devngho/the-stack-mini-nonshuffled · Datasets at Hugging Face

46a738d557dc0045f6a8653cc3b14079abd608ae

1,880

asm

Assembly

programs/oeis/304/A304517.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/304/A304517.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/304/A304517.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A304517: a(n) = 16*2^n - 11 (n>=1). ; 21,53,117,245,501,1013,2037,4085,8181,16373,32757,65525,131061,262133,524277,1048565,2097141,4194293,8388597,16777205,33554421,67108853,134217717,268435445,536870901,1073741813,2147483637,4294967285,8589934581,17179869173,34359738357,68719476725,137438953461,274877906933,549755813877,1099511627765,2199023255541,4398046511093,8796093022197,17592186044405,35184372088821,70368744177653,140737488355317,281474976710645,562949953421301,1125899906842613,2251799813685237,4503599627370485,9007199254740981,18014398509481973,36028797018963957,72057594037927925,144115188075855861,288230376151711733,576460752303423477,1152921504606846965,2305843009213693941,4611686018427387893,9223372036854775797,18446744073709551605,36893488147419103221,73786976294838206453,147573952589676412917,295147905179352825845,590295810358705651701,1180591620717411303413,2361183241434822606837,4722366482869645213685,9444732965739290427381,18889465931478580854773,37778931862957161709557,75557863725914323419125,151115727451828646838261,302231454903657293676533,604462909807314587353077,1208925819614629174706165,2417851639229258349412341,4835703278458516698824693,9671406556917033397649397,19342813113834066795298805,38685626227668133590597621,77371252455336267181195253,154742504910672534362390517,309485009821345068724781045,618970019642690137449562101,1237940039285380274899124213,2475880078570760549798248437,4951760157141521099596496885,9903520314283042199192993781,19807040628566084398385987573,39614081257132168796771975157,79228162514264337593543950325,158456325028528675187087900661,316912650057057350374175801333,633825300114114700748351602677,1267650600228229401496703205365,2535301200456458802993406410741,5070602400912917605986812821493,10141204801825835211973625642997,20282409603651670423947251286005 add $0,5 mov $1,2 pow $1,$0 sub $1,11 mov $0,$1

208.888889

1,792

0.92234

e02f2d18bab39893e614c6978c4389837947b526

7,807

asm

Assembly

Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xa0_notsx.log_21829_1972.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xa0_notsx.log_21829_1972.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NC/_st_zr_un_sm_/i9-9900K_12_0xa0_notsx.log_21829_1972.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r11 push %r13 push %r14 push %r15 push %rbx push %rcx push %rdi push %rsi lea addresses_WC_ht+0x78db, %r14 clflush (%r14) nop nop nop nop add $6621, %rbx mov $0x6162636465666768, %r11 movq %r11, %xmm6 movups %xmm6, (%r14) nop nop and $15869, %r15 lea addresses_WC_ht+0xc326, %rsi lea addresses_A_ht+0x28f6, %rdi nop nop nop nop nop xor $45142, %r13 mov $19, %rcx rep movsb nop nop nop sub %r14, %r14 lea addresses_A_ht+0x11b76, %rsi lea addresses_D_ht+0x3ce8, %rdi nop nop nop nop nop sub $33428, %r11 mov $86, %rcx rep movsq nop nop nop cmp $59846, %r13 lea addresses_D_ht+0x18cb6, %rsi lea addresses_D_ht+0x6d76, %rdi nop nop nop xor $23942, %rbx mov $76, %rcx rep movsb nop nop nop nop sub %rdi, %rdi lea addresses_WT_ht+0x61a6, %rsi nop nop nop nop inc %r13 movw $0x6162, (%rsi) nop nop nop cmp %r15, %r15 lea addresses_WT_ht+0x1c276, %rsi nop nop nop nop nop sub $53051, %r15 mov (%rsi), %r13w nop nop nop cmp %rdi, %rdi lea addresses_WC_ht+0x15576, %rsi clflush (%rsi) nop nop nop add $44280, %rcx mov $0x6162636465666768, %rdi movq %rdi, (%rsi) nop nop nop nop and $36799, %rcx lea addresses_D_ht+0x16981, %rbx nop nop nop dec %r14 mov $0x6162636465666768, %rsi movq %rsi, (%rbx) nop nop nop nop nop and $37017, %r11 lea addresses_normal_ht+0x1b776, %r14 cmp $2385, %r11 mov (%r14), %r15w nop nop cmp %r15, %r15 lea addresses_D_ht+0xe476, %r13 nop nop and $10996, %r14 mov $0x6162636465666768, %r11 movq %r11, (%r13) nop nop nop nop dec %rbx lea addresses_normal_ht+0x1b276, %rsi lea addresses_WC_ht+0xc676, %rdi nop nop nop dec %rbx mov $60, %rcx rep movsw add %r14, %r14 lea addresses_WT_ht+0x18296, %rcx nop nop nop nop cmp $55576, %rbx mov $0x6162636465666768, %r15 movq %r15, %xmm6 movups %xmm6, (%rcx) nop cmp %r15, %r15 lea addresses_normal_ht+0x619a, %r14 nop xor $21460, %r11 mov (%r14), %edi nop nop nop xor $25797, %rsi pop %rsi pop %rdi pop %rcx pop %rbx pop %r15 pop %r14 pop %r13 pop %r11 ret .global s_faulty_load s_faulty_load: push %r13 push %r14 push %r9 push %rbx push %rcx push %rdi push %rsi // Store mov $0xa76, %r13 nop nop nop and %rsi, %rsi movb $0x51, (%r13) nop inc %rcx // Store mov $0x12a8990000000276, %r9 nop xor $58742, %rdi movw $0x5152, (%r9) nop nop nop xor %r14, %r14 // Faulty Load mov $0x12a8990000000276, %rbx nop nop nop sub %rdi, %rdi mov (%rbx), %r9w lea oracles, %rsi and $0xff, %r9 shlq $12, %r9 mov (%rsi,%r9,1), %r9 pop %rsi pop %rdi pop %rcx pop %rbx pop %r9 pop %r14 pop %r13 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 7}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'size': 2, 'NT': False, 'same': True, 'congruent': 0}} [Faulty Load] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 2, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 0}} {'src': {'type': 'addresses_WC_ht', 'congruent': 3, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 3, 'same': False}} {'src': {'type': 'addresses_A_ht', 'congruent': 6, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_D_ht', 'congruent': 1, 'same': True}} {'src': {'type': 'addresses_D_ht', 'congruent': 5, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_D_ht', 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': True, 'size': 2, 'NT': False, 'same': False, 'congruent': 4}} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 9}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 7}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 0}} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 8}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'AVXalign': True, 'size': 8, 'NT': False, 'same': False, 'congruent': 9}} {'src': {'type': 'addresses_normal_ht', 'congruent': 11, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 9, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 4}} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 4, 'NT': False, 'same': False, 'congruent': 2}, 'OP': 'LOAD'} {'52': 21202, '6d': 69, '00': 558} 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 6d 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 00 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 */

31.995902

2,999

0.656206

dba1d8baa488d13b31164c209a26d286f1bea8fa

905

asm

Assembly

oeis/229/A229080.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/229/A229080.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/229/A229080.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A229080: Primes of the form T(k) + S(k) + 1 where T(k) is the k-th triangular number and S(k) is the k-th square number. ; Submitted by Christian Krause ; 3,41,101,127,223,443,673,877,1277,1553,2543,2927,3061,4241,4733,4903,5431,6971,7177,8933,9883,10627,11927,12743,13873,17551,19211,20593,21661,26203,31177,33377,36583,40427,51431,58313,60101,60703,67523,68161,75377,81551,83663,92381,95383,101531,104677,108677,118583,124561,135151,146173,150893,154723,157627,162527,177677,187091,190283,191353,194581,203321,204427,207763,213383,216791,217933,227177,230693,231871,246241,261043,264811,276277,286673,290621,308041,340103,353081,363343,375251,393473 mov $2,332202 lpb $2 mov $3,$6 seq $3,10051 ; Characteristic function of primes: 1 if n is prime, else 0. sub $0,$3 add $1,3 mov $4,$0 max $4,0 cmp $4,$0 mul $2,$4 sub $2,18 sub $5,1 add $5,$1 mov $6,$5 lpe mov $0,$5 add $0,1

41.136364

498

0.731492

ed623f254e8008a12394041b10e7041e813a53d7

1,483

asm

Assembly

programs/oeis/164/A164123.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/164/A164123.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/164/A164123.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A164123: Partial sums of A162436. ; 1,4,7,16,25,52,79,160,241,484,727,1456,2185,4372,6559,13120,19681,39364,59047,118096,177145,354292,531439,1062880,1594321,3188644,4782967,9565936,14348905,28697812,43046719,86093440,129140161,258280324,387420487,774840976,1162261465,2324522932,3486784399,6973568800,10460353201,20920706404,31381059607,62762119216,94143178825,188286357652,282429536479,564859072960,847288609441,1694577218884,2541865828327,5083731656656,7625597484985,15251194969972,22876792454959,45753584909920,68630377364881,137260754729764,205891132094647,411782264189296,617673396283945,1235346792567892,1853020188851839,3706040377703680,5559060566555521,11118121133111044,16677181699666567,33354363399333136,50031545098999705,100063090197999412,150094635296999119,300189270593998240,450283905890997361,900567811781994724,1350851717672992087,2701703435345984176,4052555153018976265,8105110306037952532,12157665459056928799,24315330918113857600,36472996377170786401,72945992754341572804,109418989131512359207,218837978263024718416,328256967394537077625,656513934789074155252,984770902183611232879,1969541804367222465760,2954312706550833698641,5908625413101667397284,8862938119652501095927,17725876239305002191856,26588814358957503287785,53177628717915006575572,79766443076872509863359,159532886153745019726720,239299329230617529590081,478598658461235059180164,717897987691852588770247,1435795975383705177540496 seq $0,38754 ; a(2n) = 3^n, a(2n+1) = 2*3^n. mul $0,3 sub $0,2

211.857143

1,382

0.9029

c592f61e7f9f45e3bbc90e7317a1129f4925f35e

7,324

asm

Assembly

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/fir2.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

[ "Unlicense" ]

null

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/fir2.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

[ "Unlicense" ]

null

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/fir2.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

[ "Unlicense" ]

null

;*********************************************************** ; Version 2.40.00 ;*********************************************************** ; Function: fir2 ; Processor: C55xx ; Description: Implements finite impulse response filter using ; dual-MAC approach. C-callable. ; ; Useage: ushort oflag = firs(DATA *x, ; DATA *h, ; DATA *r, ; DATA *dbuffer, ; ushort nx, ; ushort nh) ; ; Copyright Texas instruments Inc, 2000 ; History: ; 2.10 Rishi 08/03/2001 - optimized the code for benchmark. ;**************************************************************** .ARMS_off ;enable assembler for ARMS=0 .CPL_on ;enable assembler for CPL=1 .mmregs ;enable mem mapped register names ; Stack frame ; ----------- RET_ADDR_SZ .set 1 ;return address REG_SAVE_SZ .set 0 ;save-on-entry registers saved FRAME_SZ .set 0 ;local variables ARG_BLK_SZ .set 0 ;argument block PARAM_OFFSET .set ARG_BLK_SZ + FRAME_SZ + REG_SAVE_SZ + RET_ADDR_SZ ; Register usage ; -------------- .asg AR0, x_ptr ;linear pointer .asg AR1, db_ptr1 ;circular pointer .asg AR2, r_ptr ;linear pointer .asg AR3, db_ptr2 ;circular pointer .asg CDP, h_ptr ;circular pointer .asg BSA01, db_base1 ;base addr for db_ptr1 .asg XAR1, xdb_base1 ;extended base addr for db_ptr1 .asg BSA23, db_base2 ;base addr for db_ptr2 .asg BK03, db_sz ;circ buffer size for db_ptr1 and db_ptr2 .asg BK03_L, db_sz_L ;for memory mapped access .asg BSAC, h_base ;base addr for h_ptr .asg XCDP, xh_base ;extended base addr for h_ptr .asg BKC, h_sz ;circ buffer size for h_sz .asg CSR, inner_cnt ;inner loop count .asg BRC0, outer_cnt ;outer loop count .asg T0, oflag ;returned value ST2mask .set 0000000100001010b ;circular/linear pointers .global _fir2 .text _fir2: ; ; Allocate the local frame and argument block ;---------------------------------------------------------------- ; SP = SP - #(ARG_BLK_SZ + FRAME_SZ + REG_SAVE_SZ) ; - not necessary for this function (the above is zero) ; ; Save any save-on-entry registers that are used ;---------------------------------------------------------------- ; - nothing to save for this function ; ; Configure the status registers as needed. ;---------------------------------------------------------------- AND #001FFh, mmap(ST0_55) ;clear all ACOVx,TC1, TC2, C OR #04140h, mmap(ST1_55) ;set CPL, SXMD, FRCT AND #0F9DFh, mmap(ST1_55) ;clear M40, SATD, 54CM AND #07A00h, mmap(ST2_55) ;clear ARMS, RDM, CDPLC, AR[0-7]LC AND #0FFDDh, mmap(ST3_55) ;clear SATA, SMUL ; ; Setup passed parameters in their destination registers ; Setup circular/linear CDP/ARx behavior ;---------------------------------------------------------------- ; x pointer - passed in its destination register, need do nothing ; h pointer MOV XAR1, xh_base ;extended base address for h_ptr MOV #0, h_ptr ;point to first coefficient MOV mmap(AR1), h_base ;base address of coefficients MOV mmap(T1), h_sz ;coefficient array size ; r pointer - passed in its destination register, need do nothing ; db pointers, part 1 - must come before circ/linear ARx setup MOV XAR3, XAR4 ;save db array address MOV XAR4, xdb_base1 ;extended base address for db_ptr1 ;xdb_base2 already setup via argument pass MOV *AR4, db_ptr1 ;index of oldest db entry MOV *AR4+, db_ptr2 ;index of oldest db entry MOV mmap(AR4), db_base1 ;base address for db_ptr1 MOV mmap(AR4), db_base2 ;base address for db_ptr2 ; Set circular/linear ARx behavior OR #ST2mask, mmap(ST2_55) ;config circ/linear pointers MOV mmap(T1), db_sz ;db_sz = nh ADD #1, mmap(db_sz) ;db_sz = nh+1 ; db pointers, part 2 - must come after circ/linear ARx setup AMAR *db_ptr2- ;index of 2nd oldest db entry ; ; Setup loop counts ;---------------------------------------------------------------- ||SFTS T0, #-1 ;T0 = nx/2 SUB #1, T0 ;T0 = (nx/2 - 1) MOV T0, outer_cnt ;outer loop executes nx/2 times SUB #3, T1, T0 ;T0 = nh-3 MOV T0, inner_cnt ;inner loop executes nh-2 times ; ; Compute last iteration input pointer offsets ;---------------------------------------------------------------- ADD #1, T1 ;T1 = nh+1, adjustment for db_ptr1, db_ptr2 MOV *x_ptr+, *db_ptr1 ;get 1st new input value MOV *x_ptr+, *db_ptr2 ;get 2nd new input value (newest) ; ; Start of outer loop ;---------------------------------------------------------------- ||RPTBLOCAL loop1-1 ;start the outer loop ;1st iteration MPY *db_ptr1+, *h_ptr+, AC0 ;part 1 of dual-MPY ::MPY *db_ptr2+, *h_ptr+, AC1 ;part 2 of dual-MPY ;inner loop ||RPT inner_cnt MAC *db_ptr1+, *h_ptr+, AC0 ;part 1 of dual-MAC ::MAC *db_ptr2+, *h_ptr+, AC1 ;part 2 of dual-MAC ;last iteration has different pointer adjustment and rounding MACR *(db_ptr1-T1), *h_ptr+, AC0 ;part 1 of dual-MAC ::MACR *(db_ptr2-T1), *h_ptr+, AC1 ;part 2 of dual-MAC MOV *x_ptr+, *db_ptr1 ;get 1st new input value MOV *x_ptr+, *db_ptr2 ;get 2nd new input value (newest) ;store results to memory MOV pair(HI(AC0)), dbl(*r_ptr+) ;store 1st Q15 result to memory ;store 2nd Q15 result to memory loop1: ;end of outer loop ; ; Update the db entry point ;---------------------------------------------------------------- MOV db_ptr1, *-AR4 ;update 1st element of db array ; ; Check if overflow occurred, and setup return value ;---------------------------------------------------------------- ||MOV #0, oflag ;clear oflag XCCPART check1, overflow(AC0) ;clears ACOV0 ||MOV #1, oflag ;overflow occurred check1: XCCPART check2, overflow(AC1) ;clears ACOV1 ||MOV #1, oflag ;overflow occurred check2: ; ; Restore status regs to expected C-convention values as needed ;---------------------------------------------------------------- BCLR FRCT ;clear FRCT AND #0FE00h, mmap(ST2_55) ;clear CDPLC and AR[7-0]LC BSET ARMS ;set ARMS ; ; Restore any save-on-entry registers that are used ;---------------------------------------------------------------- ; - nothing to restore for this function ; ; Deallocate the local frame and argument block ;---------------------------------------------------------------- ; SP = SP + #(ARG_BLK_SZ + FRAME_SZ + REG_SAVE_SZ) ; - not necessary for this function (the above is zero) ; ; Return to calling function ;---------------------------------------------------------------- ||RET ;return to calling function ;---------------------------------------------------------------- ;End of file

33.290909

78

0.513654

f2d1b4fda11c14a708b56be1a7e31f6f1b985870

118

asm

Assembly

Tests/yasm-regression/shift.asm

13xforever/x86-assembly-textmate-bundle

f1bb62f77b776d87d0fd85b0276d4237ff72c43c

[ "MIT" ]

69

2015-04-16T18:01:22.000Z

2022-02-15T07:54:26.000Z

Tests/yasm-regression/shift.asm

javiercbk/x86-assembly-textmate-bundle

62d700e0196f62ef4353a9b95c2e64beb0a6afda

[ "MIT" ]

17

2016-09-20T08:49:09.000Z

2021-02-19T15:01:04.000Z

Tests/yasm-regression/shift.asm

javiercbk/x86-assembly-textmate-bundle

62d700e0196f62ef4353a9b95c2e64beb0a6afda

[ "MIT" ]

19

2016-05-31T07:11:14.000Z

2021-07-19T10:17:12.000Z

blah equ 1 shl al, 1 ; out: d0 e0 shl al, 2-1 ; out: d0 e0 shl al, blah ; out: d0 e0 shl al, 2-blah ; out: d0 e0

16.857143

28

0.576271

5b7d66248dc9c3bc88fc0639da501c3633adbd98

553

asm

Assembly

Working Disassembly/Levels/LRZ/Misc Object Data/Map - Swinging Spike Ball.asm

TeamASM-Blur/Sonic-3-Blue-Balls-Edition

7e8a2c5df02271615ff4cae529521e6b1560d6b1

[ "Apache-2.0" ]

5

2021-07-09T08:17:56.000Z

2022-02-27T19:57:47.000Z

Working Disassembly/Levels/LRZ/Misc Object Data/Map - Swinging Spike Ball.asm

TeamASM-Blur/Sonic-3-Blue-Balls-Edition

7e8a2c5df02271615ff4cae529521e6b1560d6b1

[ "Apache-2.0" ]

null

Working Disassembly/Levels/LRZ/Misc Object Data/Map - Swinging Spike Ball.asm

TeamASM-Blur/Sonic-3-Blue-Balls-Edition

7e8a2c5df02271615ff4cae529521e6b1560d6b1

[ "Apache-2.0" ]

null

Map_LRZSwingingSpikeBall_:dc.w word_4366E-Map_LRZSwingingSpikeBall_ dc.w word_43676-Map_LRZSwingingSpikeBall_ dc.w word_43682-Map_LRZSwingingSpikeBall_ dc.w word_43690-Map_LRZSwingingSpikeBall_ word_4366E: dc.w 1 dc.b $F4, $A, 0, $22, $FF, $F4 word_43676: dc.w 1 dc.b $F8, 5, 0, $2B, $FF, $F8 Map_LRZSwingingSpikeBall2: Map_4367E: dc.w word_43682-Map_4367E dc.w word_43690-Map_4367E word_43682: dc.w 2 dc.b $F0, 7, 0, $10, $FF, $F0 dc.b $F0, 7, 8, $10, 0, 0 word_43690: dc.w 1 dc.b $F8, 5, 0, $18, $FF, $F8

30.722222

67

0.676311

ac07fb1c6562e96c966130bb6a7e8c6a91a30b40

850

asm

Assembly

programs/oeis/255/A255680.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

1

2021-03-15T11:38:20.000Z

programs/oeis/255/A255680.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/255/A255680.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A255680: a(n) = n*(n mod 3)*(n mod 5). ; 0,1,8,0,16,0,0,14,48,0,0,22,0,39,112,0,16,68,0,76,0,0,44,138,0,0,52,0,84,232,0,31,128,0,136,0,0,74,228,0,0,82,0,129,352,0,46,188,0,196,0,0,104,318,0,0,112,0,174,472,0,61,248,0,256,0,0,134,408,0,0,142,0,219,592,0,76,308,0,316,0,0,164,498,0,0,172,0,264,712,0,91,368,0,376,0,0,194,588,0,0,202,0,309,832,0,106,428,0,436,0,0,224,678,0,0,232,0,354,952,0,121,488,0,496,0,0,254,768,0,0,262,0,399,1072,0,136,548,0,556,0,0,284,858,0,0,292,0,444,1192,0,151,608,0,616,0,0,314,948,0,0,322,0,489,1312,0,166,668,0,676,0,0,344,1038,0,0,352,0,534,1432,0,181,728,0,736,0,0,374,1128,0,0,382,0,579,1552,0,196,788,0,796,0,0,404,1218,0,0,412,0,624,1672,0,211,848,0,856,0,0,434,1308,0,0,442,0,669,1792,0,226,908,0,916,0,0,464,1398,0,0,472,0,714,1912,0,241,968,0,976,0,0,494,1488,0 mov $1,$0 mod $0,5 mul $0,$1 mod $1,3 mul $1,$0

94.444444

759

0.650588

1657f14a06c9274b526564476c7cb8ca623da3f8

56,080

asm

Assembly

target/cos_117/disasm/iop_overlay1/BYPASS.asm

jrrk2/cray-sim

52c9639808d6890517092637b188282c00cce4f7

[ "BSL-1.0" ]

49

2020-10-09T12:29:16.000Z

2022-03-12T02:33:35.000Z

target/cos_117/disasm/iop_overlay1/BYPASS.asm

jrrk2/cray-sim

52c9639808d6890517092637b188282c00cce4f7

[ "BSL-1.0" ]

1

2021-12-29T15:59:25.000Z

target/cos_117/disasm/iop_overlay1/BYPASS.asm

jrrk2/cray-sim

52c9639808d6890517092637b188282c00cce4f7

[ "BSL-1.0" ]

6

2021-04-12T06:10:32.000Z

2022-02-08T23:11:19.000Z

0x0000 (0x000000) 0x0400- f:00002 d: 0 | I = 0 0x0001 (0x000002) 0x0000- f:00000 d: 0 | PASS 0x0002 (0x000004) 0x1800-0x0CEB f:00014 d: 0 | A = 3307 (0x0CEB) 0x0004 (0x000008) 0x289D- f:00024 d: 157 | OR[157] = A 0x0005 (0x00000A) 0x7E00-0x1FFD f:00077 d: 0 | R = OR[0]+8189 (0x1FFD) 0x0007 (0x00000E) 0x209C- f:00020 d: 156 | A = OR[156] 0x0008 (0x000010) 0x2918- f:00024 d: 280 | OR[280] = A 0x0009 (0x000012) 0x8402- f:00102 d: 2 | P = P + 2 (0x000B), A = 0 0x000A (0x000014) 0x7014- f:00070 d: 20 | P = P + 20 (0x001E) 0x000B (0x000016) 0x1800-0x0CE9 f:00014 d: 0 | A = 3305 (0x0CE9) 0x000D (0x00001A) 0x2928- f:00024 d: 296 | OR[296] = A 0x000E (0x00001C) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x000F (0x00001E) 0x292B- f:00024 d: 299 | OR[299] = A 0x0010 (0x000020) 0x2128- f:00020 d: 296 | A = OR[296] 0x0011 (0x000022) 0x292C- f:00024 d: 300 | OR[300] = A 0x0012 (0x000024) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0013 (0x000026) 0x292D- f:00024 d: 301 | OR[301] = A 0x0014 (0x000028) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0015 (0x00002A) 0x5800- f:00054 d: 0 | B = A 0x0016 (0x00002C) 0x1800-0x2718 f:00014 d: 0 | A = 10008 (0x2718) 0x0018 (0x000030) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0019 (0x000032) 0x2006- f:00020 d: 6 | A = OR[6] 0x001A (0x000034) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x001B (0x000036) 0x2908- f:00024 d: 264 | OR[264] = A 0x001C (0x000038) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x001D (0x00003A) 0x721D- f:00071 d: 29 | P = P - 29 (0x0000) 0x001E (0x00003C) 0x0600- f:00003 d: 0 | I = 1 0x001F (0x00003E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0020 (0x000040) 0x140D- f:00012 d: 13 | A = A + 13 (0x000D) 0x0021 (0x000042) 0x2908- f:00024 d: 264 | OR[264] = A 0x0022 (0x000044) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0023 (0x000046) 0x127F- f:00011 d: 127 | A = A & 127 (0x007F) 0x0024 (0x000048) 0x2928- f:00024 d: 296 | OR[296] = A 0x0025 (0x00004A) 0x1800-0x0E68 f:00014 d: 0 | A = 3688 (0x0E68) 0x0027 (0x00004E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0028 (0x000050) 0x2128- f:00020 d: 296 | A = OR[296] 0x0029 (0x000052) 0x3508- f:00032 d: 264 | A = A + (OR[264]) 0x002A (0x000054) 0x2928- f:00024 d: 296 | OR[296] = A 0x002B (0x000056) 0x3128- f:00030 d: 296 | A = (OR[296]) 0x002C (0x000058) 0x2928- f:00024 d: 296 | OR[296] = A 0x002D (0x00005A) 0x2128- f:00020 d: 296 | A = OR[296] 0x002E (0x00005C) 0x1407- f:00012 d: 7 | A = A + 7 (0x0007) 0x002F (0x00005E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0030 (0x000060) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0031 (0x000062) 0x2919- f:00024 d: 281 | OR[281] = A 0x0032 (0x000064) 0x8402- f:00102 d: 2 | P = P + 2 (0x0034), A = 0 0x0033 (0x000066) 0x7003- f:00070 d: 3 | P = P + 3 (0x0036) 0x0034 (0x000068) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x0036 (0x00006C) 0x2118- f:00020 d: 280 | A = OR[280] 0x0037 (0x00006E) 0x140E- f:00012 d: 14 | A = A + 14 (0x000E) 0x0038 (0x000070) 0x2908- f:00024 d: 264 | OR[264] = A 0x0039 (0x000072) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x003A (0x000074) 0x1A00-0x7FFF f:00015 d: 0 | A = A & 32767 (0x7FFF) 0x003C (0x000078) 0x291A- f:00024 d: 282 | OR[282] = A 0x003D (0x00007A) 0x2118- f:00020 d: 280 | A = OR[280] 0x003E (0x00007C) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x003F (0x00007E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0040 (0x000080) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0041 (0x000082) 0x291B- f:00024 d: 283 | OR[283] = A 0x0042 (0x000084) 0x2118- f:00020 d: 280 | A = OR[280] 0x0043 (0x000086) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0044 (0x000088) 0x2908- f:00024 d: 264 | OR[264] = A 0x0045 (0x00008A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0046 (0x00008C) 0x291C- f:00024 d: 284 | OR[284] = A 0x0047 (0x00008E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0048 (0x000090) 0x1414- f:00012 d: 20 | A = A + 20 (0x0014) 0x0049 (0x000092) 0x2908- f:00024 d: 264 | OR[264] = A 0x004A (0x000094) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x004B (0x000096) 0x291D- f:00024 d: 285 | OR[285] = A 0x004C (0x000098) 0x2118- f:00020 d: 280 | A = OR[280] 0x004D (0x00009A) 0x1415- f:00012 d: 21 | A = A + 21 (0x0015) 0x004E (0x00009C) 0x2908- f:00024 d: 264 | OR[264] = A 0x004F (0x00009E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0050 (0x0000A0) 0x291E- f:00024 d: 286 | OR[286] = A 0x0051 (0x0000A2) 0x2118- f:00020 d: 280 | A = OR[280] 0x0052 (0x0000A4) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0053 (0x0000A6) 0x2908- f:00024 d: 264 | OR[264] = A 0x0054 (0x0000A8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0055 (0x0000AA) 0x0805- f:00004 d: 5 | A = A > 5 (0x0005) 0x0056 (0x0000AC) 0x1203- f:00011 d: 3 | A = A & 3 (0x0003) 0x0057 (0x0000AE) 0x291F- f:00024 d: 287 | OR[287] = A 0x0058 (0x0000B0) 0x2118- f:00020 d: 280 | A = OR[280] 0x0059 (0x0000B2) 0x1418- f:00012 d: 24 | A = A + 24 (0x0018) 0x005A (0x0000B4) 0x2908- f:00024 d: 264 | OR[264] = A 0x005B (0x0000B6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x005C (0x0000B8) 0x2920- f:00024 d: 288 | OR[288] = A 0x005D (0x0000BA) 0x2118- f:00020 d: 280 | A = OR[280] 0x005E (0x0000BC) 0x1419- f:00012 d: 25 | A = A + 25 (0x0019) 0x005F (0x0000BE) 0x2908- f:00024 d: 264 | OR[264] = A 0x0060 (0x0000C0) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0061 (0x0000C2) 0x2921- f:00024 d: 289 | OR[289] = A 0x0062 (0x0000C4) 0x2118- f:00020 d: 280 | A = OR[280] 0x0063 (0x0000C6) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x0064 (0x0000C8) 0x2908- f:00024 d: 264 | OR[264] = A 0x0065 (0x0000CA) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0066 (0x0000CC) 0x2922- f:00024 d: 290 | OR[290] = A 0x0067 (0x0000CE) 0x2118- f:00020 d: 280 | A = OR[280] 0x0068 (0x0000D0) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0069 (0x0000D2) 0x2908- f:00024 d: 264 | OR[264] = A 0x006A (0x0000D4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x006B (0x0000D6) 0x0802- f:00004 d: 2 | A = A > 2 (0x0002) 0x006C (0x0000D8) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x006D (0x0000DA) 0x2928- f:00024 d: 296 | OR[296] = A 0x006E (0x0000DC) 0x2119- f:00020 d: 281 | A = OR[281] 0x006F (0x0000DE) 0x143A- f:00012 d: 58 | A = A + 58 (0x003A) 0x0070 (0x0000E0) 0x2908- f:00024 d: 264 | OR[264] = A 0x0071 (0x0000E2) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0072 (0x0000E4) 0x2923- f:00024 d: 291 | OR[291] = A 0x0073 (0x0000E6) 0x2119- f:00020 d: 281 | A = OR[281] 0x0074 (0x0000E8) 0x143B- f:00012 d: 59 | A = A + 59 (0x003B) 0x0075 (0x0000EA) 0x2908- f:00024 d: 264 | OR[264] = A 0x0076 (0x0000EC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0077 (0x0000EE) 0x2924- f:00024 d: 292 | OR[292] = A 0x0078 (0x0000F0) 0x2128- f:00020 d: 296 | A = OR[296] 0x0079 (0x0000F2) 0x8402- f:00102 d: 2 | P = P + 2 (0x007B), A = 0 0x007A (0x0000F4) 0x7017- f:00070 d: 23 | P = P + 23 (0x0091) 0x007B (0x0000F6) 0x2123- f:00020 d: 291 | A = OR[291] 0x007C (0x0000F8) 0x8604- f:00103 d: 4 | P = P + 4 (0x0080), A # 0 0x007D (0x0000FA) 0x2124- f:00020 d: 292 | A = OR[292] 0x007E (0x0000FC) 0x8602- f:00103 d: 2 | P = P + 2 (0x0080), A # 0 0x007F (0x0000FE) 0x7011- f:00070 d: 17 | P = P + 17 (0x0090) 0x0080 (0x000100) 0x1028- f:00010 d: 40 | A = 40 (0x0028) 0x0081 (0x000102) 0x292B- f:00024 d: 299 | OR[299] = A 0x0082 (0x000104) 0x1800-0x0072 f:00014 d: 0 | A = 114 (0x0072) 0x0084 (0x000108) 0x292C- f:00024 d: 300 | OR[300] = A 0x0085 (0x00010A) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x0086 (0x00010C) 0x292D- f:00024 d: 301 | OR[301] = A 0x0087 (0x00010E) 0x2119- f:00020 d: 281 | A = OR[281] 0x0088 (0x000110) 0x292E- f:00024 d: 302 | OR[302] = A 0x0089 (0x000112) 0x2118- f:00020 d: 280 | A = OR[280] 0x008A (0x000114) 0x292F- f:00024 d: 303 | OR[303] = A 0x008B (0x000116) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x008C (0x000118) 0x5800- f:00054 d: 0 | B = A 0x008D (0x00011A) 0x1800-0x2718 f:00014 d: 0 | A = 10008 (0x2718) 0x008F (0x00011E) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0090 (0x000120) 0x7017- f:00070 d: 23 | P = P + 23 (0x00A7) 0x0091 (0x000122) 0x2123- f:00020 d: 291 | A = OR[291] 0x0092 (0x000124) 0x8402- f:00102 d: 2 | P = P + 2 (0x0094), A = 0 0x0093 (0x000126) 0x7014- f:00070 d: 20 | P = P + 20 (0x00A7) 0x0094 (0x000128) 0x2124- f:00020 d: 292 | A = OR[292] 0x0095 (0x00012A) 0x8402- f:00102 d: 2 | P = P + 2 (0x0097), A = 0 0x0096 (0x00012C) 0x7011- f:00070 d: 17 | P = P + 17 (0x00A7) 0x0097 (0x00012E) 0x1028- f:00010 d: 40 | A = 40 (0x0028) 0x0098 (0x000130) 0x292B- f:00024 d: 299 | OR[299] = A 0x0099 (0x000132) 0x1800-0x0072 f:00014 d: 0 | A = 114 (0x0072) 0x009B (0x000136) 0x292C- f:00024 d: 300 | OR[300] = A 0x009C (0x000138) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x009D (0x00013A) 0x292D- f:00024 d: 301 | OR[301] = A 0x009E (0x00013C) 0x2119- f:00020 d: 281 | A = OR[281] 0x009F (0x00013E) 0x292E- f:00024 d: 302 | OR[302] = A 0x00A0 (0x000140) 0x2118- f:00020 d: 280 | A = OR[280] 0x00A1 (0x000142) 0x292F- f:00024 d: 303 | OR[303] = A 0x00A2 (0x000144) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x00A3 (0x000146) 0x5800- f:00054 d: 0 | B = A 0x00A4 (0x000148) 0x1800-0x2718 f:00014 d: 0 | A = 10008 (0x2718) 0x00A6 (0x00014C) 0x7C09- f:00076 d: 9 | R = OR[9] 0x00A7 (0x00014E) 0x2119- f:00020 d: 281 | A = OR[281] 0x00A8 (0x000150) 0x1438- f:00012 d: 56 | A = A + 56 (0x0038) 0x00A9 (0x000152) 0x2908- f:00024 d: 264 | OR[264] = A 0x00AA (0x000154) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00AB (0x000156) 0x2923- f:00024 d: 291 | OR[291] = A 0x00AC (0x000158) 0x2119- f:00020 d: 281 | A = OR[281] 0x00AD (0x00015A) 0x1439- f:00012 d: 57 | A = A + 57 (0x0039) 0x00AE (0x00015C) 0x2908- f:00024 d: 264 | OR[264] = A 0x00AF (0x00015E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00B0 (0x000160) 0x2924- f:00024 d: 292 | OR[292] = A 0x00B1 (0x000162) 0x2118- f:00020 d: 280 | A = OR[280] 0x00B2 (0x000164) 0x1412- f:00012 d: 18 | A = A + 18 (0x0012) 0x00B3 (0x000166) 0x2908- f:00024 d: 264 | OR[264] = A 0x00B4 (0x000168) 0x2123- f:00020 d: 291 | A = OR[291] 0x00B5 (0x00016A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00B6 (0x00016C) 0x2118- f:00020 d: 280 | A = OR[280] 0x00B7 (0x00016E) 0x1413- f:00012 d: 19 | A = A + 19 (0x0013) 0x00B8 (0x000170) 0x2908- f:00024 d: 264 | OR[264] = A 0x00B9 (0x000172) 0x2124- f:00020 d: 292 | A = OR[292] 0x00BA (0x000174) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00BB (0x000176) 0x2118- f:00020 d: 280 | A = OR[280] 0x00BC (0x000178) 0x140C- f:00012 d: 12 | A = A + 12 (0x000C) 0x00BD (0x00017A) 0x2908- f:00024 d: 264 | OR[264] = A 0x00BE (0x00017C) 0x2119- f:00020 d: 281 | A = OR[281] 0x00BF (0x00017E) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00C0 (0x000180) 0x211A- f:00020 d: 282 | A = OR[282] 0x00C1 (0x000182) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x00C2 (0x000184) 0x8402- f:00102 d: 2 | P = P + 2 (0x00C4), A = 0 0x00C3 (0x000186) 0x70A5- f:00070 d: 165 | P = P + 165 (0x0168) 0x00C4 (0x000188) 0x211B- f:00020 d: 283 | A = OR[283] 0x00C5 (0x00018A) 0x8602- f:00103 d: 2 | P = P + 2 (0x00C7), A # 0 0x00C6 (0x00018C) 0x7077- f:00070 d: 119 | P = P + 119 (0x013D) 0x00C7 (0x00018E) 0x2119- f:00020 d: 281 | A = OR[281] 0x00C8 (0x000190) 0x143E- f:00012 d: 62 | A = A + 62 (0x003E) 0x00C9 (0x000192) 0x2908- f:00024 d: 264 | OR[264] = A 0x00CA (0x000194) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00CB (0x000196) 0x8602- f:00103 d: 2 | P = P + 2 (0x00CD), A # 0 0x00CC (0x000198) 0x7003- f:00070 d: 3 | P = P + 3 (0x00CF) 0x00CD (0x00019A) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x00CF (0x00019E) 0x211F- f:00020 d: 287 | A = OR[287] 0x00D0 (0x0001A0) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x00D1 (0x0001A2) 0x8402- f:00102 d: 2 | P = P + 2 (0x00D3), A = 0 0x00D2 (0x0001A4) 0x7015- f:00070 d: 21 | P = P + 21 (0x00E7) 0x00D3 (0x0001A6) 0x2120- f:00020 d: 288 | A = OR[288] 0x00D4 (0x0001A8) 0x8402- f:00102 d: 2 | P = P + 2 (0x00D6), A = 0 0x00D5 (0x0001AA) 0x7007- f:00070 d: 7 | P = P + 7 (0x00DC) 0x00D6 (0x0001AC) 0x2121- f:00020 d: 289 | A = OR[289] 0x00D7 (0x0001AE) 0x8402- f:00102 d: 2 | P = P + 2 (0x00D9), A = 0 0x00D8 (0x0001B0) 0x7004- f:00070 d: 4 | P = P + 4 (0x00DC) 0x00D9 (0x0001B2) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x00DB (0x0001B6) 0x700C- f:00070 d: 12 | P = P + 12 (0x00E7) 0x00DC (0x0001B8) 0x2122- f:00020 d: 290 | A = OR[290] 0x00DD (0x0001BA) 0x8408- f:00102 d: 8 | P = P + 8 (0x00E5), A = 0 0x00DE (0x0001BC) 0x2122- f:00020 d: 290 | A = OR[290] 0x00DF (0x0001BE) 0x1E00-0x0200 f:00017 d: 0 | A = A - 512 (0x0200) 0x00E1 (0x0001C2) 0x8003- f:00100 d: 3 | P = P + 3 (0x00E4), C = 0 0x00E2 (0x0001C4) 0x8402- f:00102 d: 2 | P = P + 2 (0x00E4), A = 0 0x00E3 (0x0001C6) 0x7002- f:00070 d: 2 | P = P + 2 (0x00E5) 0x00E4 (0x0001C8) 0x7003- f:00070 d: 3 | P = P + 3 (0x00E7) 0x00E5 (0x0001CA) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x00E7 (0x0001CE) 0x2118- f:00020 d: 280 | A = OR[280] 0x00E8 (0x0001D0) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x00E9 (0x0001D2) 0x2908- f:00024 d: 264 | OR[264] = A 0x00EA (0x0001D4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00EB (0x0001D6) 0x2925- f:00024 d: 293 | OR[293] = A 0x00EC (0x0001D8) 0x2118- f:00020 d: 280 | A = OR[280] 0x00ED (0x0001DA) 0x1411- f:00012 d: 17 | A = A + 17 (0x0011) 0x00EE (0x0001DC) 0x2908- f:00024 d: 264 | OR[264] = A 0x00EF (0x0001DE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00F0 (0x0001E0) 0x2926- f:00024 d: 294 | OR[294] = A 0x00F1 (0x0001E2) 0x211C- f:00020 d: 284 | A = OR[284] 0x00F2 (0x0001E4) 0x8602- f:00103 d: 2 | P = P + 2 (0x00F4), A # 0 0x00F3 (0x0001E6) 0x7007- f:00070 d: 7 | P = P + 7 (0x00FA) 0x00F4 (0x0001E8) 0x7E03-0x0292 f:00077 d: 3 | R = OR[3]+658 (0x0292) 0x00F6 (0x0001EC) 0x2128- f:00020 d: 296 | A = OR[296] 0x00F7 (0x0001EE) 0xAE03-0x02D8 f:00127 d: 3 | P = OR[3]+728 (0x02D8), A # 0 0x00F9 (0x0001F2) 0x703A- f:00070 d: 58 | P = P + 58 (0x0133) 0x00FA (0x0001F4) 0x2119- f:00020 d: 281 | A = OR[281] 0x00FB (0x0001F6) 0x142C- f:00012 d: 44 | A = A + 44 (0x002C) 0x00FC (0x0001F8) 0x2928- f:00024 d: 296 | OR[296] = A 0x00FD (0x0001FA) 0x3128- f:00030 d: 296 | A = (OR[296]) 0x00FE (0x0001FC) 0x2929- f:00024 d: 297 | OR[297] = A 0x00FF (0x0001FE) 0x2128- f:00020 d: 296 | A = OR[296] 0x0100 (0x000200) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0101 (0x000202) 0x2908- f:00024 d: 264 | OR[264] = A 0x0102 (0x000204) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0103 (0x000206) 0x292A- f:00024 d: 298 | OR[298] = A 0x0104 (0x000208) 0x2129- f:00020 d: 297 | A = OR[297] 0x0105 (0x00020A) 0x272A- f:00023 d: 298 | A = A - OR[298] 0x0106 (0x00020C) 0x8402- f:00102 d: 2 | P = P + 2 (0x0108), A = 0 0x0107 (0x00020E) 0x7007- f:00070 d: 7 | P = P + 7 (0x010E) 0x0108 (0x000210) 0x7E03-0x0292 f:00077 d: 3 | R = OR[3]+658 (0x0292) 0x010A (0x000214) 0x2128- f:00020 d: 296 | A = OR[296] 0x010B (0x000216) 0xAE03-0x02D8 f:00127 d: 3 | P = OR[3]+728 (0x02D8), A # 0 0x010D (0x00021A) 0x7026- f:00070 d: 38 | P = P + 38 (0x0133) 0x010E (0x00021C) 0x2119- f:00020 d: 281 | A = OR[281] 0x010F (0x00021E) 0x1450- f:00012 d: 80 | A = A + 80 (0x0050) 0x0110 (0x000220) 0x2908- f:00024 d: 264 | OR[264] = A 0x0111 (0x000222) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0112 (0x000224) 0x2929- f:00024 d: 297 | OR[297] = A 0x0113 (0x000226) 0x2119- f:00020 d: 281 | A = OR[281] 0x0114 (0x000228) 0x1451- f:00012 d: 81 | A = A + 81 (0x0051) 0x0115 (0x00022A) 0x2908- f:00024 d: 264 | OR[264] = A 0x0116 (0x00022C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0117 (0x00022E) 0x292A- f:00024 d: 298 | OR[298] = A 0x0118 (0x000230) 0x2125- f:00020 d: 293 | A = OR[293] 0x0119 (0x000232) 0x2729- f:00023 d: 297 | A = A - OR[297] 0x011A (0x000234) 0x8003- f:00100 d: 3 | P = P + 3 (0x011D), C = 0 0x011B (0x000236) 0x8402- f:00102 d: 2 | P = P + 2 (0x011D), A = 0 0x011C (0x000238) 0x7002- f:00070 d: 2 | P = P + 2 (0x011E) 0x011D (0x00023A) 0x7007- f:00070 d: 7 | P = P + 7 (0x0124) 0x011E (0x00023C) 0x7E03-0x0292 f:00077 d: 3 | R = OR[3]+658 (0x0292) 0x0120 (0x000240) 0x2128- f:00020 d: 296 | A = OR[296] 0x0121 (0x000242) 0xAE03-0x02D8 f:00127 d: 3 | P = OR[3]+728 (0x02D8), A # 0 0x0123 (0x000246) 0x7010- f:00070 d: 16 | P = P + 16 (0x0133) 0x0124 (0x000248) 0x2125- f:00020 d: 293 | A = OR[293] 0x0125 (0x00024A) 0x2729- f:00023 d: 297 | A = A - OR[297] 0x0126 (0x00024C) 0x8402- f:00102 d: 2 | P = P + 2 (0x0128), A = 0 0x0127 (0x00024E) 0x700C- f:00070 d: 12 | P = P + 12 (0x0133) 0x0128 (0x000250) 0x2126- f:00020 d: 294 | A = OR[294] 0x0129 (0x000252) 0x272A- f:00023 d: 298 | A = A - OR[298] 0x012A (0x000254) 0x8003- f:00100 d: 3 | P = P + 3 (0x012D), C = 0 0x012B (0x000256) 0x8402- f:00102 d: 2 | P = P + 2 (0x012D), A = 0 0x012C (0x000258) 0x7002- f:00070 d: 2 | P = P + 2 (0x012E) 0x012D (0x00025A) 0x7006- f:00070 d: 6 | P = P + 6 (0x0133) 0x012E (0x00025C) 0x7E03-0x0292 f:00077 d: 3 | R = OR[3]+658 (0x0292) 0x0130 (0x000260) 0x2128- f:00020 d: 296 | A = OR[296] 0x0131 (0x000262) 0xAE03-0x02D8 f:00127 d: 3 | P = OR[3]+728 (0x02D8), A # 0 0x0133 (0x000266) 0x2119- f:00020 d: 281 | A = OR[281] 0x0134 (0x000268) 0x1450- f:00012 d: 80 | A = A + 80 (0x0050) 0x0135 (0x00026A) 0x2908- f:00024 d: 264 | OR[264] = A 0x0136 (0x00026C) 0x2125- f:00020 d: 293 | A = OR[293] 0x0137 (0x00026E) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0138 (0x000270) 0x2119- f:00020 d: 281 | A = OR[281] 0x0139 (0x000272) 0x1451- f:00012 d: 81 | A = A + 81 (0x0051) 0x013A (0x000274) 0x2908- f:00024 d: 264 | OR[264] = A 0x013B (0x000276) 0x2126- f:00020 d: 294 | A = OR[294] 0x013C (0x000278) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x013D (0x00027A) 0x2118- f:00020 d: 280 | A = OR[280] 0x013E (0x00027C) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x013F (0x00027E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0140 (0x000280) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0141 (0x000282) 0x080A- f:00004 d: 10 | A = A > 10 (0x000A) 0x0142 (0x000284) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x0143 (0x000286) 0x2928- f:00024 d: 296 | OR[296] = A 0x0144 (0x000288) 0x211B- f:00020 d: 283 | A = OR[283] 0x0145 (0x00028A) 0x8604- f:00103 d: 4 | P = P + 4 (0x0149), A # 0 0x0146 (0x00028C) 0x2128- f:00020 d: 296 | A = OR[296] 0x0147 (0x00028E) 0x8602- f:00103 d: 2 | P = P + 2 (0x0149), A # 0 0x0148 (0x000290) 0x7013- f:00070 d: 19 | P = P + 19 (0x015B) 0x0149 (0x000292) 0x2118- f:00020 d: 280 | A = OR[280] 0x014A (0x000294) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x014B (0x000296) 0x2908- f:00024 d: 264 | OR[264] = A 0x014C (0x000298) 0x1003- f:00010 d: 3 | A = 3 (0x0003) 0x014D (0x00029A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x014E (0x00029C) 0x0400- f:00002 d: 0 | I = 0 0x014F (0x00029E) 0x0000- f:00000 d: 0 | PASS 0x0150 (0x0002A0) 0x2118- f:00020 d: 280 | A = OR[280] 0x0151 (0x0002A2) 0x2896- f:00024 d: 150 | OR[150] = A 0x0152 (0x0002A4) 0x7E00-0x19E9 f:00077 d: 0 | R = OR[0]+6633 (0x19E9) 0x0154 (0x0002A8) 0x7E00-0x19BF f:00077 d: 0 | R = OR[0]+6591 (0x19BF) 0x0156 (0x0002AC) 0x0600- f:00003 d: 0 | I = 1 0x0157 (0x0002AE) 0x2119- f:00020 d: 281 | A = OR[281] 0x0158 (0x0002B0) 0x143E- f:00012 d: 62 | A = A + 62 (0x003E) 0x0159 (0x0002B2) 0x2908- f:00024 d: 264 | OR[264] = A 0x015A (0x0002B4) 0x3D08- f:00036 d: 264 | (OR[264]) = (OR[264]) + 1 0x015B (0x0002B6) 0x2118- f:00020 d: 280 | A = OR[280] 0x015C (0x0002B8) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x015D (0x0002BA) 0x2908- f:00024 d: 264 | OR[264] = A 0x015E (0x0002BC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x015F (0x0002BE) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x0160 (0x0002C0) 0x8602- f:00103 d: 2 | P = P + 2 (0x0162), A # 0 0x0161 (0x0002C2) 0x7003- f:00070 d: 3 | P = P + 3 (0x0164) 0x0162 (0x0002C4) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0163 (0x0002C6) 0x291C- f:00024 d: 284 | OR[284] = A 0x0164 (0x0002C8) 0x7E03-0x02A4 f:00077 d: 3 | R = OR[3]+676 (0x02A4) 0x0166 (0x0002CC) 0x7A03-0x0290 f:00075 d: 3 | P = OR[3]+656 (0x0290) 0x0168 (0x0002D0) 0x211A- f:00020 d: 282 | A = OR[282] 0x0169 (0x0002D2) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x016A (0x0002D4) 0x8403- f:00102 d: 3 | P = P + 3 (0x016D), A = 0 0x016B (0x0002D6) 0x7A03-0x0255 f:00075 d: 3 | P = OR[3]+597 (0x0255) 0x016D (0x0002DA) 0x211B- f:00020 d: 283 | A = OR[283] 0x016E (0x0002DC) 0x8603- f:00103 d: 3 | P = P + 3 (0x0171), A # 0 0x016F (0x0002DE) 0x7A03-0x0230 f:00075 d: 3 | P = OR[3]+560 (0x0230) 0x0171 (0x0002E2) 0x2119- f:00020 d: 281 | A = OR[281] 0x0172 (0x0002E4) 0x143E- f:00012 d: 62 | A = A + 62 (0x003E) 0x0173 (0x0002E6) 0x2908- f:00024 d: 264 | OR[264] = A 0x0174 (0x0002E8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0175 (0x0002EA) 0x8602- f:00103 d: 2 | P = P + 2 (0x0177), A # 0 0x0176 (0x0002EC) 0x7003- f:00070 d: 3 | P = P + 3 (0x0179) 0x0177 (0x0002EE) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x0179 (0x0002F2) 0x2118- f:00020 d: 280 | A = OR[280] 0x017A (0x0002F4) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x017B (0x0002F6) 0x2908- f:00024 d: 264 | OR[264] = A 0x017C (0x0002F8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x017D (0x0002FA) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x017E (0x0002FC) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x017F (0x0002FE) 0x8602- f:00103 d: 2 | P = P + 2 (0x0181), A # 0 0x0180 (0x000300) 0x7007- f:00070 d: 7 | P = P + 7 (0x0187) 0x0181 (0x000302) 0x211B- f:00020 d: 283 | A = OR[283] 0x0182 (0x000304) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x0183 (0x000306) 0x8602- f:00103 d: 2 | P = P + 2 (0x0185), A # 0 0x0184 (0x000308) 0x7003- f:00070 d: 3 | P = P + 3 (0x0187) 0x0185 (0x00030A) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x0187 (0x00030E) 0x211F- f:00020 d: 287 | A = OR[287] 0x0188 (0x000310) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x0189 (0x000312) 0x8402- f:00102 d: 2 | P = P + 2 (0x018B), A = 0 0x018A (0x000314) 0x7015- f:00070 d: 21 | P = P + 21 (0x019F) 0x018B (0x000316) 0x2120- f:00020 d: 288 | A = OR[288] 0x018C (0x000318) 0x8402- f:00102 d: 2 | P = P + 2 (0x018E), A = 0 0x018D (0x00031A) 0x7007- f:00070 d: 7 | P = P + 7 (0x0194) 0x018E (0x00031C) 0x2121- f:00020 d: 289 | A = OR[289] 0x018F (0x00031E) 0x8402- f:00102 d: 2 | P = P + 2 (0x0191), A = 0 0x0190 (0x000320) 0x7004- f:00070 d: 4 | P = P + 4 (0x0194) 0x0191 (0x000322) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x0193 (0x000326) 0x700C- f:00070 d: 12 | P = P + 12 (0x019F) 0x0194 (0x000328) 0x2122- f:00020 d: 290 | A = OR[290] 0x0195 (0x00032A) 0x8408- f:00102 d: 8 | P = P + 8 (0x019D), A = 0 0x0196 (0x00032C) 0x2122- f:00020 d: 290 | A = OR[290] 0x0197 (0x00032E) 0x1E00-0x0200 f:00017 d: 0 | A = A - 512 (0x0200) 0x0199 (0x000332) 0x8003- f:00100 d: 3 | P = P + 3 (0x019C), C = 0 0x019A (0x000334) 0x8402- f:00102 d: 2 | P = P + 2 (0x019C), A = 0 0x019B (0x000336) 0x7002- f:00070 d: 2 | P = P + 2 (0x019D) 0x019C (0x000338) 0x7003- f:00070 d: 3 | P = P + 3 (0x019F) 0x019D (0x00033A) 0x7A03-0x02D8 f:00075 d: 3 | P = OR[3]+728 (0x02D8) 0x019F (0x00033E) 0x2119- f:00020 d: 281 | A = OR[281] 0x01A0 (0x000340) 0x142C- f:00012 d: 44 | A = A + 44 (0x002C) 0x01A1 (0x000342) 0x2928- f:00024 d: 296 | OR[296] = A 0x01A2 (0x000344) 0x2128- f:00020 d: 296 | A = OR[296] 0x01A3 (0x000346) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x01A4 (0x000348) 0x2908- f:00024 d: 264 | OR[264] = A 0x01A5 (0x00034A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x01A6 (0x00034C) 0x2928- f:00024 d: 296 | OR[296] = A 0x01A7 (0x00034E) 0x211B- f:00020 d: 283 | A = OR[283] 0x01A8 (0x000350) 0x2728- f:00023 d: 296 | A = A - OR[296] 0x01A9 (0x000352) 0x8003- f:00100 d: 3 | P = P + 3 (0x01AC), C = 0 0x01AA (0x000354) 0x8402- f:00102 d: 2 | P = P + 2 (0x01AC), A = 0 0x01AB (0x000356) 0x7002- f:00070 d: 2 | P = P + 2 (0x01AD) 0x01AC (0x000358) 0x7004- f:00070 d: 4 | P = P + 4 (0x01B0) 0x01AD (0x00035A) 0x2128- f:00020 d: 296 | A = OR[296] 0x01AE (0x00035C) 0x2927- f:00024 d: 295 | OR[295] = A 0x01AF (0x00035E) 0x7003- f:00070 d: 3 | P = P + 3 (0x01B2) 0x01B0 (0x000360) 0x211B- f:00020 d: 283 | A = OR[283] 0x01B1 (0x000362) 0x2927- f:00024 d: 295 | OR[295] = A 0x01B2 (0x000364) 0x211B- f:00020 d: 283 | A = OR[283] 0x01B3 (0x000366) 0x2727- f:00023 d: 295 | A = A - OR[295] 0x01B4 (0x000368) 0x291B- f:00024 d: 283 | OR[283] = A 0x01B5 (0x00036A) 0x2119- f:00020 d: 281 | A = OR[281] 0x01B6 (0x00036C) 0x144C- f:00012 d: 76 | A = A + 76 (0x004C) 0x01B7 (0x00036E) 0x2908- f:00024 d: 264 | OR[264] = A 0x01B8 (0x000370) 0x211B- f:00020 d: 283 | A = OR[283] 0x01B9 (0x000372) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01BA (0x000374) 0x2127- f:00020 d: 295 | A = OR[295] 0x01BB (0x000376) 0x8602- f:00103 d: 2 | P = P + 2 (0x01BD), A # 0 0x01BC (0x000378) 0x7024- f:00070 d: 36 | P = P + 36 (0x01E0) 0x01BD (0x00037A) 0x2118- f:00020 d: 280 | A = OR[280] 0x01BE (0x00037C) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x01BF (0x00037E) 0x2908- f:00024 d: 264 | OR[264] = A 0x01C0 (0x000380) 0x1004- f:00010 d: 4 | A = 4 (0x0004) 0x01C1 (0x000382) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01C2 (0x000384) 0x2118- f:00020 d: 280 | A = OR[280] 0x01C3 (0x000386) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x01C4 (0x000388) 0x2908- f:00024 d: 264 | OR[264] = A 0x01C5 (0x00038A) 0x2127- f:00020 d: 295 | A = OR[295] 0x01C6 (0x00038C) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01C7 (0x00038E) 0x211F- f:00020 d: 287 | A = OR[287] 0x01C8 (0x000390) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x01C9 (0x000392) 0x8402- f:00102 d: 2 | P = P + 2 (0x01CB), A = 0 0x01CA (0x000394) 0x7009- f:00070 d: 9 | P = P + 9 (0x01D3) 0x01CB (0x000396) 0x2118- f:00020 d: 280 | A = OR[280] 0x01CC (0x000398) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x01CD (0x00039A) 0x2908- f:00024 d: 264 | OR[264] = A 0x01CE (0x00039C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x01CF (0x00039E) 0x0A02- f:00005 d: 2 | A = A < 2 (0x0002) 0x01D0 (0x0003A0) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x01D1 (0x0003A2) 0x0C02- f:00006 d: 2 | A = A >> 2 (0x0002) 0x01D2 (0x0003A4) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01D3 (0x0003A6) 0x0400- f:00002 d: 0 | I = 0 0x01D4 (0x0003A8) 0x0000- f:00000 d: 0 | PASS 0x01D5 (0x0003AA) 0x2118- f:00020 d: 280 | A = OR[280] 0x01D6 (0x0003AC) 0x2896- f:00024 d: 150 | OR[150] = A 0x01D7 (0x0003AE) 0x7E00-0x19E9 f:00077 d: 0 | R = OR[0]+6633 (0x19E9) 0x01D9 (0x0003B2) 0x7E00-0x19BF f:00077 d: 0 | R = OR[0]+6591 (0x19BF) 0x01DB (0x0003B6) 0x0600- f:00003 d: 0 | I = 1 0x01DC (0x0003B8) 0x2119- f:00020 d: 281 | A = OR[281] 0x01DD (0x0003BA) 0x143E- f:00012 d: 62 | A = A + 62 (0x003E) 0x01DE (0x0003BC) 0x2908- f:00024 d: 264 | OR[264] = A 0x01DF (0x0003BE) 0x3D08- f:00036 d: 264 | (OR[264]) = (OR[264]) + 1 0x01E0 (0x0003C0) 0x211B- f:00020 d: 283 | A = OR[283] 0x01E1 (0x0003C2) 0x8603- f:00103 d: 3 | P = P + 3 (0x01E4), A # 0 0x01E2 (0x0003C4) 0x7A03-0x0230 f:00075 d: 3 | P = OR[3]+560 (0x0230) 0x01E4 (0x0003C8) 0x2127- f:00020 d: 295 | A = OR[295] 0x01E5 (0x0003CA) 0x0A09- f:00005 d: 9 | A = A < 9 (0x0009) 0x01E6 (0x0003CC) 0x2928- f:00024 d: 296 | OR[296] = A 0x01E7 (0x0003CE) 0x211D- f:00020 d: 285 | A = OR[285] 0x01E8 (0x0003D0) 0x1400- f:00012 d: 0 | A = A + 0 (0x0000) 0x01E9 (0x0003D2) 0x2929- f:00024 d: 297 | OR[297] = A 0x01EA (0x0003D4) 0x211E- f:00020 d: 286 | A = OR[286] 0x01EB (0x0003D6) 0x2528- f:00022 d: 296 | A = A + OR[296] 0x01EC (0x0003D8) 0x292A- f:00024 d: 298 | OR[298] = A 0x01ED (0x0003DA) 0x8002- f:00100 d: 2 | P = P + 2 (0x01EF), C = 0 0x01EE (0x0003DC) 0x2D29- f:00026 d: 297 | OR[297] = OR[297] + 1 0x01EF (0x0003DE) 0x2119- f:00020 d: 281 | A = OR[281] 0x01F0 (0x0003E0) 0x1449- f:00012 d: 73 | A = A + 73 (0x0049) 0x01F1 (0x0003E2) 0x2908- f:00024 d: 264 | OR[264] = A 0x01F2 (0x0003E4) 0x2129- f:00020 d: 297 | A = OR[297] 0x01F3 (0x0003E6) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01F4 (0x0003E8) 0x2119- f:00020 d: 281 | A = OR[281] 0x01F5 (0x0003EA) 0x144A- f:00012 d: 74 | A = A + 74 (0x004A) 0x01F6 (0x0003EC) 0x2908- f:00024 d: 264 | OR[264] = A 0x01F7 (0x0003EE) 0x212A- f:00020 d: 298 | A = OR[298] 0x01F8 (0x0003F0) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x01F9 (0x0003F2) 0x211F- f:00020 d: 287 | A = OR[287] 0x01FA (0x0003F4) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x01FB (0x0003F6) 0xAC03-0x0205 f:00126 d: 3 | P = OR[3]+517 (0x0205), A = 0 0x01FD (0x0003FA) 0x7A03-0x0230 f:00075 d: 3 | P = OR[3]+560 (0x0230) 0x01FF (0x0003FE) 0x2119- f:00020 d: 281 | A = OR[281] 0x0200 (0x000400) 0x144D- f:00012 d: 77 | A = A + 77 (0x004D) 0x0201 (0x000402) 0x2908- f:00024 d: 264 | OR[264] = A 0x0202 (0x000404) 0x2120- f:00020 d: 288 | A = OR[288] 0x0203 (0x000406) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0204 (0x000408) 0x2119- f:00020 d: 281 | A = OR[281] 0x0205 (0x00040A) 0x144E- f:00012 d: 78 | A = A + 78 (0x004E) 0x0206 (0x00040C) 0x2908- f:00024 d: 264 | OR[264] = A 0x0207 (0x00040E) 0x2121- f:00020 d: 289 | A = OR[289] 0x0208 (0x000410) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0209 (0x000412) 0x2122- f:00020 d: 290 | A = OR[290] 0x020A (0x000414) 0x1A00-0x7FFF f:00015 d: 0 | A = A & 32767 (0x7FFF) 0x020C (0x000418) 0x2922- f:00024 d: 290 | OR[290] = A 0x020D (0x00041A) 0x2119- f:00020 d: 281 | A = OR[281] 0x020E (0x00041C) 0x144F- f:00012 d: 79 | A = A + 79 (0x004F) 0x020F (0x00041E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0210 (0x000420) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0211 (0x000422) 0x1A00-0x8000 f:00015 d: 0 | A = A & 32768 (0x8000) 0x0213 (0x000426) 0x2522- f:00022 d: 290 | A = A + OR[290] 0x0214 (0x000428) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0215 (0x00042A) 0x2127- f:00020 d: 295 | A = OR[295] 0x0216 (0x00042C) 0x8602- f:00103 d: 2 | P = P + 2 (0x0218), A # 0 0x0217 (0x00042E) 0x700B- f:00070 d: 11 | P = P + 11 (0x0222) 0x0218 (0x000430) 0x2119- f:00020 d: 281 | A = OR[281] 0x0219 (0x000432) 0x144F- f:00012 d: 79 | A = A + 79 (0x004F) 0x021A (0x000434) 0x2908- f:00024 d: 264 | OR[264] = A 0x021B (0x000436) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x021C (0x000438) 0x0E01- f:00007 d: 1 | A = A << 1 (0x0001) 0x021D (0x00043A) 0x0A01- f:00005 d: 1 | A = A < 1 (0x0001) 0x021E (0x00043C) 0x1400- f:00012 d: 0 | A = A + 0 (0x0000) 0x021F (0x00043E) 0x0C02- f:00006 d: 2 | A = A >> 2 (0x0002) 0x0220 (0x000440) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0221 (0x000442) 0x7009- f:00070 d: 9 | P = P + 9 (0x022A) 0x0222 (0x000444) 0x2119- f:00020 d: 281 | A = OR[281] 0x0223 (0x000446) 0x144F- f:00012 d: 79 | A = A + 79 (0x004F) 0x0224 (0x000448) 0x2908- f:00024 d: 264 | OR[264] = A 0x0225 (0x00044A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0226 (0x00044C) 0x0A02- f:00005 d: 2 | A = A < 2 (0x0002) 0x0227 (0x00044E) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0228 (0x000450) 0x0C02- f:00006 d: 2 | A = A >> 2 (0x0002) 0x0229 (0x000452) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x022A (0x000454) 0x2119- f:00020 d: 281 | A = OR[281] 0x022B (0x000456) 0x1446- f:00012 d: 70 | A = A + 70 (0x0046) 0x022C (0x000458) 0x2908- f:00024 d: 264 | OR[264] = A 0x022D (0x00045A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x022E (0x00045C) 0x080B- f:00004 d: 11 | A = A > 11 (0x000B) 0x022F (0x00045E) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x0230 (0x000460) 0x8602- f:00103 d: 2 | P = P + 2 (0x0232), A # 0 0x0231 (0x000462) 0x700B- f:00070 d: 11 | P = P + 11 (0x023C) 0x0232 (0x000464) 0x2118- f:00020 d: 280 | A = OR[280] 0x0233 (0x000466) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0234 (0x000468) 0x2908- f:00024 d: 264 | OR[264] = A 0x0235 (0x00046A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0236 (0x00046C) 0x0809- f:00004 d: 9 | A = A > 9 (0x0009) 0x0237 (0x00046E) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x0238 (0x000470) 0x8402- f:00102 d: 2 | P = P + 2 (0x023A), A = 0 0x0239 (0x000472) 0x7003- f:00070 d: 3 | P = P + 3 (0x023C) 0x023A (0x000474) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x023B (0x000476) 0x291C- f:00024 d: 284 | OR[284] = A 0x023C (0x000478) 0x211C- f:00020 d: 284 | A = OR[284] 0x023D (0x00047A) 0x8602- f:00103 d: 2 | P = P + 2 (0x023F), A # 0 0x023E (0x00047C) 0x700F- f:00070 d: 15 | P = P + 15 (0x024D) 0x023F (0x00047E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0240 (0x000480) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x0241 (0x000482) 0x2908- f:00024 d: 264 | OR[264] = A 0x0242 (0x000484) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0243 (0x000486) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0244 (0x000488) 0x7448- f:00072 d: 72 | R = P + 72 (0x028C) 0x0245 (0x00048A) 0x2128- f:00020 d: 296 | A = OR[296] 0x0246 (0x00048C) 0x868C- f:00103 d: 140 | P = P + 140 (0x02D2), A # 0 0x0247 (0x00048E) 0x2119- f:00020 d: 281 | A = OR[281] 0x0248 (0x000490) 0x144B- f:00012 d: 75 | A = A + 75 (0x004B) 0x0249 (0x000492) 0x2908- f:00024 d: 264 | OR[264] = A 0x024A (0x000494) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x024B (0x000496) 0x251C- f:00022 d: 284 | A = A + OR[284] 0x024C (0x000498) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x024D (0x00049A) 0x7451- f:00072 d: 81 | R = P + 81 (0x029E) 0x024E (0x00049C) 0x703C- f:00070 d: 60 | P = P + 60 (0x028A) 0x024F (0x00049E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0250 (0x0004A0) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0251 (0x0004A2) 0x2908- f:00024 d: 264 | OR[264] = A 0x0252 (0x0004A4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0253 (0x0004A6) 0x080B- f:00004 d: 11 | A = A > 11 (0x000B) 0x0254 (0x0004A8) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x0255 (0x0004AA) 0x8602- f:00103 d: 2 | P = P + 2 (0x0257), A # 0 0x0256 (0x0004AC) 0x701B- f:00070 d: 27 | P = P + 27 (0x0271) 0x0257 (0x0004AE) 0x2118- f:00020 d: 280 | A = OR[280] 0x0258 (0x0004B0) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0259 (0x0004B2) 0x2908- f:00024 d: 264 | OR[264] = A 0x025A (0x0004B4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x025B (0x0004B6) 0x0802- f:00004 d: 2 | A = A > 2 (0x0002) 0x025C (0x0004B8) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x025D (0x0004BA) 0x8402- f:00102 d: 2 | P = P + 2 (0x025F), A = 0 0x025E (0x0004BC) 0x7002- f:00070 d: 2 | P = P + 2 (0x0260) 0x025F (0x0004BE) 0x7073- f:00070 d: 115 | P = P + 115 (0x02D2) 0x0260 (0x0004C0) 0x2119- f:00020 d: 281 | A = OR[281] 0x0261 (0x0004C2) 0x143A- f:00012 d: 58 | A = A + 58 (0x003A) 0x0262 (0x0004C4) 0x2908- f:00024 d: 264 | OR[264] = A 0x0263 (0x0004C6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0264 (0x0004C8) 0x2928- f:00024 d: 296 | OR[296] = A 0x0265 (0x0004CA) 0x2119- f:00020 d: 281 | A = OR[281] 0x0266 (0x0004CC) 0x143B- f:00012 d: 59 | A = A + 59 (0x003B) 0x0267 (0x0004CE) 0x2908- f:00024 d: 264 | OR[264] = A 0x0268 (0x0004D0) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0269 (0x0004D2) 0x2929- f:00024 d: 297 | OR[297] = A 0x026A (0x0004D4) 0x2128- f:00020 d: 296 | A = OR[296] 0x026B (0x0004D6) 0x8402- f:00102 d: 2 | P = P + 2 (0x026D), A = 0 0x026C (0x0004D8) 0x7005- f:00070 d: 5 | P = P + 5 (0x0271) 0x026D (0x0004DA) 0x2129- f:00020 d: 297 | A = OR[297] 0x026E (0x0004DC) 0x8402- f:00102 d: 2 | P = P + 2 (0x0270), A = 0 0x026F (0x0004DE) 0x7002- f:00070 d: 2 | P = P + 2 (0x0271) 0x0270 (0x0004E0) 0x7062- f:00070 d: 98 | P = P + 98 (0x02D2) 0x0271 (0x0004E2) 0x2119- f:00020 d: 281 | A = OR[281] 0x0272 (0x0004E4) 0x144C- f:00012 d: 76 | A = A + 76 (0x004C) 0x0273 (0x0004E6) 0x2908- f:00024 d: 264 | OR[264] = A 0x0274 (0x0004E8) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0275 (0x0004EA) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0276 (0x0004EC) 0x0400- f:00002 d: 0 | I = 0 0x0277 (0x0004EE) 0x0000- f:00000 d: 0 | PASS 0x0278 (0x0004F0) 0x2118- f:00020 d: 280 | A = OR[280] 0x0279 (0x0004F2) 0x289C- f:00024 d: 156 | OR[156] = A 0x027A (0x0004F4) 0x2119- f:00020 d: 281 | A = OR[281] 0x027B (0x0004F6) 0x1443- f:00012 d: 67 | A = A + 67 (0x0043) 0x027C (0x0004F8) 0x289D- f:00024 d: 157 | OR[157] = A 0x027D (0x0004FA) 0x7E00-0x201F f:00077 d: 0 | R = OR[0]+8223 (0x201F) 0x027F (0x0004FE) 0x1002- f:00010 d: 2 | A = 2 (0x0002) 0x0280 (0x000500) 0x292B- f:00024 d: 299 | OR[299] = A 0x0281 (0x000502) 0x2119- f:00020 d: 281 | A = OR[281] 0x0282 (0x000504) 0x143C- f:00012 d: 60 | A = A + 60 (0x003C) 0x0283 (0x000506) 0x292C- f:00024 d: 300 | OR[300] = A 0x0284 (0x000508) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0285 (0x00050A) 0x5800- f:00054 d: 0 | B = A 0x0286 (0x00050C) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0287 (0x00050E) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0288 (0x000510) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0289 (0x000512) 0x2918- f:00024 d: 280 | OR[280] = A 0x028A (0x000514) 0x7A03-0x0006 f:00075 d: 3 | P = OR[3]+6 (0x0006) 0x028C (0x000518) 0x1028- f:00010 d: 40 | A = 40 (0x0028) 0x028D (0x00051A) 0x292B- f:00024 d: 299 | OR[299] = A 0x028E (0x00051C) 0x1800-0x006F f:00014 d: 0 | A = 111 (0x006F) 0x0290 (0x000520) 0x292C- f:00024 d: 300 | OR[300] = A 0x0291 (0x000522) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0292 (0x000524) 0x292D- f:00024 d: 301 | OR[301] = A 0x0293 (0x000526) 0x2119- f:00020 d: 281 | A = OR[281] 0x0294 (0x000528) 0x292E- f:00024 d: 302 | OR[302] = A 0x0295 (0x00052A) 0x2118- f:00020 d: 280 | A = OR[280] 0x0296 (0x00052C) 0x292F- f:00024 d: 303 | OR[303] = A 0x0297 (0x00052E) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0298 (0x000530) 0x5800- f:00054 d: 0 | B = A 0x0299 (0x000532) 0x1800-0x2718 f:00014 d: 0 | A = 10008 (0x2718) 0x029B (0x000536) 0x7C09- f:00076 d: 9 | R = OR[9] 0x029C (0x000538) 0x2928- f:00024 d: 296 | OR[296] = A 0x029D (0x00053A) 0x0200- f:00001 d: 0 | EXIT 0x029E (0x00053C) 0x2119- f:00020 d: 281 | A = OR[281] 0x029F (0x00053E) 0x1446- f:00012 d: 70 | A = A + 70 (0x0046) 0x02A0 (0x000540) 0x2908- f:00024 d: 264 | OR[264] = A 0x02A1 (0x000542) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02A2 (0x000544) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x02A3 (0x000546) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x02A4 (0x000548) 0x2928- f:00024 d: 296 | OR[296] = A 0x02A5 (0x00054A) 0x2128- f:00020 d: 296 | A = OR[296] 0x02A6 (0x00054C) 0x8402- f:00102 d: 2 | P = P + 2 (0x02A8), A = 0 0x02A7 (0x00054E) 0x7020- f:00070 d: 32 | P = P + 32 (0x02C7) 0x02A8 (0x000550) 0x211C- f:00020 d: 284 | A = OR[284] 0x02A9 (0x000552) 0x8602- f:00103 d: 2 | P = P + 2 (0x02AB), A # 0 0x02AA (0x000554) 0x701D- f:00070 d: 29 | P = P + 29 (0x02C7) 0x02AB (0x000556) 0x2119- f:00020 d: 281 | A = OR[281] 0x02AC (0x000558) 0x1446- f:00012 d: 70 | A = A + 70 (0x0046) 0x02AD (0x00055A) 0x2908- f:00024 d: 264 | OR[264] = A 0x02AE (0x00055C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02AF (0x00055E) 0x0E04- f:00007 d: 4 | A = A << 4 (0x0004) 0x02B0 (0x000560) 0x0A01- f:00005 d: 1 | A = A < 1 (0x0001) 0x02B1 (0x000562) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x02B2 (0x000564) 0x0C05- f:00006 d: 5 | A = A >> 5 (0x0005) 0x02B3 (0x000566) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x02B4 (0x000568) 0x0400- f:00002 d: 0 | I = 0 0x02B5 (0x00056A) 0x0000- f:00000 d: 0 | PASS 0x02B6 (0x00056C) 0x2118- f:00020 d: 280 | A = OR[280] 0x02B7 (0x00056E) 0x289C- f:00024 d: 156 | OR[156] = A 0x02B8 (0x000570) 0x2119- f:00020 d: 281 | A = OR[281] 0x02B9 (0x000572) 0x1443- f:00012 d: 67 | A = A + 67 (0x0043) 0x02BA (0x000574) 0x289D- f:00024 d: 157 | OR[157] = A 0x02BB (0x000576) 0x7E00-0x201F f:00077 d: 0 | R = OR[0]+8223 (0x201F) 0x02BD (0x00057A) 0x1002- f:00010 d: 2 | A = 2 (0x0002) 0x02BE (0x00057C) 0x292B- f:00024 d: 299 | OR[299] = A 0x02BF (0x00057E) 0x2119- f:00020 d: 281 | A = OR[281] 0x02C0 (0x000580) 0x143C- f:00012 d: 60 | A = A + 60 (0x003C) 0x02C1 (0x000582) 0x292C- f:00024 d: 300 | OR[300] = A 0x02C2 (0x000584) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x02C3 (0x000586) 0x5800- f:00054 d: 0 | B = A 0x02C4 (0x000588) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x02C5 (0x00058A) 0x7C09- f:00076 d: 9 | R = OR[9] 0x02C6 (0x00058C) 0x7009- f:00070 d: 9 | P = P + 9 (0x02CF) 0x02C7 (0x00058E) 0x1017- f:00010 d: 23 | A = 23 (0x0017) 0x02C8 (0x000590) 0x292B- f:00024 d: 299 | OR[299] = A 0x02C9 (0x000592) 0x2118- f:00020 d: 280 | A = OR[280] 0x02CA (0x000594) 0x292C- f:00024 d: 300 | OR[300] = A 0x02CB (0x000596) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x02CC (0x000598) 0x5800- f:00054 d: 0 | B = A 0x02CD (0x00059A) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x02CE (0x00059C) 0x7C09- f:00076 d: 9 | R = OR[9] 0x02CF (0x00059E) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x02D0 (0x0005A0) 0x2918- f:00024 d: 280 | OR[280] = A 0x02D1 (0x0005A2) 0x0200- f:00001 d: 0 | EXIT 0x02D2 (0x0005A4) 0x2118- f:00020 d: 280 | A = OR[280] 0x02D3 (0x0005A6) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x02D4 (0x0005A8) 0x2908- f:00024 d: 264 | OR[264] = A 0x02D5 (0x0005AA) 0x1005- f:00010 d: 5 | A = 5 (0x0005) 0x02D6 (0x0005AC) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x02D7 (0x0005AE) 0x2118- f:00020 d: 280 | A = OR[280] 0x02D8 (0x0005B0) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x02D9 (0x0005B2) 0x2908- f:00024 d: 264 | OR[264] = A 0x02DA (0x0005B4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02DB (0x0005B6) 0x1A00-0xFFFE f:00015 d: 0 | A = A & 65534 (0xFFFE) 0x02DD (0x0005BA) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x02DE (0x0005BC) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x02DF (0x0005BE) 0x0400- f:00002 d: 0 | I = 0 0x02E0 (0x0005C0) 0x0000- f:00000 d: 0 | PASS 0x02E1 (0x0005C2) 0x2118- f:00020 d: 280 | A = OR[280] 0x02E2 (0x0005C4) 0x2896- f:00024 d: 150 | OR[150] = A 0x02E3 (0x0005C6) 0x7E00-0x19E9 f:00077 d: 0 | R = OR[0]+6633 (0x19E9) 0x02E5 (0x0005CA) 0x7E00-0x19DD f:00077 d: 0 | R = OR[0]+6621 (0x19DD) 0x02E7 (0x0005CE) 0x2118- f:00020 d: 280 | A = OR[280] 0x02E8 (0x0005D0) 0x289C- f:00024 d: 156 | OR[156] = A 0x02E9 (0x0005D2) 0x7E00-0x2017 f:00077 d: 0 | R = OR[0]+8215 (0x2017) 0x02EB (0x0005D6) 0x0600- f:00003 d: 0 | I = 1 0x02EC (0x0005D8) 0x7A03-0x0006 f:00075 d: 3 | P = OR[3]+6 (0x0006) 0x02EE (0x0005DC) 0x0000- f:00000 d: 0 | PASS 0x02EF (0x0005DE) 0x0000- f:00000 d: 0 | PASS

79.88604

79

0.467422

1557491826de353f6dbed242166e8173e48fd111

1,447

asm

Assembly

boot/boot.asm

hahaha235/simple-os-by-fayssalchokri-

b78734af909d1be5ee6bef5f1332cf7d4bec6ad0

[ "MIT" ]

109

2016-05-07T14:26:15.000Z

2022-03-30T16:29:04.000Z

boot/boot.asm

hahaha235/simple-os-by-fayssalchokri-

b78734af909d1be5ee6bef5f1332cf7d4bec6ad0

[ "MIT" ]

4

2019-02-16T20:19:29.000Z

2021-08-28T08:17:43.000Z

boot/boot.asm

hahaha235/simple-os-by-fayssalchokri-

b78734af909d1be5ee6bef5f1332cf7d4bec6ad0

[ "MIT" ]

20

2016-05-17T08:25:26.000Z

2021-12-07T21:29:22.000Z

;; Boot sector ;; Loads kernel from the disk into memory ;; Switches processor to 32-bit Protected Mode ;; Executes loaded kernel [org 0x7C00] [bits 16] ;; memory offset where our kernel is located KERNEL_OFFSET equ 0x1000 ;; save the boot drive number mov [BOOT_DRIVE], dl ;; update base and stack pointers mov bp, 0x9000 mov sp, bp ;; call routine that loads kernel into memory call load_kernel_into_memory ;; switch to Protected Mode call switch_to_pm jmp $ ;; routine reads kernel from disk into memory load_kernel_into_memory: ;; store all register values pusha ;; set up parameters for disk_read routine mov bx, KERNEL_OFFSET mov dh, 15 mov dl, [BOOT_DRIVE] call disk_read ;; restore register values and ret popa ret [bits 32] begin_pm: ;; Check if we can move from Protected Mode to Long Mode ;; If something went wrong (detect_lm shouldn't return at all) ;; we call execute_kernel in x32 Protected Mode call detect_lm call execute_kernel jmp $ [bits 64] begin_lm: ;; In case, if detect_lm and switch_to_lm works fine, call kernel in x64 mode call execute_kernel jmp $ execute_kernel: call KERNEL_OFFSET jmp $ %include "boot/disk/disk_read.asm" %include "boot/lm/detect_lm.asm" %include "boot/lm/switch_to_lm.asm" %include "boot/pm/gdt.asm" %include "boot/pm/switch_to_pm.asm" %include "boot/print/print_nl.asm" %include "boot/print/print_string.asm" BOOT_DRIVE: db 0 times 510 - ($-$$) db 0 dw 0xAA55

19.554054

78

0.749827

0a642137dc849aab2ea7cfaec99a0fe6979f8cdd

1,793

asm

Assembly

kernel/assembly/boot_paging.asm

Techno-coder/example_os

459cd9d4baa229b72cdedfe29c6d3cbab5acd55e

[ "MIT" ]

13

2018-06-03T03:14:50.000Z

2022-03-31T03:24:58.000Z

kernel/assembly/boot_paging.asm

Techno-coder/example_os

459cd9d4baa229b72cdedfe29c6d3cbab5acd55e

[ "MIT" ]

null

kernel/assembly/boot_paging.asm

Techno-coder/example_os

459cd9d4baa229b72cdedfe29c6d3cbab5acd55e

[ "MIT" ]

1

2021-06-25T17:19:08.000Z

%include "constants.inc" global setup_page_tables global enable_paging global invalidate_tables global pml4_table global boot_stack_top section .boot_entry bits 32 setup_page_tables: ; map first and 510th PML4 entries to PDP table ; ; We want the 510th mapped because our higher ; half kernel's address is located in the ; 510th P3 page table mov eax, pdp_table - KERNEL_BASE or eax, 0b11 ; present + writable mov [pml4_table - KERNEL_BASE], eax mov [pml4_table - KERNEL_BASE + 510 * 8], eax ; map first PDP entry to PD table mov eax, pd_table - KERNEL_BASE or eax, 0b11 ; present + writable mov [pdp_table - KERNEL_BASE], eax ; map each PD entry to a huge (2MiB) page mov ecx, 0 .next_pd_entry: mov eax, 0x200000 mul ecx or eax, 0b10000011 ; present + writable + huge mov [pd_table - KERNEL_BASE + ecx * 8], eax inc ecx cmp ecx, 512 jne .next_pd_entry .recursive_pml4_table: mov eax, pml4_table - KERNEL_BASE or eax, 0b11 ; present + writable mov [pml4_table - KERNEL_BASE + 511 * 8], eax ret enable_paging: ; load PML4 to cr3 register mov eax, pml4_table - KERNEL_BASE mov cr3, eax ; enable PAE flag in cr4 mov eax, cr4 or eax, 1 << 5 mov cr4, eax ; set the long mode bit in the EFER MSR mov ecx, 0xC0000080 rdmsr or eax, 1 << 8 wrmsr ; enable paging in the cr0 register mov eax, cr0 or eax, 1 << 31 mov cr0, eax ret section .bss align 4096 pml4_table: resb 4096 pdp_table: resb 4096 pd_table: resb 4096 page_table: resb 4096 ; We put the stack above the page tables ; to later create a guard page that protects ; us from stack overflows boot_stack_bottom: resb 16 * 4096 boot_stack_top:

22.696203

51

0.6715

c3125f1709b133481799ba9b2ea1dcdadec1f4f2

5,049

asm

Assembly

a2p3.asm

realspal/8086-assembly-programs

69f098efd5c7af02832dc8a05e0ef83a09c0df68

[ "MIT" ]

1

2022-02-28T15:57:47.000Z

a2p3.asm

realspal/8086-assembly-programs

69f098efd5c7af02832dc8a05e0ef83a09c0df68

[ "MIT" ]

null

a2p3.asm

realspal/8086-assembly-programs

69f098efd5c7af02832dc8a05e0ef83a09c0df68

[ "MIT" ]

null

;Program to sort a set of unsigned 16 bit numbers in ;ascending order using insertion sort algorithm .model small .stack 100h .data count dw 0 ;digit counter intg dw 0 ;I/O for inputnum and printnum digt dw 0 ;extracted digit var1 dw 0 ;reversed number n dw 8 ;number of entries cc dw 0 ;loop counter i dw 0 ;inner loop control of insertion sort j dw 0 ;outer loop control of insertion sort key dw 0 ;key of insertion sort m dw 0 ;index counter array dw 20 dup(0) ;array ind dw 0 ;array index val dw 0 ;array value temp dw 0;temporary variable htab db ' $' ;horizontal tab newl db 10,13,'$' ;new line msg1 db 'Enter the number of entries : $' msg2 db 'Enter $' msg3 db ' unsigned numbers :',10,13,'$' msg4 db 'Original array : $' msg5 db 'Sorted array : $' .code main proc mov ax,@data mov ds,ax ;printing msg1 mov dx,offset msg1 mov ah,9 int 21h ;taking input in n call inputnum mov bx,intg mov n,bx ;printing msg2 mov dx,offset msg2 mov ah,9 int 21h ;printing n mov bx,n mov intg,bx call printnum ;printing msg3 mov dx,offset msg3 mov ah,9 int 21h ;taking inputs in array mov cc,0 mov si,offset array loop1: call inputnum mov dx,intg mov [si],dx add si,2 inc cc mov bx,cc cmp bx,n jl loop1 ;printing msg4 mov dx,offset msg4 mov ah,9 int 21h ;printing original array mov cc,0 mov si,offset array loop2: mov dx,[si] mov intg,dx push si call printnum mov dx,offset htab mov ah,9 int 21h pop si add si,2 inc cc mov bx,cc cmp bx,n jl loop2 ;printing newl mov dx,offset newl mov ah,9 int 21h ;performing insertion sort mov j,1 loop3: mov bx,j mov i,bx dec i mov ind,bx call getvalue mov bx,val mov key,bx loop4: cmp i,0 jl exitloop4 mov bx,i mov ind,bx call getvalue mov bx,val cmp bx,key jle exitloop4 mov bx,i inc bx mov ind,bx call setvalue dec i jmp loop4 exitloop4: mov bx,key mov val,bx mov bx,i inc bx mov ind,bx call setvalue inc j mov bx,j cmp bx,n jl loop3 ;printing msg5 mov dx,offset msg5 mov ah,9 int 21h ;printing sorted array mov cc,0 mov si,offset array loop9: mov dx,[si] mov intg,dx push si call printnum mov dx,offset htab mov ah,9 int 21h pop si add si,2 inc cc mov bx,cc cmp bx,n jl loop9 ;exit program mov ah,4ch int 21h main endp getvalue proc ;val=array[ind] mov m,0 mov cx,n mov si,offset array loopget: mov bx,ind cmp bx,m ;checking if ind==m jne skipget mov bx,[si] mov val,bx mov cx,0 jmp exitget skipget: add si,2 inc m loop loopget exitget: ret getvalue endp setvalue proc ;array[ind]=val mov m,0 mov cx,n mov si,offset array loopset: mov bx,ind cmp bx,m ;checking if ind==m jne skipset mov bx,val mov [si],bx mov cx,0 jmp exitset skipset: add si,2 inc m loop loopset exitset: ret setvalue endp inputnum proc ;inputs an integer mov intg,0 iter1: mov ah,1 int 21h cmp al,13 je enditer1 sub al,48 mov ah,0 mov digt,ax mov ax,intg mov bx,10 mul bx add ax,digt mov intg,ax jmp iter1 enditer1: ret inputnum endp printnum proc ;prints an integer mov var1,0 mov count,0 iter2: mov ax,intg mov bl,10 div bl mov dl,ah mov ah,0 mov intg,ax mov al,dl mov digt,ax mov ax,var1 mov bx,10 mul bx add ax,digt mov var1,ax inc count cmp intg,0 jle enditer2 jmp iter2 enditer2: mov bx,var1 mov intg,bx mov cx,count iter3: mov ax,intg mov bl,10 div bl mov dl,ah mov ah,0 mov intg,ax add dl,48 mov ah,2 int 21h loop iter3 ret printnum endp end main

20.692623

53

0.481283

d2c23965ca6818a4b2dc1b4882f39435053da919

274

asm

Assembly

oeis/104/A104730.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/104/A104730.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/104/A104730.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A104730: Triangle read by rows: T(n,k)=C(n+1,k)-C(k,n-k+1). ; Submitted by Christian Krause ; 1,1,1,1,3,1,1,4,5,1,1,5,10,7,1,1,6,15,19,9,1,1,7,21,35,31,11 lpb $0 add $1,1 sub $0,$1 mov $2,$1 sub $2,$0 lpe add $1,1 bin $1,$0 add $2,1 bin $0,$2 sub $1,$0 mov $0,$1

16.117647

62

0.562044

24d60eddff720dd6e0da0850cdd29648d4d6c745

4,789

asm

Assembly

Transynther/x86/_processed/NONE/_xt_sm_/i7-7700_9_0x48.log_21829_1366.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NONE/_xt_sm_/i7-7700_9_0x48.log_21829_1366.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NONE/_xt_sm_/i7-7700_9_0x48.log_21829_1366.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %rbx push %rcx push %rdi push %rsi lea addresses_WT_ht+0x14b86, %rsi lea addresses_WC_ht+0x16f06, %rdi nop add %rbx, %rbx mov $41, %rcx rep movsb nop nop nop cmp $22175, %rbx pop %rsi pop %rdi pop %rcx pop %rbx ret .global s_faulty_load s_faulty_load: push %r10 push %r15 push %r8 push %r9 push %rdi push %rdx push %rsi // Store mov $0x106, %rdx nop nop nop nop nop add $14115, %r8 mov $0x5152535455565758, %r15 movq %r15, (%rdx) nop nop nop cmp $6907, %r9 // Store mov $0xf06, %r9 sub %rsi, %rsi movb $0x51, (%r9) and $32341, %r9 // Store lea addresses_PSE+0x1f706, %rdx nop nop nop nop dec %r8 mov $0x5152535455565758, %rsi movq %rsi, (%rdx) nop nop cmp $44084, %rdi // Faulty Load lea addresses_PSE+0x1f706, %r15 nop nop nop nop inc %rdx mov (%r15), %r9 lea oracles, %rdi and $0xff, %r9 shlq $12, %r9 mov (%rdi,%r9,1), %r9 pop %rsi pop %rdx pop %rdi pop %r9 pop %r8 pop %r15 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_PSE', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'congruent': 9, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'congruent': 11, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': True, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_PSE', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 7, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 9, 'same': False}} {'58': 21829} 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 */

46.95098

2,999

0.656922

7ea08e75640fbfb9a3e29894ff1bc40c1afc2d45

195

asm

Assembly

old/overflow.asm

icefoxen/old-dancer

555da3db3f00b34af881949cc5fcedb9bcf41fd7

[ "MIT" ]

null

old/overflow.asm

icefoxen/old-dancer

555da3db3f00b34af881949cc5fcedb9bcf41fd7

[ "MIT" ]

null

old/overflow.asm

icefoxen/old-dancer

555da3db3f00b34af881949cc5fcedb9bcf41fd7

[ "MIT" ]

null

; This tries to see what happens when the CPU stack overflows. ; Fun, ne? ; ; Oh, a segfault. How original. global main _start: push 0x10 call main main: mov ip, main call _start

13

62

0.671795

d20151f2b28d5baedd97a3e00fc7519d17a94fa2

461

asm

Assembly

oeis/168/A168584.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/168/A168584.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/168/A168584.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A168584: Number of ways of partitioning the multiset {1,1,2,3,...,n-1} into exactly four nonempty parts. ; Submitted by Jon Maiga ; 1,7,41,215,1041,4767,21001,90055,378881,1572527,6463161,26375895,107081521,433076287,1746588521,7029269735,28245956961,113370724047,454644109081,1822061123575,7298700653201,29226175283807 mov $1,1 mov $2,1 mov $3,2 lpb $0 sub $0,1 mul $1,4 mul $3,3 add $3,2 add $1,$3 mul $2,2 add $2,3 sub $1,$2 lpe mov $0,$1

24.263158

189

0.715835

495473ddc3dea03342740cd448bbb2f906d21ad3

484

asm

Assembly

programs/oeis/047/A047482.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/047/A047482.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/047/A047482.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A047482: Numbers that are congruent to {1, 2, 5, 7} mod 8. ; 1,2,5,7,9,10,13,15,17,18,21,23,25,26,29,31,33,34,37,39,41,42,45,47,49,50,53,55,57,58,61,63,65,66,69,71,73,74,77,79,81,82,85,87,89,90,93,95,97,98,101,103,105,106,109,111,113,114,117,119,121,122,125,127,129,130,133,135,137,138,141,143,145,146,149,151,153,154,157,159,161,162,165,167,169,170,173,175,177,178,181,183,185,186,189,191,193,194,197,199 mov $1,$0 mul $0,8 add $1,11 mod $1,4 add $0,$1 sub $0,1 div $0,4 add $0,1

40.333333

346

0.673554

1eef1d742d3f7f38491a94a94b4a713f8683c596

811

asm

Assembly

Source/hello_world.asm

AAKMakes/ASM-projects

43dcee38398c02f6c2b0ca91d7bfd72f166217ea

[ "CC0-1.0" ]

null

Source/hello_world.asm

AAKMakes/ASM-projects

43dcee38398c02f6c2b0ca91d7bfd72f166217ea

[ "CC0-1.0" ]

null

Source/hello_world.asm

AAKMakes/ASM-projects

43dcee38398c02f6c2b0ca91d7bfd72f166217ea

[ "CC0-1.0" ]

null

; A semicolon is used to begin a comment. ; ASM -- National Computer Camps Comments are ignored by assembler and are helpful ; to the reader of the program. ; === STACK SEGMENT === MyStack segment stack DB 64 dup('12345678') MyStack endS ; === DATA SEGMENT === MyData segment ; --- Declare your variables here --- helloMsg DB "Hello World$" MyData endS ; === CODE SEGMENT === MyCode segment Assume CS:MyCode,DS:MyData ; === INCLUDE DIRECTIVES === ; === PROCEDURES === Main PROC Start: MOV AX, MyData MOV DS, AX ; --- Insert your program's initial code here --- ; Print "Hello World" to the screen MOV AH,9 LEA DX,helloMsg INT 21h MOV AH, 4Ch XOR AL, AL INT 21h Main ENDP MyCode endS End Start

19.309524

84

0.604192

6422c9fcd25762d66437806437118d58fff8c9d1

719

asm

Assembly

programs/oeis/218/A218461.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/218/A218461.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/218/A218461.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A218461: Floor( prime(prime(n))/ prime(n) ). ; 1,1,2,2,2,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8 mov $2,$0 lpb $0,1 sub $0,1 mul $0,2 add $2,1 sub $0,$2 add $1,1 add $2,$1 mov $3,$1 sub $3,2 trn $3,3 trn $0,$3 add $0,$1 sub $2,1 lpe add $1,1

35.95

501

0.496523

c365acdf65a39fd993441a43f4be0f03a84263f0

6,763

asm

Assembly

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48_notsx.log_21829_1474.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48_notsx.log_21829_1474.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48_notsx.log_21829_1474.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r13 push %r14 push %r15 push %r9 push %rax push %rcx push %rdi push %rsi lea addresses_WT_ht+0xb73d, %rax nop nop nop and %rdi, %rdi movw $0x6162, (%rax) cmp $60078, %rsi lea addresses_normal_ht+0x12401, %rsi lea addresses_WT_ht+0x4b7d, %rdi clflush (%rsi) nop sub $14399, %r13 mov $108, %rcx rep movsl xor $41071, %r9 lea addresses_WT_ht+0x1723d, %rsi lea addresses_UC_ht+0x17d3d, %rdi nop nop nop and %r15, %r15 mov $53, %rcx rep movsl nop nop nop nop cmp %r13, %r13 lea addresses_WT_ht+0x12d3d, %rdi nop nop sub %rax, %rax mov (%rdi), %rcx nop nop nop and %r15, %r15 lea addresses_D_ht+0x15d3d, %r15 add $37891, %r9 mov (%r15), %ax nop nop nop nop nop and $50703, %rsi lea addresses_normal_ht+0x152ad, %rsi lea addresses_WT_ht+0xe0f7, %rdi clflush (%rsi) nop nop nop sub %r13, %r13 mov $63, %rcx rep movsb nop nop nop nop add $46933, %rcx lea addresses_WT_ht+0x17035, %r13 nop nop nop nop nop and %r9, %r9 vmovups (%r13), %ymm4 vextracti128 $1, %ymm4, %xmm4 vpextrq $1, %xmm4, %rdi and $27911, %r9 lea addresses_WT_ht+0xf13d, %r15 nop nop nop nop and $38180, %rsi mov (%r15), %r13 nop dec %rdi lea addresses_WT_ht+0xdcbd, %rsi lea addresses_UC_ht+0x3e9d, %rdi clflush (%rsi) nop and $61213, %r14 mov $32, %rcx rep movsw nop nop nop nop nop sub %rsi, %rsi lea addresses_WT_ht+0x11e3d, %r15 nop nop inc %rsi mov (%r15), %r14d nop dec %rdi lea addresses_normal_ht+0xb3d, %rsi lea addresses_A_ht+0x133d, %rdi nop add $3424, %r14 mov $24, %rcx rep movsl nop nop nop nop add $58389, %r15 pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r15 pop %r14 pop %r13 ret .global s_faulty_load s_faulty_load: push %r11 push %r12 push %r9 push %rax push %rbp push %rbx // Faulty Load lea addresses_WT+0x1b53d, %rbp nop nop nop nop sub %r9, %r9 mov (%rbp), %rax lea oracles, %rbx and $0xff, %rax shlq $12, %rax mov (%rbx,%rax,1), %rax pop %rbx pop %rbp pop %rax pop %r9 pop %r12 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'NT': True, 'AVXalign': False, 'size': 32, 'type': 'addresses_WT', 'congruent': 0}} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WT', 'congruent': 0}} <gen_prepare_buffer> {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 2, 'type': 'addresses_WT_ht', 'congruent': 8}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 4, 'type': 'addresses_WT_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 1, 'type': 'addresses_normal_ht'}} {'dst': {'same': False, 'congruent': 9, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 8, 'type': 'addresses_WT_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WT_ht', 'congruent': 9}} {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': False, 'size': 2, 'type': 'addresses_D_ht', 'congruent': 7}} {'dst': {'same': False, 'congruent': 1, 'type': 'addresses_WT_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 4, 'type': 'addresses_normal_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_WT_ht', 'congruent': 2}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WT_ht', 'congruent': 10}} {'dst': {'same': True, 'congruent': 5, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 7, 'type': 'addresses_WT_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 4, 'type': 'addresses_WT_ht', 'congruent': 8}} {'dst': {'same': False, 'congruent': 8, 'type': 'addresses_A_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 7, 'type': 'addresses_normal_ht'}} {'39': 21829} 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 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39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 39 */

37.159341

2,999

0.658879

7b4f80d3c25fdb93742a17de2c3a42e7ac4a6b81

1,544

asm

Assembly

autovectorization-tests/results/msvc19.28.29333-avx512/replace.asm

clayne/toys

ec06411e2d3b920403607888d4a573e41390ee5b

[ "BSD-2-Clause" ]

null

autovectorization-tests/results/msvc19.28.29333-avx512/replace.asm

clayne/toys

ec06411e2d3b920403607888d4a573e41390ee5b

[ "BSD-2-Clause" ]

null

autovectorization-tests/results/msvc19.28.29333-avx512/replace.asm

clayne/toys

ec06411e2d3b920403607888d4a573e41390ee5b

[ "BSD-2-Clause" ]

null

_v$ = 8 ; size = 4 void replace_epi32(std::vector<int,std::allocator<int> > &) PROC ; replace_epi32, COMDAT mov eax, DWORD PTR _v$[esp-4] mov ecx, DWORD PTR [eax+4] mov eax, DWORD PTR [eax] cmp eax, ecx je SHORT $LN17@replace_ep npad 3 $LL23@replace_ep: cmp DWORD PTR [eax], 13 ; 0000000dH jne SHORT $LN29@replace_ep mov DWORD PTR [eax], 42 ; 0000002aH $LN29@replace_ep: add eax, 4 cmp eax, ecx jne SHORT $LL23@replace_ep $LN17@replace_ep: ret 0 void replace_epi32(std::vector<int,std::allocator<int> > &) ENDP ; replace_epi32 _v$ = 8 ; size = 4 void replace_epi8(std::vector<signed char,std::allocator<signed char> > &) PROC ; replace_epi8, COMDAT mov eax, DWORD PTR _v$[esp-4] mov ecx, DWORD PTR [eax+4] mov eax, DWORD PTR [eax] cmp eax, ecx je SHORT $LN17@replace_ep npad 3 $LL23@replace_ep: cmp BYTE PTR [eax], 13 ; 0000000dH jne SHORT $LN29@replace_ep mov BYTE PTR [eax], 42 ; 0000002aH $LN29@replace_ep: inc eax cmp eax, ecx jne SHORT $LL23@replace_ep $LN17@replace_ep: ret 0 void replace_epi8(std::vector<signed char,std::allocator<signed char> > &) ENDP ; replace_epi8

38.6

102

0.50842

6563505fca9388c5863eb3abf20fe3174800f6c8

768

asm

Assembly

oeis/304/A304408.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/304/A304408.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/304/A304408.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A304408: If n = Product (p_j^k_j) then a(n) = Product ((p_j - 1)*(k_j + 1)). ; Submitted by Christian Krause ; 1,2,4,3,8,8,12,4,6,16,20,12,24,24,32,5,32,12,36,24,48,40,44,16,12,48,8,36,56,64,60,6,80,64,96,18,72,72,96,32,80,96,84,60,48,88,92,20,18,24,128,72,104,16,160,48,144,112,116,96,120,120,72,7,192,160,132,96,176,192,140,24,144,144,48,108,240,192,156,40,10,160,164,144,256,168,224,80,176,96,288,132,240,184,288,24,192,36,120,36 add $0,1 mov $1,2 lpb $0 mov $3,$0 lpb $3 mov $4,$0 mov $6,$2 cmp $6,0 add $2,$6 mod $4,$2 cmp $4,0 cmp $4,0 mov $5,$2 add $2,1 cmp $5,1 max $4,$5 sub $3,$4 mov $7,$1 lpe lpb $0 dif $0,$2 add $1,$7 mov $5,$2 lpe sub $5,1 mul $1,$5 lpe mov $0,$1 div $0,2

22.588235

323

0.557292

142a632d9a06df28e5363bb254ae9c10d9136043

146,915

asm

Assembly

marble.asm

johnkharvey/marble_madness_2600

f9dcc8a7f3b682cf43b30c202597e9430f27fa90

[ "Apache-2.0" ]

1

2022-03-24T19:01:23.000Z

marble.asm

johnkharvey/marble_madness_2600

f9dcc8a7f3b682cf43b30c202597e9430f27fa90

[ "Apache-2.0" ]

null

marble.asm

johnkharvey/marble_madness_2600

f9dcc8a7f3b682cf43b30c202597e9430f27fa90

[ "Apache-2.0" ]

null

;=================================== ; "Marble Madness" ; -- The Beginner Race ; ; (for your Atari 2600) ;=================================== ;=================================== ; Special Thanks: ; - grafixbmp ;=================================== ;=================================== ; Bank Layouts ; Bank 1 = Graphics/kernels ; Bank 2 = Collision detection handling after Bank3/Bank4 table lookup ; Bank 3 = Collision table processing for left side of screen ; Bank 4 = Collision table processing for right side of screen ;=================================== ;=================================== ; RAM Allocation ;=================================== ;--------------------- ; $80-$8F = Normal variables ;--------------------- Temp = $80 ; potentially a WORD ;------------ ; Allows us to switch banks and go to a location ; in the new bank ;------------ ReturnAddress = $82 ; a WORD SecondsRemaining = $84 FrameCounter = $85 LevelNumber = $86 LeftNumber = $87 ; and $88 RightNumber = $89 ; and $8A ; 0 = start screen / direction select screen ; 1 = level 1 play ; 2 = level 1 win GamePhase = $8B NinetyDegrees = $8C ; 0 = 90, 1 = 45 IncreasingCounter = $8D CollisionStatusFromTable = $8E ;--------------------- ; $90-$9F = Screen variables ;--------------------- SWCHAStore = $90 ScrollPointerTop = $91 ScrollPointerBottom = $92 OddFrameCheck = $93 Player0HPosition = $94 Player1HPosition = $95 Player0VPosition = $96 Player0VPosition2 = $97 ; just a bit used to slow things down Player0HPositionA = $98 Player0VPositionA = $99 Player0SpeedDown = $9A Player0SpeedUp = $9B Player0SpeedLeft = $9C Player0SpeedRight = $9D CollisionByte = $9E MarbleFallStatus = $9F ;--------------------- ; $A0-$AF = Marble RAM ;--------------------- P0MarbleRAM = $A0 ; 8 bytes ; Next is $A8 ;=================================== ; Constants NTSC = 1 DEBUG = 0 LEVEL = 0 MAXLEVELHEIGHT = 200 ANGLE_PIPE = %00000000 ANGLE_SLASH = %01000000 ANGLE_BACKSLASH = %10000000 ANGLE_MINUS = %11000000 ;=================================== ;=================================== processor 6502 include hdr/vcs.h ;=================================== MAC JUMP_TABLE ; put this at the start of every bank RORG $F000 Bank1 cmp SelectBank1 ; 3 bytes jmp Bank1Code ; 3 bytes Bank2 cmp SelectBank2 ; 3 bytes jmp Bank2Code ; 3 bytes Bank3 cmp SelectBank3 ; 3 bytes jmp Bank3Code ; 3 bytes Bank4 cmp SelectBank4 ; 3 bytes jmp Bank4Code ; 3 bytes ENDM ;=================================== MAC BANKS_AND_VECTORS; put this at the end of every bank ;RORG $FFF8 RORG $FFF6 SelectBank1 .byte $00 SelectBank2 .byte $00 SelectBank3 .byte $00 SelectBank4 .byte $00 .word Bank1; NMI .word Bank1; RESET .word Bank1; IRQ ENDM ;=================================== ;##################################################### ;##################################################### ;##################################################### ;### ### ;### Bank 1 below ### ;### ### ;##################################################### ;##################################################### ;##################################################### ;============ org $C000 ;============ JUMP_TABLE org $C018 rorg $F018 ;================= Bank1Code ;================= LDA ReturnAddress+1 CMP #>AfterCollision_InBank1 BNE TestReturnAddress2 LDA ReturnAddress CMP #<AfterCollision_InBank1 BNE TestReturnAddress2 JMP AfterCollision_InBank1 TestReturnAddress2 ;================= Start ;================= SEI CLD LDX #$FF TXS LDA #0 ClearingRAM STA 0,X ; clear $FF through $1 (not $0, VSYNC). DEX BNE ClearingRAM ; Stuff for First screen LDA #0 ; startup phase "Marble Madness" screen STA GamePhase STA NinetyDegrees STA FrameCounter ; zero-frame for seconds timer ;================= GameInitBank1 ;================= ; Do init stuff LDA #200 STA ScrollPointerTop ; highest for practiceLevel LDA #(200-89) STA ScrollPointerBottom ; lowest LDA #1 STA OddFrameCheck ; even frame LDA #78 STA Player0HPosition LDA #189 STA Player0VPosition ; these are divided by 2, so pos is 20. LDA #0 STA Player0VPosition2 ; 0 or 1, frame counter to slow ball STA Player0HPositionA ; speed STA Player0VPositionA ; speed STA Player0SpeedDown STA Player0SpeedUp STA Player0SpeedLeft STA Player0SpeedRight STA LevelNumber ; level zero STA MarbleFallStatus LDA #$60 ; BCD, so hex STA SecondsRemaining LDA #>Numbers STA RightNumber+1 STA LeftNumber+1 ;================= MainLoopBank1 ;================= JSR VerticalBlankBank1 ; Execute the vertical blank. ; different game phases have different kernels INC IncreasingCounter ; always increases LDA GamePhase BNE NotGamePhaseZero ; Game phase zero JSR ResetSelectCheck JSR GameCalcStartScreenBank1 ; Do calculations during Vblank JSR TitleScreenBank1 ; Draw the screen JMP AfterDrawScreen NotGamePhaseZero CMP #1 BEQ GamePhaseOne CMP #2 BEQ GamePhaseTwo JMP AfterDrawScreen GamePhaseOne GamePhaseTwo JSR ResetSelectCheck JSR GameCalcBank1 ; Do calculations during Vblank JSR DrawScreenBank1 ; Draw the screen AfterDrawScreen JSR OverScanBank1 ; Do more calculations during overscan ;================== JMP MainLoopBank1 ; Continue forever. ;================== ;================= VerticalBlankBank1 ;================= LDX #0 LDA #2 STA WSYNC STA VSYNC ; Begin vertical sync. STA WSYNC ; First line of VSYNC STA WSYNC ; Second line of VSYNC. IF NTSC LDA #44 ELSE ; (PAL) LDA #54 ENDIF STA TIM64T LDA #0 ; Now we can end the VSYNC period. STA WSYNC ; Third line of VSYNC. STA VSYNC ; (0) ;================== RTS ;================== ;======================== ; Reset/select pressed ;======================== ResetSelectCheck LDA SWCHB AND #%00000001 BNE ResetNotPressed LDX #$FF TXS IF NTSC LDY #0 LDX #249 ELSE ; PAL LDY #1 LDX #43 ENDIF WsyncLoopOnReset STA WSYNC DEX BNE WsyncLoopOnReset DEY BPL WsyncLoopOnReset JMP GameInitBank1 ResetNotPressed RTS ;================= ;================= GameCalcStartScreenBank1 ;================= ; if fire button pressed, then game on LDA INPT4 BMI LeftFireButtonNotPressed LDA #1 STA GamePhase LeftFireButtonNotPressed ; if left/right pressed, increase 90orf5 LDA SWCHA BPL RightPressedStartScreen ROL BPL LeftPressedStartScreen JMP AfterLeftRightStartScreen RightPressedStartScreen LDA #1 STA NinetyDegrees JMP AfterLeftRightStartScreen LeftPressedStartScreen LDA #0 STA NinetyDegrees AfterLeftRightStartScreen RTS ;================= GameCalcBank1 ;================= ;================= ; Deal with timer countdown ;================= LDA SecondsRemaining BNE GameNotOver ; Game Over JMP NoPlayerMovement GameNotOver INC FrameCounter LDA FrameCounter CMP #60 BNE Not60Frames LDA #0 STA FrameCounter SED ; BCD IF DEBUG = 1 LDA SecondsRemaining SEC SBC #0 STA SecondsRemaining ELSE LDA GamePhase CMP #2 BEQ WeWonDontDecTimer LDA SecondsRemaining SEC SBC #1 STA SecondsRemaining WeWonDontDecTimer ENDIF CLD ; back to normal math Not60Frames ;================= ;================= LDA SWCHA STA SWCHAStore ;================= ;================= LDA MarbleFallStatus BEQ TransformSWCHA JMP InitialJoyCheckDone ;================= ;================= ; Transform SWCHA - based on 45 or 90 ;================= TransformSWCHA LDA NinetyDegrees BEQ DealWithUp ; 45 degree transformation ; right / left / down / up LDA SWCHAStore BPL Transform45Right ROL BPL Transform45Left ROL BPL Transform45Down ROL BPL Transform45Up JMP DealWithUp ; nothing really to do, no direction pressed Transform45Right LDA #%01011111 ; right goes down and right STA SWCHAStore JMP DealWithUp ; first transformation done Transform45Left LDA #%10101111 ; left goes up and left STA SWCHAStore JMP DealWithUp ; first transformation done Transform45Down LDA #%10011111 ; down goes down and left STA SWCHAStore JMP DealWithUp ; first transformation done Transform45Up LDA #%01101111 ; up goes up and right STA SWCHAStore ; first transformation done ;================= ; Transform SWCHA - based on inertia ;================= DealWithUp LDA SWCHAStore AND #%00010000 ; up BNE UpNotPressed ; Up pressed. Are we going down? LDA Player0SpeedDown BEQ NotMovingDownAndUpPressed DEC Player0SpeedDown DEC Player0SpeedDown JMP DontMoveUp NotMovingDownAndUpPressed ; LDA Player0SpeedUp CMP #$FE ; going top speed? BEQ UpNotPressed INC Player0SpeedUp INC Player0SpeedUp UpNotPressed LDA Player0SpeedUp CLC ADC Player0VPositionA STA Player0VPositionA BCC DontMoveUp LDA SWCHAStore AND #%11101111 STA SWCHAStore JMP DealWithDown DontMoveUp LDA SWCHAStore ORA #%00010000 STA SWCHAStore ;================= DealWithDown LDA SWCHAStore AND #%00100000 ; down BNE DownNotPressed ; Down Pressed. Are we going up? LDA Player0SpeedUp BEQ NotMovingUpAndDownPressed DEC Player0SpeedUp DEC Player0SpeedUp JMP DontMoveDown NotMovingUpAndDownPressed LDA Player0SpeedDown CMP #$FE BEQ DownNotPressed INC Player0SpeedDown INC Player0SpeedDown DownNotPressed ;LDA Player0SpeedDown ;CLC ;ADC Player0VPositionA ;STA Player0VPositionA LDA Player0VPositionA SEC SBC Player0SpeedDown STA Player0VPositionA ; BCS DontMoveDown LDA SWCHAStore AND #%11011111 STA SWCHAStore JMP DealWithLeft DontMoveDown LDA SWCHAStore ORA #%00100000 STA SWCHAStore ;================= DealWithLeft LDA SWCHAStore AND #%01000000 ; left BNE LeftNotPressed ; Left pressed. Are we going right? LDA Player0SpeedRight BEQ NotMovingRightAndLeftPressed DEC Player0SpeedRight DEC Player0SpeedRight JMP DontMoveLeft NotMovingRightAndLeftPressed LDA Player0SpeedLeft CMP #$FE ; going top speed? BEQ LeftNotPressed INC Player0SpeedLeft INC Player0SpeedLeft LeftNotPressed ;LDA Player0SpeedLeft ;CLC ;ADC Player0HPositionA ;STA Player0HPositionA LDA Player0HPositionA SEC SBC Player0SpeedLeft STA Player0HPositionA ; BCS DontMoveLeft LDA SWCHAStore AND #%10111111 STA SWCHAStore JMP DealWithRight DontMoveLeft LDA SWCHAStore ORA #%01000000 STA SWCHAStore ;================= DealWithRight LDA SWCHAStore AND #%10000000 ; right BNE RightNotPressed ; Right pressed. Are we going left? LDA Player0SpeedLeft BEQ NotMovingLeftAndRightPressed DEC Player0SpeedLeft DEC Player0SpeedLeft JMP DontMoveRight NotMovingLeftAndRightPressed ; LDA Player0SpeedRight CMP #$FE ; going top speed? BEQ RightNotPressed INC Player0SpeedRight INC Player0SpeedRight RightNotPressed LDA Player0SpeedRight CLC ADC Player0HPositionA STA Player0HPositionA BCC DontMoveRight LDA SWCHAStore AND #%01111111 STA SWCHAStore JMP NoMoreDirections DontMoveRight LDA SWCHAStore ORA #%10000000 STA SWCHAStore NoMoreDirections ;================= ;================= ; Joystick up/down movement ;================= RealJoyChecks LDA SWCHAStore AND #%00010000 ; up BNE CheckDown HandleDown ; Can we move Player0 down? LDA Player0VPosition ; start value 160 SEC SBC ScrollPointerBottom CMP #80 BEQ ScrollFrameDown ; otherwise, move the ball down INC Player0VPosition2 LDA Player0VPosition2 AND #1 BNE CheckDown INC Player0VPosition JMP CheckDown ScrollFrameDown LDA ScrollPointerTop CMP #MAXLEVELHEIGHT BEQ CheckDown LDA OddFrameCheck BNE ScrollDown2 INC OddFrameCheck JMP CheckDown ; can turn to BNE later ScrollDown2 LDA #0 STA OddFrameCheck INC ScrollPointerTop INC ScrollPointerBottom CheckDown LDA SWCHAStore AND #%00100000 ; down BNE CheckRight HandleUp ; Can we move Player0 up? LDA Player0VPosition ; start value 160 SEC SBC ScrollPointerBottom CMP #10 BEQ ScrollFrameUp ; otherwise, move the ball up INC Player0VPosition2 LDA Player0VPosition2 AND #1 BNE CheckRight DEC Player0VPosition JMP CheckRight ScrollFrameUp LDA ScrollPointerTop CMP #89 ; always the bottom BEQ CheckRight LDA OddFrameCheck BEQ ScrollUp2 DEC OddFrameCheck JMP CheckRight ScrollUp2 LDA #1 STA OddFrameCheck DEC ScrollPointerTop DEC ScrollPointerBottom CheckRight LDA SWCHAStore AND #%10000000 ; right BNE CheckLeft LDA Player0HPosition CMP #136 ; right hand extrema BEQ CheckLeft INC Player0HPosition CheckLeft LDA SWCHAStore AND #%01000000 ; left BNE InitialJoyCheckDone LDA Player0HPosition CMP #16 ; left hand extrema BEQ InitialJoyCheckDone DEC Player0HPosition InitialJoyCheckDone ;================= ;================= ; set up P0/P1 for timer for frame ;================= NoPlayerMovement STA WSYNC LDY #7 PlayerCoarseLoop DEY BPL PlayerCoarseLoop NOP STA RESP0 STA RESP1 LDA #%00110000 STA HMP0 LDA #%01000000 STA HMP1 STA WSYNC STA HMOVE ;================== ;================== ; Load Marble data into RAM ;================== LDA MarbleFallStatus BEQ KeepMarbleSame ; play a noise LDA #6 STA AUDC0 LDA #7 STA AUDV0 LDA MarbleFallStatus STA AUDF0 ; other stuff LDA IncreasingCounter AND #%00000111 BNE KeepMarbleSame INC MarbleFallStatus LDA MarbleFallStatus CMP #8 BNE KeepMarbleSame LDA #0 STA MarbleFallStatus KeepMarbleSame LDX #7 LDA #7 CLC ADC MarbleFallStatus ;SEC ;SBC #1 ; just in case TAY P0MarbleInRamLoop LDA Marble1,Y STA P0MarbleRAM,X DEY DEX BPL P0MarbleInRamLoop LDA #0 STA P0MarbleRAM RTS ;================== RTS ;================== ;================== ;ORG $C400 align 256 ;================== Numbers ; Should be on a page boundary to be effective NumberZero dc.b %00011000 dc.b %00100100 dc.b %00100100 dc.b %00100100 dc.b %00100100 dc.b %00100100 dc.b %00011000 dc.b 0 NumberOne dc.b %00011100 dc.b %00001000 dc.b %00001000 dc.b %00001000 dc.b %00001000 dc.b %00011000 dc.b %00001000 dc.b 0 NumberTwo dc.b %00111100 dc.b %00100000 dc.b %00100000 dc.b %00011000 dc.b %00000100 dc.b %00100100 dc.b %00011000 dc.b 0 NumberThree dc.b %00111000 dc.b %00000100 dc.b %00000100 dc.b %00011000 dc.b %00000100 dc.b %00000100 dc.b %00111000 dc.b 0 NumberFour dc.b %00000100 dc.b %00000100 dc.b %00000100 dc.b %00111100 dc.b %00100100 dc.b %00100100 dc.b %00100100 dc.b 0 NumberFive dc.b %00011000 dc.b %00100100 dc.b %00000100 dc.b %00011000 dc.b %00100000 dc.b %00100000 dc.b %00111100 dc.b 0 NumberSix dc.b %00011000 dc.b %00100100 dc.b %00100100 dc.b %00111000 dc.b %00100000 dc.b %00100000 dc.b %00011000 dc.b 0 NumberSeven dc.b %00010000 dc.b %00010000 dc.b %00001000 dc.b %00001000 dc.b %00000100 dc.b %00000100 dc.b %00111100 dc.b 0 NumberEight dc.b %00011000 dc.b %00100100 dc.b %00100100 dc.b %00011000 dc.b %00100100 dc.b %00100100 dc.b %00011000 dc.b 0 NumberNine dc.b %00011000 dc.b %00100100 dc.b %00000100 dc.b %00011100 dc.b %00100100 dc.b %00100100 dc.b %00011000 dc.b 0 Marble1 IF DEBUG == 1 ; debug marble dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00011000 dc.b %00000000 dc.b %00011000 dc.b %00000000 dc.b %00000000 ELSE dc.b %00000000 dc.b %00011000 dc.b %00111100 dc.b %01111110 dc.b %01111110 dc.b %01111110 dc.b %00111100 dc.b %00011000 ENDIF ; Marble space dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00000000 dc.b %00000000 JoyStickGfx90 dc.b %00000000 dc.b %11101110 dc.b %00101010 dc.b %00101010 dc.b %11101010 dc.b %10101010 dc.b %10101010 dc.b %11101110 JoyStickGfx45 dc.b %00000000 dc.b %00101110 dc.b %00100010 dc.b %00100010 dc.b %11101110 dc.b %10101000 dc.b %10101000 dc.b %10101110 ;================= TitleScreenBank1 ;================= LDA INTIM BNE TitleScreenBank1 ; Whew! STA WSYNC ; [0] STA VBLANK ; Enable drawing again (set vblank to 0) LDA #0 STA COLUBK LDA #1 STA CTRLPF ; reflected LDA #$0E STA COLUP0 STA COLUP1 LDX NinetyDegrees LDA IncreasingCounter LSR AND #$0F STA COLUP0,X NOP NOP STA RESP0 NOP NOP NOP STA RESP1 LDY #10 TitleScreenLoop1 STA WSYNC DEY BNE TitleScreenLoop1 ;---------- LDY #53 ; screen logo 54 high (can be 108) TitleScreenLoop2 ;LDA #$88 ;STA COLUBK ;STA WSYNC ;DEY ;BPL TitleScreenLoop2 ;========== STA WSYNC ; [3, = first odd frame completed] ;========== IF NTSC LDA #$82 ; blue ELSE ; (PAL) LDA #$D2 ; blue ENDIF STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Title_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA Title_PF2_2,Y ; [4, 16] STA PF2 ; [3, 19] NOP ; [2, 21] NOP ; [2, 23] NOP ; [2, 25] NOP ; [2, 27] NOP ; [2, 29] NOP ; [2, 31] LDA $80 ; [3, 34] LDA Title_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Title_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == DEY BPL TitleScreenLoop2 ;======================= LDA #0 STA COLUBK STA PF1 STA PF2 LDY #40 TitleScreenLoop3 STA WSYNC DEY BNE TitleScreenLoop3 LDY #7 TitleScreenLoop4 LDA JoyStickGfx90,Y STA GRP0 LDA JoyStickGfx45,Y STA GRP1 STA WSYNC DEY BPL TitleScreenLoop4 LDY #79 TitleScreenLoop5 STA WSYNC DEY BNE TitleScreenLoop5 ;================= JMP CleanupScreen ;================= ;================= DrawScreenBank1 ;================= LDA INTIM BNE DrawScreenBank1 ; Whew! STA WSYNC ; [0] STA VBLANK ; Enable drawing again (set vblank to 0) ; First 2 lines of kernel are set-up for main stuff. ;LDA #0 ;STA COLUBK LDA #1 STA CTRLPF ; reflected ;=========== ; DRAW THE TIMER section IF NTSC LDA #$82 ; blue ELSE ; (PAL) LDA #$D2 ; blue ENDIF STA COLUPF LDA #$0E ; same as NTSC/PAL STA COLUP0 STA COLUP1 LDA #$C0 STA PF2 LDA SecondsRemaining AND #%00001111 ; mask out right digit ASL ASL ASL STA RightNumber LDA SecondsRemaining AND #%11110000 ; mask out left digit CLC LSR STA LeftNumber LDY #6 STA WSYNC ; 1 blue line for score ScoreLoop LDA (LeftNumber),Y ;LDA NumberFive,Y STA GRP0 LDA (RightNumber),Y ;LDA NumberFive,Y STA GRP1 STA WSYNC DEY BPL ScoreLoop LDA #0 STA GRP0 STA GRP1 IF NTSC IF DEBUG = 1 LDA #$0E ELSE LDA #$82 ; blue ENDIF ELSE ; (PAL) LDA #$D2 ; blue ENDIF STA COLUP0 ; Define player 2 as red ;=========== ;LDY #(89-1) ; (89*2 = 178 + 8 + 2 + 4 on top = 192) LDY ScrollPointerTop DEY ; we need to set P0's position. ;==================== ; Calculate P1,P0 HPos ;==================== ; coarse/fine setting of P1 graphic HPos ; code by vdub_bobby LDX #0 LDA Player0HPosition NOP NOP NOP NOP NOP NOP NOP NOP NOP NOP NOP STX PF2 ; Calculate Player's left/right position on screen CalculatePlayersHPosLoop sec sta HMCLR sta WSYNC ; [5] DivideLoopPlayersBank1 sbc #15 bcs DivideLoopPlayersBank1 eor #7 asl asl asl asl sta.wx HMP0,X sta RESP0,X sta WSYNC ; [6] sta HMOVE STA WSYNC ; without this line, we screw up P1 positioning by ; touching HMP1 with an HMCLR too early on P0 positioning ;DEX ;LDA Player1HPosition ;BPL CalculatePlayersHPosLoop STA WSYNC ; to even out ;========== LDA OddFrameCheck BEQ DrawLoopBank1Pass1 STA WSYNC ; [1] ;========== DrawLoopBank1Pass1 ;========== STA WSYNC ; [2, 4 = first even frame completed] ;========== LDA #$08 ; white ; [2] (same as NTSC and PAL) STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_WhiteData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA Level_0_WhiteData_PF2_2,Y ; [4, 16] STA PF2 ; [3, 19] NOP ; [2, 21] NOP ; [2, 23] NOP ; [2, 25] NOP ; [2, 27] NOP ; [2, 29] NOP ; [2, 31] LDA $80 ; [3, 34] LDA Level_0_WhiteData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_WhiteData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == ;========== STA WSYNC ; [3, = first odd frame completed] ;========== IF LEVEL == 0 IF NTSC LDA #$22 ; brown ELSE ; (PAL) LDA #$42 ; brown ENDIF ENDIF IF LEVEL == 1 IF NTSC LDA #$82 ; blue ELSE ; (PAL) LDA #$D2 ; blue ENDIF ENDIF STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_BlueData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA Level_0_BlueData_PF2_2,Y ; [4, 16] STA PF2 ; [3, 19] NOP ; [2, 21] NOP ; [2, 23] NOP ; [2, 25] NOP ; [2, 27] NOP ; [2, 29] NOP ; [2, 31] LDA $80 ; [3, 34] LDA Level_0_BlueData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_BlueData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == DEY ;CPY ScrollPointerBottom CPY Player0VPosition BNE DrawLoopBank1Pass1 ;======================= ;================= LDX #7 ; marble frames DrawLoopBank1Pass2 ;========== STA WSYNC ; [2, 4 = first even frame completed] ;========== LDA #$08 ; white ; [2] (same as NTSC and PAL) STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_WhiteData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA P0MarbleRAM,X ; [4 , 16] STA GRP0 ; [3, 19] LDA Level_0_WhiteData_PF2_2,Y ; [4, 23] STA PF2 ; [3, 26] NOP ; [2, 28] NOP ; [2, 30] NOP ; [2, 32] NOP ; [2, 34] LDA Level_0_WhiteData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_WhiteData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == DEX ; marble pointer ;========== STA WSYNC ; [3, = first odd frame completed] ;========== IF LEVEL == 0 IF NTSC LDA #$22 ; brown ELSE ; (PAL) LDA #$42 ; brown ENDIF ENDIF IF LEVEL == 1 IF NTSC LDA #$82 ; blue ELSE ; (PAL) LDA #$D2 ; blue ENDIF ENDIF STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_BlueData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA P0MarbleRAM,X ; [4 , 16] STA GRP0 ; [3, 19] LDA Level_0_BlueData_PF2_2,Y ; [4, 23] STA PF2 ; [3, 26] NOP ; [2, 28] NOP ; [2, 30] NOP ; [2, 32] NOP ; [2, 34] LDA Level_0_BlueData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_BlueData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == DEY ; frame pointer DEX ; marble pointer BPL DrawLoopBank1Pass2 ;======================= ;============= DrawLoopBank1Pass3 ;========== STA WSYNC ; [2, 4 = first even frame completed] ;========== LDA #$08 ; white ; [2] (same as NTSC and PAL) STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_WhiteData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA Level_0_WhiteData_PF2_2,Y ; [4, 16] STA PF2 ; [3, 19] NOP ; [2, 21] NOP ; [2, 23] NOP ; [2, 25] NOP ; [2, 27] NOP ; [2, 29] NOP ; [2, 31] LDA $80 ; [3, 34] LDA Level_0_WhiteData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_WhiteData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == ;========== STA WSYNC ; [3, = first odd frame completed] ;========== IF LEVEL == 0 IF NTSC LDA #$22 ; brown ELSE ; (PAL) LDA #$42 ; brown ENDIF ENDIF IF LEVEL == 1 IF NTSC LDA #$82 ; blue ELSE ; (PAL) LDA #$D2 ; blue ENDIF ENDIF STA COLUPF ; [3, 5] ;==== NEW CODE ==== LDA Level_0_BlueData_PF1_1,Y ; [4, 9] STA PF1 ; [3, 12] LDA Level_0_BlueData_PF2_2,Y ; [4, 16] STA PF2 ; [3, 19] NOP ; [2, 21] NOP ; [2, 23] NOP ; [2, 25] NOP ; [2, 27] NOP ; [2, 29] NOP ; [2, 31] LDA $80 ; [3, 34] LDA Level_0_BlueData_PF1_4,Y ; [4, 38] STA PF1 ; [3, 41] LDA Level_0_BlueData_PF2_3,Y ; [4, 45] STA PF2 ; [3, 48] ;== END NEW CODE == DEY CPY ScrollPointerBottom BPL DrawLoopBank1Pass3 ;======================= ;======================== ; scanline 192 ;======================== CleanupScreen ; Clear all registers here to prevent any possible bleeding. LDA #2 STA WSYNC ; Finish this scanline. STA VBLANK ; Make TIA output invisible, ; Now we need to worry about it bleeding when we turn ; the TIA output back on. LDY #0 STY PF0 STY PF1 STY PF2 STY GRP1 STY GRP0 STY VDELP1 STY ENAM0 STY ENAM1 STY ENABL ;========== LDA OddFrameCheck BNE ReturnFromDrawScreen STA WSYNC ;========== ReturnFromDrawScreen ;================== RTS ;================== ;================= OverScanBank1 ;================= IF NTSC LDA #35 ELSE ; (PAL) LDA #85 ENDIF STA TIM64T ;================= GameCalc2Bank1 ;================= ;================== ; Handle collisions ;================== JMP Bank3 ;(JSR HandleCollision) ;================== ; Clear them for next time ;================== AfterCollision_InBank1 LDA #0 STA CXCLR ;============================ ; Loop to get our 30 scanlines for overscan ;============================ WaitForEndOfOverscanBank1 LDA INTIM BNE WaitForEndOfOverscanBank1 STA WSYNC ; finish scanline 30 ;================== RTS ;================== ;==================== ; GRAPHICS DATA BELOW ;==================== ;REF=- (D0 of CTRLPF) ;| 4567 | 76543210 | 01234567 | 4567 | 76543210 | 01234567 | ;| PF0 | PF1 | PF2 | PF0 | PF1 | PF2 | ; ;REF=1 (D0 of CTRLPF) ;| 4567 | 76543210 | 01234567 | 76543210 | 01234567 | 7654 | ;| PF0 | PF1 | PF2 | PF2 | PF1 | PF0 | ;========== ;ORG $C700 align 256 ;========== Level_0_WhiteData_PF1_1 ; 20-0 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 ; 40-21 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $82 dc.b $A2 dc.b $83 dc.b $A0 dc.b $C5 dc.b $22 dc.b $57 dc.b $AA dc.b $F4 dc.b $BA dc.b $5D dc.b $2E dc.b $17 dc.b $0A dc.b $15 ; 60-41 dc.b $8A dc.b $DC dc.b $A8 dc.b $50 dc.b $A8 dc.b $5C dc.b $AA dc.b $55 dc.b $BA dc.b $55 dc.b $AA dc.b $75 dc.b $AA dc.b $D5 dc.b $A9 dc.b $71 dc.b $A9 dc.b $C9 dc.b $A9 dc.b $29 ; 80-61 dc.b $A9 dc.b $A8 dc.b $A8 dc.b $AA dc.b $A9 dc.b $A9 dc.b $A9 dc.b $AB dc.b $A8 dc.b $A8 dc.b $A8 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA ; 100-81 dc.b $AA dc.b $AB dc.b $A8 dc.b $AD dc.b $A2 dc.b $B5 dc.b $88 dc.b $D9 dc.b $22 dc.b $67 dc.b $8A dc.b $1D dc.b $2A dc.b $77 dc.b $AA dc.b $9D dc.b $AA dc.b $A7 dc.b $AA dc.b $A9 ; 120-101 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AB dc.b $A8 dc.b $A9 dc.b $A8 dc.b $AD dc.b $AB dc.b $A3 dc.b $A3 dc.b $B5 dc.b $AE dc.b $8F ; 140-121 dc.b $8F dc.b $D7 dc.b $BB dc.b $3D dc.b $3E dc.b $5F dc.b $EF dc.b $F6 dc.b $FA dc.b $FD dc.b $7D dc.b $B9 dc.b $D8 dc.b $A0 dc.b $60 dc.b $A8 dc.b $C8 dc.b $B4 dc.b $70 dc.b $B2 ; 160-141 dc.b $AA dc.b $DD dc.b $DC dc.b $AC dc.b $AA dc.b $77 dc.b $72 dc.b $AD dc.b $AE dc.b $DF dc.b $CE dc.b $B6 dc.b $B9 dc.b $7D dc.b $BA dc.b $DA dc.b $A7 dc.b $77 dc.b $AA dc.b $9A ; 180-161 dc.b $BD dc.b $59 dc.b $16 dc.b $2E dc.b $0F dc.b $16 dc.b $25 dc.b $2A dc.b $23 dc.b $32 dc.b $29 dc.b $2A dc.b $17 dc.b $46 dc.b $26 dc.b $29 dc.b $5D dc.b $9A dc.b $1A dc.b $27 ; 200-181 dc.b $77 dc.b $AA dc.b $DA dc.b $BD dc.b $79 dc.b $B6 dc.b $AE dc.b $DF dc.b $DE dc.b $AC dc.b $A8 dc.b $70 dc.b $70 dc.b $A0 dc.b $A0 dc.b $C0 dc.b $C0 dc.b $80 dc.b $80 dc.b $00 Title_PF1_1 ; 1 dc.b $00 ; unused for now ; 20 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AB dc.b $AB dc.b $AB dc.b $AB dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $FB dc.b $FB dc.b $FB dc.b $FB dc.b $FB dc.b $51 ; 8 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 20 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AB dc.b $AB dc.b $AB dc.b $AB dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $FB dc.b $FB dc.b $FB dc.b $FB dc.b $FB dc.b $51 ; 5 dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now ; 1 dc.b $FF ; unused for now ;========== ;ORG $C800 align 256 ;========== Level_0_WhiteData_PF2_2 ; 20-0 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $01 ; 40-21 dc.b $05 dc.b $01 dc.b $05 dc.b $01 dc.b $05 dc.b $03 dc.b $04 dc.b $0E dc.b $15 dc.b $3B dc.b $51 dc.b $E0 dc.b $40 dc.b $80 dc.b $00 dc.b $00 dc.b $01 dc.b $03 dc.b $05 dc.b $0A ; 60-41 dc.b $13 dc.b $2B dc.b $4D dc.b $AC dc.b $34 dc.b $B0 dc.b $D0 dc.b $C8 dc.b $49 dc.b $2B dc.b $29 dc.b $AA dc.b $6A dc.b $8A dc.b $5A dc.b $22 dc.b $56 dc.b $C8 dc.b $D5 dc.b $B2 ; 80-61 dc.b $36 dc.b $2D dc.b $13 dc.b $2B dc.b $4A dc.b $AD dc.b $34 dc.b $B0 dc.b $D4 dc.b $C5 dc.b $55 dc.b $15 dc.b $55 dc.b $D5 dc.b $15 dc.b $B5 dc.b $45 dc.b $2D dc.b $51 dc.b $CB ; 100-81 dc.b $D4 dc.b $B2 dc.b $35 dc.b $A6 dc.b $56 dc.b $9A dc.b $59 dc.b $6B dc.b $65 dc.b $AE dc.b $95 dc.b $BB dc.b $55 dc.b $EE dc.b $55 dc.b $BB dc.b $55 dc.b $EE dc.b $55 dc.b $BB ; 120-101 dc.b $55 dc.b $EE dc.b $55 dc.b $B9 dc.b $55 dc.b $ED dc.b $55 dc.b $BB dc.b $55 dc.b $EE dc.b $55 dc.b $BB dc.b $55 dc.b $EE dc.b $55 dc.b $BB dc.b $55 dc.b $EF dc.b $4F dc.b $B6 ; 140-121 dc.b $55 dc.b $EB dc.b $47 dc.b $8D dc.b $03 dc.b $88 dc.b $1C dc.b $AA dc.b $77 dc.b $AA dc.b $05 dc.b $8E dc.b $03 dc.b $09 dc.b $1C dc.b $2A dc.b $77 dc.b $2A dc.b $05 dc.b $0F ; 160-141 dc.b $03 dc.b $01 dc.b $0C dc.b $06 dc.b $0E dc.b $04 dc.b $0D dc.b $01 dc.b $09 dc.b $22 dc.b $15 dc.b $45 dc.b $53 dc.b $BB dc.b $35 dc.b $35 dc.b $4E dc.b $EE dc.b $55 dc.b $B5 ; 180-161 dc.b $7B dc.b $F3 dc.b $6D dc.b $5D dc.b $BE dc.b $BD dc.b $5B dc.b $55 dc.b $EE dc.b $E5 dc.b $5B dc.b $5D dc.b $BE dc.b $9D dc.b $6D dc.b $73 dc.b $FB dc.b $75 dc.b $B5 dc.b $4E ; 200-181 dc.b $EE dc.b $55 dc.b $B5 dc.b $7B dc.b $F3 dc.b $6D dc.b $5D dc.b $BE dc.b $BC dc.b $58 dc.b $50 dc.b $E0 dc.b $E0 dc.b $40 dc.b $40 dc.b $80 dc.b $80 dc.b $00 dc.b $00 dc.b $00 Title_PF2_2 ; 1 dc.b $00 ; unused for now ; 20 dc.b $4D dc.b $5D dc.b $5D dc.b $5D dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $D5 dc.b $D5 dc.b $D5 dc.b $D5 dc.b $D5 dc.b $55 dc.b $5D dc.b $5D dc.b $5D dc.b $4C ; 8 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 20 dc.b $D5 dc.b $D5 dc.b $D5 dc.b $5D dc.b $4D dc.b $4D dc.b $4D dc.b $5D dc.b $DD dc.b $DD dc.b $D5 dc.b $D5 dc.b $55 dc.b $55 dc.b $55 dc.b $5D dc.b $5D dc.b $DD dc.b $DD dc.b $CC ; 5 dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now ; 1 dc.b $FF ; unused for now ;========== ;ORG $C900 align 256 ;========== Level_0_WhiteData_PF2_3 ; 20-0 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 ; 40-21 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $02 dc.b $03 dc.b $80 dc.b $C5 dc.b $A2 dc.b $75 dc.b $2A dc.b $1D dc.b $0A dc.b $05 ; 60-41 dc.b $02 dc.b $01 dc.b $00 dc.b $00 dc.b $80 dc.b $40 dc.b $20 dc.b $50 dc.b $C8 dc.b $D8 dc.b $B4 dc.b $4C dc.b $AC dc.b $2A dc.b $B6 dc.b $D2 dc.b $C3 dc.b $40 dc.b $05 dc.b $04 ; 80-61 dc.b $06 dc.b $01 dc.b $0A dc.b $07 dc.b $02 dc.b $01 dc.b $80 dc.b $40 dc.b $20 dc.b $50 dc.b $C8 dc.b $D8 dc.b $B4 dc.b $4C dc.b $AC dc.b $2A dc.b $B6 dc.b $D2 dc.b $C3 dc.b $40 ; 100-81 dc.b $00 dc.b $00 dc.b $80 dc.b $40 dc.b $20 dc.b $30 dc.b $88 dc.b $4C dc.b $A2 dc.b $93 dc.b $A8 dc.b $64 dc.b $6A dc.b $5B dc.b $9C dc.b $DD dc.b $AA dc.b $77 dc.b $AA dc.b $DD ; 120-101 dc.b $AA dc.b $77 dc.b $AA dc.b $DC dc.b $A8 dc.b $70 dc.b $A8 dc.b $DC dc.b $AA dc.b $77 dc.b $AA dc.b $DD dc.b $AA dc.b $77 dc.b $AA dc.b $DD dc.b $AB dc.b $77 dc.b $A7 dc.b $DB ; 140-121 dc.b $AA dc.b $75 dc.b $A9 dc.b $DC dc.b $B0 dc.b $64 dc.b $8E dc.b $D5 dc.b $BB dc.b $55 dc.b $A8 dc.b $FC dc.b $B0 dc.b $24 dc.b $0E dc.b $15 dc.b $3B dc.b $15 dc.b $28 dc.b $3C ; 160-141 dc.b $30 dc.b $20 dc.b $0C dc.b $18 dc.b $1C dc.b $08 dc.b $2C dc.b $20 dc.b $04 dc.b $11 dc.b $4A ; dc.b $22 dc.b $29 dc.b $5D dc.b $9A dc.b $9A dc.b $A7 dc.b $77 dc.b $AA dc.b $DA ; 180-161 dc.b $BD dc.b $79 dc.b $B6 dc.b $AE dc.b $DF dc.b $DE dc.b $AD dc.b $AA dc.b $77 dc.b $72 dc.b $AD dc.b $AE dc.b $DF dc.b $CE dc.b $B6 dc.b $B9 dc.b $7D dc.b $BA dc.b $DA dc.b $A7 ; 200-181 dc.b $77 dc.b $AA dc.b $DA dc.b $BD dc.b $79 dc.b $B6 dc.b $AE dc.b $DF dc.b $DE dc.b $AC dc.b $A8 dc.b $70 dc.b $70 dc.b $A0 dc.b $A0 dc.b $C0 dc.b $C0 dc.b $80 dc.b $80 dc.b $00 Title_PF2_3 ; 1 dc.b $00 ; unused for now ; 20 dc.b $5D dc.b $5D dc.b $5D dc.b $5D dc.b $50 dc.b $D0 dc.b $D0 dc.b $D0 dc.b $D9 dc.b $D9 dc.b $59 dc.b $59 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $5D dc.b $5D dc.b $5D dc.b $5D ; 8 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 20 dc.b $3B dc.b $3B dc.b $BB dc.b $BB dc.b $A2 dc.b $A2 dc.b $A2 dc.b $A2 dc.b $A3 dc.b $23 dc.b $23 dc.b $A3 dc.b $A2 dc.b $A2 dc.b $A2 dc.b $A2 dc.b $A3 dc.b $A3 dc.b $23 dc.b $23 ; 5 dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now ; 1 dc.b $FF ; unused for now ;========== ;ORG $CA00 align 256 ;========== Level_0_WhiteData_PF1_4 ; 20-0 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 ; 40-21 dc.b $55 dc.b $55 dc.b $55 dc.b $D5 dc.b $15 dc.b $B5 dc.b $45 dc.b $ED dc.b $51 dc.b $BB dc.b $54 dc.b $EE dc.b $55 dc.b $AB dc.b $55 dc.b $EA dc.b $55 dc.b $AA dc.b $55 dc.b $EE ; 60-41 dc.b $55 dc.b $BA dc.b $55 dc.b $EE dc.b $54 dc.b $BA dc.b $52 dc.b $EA dc.b $56 dc.b $B8 dc.b $55 dc.b $EE dc.b $54 dc.b $BA dc.b $52 dc.b $EA dc.b $56 dc.b $B8 dc.b $55 dc.b $EE ; 80-61 dc.b $55 dc.b $BB dc.b $55 dc.b $EE dc.b $55 dc.b $BB dc.b $55 dc.b $EE dc.b $54 dc.b $B8 dc.b $50 dc.b $E0 dc.b $40 dc.b $80 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 100-81 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $01 dc.b $03 dc.b $04 dc.b $08 dc.b $11 dc.b $3B dc.b $15 dc.b $0E dc.b $05 dc.b $03 ; 120-101 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $01 dc.b $03 dc.b $01 dc.b $02 dc.b $07 dc.b $07 dc.b $07 dc.b $0B dc.b $1D dc.b $1E ; 140-121 dc.b $1F dc.b $2F dc.b $77 dc.b $7B dc.b $7D dc.b $BE dc.b $DE dc.b $EC dc.b $F5 dc.b $FA dc.b $FB dc.b $72 dc.b $B4 dc.b $44 dc.b $CC dc.b $54 dc.b $91 dc.b $6A dc.b $E0 dc.b $64 ; 160-141 dc.b $54 dc.b $BA dc.b $B8 dc.b $58 dc.b $54 dc.b $EE dc.b $E5 dc.b $5B dc.b $5D dc.b $BE dc.b $9D dc.b $6D dc.b $73 dc.b $FB dc.b $75 dc.b $B5 dc.b $4E dc.b $EE dc.b $55 dc.b $35 ; 180-161 dc.b $7B dc.b $B3 dc.b $2D dc.b $5D dc.b $1E dc.b $2D dc.b $0B dc.b $15 dc.b $06 dc.b $05 dc.b $13 dc.b $15 dc.b $2E dc.b $0D dc.b $4D dc.b $53 dc.b $BB dc.b $35 dc.b $35 dc.b $47 ; 200-181 dc.b $EE dc.b $55 dc.b $B5 dc.b $7B dc.b $F3 dc.b $6D dc.b $5D dc.b $BE dc.b $BC dc.b $58 dc.b $50 dc.b $E0 dc.b $E0 dc.b $40 dc.b $40 dc.b $80 dc.b $80 dc.b $00 dc.b $00 dc.b $00 Title_PF1_4 ; 1 dc.b $00 ; unused for now ; 20 dc.b $3B dc.b $3B dc.b $3B dc.b $3B dc.b $22 dc.b $22 dc.b $22 dc.b $22 dc.b $3B dc.b $3B dc.b $3B dc.b $3B dc.b $08 dc.b $08 dc.b $08 dc.b $08 dc.b $3B dc.b $3B dc.b $3B dc.b $3B ; 8 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 20 dc.b $01 dc.b $01 dc.b $01 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $01 dc.b $01 dc.b $01 dc.b $01 ; 5 dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now dc.b $00 ; unused for now ; 1 dc.b $FF ; unused for now ;========== ;ORG $CB00 align 256 ;========== Level_0_BlueData_PF1_1 ; 20-0 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 ; 40-21 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $82 dc.b $8A dc.b $83 dc.b $8A dc.b $D4 dc.b $88 dc.b $20 dc.b $50 dc.b $89 dc.b $84 dc.b $42 dc.b $21 dc.b $50 dc.b $C8 dc.b $55 ; 60-41 dc.b $22 dc.b $00 dc.b $00 dc.b $25 dc.b $63 dc.b $41 dc.b $00 dc.b $22 dc.b $66 dc.b $44 dc.b $00 dc.b $02 dc.b $06 dc.b $05 dc.b $01 dc.b $01 dc.b $09 dc.b $09 dc.b $29 dc.b $29 ; 80-61 dc.b $A9 dc.b $A9 dc.b $A8 dc.b $A8 dc.b $AA dc.b $A8 dc.b $A8 dc.b $A8 dc.b $A8 dc.b $A8 dc.b $A9 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA ; 100-81 dc.b $AA dc.b $AB dc.b $AA dc.b $AC dc.b $A8 dc.b $B2 dc.b $A2 dc.b $C6 dc.b $8C dc.b $18 dc.b $30 dc.b $A0 dc.b $C0 dc.b $80 dc.b $80 dc.b $80 dc.b $A0 dc.b $A0 dc.b $A8 dc.b $A8 ; 120-101 dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AA dc.b $AB dc.b $AA dc.b $A8 dc.b $A8 dc.b $AC dc.b $A8 dc.b $A8 dc.b $A0 dc.b $B0 dc.b $A0 dc.b $A0 ; 140-121 dc.b $A0 dc.b $C0 dc.b $A0 dc.b $A0 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $02 dc.b $12 dc.b $16 dc.b $12 dc.b $12 dc.b $09 dc.b $08 dc.b $04 ; 160-141 dc.b $04 dc.b $02 dc.b $02 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $40 ; 180-161 dc.b $40 dc.b $20 dc.b $20 dc.b $90 dc.b $10 dc.b $88 dc.b $28 dc.b $A4 dc.b $24 dc.b $B4 dc.b $24 dc.b $A4 dc.b $08 dc.b $C8 dc.b $10 dc.b $90 dc.b $20 dc.b $20 dc.b $40 dc.b $80 ; 200-181 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ;========== ;ORG $CC00 align 256 ;========== Level_0_BlueData_PF2_2 ; 20-0 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 ; 40-21 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $51 dc.b $5B dc.b $51 dc.b $60 dc.b $40 dc.b $80 dc.b $04 dc.b $04 dc.b $15 dc.b $15 dc.b $55 dc.b $56 dc.b $54 dc.b $59 dc.b $51 dc.b $60 ; 60-41 dc.b $40 dc.b $80 dc.b $00 dc.b $00 dc.b $00 dc.b $02 dc.b $03 dc.b $0A dc.b $0C dc.b $28 dc.b $28 dc.b $AA dc.b $6A dc.b $2A dc.b $1A dc.b $0A dc.b $06 dc.b $02 dc.b $00 dc.b $01 ; 80-61 dc.b $00 dc.b $00 dc.b $40 dc.b $80 dc.b $00 dc.b $00 dc.b $00 dc.b $02 dc.b $04 dc.b $0D dc.b $15 dc.b $35 dc.b $55 dc.b $D5 dc.b $55 dc.b $35 dc.b $15 dc.b $0D dc.b $05 dc.b $03 ; 100-81 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 120-101 dc.b $00 dc.b $00 dc.b $01 dc.b $01 dc.b $05 dc.b $0D dc.b $05 dc.b $03 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 140-121 dc.b $00 dc.b $08 dc.b $10 dc.b $3C dc.b $74 dc.b $62 dc.b $40 dc.b $00 dc.b $00 dc.b $08 dc.b $54 dc.b $7E dc.b $77 dc.b $63 dc.b $41 dc.b $00 dc.b $00 dc.b $08 dc.b $55 dc.b $7F ; 160-141 dc.b $77 dc.b $6B dc.b $51 dc.b $3C dc.b $7F dc.b $3E dc.b $3E dc.b $5C dc.b $5C dc.b $08 dc.b $88 dc.b $30 dc.b $20 dc.b $40 dc.b $40 dc.b $80 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 180-161 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 200-181 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ;========== ;ORG $CD00 align 256 ;========== Level_0_BlueData_PF2_3 ; 20-0 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 ; 40-21 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $A2 dc.b $AA dc.b $63 dc.b $2A dc.b $14 dc.b $08 dc.b $00 dc.b $81 dc.b $81 dc.b $A0 dc.b $A0 ; 60-41 dc.b $A9 dc.b $A9 dc.b $AA dc.b $6A dc.b $2A dc.b $1A dc.b $0A dc.b $02 dc.b $06 dc.b $02 dc.b $02 dc.b $00 dc.b $00 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $25 dc.b $25 ; 80-61 dc.b $A6 dc.b $A4 dc.b $A8 dc.b $A0 dc.b $A8 dc.b $68 dc.b $2A dc.b $1A dc.b $0A dc.b $02 dc.b $06 dc.b $02 dc.b $02 dc.b $00 dc.b $00 dc.b $01 dc.b $00 dc.b $00 dc.b $08 dc.b $10 ; 100-81 dc.b $34 dc.b $D6 dc.b $35 dc.b $95 dc.b $8D dc.b $C5 dc.b $63 dc.b $31 dc.b $18 dc.b $0C dc.b $06 dc.b $03 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 120-101 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $02 dc.b $06 dc.b $02 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 140-121 dc.b $00 dc.b $04 dc.b $08 dc.b $1E dc.b $3A dc.b $31 dc.b $20 dc.b $00 dc.b $00 dc.b $04 dc.b $2A dc.b $3F dc.b $3B dc.b $31 dc.b $A0 dc.b $00 dc.b $80 dc.b $04 dc.b $AA dc.b $3F ; 160-141 dc.b $BB dc.b $35 dc.b $A2 dc.b $0F dc.b $BF dc.b $1F dc.b $9F dc.b $2E dc.b $AE dc.b $04 dc.b $C4 dc.b $18 dc.b $90 dc.b $20 dc.b $20 dc.b $40 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 180-161 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ; 200-181 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ;========== ;ORG $CE00 align 256 ;========== Level_0_BlueData_PF1_4 ; 20-0 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 ; 40-21 dc.b $55 dc.b $55 dc.b $55 dc.b $D5 dc.b $55 dc.b $35 dc.b $15 dc.b $0D dc.b $05 dc.b $03 dc.b $01 dc.b $00 dc.b $08 dc.b $18 dc.b $10 dc.b $00 dc.b $08 dc.b $19 dc.b $11 dc.b $00 ; 60-41 dc.b $00 dc.b $01 dc.b $01 dc.b $00 dc.b $00 dc.b $02 dc.b $02 dc.b $0A dc.b $06 dc.b $02 dc.b $01 dc.b $00 dc.b $00 dc.b $02 dc.b $02 dc.b $0A dc.b $06 dc.b $02 dc.b $01 dc.b $00 ; 80-61 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $02 dc.b $02 dc.b $0A dc.b $0A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A ; 100-81 dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2A dc.b $2B dc.b $2A dc.b $2C dc.b $28 dc.b $31 dc.b $25 dc.b $46 dc.b $04 dc.b $40 dc.b $40 dc.b $50 dc.b $50 ; 120-101 dc.b $54 dc.b $54 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $55 dc.b $56 dc.b $54 dc.b $50 dc.b $50 dc.b $58 dc.b $50 dc.b $50 dc.b $40 dc.b $60 dc.b $40 dc.b $40 ; 140-121 dc.b $00 dc.b $80 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $05 dc.b $25 dc.b $2C dc.b $24 dc.b $24 dc.b $12 dc.b $11 dc.b $09 ; 160-141 dc.b $09 dc.b $05 dc.b $05 dc.b $02 dc.b $01 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $80 ; 180-161 dc.b $80 dc.b $40 dc.b $40 dc.b $20 dc.b $20 dc.b $10 dc.b $50 dc.b $48 dc.b $48 dc.b $68 dc.b $48 dc.b $48 dc.b $10 dc.b $90 dc.b $20 dc.b $20 dc.b $40 dc.b $40 dc.b $80 dc.b $00 ; 200-181 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 dc.b $00 ;============================== ;============================== ORG $CFF6 BANKS_AND_VECTORS ;============================== ;##################################################### ;##################################################### ;##################################################### ;### ### ;### Bank 2 below ### ;### ### ;##################################################### ;##################################################### ;##################################################### ;============ org $D000 ;============ JUMP_TABLE org $D018 rorg $F018 ;================= Bank2Code ;================= ;================== ; BANK 2 organized ;================== ;JSR HandleHole ;JSR HandleCollision ;JSR HandleMusic ;JSR EdgeOfScreenCollisions ; Return to Bank 1 ;LDA #<AfterCollision_InBank1 ;STA ReturnAddress ;LDA #>AfterCollision_InBank1 ;STA ReturnAddress+1 ;JMP Bank1 ;================== ; Check what our table lookup did ; and process it accordingly ;================== LDA CollisionStatusFromTable CMP #WIN BNE NotAWinCondition ; Win condition LDA #2 STA GamePhase IF DEBUG = 1 LDA #$88 STA COLUBK ELSE LDA #$88 STA COLUBK ENDIF JMP ReturntoBank1FromBank2 NotAWinCondition CMP #HOLE BNE NotAHoleCondition ; Service a "fell in hole" situation IF DEBUG = 1 LDA #$48 STA COLUBK ELSE JSR FellInHole ENDIF JMP ReturntoBank1FromBank2 NotAHoleCondition CMP #BUMP BNE NotABumpCondition IF DEBUG = 1 LDA #$28 STA COLUBK ELSE ;JSR SwapMomentum JSR AdjustUsBack ; push us back to before we fell LDA #0 STA Player0SpeedDown STA Player0SpeedUp STA Player0SpeedLeft STA Player0SpeedRight LDA #$80 ; middle value STA Player0VPositionA STA Player0HPositionA LDA #7 STA AUDC0 STA AUDV0 STA AUDF0 ENDIF JMP ReturntoBank1FromBank2 NotABumpCondition LDA #0 STA COLUBK ; Disable sounds, since no collision STA AUDV0 JMP ReturntoBank1FromBank2 ;================= ; Return to Bank 1 ;================= ReturntoBank1FromBank2 LDA #<AfterCollision_InBank1 STA ReturnAddress LDA #>AfterCollision_InBank1 STA ReturnAddress+1 JMP Bank1 ;================= ;================== ; Collision detection ;================== HandleCollision ; We are going to do 4 checks here. ; There is a square that's checked. ; This checks the "upper left corner" LDA Player0HPosition ; initial value 78 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #1 TAX LDA CollisionTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BNE ULCheckTable2 JMP SwapMomentum ULCheckTable2 LDA CollisionTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BNE URCollisionCheck JMP SwapMomentum ; This checks the "upper right corner" URCollisionCheck LDA Player0HPosition ; initial value 78 CLC ADC #4 ; go from bit zero to bit 4 (of 7) LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #1 TAX LDA CollisionTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum LDA CollisionTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum ; This checks the "lower left corner" LDA Player0HPosition ; initial value 78 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #2 TAX LDA CollisionTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum LDA CollisionTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum ; This checks the "lower right corner" LDA Player0HPosition ; initial value 78 CLC ADC #4 ; go from bit zero to bit 4 (of 7) LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #2 TAX LDA CollisionTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum LDA CollisionTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ SwapMomentum ; Disable sounds, since no collision LDA #0 STA AUDV0 JMP CollisionsDone ;================== ;================== ; Second half of above routine. ; Calls subroutines ;================== SwapMomentum ; We have a hit! Play a tone LDA #7 STA AUDC0 STA AUDV0 STA AUDF0 ; Figure out direction to bounce based on piece LDA CollisionByte AND #%11000000 CMP #ANGLE_PIPE BEQ HandleAnglePipe CMP #ANGLE_SLASH BEQ HandleAngleSlash CMP #ANGLE_BACKSLASH BEQ HandleAngleBackslash ; No other situations ; so, fall through to HandleAngleMinus HandleAngleMinus JSR AdjustUsBack JSR SwapMomentumVert JMP CollisionsDone HandleAnglePipe JSR AdjustUsBack JSR SwapMomentumHoriz JMP CollisionsDone HandleAngleSlash JSR AdjustUsBack JSR SwapMomentumSlash JMP CollisionsDone HandleAngleBackslash JSR AdjustUsBack JSR SwapMomentumBackSlash ; TEST CODE ;LDA #0 ;STA Player0SpeedLeft ;STA Player0SpeedRight ;STA Player0SpeedUp ;STA Player0SpeedDown CollisionsDone JSR EdgeOfScreenCollisions ;============== RTS ;============== ;================== ; if we fell in a hole handler ;================== HandleHole ; We are going to do 4 checks here. ; There is a square that's checked. ; This checks the "upper left corner" LDA Player0HPosition ; initial value 78 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #1 TAX LDA HoleTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BNE HoleULCheckTable2 JMP FellInHole HoleULCheckTable2 LDA HoleTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BNE HoleURCollisionCheck JMP FellInHole ; This checks the "upper right corner" HoleURCollisionCheck LDA Player0HPosition ; initial value 78 CLC ADC #4 ; go from bit zero to bit 4 (of 7) LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #1 TAX LDA HoleTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole LDA HoleTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole ; This checks the "lower left corner" LDA Player0HPosition ; initial value 78 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #2 TAX LDA HoleTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole LDA HoleTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole ; This checks the "lower right corner" LDA Player0HPosition ; initial value 78 CLC ADC #4 ; go from bit zero to bit 4 (of 7) LSR LSR ; divide by 4. STA Temp LDA Player0VPosition ; initial value 189 SEC SBC #2 TAX LDA HoleTable1,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole LDA HoleTable2,X ; returns a number. STA CollisionByte AND #%00111111 CMP Temp ; returns a number. BEQ FellInHole ; Disable sounds, since didn't fall in hole LDA #0 STA AUDV0 ;================== RTS ;================== ;================== ; Part of the above, hole handler ;================== FellInHole LDA #1 STA MarbleFallStatus JSR AdjustUsBack ; push us back to before we fell LDA #0 STA Player0SpeedDown STA Player0SpeedUp STA Player0SpeedLeft STA Player0SpeedRight LDA #$80 ; middle value STA Player0VPositionA STA Player0HPositionA ;================== RTS ;================== ;================== ; Music stuff ;================== HandleMusic RTS ;============== ; Swap momentum ;============== SwapMomentumVert LDA Player0SpeedUp BEQ GoingDown GoingUp LDA Player0SpeedUp STA Player0SpeedDown LDA #0 STA Player0SpeedUp DEC Player0VPosition JMP GoingLeftOrRight GoingDown LDA Player0SpeedDown BEQ GoingLeftOrRight LDA Player0SpeedDown STA Player0SpeedUp LDA #0 STA Player0SpeedDown INC Player0VPosition GoingLeftOrRight LDA #$80 ; middle value STA Player0VPositionA RTS ;================== ;================== SwapMomentumHoriz LDA Player0SpeedLeft BEQ GoingRight GoingLeft LDA Player0SpeedLeft STA Player0SpeedRight LDA #0 STA Player0SpeedLeft INC Player0HPosition JMP RegularCollisionsDone GoingRight LDA Player0SpeedRight BEQ RegularCollisionsDone LDA Player0SpeedRight STA Player0SpeedLeft LDA #0 STA Player0SpeedRight DEC Player0HPosition RegularCollisionsDone LDA #$80 ; middle value STA Player0HPositionA RTS ;================== ;================== ; adjust us to go back one space ;================== AdjustUsBack LDA SWCHAStore AND #%00010000 BNE DontAdjustDown DEC Player0VPosition DontAdjustDown LDA SWCHAStore AND #%00100000 BNE DontAdjustUp INC Player0VPosition DontAdjustUp LDA SWCHAStore AND #%01000000 BNE DontAdjustLeft INC Player0HPosition DontAdjustLeft LDA SWCHAStore AND #%10000000 BNE DontAdjustRight DEC Player0HPosition DontAdjustRight RTS ;================== ;================== SwapMomentumSlash LDA Player0SpeedDown STA Temp LDA Player0SpeedLeft STA Player0SpeedDown LDA Temp STA Player0SpeedLeft LDA Player0SpeedUp STA Temp LDA Player0SpeedRight STA Player0SpeedUp LDA Temp STA Player0SpeedRight ;INC Player0HPosition ;DEC Player0HPosition LDA #$80 ; middle value STA Player0HPositionA RTS ;================== ;================== SwapMomentumBackSlash LDA Player0SpeedUp STA Temp LDA Player0SpeedLeft STA Player0SpeedUp LDA Temp STA Player0SpeedLeft LDA Player0SpeedDown STA Temp LDA Player0SpeedRight STA Player0SpeedDown LDA Temp STA Player0SpeedRight ;INC Player0HPosition ;DEC Player0HPosition LDA #$80 ; middle value STA Player0HPositionA RTS ;================== ;================== EdgeOfScreenCollisions ; Edge of screen collisions LDA Player0HPosition ; initial value 78 CMP #16 ; left-hand extrema BEQ LeftEdgeCollision CMP #15 ; just in case BEQ LeftEdgeCollision JMP NoLeftEdgeCollision LeftEdgeCollision ; Swap momentum ;LDA Player0SpeedLeft ;STA Player0SpeedRight LDA #0 STA Player0SpeedLeft LDA #16 STA Player0HPosition JMP NoRightEdgeCollision NoLeftEdgeCollision LDA Player0HPosition ; initial value 78 CMP #136 ; right-hand extrema BEQ RightEdgeCollision CMP #137 ; just in case BEQ RightEdgeCollision JMP NoRightEdgeCollision RightEdgeCollision ; Swap momentum ;LDA Player0SpeedRight ;STA Player0SpeedLeft LDA #0 STA Player0SpeedRight LDA #136 STA Player0HPosition NoRightEdgeCollision RTS ;================== ;============================== ;========== ;ORG $DD00 align 256 ;========== CollisionTable2 HoleTable1 ; 20-1 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 40-21 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 4 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ;============================== ;========== ;ORG $DE00 align 256 ;========== CollisionTable1 ; 20-1 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 40-21 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 7+ANGLE_PIPE dc.b 7+ANGLE_PIPE dc.b 7+ANGLE_SLASH dc.b 8+ANGLE_SLASH dc.b 8+ANGLE_SLASH dc.b 9+ANGLE_SLASH ; 160-141 dc.b 9+ANGLE_SLASH dc.b 10+ANGLE_SLASH dc.b 10+ANGLE_SLASH dc.b 11+ANGLE_SLASH dc.b 12+ANGLE_SLASH dc.b 13+ANGLE_SLASH dc.b 13+ANGLE_SLASH dc.b 14+ANGLE_SLASH dc.b 14+ANGLE_SLASH dc.b 15+ANGLE_SLASH dc.b 15+ANGLE_SLASH dc.b 16+ANGLE_SLASH dc.b 17+ANGLE_SLASH dc.b 18+ANGLE_SLASH dc.b 18+ANGLE_SLASH dc.b 19+ANGLE_SLASH dc.b 20+ANGLE_MINUS dc.b 0 dc.b 4+ANGLE_SLASH dc.b 5+ANGLE_SLASH ; 180-161 dc.b 5+ANGLE_SLASH dc.b 6+ANGLE_SLASH dc.b 6+ANGLE_SLASH dc.b 7+ANGLE_SLASH dc.b 7+ANGLE_SLASH dc.b 8+ANGLE_SLASH dc.b 8+ANGLE_SLASH dc.b 9+ANGLE_SLASH dc.b 9+ANGLE_PIPE dc.b 9+ANGLE_PIPE dc.b 9+ANGLE_PIPE dc.b 9+ANGLE_BACKSLASH dc.b 8+ANGLE_BACKSLASH dc.b 8+ANGLE_BACKSLASH dc.b 7+ANGLE_BACKSLASH dc.b 7+ANGLE_BACKSLASH dc.b 6+ANGLE_BACKSLASH dc.b 6+ANGLE_BACKSLASH dc.b 5+ANGLE_BACKSLASH dc.b 4+ANGLE_BACKSLASH ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ;============================== ;========== ;ORG $DF00 align 256 ;========== HoleTable2 ; 20-1 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 40-21 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 4 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 33+ANGLE_BACKSLASH dc.b 33+ANGLE_BACKSLASH dc.b 33+ANGLE_BACKSLASH dc.b 32+ANGLE_BACKSLASH dc.b 32+ANGLE_BACKSLASH dc.b 31+ANGLE_BACKSLASH ; 160-141 dc.b 31+ANGLE_BACKSLASH dc.b 30+ANGLE_BACKSLASH dc.b 30+ANGLE_BACKSLASH dc.b 29+ANGLE_BACKSLASH dc.b 28+ANGLE_BACKSLASH dc.b 27+ANGLE_BACKSLASH dc.b 27+ANGLE_BACKSLASH dc.b 26+ANGLE_BACKSLASH dc.b 26+ANGLE_BACKSLASH dc.b 25+ANGLE_BACKSLASH dc.b 25+ANGLE_BACKSLASH dc.b 24+ANGLE_BACKSLASH dc.b 23+ANGLE_BACKSLASH dc.b 22+ANGLE_BACKSLASH dc.b 22+ANGLE_BACKSLASH dc.b 21+ANGLE_BACKSLASH dc.b 0 dc.b 0 dc.b 0 dc.b 35+ANGLE_BACKSLASH ; 180-161 dc.b 35+ANGLE_BACKSLASH dc.b 34+ANGLE_BACKSLASH dc.b 34+ANGLE_BACKSLASH dc.b 33+ANGLE_BACKSLASH dc.b 33+ANGLE_BACKSLASH dc.b 32+ANGLE_BACKSLASH dc.b 32+ANGLE_BACKSLASH dc.b 31+ANGLE_BACKSLASH dc.b 31+ANGLE_PIPE dc.b 31+ANGLE_PIPE dc.b 31+ANGLE_PIPE dc.b 31+ANGLE_SLASH dc.b 32+ANGLE_SLASH dc.b 32+ANGLE_SLASH dc.b 33+ANGLE_SLASH dc.b 33+ANGLE_SLASH dc.b 34+ANGLE_SLASH dc.b 34+ANGLE_SLASH dc.b 35+ANGLE_SLASH dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ;============================== ORG $DFF6 BANKS_AND_VECTORS ;============================== ;##################################################### ;##################################################### ;##################################################### ;### ### ;### Bank 3 below ### ;### ### ;##################################################### ;##################################################### ;##################################################### ;============ org $E000 ;============ JUMP_TABLE org $E018 rorg $F018 ;================= Bank3Code ;================= ; New constants FLAT = %00000000 BUMP = %00000001 HOLE = %00000010 WIN = %00000011 ; Set to a default value LDA #$FF STA CollisionStatusFromTable LDA Player0HPosition ; initial value 78 SEC SBC #16 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. TAX ; number is 0-31 ; If 0-15, do in this bank ; If 16-31, do in next bank CMP #16 BPL GotoBank4FromBank3 ; Ok, if we fell through to here, we're doing a lookup LDA ProcessTableLSBBank3,X STA ReturnAddress LDA ProcessTableMSBBank3,X STA ReturnAddress+1 ; Get the line LDA Player0VPosition ; initial value 189 SEC IF DEBUG = 1 SBC #1 ELSE SBC #3 ENDIF TAY LDA (ReturnAddress),Y ;=========== BNE FinishedProcessingBank3 ; otherwise, check if we're an edge-case LDA Player0HPosition ; initial value 78 SEC SBC #16 CLC ADC #4 ; go from bit zero to bit 4 (of 7). LSR LSR ; divide by 4. TAX ; number is 0-31 ; If 0-15, do in this bank ; If 16-31, do in next bank CMP #16 BPL GotoBank4FromBank3 ; number is 0-15 for bank4 checks LDA ProcessTableLSBBank3,X STA ReturnAddress LDA ProcessTableMSBBank3,X STA ReturnAddress+1 ; Get the line LDA Player0VPosition ; initial value 189 SEC IF DEBUG = 1 SBC #1 ELSE SBC #3 ENDIF TAY LDA (ReturnAddress),Y FinishedProcessingBank3 ;=========== STA CollisionStatusFromTable JMP Bank2 ;================= ; Test Bank 4 ;================= GotoBank4FromBank3 JMP Bank4 ;================= ProcessTableLSBBank3 ; 1-8 .byte #<Column1Information .byte #<Column2Information .byte #<Column3Information .byte #<Column4Information .byte #<Column5Information .byte #<Column6Information .byte #<Column7Information .byte #<Column8Information ; 9-16 .byte #<Column9Information .byte #<Column10Information .byte #<Column11Information .byte #<Column12Information .byte #<Column13Information .byte #<Column14Information .byte #<Column15Information .byte #<Column16Information ProcessTableMSBBank3 ; 1-8 .byte #>Column1Information .byte #>Column2Information .byte #>Column3Information .byte #>Column4Information .byte #>Column5Information .byte #>Column6Information .byte #>Column7Information .byte #>Column8Information ; 9-16 .byte #>Column9Information .byte #>Column10Information .byte #>Column11Information .byte #>Column12Information .byte #>Column13Information .byte #>Column14Information .byte #>Column15Information .byte #>Column16Information ;================================= ; Column Information organization ;================================= ; Conditions handled (LSB): ; Nothing = %0000 ; Bump = %0001 ; Hole = %0010 ; Winning space = %0011 ; 8 angles ; Conditions handled (MSB): ; Slope = 0-15 ; Slope = UR/UL/DL/DR bump ;================== ; New constants ;FLAT = %00000000 ;BUMP = %00000001 ;HOLE = %00000010 ;WIN = %00000011 Column1Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE Column2Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b BUMP dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP ; 180-161 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE Column3Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b BUMP dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column4Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b BUMP ; 60-41 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column5Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column6Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN ; 60-41 dc.b WIN dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP ; 160-141 dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column7Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN ; 60-41 dc.b WIN dc.b WIN dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column8Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN dc.b WIN ; 60-41 dc.b WIN dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column9Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b WIN dc.b WIN dc.b WIN ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column10Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b WIN dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column11Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column12Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column13Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column14Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column15Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column16Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ;============================== ORG $EFF6 BANKS_AND_VECTORS ;============================== ;##################################################### ;##################################################### ;##################################################### ;### ### ;### Bank 4 below ### ;### ### ;##################################################### ;##################################################### ;##################################################### ;============ org $F000 ;============ JUMP_TABLE org $F018 rorg $F018 ;================= Bank4Code ;================= LDA Player0HPosition ; initial value 78 SEC SBC #16 CLC ADC #3 ; go from bit zero to bit 3 (of 7). LSR LSR ; divide by 4. ; number is 0-31 ; If 0-15, handle in previous bank ; If 16-31, handle in this bank CMP #16 BMI EdgeCaseCheckBank4 ; we take this branch if we got here at middle of screen position case ;BMI ReturntoBank2FromBank4 SEC SBC #16 TAX ; number is 0-15 for bank4 checks LDA ProcessTableLSBBank4,X STA ReturnAddress LDA ProcessTableMSBBank4,X STA ReturnAddress+1 ; Get the line LDA Player0VPosition ; initial value 189 SEC IF DEBUG = 1 SBC #1 ELSE SBC #3 ENDIF TAY LDA (ReturnAddress),Y ;=========== BNE FinishedProcessingBank4 ; otherwise, check if we're an edge-case EdgeCaseCheckBank4 LDA Player0HPosition ; initial value 78 SEC SBC #16 CLC ADC #4 ; go from bit zero to bit 4 (of 7). LSR LSR ; divide by 4. ; number is 0-31 ; If 0-15, handle in previous bank ; If 16-31, handle in this bank CMP #16 BMI ReturntoBank2FromBank4 ; should never hit SEC SBC #16 TAX ; number is 0-15 for bank4 checks LDA ProcessTableLSBBank4,X STA ReturnAddress LDA ProcessTableMSBBank4,X STA ReturnAddress+1 ; Get the line LDA Player0VPosition ; initial value 189 SEC IF DEBUG = 1 SBC #1 ELSE SBC #3 ENDIF TAY LDA (ReturnAddress),Y FinishedProcessingBank4 ;=========== STA CollisionStatusFromTable ReturntoBank2FromBank4 ;================= ; Return to Bank 1 ;================= JMP Bank2 ;================= ProcessTableLSBBank4 ; 17-24 .byte #<Column17Information .byte #<Column18Information .byte #<Column19Information .byte #<Column20Information .byte #<Column21Information .byte #<Column22Information .byte #<Column23Information .byte #<Column24Information ; 25-32 .byte #<Column25Information .byte #<Column26Information .byte #<Column27Information .byte #<Column28Information .byte #<Column29Information .byte #<Column30Information .byte #<Column31Information .byte #<Column32Information ProcessTableMSBBank4 ; 17-24 .byte #>Column17Information .byte #>Column18Information .byte #>Column19Information .byte #>Column20Information .byte #>Column21Information .byte #>Column22Information .byte #>Column23Information .byte #>Column24Information ; 25-32 .byte #>Column25Information .byte #>Column26Information .byte #>Column27Information .byte #>Column28Information .byte #>Column29Information .byte #>Column30Information .byte #>Column31Information .byte #>Column32Information ;================================= ; Column Information organization ;================================= ; Conditions handled (LSB): ; Nothing = %0000 ; Bump = %0001 ; Hole = %0010 ; Winning space = %0011 ; 8 angles ; Conditions handled (MSB): ; Slope = 0-15 ; Slope = UR/UL/DL/DR bump Column17Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b 0 dc.b HOLE dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE Column18Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE Column19Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column20Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column21Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column22Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column23Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column24Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column25Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column26Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column27Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 160-141 dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column28Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP ; 160-141 dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column29Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 ; 140-121 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column30Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column31Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 180-161 dc.b 0 dc.b BUMP dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b BUMP dc.b 0 dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE Column32Information ; 20-1 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 40-21 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 60-41 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 80-61 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 100-81 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 120-101 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE ; 140-121 dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 ; 160-141 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b BUMP ; 180-161 dc.b BUMP dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b HOLE dc.b BUMP dc.b 0 ; 200-181 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b 0 dc.b HOLE dc.b HOLE dc.b HOLE ;============================== ORG $FFF6 BANKS_AND_VECTORS ;==============================

12.539689

95

0.535854

b9f8fee8e173513d9bc204dd8e24790573483b59

287

asm

Assembly

oeis/021/A021322.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/021/A021322.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/021/A021322.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A021322: Decimal expansion of 1/318. ; 0,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5,4,0,8,8,0,5,0,3,1,4,4,6,5 seq $0,173833 ; 10^n - 3. div $0,318 mod $0,10

41

199

0.54007

dc5925a4365160ab426e22988224e09df8fd7a53

693

asm

Assembly

oeis/109/A109500.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/109/A109500.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/109/A109500.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A109500: Number of closed walks of length n on the complete graph on 6 nodes from a given node. ; Submitted by Jamie Morken(s2) ; 1,0,5,20,105,520,2605,13020,65105,325520,1627605,8138020,40690105,203450520,1017252605,5086263020,25431315105,127156575520,635782877605,3178914388020,15894571940105,79472859700520,397364298502605,1986821492513020,9934107462565105,49670537312825520,248352686564127605,1241763432820638020,6208817164103190105,31044085820515950520,155220429102579752605,776102145512898763020,3880510727564493815105,19402553637822469075520,97012768189112345377605,485063840945561726888020,2425319204727808634440105 mov $1,5 pow $1,$0 mod $0,2 div $1,6 sub $1,$0 add $1,1 mov $0,$1

57.75

495

0.852814

08bc831219770c810684caf8ec6a5aee6049d28d

388

asm

Assembly

programs/oeis/089/A089772.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/089/A089772.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/089/A089772.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A089772: a(n) = Lucas(11*n). ; 2,199,39603,7881196,1568397607,312119004989,62113250390418,12360848946698171,2459871053643326447,489526700523968661124,97418273275323406890123,19386725908489881939795601,3858055874062761829426214722,767772505664398093937756525279,152790586683089283455442974745243,30406094522440431805727089730828636 mul $0,11 seq $0,258160 ; a(n) = 8*Lucas(n). div $0,8

55.428571

301

0.853093

e186cc7d8cea23b81dcaeb59c15e49768d948f4b

199

asm

Assembly

exercises/0 helloworld!.asm

DanerSound/MIPS-from-scratch

e56bc5e4a0ade738e63f0ae827afbff94a8a7efd

[ "MIT" ]

2

2018-07-16T20:23:52.000Z

2019-03-08T18:49:39.000Z

exercises/0 helloworld!.asm

DanerSound/MIPS-from-scratch

e56bc5e4a0ade738e63f0ae827afbff94a8a7efd

[ "MIT" ]

3

2018-03-22T15:47:59.000Z

2019-03-06T11:21:35.000Z

exercises/0 helloworld!.asm

DanerSound/MIPS-from-scratch

e56bc5e4a0ade738e63f0ae827afbff94a8a7efd

[ "MIT" ]

5

2018-03-22T15:49:10.000Z

2018-07-24T07:46:10.000Z

# print a simple string on terminal # # .data myMessage: .asciiz "Hello World \n" .text main: li $v0, 4 # code to print an string la $a0, myMessage # load address to start to print syscall

14.214286

52

0.678392

a919ec2cddb5a9f292f44322afbf5d95b79dddb2

1,157

asm

Assembly

examples/boxes.asm

KCreate/stackvm

eaa6b72dbb5057c41496265e52acceec3e1a70a2

[ "MIT" ]

45

2017-03-27T11:49:12.000Z

2021-09-13T22:24:19.000Z

examples/boxes.asm

KCreate/stack-machine

eaa6b72dbb5057c41496265e52acceec3e1a70a2

[ "MIT" ]

10

2017-04-22T22:15:30.000Z

2020-06-07T05:19:47.000Z

examples/boxes.asm

KCreate/stack-machine

eaa6b72dbb5057c41496265e52acceec3e1a70a2

[ "MIT" ]

4

2017-05-02T10:20:05.000Z

2021-09-13T22:24:22.000Z

.def counter_x r0 .def counter_y r1 .def comp r2 .def s_zero r3 .def s_one r4 .label setup .label entry_addr loadi counter_x, vram_width loadi counter_y, vram_height rst s_zero loadi s_one, 1 sub counter_x, s_one sub counter_y, s_one push dword, msg_welcome push dword, 29 push word, sys_write syscall push dword, msg_sleep push dword, 26 push word, sys_write syscall push float, 3.0 push word, sys_sleep syscall jmp main .label main rpush counter_x rpush counter_y push byte, 0b11100011 push dword, 9 call gfx_draw_pixel jmp check_zero_reached1 .label check_zero_reached1 cmp counter_x, s_zero jz check_zero_reached2 jmp loop .label check_zero_reached2 cmp counter_y, s_zero jz quit_program jmp loop .label loop cmp counter_x, s_zero jz br1 sub counter_x, s_one jmp br2 .label br1 sub counter_y, s_one loadi counter_x, vram_width sub counter_x, s_one .label br2 jmp main .label quit_program push byte, 0 push word, sys_exit syscall .db msg_welcome 29 "welcome to the graphics demo\n" .db msg_sleep 26 "sleeping for 3 seconds...\n" .include "graphics.asm"

14.833333

51

0.734659

dfaaa578282d0f22e26066c8dcf84afd0e85a474

14,883

asm

Assembly

Library/Parse/parseWrite.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

504

2018-11-18T03:35:53.000Z

2022-03-29T01:02:51.000Z

Library/Parse/parseWrite.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

96

2018-11-19T21:06:50.000Z

2022-03-06T10:26:48.000Z

Library/Parse/parseWrite.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

73

2018-11-19T20:46:53.000Z

2022-03-29T00:59:26.000Z

COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) Berkeley Softworks 1990 -- All Rights Reserved PROJECT: PC GEOS MODULE: FILE: parseWrite.asm AUTHOR: John Wedgwood, Jan 24, 1991 ROUTINES: Name Description ---- ----------- WriteNegationOp WriteFunctionCall WriteSingleToken WritePercentOp WriteBinaryOp WriteCloseFunction WriteArgEnd WriteEndOfExpression AllocateParserToken REVISION HISTORY: Name Date Description ---- ---- ----------- John 1/24/91 Initial revision DESCRIPTION: Functions to write parser tokens to an output buffer. $Id: parseWrite.asm,v 1.1 97/04/05 01:27:08 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ParserCode segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteNegationOp %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a negation operator to the output stream. CALLED BY: ParseFullExpression PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteNegationOp proc near uses ax, dx .enter mov dl, OP_NEGATION ; dl <- operator mov al, PARSER_TOKEN_OPERATOR ; al <- token type call AllocateParserToken ; ax <- size of token jc quit ; Quit if too large mov es:[di], dl ; The operation to do add di, ax ; Advance the pointer clc ; Signal: no error quit: .leave ret WriteNegationOp endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteFunctionCall %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a function call to the output stream CALLED BY: ParseFullExpression PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteFunctionCall proc near uses ax, dx .enter mov al, PARSER_TOKEN_FUNCTION ; al <- token type call AllocateParserToken ; ax <- token size jc quit ; Quit if error mov dx,ss:[bp].PP_currentToken.ST_data.STD_identifier.STID_start mov es:[di], dx ; Save the position of the ; function. add di, ax ; Advance the pointer clc ; Signal: no error quit: .leave ret WriteFunctionCall endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteSingleToken %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a single token to the output stream CALLED BY: ParseFullExpression, ParseArgList PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: Possible types are: Open Paren Close Paren Numeric Constant Cell Reference Function Unary Minus Operator Named Cell or Range Need to figure out which type we're dealing with and write it appropriately. The easiest to deal with is the Unary-Minus, since it's the only operator. KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteSingleToken proc near uses ax .enter mov al, ss:[bp].PP_currentToken.ST_type cmp al, SCANNER_TOKEN_STRING ; Strings get handled specially jne notString ; Branch if not a string call WriteString ; Handle this separately jmp quit ; Quit, carry set correctly notString: cmp al, SCANNER_TOKEN_OPERATOR ; Check for unary minus. jne notUnaryMinus ; Branch if not call WriteNegationOp ; Write unary minus jmp quit ; Quit, carry set correctly notUnaryMinus: ; ; The rest of the tokens are the same in the scanner and the parser. ; Allocate space for the token, and if the token is zero sized, ; we can just return (this is true for Open/Close Paren). ; call AllocateParserToken ; ax <- size of token jc quit ; Quit if error tst ax ; Check for zero sized jz quitNoError ; Branch if zero sized ; ; Token wasn't zero sized. Luckily the data we need for the parser ; is the same as that for the scanner. As a result we can simply ; copy the information from the PP_currentToken into the output ; stream. ; ax = amount of information to copy ; push cx, ds, si ; Save everything we nuke mov cx, ax ; cx <- size segmov ds, ss ; ds <- source mov si, bp ; si <- source add si, offset PP_currentToken + offset ST_data rep movsb ; Copy the data pop cx, ds, si ; Restore nuked registers quitNoError: clc ; Signal: no error quit: .leave ret WriteSingleToken endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WritePercentOp %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a percent operator to the output stream CALLED BY: ParseMoreExpression PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WritePercentOp proc near uses ax, dx .enter mov dl, OP_PERCENT ; dl <- the operator mov al, PARSER_TOKEN_OPERATOR ; al <- token type call AllocateParserToken ; ax <- size of token jc quit ; Quit if too large mov es:[di], dl ; The operation to do add di, ax ; Advance the pointer clc ; Signal: no error quit: .leave ret WritePercentOp endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteBinaryOp %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a binary operator to the output stream CALLED BY: ParseMoreExpression PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: First check to see if it's one of those "undecided" operators OP_PERCENT_MODULO (%) Force to OP_MODULO OP_SUBTRACTION_NEGATION (-) Force to OP_SUBTRACTION All others are by nature binary operators so we can just stuff them directly into the operatorID field. KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteBinaryOp proc near uses ax, dx .enter mov dl,ss:[bp].PP_currentToken.ST_data.STD_operator.STOD_operatorID mov al, PARSER_TOKEN_OPERATOR ; al <- token type call AllocateParserToken ; ax <- size jc quit ; Quit if error cmp dl, OP_PERCENT_MODULO ; Check for modulo op jne checkSubNeg ; Branch if not mov dl, OP_MODULO ; Choose the binary operator jmp writeOp ; Branch checkSubNeg: cmp dl, OP_SUBTRACTION_NEGATION ; Check for subtraction jne writeOp ; Branch if not mov dl, OP_SUBTRACTION ; Force to subtraction writeOp: mov es:[di].PTOD_operatorID, dl ; Write the operator ID add di, ax ; Advance the pointer clc ; Signal: no error quit: .leave ret WriteBinaryOp endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteCloseFunction %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a close-function to the output stream CALLED BY: ParseFunctionArgs PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteCloseFunction proc near uses ax .enter mov al, PARSER_TOKEN_CLOSE_FUNCTION call AllocateParserToken ; Should return 0... .leave ret WriteCloseFunction endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteArgEnd %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write an arg-end token to the output stream CALLED BY: ParseArgList PASS: ss:bp = Pointer to ParserParameters es:di = Pointer to place to write the token RETURN: carry set on error es:di = Pointer past inserted token DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteArgEnd proc near uses ax .enter mov al, PARSER_TOKEN_ARG_END call AllocateParserToken ; Should return 0 .leave ret WriteArgEnd endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteString %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write a string to the parser output stream. CALLED BY: ParseArgList PASS: es:di = Place to write to ds = Segment address of the string ss:bp = ParserParameters including currentToken RETURN: es:di = Position after the token written carry set on error DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/21/91 Initial version witt 11/29/93 DBCS-ized %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteString proc near uses ax, cx, si .enter mov al, PARSER_TOKEN_STRING ; al <- token type call AllocateParserToken ; ax <- token size jc quit ; Quit if error mov cx, ss:[bp].PP_currentToken.ST_data.STD_string.STSD_length mov es:[di].PTSD_length, cx add di, ax ; Advance the pointer ; ; Since this is a variable sized data-item we need to make sure ; we aren't going to overwrite the end of the buffer. ; SBCS< mov ax, ss:[bp].PP_currentToken.ST_data.STD_string.STSD_length > DBCS< mov ax, cx ; this is faster! > DBCS< shl ax, 1 ; ax <- string size > sub ss:[bp].PP_parserBufferSize, ax js bufferOverflow ; Branch if overflow ; ; Now copy the text of the string. ; mov si, ss:[bp].PP_currentToken.ST_data.STD_string.STSD_start add si, ss:[bp].PP_textPtr.offset ; si <- offset to string EC < push ax ;> EC < mov ax, ds ;ax <- seg addr of string> EC < cmp ax, ss:[bp].PP_textPtr.segment ;> EC < ERROR_NE PARSE_STRING_SEGMENT_FAILED_ASSERTION > EC < pop ax LocalCopyNString ; Copy the string (cx=length) clc ; Signal: no error quit: .leave ret bufferOverflow: mov al, PSEE_TOO_MANY_TOKENS call ParserReportError ; Report the error jmp quit WriteString endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% WriteEndOfExpression %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Write an end-of-expression marker to the parser stream CALLED BY: ParseArgList PASS: es:di = Place to write to ss:bp = ParserParameters including currentToken RETURN: es:di = Position after the token written carry set on error DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/21/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ WriteEndOfExpression proc near uses ax .enter mov al, PARSER_TOKEN_END_OF_EXPRESSION call AllocateParserToken ; Should return 0 .leave ret WriteEndOfExpression endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% AllocateParserToken %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Allocate space for a single token in the output stream CALLED BY: Write* PASS: al = ParserTokenType ss:bp = Pointer to ParserParameters es:di = Pointer to place to write RETURN: carry set on error token type saved into the buffer ax = Size of the token data es:di = Pointer to place to put the token data DESTROYED: nothing PSEUDO CODE/STRATEGY: The amount of data to write is implied by the token-type. We keep a table of the sizes in parserTokenSizeTable in the file parseVariable.asm KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- jcw 1/22/91 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ AllocateParserToken proc near uses cx, ds, si .enter mov cl, al ; Save token in cl clr ah ; ax <- token FXIP < mov si, bx > FXIP < mov bx, handle dgroup > FXIP < call MemDerefDS ; ds = dgroup > FXIP < mov bx, si > NOFXIP< segmov ds, dgroup, si ; ds <- seg addr of table > mov si, offset parserTokenSizeTable ; si <- offset to table add si, ax ; si <- offset to item mov al, ds:[si] ; ax <- size of token ; ; Now that we have the size of the token, we need to lose that ; much space from the buffer we are writing to. ; sub ss:[bp].PP_parserBufferSize, ax js bufferOverflow ; Branch if overflow ; ; Subtract a byte for the token itself. ; dec ss:[bp].PP_parserBufferSize js bufferOverflow mov es:[di], cl ; Save the token inc di ; Advance the pointer clc ; Signal: no error quit: .leave ret bufferOverflow: mov al, PSEE_TOO_MANY_TOKENS call ParserReportError ; Report the error jmp quit AllocateParserToken endp ParserCode ends

26.864621

79

0.578647

8c125fa0c28fc03a5592abf7e6799e340073d14b

3,683

asm

Assembly

data/text_predef_pointers.asm

opiter09/ASM-Machina

75d8e457b3e82cc7a99b8e70ada643ab02863ada

[ "CC0-1.0" ]

1

2022-02-15T00:19:44.000Z

data/text_predef_pointers.asm

opiter09/ASM-Machina

75d8e457b3e82cc7a99b8e70ada643ab02863ada

[ "CC0-1.0" ]

null

data/text_predef_pointers.asm

opiter09/ASM-Machina

75d8e457b3e82cc7a99b8e70ada643ab02863ada

[ "CC0-1.0" ]

null

add_tx_pre: MACRO \1_id:: dw \1 ENDM TextPredefs:: add_tx_pre CardKeySuccessText ; 01 add_tx_pre CardKeyFailText ; 02 add_tx_pre RedBedroomPCText ; 03 add_tx_pre RedBedroomSNESText ; 04 add_tx_pre PushStartText ; 05 add_tx_pre SaveOptionText ; 06 add_tx_pre StrengthsAndWeaknessesText ; 07 add_tx_pre OakLabEmailText ; 08 add_tx_pre AerodactylFossilText ; 09 add_tx_pre Route15UpstairsBinocularsText ; 0A add_tx_pre KabutopsFossilText ; 0B add_tx_pre GymStatueText1 ; 0C add_tx_pre GymStatueText2 ; 0D add_tx_pre BookcaseText ; 0E add_tx_pre ViridianCityPokecenterBenchGuyText ; 0F add_tx_pre PewterCityPokecenterBenchGuyText ; 10 add_tx_pre CeruleanCityPokecenterBenchGuyText ; 11 add_tx_pre LavenderCityPokecenterBenchGuyText ; 12 add_tx_pre VermilionCityPokecenterBenchGuyText ; 13 add_tx_pre CeladonCityPokecenterBenchGuyText ; 14 add_tx_pre CeladonCityHotelText ; 15 add_tx_pre FuchsiaCityPokecenterBenchGuyText ; 16 add_tx_pre CinnabarIslandPokecenterBenchGuyText ; 17 add_tx_pre SaffronCityPokecenterBenchGuyText ; 18 add_tx_pre MtMoonPokecenterBenchGuyText ; 19 add_tx_pre RockTunnelPokecenterBenchGuyText ; 1A add_tx_pre UnusedBenchGuyText1 ; 1B XXX unused add_tx_pre UnusedBenchGuyText2 ; 1C XXX unused add_tx_pre UnusedBenchGuyText3 ; 1D XXX unused add_tx_pre UnusedPredefText ; 1E XXX unused add_tx_pre PokemonCenterPCText ; 1F add_tx_pre ViridianSchoolNotebook ; 20 add_tx_pre ViridianSchoolBlackboard ; 21 add_tx_pre JustAMomentText ; 22 add_tx_pre OpenBillsPCText ; 23 add_tx_pre FoundHiddenItemText ; 24 add_tx_pre HiddenItemBagFullText ; 25 XXX unused add_tx_pre VermilionGymTrashText ; 26 add_tx_pre IndigoPlateauHQText ; 27 add_tx_pre GameCornerOutOfOrderText ; 28 add_tx_pre GameCornerOutToLunchText ; 29 add_tx_pre GameCornerSomeonesKeysText ; 2A add_tx_pre FoundHiddenCoinsText ; 2B add_tx_pre DroppedHiddenCoinsText ; 2C add_tx_pre BillsHouseMonitorText ; 2D add_tx_pre BillsHouseInitiatedText ; 2E add_tx_pre BillsHousePokemonList ; 2F add_tx_pre MagazinesText ; 30 add_tx_pre CinnabarGymQuiz ; 31 add_tx_pre GameCornerNoCoinsText ; 32 add_tx_pre GameCornerCoinCaseText ; 33 add_tx_pre LinkCableHelp ; 34 add_tx_pre TMNotebook ; 35 add_tx_pre FightingDojoText ; 36 add_tx_pre EnemiesOnEverySideText ; 37 add_tx_pre WhatGoesAroundComesAroundText ; 38 add_tx_pre NewBicycleText ; 39 add_tx_pre IndigoPlateauStatues ; 3A add_tx_pre VermilionGymTrashSuccessText1 ; 3B add_tx_pre VermilionGymTrashSuccessText2 ; 3C XXX unused add_tx_pre VermilionGymTrashSuccessText3 ; 3D add_tx_pre VermilionGymTrashFailText ; 3E add_tx_pre TownMapText ; 3F add_tx_pre BookOrSculptureText ; 40 add_tx_pre ElevatorText ; 41 add_tx_pre PokemonStuffText ; 42

50.452055

64

0.625305

410b399282519faf967e5eed314b0304b5fb1aa8

340

asm

Assembly

oeis/154/A154127.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/154/A154127.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/154/A154127.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A154127: Period 6: repeat [1, 2, 5, 8, 7, 4]. ; Submitted by Jamie Morken(s3) ; 1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2,5,8,7,4,1,2 mul $0,5 mov $1,-2 bin $1,$0 mod $1,3 add $1,2 mul $1,4 add $0,$1 sub $0,1 mod $0,10

24.285714

173

0.535294

a2b5eaa338baa851b076ca708429ae13d2776875

1,216

asm

Assembly

programs/oeis/017/A017545.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

1

2021-03-15T11:38:20.000Z

programs/oeis/017/A017545.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/017/A017545.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A017545: a(n) = 12*n + 2. ; 2,14,26,38,50,62,74,86,98,110,122,134,146,158,170,182,194,206,218,230,242,254,266,278,290,302,314,326,338,350,362,374,386,398,410,422,434,446,458,470,482,494,506,518,530,542,554,566,578,590,602,614,626,638,650,662,674,686,698,710,722,734,746,758,770,782,794,806,818,830,842,854,866,878,890,902,914,926,938,950,962,974,986,998,1010,1022,1034,1046,1058,1070,1082,1094,1106,1118,1130,1142,1154,1166,1178,1190,1202,1214,1226,1238,1250,1262,1274,1286,1298,1310,1322,1334,1346,1358,1370,1382,1394,1406,1418,1430,1442,1454,1466,1478,1490,1502,1514,1526,1538,1550,1562,1574,1586,1598,1610,1622,1634,1646,1658,1670,1682,1694,1706,1718,1730,1742,1754,1766,1778,1790,1802,1814,1826,1838,1850,1862,1874,1886,1898,1910,1922,1934,1946,1958,1970,1982,1994,2006,2018,2030,2042,2054,2066,2078,2090,2102,2114,2126,2138,2150,2162,2174,2186,2198,2210,2222,2234,2246,2258,2270,2282,2294,2306,2318,2330,2342,2354,2366,2378,2390,2402,2414,2426,2438,2450,2462,2474,2486,2498,2510,2522,2534,2546,2558,2570,2582,2594,2606,2618,2630,2642,2654,2666,2678,2690,2702,2714,2726,2738,2750,2762,2774,2786,2798,2810,2822,2834,2846,2858,2870,2882,2894,2906,2918,2930,2942,2954,2966,2978,2990 mov $1,$0 mul $1,12 add $1,2

173.714286

1,157

0.768914

1de209c0451676da42ce31067a9d4b0c35e640b8

937

asm

Assembly

sound/sfxasm/AC.asm

NatsumiFox/Sonic-3-93-Nov-03

032e4fc25f243636d458639c4a4311caca898f96

[ "MIT" ]

7

2019-12-05T00:35:57.000Z

2022-02-27T20:00:33.000Z

sound/sfxasm/AC.asm

NatsumiFox/Sonic-3-93-Nov-03

032e4fc25f243636d458639c4a4311caca898f96

[ "MIT" ]

null

sound/sfxasm/AC.asm

NatsumiFox/Sonic-3-93-Nov-03

032e4fc25f243636d458639c4a4311caca898f96

[ "MIT" ]

null

AC_Header: sHeaderInit ; Z80 offset is $D530 sHeaderPatch AC_Patches sHeaderTick $01 sHeaderCh $02 sHeaderSFX $80, $05, AC_FM5, $00, $0B sHeaderSFX $80, $04, AC_FM4, $00, $0C AC_FM5: dc.b nRst, $04 AC_FM4: sPatFM $00 ssModZ80 $02, $01, $22, $B1 AC_Loop1: dc.b nC1, $06, nD1, nE1, nFs1 saTranspose $06 saVolFM $FE sLoop $00, $04, AC_Loop1 AC_Loop2: dc.b nC1, $06 saVolFM $05 sLoop $00, $05, AC_Loop2 sStop AC_Patches: ; Patch $00 ; $F6 ; $11, $00, $03, $03, $1F, $1F, $1F, $1F ; $10, $0C, $0C, $0C, $0B, $1F, $10, $05 ; $1F, $2F, $4F, $2F, $09, $84, $92, $8E spAlgorithm $06 spFeedback $06 spDetune $01, $00, $00, $00 spMultiple $01, $03, $00, $03 spRateScale $00, $00, $00, $00 spAttackRt $1F, $1F, $1F, $1F spAmpMod $00, $00, $00, $00 spSustainRt $10, $0C, $0C, $0C spSustainLv $01, $04, $02, $02 spDecayRt $0B, $10, $1F, $05 spReleaseRt $0F, $0F, $0F, $0F spTotalLv $09, $12, $04, $0E

19.93617

41

0.593383

8ea128e1228aebeefcf2f476e7006fa0920e9921

111

asm

Assembly

new_bbc_bringup/flasher/probe.asm

cclauss/myelin-acorn-electron-hardware

8df28d4fb7a39567fdee5a3b765ecdecacbc276e

[ "Apache-2.0" ]

42

2017-04-22T06:37:00.000Z

2022-03-30T07:23:13.000Z

new_bbc_bringup/flasher/probe.asm

cclauss/myelin-acorn-electron-hardware

8df28d4fb7a39567fdee5a3b765ecdecacbc276e

[ "Apache-2.0" ]

6

2018-01-05T16:28:29.000Z

2019-01-15T05:57:49.000Z

new_bbc_bringup/flasher/probe.asm

cclauss/myelin-acorn-electron-hardware

8df28d4fb7a39567fdee5a3b765ecdecacbc276e

[ "Apache-2.0" ]

20

2017-04-24T01:35:12.000Z

2022-01-06T13:49:09.000Z

; Just probe the memory banks PROGRAM_ROM = 0 INCLUDE "common.asm" SAVE "probe.bin", entry_point, end_of_code

18.5

42

0.765766

cfecf5b57d56255706577ca6e82ed3badcc11263

901

asm

Assembly

cards/bn5/ItemCards/136-E014 Lilly's Souvenirs.asm

RockmanEXEZone/MMBN-Mod-Card-Kit

d591ddca5566dbb323dc19c11e69410fa4073d1b

[ "Unlicense" ]

10

2017-12-05T14:25:38.000Z

2022-02-21T04:28:00.000Z

cards/bn5/ItemCards/136-E014 Lilly's Souvenirs.asm

RockmanEXEZone/MMBN-Mod-Card-Kit

d591ddca5566dbb323dc19c11e69410fa4073d1b

[ "Unlicense" ]

null

cards/bn5/ItemCards/136-E014 Lilly's Souvenirs.asm

RockmanEXEZone/MMBN-Mod-Card-Kit

d591ddca5566dbb323dc19c11e69410fa4073d1b

[ "Unlicense" ]

null

.include "defaults_item.asm" table_file_jp equ "exe5-utf8.tbl" table_file_en equ "bn5-utf8.tbl" game_code_len equ 3 game_code equ 0x4252424A // BRBJ game_code_2 equ 0x42524245 // BRBE game_code_3 equ 0x42524250 // BRBP card_type equ 0 card_id equ 14 card_no equ "014" card_sub equ "Item Card 014" card_sub_x equ 62 card_desc_len equ 1 card_desc_1 equ "Lilly's Souvenirs" card_desc_2 equ "" card_desc_3 equ "" card_name_jp_full equ "五十嵐ランのおみやげ" card_name_jp_game equ "いがらしランのおみやげ" card_name_en_full equ "Lilly's Souvenirs" card_name_en_game equ "Lilly's Souvenirs" card_game_desc_jp_len equ 3 card_game_desc_jp_1 equ "いがらしランのおみやげ!" card_game_desc_jp_2 equ "トルネードD､エアホイール1C" card_game_desc_jp_3 equ "スーパーキタカゼDを手に入れた!" card_game_desc_en_len equ 3 card_game_desc_en_1 equ "Lilly's souvenirs!" card_game_desc_en_2 equ "Got Tornado D,AirSpin1 C" card_game_desc_en_3 equ "and NrthWind D!"

30.033333

50

0.803552

6316d2f2c690ca9c2490ebe1e6848e879934ba1e

393

asm

Assembly

oeis/337/A337727.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/337/A337727.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/337/A337727.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A337727: a(n) = (4*n)! * Sum_{k=0..n} 1 / (4*k)!. ; Submitted by Christian Krause ; 1,25,42001,498971881,21795091762081,2534333270094778681,646315807872650838343345,317599587988620621961919733001,274101148417699141578015206369183041,387502275541069630431671657548241448722521,849931991080760484603611346800010863970028660561 mul $0,4 seq $0,330045 ; Expansion of e.g.f. exp(x) / (1 - x^4).

56.142857

242

0.796438

8db71a28245a968b4ed5da6ef6ec053340bcdbb6

349

asm

Assembly

programs/oeis/108/A108766.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

1

2021-03-15T11:38:20.000Z

programs/oeis/108/A108766.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/108/A108766.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A108766: a(n) = A007290(n+2) - 1 = 2*C(n+2,3) - 1. ; -1,1,7,19,39,69,111,167,239,329,439,571,727,909,1119,1359,1631,1937,2279,2659,3079,3541,4047,4599,5199,5849,6551,7307,8119,8989,9919,10911,11967,13089,14279,15539,16871,18277,19759,21319,22959,24681,26487,28379,30359,32429,34591,36847,39199,41649 add $0,2 mov $1,$0 bin $1,3 mul $1,2 sub $1,1

38.777778

248

0.704871

0b785578e2a319f4046cddc2340e0bb9b7924a6d

546

asm

Assembly

oeis/017/A017058.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/017/A017058.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/017/A017058.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A017058: a(n) = (7*n + 6)^6. ; 46656,4826809,64000000,387420489,1544804416,4750104241,12230590464,27680640625,56800235584,107918163081,192699928576,326940373369,531441000000,832972004929,1265319018496,1870414552161,2699554153024,3814697265625,5289852801024,7212549413161,9685390482496,12827693806929,16777216000000,21691961596369,27752076864576,35161828327081,44151665987584,54980371265625,67937289638464,83344647990241,101559956668416,122978496247489,148035889000000,177210755074809,211027453382656,250058907189001 mul $0,7 add $0,6 pow $0,6

78

486

0.873626

cbea199c6ea4e02867c3ee5a9ea44079ba9788bd

593

asm

Assembly

programs/oeis/173/A173740.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/173/A173740.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/173/A173740.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A173740: Triangle T(n,k) = binomial(n,k) + 2 for 1 <= k <= n - 1, n >= 2, and T(n,0) = T(n,n) = 1 for n >= 0, read by rows. ; 1,1,1,1,4,1,1,5,5,1,1,6,8,6,1,1,7,12,12,7,1,1,8,17,22,17,8,1,1,9,23,37,37,23,9,1,1,10,30,58,72,58,30,10,1,1,11,38,86,128,128,86,38,11,1,1,12,47,122,212,254,212,122,47,12,1,1,13,57,167,332,464,464,332,167,57,13,1,1,14,68,222,497,794,926,794,497,222,68,14,1,1,15,80,288,717,1289,1718,1718,1289 seq $0,7318 ; Pascal's triangle read by rows: C(n,k) = binomial(n,k) = n!/(k!*(n-k)!), 0 <= k <= n. add $1,$0 add $1,1 lpb $1 div $1,3 mul $1,34 lpe add $1,1 mov $0,$1

45.615385

293

0.583474

c374a9514fdf6de6727160155ce5e664505aa801

726

asm

Assembly

software/exampleIO.asm

Arkaeriit/asrm

2b8672f7802ee778ae4e0b458cd467d34bc29539

[ "MIT" ]

1

2021-12-12T15:05:17.000Z

software/exampleIO.asm

Arkaeriit/asrm

2b8672f7802ee778ae4e0b458cd467d34bc29539

[ "MIT" ]

null

software/exampleIO.asm

Arkaeriit/asrm

2b8672f7802ee778ae4e0b458cd467d34bc29539

[ "MIT" ]

null

; This small program is ment to be assembled with reflet-asm ; it asks a character from the user and print it 10 times ; To assemble it, do reflet-asm exampleIO.asm -o exampleIO.bin ; To run it, do reflet-sim exampleIO.rbin ; (As this is a 8 bit program, the default configuration is enought) label start set 2 ; preparing the address 2 cpy r1 set 0 ; putting 0 in 0x2 to ask for a char str r1 set 3 ; retriving char cpy r1 load r1 push ; preparing the address Ox1 set 1 cpy r1 pop ; putting what was in 0x3 in 0x1 str r1 set 10 ; loop pointer push label loop set 0 str WR ; printing pop sub r1 ; Substracting one eq r2 ; are we equal to 0 ? push cmpnot setlab loop jif set 10 ;preparing a new line str r1 set 0 str WR

18.15

68

0.739669

b556a5028a8596a2ab93fb00ac086e372940c356

1,652

asm

Assembly

programs/oeis/085/A085279.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/085/A085279.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/085/A085279.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A085279: Expansion of (1 - 2*x - 2*x^2)/((1 - 2*x)*(1 - 3*x)). ; 1,3,7,17,43,113,307,857,2443,7073,20707,61097,181243,539633,1610707,4815737,14414443,43177793,129402307,387944777,1163310043,3488881553,10464547507,31389448217,94159956043,282463090913,847355718307,2542000046057,7625865920443,22877329325873,68631451106707,205893279578297,617677691251243,1853028778786433,5559077746424707,16677216059404937,50031613818476443,150094772735952593,450284180768904307,1350852267428805977,4052556252530604043,12157667658080184353,36473000775217297507,109418997927605381417,328256984986723122043,984770937367983321713,2954312776919577876307,8862938260389989451257,26588814640432479998443,79766443639822463284673,239299330356517436432707,717897989943652402455497,2153693967579157393681243,6461081898233872553673233,19383245685694418406278707,58149737039068856709354137,174449211081177773109098443,523347633171475725289367393,1570042899370311987792246307,4710128697822705587225027177,14130386092891656009371658043,42391158277522046523508127153,127173474830260296561310687507,381520424486169203665504674617,1144561273449284238959659248043,3433683820329405972805268192513,10301051460951324430268385474307,30903154382780186314510318216457,92709463148192984990941278236443,278128389444283807067644481883473,834385168332261125392574739998707,2503155504995602784557006808692697,7509466514984447170429585603471243,22528399544948619144805887165200033,67585198634836412701451922205172707,202755595904490348638424288034663337,608266787713433266983409906942280443 mov $2,1 mov $3,1 lpb $0 sub $0,1 add $1,$3 mul $2,2 mov $3,$1 add $3,$1 lpe add $1,$2 mov $0,$1

110.133333

1,478

0.897094

79eb08d8392f4ae913e65eed32134092f936dc81

533

asm

Assembly

ffight/lcs/weapon/86.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

[ "Apache-2.0" ]

6

2020-10-14T15:29:10.000Z

2022-02-12T18:58:54.000Z

ffight/lcs/weapon/86.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

[ "Apache-2.0" ]

null

ffight/lcs/weapon/86.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

[ "Apache-2.0" ]

1

2020-12-17T08:59:10.000Z

copyright zengfr site:http://github.com/zengfr/romhack 009ACA dbra D5, $9ac8 057A4A move.b #$5, ($86,A6) [weapon+84] 057A50 move.b #$1, ($4a,A6) [weapon+86] 057E14 bne $57e36 [weapon+86] 057E30 move.b #$7, ($2f,A6) [weapon+86] 0586A6 bne $586c8 [weapon+86] 0586C2 move.b #$7, ($2f,A6) [weapon+86] 058AF0 move.b #$5, ($86,A6) [weapon+84] 058AF6 clr.b ($88,A6) [weapon+86] 058F38 bne $58f5a [weapon+86] 058F54 move.b #$7, ($2f,A6) [weapon+86] copyright zengfr site:http://github.com/zengfr/romhack

33.3125

54

0.634146

5e502fa0a5ee1e8448f7cd1d62fb58de7a79be99

199

asm

Assembly

mc-sema/validator/x86/tests/SBB16rr.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

[ "BSD-3-Clause" ]

2

2021-08-07T16:21:29.000Z

2021-11-17T10:58:37.000Z

mc-sema/validator/x86/tests/SBB16rr.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

[ "BSD-3-Clause" ]

null

mc-sema/validator/x86/tests/SBB16rr.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

[ "BSD-3-Clause" ]

null

BITS 32 ;TEST_FILE_META_BEGIN ;TEST_TYPE=TEST_F ;TEST_IGNOREFLAGS= ;TEST_FILE_META_END ; SBB16rr mov cx, 0x0 mov dx, 0x1 ;TEST_BEGIN_RECORDING sbb cx, dx ;TEST_END_RECORDING

15.307692

25

0.718593

6fde80134ccec2380d13e170f90aba78be4ad6c2

206

asm

Assembly

tests/reg_call_tail.asm

notaz/ia32rtools

75b4a70dafd7faf3c27b963fa8e67462538f91d4

[ "BSD-3-Clause" ]

55

2015-01-27T01:10:27.000Z

2022-03-27T05:35:08.000Z

tests/reg_call_tail.asm

notaz/ia32rtools

75b4a70dafd7faf3c27b963fa8e67462538f91d4

[ "BSD-3-Clause" ]

null

tests/reg_call_tail.asm

notaz/ia32rtools

75b4a70dafd7faf3c27b963fa8e67462538f91d4

[ "BSD-3-Clause" ]

9

2015-08-16T03:27:24.000Z

2020-10-28T05:14:52.000Z

_text segment para public 'CODE' use32 sub_test proc near mov ebx, 1 jmp fastcall_func sub_test endp _text ends ; vim:expandtab

17.166667

48

0.5

e716329d9877a85a433de2e941bb5ba683a78066

143

asm

Assembly

other.7z/SFC.7z/SFC/ソースデータ/ゼルダの伝説神々のトライフォース/NES_Ver2/us_scr/zel_endz.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

other.7z/SFC.7z/SFC/ソースデータ/ゼルダの伝説神々のトライフォース/NES_Ver2/us_scr/zel_endz.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

other.7z/SFC.7z/SFC/ソースデータ/ゼルダの伝説神々のトライフォース/NES_Ver2/us_scr/zel_endz.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

Name: zel_endz.asm Type: file Size: 25 Last-Modified: '2016-05-13T04:27:09Z' SHA-1: E758FE70B96333E454AD956E7FFFE3AED717464F Description: null

20.428571

47

0.811189

7076fc93052a429dbf57aad1569c7237e3dc0636

148

asm

Assembly

other.7z/NEWS.7z/NEWS/テープリストア/NEWS_05/NEWS_05.tar/home/kimura/kart/risc.lzh/risc/join/kart-obj-j.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

other.7z/NEWS.7z/NEWS/テープリストア/NEWS_05/NEWS_05.tar/home/kimura/kart/risc.lzh/risc/join/kart-obj-j.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

other.7z/NEWS.7z/NEWS/テープリストア/NEWS_05/NEWS_05.tar/home/kimura/kart/risc.lzh/risc/join/kart-obj-j.asm

prismotizm/gigaleak

d082854866186a05fec4e2fdf1def0199e7f3098

[ "MIT" ]

null

Name: kart-obj-j.asm Type: file Size: 58032 Last-Modified: '1992-07-14T23:57:00Z' SHA-1: D1B6FEDFF1BDDDEA7C8939574621FEAFB6F59F87 Description: null

21.142857

47

0.804054

ed9c8ca5a5e9d45934d40560be09377b3cbe7ec8

198

asm

Assembly

data/wildPokemon/route15.asm

longlostsoul/EvoYellow

fe5d0d372c4e90d384c4005a93f19d7968f2ff13

[ "Unlicense" ]

16

2018-08-28T21:47:01.000Z

2022-02-20T20:29:59.000Z

data/wildPokemon/route15.asm

longlostsoul/EvoYellow

fe5d0d372c4e90d384c4005a93f19d7968f2ff13

[ "Unlicense" ]

5

2019-04-03T19:53:11.000Z

2022-03-11T22:49:34.000Z

data/wildPokemon/route15.asm

longlostsoul/EvoYellow

fe5d0d372c4e90d384c4005a93f19d7968f2ff13

[ "Unlicense" ]

2

2019-12-09T19:46:02.000Z

2020-12-05T21:36:30.000Z

Route15Mons: db $0F db 26,BELLSPROUT;day db 26,ODDISH db 24,MARILL db 32,PIDGEOTTO;day db 28,BELLSPROUT db 28,GLOOM db 30,WEEPINBELL;day db 30,DITTO db 27,VENONAT db 30,QUAGSIRE db $00

13.2

21

0.727273

6d4f1d151edcdf8241ad5f44fe39687b43cf7436

413

asm

Assembly

oeis/133/A133455.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/133/A133455.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/133/A133455.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A133455: a(n) = 3*a(n-1) - 3*a(n-2) + 2*a(n-3). ; Submitted by Jon Maiga ; 4,2,1,5,16,35,67,128,253,509,1024,2051,4099,8192,16381,32765,65536,131075,262147,524288,1048573,2097149,4194304,8388611,16777219,33554432,67108861,134217725,268435456,536870915,1073741827,2147483648,4294967293,8589934589,17179869184 mov $3,$0 seq $0,131028 ; Periodic sequence (7, 4, 1, 1, 4, 7). mov $2,2 pow $2,$3 add $0,$2 sub $0,4

37.545455

234

0.714286

80d463a396805a0b41b1c0083ea082d873bbcef1

2,258

asm

Assembly

libsrc/target/gb/gbdk/banked_call.asm

ahjelm/z88dk

c4de367f39a76b41f6390ceeab77737e148178fa

[ "ClArtistic" ]

640

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/target/gb/gbdk/banked_call.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

[ "ClArtistic" ]

1,600

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/target/gb/gbdk/banked_call.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

[ "ClArtistic" ]

215

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

MODULE banked_call SECTION code_driver PUBLIC banked_call EXTERN CLIB_BANKING_STACK_SIZE INCLUDE "target/gb/def/gb_globals.def" ;; Performs a long call. ;; Basically: ;; call banked_call ;; .dw low ;; .dw bank ;; remainder of the code banked_call: pop de ; Get the return address ; Switch to the temporary stack ld (mainsp),sp ld hl,tempsp ld a,(hl+) ld h,(hl) ld l,a ld sp,hl ld a,(__current_bank) push af ; Push the current bank onto the stack ld l,e ld h,d ld e,(hl) ; Fetch the call address inc hl ld d,(hl) inc hl ld c,(hl) ; ...and page inc hl inc hl ; Yes this should be here push hl ; Push the real return address ; Switch back to the main stack from the temporary stack ld (tempsp),sp ld hl,mainsp ld a,(hl+) ld h,(hl) ld l,a ld sp,hl ld a,c ld (__current_bank),a ld (MBC1_ROM_PAGE),a ; Perform the switch ld l,e ld h,d rst $20 push hl ld (mainsp),sp ld hl,tempsp ld a,(hl+) ld h,(hl) ld l,a ld sp,hl pop bc ; Get the return address pop af ; Pop the old bank ld (tempsp),sp ld (MBC1_ROM_PAGE),a ld (__current_bank),a ld hl,mainsp ld a,(hl+) ld h,(hl) ld l,a ld sp,hl pop hl push bc ret SECTION code_crt_init pop bc ld hl,sp+0 ex de,hl ld hl,tempsp ld (hl),e inc hl ld (hl),d add sp,-CLIB_BANKING_STACK_SIZE push bc SECTION bss_driver __current_bank: defw 0 tempsp: defw 0 mainsp: defw 0

23.040816

70

0.41364

78f5ec1abcea18bf669229529b58c2efd7272a03

1,518

asm

Assembly

data/mon_menu.asm

pokeachromicdevs/pokeoctober

db74bb68bbfceac07eec6d64674bc24fd4c0b67f

[ "blessing" ]

1

2021-07-05T23:48:37.000Z

data/mon_menu.asm

AtmaBuster/pokeoctober

12652b84eb2df1a0ed2f654a0ffcfb78202e515f

[ "blessing" ]

1

2020-12-16T01:11:20.000Z

2020-12-16T22:53:56.000Z

data/mon_menu.asm

AtmaBuster/pokeoctober

12652b84eb2df1a0ed2f654a0ffcfb78202e515f

[ "blessing" ]

1

2021-07-05T23:33:22.000Z

MonMenuOptions: ; category, item, value; actions are in PokemonActionSubmenu (see engine/pokemon/mon_menu.asm) ; moves dbbw MONMENU_FIELD_MOVE, MONMENUITEM_UPROOT, UPROOT dbbw MONMENU_FIELD_MOVE, MONMENUITEM_WINDRIDE, WIND_RIDE dbbw MONMENU_FIELD_MOVE, MONMENUITEM_WATERSPORT, WATER_SPORT dbbw MONMENU_FIELD_MOVE, MONMENUITEM_STRONGARM, STRONG_ARM dbbw MONMENU_FIELD_MOVE, MONMENUITEM_BRIGHTMOSS, BRIGHT_MOSS dbbw MONMENU_FIELD_MOVE, MONMENUITEM_BOUNCE, BOUNCE dbbw MONMENU_FIELD_MOVE, MONMENUITEM_WHIRLPOOL, WHIRLPOOL dbbw MONMENU_FIELD_MOVE, MONMENUITEM_DIG, DIG dbbw MONMENU_FIELD_MOVE, MONMENUITEM_TELEPORT, TELEPORT dbbw MONMENU_FIELD_MOVE, MONMENUITEM_SOFTBOILED, SOFTBOILED dbbw MONMENU_FIELD_MOVE, MONMENUITEM_HEADBUTT, HEADBUTT dbbw MONMENU_FIELD_MOVE, MONMENUITEM_ROCKSMASH, ROCK_SMASH dbbw MONMENU_FIELD_MOVE, MONMENUITEM_MILKDRINK, MILK_DRINK dbbw MONMENU_FIELD_MOVE, MONMENUITEM_SWEETSCENT, SWEET_SCENT ; options dbbw MONMENU_MENUOPTION, MONMENUITEM_STATS, .stats dbbw MONMENU_MENUOPTION, MONMENUITEM_SWITCH, .switch dbbw MONMENU_MENUOPTION, MONMENUITEM_ITEM, .item dbbw MONMENU_MENUOPTION, MONMENUITEM_CANCEL, .cancel dbbw MONMENU_MENUOPTION, MONMENUITEM_MOVE, .move dbbw MONMENU_MENUOPTION, MONMENUITEM_MAIL, .mail dbbw MONMENU_MENUOPTION, MONMENUITEM_ERROR, .error db -1 .stats: db "STATS@" .switch: db "SWITCH@" .item: db "ITEM@" .cancel: db "CANCEL@" .move: db "MOVE@" .mail: db "MAIL@" .error: db "ERROR!@"

43.371429

94

0.794466

882f57cfeebd78f35696102d16d46e28b9e007d0

1,750

asm

Assembly

x86/EasyMoveMng.asm

lantonov/asm

b9ddd4ed9a8c73cbd3600608847769f4690c293c

[ "BSD-3-Clause" ]

150

2016-11-26T05:41:31.000Z

2022-02-09T20:54:53.000Z

x86/EasyMoveMng.asm

lantonov/asm

b9ddd4ed9a8c73cbd3600608847769f4690c293c

[ "BSD-3-Clause" ]

199

2016-12-07T22:13:00.000Z

2022-03-22T15:42:18.000Z

x86/EasyMoveMng.asm

lantonov/asm

b9ddd4ed9a8c73cbd3600608847769f4690c293c

[ "BSD-3-Clause" ]

95

2016-11-24T22:57:13.000Z

2022-01-24T19:42:10.000Z

EasyMoveMng_Clear: lea rcx, [easyMoveMng] xor eax, eax mov qword[rcx+EasyMoveMng.pv+4*0], rax mov qword[rcx+EasyMoveMng.pv+4*2], rax mov qword[rcx+EasyMoveMng.expectedPosKey], rax mov dword[rcx+EasyMoveMng.stableCnt], eax ret EasyMoveMng_Get: ; in: rcx key xor eax, eax cmp rcx, qword[easyMoveMng.expectedPosKey] cmove eax, dword[easyMoveMng.pv+4*2] ret EasyMoveMng_Update: ; in: rbp position ; rbx state ; rcx address of RootMove struct push rsi lea rsi, [easyMoveMng] mov edx, dword[rsi+EasyMoveMng.stableCnt] xor r8d, r8d add edx, 1 mov eax, dword[rcx+RootMove.pv+4*2] cmp eax, dword[rsi+EasyMoveMng.pv+4*2] cmovne edx, r8d mov dword[rsi+EasyMoveMng.stableCnt], edx mov rax, qword[rcx+RootMove.pv+4*0] cmp rax, qword[rsi+EasyMoveMng.pv+4*0] jne @f mov ecx, dword[rcx+RootMove.pv+4*2] cmp ecx, dword[rsi+EasyMoveMng.pv+4*2] je .done @@: mov qword[rsi+EasyMoveMng.pv+4*0], rax mov dword[rsi+EasyMoveMng.pv+4*2], ecx call SetCheckInfo mov ecx, dword[rsi+EasyMoveMng.pv+4*0] call Move_GivesCheck mov ecx, dword[rsi+EasyMoveMng.pv+4*0] mov byte[rbx+State.givesCheck], al call Move_Do__EasyMoveMng call SetCheckInfo mov ecx, dword[rsi+EasyMoveMng.pv+4*1] call Move_GivesCheck mov ecx, dword[rsi+EasyMoveMng.pv+4*1] mov byte[rbx+State.givesCheck], al call Move_Do__EasyMoveMng mov rax, qword[rbx+State.key] mov qword[rsi+EasyMoveMng.expectedPosKey], rax mov ecx, dword[rsi+EasyMoveMng.pv+4*1] call Move_Undo mov ecx, dword[rsi+EasyMoveMng.pv+4*0] call Move_Undo .done: pop rsi ret

25.735294

50

0.651429

15ffd5e902d6e3dab0a40eb0e01eadad3f910b13

6,169

asm

Assembly

Transynther/x86/_processed/NONE/_zr_/i7-8650U_0xd2.log_16373_138.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NONE/_zr_/i7-8650U_0xd2.log_16373_138.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NONE/_zr_/i7-8650U_0xd2.log_16373_138.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r11 push %r13 push %r15 push %r9 push %rax push %rcx push %rdi push %rsi lea addresses_WC_ht+0x2d46, %r15 nop nop nop nop xor $11658, %rdi mov (%r15), %ecx nop cmp %r9, %r9 lea addresses_A_ht+0x107fe, %r15 nop nop nop nop and %rax, %rax and $0xffffffffffffffc0, %r15 movaps (%r15), %xmm7 vpextrq $1, %xmm7, %r11 nop nop nop nop nop and $58689, %r11 lea addresses_D_ht+0x6b46, %r11 cmp $31194, %rdi movl $0x61626364, (%r11) nop nop nop nop nop inc %rax lea addresses_UC_ht+0x4946, %rcx nop nop nop nop sub %r13, %r13 movups (%rcx), %xmm2 vpextrq $1, %xmm2, %rdi nop nop nop inc %rdi lea addresses_A_ht+0x18146, %rsi lea addresses_WC_ht+0x8846, %rdi nop nop nop dec %r11 mov $72, %rcx rep movsw nop nop nop nop nop inc %rsi lea addresses_A_ht+0x8946, %rsi lea addresses_A_ht+0x1e53e, %rdi xor %r11, %r11 mov $60, %rcx rep movsw nop dec %rsi lea addresses_normal_ht+0x1e346, %r9 nop nop nop nop cmp %r15, %r15 mov (%r9), %rdi nop nop nop nop sub $26635, %r11 lea addresses_A_ht+0x3242, %rsi nop and $65192, %rax mov $0x6162636465666768, %rdi movq %rdi, (%rsi) nop nop nop nop add %r15, %r15 lea addresses_normal_ht+0x14d46, %rax nop nop nop nop and %r9, %r9 mov $0x6162636465666768, %r15 movq %r15, %xmm1 movups %xmm1, (%rax) cmp $58289, %rcx pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r15 pop %r13 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r15 push %rbx push %rcx push %rdx // Faulty Load lea addresses_A+0x14146, %r15 nop nop nop xor $2862, %rcx mov (%r15), %rdx lea oracles, %rcx and $0xff, %rdx shlq $12, %rdx mov (%rcx,%rdx,1), %rdx pop %rdx pop %rcx pop %rbx pop %r15 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 16, 'AVXalign': True, 'NT': False, 'congruent': 0, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 4, 'AVXalign': False, 'NT': True, 'congruent': 9, 'same': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 16, 'AVXalign': True, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 10, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 6, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 10, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 3, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 7, 'same': False}} {'00': 16373} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

37.615854

2,999

0.659102

43becf1b6c03cd015e7adb3485d2c0ac97bc0018

404

asm

Assembly

boot/realmode_tests.asm

blessingcharles/TOM_OS

334ee31b44e268b8b8ffacffc11a9a0b3661a638

[ "MIT" ]

1

2021-04-06T11:00:24.000Z

boot/realmode_tests.asm

blessingcharles/TOM_OS

334ee31b44e268b8b8ffacffc11a9a0b3661a638

[ "MIT" ]

null

boot/realmode_tests.asm

blessingcharles/TOM_OS

334ee31b44e268b8b8ffacffc11a9a0b3661a638

[ "MIT" ]

null

[BITS 16] ;testing bios for disk reading for loading our kernel[mostly supported all firmwares] TestDiskExension: mov ah,0x41 mov bx,0xa int 0x13 jc NotSupported cmp bx,0xaa55 jne NotSupported ;print msg if disk service supporte by bios mov bp,test1 ;bp contains & to string mov cx,test1len ;cx contains the msglength call printmsg ret

25.25

85

0.668317

54852ecfec3e89d8822962e70550256ddb46c072

5,052

asm

Assembly

Transynther/x86/_processed/AVXALIGN/_st_/i7-7700_9_0x48.log_21829_1602.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/AVXALIGN/_st_/i7-7700_9_0x48.log_21829_1602.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/AVXALIGN/_st_/i7-7700_9_0x48.log_21829_1602.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r13 push %r15 push %rax push %rbx push %rdx push %rsi lea addresses_UC_ht+0x2142, %r15 clflush (%r15) nop nop add %rbx, %rbx movb $0x61, (%r15) nop nop sub $44005, %rdx lea addresses_UC_ht+0x726, %rsi and $10104, %r13 movw $0x6162, (%rsi) nop nop nop nop nop xor %rax, %rax lea addresses_WC_ht+0x6aa2, %rax nop nop nop nop nop and %r15, %r15 mov $0x6162636465666768, %rsi movq %rsi, (%rax) add %rdx, %rdx lea addresses_UC_ht+0x7b52, %rsi nop nop and $14591, %rax movb (%rsi), %bl nop nop nop nop cmp $26914, %r13 pop %rsi pop %rdx pop %rbx pop %rax pop %r15 pop %r13 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r13 push %r8 push %rax push %rbp push %rcx push %rdi // Store mov $0x5fd7320000000a72, %r13 nop nop nop nop nop add %r8, %r8 movw $0x5152, (%r13) nop nop add $5166, %r11 // Faulty Load lea addresses_RW+0x6672, %rcx nop nop nop nop nop add $15488, %rbp mov (%rcx), %rdi lea oracles, %rbp and $0xff, %rdi shlq $12, %rdi mov (%rbp,%rdi,1), %rdi pop %rdi pop %rcx pop %rbp pop %rax pop %r8 pop %r13 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 6, 'size': 2, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': True, 'NT': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': True, 'congruent': 4, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 2, 'size': 2, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 4, 'size': 8, 'same': False, 'NT': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 4, 'size': 1, 'same': False, 'NT': False}} {'32': 21829} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */

43.179487

2,999

0.657363

2bbb6eff0241d6961d2b0696de2e1e8df2365b58

677

asm

Assembly

oeis/159/A159017.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/159/A159017.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/159/A159017.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A159017: Numerator of Hermite(n, 3/8). ; Submitted by Jon Maiga ; 1,3,-23,-261,1425,37683,-114951,-7579989,3009057,1949504355,4981904649,-608895679653,-3580317475407,223074988560531,2158637035450905,-93461683768765173,-1316530828322729919,43902789604639578819,847901139421483812393,-22744303394007945962565,-583756802950285995822639,12805083763314227428573683,430699822872534871478534457,-7722679500755611495280269461,-340163108136452499894042168735,4910528532170952128693120439843,286862072105674856301313096307529,-3224973522449207602168736917026789 mov $1,1 mov $2,-1 lpb $0 sub $0,1 mul $1,2 sub $1,$2 add $2,$1 mul $2,$0 mul $2,16 sub $2,$1 lpe mov $0,$1

39.823529

487

0.812408

dc35d0df7bf04a7a78b820677c63d5be549bb970

1,008

asm

Assembly

BigNum/Mod/Base/bnDivDw.asm

FloydZ/Crypto-Hash

2635450fb16d4d8dc4578d6539cc25ce599f7e21

[ "MIT" ]

11

2015-03-17T10:31:23.000Z

2022-01-21T17:42:43.000Z

BigNum/Mod/Base/bnDivDw.asm

0xFF1E071F/Crypto-Hash

2635450fb16d4d8dc4578d6539cc25ce599f7e21

[ "MIT" ]

null

BigNum/Mod/Base/bnDivDw.asm

0xFF1E071F/Crypto-Hash

2635450fb16d4d8dc4578d6539cc25ce599f7e21

[ "MIT" ]

6

2018-01-29T16:06:36.000Z

2021-05-08T19:22:24.000Z

.686 .model flat,stdcall option casemap:none include .\bnlib.inc include .\bignum.inc .code bnDivDw proc uses edi esi ebx bnX:DWORD,valY:DWORD,bnQuo:DWORD mov edi,valY mov esi,bnX test edi,edi mov edx,[esi].BN.dwArray[0] jz @@DivisionByZero cmp [esi].BN.dwSize,1 jne @F test edx,edx je @@DivideZero .if edx>edi @@: ; X > Y bnSCreateX edi;tempRem mov ecx,[esi].BN.dwSize xor edx,edx dec ecx .repeat mov eax,[esi].BN.dwArray[ecx*4] div dword ptr valY mov [edi].BN.dwArray[ecx*4],eax dec ecx .until sign? mov ebx,edx mov ecx,[esi].BN.dwSize call _bn_normalize .if bnQuo invoke bnMov,bnQuo,edi .endif bnSDestroyX mov eax,ebx ret .endif .if edx == edi ; X = Y .if bnQuo invoke bnMovzx,bnQuo,1 .endif xor eax,eax ret .endif ; (X < Y) OR (X = 0) @@DivideZero: mov edi,edx .if bnQuo invoke bnClear,bnQuo .endif mov eax,edi ret @@DivisionByZero: mov eax,BNERR_DBZ call _bn_error ;xor edx,edx ;div edx ret bnDivDw endp end

14.823529

62

0.664683

afce6adda895c318642660f2286ad5a354b5f352

641

asm

Assembly

programs/oeis/084/A084266.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/084/A084266.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/084/A084266.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A084266: Binomial transform of A084265. ; 1,3,11,34,96,256,656,1632,3968,9472,22272,51712,118784,270336,610304,1368064,3047424,6750208,14876672,32636928,71303168,155189248,336592896,727711744,1568669696,3372220416,7230980096,15468593152,33017561088,70330089472,149518548992,317290708992,672162381824,1421634174976,3002182139904,6330781794304,13331578486784,28037546508288,58892591562752,123557619171328,258934988341248,542059232493568,1133596488237056,2368348046229504,4943404278480896 mov $3,$0 sub $0,$0 add $0,$3 mov $1,$3 add $1,4 bin $1,2 lpb $0,1 sub $0,1 sub $1,2 mul $1,2 mov $2,1 lpe add $1,$2 sub $1,9 div $1,4 add $1,1

32.05

445

0.795632

766dfc910decfc2f39f1dddc137b54eb5df38bb4

4,103

asm

Assembly

asm/tests/manual/mul_imul.asm

ZopharsDomain/PCX86-JAVASCRIPT-jemul8

0c4828db606f9163e833258b77db8ebf3da09388

[ "MIT" ]

67

2015-01-04T14:55:27.000Z

2022-01-05T05:41:55.000Z

asm/tests/manual/mul_imul.asm

ZopharsDomain/PCX86-JAVASCRIPT-jemul8

0c4828db606f9163e833258b77db8ebf3da09388

[ "MIT" ]

3

2015-09-26T19:37:17.000Z

2021-11-23T00:37:30.000Z

asm/tests/manual/mul_imul.asm

ZopharsDomain/PCX86-JAVASCRIPT-jemul8

0c4828db606f9163e833258b77db8ebf3da09388

[ "MIT" ]

14

2015-01-17T11:32:49.000Z

2021-12-26T12:47:22.000Z

; ; jemul8 - JavaScript x86 Emulator ; Copyright (c) 2012 http://ovms.co. All Rights Reserved. ; ; MODULE: Flags test suite (boot sector) ; org 0 jmp 0x07C0:start start: cli ; Update DS & ES to be 7C0 instead of 0 push CS pop DS push CS pop ES ; Create stack mov ax, 0x0000 mov ss, ax mov sp, 0xFFFD ;*********** multiply -1 and -1 result should be +1 ;****** byte operation MOV AL,-1 ;put -1 into al MOV AH,-1 ;put -1 into ah MUL AH ;ordinary mul - result of 0FE01h (65,025) in ax MOV AL,-1 ;put -1 into al MOV AH,-1 ;put -1 into ah IMUL AH ;signed mul - result of 1 in ax - correct ;****** word operation MOV AX,-1 ;put -1 into ax MOV BX,-1 ;put -1 into bx MUL BX ;ordinary mul - result of FFFE:0001 in dx:ax MOV AX,-1 ;put -1 into ax MOV BX,-1 ;put -1 into bx IMUL BX ;signed mul - result of 0000:0001 dx:ax - correct ;****** dword operation MOV EAX,-1 ;put -1 into eax MOV EBX,-1 ;put -1 into ebx MUL EBX ;ordinary mul - result of FFFFFFFE:00000001 edx:eax MOV EAX,-1 ;put -1 into eax MOV EBX,-1 ;put -1 into ebx IMUL EBX ;signed mul - result of 00000000:00000001 in edx:eax - correct ;*********** multiply +1 and -1 result should be -1 ;****** byte operation MOV AL,1 ;put +1 into al MOV AH,-1 ;put -1 into ah MUL AH ;ordinary mul - result of 0FFh (255) in ax MOV AL,1 ;put +1 into al MOV AH,-1 ;put -1 into ah IMUL AH ;signed mul - result of 0FFFFh in ax - correct ;****** word operation MOV AX,1 ;put 1 into ax MOV BX,-1 ;put -1 into bx MUL BX ;ordinary mul - result of 0000:FFFF in dx:ax MOV AX,1 ;put 1 into ax MOV BX,-1 ;put -1 into bx IMUL BX ;signed mul - result of FFFF:FFFF in dx:ax - correct ;****** dword operation MOV EAX,1 ;put 1 into eax MOV EBX,-1 ;put -1 into ebx MUL EBX ;ordinary mul - result of 00000000:FFFFFFFF in edx:eax MOV EAX,1 ;put 1 into eax MOV EBX,-1 ;put -1 into ebx IMUL EBX ;signed mul - result of FFFFFFFF:FFFFFFFF in edx:eax - correct ;****** specifying the destination register - 32 bit result MOV EDX,-1 ;put -1 into edx MOV EBX,-1 ;put -1 into ebx IMUL EDX,EBX ;edx*ebx result of 1 in edx MOV EAX,-1 ;put -1 into eax MOV EDX,-2 ;put -2 into ebx IMUL EDX,EAX ;edx*eax result of 2 in edx ;****** specifying the destination register and using immediate value - 2 operands MOV ESI,-1 ;put -1 into esi IMUL ESI,4 ;esi*4 result of -4 in esi MOV EAX,-1 ;put -1 into eax IMUL EAX,4 ;eax*4 result of -4 in eax ;****** specifying the destination register and using immediate value - 3 operands MOV EBX,-1 ;put -1 into ebx IMUL EDX,EBX,4 ;ebx*4 result of -4 in edx MOV EAX,-1 ;put -1 into eax IMUL EDX,EAX,5 ;eax*5 result of -5 in edx ;****** using same source and destination registers MOV EDX,-2 ;put -2 into ebx IMUL EDX,EDX ;edx*edx result of 4 in edx MOV EAX,-1 ;put -1 into eax IMUL EAX,EAX,5 ;eax*5 result of -5 in eax ;****** showing smaller code for multipliers between -128 and +127 MOV EAX,1111h ;4369 decimal IMUL EAX,128 ;result is 88880h (559,232) MOV EAX,1111h ;4369 decimal IMUL EAX,-129 ;result is 0FFF7666Fh (-563,601) MOV EAX,1111h ;4369 decimal IMUL EAX,127 ;result is 8776Fh (554,863) MOV EAX,1111h ;4369 decimal IMUL EAX,-128 ;result is 0FFF77780h (-559,232) ; ==== End of code ==== ; Make the file 512 bytes long TIMES 510-($-$$) DB 0 ; Add the boot signature dw 0AA55h

38.345794

86

0.540093

9e89d8f3da8713c60d5d533e6ba712a59d242331

3,447

asm

Assembly

GBCode/ResetAfterRomChange/obj/ram.asm

0xen/PICO-GB

0b1870f49d99466363f89cccc0667c964a7b98aa

[ "MIT" ]

94

2021-03-01T23:52:15.000Z

2021-11-03T07:54:01.000Z

GBCode/ResetAfterRomChange/obj/ram.asm

0xen/PICO-GB

0b1870f49d99466363f89cccc0667c964a7b98aa

[ "MIT" ]

1

2022-01-17T10:37:49.000Z

2022-01-22T22:01:30.000Z

GBCode/ResetAfterRomChange/obj/ram.asm

0xen/PICO-GB-CART

0b1870f49d99466363f89cccc0667c964a7b98aa

[ "MIT" ]

4

2021-12-04T02:54:38.000Z

2022-01-20T16:18:55.000Z

;-------------------------------------------------------- ; File Created by SDCC : free open source ANSI-C Compiler ; Version 4.0.7 #12016 (MINGW64) ;-------------------------------------------------------- .module romreset .optsdcc -mgbz80 ;-------------------------------------------------------- ; Public variables in this module ;-------------------------------------------------------- .globl _my_ram_function .globl _my_cpu .globl _reset_gameboy ;-------------------------------------------------------- ; special function registers ;-------------------------------------------------------- ;-------------------------------------------------------- ; ram data ;-------------------------------------------------------- .area _DATA _my_cpu:: .ds 1 ;-------------------------------------------------------- ; absolute external ram data ;-------------------------------------------------------- .area _DABS (ABS) ;-------------------------------------------------------- ; global & static initialisations ;-------------------------------------------------------- .area _HOME .area _GSINIT .area _GSFINAL .area _GSINIT ;-------------------------------------------------------- ; Home ;-------------------------------------------------------- .area _HOME .area _HOME ;-------------------------------------------------------- ; code ;-------------------------------------------------------- .area _RAMCODE ;./C/romreset.c:7: void my_ram_function(UINT8 data, UBYTE cpu) { ; --------------------------------- ; Function my_ram_function ; --------------------------------- _my_ram_function:: ;./C/romreset.c:9: (*(UBYTE *)(0x0000)) = data + 1; ldhl sp, #2 ld a, (hl) inc a ld (#0x0000),a ;./C/romreset.c:13: for(UWORD i = 0 ; i < 32*32; ++i) ld bc, #0x9800 ld de, #0x0000 00124$: ld a, d sub a, #0x04 jr NC, 00105$ ;./C/romreset.c:15: while(STAT_REG & 0b10); 00101$: ldh a, (_STAT_REG+0) bit 1, a jr NZ, 00101$ ;./C/romreset.c:16: *address++ = 0; xor a, a ld (bc), a inc bc ;./C/romreset.c:13: for(UWORD i = 0 ; i < 32*32; ++i) inc de jr 00124$ ;./C/romreset.c:20: while((STAT_REG & 0b11) == 1); 00105$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr Z, 00105$ ;./C/romreset.c:21: while((STAT_REG & 0b11) != 1); 00108$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr NZ, 00108$ ;./C/romreset.c:22: while((STAT_REG & 0b11) == 1); 00111$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr Z, 00111$ ;./C/romreset.c:23: while((STAT_REG & 0b11) != 1); 00114$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr NZ, 00114$ ;./C/romreset.c:24: while((STAT_REG & 0b11) == 1); 00117$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr Z, 00117$ ;./C/romreset.c:25: while((STAT_REG & 0b11) != 1); 00120$: ldh a, (_STAT_REG+0) and a, #0x03 ld b, a ld c, #0x00 ld a, b dec a or a, c jr NZ, 00120$ ;./C/romreset.c:27: my_cpu = cpu; ldhl sp, #3 ld a, (hl) ld (#_my_cpu),a ;./C/romreset.c:28: reset_gameboy(); ;./C/romreset.c:30: } jp _reset_gameboy ;./C/romreset.c:32: void reset_gameboy() __naked { ; --------------------------------- ; Function reset_gameboy ; --------------------------------- _reset_gameboy:: ;./C/romreset.c:36: __endasm; ld a,(_my_cpu) jp 0x100 ;./C/romreset.c:37: } .area _RAMCODE .area _CABS (ABS)

22.98

64

0.430809

8d1ffbbfd01202bc2b7418088dbac155e994a70b

1,376

asm

Assembly

COMP 3350 - Assembly & Comp Org/HW/homework2/HW2project/main.asm

Skyfox64/auburn-csse

7343c7cc4567c751f3c7d298c78b8cc85d25d6dd

[ "MIT" ]

1

2020-12-10T00:50:08.000Z

COMP 3350 - Assembly & Comp Org/HW/homework2/HW2project/main.asm

Skyfox64/auburn-csse

7343c7cc4567c751f3c7d298c78b8cc85d25d6dd

[ "MIT" ]

null

COMP 3350 - Assembly & Comp Org/HW/homework2/HW2project/main.asm

Skyfox64/auburn-csse

7343c7cc4567c751f3c7d298c78b8cc85d25d6dd

[ "MIT" ]

null

TITLE Name/Age Exercise (Lab 1) (main.asm) INCLUDE Irvine32.inc .data ;nums WORD 10 20 30 40 ; Array of four words ;BYTE ? ;BYTE 256 ;WORD 'x' ;WORD "Hello",0 ;twofiftyfive WORD FFh ;, 0Dh, 0Ah, 0; Hexadecimal FF ;ebp BYTE "ebp",0 ; Null-terminated string ebp ;empty DWORD 4*1024 DUP(?) .code main PROC call Clrscr ;mov edx, offset twofiftyfive ;call WriteString ;========================================================================================== COMMENT ! This is problem 14 in october 12th reading questions ;Implement the following C++ expression in assembly language, using 32-bit unsigned operands: ;val1 = (val2 * val3) / (val4 - 3) ;(val2 * val3) mov eax,val2 ; left side mov ebx,val3 mul ebx ; EDX:EAX = product ;(val4 - 3) mov ebx, val4 ; right side sub ebx,3 ; divide EDX:EAX by EBX div ebx ; final division mov val1, eax ! ;========================================================================================== ;Implement the following C++ expression in assembly language, using 32-bit signed operands: ; val1 = (val2 / val3) * (val1 + val2) ; (val2 /val3) mov eax, val2 ;left side mov ebx, val3 cdq ; sign-extend dividend idiv ; EDX = remainder ;(val1 + val2) mov ebx, val1 add ebx, val2 ; multiply the quotient by EBX imul ebx, mov val1, eax exit main ENDP END main

18.346667

94

0.577035

4fc401ad850a5caf9d332859bcff7fc517c03bf7

4,610

asm

Assembly

srcs/fuzzers/pdf.asm

gamozolabs/falkervisor_beta

48e83a56badcf53dba94a5ab224eb37775a2f37d

[ "MIT" ]

69

2018-09-09T01:30:53.000Z

2021-07-27T18:56:39.000Z

srcs/fuzzers/pdf.asm

gamozolabs/falkervisor_beta

48e83a56badcf53dba94a5ab224eb37775a2f37d

[ "MIT" ]

null

srcs/fuzzers/pdf.asm

gamozolabs/falkervisor_beta

48e83a56badcf53dba94a5ab224eb37775a2f37d

[ "MIT" ]

15

2018-09-09T05:46:41.000Z

2022-02-16T01:46:38.000Z

[bits 64] corrupt_pdf: push rax push rbx push rcx push rdx push rsi push rdi push rbp push r8 push r9 push r10 push r11 push r12 push r13 push r14 push r15 XMMPUSH xmm5 call start_log ; Pick a random base PDF input call rand_pdf mov [gs:thread_local.fuzz_input_len], rcx mov rdi, [gs:thread_local.fuzz_maps] mov rsi, rsi mov rcx, [gs:thread_local.fuzz_input_len] rep movsb mov rdi, [gs:thread_local.fuzz_input] mov rsi, rbx mov rcx, [gs:thread_local.fuzz_input_len] rep movsb call xorshift64 test r15, 0x7 jz .create_new_fuzz %ifdef ENABLE_COVERAGE_FEEDBACK .use_coverage: mov r10, -1 mov r11, 0 mov r12, 8 .try_another: dec r12 jz short .do_the_copy ; Pick a random covearge entry mov rcx, qword [fs:globals.coverage_fht] call fht_random test rax, rax jz .try_another ; If this entry is not more rare, try another entry cmp qword [rax + bb_struc.count], r10 jae short .try_another ; Save off this rare entry mov r10, qword [rax + bb_struc.count] mov r11, rax jmp short .try_another .do_the_copy: ; If we didn't find any entries, start a new fuzz test r11, r11 jz .create_new_fuzz ; Fetch the input associated with this coverage entry movdqu xmm5, [r11 + bb_struc.input_hash] call input_entry_from_hash ; Copy the coverage entry to the fuzz_input mov rsi, [rdx + input_entry.input] mov rdi, [gs:thread_local.fuzz_input] mov rcx, [rdx + input_entry.len] rep movsb ; Copy the coverage entry maps to fuzz_maps mov rsi, [rdx + input_entry.maps] mov rdi, [gs:thread_local.fuzz_maps] mov rcx, [rdx + input_entry.len] rep movsb ; Set the new fuzz input length mov rcx, qword [rdx + input_entry.len] mov [gs:thread_local.fuzz_input_len], rcx jmp .create_new_fuzz %endif .create_new_fuzz: %ifdef ENABLE_FUZZING call xorshift64 mov r14, r15 and r14, 0xf inc r14 .corrupt_stuff: mov r8, [gs:thread_local.fuzz_input] mov r9, [gs:thread_local.fuzz_input_len] mov r10, [gs:thread_local.fuzz_maps] call xorshift64 xor rdx, rdx mov rax, r15 div r9 mov r11, rdx movzx edi, byte [r10 + r11] mov rbp, 100 .find_match: call rand_pdf call xorshift64 xor rdx, rdx mov rax, r15 div rcx mov r12, rdx movzx ecx, byte [rsi + r12] cmp edi, ecx je short .match dec rbp jnz .find_match jmp .no_match .match: xor r15, r15 lea rbp, [rsi + r12] .lewp: cmp r15, 0x100 jae short .end cmp dil, byte [rbp + r15] jne short .end inc r15 jmp short .lewp .end: mov rbp, r15 call xorshift64 xor rdx, rdx mov rax, r15 div rbp inc rdx push rsi push rdi push rcx lea rsi, [r8 + r11] lea rdi, [r8 + r11] add rdi, rdx mov rcx, r9 sub rcx, r11 call memcpy pop rcx pop rdi pop rsi push rsi push rdi push rcx lea rsi, [r10 + r11] lea rdi, [r10 + r11] add rdi, rdx mov rcx, r9 sub rcx, r11 call memcpy pop rcx pop rdi pop rsi add qword [gs:thread_local.fuzz_input_len], rdx lea rsi, [rbx + r12] ; source lea rcx, [ r8 + r11] ; destination in the input lea rbp, [r10 + r11] ; destination in the map .hax: mov al, [rsi] mov [rcx], al mov [rbp], dil inc rbp inc rsi inc rcx dec rdx jnz short .hax .no_match: dec r14 jnz .corrupt_stuff mov rcx, 8 lea rbp, [rel corrupt_from_corpus] call invoke_random mov rcx, 8 lea rbp, [rel corpymem] call invoke_random %endif .done: call stop_log add qword [gs:thread_local.time_corrupt], rdx XMMPOP xmm5 pop r15 pop r14 pop r13 pop r12 pop r11 pop r10 pop r9 pop r8 pop rbp pop rdi pop rsi pop rdx pop rcx pop rbx pop rax ret inject_pdf: push rcx push rdi push rsi ; rdx - PDF buffer base ; r8 - PDF length mov rdi, rdx mov rsi, qword [gs:thread_local.fuzz_input] mov rcx, qword [gs:thread_local.fuzz_input_len] call mm_copy_to_guest_vm_vmcb mov r8, qword [gs:thread_local.fuzz_input_len] pop rsi pop rdi pop rcx ret ; rbx <- Pointer to random entry in dict ; rcx <- Size of random entry ; rsi <- Fuzz map rand_pdf: push rax push rdx push rbp push r15 mov rbx, [fs:globals.fs_base] lea rbx, [rbx + globals.per_node_pdfs] call per_node_data mov rbp, rax mov rbx, [fs:globals.fs_base] lea rbx, [rbx + globals.per_node_pdfmaps] call per_node_data mov rsi, rax .try_another: ; Pick a random entry in the dict call xorshift64 xor rdx, rdx mov rax, r15 div qword [rbp] imul rdx, 0x10 add rdx, 8 mov rbx, [rbp + rdx + 0] ; File offset mov rcx, [rbp + rdx + 8] ; File size test rcx, rcx jz short .try_another lea rsi, [rsi + rbx] lea rbx, [rbp + rbx] pop r15 pop rbp pop rdx pop rax ret

15.787671

54

0.691757

cb515227fcb4f21bc3ee76c2844c5b8f54b05544

1,071

asm

Assembly

kernel/sound/beep.asm

paulscottrobson/eris

cf102530334ed86360deb20f0e41af1e10f5d584

[ "MIT" ]

13

2020-03-31T08:21:22.000Z

2021-07-28T20:03:29.000Z

kernel/sound/beep.asm

paulscottrobson/eris

cf102530334ed86360deb20f0e41af1e10f5d584

[ "MIT" ]

37

2020-03-31T06:35:37.000Z

2020-09-17T08:56:48.000Z

kernel/sound/beep.asm

paulscottrobson/eris

cf102530334ed86360deb20f0e41af1e10f5d584

[ "MIT" ]

5

2020-05-10T10:23:06.000Z

2022-01-14T02:21:02.000Z

; ***************************************************************************** ; ***************************************************************************** ; ; Name: beep.asm ; Purpose: Simple Beeper (DISABLED) ; Created: 8th March 2020 ; Reviewed: 16th March 2020 ; Author: Paul Robson (paul@robsons.org.uk) ; ; ***************************************************************************** ; ***************************************************************************** ; ***************************************************************************** ; ; Play synchronously a beep on channel 1, pitch R0, duration R1. ; ; ***************************************************************************** .OSXBeep push r0,r1 stm r0,#sndTone1 ; start playing ldm r0,#hwTimer ; read timer at start. add r1,r0,#0 ; this is when the beep should stop ._OSBPWait ldm r0,#hwTimer ; this avoids the timer being non incremental etc. sub r0,r1,#0 skp r0 jmp #_OSBPWait stm r14,#sndTone1 ; turn sound off pop r0,r1 ret

33.46875

79

0.358543

249693f335883bd74b835e40124dff68ab48b39f

2,161

asm

Assembly

Transynther/x86/_processed/US/_ht_zr_/i9-9900K_12_0xca_notsx.log_12_1989.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/US/_ht_zr_/i9-9900K_12_0xca_notsx.log_12_1989.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/US/_ht_zr_/i9-9900K_12_0xca_notsx.log_12_1989.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r11 push %r12 push %r13 push %r14 push %r8 push %rcx push %rdi push %rsi lea addresses_D_ht+0x158ac, %r11 nop inc %rsi movb (%r11), %r12b nop lfence lea addresses_normal_ht+0x16cac, %r13 nop add $11313, %r14 movb $0x61, (%r13) nop and $27902, %rcx lea addresses_UC_ht+0x168ac, %rsi lea addresses_D_ht+0xdcac, %rdi nop nop nop add $40728, %r8 mov $67, %rcx rep movsb nop nop nop nop dec %r14 lea addresses_A_ht+0xd0ac, %rsi nop nop nop add $58316, %r11 movups (%rsi), %xmm7 vpextrq $0, %xmm7, %r13 nop inc %r8 lea addresses_UC_ht+0x140ac, %rsi lea addresses_A_ht+0x88ac, %rdi inc %r8 mov $11, %rcx rep movsw nop nop nop inc %rdi pop %rsi pop %rdi pop %rcx pop %r8 pop %r14 pop %r13 pop %r12 pop %r11 ret .global s_faulty_load s_faulty_load: push %r12 push %rbp push %rbx push %rdi push %rdx // Faulty Load lea addresses_US+0xa8ac, %rdx nop nop xor $61529, %rdi vmovups (%rdx), %ymm4 vextracti128 $0, %ymm4, %xmm4 vpextrq $1, %xmm4, %rbp lea oracles, %rdx and $0xff, %rbp shlq $12, %rbp mov (%rdx,%rbp,1), %rbp pop %rdx pop %rdi pop %rbx pop %rbp pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_US', 'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 0}} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'type': 'addresses_US', 'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 0}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_D_ht', 'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 11}} {'OP': 'STOR', 'dst': {'same': False, 'type': 'addresses_normal_ht', 'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 10}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 11, 'type': 'addresses_UC_ht'}, 'dst': {'same': False, 'congruent': 10, 'type': 'addresses_D_ht'}} {'OP': 'LOAD', 'src': {'same': True, 'type': 'addresses_A_ht', 'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 11}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 11, 'type': 'addresses_UC_ht'}, 'dst': {'same': False, 'congruent': 10, 'type': 'addresses_A_ht'}} {'00': 3, '45': 9} 45 45 45 00 00 45 45 45 45 45 45 00 */

20.386792

149

0.652938

f6e1dc21a6158d690ead177fe73d34b1852d38bb

257

asm

Assembly

test/asm/bracketed-symbols.asm

michealccc/rgbds

b51e1c7c2c4ce2769f01e016967d0115893a7a88

[ "MIT" ]

522

2017-02-25T21:10:13.000Z

2020-09-13T14:26:18.000Z

test/asm/bracketed-symbols.asm

michealccc/rgbds

b51e1c7c2c4ce2769f01e016967d0115893a7a88

[ "MIT" ]

405

2017-02-25T21:32:37.000Z

2020-09-13T16:43:29.000Z

test/asm/bracketed-symbols.asm

michealccc/rgbds

b51e1c7c2c4ce2769f01e016967d0115893a7a88

[ "MIT" ]

84

2017-02-25T21:10:26.000Z

2020-09-13T14:28:25.000Z

X = 42 PRINTLN "{X}" PRINTLN "{x:X}" PRINTLN "{X:X}" PRINTLN "{d:X}" PRINTLN "{b:X}" Y equ 1337 PRINTLN "{b:Y}" rsreset R rb 0 PRINTLN "{d:R}" S equs "You can't format me!" PRINTLN "{X:S}" SECTION "Test", ROM0 Label: PRINTLN "{x:Label}" PRINTLN "{x:@}"

11.681818

29

0.599222

a8f813ec7340153ede49015cade443580717f934

319

asm

Assembly

programs/oeis/165/A165676.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/165/A165676.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/165/A165676.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A165676: Fourth right hand column of triangle A165674 ; 50,154,342,638,1066,1650,2414,3382,4578,6026,7750,9774,12122,14818,17886,21350,25234,29562,34358,39646,45450,51794,58702,66198,74306,83050,92454,102542,113338,124866,137150,150214,164082,178778 add $0,2 mul $0,2 mov $2,-3 bin $2,$0 sub $2,2 mul $0,$2 sub $0,2

29

195

0.752351

4c056a1f87e59e4451b4fb8c66aae6ae3ae4c1be

364

asm

Assembly

libsrc/spectrum/zx_mb02.asm

dex4er/deb-z88dk

9ee4f23444fa6f6043462332a1bff7ae20a8504b

[ "ClArtistic" ]

1

2018-09-04T23:07:24.000Z

libsrc/spectrum/zx_mb02.asm

dex4er/deb-z88dk

9ee4f23444fa6f6043462332a1bff7ae20a8504b

[ "ClArtistic" ]

null

libsrc/spectrum/zx_mb02.asm

dex4er/deb-z88dk

9ee4f23444fa6f6043462332a1bff7ae20a8504b

[ "ClArtistic" ]

null

; ; ZX Spectrum specific routines ; by Stefano Bodrato, 11/02/2008 ; ; int zx_mb02(); ; ; The result is: ; - 0 (false) if MB-02 isn't connected ; - 1 (true) if MB-02 real time clock is responding ; ; $Id: zx_mb02.asm,v 1.1 2008/02/12 14:43:57 stefano Exp $ ; XLIB zx_mb02 zx_mb02: ld bc,3 in a,(c) cp 10 ld hl,0 ret nc inc hl ret

15.166667

59

0.604396

54a0eba94bcd441cf26da40ccc8a78403a96e243

195

asm

Assembly

libsrc/target/tiki100/stdio/generic_console_get_mode.asm

ahjelm/z88dk

c4de367f39a76b41f6390ceeab77737e148178fa

[ "ClArtistic" ]

640

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/target/tiki100/stdio/generic_console_get_mode.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

[ "ClArtistic" ]

1,600

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/target/tiki100/stdio/generic_console_get_mode.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

[ "ClArtistic" ]

215

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

SECTION code_graphics ;So himem PUBLIC generic_console_get_mode INCLUDE "target/cpm/def/tiki100.def" generic_console_get_mode: ld a,(PORT_0C_COPY) rrca rrca rrca rrca and 3 ret

12.1875

38

0.758974

454ec6415e38347d18982b3a9a3a233ddfcf3f53

636

asm

Assembly

oeis/051/A051877.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/051/A051877.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/051/A051877.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A051877: Partial sums of A051740. ; Submitted by Jamie Morken(s2) ; 1,12,57,182,462,1008,1974,3564,6039,9724,15015,22386,32396,45696,63036,85272,113373,148428,191653,244398,308154,384560,475410,582660,708435,855036,1024947,1220842,1445592,1702272,1994168,2324784,2697849,3117324,3587409,4112550,4697446,5347056,6066606,6861596,7737807,8701308,9758463,10915938,12180708,13560064,15061620,16693320,18463445,20380620,22453821,24692382,27106002,29704752,32499082,35499828,38718219,42165884,45854859,49797594,54006960,58496256,63279216,68370016,73783281,79534092,85637993 mov $1,$0 add $0,4 bin $0,$1 mul $1,7 add $1,5 mul $0,$1 div $0,5

53

500

0.814465

eae608575236a7519f6c1c36f931af529173a5be

462

asm

Assembly

oeis/145/A145865.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/145/A145865.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/145/A145865.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A145865: a(0) = 0, a(1) = 1, a(2n) = a(n), a(2n+1) = a(n) - a(n+1). ; Submitted by Christian Krause ; 0,1,1,0,1,1,0,-1,1,0,1,1,0,1,-1,-2,1,1,0,-1,1,0,1,1,0,-1,1,2,-1,1,-2,-3,1,0,1,1,0,1,-1,-2,1,1,0,-1,1,0,1,1,0,1,-1,-2,1,-1,2,3,-1,-2,1,3,-2,1,-3,-4,1,1,0,-1,1,0,1,1,0,-1,1,2,-1,1,-2,-3,1,0,1,1,0,1,-1,-2,1,1,0,-1,1,0,1,1,0,-1,1,2 mov $1,1 lpb $0 div $2,-2 lpb $0 dif $0,2 add $1,$2 lpe add $0,2 div $0,2 add $2,$1 mul $2,2 lpe mul $0,$1

25.666667

229

0.458874

f0488a280ac4d0f20ae769edf4a6c4285821b1a8

401

asm

Assembly

oeis/137/A137282.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/137/A137282.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/137/A137282.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A137282: Final digit of A136408(n). ; Submitted by Jon Maiga ; 1,2,4,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9,7,3,7,5,7,1,7,9 mov $1,1 lpb $0 sub $0,1 mul $2,3 mov $3,$1 mov $1,$2 mul $1,6 mul $2,3 add $2,$3 add $2,12 add $1,$2 lpe mov $0,$3 add $0,1 mod $0,10

20.05

183

0.526185

eb1cf75d3c550202fecb392a8b2b547c8dc1f5f6

257

asm

Assembly

programs/oeis/119/A119412.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/119/A119412.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/119/A119412.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A119412: a(n) = n*(n+11). ; 0,12,26,42,60,80,102,126,152,180,210,242,276,312,350,390,432,476,522,570,620,672,726,782,840,900,962,1026,1092,1160,1230,1302,1376,1452,1530,1610,1692,1776,1862,1950,2040,2132,2226,2322,2420,2520 mov $1,$0 add $1,11 mul $0,$1

36.714286

197

0.696498

dd3d68ee28f8672f52d9bd240b5d585bfa4a82d9

503

asm

Assembly

oeis/006/A006172.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/006/A006172.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/006/A006172.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A006172: a(n) = 1 + F(2*n+1) + (-1)^n*L(n). ; Submitted by Jon Maiga ; 4,2,9,10,42,79,252,582,1645,4106,11070,28459,75348,195898,515073,1344906,3526786,9223895,24163596,63236638,165595269,433469962,1134942774,2971150995,7778845732,20364843314,53316562617,139583423242,365436006810,956720876191,2504732642460 mov $2,-1 lpb $0 sub $0,1 add $4,1 add $4,$1 add $1,$4 add $4,1 max $5,$1 add $1,1 add $5,$2 mov $2,$3 add $2,$4 sub $5,$4 sub $5,$3 mov $3,$5 lpe mov $0,$3 add $0,4

21.869565

238

0.656064

1305f12d885b94031a831bea4570b2a07f477607

2,075

asm

Assembly

programs/oeis/124/A124353.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/124/A124353.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/124/A124353.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A124353: Number of (directed) Hamiltonian circuits on the n-antiprism graph. ; 6,18,32,58,112,220,450,938,1982,4220,9022,19332,41472,89022,191150,410506,881656,1893634,4067256,8735972,18763898,40302866,86566390,185935764,399371142,857808780,1842486536,3957474934,8500256470,18257692546,39215680080,84231321290,180920373632,388598695916,834670764082,1792788529146,3850728752814,8270976574764,17765222609102,38157904510996,81959326303504,176040357934126,378116915051646,812156957222906,1744431145259816,3746861974756754,8047881222498760,17286036317271540,37128660737025258,79748614594066530,171291972385388006,367917862310545732,790250421675387670,1697378118681866524,3645796824343186968,7830803483382307046,16819775250750546854,36127179041858347250,77597533026741747328,166671666361208987994,357993911456550829200,768934777205710551804,1651594266480021197474,3547457732347993129546,7619581042513746075550,16366090773689753531356,35152710591065238811230,75504473180958491948708,162175985136778723101728,348337642089760945809566,748194085544276883960910,1607045354860577498680938,3451771168038892212411480,7414055963304324093733410,15924643654242686017236440,34204526748890226417113860,73467870020679922545319258,157801567172703061396782514,338941833962953132904533974,728012838329039178243417332,1563698073427648505449266854,3358665584048679994840634540,7214074569233016183982584616,15495103810758024679113119574,33281918533272737041918922358,71486200724021802584127745122,153545141601325301347078708400,329799461582641643557253119978,708375945509314048835538280864,1521520010275922637297123228172,3268071362877192378525452908818,7019487328938351701955237644954,15077150064968659096303266689678,32384196085722554878739194887308,69557983544598224773300965910510,149403525781011993627082622373684,320903688955930998052423749080880,689268724062553210079889959737614,1480479627755427199811820080271902,3179920764836464618024023748826842 mul $0,2 mov $1,$0 sub $0,3 add $1,1 seq $1,1609 ; a(1) = a(2) = 1, a(3) = 4; thereafter a(n) = a(n-1) + a(n-3). add $0,$1 add $0,5 mul $0,2

172.916667

1,853

0.90747

c0c38276445b34940d95ae2f149a19afceafbcf8

4,658

asm

Assembly

firmware/coreboot/3rdparty/blobs/cpu/amd/geode_lx/gplvsa_ii/vsm_lib/vsa2util.asm

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

1

2019-11-04T07:11:25.000Z

firmware/coreboot/3rdparty/blobs/cpu/amd/geode_lx/gplvsa_ii/vsm_lib/vsa2util.asm

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

13

2018-10-12T21:29:09.000Z

2018-10-25T20:06:51.000Z

firmware/coreboot/3rdparty/blobs/cpu/amd/geode_lx/gplvsa_ii/vsm_lib/vsa2util.asm

fabiojna02/OpenCellular

45b6a202d6b2e2485c89955b9a6da920c4d56ddb

[ "CC-BY-4.0", "BSD-3-Clause" ]

null

; ; Copyright (c) 2006-2008 Advanced Micro Devices,Inc. ("AMD"). ; ; This library 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 code 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 library; if not, write to the ; Free Software Foundation, Inc., 59 Temple Place, Suite 330, ; Boston, MA 02111-1307 USA ; ;* Function: * ;* This file implements the SYS_GET_NEXT_MSG & SYS_REGISTER_EVENT * ;* macros as well as the code to perform a system call. include sysmgr.inc include smimac.mac include vsa2.inc .model tiny,c .586p .CODE public Async_VSM Async_VSM dd 0 ;*********************************************************************** ; USHORT sys_get_next_msg(ULONG *) ; ; This routine retrieves a message packet from a VSM's message queue. ; ; Input: ; MsgPacket = ptr to message packet (relative to DS) ; Returns: ; Message code ;*********************************************************************** sys_get_next_msg proc uses si di \ MsgPacket: PTR CheckMsgQ: xor di, di ASSUME di: PTR VSM_Header mov si, [di].SysStuff.Qtail ; Is the message queue empty ? cmp si, [di].SysStuff.Qhead jne MessageIsWaiting mov ax, SYS_CODE_EXIT ; Return to the System Manager smint ; Returns here when there are message(s) pending for this VSM. jmp short CheckMsgQ MessageIsWaiting: ASSUME si: PTR Message lea di, [si+sizeof(Message)] mov dx, [si].Msg ; Get the message code mov eax, [si].From_VSM ; Get VSM message is from mov [Async_VSM], eax ; Copy message packet into caller's buffer cld lea si, [si].Param mov cx, MAX_MSG_PARAM mov bx, [MsgPacket] ; Get ptr to message buffer CopyMsg: lodsd mov [bx], eax add bx, 4 loop CopyMsg ; ; Advance the message queue ptr ; mov si, OFFSET VSM_Header.SysStuff ASSUME si: PTR System cmp di, [si].EndMsgQ ; Is Qtail at end ? jb UpdateQtail lea di, [si].MsgQueue ; Yes, wrap ptr to start of queue UpdateQtail: mov [si].Qtail, di ; Return value of function is the message code mov ax, dx Exit: ret ASSUME si:NOTHING sys_get_next_msg endp ;*********************************************************************** ; USHORT sys_query_msg_queue(ULONG *) ; ; This routine queries the VSM's message queue ; ; Input: ; If a message is present: ; MsgPacket = ptr to message packet (relative to DS) ; Returns: ; If a message is present: ; Message code ; Else ; 0xFFFF ;*********************************************************************** sys_query_msg_queue proc uses si \ MsgPacket: PTR xor bx, bx ASSUME bx: PTR VSM_Header mov si, [bx].SysStuff.Qtail ; Is the message queue empty ? cmp si, [bx].SysStuff.Qhead mov ax, 0FFFFh ; Return value if queue is empty je short Exit ASSUME si: PTR Message mov dx, [si].Msg ; Get the message code ; Copy message packet into caller's buffer cld lea si, [si].Param mov cx, MAX_MSG_PARAM mov bx, [MsgPacket] ; Get ptr to message buffer CopyMsg: lodsd mov dword ptr [bx], eax add bx, 4 loop CopyMsg ; NOTE: Qtail is not advanced !! ; Return value of function is the message code mov ax, dx Exit: ret sys_query_msg_queue endp ;*********************************************************************** ; Registers this VSM as a handler for an event ;*********************************************************************** sys_register_event proc pascal uses edi \ Event: EVENT, \ Param1: DWORD, \ Param2: DWORD, \ Priority: WORD mov bx, [Event] ; Get event to register shl ebx, 16 mov bx, [Priority] ; Get event priority mov ecx, [Param1] ; Get parameters mov edi, [Param2] mov ax, SYS_CODE_EVENT call sys_system_call ret sys_register_event endp ;*********************************************************************** ; Performs a system call ;*********************************************************************** sys_system_call proc smint ret sys_system_call endp END

22.721951

74

0.58523

32776a9d5b75994a022c2bd42415cea72b067917

13,924

asm

Assembly

test2/test_ptn_asm/instructions_a.asm

csrdxbb/xbyak_aarch64

24ac94f8b0276046934fa7f04432d6b830a44aa6

[ "Apache-2.0" ]

1

2022-02-18T06:34:50.000Z

test2/test_ptn_asm/instructions_a.asm

csrdxbb/xbyak_aarch64

24ac94f8b0276046934fa7f04432d6b830a44aa6

[ "Apache-2.0" ]

null

test2/test_ptn_asm/instructions_a.asm

csrdxbb/xbyak_aarch64

24ac94f8b0276046934fa7f04432d6b830a44aa6

[ "Apache-2.0" ]

null

aese z8.b,z8.b/*asm*/,z8.b aese z1.b,z1.b/*asm*/,z8.b aese z2.b,z2.b/*asm*/,z8.b aese z4.b,z4.b/*asm*/,z8.b aese z0.b,z0.b/*asm*/,z8.b aese z16.b,z16.b/*asm*/,z8.b aese z30.b,z30.b/*asm*/,z8.b aese z31.b,z31.b/*asm*/,z8.b aese z8.b,z8.b/*asm*/,z8.b aese z8.b,z8.b/*asm*/,z1.b aese z8.b,z8.b/*asm*/,z2.b aese z8.b,z8.b/*asm*/,z4.b aese z8.b,z8.b/*asm*/,z0.b aese z8.b,z8.b/*asm*/,z16.b aese z8.b,z8.b/*asm*/,z30.b aese z8.b,z8.b/*asm*/,z31.b adclb z8.s,z8.s,z8.s adclb z1.s,z8.s,z8.s adclb z2.s,z8.s,z8.s adclb z4.s,z8.s,z8.s adclb z0.s,z8.s,z8.s adclb z16.s,z8.s,z8.s adclb z30.s,z8.s,z8.s adclb z31.s,z8.s,z8.s adclb z8.s,z8.s,z8.s adclb z8.s,z1.s,z8.s adclb z8.s,z2.s,z8.s adclb z8.s,z4.s,z8.s adclb z8.s,z0.s,z8.s adclb z8.s,z16.s,z8.s adclb z8.s,z30.s,z8.s adclb z8.s,z31.s,z8.s adclb z8.s,z8.s,z8.s adclb z8.s,z8.s,z1.s adclb z8.s,z8.s,z2.s adclb z8.s,z8.s,z4.s adclb z8.s,z8.s,z0.s adclb z8.s,z8.s,z16.s adclb z8.s,z8.s,z30.s adclb z8.s,z8.s,z31.s adclb z8.d,z8.d,z8.d adclb z1.d,z8.d,z8.d adclb z2.d,z8.d,z8.d adclb z4.d,z8.d,z8.d adclb z0.d,z8.d,z8.d adclb z16.d,z8.d,z8.d adclb z30.d,z8.d,z8.d adclb z31.d,z8.d,z8.d adclb z8.d,z8.d,z8.d adclb z8.d,z1.d,z8.d adclb z8.d,z2.d,z8.d adclb z8.d,z4.d,z8.d adclb z8.d,z0.d,z8.d adclb z8.d,z16.d,z8.d adclb z8.d,z30.d,z8.d adclb z8.d,z31.d,z8.d adclb z8.d,z8.d,z8.d adclb z8.d,z8.d,z1.d adclb z8.d,z8.d,z2.d adclb z8.d,z8.d,z4.d adclb z8.d,z8.d,z0.d adclb z8.d,z8.d,z16.d adclb z8.d,z8.d,z30.d adclb z8.d,z8.d,z31.d aesd z8.b,z8.b/*asm*/,z8.b aesd z1.b,z1.b/*asm*/,z8.b aesd z2.b,z2.b/*asm*/,z8.b aesd z4.b,z4.b/*asm*/,z8.b aesd z0.b,z0.b/*asm*/,z8.b aesd z16.b,z16.b/*asm*/,z8.b aesd z30.b,z30.b/*asm*/,z8.b aesd z31.b,z31.b/*asm*/,z8.b aesd z8.b,z8.b/*asm*/,z8.b aesd z8.b,z8.b/*asm*/,z1.b aesd z8.b,z8.b/*asm*/,z2.b aesd z8.b,z8.b/*asm*/,z4.b aesd z8.b,z8.b/*asm*/,z0.b aesd z8.b,z8.b/*asm*/,z16.b aesd z8.b,z8.b/*asm*/,z30.b aesd z8.b,z8.b/*asm*/,z31.b addhnb z8.b,z8.h,z8.h addhnb z1.b,z8.h,z8.h addhnb z2.b,z8.h,z8.h addhnb z4.b,z8.h,z8.h addhnb z0.b,z8.h,z8.h addhnb z16.b,z8.h,z8.h addhnb z30.b,z8.h,z8.h addhnb z31.b,z8.h,z8.h addhnb z8.b,z8.h,z8.h addhnb z8.b,z1.h,z8.h addhnb z8.b,z2.h,z8.h addhnb z8.b,z4.h,z8.h addhnb z8.b,z0.h,z8.h addhnb z8.b,z16.h,z8.h addhnb z8.b,z30.h,z8.h addhnb z8.b,z31.h,z8.h addhnb z8.b,z8.h,z8.h addhnb z8.b,z8.h,z1.h addhnb z8.b,z8.h,z2.h addhnb z8.b,z8.h,z4.h addhnb z8.b,z8.h,z0.h addhnb z8.b,z8.h,z16.h addhnb z8.b,z8.h,z30.h addhnb z8.b,z8.h,z31.h addhnb z8.h,z8.s,z8.s addhnb z1.h,z8.s,z8.s addhnb z2.h,z8.s,z8.s addhnb z4.h,z8.s,z8.s addhnb z0.h,z8.s,z8.s addhnb z16.h,z8.s,z8.s addhnb z30.h,z8.s,z8.s addhnb z31.h,z8.s,z8.s addhnb z8.h,z8.s,z8.s addhnb z8.h,z1.s,z8.s addhnb z8.h,z2.s,z8.s addhnb z8.h,z4.s,z8.s addhnb z8.h,z0.s,z8.s addhnb z8.h,z16.s,z8.s addhnb z8.h,z30.s,z8.s addhnb z8.h,z31.s,z8.s addhnb z8.h,z8.s,z8.s addhnb z8.h,z8.s,z1.s addhnb z8.h,z8.s,z2.s addhnb z8.h,z8.s,z4.s addhnb z8.h,z8.s,z0.s addhnb z8.h,z8.s,z16.s addhnb z8.h,z8.s,z30.s addhnb z8.h,z8.s,z31.s addhnb z8.s,z8.d,z8.d addhnb z1.s,z8.d,z8.d addhnb z2.s,z8.d,z8.d addhnb z4.s,z8.d,z8.d addhnb z0.s,z8.d,z8.d addhnb z16.s,z8.d,z8.d addhnb z30.s,z8.d,z8.d addhnb z31.s,z8.d,z8.d addhnb z8.s,z8.d,z8.d addhnb z8.s,z1.d,z8.d addhnb z8.s,z2.d,z8.d addhnb z8.s,z4.d,z8.d addhnb z8.s,z0.d,z8.d addhnb z8.s,z16.d,z8.d addhnb z8.s,z30.d,z8.d addhnb z8.s,z31.d,z8.d addhnb z8.s,z8.d,z8.d addhnb z8.s,z8.d,z1.d addhnb z8.s,z8.d,z2.d addhnb z8.s,z8.d,z4.d addhnb z8.s,z8.d,z0.d addhnb z8.s,z8.d,z16.d addhnb z8.s,z8.d,z30.d addhnb z8.s,z8.d,z31.d addhnt z8.b,z8.h,z8.h addhnt z1.b,z8.h,z8.h addhnt z2.b,z8.h,z8.h addhnt z4.b,z8.h,z8.h addhnt z0.b,z8.h,z8.h addhnt z16.b,z8.h,z8.h addhnt z30.b,z8.h,z8.h addhnt z31.b,z8.h,z8.h addhnt z8.b,z8.h,z8.h addhnt z8.b,z1.h,z8.h addhnt z8.b,z2.h,z8.h addhnt z8.b,z4.h,z8.h addhnt z8.b,z0.h,z8.h addhnt z8.b,z16.h,z8.h addhnt z8.b,z30.h,z8.h addhnt z8.b,z31.h,z8.h addhnt z8.b,z8.h,z8.h addhnt z8.b,z8.h,z1.h addhnt z8.b,z8.h,z2.h addhnt z8.b,z8.h,z4.h addhnt z8.b,z8.h,z0.h addhnt z8.b,z8.h,z16.h addhnt z8.b,z8.h,z30.h addhnt z8.b,z8.h,z31.h addhnt z8.h,z8.s,z8.s addhnt z1.h,z8.s,z8.s addhnt z2.h,z8.s,z8.s addhnt z4.h,z8.s,z8.s addhnt z0.h,z8.s,z8.s addhnt z16.h,z8.s,z8.s addhnt z30.h,z8.s,z8.s addhnt z31.h,z8.s,z8.s addhnt z8.h,z8.s,z8.s addhnt z8.h,z1.s,z8.s addhnt z8.h,z2.s,z8.s addhnt z8.h,z4.s,z8.s addhnt z8.h,z0.s,z8.s addhnt z8.h,z16.s,z8.s addhnt z8.h,z30.s,z8.s addhnt z8.h,z31.s,z8.s addhnt z8.h,z8.s,z8.s addhnt z8.h,z8.s,z1.s addhnt z8.h,z8.s,z2.s addhnt z8.h,z8.s,z4.s addhnt z8.h,z8.s,z0.s addhnt z8.h,z8.s,z16.s addhnt z8.h,z8.s,z30.s addhnt z8.h,z8.s,z31.s addhnt z8.s,z8.d,z8.d addhnt z1.s,z8.d,z8.d addhnt z2.s,z8.d,z8.d addhnt z4.s,z8.d,z8.d addhnt z0.s,z8.d,z8.d addhnt z16.s,z8.d,z8.d addhnt z30.s,z8.d,z8.d addhnt z31.s,z8.d,z8.d addhnt z8.s,z8.d,z8.d addhnt z8.s,z1.d,z8.d addhnt z8.s,z2.d,z8.d addhnt z8.s,z4.d,z8.d addhnt z8.s,z0.d,z8.d addhnt z8.s,z16.d,z8.d addhnt z8.s,z30.d,z8.d addhnt z8.s,z31.d,z8.d addhnt z8.s,z8.d,z8.d addhnt z8.s,z8.d,z1.d addhnt z8.s,z8.d,z2.d addhnt z8.s,z8.d,z4.d addhnt z8.s,z8.d,z0.d addhnt z8.s,z8.d,z16.d addhnt z8.s,z8.d,z30.d addhnt z8.s,z8.d,z31.d asrd z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asrd z1.b,p7/m,z1.b/*asm*/,(1<<3)-1 asrd z2.b,p7/m,z2.b/*asm*/,(1<<3)-1 asrd z4.b,p7/m,z4.b/*asm*/,(1<<3)-1 asrd z0.b,p7/m,z0.b/*asm*/,(1<<3)-1 asrd z16.b,p7/m,z16.b/*asm*/,(1<<3)-1 asrd z30.b,p7/m,z30.b/*asm*/,(1<<3)-1 asrd z31.b,p7/m,z31.b/*asm*/,(1<<3)-1 asrd z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p1/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p2/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p4/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p0/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asrd z8.b,p7/m,z8.b/*asm*/,1<<1 asrd z8.b,p7/m,z8.b/*asm*/,1<<2 asrd z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asrd z1.h,p7/m,z1.h/*asm*/,(1<<4)-1 asrd z2.h,p7/m,z2.h/*asm*/,(1<<4)-1 asrd z4.h,p7/m,z4.h/*asm*/,(1<<4)-1 asrd z0.h,p7/m,z0.h/*asm*/,(1<<4)-1 asrd z16.h,p7/m,z16.h/*asm*/,(1<<4)-1 asrd z30.h,p7/m,z30.h/*asm*/,(1<<4)-1 asrd z31.h,p7/m,z31.h/*asm*/,(1<<4)-1 asrd z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p1/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p2/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p4/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p0/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asrd z8.h,p7/m,z8.h/*asm*/,1<<3 asrd z8.h,p7/m,z8.h/*asm*/,1<<2 asrd z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asrd z1.s,p7/m,z1.s/*asm*/,(1<<5)-1 asrd z2.s,p7/m,z2.s/*asm*/,(1<<5)-1 asrd z4.s,p7/m,z4.s/*asm*/,(1<<5)-1 asrd z0.s,p7/m,z0.s/*asm*/,(1<<5)-1 asrd z16.s,p7/m,z16.s/*asm*/,(1<<5)-1 asrd z30.s,p7/m,z30.s/*asm*/,(1<<5)-1 asrd z31.s,p7/m,z31.s/*asm*/,(1<<5)-1 asrd z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p1/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p2/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p4/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p0/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asrd z8.s,p7/m,z8.s/*asm*/,1<<3 asrd z8.s,p7/m,z8.s/*asm*/,1<<2 asrd z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asrd z1.d,p7/m,z1.d/*asm*/,(1<<6)-1 asrd z2.d,p7/m,z2.d/*asm*/,(1<<6)-1 asrd z4.d,p7/m,z4.d/*asm*/,(1<<6)-1 asrd z0.d,p7/m,z0.d/*asm*/,(1<<6)-1 asrd z16.d,p7/m,z16.d/*asm*/,(1<<6)-1 asrd z30.d,p7/m,z30.d/*asm*/,(1<<6)-1 asrd z31.d,p7/m,z31.d/*asm*/,(1<<6)-1 asrd z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p1/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p2/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p4/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p0/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asrd z8.d,p7/m,z8.d/*asm*/,1<<3 asrd z8.d,p7/m,z8.d/*asm*/,1<<2 adclt z8.s,z8.s,z8.s adclt z1.s,z8.s,z8.s adclt z2.s,z8.s,z8.s adclt z4.s,z8.s,z8.s adclt z0.s,z8.s,z8.s adclt z16.s,z8.s,z8.s adclt z30.s,z8.s,z8.s adclt z31.s,z8.s,z8.s adclt z8.s,z8.s,z8.s adclt z8.s,z1.s,z8.s adclt z8.s,z2.s,z8.s adclt z8.s,z4.s,z8.s adclt z8.s,z0.s,z8.s adclt z8.s,z16.s,z8.s adclt z8.s,z30.s,z8.s adclt z8.s,z31.s,z8.s adclt z8.s,z8.s,z8.s adclt z8.s,z8.s,z1.s adclt z8.s,z8.s,z2.s adclt z8.s,z8.s,z4.s adclt z8.s,z8.s,z0.s adclt z8.s,z8.s,z16.s adclt z8.s,z8.s,z30.s adclt z8.s,z8.s,z31.s adclt z8.d,z8.d,z8.d adclt z1.d,z8.d,z8.d adclt z2.d,z8.d,z8.d adclt z4.d,z8.d,z8.d adclt z0.d,z8.d,z8.d adclt z16.d,z8.d,z8.d adclt z30.d,z8.d,z8.d adclt z31.d,z8.d,z8.d adclt z8.d,z8.d,z8.d adclt z8.d,z1.d,z8.d adclt z8.d,z2.d,z8.d adclt z8.d,z4.d,z8.d adclt z8.d,z0.d,z8.d adclt z8.d,z16.d,z8.d adclt z8.d,z30.d,z8.d adclt z8.d,z31.d,z8.d adclt z8.d,z8.d,z8.d adclt z8.d,z8.d,z1.d adclt z8.d,z8.d,z2.d adclt z8.d,z8.d,z4.d adclt z8.d,z8.d,z0.d adclt z8.d,z8.d,z16.d adclt z8.d,z8.d,z30.d adclt z8.d,z8.d,z31.d aesimc z8.b,z8.b/*asm*/ aesimc z1.b,z1.b/*asm*/ aesimc z2.b,z2.b/*asm*/ aesimc z4.b,z4.b/*asm*/ aesimc z0.b,z0.b/*asm*/ aesimc z16.b,z16.b/*asm*/ aesimc z30.b,z30.b/*asm*/ aesimc z31.b,z31.b/*asm*/ addp z8.b,p7/m,z8.b/*asm*/,z8.b addp z1.b,p7/m,z1.b/*asm*/,z8.b addp z2.b,p7/m,z2.b/*asm*/,z8.b addp z4.b,p7/m,z4.b/*asm*/,z8.b addp z0.b,p7/m,z0.b/*asm*/,z8.b addp z16.b,p7/m,z16.b/*asm*/,z8.b addp z30.b,p7/m,z30.b/*asm*/,z8.b addp z31.b,p7/m,z31.b/*asm*/,z8.b addp z8.b,p7/m,z8.b/*asm*/,z8.b addp z8.b,p1/m,z8.b/*asm*/,z8.b addp z8.b,p2/m,z8.b/*asm*/,z8.b addp z8.b,p4/m,z8.b/*asm*/,z8.b addp z8.b,p0/m,z8.b/*asm*/,z8.b addp z8.b,p7/m,z8.b/*asm*/,z8.b addp z8.b,p7/m,z8.b/*asm*/,z8.b addp z8.b,p7/m,z8.b/*asm*/,z1.b addp z8.b,p7/m,z8.b/*asm*/,z2.b addp z8.b,p7/m,z8.b/*asm*/,z4.b addp z8.b,p7/m,z8.b/*asm*/,z0.b addp z8.b,p7/m,z8.b/*asm*/,z16.b addp z8.b,p7/m,z8.b/*asm*/,z30.b addp z8.b,p7/m,z8.b/*asm*/,z31.b addp z8.h,p7/m,z8.h/*asm*/,z8.h addp z1.h,p7/m,z1.h/*asm*/,z8.h addp z2.h,p7/m,z2.h/*asm*/,z8.h addp z4.h,p7/m,z4.h/*asm*/,z8.h addp z0.h,p7/m,z0.h/*asm*/,z8.h addp z16.h,p7/m,z16.h/*asm*/,z8.h addp z30.h,p7/m,z30.h/*asm*/,z8.h addp z31.h,p7/m,z31.h/*asm*/,z8.h addp z8.h,p7/m,z8.h/*asm*/,z8.h addp z8.h,p1/m,z8.h/*asm*/,z8.h addp z8.h,p2/m,z8.h/*asm*/,z8.h addp z8.h,p4/m,z8.h/*asm*/,z8.h addp z8.h,p0/m,z8.h/*asm*/,z8.h addp z8.h,p7/m,z8.h/*asm*/,z8.h addp z8.h,p7/m,z8.h/*asm*/,z8.h addp z8.h,p7/m,z8.h/*asm*/,z1.h addp z8.h,p7/m,z8.h/*asm*/,z2.h addp z8.h,p7/m,z8.h/*asm*/,z4.h addp z8.h,p7/m,z8.h/*asm*/,z0.h addp z8.h,p7/m,z8.h/*asm*/,z16.h addp z8.h,p7/m,z8.h/*asm*/,z30.h addp z8.h,p7/m,z8.h/*asm*/,z31.h addp z8.s,p7/m,z8.s/*asm*/,z8.s addp z1.s,p7/m,z1.s/*asm*/,z8.s addp z2.s,p7/m,z2.s/*asm*/,z8.s addp z4.s,p7/m,z4.s/*asm*/,z8.s addp z0.s,p7/m,z0.s/*asm*/,z8.s addp z16.s,p7/m,z16.s/*asm*/,z8.s addp z30.s,p7/m,z30.s/*asm*/,z8.s addp z31.s,p7/m,z31.s/*asm*/,z8.s addp z8.s,p7/m,z8.s/*asm*/,z8.s addp z8.s,p1/m,z8.s/*asm*/,z8.s addp z8.s,p2/m,z8.s/*asm*/,z8.s addp z8.s,p4/m,z8.s/*asm*/,z8.s addp z8.s,p0/m,z8.s/*asm*/,z8.s addp z8.s,p7/m,z8.s/*asm*/,z8.s addp z8.s,p7/m,z8.s/*asm*/,z8.s addp z8.s,p7/m,z8.s/*asm*/,z1.s addp z8.s,p7/m,z8.s/*asm*/,z2.s addp z8.s,p7/m,z8.s/*asm*/,z4.s addp z8.s,p7/m,z8.s/*asm*/,z0.s addp z8.s,p7/m,z8.s/*asm*/,z16.s addp z8.s,p7/m,z8.s/*asm*/,z30.s addp z8.s,p7/m,z8.s/*asm*/,z31.s addp z8.d,p7/m,z8.d/*asm*/,z8.d addp z1.d,p7/m,z1.d/*asm*/,z8.d addp z2.d,p7/m,z2.d/*asm*/,z8.d addp z4.d,p7/m,z4.d/*asm*/,z8.d addp z0.d,p7/m,z0.d/*asm*/,z8.d addp z16.d,p7/m,z16.d/*asm*/,z8.d addp z30.d,p7/m,z30.d/*asm*/,z8.d addp z31.d,p7/m,z31.d/*asm*/,z8.d addp z8.d,p7/m,z8.d/*asm*/,z8.d addp z8.d,p1/m,z8.d/*asm*/,z8.d addp z8.d,p2/m,z8.d/*asm*/,z8.d addp z8.d,p4/m,z8.d/*asm*/,z8.d addp z8.d,p0/m,z8.d/*asm*/,z8.d addp z8.d,p7/m,z8.d/*asm*/,z8.d addp z8.d,p7/m,z8.d/*asm*/,z8.d addp z8.d,p7/m,z8.d/*asm*/,z1.d addp z8.d,p7/m,z8.d/*asm*/,z2.d addp z8.d,p7/m,z8.d/*asm*/,z4.d addp z8.d,p7/m,z8.d/*asm*/,z0.d addp z8.d,p7/m,z8.d/*asm*/,z16.d addp z8.d,p7/m,z8.d/*asm*/,z30.d addp z8.d,p7/m,z8.d/*asm*/,z31.d asr z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asr z1.b,p7/m,z1.b/*asm*/,(1<<3)-1 asr z2.b,p7/m,z2.b/*asm*/,(1<<3)-1 asr z4.b,p7/m,z4.b/*asm*/,(1<<3)-1 asr z0.b,p7/m,z0.b/*asm*/,(1<<3)-1 asr z16.b,p7/m,z16.b/*asm*/,(1<<3)-1 asr z30.b,p7/m,z30.b/*asm*/,(1<<3)-1 asr z31.b,p7/m,z31.b/*asm*/,(1<<3)-1 asr z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p1/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p2/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p4/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p0/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p7/m,z8.b/*asm*/,(1<<3)-1 asr z8.b,p7/m,z8.b/*asm*/,1<<1 asr z8.b,p7/m,z8.b/*asm*/,1<<2 asr z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asr z1.h,p7/m,z1.h/*asm*/,(1<<4)-1 asr z2.h,p7/m,z2.h/*asm*/,(1<<4)-1 asr z4.h,p7/m,z4.h/*asm*/,(1<<4)-1 asr z0.h,p7/m,z0.h/*asm*/,(1<<4)-1 asr z16.h,p7/m,z16.h/*asm*/,(1<<4)-1 asr z30.h,p7/m,z30.h/*asm*/,(1<<4)-1 asr z31.h,p7/m,z31.h/*asm*/,(1<<4)-1 asr z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p1/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p2/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p4/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p0/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p7/m,z8.h/*asm*/,(1<<4)-1 asr z8.h,p7/m,z8.h/*asm*/,1<<3 asr z8.h,p7/m,z8.h/*asm*/,1<<2 asr z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asr z1.s,p7/m,z1.s/*asm*/,(1<<5)-1 asr z2.s,p7/m,z2.s/*asm*/,(1<<5)-1 asr z4.s,p7/m,z4.s/*asm*/,(1<<5)-1 asr z0.s,p7/m,z0.s/*asm*/,(1<<5)-1 asr z16.s,p7/m,z16.s/*asm*/,(1<<5)-1 asr z30.s,p7/m,z30.s/*asm*/,(1<<5)-1 asr z31.s,p7/m,z31.s/*asm*/,(1<<5)-1 asr z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p1/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p2/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p4/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p0/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p7/m,z8.s/*asm*/,(1<<5)-1 asr z8.s,p7/m,z8.s/*asm*/,1<<3 asr z8.s,p7/m,z8.s/*asm*/,1<<2 asr z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asr z1.d,p7/m,z1.d/*asm*/,(1<<6)-1 asr z2.d,p7/m,z2.d/*asm*/,(1<<6)-1 asr z4.d,p7/m,z4.d/*asm*/,(1<<6)-1 asr z0.d,p7/m,z0.d/*asm*/,(1<<6)-1 asr z16.d,p7/m,z16.d/*asm*/,(1<<6)-1 asr z30.d,p7/m,z30.d/*asm*/,(1<<6)-1 asr z31.d,p7/m,z31.d/*asm*/,(1<<6)-1 asr z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p1/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p2/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p4/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p0/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p7/m,z8.d/*asm*/,(1<<6)-1 asr z8.d,p7/m,z8.d/*asm*/,1<<3 asr z8.d,p7/m,z8.d/*asm*/,1<<2 aesmc z8.b,z8.b/*asm*/ aesmc z1.b,z1.b/*asm*/ aesmc z2.b,z2.b/*asm*/ aesmc z4.b,z4.b/*asm*/ aesmc z0.b,z0.b/*asm*/ aesmc z16.b,z16.b/*asm*/ aesmc z30.b,z30.b/*asm*/ aesmc z31.b,z31.b/*asm*/

27.572277

37

0.608733

04f1bb04ab89bf382db5138b456e12851cbeedb3

1,692

asm

Assembly

programs/oeis/051/A051871.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

1

2021-03-15T11:38:20.000Z

programs/oeis/051/A051871.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

programs/oeis/051/A051871.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

[ "Apache-2.0" ]

null

; A051871: 19-gonal (or enneadecagonal) numbers: n(17n-15)/2. ; 0,1,19,54,106,175,261,364,484,621,775,946,1134,1339,1561,1800,2056,2329,2619,2926,3250,3591,3949,4324,4716,5125,5551,5994,6454,6931,7425,7936,8464,9009,9571,10150,10746,11359,11989,12636,13300,13981,14679,15394,16126,16875,17641,18424,19224,20041,20875,21726,22594,23479,24381,25300,26236,27189,28159,29146,30150,31171,32209,33264,34336,35425,36531,37654,38794,39951,41125,42316,43524,44749,45991,47250,48526,49819,51129,52456,53800,55161,56539,57934,59346,60775,62221,63684,65164,66661,68175,69706,71254,72819,74401,76000,77616,79249,80899,82566,84250,85951,87669,89404,91156,92925,94711,96514,98334,100171,102025,103896,105784,107689,109611,111550,113506,115479,117469,119476,121500,123541,125599,127674,129766,131875,134001,136144,138304,140481,142675,144886,147114,149359,151621,153900,156196,158509,160839,163186,165550,167931,170329,172744,175176,177625,180091,182574,185074,187591,190125,192676,195244,197829,200431,203050,205686,208339,211009,213696,216400,219121,221859,224614,227386,230175,232981,235804,238644,241501,244375,247266,250174,253099,256041,259000,261976,264969,267979,271006,274050,277111,280189,283284,286396,289525,292671,295834,299014,302211,305425,308656,311904,315169,318451,321750,325066,328399,331749,335116,338500,341901,345319,348754,352206,355675,359161,362664,366184,369721,373275,376846,380434,384039,387661,391300,394956,398629,402319,406026,409750,413491,417249,421024,424816,428625,432451,436294,440154,444031,447925,451836,455764,459709,463671,467650,471646,475659,479689,483736,487800,491881,495979,500094,504226,508375,512541,516724,520924,525141 mov $1,$0 bin $0,2 mul $0,17 add $1,$0

211.5

1,589

0.829196

34ff739e66f7fc66bcb9c45161c06264d6408828

653

asm

Assembly

oeis/016/A016005.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/016/A016005.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/016/A016005.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A016005: a(n) = (tau(n^9)+8)/9. ; Submitted by Christian Krause ; 1,2,2,3,2,12,2,4,3,12,2,22,2,12,12,5,2,22,2,22,12,12,2,32,3,12,4,22,2,112,2,6,12,12,12,41,2,12,12,32,2,112,2,22,22,12,2,42,3,22,12,22,2,32,12,32,12,12,2,212,2,12,22,7,12,112,2,22,12,112,2,60,2,12,22,22,12,112,2,42,5,12,2,212,12,12,12,32,2,212,12,22,12,12,12,52,2,22,22,41 add $0,1 mov $1,1 lpb $0 mov $3,$0 lpb $3 mov $4,$0 mov $6,$2 cmp $6,0 add $2,$6 mod $4,$2 cmp $4,0 cmp $4,0 mov $5,$2 add $2,1 cmp $5,1 max $4,$5 sub $3,$4 lpe mov $5,1 lpb $0 dif $0,$2 add $5,9 lpe mul $1,$5 lpe mov $0,$1 div $0,9 add $0,1

19.787879

273

0.528331

a88c2454fede7849396d558668edc183e47b85cf

6,503

asm

Assembly

media_driver/agnostic/gen10/codec/kernel/source/nv12top010.asm

ashakhno/media-driver

79c20b78a539afdb55b5fd0006e959f92c12fa64

[ "Intel", "BSD-3-Clause", "MIT" ]

660

2017-11-21T15:55:52.000Z

2022-03-31T06:31:00.000Z

media_driver/agnostic/gen10/codec/kernel/source/nv12top010.asm

ashakhno/media-driver

79c20b78a539afdb55b5fd0006e959f92c12fa64

[ "Intel", "BSD-3-Clause", "MIT" ]

1,070

2017-12-01T00:26:10.000Z

2022-03-31T17:55:26.000Z

media_driver/agnostic/gen10/codec/kernel/source/nv12top010.asm

ashakhno/media-driver

79c20b78a539afdb55b5fd0006e959f92c12fa64

[ "Intel", "BSD-3-Clause", "MIT" ]

309

2017-11-30T08:34:09.000Z

2022-03-30T18:52:07.000Z

/* * Copyright (c) 2017, Intel Corporation * * 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. */ and (1) r1.4<1>:uw r0.2<0;1,0>:uw 0x7ff07ff:uw { Align1, N1, NoMask, NoCompact } and (1) r1.5<1>:uw r0.3<0;1,0>:uw 0x7ff07ff:uw { Align1, N1, NoMask, NoCompact } mov (8) r20.0<1>:ud r0.0<8;8,1>:ud { Align1, N1, NoMask, Compacted } mul (1) r1.3<1>:ud r1.4<0;1,0>:uw 0x80008:uw { Align1, N1, NoCompact } mul (1) r1.4<1>:ud r1.5<0;1,0>:uw 0x100010:uw { Align1, N1, NoCompact } add (1) a0.0<1>:ud r1.0<0;1,0>:ud 0x02490000:ud { Align1, N1, NoMask, NoCompact } mov (1) r20.2<1>:ud 0x000f0007:ud { Align1, N1, NoMask, NoCompact } mov (1) r20.0<1>:d r1.3<0;1,0>:ud { Align1, N1, NoCompact } mov (1) r20.1<1>:d r1.4<0;1,0>:ud { Align1, N1, NoCompact } send (8) r10.0<1>:ud r20.0<0;1,0>:f 0x0000000c a0.0<0;1,0>:ud { Align1, N1, NoMask, NoCompact } mov (16) r8.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (16) r6.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (16) r4.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (16) r2.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (8) r21.0<1>:ud r0.0<8;8,1>:ud { Align1, N1, NoMask, Compacted } mov (1) r21.2<1>:ud 0x000f000f:ud { Align1, N1, NoMask, NoCompact } add (1) a0.0<1>:ud r1.1<0;1,0>:ud 0x020a8000:ud { Align1, N1, NoMask, NoCompact } shl (1) r21.0<1>:d r1.3<0;1,0>:ud 0x10001:uw { Align1, N1, NoCompact } mov (1) r21.1<1>:d r1.4<0;1,0>:ud { Align1, N1, NoCompact } mov (32) r8.1<2>:ub r13.0<8;8,1>:ub { Align1, N1, NoCompact } mov (32) r6.1<2>:ub r12.0<8;8,1>:ub { Align1, N1, NoCompact } mov (32) r4.1<2>:ub r11.0<8;8,1>:ub { Align1, N1, NoCompact } mov (32) r2.1<2>:ub r10.0<8;8,1>:ub { Align1, N1, NoCompact } sends (8) null:ud r21:ud r2:ud 0x0000020c:ud a0.0:ud { Align1, N1, NoMask, NoCompact } mov (1) r20.0<1>:d r1.3<0;1,0>:ud { Align1, N1, NoCompact } asr (1) r20.1<1>:d r1.4<0;1,0>:ud 0x10001:uw { Align1, N1, NoCompact } mov (1) r20.2<1>:ud 0x00070007:ud { Align1, N1, NoMask, NoCompact } mov (8) r22.0<1>:ud r0.0<8;8,1>:ud { Align1, N1, NoMask, Compacted } mov (1) r22.2<1>:ud 0x0007000f:ud { Align1, N1, NoMask, NoCompact } add (1) a0.0<1>:ud r1.0<0;1,0>:ud 0x02290001:ud { Align1, N1, NoMask, NoCompact } send (8) r18.0<1>:ud r20.0<0;1,0>:f 0x0000000c a0.0<0;1,0>:ud { Align1, N1, NoMask, NoCompact } mov (16) r16.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (16) r14.0<1>:ud 0x0000:uw { Align1, N1, NoCompact } mov (1) r22.1<1>:d r20.1<0;1,0>:d { Align1, N1, NoCompact } mov (1) r22.0<1>:d r21.0<0;1,0>:d { Align1, N1, NoCompact } add (1) a0.0<1>:ud r1.1<0;1,0>:ud 0x020a8001:ud { Align1, N1, NoMask, NoCompact } mov (32) r16.1<2>:ub r19.0<8;8,1>:ub { Align1, N1, NoCompact } mov (32) r14.1<2>:ub r18.0<8;8,1>:ub { Align1, N1, NoCompact } sends (8) null:ud r22:ud r14:ud 0x0000010c:ud a0.0:ud { Align1, N1, NoMask, NoCompact } mov (8) r127.0<1>:ud r0.0<8;8,1>:ud { Align1, N1, NoMask, Compacted } send (1) null:ud r127.0<0;1,0>:f 0x00000027 0x02000010:ud { Align1, N1, EOT, NoCompact }

101.609375

135

0.409196

5f745e1ec40c100aa8f8c2e5a8d1eca284cffae5

451

asm

Assembly

oeis/192/A192257.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/192/A192257.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/192/A192257.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A192257: 1-sequence of reduction of (n^3) by x^2 -> x+1. ; Submitted by Jon Maiga ; 0,8,35,163,538,1618,4362,11018,26327,60327,133532,287324,603692,1243044,2515419,5013979,9863110,19176814,36900470,70348470,132999135,249552143,465041880,861196248,1585696248,2904335648,5293714067,9605482003 add $0,1 mov $2,$0 lpb $0 add $1,$4 cmp $3,$2 cmp $3,0 mul $3,$0 sub $0,1 pow $3,3 sub $4,$1 add $3,$4 mov $4,$1 add $1,$3 lpe mov $0,$4

22.55

208

0.68071

36b2ea21ab7e5cc426e9973d862faa6342d65e10

5,959

asm

Assembly

src/tools/wadd.asm

amindlost/wdosx

1e256d22c1547e7b1f1ccd23e400f5b81b8bd013

[ "Unlicense" ]

7

2022-01-20T08:27:54.000Z

2022-03-17T10:15:31.000Z

src/tools/wadd.asm

amindlost/wdosx

1e256d22c1547e7b1f1ccd23e400f5b81b8bd013

[ "Unlicense" ]

null

src/tools/wadd.asm

amindlost/wdosx

1e256d22c1547e7b1f1ccd23e400f5b81b8bd013

[ "Unlicense" ]

null

; ############################################################################ ; ## WDOSX DOS Extender Copyright (c) 1996, 1999, Michael Tippach ## ; ## ## ; ## Released under the terms of the WDOSX license agreement. ## ; ############################################################################ ; ; $Header: E:/RCS/WDOSX/0.95/SRC/TOOLS/wadd.asm 1.4 2003/04/16 00:50:49 MikeT Exp MikeT $ ; ; ---------------------------------------------------------------------------- ; ; $Log: wadd.asm $ ; Revision 1.4 2003/04/16 00:50:49 MikeT ; Wadd now replaces modules with the same name instead of rejecting them. ; ; Revision 1.3 1999/06/20 16:26:33 MikeT ; Corrected the check for the WdxInfo version to use ESI and not EDI as a ; pointer, which makes it work. Added a check for at least version 5 of the ; structure because earlier versions do not support the new compression method. ; ; Revision 1.2 1999/02/07 18:38:54 MikeT ; Updated copyright + some cosmetics. ; ; Revision 1.1 1998/08/03 03:03:11 MikeT ; Initial check in ; ; ; ---------------------------------------------------------------------------- .386 .model flat .code include wdxinfo.inc EXTRN _WdosxAddfile: NEAR BUFFER_SIZE EQU 10000h ; Size of temp buffer printUsage: mov eax, OFFSET usageStr jmp errExit fileError: mov eax, OFFSET fileErrStr jmp errExit notWfseError: mov eax, OFFSET notWfseStr jmp errExit notWpackError: mov eax, OFFSET notWpackStr jmp errExit addFailError: mov eax, OFFSET addFailStr jmp errExit fatal: mov eax, OFFSET fatalStr ;fileExistError: ; mov eax, OFFSET fileExistStr errExit: call printEAXStr mov ax, 4CFFh int 21h start: push ds pop es cmp esi, 4 ja printUsage cmp esi, 3 jc printUsage mov eax, [edi + 8] mov newfile, eax je l001 mov eax, [edi + 12] l001: mov newname, eax mov edx, [edi + 4] mov hostfile, edx mov ax, 3D02h int 21h jc fileError mov ebx, eax mov edx, OFFSET mainHeader mov ecx, 52 mov ah, 3Fh int 21h jc fileError cmp eax, ecx jne notWfseError cld mov ecx, 11 mov edi, OFFSET sigStr mov esi, OFFSET thatsMe repe cmpsb jne notWfseError cmp BYTE PTR [esi], 4 jc notWfseError cmp BYTE PTR [esi], 5 jc notWpackError mov eax, WdosxInfo.WfseStart test eax, eax jne readHeaderLoop sub ecx, ecx sub edx, edx mov ax, 4202h int 21h jc fileError mov WdosxInfo.WfseStart, eax mov WORD PTR [OFFSET WdosxInfo.WfseStart + 2], dx sub ecx, ecx sub edx, edx mov ax, 4200h int 21h jc fileError mov edx, OFFSET mainHeader mov ecx, 52 mov ah, 40h int 21h jc fileError cmp eax, ecx jne fileError jmp doTheAdd readHeaderLoop: call readWfseHeader jc doTheAdd mov eax, OFFSET TheName call cmpEAXStr jnc doReplace mov eax, headerOffset add eax, TheInfo.WfseSize jmp readHeaderLoop doReplace: ; ; Simply delete the part to be replaced ; mov edx, headerOffset add edx, TheInfo.WfseSize shld ecx, edx, 16 mov ax, 4200h int 21h jc fatal mov ecx, BUFFER_SIZE mov edx, OFFSET TheBuffer mov ah, 3Fh int 21h jc fatal push eax mov edx, headerOffset shld ecx, edx, 16 mov ax, 4200h int 21h pop ecx jc fatal mov edx, OFFSET TheBuffer mov ah, 40h int 21h jc fatal add headerOffset, eax test ecx, ecx jnz doReplace doTheAdd: mov ah, 3Eh int 21h push 10h push 0 push newname push newfile push hostfile call _WdosxAddfile add esp, 20 call printCrlf test eax, eax je addFailError mov ax, 4C00h int 21h ;---------------------------------------------------------------------------- ; EAX = offset, EBX = handle ; readWfseHeader PROC NEAR pushad mov edx, eax shld ecx, eax, 16 mov ax, 4200h int 21h jc rwexit mov headerOffset, eax mov WORD PTR [OFFSET headerOffset + 2], dx mov ecx, 16 + 256 mov edx, OFFSET TheInfo mov ah, 3Fh int 21h jc rwexit cmp eax, 18 jc rwexit cmp DWORD PTR [edx], 'ESFW' sete al cmp al, 1 rwexit: popad ret readWfseHeader ENDP ;---------------------------------------------------------------------------- ; EAX -> String ; cmpEAXStr PROC NEAR pushad mov esi, eax mov edi, newname cmploop: mov al, [esi] inc esi call upcaseAl mov ah, al mov al, [edi] inc edi call upcaseAl cmp al, ah stc jne doneCmp or al, ah jnz cmploop doneCmp: popad ret cmpEAXStr ENDP printEAXStr PROC NEAR pushad mov edi, eax pasIn: mov dl, [edi] inc edi test dl, dl je pasOut mov ah, 2 int 21h jmp pasIn pasOut: popad ret printEAXStr ENDP upcaseAl PROC BEAR cmp al, 'a' jc upcEnd cmp al, 'z' ja upcEnd add al, 'A' - 'a' upcEnd: ret upcaseAl ENDP printCrlf PROC NEAR push eax mov eax, OFFSET crlf call printEAXStr pop eax ret printCrlf ENDP .data sigStr db 'TIPPACH$WdX' usageStr db 'Usage: wadd <hostfile> <newfile> (optional <WFSEname>)', 0Dh, 0Ah db ' where: hostfile = WDOSX extended main application', 0Dh, 0Ah db ' newfile = Filename of module to add', 0Dh, 0Ah db ' WFSEname = Name under which <newfile> will be visible' crlf db 0Dh, 0Ah, 0 fileErrStr db 'Error accessing hostfile.', 0Dh, 0Ah, 0 notWfseStr db 'Error: Hostfile does not support WFSE.', 0Dh, 0Ah, 0 notWpackStr db 'Error: Hostfile does not support new compression. Please re-stub!', 0Dh, 0Ah, 0 addfailStr db 'Error: Failed to add WFSE module.', 0Dh, 0Ah, 0 ;fileExistStr db 'Error: A module with that name is already linked to the hostfile', 0Dh, 0Ah, 0 fatalStr db 'Error: Fatal file I/O condition occured, giving up.', 0Dh, 0Ah, 0 .data? hostfile dd ? newfile dd ? newname dd ? headerOffset dd ? mainHeader db 25 dup (?) thatsMe db 7 dup (?) WdosxInfo WdxInfo <> TheInfo WfseInfo <> TheName db 256 dup (?) TheBuffer db BUFFER_SIZE dup (?) END start

17.894895

96

0.618225

4e5926caf44923188f6030ba6e3a35604caa0b9d

118

asm

Assembly

tests/inputs/test_report_tests/test_simple_loop_1/simple_loop_1.asm

danielstumpp/tomasulo-simulator

54fd896adc6a7bcb098ad51cc35e7127ef7911b5

[ "MIT" ]

null

tests/inputs/test_report_tests/test_simple_loop_1/simple_loop_1.asm

danielstumpp/tomasulo-simulator

54fd896adc6a7bcb098ad51cc35e7127ef7911b5

[ "MIT" ]

6

2021-11-13T03:26:46.000Z

2021-11-17T15:20:10.000Z

tests/inputs/test_report_tests/test_simple_loop_1/simple_loop_1.asm

danielstumpp/tomasulo-simulator

54fd896adc6a7bcb098ad51cc35e7127ef7911b5

[ "MIT" ]

null

NOP add.d, F3, F3, F2 mult.d, F4, F4, F3 add.d, F5, F5, F3 addi, R2, R2, 1 bne, R2, R1, -5 sd, F4, 0(R0) sd, F5, 4(R0)

14.75

18

0.550847

27081d1842d8210457d74a6e51c6bf7f2f70f330

206

asm

Assembly

arquivos_teste_moodle/triangulo.asm

LSantos06/MacroAssembler

06a14c9d2fe1eb22378bb6f2ead506a91c5b14eb

[ "MIT" ]

null

arquivos_teste_moodle/triangulo.asm

LSantos06/MacroAssembler

06a14c9d2fe1eb22378bb6f2ead506a91c5b14eb

[ "MIT" ]

null

arquivos_teste_moodle/triangulo.asm

LSantos06/MacroAssembler

06a14c9d2fe1eb22378bb6f2ead506a91c5b14eb

[ "MIT" ]

null

TRIANGULO: EQU 1 ;isto é uma constante SECTION TEXT INPUT B INPUT H LOAD B MULT H IF TRIANGULO DIV DOIS STORE R OUTPUT R STOP SECTION DATA B: SPACE ;15 H: SPACE ;16 R: SPACE ;17 DOIS: CONST 2 ;18

12.117647

38

0.703883

8889a45af00050ac2e6498c474c548870d52336c

944

asm

Assembly

programs/oeis/082/A082107.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/082/A082107.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/082/A082107.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A082107: Diagonal sums of number array A082105. ; 1,2,8,28,79,190,406,792,1437,2458,4004,6260,9451,13846,19762,27568,37689,50610,66880,87116,112007,142318,178894,222664,274645,335946,407772,491428,588323,699974,828010,974176,1140337,1328482,1540728 mov $4,$0 add $4,1 mov $6,$0 lpb $4 mov $0,$6 sub $4,1 sub $0,$4 mov $8,$0 add $8,1 mov $13,$0 mov $14,0 lpb $8 mov $0,$13 sub $8,1 sub $0,$8 mov $9,$0 mov $11,2 lpb $11 mov $0,$9 sub $11,1 add $0,$11 sub $0,1 mov $3,$0 mul $3,$0 sub $3,$0 mov $0,7 add $0,$3 mov $2,3 mov $7,6 add $7,$0 mul $7,$3 mov $5,$7 div $5,2 add $2,$5 mov $5,$2 mov $12,$11 lpb $12 mov $10,$5 sub $12,1 lpe lpe lpb $9 mov $9,0 sub $10,$5 lpe mov $5,$10 div $5,3 add $14,$5 lpe add $1,$14 lpe mov $0,$1

16.857143

200

0.491525

8d2877d069f41a7f43391d1c3af2d602539914a0

6,836

asm

Assembly

audio/music/darkcave.asm

Dev727/ancientplatinum

8b212a1728cc32a95743e1538b9eaa0827d013a7

[ "blessing" ]

28

2019-11-08T07:19:00.000Z

2021-12-20T10:17:54.000Z

audio/music/darkcave.asm

Dev727/ancientplatinum

8b212a1728cc32a95743e1538b9eaa0827d013a7

[ "blessing" ]

13

2020-01-11T17:00:40.000Z

2021-09-14T01:27:38.000Z

audio/music/darkcave.asm

Dev727/ancientplatinum

8b212a1728cc32a95743e1538b9eaa0827d013a7

[ "blessing" ]

22

2020-05-28T17:31:38.000Z

2022-03-07T20:49:35.000Z

Music_DarkCave: musicheader 4, 1, Music_DarkCave_Ch1 musicheader 1, 2, Music_DarkCave_Ch2 musicheader 1, 3, Music_DarkCave_Ch3 musicheader 1, 4, Music_DarkCave_Ch4 Music_DarkCave_Ch1: tempo 128 volume $77 dutycycle $3 tone $0001 vibrato $11, $15 stereopanning $f0 notetype $c, $a7 Music_DarkCave_branch_ea2dc: note __, 16 loopchannel 4, Music_DarkCave_branch_ea2dc octave 3 note D#, 16 note D_, 16 note C#, 16 note C_, 16 intensity $a3 Music_DarkCave_branch_ea2e8: callchannel Music_DarkCave_branch_ea333 loopchannel 3, Music_DarkCave_branch_ea2e8 intensity $b7 note G#, 8 note D#, 8 note G_, 8 note D_, 8 note F_, 8 note C#, 8 note D#, 8 note G_, 8 note G#, 8 note D#, 8 note G_, 8 note D_, 8 note F_, 8 note C#, 8 note D#, 8 note C_, 8 intensity $a3 Music_DarkCave_branch_ea303: callchannel Music_DarkCave_branch_ea333 loopchannel 2, Music_DarkCave_branch_ea303 note __, 16 note __, 8 intensity $b7 octave 2 note F_, 2 note G_, 2 note G#, 4 octave 3 note D#, 16 note __, 8 octave 2 note G#, 2 note G_, 2 note G#, 4 octave 3 note D#, 16 note G_, 2 note __, 6 note F_, 2 note G_, 2 note G#, 4 note G_, 16 note F_, 2 note __, 6 note G#, 2 note G_, 2 note G#, 4 intensity $a3 Music_DarkCave_branch_ea328: callchannel Music_DarkCave_branch_ea333 loopchannel 2, Music_DarkCave_branch_ea328 loopchannel 0, Music_DarkCave_branch_ea2e8 Music_DarkCave_branch_ea333: octave 4 note D#, 2 octave 3 note G#, 2 octave 4 note C_, 2 note D#, 2 octave 3 note G#, 2 octave 4 note C_, 2 note D#, 2 note C_, 2 note D_, 2 octave 3 note G_, 2 note A#, 2 octave 4 note D_, 2 octave 3 note G_, 2 note A#, 2 octave 4 note D_, 2 octave 3 note A#, 2 octave 4 note C#, 2 octave 3 note F_, 2 note A#, 2 octave 4 note C#, 2 octave 3 note F_, 2 note A#, 2 octave 4 note C#, 2 octave 3 note A#, 2 octave 4 note C_, 2 octave 3 note G_, 2 note A#, 2 octave 4 note C_, 2 octave 3 note G_, 2 note A#, 2 octave 4 note C_, 2 octave 3 note A#, 2 endchannel Music_DarkCave_Ch2: dutycycle $1 vibrato $12, $36 stereopanning $f notetype $c, $a7 Music_DarkCave_branch_ea374: note __, 16 loopchannel 4, Music_DarkCave_branch_ea374 octave 3 note G_, 16 note A#, 16 note F_, 16 note G_, 16 Music_DarkCave_branch_ea37e: note __, 16 loopchannel 4, Music_DarkCave_branch_ea37e note __, 8 stereopanning $ff intensity $c7 octave 5 note C_, 8 intensity $c4 note D_, 2 note C_, 2 octave 4 note A#, 2 note G_, 4 note A#, 2 octave 5 note D_, 4 intensity $b0 note C#, 4 intensity $b7 note C#, 12 intensity $59 note C_, 8 intensity $c7 note C_, 8 note __, 8 intensity $c7 note C_, 8 intensity $c4 note D_, 2 note C_, 2 octave 4 note A#, 2 note G_, 2 note G_, 2 note A#, 2 octave 5 note D_, 4 intensity $c7 note C#, 12 intensity $c3 note C_, 2 note C#, 2 intensity $b0 note D#, 10 intensity $b7 note D#, 6 stereopanning $f intensity $c4 octave 4 note F_, 4 note D#, 2 note D_, 2 note D#, 4 note D_, 2 note C_, 2 note D_, 2 note C_, 2 octave 3 note A#, 2 octave 4 note C_, 2 note D_, 4 note C_, 2 octave 3 note A#, 2 octave 4 note C#, 8 octave 3 note A#, 8 intensity $b0 octave 4 note D#, 2 note D_, 2 note C_, 2 octave 3 note A#, 2 octave 4 note C_, 8 note F_, 4 note D#, 2 note D_, 2 note D#, 4 note D_, 2 note C_, 2 note D_, 2 note C_, 2 octave 3 note A#, 2 octave 4 note C_, 2 note D_, 4 note C_, 2 octave 3 note A#, 2 octave 4 note C#, 4 note C_, 2 note C#, 2 note C_, 2 note C#, 2 octave 3 note A#, 2 octave 4 note C#, 2 intensity $b0 note C_, 8 intensity $b7 note C_, 8 intensity $c7 stereopanning $ff note __, 8 octave 5 note C_, 8 intensity $c4 note D_, 2 note C_, 2 octave 4 note A#, 2 note G_, 4 note A#, 2 octave 5 note D_, 4 intensity $49 note C#, 8 intensity $c7 note C#, 8 intensity $b0 note C_, 8 intensity $b7 note C_, 8 note __, 8 intensity $c7 note C_, 8 intensity $c4 note D_, 2 note C_, 2 octave 4 note A#, 2 note G_, 2 note G_, 2 note A#, 2 octave 5 note D_, 4 intensity $b0 note C#, 8 intensity $b7 note C#, 8 intensity $b0 note C_, 8 intensity $b7 note C_, 8 intensity $c7 note __, 16 stereopanning $f note __, 8 octave 3 note A#, 2 octave 4 note C_, 2 note C#, 4 note C_, 16 note __, 8 note C#, 2 note C_, 2 note C#, 4 note C_, 16 intensity $c2 note D#, 8 intensity $c7 octave 3 note A#, 2 octave 4 note C_, 2 note C#, 4 note C_, 16 intensity $c2 octave 3 note A#, 8 intensity $c7 octave 4 note C#, 2 note C_, 2 intensity $c4 note C#, 16 note __, 4 note __, 16 note __, 16 note __, 16 intensity $b7 octave 5 note D#, 16 note D_, 16 note F_, 16 note D#, 16 loopchannel 0, Music_DarkCave_branch_ea37e Music_DarkCave_Ch3: notetype $c, $27 Music_DarkCave_branch_ea471: callchannel Music_DarkCave_branch_ea4ce loopchannel 2, Music_DarkCave_branch_ea471 Music_DarkCave_branch_ea478: callchannel Music_DarkCave_branch_ea4ce loopchannel 7, Music_DarkCave_branch_ea478 callchannel Music_DarkCave_branch_ea4c3 octave 3 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note D#, 4 note F_, 2 note __, 2 octave 2 note A#, 12 callchannel Music_DarkCave_branch_ea4c3 octave 3 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note D#, 4 note F_, 2 note __, 2 octave 2 note A#, 4 octave 3 note C#, 2 note C_, 2 note C#, 4 callchannel Music_DarkCave_branch_ea4a7 callchannel Music_DarkCave_branch_ea4a7 loopchannel 0, Music_DarkCave_branch_ea478 Music_DarkCave_branch_ea4a7: octave 3 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note F_, 4 note D#, 2 note __, 2 octave 2 note A#, 4 note A#, 2 octave 3 note C_, 2 note C#, 4 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note D#, 4 note F_, 2 note __, 2 octave 2 note A#, 4 octave 3 note C#, 2 note C_, 2 note C#, 4 endchannel Music_DarkCave_branch_ea4c3: octave 3 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note F_, 4 note D#, 2 note __, 2 octave 2 note A#, 12 endchannel Music_DarkCave_branch_ea4ce: octave 2 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note F_, 4 note D#, 2 note __, 2 octave 1 note A#, 4 note A#, 2 octave 2 note C_, 2 note C#, 4 note C_, 4 note G_, 2 note D#, 4 note G_, 2 note D#, 4 note F_, 2 note __, 2 octave 1 note A#, 4 octave 2 note C#, 2 note C_, 2 note C#, 4 endchannel Music_DarkCave_Ch4: togglenoise $3 notetype $c Music_DarkCave_branch_ea4ee: stereopanning $ff note D#, 8 note D#, 8 note D#, 4 stereopanning $f0 note C#, 4 stereopanning $f note C#, 2 note C#, 2 stereopanning $f0 note C#, 4 stereopanning $ff note D#, 8 note D#, 8 note D#, 4 stereopanning $f note C#, 8 stereopanning $f0 note C#, 2 note C#, 2 loopchannel 0, Music_DarkCave_branch_ea4ee

14.123967

43

0.673932

581e7cf73c1baa3c28b1ae42a875f5031dff1e7f

8,415

asm

Assembly

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_21829_1449.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_21829_1449.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_21829_1449.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r11 push %r12 push %r15 push %r9 push %rbp push %rcx push %rdi push %rsi lea addresses_D_ht+0x7217, %rcx nop nop nop nop add $41967, %r12 movups (%rcx), %xmm3 vpextrq $0, %xmm3, %r11 dec %rdi lea addresses_WC_ht+0xd3af, %rsi lea addresses_normal_ht+0x1936f, %rdi clflush (%rsi) nop nop xor $57929, %r15 mov $117, %rcx rep movsw nop nop nop nop and %r11, %r11 lea addresses_A_ht+0x17a6f, %rsi lea addresses_A_ht+0x17b6f, %rdi add $18353, %r9 mov $120, %rcx rep movsw nop nop nop nop nop inc %rcx lea addresses_normal_ht+0x1bd2f, %rsi nop nop nop nop xor %r12, %r12 mov $0x6162636465666768, %rdi movq %rdi, (%rsi) nop nop nop and %rsi, %rsi lea addresses_WT_ht+0x15c2f, %rsi lea addresses_normal_ht+0x69cb, %rdi nop nop nop nop sub %rbp, %rbp mov $121, %rcx rep movsl nop nop nop nop cmp $13916, %r11 lea addresses_A_ht+0x1ec67, %rdi nop nop nop nop nop cmp $49698, %rbp mov $0x6162636465666768, %rcx movq %rcx, (%rdi) nop nop nop and %rdi, %rdi lea addresses_normal_ht+0x789, %rcx nop nop mfence mov (%rcx), %rbp xor %r12, %r12 lea addresses_D_ht+0x646f, %rsi lea addresses_WC_ht+0x636f, %rdi nop sub $51509, %rbp mov $50, %rcx rep movsq nop nop sub $21834, %r12 lea addresses_WC_ht+0x336f, %r9 nop nop nop sub %rbp, %rbp and $0xffffffffffffffc0, %r9 vmovaps (%r9), %ymm7 vextracti128 $1, %ymm7, %xmm7 vpextrq $1, %xmm7, %rsi xor %r15, %r15 lea addresses_normal_ht+0x36f, %rsi lea addresses_A_ht+0x136f, %rdi clflush (%rsi) nop add %r12, %r12 mov $23, %rcx rep movsl nop nop nop nop xor $9827, %r15 lea addresses_WT_ht+0x12ab9, %rbp clflush (%rbp) nop nop nop nop nop cmp $53888, %rcx mov (%rbp), %r11w nop nop nop xor %rsi, %rsi lea addresses_A_ht+0x11bcf, %rsi lea addresses_UC_ht+0x1cb6f, %rdi nop cmp %r9, %r9 mov $59, %rcx rep movsl nop nop nop nop add %r15, %r15 lea addresses_normal_ht+0x10f2f, %rcx nop nop nop nop and $52907, %r12 mov (%rcx), %esi nop nop nop dec %r11 lea addresses_D_ht+0x1ac6f, %r11 nop nop nop add $33771, %rcx movups (%r11), %xmm0 vpextrq $1, %xmm0, %rsi nop nop nop xor $40056, %r15 pop %rsi pop %rdi pop %rcx pop %rbp pop %r9 pop %r15 pop %r12 pop %r11 ret .global s_faulty_load s_faulty_load: push %r13 push %r14 push %r15 push %r8 push %rbp push %rbx push %rdi // Store lea addresses_A+0x1edaf, %rdi inc %r14 movb $0x51, (%rdi) nop nop nop cmp $53723, %r14 // Store lea addresses_A+0x82df, %rdi nop nop nop cmp %rbx, %rbx mov $0x5152535455565758, %r13 movq %r13, (%rdi) nop nop nop nop inc %r8 // Load lea addresses_D+0x1515f, %r13 nop nop nop nop xor %rbp, %rbp mov (%r13), %di nop nop nop nop dec %r8 // Faulty Load mov $0x6aa5da0000000b6f, %rbx nop nop and %r13, %r13 mov (%rbx), %r8 lea oracles, %rdi and $0xff, %r8 shlq $12, %r8 mov (%rdi,%r8,1), %r8 pop %rdi pop %rbx pop %rbp pop %r8 pop %r15 pop %r14 pop %r13 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 8, 'AVXalign': False, 'NT': True, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 9, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 8, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 11, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 5, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 1, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 1, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_D_ht', 'congruent': 8, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 32, 'AVXalign': True, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 11, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 9, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 1, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 5, 'same': False}, 'dst': {'type': 'addresses_UC_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 4, 'AVXalign': False, 'NT': True, 'congruent': 5, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 7, 'same': False}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

31.282528

2,999

0.65716

e1dd34d0f079a3a358e185b6b6649f1294176e76

3,829

asm

Assembly

FunctionCalls/StaticsTest/StaticsTest.asm

anish-sk/Nand2Tetris-project8

070f2eb82fc87617e58afb26a6cff27826dca8f5

[ "MIT" ]

null

FunctionCalls/StaticsTest/StaticsTest.asm

anish-sk/Nand2Tetris-project8

070f2eb82fc87617e58afb26a6cff27826dca8f5

[ "MIT" ]

null

FunctionCalls/StaticsTest/StaticsTest.asm

anish-sk/Nand2Tetris-project8

070f2eb82fc87617e58afb26a6cff27826dca8f5

[ "MIT" ]

null

// bootstrap @256 D=A @SP M=D // call Sys.init 0 @RETURNbootstrap D=A @SP A=M M=D // push return-address @SP M=M+1 @LCL D=M @SP A=M M=D // push LCL @SP M=M+1 @ARG D=M @SP A=M M=D // push ARG @SP M=M+1 @THIS D=M @SP A=M M=D // push THIS @SP M=M+1 @THAT D=M @SP A=M M=D // push THAT @SP M=M+1 D=M @0 D=D-A @5 D=D-A @ARG M=D // ARG = SP-n-5 @SP D=M @LCL M=D // LCL = SP @Sys.init 0;JMP // goto Sys.init (RETURNbootstrap) (Class1.set) @0 D=A @ARG A=M+D D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @Class1.0 M=D @1 D=A @ARG A=M+D D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @Class1.1 M=D @0 D=A @SP A=M M=D @SP M=M+1 @LCL D=M @R15 M=D @5 A=D-A D=M @R14 M=D @SP AM=M-1 D=M @ARG A=M M=D @ARG D=M+1 @SP M=D @R15 D=M-1 AM=D D=M @THAT M=D @R15 D=M-1 AM=D D=M @THIS M=D @R15 D=M-1 AM=D D=M @ARG M=D @R15 D=M-1 AM=D D=M @LCL M=D @R14 A=M 0;JMP (Class1.get) @Class1.0 D=M @SP A=M M=D @SP M=M+1 @Class1.1 D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @SP A=M-1 M=M-D @LCL D=M @R15 M=D @5 A=D-A D=M @R14 M=D @SP AM=M-1 D=M @ARG A=M M=D @ARG D=M+1 @SP M=D @R15 D=M-1 AM=D D=M @THAT M=D @R15 D=M-1 AM=D D=M @THIS M=D @R15 D=M-1 AM=D D=M @ARG M=D @R15 D=M-1 AM=D D=M @LCL M=D @R14 A=M 0;JMP (Class2.set) @0 D=A @ARG A=M+D D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @Class2.0 M=D @1 D=A @ARG A=M+D D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @Class2.1 M=D @0 D=A @SP A=M M=D @SP M=M+1 @LCL D=M @R15 M=D @5 A=D-A D=M @R14 M=D @SP AM=M-1 D=M @ARG A=M M=D @ARG D=M+1 @SP M=D @R15 D=M-1 AM=D D=M @THAT M=D @R15 D=M-1 AM=D D=M @THIS M=D @R15 D=M-1 AM=D D=M @ARG M=D @R15 D=M-1 AM=D D=M @LCL M=D @R14 A=M 0;JMP (Class2.get) @Class2.0 D=M @SP A=M M=D @SP M=M+1 @Class2.1 D=M @SP A=M M=D @SP M=M+1 @SP AM=M-1 D=M @SP A=M-1 M=M-D @LCL D=M @R15 M=D @5 A=D-A D=M @R14 M=D @SP AM=M-1 D=M @ARG A=M M=D @ARG D=M+1 @SP M=D @R15 D=M-1 AM=D D=M @THAT M=D @R15 D=M-1 AM=D D=M @THIS M=D @R15 D=M-1 AM=D D=M @ARG M=D @R15 D=M-1 AM=D D=M @LCL M=D @R14 A=M 0;JMP (Sys.init) @6 D=A @SP A=M M=D @SP M=M+1 @8 D=A @SP A=M M=D @SP M=M+1 @Class1.set0$RETURN D=A @SP A=M M=D @SP M=M+1 @LCL D=M @SP A=M M=D @SP M=M+1 @ARG D=M @SP A=M M=D @SP M=M+1 @THIS D=M @SP A=M M=D @SP M=M+1 @THAT D=M @SP A=M M=D @SP M=M+1 @SP D=M @5 D=D-A @2 D=D-A @ARG M=D @SP D=M @LCL M=D @Class1.set 0;JMP (Class1.set0$RETURN) @0 D=A @5 D=A+D @R13 M=D @SP AM=M-1 D=M @R13 A=M M=D @23 D=A @SP A=M M=D @SP M=M+1 @15 D=A @SP A=M M=D @SP M=M+1 @Class2.set1$RETURN D=A @SP A=M M=D @SP M=M+1 @LCL D=M @SP A=M M=D @SP M=M+1 @ARG D=M @SP A=M M=D @SP M=M+1 @THIS D=M @SP A=M M=D @SP M=M+1 @THAT D=M @SP A=M M=D @SP M=M+1 @SP D=M @5 D=D-A @2 D=D-A @ARG M=D @SP D=M @LCL M=D @Class2.set 0;JMP (Class2.set1$RETURN) @0 D=A @5 D=A+D @R13 M=D @SP AM=M-1 D=M @R13 A=M M=D @Class1.get2$RETURN D=A @SP A=M M=D @SP M=M+1 @LCL D=M @SP A=M M=D @SP M=M+1 @ARG D=M @SP A=M M=D @SP M=M+1 @THIS D=M @SP A=M M=D @SP M=M+1 @THAT D=M @SP A=M M=D @SP M=M+1 @SP D=M @5 D=D-A @0 D=D-A @ARG M=D @SP D=M @LCL M=D @Class1.get 0;JMP (Class1.get2$RETURN) @Class2.get3$RETURN D=A @SP A=M M=D @SP M=M+1 @LCL D=M @SP A=M M=D @SP M=M+1 @ARG D=M @SP A=M M=D @SP M=M+1 @THIS D=M @SP A=M M=D @SP M=M+1 @THAT D=M @SP A=M M=D @SP M=M+1 @SP D=M @5 D=D-A @0 D=D-A @ARG M=D @SP D=M @LCL M=D @Class2.get 0;JMP (Class2.get3$RETURN) (WHILE) @WHILE 0;JMP

6.226016

24

0.468268

dc344e9c54de68bc5854c937c06024e1ed1b98c8

13,451

asm

Assembly

Appl/Startup/CommonStartup/CMain/cmainStartupRoomTrigger.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

504

2018-11-18T03:35:53.000Z

2022-03-29T01:02:51.000Z

Appl/Startup/CommonStartup/CMain/cmainStartupRoomTrigger.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

96

2018-11-19T21:06:50.000Z

2022-03-06T10:26:48.000Z

Appl/Startup/CommonStartup/CMain/cmainStartupRoomTrigger.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

73

2018-11-19T20:46:53.000Z

2022-03-29T00:59:26.000Z

COMMENT @---------------------------------------------------------------------- Copyright (c) GeoWorks 1988 -- All Rights Reserved PROJECT: PC GEOS MODULE: welcome FILE: cmainStartupRoomTrigger.asm REVISION HISTORY: Name Date Description ---- ---- ----------- Doug 12/89 Initial version DESCRIPTION: This file contains the StartupRoomTriggerClass $Id: cmainStartupRoomTrigger.asm,v 1.1 97/04/04 16:52:18 newdeal Exp $ ------------------------------------------------------------------------------@ ;------------------------------------------------------------------------------ ; Constants & Structures ;------------------------------------------------------------------------------ BMonikerPrologue struct BMP_height word (?) BMP_drawbitmapOp byte (?) BMP_drawbitmapX word (?) BMP_drawbitmapY word (?) BMP_drawbitmapOptr optr (?) BMP_setfontOp byte (?) BMP_setfontPtFrac byte (?) BMP_setfontPtInt word (?) BMP_setfontID word (?) BMP_drawtextOp byte (?) BMP_drawtextX word (?) BMP_drawtextY word (?) BMP_drawtextLen word (?) BMonikerPrologue ends .assert (BMP_drawbitmapOp eq VMGS_gstring) ; ; CONSTANTS FOR WIDTHS AND POSITIONS IN OVERVIEW MONIKER ; ;Title font is Berkeley 10 point OVERVIEW_MONIKER_TITLE_FONT equ FID_BERKELEY OVERVIEW_MONIKER_TITLE_SIZE equ 12 CGA_OVERVIEW_MONIKER_TITLE_SIZE equ 10 OVERVIEW_MONIKER_WIDTH equ 143 OVERVIEW_MONIKER_HEIGHT equ 132 ;OVERVIEW_MONIKER_HEIGHT equ 129 OVERVIEW_BITMAP_WIDTH equ 143 OVERVIEW_BITMAP_HEIGHT equ 113 OVERVIEW_MONIKER_TOP_OFFSET equ 116 OVERVIEW_MONIKER_BITMAP_OFFSET equ 2 CGA_OVERVIEW_MONIKER_HEIGHT equ 74 CGA_OVERVIEW_BITMAP_HEIGHT equ 62 CGA_OVERVIEW_MONIKER_TOP_OFFSET equ 62 idata segment StartupRoomTriggerClass idata ends CommonCode segment resource ifdef WELCOME VGAOverviewMonikers label optr EGAOverviewMonikers optr ProRoomColorMoniker, ProRoomColorMoniker, ProRoomColorMoniker NUM_EGA_OVERVIEW_MONIKERS equ ($-EGAOverviewMonikers)/4 .assert NUM_EGA_OVERVIEW_MONIKERS eq PictureNumber HGCOverviewMonikers optr ProRoomBWMoniker, ProRoomBWMoniker, ProRoomBWMoniker NUM_HGC_OVERVIEW_MONIKERS equ ($-HGCOverviewMonikers)/4 .assert NUM_HGC_OVERVIEW_MONIKERS eq PictureNumber CGAOverviewMonikers optr ProRoomCGAMoniker, ProRoomCGAMoniker, ProRoomCGAMoniker NUM_CGA_OVERVIEW_MONIKERS equ ($-CGAOverviewMonikers)/4 .assert NUM_CGA_OVERVIEW_MONIKERS eq PictureNumber endif ifdef ISTARTUP VGAOverviewMonikers label optr EGAOverviewMonikers optr CPrimaryMoniker, CAssistedMoniker, CSelfGuidedMoniker NUM_EGA_OVERVIEW_MONIKERS equ ($-EGAOverviewMonikers)/4 .assert NUM_EGA_OVERVIEW_MONIKERS eq PictureNumber HGCOverviewMonikers optr BWPrimaryMoniker, BWAssistedMoniker, BWSelfGuidedMoniker NUM_HGC_OVERVIEW_MONIKERS equ ($-HGCOverviewMonikers)/4 .assert NUM_HGC_OVERVIEW_MONIKERS eq PictureNumber CGAOverviewMonikers optr CGAPrimaryMoniker, CGAAssistedMoniker, CGASelfGuidedMoniker NUM_CGA_OVERVIEW_MONIKERS equ ($-CGAOverviewMonikers)/4 .assert NUM_CGA_OVERVIEW_MONIKERS eq PictureNumber endif ;############################################################################## ; CODE ;############################################################################## COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% StartupRoomTriggerSpecBuild %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: When the object is vis built, copy in the correct moniker CALLED BY: GLOBAL PASS: nada RETURN: nada DESTROYED: various important but undocumented things PSEUDO CODE/STRATEGY: This page intentionally left blank KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- atw 12/29/89 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ StartupRoomTriggerSpecBuild method StartupRoomTriggerClass, MSG_SPEC_BUILD push es,cx,dx,bp ; preserve SpecBuildFlags mov al,ds:[di].SRTI_pictureNumber clr ah EC < cmp ax, NUM_CGA_OVERVIEW_MONIKERS > EC < ERROR_AE BAD_PICTURE_NUMBER > push ax push si ;Save ptr to Overview trigger mov ax, MSG_GEN_APPLICATION_GET_DISPLAY_SCHEME mov bx, handle StartupApp mov si, offset StartupApp mov di,mask MF_CALL call ObjMessage ;Get app display scheme in AH pop si ;Restore ptr to Overview trigger mov al, ah ;copy display type to AL andnf ah, mask DT_DISP_ASPECT_RATIO mov di, offset CGAOverviewMonikers ; cmp ah, DAR_VERY_SQUISHED shl offset DT_DISP_ASPECT_RATIO je 10$ ;CGA mov di, offset VGAOverviewMonikers ; cmp ah, DAR_NORMAL je 8$ ;VGA or MCGA mov di, offset EGAOverviewMonikers ;else EGA or HGC 8$: and al, mask DT_DISP_CLASS ;Get display class cmp al, DC_GRAY_1 ;Are we on a monochrome display jne 10$ ;EGA mov di, offset HGCOverviewMonikers ; 10$: pop bp ;Restore picture number shl bp,1 ;Multiply picture # by 4 (size of table shl bp,1 ; entry -- optr) ; SET UP MONIKER mov cx, ({optr} cs:[di][bp]).handle ;^lCX:DX <- bitmap to put in mov dx, ({optr} cs:[di][bp]).chunk ; moniker mov ax, MSG_SRT_SET_MONIKER call ObjCallInstanceNoLock pop es,cx,dx,bp ; restore SpecBuildFlags ; Continue by calling superclass with same ; method mov ax, MSG_SPEC_BUILD mov di, offset StartupRoomTriggerClass GOTO ObjCallSuperNoLock StartupRoomTriggerSpecBuild endm COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% StartupRoomTriggerSetMoniker %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: This method combines the passed moniker and passed title string to be one beautiful moniker. It overwrites the passed chunk in DX, so any DIRTY or IGNORE_DIRTY flags can be set on it. CALLED BY: GLOBAL PASS: CX:DX - optr of bitmap to be part of moniker RETURN: nada DESTROYED: various important but undocumented things PSEUDO CODE/STRATEGY: This page intentionally left blank KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- atw 1/13/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ StartupRoomTriggerSetMoniker method dynamic StartupRoomTriggerClass, MSG_SRT_SET_MONIKER bitmap local optr object local lptr titleStr local TITLE_MAX_LEN+4 dup (char) ;Title max size + null + ; room for ellipsis .enter ; SET UP LOCALS mov object, si mov bitmap.handle, cx mov bitmap.chunk, dx ; COPY TITLE DATA OUT OF CHUNK AND ONTO STACK FOR MANIPULATION mov si, ds:[di].SRTI_title mov si, ds:[si] ;DS:SI <- ptr to title data segmov es, ss, di ; lea di, titleStr ;ES:DI <- where to put title ; data ChunkSizePtr ds, si, cx inc cx shr cx, 1 ;CX <- # words rep movsw ;Copy data over from title ; NUKE OLD VIS MONIKER push bp ;Save ptr to locals mov si, object mov ax, MSG_GEN_GET_VIS_MONIKER call ObjCallInstanceNoLock push ax ;Save vis moniker chunk clr cx ;Nuke old vis moniker mov ax, MSG_GEN_USE_VIS_MONIKER mov dl, VUM_DELAYED_VIA_UI_QUEUE call ObjCallInstanceNoLock pop ax ;Get vis moniker chunk tst ax ;If no chunk, exit jz 10$ ; call LMemFree ;Else, free old vis moniker 10$: pop bp ;Restore ptr to locals ; GET INFORMATION ABOUT TITLE AND CLIP IF NECESSARY push cx, dx, bp mov ax, MSG_GEN_APPLICATION_GET_DISPLAY_SCHEME mov bx, handle StartupApp mov si, offset StartupApp mov di,mask MF_CALL or mask MF_FIXUP_DS call ObjMessage ;Get app display scheme in AH pop cx, dx, bp push ax lea si, titleStr ;ES:SI <- ptr to title mov bx, OVERVIEW_MONIKER_WIDTH mov cx, OVERVIEW_MONIKER_TITLE_FONT ; mov dx, OVERVIEW_MONIKER_TITLE_SIZE ; cmp ah, CGA_DISPLAY_TYPE jne 40$ ;Adjust size for CGA mov dx, CGA_OVERVIEW_MONIKER_TITLE_SIZE ; 40$: call GetBTitleInfo ;Returns strlen in CX and width ; in BP (Clips title and adds ; ellipsis if necessary) ; ALLOCATE MONIKER CHUNK ;CX <- total size of moniker add cx, size BMonikerPrologue + size VisMoniker + size OpEndGString mov al, mask OCF_DIRTY ;Save this to the state file. call LMemAlloc ;Allocate the moniker ; FILL IN MONIKER CHUNK segmov es,ds,di ;ES <- moniker segment xchg di, ax ;DI <- moniker chunk handle pop ax push di ;Save moniker chunk handle mov di,ds:[di] ;Deref moniker chunk ;Set cached size mov ds:[di].VM_width, OVERVIEW_MONIKER_WIDTH mov ({VisMonikerGString} ds:[di].VM_data).VMGS_height, \ OVERVIEW_MONIKER_HEIGHT mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawtextY, \ OVERVIEW_MONIKER_TOP_OFFSET mov ({BMonikerPrologue} ds:[di].VM_data).BMP_setfontPtInt, \ OVERVIEW_MONIKER_TITLE_SIZE cmp ah, CGA_DISPLAY_TYPE jne notCGA ;Adjust height for CGA mov ({BMonikerPrologue} ds:[di].VM_data).BMP_setfontPtInt, \ CGA_OVERVIEW_MONIKER_TITLE_SIZE mov ({VisMonikerGString} ds:[di].VM_data).VMGS_height, \ CGA_OVERVIEW_MONIKER_HEIGHT mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawtextY, \ CGA_OVERVIEW_MONIKER_TOP_OFFSET notCGA: mov ds:[di].VM_type,( mask VMLET_GSTRING or \ (DAR_NORMAL shl offset VMLET_GS_ASPECT_RATIO) or \ (DC_GRAY_1 shl offset VMLET_GS_COLOR) ) mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawbitmapOp, \ GR_DRAW_BITMAP_OPTR mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawbitmapX, \ (OVERVIEW_MONIKER_WIDTH - OVERVIEW_BITMAP_WIDTH)/2 mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawbitmapY, \ OVERVIEW_MONIKER_BITMAP_OFFSET mov ax, bitmap.handle mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawbitmapOptr.handle,\ ax mov ax, bitmap.chunk mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawbitmapOptr.chunk,\ ax mov ({BMonikerPrologue} ds:[di].VM_data).BMP_setfontOp, GR_SET_FONT mov ({BMonikerPrologue} ds:[di].VM_data).BMP_setfontPtFrac, 0 mov ({BMonikerPrologue} ds:[di].VM_data).BMP_setfontID, \ OVERVIEW_MONIKER_TITLE_FONT mov ax, OVERVIEW_MONIKER_WIDTH sub ax,dx shr ax,1 ;AX <- offset to draw text at. mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawtextOp, \ GR_DRAW_TEXT mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawtextX, ax sub cx, size BMonikerPrologue + size VisMoniker + size OpEndGString ;CX <- byte length of title mov ({BMonikerPrologue} ds:[di].VM_data).BMP_drawtextLen, cx ;Store string byte length ;ES:DI <- ptr to store title add di,size BMonikerPrologue + size VisMoniker push ds ;Save object block segmov ds, ss, si ; lea si, titleStr ;DS:SI <- title string rep movsb ;Copy over string mov es:[di].OEGS_opcode, GR_END_GSTRING ;End the string pop ds ;Restore object block pop cx ;Restore moniker chunk handle push bp mov si, object mov dl, VUM_DELAYED_VIA_UI_QUEUE ;Update the moniker mov ax, MSG_GEN_USE_VIS_MONIKER call ObjCallInstanceNoLock pop bp .leave ret StartupRoomTriggerSetMoniker endm COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GetBTitleInfo %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: This routine gets the width/length of the passed string and clips it if necessary. CALLED BY: GLOBAL PASS: ES:SI - null-terminated string BX - width to clip to CX - font ID DX - point size of font RETURN: CX - string length DX - pixel width DESTROYED: di, si PSEUDO CODE/STRATEGY: This page intentionally left blank KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- atw 1/14/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GetBTitleInfo proc near uses ax,ds,bp .enter segmov ds,es,di ;DS:SI <- ptr to string push cx, dx mov di, si ;ES:DI <- ptr to string mov cx, -1 ; clr al ; repne scasb ; not cx ;CX <- length of string push cx ;Save length clr di call GrCreateState ;Get a GState to manipulate pop ax ;Restore string len pop cx, dx ;Restore Font/Pt Size push ax ;Save string len clr ah ; call GrSetFont ; clr cx ; call GrTextWidth ;Do trivial reject -- entire ; string fits pop cx ;CX <- string length mov bp,dx ;BP <- pixel width cmp bp, bx ;If width < moniker width, then jle noclip ; no clipping, dude! mov al, '.' ;Get width of a '.' call GrCharWidth ; mov bp, dx ;BP <- width of '.' * 3... shl dx, 1 ; add bp, dx ; clr cx cliploop: inc cx lodsb ;Get next character from string call GrCharWidth add bp,dx ;BP += width of next char cmp bp, bx ; jl cliploop ; sub bp, dx ;BP <- real width mov al, '.' ;Add '...' push di ;Save GState lea di, ds:[si][-1] stosb stosb stosb clr al ;Add null terminator stosb add cx, 3 ;CX <- clipped string length pop di ;Restore GState noclip: call GrDestroyState mov dx, bp .leave ret GetBTitleInfo endp CommonCode ends

28.741453

80

0.650361

88eb2147e777dfcb5bdb0b33bb2280a227ee0b28

545

asm

Assembly

oeis/010/A010805.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/010/A010805.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/010/A010805.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A010805: 17th powers: a(n) = n^17. ; 0,1,131072,129140163,17179869184,762939453125,16926659444736,232630513987207,2251799813685248,16677181699666569,100000000000000000,505447028499293771,2218611106740436992,8650415919381337933,30491346729331195904,98526125335693359375,295147905179352825856,827240261886336764177,2185911559738696531968,5480386857784802185939,13107200000000000000000,30041942495081691894741,66249952919459433152512,141050039560662968926103,290797794982682557415424,582076609134674072265625,1133827315385150725554176 pow $0,17

109

496

0.910092

cd615771a249906963895c274eb5f2e9790147fa

4,894

asm

Assembly

Transynther/x86/_processed/AVXALIGN/_ht_zr_/i7-8650U_0xd2_notsx.log_776_264.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/AVXALIGN/_ht_zr_/i7-8650U_0xd2_notsx.log_776_264.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/AVXALIGN/_ht_zr_/i7-8650U_0xd2_notsx.log_776_264.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r12 push %r13 push %r14 push %rax push %rcx push %rdi push %rsi lea addresses_UC_ht+0x1cd69, %rsi lea addresses_WC_ht+0x1d569, %rdi clflush (%rsi) nop nop inc %r12 mov $75, %rcx rep movsw nop nop sub %r10, %r10 lea addresses_normal_ht+0x3705, %r13 nop add %rax, %rax movb $0x61, (%r13) nop nop nop and %rdi, %rdi lea addresses_normal_ht+0x13069, %rsi lea addresses_D_ht+0x193e9, %rdi nop nop nop cmp $16700, %r14 mov $41, %rcx rep movsq nop nop and $55869, %r12 pop %rsi pop %rdi pop %rcx pop %rax pop %r14 pop %r13 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r12 push %r13 push %rax push %rbx push %rdx // Store lea addresses_UC+0x12469, %r12 nop nop nop cmp $51158, %rdx mov $0x5152535455565758, %r11 movq %r11, %xmm5 vmovups %ymm5, (%r12) nop nop nop nop add $19105, %rax // Store lea addresses_PSE+0x4689, %rdx inc %rbx mov $0x5152535455565758, %r12 movq %r12, %xmm6 movups %xmm6, (%rdx) nop sub %r12, %r12 // Store lea addresses_UC+0xc31b, %r13 nop nop nop nop nop cmp %r10, %r10 movw $0x5152, (%r13) nop nop nop nop nop xor $15425, %rbx // Faulty Load lea addresses_RW+0x11569, %r10 nop nop dec %rax vmovntdqa (%r10), %ymm5 vextracti128 $1, %ymm5, %xmm5 vpextrq $1, %xmm5, %r12 lea oracles, %r11 and $0xff, %r12 shlq $12, %r12 mov (%r11,%r12,1), %r12 pop %rdx pop %rbx pop %rax pop %r13 pop %r12 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 2, 'AVXalign': True, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 32, 'AVXalign': False, 'NT': True, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 10, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 11, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 7, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 7, 'same': False}} {'44': 705, '00': 71} 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 00 44 00 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 00 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 00 44 00 00 44 00 00 00 00 00 00 44 00 44 00 00 00 00 44 44 00 44 00 00 00 00 00 00 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 00 00 00 00 00 00 44 00 00 00 44 00 44 00 44 44 00 44 44 44 00 44 44 44 00 00 00 00 00 44 44 44 44 44 44 44 44 44 44 44 00 44 00 00 00 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 00 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 44 */

35.463768

2,327

0.659992

b811d0738042598b1a1f189ca6884bac0dff1233

5,299

asm

Assembly

claude.asm

smattie/claude

0d4a427a3fdb92e01d595f4e46ce18320f5f1050

[ "WTFPL" ]

null

claude.asm

smattie/claude

0d4a427a3fdb92e01d595f4e46ce18320f5f1050

[ "WTFPL" ]

null

claude.asm

smattie/claude

0d4a427a3fdb92e01d595f4e46ce18320f5f1050

[ "WTFPL" ]

null

;;; ---------------------------------------------------------------------------- ;;; claude ;;; ;;; This work is free. You can redistribute it and/or modify it under the ;;; terms of the Do What The Fuck You Want To Public License, Version 2, ;;; as published by Sam Hocevar. See the COPYING file for more details. ;;; ;;; 2020-2021 - smattie <https://github.com/smattie> ;;; ---------------------------------------------------------------------------- format elf executable 3 entry start define fork 2 define read 3 define write 4 define open 5 define close 6 define waitpid 7 define chdir 12 define alarm 27 define access 33 define signal 48 define chroot 61 define clone 120 define nanosleep 162 define capset 185 define sendfile 187 define socket 359 define bind 361 define connect 362 define listen 363 define accept4 364 define SIGALRM 14 define R_OK 4 define PF_INET 2 define SOCK_STREAM 1 ;; requires ;; cap_net_bind_service ;; cap_sys_chroot define LINUX_CAPABILITY_VERSION_3 0x20080522 define CLONE_VM 0x00000100 define CLONE_FS 0x00000200 define CLONE_FILES 0x00000400 define CLONE_SIGHAND 0x00000800 define CLONE_THREAD 0x00010000 define CLONE_SYSVSEM 0x00040000 THREADFLAGS = \ CLONE_VM or CLONE_FILES or CLONE_SIGHAND or \ CLONE_FS or CLONE_THREAD or CLONE_SYSVSEM define REQBUFSZ 2048 define CLIENTTIMEOUT 13 segment readable executable ;; ------------------------------------------------------------------ ;; > ebx: status finish: xor eax, eax inc eax int 80h ;; ------------------------------------------------------------------ start: mov eax, [esp] dec eax jle finish mov ax, chdir mov ebx, [esp + 8] int 80h test eax, eax jnz finish mov al, chroot int 80h test eax, eax jnz finish sub esp, 64 mov ax, socket mov ebx, PF_INET mov ecx, SOCK_STREAM xor edx, edx int 80h mov ebp, eax test eax, eax js finish ; mov [esp], dword 0x901f0002 ;; af_inet, 8080 mov [esp], dword 0x50000002 ;; af_inet, 80 mov ax, bind mov ebx, ebp mov ecx, esp mov dl, 16 int 80h test eax, eax jnz finish mov ax, listen mov ecx, edx int 80h test eax, eax jnz finish mov ax, capset mov ebx, esp lea ecx, [esp + 8] mov [esp], dword LINUX_CAPABILITY_VERSION_3 int 80h test eax, eax jnz finish mov [esp], ebp ;; XXX: esp/ecx is pointing at the top of the stack mov al, clone ;; which you usually wouldn't want but in this case mov ebx, THREADFLAGS ;; i don't *think* it matters mov ecx, esp xor edx, edx xor esi, esi xor edi, edi int 80h test eax, eax js finish jz waitthread .loop: mov eax, accept4 mov ebx, ebp xor ecx, ecx int 80h mov ebx, eax test eax, eax js .loop mov ax, fork int 80h test eax, eax jz serve jg .close .servererror: mov eax, write mov ecx, err500+1 mov dl, err500.len int 80h .close: mov eax, close int 80h jmp .loop ;; ------------------------------------------------------------------ waitthread: mov eax, nanosleep ;; sleep ~3 seconds (presumably) if there mov ebx, esp ;; are no children to be waited on xor ecx, ecx int 80h or ebx, -1 .waitmore: mov eax, waitpid int 80h test eax, eax jns .waitmore jmp waitthread ;; ------------------------------------------------------------------ ;; > ebx: client fd ;; > edi: 0 serve: sub esp, REQBUFSZ mov ebp, ebx .newrequest: mov eax, signal mov ebx, SIGALRM mov ecx, alarmhandler int 80h mov eax, alarm mov bl, CLIENTTIMEOUT int 80h mov esi, esp mov dx, REQBUFSZ .readrequest: mov eax, read mov ebx, ebp mov ecx, esi int 80h mov edi, err400 test eax, eax jle dropclient add edi, (err408-err400-1) sub edx, eax add esi, eax mov eax, [esi-4] cmp eax, 0a0d0a0dh jne .readrequest mov ecx, [esp] mov eax, alarm xor ebx, ebx int 80h .getmethod: mov edi, err400 xor ecx, 20544547h jnz dropclient lea edi, [esp+4] .getpath: mov ebx, index cmp [edi], word 202fh je .sendfile mov ebx, edi mov al, 20h mov cx, REQBUFSZ repne scasb xor eax, eax mov [edi-1], eax mov edi, err404 mov al, access mov cx, R_OK int 80h test eax, eax jnz dropclient .sendfile: mov edi, err500 mov al, open xor ecx, ecx xor edx, edx int 80h test eax, eax js dropclient xor edi, edi mov ecx, eax mov eax, sendfile mov ebx, ebp or esi, -1 int 80h mov eax, close mov ebx, ecx int 80h jmp .newrequest ;; ------------------------------------------------------------------ ;; > edi: err& dropclient: mov ebx, ebp lea ecx, [edi+1] test edi, edi jz @f mov eax, write movzx edx, byte [edi] int 80h @@: jmp finish ;; ------------------------------------------------------------------ alarmhandler: mov [esp], dword dropclient ret ;; ------------------------------------------------------------------ index: db "index.html", 0 .len = $ - index err400: db err400.len db "HTTP/1.1 400 Bad Request", 13, 10, 13, 10 .len = $ - err400 - 1 err404: db err404.len db "HTTP/1.1 404 Not Found", 13, 10, 13, 10 .len = $ - err404 - 1 err408: db err408.len db "HTTP/1.1 408 Request Timeout", 13, 10, 13, 10 .len = $ - err408 - 1 err500: db err500.len db "HTTP/1.1 500 Internal Server Error", 13, 10, 13, 10 .len = $ - err500 - 1

17.204545

80

0.593886

e1beea1b303a47b0dc3de981d668d09bfa374cbf

14,321

asm

Assembly

Library/GDI/Common/gdiUtils.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

504

2018-11-18T03:35:53.000Z

2022-03-29T01:02:51.000Z

Library/GDI/Common/gdiUtils.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

96

2018-11-19T21:06:50.000Z

2022-03-06T10:26:48.000Z

Library/GDI/Common/gdiUtils.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

73

2018-11-19T20:46:53.000Z

2022-03-29T00:59:26.000Z

COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) Geoworks 1996 -- All Rights Reserved PROJECT: GEOS MODULE: GDI Library - Common Code FILE: gdiUtils.asm AUTHOR: Todd Stumpf, Apr 30, 1996 ROUTINES: Name Description ---- ----------- REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial revision DESCRIPTION: $Id: gdiUtils.asm,v 1.1 97/04/04 18:03:52 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ InitCode segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIInitInterface %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Initialize a passed interface CALLED BY: INTERNAL PASS: dx -> mask of activeInterfaceMask to set if successful si -> offset of actual HW init to call RETURN: DESTROYED: nothing SIDE EFFECTS: Initializes hardware PSEUDO CODE/STRATEGY: Call C routine that initializes hardware Look for errors On success, mark interface as active REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIInitInterface proc near uses ds .enter ; ; Get dgroup for us, and them... MOV_SEG ds, <segment dgroup> ; ; See if interface already active test ds:[activeInterfaceMask], dx ; been here, done this? mov ax, EC_INTERFACE_ALREADY_ACTIVE ; assume so stc jnz done ; => Never again! Never! ; ; Call hardware specific handler... push bx, cx, dx, es ; ds -> dgroup call si ; ax <- ErrorCode ; bx, cx, dx, es trashed pop bx, cx, dx, es ; ; See if things went okay cmp ax, EC_NO_ERROR ; are things okay? stc ; assume worst jne done ; => things went wrong ; ; Mark interface as initialized. or ds:[activeInterfaceMask], dx ; clears carry done: .leave ret GDIInitInterface endp InitCode ends ShutdownCode segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIShutdownInterface %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: PASS: dx -> activeInterfaceMask for interface bx -> offset to callback table si -> HW routine to call RETURN: carry set on error ax <- ErrorCode DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIShutdownInterface proc near uses bx, ds .enter ; ; Get dgroup for us, and them... MOV_SEG ds, <segment dgroup> ; ; Now, see if it's even active... test ds:[activeInterfaceMask], dx ; check for activity mov ax, EC_INTERFACE_NOT_INITIALIZED ; assume the worst stc jz done ; => never active ; ; Next, check for any registered callbacks ; bx -> callback table call GDICheckCallbacks ; carry set if active mov ax, EC_CALLBACKS_STILL_ACTIVE jc done ; => still going ; ; Well, we're clear to shutdown, then. push bx, cx, dx, es ; ds -> dgroup call si ; ax <- ErrorCode pop bx, cx, dx, es ; ; See if things are dead cmp ax, EC_NO_ERROR ; things okay? stc ; assume not jne done ; => Problems... ; ; Mark interface as disabled. xor ds:[activeInterfaceMask], dx ; clears carry done: .leave ret GDIShutdownInterface endp ShutdownCode ends CallbackCode segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIRegisterCallback %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Stuff a passed far pointer into the indicated table CALLED BY: INTERNAL PASS: dx:si -> callback to register bx -> offset of table for callback RETURN: ax <- ErrorCode bx <- slot index or ffffh if error carry set on error DESTROYED: flags only SIDE EFFECTS: Places callback into table atomically PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIRegisterCallback proc far uses cx, ds .enter MOV_SEG ds, dgroup ; ds:bx <- table mov cx, NUM_CALLBACK_SLOTS ; cx <- # of entries clr ax topOfLoop: cmp ax, ds:[bx] je checkSlot ; => check segment checkForMatch: cmp dx, ds:[bx] ; could slot match? je checkFptr ; => check offset noMatch: add bx, 4 loop topOfLoop mov bx, -1 mov ax, EC_CALLBACK_TABLE_FULL stc done: .leave ret checkSlot: ; ; Offset was zero, see if segment is zero cmp ds:[bx]+2, ax jne checkForMatch ; => non-zero segment ; ; We've found our empty slot. Automically stuff it. INT_OFF movdw ds:[bx], dxsi INT_ON ; ; Return the index of the slot. (starting from 0) mov bx, NUM_CALLBACK_SLOTS sub bx, cx mov ax, EC_NO_ERROR clc jmp short done checkFptr: ; ; Segments of callbacks matched, see if offsets match cmp si, ds:[bx]+2 jne noMatch mov bx, -1 mov ax, EC_CALLBACK_ALREADY_PRESENT stc jmp done GDIRegisterCallback endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIUnregisterCallback %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Unregister a callback routine CALLED BY: GDIPowerUnregister PASS: dx:si -> fptr of callback to remove bx -> offset powerCallbackTable RETURN: carry set if not found ax -> error code DESTROYED: flags only SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIUnregisterCallback proc far uses cx, bx, ds .enter MOV_SEG ds, dgroup ; ds:bx <- table mov cx, NUM_CALLBACK_SLOTS ; cx <- # of entries topOfLoop: cmp si, ds:[bx] ; could slot match? je checkFptr ; => check segment noMatch: add bx, 4 loop topOfLoop mov ax, EC_CALLBACKS_NOT_PRESENT stc done: .leave ret checkFptr: ; ; Segments of callbacks matched, see if offsets match cmp dx, ds:[bx]+2 jne noMatch clrdw ds:[bx] mov ax, EC_NO_ERROR clc jmp done GDIUnregisterCallback endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDICheckCallbacks %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Determine if callback table is empty CALLED BY: GDIShutdownInterface PASS: bx -> offset to callback table RETURN: carry set if still active DESTROYED: nothing SIDE EFFECTS: None PSEUDO CODE/STRATEGY: Scan table looking for non-zero entry REVISION HISTORY: Name Date Description ---- ---- ----------- TS 4/30/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDICheckCallbacks proc far uses ax, cx, di, es .enter MOV_SEG es, ds mov di, bx clr ax mov cx, NUM_CALLBACK_SLOTS * 2 ; size of table repz scasw clc jz done ; => All zeroes stc done: .leave ret GDICheckCallbacks endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDICallCallbacks %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Call all registered callbacks with identical registers CALLED BY: INTERNAL PASS: di -> offset of callback table to use bp -> offset of in-between-callback to call si -> SystemEventType ax, bx, cx, dx possible data RETURN: nothing DESTROYED: di SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- TS 5/ 7/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDICallCallbacks proc near .enter call GDICallAllSlots ; ; Next call all slots for systemMonitor, it is a common ; callback table and should be called for all events. ; mov di, offset systemMonitorCallbackTable call GDICallAllSlots .leave ret GDICallCallbacks endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDICallAllSlots %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: INTERNAL: GDICallCallbacks PASS: di -> offset of table to call bp -> offset of in-between-callback to call si -> SystemEventType ax, bx, cx, dx possible data RETURN: nothing DESTROYED: di SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- kliu 8/15/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDICallAllSlots proc near uses es, si .enter xchg di, si ; di <- SystemEventType ; ; Get hands on callbacks MOV_SEG es, dgroup ; es:si <- callbacks tstdw es:[si] ; this slot empty? jz checkSlot2 ; => MT call DWORD PTR es:[si] ; call callback call bp ; let client know checkSlot2: add si, size fptr ; next! tstdw es:[si] ; this slot taken? jz checkSlot3 ; => MT call DWORD PTR es:[si] ; Yoohooo! call bp ; *nudge* *nudge* checkSlot3: add si, size fptr ; Scoot down! tstdw es:[si] ; Got any more? jz done ; => MT call DWORD PTR es:[si] ; * Surprise! * call bp ; get the bill... done: .assert NUM_CALLBACK_SLOTS eq 3 .leave GDINoCallback label near ret GDICallAllSlots endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIHWGenerateEvents %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: PASS: di -> offset of callback table to call. ax, bx, cx, dx, si possible data RETURN: nothing DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- kliu 8/16/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIHWGenerateEvents proc near uses si .enter clr si ; signify a hardware event call GDIFilterEvents .leave ret GDIHWGenerateEvents endp GDIFilterEventsFar proc far call GDIFilterEvents ret GDIFilterEventsFar endp GDIGetExclusiveFar proc far call GDIGetExclusive ret GDIGetExclusiveFar endp GDIReleaseExclusiveFar proc far call GDIReleaseExclusive ret GDIReleaseExclusiveFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIFilterEvents %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: PASS: si -> registerID di -> offset of callback table to use bp -> offset of in-between-callback to call ax, bx, cx, dx possible data RETURN: DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- kliu 8/16/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIFilterEvents proc near uses ds, di, si .enter MOV_SEG ds, dgroup ; ; if there is no exclusive access, exAccessID = -1 ; cmp ds:[exAccessID], -1 je setEventType ; ; There is exclusive access set, now check the ID. ; cmp si, ds:[exAccessID] je setEventType ; ; Else disregard events! ; done: .leave ret setEventType: cmp di, offset keyboardCallbackTable jne tryMouse mov si, SET_KEYBOARD jmp callCallback tryMouse: cmp di, offset pointerCallbackTable jne tryPower mov si, SET_POINTER jmp callCallback tryPower: ; ; no error checking for now ; mov si, SET_POWER callCallback: call GDICallCallbacks jmp done GDIFilterEvents endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIGetExclusive %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: INTERNAL PASS: si -> registerID RETURN: ax <- ErrorCode carry clear if successful carry set if get exclusive rejected DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- kliu 8/16/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIGetExclusive proc near uses ds .enter ; ; exAccessID must be -1, that is nobody has yet got ; exclusive. ; MOV_SEG ds, dgroup cmp ds:[exAccessID], -1 jne bail mov ds:[exAccessID], si clc jmp done bail: stc done: .leave ret GDIGetExclusive endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GDIReleaseExclusive %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: CALLED BY: PASS: si -> registerID RETURN: ax <- ErrorCode carry clear if successful carry set if release fails DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- kliu 8/16/96 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GDIReleaseExclusive proc near uses ds .enter ; ; ; exAccessID should be the same as the ID that we want ; to release. ; MOV_SEG ds, dgroup cmp si, ds:[exAccessID] jne error ; ; okay, we can release exclusive ; mov ds:[exAccessID], -1 mov ax, EC_NO_ERROR clc done: .leave ret error: mov ax, EC_RELEASE_EXCLUSIVE_ERROR stc jmp done GDIReleaseExclusive endp CallbackCode ends

20.057423

79

0.528525

2ca264654d50e1f83dd0edb6f4b00adfe3efd3c1

831

asm

Assembly

oeis/142/A142768.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/142/A142768.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/142/A142768.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A142768: Primes congruent to 41 mod 59. ; Submitted by Jon Maiga ; 41,277,631,1103,1693,1811,3109,3463,3581,4289,4643,5233,5351,7121,7829,8419,8537,9127,11251,11369,11959,13729,14083,14437,15263,15971,16561,17033,17387,17623,17977,18803,19157,20101,20219,20809,21163,21517,21871,22343,22697,24113,24821,25057,25411,26119,26237,26591,27299,27653,28597,29423,30013,30367,30839,31193,31547,32491,32609,33199,33317,34261,35323,35677,36739,36857,37447,38273,39217,40751,41341,41813,42403,45589,45707,45943,46061,46769,47123,47713,48539,51607,52433,53377,53731,53849,55147 mov $1,20 mov $2,$0 add $2,2 pow $2,2 lpb $2 sub $2,2 mov $3,$1 mul $3,2 seq $3,10051 ; Characteristic function of primes: 1 if n is prime, else 0. sub $0,$3 add $1,59 mov $4,$0 max $4,0 cmp $4,$0 mul $2,$4 lpe mov $0,$1 mul $0,2 sub $0,117

34.625

501

0.732852

2a593d1d54b4b1c6e4593367eab7a00c49f4f203

257

asm

Assembly

MySource/9ax-limit.asm

mdabdullahibnaharun/Assembly-Language

a56500622b961c7ecf9690ad9d2136c3e05ea1f7

[ "MIT" ]

null

MySource/9ax-limit.asm

mdabdullahibnaharun/Assembly-Language

a56500622b961c7ecf9690ad9d2136c3e05ea1f7

[ "MIT" ]

null

MySource/9ax-limit.asm

mdabdullahibnaharun/Assembly-Language

a56500622b961c7ecf9690ad9d2136c3e05ea1f7

[ "MIT" ]

null

; You may customize this and other start-up templates; ; The location of this template is c:\emu8086\inc\0_com_template.txt org 100h ; add your code here mov ax,255 mov ax,256 mov ax,65535 mov bx,13 add bx,ax ret

10.28

69

0.634241

cb6afb2ba20223fe6f3b10047cac696c9bee194c

634

asm

Assembly

oeis/151/A151998.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/151/A151998.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/151/A151998.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A151998: Directed genus of the binary de Bruijn graph D_n. ; Submitted by Jamie Morken(w4) ; 0,0,0,1,2,7,15,35,75,163,337,709,1458,3001,6135,12529,25468,51739,104829,212205,428916,866215,1747527,3523213,7097895,14291683,28760643,57852469,116321445,233798623,469761015,943591237,1894836585,3804113881,7635493643 mov $3,$0 add $0,2 seq $0,31 ; Number of n-bead necklaces with 2 colors when turning over is not allowed; also number of output sequences from a simple n-stage cycling shift register; also number of binary irreducible polynomials whose degree divides n. sub $0,8 mul $0,-1 mov $2,2 pow $2,$3 add $0,$2 sub $0,6 div $0,2

42.266667

234

0.769716

d82130bec977b78a24384b773d44655ffaf3192e

310

asm

Assembly

programs/oeis/021/A021460.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

22

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/021/A021460.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

41

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/021/A021460.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

[ "Apache-2.0" ]

5

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A021460: Decimal expansion of 1/456. ; 0,0,2,1,9,2,9,8,2,4,5,6,1,4,0,3,5,0,8,7,7,1,9,2,9,8,2,4,5,6,1,4,0,3,5,0,8,7,7,1,9,2,9,8,2,4,5,6,1,4,0,3,5,0,8,7,7,1,9,2,9,8,2,4,5,6,1,4,0,3,5,0,8,7,7,1,9,2,9,8,2,4,5,6,1,4,0,3,5,0,8,7,7,1,9,2,9,8,2 add $0,1 mov $1,10 pow $1,$0 mul $1,7 div $1,3192 mod $1,10 mov $0,$1

28.181818

199

0.541935

13bb947c3f3ad33a95855790332283a0dabb08f2

665

asm

Assembly

libsrc/target/gb/gbdk/waitpad.asm

Frodevan/z88dk

f27af9fe840ff995c63c80a73673ba7ee33fffac

[ "ClArtistic" ]

640

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/target/gb/gbdk/waitpad.asm

Frodevan/z88dk

f27af9fe840ff995c63c80a73673ba7ee33fffac

[ "ClArtistic" ]

1,600

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/target/gb/gbdk/waitpad.asm

Frodevan/z88dk

f27af9fe840ff995c63c80a73673ba7ee33fffac

[ "ClArtistic" ]

215

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

MODULE waitpad PUBLIC waitpad PUBLIC _waitpad GLOBAL asm_jpad SECTION code_driver INCLUDE "target/gb/def/gb_globals.def" ;uint8_t __LIB__ waitpad(uint8_t mask) NONBANKED; waitpad: _waitpad: PUSH BC LD HL,sp+4 ; Skip return address and registers LD B,(HL) CALL wait_pad LD E,A ; Return result in DE ld l,a ld h,0 POP BC RET wait_pad: CALL asm_jpad ; Read pad AND B ; Compare with mask? JR Z,wait_pad ; Loop if no intersection RET

19.558824

67

0.502256

a93053d1b5346cc94901bd2d1b67eb0e6f22e3fc

636

asm

Assembly

oeis/020/A020825.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

11

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/020/A020825.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

9

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/020/A020825.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

[ "Apache-2.0" ]

3

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A020825: Decimal expansion of 1/sqrt(68). ; Submitted by Jon Maiga ; 1,2,1,2,6,7,8,1,2,5,1,8,1,6,6,4,8,6,7,5,9,4,5,3,2,3,1,0,5,8,0,6,1,0,8,8,9,7,4,9,1,7,6,2,4,2,7,5,6,9,4,7,1,8,6,5,8,7,8,3,3,4,0,3,8,5,1,4,5,7,1,6,0,6,8,7,5,3,5,7,6,2,8,1,9,9,5,9,8,9,7,2,9,7,2,6,0,0,8,7 mov $1,1 mov $2,1 mov $3,$0 add $3,8 mov $4,$0 add $0,5 add $4,3 mul $4,2 mov $7,10 pow $7,$4 mov $9,10 lpb $3 mov $4,$2 pow $4,2 mul $4,68 mov $5,$1 pow $5,2 add $4,$5 mov $6,$1 mov $1,$4 mul $6,$2 mul $6,2 mov $2,$6 mov $8,$4 div $8,$7 max $8,2 div $1,$8 div $2,$8 sub $3,1 lpe mov $3,$9 pow $3,$0 div $2,$3 mov $0,$2 mod $0,10

15.9

201

0.514151

604a9a60dc806d55373869424ce1e322c579a0fc

4,092

asm

Assembly

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_5042_1089.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

9

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_5042_1089.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

1

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NC/_zr_/i7-8650U_0xd2.log_5042_1089.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

[ "MIT" ]

3

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r14 push %rcx push %rdi push %rdx push %rsi lea addresses_D_ht+0x815e, %rsi lea addresses_A_ht+0x1b89, %rdi nop add $48507, %rdx mov $103, %rcx rep movsl nop nop add $18432, %r14 pop %rsi pop %rdx pop %rdi pop %rcx pop %r14 ret .global s_faulty_load s_faulty_load: push %r13 push %r15 push %r9 push %rax push %rbx push %rdi // Faulty Load mov $0x623c400000000789, %r13 nop nop nop inc %r15 movups (%r13), %xmm4 vpextrq $0, %xmm4, %rbx lea oracles, %r15 and $0xff, %rbx shlq $12, %rbx mov (%r15,%rbx,1), %rbx pop %rdi pop %rbx pop %rax pop %r9 pop %r15 pop %r13 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'REPM', 'src': {'type': 'addresses_D_ht', 'congruent': 0, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 9, 'same': False}} {'00': 5042} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

63.9375

2,999

0.663978

8c78b3e991560e9d842a223081468a11b38bd5ee

15,057

asm

Assembly

Library/Kernel/Thread/threadException.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

504

2018-11-18T03:35:53.000Z

2022-03-29T01:02:51.000Z

Library/Kernel/Thread/threadException.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

96

2018-11-19T21:06:50.000Z

2022-03-06T10:26:48.000Z

Library/Kernel/Thread/threadException.asm

steakknife/pcgeos

95edd7fad36df400aba9bab1d56e154fc126044a

[ "Apache-2.0" ]

73

2018-11-19T20:46:53.000Z

2022-03-29T00:59:26.000Z

COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) GeoWorks 1990 -- All Rights Reserved PROJECT: PC GEOS MODULE: Kernel/Thread -- exception handling FILE: threadException.asm AUTHOR: Adam de Boor, Jun 30, 1990 ROUTINES: Name Description ---- ----------- GLB ThreadHandleException System call to set exception handler for a thread. EXT ThreadFindStack Return the stack segment for the given thread. EXT ThreadRestoreExceptions Restore processor exception interrupt vectors to their original state. REVISION HISTORY: Name Date Description ---- ---- ----------- Adam 6/30/90 Initial revision DESCRIPTION: Functions to deal with processor exceptions. $Id: threadException.asm,v 1.1 97/04/05 01:15:19 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadFindStack %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Find the stack segment for the given thread. CALLED BY: EXTERNAL PASS: bx = handle of thread whose stack segment is desired ds = idata RETURN: ax = stack segment for thread DESTROYED: nothing PSEUDO CODE/STRATEGY: Must deal with threads context switching inside DOS. If this happens, HT_saveSS does *not* point to the thread's stack segment. Rather, it points into DOS itself, where there is no ThreadPrivateData. DOS saves the old SS:SP at PSP_userStack in the current process's (always geos itself) program segment prefix, from whence we may pluck it at need (this is true in DOS 2.X, 3.X and 4.X). We must, however, be careful the thread in question is not the current thread, as the HT_saveSS will remain the DOS stack until the thread context switches. If the thread being examined is the current one, we can (and do) just use SS itself... 4/23/94: changed to use a linked list of stack blocks and just traverse that, to cope with stack-switching in the video driver. Stacks are fixed, so we just run through the list until we find a block whose TPD_threadHandle is the thread for which the stack is desired -- ardeb KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 6/30/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadFindStack proc far uses si, es .enter mov si, offset threadStackPtr - offset HM_usageValue stackLoop: mov si, ds:[si].HM_usageValue EC < tst si > EC < ERROR_Z ILLEGAL_THREAD > mov es, ds:[si].HM_addr cmp es:[TPD_threadHandle], bx jne stackLoop mov ax, es .leave ret ThreadFindStack endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadHandleException %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Define a handler function for a thread to field one of the defined processor exceptions. CALLED BY: GLOBAL PASS: ax = ThreadException bx = thread for which to define the handler, or 0 for current thread. cx:dx = segment:offset of fixed-memory handler routine = 0:0 to return to using system default handler RETURN: bx = thread modified DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 6/30/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadHandleException proc far uses ds, es, cx, dx .enter EC < cmp ax, ThreadException > EC < ERROR_AE INVALID_THREAD_EXCEPTION > EC < test ax, 0x3 > EC < ERROR_NZ INVALID_THREAD_EXCEPTION > ; ; Figure the thread to modify ; LoadVarSeg ds tst bx jnz haveThread mov bx, ds:[currentThread] haveThread: EC < call ECCheckThreadHandle > ; ; Locate its stack segment so we can change the TPD ; push ax call ThreadFindStack mov es, ax pop ax xchg bx, ax jcxz useDefault storeHandler: ; ; Store the handler away in its slot. ; mov ds, es:[TPD_exceptionHandlers] cmp ds:[TEH_referenceCount], 1 ja newBlock movdw ds:[TEH_divideByZero+bx], cxdx xchg ax, bx .leave ret useDefault: ; ; Fetch the default handler from that for the kernel. ; mov ds, ds:[kTPD.TPD_exceptionHandlers] movdw cxdx, ds:[TEH_divideByZero+bx] jmp storeHandler newBlock: ; ; The ThreadExceptionHandlers block is referenced by multiple threads. ; Since we want to modify it for only one thread, we need to allocate ; a new ThreadExceptionHandlers block and modify the new block. ; push ax, bx, cx, si, di, ds mov bx, handle 0 ; owned by kernel mov ax, size ThreadExceptionHandlers mov cx, mask HAF_NO_ERR shl 8 or \ mask HF_FIXED or mask HF_SHARABLE call MemAllocSetOwner ; copy from old ThreadExceptionHandlers block push es ; save thread stack segment mov ds, es:[TPD_exceptionHandlers] mov es, ax clr si, di mov cx, (size ThreadExceptionHandlers)/2 rep movsw mov es:[TEH_handle], bx mov es:[TEH_referenceCount], 1 pop es ; restore thread stack segment ; now set this new block as our ThreadExceptionHandlers block mov es:[TPD_exceptionHandlers], ax ; decrement old block ref count since we no longer refer to it dec ds:[TEH_referenceCount] jnz notZero ; the ref count on the old block went to 0, so it must be freed mov bx, ds:[TEH_handle] ; bx = old TEH block handle call MemFree ; free old TEH block notZero: pop ax, bx, cx, si, di, ds jmp storeHandler ThreadHandleException endp ;============================================================================== ; ; EXCEPTION HANDLERS ; ;============================================================================== ; LAST_IRQ_INTERCEPT_LEVEL_ONE_IC, from Library/Kernel/Sys/sysVariable.def if HARDWARE_INT_CONTROL_8259 LAST_IRQ_INTERCEPT_LEVEL_ONE_IC equ 7 else ; CUSTOM INTERRUPT CONTROLLER CHIP endif TEHandler macro const Thread&const&Handler proc far call ThreadJumpToExceptionHandler .unreached word TEH_divideByZero + TE_&const Thread&const&Handler endp TEDefault TE_&const endm TEDefault macro value Thread&value&Default proc far on_stack iret call ThreadExceptionDefault .UNREACHED byte value/4 Thread&value&Default endp endm TEPassOnIrqDefault macro value, irq, oldHandler Thread&value&PassOnIrqDefault proc far on_stack iret ; See if we are invoked by an IRQ. push ax on_stack ax iret if irq le LAST_IRQ_INTERCEPT_LEVEL_ONE_IC mov al, IC_READ_ISR out IC1_CMDPORT, al jmp $+2 in al, IC1_CMDPORT test al, 1 shl (irq) else ; ddurran said we only need to check the slave controller but don't ; need to check the master one. mov al, IC_READ_ISR out IC2_CMDPORT, al jmp $+2 in al, IC2_CMDPORT test al, 1 shl (irq-8) endif pop ax on_stack iret jz exception ; IRQ. Call old IRQ handler. push ds on_stack ds iret LoadVarSeg ds pushf on_stack cc ds iret call ds:[oldHandler] on_stack ds iret pop ds on_stack iret iret exception: on_stack iret call ThreadExceptionDefault .unreached byte value/4 Thread&value&PassOnIrqDefault endp endm TEHandler DIVIDE_BY_ZERO TEHandler OVERFLOW TEHandler BOUND NOSSP <TEHandler SINGLE_STEP > TEHandler BREAKPOINT TEDefault TE_FPU_EXCEPTION ; handled by NMIFrontEnd... TEDefault TIE_ILLEGAL_INST ifdef CATCH_PROTECTION_FAULT TEPassOnIrqDefault TIE_PROTECTION_FAULT, (13-8), oldProtFlt endif ifdef CATCH_STACK_EXCEPTION TEPassOnIrqDefault TIE_STACK_EXCEPTION, (12-8), oldStackExpt endif COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadJumpToExceptionHandler %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Jump to exception handler CALLED BY: TEHandler macro PASS: offset of jump vector must be at our return address RETURN: nothing DESTROYED: nothing SIDE EFFECTS: PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- Joon 5/ 5/96 Initial version from adam's email %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadJumpToExceptionHandler proc near call push ax, ds, bx ; deliberately pushed in this order. saved bx ; will replace our return address to put ; regs in proper order for SysJmpVector LoadVarSeg ds, ax mov bx, ds:[currentThread] call ThreadFindStack ; ax <- thread's actual stack mov ds, ax mov ds, ds:[TPD_exceptionHandlers] mov bx, sp mov bx, ss:[bx+6] ; bx <- our return address mov ax, cs:[bx] ; ax <- vector to jump through mov bx, sp pop ss:[bx+6] ; put saved bx in the proper place mov_tr bx, ax ; bx <- vector to jump through jmp SysJmpVector ThreadJumpToExceptionHandler endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadExceptionDefault %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Default handler for an exception in a thread CALLED BY: Individual default exception handlers PASS: following return address: byte that is the interrupt number RETURN: doesn't DESTROYED: everything PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 6/30/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadExceptionDefault proc near on_stack retn LoadVarSeg ds, ax mov al, KS_TE_SYSTEM_ERROR call AddStringAtMessageBuffer ; ; Fetch the exception string based on byte stored after the call to us. ; pop si on_stack iret lodsb cs: add al, KS_TE_DIVIDE_BY_ZERO call AddStringAtESDI ; ; Record a single fault. This way, the GEOS_CRASHED file will not ; be removed, which is a good thing, since by default we have crashed ; if an exception is taken ; inc ds:[errorFlag] ; ; Call SysNotify to tell the user what's happened. ; ifdef GPC mov ax, mask SNF_REBOOT ; unrecoverable - reboot else mov ax, mask SNF_EXIT or mask SNF_REBOOT or mask SNF_BIZARRE endif call SysNotifyWithMessageBuffer ; ; If we return, we're trying to exit cleanly, so go handle the thread's ; event queue. ; clr bx call ThreadAttachToQueue .UNREACHED ThreadExceptionDefault endp ifdif HARDWARE_TYPE,<ZOOMER> COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% NMIFrontEnd %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Front-end function for handling an NMI. Anything we don't recognize, we pass on. In 2.0, this'll want to check the coprocessor, too... CALLED BY: NMI PASS: nothing RETURN: nothing DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 6/30/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ NMIFrontEnd proc far ; ; The NMI source is recorded in the high two bits of port 61h (AT) ; or 62h (XT). The following values have the following meaning: ; 00 = source unknown -- pass it on ; 01 = mother-board parity error ; 10 = I/O channel error (usually a parity error on ; a memory expansion board) ; 11 = power failure imminent (e.g. for laptops shutting ; down to low-power mode) -- pass it on ; push ax, ds mov ax, dgroup mov ds, ax clr ax cmp ds:[sysMachineType], SMT_PC_XT_286 jb xt in al, 61h jmp gotFlags xt: in al, 62h gotFlags: ; get the carry flag to hold the XOR of b7 and b6. if the ; result is 0 (00 and 11 cases above), we want to pass it ; on. shl ax rol al xor al, ah shr al pop ax, ds jnc passOn ; ; Trap the thing. Allow interception in case some app is doing ; something that can legally generate an IOCHK... ; call ThreadJumpToExceptionHandler .unreached word TEH_fpuException passOn: ; ; Here's where we'd look for a coprocessor error... ; sub sp, 4 push ds push bp push ax mov ax, dgroup mov ds, ax mov bp, sp movdw ss:[bp+6], ds:[oldFPU], ax pop ax pop bp pop ds retf NMIFrontEnd endp endif ; !ZOOMER COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadRestoreExceptions %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Restore exception interrupt vectors on exit CALLED BY: EndGeos PASS: ds = idata RETURN: nothing DESTROYED: ax, cx, di, es, si PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 6/30/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadRestoreExceptions proc near test ds:[sysConfig], mask SCF_UNDER_SWAT jnz done tst ds:[oldDBZ].segment ; Have we caught anything? jz done ; no => nothing to reset segmov es, ds mov si, offset exceptions mov cx, ds:[numExceptionsCaught] restoreLoop: inc si ; skip handler offset inc si lodsw xchg di, ax ; di <- offset of save vector lodsw ; ax <- interrupt # call SysResetInterrupt loop restoreLoop done: ret ThreadRestoreExceptions endp GLoad segment COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ThreadInitProcessExceptions %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Initialize the exception vectors in the ThreadPrivateData of a new process thread. CALLED BY: ProcCreate PASS: es = idata ds = process's dgroup RETURN: nothing DESTROYED: nothing PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 7/ 6/90 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ThreadInitProcessExceptions proc near uses es .enter mov es, es:[kTPD.TPD_exceptionHandlers] inc es:[TEH_referenceCount] mov ds:[TPD_exceptionHandlers], es .leave ret ThreadInitProcessExceptions endp GLoad ends

25.520339

80

0.593677

364b383f3b9a9850ba9b99f8ccb8ec37b3822c7c

188

asm

Assembly

testsAssembly/teste10.asm

shsandro/Scoreboarding

e63ab8241b8a3f17697b69574071e9d10b7ada19

[ "MIT" ]

null

testsAssembly/teste10.asm

shsandro/Scoreboarding

e63ab8241b8a3f17697b69574071e9d10b7ada19

[ "MIT" ]

null

testsAssembly/teste10.asm

shsandro/Scoreboarding

e63ab8241b8a3f17697b69574071e9d10b7ada19

[ "MIT" ]

1

2020-10-30T18:04:02.000Z

addi $t1, $zero, 0x0 addi $t2, $zero, 0x1 sub $t2, $zero, $zero madd $t1, $t2 # RAW mflo $t0 # RAW or $t0, $t1, $t2 # WAW addi $t1, $zero, 0xc # WAR

23.5

29

0.457447