite
else if (numRecentFiles < MAX_RECENT_FILES)
{
startFrom = numRecentFiles-1;
int id = ID_RECENT0 + numRecentFiles;
recentMenuFile->Insert(numRecentFiles, id, wxT(""));
recentMenuPopup->Insert(numRecentFiles, id, wxT(""));
numRecentFiles++;
}
// Si no existia pero hemos llegado al limite
else
{
startFrom = MAX_RECENT_FILES-2;
}
for (int i=startFrom; i>=0; i--)
{
recentFiles[i+1].shortName = recentFiles[i].shortName;
recentFiles[i+1].fullName = recentFiles[i].fullName;
}
recentFiles[0].shortName = shortName;
recentFiles[0].fullName = fileName;
for (int i=0; i<numRecentFiles; i++)
{
recentMenuFile->SetLabel(ID_RECENT0+i, recentFiles[i].shortName);
recentMenuPopup->SetLabel(ID_RECENT0+i, recentFiles[i].shortName);
}
this->RecentRomsToSettings();
settingsDialog->SaveToFile(true);
}
void MainFrame::RecentRomsToSettings()
{
std::string recentRomsSettings[10];
for (int i=0; i<numRecentFiles; i++)
{
recentRomsSettings[i] = recentFiles[i].fullName.mb_str();
}
for(int i=numRecentFiles; i<MAX_RECENT_FILES; i++)
{
recentRomsSettings[i] = "";
}
SettingsSetRecentRoms(recentRomsSettings);
}
void MainFrame::OnFileExit(wxCommandEvent &)
{
this->Close();
}
void MainFrame::Clean()
{
emuState = Stopped;
timerExecution->Stop();
delete cpu;
delete video;
delete sound;
if (cartridge)
delete cartridge;
if (settingsDialog)
settingsDialog->Destroy();
}
/*
* Abre un dialogo de configuracion. Cuando se cierra se encarga de aplicar ciertos cambios a la emulacion
*/
void MainFrame::OnSettings(wxCommandEvent &)
{
enumEmuStates lastState = emuState;
if (emuState == Playing)
emuState = Paused;
if (settingsDialog->ShowModal() == wxID_OK)
{
SettingsSetNewValues(settingsDialog->settings);
panel->ChangePalette(SettingsGetGreenScale());
panel->ChangeSize();
this->SetClientSize(GB_SCREEN_W*SettingsGetWindowZoom(), GB_SCREEN_H*SettingsGetWindowZoom());
PadSetKeys(SettingsGetInput());
sound->ChangeSampleRate(SettingsGetSoundSampleRate());
sound->SetEnabled(SettingsGetSoundEnabled());
}
emuState = lastState;
}
void MainFrame::OnAbout(wxCommandEvent &)
{
AboutDialog(this);
}
void MainFrame::OnPlay(wxCommandEvent &)
{
emuState = Playing;
}
void MainFrame::OnPause(wxCommandEvent &)
{
if (emuState == Playing)
emuState = Paused;
else if (emuState == Paused)
emuState = Playing;
}
void MainFrame::OnStop(wxCommandEvent &)
{
cpu->Reset();
panel->OnRefreshScreen();
emuState = Stopped;
}
void MainFrame::OnPlayUpdateUI(wxUpdateUIEvent& event)
{
if ((emuState == NotStartedYet) || (emuState == Playing))
event.Enable(false);
else
event.Enable(true);
}
void MainFrame::OnPauseUpdateUI(wxUpdateUIEvent& event)
{
if ((emuState == NotStartedYet) || (emuState == Stopped))
event.Enable(false);
else
event.Enable(true);
}
void MainFrame::OnStopUpdateUI(wxUpdateUIEvent& event)
{
if ((emuState == Stopped)||(emuState == NotStartedYet))
event.Enable(false);
else
event.Enable(true);
}
void MainFrame::OnLoadStateUpdateUI(wxUpdateUIEvent& event)
{
if ((emuState == Stopped)||(emuState == NotStartedYet))
event.Enable(false);
else
event.Enable(true);
}
void MainFrame::OnSaveStateUpdateUI(wxUpdateUIEvent& event)
{
if ((emuState == Stopped)||(emuState == NotStartedYet))
event.Enable(false);
else
event.Enable(true);
}
void MainFrame::OnTimer(wxTimerEvent &event)
{
if (emuState == Playing)
cpu->ExecuteOneFrame();
}
|
08erikal-gbpaclone
|
src/GUI/MainFrame.cpp
|
C++
|
gpl3
| 14,859
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __IDCONSTROLS_H__
#define __IDCONSTROLS_H__
/*******************************************************************************
* Global Declarations
*******************************************************************************/
enum {
ID_MAINFRAME = wxID_HIGHEST + 1,
ID_MAINPANEL,
ID_LOAD,
ID_START,
ID_PAUSE,
ID_STOP,
ID_TIMER,
ID_OPEN_RECENT,
ID_RECENT0,
ID_RECENT1,
ID_RECENT2,
ID_RECENT3,
ID_RECENT4,
ID_RECENT5,
ID_RECENT6,
ID_RECENT7,
ID_RECENT8,
ID_RECENT9,
ID_CLEAR_RECENT,
ID_SAVESTATE0,
ID_SAVESTATE1,
ID_SAVESTATE2,
ID_SAVESTATE3,
ID_SAVESTATE4,
ID_SAVESTATE5,
ID_SAVESTATE6,
ID_SAVESTATE7,
ID_SAVESTATE8,
ID_SAVESTATE9,
ID_LOADSTATE0,
ID_LOADSTATE1,
ID_LOADSTATE2,
ID_LOADSTATE3,
ID_LOADSTATE4,
ID_LOADSTATE5,
ID_LOADSTATE6,
ID_LOADSTATE7,
ID_LOADSTATE8,
ID_LOADSTATE9,
ID_SETTINGSFRAME,
ID_GREENSCALE,
ID_WINZOOM,
ID_SOUND_ENABLED,
ID_SOUND_SR,
ID_TEXTCTRL_UP,
ID_TEXTCTRL_DOWN,
ID_TEXTCTRL_LEFT,
ID_TEXTCTRL_RIGHT,
ID_TEXTCTRL_A,
ID_TEXTCTRL_B,
ID_TEXTCTRL_SELECT,
ID_TEXTCTRL_START
};
#endif
|
08erikal-gbpaclone
|
src/GUI/IDControls.h
|
C
|
gpl3
| 1,741
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __MAINFRAME_H__
#define __MAINFRAME_H__
#define MAX_RECENT_FILES 10
#include <wx/wx.h>
#include "SettingsDialog.h"
#include "MainPanel.h"
#include "../CPU.h"
struct RecentFile
{
wxString shortName;
wxString fullName;
};
/*******************************************************************************
// MainFrame Class
*******************************************************************************/
class MainFrame : public wxFrame {
DECLARE_CLASS(MainFrame)
DECLARE_EVENT_TABLE()
private:
wxMenuBar *mb;
wxMenu *recentMenuFile;
wxMenu *recentMenuPopup;
wxToolBar* toolBar;
wxTimer * timerExecution;
MainPanel *panel;
SettingsDialog * settingsDialog;
Video * video;
Sound * sound;
Cartridge * cartridge;
RecentFile recentFiles[MAX_RECENT_FILES];
int numRecentFiles;
enum enumEmuStates { NotStartedYet, Stopped, Paused, Playing };
enumEmuStates emuState;
/**
* Called when exit from the file menu is selected.
*/
void OnFileExit(wxCommandEvent &);
void OnFileOpen(wxCommandEvent &);
void OnRecent(wxCommandEvent &event);
void OnRecentItem(wxCommandEvent &event);
void OnClearRecent(wxCommandEvent &event);
void OnLoadState(wxCommandEvent &event);
void OnSaveState(wxCommandEvent &event);
void OnSettings(wxCommandEvent &);
void OnAbout(wxCommandEvent &);
void OnPlay(wxCommandEvent &);
void OnPause(wxCommandEvent &);
void OnStop(wxCommandEvent &);
void OnPlayUpdateUI(wxUpdateUIEvent& event);
void OnPauseUpdateUI(wxUpdateUIEvent& event);
void OnStopUpdateUI(wxUpdateUIEvent& event);
void OnLoadStateUpdateUI(wxUpdateUIEvent& event);
void OnSaveStateUpdateUI(wxUpdateUIEvent& event);
//void OnIdle(wxIdleEvent &event);
void OnTimer(wxTimerEvent &event);
void CreateMenuBar();
void CreateToolBar();
void CreateRecentMenu(std::string * roms);
void RecentRomsToSettings();
void UpdateRecentMenu(wxString fileName);
void LoadZip(const wxString zipPath, BYTE ** buffer, unsigned long * size);
void Clean();
public:
CPU * cpu;
/**
* Creates a new MainFrame.
*/
MainFrame(wxString fileName);
~MainFrame();
/**
* Gets the MainPanel within this MainFrame.
*
* @return The MainPanel.
*/
inline MainPanel &GetPanel() { return *panel; }
void ChangeFile(const wxString fileName);
};
#endif
|
08erikal-gbpaclone
|
src/GUI/MainFrame.h
|
C++
|
gpl3
| 2,992
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <iostream>
#include <wx/cmdline.h>
#include <wx/filename.h>
#include "MainApp.h"
#include "../Def.h"
IMPLEMENT_CLASS(MainApp, wxApp)
IMPLEMENT_APP(MainApp)
static const wxCmdLineEntryDesc g_cmdLineDesc[] =
{
{ wxCMD_LINE_SWITCH, wxT("h"), wxT("help"), wxT("displays this help"), wxCMD_LINE_VAL_STRING, wxCMD_LINE_OPTION_HELP },
{ wxCMD_LINE_SWITCH, wxT("v"), wxT("version"), wxT("print version"), wxCMD_LINE_VAL_STRING, wxCMD_LINE_PARAM_OPTIONAL },
{ wxCMD_LINE_PARAM, NULL, NULL, wxT("input file"), wxCMD_LINE_VAL_STRING, wxCMD_LINE_PARAM_OPTIONAL },
{ wxCMD_LINE_NONE, NULL, NULL, NULL, wxCMD_LINE_VAL_NONE, wxCMD_LINE_PARAM_OPTIONAL }
};
bool MainApp::OnInit() {
wxString cmdFilename = wxT("");
wxCmdLineParser cmdParser(g_cmdLineDesc, argc, argv);
int res;
{
wxLogNull log;
// Pass false to suppress auto Usage() message
res = cmdParser.Parse(false);
}
// Check if the user asked for command-line help
if (res == -1 || res > 0 || cmdParser.Found(wxT("h")))
{
cmdParser.Usage();
return false;
}
// Check if the user asked for the version
if (cmdParser.Found(wxT("v")))
{
#ifndef __WXMSW__
wxLog::SetActiveTarget(new wxLogStderr);
#endif
wxString msg = wxT("");
msg << wxT(APP_NAME) << wxT(" ") << wxT(APP_VERSION);
wxLogMessage(wxT("%s"), msg.c_str());
return false;
}
// Check for a filename
if (cmdParser.GetParamCount() > 0)
{
cmdFilename = cmdParser.GetParam(0);
// Under Windows when invoking via a document
// in Explorer, we are passed the short form.
// So normalize and make the long form.
wxFileName fName(cmdFilename);
fName.Normalize(wxPATH_NORM_LONG|wxPATH_NORM_DOTS|wxPATH_NORM_TILDE|wxPATH_NORM_ABSOLUTE);
cmdFilename = fName.GetFullPath();
}
// create the MainFrame
frame = new MainFrame(cmdFilename);
frame->Centre();
frame->Show();
// Our MainFrame is the Top Window
SetTopWindow(frame);
// initialization should always succeed
return true;
}
int MainApp::OnRun() {
// initialize SDL
if (SDL_Init(SDL_INIT_VIDEO) < 0) {
std::cerr << "unable to init SDL: " << SDL_GetError() << '\n';
return -1;
}
// start the main loop
return wxApp::OnRun();
}
int MainApp::OnExit() {
SDL_Quit();
// return the standard exit code
return wxApp::OnExit();
}
void MainApp::MacOpenFile(const wxString &fileName)
{
frame->ChangeFile(fileName);
}
|
08erikal-gbpaclone
|
src/GUI/MainApp.cpp
|
C++
|
gpl3
| 3,071
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <wx/wx.h>
#include <wx/hyperlink.h> // hyperlink support
#include "SDL.h"
#include "AboutDialog.h"
#include "Xpm/gb64.xpm" // app icon bitmap
#include "../Def.h"
AboutDialog::AboutDialog (wxWindow *parent)
: wxDialog (parent, -1, _("About ..."),
wxDefaultPosition, wxDefaultSize,
wxDEFAULT_DIALOG_STYLE) {
// sets the application icon
SetTitle (_("About ..."));
const SDL_version* sdlVersion = SDL_Linked_Version();
wxString stringSDLVersion;
stringSDLVersion << (int)sdlVersion->major << wxT(".") << (int)sdlVersion->minor << wxT(".") << (int)sdlVersion->patch;
// about info
wxFlexGridSizer *aboutinfo = new wxFlexGridSizer (2, 3, 3);
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("Version: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT(APP_VERSION)));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("Written by: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT(APP_MAINT)));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("Licence type: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT(APP_LICENCE)));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("wxWidgets: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxVERSION_STRING));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("SDL: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, stringSDLVersion));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("Thanks to: ")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, _("Authors of Pan Docs")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("bcrew1375 (Miracle GB)")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("AntonioND (GiiBii)")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("")));
aboutinfo->Add (new wxStaticText(this, wxID_ANY, wxT("Shay Green (Gb_Snd_Emu)")));
// about icontitle//info
wxBoxSizer *aboutpane = new wxBoxSizer (wxHORIZONTAL);
aboutpane->Add (new wxStaticBitmap (this, wxID_ANY, wxBitmap (gb64_xpm)),
0, wxRIGHT, 10);
aboutpane->Add (aboutinfo, 0, wxEXPAND);
//aboutpane->Add (60, 0);
// about complete
wxBoxSizer *totalpane = new wxBoxSizer (wxVERTICAL);
totalpane->Add (0, 20);
wxStaticText *appname = new wxStaticText (this, wxID_ANY, wxT(APP_NAME));
appname->SetFont (wxFont (24, wxDEFAULT, wxNORMAL, wxBOLD));
totalpane->Add (appname, 0, wxALIGN_CENTER);
totalpane->Add (0, 10);
totalpane->Add (aboutpane, 0, wxALIGN_CENTER | wxRIGHT | wxLEFT, 20);
totalpane->Add (0, 10);
wxHyperlinkCtrl *website = new wxHyperlinkCtrl (this, wxID_ANY, wxT(APP_WEBSITE), wxT(APP_WEBSITE));
totalpane->Add (website, 0, wxALIGN_CENTER);
totalpane->Add (0, 10);
wxButton *okButton = new wxButton (this, wxID_OK, _("OK"));
okButton->SetDefault();
totalpane->Add (okButton, 0, wxALIGN_CENTER | wxALL, 10);
SetSizerAndFit (totalpane);
CentreOnParent();
ShowModal();
}
|
08erikal-gbpaclone
|
src/GUI/AboutDialog.cpp
|
C++
|
gpl3
| 3,751
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __ABOUTDIALOG_H__
#define __ABOUTDIALOG_H__
class AboutDialog: public wxDialog {
public:
AboutDialog (wxWindow *parent);
};
#endif
|
08erikal-gbpaclone
|
src/GUI/AboutDialog.h
|
C++
|
gpl3
| 803
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __MAINPANEL_H__
#define __MAINPANEL_H__
#include <wx/wx.h>
#include <wx/dnd.h>
#include "SDL.h"
#include "../IGBScreenDrawable.h"
#include "../Def.h"
/*******************************************************************************
* MainPanel Class
*******************************************************************************/
class MainPanel : public wxPanel, public IGBScreenDrawable {
DECLARE_CLASS(MainPanel)
DECLARE_EVENT_TABLE()
private:
int selPalette;
BYTE * imgBuf;
void OnPaint(wxPaintEvent &);
void OnEraseBackground(wxEraseEvent &);
/**
* Creates the SDL_Surface used by this MainPanel.
*/
void CreateScreen();
public:
wxWindow * windowParent;
MainPanel(wxWindow *parent);
~MainPanel();
void ChangeSize();
void ChangePalette(bool original);
void OnPreDraw();
void OnPostDraw();
void OnDrawPixel(int idColor, int x, int y);
void OnRefreshScreen();
void OnClear();
};
// A drop target that adds filenames to a list box
class DnDFile : public wxFileDropTarget {
public:
DnDFile(wxWindow *parent);
virtual bool OnDropFiles(wxCoord x, wxCoord y, const wxArrayString& filenames);
private:
wxWindow *parent;
};
#endif
|
08erikal-gbpaclone
|
src/GUI/MainPanel.h
|
C++
|
gpl3
| 1,871
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __INPUTTEXTCTRL_H__
#define __INPUTTEXTCTRL_H__
#define NUM_KEYNAMES 1024
#include <wx/wx.h>
class InputTextCtrl: public wxTextCtrl
{
DECLARE_CLASS(InputTextCtrl)
DECLARE_EVENT_TABLE()
public:
int keyCode;
InputTextCtrl(wxWindow* parent, wxWindowID id);
void OnChangeKey(int keyCode);
private:
static wxString keyNames[NUM_KEYNAMES];
static bool keyNamesInitialized;
static void InitializeKeyNames();
void OnKeyDown(wxKeyEvent& event);
};
#endif
|
08erikal-gbpaclone
|
src/GUI/InputTextCtrl.h
|
C++
|
gpl3
| 1,125
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __SOUND_H__
#define __SOUND_H__
#include "SDL.h"
// Definir la siguiente linea para que en Visual Studio no haya conflicto
// entre SDL y GB_Snd_Emu al definir tipos basicos
#define BLARGG_COMPILER_HAS_NAMESPACE 1
#include "Basic_Gb_Apu.h"
#include "Sound_Queue.h"
#include "Def.h"
class Sound
{
private:
Basic_Gb_Apu apu;
Sound_Queue sound;
bool initialized;
bool enabled;
long sampleRate;
int HandleError( const char* str );
public:
Sound();
~Sound();
int ChangeSampleRate(long newSampleRate);
int Start();
int Stop();
bool GetEnabled();
void SetEnabled(bool enabled);
inline void WriteRegister(WORD dir, BYTE value) { if (enabled) apu.write_register( dir, value ); }
inline BYTE ReadRegister(WORD dir) { return enabled ? apu.read_register( dir ) : 0; }
void EndFrame();
};
#endif
|
08erikal-gbpaclone
|
src/Sound.h
|
C++
|
gpl3
| 1,468
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __CPU_H__
#define __CPU_H__
#include "Registers.h"
#include "Instructions.h"
#include "Memory.h"
#include "Video.h"
#include "Sound.h"
#include "Pad.h"
#include "Cartridge.h"
#include "Log.h"
class CPU: public Registers, public Memory
{
private:
unsigned long numInstructions;
unsigned long actualCycles;
BYTE lastCycles;
WORD cyclesLCD;
WORD cyclesTimer;
WORD cyclesDIV;
WORD cyclesSerial;
int bitSerial;
Video *v;
QueueLog *log;
BYTE instructionCycles[0xFF];
BYTE instructionCyclesCB[0xFF];
bool frameCompleted;
public:
CPU(Video *v, Sound * s);
CPU(Video *v, Cartridge *c, Sound * s);
~CPU();
void ExecuteOneFrame();
void UpdatePad();
void Reset();
void SaveLog();
void SaveState(std::string saveDirectory, int numSlot);
void LoadState(std::string loadDirectory, int numSlot);
private:
void Init(Video *v);
void FillInstructionCycles();
void FillInstructionCyclesCB();
void OpCodeCB(Instructions * inst);
void UpdateStateLCD();
void UpdateTimer();
void UpdateSerial();
void Interrupts(Instructions * inst);
void CheckLYC();
void OnEndFrame();
};
#endif
|
08erikal-gbpaclone
|
src/CPU.h
|
C++
|
gpl3
| 1,825
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __GBEXCEPTION_H__
#define __GBEXCEPTION_H__
#include <string>
enum ExceptionType { GBUnknown, GBError, GBExit };
class GBException: public std::exception
{
private:
std::string description;
ExceptionType type;
void newException(std::string desc, ExceptionType type);
public:
GBException();
GBException(std::string desc);
GBException(std::string desc, ExceptionType type);
const char* what() const throw();
ExceptionType GetType();
~GBException() throw();
};
#endif
|
08erikal-gbpaclone
|
src/GBException.h
|
C++
|
gpl3
| 1,182
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __REGISTERS_H__
#define __REGISTERS_H__
#include "Def.h"
#include <iostream>
enum e_registers {
A = 0x00, B, C, D, E, F, H, L, //registros simples
AF = 0x10, BC, DE, HL, //registros dobles
f_Z = 0x20, f_N, f_H, f_C, //flags
PC = 0x30, SP, $, c_$$,
c_BC = 0x40, c_DE, c_HL, //memoria apuntada por el registro doble
};
union u_register{
WORD doble;
BYTE simple[2];
};
class Registers
{
private:
u_register af, bc, de, hl;
WORD pc; //Program Counter
WORD sp; //Stack Pointer
bool IME;
bool pendingIME;
bool pendingIMEvalue;
bool halt;
bool stop;
public:
Registers();
~Registers();
Registers *GetPtrRegisters();
inline BYTE Get_A() {return this->af.simple[1];}
inline void Set_A(BYTE value) {this->af.simple[1] = value;}
inline BYTE Get_B() {return this->bc.simple[1];}
inline void Set_B(BYTE value) {this->bc.simple[1] = value;}
inline BYTE Get_C() {return this->bc.simple[0];}
inline void Set_C(BYTE value) {this->bc.simple[0] = value;}
inline BYTE Get_D() {return this->de.simple[1];}
inline void Set_D(BYTE value) {this->de.simple[1] = value;}
inline BYTE Get_E() {return this->de.simple[0];}
inline void Set_E(BYTE value) {this->de.simple[0] = value;}
inline BYTE Get_F() {return this->af.simple[0];}
inline void Set_F(BYTE value) {this->af.simple[0] = value;}
inline BYTE Get_H() {return this->hl.simple[1];}
inline void Set_H(BYTE value) {this->hl.simple[1] = value;}
inline BYTE Get_L() {return this->hl.simple[0];}
inline void Set_L(BYTE value) {this->hl.simple[0] = value;}
inline WORD Get_AF() {return this->af.doble;}
inline void Set_AF(WORD value) {this->af.doble = value;}
inline WORD Get_BC() {return this->bc.doble;}
inline void Set_BC(WORD value) {this->bc.doble = value;}
inline WORD Get_DE() {return this->de.doble;}
inline void Set_DE(WORD value) {this->de.doble = value;}
inline WORD Get_HL() {return this->hl.doble;}
inline void Set_HL(WORD value) {this->hl.doble = value;}
inline WORD Get_PC() {return this->pc;}
inline void Set_PC(WORD value) {this->pc = value;}
inline void Add_PC(int value) {this->pc += value;};
inline WORD Get_SP() {return this->sp;}
inline void Set_SP(WORD value) {this->sp = value;}
inline void Add_SP(int value) {this->sp += value;};
inline bool Get_IME() {return this->IME;}
inline void Set_IME(bool value, bool immediately=true)
{
if (immediately)
{
this->IME = value;
this->pendingIME = false;
}
else
{
this->pendingIME = true;
this->pendingIMEvalue = value;
}
}
inline void Set_PendingIME()
{
if (this->pendingIME)
{
this->IME = this->pendingIMEvalue;
this->pendingIME = false;
}
}
inline bool Get_Halt() {return this->halt;}
inline void Set_Halt(bool value) {this->halt = value;}
inline bool Get_Stop() {return this->stop;}
inline void Set_Stop(bool value) {this->stop = value;}
WORD Get_Reg(e_registers reg);
void Set_Reg(e_registers reg, WORD value);
inline BYTE Get_flagZ() {return (this->af.simple[0] >> 7);}
inline void Set_flagZ(BYTE value) {this->af.simple[0] = (this->af.simple[0] & 0x7F) | (value << 7);}
inline BYTE Get_flagN() {return ((this->af.simple[0] & 0x40) >> 6);}
inline void Set_flagN(BYTE value) {this->af.simple[0] = (this->af.simple[0] & 0xBF) | (value << 6);}
inline BYTE Get_flagH() {return ((this->af.simple[0] & 0x20) >> 5);}
inline void Set_flagH(BYTE value) {this->af.simple[0] = (this->af.simple[0] & 0xDF) | (value << 5);}
inline BYTE Get_flagC() {return ((this->af.simple[0] & 0x10) >> 4);}
inline void Set_flagC(BYTE value) {this->af.simple[0] = (this->af.simple[0] & 0xEF) | (value << 4);}
BYTE Get_Flag(e_registers flag);
void Set_Flag(e_registers flag, BYTE value);
void ResetRegs();
void SaveRegs(std::ofstream * file);
void LoadRegs(std::ifstream * file);
std::string ToString();
};
#endif
|
08erikal-gbpaclone
|
src/Registers.h
|
C++
|
gpl3
| 4,666
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <fstream>
#include <iostream>
#include <string>
#include <string.h>
#include <iomanip>
#include "Cartridge.h"
#include "Def.h"
#include "GBException.h"
#include "MBC.h"
using namespace std;
/*
* Constructor que recibe un fichero, lo carga en memoria y lo procesa
*/
Cartridge::Cartridge(string fileName, string batteriesPath)
{
_memCartridge = NULL;
ifstream::pos_type size;
ifstream file (fileName.c_str(), ios::in|ios::binary|ios::ate);
if (file.is_open())
{
size = file.tellg();
this->_romSize = (unsigned long)size;
_memCartridge = new BYTE [size];
file.seekg (0, ios::beg);
file.read ((char *)_memCartridge, size);
file.close();
cout << fileName << ":\nFile loaded in memory correctly" << endl;
CheckCartridge(batteriesPath);
_isLoaded = true;
}
else
{
cerr << fileName << ": Error trying to open the file" << endl;
_isLoaded = false;
}
}
/*
* Constructor que recibe un buffer y su tamaño y lo procesa
*/
Cartridge::Cartridge(BYTE * cartridgeBuffer, unsigned long size, string batteriesPath)
{
_romSize = size;
_memCartridge = cartridgeBuffer;
CheckCartridge(batteriesPath);
_isLoaded = true;
}
Cartridge::~Cartridge(void)
{
DestroyMBC();
if (_memCartridge)
delete [] _memCartridge;
}
/*
* Comprueba el buffer de la rom, extrae el nombre, compara el tamaño e inicializa el MBC
*/
void Cartridge::CheckCartridge(string batteriesPath)
{
MBCPathBatteries(batteriesPath);
_name = string((char *)&_memCartridge[CART_NAME], 16);
CheckRomSize((int)_memCartridge[CART_ROM_SIZE], _romSize);
switch(_memCartridge[CART_TYPE])
{
case 0x00: //ROM ONLY
case 0x08: //ROM+RAM
case 0x09: //ROM+RAM+BATTERY
ptrRead = &NoneRead;
ptrWrite = &NoneWrite;
InitMBCNone(_name, _memCartridge, _romSize);
break;
case 0x01: //ROM+MBC1
case 0x02: //ROM+MBC1+RAM
case 0x03: //ROM+MBC1+RAM+BATT
ptrRead = &MBC1Read;
ptrWrite = &MBC1Write;
InitMBC1(_name, _memCartridge, _romSize, _memCartridge[CART_RAM_SIZE]);
break;
case 0x05: //ROM+MBC2
case 0x06: //ROM+MBC2+BATTERY
ptrRead = &MBC2Read;
ptrWrite = &MBC2Write;
InitMBC2(_name, _memCartridge, _romSize);
break;
/*
case 0x0B: //ROM+MMM01
case 0x0C: //ROM+MMM01+SRAM
case 0x0D: mbc = MMM01; break; //ROM+MMM01+SRAM+BATT*/
case 0x0F: //ROM+MBC3+TIMER+BATT
case 0x10: //ROM+MBC3+TIMER+RAM+BATT
case 0x11: //ROM+MBC3
case 0x12: //ROM+MBC3+RAM
case 0x13: //ROM+MBC3+RAM+BATT
ptrRead = &MBC3Read;
ptrWrite = &MBC3Write;
InitMBC3(_name, _memCartridge, _romSize, _memCartridge[CART_RAM_SIZE]);
break;
case 0x19: //ROM+MBC5
case 0x1A: //ROM+MBC5+RAM
case 0x1B: //ROM+MBC5+RAM+BATT
case 0x1C: //ROM+MBC5+RUMBLE
case 0x1D: //ROM+MBC5+RUMBLE+SRAM
case 0x1E: //ROM+MBC5+RUMBLE+SRAM+BATT
ptrRead = &MBC5Read;
ptrWrite = &MBC5Write;
InitMBC5(_name, _memCartridge, _romSize, _memCartridge[CART_RAM_SIZE]);
break;
/*case 0x1F: //Pocket Camera
case 0xFD: //Bandai TAMA5
case 0xFE: mbc = Other; break; //Hudson HuC-3
case 0xFF: mbc = HuC1; break; //Hudson HuC-1*/
default: throw GBException("MBC not implemented yet");
}
}
/*
* Compara el tamaño de la rom con el valor de la cabecera
*/
int Cartridge::CheckRomSize(int numHeaderSize, int fileSize)
{
int headerSize = 32768 << (numHeaderSize & 0x0F);
if (numHeaderSize & 0xF0)
headerSize += (32768 << ((numHeaderSize & 0xF0) >> 0x04));
if (headerSize != fileSize)
{
cout << "The header does not match with the file size" << endl;
return 0;
}
else
return 1;
}
BYTE *Cartridge::GetData()
{
return _memCartridge;
}
unsigned int Cartridge::GetSize()
{
return _romSize;
}
string Cartridge::GetName()
{
return _name;
}
bool Cartridge::IsLoaded()
{
return _isLoaded;
}
void Cartridge::SaveMBC(ofstream * file)
{
MBCSaveState(file);
}
void Cartridge::LoadMBC(ifstream * file)
{
MBCLoadState(file);
}
|
08erikal-gbpaclone
|
src/Cartridge.cpp
|
C++
|
gpl3
| 4,852
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Settings.h"
#include <wx/wx.h>
using namespace std;
Settings settings;
Settings::Settings()
{
greenScale = false;
windowZoom = 1;
soundEnabled = true;
soundSampleRate = 44100;
padKeys[0] = WXK_UP; // Up
padKeys[1] = WXK_DOWN; // Down
padKeys[2] = WXK_LEFT; // Left
padKeys[3] = WXK_RIGHT;// Right
padKeys[4] = 'A'; // A
padKeys[5] = 'S'; // B
padKeys[6] = 'Q'; // Select
padKeys[7] = 'W'; // Start
}
Settings SettingsGetCopy()
{
return settings;
}
void SettingsSetNewValues(Settings newSettings)
{
settings = newSettings;
}
bool SettingsGetGreenScale()
{
return settings.greenScale;
}
void SettingsSetGreenScale(bool greenScale)
{
settings.greenScale = greenScale;
}
int SettingsGetWindowZoom()
{
return settings.windowZoom;
}
void SettingsSetWindowZoom(int windowZoom)
{
settings.windowZoom = windowZoom;
}
bool SettingsGetSoundEnabled()
{
return settings.soundEnabled;
}
void SettingsSetSoundEnabled(bool enabled)
{
settings.soundEnabled = enabled;
}
int SettingsGetSoundSampleRate()
{
return settings.soundSampleRate;
}
void SettingsSetSoundSampleRate(int sampleRate)
{
settings.soundSampleRate = sampleRate;
}
int* SettingsGetInput()
{
return &settings.padKeys[0];
}
void SettingsSetInput(const int* padKeys)
{
for (int i=0; i<8; i++)
{
settings.padKeys[i] = padKeys[i];
}
}
string* SettingsGetRecentRoms()
{
return &settings.recentRoms[0];
}
void SettingsSetRecentRoms(const string* recentRoms)
{
for (int i=0; i<10; i++)
{
settings.recentRoms[i] = recentRoms[i];
}
}
|
08erikal-gbpaclone
|
src/Settings.cpp
|
C++
|
gpl3
| 2,196
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "MBC.h"
#include "GBException.h"
#include <fstream>
#include <iostream>
#include <sstream>
using namespace std;
static BYTE * _memCartridge = NULL;
static BYTE * _memRamMBC = NULL;
static int _memMode = 0;
static int _romBank = 1;
static int _romSize = 0; //Bytes
static int _ramBank = 0;
static int _ramSize = 0; //Bytes
static int _ramEnabled = 0;
static string _romName = "";
static string _pathBatteries = "";
void MBCSaveRam();
void MBCLoadRam();
void InitMBC(string romName, BYTE * memCartridge, int romSize)
{
_romName = romName;
_memCartridge = memCartridge;
_memMode = 0;
_romBank = 1;
_romSize = romSize;
_ramBank = 0;
_ramEnabled = 0;
_ramSize = 0;
_memRamMBC = NULL;
}
void InitMBCNone(string romName, BYTE * memCartridge, int romSize)
{
InitMBC(romName, memCartridge, romSize);
}
void InitMBC1(string romName, BYTE * memCartridge, int romSize, int ramHeaderSize)
{
InitMBC(romName, memCartridge, romSize);
if (ramHeaderSize == 0x01)
_ramSize = 2048; //2KB
else if (ramHeaderSize == 0x02)
_ramSize = 8192; //8KB
else if (ramHeaderSize == 0x03)
_ramSize = 32768; //32KB
if (_ramSize)
_memRamMBC = new BYTE[_ramSize];
MBCLoadRam();
}
void InitMBC2(string romName, BYTE * memCartridge, int romSize)
{
InitMBC(romName, memCartridge, romSize);
_ramSize = 512;
_memRamMBC = new BYTE[_ramSize];
MBCLoadRam();
}
void InitMBC3(string romName, BYTE * memCartridge, int romSize, int ramHeaderSize)
{
InitMBC(romName, memCartridge, romSize);
if (ramHeaderSize == 0x01)
_ramSize = 8192; //8KB = 64Kb
else if (ramHeaderSize == 0x02)
_ramSize = 32768; //32KB = 256Kb
else if (ramHeaderSize == 0x03)
_ramSize = 131072; //128KB = 1Mb
if (_ramSize)
_memRamMBC = new BYTE[_ramSize];
MBCLoadRam();
}
void InitMBC5(string romName, BYTE * memCartridge, int romSize, int ramHeaderSize)
{
InitMBC1(romName, memCartridge, romSize, ramHeaderSize);
}
void DestroyMBC()
{
if (_memRamMBC)
delete [] _memRamMBC;
}
BYTE NoneRead(WORD direction)
{
return _memCartridge[direction];
}
void NoneWrite(WORD direction, BYTE value)
{
//No hacer nada
return;
}
void MBC1Write(WORD direction, BYTE value)
{
if (direction < 0x2000) //Habilitar/Deshabilitar RAM
{
_ramEnabled = ((value & 0x0F) == 0x0A);
if (!_ramEnabled)
MBCSaveRam();
}
else if (direction < 0x4000) //Cambiar romBank
{
value &= 0x1F;
if (!value)
value++;
_romBank = (_romBank & 0x60) | value;
}
else if (direction < 0x6000) //Cambiar romBank o ramBank dependiendo del modo
{
if (!_memMode) //Modo 16/8 (Seleccionar romBank)
{
_romBank = ((value & 0x03) << 5) | (_romBank & 0x1F);
}
else //Modo 4/32 (Seleccionar ramBank)
{
_ramBank = value & 0x03;
}
}
else if (direction < 0x8000) //Seleccionar modo
{
_memMode = value & 0x01;
}
else if ((direction >=0xA000) && (direction < 0xC000)) //Intenta escribir en RAM
{
if (_ramEnabled)
_memRamMBC[direction - 0xA000 + (0x2000*_ramBank)] = value;
}
}
BYTE MBC1Read(WORD direction)
{
if (direction < 0x4000)
return _memCartridge[direction];
else if (direction < 0x8000)
return _memCartridge[(direction - 0x4000) + (0x4000*_romBank)];
else if ((direction >=0xA000) && (direction < 0xC000) && _ramEnabled)
return _memRamMBC[direction - 0xA000 + (0x2000*_ramBank)];
return 0;
}
void MBC2Write(WORD direction, BYTE value)
{
if (direction < 0x2000) //Habilitar/Deshabilitar RAM
{
if (! (direction & 0x10))
_ramEnabled = !_ramEnabled;
if (!_ramEnabled)
MBCSaveRam();
}
else if (direction < 0x4000) //Cambiar romBank
{
if (!(direction & 0x100))
return;
value &= 0x0F;
if (!value)
value++;
_romBank = value;
}
else if (direction < 0x6000)
{
return;
}
else if (direction < 0x8000) //Seleccionar modo
{
return;
}
else if ((direction >=0xA000) && (direction < 0xA200)) //Intenta escribir en RAM
{
if (_ramEnabled)
_memRamMBC[direction - 0xA000] = value & 0x0F;
//throw GBException("Intenta escribir en RAM de cartucho");
}
}
BYTE MBC2Read(WORD direction)
{
if (direction < 0x4000)
return _memCartridge[direction];
else if (direction < 0x8000)
return _memCartridge[(direction - 0x4000) + (0x4000*_romBank)];
else if ((direction >=0xA000) && (direction < 0xC000) && (_ramEnabled))
return _memRamMBC[direction - 0xA000];
return 0;
}
void MBC3Write(WORD direction, BYTE value)
{
if (direction < 0x2000) //Habilitar/Deshabilitar RAM
{
_ramEnabled = ((value & 0x0F) == 0x0A);
if (!_ramEnabled)
MBCSaveRam();
}
else if (direction < 0x4000) //Cambiar romBank
{
value = value ? value : 1;
_romBank = value & 0x7F;
}
else if (direction < 0x6000) //Cambiar ramBank o RTC
{
if (value < 4) //(Seleccionar ramBank)
{
_ramBank = value;
}
else if ((value >= 0x08) && (value <=0x0C)) //Seleccionar RTC
{
//throw GBException("RTC no implementado");
}
}
else if (direction < 0x8000)
{
//throw GBException("RTC no implementado");
}
else if ((direction >=0xA000) && (direction < 0xC000)) //Intenta escribir en RAM
{
if (_ramEnabled)
_memRamMBC[direction - 0xA000 + (0x2000*_ramBank)] = value;
}
}
BYTE MBC3Read(WORD direction)
{
if (direction < 0x4000)
return _memCartridge[direction];
else if (direction < 0x8000)
return _memCartridge[(direction - 0x4000) + (0x4000*_romBank)];
else if ((direction >=0xA000) && (direction < 0xC000) && (_ramEnabled))
return _memRamMBC[direction - 0xA000 + (0x2000*_ramBank)];
return 0;
}
void MBC5Write(WORD direction, BYTE value)
{
if (direction < 0x2000) //Habilitar/Deshabilitar RAM
{
_ramEnabled = ((value & 0x0F) == 0x0A);
if (!_ramEnabled)
MBCSaveRam();
}
else if (direction < 0x3000) //Cambiar romBank
{
_romBank = (_romBank & 0x100) | value;
}
else if (direction < 0x4000) //Cambiar romBank
{
_romBank = ((value & 0x01) << 8) | (_romBank & 0xFF);
}
else if (direction < 0x6000) //Cambiar ramBank o RTC
{
_ramBank = value & 0x0F;
}
else if (direction < 0x8000)
{
//throw GBException("Zona no conocida");
}
else if ((direction >=0xA000) && (direction < 0xC000)) //Intenta escribir en RAM
{
if (_ramEnabled)
_memRamMBC[direction - 0xA000 + (0x2000*_ramBank)] = value;
}
}
BYTE MBC5Read(WORD direction)
{
if (direction < 0x4000)
return _memCartridge[direction];
else if (direction < 0x8000)
return _memCartridge[(direction - 0x4000) + (0x4000*_romBank)];
else if ((direction >=0xA000) && (direction < 0xC000) && (_ramEnabled))
return _memRamMBC[direction - 0xA000 + (0x2000*_ramBank)];
return 0;
}
void MBCLoadRam()
{
stringstream fileName;
fileName << _pathBatteries.c_str() << _romName.c_str() << ".BATT";
ifstream file(fileName.str().c_str(), ios::in|ios::binary);
if (file)
{
file.read((char *)_memRamMBC, _ramSize);
file.close();
}
}
void MBCSaveRam()
{
if (_ramSize == 0)
return;
stringstream fileName;
fileName << _pathBatteries.c_str() << _romName.c_str() << ".BATT";
ofstream file(fileName.str().c_str(), ios::out|ios::trunc|ios::binary);
if (file)
{
file.write((char *)_memRamMBC, _ramSize);
file.close();
}
}
void MBCPathBatteries(string path)
{
_pathBatteries = path;
}
void MBCSaveState(ofstream * file)
{
file->write((char *)&_memMode, sizeof(int));
file->write((char *)&_romBank, sizeof(int));
file->write((char *)&_romSize, sizeof(int));
file->write((char *)&_ramBank, sizeof(int));
file->write((char *)&_ramSize, sizeof(int));
file->write((char *)&_ramEnabled, sizeof(int));
file->write((char *)_memRamMBC, _ramSize);
}
void MBCLoadState(ifstream * file)
{
file->read((char *)&_memMode, sizeof(int));
file->read((char *)&_romBank, sizeof(int));
file->read((char *)&_romSize, sizeof(int));
file->read((char *)&_ramBank, sizeof(int));
file->read((char *)&_ramSize, sizeof(int));
file->read((char *)&_ramEnabled, sizeof(int));
file->read((char *)_memRamMBC, _ramSize);
}
/*
Game Boy MMM01 emulation
Author: byuu
Date: 2010-01-04
Games that use MMM01:
=====================
Momotarou Collection 2
Taito Variety Pack
Word of warning:
================
There are bad dumps of the above games floating around.
Verify correct dumps by examining in hex editor:
Momotarou Collection 2:
00000 = Momotarou Collection 2 [menu]
08000 = Momotarou Dengeki
88000 = Momotarou Gaiden
Taito Variety Pack:
00000 = Taito Variety Pack [menu]
08000 = Sagaia
28000 = Chase HQ
48000 = Bubble Bobble
68000 = Elevator Action
The bad dumps place the menu at the very end of the ROM.
If this is the case, header detection will fail.
Assuming you have a bad dump, you will have to fix it yourself.
Here is example code to fix Momotarou Collection 2:
#include <stdio.h>
int main() {
FILE *fp = fopen("momo.gb", "rb");
char g1[0x80000]; fread(g1, 1, 0x80000, fp);
char g2[0x78000]; fread(g2, 1, 0x78000, fp);
char g3[0x08000]; fread(g3, 1, 0x08000, fp);
fclose(fp);
fp = fopen("momo-out.gb", "wb");
fwrite(g3, 1, 0x08000, fp);
fwrite(g1, 1, 0x80000, fp);
fwrite(g2, 1, 0x78000, fp);
fclose(fp);
return 0;
}
Detecting MMM01:
================
switch(romdata[0x0147]) {
...
case 0x0b: info.mapper = Mapper::MMM01; break;
case 0x0c: info.mapper = Mapper::MMM01; info.ram = true; break;
case 0x0d: info.mapper = Mapper::MMM01; info.ram = true; info.battery = true; break;
...
}
Emulating MMM01:
================
The MMM01 is a meta-mapper, it allows one to map 0000-3fff.
Once a sub-game is mapped in, the MMM01 reverts to an ordinary
mapper, allowing mapping of 4000-7fff and a000-bfff.
Here is the source code for an MMM01 emulator.
I cannot guarantee its completeness.
struct MMM01 : MMIO {
bool rom_mode;
uint8 rom_base;
bool ram_enable;
uint8 rom_select;
uint8 ram_select;
uint8 mmio_read(uint16 addr);
void mmio_write(uint16 addr, uint8 data);
void power();
} mmm01;
uint8 Cartridge::MMM01::mmio_read(uint16 addr) {
if((addr & 0x8000) == 0x0000) {
if(rom_mode == 0) return cartridge.rom_read(addr);
}
if((addr & 0xc000) == 0x0000) {
return cartridge.rom_read(0x8000 + (rom_base << 14) + (addr & 0x3fff));
}
if((addr & 0xc000) == 0x4000) {
return cartridge.rom_read(0x8000 + (rom_base << 14) + (rom_select << 14) + (addr & 0x3fff));
}
if((addr & 0xe000) == 0xa000) {
if(ram_enable) return cartridge.ram_read((ram_select << 13) + (addr & 0x1fff));
return 0x00;
}
return 0x00;
}
void Cartridge::MMM01::mmio_write(uint16 addr, uint8 data) {
if((addr & 0xe000) == 0x0000) { //0000-1fff
if(rom_mode == 0) {
rom_mode = 1;
} else {
ram_enable = (data & 0x0f) == 0x0a;
}
}
if((addr & 0xe000) == 0x2000) { //2000-3fff
if(rom_mode == 0) {
rom_base = data & 0x3f;
} else {
rom_select = data;
}
}
if((addr & 0xe000) == 0x4000) { //4000-5fff
if(rom_mode == 1) {
ram_select = data;
}
}
if((addr & 0xe000) == 0x6000) { //6000-7fff
//unknown purpose
}
if((addr & 0xe000) == 0xa000) { //a000-bfff
if(ram_enable) cartridge.ram_write((ram_select << 13) + (addr & 0x1fff), data);
}
}
void Cartridge::MMM01::power() {
rom_mode = 0;
rom_base = 0x00;
ram_enable = false;
rom_select = 0x01;
ram_select = 0x00;
}
*/
|
08erikal-gbpaclone
|
src/MBC.cpp
|
C++
|
gpl3
| 12,287
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include <wx/wx.h>
#include <iostream>
#include "Pad.h"
#include "GBException.h"
using namespace std;
static wxKeyCode keysUsed[] = { WXK_UP, WXK_DOWN, WXK_LEFT, WXK_RIGHT, (wxKeyCode)'A', (wxKeyCode)'S', (wxKeyCode)'Q', (wxKeyCode)'W' };
static BYTE gbPadState[8];
void PadSetKeys(int * keys)
{
for (int i=0; i<8; i++)
keysUsed[i] = (wxKeyCode)keys[i];
}
BYTE PadUpdateInput(BYTE valueP1)
{
if(!BIT5(valueP1))
return ((valueP1 & 0x30) |
(!gbPadState[gbSTART] << 3) | (!gbPadState[gbSELECT] << 2) | (!gbPadState[gbB] << 1) | (!gbPadState[gbA]));
if(!BIT4(valueP1))
return ((valueP1 & 0x30) |
(!gbPadState[gbDOWN] << 3) | (!gbPadState[gbUP] << 2) | (!gbPadState[gbLEFT] << 1) | (!gbPadState[gbRIGHT]));
//Desactivar los botones
return 0x3F;
}
// Devuelve 1 cuando se ha pulsado una tecla
// 0 en caso contrario
int PadCheckKeyboard(BYTE * valueP1)
{
int interrupt = 0;
for (int i=0; i<8; i++)
{
if ((gbPadState[i] == 0) && (wxGetKeyState(keysUsed[i]) == true))
{
interrupt = 1;
}
gbPadState[i] = wxGetKeyState(keysUsed[i]);
}
*valueP1 = PadUpdateInput(*valueP1);
return 0;
}
|
08erikal-gbpaclone
|
src/Pad.cpp
|
C++
|
gpl3
| 1,848
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Log.h"
#include <fstream>
#include <string>
using namespace std;
QueueLog::QueueLog(int maxItems)
{
if (maxItems <= 0)
maxItems = 100;
this->maxItems = maxItems;
this->numItems = 0;
this->first = NULL;
this->last = NULL;
}
QueueLog::~QueueLog()
{
ItemLog * item;
ItemLog * auxItem;
item = first;
while (item) {
auxItem = item->next;
if (item->regs)
delete item->regs;
delete item;
item = auxItem;
}
}
void QueueLog::Enqueue(string prefix, Registers * regs, string suffix)
{
ItemLog * newItem = new ItemLog;
newItem->prefix = prefix;
newItem->regs = NULL;
if (regs)
{
newItem->regs = new Registers();
*newItem->regs = *regs;
}
newItem->suffix = suffix;
newItem->next = NULL;
newItem->prev = NULL;
if (numItems >= maxItems)
{
first = first->next;
//Borrar el más viejo
if (first->prev->regs)
delete first->prev->regs;
delete first->prev;
first->prev = NULL;
numItems--;
}
if (first == NULL)
{
first = newItem;
last = newItem;
}
else
{
last->next = newItem;
newItem->prev = last;
last = newItem;
}
numItems++;
}
void QueueLog::Save(string path)
{
ofstream file(path.c_str(), ios_base::out);
if (file)
{
ItemLog * item;
item = first;
while (item) {
file << item->prefix;
if (item->regs)
file << item->regs->ToString();
file << item->suffix << endl;
item = item->next;
}
file.close();
}
}
|
08erikal-gbpaclone
|
src/Log.cpp
|
C++
|
gpl3
| 2,070
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __DEF_H__
#define __DEF_H__
#define APP_NAME "gbpablog"
#define APP_VERSION "0.9"
#define APP_MAINT "Pablo Gasco"
#define APP_LICENCE "GPL v3"
#define APP_COPYRIGTH "(C) 2011 Pablo Gasco"
#define APP_WEBSITE "http://code.google.com/p/gbpablog/"
#define SAVE_STATE_VERSION 0x01
typedef unsigned char BYTE;
typedef unsigned short WORD;
#define GB_SCREEN_W 160
#define GB_SCREEN_H 144
#define MAX_LCD_MODE_0 204 //201-207
#define MAX_LCD_MODE_1 456 //456 * 10 = 4560
#define MAX_LCD_MODE_2 80 //77-83
#define MAX_LCD_MODE_3 172 //169-175
#define BIT0(value) ((value) & 0x01)
#define BIT1(value) ((value) & 0x02)
#define BIT2(value) ((value) & 0x04)
#define BIT3(value) ((value) & 0x08)
#define BIT4(value) ((value) & 0x10)
#define BIT5(value) ((value) & 0x20)
#define BIT6(value) ((value) & 0x40)
#define BIT7(value) ((value) & 0x80)
#define BITS01(value) ((value) & 0x03)
#define BITS23(value) ((value) & 0x0C)
#define BITS45(value) ((value) & 0x30)
#define BITS67(value) ((value) & 0xC0)
#define P1 0xFF00
#define SB 0xFF01
#define SC 0xFF02
#define DIV 0xFF04
#define TIMA 0xFF05
#define TMA 0xFF06
#define TAC 0xFF07
#define IF 0xFF0F
#define NR10 0xFF10
#define NR11 0xFF11
#define NR12 0xFF12
#define NR13 0xFF13
#define NR14 0xFF14
#define NR21 0xFF16
#define NR22 0xFF17
#define NR23 0xFF18
#define NR24 0xFF19
#define NR30 0xFF1A
#define NR31 0xFF1B
#define NR32 0xFF1C
#define NR33 0xFF1D
#define NR34 0xFF1E
#define NR41 0xFF20
#define NR42 0xFF21
#define NR43 0xFF22
#define NR44 0xFF23
#define NR50 0xFF24
#define NR51 0xFF25
#define NR52 0xFF26
#define LCDC 0xFF40
#define STAT 0xFF41
#define SCY 0xFF42
#define SCX 0xFF43
#define LY 0xFF44
#define LYC 0xFF45
#define DMA 0xFF46
#define BGP 0xFF47
#define OBP0 0xFF48
#define OBP1 0xFF49
#define WY 0xFF4A
#define WX 0xFF4B
#define IE 0xFFFF
#endif
|
08erikal-gbpaclone
|
src/Def.h
|
C
|
gpl3
| 2,613
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __IGBSCREENDRAWABLE_H__
#define __IGBSCREENDRAWABLE_H__
class IGBScreenDrawable
{
public:
virtual void OnPreDraw() = 0;
virtual void OnPostDraw() = 0;
virtual void OnDrawPixel(int idColor, int x, int y) = 0;
virtual void OnRefreshScreen() = 0;
virtual void OnClear() = 0;
};
#endif
|
08erikal-gbpaclone
|
src/IGBScreenDrawable.h
|
C++
|
gpl3
| 950
|
/*
This file is part of gbpablog.
gbpablog is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
gbpablog is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with gbpablog. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __PAD_H__
#define __PAD_H__
#include <wx/wx.h>
#include "Def.h"
enum e_gbpad { gbUP, gbDOWN, gbLEFT, gbRIGHT, gbA, gbB, gbSELECT, gbSTART };
void PadSetKeys(int * keys);
int PadCheckKeyboard(BYTE * valueP1);
BYTE PadUpdateInput(BYTE valueP1);
#endif
|
08erikal-gbpaclone
|
src/Pad.h
|
C
|
gpl3
| 946
|
<!doctype html>
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<head>
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<meta name="author" content="ThemeFuse">
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<meta name="viewport" content="width=device-width,initial-scale=1">
<title>AutoTrader - Shortcodes: Videos & Galleries</title>
<link href='http://fonts.googleapis.com/css?family=Cabin:400,400italic,500,600,700|PT+Serif+Caption:400,400italic' rel='stylesheet' type='text/css'>
<link rel="shortcut icon" href="favicon.html">
<link href="style.css" media="screen" rel="stylesheet">
<link href="screen.css" media="screen" rel="stylesheet">
<!-- custom CSS -->
<link href="custom.css" media="screen" rel="stylesheet">
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<script src="js/libs/respond.min.js"></script>
<script src="js/libs/jquery.min.js"></script>
<!-- scripts -->
<script src="js/jquery.easing.min.js"></script>
<script src="js/general.js"></script>
<script src="js/hoverIntent.js"></script>
<!-- carousel -->
<script src="js/jquery.carouFredSel.min.js"></script>
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<script src="js/cusel-min.js"></script>
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<script src="js/jquery.prettyPhoto.js"></script>
</head>
<body>
<div class="body_wrap">
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<div class="header_top">
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<a href="index.html"><img src="images/logo.png" alt=""></a>
</div>
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<ul class="dropdown">
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</ul>
</li>
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<a href="blog-details.html" class="link-name">What You Should Know No About Using a CDN With WordPress</a>
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</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Black Friday! Everything half price. K, Thanx, Bye!</a>
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</li>
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<a href="blog-details.html" class="link-name">Our first FREE WordPress theme is now available - Gadgetry</a>
<div class="post-meta"><span class="post-date">posted 3 days ago</span> <a href="blog-details.html#comments">34 comments</a></div>
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<!--/ widget recent entries -->
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<div class="post-title"><a href="blog-details.html">What Today's Video Games Say About The Moment We Live In</a></div>
<div class="post-meta">written by <span class="post-author">Jenna Pratt</span></div>
<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
</div>
<div class="post-more"><a href="blog-details.html">READ THE ARTICLE</a></div>
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</div>
<!--/ widget latest entries from category -->
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<h3 class="widget-title">Twitter Activity</h3>
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<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
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</div>
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<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
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<h3 class="widget-title">Welcome Text</h3>
<div class="textwidget">
<p>Easily add a functional and highly customizable Mega Menu to your WordPress website. Choose your option of five different color schemes within the WordPress admin, or style it to your liking with your own stylesheet. </p>
<p>Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr.</p>
</div>
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</li>
<li class="menu-level-1"><a href="#"><span>Vehicles</span></a>
<ul class="submenu-2">
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</ul>
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<article class="post-detail">
<div class="post-title">
<h1>Shortcodes: Videos & Galleries</h1>
</div>
<div class="entry">
<p>Here are presented Shortcodes for Videos and Image galleries.</p>
<h2>Vimeo Video</h2>
<div class="video">
<iframe src="http://player.vimeo.com/video/16919307?title=0&byline=0&portrait=0" width="560" height="332"></iframe>
</div>
<pre class="brush: plain">
[vimeo width="560" height="350" link="http://vimeo.com/16919307"]
</pre>
<h2>YouTube Video</h2>
<div class="video">
<iframe title="YouTube video player" width="560" height="315" src="http://www.youtube.com/embed/5yB1XPzFzjk"></iframe>
</div>
<pre class="brush: plain">
[youtube width="560" height="315" link="http://www.youtube.com/watch?v=5yB1XPzFzjk"]
</pre>
<h2>Content sliders with Video, Images or Text</h2>
<h3>Medium Slider</h3>
<!-- content slider: slider_medium -->
<div class="slider slider_medium">
<div class="slider_container clearfix" id="slider4">
<div class="slider-item"><img src="images/temp/slider_4_1.jpg" alt=""></div>
<div class="slider-item"><img src="images/temp/slider_4_3.jpg" alt=""></div>
<div class="slider-item"><a href="#"><img src="images/temp/slider_4_2.jpg" alt=""></a></div>
</div>
<div class="slider_pagination" id="slider4_pag"></div>
</div>
<script>
jQuery(document).ready(function($) {
$('#slider4').carouFredSel({
pagination : "#slider4_pag",
infinite: false,
auto: false,
height: "auto",
items: 1,
scroll: {
fx: "fade",
duration: 200
}
});
});
</script>
<!-- content slider: medium_small -->
<h3>Small Slider</h3>
<!-- content slider: slider_small -->
<div class="slider slider_small">
<div class="slider_container clearfix" id="slider1">
<div class="slider-item video_slide">
<iframe src="http://player.vimeo.com/video/51333291?byline=0&portrait=0&title=0" width="430" height="242" frameborder="0" webkitAllowFullScreen mozallowfullscreen allowFullScreen></iframe>
</div>
<div class="slider-item">
<a href="#"><img src="images/temp/slider_img_1.jpg" alt=""></a>
</div>
<div class="slider-item text_slide">
<div class="inner">
<h2>Example of Slide with Text</h2>
<p>Lorem ipsum dolor sit amet, consectetur adipiscing elit. Cras sed sem nisi. Duis elit sem, ullamcorper a tempus ac, lacinia a nisl. Pellentesque tincidunt gravida molestie. Nullam in nulla eget turpis pretium commodo. Morbi tincidunt venenatis est eget consequat. </p>
<p>Sed molestie augue sit amet leo consequat posuere. Vestibulum ante ipsum primis in faucibus orci luctus et ultrices posuere cubilia</p>
</div>
</div>
<div class="slider-item">
<img src="images/temp/slider_img_2.jpg" alt="">
</div>
</div>
<div class="slider_pagination" id="slider_pag"></div>
</div>
<script>
jQuery(document).ready(function($) {
$('#slider1').carouFredSel({
pagination : "#slider_pag",
infinite: false,
auto: false,
height: "auto",
items: 1,
scroll: {
fx: "fade",
duration: 200
}
});
});
</script>
<!-- content slider: slider_small -->
<h3>Mini Slider (can be placed in Sidebar)</h3>
<!-- content slider: slider_mini -->
<div class="slider slider_mini">
<div class="slider_container clearfix" id="slider5">
<div class="slider-item"><img src="images/temp/slider_4_3.jpg" alt=""></div>
<div class="slider-item"><img src="images/temp/slider_4_1.jpg" alt=""></div>
<div class="slider-item"><img src="images/temp/slider_4_2.jpg" alt=""></div>
</div>
<div class="slider_pagination" id="slider5_pag"></div>
</div>
<script>
jQuery(document).ready(function($) {
$('#slider5').carouFredSel({
pagination : "#slider5_pag",
infinite: false,
auto: false,
height: "auto",
items: 1,
scroll: {
fx: "fade",
duration: 200
}
});
});
</script>
<!-- content slider: slider_small -->
<h2>MiniGallery</h2>
<!-- carousel with images -->
<div class="minigallery_carousel">
<div class="carousel_content">
<ul id="minigallery2">
<li><img src="images/temp/mg_thumb_2.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_7.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_1.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_5.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_3.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_6.jpg" alt=""></li>
<li><img src="images/temp/mg_thumb_4.jpg" alt=""></li>
</ul>
</div>
<a class="prev" id="minigallery2_prev" href="#"><span>prev</span></a>
<a class="next" id="minigallery2_next" href="#"><span>next</span></a>
</div>
<script>
jQuery(document).ready(function($) {
$('#minigallery2').carouFredSel({
next : "#minigallery2_next",
prev : "#minigallery2_prev",
auto: false,
circular: false,
infinite: true,
width: '100%',
scroll: {
items : 1
}
});
});
</script>
<!--/ carousel with images -->
<pre class="brush: plain">
[minigallery]
</pre>
<h2>MiniGallery <span>with PrettyPhoto</span></h2>
<!-- carousel with images -->
<div class="minigallery_carousel">
<div class="carousel_content">
<ul id="minigallery3">
<li><a href="images/temp/prod_gallery_1.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_6.jpg" alt=""></a></li>
<li><a href="images/temp/post_img_big_2.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_4.jpg" alt=""></a></li>
<li><a href="images/temp/prod_gallery_3.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_2.jpg" alt=""></a></li>
<li><a href="images/temp/post_img_big_3.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_7.jpg" alt=""></a></li>
<li><a href="images/temp/prod_gallery_5.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_1.jpg" alt=""></a></li>
<li><a href="images/temp/prod_gallery_6.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_5.jpg" alt=""></a></li>
<li><a href="images/temp/prod_gallery_2.jpg" class="zoom" data-rel="prettyPhoto[mg_1]"><img src="images/temp/mg_thumb_3.jpg" alt=""></a></li>
</ul>
</div>
<a class="prev" id="minigallery3_prev" href="#"><span>prev</span></a>
<a class="next" id="minigallery3_next" href="#"><span>next</span></a>
</div>
<script>
jQuery(document).ready(function($) {
$('#minigallery3').carouFredSel({
next : "#minigallery3_next",
prev : "#minigallery3_prev",
auto: false,
circular: false,
infinite: true,
width: '100%',
scroll: {
items : 1
}
});
});
</script>
<!--/ carousel with images -->
<pre class="brush: plain">
[minigallery id="PostID" style="boxed" include="" exclude="" orderby="" order="ASC"]
</pre>
</div>
</article>
<!--/ post details -->
</div>
<!--/ content -->
<!-- sidebar -->
<div class="sidebar">
<div class="box">
<!-- widget_nav_menu -->
<div class="widget-container widget_nav_menu">
<h3 class="widget-title">Shortcodes Categories:</h3>
<ul>
<li><a href="shortcodes-buttons.html"><span>Buttons & Lists</span></a></li>
<li><a href="shortcodes-text.html"><span>Text & Images</span></a></li>
<li><a href="shortcodes-charts.html"><span>Charts</span></a></li>
<li><a href="shortcodes-columns.html"><span>Columns</span></a></li>
<li><a href="shortcodes-columns-full.html"><span>Columns full width</span></a></li>
<li><a href="shortcodes-lightbox.html"><span>Lightbox</span></a></li>
<li class="current-menu-item"><a href="shortcodes-media.html"><span>Videos & Galleries</span></a></li>
<li><a href="shortcodes-maps.html"><span>Google Maps</span></a></li>
<li><a href="shortcodes-tabs.html"><span>Tabs & Toggles</span></a></li>
<li><a href="shortcodes-tables.html"><span>Boxes & Tables</span></a></li>
<li><a href="shortcodes-typography.html"><span>Typography</span></a></li>
<li><a href="shortcodes-widgets.html"><span>Custom Widgets</span></a></li>
</ul>
</div>
<!--/ widget_nav_menu -->
<div class="box_bot"></div>
</div>
</div>
<!--/ sidebar -->
</div>
</div>
<!--/ middle -->
<!-- popular brands -->
<div class="middle_row row_white brand_list">
<div class="container">
<h2>MOST POPULAR BRANDS:</h2>
<ul>
<li><a href="#"><img src="images/temp/brand_logo_1.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_2.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_3.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_4.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_5.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_6.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_7.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_8.png" alt=""></a></li>
</ul>
<a href="#" class="link_more">View All Popular Brands</a>
</div>
</div>
<!--/ popular brands -->
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<div class="container clearfix">
<div class="f_col f_col_1">
<h3>Vehicles:</h3>
<ul>
<li><a href="#"><span>Motorbikes</span></a></li>
<li><a href="#"><span>Compacts</span></a></li>
<li><a href="#"><span>Sedans</span></a></li>
<li><a href="#"><span>4x4 SUVs</span></a></li>
<li><a href="#"><span>Pickups</span></a></li>
<li><a href="#"><span>Vans & Trucks</span></a></li>
</ul>
</div>
<!--/ footer col 1 -->
<div class="f_col f_col_2">
<h3>Services:</h3>
<ul>
<li><a href="#"><span>Buy a car</span></a></li>
<li><a href="#"><span>Sell your Car</span></a></li>
<li><a href="#"><span>Buy Back</span></a></li>
<li><a href="#"><span>Repair Shop </span></a></li>
</ul>
</div>
<!--/ footer col 2 -->
<div class="f_col f_col_3">
<h3>Privacy:</h3>
<ul>
<li><a href="#"><span>Terms & Conditions</span></a></li>
<li><a href="#"><span>Privacy Statement</span></a></li>
<li><a href="#"><span>F.A.Q.</span></a></li>
<li><a href="#"><span>Support</span></a></li>
<li><a href="#"><span>Confidentiality</span></a></li>
</ul>
</div>
<!--/ footer col 3 -->
<div class="f_col f_col_4">
<h3>OUR SHOWROOM</h3>
<div class="footer_address">
<div class="address">
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California, 90453
</div>
<div class="hours">
Mon - Fri: 9AM - 7 PM<br>
Sat - Sun: 9AM - 2 PM
</div>
<a href="contact.html" class="notice">View Bigger Map</a>
</div>
<div class="footer_map" style="background:url(images/temp/footer_map.jpg);"><a href="contact.html" class="amap"></a></div>
</div>
<!--/ footer col 4 -->
<div class="clear"></div>
<div class="footer_social">
<div class="social_inner">
<a href="#" class="social-google"><span>Google +1</span></a>
<a href="#" class="social-fb"><span>Facebook</span></a>
<a href="#" class="social-twitter"><span>Twitter</span></a>
<a href="#" class="social-dribble"><span>Dribble</span></a>
<a href="#" class="social-linkedin"><span>LinkedIn</span></a>
<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
<a href="#" class="social-da"><span>Devianart</span></a>
</div>
</div>
<div class="footer_contacts">
<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
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</html>
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<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
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Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
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</ul>
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<h2><a href="blog-details.html">Luxury Compact SUVs: the new trend in 2013</a></h2>
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<div class="info_row"><span>Posted On:</span> 09. 25. 13</div>
<div class="info_row"><span>Written BY:</span> Max Biaggi</div>
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<p>Phasellus molestie magna non est bibendum non venenatis nisl tempor. Suspendisse dictum feugiat nisl ut dapibus. Mauris iaculis porttitor posuere. Praesent id metus massa, ut blandit odio. Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci... </p>
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<h2><a href="blog-details.html">Ferrari has unveiled its £1m Enzo replacement at Geneva</a></h2>
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<div class="info_row"><span>Posted On:</span> 10. 08. 13</div>
<div class="info_row"><span>Written BY:</span> Felipe Massa</div>
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<h2><a href="blog-details.html">We’ve tested the 2013 Mercedes-Benz G63 AMG 6x6 Concept</a></h2>
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<div class="info_row"><span>Posted On:</span> 10. 08. 13</div>
<div class="info_row"><span>Written BY:</span> Casey Stoner</div>
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<p>Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet.</p>
<p> Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi...</p>
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<h2><a href="blog-details.html">2013 Subaru BRZ Limited vs. Route Napoléon</a></h2>
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<div class="info_row"><span>Posted On:</span> 09. 03. 13</div>
<div class="info_row"><span>Written BY:</span> J.P. Montoya Stoner</div>
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<p>Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Duis aliquet egestas purus in blandit. Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Duis aliquet egestas purus in blandit...</p>
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<h2><a href="blog-details.html">2013 Subaru BRZ Limited vs. Route Napoléon</a></h2>
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<div class="info_row"><span>Posted On:</span> 09. 03. 13</div>
<div class="info_row"><span>Written BY:</span> J.P. Montoya Stoner</div>
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<p>Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Duis aliquet egestas purus in blandit...</p>
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<h2><a href="blog-details.html">2013 Subaru BRZ Limited vs. Route Napoléon</a></h2>
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<div class="info_row"><span>Posted On:</span> 09. 03. 13</div>
<div class="info_row"><span>Written BY:</span> J.P. Montoya Stoner</div>
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<p>Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Duis aliquet egestas purus in blandit. Proin quis tortor orci. Etiam at risus et justo dignissim congue. Donec congue lacinia dui, a porttitor lectus condimentum laoreet. Nunc eu ullamcorper orci. Quisque eget odio ac lectus vestibulum faucibus eget in metus. In pellentesque faucibus vestibulum. Nulla at nulla justo, eget luctus tortor. Nulla facilisi. Duis aliquet egestas purus in blandit...</p>
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Sociosqu ad litora torquent per conubia, Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
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Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
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Take a look at The New York Times redesigns <a href="#">ow.ly/jcyzw</a> What do you make of them? <a href="#">#webdesign</a>
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<div class="info_row"><span>Posted On:</span> 09. 03. 13</div>
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<div class="flickr_badge_image" id="flickr_badge_image6"><a href="http://www.flickr.com/photos/themefuse/4745330159/"><img src="../../../../farm5.staticflickr.com/4075/4745330159_b0e28f2221_s.jpg" alt="A photo on Flickr" title="Bon Apetit HTML/WP template - Homepage" height="100" width="100"></a></div>
<div class="flickr_badge_image"><a href="http://www.flickr.com/photos/themefuse/4745967666/"><img src="../../../../farm5.static.flickr.com/4119/4745967666_b996719848_s.jpg" alt="A photo on Flickr" title="TechOffers HTML Newsletter" height="100" width="100"></a></div>
<div class="flickr_badge_image"><a href="http://www.flickr.com/photos/themefuse/4745330331/"><img src="../../../../farm5.static.flickr.com/4077/4745330331_befc3d910d_s.jpg" alt="A photo on Flickr" title="Bon Apetit HTML/WP template - Homepage" height="100" width="100"></a></div>
<div class="flickr_badge_image"><a href="http://www.flickr.com/photos/themefuse/4745331021/"><img src="../../../../farm5.static.flickr.com/4098/4745331021_a65f34e26f_s.jpg" alt="A photo on Flickr" title="Bon Apetit HTML/WP template - Homepage" height="100" width="100"></a></div>
</div>
<!--/ flickr widget -->
<!-- subscribe buttons -->
<div class="widget-container subscribe_btn">
<a href="#" class="btn btn_rss"><span>SUBSCRIBE TO RSS</span></a>
</div>
<!--/ subscribe buttons -->
<div class="box_bot"></div>
</div>
<div class="facebook_box">
<img width="270" height="270" alt="" src="images/temp/sidebar_facebook.jpg" style="display:block">
</div>
</div>
<!--/ sidebar -->
</div>
</div>
<!--/ middle -->
<!-- popular brands -->
<div class="middle_row row_white brand_list">
<div class="container">
<h2>MOST POPULAR BRANDS:</h2>
<ul>
<li><a href="#"><img src="images/temp/brand_logo_1.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_2.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_3.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_4.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_5.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_6.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_7.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_8.png" alt=""></a></li>
</ul>
<a href="#" class="link_more">View All Popular Brands</a>
</div>
</div>
<!--/ popular brands -->
<div class="footer">
<div class="container clearfix">
<div class="f_col f_col_1">
<h3>Vehicles:</h3>
<ul>
<li><a href="#"><span>Motorbikes</span></a></li>
<li><a href="#"><span>Compacts</span></a></li>
<li><a href="#"><span>Sedans</span></a></li>
<li><a href="#"><span>4x4 SUVs</span></a></li>
<li><a href="#"><span>Pickups</span></a></li>
<li><a href="#"><span>Vans & Trucks</span></a></li>
</ul>
</div>
<!--/ footer col 1 -->
<div class="f_col f_col_2">
<h3>Services:</h3>
<ul>
<li><a href="#"><span>Buy a car</span></a></li>
<li><a href="#"><span>Sell your Car</span></a></li>
<li><a href="#"><span>Buy Back</span></a></li>
<li><a href="#"><span>Repair Shop </span></a></li>
</ul>
</div>
<!--/ footer col 2 -->
<div class="f_col f_col_3">
<h3>Privacy:</h3>
<ul>
<li><a href="#"><span>Terms & Conditions</span></a></li>
<li><a href="#"><span>Privacy Statement</span></a></li>
<li><a href="#"><span>F.A.Q.</span></a></li>
<li><a href="#"><span>Support</span></a></li>
<li><a href="#"><span>Confidentiality</span></a></li>
</ul>
</div>
<!--/ footer col 3 -->
<div class="f_col f_col_4">
<h3>OUR SHOWROOM</h3>
<div class="footer_address">
<div class="address">
21 Sunset Blvd, Los Angeles<br>
California, 90453
</div>
<div class="hours">
Mon - Fri: 9AM - 7 PM<br>
Sat - Sun: 9AM - 2 PM
</div>
<a href="contact.html" class="notice">View Bigger Map</a>
</div>
<div class="footer_map" style="background:url(images/temp/footer_map.jpg);"><a href="contact.html" class="amap"></a></div>
</div>
<!--/ footer col 4 -->
<div class="clear"></div>
<div class="footer_social">
<div class="social_inner">
<a href="#" class="social-google"><span>Google +1</span></a>
<a href="#" class="social-fb"><span>Facebook</span></a>
<a href="#" class="social-twitter"><span>Twitter</span></a>
<a href="#" class="social-dribble"><span>Dribble</span></a>
<a href="#" class="social-linkedin"><span>LinkedIn</span></a>
<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
<a href="#" class="social-da"><span>Devianart</span></a>
</div>
</div>
<div class="footer_contacts">
<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
</div>
<div class="copyright">
AutoTrader Wordpress theme by <a href="http://themefuse.com/">Themefuse</a> | <a href="http://themefuse.com/" class="link_white">Premium WordPress themes</a>
</div>
</div>
</div>
</div>
</body>
</html>
|
048doutoraretina
|
trunk/blog.php
|
Hack
|
oos
| 37,705
|
/*
CUSTOM STYLESHEET
---------------------
Instructions:
Add your custom styles here instead of style.css so it
is easier to update the theme. Simply copy an existing
style from style.css to this file, and modify it to
your liking.
*/
|
048doutoraretina
|
trunk/custom.css
|
CSS
|
oos
| 242
|
<!doctype html>
<!--[if lt IE 7 ]><html lang="en" class="no-js ie6"> <![endif]-->
<!--[if IE 7 ]><html lang="en" class="no-js ie7"> <![endif]-->
<!--[if IE 8 ]><html lang="en" class="no-js ie8"> <![endif]-->
<!--[if IE 9 ]><html lang="en" class="no-js ie9"> <![endif]-->
<!--[if (gt IE 9)|!(IE)]><!--><html lang="en" class="no-js"> <!--<![endif]-->
<head>
<meta charset="utf-8">
<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1">
<meta name="author" content="ThemeFuse">
<meta name="keywords" content="">
<meta name="viewport" content="width=device-width,initial-scale=1">
<title>AutoTrader - Offers List - Filter Left</title>
<link href='http://fonts.googleapis.com/css?family=Cabin:400,400italic,500,600,700|PT+Serif+Caption:400,400italic' rel='stylesheet' type='text/css'>
<link rel="shortcut icon" href="favicon.html">
<link href="style.css" media="screen" rel="stylesheet">
<link href="screen.css" media="screen" rel="stylesheet">
<!-- custom CSS -->
<link href="custom.css" media="screen" rel="stylesheet">
<!-- main JS libs -->
<script src="js/libs/modernizr.min.js"></script>
<script src="js/libs/respond.min.js"></script>
<script src="js/libs/jquery.min.js"></script>
<!-- scripts -->
<script src="js/jquery.easing.min.js"></script>
<script src="js/general.js"></script>
<script src="js/hoverIntent.js"></script>
<!-- carousel -->
<script src="js/jquery.carouFredSel.min.js"></script>
<script src="js/jquery.touchSwipe.min.js"></script>
<!-- styled select -->
<link rel="stylesheet" href="css/cusel.css">
<script src="js/cusel-min.js"></script>
<!-- custom input -->
<script src="js/jquery.customInput.js"></script>
<!-- range slider -->
<link href="css/jslider.css" rel="stylesheet">
<script type="text/javascript" src="js/jquery.slider.bundle.js"></script>
</head>
<body>
<div class="body_wrap">
<!-- header top bar -->
<div class="header_top">
<div class="container">
<div class="logo">
<a href="index.html"><img src="images/logo.png" alt=""></a>
</div>
<!-- topmenu -->
<nav id="topmenu" class="clearfix">
<ul class="dropdown">
<li class="menu-level-0"><a href="#"><span>Home</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="index.html"><span>Home Slider 1</span></a></li>
<li class="menu-level-1"><a href="index2.html"><span>Home Slider 2</span></a></li>
<li class="menu-level-1"><a href="index3.html"><span>Home Slider 3</span></a></li>
</ul>
</li>
<li class="menu-level-0 current-menu-ancestor"><a href="#"><span>Our Cars</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="offers-search.html"><span>Search Page</span></a></li>
<li class="menu-level-1"><a href="offers-list.html"><span>Offers List - Filter Right</span></a></li>
<li class="menu-level-1 current-menu-item"><a href="offers-list-left.html"><span>Offers List - Filter Left</span></a></li>
<li class="menu-level-1"><a href="car-makers.html"><span>Car Makers</span></a></li>
</ul>
</li>
<li class="menu-level-0 mega-nav"><a href="special-offers.html"><span>SPECIAL OFFERS</span></a>
<ul class="submenu-1">
<li class="menu-level-1 mega-nav-widget">
<!-- widget recent entries -->
<div class="widget-container widget_recent_entries">
<h3 class="widget-title">Latest News</h3>
<ul>
<li class="clearfix">
<a href="blog-details.html" class="link-name">What You Should Know No About Using a CDN With WordPress</a>
<div class="post-meta"><span class="post-date">posted 1 days ago</span> <a href="blog-details.html#comments">3 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Black Friday! Everything half price. K, Thanx, Bye!</a>
<div class="post-meta"><span class="post-date">posted 2 days ago</span> <a href="blog-details.html#comments">23 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Our first FREE WordPress theme is now available - Gadgetry</a>
<div class="post-meta"><span class="post-date">posted 3 days ago</span> <a href="blog-details.html#comments">34 comments</a></div>
</li>
</ul>
</div>
<!--/ widget recent entries -->
</li>
<li class="menu-level-1 mega-nav-widget">
<!-- widget latest entries from category -->
<div class="widget-container widget_featured_posts">
<h3 class="widget-title">Fresh from our Blog</h3>
<ul>
<li class="post-item">
<div class="post-title"><a href="blog-details.html">What Today's Video Games Say About The Moment We Live In</a></div>
<div class="post-meta">written by <span class="post-author">Jenna Pratt</span></div>
<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
</div>
<div class="post-more"><a href="blog-details.html">READ THE ARTICLE</a></div>
</li>
</ul>
</div>
<!--/ widget latest entries from category -->
</li>
<li class="menu-level-1 mega-nav-widget">
<!-- twiiter widget -->
<div class="widget-container widget_twitter">
<h3 class="widget-title">Twitter Activity</h3>
<div class="tweet_list">
<div class="tweet_item clearfix">
<div class="tweet_image"><img src="images/temp/twitter_avatar.png" width="30" height="30" alt="" /></div>
<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 3 hours ago</span>
</div>
</div>
</div>
<div class="tweet_item clearfix">
<div class="tweet_image"><img src="images/temp/twitter_avatar.png" width="30" height="30" alt="" /></div>
<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 7 hours ago ago</span>
</div>
</div>
</div>
</div>
<a href="#" class="link-more">FOLLOW US ON TWITTER</a>
</div>
<!--/ twiiter widget -->
</li>
</ul>
</li>
<li class="menu-level-0 mega-nav"><a href="services.html"><span>Services</span></a>
<ul class="submenu-1">
<li class="menu-level-1 mega-nav-widget">
<!-- widget text -->
<div class="widget-container widget_text">
<h3 class="widget-title">Welcome Text</h3>
<div class="textwidget">
<p>Easily add a functional and highly customizable Mega Menu to your WordPress website. Choose your option of five different color schemes within the WordPress admin, or style it to your liking with your own stylesheet. </p>
<p>Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr.</p>
</div>
</div>
<!--/ widget text -->
</li>
<li class="menu-level-1"><a href="#"><span>Vehicles</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>Motorbikes</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Compacts</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Sedans</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>4x4 SUVs</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Pickups</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
</li>
<li class="menu-level-1"><a href="#"><span>Submenu</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>1st Blog Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Second Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>3rd Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Forth Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Another Category</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
</li>
</ul>
</li>
<li class="menu-level-0"><a href="#"><span>Pages</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="blog.html"><span>Blog</span></a></li>
<li class="menu-level-1"><a href="page-about.html"><span>About Page</span></a></li>
<li class="menu-level-1"><a href="page-faq.html"><span>FAQ</span></a></li>
<li class="menu-level-1"><a href="page-pricing.html"><span>Pricing Page</span></a></li>
<li class="menu-level-1"><a href="#"><span>Shortcodes</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="shortcodes-buttons.html"><span>Buttons & Lists</span></a></li>
<li class="menu-level-2"><a href="shortcodes-text.html"><span>Text & Images</span></a></li>
<li class="menu-level-2"><a href="shortcodes-charts.html"><span>Charts</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns.html"><span>Columns</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns-full.html"><span>Columns full width</span></a></li>
<li class="menu-level-2"><a href="shortcodes-lightbox.html"><span>Lightbox</span></a></li>
<li class="menu-level-2"><a href="shortcodes-media.html"><span>Videos & Galleries</span></a></li>
<li class="menu-level-2"><a href="shortcodes-maps.html"><span>Google Maps</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tabs.html"><span>Tabs & Toggles</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tables.html"><span>Boxes & Tables</span></a></li>
<li class="menu-level-2"><a href="shortcodes-typography.html"><span>Typography</span></a></li>
<li class="menu-level-2"><a href="shortcodes-widgets.html"><span>Custom Widgets</span></a></li>
</ul>
</li>
<li class="menu-level-1"><a href="blog-sidebar-left.html"><span>Sidebar Left</span></a></li>
<li class="menu-level-1"><a href="page-404.html"><span>Page 404</span></a></li>
</ul>
</li>
<li class="menu-level-0"><a href="contact.html"><span>Location</span></a></li>
</ul>
</nav>
<!--/ topmenu -->
</div>
</div>
<!--/ header top bar -->
<!-- header -->
<div class="header header_thin" style="background-image:url(images/temp/slider_1_1.jpg)">
<div class="header_title">
<h1>Showing <span>143 RESULTS</span> for your search</h1>
</div>
</div>
<!--/ header -->
<!-- breadcrumbs -->
<div class="middle_row row_white breadcrumbs">
<div class="container">
<p><a href="index.html">Home</a> <span class="separator">›</span> <a href="search.html">My Car Search</a> <span class="separator">›</span> <span class="current">143 Results</span></p>
<a href="offers-search.html" class="link_search">Start a New Search</a>
</div>
</div>
<!--/ breadcrumbs -->
<!-- middle -->
<div id="middle" class="cols2 sidebar_left">
<div class="container clearfix">
<!-- content -->
<div class="content">
<!-- sorting, pages -->
<div class="list_manage">
<div class="inner clearfix">
<form action="#" method="post" class="form_sort">
<span class="manage_title">Sort by:</span>
<select class="select_styled white_select" name="sort_list" id="sort_list">
<option value="1">Latest Added</option>
<option value="2" selected>Price High - Low</option>
<option value="3">Price Low - Hight</option>
<option value="4">Names A-Z</option>
<option value="5">Names Z-A</option>
</select>
</form>
<div class="pages_jump">
<span class="manage_title">Jump to page:</span>
<form action="#" method="post">
<input type="text" name="jumptopage" value="15" class="inputSmall"><input type="submit" class="btn-arrow" value="Go">
</form>
</div>
<div class="pages">
<span class="manage_title">Page: <strong>1 of 25</strong></span> <a href="#" class="link_prev">Previous</a><a href="#" class="link_next">Next</a>
</div>
</div>
</div>
<!--/ sorting, pages -->
<!-- offers list -->
<div class="offer_list clearfix">
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_01.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Mercedes-Benz ML 350 BlueTEC 4MATIC 7G</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Automatic transmission, Diesel, 190 kW (258 PS), Fuel consumption combined: 6.8 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$32.690</div>
<span class="offer_miliage">55,689 KM</span>
<span class="offer_regist">08/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_02.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Porsche CAYENNE S DIESEL V8 4.2</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$56.300</div>
<span class="offer_miliage">237,391 KM</span>
<span class="offer_regist">12/2012</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_03.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Infiniti FX 37 AWD Aut. S Premium</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$47.000</div>
<span class="offer_miliage">27,391 KM</span>
<span class="offer_regist">08/2010</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_04.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Volvo XC60 D5 AWD Aut. RE-Design</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$26.750</div>
<span class="offer_miliage">50,584 KM</span>
<span class="offer_regist">05/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_05.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">BMW X5 Adaptive Drive Head-Up Display</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$33.300</div>
<span class="offer_miliage">15,785 KM</span>
<span class="offer_regist">10/2012</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_06.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Land Rover Sport SDV6 HSE</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$44.300</div>
<span class="offer_miliage">197,391 KM</span>
<span class="offer_regist">07/2009</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_07.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Audi Q7 4.2 TDI S-LINE PANORAMA</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Manual transmission, LPG & DIesel, 158 kW (215 PS), Fuel consumption combined: 8.9 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$48.500</div>
<span class="offer_miliage">18,085 KM</span>
<span class="offer_regist">03/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_08.jpg" alt=""></a></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Volkswagen Touareg V6 TDI R-Line</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Automatic transmission, Diesel, 408 kW (555 PS), Fuel consumption combined: 15.4 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$63.300</div>
<span class="offer_miliage">7,785 KM</span>
<span class="offer_regist">12/2011</span>
</div>
</div>
</div>
</div>
<!--/ offers list -->
<!-- pagination -->
<div class="tf_pagination">
<div class="inner">
<a class="page_prev" href="#"><span></span>PREV</a>
<a class="page_next" href="#"><span></span>NEXT</a>
<span class="page-numbers page_current">1</span> <a href="#" class="page-numbers">2</a> <a href="#" class="page-numbers">3</a> <a href="#" class="page-numbers">4</a> <a href="#" class="page-numbers">5</a> <a href="#" class="page-numbers">6</a> <a href="#" class="page-numbers">7</a> … <a href="#" class="page-numbers">18</a>
</div>
</div>
<!--/ pagination -->
</div>
<!--/ content -->
<!-- sidebar -->
<div class="sidebar">
<div class="box">
<!-- filter -->
<div class="widget-container widget_adv_filter">
<h3 class="widget-title">ADJUST SEARCH RESULTS</h3>
<form action="#" method="get" class="side_form">
<div class="row field_select" style="z-index:10">
<label class="label_title">Car Maker:</label>
<select class="select_styled white_select" name="car_maker">
<option value="0" class="default">- SELECT -</option>
<option value="1">Alfa Romeo</option>
<option value="2">Audi</option>
<option value="3">BMW</option>
<option value="4">Chevrolet</option>
<option value="5">Ford</option>
<option value="6">Honda</option>
<option value="7">Lexus</option>
<option value="8">Mazda</option>
<option value="9">Mercedes Benz</option>
<option value="10">Mitsubishi</option>
<option value="11">Nissan</option>
<option value="12">Opel</option>
<option value="13">Toyota</option>
<option value="14">Volkswagen</option>
<option value="15">Volvo</option>
</select>
</div>
<div class="row field_select" style="z-index:9">
<label class="label_title">Model:</label>
<select class="select_styled white_select" name="car_model">
<option value="0" class="default">- SELECT -</option>
<option value="1">626</option>
<option value="2">323</option>
<option value="3">3</option>
<option value="4">5</option>
<option value="5">7</option>
<option value="6">СX-7</option>
<option value="7">MVP</option>
<option value="8">RX-8</option>
<option value="9">MX-3</option>
<option value="10">MX-5</option>
<option value="11">MX-6</option>
<option value="12">BT-50</option>
<option value="13">CX-9</option>
</select>
</div>
<div class="row field_select" style="z-index:8">
<label class="label_title">Regist. from:</label>
<select class="select_styled white_select" name="car_year">
<option value="2013">2013</option>
<option value="2012">2012</option>
<option value="2011">2011</option>
<option value="2010">2010</option>
<option value="2009">2009</option>
<option value="2008">2008</option>
<option value="2007">2007</option>
<option value="2006">2006</option>
<option value="2005">2005</option>
<option value="2004">2004</option>
<option value="2003">2003</option>
</select>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Vehicle Type:</label><br>
<input type="checkbox" name="vehicle_type_1" id="vehicle_type_1" value="1"> <label for="vehicle_type_1">Compact Cars <span>(32)</span></label>
<input type="checkbox" name="vehicle_type_2" id="vehicle_type_2" value="2" checked> <label for="vehicle_type_2">SUVs & PickUps <span>(49)</span></label>
<input type="checkbox" name="vehicle_type_3" id="vehicle_type_3" value="3"> <label for="vehicle_type_3">Estate Saloons <span>(56)</span></label>
<input type="checkbox" name="vehicle_type_4" id="vehicle_type_4" value="4"> <label for="vehicle_type_4">Sedan Cars <span>(31)</span></label>
<input type="checkbox" name="vehicle_type_5" id="vehicle_type_5" value="5"> <label for="vehicle_type_5">Sports Cars <span>(23)</span></label>
<input type="checkbox" name="vehicle_type_6" id="vehicle_type_6" value="6"> <label for="vehicle_type_6">Van & Minibus <span>(46)</span></label>
</div>
<div class="row rangeField">
<label class="label_title2">Price Range:</label>
<div class="range-slider">
<input id="price_range" type="text" name="price_range" value="5000;60000">
</div>
<div class="clear"></div>
</div>
<div class="row rangeField">
<label class="label_title2">Kilometers:</label>
<div class="range-slider">
<input id="miliage" type="text" name="miliage" value="50000;400000">
</div>
<div class="clear"></div>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Fuel Type:</label><br>
<input type="checkbox" name="fuel_type_1" id="fuel_type_1" value="1"> <label for="fuel_type_1">Petrol <span>(32)</span></label>
<input type="checkbox" name="fuel_type_2" id="fuel_type_2" value="2" checked> <label for="fuel_type_2">Diesel <span>(49)</span></label>
<input type="checkbox" name="fuel_type_3" id="fuel_type_3" value="3"> <label for="fuel_type_3">Natural Gas <span>(56)</span></label>
<input type="checkbox" name="fuel_type_4" id="fuel_type_4" value="4"> <label for="fuel_type_4">LPG <span>(31)</span></label>
<input type="checkbox" name="fuel_type_5" id="fuel_type_5" value="5"> <label for="fuel_type_5">Electric <span>(23)</span></label>
<input type="checkbox" name="fuel_type_6" id="fuel_type_6" value="6" checked> <label for="fuel_type_6">Hybrid <span>(46)</span></label>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Engine Size:</label><br>
<input type="checkbox" name="engine_power_1" id="engine_power_1" value="1" checked> <label for="engine_power_1">1.1 - 1.5 <span>(32)</span></label>
<input type="checkbox" name="engine_power_2" id="engine_power_2" value="2" checked> <label for="engine_power_2">1.6 - 2.0 <span>(49)</span></label>
<input type="checkbox" name="engine_power_3" id="engine_power_3" value="3"> <label for="engine_power_3">2.1 - 3.0 <span>(56)</span></label>
<input type="checkbox" name="engine_power_4" id="engine_power_4" value="4"> <label for="engine_power_4">3.1 - 4.0 <span>(31)</span></label>
<input type="checkbox" name="engine_power_5" id="engine_power_5" value="5"> <label for="engine_power_5">4.1 + <span>(23)</span></label>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Car Colour:</label><br>
<input type="checkbox" name="car_color_all" id="car_color_all" value="0" checked> <label for="car_color_all">All Colours <span>(332)</span></label>
<input type="checkbox" name="car_color_1" id="car_color_1" value="1"> <label for="car_color_1">Silver <span>(49)</span></label>
<input type="checkbox" name="car_color_2" id="car_color_2" value="2"> <label for="car_color_2">Black <span>(56)</span></label>
<input type="checkbox" name="car_color_3" id="car_color_3" value="3"> <label for="car_color_3">Brown <span>(31)</span></label>
<input type="checkbox" name="car_color_4" id="car_color_4" value="4"> <label for="car_color_4">White <span>(23)</span></label>
<input type="checkbox" name="car_color_5" id="car_color_5" value="5"> <label for="car_color_5">Red <span>(46)</span></label>
<input type="checkbox" name="car_color_6" id="car_color_6" value="5"> <label for="car_color_6">Green <span>(46)</span></label>
<input type="checkbox" name="car_color_other" id="car_color_other" value="7"> <label for="car_color_other">Other <span>(115)</span></label>
</div>
<div class="row rowSubmit">
<span class="btn btn_search"><input type="submit" value="SEARCH"></span>
</div>
</form>
<script type="text/javascript" >
jQuery(document).ready(function($) {
// Price Range Input
$("#price_range").slider({
from: 100,
to: 100000,
limits: false,
scale: ['$100', '$100k'],
heterogeneity: ['50/50000'],
step: 100,
smooth: true,
dimension: '$',
skin: "round_blue"
});
$("#miliage").slider({
from: 0,
to: 500000,
limits: false,
scale: ['0', '500k'],
heterogeneity: ['50/250000'],
step: 5000,
smooth: true,
skin: "round_blue"
});
});
</script>
</div>
<!--/ filter -->
<div class="box_bot"></div>
</div>
</div>
<!--/ sidebar -->
</div>
</div>
<!--/ middle -->
<!-- popular brands -->
<div class="middle_row row_white brand_list">
<div class="container">
<h2>MOST POPULAR BRANDS:</h2>
<ul>
<li><a href="#"><img src="images/temp/brand_logo_1.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_2.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_3.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_4.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_5.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_6.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_7.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_8.png" alt=""></a></li>
</ul>
<a href="#" class="link_more">View All Popular Brands</a>
</div>
</div>
<!--/ popular brands -->
<div class="footer">
<div class="container clearfix">
<div class="f_col f_col_1">
<h3>Vehicles:</h3>
<ul>
<li><a href="#"><span>Motorbikes</span></a></li>
<li><a href="#"><span>Compacts</span></a></li>
<li><a href="#"><span>Sedans</span></a></li>
<li><a href="#"><span>4x4 SUVs</span></a></li>
<li><a href="#"><span>Pickups</span></a></li>
<li><a href="#"><span>Vans & Trucks</span></a></li>
</ul>
</div>
<!--/ footer col 1 -->
<div class="f_col f_col_2">
<h3>Services:</h3>
<ul>
<li><a href="#"><span>Buy a car</span></a></li>
<li><a href="#"><span>Sell your Car</span></a></li>
<li><a href="#"><span>Buy Back</span></a></li>
<li><a href="#"><span>Repair Shop </span></a></li>
</ul>
</div>
<!--/ footer col 2 -->
<div class="f_col f_col_3">
<h3>Privacy:</h3>
<ul>
<li><a href="#"><span>Terms & Conditions</span></a></li>
<li><a href="#"><span>Privacy Statement</span></a></li>
<li><a href="#"><span>F.A.Q.</span></a></li>
<li><a href="#"><span>Support</span></a></li>
<li><a href="#"><span>Confidentiality</span></a></li>
</ul>
</div>
<!--/ footer col 3 -->
<div class="f_col f_col_4">
<h3>OUR SHOWROOM</h3>
<div class="footer_address">
<div class="address">
21 Sunset Blvd, Los Angeles<br>
California, 90453
</div>
<div class="hours">
Mon - Fri: 9AM - 7 PM<br>
Sat - Sun: 9AM - 2 PM
</div>
<a href="contact.html" class="notice">View Bigger Map</a>
</div>
<div class="footer_map" style="background:url(images/temp/footer_map.jpg);"><a href="contact.html" class="amap"></a></div>
</div>
<!--/ footer col 4 -->
<div class="clear"></div>
<div class="footer_social">
<div class="social_inner">
<a href="#" class="social-google"><span>Google +1</span></a>
<a href="#" class="social-fb"><span>Facebook</span></a>
<a href="#" class="social-twitter"><span>Twitter</span></a>
<a href="#" class="social-dribble"><span>Dribble</span></a>
<a href="#" class="social-linkedin"><span>LinkedIn</span></a>
<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
<a href="#" class="social-da"><span>Devianart</span></a>
</div>
</div>
<div class="footer_contacts">
<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
</div>
<div class="copyright">
AutoTrader Wordpress theme by <a href="http://themefuse.com/">Themefuse</a> | <a href="http://themefuse.com/" class="link_white">Premium WordPress themes</a>
</div>
</div>
</div>
</div>
</body>
</html>
|
048doutoraretina
|
trunk/offers-list-left.html
|
HTML
|
oos
| 39,276
|
<!doctype html>
<!--[if lt IE 7 ]><html lang="en" class="no-js ie6"> <![endif]-->
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<li class="menu-level-0"><a href="#"><span>Home</span></a>
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<li class="menu-level-1"><a href="offers-list.html"><span>Offers List - Filter Right</span></a></li>
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<li class="clearfix">
<a href="blog-details.html" class="link-name">What You Should Know No About Using a CDN With WordPress</a>
<div class="post-meta"><span class="post-date">posted 1 days ago</span> <a href="blog-details.html#comments">3 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Black Friday! Everything half price. K, Thanx, Bye!</a>
<div class="post-meta"><span class="post-date">posted 2 days ago</span> <a href="blog-details.html#comments">23 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Our first FREE WordPress theme is now available - Gadgetry</a>
<div class="post-meta"><span class="post-date">posted 3 days ago</span> <a href="blog-details.html#comments">34 comments</a></div>
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<!--/ widget recent entries -->
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<h3 class="widget-title">Fresh from our Blog</h3>
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<li class="post-item">
<div class="post-title"><a href="blog-details.html">What Today's Video Games Say About The Moment We Live In</a></div>
<div class="post-meta">written by <span class="post-author">Jenna Pratt</span></div>
<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
</div>
<div class="post-more"><a href="blog-details.html">READ THE ARTICLE</a></div>
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<li class="menu-level-1 mega-nav-widget">
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<h3 class="widget-title">Twitter Activity</h3>
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<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 3 hours ago</span>
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Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 7 hours ago ago</span>
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<li class="menu-level-1 mega-nav-widget">
<!-- widget text -->
<div class="widget-container widget_text">
<h3 class="widget-title">Welcome Text</h3>
<div class="textwidget">
<p>Easily add a functional and highly customizable Mega Menu to your WordPress website. Choose your option of five different color schemes within the WordPress admin, or style it to your liking with your own stylesheet. </p>
<p>Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr.</p>
</div>
</div>
<!--/ widget text -->
</li>
<li class="menu-level-1"><a href="#"><span>Vehicles</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>Motorbikes</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Compacts</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Sedans</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>4x4 SUVs</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Pickups</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
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<li class="menu-level-2"><a href="blog.html"><span>1st Blog Category</span></a></li>
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<h1>Showing <span>217 RESULTS</span> for your search</h1>
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<p><a href="index.html">Home</a> <span class="separator">›</span> <a href="search.html">My Car Search</a> <span class="separator">›</span> <span class="current">217 Results</span></p>
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<h2>CARS WITH SPECIAL PRICES</h2>
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<span class="manage_title">Page: <strong>1 of 25</strong></span> <a href="#" class="link_prev">Previous</a><a href="#" class="link_next">Next</a>
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<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_01.jpg" alt=""></a><span class="sale">20% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Mercedes-Benz ML 350 BlueTEC 4MATIC 7G</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Automatic transmission, Diesel, 190 kW (258 PS), Fuel consumption combined: 6.8 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$32.690</div>
<span class="offer_miliage">55,689 KM</span>
<span class="offer_regist">08/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_02.jpg" alt=""></a><span class="sale">25% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Porsche CAYENNE S DIESEL V8 4.2</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$56.300</div>
<span class="offer_miliage">237,391 KM</span>
<span class="offer_regist">12/2012</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_03.jpg" alt=""></a><span class="sale">15% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Infiniti FX 37 AWD Aut. S Premium</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$47.000</div>
<span class="offer_miliage">27,391 KM</span>
<span class="offer_regist">08/2010</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_04.jpg" alt=""></a><span class="sale">30% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Volvo XC60 D5 AWD Aut. RE-Design</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$26.750</div>
<span class="offer_miliage">50,584 KM</span>
<span class="offer_regist">05/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_05.jpg" alt=""></a><span class="sale">20% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">BMW X5 Adaptive Drive Head-Up Display</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$33.300</div>
<span class="offer_miliage">15,785 KM</span>
<span class="offer_regist">10/2012</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_06.jpg" alt=""></a><span class="sale">16% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Land Rover Sport SDV6 HSE</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, New vehicle, Automatic transmission, Diesel, 281 kW (382 PS), Fuel consumption combined: 14.3 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$44.300</div>
<span class="offer_miliage">197,391 KM</span>
<span class="offer_regist">07/2009</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_07.jpg" alt=""></a><span class="sale">10% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Audi Q7 4.2 TDI S-LINE PANORAMA</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Manual transmission, LPG & DIesel, 158 kW (215 PS), Fuel consumption combined: 8.9 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$48.500</div>
<span class="offer_miliage">18,085 KM</span>
<span class="offer_regist">03/2011</span>
</div>
</div>
</div>
<div class="offer_item clearfix">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/prod_img_08.jpg" alt=""></a><span class="sale">5% OFF</span></div>
<div class="offer_aside">
<h2><a href="offers-details.html">Volkswagen Touareg V6 TDI R-Line</a></h2>
<div class="offer_descr">
<p>Off-road Vehicle/Pickup Truck, Used vehicle, Automatic transmission, Diesel, 408 kW (555 PS), Fuel consumption combined: 15.4 l/100 km</p>
</div>
<div class="offer_data">
<div class="offer_price">$63.300</div>
<span class="offer_miliage">7,785 KM</span>
<span class="offer_regist">12/2011</span>
</div>
</div>
</div>
</div>
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<a class="page_prev" href="#"><span></span>PREV</a>
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<span class="page-numbers page_current">1</span> <a href="#" class="page-numbers">2</a> <a href="#" class="page-numbers">3</a> <a href="#" class="page-numbers">4</a> <a href="#" class="page-numbers">5</a> <a href="#" class="page-numbers">6</a> <a href="#" class="page-numbers">7</a> … <a href="#" class="page-numbers">18</a>
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<h3 class="widget-title">ADJUST SEARCH RESULTS</h3>
<form action="#" method="get" class="side_form">
<div class="row field_select" style="z-index:10">
<label class="label_title">Car Maker:</label>
<select class="select_styled white_select" name="car_maker">
<option value="0" class="default">- SELECT -</option>
<option value="1">Alfa Romeo</option>
<option value="2">Audi</option>
<option value="3">BMW</option>
<option value="4">Chevrolet</option>
<option value="5">Ford</option>
<option value="6">Honda</option>
<option value="7">Lexus</option>
<option value="8">Mazda</option>
<option value="9">Mercedes Benz</option>
<option value="10">Mitsubishi</option>
<option value="11">Nissan</option>
<option value="12">Opel</option>
<option value="13">Toyota</option>
<option value="14">Volkswagen</option>
<option value="15">Volvo</option>
</select>
</div>
<div class="row field_select" style="z-index:9">
<label class="label_title">Model:</label>
<select class="select_styled white_select" name="car_model">
<option value="0" class="default">- SELECT -</option>
<option value="1">626</option>
<option value="2">323</option>
<option value="3">3</option>
<option value="4">5</option>
<option value="5">7</option>
<option value="6">СX-7</option>
<option value="7">MVP</option>
<option value="8">RX-8</option>
<option value="9">MX-3</option>
<option value="10">MX-5</option>
<option value="11">MX-6</option>
<option value="12">BT-50</option>
<option value="13">CX-9</option>
</select>
</div>
<div class="row field_select" style="z-index:8">
<label class="label_title">Regist. from:</label>
<select class="select_styled white_select" name="car_year">
<option value="2013">2013</option>
<option value="2012">2012</option>
<option value="2011">2011</option>
<option value="2010">2010</option>
<option value="2009">2009</option>
<option value="2008">2008</option>
<option value="2007">2007</option>
<option value="2006">2006</option>
<option value="2005">2005</option>
<option value="2004">2004</option>
<option value="2003">2003</option>
</select>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Vehicle Type:</label><br>
<input type="checkbox" name="vehicle_type_1" id="vehicle_type_1" value="1"> <label for="vehicle_type_1">Compact Cars <span>(32)</span></label>
<input type="checkbox" name="vehicle_type_2" id="vehicle_type_2" value="2" checked> <label for="vehicle_type_2">SUVs & PickUps <span>(49)</span></label>
<input type="checkbox" name="vehicle_type_3" id="vehicle_type_3" value="3"> <label for="vehicle_type_3">Estate Saloons <span>(56)</span></label>
<input type="checkbox" name="vehicle_type_4" id="vehicle_type_4" value="4"> <label for="vehicle_type_4">Sedan Cars <span>(31)</span></label>
<input type="checkbox" name="vehicle_type_5" id="vehicle_type_5" value="5"> <label for="vehicle_type_5">Sports Cars <span>(23)</span></label>
<input type="checkbox" name="vehicle_type_6" id="vehicle_type_6" value="6"> <label for="vehicle_type_6">Van & Minibus <span>(46)</span></label>
</div>
<div class="row rangeField">
<label class="label_title2">Price Range:</label>
<div class="range-slider">
<input id="price_range" type="text" name="price_range" value="5000;60000">
</div>
<div class="clear"></div>
</div>
<div class="row rangeField">
<label class="label_title2">Kilometers:</label>
<div class="range-slider">
<input id="miliage" type="text" name="miliage" value="50000;400000">
</div>
<div class="clear"></div>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Fuel Type:</label><br>
<input type="checkbox" name="fuel_type_1" id="fuel_type_1" value="1"> <label for="fuel_type_1">Petrol <span>(32)</span></label>
<input type="checkbox" name="fuel_type_2" id="fuel_type_2" value="2" checked> <label for="fuel_type_2">Diesel <span>(49)</span></label>
<input type="checkbox" name="fuel_type_3" id="fuel_type_3" value="3"> <label for="fuel_type_3">Natural Gas <span>(56)</span></label>
<input type="checkbox" name="fuel_type_4" id="fuel_type_4" value="4"> <label for="fuel_type_4">LPG <span>(31)</span></label>
<input type="checkbox" name="fuel_type_5" id="fuel_type_5" value="5"> <label for="fuel_type_5">Electric <span>(23)</span></label>
<input type="checkbox" name="fuel_type_6" id="fuel_type_6" value="6" checked> <label for="fuel_type_6">Hybrid <span>(46)</span></label>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Engine Size:</label><br>
<input type="checkbox" name="engine_power_1" id="engine_power_1" value="1" checked> <label for="engine_power_1">1.1 - 1.5 <span>(32)</span></label>
<input type="checkbox" name="engine_power_2" id="engine_power_2" value="2" checked> <label for="engine_power_2">1.6 - 2.0 <span>(49)</span></label>
<input type="checkbox" name="engine_power_3" id="engine_power_3" value="3"> <label for="engine_power_3">2.1 - 3.0 <span>(56)</span></label>
<input type="checkbox" name="engine_power_4" id="engine_power_4" value="4"> <label for="engine_power_4">3.1 - 4.0 <span>(31)</span></label>
<input type="checkbox" name="engine_power_5" id="engine_power_5" value="5"> <label for="engine_power_5">4.1 + <span>(23)</span></label>
</div>
<div class="row input_styled checklist">
<label class="label_title2">Car Colour:</label><br>
<input type="checkbox" name="car_color_all" id="car_color_all" value="0" checked> <label for="car_color_all">All Colours <span>(332)</span></label>
<input type="checkbox" name="car_color_1" id="car_color_1" value="1"> <label for="car_color_1">Silver <span>(49)</span></label>
<input type="checkbox" name="car_color_2" id="car_color_2" value="2"> <label for="car_color_2">Black <span>(56)</span></label>
<input type="checkbox" name="car_color_3" id="car_color_3" value="3"> <label for="car_color_3">Brown <span>(31)</span></label>
<input type="checkbox" name="car_color_4" id="car_color_4" value="4"> <label for="car_color_4">White <span>(23)</span></label>
<input type="checkbox" name="car_color_5" id="car_color_5" value="5"> <label for="car_color_5">Red <span>(46)</span></label>
<input type="checkbox" name="car_color_6" id="car_color_6" value="5"> <label for="car_color_6">Green <span>(46)</span></label>
<input type="checkbox" name="car_color_other" id="car_color_other" value="7"> <label for="car_color_other">Other <span>(115)</span></label>
</div>
<div class="row rowSubmit">
<span class="btn btn_search"><input type="submit" value="SEARCH"></span>
</div>
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<script type="text/javascript" >
jQuery(document).ready(function($) {
// Price Range Input
$("#price_range").slider({
from: 100,
to: 100000,
limits: false,
scale: ['$100', '$100k'],
heterogeneity: ['50/50000'],
step: 100,
smooth: true,
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});
$("#miliage").slider({
from: 0,
to: 500000,
limits: false,
scale: ['0', '500k'],
heterogeneity: ['50/250000'],
step: 5000,
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skin: "round_blue"
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<h2>MOST POPULAR BRANDS:</h2>
<ul>
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<h3>Vehicles:</h3>
<ul>
<li><a href="#"><span>Motorbikes</span></a></li>
<li><a href="#"><span>Compacts</span></a></li>
<li><a href="#"><span>Sedans</span></a></li>
<li><a href="#"><span>4x4 SUVs</span></a></li>
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<h3>Services:</h3>
<ul>
<li><a href="#"><span>Buy a car</span></a></li>
<li><a href="#"><span>Sell your Car</span></a></li>
<li><a href="#"><span>Buy Back</span></a></li>
<li><a href="#"><span>Repair Shop </span></a></li>
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<h3>Privacy:</h3>
<ul>
<li><a href="#"><span>Terms & Conditions</span></a></li>
<li><a href="#"><span>Privacy Statement</span></a></li>
<li><a href="#"><span>F.A.Q.</span></a></li>
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<li><a href="#"><span>Confidentiality</span></a></li>
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<!--/ footer col 3 -->
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<h3>OUR SHOWROOM</h3>
<div class="footer_address">
<div class="address">
21 Sunset Blvd, Los Angeles<br>
California, 90453
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Mon - Fri: 9AM - 7 PM<br>
Sat - Sun: 9AM - 2 PM
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<a href="contact.html" class="notice">View Bigger Map</a>
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<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
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<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
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AutoTrader Wordpress theme by <a href="http://themefuse.com/">Themefuse</a> | <a href="http://themefuse.com/" class="link_white">Premium WordPress themes</a>
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<li class="menu-level-0"><a href="#"><span>Home</span></a>
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<li class="menu-level-1"><a href="index.html"><span>Home Slider 1</span></a></li>
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<li class="menu-level-1"><a href="offers-list.html"><span>Offers List - Filter Right</span></a></li>
<li class="menu-level-1"><a href="offers-list-left.html"><span>Offers List - Filter Left</span></a></li>
<li class="menu-level-1"><a href="car-makers.html"><span>Car Makers</span></a></li>
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<h3 class="widget-title">Latest News</h3>
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<a href="blog-details.html" class="link-name">What You Should Know No About Using a CDN With WordPress</a>
<div class="post-meta"><span class="post-date">posted 1 days ago</span> <a href="blog-details.html#comments">3 comments</a></div>
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<a href="blog-details.html" class="link-name">Black Friday! Everything half price. K, Thanx, Bye!</a>
<div class="post-meta"><span class="post-date">posted 2 days ago</span> <a href="blog-details.html#comments">23 comments</a></div>
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<a href="blog-details.html" class="link-name">Our first FREE WordPress theme is now available - Gadgetry</a>
<div class="post-meta"><span class="post-date">posted 3 days ago</span> <a href="blog-details.html#comments">34 comments</a></div>
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<h3 class="widget-title">Fresh from our Blog</h3>
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<div class="post-title"><a href="blog-details.html">What Today's Video Games Say About The Moment We Live In</a></div>
<div class="post-meta">written by <span class="post-author">Jenna Pratt</span></div>
<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
</div>
<div class="post-more"><a href="blog-details.html">READ THE ARTICLE</a></div>
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<div class="widget-container widget_twitter">
<h3 class="widget-title">Twitter Activity</h3>
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<div class="tweet_image"><img src="images/temp/twitter_avatar.png" width="30" height="30" alt="" /></div>
<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 3 hours ago</span>
</div>
</div>
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Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 7 hours ago ago</span>
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<a href="#" class="link-more">FOLLOW US ON TWITTER</a>
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<h3 class="widget-title">Welcome Text</h3>
<div class="textwidget">
<p>Easily add a functional and highly customizable Mega Menu to your WordPress website. Choose your option of five different color schemes within the WordPress admin, or style it to your liking with your own stylesheet. </p>
<p>Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr.</p>
</div>
</div>
<!--/ widget text -->
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<li class="menu-level-1"><a href="#"><span>Vehicles</span></a>
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<li class="menu-level-2"><a href="blog.html"><span>Motorbikes</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Compacts</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Sedans</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>4x4 SUVs</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Pickups</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
</li>
<li class="menu-level-1"><a href="#"><span>Submenu</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>1st Blog Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Second Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>3rd Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Forth Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Another Category</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
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</ul>
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<li class="menu-level-0 current-menu-ancestor"><a href="#"><span>Pages</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="blog.html"><span>Blog</span></a></li>
<li class="menu-level-1"><a href="page-about.html"><span>About Page</span></a></li>
<li class="menu-level-1"><a href="page-faq.html"><span>FAQ</span></a></li>
<li class="menu-level-1 current-menu-item"><a href="page-pricing.html"><span>Pricing Page</span></a></li>
<li class="menu-level-1"><a href="#"><span>Shortcodes</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="shortcodes-buttons.html"><span>Buttons & Lists</span></a></li>
<li class="menu-level-2"><a href="shortcodes-text.html"><span>Text & Images</span></a></li>
<li class="menu-level-2"><a href="shortcodes-charts.html"><span>Charts</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns.html"><span>Columns</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns-full.html"><span>Columns full width</span></a></li>
<li class="menu-level-2"><a href="shortcodes-lightbox.html"><span>Lightbox</span></a></li>
<li class="menu-level-2"><a href="shortcodes-media.html"><span>Videos & Galleries</span></a></li>
<li class="menu-level-2"><a href="shortcodes-maps.html"><span>Google Maps</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tabs.html"><span>Tabs & Toggles</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tables.html"><span>Boxes & Tables</span></a></li>
<li class="menu-level-2"><a href="shortcodes-typography.html"><span>Typography</span></a></li>
<li class="menu-level-2"><a href="shortcodes-widgets.html"><span>Custom Widgets</span></a></li>
</ul>
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<li class="menu-level-1"><a href="blog-sidebar-left.html"><span>Sidebar Left</span></a></li>
<li class="menu-level-1"><a href="page-404.html"><span>Page 404</span></a></li>
</ul>
</li>
<li class="menu-level-0"><a href="contact.html"><span>Location</span></a></li>
</ul>
</nav>
<!--/ topmenu -->
</div>
</div>
<!--/ header top bar -->
<!-- header -->
<div class="header header_thin" style="background-image:url(images/temp/slider_1_2.jpg)">
<div class="header_title">
<h1>Example of a <span>Pricing Page</span></h1>
</div>
</div>
<!--/ header -->
<!-- breadcrumbs -->
<div class="middle_row row_white breadcrumbs">
<div class="container">
<p><a href="index.html">Home</a> <span class="separator">›</span> <a href="#">Pages</a> <span class="separator">›</span> <span class="current">Pricing page</span></p>
<a href="offers-search.html" class="link_search">Start a New Search</a>
</div>
</div>
<!--/ breadcrumbs -->
<!-- middle -->
<div id="middle" class="full_width">
<div class="container clearfix">
<!-- content -->
<div class="content">
<div class="entry">
<!-- pricing table -->
<div class="pricing_box">
<ul>
<li class="price_col price_col_light_blue">
<div class="price_item">
<div class="price_col_head">
<strong>Starter</strong>
<span class="price"><em>$</em>14<sup>.99</sup><em>/mo.</em></span>
</div>
<div class="price_col_body">
<ul>
<li><strong>10GB</strong> Storage Space</li>
<li><strong>50GB</strong> Monthly Bandwidth</li>
<li><strong>10 Free</strong> Sub-Domains</li>
<li><strong>250</strong> E-mail Accounts</li>
<li>Control Panel & FTP</li>
<li>No Shared 128bit SSL</li>
</ul>
<div class="price_body_bot"><strong>Best for:</strong> Start-ups, Blogs</div>
</div>
<div class="price_col_foot">
<a href="#">Sign Up<strong> NOW</strong></a>
</div>
</div>
</li>
<li class="price_col price_col_blue col_active">
<div class="price_item">
<div class="price_col_head">
<strong>Advanced</strong>
<span class="price"><em>$</em>24<sup>.99</sup><em>/mo.</em></span>
</div>
<div class="price_col_body">
<ul>
<li><strong>250GB</strong> Storage Space</li>
<li><strong>20,000GB</strong> Monthly Bandwidth</li>
<li><strong>30 Free</strong> Sub-Domains</li>
<li><strong>500</strong> E-mail Accounts</li>
<li>Control Panel & FTP</li>
<li>No Shared 128bit SSL</li>
</ul>
<div class="price_body_bot"><strong>Best for:</strong> Small Businesses</div>
</div>
<div class="price_col_foot">
<a href="#">Sign Up<strong> NOW</strong></a>
</div>
</div>
</li>
<li class="price_col price_col_light_red">
<div class="price_item">
<div class="price_col_head">
<strong>Business</strong>
<span class="price"><em>$</em>89<sup>.99</sup><em>/mo.</em></span>
</div>
<div class="price_col_body">
<ul>
<li><strong>500GB</strong> Storage Space</li>
<li><strong>40,000GB</strong> Monthly Bandwidth</li>
<li><strong>50 Free</strong> Sub-Domains</li>
<li><strong>Unlimted</strong> E-mail Accounts</li>
<li>Control Panel & FTP</li>
<li>No Shared 128bit SSL</li>
</ul>
<div class="price_body_bot"><strong>Best for:</strong> Resellers, Devs</div>
</div>
<div class="price_col_foot">
<a href="#">Sign Up<strong> NOW</strong></a>
</div>
</div>
</li>
<li class="price_col price_col_red">
<div class="price_item">
<div class="price_col_head">
<strong>Professional</strong>
<span class="price"><em>$</em>139<sup>.99</sup><em>/mo.</em></span>
</div>
<div class="price_col_body">
<ul>
<li><strong>Unlimted</strong> Storage Space</li>
<li><strong>Unlimted</strong> Monthly Bandwidth</li>
<li><strong>Unlimted</strong> Sub-Domains</li>
<li><strong>Unlimted</strong> E-mail Accounts</li>
<li>Control Panel & FTP</li>
<li>No Shared 128bit SSL</li>
</ul>
<div class="price_body_bot"><strong>Best for:</strong> Big Projects</div>
</div>
<div class="price_col_foot">
<a href="#">Sign Up<strong> NOW</strong></a>
</div>
</div>
</li>
</ul>
<div class="clear"></div>
</div>
<!--/ pricing table -->
<div class="text_notice">
<p>So, why choose us? Because we have all-inclusive prices and unbeatable value.<br>
Other companies promise cheap hosting, but then charge extra for setup fees, higher renewal rates, or promotional services. </p>
</div>
</div>
</div>
<!--/ content -->
</div>
</div>
<!--/ middle -->
<!-- popular brands -->
<div class="middle_row row_white brand_list">
<div class="container">
<h2>MOST POPULAR BRANDS:</h2>
<ul>
<li><a href="#"><img src="images/temp/brand_logo_1.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_2.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_3.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_4.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_5.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_6.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_7.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_8.png" alt=""></a></li>
</ul>
<a href="#" class="link_more">View All Popular Brands</a>
</div>
</div>
<!--/ popular brands -->
<div class="footer">
<div class="container clearfix">
<div class="f_col f_col_1">
<h3>Vehicles:</h3>
<ul>
<li><a href="#"><span>Motorbikes</span></a></li>
<li><a href="#"><span>Compacts</span></a></li>
<li><a href="#"><span>Sedans</span></a></li>
<li><a href="#"><span>4x4 SUVs</span></a></li>
<li><a href="#"><span>Pickups</span></a></li>
<li><a href="#"><span>Vans & Trucks</span></a></li>
</ul>
</div>
<!--/ footer col 1 -->
<div class="f_col f_col_2">
<h3>Services:</h3>
<ul>
<li><a href="#"><span>Buy a car</span></a></li>
<li><a href="#"><span>Sell your Car</span></a></li>
<li><a href="#"><span>Buy Back</span></a></li>
<li><a href="#"><span>Repair Shop </span></a></li>
</ul>
</div>
<!--/ footer col 2 -->
<div class="f_col f_col_3">
<h3>Privacy:</h3>
<ul>
<li><a href="#"><span>Terms & Conditions</span></a></li>
<li><a href="#"><span>Privacy Statement</span></a></li>
<li><a href="#"><span>F.A.Q.</span></a></li>
<li><a href="#"><span>Support</span></a></li>
<li><a href="#"><span>Confidentiality</span></a></li>
</ul>
</div>
<!--/ footer col 3 -->
<div class="f_col f_col_4">
<h3>OUR SHOWROOM</h3>
<div class="footer_address">
<div class="address">
21 Sunset Blvd, Los Angeles<br>
California, 90453
</div>
<div class="hours">
Mon - Fri: 9AM - 7 PM<br>
Sat - Sun: 9AM - 2 PM
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<a href="contact.html" class="notice">View Bigger Map</a>
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<a href="#" class="social-google"><span>Google +1</span></a>
<a href="#" class="social-fb"><span>Facebook</span></a>
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<a href="#" class="social-dribble"><span>Dribble</span></a>
<a href="#" class="social-linkedin"><span>LinkedIn</span></a>
<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
<a href="#" class="social-da"><span>Devianart</span></a>
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<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
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AutoTrader Wordpress theme by <a href="http://themefuse.com/">Themefuse</a> | <a href="http://themefuse.com/" class="link_white">Premium WordPress themes</a>
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048doutoraretina
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trunk/page-pricing.html
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HTML
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<!doctype html>
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<title>Academia Body Shape</title>
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<li class="menu-level-0 mega-nav"><a href="special-offers.html"><span>Body Shape</span></a>
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<li class="menu-level-0 mega-nav"><a href="services.html"><span>ATIVIDADES</span></a>
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<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>SERVIÇO 1</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>SERVIÇO 2</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>SERVIÇO 3</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>SERVIÇO 4</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>SERVIÇO 5</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>SERVIÇO 6</span></a></li>
</ul>
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<ul class="submenu-1">
<ul class="submenu-2">
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<!-- header -->
<div class="header" style="background:#000">
<!-- header slider -->
<div class="fullwidthbanner-container">
<div class="fullwidthbanner">
<ul>
<li data-transition="fade" data-slotamount="1" data-masterspeed="500">
<img src="images/temp/slider_1_1.jpg" data-fullwidthcentering="on">
<div class="caption sft text_line" data-x="10" data-y="190" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfb text_line" data-x="10" data-y="300" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfl white_text big_title" data-x="10" data-y="220" data-speed="900" data-start="500" data-easing="easeOutExpo">
<a href="#"><strong>TÍTULO DO SLIDE</strong></a>
</div>
<div class="caption sfr white_text subtitle" data-x="10" data-y="257" data-speed="900" data-start="700" data-easing="easeOutExpo">
Sub-tútulo do <span>slide</span>
</div>
</li>
<li data-transition="fade" data-slotamount="7" data-masterspeed="500">
<img src="images/temp/slider_1_2.jpg" data-fullwidthcentering="on">
<div class="caption sft text_line" data-x="550" data-y="250" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfb text_line" data-x="550" data-y="360" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sft white_text big_title" data-x="550" data-y="280" data-speed="900" data-start="500" data-easing="easeOutExpo">
<a href="#"><strong>TÍTULO DO SLIDE</strong></a>
</div>
<div class="caption sfb white_text subtitle" data-x="550" data-y="317" data-speed="900" data-start="700" data-easing="easeOutExpo">
sub-título <span>do</span> slide
</div>
</li>
<li data-transition="fade" data-slotamount="7" data-masterspeed="500">
<img src="images/temp/slider_1_3.jpg" data-fullwidthcentering="on">
<div class="caption sft text_line" data-x="10" data-y="190" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfb text_line" data-x="10" data-y="300" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfr white_text big_title" data-x="10" data-y="220" data-speed="900" data-start="500" data-easing="easeOutExpo">
<a href="#"><strong>TÍTULO DO SLIDE</strong></a>
</div>
<div class="caption sfl white_text subtitle" data-x="10" data-y="257" data-speed="900" data-start="700" data-easing="easeOutExpo">
Sub-título<span>do</span> slide
</div>
</li>
<li data-transition="fade" data-slotamount="7" data-masterspeed="500">
<img src="images/temp/slider_1_4.jpg" data-fullwidthcentering="on">
<div class="caption sft text_line" data-x="10" data-y="190" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sfb text_line" data-x="10" data-y="300" data-speed="900" data-start="800" data-easing="easeOutExpo"></div>
<div class="caption sft black_text big_title" data-x="10" data-y="220" data-speed="900" data-start="500" data-easing="easeOutExpo">
<a href="#"><strong>TÍTULO DO SLIDE</strong></a>
</div>
<div class="caption sfb black_text subtitle" data-x="10" data-y="257" data-speed="900" data-start="700" data-easing="easeOutExpo">
Sub-tutulol<span>do slide</span>
</div>
</li>
</ul>
</div>
</div>
<script>
jQuery(document).ready(function($) {
if ($.fn.cssOriginal!=undefined)
$.fn.css = $.fn.cssOriginal;
$('.fullwidthbanner').revolution({
delay:5000,
startwidth:950,
startheight:617,
onHoverStop:"off", // Stop Banner Timet at Hover on Slide on/off
hideThumbs:0,
navigationType:"bullet", // bullet, thumb, none
navigationArrows:"none", // nexttobullets, solo (old name verticalcentered), none
navigationStyle:"round", // round,square,navbar,round-old,square-old,navbar-old, or any from the list in the docu (choose between 50+ different item), custom
navigationHAlign:"center", // Vertical Align top,center,bottom
navigationVAlign:"bottom", // Horizontal Align left,center,right
navigationHOffset:0,
navigationVOffset:23,
touchenabled:"on", // Enable Swipe Function : on/off
stopAtSlide:-1, // Stop Timer if Slide "x" has been Reached. If stopAfterLoops set to 0, then it stops already in the first Loop at slide X which defined. -1 means do not stop at any slide. stopAfterLoops has no sinn in this case.
stopAfterLoops:-1, // Stop Timer if All slides has been played "x" times. IT will stop at THe slide which is defined via stopAtSlide:x, if set to -1 slide never stop automatic
hideCaptionAtLimit:0, // It Defines if a caption should be shown under a Screen Resolution ( Basod on The Width of Browser)
hideAllCaptionAtLilmit:0, // Hide all The Captions if Width of Browser is less then this value
hideSliderAtLimit:0, // Hide the whole slider, and stop also functions if Width of Browser is less than this value
fullWidth:"on",
shadow:0 //0 = no Shadow, 1,2,3 = 3 Different Art of Shadows - (No Shadow in Fullwidth Version !)
});
});
</script>
<!--/ header slider -->
</div>
<!--/ header -->
<!-- middle -->
<script type="text/javascript">
jQuery(document).ready(function($) {
// Show/Hide Advanced Search
$(".adv_search_hidden").hide();
$("#adv_search_open").click(function(){
if ($(this).closest(".search_form").hasClass("advsearch_hide")) {
$(".adv_search_hidden").stop().slideDown();
$(this).html("Close Advanced Search");
} else {
$(".adv_search_hidden").stop().slideUp();
$(this).html("Advanced Search");
}
$(this).closest(".search_form").toggleClass("advsearch_hide");
});
});
</script>
</div>
</div>
<!-- modalidades -->
<div class="middle_row row_gray">
<div class="container clearfix">
<div class="car_types_list">
<h2>escolha a melhor modalidade para você!</h2>
<ul>
<li class="type_hover cart_type_1">
<a href="#" class="front"><strong></strong> <em></em></a>
<a href="#" class="back"><strong></strong> <em></em></a>
</li>
<li class="type_hover cart_type_2">
<a href="#" class="front"><strong></strong> <em></em></a>
<a href="#" class="back"><strong></strong> <em></em></a>
</li>
<li class="type_hover cart_type_3">
<a href="#" class="front"><strong></strong> <em></em></a>
<a href="#" class="back"><strong></strong> <em></em></a>
</li>
<li class="type_hover cart_type_4">
<a href="#" class="front"><strong></strong> <em></em></a>
<a href="#" class="back"><strong></strong> <em></em></a>
</li>
<li class="type_hover cart_type_5">
<a href="#" class="front"><strong></strong> <em></em></a>
<a href="#" class="back"><strong></strong> <em></em></a>
</li>
</ul>
<a href="#" class="link_more">VEJA TODAS AS MODALIDADES</a>
</div>
<script>
jQuery(document).ready(function($) {
$('.type_hover').hover(function(){
$(this).addClass('flip');
},function(){
$(this).removeClass('flip');
});
});
</script>
</div>
</div>
<!--/ modalidades -->
<div class="middle_row row_light_gray">
<div class="container clearfix">
<!-- week offer -->
<div class="week_offer">
<h2>EM DESTAQUE,01</h2>
<div class="offer_box">
<div class="offer_image"><a href="offers-details.html"><img src="images/temp/week_offer.jpg" alt=""></a></div>
<div class="offer_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="offer_price">000</div>
<div class="offer_descr">
texto texto texto textotexto texto texto textotexto texto texto textotexto texto texto textotexto texto texto textotexto texto texto textotexto texto texto textotexto texto texto texto.
</div>
</div>
<div class="link_more"><a href="#">texto texto texto</a></div>
</div>
</div>
<!--/ week offer -->
<!-- special offer -->
<div class="special_offers">
<h2>DICAS BODY SHAPE</h2>
<div id="special_offers">
<div class="special_item">
<div class="special_image">
<a href="offers-details.html"><img src="images/temp/special_offer_1.jpg" alt=""></a>
</div>
<div class="special_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto3</div>
<div class="special_price">texto</div>
</div>
</div>
<div class="special_item">
<div class="special_image">
<a href="offers-details.html"><img src="images/temp/special_offer_2.jpg" alt=""></a>
</div>
<div class="special_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto3</div>
<div class="special_price">texto</div>
</div>
</div>
<div class="special_item">
<div class="special_image">
<a href="offers-details.html"><img src="images/temp/special_offer_3.jpg" alt=""></a>
</div>
<div class="special_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto3</div>
<div class="special_price">texto</div>
</div>
</div>
<div class="special_item">
<div class="special_image">
<a href="offers-details.html"><img src="images/temp/special_offer_4.jpg" alt=""></a>
</div>
<div class="special_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto3</div>
<div class="special_price">texto</div>
</div>
</div>
<div class="special_item">
<div class="special_image">
<a href="offers-details.html"><img src="images/temp/special_offer_5.jpg" alt=""></a>
</div>
<div class="special_text">
<h3><a href="offers-details.html">texto texto texto texto</a></h3>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto</div>
<div class="info_row"><span>texto</span> texto3</div>
<div class="special_price">texto</div>
</div>
</div>
</div>
<a class="prev" id="special_offers_prev" href="#"></a>
<a class="next" id="special_offers_next" href="#"></a>
<div class="link_more"><a href="#">Veja todas as dicas</a></div>
<script>
jQuery(document).ready(function($) {
function carSpecicalInit() {
var car_specical = $('#special_offers');
car_specical.carouFredSel({
prev : "#special_offers_prev",
next : "#special_offers_next",
infinite: true,
circular: false,
auto: false,
width: '100%',
direction: "down",
scroll: {
items : 1
}
});
}
$(window).load(function() {
carSpecicalInit();
});
var resizeTimer;
$(window).resize(function() {
clearTimeout(resizeTimer);
resizeTimer = setTimeout(carSpecicalInit, 100);
});
});
</script>
</div>
<!--/ special offer -->
</div>
</div>
<!-- latest_offers -->
<div class="middle_row latest_offers">
<div class="container clearfix">
<h2>galeria de fotos</h2>
<a href="#" class="link_more">últimas adicionadas</a>
</div>
<div id="latest_offers">
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_01.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_02.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_03.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_04.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_05.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_06.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_07.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_08.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
<div class="latest_item">
<a href="offers-details.html"><img src="images/temp/prod_img_09.jpg" alt=""></a>
<a href="offers-details.html"></a>
</div>
</div>
<a class="prev" id="latest_offers_prev" href="#"></a>
<a class="next" id="latest_offers_next" href="#"></a>
<script>
jQuery(document).ready(function($) {
var screenRes = $(window).width();
$('#latest_offers').carouFredSel({
prev : "#latest_offers_prev",
next : "#latest_offers_next",
infinite: false,
circular: true,
auto: false,
width: '100%',
scroll: {
items : 1,
onBefore: function (data) {
if (screenRes > 900) {
data.items.visible.eq(0).animate({opacity: 0.15},300);
data.items.old.eq(-1).animate({opacity: 1},300);
data.items.visible.eq(-1).animate({opacity: 0.15},300);
}
},
onAfter: function (data) {
if (screenRes > 900) {
data.items.old.eq(0).animate({opacity: 1},300);
}
}
}
});
if (screenRes > 900) {
var vis_items = $("#latest_offers").triggerHandler("currentVisible");
vis_items.eq(-1).animate({opacity: 0.15},100);
vis_items.eq(0).animate({opacity: 0.15},100);
}
});
</script>
</div>
<!--/ latest_offers -->
<!-- testimonials -->
<div class="middle_row row_white testimonials">
<div class="container">
<div class="slider_container clearfix" id="testimonials">
<div class="slider-item">
<div class="quote-text">
<p><a href="#">João da Silva</a> Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento </p>
</div>
<div class="quote-author"><span>BRENT JARVIS</span>, Designer</div>
</div>
<div class="slider-item">
<div class="quote-text">
<p> Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento </p>
<p> Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento </p>
</div>
<div class="quote-author"><span>James Backer</span>, Arquiteto</div>
</div>
<div class="slider-item">
<div class="quote-text">
<p> Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento Depoimento </p>
</div>
<div class="quote-author"><span>Mr. Smith</span>, Engenheiro</div>
</div>
</div>
<a class="prev" id="testimonials_prev" href="#"></a>
<a class="next" id="testimonials_next" href="#"></a>
<script>
jQuery(document).ready(function($) {
$('#testimonials').carouFredSel({
next : "#testimonials_next",
prev : "#testimonials_prev",
infinite: false,
items: 1,
auto: false,
scroll: {
items : 1,
fx: "crossfade",
easing: "linear",
duration: 300
}
});
});
</script>
</div>
</div>
<!--/ testimonials -->
<!-- popular brands -->
<div class="middle_row row_light_gray brand_list">
<div class="container">
<h2>parceiros:</h2>
<ul>
<li><a href="#"><img src="images/temp/brand_logo_1.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_2.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_3.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_4.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_5.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_6.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_7.png" alt=""></a></li>
<li><a href="#"><img src="images/temp/brand_logo_8.png" alt=""></a></li>
</ul>
<a href="#" class="link_more">todas</a>
</div>
</div>
<!--/ popular brands -->
<!--/ middle -->
<div class="footer">
<!--/ footer col 3 -->
<div class="clear"></div>
<div class="footer_social">
<div class="social_inner">
<a href="#" class="social-google"><span>Google +1</span></a>
<a href="#" class="social-fb"><span>Facebook</span></a>
<a href="#" class="social-twitter"><span>Twitter</span></a>
<a href="#" class="social-dribble"><span>Dribble</span></a>
<a href="#" class="social-linkedin"><span>LinkedIn</span></a>
<a href="#" class="social-vimeo"><span>Vimeo</span></a>
<a href="#" class="social-flickr"><span>Flickr</span></a>
<a href="#" class="social-da"><span>Devianart</span></a>
</div>
</div>
<div class="footer_contacts">
<span class="phone">555-39.84.35</span>
<span class="email">hello@autotrader.com</span>
</div>
</div>
<!--/ footer col 4 -->
<div class="copyright">
Todos os direitos reservados<a href="http://vibecriativa.com/">Projeto Vibecriativa </a> | <a href="http://vibecriativa.com/" class="link_white"></a>
</div>
</div>
</div>
</div>
</body>
</html>
|
048doutoraretina
|
trunk/index.html
|
HTML
|
oos
| 27,933
|
/**
* jquery.slider - Slider ui control in jQuery
*
* Written by
* Egor Khmelev (hmelyoff@gmail.com)
*
* @author Egor Khmelev
* @version 1.1.0-RELEASE ($Id$)
*
* Dependencies:
*
* jQuery (http://jquery.com)
* jshashtable http://www.timdown.co.uk/jshashtable
* jquery.numberformatter (http://code.google.com/p/jquery-numberformatter/)
* tmpl (http://ejohn.org/blog/javascript-micro-templating/)
* jquery.dependClass - Attach class based on first class in list of current element
* draggable - Class allows to make any element draggable
**/
/**
* jshashtable v2.1 - 21 March 2010
*/
var Hashtable = (function () {
var FUNCTION = "function";
var arrayRemoveAt = (typeof Array.prototype.splice == FUNCTION) ? function (arr, idx) {
arr.splice(idx, 1);
} :
function (arr, idx) {
var itemsAfterDeleted, i, len;
if (idx === arr.length - 1) {
arr.length = idx;
} else {
itemsAfterDeleted = arr.slice(idx + 1);
arr.length = idx;
for (i = 0, len = itemsAfterDeleted.length; i < len; ++i) {
arr[idx + i] = itemsAfterDeleted[i];
}
}
};
function hashObject(obj) {
var hashCode;
if (typeof obj == "string") {
return obj;
} else if (typeof obj.hashCode == FUNCTION) {
// Check the hashCode method really has returned a string
hashCode = obj.hashCode();
return (typeof hashCode == "string") ? hashCode : hashObject(hashCode);
} else if (typeof obj.toString == FUNCTION) {
return obj.toString();
} else {
try {
return String(obj);
} catch (ex) {
// For host objects (such as ActiveObjects in IE) that have no toString() method and throw an error when
// passed to String()
return Object.prototype.toString.call(obj);
}
}
}
function equals_fixedValueHasEquals(fixedValue, variableValue) {
return fixedValue.equals(variableValue);
}
function equals_fixedValueNoEquals(fixedValue, variableValue) {
return (typeof variableValue.equals == FUNCTION) ?
variableValue.equals(fixedValue) : (fixedValue === variableValue);
}
function createKeyValCheck(kvStr) {
return function (kv) {
if (kv === null) {
throw new Error("null is not a valid " + kvStr);
} else if (typeof kv == "undefined") {
throw new Error(kvStr + " must not be undefined");
}
};
}
var checkKey = createKeyValCheck("key"),
checkValue = createKeyValCheck("value");
/*----------------------------------------------------------------------------------------------------------------*/
function Bucket(hash, firstKey, firstValue, equalityFunction) {
this[0] = hash;
this.entries = [];
this.addEntry(firstKey, firstValue);
if (equalityFunction !== null) {
this.getEqualityFunction = function () {
return equalityFunction;
};
}
}
var EXISTENCE = 0,
ENTRY = 1,
ENTRY_INDEX_AND_VALUE = 2;
function createBucketSearcher(mode) {
return function (key) {
var i = this.entries.length,
entry, equals = this.getEqualityFunction(key);
while (i--) {
entry = this.entries[i];
if (equals(key, entry[0])) {
switch (mode) {
case EXISTENCE:
return true;
case ENTRY:
return entry;
case ENTRY_INDEX_AND_VALUE:
return [i, entry[1]];
}
}
}
return false;
};
}
function createBucketLister(entryProperty) {
return function (aggregatedArr) {
var startIndex = aggregatedArr.length;
for (var i = 0, len = this.entries.length; i < len; ++i) {
aggregatedArr[startIndex + i] = this.entries[i][entryProperty];
}
};
}
Bucket.prototype = {
getEqualityFunction: function (searchValue) {
return (typeof searchValue.equals == FUNCTION) ? equals_fixedValueHasEquals : equals_fixedValueNoEquals;
},
getEntryForKey: createBucketSearcher(ENTRY),
getEntryAndIndexForKey: createBucketSearcher(ENTRY_INDEX_AND_VALUE),
removeEntryForKey: function (key) {
var result = this.getEntryAndIndexForKey(key);
if (result) {
arrayRemoveAt(this.entries, result[0]);
return result[1];
}
return null;
},
addEntry: function (key, value) {
this.entries[this.entries.length] = [key, value];
},
keys: createBucketLister(0),
values: createBucketLister(1),
getEntries: function (entries) {
var startIndex = entries.length;
for (var i = 0, len = this.entries.length; i < len; ++i) {
// Clone the entry stored in the bucket before adding to array
entries[startIndex + i] = this.entries[i].slice(0);
}
},
containsKey: createBucketSearcher(EXISTENCE),
containsValue: function (value) {
var i = this.entries.length;
while (i--) {
if (value === this.entries[i][1]) {
return true;
}
}
return false;
}
};
/*----------------------------------------------------------------------------------------------------------------*/
// Supporting functions for searching hashtable buckets
function searchBuckets(buckets, hash) {
var i = buckets.length,
bucket;
while (i--) {
bucket = buckets[i];
if (hash === bucket[0]) {
return i;
}
}
return null;
}
function getBucketForHash(bucketsByHash, hash) {
var bucket = bucketsByHash[hash];
// Check that this is a genuine bucket and not something inherited from the bucketsByHash's prototype
return (bucket && (bucket instanceof Bucket)) ? bucket : null;
}
/*----------------------------------------------------------------------------------------------------------------*/
function Hashtable(hashingFunctionParam, equalityFunctionParam) {
var that = this;
var buckets = [];
var bucketsByHash = {};
var hashingFunction = (typeof hashingFunctionParam == FUNCTION) ? hashingFunctionParam : hashObject;
var equalityFunction = (typeof equalityFunctionParam == FUNCTION) ? equalityFunctionParam : null;
this.put = function (key, value) {
checkKey(key);
checkValue(value);
var hash = hashingFunction(key),
bucket, bucketEntry, oldValue = null;
// Check if a bucket exists for the bucket key
bucket = getBucketForHash(bucketsByHash, hash);
if (bucket) {
// Check this bucket to see if it already contains this key
bucketEntry = bucket.getEntryForKey(key);
if (bucketEntry) {
// This bucket entry is the current mapping of key to value, so replace old value and we're done.
oldValue = bucketEntry[1];
bucketEntry[1] = value;
} else {
// The bucket does not contain an entry for this key, so add one
bucket.addEntry(key, value);
}
} else {
// No bucket exists for the key, so create one and put our key/value mapping in
bucket = new Bucket(hash, key, value, equalityFunction);
buckets[buckets.length] = bucket;
bucketsByHash[hash] = bucket;
}
return oldValue;
};
this.get = function (key) {
checkKey(key);
var hash = hashingFunction(key);
// Check if a bucket exists for the bucket key
var bucket = getBucketForHash(bucketsByHash, hash);
if (bucket) {
// Check this bucket to see if it contains this key
var bucketEntry = bucket.getEntryForKey(key);
if (bucketEntry) {
// This bucket entry is the current mapping of key to value, so return the value.
return bucketEntry[1];
}
}
return null;
};
this.containsKey = function (key) {
checkKey(key);
var bucketKey = hashingFunction(key);
// Check if a bucket exists for the bucket key
var bucket = getBucketForHash(bucketsByHash, bucketKey);
return bucket ? bucket.containsKey(key) : false;
};
this.containsValue = function (value) {
checkValue(value);
var i = buckets.length;
while (i--) {
if (buckets[i].containsValue(value)) {
return true;
}
}
return false;
};
this.clear = function () {
buckets.length = 0;
bucketsByHash = {};
};
this.isEmpty = function () {
return !buckets.length;
};
var createBucketAggregator = function (bucketFuncName) {
return function () {
var aggregated = [],
i = buckets.length;
while (i--) {
buckets[i][bucketFuncName](aggregated);
}
return aggregated;
};
};
this.keys = createBucketAggregator("keys");
this.values = createBucketAggregator("values");
this.entries = createBucketAggregator("getEntries");
this.remove = function (key) {
checkKey(key);
var hash = hashingFunction(key),
bucketIndex, oldValue = null;
// Check if a bucket exists for the bucket key
var bucket = getBucketForHash(bucketsByHash, hash);
if (bucket) {
// Remove entry from this bucket for this key
oldValue = bucket.removeEntryForKey(key);
if (oldValue !== null) {
// Entry was removed, so check if bucket is empty
if (!bucket.entries.length) {
// Bucket is empty, so remove it from the bucket collections
bucketIndex = searchBuckets(buckets, hash);
arrayRemoveAt(buckets, bucketIndex);
delete bucketsByHash[hash];
}
}
}
return oldValue;
};
this.size = function () {
var total = 0,
i = buckets.length;
while (i--) {
total += buckets[i].entries.length;
}
return total;
};
this.each = function (callback) {
var entries = that.entries(),
i = entries.length,
entry;
while (i--) {
entry = entries[i];
callback(entry[0], entry[1]);
}
};
this.putAll = function (hashtable, conflictCallback) {
var entries = hashtable.entries();
var entry, key, value, thisValue, i = entries.length;
var hasConflictCallback = (typeof conflictCallback == FUNCTION);
while (i--) {
entry = entries[i];
key = entry[0];
value = entry[1];
// Check for a conflict. The default behaviour is to overwrite the value for an existing key
if (hasConflictCallback && (thisValue = that.get(key))) {
value = conflictCallback(key, thisValue, value);
}
that.put(key, value);
}
};
this.clone = function () {
var clone = new Hashtable(hashingFunctionParam, equalityFunctionParam);
clone.putAll(that);
return clone;
};
}
return Hashtable;
})();
/**
* jquery.numberformatter - Formatting/Parsing Numbers in jQuery
* @version 1.2.3-SNAPSHOT
**/
(function (jQuery) {
var nfLocales = new Hashtable();
var nfLocalesLikeUS = ['ae', 'au', 'ca', 'cn', 'eg', 'gb', 'hk', 'il', 'in', 'jp', 'sk', 'th', 'tw', 'us'];
var nfLocalesLikeDE = ['at', 'br', 'de', 'dk', 'es', 'gr', 'it', 'nl', 'pt', 'tr', 'vn'];
var nfLocalesLikeFR = ['cz', 'fi', 'fr', 'ru', 'se', 'pl'];
var nfLocalesLikeCH = ['ch'];
var nfLocaleFormatting = [
[".", ","],
[",", "."],
[",", " "],
[".", "'"]
];
var nfAllLocales = [nfLocalesLikeUS, nfLocalesLikeDE, nfLocalesLikeFR, nfLocalesLikeCH]
function FormatData(dec, group, neg) {
this.dec = dec;
this.group = group;
this.neg = neg;
};
function init() {
// write the arrays into the hashtable
for (var localeGroupIdx = 0; localeGroupIdx < nfAllLocales.length; localeGroupIdx++) {
localeGroup = nfAllLocales[localeGroupIdx];
for (var i = 0; i < localeGroup.length; i++) {
nfLocales.put(localeGroup[i], localeGroupIdx);
}
}
};
function formatCodes(locale, isFullLocale) {
if (nfLocales.size() == 0)
init();
// default values
var dec = ".";
var group = ",";
var neg = "-";
if (isFullLocale == false) {
// Extract and convert to lower-case any language code from a real 'locale' formatted string, if not use as-is
// (To prevent locale format like : "fr_FR", "en_US", "de_DE", "fr_FR", "en-US", "de-DE")
if (locale.indexOf('_') != -1)
locale = locale.split('_')[1].toLowerCase();
else if (locale.indexOf('-') != -1)
locale = locale.split('-')[1].toLowerCase();
}
// hashtable lookup to match locale with codes
var codesIndex = nfLocales.get(locale);
if (codesIndex) {
var codes = nfLocaleFormatting[codesIndex];
if (codes) {
dec = codes[0];
group = codes[1];
}
}
return new FormatData(dec, group, neg);
};
/* Formatting Methods */
/**
* Formats anything containing a number in standard js number notation.
*
* @param {Object} options The formatting options to use
* @param {Boolean} writeBack (true) If the output value should be written back to the subject
* @param {Boolean} giveReturnValue (true) If the function should return the output string
*/
jQuery.fn.formatNumber = function (options, writeBack, giveReturnValue) {
return this.each(function () {
// enforce defaults
if (writeBack == null)
writeBack = true;
if (giveReturnValue == null)
giveReturnValue = true;
// get text
var text;
if (jQuery(this).is(":input"))
text = new String(jQuery(this).val());
else
text = new String(jQuery(this).text());
// format
var returnString = jQuery.formatNumber(text, options);
// set formatted string back, only if a success
// if (returnString) {
if (writeBack) {
if (jQuery(this).is(":input"))
jQuery(this).val(returnString);
else
jQuery(this).text(returnString);
}
if (giveReturnValue)
return returnString;
// }
// return '';
});
};
/**
* First parses a string and reformats it with the given options.
*
* @param {Object} numberString
* @param {Object} options
*/
jQuery.formatNumber = function (numberString, options) {
var options = jQuery.extend({}, jQuery.fn.formatNumber.defaults, options);
var formatData = formatCodes(options.locale.toLowerCase(), options.isFullLocale);
var dec = formatData.dec;
var group = formatData.group;
var neg = formatData.neg;
var validFormat = "0#-,.";
// strip all the invalid characters at the beginning and the end
// of the format, and we'll stick them back on at the end
// make a special case for the negative sign "-" though, so
// we can have formats like -$23.32
var prefix = "";
var negativeInFront = false;
for (var i = 0; i < options.format.length; i++) {
if (validFormat.indexOf(options.format.charAt(i)) == -1)
prefix = prefix + options.format.charAt(i);
else
if (i == 0 && options.format.charAt(i) == '-') {
negativeInFront = true;
continue;
} else
break;
}
var suffix = "";
for (var i = options.format.length - 1; i >= 0; i--) {
if (validFormat.indexOf(options.format.charAt(i)) == -1)
suffix = options.format.charAt(i) + suffix;
else
break;
}
options.format = options.format.substring(prefix.length);
options.format = options.format.substring(0, options.format.length - suffix.length);
// now we need to convert it into a number
//while (numberString.indexOf(group) > -1)
// numberString = numberString.replace(group, '');
//var number = new Number(numberString.replace(dec, ".").replace(neg, "-"));
var number = new Number(numberString);
return jQuery._formatNumber(number, options, suffix, prefix, negativeInFront);
};
/**
* Formats a Number object into a string, using the given formatting options
*
* @param {Object} numberString
* @param {Object} options
*/
jQuery._formatNumber = function (number, options, suffix, prefix, negativeInFront) {
var options = jQuery.extend({}, jQuery.fn.formatNumber.defaults, options);
var formatData = formatCodes(options.locale.toLowerCase(), options.isFullLocale);
var dec = formatData.dec;
var group = formatData.group;
var neg = formatData.neg;
var forcedToZero = false;
if (isNaN(number)) {
if (options.nanForceZero == true) {
number = 0;
forcedToZero = true;
} else
return null;
}
// special case for percentages
if (suffix == "%")
number = number * 100;
var returnString = "";
if (options.format.indexOf(".") > -1) {
var decimalPortion = dec;
var decimalFormat = options.format.substring(options.format.lastIndexOf(".") + 1);
// round or truncate number as needed
if (options.round == true)
number = new Number(number.toFixed(decimalFormat.length));
else {
var numStr = number.toString();
numStr = numStr.substring(0, numStr.lastIndexOf('.') + decimalFormat.length + 1);
number = new Number(numStr);
}
var decimalValue = number % 1;
var decimalString = new String(decimalValue.toFixed(decimalFormat.length));
decimalString = decimalString.substring(decimalString.lastIndexOf(".") + 1);
for (var i = 0; i < decimalFormat.length; i++) {
if (decimalFormat.charAt(i) == '#' && decimalString.charAt(i) != '0') {
decimalPortion += decimalString.charAt(i);
continue;
} else if (decimalFormat.charAt(i) == '#' && decimalString.charAt(i) == '0') {
var notParsed = decimalString.substring(i);
if (notParsed.match('[1-9]')) {
decimalPortion += decimalString.charAt(i);
continue;
} else
break;
} else if (decimalFormat.charAt(i) == "0")
decimalPortion += decimalString.charAt(i);
}
returnString += decimalPortion
} else
number = Math.round(number);
var ones = Math.floor(number);
if (number < 0)
ones = Math.ceil(number);
var onesFormat = "";
if (options.format.indexOf(".") == -1)
onesFormat = options.format;
else
onesFormat = options.format.substring(0, options.format.indexOf("."));
var onePortion = "";
if (!(ones == 0 && onesFormat.substr(onesFormat.length - 1) == '#') || forcedToZero) {
// find how many digits are in the group
var oneText = new String(Math.abs(ones));
var groupLength = 9999;
if (onesFormat.lastIndexOf(",") != -1)
groupLength = onesFormat.length - onesFormat.lastIndexOf(",") - 1;
var groupCount = 0;
for (var i = oneText.length - 1; i > -1; i--) {
onePortion = oneText.charAt(i) + onePortion;
groupCount++;
if (groupCount == groupLength && i != 0) {
onePortion = group + onePortion;
groupCount = 0;
}
}
// account for any pre-data padding
if (onesFormat.length > onePortion.length) {
var padStart = onesFormat.indexOf('0');
if (padStart != -1) {
var padLen = onesFormat.length - padStart;
// pad to left with 0's or group char
var pos = onesFormat.length - onePortion.length - 1;
while (onePortion.length < padLen) {
var padChar = onesFormat.charAt(pos);
// replace with real group char if needed
if (padChar == ',')
padChar = group;
onePortion = padChar + onePortion;
pos--;
}
}
}
}
if (!onePortion && onesFormat.indexOf('0', onesFormat.length - 1) !== -1)
onePortion = '0';
returnString = onePortion + returnString;
// handle special case where negative is in front of the invalid characters
if (number < 0 && negativeInFront && prefix.length > 0)
prefix = neg + prefix;
else if (number < 0)
returnString = neg + returnString;
if (!options.decimalSeparatorAlwaysShown) {
if (returnString.lastIndexOf(dec) == returnString.length - 1) {
returnString = returnString.substring(0, returnString.length - 1);
}
}
returnString = prefix + returnString + suffix;
return returnString;
};
/* Parsing Methods */
/**
* Parses a number of given format from the element and returns a Number object.
* @param {Object} options
*/
jQuery.fn.parseNumber = function (options, writeBack, giveReturnValue) {
// enforce defaults
if (writeBack == null)
writeBack = true;
if (giveReturnValue == null)
giveReturnValue = true;
// get text
var text;
if (jQuery(this).is(":input"))
text = new String(jQuery(this).val());
else
text = new String(jQuery(this).text());
// parse text
var number = jQuery.parseNumber(text, options);
if (number) {
if (writeBack) {
if (jQuery(this).is(":input"))
jQuery(this).val(number.toString());
else
jQuery(this).text(number.toString());
}
if (giveReturnValue)
return number;
}
};
/**
* Parses a string of given format into a Number object.
*
* @param {Object} string
* @param {Object} options
*/
jQuery.parseNumber = function (numberString, options) {
var options = jQuery.extend({}, jQuery.fn.parseNumber.defaults, options);
var formatData = formatCodes(options.locale.toLowerCase(), options.isFullLocale);
var dec = formatData.dec;
var group = formatData.group;
var neg = formatData.neg;
var valid = "1234567890.-";
// now we need to convert it into a number
while (numberString.indexOf(group) > -1)
numberString = numberString.replace(group, '');
numberString = numberString.replace(dec, ".").replace(neg, "-");
var validText = "";
var hasPercent = false;
if (numberString.charAt(numberString.length - 1) == "%" || options.isPercentage == true)
hasPercent = true;
for (var i = 0; i < numberString.length; i++) {
if (valid.indexOf(numberString.charAt(i)) > -1)
validText = validText + numberString.charAt(i);
}
var number = new Number(validText);
if (hasPercent) {
number = number / 100;
var decimalPos = validText.indexOf('.');
if (decimalPos != -1) {
var decimalPoints = validText.length - decimalPos - 1;
number = number.toFixed(decimalPoints + 2);
} else {
number = number.toFixed(validText.length - 1);
}
}
return number;
};
jQuery.fn.parseNumber.defaults = {
locale: "us",
decimalSeparatorAlwaysShown: false,
isPercentage: false,
isFullLocale: false
};
jQuery.fn.formatNumber.defaults = {
format: "#,###.00",
locale: "us",
decimalSeparatorAlwaysShown: false,
nanForceZero: true,
round: true,
isFullLocale: false
};
Number.prototype.toFixed = function (precision) {
return jQuery._roundNumber(this, precision);
};
jQuery._roundNumber = function (number, decimalPlaces) {
var power = Math.pow(10, decimalPlaces || 0);
var value = String(Math.round(number * power) / power);
// ensure the decimal places are there
if (decimalPlaces > 0) {
var dp = value.indexOf(".");
if (dp == -1) {
value += '.';
dp = 0;
} else {
dp = value.length - (dp + 1);
}
while (dp < decimalPlaces) {
value += '0';
dp++;
}
}
return value;
};
})(jQuery);
/**
* tmpl - Simple JavaScript Templating
**/
(function () {
var cache = {};
this.tmpl = function tmpl(str, data) {
// Figure out if we're getting a template, or if we need to
// load the template - and be sure to cache the result.
var fn = !/\W/.test(str) ?
cache[str] = cache[str] ||
tmpl(document.getElementById(str).innerHTML) :
// Generate a reusable function that will serve as a template
// generator (and which will be cached).
new Function("obj",
"var p=[],print=function(){p.push.apply(p,arguments);};" +
// Introduce the data as local variables using with(){}
"with(obj){p.push('" +
// Convert the template into pure JavaScript
str
.replace(/[\r\t\n]/g, " ")
.split("<%").join("\t")
.replace(/((^|%>)[^\t]*)'/g, "$1\r")
.replace(/\t=(.*?)%>/g, "',$1,'")
.split("\t").join("');")
.split("%>").join("p.push('")
.split("\r").join("\\'") + "');}return p.join('');");
// Provide some basic currying to the user
return data ? fn(data) : fn;
};
})();
/**
* draggable
**/
(function ($) {
function Draggable() {
this._init.apply(this, arguments);
};
Draggable.prototype.oninit = function () {
};
Draggable.prototype.events = function () {
};
Draggable.prototype.onmousedown = function () {
this.ptr.css({
position: "absolute"
});
};
Draggable.prototype.onmousemove = function (evt, x, y) {
this.ptr.css({
left: x,
top: y
});
};
Draggable.prototype.onmouseup = function () {
};
Draggable.prototype.isDefault = {
drag: false,
clicked: false,
toclick: true,
mouseup: false
};
Draggable.prototype._init = function () {
if (arguments.length > 0) {
this.ptr = $(arguments[0]);
this.outer = $(".draggable-outer");
this.is = {};
$.extend(this.is, this.isDefault);
var _offset = this.ptr.offset();
this.d = {
left: _offset.left,
top: _offset.top,
width: this.ptr.width(),
height: this.ptr.height()
};
this.oninit.apply(this, arguments);
this._events();
}
};
Draggable.prototype._getPageCoords = function (event) {
if (event.targetTouches && event.targetTouches[0]) {
return {
x: event.targetTouches[0].pageX,
y: event.targetTouches[0].pageY
};
} else
return {
x: event.pageX,
y: event.pageY
};
};
Draggable.prototype._bindEvent = function (ptr, eventType, handler) {
var self = this;
if (this.supportTouches_)
ptr.get(0).addEventListener(this.events_[eventType], handler, false);
else
ptr.bind(this.events_[eventType], handler);
};
Draggable.prototype._events = function () {
var self = this;
this.supportTouches_ = 'ontouchend' in document;
this.events_ = {
"click": this.supportTouches_ ? "touchstart" : "click",
"down": this.supportTouches_ ? "touchstart" : "mousedown",
"move": this.supportTouches_ ? "touchmove" : "mousemove",
"up": this.supportTouches_ ? "touchend" : "mouseup"
};
this._bindEvent($(document), "move", function (event) {
if (self.is.drag) {
event.stopPropagation();
event.preventDefault();
self._mousemove(event);
}
});
this._bindEvent($(document), "down", function (event) {
if (self.is.drag) {
event.stopPropagation();
event.preventDefault();
}
});
this._bindEvent($(document), "up", function (event) {
self._mouseup(event);
});
this._bindEvent(this.ptr, "down", function (event) {
self._mousedown(event);
return false;
});
this._bindEvent(this.ptr, "up", function (event) {
self._mouseup(event);
});
this.ptr.find("a")
.click(function () {
self.is.clicked = true;
if (!self.is.toclick) {
self.is.toclick = true;
return false;
}
})
.mousedown(function (event) {
self._mousedown(event);
return false;
});
this.events();
};
Draggable.prototype._mousedown = function (evt) {
this.is.drag = true;
this.is.clicked = false;
this.is.mouseup = false;
var _offset = this.ptr.offset();
var coords = this._getPageCoords(evt);
this.cx = coords.x - _offset.left;
this.cy = coords.y - _offset.top;
$.extend(this.d, {
left: _offset.left,
top: _offset.top,
width: this.ptr.width(),
height: this.ptr.height()
});
if (this.outer && this.outer.get(0)) {
this.outer.css({
height: Math.max(this.outer.height(), $(document.body).height()),
overflow: "hidden"
});
}
this.onmousedown(evt);
};
Draggable.prototype._mousemove = function (evt) {
this.is.toclick = false;
var coords = this._getPageCoords(evt);
this.onmousemove(evt, coords.x - this.cx, coords.y - this.cy);
};
Draggable.prototype._mouseup = function (evt) {
var oThis = this;
if (this.is.drag) {
this.is.drag = false;
if (this.outer && this.outer.get(0)) {
if ($.browser.mozilla) {
this.outer.css({
overflow: "hidden"
});
} else {
this.outer.css({
overflow: "visible"
});
}
if ($.browser.msie && $.browser.version == '6.0') {
this.outer.css({
height: "100%"
});
} else {
this.outer.css({
height: "auto"
});
}
}
this.onmouseup(evt);
}
};
window.Draggable = Draggable;
})(jQuery);
/**
* jquery.dependClass
**/
(function ($) {
$.baseClass = function (obj) {
obj = $(obj);
return obj.get(0).className.match(/([^ ]+)/)[1];
};
$.fn.addDependClass = function (className, delimiter) {
var options = {
delimiter: delimiter ? delimiter : '-'
}
return this.each(function () {
var baseClass = $.baseClass(this);
if (baseClass)
$(this).addClass(baseClass + options.delimiter + className);
});
};
$.fn.removeDependClass = function (className, delimiter) {
var options = {
delimiter: delimiter ? delimiter : '-'
}
return this.each(function () {
var baseClass = $.baseClass(this);
if (baseClass)
$(this).removeClass(baseClass + options.delimiter + className);
});
};
$.fn.toggleDependClass = function (className, delimiter) {
var options = {
delimiter: delimiter ? delimiter : '-'
}
return this.each(function () {
var baseClass = $.baseClass(this);
if (baseClass)
if ($(this).is("." + baseClass + options.delimiter + className))
$(this).removeClass(baseClass + options.delimiter + className);
else
$(this).addClass(baseClass + options.delimiter + className);
});
};
})(jQuery);
/**
* jslider
**/
(function ($) {
function isArray(value) {
if (typeof value == "undefined") return false;
if (value instanceof Array || (!(value instanceof Object) &&
(Object.prototype.toString.call((value)) == '[object Array]') ||
typeof value.length == 'number' &&
typeof value.splice != 'undefined' &&
typeof value.propertyIsEnumerable != 'undefined' && !value.propertyIsEnumerable('splice'))) {
return true;
}
return false;
}
$.slider = function (node, settings) {
var jNode = $(node);
if (!jNode.data("jslider"))
jNode.data("jslider", new jSlider(node, settings));
return jNode.data("jslider");
};
$.fn.slider = function (action, opt_value) {
var returnValue, args = arguments;
function isDef(val) {
return val !== undefined;
};
function isDefAndNotNull(val) {
return val != null;
};
this.each(function () {
var self = $.slider(this, action);
// do actions
if (typeof action == "string") {
switch (action) {
case "value":
if (isDef(args[1]) && isDef(args[2])) {
var pointers = self.getPointers();
if (isDefAndNotNull(pointers[0]) && isDefAndNotNull(args[1])) {
pointers[0].set(args[1]);
pointers[0].setIndexOver();
}
if (isDefAndNotNull(pointers[1]) && isDefAndNotNull(args[2])) {
pointers[1].set(args[2]);
pointers[1].setIndexOver();
}
} else if (isDef(args[1])) {
var pointers = self.getPointers();
if (isDefAndNotNull(pointers[0]) && isDefAndNotNull(args[1])) {
pointers[0].set(args[1]);
pointers[0].setIndexOver();
}
} else
returnValue = self.getValue();
break;
case "prc":
if (isDef(args[1]) && isDef(args[2])) {
var pointers = self.getPointers();
if (isDefAndNotNull(pointers[0]) && isDefAndNotNull(args[1])) {
pointers[0]._set(args[1]);
pointers[0].setIndexOver();
}
if (isDefAndNotNull(pointers[1]) && isDefAndNotNull(args[2])) {
pointers[1]._set(args[2]);
pointers[1].setIndexOver();
}
} else if (isDef(args[1])) {
var pointers = self.getPointers();
if (isDefAndNotNull(pointers[0]) && isDefAndNotNull(args[1])) {
pointers[0]._set(args[1]);
pointers[0].setIndexOver();
}
} else
returnValue = self.getPrcValue();
break;
case "calculatedValue":
var value = self.getValue().split(";");
returnValue = "";
for (var i = 0; i < value.length; i++) {
returnValue += (i > 0 ? ";" : "") + self.nice(value[i]);
};
break;
case "skin":
self.setSkin(args[1]);
break;
};
}
// return actual object
else if (!action && !opt_value) {
if (!isArray(returnValue))
returnValue = [];
returnValue.push(self);
}
});
// flatten array just with one slider
if (isArray(returnValue) && returnValue.length == 1)
returnValue = returnValue[0];
return returnValue || this;
};
var OPTIONS = {
settings: {
from: 1,
to: 10,
step: 1,
smooth: true,
limits: true,
round: 0,
format: {
format: "#,##0.##"
},
value: "5;7",
dimension: ""
},
className: "jslider",
selector: ".jslider-",
template: tmpl(
'<span class="<%=className%>">' +
'<table><tr><td>' +
'<div class="<%=className%>-bg">' +
'<i class="l"></i><i class="f"></i><i class="r"></i>' +
'<i class="v"></i>' +
'</div>' +
'<div class="<%=className%>-pointer"></div>' +
'<div class="<%=className%>-pointer <%=className%>-pointer-to"></div>' +
'<div class="<%=className%>-label"><span><%=settings.from%></span></div>' +
'<div class="<%=className%>-label <%=className%>-label-to"><%=settings.dimension%><span><%=settings.to%></span></div>' +
'<div class="<%=className%>-value"><%=settings.dimension%><span></span></div>' +
'<div class="<%=className%>-value <%=className%>-value-to"><%=settings.dimension%><span></span></div>' +
'<div class="<%=className%>-scale"><%=scale%></div>' +
'</td></tr></table>' +
'</span>')
};
function jSlider() {
return this.init.apply(this, arguments);
};
jSlider.prototype.init = function (node, settings) {
this.settings = $.extend(true, {}, OPTIONS.settings, settings ? settings : {});
// obj.sliderHandler = this;
this.inputNode = $(node).hide();
this.settings.interval = this.settings.to - this.settings.from;
this.settings.value = this.inputNode.attr("value");
if (this.settings.calculate && $.isFunction(this.settings.calculate))
this.nice = this.settings.calculate;
if (this.settings.onstatechange && $.isFunction(this.settings.onstatechange))
this.onstatechange = this.settings.onstatechange;
this.is = {
init: false
};
this.o = {};
this.create();
};
jSlider.prototype.onstatechange = function () {
};
jSlider.prototype.create = function () {
var $this = this;
this.domNode = $(OPTIONS.template({
className: OPTIONS.className,
settings: {
from: this.nice(this.settings.from),
to: this.nice(this.settings.to),
dimension: this.settings.dimension
},
scale: this.generateScale()
}));
this.inputNode.after(this.domNode);
this.drawScale();
// set skin class
if (this.settings.skin && this.settings.skin.length > 0)
this.setSkin(this.settings.skin);
this.sizes = {
domWidth: this.domNode.width(),
domOffset: this.domNode.offset()
};
// find some objects
$.extend(this.o, {
pointers: {},
labels: {
0: {
o: this.domNode.find(OPTIONS.selector + "value").not(OPTIONS.selector + "value-to")
},
1: {
o: this.domNode.find(OPTIONS.selector + "value").filter(OPTIONS.selector + "value-to")
}
},
limits: {
0: this.domNode.find(OPTIONS.selector + "label").not(OPTIONS.selector + "label-to"),
1: this.domNode.find(OPTIONS.selector + "label").filter(OPTIONS.selector + "label-to")
}
});
$.extend(this.o.labels[0], {
value: this.o.labels[0].o.find("span")
});
$.extend(this.o.labels[1], {
value: this.o.labels[1].o.find("span")
});
if (!$this.settings.value.split(";")[1]) {
this.settings.single = true;
this.domNode.addDependClass("single");
}
if (!$this.settings.limits)
this.domNode.addDependClass("limitless");
this.domNode.find(OPTIONS.selector + "pointer").each(function (i) {
var value = $this.settings.value.split(";")[i];
if (value) {
$this.o.pointers[i] = new jSliderPointer(this, i, $this);
var prev = $this.settings.value.split(";")[i - 1];
if (prev && new Number(value) < new Number(prev)) value = prev;
value = value < $this.settings.from ? $this.settings.from : value;
value = value > $this.settings.to ? $this.settings.to : value;
$this.o.pointers[i].set(value, true);
}
});
this.o.value = this.domNode.find(".v");
this.is.init = true;
$.each(this.o.pointers, function (i) {
$this.redraw(this);
});
(function (self) {
$(window).resize(function () {
self.onresize();
});
})(this);
};
jSlider.prototype.setSkin = function (skin) {
if (this.skin_)
this.domNode.removeDependClass(this.skin_, "_");
this.domNode.addDependClass(this.skin_ = skin, "_");
};
jSlider.prototype.setPointersIndex = function (i) {
$.each(this.getPointers(), function (i) {
this.index(i);
});
};
jSlider.prototype.getPointers = function () {
return this.o.pointers;
};
jSlider.prototype.generateScale = function () {
if (this.settings.scale && this.settings.scale.length > 0) {
var str = "";
var s = this.settings.scale;
var prc = Math.round((100 / (s.length - 1)) * 10) / 10;
for (var i = 0; i < s.length; i++) {
str += '<span style="left: ' + i * prc + '%">' + (s[i] != '|' ? '<ins>' + s[i] + '</ins>' : '') + '</span>';
};
return str;
} else return "";
return "";
};
jSlider.prototype.drawScale = function () {
this.domNode.find(OPTIONS.selector + "scale span ins").each(function () {
$(this).css({
marginLeft: -$(this).outerWidth() / 2
});
});
};
jSlider.prototype.onresize = function () {
var self = this;
this.sizes = {
domWidth: this.domNode.width(),
domOffset: this.domNode.offset()
};
$.each(this.o.pointers, function (i) {
self.redraw(this);
});
};
jSlider.prototype.update = function () {
this.onresize();
this.drawScale();
};
jSlider.prototype.limits = function (x, pointer) {
// smooth
if (!this.settings.smooth) {
var step = this.settings.step * 100 / (this.settings.interval);
x = Math.round(x / step) * step;
}
var another = this.o.pointers[1 - pointer.uid];
if (another && pointer.uid && x < another.value.prc) x = another.value.prc;
if (another && !pointer.uid && x > another.value.prc) x = another.value.prc;
// base limit
if (x < 0) x = 0;
if (x > 100) x = 100;
return Math.round(x * 10) / 10;
};
jSlider.prototype.redraw = function (pointer) {
if (!this.is.init) return false;
this.setValue();
// redraw range line
if (this.o.pointers[0] && this.o.pointers[1])
this.o.value.css({
left: this.o.pointers[0].value.prc + "%",
width: (this.o.pointers[1].value.prc - this.o.pointers[0].value.prc) + "%"
});
this.o.labels[pointer.uid].value.html(
this.nice(
pointer.value.origin));
// redraw position of labels
this.redrawLabels(pointer);
};
jSlider.prototype.redrawLabels = function (pointer) {
function setPosition(label, sizes, prc) {
sizes.margin = -sizes.label / 2;
// left limit
label_left = sizes.border + sizes.margin;
if (label_left < 0)
sizes.margin -= label_left;
// right limit
if (sizes.border + sizes.label / 2 > self.sizes.domWidth) {
sizes.margin = 0;
sizes.right = true;
} else
sizes.right = false;
label.o.css({
left: prc + "%",
marginLeft: sizes.margin,
right: "auto"
});
if (sizes.right) label.o.css({
left: "auto",
right: 0
});
return sizes;
}
var self = this;
var label = this.o.labels[pointer.uid];
var prc = pointer.value.prc;
var sizes = {
label: label.o.outerWidth(),
right: false,
border: (prc * this.sizes.domWidth) / 100
};
if (!this.settings.single) {
// glue if near;
var another = this.o.pointers[1 - pointer.uid];
var another_label = this.o.labels[another.uid];
switch (pointer.uid) {
case 0:
if (sizes.border + sizes.label / 2 > another_label.o.offset().left - this.sizes.domOffset.left) {
another_label.o.css({
visibility: "hidden"
});
another_label.value.html(this.nice(another.value.origin));
label.o.css({
visibility: "visible"
});
prc = (another.value.prc - prc) / 2 + prc;
if (another.value.prc != pointer.value.prc) {
label.value.html(this.nice(pointer.value.origin) + " – " + this.nice(another.value.origin));
sizes.label = label.o.outerWidth();
sizes.border = (prc * this.sizes.domWidth) / 100;
}
} else {
another_label.o.css({
visibility: "visible"
});
}
break;
case 1:
if (sizes.border - sizes.label / 2 < another_label.o.offset().left - this.sizes.domOffset.left + another_label.o.outerWidth()) {
another_label.o.css({
visibility: "hidden"
});
another_label.value.html(this.nice(another.value.origin));
label.o.css({
visibility: "visible"
});
prc = (prc - another.value.prc) / 2 + another.value.prc;
if (another.value.prc != pointer.value.prc) {
label.value.html(this.nice(another.value.origin) + " – " + this.nice(pointer.value.origin));
sizes.label = label.o.outerWidth();
sizes.border = (prc * this.sizes.domWidth) / 100;
}
} else {
another_label.o.css({
visibility: "visible"
});
}
break;
}
}
sizes = setPosition(label, sizes, prc);
/* draw second label */
if (another_label) {
var sizes = {
label: another_label.o.outerWidth(),
right: false,
border: (another.value.prc * this.sizes.domWidth) / 100
};
sizes = setPosition(another_label, sizes, another.value.prc);
}
this.redrawLimits();
};
jSlider.prototype.redrawLimits = function () {
if (this.settings.limits) {
var limits = [true, true];
for (key in this.o.pointers) {
if (!this.settings.single || key == 0) {
var pointer = this.o.pointers[key];
var label = this.o.labels[pointer.uid];
var label_left = label.o.offset().left - this.sizes.domOffset.left;
var limit = this.o.limits[0];
if (label_left < limit.outerWidth())
limits[0] = false;
var limit = this.o.limits[1];
if (label_left + label.o.outerWidth() > this.sizes.domWidth - limit.outerWidth())
limits[1] = false;
}
};
for (var i = 0; i < limits.length; i++) {
if (limits[i])
this.o.limits[i].fadeIn("fast");
else
this.o.limits[i].fadeOut("fast");
};
}
};
jSlider.prototype.setValue = function () {
var value = this.getValue();
this.inputNode.attr("value", value);
this.onstatechange.call(this, value);
};
jSlider.prototype.getValue = function () {
if (!this.is.init) return false;
var $this = this;
var value = "";
$.each(this.o.pointers, function (i) {
if (this.value.prc != undefined && !isNaN(this.value.prc)) value += (i > 0 ? ";" : "") + $this.prcToValue(this.value.prc);
});
return value;
};
jSlider.prototype.getPrcValue = function () {
if (!this.is.init) return false;
var $this = this;
var value = "";
$.each(this.o.pointers, function (i) {
if (this.value.prc != undefined && !isNaN(this.value.prc)) value += (i > 0 ? ";" : "") + this.value.prc;
});
return value;
};
jSlider.prototype.prcToValue = function (prc) {
if (this.settings.heterogeneity && this.settings.heterogeneity.length > 0) {
var h = this.settings.heterogeneity;
var _start = 0;
var _from = this.settings.from;
for (var i = 0; i <= h.length; i++) {
if (h[i]) var v = h[i].split("/");
else var v = [100, this.settings.to];
v[0] = new Number(v[0]);
v[1] = new Number(v[1]);
if (prc >= _start && prc <= v[0]) {
var value = _from + ((prc - _start) * (v[1] - _from)) / (v[0] - _start);
}
_start = v[0];
_from = v[1];
};
} else {
var value = this.settings.from + (prc * this.settings.interval) / 100;
}
return this.round(value);
};
jSlider.prototype.valueToPrc = function (value, pointer) {
if (this.settings.heterogeneity && this.settings.heterogeneity.length > 0) {
var h = this.settings.heterogeneity;
var _start = 0;
var _from = this.settings.from;
for (var i = 0; i <= h.length; i++) {
if (h[i]) var v = h[i].split("/");
else var v = [100, this.settings.to];
v[0] = new Number(v[0]);
v[1] = new Number(v[1]);
if (value >= _from && value <= v[1]) {
var prc = pointer.limits(_start + (value - _from) * (v[0] - _start) / (v[1] - _from));
}
_start = v[0];
_from = v[1];
};
} else {
var prc = pointer.limits((value - this.settings.from) * 100 / this.settings.interval);
}
return prc;
};
jSlider.prototype.round = function (value) {
value = Math.round(value / this.settings.step) * this.settings.step;
if (this.settings.round) value = Math.round(value * Math.pow(10, this.settings.round)) / Math.pow(10, this.settings.round);
else value = Math.round(value);
return value;
};
jSlider.prototype.nice = function (value) {
value = value.toString().replace(/,/gi, ".").replace(/ /gi, "");;
if ($.formatNumber) {
return $.formatNumber(new Number(value), this.settings.format || {}).replace(/-/gi, "−");
} else {
return new Number(value);
}
};
function jSliderPointer() {
Draggable.apply(this, arguments);
}
jSliderPointer.prototype = new Draggable();
jSliderPointer.prototype.oninit = function (ptr, id, _constructor) {
this.uid = id;
this.parent = _constructor;
this.value = {};
this.settings = this.parent.settings;
};
jSliderPointer.prototype.onmousedown = function (evt) {
this._parent = {
offset: this.parent.domNode.offset(),
width: this.parent.domNode.width()
};
this.ptr.addDependClass("hover");
this.setIndexOver();
};
jSliderPointer.prototype.onmousemove = function (evt, x) {
var coords = this._getPageCoords(evt);
this._set(this.calc(coords.x));
};
jSliderPointer.prototype.onmouseup = function (evt) {
if (this.parent.settings.callback && $.isFunction(this.parent.settings.callback))
this.parent.settings.callback.call(this.parent, this.parent.getValue());
this.ptr.removeDependClass("hover");
};
jSliderPointer.prototype.setIndexOver = function () {
this.parent.setPointersIndex(1);
this.index(2);
};
jSliderPointer.prototype.index = function (i) {
this.ptr.css({
zIndex: i
});
};
jSliderPointer.prototype.limits = function (x) {
return this.parent.limits(x, this);
};
jSliderPointer.prototype.calc = function (coords) {
var x = this.limits(((coords - this._parent.offset.left) * 100) / this._parent.width);
return x;
};
jSliderPointer.prototype.set = function (value, opt_origin) {
this.value.origin = this.parent.round(value);
this._set(this.parent.valueToPrc(value, this), opt_origin);
};
jSliderPointer.prototype._set = function (prc, opt_origin) {
if (!opt_origin)
this.value.origin = this.parent.prcToValue(prc);
this.value.prc = prc;
this.ptr.css({
left: prc + "%"
});
this.parent.redraw(this);
};
})(jQuery);
|
048doutoraretina
|
trunk/js/jquery.slider.bundle.js
|
JavaScript
|
oos
| 58,158
|
var $ = jQuery;
// Topmenu <ul> replace to <select>
function responsive(mainNavigation) {
var $ = jQuery;
var screenRes = $('.body_wrap').width();
if (screenRes < 700) {
//jQuery('ul.dropdown').css('display', 'none');
/* Replace unordered list with a "select" element to be populated with options, and create a variable to select our new empty option menu */
$('#topmenu').html('<select class="select_styled" id="topm-select"></select>');
var selectMenu = $('#topm-select');
/* Navigate our nav clone for information needed to populate options */
$(mainNavigation).children('ul').children('li').each(function () {
/* Get top-level link and text */
var href = $(this).children('a').attr('href');
var text = $(this).children('a').text();
/* Append this option to our "select" */
if ($(this).is(".current-menu-item") && href != '#') {
$(selectMenu).append('<option value="' + href + '" selected>' + text + '</option>');
} else if (href == '#') {
$(selectMenu).append('<option value="' + href + '" disabled="disabled">' + text + '</option>');
} else {
$(selectMenu).append('<option value="' + href + '">' + text + '</option>');
}
/* Check for "children" and navigate for more options if they exist */
if ($(this).children('ul').length > 0) {
$(this).children('ul').children('li').not(".mega-nav-widget").each(function () {
/* Get child-level link and text */
var href2 = $(this).children('a').attr('href');
var text2 = $(this).children('a').text();
/* Append this option to our "select" */
if ($(this).is(".current-menu-item") && href2 != '#') {
$(selectMenu).append('<option value="'+href2+'" selected> - '+text2+'</option>');
} else if (href2 == '#') {
$(selectMenu).append('<option value="'+href2+'" disabled="disabled"># '+text2+'</option>');
} else {
$(selectMenu).append('<option value="'+href2+'"> - '+text2+'</option>');
}
/* Check for "children" and navigate for more options if they exist */
if ($(this).children('ul').length > 0) {
$(this).children('ul').children('li').each(function () {
/* Get child-level link and text */
var href3 = $(this).children('a').attr('href');
var text3 = $(this).children('a').text();
/* Append this option to our "select" */
if ($(this).is(".current-menu-item")) {
$(selectMenu).append('<option value="' + href3 + '" class="select-current" selected>' + text3 + '</option>');
} else {
$(selectMenu).append('<option value="' + href3 + '"> -- ' + text3 + '</option>');
}
});
}
});
}
});
} else {
jQuery('#topm-select').css('display', 'none');
jQuery('#menu-menu').css('display', 'inline-block');
}
/* When our select menu is changed, change the window location to match the value of the selected option. */
$(selectMenu).change(function () {
location = this.options[this.selectedIndex].value;
});
}
jQuery(document).ready(function($) {
// Remove links outline in IE 7
$("a").attr("hideFocus", "true").css("outline", "none");
// Styled MultiSelect (listbox of checkboxes)
if ($(".row").hasClass("field_multiselect")) {
$(".mutli_select").click (function() {
$(".cusel").removeClass("cuselOpen");
$(".cusel-scroll-wrap").hide();
$(this).parent().toggleClass("open");
$(this).children('.mutli_select_box').css({"width": $(this).width()-3}).jScrollPane({
showArrows: true,
mouseWheelSpeed: 15
});
});
$('body').click(function() {
$(".field_multiselect").removeClass("open");
});
$('.field_multiselect, .field_multiselect .select_row').click(function(event){
event.stopPropagation();
});
}
// style Select, Radio, Checkbox
if ($("select").hasClass("select_styled")) {
var deviceAgent = navigator.userAgent.toLowerCase();
var agentID = deviceAgent.match(/(iphone|ipod|ipad)/);
if (agentID) {
cuSel({changedEl: ".select_styled", visRows: 8, scrollArrows: true}); // Add arrows Up/Down for iPad/iPhone
} else {
cuSel({changedEl: ".select_styled", visRows: 8, scrollArrows: true});
}
}
if ($("div,p").hasClass("input_styled")) {
$(".input_styled input").customInput();
}
// centering dropdown submenu (not mega-nav)
$(".dropdown > li:not(.mega-nav)").hover(function(){
var dropDown = $(this).children("ul");
var dropDownLi = $(this).children().children("li").innerWidth();
var posLeft = ((dropDownLi - $(this).innerWidth())/2);
dropDown.css("left",-posLeft);
});
// reload topmenu on Resize
var mainNavigation = $('#topmenu').clone();
responsive(mainNavigation);
$(window).resize(function() {
var screenRes = $('.body_wrap').width();
responsive(mainNavigation);
});
// responsive megamenu
var screenRes = $(window).width();
if (screenRes < 750) {
$(".dropdown li.mega-nav").removeClass("mega-nav");
}
if (screenRes > 750) {
mega_show();
}
function mega_show(){
$('.dropdown li').hoverIntent({
sensitivity: 5,
interval: 50,
over: subm_show,
timeout: 0,
out: subm_hide
});
}
function subm_show(){
if ($(this).hasClass("parent")) {
$(this).addClass("parentHover");
};
$(this).children("ul.submenu-1").fadeIn(50);
}
function subm_hide(){
$(this).removeClass("parentHover");
$(this).children("ul.submenu-1").fadeOut(50);
}
$(".dropdown ul").parent("li").addClass("parent");
$(".dropdown li:first-child, .pricing_box li:first-child, .sidebar .widget-container:first-child, .f_col .widget-container:first-child").addClass("first");
$(".dropdown li:last-child, .pricing_box li:last-child, .widget_twitter .tweet_item:last-child, .sidebar .widget-container:last-child, .f_col .widget-container li:last-child").addClass("last");
$(".dropdown li:only-child").removeClass("last").addClass("only");
$(".sidebar .current-menu-item, .sidebar .current-menu-ancestor").prev().addClass("current-prev");
// tabs
if ($("ul").hasClass("tabs")) {
$("ul.tabs").tabs("> .tabcontent", {tabs: 'li', effect: 'fade'});
}
if ($("ul").is(".tabs.linked")) {
$("ul.tabs").tabs("> .tabcontent", {effect: 'fade'});
}
// odd/even
$("ul.recent_posts > li:odd, ul.popular_posts > li:odd, .styled_table table>tbody>tr:odd, .boxed_list > .boxed_item:odd, .grid_layout .post-item:odd").addClass("odd");
$(".widget_recent_comments ul > li:even, .widget_recent_entries li:even, .widget_twitter .tweet_item:even, .widget_archive ul > li:even, .widget_categories ul > li:even, .widget_nav_menu ul > li:even, .widget_links ul > li:even, .widget_meta ul > li:even, .widget_pages ul > li:even, .offer_specification li:even").addClass("even");
// cols
$(".row .col:first-child").addClass("alpha");
$(".row .col:last-child").addClass("omega");
// toggle content
$(".toggle_content").hide();
$(".toggle").toggle(function(){
$(this).addClass("active");
}, function () {
$(this).removeClass("active");
});
$(".toggle").click(function(){
$(this).next(".toggle_content").slideToggle(300,'easeInQuad');
});
// pricing
if (screenRes > 750) {
// style 2
$(".pricing_box ul").each(function () {
$(".pricing_box .price_col").css('width',$(".pricing_box ul").width() / $(".pricing_box .price_col").size() - 10);
});
var table_maxHeight = -1;
$('.price_item .price_col_body ul').each(function() {
table_maxHeight = table_maxHeight > $(this).height() ? table_maxHeight : $(this).height();
});
$('.price_item .price_col_body ul').each(function() {
$(this).height(table_maxHeight);
});
}
// buttons
$(".btn, .post-share a, .btn-submit").hover(function(){
$(this).stop().animate({"opacity": 0.80});
},function(){
$(this).stop().animate({"opacity": 1});
});
// Smooth Scroling of ID anchors
function filterPath(string) {
return string
.replace(/^\//,'')
.replace(/(index|default).[a-zA-Z]{3,4}$/,'')
.replace(/\/$/,'');
}
var locationPath = filterPath(location.pathname);
var scrollElem = scrollableElement('html', 'body');
$('a[href*=#].anchor').each(function() {
$(this).click(function(event) {
var thisPath = filterPath(this.pathname) || locationPath;
if ( locationPath == thisPath
&& (location.hostname == this.hostname || !this.hostname)
&& this.hash.replace(/#/,'') ) {
var $target = $(this.hash), target = this.hash;
if (target && $target.length != 0) {
var targetOffset = $target.offset().top;
event.preventDefault();
$(scrollElem).animate({scrollTop: targetOffset}, 400, function() {
location.hash = target;
});
}
}
});
});
// use the first element that is "scrollable"
function scrollableElement(els) {
for (var i = 0, argLength = arguments.length; i <argLength; i++) {
var el = arguments[i],
$scrollElement = $(el);
if ($scrollElement.scrollTop()> 0) {
return el;
} else {
$scrollElement.scrollTop(1);
var isScrollable = $scrollElement.scrollTop()> 0;
$scrollElement.scrollTop(0);
if (isScrollable) {
return el;
}
}
}
return [];
}
// prettyPhoto lightbox, check if <a> has atrr data-rel and hide for Mobiles
if($('a').is('[data-rel]') && screenRes > 600) {
$('a[data-rel]').each(function() {
$(this).attr('rel', $(this).data('rel'));
});
$("a[rel^='prettyPhoto']").prettyPhoto({social_tools:false});
}
});
$(window).load(function() {
var $=jQuery;
// mega dropdown menu
$('.dropdown .mega-nav > ul.submenu-1').each(function(){
var liItems = $(this);
var Sum = 0;
var liHeight = 0;
if (liItems.children('li').length > 1){
$(this).children('li').each(function(i, e){
Sum += $(e).outerWidth(true);
});
$(this).width(Sum);
liHeight = $(this).innerHeight();
$(this).children('li').css({"height":liHeight-30});
}
var posLeft = 0;
var halfSum = Sum/2;
var screenRes = $(window).width();
if (screenRes > 960) {
var mainWidth = 940; // width of main container to fit in.
} else {
var mainWidth = 744; // for iPad.
}
var parentWidth = $(this).parent().width();
var margLeft = $(this).parent().position();
margLeft = margLeft.left;
var margRight = mainWidth - margLeft - parentWidth;
var subCenter = halfSum - parentWidth/2;
if (margLeft >= halfSum && margRight >= halfSum) {
liItems.css("left",-subCenter);
} else if (margLeft<halfSum) {
liItems.css("left",-margLeft-1);
} else if (margRight<halfSum) {
posLeft = Sum - margRight - parentWidth - 10;
liItems.css("left",-posLeft);
}
});
});
|
048doutoraretina
|
trunk/js/general.js
|
JavaScript
|
oos
| 10,772
|
/**
* --------------------------------------------------------------------
* jQuery customInput plugin
* Author: Maggie Costello Wachs maggie@filamentgroup.com, Scott Jehl, scott@filamentgroup.com
* Copyright (c) 2009 Filament Group
* licensed under MIT (filamentgroup.com/examples/mit-license.txt)
* --------------------------------------------------------------------
*/
jQuery.fn.customInput = function() {
return $(this).each(function() {
if ($(this).is('[type=checkbox],[type=radio]')) {
var input = $(this);
// get the associated label using the input's id
var label = $('label[for="' + input.attr('id') + '"]');
// wrap the input + label in a div
input.add(label).wrapAll('<div class="custom-' + input.attr('type') + '"></div>');
// necessary for browsers that don't support the :hover pseudo class on labels
label.hover(function() {
$(this).addClass('hover');
}, function() {
$(this).removeClass('hover');
});
//bind custom event, trigger it, bind click,focus,blur events
input.bind('updateState', function() {
input.is(':checked') ? label.addClass('checked') : label.removeClass('checked checkedHover checkedFocus');
})
.trigger('updateState')
.click(function() {
$('input[name="' + $(this).attr('name') + '"]').trigger('updateState');
})
.focus(function() {
label.addClass('focus');
if (input.is(':checked')) {
$(this).addClass('checkedFocus');
}
})
.blur(function() {
label.removeClass('focus checkedFocus');
});
}
});
};
|
048doutoraretina
|
trunk/js/jquery.customInput.js
|
JavaScript
|
oos
| 1,859
|
jQuery(document).ready(function(){
tfuse_custom_form();
tfuse_feedback_form();
});
function tfuse_custom_form(){
var my_error;
var url = jQuery("input[name=temp_url]").attr('value');
jQuery("#send").bind("click", function(){
my_error = false;
jQuery(".ajax_form input, .ajax_form textarea, .ajax_form radio, .ajax_form select").each(function(i)
{
var surrounding_element = jQuery(this);
var value = jQuery(this).attr("value");
var check_for = jQuery(this).attr("id");
var required = jQuery(this).hasClass("required");
if(check_for == "email"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(!value.match(/^\w[\w|\.|\-]+@\w[\w|\.|\-]+\.[a-zA-Z]{2,4}$/)){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(check_for == "name"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == "" || value == "Name"){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(check_for == "message"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == "" || value == "Message"){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(check_for == "phone"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == "" || value == "Phone number"){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(required && check_for != "email" && check_for != "message" && check_for != "name" && check_for != "phone"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == ""){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(jQuery(".ajax_form input, .ajax_form textarea, .ajax_form radio, .ajax_form select").length == i+1){
if(my_error == false){
jQuery(".ajax_form").slideUp(400);
var $datastring = "ajax=true";
jQuery(".ajax_form input, .ajax_form textarea, .ajax_form radio, .ajax_form select").each(function(i)
{
var $name = jQuery(this).attr('name');
var $value = encodeURIComponent(jQuery(this).attr('value'));
$datastring = $datastring + "&" + $name + "=" + $value;
});
jQuery(".ajax_form #send").fadeOut(100);
jQuery.ajax({
type: "POST",
url: "./sendmail.php",
data: $datastring,
success: function(response){
jQuery(".ajax_form").before("<div class='ajaxresponse' style='display: none;'></div>");
jQuery(".ajaxresponse").html(response).slideDown(400);
jQuery(".ajax_form #send").fadeIn(400);
jQuery(".ajax_form input, .ajax_form textarea, .ajax_form radio, .ajax_form select").val("");
}
});
}
}
});
return false;
});
}
function tfuse_feedback_form(){
var my_error;
var url = jQuery("input[name=temp_url]").attr('value');
jQuery("#send_f").bind("click", function(){
my_error = false;
jQuery(".feedback_ajax_form input, .feedback_ajax_form textarea, .feedback_ajax_form radio, .feedback_ajax_form select").each(function(i)
{
var surrounding_element = jQuery(this);
var value = jQuery(this).attr("value");
var check_for = jQuery(this).attr("id");
var required = jQuery(this).hasClass("required");
if(check_for == "email_f"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(!value.match(/^\w[\w|\.|\-]+@\w[\w|\.|\-]+\.[a-zA-Z]{2,4}$/)){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(check_for == "name_f"){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == "" || value == "Name*"){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(required && check_for != "email_f" && check_for != "name_f" ){
surrounding_element.removeClass("error valid");
baseclases = surrounding_element.attr("class");
if(value == ""){
surrounding_element.attr("class",baseclases).addClass("error");
my_error = true;
}else{
surrounding_element.attr("class",baseclases).addClass("valid");
}
}
if(jQuery(".feedback_ajax_form input, .feedback_ajax_form textarea, .feedback_ajax_form radio, .feedback_ajax_form select").length == i+1){
if(my_error == false){
jQuery(".feedback_ajax_form").slideUp(400);
var $datastring = "ajax=true";
jQuery(".feedback_ajax_form input, .feedback_ajax_form textarea, .feedback_ajax_form radio, .feedback_ajax_form select").each(function(i)
{
var $name = jQuery(this).attr('name');
var $value = encodeURIComponent(jQuery(this).attr('value'));
$datastring = $datastring + "&" + $name + "=" + $value;
});
jQuery(".feedback_ajax_form #send_f").fadeOut(100);
jQuery.ajax({
type: "POST",
url: "./sendmail.php",
data: $datastring,
success: function(response){
jQuery(".feedback_ajax_form").before("<div class='ajaxresponse_f' style='display: none;'></div>");
jQuery(".ajaxresponse_f").html(response).slideDown(400);
jQuery(".feedback_ajax_form #send_f").fadeIn(400);
jQuery(".feedback_ajax_form input, .feedback_ajax_form textarea, .feedback_ajax_form radio, .feedback_ajax_form select").val("");
}
});
}
}
});
return false;
});
}
|
048doutoraretina
|
trunk/js/custom.js
|
JavaScript
|
oos
| 8,274
|
<!doctype html>
<!--[if lt IE 7 ]><html lang="en" class="no-js ie6"> <![endif]-->
<!--[if IE 7 ]><html lang="en" class="no-js ie7"> <![endif]-->
<!--[if IE 8 ]><html lang="en" class="no-js ie8"> <![endif]-->
<!--[if IE 9 ]><html lang="en" class="no-js ie9"> <![endif]-->
<!--[if (gt IE 9)|!(IE)]><!--><html lang="en" class="no-js"> <!--<![endif]-->
<head>
<meta charset="utf-8">
<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1">
<meta name="author" content="ThemeFuse">
<meta name="keywords" content="">
<meta name="viewport" content="width=device-width,initial-scale=1">
<title>AutoTrader - FAQ</title>
<link href='http://fonts.googleapis.com/css?family=Cabin:400,400italic,500,600,700|PT+Serif+Caption:400,400italic' rel='stylesheet' type='text/css'>
<link rel="shortcut icon" href="favicon.html">
<link href="style.css" media="screen" rel="stylesheet">
<link href="screen.css" media="screen" rel="stylesheet">
<!-- custom CSS -->
<link href="custom.css" media="screen" rel="stylesheet">
<!-- main JS libs -->
<script src="js/libs/modernizr.min.js"></script>
<script src="js/libs/respond.min.js"></script>
<script src="js/libs/jquery.min.js"></script>
<!-- scripts -->
<script src="js/jquery.easing.min.js"></script>
<script src="js/general.js"></script>
<script src="js/hoverIntent.js"></script>
<!-- carousel -->
<script src="js/jquery.carouFredSel.min.js"></script>
<script src="js/jquery.touchSwipe.min.js"></script>
<!-- styled select -->
<link rel="stylesheet" href="css/cusel.css">
<script src="js/cusel-min.js"></script>
<!-- custom input -->
<script src="js/jquery.customInput.js"></script>
<link href="css/prettyPhoto.css" rel="stylesheet">
<script src="js/jquery.prettyPhoto.js"></script>
</head>
<body>
<div class="body_wrap">
<!-- header top bar -->
<div class="header_top">
<div class="container">
<div class="logo">
<a href="index.html"><img src="images/logo.png" alt=""></a>
</div>
<!-- topmenu -->
<nav id="topmenu" class="clearfix">
<ul class="dropdown">
<li class="menu-level-0"><a href="#"><span>Home</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="index.html"><span>Home Slider 1</span></a></li>
<li class="menu-level-1"><a href="index2.html"><span>Home Slider 2</span></a></li>
<li class="menu-level-1"><a href="index3.html"><span>Home Slider 3</span></a></li>
</ul>
</li>
<li class="menu-level-0"><a href="#"><span>Our Cars</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="offers-search.html"><span>Search Page</span></a></li>
<li class="menu-level-1"><a href="offers-list.html"><span>Offers List - Filter Right</span></a></li>
<li class="menu-level-1"><a href="offers-list-left.html"><span>Offers List - Filter Left</span></a></li>
<li class="menu-level-1"><a href="car-makers.html"><span>Car Makers</span></a></li>
</ul>
</li>
<li class="menu-level-0 mega-nav"><a href="special-offers.html"><span>SPECIAL OFFERS</span></a>
<ul class="submenu-1">
<li class="menu-level-1 mega-nav-widget">
<!-- widget recent entries -->
<div class="widget-container widget_recent_entries">
<h3 class="widget-title">Latest News</h3>
<ul>
<li class="clearfix">
<a href="blog-details.html" class="link-name">What You Should Know No About Using a CDN With WordPress</a>
<div class="post-meta"><span class="post-date">posted 1 days ago</span> <a href="blog-details.html#comments">3 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Black Friday! Everything half price. K, Thanx, Bye!</a>
<div class="post-meta"><span class="post-date">posted 2 days ago</span> <a href="blog-details.html#comments">23 comments</a></div>
</li>
<li class="clearfix">
<a href="blog-details.html" class="link-name">Our first FREE WordPress theme is now available - Gadgetry</a>
<div class="post-meta"><span class="post-date">posted 3 days ago</span> <a href="blog-details.html#comments">34 comments</a></div>
</li>
</ul>
</div>
<!--/ widget recent entries -->
</li>
<li class="menu-level-1 mega-nav-widget">
<!-- widget latest entries from category -->
<div class="widget-container widget_featured_posts">
<h3 class="widget-title">Fresh from our Blog</h3>
<ul>
<li class="post-item">
<div class="post-title"><a href="blog-details.html">What Today's Video Games Say About The Moment We Live In</a></div>
<div class="post-meta">written by <span class="post-author">Jenna Pratt</span></div>
<div class="post-image"><a href="blog-details.html"><img src="images/temp/featured_thumb_1.jpg" alt=""></a></div>
<div class="post-descr">
<p>Vivamus hendrerit arcu sed erat molestie adro vehicula. Sed auctor neque eu tellus rhoncus ut eleifend nibh porttitor. </p>
</div>
<div class="post-more"><a href="blog-details.html">READ THE ARTICLE</a></div>
</li>
</ul>
</div>
<!--/ widget latest entries from category -->
</li>
<li class="menu-level-1 mega-nav-widget">
<!-- twiiter widget -->
<div class="widget-container widget_twitter">
<h3 class="widget-title">Twitter Activity</h3>
<div class="tweet_list">
<div class="tweet_item clearfix">
<div class="tweet_image"><img src="images/temp/twitter_avatar.png" width="30" height="30" alt="" /></div>
<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 3 hours ago</span>
</div>
</div>
</div>
<div class="tweet_item clearfix">
<div class="tweet_image"><img src="images/temp/twitter_avatar.png" width="30" height="30" alt="" /></div>
<div class="tweet_text">
<div class="inner">
Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr <a href="#">http://t.co/dwRp8eds</a>
<span class="tweet_time">About 7 hours ago ago</span>
</div>
</div>
</div>
</div>
<a href="#" class="link-more">FOLLOW US ON TWITTER</a>
</div>
<!--/ twiiter widget -->
</li>
</ul>
</li>
<li class="menu-level-0 mega-nav"><a href="services.html"><span>Services</span></a>
<ul class="submenu-1">
<li class="menu-level-1 mega-nav-widget">
<!-- widget text -->
<div class="widget-container widget_text">
<h3 class="widget-title">Welcome Text</h3>
<div class="textwidget">
<p>Easily add a functional and highly customizable Mega Menu to your WordPress website. Choose your option of five different color schemes within the WordPress admin, or style it to your liking with your own stylesheet. </p>
<p>Lorem ipsum dolor sit amet, consectetur adiping elit. Class aptent taciti sociosqu ad litora torquent per conubia nostr.</p>
</div>
</div>
<!--/ widget text -->
</li>
<li class="menu-level-1"><a href="#"><span>Vehicles</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>Motorbikes</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Compacts</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Sedans</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>4x4 SUVs</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Pickups</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
</li>
<li class="menu-level-1"><a href="#"><span>Submenu</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="blog.html"><span>1st Blog Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Second Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>3rd Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Forth Category</span></a></li>
<li class="menu-level-2"><a href="blog.html"><span>Another Category</span></a></li>
<li class="menu-level-2 more-nav"><a href="blog.html"><span>view all</span></a></li>
</ul>
</li>
</ul>
</li>
<li class="menu-level-0 current-menu-ancestor"><a href="#"><span>Pages</span></a>
<ul class="submenu-1">
<li class="menu-level-1"><a href="blog.html"><span>Blog</span></a></li>
<li class="menu-level-1"><a href="page-about.html"><span>About Page</span></a></li>
<li class="menu-level-1 current-menu-item"><a href="page-faq.html"><span>FAQ</span></a></li>
<li class="menu-level-1"><a href="page-pricing.html"><span>Pricing Page</span></a></li>
<li class="menu-level-1"><a href="#"><span>Shortcodes</span></a>
<ul class="submenu-2">
<li class="menu-level-2"><a href="shortcodes-buttons.html"><span>Buttons & Lists</span></a></li>
<li class="menu-level-2"><a href="shortcodes-text.html"><span>Text & Images</span></a></li>
<li class="menu-level-2"><a href="shortcodes-charts.html"><span>Charts</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns.html"><span>Columns</span></a></li>
<li class="menu-level-2"><a href="shortcodes-columns-full.html"><span>Columns full width</span></a></li>
<li class="menu-level-2"><a href="shortcodes-lightbox.html"><span>Lightbox</span></a></li>
<li class="menu-level-2"><a href="shortcodes-media.html"><span>Videos & Galleries</span></a></li>
<li class="menu-level-2"><a href="shortcodes-maps.html"><span>Google Maps</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tabs.html"><span>Tabs & Toggles</span></a></li>
<li class="menu-level-2"><a href="shortcodes-tables.html"><span>Boxes & Tables</span></a></li>
<li class="menu-level-2"><a href="shortcodes-typography.html"><span>Typography</span></a></li>
<li class="menu-level-2"><a href="shortcodes-widgets.html"><span>Custom Widgets</span></a></li>
</ul>
</li>
<li class="menu-level-1"><a href="blog-sidebar-left.html"><span>Sidebar Left</span></a></li>
<li class="menu-level-1"><a href="page-404.html"><span>Page 404</span></a></li>
</ul>
</li>
<li class="menu-level-0"><a href="contact.html"><span>Location</span></a></li>
</ul>
</nav>
<!--/ topmenu -->
</div>
</div>
<!--/ header top bar -->
<!-- header -->
<div class="header header_thin" style="background-image:url(images/temp/slider_1_1.jpg)">
<div class="header_title">
<h1>Frequently Asked <span>Questions</span></h1>
</div>
</div>
<!--/ header -->
<!-- breadcrumbs -->
<div class="middle_row row_white breadcrumbs">
<div class="container">
<p><a href="index.html">Home</a> <span class="separator">›</span> <a href="#">Pages</a> <span class="separator">›</span> <span class="current">Frequently Asked Questions</span></p>
<a href="offers-search.html" class="link_search">Start a Car Search</a>
</div>
</div>
<!--/ breadcrumbs -->
<!-- middle -->
<div id="middle" class="full_width">
<div class="container clearfix">
<!-- content -->
<div class="content">
<!-- faq list -->
<div class="faqlist">
<div class="row clearfix">
<div class="col col_3_4">
<h2><span>Q:</span> What we do and why we do it? </h2>
<p>Class aptent taciti sociosqu ad litora torquent per conubia nostra, per inceptos himenaeos. Sed molestie augue sit amet leo consequat posuere. Vestibulum ante ipsum primis in faucibus orci luctus et ultrices posuere cubilia Curae; Proin vel ante a orci tempus eleifend ut et magna. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Vivamus luctus urna sed urna ultricies ac <a href="#" class="link-orange">tempor dui sagittis</a>. In condimentum facilisis porta. Sed nec diam eu diam mattis viverra. Nulla fringilla, orci ac euismod semper, magna diam porttitor mauris, quis sollicitudin sapien justo in libero. Vestibulum mollis mauris enim. Morbi euismod magna ac lorem rutrum elementum. Donec viverra auctor lobortis. Pellentesque eu est a nulla placerat dignissim. </p>
</div>
<div class="col col_1_4">
<div class="text-center">
<br>
<p><a href="#" class="btn btn_default"><span>FIND OUT MORE</span></a></p>
</div>
</div>
</div>
<div class="divider_space_thin"></div>
<div class="row clearfix">
<div class="col col_3_4">
<h2><span>Q:</span> Sed Molestie Augue Sit Amet Leo Messi?</h2>
<p>Vestibulum ante ipsum primis in faucibus orci luctus et ultrices posuere cubilia Curae; Proin vel ante a orci tempus eleifend ut et magna. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Vivamus luctus urna sed urna ultricies ac tempor dui sagittis. In condimentum facilisis porta. Sed nec diam eu diam mattis viverra. Nulla fringilla, orci ac euismod semper, magna diam. <a href="#">Vestibulum mollis</a> mauris enim. Morbi euismod magna ac lorem rutrum elementum. Donec viverra auctor lobortis. Pellentesque eu est a nulla placerat dignissim. </p>
</div>
<div class="col col_1_4">
<div class="text-center">
<br>
<p><a href="#" class="btn btn_default"><span>FIND OUT MORE</span></a></p>
</div>
</div>
</div>
<div class="divider_space_thin"></div>
<div class="row clearfix">
<div class="col col_3_4">
<h2><span>Q:</span> In Condimentum Facilisis Porta. Sed Nec Diam Lorem Ipsum Dolor</h2>
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