Datasets:
devngho
/
the-stack-mini-nonshuffled

Dataset card Data Studio Files
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1aba08073c17c925eeddacdc0c25719898e4ed7b
1,109
asm
Assembly
_build/dispatcher/jmp_ippsARCFourGetSize_e4618654.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
1
2021-10-04T10:21:54.000Z
2021-10-04T10:21:54.000Z
_build/dispatcher/jmp_ippsARCFourGetSize_e4618654.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
null
null
null
_build/dispatcher/jmp_ippsARCFourGetSize_e4618654.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
null
null
null
extern m7_ippsARCFourGetSize:function extern n8_ippsARCFourGetSize:function extern y8_ippsARCFourGetSize:function extern e9_ippsARCFourGetSize:function extern l9_ippsARCFourGetSize:function extern n0_ippsARCFourGetSize:function extern k0_ippsARCFourGetSize:function extern ippcpJumpIndexForMergedLibs extern ippcpSafeInit:function segment .data align 8 dq .Lin_ippsARCFourGetSize .Larraddr_ippsARCFourGetSize: dq m7_ippsARCFourGetSize dq n8_ippsARCFourGetSize dq y8_ippsARCFourGetSize dq e9_ippsARCFourGetSize dq l9_ippsARCFourGetSize dq n0_ippsARCFourGetSize dq k0_ippsARCFourGetSize segment .text global ippsARCFourGetSize:function (ippsARCFourGetSize.LEndippsARCFourGetSize - ippsARCFourGetSize) .Lin_ippsARCFourGetSize: db 0xf3, 0x0f, 0x1e, 0xfa call ippcpSafeInit wrt ..plt align 16 ippsARCFourGetSize: db 0xf3, 0x0f, 0x1e, 0xfa mov rax, qword [rel ippcpJumpIndexForMergedLibs wrt ..gotpc] movsxd rax, dword [rax] lea r11, [rel .Larraddr_ippsARCFourGetSize] mov r11, qword [r11+rax*8] jmp r11 .LEndippsARCFourGetSize:
28.435897
99
0.801623
25f335fe647bceaab1ed368ba7e8d7d6f995dcc7
682
asm
Assembly
programs/oeis/342/A342380.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/342/A342380.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/342/A342380.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A342380: Expansion of e.g.f. (exp(x)-1)*(exp(x) - x^4/24 - x^3/6 - x^2/2 - x - 1). ; 0,0,0,0,0,0,6,28,92,255,637,1485,3301,7098,14912,30826,63018,127857,258095,519251,1042379,2089604,4185194,8377704,16764264,33539155,67090961,134196873,268411297,536843070,1073709892,2147447190,4294925846,8589887653,17179816227 mov $2,1872 mov $3,26 cal $0,2664 ; a(n) = 2^n - C(n,0)- ... - C(n,4). mov $1,1 mov $3,-1846 mov $3,$0 mov $4,1 mov $5,0 mov $6,$0 cmp $6,0 add $0,$6 div $1,$0 sub $3,$3 mov $3,$1 mul $1,3 mov $1,$0 mov $2,2 add $3,1 mul $3,2 add $4,$3 mul $3,2 pow $3,2 gcd $3,$0 trn $3,2 trn $4,$0 mul $0,2 mov $1,2 mov $1,$4 sub $1,$3 mov $1,$0 sub $1,2 div $1,2 mov $2,7 mov $5,2
17.947368
228
0.621701
e52f72ae55a50c58d2862ea127e02c79eb89289c
40,069
asm
Assembly
user/echo.asm
Vidhi1109/Modified-XV6
691430b9f9be91cb556f138918c1fc0e57bcabdf
[ "MIT-0" ]
null
null
null
user/echo.asm
Vidhi1109/Modified-XV6
691430b9f9be91cb556f138918c1fc0e57bcabdf
[ "MIT-0" ]
null
null
null
user/echo.asm
Vidhi1109/Modified-XV6
691430b9f9be91cb556f138918c1fc0e57bcabdf
[ "MIT-0" ]
null
null
null
user/_echo: file format elf64-littleriscv Disassembly of section .text: 0000000000000000 <main>: #include "kernel/stat.h" #include "user/user.h" int main(int argc, char *argv[]) { 0: 7179 addi sp,sp,-48 2: f406 sd ra,40(sp) 4: f022 sd s0,32(sp) 6: ec26 sd s1,24(sp) 8: e84a sd s2,16(sp) a: e44e sd s3,8(sp) c: e052 sd s4,0(sp) e: 1800 addi s0,sp,48 int i; for(i = 1; i < argc; i++){ 10: 4785 li a5,1 12: 06a7d463 bge a5,a0,7a <main+0x7a> 16: 00858493 addi s1,a1,8 1a: ffe5099b addiw s3,a0,-2 1e: 02099793 slli a5,s3,0x20 22: 01d7d993 srli s3,a5,0x1d 26: 05c1 addi a1,a1,16 28: 99ae add s3,s3,a1 write(1, argv[i], strlen(argv[i])); if(i + 1 < argc){ write(1, " ", 1); 2a: 00000a17 auipc s4,0x0 2e: 7f6a0a13 addi s4,s4,2038 # 820 <malloc+0xe6> write(1, argv[i], strlen(argv[i])); 32: 0004b903 ld s2,0(s1) 36: 854a mv a0,s2 38: 00000097 auipc ra,0x0 3c: 094080e7 jalr 148(ra) # cc <strlen> 40: 0005061b sext.w a2,a0 44: 85ca mv a1,s2 46: 4505 li a0,1 48: 00000097 auipc ra,0x0 4c: 2c8080e7 jalr 712(ra) # 310 <write> if(i + 1 < argc){ 50: 04a1 addi s1,s1,8 52: 01348a63 beq s1,s3,66 <main+0x66> write(1, " ", 1); 56: 4605 li a2,1 58: 85d2 mv a1,s4 5a: 4505 li a0,1 5c: 00000097 auipc ra,0x0 60: 2b4080e7 jalr 692(ra) # 310 <write> for(i = 1; i < argc; i++){ 64: b7f9 j 32 <main+0x32> } else { write(1, "\n", 1); 66: 4605 li a2,1 68: 00000597 auipc a1,0x0 6c: 7c058593 addi a1,a1,1984 # 828 <malloc+0xee> 70: 4505 li a0,1 72: 00000097 auipc ra,0x0 76: 29e080e7 jalr 670(ra) # 310 <write> } } exit(0); 7a: 4501 li a0,0 7c: 00000097 auipc ra,0x0 80: 274080e7 jalr 628(ra) # 2f0 <exit> 0000000000000084 <strcpy>: #include "kernel/fcntl.h" #include "user/user.h" char* strcpy(char *s, const char *t) { 84: 1141 addi sp,sp,-16 86: e422 sd s0,8(sp) 88: 0800 addi s0,sp,16 char *os; os = s; while((*s++ = *t++) != 0) 8a: 87aa mv a5,a0 8c: 0585 addi a1,a1,1 8e: 0785 addi a5,a5,1 90: fff5c703 lbu a4,-1(a1) 94: fee78fa3 sb a4,-1(a5) 98: fb75 bnez a4,8c <strcpy+0x8> ; return os; } 9a: 6422 ld s0,8(sp) 9c: 0141 addi sp,sp,16 9e: 8082 ret 00000000000000a0 <strcmp>: int strcmp(const char *p, const char *q) { a0: 1141 addi sp,sp,-16 a2: e422 sd s0,8(sp) a4: 0800 addi s0,sp,16 while(*p && *p == *q) a6: 00054783 lbu a5,0(a0) aa: cb91 beqz a5,be <strcmp+0x1e> ac: 0005c703 lbu a4,0(a1) b0: 00f71763 bne a4,a5,be <strcmp+0x1e> p++, q++; b4: 0505 addi a0,a0,1 b6: 0585 addi a1,a1,1 while(*p && *p == *q) b8: 00054783 lbu a5,0(a0) bc: fbe5 bnez a5,ac <strcmp+0xc> return (uchar)*p - (uchar)*q; be: 0005c503 lbu a0,0(a1) } c2: 40a7853b subw a0,a5,a0 c6: 6422 ld s0,8(sp) c8: 0141 addi sp,sp,16 ca: 8082 ret 00000000000000cc <strlen>: uint strlen(const char *s) { cc: 1141 addi sp,sp,-16 ce: e422 sd s0,8(sp) d0: 0800 addi s0,sp,16 int n; for(n = 0; s[n]; n++) d2: 00054783 lbu a5,0(a0) d6: cf91 beqz a5,f2 <strlen+0x26> d8: 0505 addi a0,a0,1 da: 87aa mv a5,a0 dc: 4685 li a3,1 de: 9e89 subw a3,a3,a0 e0: 00f6853b addw a0,a3,a5 e4: 0785 addi a5,a5,1 e6: fff7c703 lbu a4,-1(a5) ea: fb7d bnez a4,e0 <strlen+0x14> ; return n; } ec: 6422 ld s0,8(sp) ee: 0141 addi sp,sp,16 f0: 8082 ret for(n = 0; s[n]; n++) f2: 4501 li a0,0 f4: bfe5 j ec <strlen+0x20> 00000000000000f6 <memset>: void* memset(void *dst, int c, uint n) { f6: 1141 addi sp,sp,-16 f8: e422 sd s0,8(sp) fa: 0800 addi s0,sp,16 char *cdst = (char *) dst; int i; for(i = 0; i < n; i++){ fc: ca19 beqz a2,112 <memset+0x1c> fe: 87aa mv a5,a0 100: 1602 slli a2,a2,0x20 102: 9201 srli a2,a2,0x20 104: 00a60733 add a4,a2,a0 cdst[i] = c; 108: 00b78023 sb a1,0(a5) for(i = 0; i < n; i++){ 10c: 0785 addi a5,a5,1 10e: fee79de3 bne a5,a4,108 <memset+0x12> } return dst; } 112: 6422 ld s0,8(sp) 114: 0141 addi sp,sp,16 116: 8082 ret 0000000000000118 <strchr>: char* strchr(const char *s, char c) { 118: 1141 addi sp,sp,-16 11a: e422 sd s0,8(sp) 11c: 0800 addi s0,sp,16 for(; *s; s++) 11e: 00054783 lbu a5,0(a0) 122: cb99 beqz a5,138 <strchr+0x20> if(*s == c) 124: 00f58763 beq a1,a5,132 <strchr+0x1a> for(; *s; s++) 128: 0505 addi a0,a0,1 12a: 00054783 lbu a5,0(a0) 12e: fbfd bnez a5,124 <strchr+0xc> return (char*)s; return 0; 130: 4501 li a0,0 } 132: 6422 ld s0,8(sp) 134: 0141 addi sp,sp,16 136: 8082 ret return 0; 138: 4501 li a0,0 13a: bfe5 j 132 <strchr+0x1a> 000000000000013c <gets>: char* gets(char *buf, int max) { 13c: 711d addi sp,sp,-96 13e: ec86 sd ra,88(sp) 140: e8a2 sd s0,80(sp) 142: e4a6 sd s1,72(sp) 144: e0ca sd s2,64(sp) 146: fc4e sd s3,56(sp) 148: f852 sd s4,48(sp) 14a: f456 sd s5,40(sp) 14c: f05a sd s6,32(sp) 14e: ec5e sd s7,24(sp) 150: 1080 addi s0,sp,96 152: 8baa mv s7,a0 154: 8a2e mv s4,a1 int i, cc; char c; for(i=0; i+1 < max; ){ 156: 892a mv s2,a0 158: 4481 li s1,0 cc = read(0, &c, 1); if(cc < 1) break; buf[i++] = c; if(c == '\n' || c == '\r') 15a: 4aa9 li s5,10 15c: 4b35 li s6,13 for(i=0; i+1 < max; ){ 15e: 89a6 mv s3,s1 160: 2485 addiw s1,s1,1 162: 0344d863 bge s1,s4,192 <gets+0x56> cc = read(0, &c, 1); 166: 4605 li a2,1 168: faf40593 addi a1,s0,-81 16c: 4501 li a0,0 16e: 00000097 auipc ra,0x0 172: 19a080e7 jalr 410(ra) # 308 <read> if(cc < 1) 176: 00a05e63 blez a0,192 <gets+0x56> buf[i++] = c; 17a: faf44783 lbu a5,-81(s0) 17e: 00f90023 sb a5,0(s2) if(c == '\n' || c == '\r') 182: 01578763 beq a5,s5,190 <gets+0x54> 186: 0905 addi s2,s2,1 188: fd679be3 bne a5,s6,15e <gets+0x22> for(i=0; i+1 < max; ){ 18c: 89a6 mv s3,s1 18e: a011 j 192 <gets+0x56> 190: 89a6 mv s3,s1 break; } buf[i] = '\0'; 192: 99de add s3,s3,s7 194: 00098023 sb zero,0(s3) return buf; } 198: 855e mv a0,s7 19a: 60e6 ld ra,88(sp) 19c: 6446 ld s0,80(sp) 19e: 64a6 ld s1,72(sp) 1a0: 6906 ld s2,64(sp) 1a2: 79e2 ld s3,56(sp) 1a4: 7a42 ld s4,48(sp) 1a6: 7aa2 ld s5,40(sp) 1a8: 7b02 ld s6,32(sp) 1aa: 6be2 ld s7,24(sp) 1ac: 6125 addi sp,sp,96 1ae: 8082 ret 00000000000001b0 <stat>: int stat(const char *n, struct stat *st) { 1b0: 1101 addi sp,sp,-32 1b2: ec06 sd ra,24(sp) 1b4: e822 sd s0,16(sp) 1b6: e426 sd s1,8(sp) 1b8: e04a sd s2,0(sp) 1ba: 1000 addi s0,sp,32 1bc: 892e mv s2,a1 int fd; int r; fd = open(n, O_RDONLY); 1be: 4581 li a1,0 1c0: 00000097 auipc ra,0x0 1c4: 170080e7 jalr 368(ra) # 330 <open> if(fd < 0) 1c8: 02054563 bltz a0,1f2 <stat+0x42> 1cc: 84aa mv s1,a0 return -1; r = fstat(fd, st); 1ce: 85ca mv a1,s2 1d0: 00000097 auipc ra,0x0 1d4: 178080e7 jalr 376(ra) # 348 <fstat> 1d8: 892a mv s2,a0 close(fd); 1da: 8526 mv a0,s1 1dc: 00000097 auipc ra,0x0 1e0: 13c080e7 jalr 316(ra) # 318 <close> return r; } 1e4: 854a mv a0,s2 1e6: 60e2 ld ra,24(sp) 1e8: 6442 ld s0,16(sp) 1ea: 64a2 ld s1,8(sp) 1ec: 6902 ld s2,0(sp) 1ee: 6105 addi sp,sp,32 1f0: 8082 ret return -1; 1f2: 597d li s2,-1 1f4: bfc5 j 1e4 <stat+0x34> 00000000000001f6 <atoi>: int atoi(const char *s) { 1f6: 1141 addi sp,sp,-16 1f8: e422 sd s0,8(sp) 1fa: 0800 addi s0,sp,16 int n; n = 0; while('0' <= *s && *s <= '9') 1fc: 00054683 lbu a3,0(a0) 200: fd06879b addiw a5,a3,-48 204: 0ff7f793 zext.b a5,a5 208: 4625 li a2,9 20a: 02f66863 bltu a2,a5,23a <atoi+0x44> 20e: 872a mv a4,a0 n = 0; 210: 4501 li a0,0 n = n*10 + *s++ - '0'; 212: 0705 addi a4,a4,1 214: 0025179b slliw a5,a0,0x2 218: 9fa9 addw a5,a5,a0 21a: 0017979b slliw a5,a5,0x1 21e: 9fb5 addw a5,a5,a3 220: fd07851b addiw a0,a5,-48 while('0' <= *s && *s <= '9') 224: 00074683 lbu a3,0(a4) 228: fd06879b addiw a5,a3,-48 22c: 0ff7f793 zext.b a5,a5 230: fef671e3 bgeu a2,a5,212 <atoi+0x1c> return n; } 234: 6422 ld s0,8(sp) 236: 0141 addi sp,sp,16 238: 8082 ret n = 0; 23a: 4501 li a0,0 23c: bfe5 j 234 <atoi+0x3e> 000000000000023e <memmove>: void* memmove(void *vdst, const void *vsrc, int n) { 23e: 1141 addi sp,sp,-16 240: e422 sd s0,8(sp) 242: 0800 addi s0,sp,16 char *dst; const char *src; dst = vdst; src = vsrc; if (src > dst) { 244: 02b57463 bgeu a0,a1,26c <memmove+0x2e> while(n-- > 0) 248: 00c05f63 blez a2,266 <memmove+0x28> 24c: 1602 slli a2,a2,0x20 24e: 9201 srli a2,a2,0x20 250: 00c507b3 add a5,a0,a2 dst = vdst; 254: 872a mv a4,a0 *dst++ = *src++; 256: 0585 addi a1,a1,1 258: 0705 addi a4,a4,1 25a: fff5c683 lbu a3,-1(a1) 25e: fed70fa3 sb a3,-1(a4) while(n-- > 0) 262: fee79ae3 bne a5,a4,256 <memmove+0x18> src += n; while(n-- > 0) *--dst = *--src; } return vdst; } 266: 6422 ld s0,8(sp) 268: 0141 addi sp,sp,16 26a: 8082 ret dst += n; 26c: 00c50733 add a4,a0,a2 src += n; 270: 95b2 add a1,a1,a2 while(n-- > 0) 272: fec05ae3 blez a2,266 <memmove+0x28> 276: fff6079b addiw a5,a2,-1 27a: 1782 slli a5,a5,0x20 27c: 9381 srli a5,a5,0x20 27e: fff7c793 not a5,a5 282: 97ba add a5,a5,a4 *--dst = *--src; 284: 15fd addi a1,a1,-1 286: 177d addi a4,a4,-1 288: 0005c683 lbu a3,0(a1) 28c: 00d70023 sb a3,0(a4) while(n-- > 0) 290: fee79ae3 bne a5,a4,284 <memmove+0x46> 294: bfc9 j 266 <memmove+0x28> 0000000000000296 <memcmp>: int memcmp(const void *s1, const void *s2, uint n) { 296: 1141 addi sp,sp,-16 298: e422 sd s0,8(sp) 29a: 0800 addi s0,sp,16 const char *p1 = s1, *p2 = s2; while (n-- > 0) { 29c: ca05 beqz a2,2cc <memcmp+0x36> 29e: fff6069b addiw a3,a2,-1 2a2: 1682 slli a3,a3,0x20 2a4: 9281 srli a3,a3,0x20 2a6: 0685 addi a3,a3,1 2a8: 96aa add a3,a3,a0 if (*p1 != *p2) { 2aa: 00054783 lbu a5,0(a0) 2ae: 0005c703 lbu a4,0(a1) 2b2: 00e79863 bne a5,a4,2c2 <memcmp+0x2c> return *p1 - *p2; } p1++; 2b6: 0505 addi a0,a0,1 p2++; 2b8: 0585 addi a1,a1,1 while (n-- > 0) { 2ba: fed518e3 bne a0,a3,2aa <memcmp+0x14> } return 0; 2be: 4501 li a0,0 2c0: a019 j 2c6 <memcmp+0x30> return *p1 - *p2; 2c2: 40e7853b subw a0,a5,a4 } 2c6: 6422 ld s0,8(sp) 2c8: 0141 addi sp,sp,16 2ca: 8082 ret return 0; 2cc: 4501 li a0,0 2ce: bfe5 j 2c6 <memcmp+0x30> 00000000000002d0 <memcpy>: void * memcpy(void *dst, const void *src, uint n) { 2d0: 1141 addi sp,sp,-16 2d2: e406 sd ra,8(sp) 2d4: e022 sd s0,0(sp) 2d6: 0800 addi s0,sp,16 return memmove(dst, src, n); 2d8: 00000097 auipc ra,0x0 2dc: f66080e7 jalr -154(ra) # 23e <memmove> } 2e0: 60a2 ld ra,8(sp) 2e2: 6402 ld s0,0(sp) 2e4: 0141 addi sp,sp,16 2e6: 8082 ret 00000000000002e8 <fork>: # generated by usys.pl - do not edit #include "kernel/syscall.h" .global fork fork: li a7, SYS_fork 2e8: 4885 li a7,1 ecall 2ea: 00000073 ecall ret 2ee: 8082 ret 00000000000002f0 <exit>: .global exit exit: li a7, SYS_exit 2f0: 4889 li a7,2 ecall 2f2: 00000073 ecall ret 2f6: 8082 ret 00000000000002f8 <wait>: .global wait wait: li a7, SYS_wait 2f8: 488d li a7,3 ecall 2fa: 00000073 ecall ret 2fe: 8082 ret 0000000000000300 <pipe>: .global pipe pipe: li a7, SYS_pipe 300: 4891 li a7,4 ecall 302: 00000073 ecall ret 306: 8082 ret 0000000000000308 <read>: .global read read: li a7, SYS_read 308: 4895 li a7,5 ecall 30a: 00000073 ecall ret 30e: 8082 ret 0000000000000310 <write>: .global write write: li a7, SYS_write 310: 48c1 li a7,16 ecall 312: 00000073 ecall ret 316: 8082 ret 0000000000000318 <close>: .global close close: li a7, SYS_close 318: 48d5 li a7,21 ecall 31a: 00000073 ecall ret 31e: 8082 ret 0000000000000320 <kill>: .global kill kill: li a7, SYS_kill 320: 4899 li a7,6 ecall 322: 00000073 ecall ret 326: 8082 ret 0000000000000328 <exec>: .global exec exec: li a7, SYS_exec 328: 489d li a7,7 ecall 32a: 00000073 ecall ret 32e: 8082 ret 0000000000000330 <open>: .global open open: li a7, SYS_open 330: 48bd li a7,15 ecall 332: 00000073 ecall ret 336: 8082 ret 0000000000000338 <mknod>: .global mknod mknod: li a7, SYS_mknod 338: 48c5 li a7,17 ecall 33a: 00000073 ecall ret 33e: 8082 ret 0000000000000340 <unlink>: .global unlink unlink: li a7, SYS_unlink 340: 48c9 li a7,18 ecall 342: 00000073 ecall ret 346: 8082 ret 0000000000000348 <fstat>: .global fstat fstat: li a7, SYS_fstat 348: 48a1 li a7,8 ecall 34a: 00000073 ecall ret 34e: 8082 ret 0000000000000350 <link>: .global link link: li a7, SYS_link 350: 48cd li a7,19 ecall 352: 00000073 ecall ret 356: 8082 ret 0000000000000358 <mkdir>: .global mkdir mkdir: li a7, SYS_mkdir 358: 48d1 li a7,20 ecall 35a: 00000073 ecall ret 35e: 8082 ret 0000000000000360 <chdir>: .global chdir chdir: li a7, SYS_chdir 360: 48a5 li a7,9 ecall 362: 00000073 ecall ret 366: 8082 ret 0000000000000368 <dup>: .global dup dup: li a7, SYS_dup 368: 48a9 li a7,10 ecall 36a: 00000073 ecall ret 36e: 8082 ret 0000000000000370 <getpid>: .global getpid getpid: li a7, SYS_getpid 370: 48ad li a7,11 ecall 372: 00000073 ecall ret 376: 8082 ret 0000000000000378 <sbrk>: .global sbrk sbrk: li a7, SYS_sbrk 378: 48b1 li a7,12 ecall 37a: 00000073 ecall ret 37e: 8082 ret 0000000000000380 <sleep>: .global sleep sleep: li a7, SYS_sleep 380: 48b5 li a7,13 ecall 382: 00000073 ecall ret 386: 8082 ret 0000000000000388 <uptime>: .global uptime uptime: li a7, SYS_uptime 388: 48b9 li a7,14 ecall 38a: 00000073 ecall ret 38e: 8082 ret 0000000000000390 <waitx>: .global waitx waitx: li a7, SYS_waitx 390: 48d9 li a7,22 ecall 392: 00000073 ecall ret 396: 8082 ret 0000000000000398 <trace>: .global trace trace: li a7, SYS_trace 398: 48e1 li a7,24 ecall 39a: 00000073 ecall ret 39e: 8082 ret 00000000000003a0 <set_priority>: .global set_priority set_priority: li a7, SYS_set_priority 3a0: 48dd li a7,23 ecall 3a2: 00000073 ecall ret 3a6: 8082 ret 00000000000003a8 <putc>: static char digits[] = "0123456789ABCDEF"; static void putc(int fd, char c) { 3a8: 1101 addi sp,sp,-32 3aa: ec06 sd ra,24(sp) 3ac: e822 sd s0,16(sp) 3ae: 1000 addi s0,sp,32 3b0: feb407a3 sb a1,-17(s0) write(fd, &c, 1); 3b4: 4605 li a2,1 3b6: fef40593 addi a1,s0,-17 3ba: 00000097 auipc ra,0x0 3be: f56080e7 jalr -170(ra) # 310 <write> } 3c2: 60e2 ld ra,24(sp) 3c4: 6442 ld s0,16(sp) 3c6: 6105 addi sp,sp,32 3c8: 8082 ret 00000000000003ca <printint>: static void printint(int fd, int xx, int base, int sgn) { 3ca: 7139 addi sp,sp,-64 3cc: fc06 sd ra,56(sp) 3ce: f822 sd s0,48(sp) 3d0: f426 sd s1,40(sp) 3d2: f04a sd s2,32(sp) 3d4: ec4e sd s3,24(sp) 3d6: 0080 addi s0,sp,64 3d8: 84aa mv s1,a0 char buf[16]; int i, neg; uint x; neg = 0; if(sgn && xx < 0){ 3da: c299 beqz a3,3e0 <printint+0x16> 3dc: 0805c963 bltz a1,46e <printint+0xa4> neg = 1; x = -xx; } else { x = xx; 3e0: 2581 sext.w a1,a1 neg = 0; 3e2: 4881 li a7,0 3e4: fc040693 addi a3,s0,-64 } i = 0; 3e8: 4701 li a4,0 do{ buf[i++] = digits[x % base]; 3ea: 2601 sext.w a2,a2 3ec: 00000517 auipc a0,0x0 3f0: 4a450513 addi a0,a0,1188 # 890 <digits> 3f4: 883a mv a6,a4 3f6: 2705 addiw a4,a4,1 3f8: 02c5f7bb remuw a5,a1,a2 3fc: 1782 slli a5,a5,0x20 3fe: 9381 srli a5,a5,0x20 400: 97aa add a5,a5,a0 402: 0007c783 lbu a5,0(a5) 406: 00f68023 sb a5,0(a3) }while((x /= base) != 0); 40a: 0005879b sext.w a5,a1 40e: 02c5d5bb divuw a1,a1,a2 412: 0685 addi a3,a3,1 414: fec7f0e3 bgeu a5,a2,3f4 <printint+0x2a> if(neg) 418: 00088c63 beqz a7,430 <printint+0x66> buf[i++] = '-'; 41c: fd070793 addi a5,a4,-48 420: 00878733 add a4,a5,s0 424: 02d00793 li a5,45 428: fef70823 sb a5,-16(a4) 42c: 0028071b addiw a4,a6,2 while(--i >= 0) 430: 02e05863 blez a4,460 <printint+0x96> 434: fc040793 addi a5,s0,-64 438: 00e78933 add s2,a5,a4 43c: fff78993 addi s3,a5,-1 440: 99ba add s3,s3,a4 442: 377d addiw a4,a4,-1 444: 1702 slli a4,a4,0x20 446: 9301 srli a4,a4,0x20 448: 40e989b3 sub s3,s3,a4 putc(fd, buf[i]); 44c: fff94583 lbu a1,-1(s2) 450: 8526 mv a0,s1 452: 00000097 auipc ra,0x0 456: f56080e7 jalr -170(ra) # 3a8 <putc> while(--i >= 0) 45a: 197d addi s2,s2,-1 45c: ff3918e3 bne s2,s3,44c <printint+0x82> } 460: 70e2 ld ra,56(sp) 462: 7442 ld s0,48(sp) 464: 74a2 ld s1,40(sp) 466: 7902 ld s2,32(sp) 468: 69e2 ld s3,24(sp) 46a: 6121 addi sp,sp,64 46c: 8082 ret x = -xx; 46e: 40b005bb negw a1,a1 neg = 1; 472: 4885 li a7,1 x = -xx; 474: bf85 j 3e4 <printint+0x1a> 0000000000000476 <vprintf>: } // Print to the given fd. Only understands %d, %x, %p, %s. void vprintf(int fd, const char *fmt, va_list ap) { 476: 7119 addi sp,sp,-128 478: fc86 sd ra,120(sp) 47a: f8a2 sd s0,112(sp) 47c: f4a6 sd s1,104(sp) 47e: f0ca sd s2,96(sp) 480: ecce sd s3,88(sp) 482: e8d2 sd s4,80(sp) 484: e4d6 sd s5,72(sp) 486: e0da sd s6,64(sp) 488: fc5e sd s7,56(sp) 48a: f862 sd s8,48(sp) 48c: f466 sd s9,40(sp) 48e: f06a sd s10,32(sp) 490: ec6e sd s11,24(sp) 492: 0100 addi s0,sp,128 char *s; int c, i, state; state = 0; for(i = 0; fmt[i]; i++){ 494: 0005c903 lbu s2,0(a1) 498: 18090f63 beqz s2,636 <vprintf+0x1c0> 49c: 8aaa mv s5,a0 49e: 8b32 mv s6,a2 4a0: 00158493 addi s1,a1,1 state = 0; 4a4: 4981 li s3,0 if(c == '%'){ state = '%'; } else { putc(fd, c); } } else if(state == '%'){ 4a6: 02500a13 li s4,37 4aa: 4c55 li s8,21 4ac: 00000c97 auipc s9,0x0 4b0: 38cc8c93 addi s9,s9,908 # 838 <malloc+0xfe> printptr(fd, va_arg(ap, uint64)); } else if(c == 's'){ s = va_arg(ap, char*); if(s == 0) s = "(null)"; while(*s != 0){ 4b4: 02800d93 li s11,40 putc(fd, 'x'); 4b8: 4d41 li s10,16 putc(fd, digits[x >> (sizeof(uint64) * 8 - 4)]); 4ba: 00000b97 auipc s7,0x0 4be: 3d6b8b93 addi s7,s7,982 # 890 <digits> 4c2: a839 j 4e0 <vprintf+0x6a> putc(fd, c); 4c4: 85ca mv a1,s2 4c6: 8556 mv a0,s5 4c8: 00000097 auipc ra,0x0 4cc: ee0080e7 jalr -288(ra) # 3a8 <putc> 4d0: a019 j 4d6 <vprintf+0x60> } else if(state == '%'){ 4d2: 01498d63 beq s3,s4,4ec <vprintf+0x76> for(i = 0; fmt[i]; i++){ 4d6: 0485 addi s1,s1,1 4d8: fff4c903 lbu s2,-1(s1) 4dc: 14090d63 beqz s2,636 <vprintf+0x1c0> if(state == 0){ 4e0: fe0999e3 bnez s3,4d2 <vprintf+0x5c> if(c == '%'){ 4e4: ff4910e3 bne s2,s4,4c4 <vprintf+0x4e> state = '%'; 4e8: 89d2 mv s3,s4 4ea: b7f5 j 4d6 <vprintf+0x60> if(c == 'd'){ 4ec: 11490c63 beq s2,s4,604 <vprintf+0x18e> 4f0: f9d9079b addiw a5,s2,-99 4f4: 0ff7f793 zext.b a5,a5 4f8: 10fc6e63 bltu s8,a5,614 <vprintf+0x19e> 4fc: f9d9079b addiw a5,s2,-99 500: 0ff7f713 zext.b a4,a5 504: 10ec6863 bltu s8,a4,614 <vprintf+0x19e> 508: 00271793 slli a5,a4,0x2 50c: 97e6 add a5,a5,s9 50e: 439c lw a5,0(a5) 510: 97e6 add a5,a5,s9 512: 8782 jr a5 printint(fd, va_arg(ap, int), 10, 1); 514: 008b0913 addi s2,s6,8 518: 4685 li a3,1 51a: 4629 li a2,10 51c: 000b2583 lw a1,0(s6) 520: 8556 mv a0,s5 522: 00000097 auipc ra,0x0 526: ea8080e7 jalr -344(ra) # 3ca <printint> 52a: 8b4a mv s6,s2 } else { // Unknown % sequence. Print it to draw attention. putc(fd, '%'); putc(fd, c); } state = 0; 52c: 4981 li s3,0 52e: b765 j 4d6 <vprintf+0x60> printint(fd, va_arg(ap, uint64), 10, 0); 530: 008b0913 addi s2,s6,8 534: 4681 li a3,0 536: 4629 li a2,10 538: 000b2583 lw a1,0(s6) 53c: 8556 mv a0,s5 53e: 00000097 auipc ra,0x0 542: e8c080e7 jalr -372(ra) # 3ca <printint> 546: 8b4a mv s6,s2 state = 0; 548: 4981 li s3,0 54a: b771 j 4d6 <vprintf+0x60> printint(fd, va_arg(ap, int), 16, 0); 54c: 008b0913 addi s2,s6,8 550: 4681 li a3,0 552: 866a mv a2,s10 554: 000b2583 lw a1,0(s6) 558: 8556 mv a0,s5 55a: 00000097 auipc ra,0x0 55e: e70080e7 jalr -400(ra) # 3ca <printint> 562: 8b4a mv s6,s2 state = 0; 564: 4981 li s3,0 566: bf85 j 4d6 <vprintf+0x60> printptr(fd, va_arg(ap, uint64)); 568: 008b0793 addi a5,s6,8 56c: f8f43423 sd a5,-120(s0) 570: 000b3983 ld s3,0(s6) putc(fd, '0'); 574: 03000593 li a1,48 578: 8556 mv a0,s5 57a: 00000097 auipc ra,0x0 57e: e2e080e7 jalr -466(ra) # 3a8 <putc> putc(fd, 'x'); 582: 07800593 li a1,120 586: 8556 mv a0,s5 588: 00000097 auipc ra,0x0 58c: e20080e7 jalr -480(ra) # 3a8 <putc> 590: 896a mv s2,s10 putc(fd, digits[x >> (sizeof(uint64) * 8 - 4)]); 592: 03c9d793 srli a5,s3,0x3c 596: 97de add a5,a5,s7 598: 0007c583 lbu a1,0(a5) 59c: 8556 mv a0,s5 59e: 00000097 auipc ra,0x0 5a2: e0a080e7 jalr -502(ra) # 3a8 <putc> for (i = 0; i < (sizeof(uint64) * 2); i++, x <<= 4) 5a6: 0992 slli s3,s3,0x4 5a8: 397d addiw s2,s2,-1 5aa: fe0914e3 bnez s2,592 <vprintf+0x11c> printptr(fd, va_arg(ap, uint64)); 5ae: f8843b03 ld s6,-120(s0) state = 0; 5b2: 4981 li s3,0 5b4: b70d j 4d6 <vprintf+0x60> s = va_arg(ap, char*); 5b6: 008b0913 addi s2,s6,8 5ba: 000b3983 ld s3,0(s6) if(s == 0) 5be: 02098163 beqz s3,5e0 <vprintf+0x16a> while(*s != 0){ 5c2: 0009c583 lbu a1,0(s3) 5c6: c5ad beqz a1,630 <vprintf+0x1ba> putc(fd, *s); 5c8: 8556 mv a0,s5 5ca: 00000097 auipc ra,0x0 5ce: dde080e7 jalr -546(ra) # 3a8 <putc> s++; 5d2: 0985 addi s3,s3,1 while(*s != 0){ 5d4: 0009c583 lbu a1,0(s3) 5d8: f9e5 bnez a1,5c8 <vprintf+0x152> s = va_arg(ap, char*); 5da: 8b4a mv s6,s2 state = 0; 5dc: 4981 li s3,0 5de: bde5 j 4d6 <vprintf+0x60> s = "(null)"; 5e0: 00000997 auipc s3,0x0 5e4: 25098993 addi s3,s3,592 # 830 <malloc+0xf6> while(*s != 0){ 5e8: 85ee mv a1,s11 5ea: bff9 j 5c8 <vprintf+0x152> putc(fd, va_arg(ap, uint)); 5ec: 008b0913 addi s2,s6,8 5f0: 000b4583 lbu a1,0(s6) 5f4: 8556 mv a0,s5 5f6: 00000097 auipc ra,0x0 5fa: db2080e7 jalr -590(ra) # 3a8 <putc> 5fe: 8b4a mv s6,s2 state = 0; 600: 4981 li s3,0 602: bdd1 j 4d6 <vprintf+0x60> putc(fd, c); 604: 85d2 mv a1,s4 606: 8556 mv a0,s5 608: 00000097 auipc ra,0x0 60c: da0080e7 jalr -608(ra) # 3a8 <putc> state = 0; 610: 4981 li s3,0 612: b5d1 j 4d6 <vprintf+0x60> putc(fd, '%'); 614: 85d2 mv a1,s4 616: 8556 mv a0,s5 618: 00000097 auipc ra,0x0 61c: d90080e7 jalr -624(ra) # 3a8 <putc> putc(fd, c); 620: 85ca mv a1,s2 622: 8556 mv a0,s5 624: 00000097 auipc ra,0x0 628: d84080e7 jalr -636(ra) # 3a8 <putc> state = 0; 62c: 4981 li s3,0 62e: b565 j 4d6 <vprintf+0x60> s = va_arg(ap, char*); 630: 8b4a mv s6,s2 state = 0; 632: 4981 li s3,0 634: b54d j 4d6 <vprintf+0x60> } } } 636: 70e6 ld ra,120(sp) 638: 7446 ld s0,112(sp) 63a: 74a6 ld s1,104(sp) 63c: 7906 ld s2,96(sp) 63e: 69e6 ld s3,88(sp) 640: 6a46 ld s4,80(sp) 642: 6aa6 ld s5,72(sp) 644: 6b06 ld s6,64(sp) 646: 7be2 ld s7,56(sp) 648: 7c42 ld s8,48(sp) 64a: 7ca2 ld s9,40(sp) 64c: 7d02 ld s10,32(sp) 64e: 6de2 ld s11,24(sp) 650: 6109 addi sp,sp,128 652: 8082 ret 0000000000000654 <fprintf>: void fprintf(int fd, const char *fmt, ...) { 654: 715d addi sp,sp,-80 656: ec06 sd ra,24(sp) 658: e822 sd s0,16(sp) 65a: 1000 addi s0,sp,32 65c: e010 sd a2,0(s0) 65e: e414 sd a3,8(s0) 660: e818 sd a4,16(s0) 662: ec1c sd a5,24(s0) 664: 03043023 sd a6,32(s0) 668: 03143423 sd a7,40(s0) va_list ap; va_start(ap, fmt); 66c: fe843423 sd s0,-24(s0) vprintf(fd, fmt, ap); 670: 8622 mv a2,s0 672: 00000097 auipc ra,0x0 676: e04080e7 jalr -508(ra) # 476 <vprintf> } 67a: 60e2 ld ra,24(sp) 67c: 6442 ld s0,16(sp) 67e: 6161 addi sp,sp,80 680: 8082 ret 0000000000000682 <printf>: void printf(const char *fmt, ...) { 682: 711d addi sp,sp,-96 684: ec06 sd ra,24(sp) 686: e822 sd s0,16(sp) 688: 1000 addi s0,sp,32 68a: e40c sd a1,8(s0) 68c: e810 sd a2,16(s0) 68e: ec14 sd a3,24(s0) 690: f018 sd a4,32(s0) 692: f41c sd a5,40(s0) 694: 03043823 sd a6,48(s0) 698: 03143c23 sd a7,56(s0) va_list ap; va_start(ap, fmt); 69c: 00840613 addi a2,s0,8 6a0: fec43423 sd a2,-24(s0) vprintf(1, fmt, ap); 6a4: 85aa mv a1,a0 6a6: 4505 li a0,1 6a8: 00000097 auipc ra,0x0 6ac: dce080e7 jalr -562(ra) # 476 <vprintf> } 6b0: 60e2 ld ra,24(sp) 6b2: 6442 ld s0,16(sp) 6b4: 6125 addi sp,sp,96 6b6: 8082 ret 00000000000006b8 <free>: static Header base; static Header *freep; void free(void *ap) { 6b8: 1141 addi sp,sp,-16 6ba: e422 sd s0,8(sp) 6bc: 0800 addi s0,sp,16 Header *bp, *p; bp = (Header*)ap - 1; 6be: ff050693 addi a3,a0,-16 for(p = freep; !(bp > p && bp < p->s.ptr); p = p->s.ptr) 6c2: 00000797 auipc a5,0x0 6c6: 1e67b783 ld a5,486(a5) # 8a8 <freep> 6ca: a02d j 6f4 <free+0x3c> if(p >= p->s.ptr && (bp > p || bp < p->s.ptr)) break; if(bp + bp->s.size == p->s.ptr){ bp->s.size += p->s.ptr->s.size; 6cc: 4618 lw a4,8(a2) 6ce: 9f2d addw a4,a4,a1 6d0: fee52c23 sw a4,-8(a0) bp->s.ptr = p->s.ptr->s.ptr; 6d4: 6398 ld a4,0(a5) 6d6: 6310 ld a2,0(a4) 6d8: a83d j 716 <free+0x5e> } else bp->s.ptr = p->s.ptr; if(p + p->s.size == bp){ p->s.size += bp->s.size; 6da: ff852703 lw a4,-8(a0) 6de: 9f31 addw a4,a4,a2 6e0: c798 sw a4,8(a5) p->s.ptr = bp->s.ptr; 6e2: ff053683 ld a3,-16(a0) 6e6: a091 j 72a <free+0x72> if(p >= p->s.ptr && (bp > p || bp < p->s.ptr)) 6e8: 6398 ld a4,0(a5) 6ea: 00e7e463 bltu a5,a4,6f2 <free+0x3a> 6ee: 00e6ea63 bltu a3,a4,702 <free+0x4a> { 6f2: 87ba mv a5,a4 for(p = freep; !(bp > p && bp < p->s.ptr); p = p->s.ptr) 6f4: fed7fae3 bgeu a5,a3,6e8 <free+0x30> 6f8: 6398 ld a4,0(a5) 6fa: 00e6e463 bltu a3,a4,702 <free+0x4a> if(p >= p->s.ptr && (bp > p || bp < p->s.ptr)) 6fe: fee7eae3 bltu a5,a4,6f2 <free+0x3a> if(bp + bp->s.size == p->s.ptr){ 702: ff852583 lw a1,-8(a0) 706: 6390 ld a2,0(a5) 708: 02059813 slli a6,a1,0x20 70c: 01c85713 srli a4,a6,0x1c 710: 9736 add a4,a4,a3 712: fae60de3 beq a2,a4,6cc <free+0x14> bp->s.ptr = p->s.ptr->s.ptr; 716: fec53823 sd a2,-16(a0) if(p + p->s.size == bp){ 71a: 4790 lw a2,8(a5) 71c: 02061593 slli a1,a2,0x20 720: 01c5d713 srli a4,a1,0x1c 724: 973e add a4,a4,a5 726: fae68ae3 beq a3,a4,6da <free+0x22> p->s.ptr = bp->s.ptr; 72a: e394 sd a3,0(a5) } else p->s.ptr = bp; freep = p; 72c: 00000717 auipc a4,0x0 730: 16f73e23 sd a5,380(a4) # 8a8 <freep> } 734: 6422 ld s0,8(sp) 736: 0141 addi sp,sp,16 738: 8082 ret 000000000000073a <malloc>: return freep; } void* malloc(uint nbytes) { 73a: 7139 addi sp,sp,-64 73c: fc06 sd ra,56(sp) 73e: f822 sd s0,48(sp) 740: f426 sd s1,40(sp) 742: f04a sd s2,32(sp) 744: ec4e sd s3,24(sp) 746: e852 sd s4,16(sp) 748: e456 sd s5,8(sp) 74a: e05a sd s6,0(sp) 74c: 0080 addi s0,sp,64 Header *p, *prevp; uint nunits; nunits = (nbytes + sizeof(Header) - 1)/sizeof(Header) + 1; 74e: 02051493 slli s1,a0,0x20 752: 9081 srli s1,s1,0x20 754: 04bd addi s1,s1,15 756: 8091 srli s1,s1,0x4 758: 0014899b addiw s3,s1,1 75c: 0485 addi s1,s1,1 if((prevp = freep) == 0){ 75e: 00000517 auipc a0,0x0 762: 14a53503 ld a0,330(a0) # 8a8 <freep> 766: c515 beqz a0,792 <malloc+0x58> base.s.ptr = freep = prevp = &base; base.s.size = 0; } for(p = prevp->s.ptr; ; prevp = p, p = p->s.ptr){ 768: 611c ld a5,0(a0) if(p->s.size >= nunits){ 76a: 4798 lw a4,8(a5) 76c: 02977f63 bgeu a4,s1,7aa <malloc+0x70> 770: 8a4e mv s4,s3 772: 0009871b sext.w a4,s3 776: 6685 lui a3,0x1 778: 00d77363 bgeu a4,a3,77e <malloc+0x44> 77c: 6a05 lui s4,0x1 77e: 000a0b1b sext.w s6,s4 p = sbrk(nu * sizeof(Header)); 782: 004a1a1b slliw s4,s4,0x4 p->s.size = nunits; } freep = prevp; return (void*)(p + 1); } if(p == freep) 786: 00000917 auipc s2,0x0 78a: 12290913 addi s2,s2,290 # 8a8 <freep> if(p == (char*)-1) 78e: 5afd li s5,-1 790: a895 j 804 <malloc+0xca> base.s.ptr = freep = prevp = &base; 792: 00000797 auipc a5,0x0 796: 11e78793 addi a5,a5,286 # 8b0 <base> 79a: 00000717 auipc a4,0x0 79e: 10f73723 sd a5,270(a4) # 8a8 <freep> 7a2: e39c sd a5,0(a5) base.s.size = 0; 7a4: 0007a423 sw zero,8(a5) if(p->s.size >= nunits){ 7a8: b7e1 j 770 <malloc+0x36> if(p->s.size == nunits) 7aa: 02e48c63 beq s1,a4,7e2 <malloc+0xa8> p->s.size -= nunits; 7ae: 4137073b subw a4,a4,s3 7b2: c798 sw a4,8(a5) p += p->s.size; 7b4: 02071693 slli a3,a4,0x20 7b8: 01c6d713 srli a4,a3,0x1c 7bc: 97ba add a5,a5,a4 p->s.size = nunits; 7be: 0137a423 sw s3,8(a5) freep = prevp; 7c2: 00000717 auipc a4,0x0 7c6: 0ea73323 sd a0,230(a4) # 8a8 <freep> return (void*)(p + 1); 7ca: 01078513 addi a0,a5,16 if((p = morecore(nunits)) == 0) return 0; } } 7ce: 70e2 ld ra,56(sp) 7d0: 7442 ld s0,48(sp) 7d2: 74a2 ld s1,40(sp) 7d4: 7902 ld s2,32(sp) 7d6: 69e2 ld s3,24(sp) 7d8: 6a42 ld s4,16(sp) 7da: 6aa2 ld s5,8(sp) 7dc: 6b02 ld s6,0(sp) 7de: 6121 addi sp,sp,64 7e0: 8082 ret prevp->s.ptr = p->s.ptr; 7e2: 6398 ld a4,0(a5) 7e4: e118 sd a4,0(a0) 7e6: bff1 j 7c2 <malloc+0x88> hp->s.size = nu; 7e8: 01652423 sw s6,8(a0) free((void*)(hp + 1)); 7ec: 0541 addi a0,a0,16 7ee: 00000097 auipc ra,0x0 7f2: eca080e7 jalr -310(ra) # 6b8 <free> return freep; 7f6: 00093503 ld a0,0(s2) if((p = morecore(nunits)) == 0) 7fa: d971 beqz a0,7ce <malloc+0x94> for(p = prevp->s.ptr; ; prevp = p, p = p->s.ptr){ 7fc: 611c ld a5,0(a0) if(p->s.size >= nunits){ 7fe: 4798 lw a4,8(a5) 800: fa9775e3 bgeu a4,s1,7aa <malloc+0x70> if(p == freep) 804: 00093703 ld a4,0(s2) 808: 853e mv a0,a5 80a: fef719e3 bne a4,a5,7fc <malloc+0xc2> p = sbrk(nu * sizeof(Header)); 80e: 8552 mv a0,s4 810: 00000097 auipc ra,0x0 814: b68080e7 jalr -1176(ra) # 378 <sbrk> if(p == (char*)-1) 818: fd5518e3 bne a0,s5,7e8 <malloc+0xae> return 0; 81c: 4501 li a0,0 81e: bf45 j 7ce <malloc+0x94>
29.3761
60
0.461105
aa4fb1a577d160b0e63172da5e378288d41e602d
463
asm
Assembly
programs/oeis/094/A094875.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/094/A094875.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/094/A094875.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A094875: a(n)=1 if floor(Pi*10^n) is prime, otherwise a(n)=0. ; 1,1,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 mov $1,1 mov $4,4 mov $5,$0 lpb $0 sub $3,4 sub $3,$2 trn $3,2 add $4,2 trn $5,$3 mov $0,$5 trn $0,1 trn $1,4 mov $2,8 add $3,$4 add $3,3 mul $3,2 add $4,8 lpe add $1,$5
20.130435
201
0.50324
053145daa4fb3db13e2699106dc3e5d998a11337
391
asm
Assembly
oeis/268/A268896.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/268/A268896.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/268/A268896.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A268896: Start at a(0)=1. a(n) = a(n-1)+2 if n == 1,2 (mod 3) and a(n)=a(n-1)+a(n-3) if n == 0 (mod 3). ; Submitted by Christian Krause ; 1,3,5,6,8,10,16,18,20,36,38,40,76,78,80,156,158,160,316,318,320,636,638,640,1276,1278,1280,2556,2558,2560,5116,5118,5120,10236,10238,10240,20476,20478,20480,40956,40958 mul $0,2 mov $2,3 lpb $0 sub $0,6 add $2,1 mul $2,2 lpe add $0,$2 sub $0,2
27.928571
170
0.631714
f838773e8f1b6c459fa8ce3b58df565958c8c6fc
2,803
asm
Assembly
snapgear_linux/lib/libgmp/mpn/sparc64/mul_1.asm
impedimentToProgress/UCI-BlueChip
53e5d48b79079eaf60d42f7cb65bb795743d19fc
[ "MIT" ]
null
null
null
snapgear_linux/lib/libgmp/mpn/sparc64/mul_1.asm
impedimentToProgress/UCI-BlueChip
53e5d48b79079eaf60d42f7cb65bb795743d19fc
[ "MIT" ]
null
null
null
snapgear_linux/lib/libgmp/mpn/sparc64/mul_1.asm
impedimentToProgress/UCI-BlueChip
53e5d48b79079eaf60d42f7cb65bb795743d19fc
[ "MIT" ]
3
2016-06-13T13:20:56.000Z
2019-12-05T02:31:23.000Z
dnl SPARC 64-bit mpn_mul_1 -- Multiply a limb vector with a limb and dnl store the result to a second limb vector. dnl Copyright (C) 1998, 2000 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of the GNU Library General Public License as published dnl by the Free Software Foundation; either version 2 of the License, or (at dnl your option) any later version. dnl The GNU MP Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public dnl License for more details. dnl You should have received a copy of the GNU Library General Public License dnl along with the GNU MP Library; see the file COPYING.LIB. If not, write to dnl the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, dnl MA 02111-1307, USA. include(`../config.m4') C INPUT PARAMETERS C res_ptr i0 C s1_ptr i1 C size i2 C s2_limb i3 ASM_START() .register %g2,#scratch .register %g3,#scratch PROLOGUE(mpn_mul_1) save %sp,-256,%sp C We store 0.0 in f10 and keep it invariant accross thw two C function calls below. Note that this is not ABI conformant, C but since the functions are local, that's acceptable. ifdef(`PIC', `L(pc): rd %pc,%o7 ld [%o7+L(noll)-L(pc)],%f10', ` sethi %hh(L(noll)),%g2 sethi %lm(L(noll)),%g1 or %g2,%hm(L(noll)),%g2 or %g1,%lo(L(noll)),%g1 sllx %g2,32,%g2 ld [%g1+%g2],%f10') sub %i1,%i0,%g1 srlx %g1,3,%g1 cmp %g1,%i2 bcc,pt %xcc,L(nooverlap) nop sllx %i2,3,%g2 C compute stack allocation byte count add %g2,15,%o0 and %o0,-16,%o0 sub %sp,%o0,%sp add %sp,2223,%o0 mov %i1,%o1 C copy s1_ptr to mpn_copyi's srcp call mpn_copyi mov %i2,%o2 C copy n to mpn_copyi's count parameter add %sp,2223,%i1 L(nooverlap): C First multiply-add with low 32 bits of s2_limb mov %i0,%o0 mov %i1,%o1 add %i2,%i2,%o2 call mull srl %i3,0,%o3 mov %o0,%l0 C keep carry-out from accmull C Now multiply-add with high 32 bits of s2_limb, unless it is zero. srlx %i3,32,%o3 brz,a,pn %o3,L(small) mov %o0,%i0 mov %i1,%o1 add %i2,%i2,%o2 call addmulu add %i0,4,%o0 add %l0,%o0,%i0 L(small): ret restore %g0,%g0,%g0 EPILOGUE(mpn_mul_1) C Put a zero in the text segment to allow us to t the address C quickly when compiling for PIC TEXT ALIGN(4) L(noll): .word 0 define(`LO',`(+4)') define(`HI',`(-4)') define(`DLO',`(+4)') define(`DHI',`(-4)') define(`E',`L($1)') include(CONFIG_SRCDIR`/mpn/sparc64/mul_1h.asm') define(`DLO',`(-4)') define(`DHI',`(+4)') undefine(`LOWPART') define(`E',`L(u.$1)') include(CONFIG_SRCDIR`/mpn/sparc64/addmul_1h.asm')
24.587719
79
0.696397
b02e4dd94a1a217f8e09ddba721ea40aa6e9fec6
288
asm
Assembly
libsrc/stdio/abc80/fgetc_cons.asm
andydansby/z88dk-mk2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
1
2020-09-15T08:35:49.000Z
2020-09-15T08:35:49.000Z
libsrc/stdio/abc80/fgetc_cons.asm
dex4er/deb-z88dk
9ee4f23444fa6f6043462332a1bff7ae20a8504b
[ "ClArtistic" ]
null
null
null
libsrc/stdio/abc80/fgetc_cons.asm
dex4er/deb-z88dk
9ee4f23444fa6f6043462332a1bff7ae20a8504b
[ "ClArtistic" ]
null
null
null
; ; ABC80 Routines ; ; getkey() Wait for keypress ; ; Maj 2000 - Stefano Bodrato ; ; ; $Id: fgetc_cons.asm,v 1.2 2001/04/13 14:13:59 stefano Exp $ ; XLIB fgetc_cons .fgetc_cons in a,(56) bit 7,a jr nz,fgetc_cons .wkey in a,(56) bit 7,a jr z,wkey sub 128 ld l,a ld h,0 ret
9.931034
61
0.635417
3addcef8325a3b8d84c6065a7f3bfb1b94f9b3ee
342
asm
Assembly
libsrc/_DEVELOPMENT/string/c/sccz80/strcasecmp_callee.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/string/c/sccz80/strcasecmp_callee.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/string/c/sccz80/strcasecmp_callee.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1
2019-12-03T23:28:20.000Z
2019-12-03T23:28:20.000Z
; int strcasecmp(const char *s1, const char *s2) SECTION code_clib SECTION code_string PUBLIC strcasecmp_callee EXTERN asm_strcasecmp strcasecmp_callee: pop af pop hl pop de push af jp asm_strcasecmp ; SDCC bridge for Classic IF __CLASSIC PUBLIC _strcasecmp_callee defc _strcasecmp_callee = strcasecmp_callee ENDIF
13.153846
48
0.774854
69c4460a6e6d6bf797816965eebe82bd3777cc8d
308
asm
Assembly
libsrc/_DEVELOPMENT/compress/zx2/c/sccz80/dzx2_nano_back_callee.asm
ahjelm/z88dk
c4de367f39a76b41f6390ceeab77737e148178fa
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/compress/zx2/c/sccz80/dzx2_nano_back_callee.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/compress/zx2/c/sccz80/dzx2_nano_back_callee.asm
C-Chads/z88dk
a4141a8e51205c6414b4ae3263b633c4265778e6
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; void dzx2_nano_back_callee(void *src, void *dst) SECTION code_clib SECTION code_compress_zx2 PUBLIC dzx2_nano_back_callee EXTERN asm_dzx2_nano_back dzx2_nano_back_callee: IF __CPU_GBZ80__ pop bc pop de pop hl push bc ELSE pop hl pop de ex (sp),hl ENDIF jp asm_dzx2_nano_back
12.32
50
0.753247
e6334aa445885acfb445b8d233c0fd5a0293b958
459
asm
Assembly
problemas de boletines/ESCRIBIR LOS 20 PRIMEROS NUMEROS.asm
ubidragon/AVR-US
afaf3ac92719d975411b63734c45a99635a25b84
[ "Unlicense" ]
null
null
null
problemas de boletines/ESCRIBIR LOS 20 PRIMEROS NUMEROS.asm
ubidragon/AVR-US
afaf3ac92719d975411b63734c45a99635a25b84
[ "Unlicense" ]
null
null
null
problemas de boletines/ESCRIBIR LOS 20 PRIMEROS NUMEROS.asm
ubidragon/AVR-US
afaf3ac92719d975411b63734c45a99635a25b84
[ "Unlicense" ]
null
null
null
//APARTIR DE LA DIRECCION $0100, ESCRIBIR LOS 20 PRIMEROS NUMEROS(0-19) .INCLUDE "m328pdef.inc" //XH, XL ES EL PUNTERO A LA TABLA //R16 ES TEL CONTADOR EN BUCLE //R17 ES EL DATO A ESCRIBIR EN LA TABLA main: LDI R16, 0 ; R16<-- 0 LDI R17, 0 ; R17<-- 0 //INICIALIZAO PUNTERO LDI XH, $01 LDI XL, $00 BUCLE: ST X+, R17 ; GUARDA EL DATO EN R17 EN X, Y LUEGO INCREMENTA INC R17 INC R16 CPI R16,20 BRLO bucle FIN: RJMP FIN
17
71
0.636166
0cc08613e7848d80ae099af50e59fd3831285bcf
1,226
asm
Assembly
programs/oeis/106/A106318.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/106/A106318.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/106/A106318.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A106318: Bhaskara twins: n such that 2*n^2 = X^3 and 2*n^3 = Y^2. ; 2,128,1458,8192,31250,93312,235298,524288,1062882,2000000,3543122,5971968,9653618,15059072,22781250,33554432,48275138,68024448,94091762,128000000,171532242,226759808,296071778,382205952,488281250,617831552,774840978,963780608,1189646642,1458000000,1775007362,2147483648,2582935938,3089608832,3676531250,4353564672,5131452818,6021872768,7037487522,8192000000,9500208482,10978063488,12642726098,14512627712,16607531250,18948593792,21558430658,24461180928,27682574402,31250000000,35192575602,39541219328,44328722258,49589822592,55361281250,61681958912,68592894498,76137385088,84361067282,93312000000,103040748722,113600471168,125047004418,137438953472,150837781250,165307900032,180916764338,197734965248,215836326162,235298000000,256200567842,278628139008,302668452578,328412980352,355957031250,385399857152,416844760178,450399201408,486174911042,524288000000,564859072962,608013342848,653880746738,702596063232,754299031250,809134470272,867252402018,928808173568,993962581922,1062882000000,1135738504082,1212710002688,1293980366898,1379739562112,1470183781250,1565515579392,1665944009858,1771684761728,1882960298802,2000000000000 add $0,1 pow $0,6 mul $0,2
175.142857
1,129
0.884992
c6cd18f1fcec43a1459b14e5230beca32bb57e95
1,081
asm
Assembly
programs/oeis/047/A047281.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/047/A047281.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/047/A047281.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A047281: Numbers that are congruent to {0, 3, 6} mod 7. ; 0,3,6,7,10,13,14,17,20,21,24,27,28,31,34,35,38,41,42,45,48,49,52,55,56,59,62,63,66,69,70,73,76,77,80,83,84,87,90,91,94,97,98,101,104,105,108,111,112,115,118,119,122,125,126,129,132,133,136,139,140,143,146,147,150,153,154,157,160,161,164,167,168,171,174,175,178,181,182,185,188,189,192,195,196,199,202,203,206,209,210,213,216,217,220,223,224,227,230,231,234,237,238,241,244,245,248,251,252,255,258,259,262,265,266,269,272,273,276,279,280,283,286,287,290,293,294,297,300,301,304,307,308,311,314,315,318,321,322,325,328,329,332,335,336,339,342,343,346,349,350,353,356,357,360,363,364,367,370,371,374,377,378,381,384,385,388,391,392,395,398,399,402,405,406,409,412,413,416,419,420,423,426,427,430,433,434,437,440,441,444,447,448,451,454,455,458,461,462,465,468,469,472,475,476,479,482,483,486,489,490,493,496,497,500,503,504,507,510,511,514,517,518,521,524,525,528,531,532,535,538,539,542,545,546,549,552,553,556,559,560,563,566,567,570,573,574,577,580,581 mov $2,7 mul $2,$0 mod $0,3 mov $1,$0 add $1,$0 add $1,$2 div $1,3
98.272727
954
0.718779
26e2fa3551a096dd591209b3f83d3401150413f6
92
asm
Assembly
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sccz80/cbrt.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sccz80/cbrt.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sccz80/cbrt.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
SECTION code_fp_math48 PUBLIC cbrt EXTERN cm48_sccz80_cbrt defc cbrt = cm48_sccz80_cbrt
10.222222
28
0.836957
c909d4ec1b4a3c5b094942f09625f09294cd2fe0
605
asm
Assembly
oeis/015/A015552.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/015/A015552.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/015/A015552.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A015552: a(n) = 6*a(n-1) + 7*a(n-2), a(0) = 0, a(1) = 1. ; 0,1,6,43,300,2101,14706,102943,720600,5044201,35309406,247165843,1730160900,12111126301,84777884106,593445188743,4154116321200,29078814248401,203551699738806,1424861898171643,9974033287201500,69818233010410501,488727631072873506,3421093417510114543,23947653922570801800,167633577457995612601,1173435042205969288206,8214045295441785017443,57498317068092495122100,402488219476647465854701,2817417536336532260982906,19721922754355725826880343,138053459280490080788162400,966374214963430565517136801 mov $1,7 pow $1,$0 add $1,2 div $1,8 mov $0,$1
67.222222
497
0.842975
29b7f8a0ca29910952f83ee121db34e6c10da731
352
asm
Assembly
oeis/088/A088938.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/088/A088938.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/088/A088938.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A088938: Occurrences of 2's in A088936. ; Submitted by Jon Maiga ; 2,3,5,10,27,104,541,3498,26615,231172,2250129,24227486,285705643,3660694200,50624828357,751426146514,11913622408671,200919532718828,3591112295892985,67803855263483142,1348467602319393299 lpb $0 add $1,1 add $2,$1 mul $2,$0 sub $0,1 lpe add $1,$2 mov $0,$1 div $0,2 add $0,2
23.466667
188
0.747159
252193a782e08b0806588119c963b95231b57c6f
1,102
asm
Assembly
programs/oeis/137/A137930.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/137/A137930.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/137/A137930.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A137930: The sum of the principal diagonals of an n X n spiral. ; 0,1,10,25,56,101,170,261,384,537,730,961,1240,1565,1946,2381,2880,3441,4074,4777,5560,6421,7370,8405,9536,10761,12090,13521,15064,16717,18490,20381,22400,24545,26826,29241,31800,34501,37354,40357,43520,46841,50330,53985,57816,61821,66010,70381,74944,79697,84650,89801,95160,100725,106506,112501,118720,125161,131834,138737,145880,153261,160890,168765,176896,185281,193930,202841,212024,221477,231210,241221,251520,262105,272986,284161,295640,307421,319514,331917,344640,357681,371050,384745,398776,413141,427850,442901,458304,474057,490170,506641,523480,540685,558266,576221,594560,613281,632394,651897 mov $6,$0 mov $10,$0 lpb $6 mov $0,$10 sub $6,1 sub $0,$6 mov $7,$0 mov $8,0 mov $9,$0 lpb $9 mov $0,$7 sub $9,1 sub $0,$9 mov $2,$0 mul $2,3 mov $3,$2 add $3,3 mov $4,$0 mov $5,$0 add $0,$3 mod $0,2 div $5,2 mul $5,12 trn $5,$2 mov $2,$0 add $5,$4 add $5,3 add $2,$5 mov $11,$2 sub $11,4 add $8,$11 lpe add $1,$8 lpe mov $0,$1
28.25641
604
0.65971
6c70f5c2367007e29026b696a9c948c5297a0d93
741
asm
Assembly
programs/oeis/250/A250770.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/250/A250770.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/250/A250770.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A250770: Number of (2+1) X (n+1) 0..1 arrays with nondecreasing x(i,j)-x(i,j-1) in the i direction and nondecreasing absolute value of x(i,j)-x(i-1,j) in the j direction. ; 18,34,62,114,214,410,798,1570,3110,6186,12334,24626,49206,98362,196670,393282,786502,1572938,3145806,6291538,12582998,25165914,50331742,100663394,201326694,402653290,805306478,1610612850,3221225590,6442451066,12884902014,25769803906,51539607686,103079215242,206158430350,412316860562,824633720982,1649267441818,3298534883486,6597069766818,13194139533478,26388279066794,52776558133422,105553116266674,211106232533174,422212465066170,844424930132158,1688849860264130,3377699720528070,6755399441055946 mov $1,2 pow $1,$0 mul $1,3 add $1,$0 sub $1,3 mul $1,4 add $1,18
67.363636
500
0.816464
3935bec3e309e7a86fc7617e5a0704c26dfd8ed5
466
asm
Assembly
programs/oeis/097/A097432.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/097/A097432.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/097/A097432.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A097432: Integer part of the hypotenuse of right triangles with consecutive integer legs. ; 2,3,5,6,7,9,10,12,13,14,16,17,19,20,21,23,24,26,27,29,30,31,33,34,36,37,38,40,41,43,44,45,47,48,50,51,53,54,55,57,58,60,61,62,64,65,67,68,70,71,72,74,75,77,78,79,81,82,84,85,86,88,89,91,92,94,95,96,98,99,101 mov $3,26 add $3,$0 add $3,2 mov $1,$3 pow $1,2 mov $0,$1 add $0,4 lpb $0,1 add $2,1 add $4,1 trn $0,$4 lpe mov $1,$4 mod $2,$2 add $2,1 add $1,$2 sub $1,39
22.190476
209
0.637339
b9af5d9a0c3fc507f47938792c8c7a4d1c230816
350
asm
Assembly
programs/oeis/269/A269500.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/269/A269500.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/269/A269500.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A269500: a(n) = Fibonacci(10*n). ; 0,55,6765,832040,102334155,12586269025,1548008755920,190392490709135,23416728348467685,2880067194370816120,354224848179261915075,43566776258854844738105,5358359254990966640871840,659034621587630041982498215,81055900096023504197206408605 mul $0,10 mov $2,1 lpb $0 sub $0,2 add $1,$2 add $2,$1 lpe mov $0,$1
29.166667
238
0.802857
764614759e37c939741230dd66b071e1c07a666c
1,648
asm
Assembly
programs/one-time-pad.asm
Michael-JB/superscalar-processor
37c427ec36b004a1593ed657052397e04f5bfb57
[ "MIT" ]
null
null
null
programs/one-time-pad.asm
Michael-JB/superscalar-processor
37c427ec36b004a1593ed657052397e04f5bfb57
[ "MIT" ]
null
null
null
programs/one-time-pad.asm
Michael-JB/superscalar-processor
37c427ec36b004a1593ed657052397e04f5bfb57
[ "MIT" ]
null
null
null
# Load message arr into registers st_msg: move r0 1 move r1 0 move r2 1 move r3 0 move r4 1 move r5 0 move r6 0 move r7 0 move r8 1 move r9 1 move r10 0 move r11 1 # Store the message to memory sai r0 0 sai r1 1 sai r2 2 sai r3 3 sai r4 4 sai r5 5 sai r6 6 sai r7 7 sai r8 8 sai r9 9 sai r10 10 sai r11 11 # Load key arr into registers st_key: move r0 1 move r1 1 move r2 0 move r3 0 move r4 1 move r5 1 move r6 0 move r7 1 move r8 0 move r9 1 move r10 1 move r11 0 # Store the key to memory sai r0 12 sai r1 13 sai r2 14 sai r3 15 sai r4 16 sai r5 17 sai r6 18 sai r7 19 sai r8 20 sai r9 21 sai r10 22 sai r11 23 init: move r0 0 # Counter move r6 12 # Message size move r4 0 # Register clear value next: la r1 r0 0 # Load message[i] la r2 r0 12 # Load key[i] xor: cmp r3 r1 r2 # Check message[i] = key[i] beq r4 r3 xor_f # If equal, xor evaluates to false xor_t: move r5 1 jmp close xor_f: move r5 0 close: sa r5 r0 0 # Store message[i] (xor) key[i] sa r4 r0 12 # Store clear key[i] addi r0 r0 1 # Increment counter blt r0 r6 next # Next iteration
21.973333
59
0.449636
6ee7a1532914a6e096d8e5a970cff01732b7ce95
372
asm
Assembly
Vezba 10/11/program.asm
KristianKalamin/Programski-Prevodioci-Domaci
8e97173f0fbcd21acc12d1c8a04945b989be1dc3
[ "MIT" ]
1
2021-02-02T11:35:42.000Z
2021-02-02T11:35:42.000Z
Vezba 10/11/program.asm
KristianKalamin/Programski-Prevodioci-Domaci
8e97173f0fbcd21acc12d1c8a04945b989be1dc3
[ "MIT" ]
null
null
null
Vezba 10/11/program.asm
KristianKalamin/Programski-Prevodioci-Domaci
8e97173f0fbcd21acc12d1c8a04945b989be1dc3
[ "MIT" ]
null
null
null
main: PUSH %14 MOV %15,%14 SUBS %15,$32,%15 @main_body: MOV $1,-4(%14) MOV $2,-28(%14) MOV $5,-8(%14) MOV $1,-12(%14) MOV -8(%14),-12(%14) SUBS -4(%14),-28(%14),%0 MOV %0,-32(%14) ADDS -4(%14),-8(%14),%0 ADDS %0,-12(%14),%0 MOV %0,-4(%14) MOV -4(%14),%13 JMP @main_exit @main_exit: MOV %14,%15 POP %14 RET
16.909091
27
0.451613
bff66dc4fb308c32ed5081202df9c9920249fe56
771
asm
Assembly
data/pokemon/base_stats/skiploom.asm
AtmaBuster/pokeplat-gen2
fa83b2e75575949b8f72cb2c48f7a1042e97f70f
[ "blessing" ]
6
2021-06-19T06:41:19.000Z
2022-02-15T17:12:33.000Z
data/pokemon/base_stats/skiploom.asm
AtmaBuster/pokeplat-gen2-old
01e42c55db5408d72d89133dc84a46c699d849ad
[ "blessing" ]
null
null
null
data/pokemon/base_stats/skiploom.asm
AtmaBuster/pokeplat-gen2-old
01e42c55db5408d72d89133dc84a46c699d849ad
[ "blessing" ]
2
2021-08-11T19:47:07.000Z
2022-01-01T07:07:56.000Z
db 0 ; species ID placeholder db 55, 45, 50, 80, 45, 65 ; hp atk def spd sat sdf db GRASS, FLYING ; type db 120 ; catch rate db 136 ; base exp db NO_ITEM, NO_ITEM ; items db GENDER_F50 ; gender ratio db 20 ; step cycles to hatch INCBIN "gfx/pokemon/skiploom/front.dimensions" db GROWTH_MEDIUM_SLOW ; growth rate dn EGG_FAIRY, EGG_PLANT ; egg groups db 70 ; happiness ; tm/hm learnset tmhm TOXIC, BULLET_SEED, HIDDEN_POWER, SUNNY_DAY, PROTECT, GIGA_DRAIN, FRUSTRATION, SOLARBEAM, RETURN, DOUBLE_TEAM, AERIAL_ACE, FACADE, SECRET_POWER, REST, ATTRACT, ENERGY_BALL, ENDURE, SILVER_WIND, FLASH, SWORDS_DANCE, CAPTIVATE, SLEEP_TALK, NATURAL_GIFT, GRASS_KNOT, SWAGGER, U_TURN, SUBSTITUTE, BOUNCE, HELPING_HAND, SEED_BOMB, SNORE, SYNTHESIS ; end
38.55
349
0.741894
29415f95232ea046c1223ed5d09b97bc08f40e58
367
asm
Assembly
kernel/lib/bit.asm
Phoenux-OS/Phoenux
a89be31b5f584ba19fd6c505bd7759151a81c0a2
[ "BSD-2-Clause" ]
6
2019-09-26T22:40:34.000Z
2020-01-04T23:00:22.000Z
kernel/lib/bit.asm
Phoenux-OS/Phoenux
a89be31b5f584ba19fd6c505bd7759151a81c0a2
[ "BSD-2-Clause" ]
null
null
null
kernel/lib/bit.asm
Phoenux-OS/Phoenux
a89be31b5f584ba19fd6c505bd7759151a81c0a2
[ "BSD-2-Clause" ]
null
null
null
segment _TEXT class=CODE use32 global bit_test_ bit_test_: bt eax, edx xor eax, eax setc al ret global test_bit_ test_bit_: bt [eax], edx xor eax, eax setc al ret global set_bit_ set_bit_: bts [eax], edx xor eax, eax setc al ret global reset_bit_ reset_bit_: btr [eax], edx xor eax, eax setc al ret
12.233333
30
0.621253
6cc9264c7bf176e9ec9d5370e9108d6048f971d2
5,921
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0_notsx.log_21829_1746.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0_notsx.log_21829_1746.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_xt_/i9-9900K_12_0xa0_notsx.log_21829_1746.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 %r9 push %rbx push %rcx push %rdi push %rsi lea addresses_normal_ht+0x13598, %rsi lea addresses_WC_ht+0x1e850, %rdi clflush (%rdi) nop nop nop nop nop dec %r12 mov $42, %rcx rep movsl dec %rbx lea addresses_A_ht+0x2a18, %r10 nop nop nop add %r13, %r13 mov $0x6162636465666768, %rbx movq %rbx, (%r10) nop nop nop nop add $24525, %r13 lea addresses_A_ht+0xd8d0, %rsi lea addresses_WC_ht+0x16958, %rdi nop nop nop xor $37251, %r9 mov $11, %rcx rep movsw nop nop nop nop nop cmp $31782, %r10 lea addresses_UC_ht+0x1006a, %rcx cmp %r9, %r9 movb (%rcx), %r12b nop nop nop inc %rsi lea addresses_WT_ht+0x5f44, %r9 nop nop nop nop xor %rbx, %rbx movups (%r9), %xmm1 vpextrq $0, %xmm1, %rcx nop nop xor $43316, %rbx lea addresses_normal_ht+0x6018, %r12 nop nop nop nop sub $61697, %r9 movl $0x61626364, (%r12) nop xor %r12, %r12 lea addresses_normal_ht+0x1c808, %r12 nop nop nop nop nop cmp %rcx, %rcx movups (%r12), %xmm5 vpextrq $1, %xmm5, %rsi nop nop nop nop and $2834, %rbx lea addresses_WC_ht+0x6b9a, %r10 nop nop inc %r13 movw $0x6162, (%r10) nop nop nop cmp $20461, %r10 pop %rsi pop %rdi pop %rcx pop %rbx pop %r9 pop %r13 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r13 push %r14 push %r8 push %rax push %rsi // Faulty Load lea addresses_A+0x2818, %r14 nop xor $39266, %r13 mov (%r14), %r11 lea oracles, %r13 and $0xff, %r11 shlq $12, %r11 mov (%r13,%r11,1), %r11 pop %rsi pop %rax pop %r8 pop %r14 pop %r13 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_A', 'AVXalign': True, 'size': 16, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} [Faulty Load] {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 8, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_normal_ht', 'congruent': 5, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 9}} {'src': {'type': 'addresses_A_ht', 'congruent': 2, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 6, 'same': False}} {'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 1}, 'OP': 'LOAD'} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 2}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 4, 'NT': False, 'same': False, 'congruent': 11}} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 4}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 0}} {'35': 21829} 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 */
38.699346
2,999
0.659855
0eaecdf90f0a8c49c377d3f85fdf5fa9c4f9db1d
8,107
asm
Assembly
Transynther/x86/_processed/US/_ht_zr_/i9-9900K_12_0xca_notsx.log_21829_63.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_21829_63.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_21829_63.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 %r14 push %r9 push %rbp push %rbx push %rcx push %rdi push %rsi lea addresses_A_ht+0x6e0e, %rdi nop nop nop nop cmp %rbp, %rbp mov $0x6162636465666768, %r9 movq %r9, (%rdi) nop and $801, %r14 lea addresses_WT_ht+0xa7ae, %rsi lea addresses_UC_ht+0x1b748, %rdi nop and %rbx, %rbx mov $2, %rcx rep movsw nop nop nop nop xor $41832, %r9 lea addresses_normal_ht+0x3d4e, %rsi lea addresses_A_ht+0xd0fa, %rdi nop nop add $17633, %r11 mov $26, %rcx rep movsb nop nop nop nop nop cmp $2886, %rbx lea addresses_normal_ht+0x3bb6, %rbx nop nop nop nop and $32277, %rbp mov (%rbx), %cx nop nop nop nop xor %rbp, %rbp lea addresses_D_ht+0x606e, %r14 nop nop nop xor %rbx, %rbx mov $0x6162636465666768, %rsi movq %rsi, (%r14) nop nop nop nop nop add %r9, %r9 lea addresses_WT_ht+0x1238e, %rsi lea addresses_normal_ht+0xe018, %rdi nop nop nop nop nop dec %r9 mov $112, %rcx rep movsw nop nop nop nop nop cmp $53439, %rsi lea addresses_WT_ht+0x10b8e, %rsi inc %r14 movl $0x61626364, (%rsi) nop nop nop nop nop add $18573, %rbp lea addresses_UC_ht+0x14334, %rcx clflush (%rcx) nop and $5237, %r14 mov (%rcx), %di nop nop inc %r14 lea addresses_D_ht+0xdaf6, %rsi lea addresses_D_ht+0x1d08e, %rdi nop nop nop sub $12355, %r14 mov $65, %rcx rep movsq nop nop cmp $45032, %r14 lea addresses_WC_ht+0x1e3be, %rsi lea addresses_A_ht+0x5de6, %rdi nop add %r14, %r14 mov $39, %rcx rep movsq nop nop nop nop nop cmp %rdi, %rdi lea addresses_D_ht+0xe78e, %r11 clflush (%r11) nop nop nop and $14798, %rdi movb $0x61, (%r11) nop xor %rbp, %rbp lea addresses_A_ht+0x278e, %rdi xor %r14, %r14 movups (%rdi), %xmm3 vpextrq $1, %xmm3, %r11 nop add %rsi, %rsi pop %rsi pop %rdi pop %rcx pop %rbx pop %rbp pop %r9 pop %r14 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r14 push %rax push %rbp push %rcx push %rsi // Load lea addresses_US+0x172ba, %rcx nop nop nop dec %rsi movb (%rcx), %r11b // Exception!!! nop nop nop nop nop mov (0), %r10 nop xor $36010, %rax // Load lea addresses_RW+0xc35e, %r14 clflush (%r14) nop xor %r11, %r11 movups (%r14), %xmm0 vpextrq $1, %xmm0, %rsi nop nop nop nop nop add %rsi, %rsi // Store lea addresses_RW+0x1823e, %rsi nop nop xor %rbp, %rbp movw $0x5152, (%rsi) nop and $62003, %r10 // Store lea addresses_US+0xef8e, %rax nop nop nop nop and $27213, %rcx movw $0x5152, (%rax) nop nop xor %rsi, %rsi // Faulty Load lea addresses_US+0xef8e, %r11 nop nop nop nop add $59119, %rcx movups (%r11), %xmm5 vpextrq $1, %xmm5, %r10 lea oracles, %rsi and $0xff, %r10 shlq $12, %r10 mov (%rsi,%r10,1), %r10 pop %rsi pop %rcx pop %rbp pop %rax pop %r14 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_US', 'NT': False, 'AVXalign': False, 'size': 8, 'congruent': 0}} {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_US', 'NT': True, 'AVXalign': False, 'size': 1, 'congruent': 2}} {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_RW', 'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 2}} {'OP': 'STOR', 'dst': {'same': False, 'type': 'addresses_RW', 'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 4}} {'OP': 'STOR', 'dst': {'same': True, 'type': 'addresses_US', 'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 0}} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'type': 'addresses_US', 'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 0}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'same': False, 'type': 'addresses_A_ht', 'NT': False, 'AVXalign': False, 'size': 8, 'congruent': 7}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 4, 'type': 'addresses_WT_ht'}, 'dst': {'same': False, 'congruent': 1, 'type': 'addresses_UC_ht'}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 6, 'type': 'addresses_normal_ht'}, 'dst': {'same': False, 'congruent': 1, 'type': 'addresses_A_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_normal_ht', 'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 3}} {'OP': 'STOR', 'dst': {'same': True, 'type': 'addresses_D_ht', 'NT': False, 'AVXalign': False, 'size': 8, 'congruent': 3}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 10, 'type': 'addresses_WT_ht'}, 'dst': {'same': False, 'congruent': 0, 'type': 'addresses_normal_ht'}} {'OP': 'STOR', 'dst': {'same': False, 'type': 'addresses_WT_ht', 'NT': False, 'AVXalign': True, 'size': 4, 'congruent': 9}} {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_UC_ht', 'NT': True, 'AVXalign': True, 'size': 2, 'congruent': 1}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 2, 'type': 'addresses_D_ht'}, 'dst': {'same': False, 'congruent': 8, 'type': 'addresses_D_ht'}} {'OP': 'REPM', 'src': {'same': False, 'congruent': 1, 'type': 'addresses_WC_ht'}, 'dst': {'same': False, 'congruent': 2, 'type': 'addresses_A_ht'}} {'OP': 'STOR', 'dst': {'same': False, 'type': 'addresses_D_ht', 'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 11}} {'OP': 'LOAD', 'src': {'same': False, 'type': 'addresses_A_ht', 'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 11}} {'46': 2, '00': 21827} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
30.942748
2,999
0.653879
6feb868f3174e087911f4260aebec20949c10db0
643
asm
Assembly
programs/oeis/001/A001511.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/001/A001511.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/001/A001511.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A001511: The ruler function: 2^a(n) divides 2n. Or, a(n) = 2-adic valuation of 2n. ; 1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,6,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,7,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,6,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,8,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,6,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,7,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,6,1,2,1,3,1,2,1,4,1,2,1,3,1,2,1,5,1,2,1,3,1,2,1,4,1,2 add $0,1 gcd $0,1073741824 log $0,2 mov $1,$0 add $1,1
71.444444
501
0.530327
90533d4d4a4ec12dedc8356464986b00f87378f9
1,776
asm
Assembly
programs/oeis/056/A056040.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/056/A056040.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/056/A056040.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A056040: Swinging factorial, a(n) = 2^(n-(n mod 2))*Product_{k=1..n} k^((-1)^(k+1)). ; 1,1,2,6,6,30,20,140,70,630,252,2772,924,12012,3432,51480,12870,218790,48620,923780,184756,3879876,705432,16224936,2704156,67603900,10400600,280816200,40116600,1163381400,155117520,4808643120,601080390,19835652870,2333606220,81676217700,9075135300,335780006100,35345263800,1378465288200,137846528820,5651707681620,538257874440,23145088600920,2104098963720,94684453367400,8233430727600,386971244197200,32247603683100,1580132580471900,126410606437752,6446940928325352,495918532948104,26283682246249512,1946939425648112,107081668410646160,7648690600760440,435975364243345080,30067266499541040,1773968723472921360,118264581564861424,7214139475456546864,465428353255261088,29321986255081448544,1832624140942590534,119120569161268384710,7219428434016265740,483701705079089804580,28453041475240576740,1963259861791599795060,112186277816662845432,7965225724983062025672,442512540276836779204,32303415440209084881892,1746130564335626209832,130959792325171965737400,6892620648693261354600,530731789949381124304200,27217014869199032015600,2150144174666723529232400,107507208733336176461620,8708083907400230293391220,424784580848791721628840,35257120210449712895193720,1678910486211891090247320,142707391328010742671022200,6637553085023755473070800,577467118397066726157159600,26248505381684851188961800,2336116978969951755817600200,103827421287553411369671120,9448295337167360434640071920,410795449442059149332177040,38203976798111500887892464720,1625701140345170250548615520,154441608332791173802118474400,6435067013866298908421603100,624201500345030994116895500700,25477612258980856902730428600,2522283613639104833370312431400 mov $1,$0 div $1,2 sub $2,$1 add $2,$0 bin $0,$1 bin $2,$1 mul $0,$2
161.454545
1,618
0.900901
2199132523136e91fe6fe68478755f9c45d71a71
405
asm
Assembly
programs/oeis/044/A044672.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/044/A044672.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/044/A044672.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A044672: Numbers n such that string 4,4 occurs in the base 9 representation of n but not of n+1. ; 40,121,202,283,368,445,526,607,688,769,850,931,1012,1097,1174,1255,1336,1417,1498,1579,1660,1741,1826,1903,1984,2065,2146,2227,2308,2389,2470,2555,2632,2713,2794,2875,2956,3037,3118 mul $0,2 seq $0,44632 ; Numbers n such that string 0,0 occurs in the base 9 representation of n but not of n+1. div $0,2
57.857143
183
0.748148
bdf5a1621c760eb75478a23648e36890b1a7605b
401
asm
Assembly
lab3_test_harness/test/state_data_in/mem4.asm
Zaydax/PipelineProcessor
f45f7d1a245f291218d53a7f16fd7f98a50ce47e
[ "MIT" ]
2
2017-03-05T17:40:26.000Z
2017-03-15T01:41:25.000Z
lab3_test_harness/test/state_data_in/mem5.asm
Zaydax/PipelineProcessor
f45f7d1a245f291218d53a7f16fd7f98a50ce47e
[ "MIT" ]
null
null
null
lab3_test_harness/test/state_data_in/mem5.asm
Zaydax/PipelineProcessor
f45f7d1a245f291218d53a7f16fd7f98a50ce47e
[ "MIT" ]
null
null
null
.ORIG x3000 LEA R0, LOOP ADD R1, R7, #-14 ADD R2, R0, #10 XOR R3, R0, R7 XOR R4, R3, R5 RSHFA R5, R7, #7 LOOP STW R0, R6, #-4 STW R1, R6, #-3 STW R2, R6, #-2 STW R3, R6, #-1 STW R4, R6, #0 STW R5, R6, #1 STW R6, R6, #2 STW R7, R6, #3 STB R0, R6, #-4 STB R1, R6, #-3 STB R2, R6, #-2 STB R3, R6, #-1 STB R4, R6, #0 STB R5, R6, #1 STB R6, R6, #2 STB R7, R6, #3 JMP R0 HALT .END
14.321429
20
0.518703
e9157742415448efad237c9efca84cce633b882d
384
asm
Assembly
mc-sema/validator/x86_64/tests/PSHUFDmi.asm
randolphwong/mcsema
eb5b376736e7f57ff0a61f7e4e5a436bbb874720
[ "BSD-3-Clause" ]
2
2021-08-07T16:21:29.000Z
2021-11-17T10:58:37.000Z
mc-sema/validator/x86_64/tests/PSHUFDmi.asm
randolphwong/mcsema
eb5b376736e7f57ff0a61f7e4e5a436bbb874720
[ "BSD-3-Clause" ]
null
null
null
mc-sema/validator/x86_64/tests/PSHUFDmi.asm
randolphwong/mcsema
eb5b376736e7f57ff0a61f7e4e5a436bbb874720
[ "BSD-3-Clause" ]
null
null
null
BITS 64 ;TEST_FILE_META_BEGIN ;TEST_TYPE=TEST_F ;TEST_IGNOREFLAGS=FLAG_SF|FLAG_PF ;TEST_FILE_META_END ;TEST_BEGIN_RECORDING lea rcx, [rsp-0x30] and rcx, 0xFFFFFFFFFFFFFFF0 mov dword [rcx+0x00], 0xAAAAAAAA mov dword [rcx+0x04], 0xBBBBBBBB mov dword [rcx+0x08], 0xCCCCCCCC mov dword [rcx+0x0C], 0xDDDDDDDD pshufd xmm0, [rcx], 0x4E mov ecx, 0 ;TEST_END_RECORDING cvtsi2sd xmm0, ecx
17.454545
33
0.789063
16cdf58a23c9488cf00fa54aa6d836e76d97de6b
10,400
asm
Assembly
MSDOS/Virus.MSDOS.Unknown.sysinf.asm
fengjixuchui/Family
2abe167082817d70ff2fd6567104ce4bcf0fe304
[ "MIT" ]
3
2021-05-15T15:57:13.000Z
2022-03-16T09:11:05.000Z
MSDOS/Virus.MSDOS.Unknown.sysinf.asm
fengjixuchui/Family
2abe167082817d70ff2fd6567104ce4bcf0fe304
[ "MIT" ]
null
null
null
MSDOS/Virus.MSDOS.Unknown.sysinf.asm
fengjixuchui/Family
2abe167082817d70ff2fd6567104ce4bcf0fe304
[ "MIT" ]
3
2021-05-15T15:57:15.000Z
2022-01-08T20:51:04.000Z
;Sysinf.asm???? .model tiny .code org 0 ; SYS files originate at zero ; SYS infector ; Written by Dark Angel of Phalcon/Skism ; for 40Hex header: next_header dd -1 ; FFFF:FFFF attribute dw 8000h ; character device strategy dw offset _strategy interrupt dw offset _interrupt namevirus db 'SYS INF ' ; simple SYS infector endheader: author db 0,'Simple SYS infector',0Dh,0Ah db 'Written by Dark Angel of Phalcon/Skism',0 _strategy: ; save es:bx pointer push si call next_strategy next_strategy: pop si mov cs:[si+offset savebx-offset next_strategy],bx mov cs:[si+offset savees-offset next_strategy],es pop si retf _interrupt: ; install virus in memory push ds ; generally, only the segment push es ; registers need to be preserved push cs pop ds call next_interrupt next_interrupt: pop bp les bx,cs:[bp+savebx-next_interrupt] ; get request header pointer mov es:[bx+3],8103h ; default to fail request cmp byte ptr es:[bx+2], 0 ; check if it is installation request jnz exit_interrupt ; exit if it is not mov es:[bx+10h],cs ; fill in ending address value lea si,[bp+header-next_interrupt] mov es:[bx+0eh],si dec byte ptr es:[bx+3] ; and assume installation failure mov ax, 0b0fh ; installation check int 21h cmp cx, 0b0fh jz exit_interrupt ; exit if already installed add es:[bx+0eh],offset endheap ; fixup ending address mov es:[bx+3],100h ; and status word xor ax,ax mov ds,ax ; ds->interrupt table les bx,ds:[21h*4] ; get old interrupt handler mov word ptr cs:[bp+oldint21-next_interrupt],bx mov word ptr cs:[bp+oldint21+2-next_interrupt],es lea si,[bp+int21-next_interrupt] cli mov ds:[21h*4],si ; replace int 21h handler mov ds:[21h*4+2],cs sti exit_interrupt: pop es pop ds retf int21: cmp ax,0b0fh ; installation check? jnz notinstall xchg cx,ax ; mark already installed exitint21: iret notinstall: pushf db 9ah ; call far ptr This combined with the oldint21 dd ? ; pushf simulates an int 21h call pushf push bp push ax mov bp, sp ; set up new stack frame ; flags [bp+10] ; CS:IP [bp+6] ; flags new [bp+4] ; bp [bp+2] ; ax [bp] mov ax, [bp+4] ; get flags mov [bp+10], ax ; replace old flags with new pop ax ; restore the stack pop bp popf cmp ah, 11h ; trap FCB find first and jz findfirstnext cmp ah, 12h ; FCB find next calls only jnz exitint21 findfirstnext: cmp al,0ffh ; successful findfirst/next? jz exitint21 ; exit if not push bp call next_int21 next_int21: pop bp sub bp, offset next_int21 push ax ; save all registers push bx push cx push dx push ds push es push si push di mov ah, 2fh ; ES:BX <- DTA int 21h push es ; DS:BX->DTA pop ds cmp byte ptr [bx], 0FFh ; extended FCB? jnz regularFCB ; continue if not add bx, 7 ; otherwise, convert to regular FCB regularFCB: mov cx, [bx+29] ; get file size mov word ptr cs:[bp+filesize], cx push cs ; ES = CS pop es cld ; The following code converts the FCB to an ASCIIZ string lea di, [bp+filename] ; destination buffer lea si, [bx+1] ; source buffer - filename cmp word ptr [si],'OC' ; do not infect CONFIG.SYS jz bombout mov cx, 8 ; copy up to 8 bytes back: cmp byte ptr ds:[si], ' ' ; is it a space? jz copy_done ; if so, done copying movsb ; otherwise, move character to buffer loop back copy_done: mov al, '.' ; copy period stosb mov ax, 'YS' lea si, [bx+9] ; source buffer - extension cmp word ptr [si], ax ; check if it has the SYS jnz bombout ; extension and exit if it cmp byte ptr [si+2], al ; does not jnz bombout stosw ; copy 'SYS' to the buffer stosb mov al, 0 ; copy null byte stosb push ds pop es ; es:bx -> DTA push cs pop ds xchg di,bx ; es:di -> DTA ; open file, read/only call open ; al already 0 jc bombout ; exit on error mov ah, 3fh ; read first mov cx, 2 ; two bytes of lea dx, [bp+buffer] ; the header int 21h mov ah, 3eh ; close file int 21h InfectSYS: inc word ptr cs:[bp+buffer] ; if first word not FFFF jz continueSYS ; assume already infected ; this is a safe bet since ; most SYS files do not have ; another SYS file chained on alreadyinfected: sub es:[di+29], heap - header ; hide file size increase ; during a DIR command ; This causes CHKDSK errors ;sbb word ptr es:[di+31], 0 ; not needed because SYS files ; are limited to 64K maximum bombout: pop di pop si pop es pop ds pop dx pop cx pop bx pop ax pop bp iret continueSYS: push ds pop es lea si, [bp+offset header] lea di, [bp+offset bigbuffer] mov cx, offset endheader - offset header rep movsb mov cx, cs:[bp+filesize] add cx, offset _strategy - offset header ; calculate offset to mov word ptr [bp+bigbuffer+6],cx ; strategy routine add cx, offset _interrupt - offset _strategy;calculate offset to mov word ptr cs:[bp+bigbuffer+8], cx ; interrupt routine continueinfection: mov ax, 4300h ; get file attributes lea dx, [bp+filename] int 21h push cx ; save attributes on stack push dx ; save filename on stack mov ax, 4301h ; clear file attributes xor cx, cx lea dx,[bp+filename] int 21h call openreadwrite mov ax, 5700h ; get file time/date int 21h push cx ; save them on stack push dx mov ah, 40h ; write filesize to the old mov cx, 2 ; SYS header lea dx, [bp+filesize] int 21h mov ax, 4202h ; go to end of file xor cx, cx cwd ; xor dx, dx int 21h mov ah, 40h ; concatenate header mov cx, offset endheader - offset header lea dx, [bp+bigbuffer] int 21h mov ah, 40h ; concatenate virus mov cx, offset heap - offset endheader lea dx, [bp+endheader] int 21h mov ax, 5701h ; restore file time/date pop dx pop cx int 21h mov ah, 3eh ; close file int 21h mov ax, 4301h ; restore file attributes pop cx pop dx int 21h jmp bombout openreadwrite: mov al, 2 ; open read/write mode open: mov ah, 3dh lea dx,[bp+filename] int 21h xchg ax, bx ; put handle in bx ret heap: savebx dw ? savees dw ? buffer db 2 dup (?) filename db 13 dup (?) filesize dw ? bigbuffer db offset endheader - offset header dup (?) endheap: end header
33.333333
80
0.407404
1d3b3114a227f41ae79c8da386f4a948261d9813
102
asm
Assembly
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_iy/llrint.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_iy/llrint.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_iy/llrint.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
SECTION code_fp_math48 PUBLIC _llrint EXTERN cm48_sdcciy_llrint defc _llrint = cm48_sdcciy_llrint
11.333333
33
0.852941
e4761dfb0a813caa9e4f9e48e2802f2191314558
47
asm
Assembly
tests/test build script and options/include_paths/includeSSSS_v/includeSSSS_all.i.asm
cizo2000/sjasmplus
615d7c0e09a44aa2a923095fc9ed6dca6ecae4a4
[ "BSD-3-Clause" ]
220
2016-10-22T19:44:39.000Z
2022-03-29T20:57:04.000Z
tests/test build script and options/include_paths/includeSSSS_v/includeSSSS_all.i.asm
ped7g/sjasmplus
487635c8057cd5594c372d9b70bc00a3f3a1ecc4
[ "BSD-3-Clause" ]
153
2018-05-07T10:31:23.000Z
2022-03-30T04:35:59.000Z
tests/test build script and options/include_paths/includeSSSS_v/includeSSSS_all.i.asm
ped7g/sjasmplus
487635c8057cd5594c372d9b70bc00a3f3a1ecc4
[ "BSD-3-Clause" ]
51
2016-05-12T21:27:36.000Z
2022-03-27T15:16:16.000Z
; valid Z80 source cp a ret z
11.75
18
0.446809
9a772c4956ccb7bfb648896b46b8697618e2c814
531
asm
Assembly
programs/oeis/283/A283118.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/283/A283118.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/283/A283118.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A283118: a(n) = sigma(5*n). ; 6,18,24,42,31,72,48,90,78,93,72,168,84,144,124,186,108,234,120,217,192,216,144,360,156,252,240,336,180,372,192,378,288,324,248,546,228,360,336,465,252,576,264,504,403,432,288,744,342,468,432,588,324,720,372,720,480,540,360,868,372,576,624,762,434,864,408,756,576,744,432,1170,444,684,624,840,576,1008,480,961,726,756,504,1344,558,792,720,1080,540,1209,672,1008,768,864,620,1512,588,1026,936,1092 mul $0,5 add $0,4 seq $0,203 ; a(n) = sigma(n), the sum of the divisors of n. Also called sigma_1(n).
75.857143
397
0.709981
feda371909b76394a7d3b3ca29a1a1b49e8399e2
510
asm
Assembly
programs/oeis/184/A184012.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/184/A184012.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/184/A184012.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A184012: n + floor(sqrt(5n-4)); complement of A184013. ; 2,4,6,8,9,11,12,14,15,16,18,19,20,22,23,24,26,27,28,29,31,32,33,34,36,37,38,39,40,42,43,44,45,46,48,49,50,51,52,54,55,56,57,58,59,61,62,63,64,65,66,68,69,70,71,72,73,74,76,77,78,79,80,81,82,84,85,86,87,88,89,90,92,93,94,95,96,97,98,99,101,102,103,104,105,106,107,108,110,111,112,113,114,115,116,117,118,120,121,122 mov $2,$0 add $0,5 add $0,$2 sub $0,3 mul $0,2 add $0,$2 mov $1,$2 sub $2,$2 lpb $0,1 sub $0,1 trn $0,$2 add $1,1 add $2,2 lpe
28.333333
316
0.631373
84b9e27162b99c76dcc444abe70805601f26c825
662
asm
Assembly
04_Your_Next_Program/src/alive.asm
junehan-dev/asm-beginning_x64_programming
3ed924c3687600804823382e6123254f8ea760f8
[ "MIT" ]
null
null
null
04_Your_Next_Program/src/alive.asm
junehan-dev/asm-beginning_x64_programming
3ed924c3687600804823382e6123254f8ea760f8
[ "MIT" ]
null
null
null
04_Your_Next_Program/src/alive.asm
junehan-dev/asm-beginning_x64_programming
3ed924c3687600804823382e6123254f8ea760f8
[ "MIT" ]
null
null
null
section .data SYS_WRITE equ 1 STDOUT_FILENO equ 1 msg1 db "Hello, World!", 10, 0 msg1Len equ $-msg1 - 1 ; excepts 0 termination. msg2 db "Alive and Kicking!", 10, 0 msg2Len equ $-msg2 radius dq 357 ; 8bytes pi dq 3.14 section .bss section .text global main main: mov rax, 1 mov rdi, 1 mov rsi, msg1 mov rdx, msg1Len syscall mov rax, 1 mov rdi, 1 mov rsi, msg2 mov rdx, msg2Len syscall mov rax, 60 ; exit syscall mov rdi, 0 ; exit success syscall
20.060606
60
0.487915
af27f8fcc1bbc730ab6625c909ee20c7aa9a110d
5,292
asm
Assembly
SNesoid/sneslib_comp/msdos/gripfnc.asm
Pretz/SNesoid
a9381085e07c5aabbe8e371854d579fede0893ae
[ "Xnet", "X11" ]
17
2015-01-19T05:33:25.000Z
2021-10-05T23:24:33.000Z
snes9x/src/main/cpp/sneslib/msdos/gripfnc.asm
CharlesNascimento/K-SNES
10f97fdf28e647b484a68aecd1387ec549290c62
[ "MIT" ]
5
2015-01-19T09:24:55.000Z
2019-08-09T18:55:58.000Z
SNesoid/sneslib_comp/msdos/gripfnc.asm
Pretz/SNesoid
a9381085e07c5aabbe8e371854d579fede0893ae
[ "Xnet", "X11" ]
22
2015-01-17T00:24:52.000Z
2021-08-13T02:51:30.000Z
[GLOBAL _GrInitialize] [GLOBAL _GrShutdown] [GLOBAL _GrRefresh] [GLOBAL _GrGetSlotMap] [GLOBAL _GrGetClassMap] [GLOBAL _GrGetOEMClassMap] [GLOBAL _GrGetMaxIndex] [GLOBAL _GrGetMaxValue] [GLOBAL _GrGetValue] [GLOBAL _GrGetPackedValues] [GLOBAL _GrSetValue] [GLOBAL _GrGetVendorName] [GLOBAL _GrGetProductName] [GLOBAL _GrGetControlName] [GLOBAL _GrGetCaps] [GLOBAL _Gr__Link] [GLOBAL _Gr__Unlink] [GLOBAL _GrGetSWVer] [GLOBAL _GrGetHWVer] [GLOBAL _GrGetDiagCnt] [GLOBAL _GrGetDiagReg] [GLOBAL _DPMI_SetCodeAR] [GLOBAL _DPMI_SetDataAR] [EXTERN _GRIP_Thunk] [SEGMENT .text] ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Since I don't know which registers DJGPP wants preserved, I've decided to ;; ;; save all registers that get modified, except for EAX when the function ;; ;; returns a value. Better safe than sorry, says me. ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; _GrInitialize: mov ax, 84A1h call far [_GRIP_Thunk+8] RET _GrShutdown: push eax mov ax, 84A2h call far [_GRIP_Thunk+8] pop eax RET _GrRefresh: push ebp mov ebp, esp push edx mov edx, dword [ebp+8] mov ax, 84A0h call far [_GRIP_Thunk+8] pop edx pop ebp RET _GrGetSlotMap: mov ax, 84B0h call far [_GRIP_Thunk+8] RET _GrGetClassMap: push ebp mov ebp, esp push ebx mov bh, byte [ebp+8] mov ax, 84B1h call far [_GRIP_Thunk+8] pop ebx pop ebp RET _GrGetOEMClassMap: push ebp mov ebp, esp push ebx mov bh, byte [ebp+8] mov ax, 84B2h call far [_GRIP_Thunk+8] pop ebx pop ebp RET _GrGetMaxIndex: push ebp mov ebp, esp push ebx mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ax, 84B3h call far [_GRIP_Thunk+8] pop ebx pop ebp RET _GrGetMaxValue push ebp mov ebp, esp mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ax, 84B4h call far [_GRIP_Thunk+8] pop ebp RET _GrGetValue push ebp mov ebp, esp push ebx push ecx mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ch, byte [ebp+16] mov ax, 84C0h call far [_GRIP_Thunk+8] pop ecx pop ebx pop ebp RET _GrGetPackedValues push ebp mov ebp, esp push ebx push ecx mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ch, byte [ebp+16] mov cl, byte [ebp+20] mov ax, 84C1h call far [_GRIP_Thunk+8] pop ecx pop ebx pop ebp RET _GrSetValue push ebp mov ebp, esp push eax push ebx push ecx push edx mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ch, byte [ebp+16] mov dx, word [ebp+20] mov ax, 84C2h call far [_GRIP_Thunk+8] pop edx pop ecx pop ebx pop eax pop ebp RET _GrGetVendorName push ebp mov ebp, esp push esi push edi push eax push ebx push ecx push edx mov bh, byte [ebp+8] mov edi, dword [ebp+12] mov ax, 84D0h call dword far [_GRIP_Thunk+8] mov dword [edi+00h], ebx mov dword [edi+04h], ecx mov dword [edi+08h], edx mov dword [edi+0Ch], esi pop edx pop ecx pop ebx pop eax pop edi pop esi pop ebp RET _GrGetProductName push ebp mov ebp, esp push esi push edi push ebx push ecx push edx mov bh, byte [ebp+8] mov edi, dword [ebp+12] mov ax, 84D1h call far [_GRIP_Thunk+8] mov dword [edi+00h], ebx mov dword [edi+04h], ecx mov dword [edi+08h], edx mov dword [edi+0Ch], esi pop edx pop ecx pop ebx pop edi pop esi pop ebp RET _GrGetControlName push ebp mov ebp, esp push esi push edi push eax push ebx push ecx push edx mov bh, byte [ebp+8] mov bl, byte [ebp+12] mov ch, byte [ebp+16] mov edi, dword [ebp+20] mov ax, 84D2h call far [_GRIP_Thunk+8] mov dword [edi+00h], ebx mov dword [edi+04h], ecx mov dword [edi+08h], edx mov dword [edi+0Ch], esi pop edx pop ecx pop ebx pop eax pop edi pop esi pop ebp RET _GrGetCaps xor eax, eax RET _Gr__Link mov ax, 8490h call far [_GRIP_Thunk+8] RET _Gr__Unlink push eax mov ax, 8491h call far [_GRIP_Thunk+8] pop eax RET _GrGetSWVer mov ax, 84F0h call far [_GRIP_Thunk+8] RET _GrGetHWVer mov ax, 84F1h call far [_GRIP_Thunk+8] RET _GrGetDiagCnt mov ax, 84F2h call far [_GRIP_Thunk+8] RET _GrGetDiagReg push ebp mov ebp, esp push ebx mov bh, byte [ebp+8] mov ax, 84F3h call far [_GRIP_Thunk+8] pop ebx pop ebp RET ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; These functions call the DPMI host to set access rights for the ;; ;; descriptor whose selector is sent as a parameter. ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; _DPMI_SetCodeAR: push ebp mov ebp, esp push ebx push ecx pushf mov bx, word [ebp + 8] mov cx, cs lar ecx, ecx shr cx, 8 mov eax, 09h int 31h setc al popf pop ecx pop ebx pop ebp RET _DPMI_SetDataAR: push ebp mov ebp, esp push ebx push ecx pushf mov bx, word [ebp + 8] mov cx, ds lar ecx, ecx shr cx, 8 mov eax, 09h int 31h setc al popf pop ecx pop ebx pop ebp RET
14.49863
79
0.598828
b5c3fb3a08083a0f474225414dc88f3c5a4023e2
679
asm
Assembly
oeis/047/A047974.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/047/A047974.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/047/A047974.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A047974: a(n) = a(n-1) + 2*(n-1)*a(n-2). ; Submitted by Jamie Morken(s1.) ; 1,1,3,7,25,81,331,1303,5937,26785,133651,669351,3609673,19674097,113525595,664400311,4070168161,25330978113,163716695587,1075631907655,7296866339961,50322142646161,356790528924523,2570964805355607,18983329135883665,142389639792952801,1091556096587136051,8495817365820681703,67439846581526028457,543205619067484203825,4454716720795993854331,37047053864845046083831,313239490554196665052353,2684250937904279614417537,23358057314481259507872835,205887121091972273288265351,1840951133105660438839363801 mov $1,1 lpb $0 mul $3,$0 sub $0,1 mov $2,$3 mov $3,$1 add $3,$1 add $1,$2 lpe mov $0,$1
45.266667
500
0.811487
e25749540e38e72b0c0f15d496aec847d933bb0e
3,200
asm
Assembly
stage2/16/do-rm16-call.asm
tkchia/refirmish
beb4199b2c4b17bfcca3552ae94dfb3649445da5
[ "BSD-3-Clause" ]
null
null
null
stage2/16/do-rm16-call.asm
tkchia/refirmish
beb4199b2c4b17bfcca3552ae94dfb3649445da5
[ "BSD-3-Clause" ]
null
null
null
stage2/16/do-rm16-call.asm
tkchia/refirmish
beb4199b2c4b17bfcca3552ae94dfb3649445da5
[ "BSD-3-Clause" ]
null
null
null
; Copyright (c) 2021--2022 TK Chia ; ; Redistribution and use in source and binary forms, with or without ; modification, are permitted provided that the following conditions are ; met: ; ; * Redistributions of source code must retain the above copyright ; notice, this list of conditions and the following disclaimer. ; * Redistributions in binary form must reproduce the above copyright ; notice, this list of conditions and the following disclaimer in the ; documentation and/or other materials provided with the distribution. ; * Neither the name of the developer(s) nor the names of its ; contributors may be used to endorse or promote products derived from ; this software without specific prior written permission. ; ; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS ; IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ; TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A ; PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT ; HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, ; SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED ; TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR ; PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ; LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING ; NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. %include "stage2/stage2.inc" section .text bits 16 extern _stack16 global rm16_call.cont1, rm16_call.rm_cs16 rm16_call.cont1: ; on entry eax, ebx, ecx, edx give ; the parameters to pass to the ; callee, [edi] is the real mode far ; address to call, & esi is free mov si, SEL_DS16_ZERO ; prime segment descriptor caches mov ds, si ; with 16-bit properties mov es, si mov fs, si mov gs, si mov esi, cr0 ; switch to real mode without paging and esi, ~(CR0_PG|CR0_PE) mov cr0, esi jmp 0:rm16_call.cont2 rm16_call.rm_cs16 equ $-2 rm16_call.cont2: mov si, [bda.ebda] ; really set up segments mov ds, si mov [sp32], esp ; store the protected-mode esp & cr3 mov esp, cr3 mov [ptpd32], esp mov ss, si mov esp, _stack16 mov es, si xor si, si mov fs, si mov gs, si o32 sgdt [gdtr] ; save our GDTR mov esi, cr4 ; turn off cr4.PAE in case some 3rd- and si, byte ~CR4_PAE ; -party code wants to set up its mov cr4, esi ; own page tables at some point... call far word [fs:edi] ; call the callee cli xor si, si ; restore the 32-bit stack & also mov ss, si ; restore our GDTR, esp, & cr3 mov ds, [ss:bda.ebda] mov esp, [sp32] mov esi, [ptpd32] mov cr3, esi o32 lgdt [gdtr] mov esi, cr4 ; return to 32-bit protected mode or si, byte CR4_PAE ; with PAE paging mov cr4, esi mov esi, cr0 or esi, CR0_PG|CR0_PE mov cr0, esi jmp short rm16_call.cont3 rm16_call.cont3: add esp, 8 jmp far dword [esp-8] section .bss sp32: resd 1 ptpd32: resd 1 gdtr: resb 6 ; We need to export the `bda' symbol, which gives the linear address of the ; BIOS data area, so that C code can use it. Export it here... global bda
33.333333
75
0.727188
17378a63d43a7de4cdfe732c315e35325e0c001e
4,582
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0xca_notsx.log_21829_1426.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_0xca_notsx.log_21829_1426.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_0xca_notsx.log_21829_1426.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 %r12 push %rcx push %rdi push %rsi lea addresses_WC_ht+0x1fa8, %rsi lea addresses_UC_ht+0x156de, %rdi nop nop nop cmp $46339, %r12 mov $80, %rcx rep movsw cmp %rcx, %rcx pop %rsi pop %rdi pop %rcx pop %r12 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r12 push %r13 push %r15 push %rax push %rdi // Store lea addresses_A+0x12d6e, %r12 nop nop sub %r13, %r13 mov $0x5152535455565758, %r11 movq %r11, (%r12) nop nop nop nop nop xor $17150, %r12 // Store lea addresses_A+0xa728, %r13 nop nop nop nop nop and %r10, %r10 movw $0x5152, (%r13) nop nop xor %r12, %r12 // Faulty Load lea addresses_WC+0xc28, %r13 nop nop nop nop dec %rdi movb (%r13), %r11b lea oracles, %rdi and $0xff, %r11 shlq $12, %r11 mov (%rdi,%r11,1), %r11 pop %rdi pop %rax pop %r15 pop %r13 pop %r12 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 0, 'same': False, 'type': 'addresses_WC'}, 'OP': 'LOAD'} {'dst': {'NT': False, 'AVXalign': False, 'size': 8, 'congruent': 1, 'same': False, 'type': 'addresses_A'}, 'OP': 'STOR'} {'dst': {'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 7, 'same': False, 'type': 'addresses_A'}, 'OP': 'STOR'} [Faulty Load] {'src': {'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 0, 'same': True, 'type': 'addresses_WC'}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'congruent': 3, 'same': False, 'type': 'addresses_WC_ht'}, 'dst': {'congruent': 1, 'same': False, 'type': 'addresses_UC_ht'}, 'OP': 'REPM'} {'38': 21829} 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 */
49.268817
2,999
0.660629
1eb7dc7104d20e04bfb0fe3343365ed596cb509d
975
asm
Assembly
programs/oeis/163/A163733.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/163/A163733.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/163/A163733.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A163733: Number of n X 2 binary arrays with all 1's connected, all corners 1, and no 1 having more than two 1's adjacent. ; 1,1,2,2,4,6,10,16,26,42,68,110,178,288,466,754,1220,1974,3194,5168,8362,13530,21892,35422,57314,92736,150050,242786,392836,635622,1028458,1664080,2692538,4356618,7049156,11405774,18454930,29860704,48315634,78176338,126491972,204668310,331160282,535828592,866988874,1402817466,2269806340,3672623806,5942430146,9615053952,15557484098,25172538050,40730022148,65902560198,106632582346,172535142544,279167724890,451702867434,730870592324,1182573459758,1913444052082,3096017511840,5009461563922,8105479075762,13114940639684,21220419715446,34335360355130,55555780070576,89891140425706,145446920496282,235338060921988,380784981418270,616123042340258,996908023758528,1613031066098786,2609939089857314,4222970155956100,6832909245813414 mov $1,1 mov $2,$0 lpb $2 add $3,$1 lpb $4 mov $1,$0 mov $0,$3 trn $4,$3 lpe sub $2,1 mov $4,$0 lpe
60.9375
727
0.814359
e67bbd7c2372773d7e6434283e9ab9dc2ce6ceda
8,821
asm
Assembly
2004-spring/mp3/mp3.asm
ece291/machine-problems
5f91f9f2ddceb7cda1e14c2973d83023a42d9929
[ "RSA-MD" ]
3
2016-07-16T04:33:49.000Z
2021-07-13T16:18:17.000Z
2004-spring/mp3/mp3.asm
ece291/machine-problems
5f91f9f2ddceb7cda1e14c2973d83023a42d9929
[ "RSA-MD" ]
null
null
null
2004-spring/mp3/mp3.asm
ece291/machine-problems
5f91f9f2ddceb7cda1e14c2973d83023a42d9929
[ "RSA-MD" ]
null
null
null
; MP3 - Conway's Game of Life ; Your Name ; Date ; ; Zbigniew Kalbarczyk, Spring 2004 ; Author: Ryan Chmiel ; University of Illinois, Urbana-Champaign ; Dept. of Electrical and Computer Engineering ; ; Version 1.0 BITS 16 ;====== SECTION 1: Define constants ======================================= ESCKEY EQU 01 SKEY EQU 31 NKEY EQU 49 BORDERCOLOR EQU 4000h EMPTYCOLOR EQU 7000h OCCUPIEDCOLOR EQU 6000h NUMROWS EQU 25 NUMCOLS EQU 40 ;====== SECTION 2: Declare external routines ============================== ; Declare external library routines EXTERN mp3xit EXTERN libMP3Main, libUpdateBoard, libNextGeneration, libDrawScreen, libRefreshScreen EXTERN libInstallKeyboard, libRemoveKeyboard, libKeyboardISR EXTERN libInstallMouse, libRemoveMouse, libMouseCallback EXTERN libInstallTimer, libRemoveTimer, libTimerISR ; GLOBAL program routines and variables GLOBAL MP3Main, UpdateBoard, NextGeneration, DrawScreen, RefreshScreen GLOBAL InstallKeyboard, RemoveKeyboard, KeyboardISR GLOBAL InstallMouse, RemoveMouse, MouseCallback GLOBAL InstallTimer, RemoveTimer, TimerISR GLOBAL oldKeyboardV, oldTimerV, TimerTick GLOBAL CurrentBoard, NewBoard, ScreenBuffer, ColorTable GLOBAL MouseXPos, MouseYPos, MPFlags, Menu ;====== SECTION 3: Define stack segment =================================== SEGMENT stkseg STACK ; *** STACK SEGMENT *** resb 64*16 stacktop: resb 0 ; work around NASM bug ;====== SECTION 4: Define code segment ==================================== SEGMENT code ; *** CODE SEGMENT *** ;====== SECTION 5: Declare variables for main procedure =================== oldKeyboardV dd 0 ; Address of old keyboard handler oldTimerV dd 0 ; Address of old timer handler TimerTick db 0 ; variable to keep track of each tick of the timer CurrentBoard times NUMROWS*NUMCOLS db 0 NewBoard times NUMROWS*NUMCOLS db 0 ScreenBuffer times 80*50 dw 0 ColorTable dw EMPTYCOLOR, OCCUPIEDCOLOR, BORDERCOLOR MouseXPos dw 0 MouseYPos dw 0 MPFlags db 0 ; Bit 0 - End Game Flag ; Bit 1 - Calculate Next Generation ; Bit 2 - Auto-Calculate Next Generation ; Bit 3 - LMB Status (High if Held Down) Menu times 400 dw 0 times 48 dw 0 db 0E4h, 0Fh, 9Bh, 0Fh, 0E4h, 0Fh, ' ', 00h, '2', 0Fh, '9', 0Fh, '1', 0Fh, ' ', 00h db 'M', 0Fh, 'P', 0Fh, '3', 0Fh, ' ', 00h, 'S', 0Fh, 'P', 0Fh, 'R', 0Fh, 'I', 0Fh db 'N', 0Fh, 'G', 0Fh, ' ', 00h, '2', 0Fh, '0', 0Fh, '0', 0Fh, '4', 0Fh times 9 dw 0 times 49 dw 0 db 'C', 0Fh, 'O', 0Fh, 'N', 0Fh, 'W', 0Fh, 'A', 0Fh, 'Y', 0Fh, 27h, 0Fh, 'S', 0Fh db ' ', 00h, 'G', 0Fh, 'A', 0Fh, 'M', 0Fh, 'E', 0Fh, ' ', 00h, 'O', 0Fh, 'F', 0Fh db ' ', 00h, 'L', 0Fh, 'I', 0Fh, 'F', 0Fh, 'E', 0Fh times 10 dw 0 times 240 dw 0 times 48 dw 0 db 'P', 0Fh, 'L', 0Fh, 'A', 0Fh, 'C', 0Fh, 'E', 0Fh, ' ', 0Fh, 'C', 0Fh, 'E', 0Fh db 'L', 0Fh, 'L', 0Fh, 'S', 0Fh, ' ', 0Fh, 'O', 0Fh, 'N', 0Fh, ' ', 0Fh, 'T', 0Fh db 'H', 0Fh, 'E', 0Fh, ' ', 0Fh, 'B', 0Fh, 'O', 0Fh, 'A', 0Fh, 'R', 0Fh, 'D', 0Fh times 8 dw 0 times 47 dw 0 db 'T', 0Fh, 'O', 0Fh, ' ', 0Fh, 'T', 0Fh, 'H', 0Fh, 'E', 0Fh, ' ', 0Fh, 'L', 0Fh db 'E', 0Fh, 'F', 0Fh, 'T', 0Fh, ' ', 0Fh, 'W', 0Fh, 'I', 0Fh, 'T', 0Fh, 'H', 0Fh db ' ', 0Fh, 'T', 0Fh, 'H', 0Fh, 'E', 0Fh, ' ', 0Fh, 'M', 0Fh, 'O', 0Fh, 'U', 0Fh db 'S', 0Fh, 'E', 0Fh times 7 dw 0 times 240 dw 0 times 47 dw 0 db 'N', 0Fh, ' ', 0Fh, '-', 0Fh, ' ', 0Fh, 'C', 0Fh, 'R', 0Fh, 'E', 0Fh, 'A', 0Fh db 'T', 0Fh, 'E', 0Fh, ' ', 0Fh, 'N', 0Fh, 'E', 0Fh, 'X', 0Fh, 'T', 0Fh, ' ', 0Fh db 'G', 0Fh, 'E', 0Fh, 'N', 0Fh, 'E', 0Fh, 'R', 0Fh, 'A', 0Fh, 'T', 0Fh, 'I', 0Fh db 'O', 0Fh, 'N', 0Fh times 7 dw 0 times 80 dw 0 times 47 dw 0 db 'S', 0Fh, ' ', 0Fh, '-', 0Fh, ' ', 0Fh, 'S', 0Fh, 'T', 0Fh, 'A', 0Fh, 'R', 0Fh db 'T', 0Fh, '/', 0Fh, 'S', 0Fh, 'T', 0Fh, 'O', 0Fh, 'P', 0Fh, ' ', 0Fh, 'A', 0Fh db 'U', 0Fh, 'T', 0Fh, 'O', 0Fh, '-', 0Fh, 'G', 0Fh, 'E', 0Fh, 'N', 0Fh, 'E', 0Fh db 'R', 0Fh, 'A', 0Fh, 'T', 0Fh, 'E', 0Fh times 5 dw 0 times 80 dw 0 times 47 dw 0 db 'E', 0Fh, 'S', 0Fh, 'C', 0Fh, ' ', 0Fh, '-', 0Fh, ' ', 0Fh, 'E', 0Fh, 'X', 0Fh db 'I', 0Fh, 'T', 0Fh, ' ', 0Fh, 'T', 0Fh, 'H', 0Fh, 'E', 0Fh, ' ', 0Fh, 'P', 0Fh db 'R', 0Fh, 'O', 0Fh, 'G', 0Fh, 'R', 0Fh, 'A', 0Fh, 'M', 0Fh times 11 dw 0 times 400 dw 0 ;====== SECTION 6: Program initialization ================================= ..start: mov ax, cs ; Initialize Default Segment register mov ds, ax mov ax, stkseg ; Initialize Stack Segment register mov ss, ax mov sp, stacktop ; Initialize Stack Pointer register ;====== SECTION 7: Main procedure ========================================= MAIN: mov ax, 3 ; Set up and clear the video screen int 10h mov ah, 02h ; move cursor to row 25, col 0 (hide it) mov dx, 1900h int 10h call MP3Main mov ax, 3 ; Reset and clear the video screen int 10h call mp3xit ;-------------------------------------------------------------- ;-- Replace Library Calls with your Code! -- ;-- Save all reg values that you modify -- ;-- Don't forget to add Function Headers -- ;-------------------------------------------------------------- ;-------------------------------------------------------------- ;-- MP3Main() -- ;-------------------------------------------------------------- MP3Main call libMP3Main ret ;-------------------------------------------------------------- ;-- UpdateBoard() -- ;-------------------------------------------------------------- UpdateBoard call libUpdateBoard ret ;-------------------------------------------------------------- ;-- NextGeneration() -- ;-------------------------------------------------------------- NextGeneration call libNextGeneration ret ;-------------------------------------------------------------- ;-- DrawScreen() -- ;-------------------------------------------------------------- DrawScreen call libDrawScreen ret ;-------------------------------------------------------------- ;-- RefreshScreen() -- ;-------------------------------------------------------------- RefreshScreen call libRefreshScreen ret ;-------------------------------------------------------------- ;-- InstallKeyboard() -- ;-------------------------------------------------------------- InstallKeyboard call libInstallKeyboard ret ;-------------------------------------------------------------- ;-- RemoveKeyboard() -- ;-------------------------------------------------------------- RemoveKeyboard call libRemoveKeyboard ret ;-------------------------------------------------------------- ;-- KeyboardISR() -- ;-------------------------------------------------------------- KeyboardISR call libKeyboardISR iret ;-------------------------------------------------------------- ;-- InstallMouse() -- ;-------------------------------------------------------------- InstallMouse call libInstallMouse ret ;-------------------------------------------------------------- ;-- RemoveMouse() -- ;-------------------------------------------------------------- RemoveMouse call libRemoveMouse ret ;-------------------------------------------------------------- ;-- MouseCallback() -- ;-------------------------------------------------------------- MouseCallback call libMouseCallback retf ;-------------------------------------------------------------- ;-- InstallTimer() -- ;-------------------------------------------------------------- InstallTimer call libInstallTimer ret ;-------------------------------------------------------------- ;-- RemoveTimer() -- ;-------------------------------------------------------------- RemoveTimer call libRemoveTimer ret ;-------------------------------------------------------------- ;-- TimerISR() -- ;-------------------------------------------------------------- TimerISR call libTimerISR jmp far [oldTimerV]
33.926923
85
0.39678
b73987efa71f368692e90ee6128ed3b942376e1e
944
asm
Assembly
programs/oeis/006/A006257.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/006/A006257.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/006/A006257.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A006257: Josephus problem: a(2*n) = 2*a(n)-1, a(2*n+1) = 2*a(n)+1. ; 0,1,1,3,1,3,5,7,1,3,5,7,9,11,13,15,1,3,5,7,9,11,13,15,17,19,21,23,25,27,29,31,1,3,5,7,9,11,13,15,17,19,21,23,25,27,29,31,33,35,37,39,41,43,45,47,49,51,53,55,57,59,61,63,1,3,5,7,9,11,13,15,17,19,21,23,25,27,29,31,33,35,37,39,41,43,45,47,49,51,53,55,57,59,61,63,65,67,69,71,73,75,77,79,81,83,85,87,89,91,93,95,97,99,101,103,105,107,109,111,113,115,117,119,121,123,125,127,1,3,5,7,9,11,13,15,17,19,21,23,25,27,29,31,33,35,37,39,41,43,45,47,49,51,53,55,57,59,61,63,65,67,69,71,73,75,77,79,81,83,85,87,89,91,93,95,97,99,101,103,105,107,109,111,113,115,117,119,121,123,125,127,129,131,133,135,137,139,141,143,145,147,149,151,153,155,157,159,161,163,165,167,169,171,173,175,177,179,181,183,185,187,189,191,193,195,197,199,201,203,205,207,209,211,213,215,217,219,221,223,225,227,229,231,233,235,237,239,241,243 mov $2,$0 lpb $0,1 mul $0,2 sub $0,1 mov $1,$0 trn $0,$2 lpe
85.818182
804
0.659958
4d16b7898b7a7cd787a9c73d516a729d70797beb
2,187
asm
Assembly
ex1c.asm
ILZM/mips_examples
eddd38d1721756c6aa7b916b434a7980a2b3e2d5
[ "Unlicense" ]
null
null
null
ex1c.asm
ILZM/mips_examples
eddd38d1721756c6aa7b916b434a7980a2b3e2d5
[ "Unlicense" ]
null
null
null
ex1c.asm
ILZM/mips_examples
eddd38d1721756c6aa7b916b434a7980a2b3e2d5
[ "Unlicense" ]
null
null
null
.data DISPLAYSPACE: .space 65536 # reserve space at the beginning of .data segment for the bitmap DISPLAYSIZE: .word 128 RADIUS: .word 128 RED: .word 0xff0000 GREEN: .word 0x00ff00 BLUE: .word 0x0000ff .text j main ################################################# load_red_proc: la $a2, RED lw $a2, 0($a2) jr $ra ################################################# load_green_proc: la $a2, GREEN lw $a2, 0($a2) jr $ra ################################################# load_blue_proc: la $a2, BLUE lw $a2, 0($a2) jr $ra ################################################# set_pixel_color_proc: add $sp, $sp, -4 sw $t0, 0($sp) mulu $t0, $a1, $s0 add $t0, $t0, $a0 mulu $t0, $t0, 4 add $t0, $t0, $s2 sw $a2, 0($t0) lw $t0, 0($sp) add $sp, $sp, 4 jr $ra ################################################# # a3 - radius quat_circle_proc: add $sp, $sp, -4 sw $ra, 0($sp) add $t9, $zero, 0 quat_circle_loop: add $t9, $t9, 1 add $a3, $zero, $t9 jal draw_circle_proc bne $s3, $t9, quat_circle_loop lw $ra, 0($sp) add $sp, $sp, 4 jr $ra ################################################# # a3 - radius draw_circle_proc: add $sp, $sp, -4 sw $ra, 0($sp) add $t0, $zero, $a3 # get the radius mulu $t2, $t0, $t0 # t2 - radius^2 add $t1, $zero, $s0 # t1 - y loop add $t1, $t1, -1 draw_circle_proc_loopY: add $t0, $zero, $s0 # t0 - x loop add $t0, $t0, -1 draw_circle_proc_loopX: mulu $t3, $t0, $t0 mulu $t4, $t1, $t1 add $t3, $t3, $t4 jal load_blue_proc bge $t3, $t2, draw_circle_proc_skip_red jal load_red_proc draw_circle_proc_skip_red: add $a0, $t0, $zero # pass x add $a1, $t1, $zero # pass y jal set_pixel_color_proc add $t0, $t0, -1 # decrease x bne $t0, -1, draw_circle_proc_loopX add $t1, $t1, -1 # decrease y bne $t1, -1, draw_circle_proc_loopY lw $ra, 0($sp) add $sp, $sp, 4 jr $ra ################################################# main: la $t0, DISPLAYSIZE lw $s0, 0($t0) # s0 holds border x la $t0, DISPLAYSIZE lw $s1, 0($t0) # s1 holds border y la $s2, DISPLAYSPACE la $t0, RADIUS lw $s3, 0($t0) add $a3, $s3, $zero jal draw_circle_proc add $a3, $s3, $zero jal quat_circle_proc
16.953488
93
0.519433
c6c0fa8043da7636606df9873d8286010d640eed
565
asm
Assembly
engine/battle/safari_zone.asm
adhi-thirumala/EvoYellow
6fb1b1d6a1fa84b02e2d982f270887f6c63cdf4c
[ "Unlicense" ]
16
2018-08-28T21:47:01.000Z
2022-02-20T20:29:59.000Z
engine/battle/safari_zone.asm
adhi-thirumala/EvoYellow
6fb1b1d6a1fa84b02e2d982f270887f6c63cdf4c
[ "Unlicense" ]
5
2019-04-03T19:53:11.000Z
2022-03-11T22:49:34.000Z
engine/battle/safari_zone.asm
adhi-thirumala/EvoYellow
6fb1b1d6a1fa84b02e2d982f270887f6c63cdf4c
[ "Unlicense" ]
2
2019-12-09T19:46:02.000Z
2020-12-05T21:36:30.000Z
PrintSafariZoneBattleText: ld hl, wSafariBaitFactor ld a, [hl] and a jr z, .asm_411e dec [hl] ld hl, SafariZoneEatingText jr .asm_4138 .asm_411e dec hl ld a, [hl] and a ret z dec [hl] ld hl, SafariZoneAngryText jr nz, .asm_4138 push hl ld a, [wEnemyMonSpecies] ld [wd0b5], a call GetMonHeader ld a, [wMonHCatchRate] ld [wEnemyMonCatchRate], a pop hl .asm_4138 push hl call LoadScreenTilesFromBuffer1 pop hl jp PrintText SafariZoneEatingText: TX_FAR _SafariZoneEatingText db "@" SafariZoneAngryText: TX_FAR _SafariZoneAngryText db "@"
15.27027
32
0.741593
844d0c31989f101ba38d78325354ce86c55baea1
38
asm
Assembly
src/test/resources/data/generationtests/sjasm-rept1.asm
cpcitor/mdlz80optimizer
75070d984e1f08474e6d397c7e0eb66d8be0c432
[ "Apache-2.0" ]
36
2020-06-29T06:52:26.000Z
2022-02-10T19:41:58.000Z
src/test/resources/data/generationtests/sjasm-rept1.asm
cpcitor/mdlz80optimizer
75070d984e1f08474e6d397c7e0eb66d8be0c432
[ "Apache-2.0" ]
39
2020-07-02T18:19:34.000Z
2022-03-27T18:08:54.000Z
src/test/resources/data/generationtests/sjasm-rept1.asm
cpcitor/mdlz80optimizer
75070d984e1f08474e6d397c7e0eb66d8be0c432
[ "Apache-2.0" ]
7
2020-07-02T06:00:05.000Z
2021-11-28T17:31:13.000Z
; Test case: [4] rrca loop: jp loop
7.6
13
0.605263
c6f9838e1eec36336a6afbd47ea8f26271d42582
1,293
asm
Assembly
programs/oeis/309/A309761.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/309/A309761.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/309/A309761.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A309761: Numbers that are sums of consecutive powers of 10. ; 1,10,11,100,110,111,1000,1100,1110,1111,10000,11000,11100,11110,11111,100000,110000,111000,111100,111110,111111,1000000,1100000,1110000,1111000,1111100,1111110,1111111,10000000,11000000,11100000,11110000,11111000,11111100,11111110,11111111,100000000,110000000,111000000,111100000,111110000,111111000,111111100,111111110,111111111,1000000000,1100000000,1110000000,1111000000,1111100000,1111110000,1111111000,1111111100,1111111110,1111111111,10000000000,11000000000,11100000000,11110000000,11111000000,11111100000,11111110000,11111111000,11111111100,11111111110,11111111111,100000000000,110000000000,111000000000,111100000000,111110000000,111111000000,111111100000,111111110000,111111111000,111111111100,111111111110,111111111111,1000000000000,1100000000000,1110000000000,1111000000000,1111100000000,1111110000000,1111111000000,1111111100000,1111111110000,1111111111000,1111111111100,1111111111110,1111111111111,10000000000000,11000000000000,11100000000000,11110000000000,11111000000000,11111100000000,11111110000000,11111111000000,11111111100000 seq $0,224195 ; Ordered sequence of numbers of form (2^n - 1)*2^m + 1 where n >= 1, m >= 1. seq $0,204094 ; Numbers whose set of base 10 digits is {0,7}. sub $0,77 div $0,70 add $0,1
143.666667
1,046
0.856922
e929ec9f43f687993aad8f931cbf42a905fe774b
1,258
asm
Assembly
libsrc/stdio_new/file/stream-out/stdio_out_c.asm
andydansby/z88dk-mk2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
1
2020-09-15T08:35:49.000Z
2020-09-15T08:35:49.000Z
libsrc/stdio_new/file/stream-out/stdio_out_c.asm
andydansby/z88dk-MK2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
null
null
null
libsrc/stdio_new/file/stream-out/stdio_out_c.asm
andydansby/z88dk-MK2
51c15f1387293809c496f5eaf7b196f8a0e9b66b
[ "ClArtistic" ]
null
null
null
; stdio_out_c ; 05.2008 aralbrec XLIB stdio_out_c LIB stdio_outchar, stdio_outpad ; output %c parameter ; ; enter : ix = FILE * ; a = precision (default 1) ; b = width (default 0) ; c = flags [-+ O#PLN] ; de = 16-bit parameter (most significant word if long) ; hl = & parameter list ; bc' = total num chars output on stream thus far ; carry flag reset (important for %x, %lx) ; stack = output buffer, ptr in format string, ret ; on exit : bc' = total num chars output on stream thus far ; hl = & parameter list ; carry set if error on stream, ERRNO set appropriately ; uses : af, bc, de, hl, exx, bc' .stdio_out_c push hl ; save & parameter list call dorest pop hl ; hl = & parameter list ret .dorest inc b ; make width at least 1 djnz widthok inc b .widthok bit 7,c jr z, rightjustified .leftjustified ld a,e call stdio_outchar ret c djnz satisfywidth ret .satisfywidth ld c,' ' jp stdio_outpad .rightjustified dec b call nz, satisfywidth ret c ld a,e jp stdio_outchar
19.968254
68
0.553259
7ba33c3494ae247b9e176462e69ee5e2f0f0262c
43,895
asm
Assembly
sw/552tests/rand_ctrl/t_7_ctrl.asm
JPShen-UWM/ThreadKraken
849c510531f28e36d3469535737b2120bd774935
[ "MIT" ]
1
2022-02-15T16:03:25.000Z
2022-02-15T16:03:25.000Z
sw/552tests/rand_ctrl/t_7_ctrl.asm
JPShen-UWM/ThreadKraken
849c510531f28e36d3469535737b2120bd774935
[ "MIT" ]
null
null
null
sw/552tests/rand_ctrl/t_7_ctrl.asm
JPShen-UWM/ThreadKraken
849c510531f28e36d3469535737b2120bd774935
[ "MIT" ]
null
null
null
// seed 7 lbi r0, 68 // icount 0 slbi r0, 174 // icount 1 lbi r1, 67 // icount 2 slbi r1, 33 // icount 3 lbi r2, 126 // icount 4 slbi r2, 76 // icount 5 lbi r3, 40 // icount 6 slbi r3, 184 // icount 7 lbi r4, 2 // icount 8 slbi r4, 23 // icount 9 lbi r5, 200 // icount 10 slbi r5, 228 // icount 11 lbi r6, 136 // icount 12 slbi r6, 227 // icount 13 lbi r7, 74 // icount 14 slbi r7, 106 // icount 15 lbi r2, 0 // icount 16 lbi r3, 0 // icount 17 nop // to align branch icount 18 beqz r4, 28 // icount 19 andni r0, r0, 1 // icount 20 ld r5, r0, 0 // icount 21 sub r7, r5, r2 // icount 22 andn r5, r2, r4 // icount 23 slt r1, r4, r6 // icount 24 rori r2, r5, 12 // icount 25 add r4, r4, r1 // icount 26 andn r5, r5, r6 // icount 27 sub r5, r0, r0 // icount 28 slt r0, r4, r7 // icount 29 xor r7, r2, r5 // icount 30 slli r5, r3, 14 // icount 31 xor r7, r2, r0 // icount 32 xori r2, r5, 2 // icount 33 addi r4, r0, 13 // icount 34 slt r0, r1, r2 // icount 35 andni r0, r0, 1 // icount 36 st r1, r0, 0 // icount 37 subi r5, r6, 1 // icount 38 nop // to align meminst icount 39 andni r5, r5, 1 // icount 40 st r4, r5, 2 // icount 41 andn r5, r1, r5 // icount 42 sco r2, r0, r3 // icount 43 slbi r5, 3 // icount 44 add r2, r2, r3 // icount 45 andn r0, r3, r6 // icount 46 andn r6, r4, r6 // icount 47 ror r4, r3, r6 // icount 48 slbi r1, 1 // icount 49 andni r4, r3, 12 // icount 50 slli r3, r1, 10 // icount 51 j 14 // icount 52 nop // icount 53 nop // icount 54 nop // icount 55 nop // icount 56 nop // icount 57 nop // icount 58 nop // icount 59 j 20 // icount 60 nop // icount 61 nop // icount 62 nop // icount 63 nop // icount 64 nop // icount 65 nop // icount 66 nop // icount 67 nop // icount 68 nop // icount 69 nop // icount 70 lbi r7, 0 // icount 71 lbi r5, 0 // icount 72 bltz r6, 20 // icount 73 slli r2, r5, 0 // icount 74 btr r4, r4 // icount 75 xori r4, r5, 9 // icount 76 sll r3, r3, r2 // icount 77 sll r7, r6, r3 // icount 78 srl r1, r3, r1 // icount 79 andni r2, r1, 2 // icount 80 addi r6, r2, 7 // icount 81 subi r3, r7, 9 // icount 82 ror r6, r2, r6 // icount 83 andn r1, r5, r2 // icount 84 rol r7, r7, r5 // icount 85 slt r3, r6, r3 // icount 86 addi r0, r3, 15 // icount 87 ror r0, r2, r4 // icount 88 rol r1, r2, r5 // icount 89 roli r5, r7, 5 // icount 90 nop // to align meminst icount 91 andni r0, r0, 1 // icount 92 ld r1, r0, 14 // icount 93 addi r0, r0, 11 // icount 94 rol r1, r7, r4 // icount 95 lbi r5, 0 // icount 96 lbi r6, 0 // icount 97 nop // to align branch icount 98 bgez r0, 12 // icount 99 andni r2, r2, 1 // icount 100 stu r1, r2, 4 // icount 101 andni r2, r2, 1 // icount 102 st r1, r2, 6 // icount 103 andni r3, r0, 7 // icount 104 xori r0, r7, 2 // icount 105 add r2, r1, r2 // icount 106 rol r5, r2, r2 // icount 107 ror r5, r3, r4 // icount 108 sle r6, r1, r2 // icount 109 subi r1, r3, 0 // icount 110 xori r5, r2, 9 // icount 111 sco r0, r7, r4 // icount 112 seq r2, r4, r0 // icount 113 lbi r0, 0 // icount 114 lbi r1, 0 // icount 115 nop // to align branch icount 116 bnez r3, 4 // icount 117 addi r1, r0, 3 // icount 118 roli r7, r6, 5 // icount 119 srli r7, r5, 4 // icount 120 nop // to align meminst icount 121 andni r2, r2, 1 // icount 122 ld r1, r2, 10 // icount 123 j 26 // icount 124 nop // icount 125 nop // icount 126 nop // icount 127 nop // icount 128 nop // icount 129 nop // icount 130 nop // icount 131 nop // icount 132 nop // icount 133 nop // icount 134 nop // icount 135 nop // icount 136 nop // icount 137 j 28 // icount 138 nop // icount 139 nop // icount 140 nop // icount 141 nop // icount 142 nop // icount 143 nop // icount 144 nop // icount 145 nop // icount 146 nop // icount 147 nop // icount 148 nop // icount 149 nop // icount 150 nop // icount 151 nop // icount 152 j 20 // icount 153 nop // icount 154 nop // icount 155 nop // icount 156 nop // icount 157 nop // icount 158 nop // icount 159 nop // icount 160 nop // icount 161 nop // icount 162 nop // icount 163 lbi r2, 0 // icount 164 lbi r6, 0 // icount 165 nop // to align branch icount 166 beqz r5, 16 // icount 167 seq r4, r4, r1 // icount 168 rori r4, r0, 7 // icount 169 ror r1, r0, r7 // icount 170 btr r1, r7 // icount 171 srl r1, r4, r2 // icount 172 sle r0, r0, r1 // icount 173 add r1, r5, r5 // icount 174 slt r4, r2, r7 // icount 175 ror r2, r0, r3 // icount 176 sle r4, r5, r5 // icount 177 andni r2, r2, 1 // icount 178 ld r0, r2, 12 // icount 179 rol r1, r6, r1 // icount 180 nop // to align meminst icount 181 andni r7, r7, 1 // icount 182 stu r1, r7, 12 // icount 183 andn r3, r4, r3 // icount 184 sub r2, r4, r7 // icount 185 lbi r6, 9 // icount 186 j 2 // icount 187 nop // icount 188 lbi r3, 0 // icount 189 lbi r1, 0 // icount 190 beqz r7, 24 // icount 191 add r2, r2, r4 // icount 192 nop // to align meminst icount 193 andni r5, r5, 1 // icount 194 st r6, r5, 6 // icount 195 add r4, r6, r5 // icount 196 seq r2, r0, r0 // icount 197 sub r3, r0, r5 // icount 198 add r7, r7, r1 // icount 199 subi r4, r1, 3 // icount 200 slbi r2, 2 // icount 201 andni r3, r2, 14 // icount 202 nop // to align meminst icount 203 andni r2, r2, 1 // icount 204 st r4, r2, 4 // icount 205 rori r2, r0, 11 // icount 206 nop // to align meminst icount 207 andni r4, r4, 1 // icount 208 stu r2, r4, 12 // icount 209 srl r1, r4, r3 // icount 210 slli r2, r5, 1 // icount 211 seq r4, r5, r0 // icount 212 rol r6, r7, r1 // icount 213 slbi r6, 10 // icount 214 sle r7, r0, r5 // icount 215 add r1, r3, r7 // icount 216 rol r5, r0, r2 // icount 217 rori r1, r1, 11 // icount 218 rori r0, r2, 14 // icount 219 roli r4, r4, 9 // icount 220 srl r2, r6, r7 // icount 221 j 22 // icount 222 nop // icount 223 nop // icount 224 nop // icount 225 nop // icount 226 nop // icount 227 nop // icount 228 nop // icount 229 nop // icount 230 nop // icount 231 nop // icount 232 nop // icount 233 j 18 // icount 234 nop // icount 235 nop // icount 236 nop // icount 237 nop // icount 238 nop // icount 239 nop // icount 240 nop // icount 241 nop // icount 242 nop // icount 243 lbi r1, 0 // icount 244 lbi r0, 0 // icount 245 nop // to align branch icount 246 bnez r1, 24 // icount 247 sll r2, r7, r3 // icount 248 addi r0, r0, 12 // icount 249 andni r2, r2, 1 // icount 250 ld r0, r2, 8 // icount 251 slt r3, r2, r4 // icount 252 sll r5, r5, r5 // icount 253 addi r5, r0, 0 // icount 254 slbi r6, 14 // icount 255 xor r3, r5, r0 // icount 256 slbi r3, 11 // icount 257 sll r6, r5, r0 // icount 258 btr r1, r2 // icount 259 andni r0, r0, 1 // icount 260 st r5, r0, 6 // icount 261 seq r1, r4, r4 // icount 262 slbi r0, 14 // icount 263 sco r1, r2, r1 // icount 264 nop // to align meminst icount 265 andni r3, r3, 1 // icount 266 stu r5, r3, 0 // icount 267 seq r6, r5, r6 // icount 268 slt r1, r1, r2 // icount 269 sub r2, r5, r5 // icount 270 subi r6, r0, 2 // icount 271 subi r3, r3, 11 // icount 272 roli r1, r0, 13 // icount 273 nop // to align branch icount 274 btr r7, r3 // icount 275 nop // to align branch icount 276 btr r2, r1 // icount 277 j 28 // icount 278 nop // icount 279 nop // icount 280 nop // icount 281 nop // icount 282 nop // icount 283 nop // icount 284 nop // icount 285 nop // icount 286 nop // icount 287 nop // icount 288 nop // icount 289 nop // icount 290 nop // icount 291 nop // icount 292 lbi r0, 0 // icount 293 lbi r3, 0 // icount 294 bltz r0, 28 // icount 295 srl r7, r3, r6 // icount 296 andni r2, r5, 9 // icount 297 srli r0, r6, 14 // icount 298 andn r4, r4, r1 // icount 299 andni r5, r5, 1 // icount 300 ld r5, r5, 2 // icount 301 andni r5, r5, 1 // icount 302 st r5, r5, 2 // icount 303 lbi r4, 5 // icount 304 ror r3, r1, r0 // icount 305 andni r4, r4, 1 // icount 306 stu r4, r4, 10 // icount 307 rori r5, r1, 3 // icount 308 roli r5, r6, 11 // icount 309 rori r3, r0, 1 // icount 310 nop // to align meminst icount 311 andni r2, r2, 1 // icount 312 stu r0, r2, 0 // icount 313 sco r3, r3, r7 // icount 314 xor r5, r7, r6 // icount 315 roli r6, r2, 8 // icount 316 subi r0, r2, 15 // icount 317 xori r3, r3, 2 // icount 318 andn r1, r4, r5 // icount 319 xor r6, r0, r4 // icount 320 xori r0, r0, 0 // icount 321 slli r5, r0, 7 // icount 322 sle r3, r7, r7 // icount 323 slbi r5, 7 // icount 324 add r5, r3, r6 // icount 325 seq r2, r5, r0 // icount 326 slli r5, r6, 2 // icount 327 roli r4, r7, 7 // icount 328 j 2 // icount 329 nop // icount 330 j 4 // icount 331 nop // icount 332 nop // icount 333 j 20 // icount 334 nop // icount 335 nop // icount 336 nop // icount 337 nop // icount 338 nop // icount 339 nop // icount 340 nop // icount 341 nop // icount 342 nop // icount 343 nop // icount 344 lbi r2, 0 // icount 345 lbi r6, 0 // icount 346 bltz r7, 4 // icount 347 rol r5, r5, r5 // icount 348 nop // to align meminst icount 349 andni r0, r0, 1 // icount 350 stu r6, r0, 12 // icount 351 subi r0, r1, 0 // icount 352 lbi r2, 13 // icount 353 lbi r6, 0 // icount 354 lbi r4, 0 // icount 355 nop // to align branch icount 356 beqz r0, 20 // icount 357 seq r7, r6, r1 // icount 358 roli r5, r3, 12 // icount 359 sub r1, r0, r2 // icount 360 slt r2, r5, r3 // icount 361 sle r1, r0, r0 // icount 362 sco r3, r4, r5 // icount 363 ror r0, r7, r0 // icount 364 sll r4, r1, r6 // icount 365 sub r3, r1, r2 // icount 366 srli r1, r7, 3 // icount 367 rori r4, r1, 3 // icount 368 slli r1, r2, 3 // icount 369 slt r7, r0, r1 // icount 370 sle r7, r0, r4 // icount 371 rori r3, r5, 3 // icount 372 andn r1, r0, r4 // icount 373 sle r6, r7, r0 // icount 374 roli r6, r5, 7 // icount 375 andni r0, r0, 1 // icount 376 stu r7, r0, 12 // icount 377 rol r3, r6, r0 // icount 378 j 4 // icount 379 nop // icount 380 nop // icount 381 lbi r6, 0 // icount 382 lbi r0, 0 // icount 383 nop // to align branch icount 384 bnez r7, 24 // icount 385 srli r4, r0, 11 // icount 386 rol r4, r5, r0 // icount 387 add r1, r5, r3 // icount 388 lbi r3, 10 // icount 389 rori r3, r0, 9 // icount 390 nop // to align meminst icount 391 andni r3, r3, 1 // icount 392 stu r4, r3, 8 // icount 393 slt r7, r1, r7 // icount 394 xori r0, r1, 5 // icount 395 andni r4, r4, 1 // icount 396 stu r1, r4, 0 // icount 397 sle r3, r4, r5 // icount 398 sll r5, r2, r5 // icount 399 slt r5, r2, r1 // icount 400 subi r7, r6, 0 // icount 401 subi r5, r3, 15 // icount 402 slt r0, r1, r2 // icount 403 roli r1, r6, 15 // icount 404 xor r3, r1, r4 // icount 405 andni r1, r1, 1 // icount 406 st r3, r1, 6 // icount 407 srl r2, r1, r4 // icount 408 srl r5, r7, r4 // icount 409 seq r5, r6, r6 // icount 410 xor r2, r1, r6 // icount 411 slli r2, r0, 15 // icount 412 xori r1, r5, 3 // icount 413 lbi r5, 0 // icount 414 lbi r6, 0 // icount 415 nop // to align branch icount 416 bnez r0, 20 // icount 417 sco r3, r5, r4 // icount 418 add r6, r3, r5 // icount 419 slbi r6, 12 // icount 420 roli r5, r5, 8 // icount 421 sll r3, r6, r1 // icount 422 andn r0, r5, r6 // icount 423 slli r6, r0, 3 // icount 424 slli r7, r3, 7 // icount 425 andni r7, r7, 1 // icount 426 st r3, r7, 12 // icount 427 andn r3, r0, r0 // icount 428 andn r7, r2, r1 // icount 429 slli r1, r2, 0 // icount 430 slt r6, r0, r1 // icount 431 srl r2, r2, r5 // icount 432 xor r6, r4, r1 // icount 433 lbi r0, 1 // icount 434 nop // to align meminst icount 435 andni r0, r0, 1 // icount 436 stu r2, r0, 2 // icount 437 sll r4, r0, r2 // icount 438 srli r3, r3, 13 // icount 439 sle r0, r2, r6 // icount 440 lbi r4, 0 // icount 441 lbi r2, 0 // icount 442 bltz r0, 24 // icount 443 sub r0, r7, r2 // icount 444 subi r6, r7, 5 // icount 445 xori r1, r4, 6 // icount 446 rol r7, r0, r7 // icount 447 rol r0, r5, r0 // icount 448 addi r3, r1, 0 // icount 449 subi r3, r5, 5 // icount 450 sll r6, r1, r5 // icount 451 seq r3, r7, r6 // icount 452 ror r7, r3, r6 // icount 453 sle r7, r4, r4 // icount 454 slli r7, r3, 2 // icount 455 srl r4, r3, r7 // icount 456 rori r2, r5, 1 // icount 457 srli r5, r6, 4 // icount 458 andni r5, r7, 15 // icount 459 seq r4, r5, r7 // icount 460 nop // to align meminst icount 461 andni r7, r7, 1 // icount 462 stu r0, r7, 0 // icount 463 andni r5, r5, 1 // icount 464 stu r5, r5, 4 // icount 465 xor r3, r7, r5 // icount 466 srli r4, r0, 9 // icount 467 andni r1, r1, 1 // icount 468 stu r3, r1, 8 // icount 469 sle r6, r1, r0 // icount 470 srl r1, r6, r7 // icount 471 lbi r4, 0 // icount 472 lbi r2, 0 // icount 473 nop // to align branch icount 474 bltz r4, 4 // icount 475 roli r1, r0, 8 // icount 476 roli r3, r7, 3 // icount 477 andni r0, r0, 1 // icount 478 st r6, r0, 0 // icount 479 srl r7, r1, r5 // icount 480 j 16 // icount 481 nop // icount 482 nop // icount 483 nop // icount 484 nop // icount 485 nop // icount 486 nop // icount 487 nop // icount 488 nop // icount 489 lbi r4, 0 // icount 490 lbi r2, 0 // icount 491 nop // to align branch icount 492 beqz r2, 4 // icount 493 slt r5, r5, r3 // icount 494 lbi r7, 5 // icount 495 addi r4, r0, 0 // icount 496 nop // to align meminst icount 497 andni r7, r7, 1 // icount 498 st r2, r7, 6 // icount 499 lbi r3, 0 // icount 500 lbi r3, 0 // icount 501 nop // to align branch icount 502 beqz r6, 28 // icount 503 addi r6, r7, 1 // icount 504 add r5, r4, r6 // icount 505 srl r1, r4, r1 // icount 506 rori r1, r3, 9 // icount 507 rori r1, r6, 2 // icount 508 andni r2, r1, 12 // icount 509 slt r7, r7, r5 // icount 510 sll r3, r6, r0 // icount 511 lbi r4, 11 // icount 512 nop // to align meminst icount 513 andni r0, r0, 1 // icount 514 stu r3, r0, 2 // icount 515 sle r7, r1, r7 // icount 516 xor r1, r2, r4 // icount 517 addi r2, r0, 4 // icount 518 sco r5, r5, r2 // icount 519 sco r3, r5, r0 // icount 520 sub r7, r1, r2 // icount 521 slli r3, r3, 12 // icount 522 lbi r5, 12 // icount 523 rol r3, r2, r7 // icount 524 slli r6, r5, 1 // icount 525 sco r0, r0, r4 // icount 526 xor r4, r5, r7 // icount 527 sub r2, r0, r1 // icount 528 rol r7, r4, r6 // icount 529 andni r2, r2, 1 // icount 530 st r0, r2, 10 // icount 531 addi r1, r1, 8 // icount 532 sll r7, r0, r7 // icount 533 add r6, r4, r6 // icount 534 lbi r2, 0 // icount 535 lbi r7, 0 // icount 536 bnez r3, 24 // icount 537 xori r3, r2, 5 // icount 538 rol r6, r2, r3 // icount 539 addi r2, r6, 11 // icount 540 lbi r1, 12 // icount 541 rol r5, r2, r2 // icount 542 xor r4, r2, r3 // icount 543 andn r7, r6, r5 // icount 544 xor r4, r7, r6 // icount 545 andni r1, r6, 7 // icount 546 rori r4, r2, 3 // icount 547 xor r6, r2, r4 // icount 548 lbi r0, 13 // icount 549 rori r4, r2, 12 // icount 550 slt r0, r1, r1 // icount 551 xor r2, r6, r2 // icount 552 rol r2, r3, r5 // icount 553 andni r5, r5, 5 // icount 554 sub r7, r1, r7 // icount 555 srli r1, r4, 15 // icount 556 sll r3, r1, r7 // icount 557 andni r3, r3, 1 // icount 558 st r2, r3, 0 // icount 559 xori r7, r7, 10 // icount 560 sle r6, r5, r6 // icount 561 addi r3, r5, 10 // icount 562 lbi r7, 0 // icount 563 lbi r1, 0 // icount 564 beqz r2, 16 // icount 565 addi r0, r7, 1 // icount 566 slt r4, r2, r7 // icount 567 slli r1, r1, 4 // icount 568 rol r3, r6, r7 // icount 569 andni r0, r4, 15 // icount 570 srl r5, r3, r1 // icount 571 ror r2, r6, r7 // icount 572 subi r1, r5, 0 // icount 573 roli r4, r1, 7 // icount 574 slt r5, r2, r2 // icount 575 subi r5, r3, 7 // icount 576 srl r6, r6, r0 // icount 577 andn r1, r0, r2 // icount 578 subi r1, r7, 7 // icount 579 nop // to align branch icount 580 btr r3, r6 // icount 581 roli r7, r2, 5 // icount 582 j 14 // icount 583 nop // icount 584 nop // icount 585 nop // icount 586 nop // icount 587 nop // icount 588 nop // icount 589 nop // icount 590 j 14 // icount 591 nop // icount 592 nop // icount 593 nop // icount 594 nop // icount 595 nop // icount 596 nop // icount 597 nop // icount 598 lbi r7, 0 // icount 599 lbi r7, 0 // icount 600 beqz r4, 32 // icount 601 subi r0, r5, 10 // icount 602 add r7, r2, r2 // icount 603 rori r2, r7, 1 // icount 604 srli r4, r5, 5 // icount 605 roli r2, r2, 1 // icount 606 andni r0, r5, 2 // icount 607 slbi r1, 15 // icount 608 sle r5, r5, r6 // icount 609 add r1, r5, r6 // icount 610 nop // to align meminst icount 611 andni r2, r2, 1 // icount 612 st r6, r2, 14 // icount 613 slt r0, r1, r5 // icount 614 rol r4, r0, r3 // icount 615 ror r7, r4, r5 // icount 616 slt r3, r2, r0 // icount 617 ror r4, r2, r0 // icount 618 xori r7, r5, 3 // icount 619 andni r6, r6, 1 // icount 620 st r1, r6, 8 // icount 621 lbi r2, 11 // icount 622 xori r6, r1, 15 // icount 623 srl r2, r1, r0 // icount 624 nop // to align meminst icount 625 andni r5, r5, 1 // icount 626 stu r4, r5, 2 // icount 627 sco r1, r1, r0 // icount 628 rol r1, r2, r1 // icount 629 ror r0, r2, r6 // icount 630 add r4, r0, r2 // icount 631 nop // to align branch icount 632 btr r6, r5 // icount 633 srl r6, r0, r5 // icount 634 nop // to align meminst icount 635 andni r2, r2, 1 // icount 636 ld r2, r2, 4 // icount 637 andn r2, r1, r2 // icount 638 rori r7, r0, 13 // icount 639 lbi r1, 15 // icount 640 btr r0, r7 // icount 641 j 30 // icount 642 nop // icount 643 nop // icount 644 nop // icount 645 nop // icount 646 nop // icount 647 nop // icount 648 nop // icount 649 nop // icount 650 nop // icount 651 nop // icount 652 nop // icount 653 nop // icount 654 nop // icount 655 nop // icount 656 nop // icount 657 j 10 // icount 658 nop // icount 659 nop // icount 660 nop // icount 661 nop // icount 662 nop // icount 663 j 18 // icount 664 nop // icount 665 nop // icount 666 nop // icount 667 nop // icount 668 nop // icount 669 nop // icount 670 nop // icount 671 nop // icount 672 nop // icount 673 lbi r4, 0 // icount 674 lbi r7, 0 // icount 675 nop // to align branch icount 676 bgez r4, 12 // icount 677 rori r2, r0, 10 // icount 678 andni r2, r7, 14 // icount 679 andni r6, r6, 1 // icount 680 st r7, r6, 12 // icount 681 subi r5, r1, 6 // icount 682 srli r2, r3, 13 // icount 683 andn r1, r6, r2 // icount 684 rol r5, r5, r6 // icount 685 xor r2, r7, r4 // icount 686 slt r7, r0, r0 // icount 687 slbi r3, 12 // icount 688 srl r3, r0, r6 // icount 689 rori r4, r6, 10 // icount 690 lbi r2, 0 // icount 691 lbi r6, 0 // icount 692 bnez r1, 28 // icount 693 slli r3, r7, 14 // icount 694 sub r4, r2, r2 // icount 695 slli r1, r7, 3 // icount 696 add r1, r0, r4 // icount 697 sll r7, r7, r6 // icount 698 srli r2, r1, 14 // icount 699 srli r1, r1, 8 // icount 700 rori r4, r4, 4 // icount 701 slli r7, r1, 9 // icount 702 rori r0, r3, 3 // icount 703 rol r4, r1, r0 // icount 704 subi r4, r5, 13 // icount 705 sle r4, r0, r3 // icount 706 slbi r0, 14 // icount 707 sub r4, r2, r2 // icount 708 slt r1, r0, r1 // icount 709 sll r6, r3, r7 // icount 710 xori r7, r5, 10 // icount 711 ror r2, r2, r4 // icount 712 sco r6, r7, r4 // icount 713 srl r7, r0, r7 // icount 714 slbi r6, 15 // icount 715 roli r2, r5, 10 // icount 716 nop // to align meminst icount 717 andni r7, r7, 1 // icount 718 stu r0, r7, 0 // icount 719 xori r1, r4, 9 // icount 720 xor r1, r3, r4 // icount 721 slt r4, r3, r1 // icount 722 btr r2, r4 // icount 723 j 18 // icount 724 nop // icount 725 nop // icount 726 nop // icount 727 nop // icount 728 nop // icount 729 nop // icount 730 nop // icount 731 nop // icount 732 nop // icount 733 j 32 // icount 734 nop // icount 735 nop // icount 736 nop // icount 737 nop // icount 738 nop // icount 739 nop // icount 740 nop // icount 741 nop // icount 742 nop // icount 743 nop // icount 744 nop // icount 745 nop // icount 746 nop // icount 747 nop // icount 748 nop // icount 749 nop // icount 750 lbi r5, 0 // icount 751 lbi r5, 0 // icount 752 bltz r0, 28 // icount 753 xori r6, r3, 7 // icount 754 roli r1, r0, 11 // icount 755 add r6, r6, r7 // icount 756 rol r1, r2, r6 // icount 757 addi r3, r2, 15 // icount 758 xori r2, r1, 2 // icount 759 andni r1, r1, 15 // icount 760 slbi r2, 6 // icount 761 seq r5, r1, r2 // icount 762 sle r0, r1, r7 // icount 763 sle r2, r4, r5 // icount 764 roli r3, r0, 8 // icount 765 lbi r7, 2 // icount 766 nop // to align meminst icount 767 andni r6, r6, 1 // icount 768 stu r4, r6, 12 // icount 769 sco r4, r3, r0 // icount 770 seq r3, r5, r1 // icount 771 rori r7, r2, 1 // icount 772 nop // to align meminst icount 773 andni r3, r3, 1 // icount 774 ld r0, r3, 12 // icount 775 sle r7, r6, r0 // icount 776 srli r6, r6, 13 // icount 777 roli r4, r1, 12 // icount 778 sco r3, r0, r0 // icount 779 lbi r4, 12 // icount 780 nop // to align meminst icount 781 andni r5, r5, 1 // icount 782 st r7, r5, 8 // icount 783 slbi r3, 4 // icount 784 roli r4, r0, 3 // icount 785 sub r2, r2, r4 // icount 786 xor r0, r4, r7 // icount 787 j 24 // icount 788 nop // icount 789 nop // icount 790 nop // icount 791 nop // icount 792 nop // icount 793 nop // icount 794 nop // icount 795 nop // icount 796 nop // icount 797 nop // icount 798 nop // icount 799 nop // icount 800 lbi r6, 0 // icount 801 lbi r0, 0 // icount 802 bltz r2, 0 // icount 803 j 6 // icount 804 nop // icount 805 nop // icount 806 nop // icount 807 lbi r6, 0 // icount 808 lbi r6, 0 // icount 809 nop // to align branch icount 810 bnez r6, 12 // icount 811 slbi r1, 9 // icount 812 roli r1, r7, 10 // icount 813 srli r1, r2, 8 // icount 814 btr r6, r7 // icount 815 srl r2, r6, r7 // icount 816 slbi r5, 0 // icount 817 roli r5, r0, 11 // icount 818 srl r5, r1, r6 // icount 819 slt r4, r1, r0 // icount 820 nop // to align meminst icount 821 andni r0, r0, 1 // icount 822 stu r0, r0, 14 // icount 823 rol r3, r5, r3 // icount 824 slli r3, r0, 10 // icount 825 j 4 // icount 826 nop // icount 827 nop // icount 828 lbi r6, 0 // icount 829 lbi r3, 0 // icount 830 beqz r2, 16 // icount 831 subi r6, r3, 0 // icount 832 srl r4, r4, r7 // icount 833 slt r7, r6, r5 // icount 834 sll r0, r1, r4 // icount 835 slli r0, r4, 5 // icount 836 nop // to align meminst icount 837 andni r5, r5, 1 // icount 838 stu r3, r5, 0 // icount 839 subi r0, r2, 6 // icount 840 seq r2, r2, r6 // icount 841 seq r0, r7, r7 // icount 842 btr r2, r6 // icount 843 rol r1, r2, r2 // icount 844 add r5, r4, r7 // icount 845 sle r5, r6, r7 // icount 846 lbi r1, 10 // icount 847 srli r2, r1, 9 // icount 848 sle r1, r3, r4 // icount 849 lbi r1, 0 // icount 850 lbi r7, 0 // icount 851 nop // to align branch icount 852 bnez r0, 28 // icount 853 andni r7, r6, 8 // icount 854 sub r5, r5, r4 // icount 855 add r5, r1, r7 // icount 856 andni r2, r3, 6 // icount 857 addi r1, r2, 10 // icount 858 add r1, r2, r4 // icount 859 subi r4, r3, 13 // icount 860 rol r3, r5, r6 // icount 861 slbi r5, 11 // icount 862 sco r3, r7, r6 // icount 863 andni r2, r5, 15 // icount 864 sub r0, r5, r0 // icount 865 seq r6, r4, r6 // icount 866 nop // to align meminst icount 867 andni r6, r6, 1 // icount 868 ld r5, r6, 4 // icount 869 rol r1, r5, r3 // icount 870 srli r1, r3, 1 // icount 871 rori r2, r0, 10 // icount 872 andn r3, r7, r3 // icount 873 add r3, r3, r7 // icount 874 srl r5, r2, r3 // icount 875 andni r2, r2, 1 // icount 876 stu r3, r2, 12 // icount 877 andn r4, r5, r4 // icount 878 nop // to align meminst icount 879 andni r3, r3, 1 // icount 880 stu r6, r3, 2 // icount 881 srl r3, r3, r4 // icount 882 slli r5, r5, 6 // icount 883 srl r1, r6, r4 // icount 884 sll r0, r7, r6 // icount 885 nop // to align branch icount 886 btr r6, r0 // icount 887 j 24 // icount 888 nop // icount 889 nop // icount 890 nop // icount 891 nop // icount 892 nop // icount 893 nop // icount 894 nop // icount 895 nop // icount 896 nop // icount 897 nop // icount 898 nop // icount 899 nop // icount 900 lbi r3, 0 // icount 901 lbi r0, 0 // icount 902 bltz r7, 8 // icount 903 add r5, r3, r5 // icount 904 subi r7, r4, 5 // icount 905 addi r6, r5, 4 // icount 906 add r5, r2, r7 // icount 907 sub r1, r4, r0 // icount 908 xor r2, r5, r1 // icount 909 andn r2, r1, r0 // icount 910 slbi r3, 11 // icount 911 lbi r2, 0 // icount 912 lbi r3, 0 // icount 913 nop // to align branch icount 914 bltz r7, 32 // icount 915 xor r0, r2, r6 // icount 916 btr r1, r1 // icount 917 add r6, r1, r3 // icount 918 add r7, r0, r4 // icount 919 sub r1, r2, r0 // icount 920 btr r0, r6 // icount 921 addi r7, r6, 12 // icount 922 sco r3, r7, r6 // icount 923 andni r3, r7, 2 // icount 924 seq r5, r7, r2 // icount 925 add r5, r2, r5 // icount 926 xori r3, r2, 6 // icount 927 xor r6, r7, r6 // icount 928 roli r0, r3, 11 // icount 929 andni r3, r3, 1 // icount 930 stu r3, r3, 6 // icount 931 srli r4, r3, 15 // icount 932 subi r7, r5, 13 // icount 933 andn r0, r4, r7 // icount 934 slbi r2, 5 // icount 935 rol r6, r7, r4 // icount 936 sco r7, r5, r4 // icount 937 andni r7, r4, 2 // icount 938 seq r2, r0, r4 // icount 939 rori r7, r1, 10 // icount 940 lbi r7, 5 // icount 941 andni r2, r2, 1 // icount 942 stu r4, r2, 6 // icount 943 andn r5, r1, r5 // icount 944 ror r6, r0, r2 // icount 945 sle r1, r4, r0 // icount 946 ror r3, r1, r0 // icount 947 sll r1, r5, r2 // icount 948 slbi r7, 3 // icount 949 j 2 // icount 950 nop // icount 951 j 30 // icount 952 nop // icount 953 nop // icount 954 nop // icount 955 nop // icount 956 nop // icount 957 nop // icount 958 nop // icount 959 nop // icount 960 nop // icount 961 nop // icount 962 nop // icount 963 nop // icount 964 nop // icount 965 nop // icount 966 nop // icount 967 lbi r4, 0 // icount 968 lbi r2, 0 // icount 969 nop // to align branch icount 970 bnez r4, 8 // icount 971 slt r5, r5, r6 // icount 972 xor r5, r3, r4 // icount 973 sub r1, r0, r4 // icount 974 srli r2, r2, 5 // icount 975 xori r4, r2, 11 // icount 976 ror r1, r1, r3 // icount 977 srl r0, r4, r3 // icount 978 nop // to align meminst icount 979 andni r0, r0, 1 // icount 980 st r3, r0, 4 // icount 981 j 18 // icount 982 nop // icount 983 nop // icount 984 nop // icount 985 nop // icount 986 nop // icount 987 nop // icount 988 nop // icount 989 nop // icount 990 nop // icount 991 j 4 // icount 992 nop // icount 993 nop // icount 994 lbi r4, 0 // icount 995 lbi r2, 0 // icount 996 bltz r4, 16 // icount 997 lbi r6, 14 // icount 998 btr r0, r4 // icount 999 seq r1, r6, r3 // icount 1000 seq r4, r2, r0 // icount 1001 rori r6, r0, 9 // icount 1002 seq r3, r3, r3 // icount 1003 addi r4, r5, 15 // icount 1004 sub r1, r2, r2 // icount 1005 slli r7, r7, 9 // icount 1006 nop // to align meminst icount 1007 andni r0, r0, 1 // icount 1008 stu r4, r0, 6 // icount 1009 seq r0, r1, r5 // icount 1010 add r6, r6, r4 // icount 1011 sll r1, r4, r0 // icount 1012 sco r5, r7, r4 // icount 1013 add r4, r0, r6 // icount 1014 sub r1, r4, r6 // icount 1015 lbi r0, 0 // icount 1016 lbi r3, 0 // icount 1017 nop // to align branch icount 1018 beqz r0, 16 // icount 1019 sco r6, r5, r1 // icount 1020 btr r4, r5 // icount 1021 srl r3, r4, r4 // icount 1022 andn r2, r4, r0 // icount 1023 slbi r2, 3 // icount 1024 add r5, r3, r4 // icount 1025 addi r2, r6, 9 // icount 1026 nop // to align meminst icount 1027 andni r0, r0, 1 // icount 1028 stu r1, r0, 14 // icount 1029 andni r6, r6, 1 // icount 1030 st r6, r6, 2 // icount 1031 andni r0, r6, 12 // icount 1032 slli r1, r7, 1 // icount 1033 nop // to align branch icount 1034 btr r6, r7 // icount 1035 rori r3, r3, 0 // icount 1036 slbi r6, 13 // icount 1037 seq r6, r4, r5 // icount 1038 nop // to align meminst icount 1039 andni r6, r6, 1 // icount 1040 ld r3, r6, 10 // icount 1041 lbi r5, 0 // icount 1042 lbi r5, 0 // icount 1043 nop // to align branch icount 1044 beqz r3, 12 // icount 1045 subi r1, r7, 1 // icount 1046 add r3, r1, r4 // icount 1047 andn r6, r1, r3 // icount 1048 addi r7, r3, 1 // icount 1049 andni r4, r4, 1 // icount 1050 stu r7, r4, 14 // icount 1051 andni r1, r1, 1 // icount 1052 stu r2, r1, 10 // icount 1053 nop // to align branch icount 1054 btr r7, r2 // icount 1055 srl r3, r5, r2 // icount 1056 rol r6, r5, r1 // icount 1057 lbi r5, 14 // icount 1058 sle r2, r6, r0 // icount 1059 rori r7, r3, 8 // icount 1060 j 24 // icount 1061 nop // icount 1062 nop // icount 1063 nop // icount 1064 nop // icount 1065 nop // icount 1066 nop // icount 1067 nop // icount 1068 nop // icount 1069 nop // icount 1070 nop // icount 1071 nop // icount 1072 nop // icount 1073 lbi r0, 0 // icount 1074 lbi r4, 0 // icount 1075 nop // to align branch icount 1076 bltz r0, 24 // icount 1077 roli r4, r3, 6 // icount 1078 addi r3, r2, 11 // icount 1079 seq r4, r1, r0 // icount 1080 sub r4, r1, r3 // icount 1081 slbi r6, 6 // icount 1082 andn r0, r1, r7 // icount 1083 andni r6, r6, 1 // icount 1084 stu r1, r6, 4 // icount 1085 slt r0, r5, r6 // icount 1086 addi r1, r3, 10 // icount 1087 sub r0, r6, r1 // icount 1088 btr r7, r0 // icount 1089 andni r4, r0, 6 // icount 1090 nop // to align meminst icount 1091 andni r6, r6, 1 // icount 1092 ld r5, r6, 4 // icount 1093 andni r2, r7, 11 // icount 1094 srl r4, r4, r1 // icount 1095 andni r1, r1, 1 // icount 1096 stu r4, r1, 0 // icount 1097 rol r2, r4, r5 // icount 1098 sub r7, r2, r3 // icount 1099 srli r1, r7, 6 // icount 1100 rori r4, r0, 4 // icount 1101 andni r1, r1, 1 // icount 1102 st r4, r1, 2 // icount 1103 ror r4, r1, r6 // icount 1104 sll r7, r2, r3 // icount 1105 andni r2, r2, 1 // icount 1106 st r5, r2, 4 // icount 1107 lbi r4, 0 // icount 1108 lbi r4, 0 // icount 1109 nop // to align branch icount 1110 bltz r2, 8 // icount 1111 slt r7, r1, r5 // icount 1112 xori r6, r3, 7 // icount 1113 sll r5, r4, r0 // icount 1114 xori r1, r2, 1 // icount 1115 sub r7, r6, r1 // icount 1116 rol r3, r5, r4 // icount 1117 srl r4, r1, r4 // icount 1118 add r1, r2, r2 // icount 1119 lbi r0, 0 // icount 1120 lbi r2, 0 // icount 1121 nop // to align branch icount 1122 beqz r4, 24 // icount 1123 srli r0, r1, 13 // icount 1124 subi r4, r4, 11 // icount 1125 sub r6, r6, r6 // icount 1126 rol r4, r6, r6 // icount 1127 andni r3, r3, 1 // icount 1128 ld r6, r3, 2 // icount 1129 sll r3, r4, r5 // icount 1130 xori r4, r4, 9 // icount 1131 sll r7, r1, r5 // icount 1132 rori r7, r5, 4 // icount 1133 ror r4, r6, r0 // icount 1134 sub r1, r4, r3 // icount 1135 rori r0, r2, 5 // icount 1136 rori r3, r0, 14 // icount 1137 andni r2, r2, 1 // icount 1138 st r5, r2, 10 // icount 1139 sle r7, r1, r5 // icount 1140 ror r0, r2, r2 // icount 1141 add r4, r1, r4 // icount 1142 lbi r0, 15 // icount 1143 add r0, r3, r4 // icount 1144 slbi r0, 0 // icount 1145 andn r0, r1, r4 // icount 1146 subi r2, r7, 4 // icount 1147 subi r1, r2, 13 // icount 1148 nop // to align meminst icount 1149 andni r5, r5, 1 // icount 1150 st r0, r5, 2 // icount 1151 j 22 // icount 1152 nop // icount 1153 nop // icount 1154 nop // icount 1155 nop // icount 1156 nop // icount 1157 nop // icount 1158 nop // icount 1159 nop // icount 1160 nop // icount 1161 nop // icount 1162 nop // icount 1163 lbi r3, 0 // icount 1164 lbi r0, 0 // icount 1165 nop // to align branch icount 1166 beqz r6, 4 // icount 1167 subi r6, r4, 7 // icount 1168 srli r4, r2, 2 // icount 1169 nop // to align branch icount 1170 btr r6, r1 // icount 1171 andni r3, r3, 1 // icount 1172 stu r5, r3, 12 // icount 1173 j 6 // icount 1174 nop // icount 1175 nop // icount 1176 nop // icount 1177 lbi r5, 0 // icount 1178 lbi r0, 0 // icount 1179 nop // to align branch icount 1180 beqz r5, 32 // icount 1181 addi r6, r6, 15 // icount 1182 lbi r2, 9 // icount 1183 seq r2, r5, r3 // icount 1184 add r1, r4, r6 // icount 1185 nop // to align branch icount 1186 btr r0, r5 // icount 1187 andni r7, r7, 1 // icount 1188 stu r0, r7, 12 // icount 1189 rori r2, r6, 3 // icount 1190 roli r4, r1, 6 // icount 1191 ror r1, r5, r2 // icount 1192 addi r5, r3, 14 // icount 1193 ror r5, r4, r5 // icount 1194 xor r6, r6, r6 // icount 1195 seq r0, r7, r7 // icount 1196 seq r7, r4, r3 // icount 1197 andni r3, r0, 15 // icount 1198 sll r5, r3, r1 // icount 1199 slbi r2, 4 // icount 1200 nop // to align meminst icount 1201 andni r2, r2, 1 // icount 1202 st r0, r2, 2 // icount 1203 andni r0, r0, 1 // icount 1204 stu r7, r0, 10 // icount 1205 xor r3, r6, r2 // icount 1206 andn r3, r4, r2 // icount 1207 slli r5, r4, 10 // icount 1208 rori r4, r0, 3 // icount 1209 slli r3, r4, 0 // icount 1210 seq r4, r3, r3 // icount 1211 slli r0, r1, 4 // icount 1212 slbi r3, 10 // icount 1213 subi r5, r2, 12 // icount 1214 nop // to align meminst icount 1215 andni r7, r7, 1 // icount 1216 st r0, r7, 14 // icount 1217 andni r4, r6, 13 // icount 1218 lbi r6, 9 // icount 1219 andni r4, r1, 8 // icount 1220 j 6 // icount 1221 nop // icount 1222 nop // icount 1223 nop // icount 1224 lbi r6, 0 // icount 1225 lbi r2, 0 // icount 1226 bnez r3, 4 // icount 1227 srl r4, r2, r0 // icount 1228 rori r3, r1, 12 // icount 1229 sll r2, r0, r0 // icount 1230 xori r0, r1, 4 // icount 1231 lbi r7, 0 // icount 1232 lbi r5, 0 // icount 1233 nop // to align branch icount 1234 bltz r7, 32 // icount 1235 subi r7, r2, 0 // icount 1236 sub r1, r0, r1 // icount 1237 add r0, r3, r2 // icount 1238 nop // to align meminst icount 1239 andni r1, r1, 1 // icount 1240 ld r2, r1, 10 // icount 1241 sll r1, r7, r6 // icount 1242 nop // to align meminst icount 1243 andni r6, r6, 1 // icount 1244 stu r0, r6, 10 // icount 1245 srl r2, r3, r7 // icount 1246 srl r6, r1, r0 // icount 1247 lbi r0, 15 // icount 1248 srl r4, r6, r1 // icount 1249 rol r7, r3, r5 // icount 1250 add r6, r7, r6 // icount 1251 andni r5, r5, 1 // icount 1252 st r2, r5, 4 // icount 1253 slt r1, r0, r6 // icount 1254 srli r1, r4, 15 // icount 1255 sco r1, r6, r2 // icount 1256 slbi r6, 1 // icount 1257 sll r6, r4, r4 // icount 1258 srli r0, r2, 7 // icount 1259 srli r7, r1, 14 // icount 1260 sub r2, r7, r5 // icount 1261 slli r4, r1, 11 // icount 1262 sub r7, r5, r5 // icount 1263 roli r5, r4, 11 // icount 1264 xor r4, r3, r5 // icount 1265 slt r1, r3, r7 // icount 1266 add r6, r2, r0 // icount 1267 sub r2, r1, r3 // icount 1268 sle r5, r0, r7 // icount 1269 srl r6, r2, r2 // icount 1270 slt r2, r6, r7 // icount 1271 andni r7, r7, 1 // icount 1272 stu r1, r7, 12 // icount 1273 lbi r1, 0 // icount 1274 lbi r5, 0 // icount 1275 nop // to align branch icount 1276 bltz r7, 24 // icount 1277 lbi r4, 3 // icount 1278 slli r6, r6, 11 // icount 1279 andn r5, r1, r6 // icount 1280 xori r2, r2, 10 // icount 1281 lbi r7, 3 // icount 1282 srli r3, r7, 11 // icount 1283 nop // to align branch icount 1284 btr r4, r4 // icount 1285 slbi r1, 15 // icount 1286 andni r6, r3, 15 // icount 1287 nop // to align branch icount 1288 btr r4, r5 // icount 1289 xori r5, r4, 9 // icount 1290 sll r0, r0, r0 // icount 1291 xor r4, r6, r1 // icount 1292 rol r4, r1, r1 // icount 1293 nop // to align branch icount 1294 btr r3, r1 // icount 1295 sll r3, r0, r1 // icount 1296 slt r7, r4, r0 // icount 1297 sll r6, r1, r1 // icount 1298 andn r1, r0, r4 // icount 1299 roli r4, r5, 2 // icount 1300 seq r3, r7, r1 // icount 1301 srli r5, r1, 7 // icount 1302 xor r5, r6, r7 // icount 1303 rol r2, r5, r3 // icount 1304 lbi r6, 0 // icount 1305 lbi r7, 0 // icount 1306 bgez r1, 0 // icount 1307 j 2 // icount 1308 nop // icount 1309 lbi r1, 0 // icount 1310 lbi r3, 0 // icount 1311 nop // to align branch icount 1312 bgez r5, 16 // icount 1313 subi r3, r0, 10 // icount 1314 sle r5, r1, r5 // icount 1315 andni r6, r6, 1 // icount 1316 st r7, r6, 8 // icount 1317 sll r0, r2, r4 // icount 1318 ror r4, r7, r6 // icount 1319 andni r3, r3, 1 // icount 1320 st r3, r3, 4 // icount 1321 sle r3, r3, r0 // icount 1322 addi r6, r5, 15 // icount 1323 seq r6, r6, r0 // icount 1324 rol r0, r7, r4 // icount 1325 rori r7, r7, 11 // icount 1326 slli r3, r4, 8 // icount 1327 slt r6, r7, r3 // icount 1328 roli r6, r1, 3 // icount 1329 slt r0, r4, r7 // icount 1330 addi r6, r0, 4 // icount 1331 j 24 // icount 1332 nop // icount 1333 nop // icount 1334 nop // icount 1335 nop // icount 1336 nop // icount 1337 nop // icount 1338 nop // icount 1339 nop // icount 1340 nop // icount 1341 nop // icount 1342 nop // icount 1343 nop // icount 1344 j 26 // icount 1345 nop // icount 1346 nop // icount 1347 nop // icount 1348 nop // icount 1349 nop // icount 1350 nop // icount 1351 nop // icount 1352 nop // icount 1353 nop // icount 1354 nop // icount 1355 nop // icount 1356 nop // icount 1357 nop // icount 1358 j 28 // icount 1359 nop // icount 1360 nop // icount 1361 nop // icount 1362 nop // icount 1363 nop // icount 1364 nop // icount 1365 nop // icount 1366 nop // icount 1367 nop // icount 1368 nop // icount 1369 nop // icount 1370 nop // icount 1371 nop // icount 1372 nop // icount 1373 lbi r6, 0 // icount 1374 lbi r7, 0 // icount 1375 nop // to align branch icount 1376 bgez r7, 20 // icount 1377 andni r0, r0, 1 // icount 1378 stu r6, r0, 10 // icount 1379 ror r6, r5, r7 // icount 1380 rol r1, r1, r6 // icount 1381 seq r7, r4, r1 // icount 1382 addi r5, r6, 3 // icount 1383 andn r3, r3, r3 // icount 1384 slt r1, r4, r2 // icount 1385 xori r7, r1, 13 // icount 1386 andn r3, r6, r5 // icount 1387 andni r0, r2, 11 // icount 1388 ror r7, r7, r4 // icount 1389 ror r7, r6, r0 // icount 1390 ror r2, r3, r2 // icount 1391 rol r3, r3, r4 // icount 1392 roli r2, r6, 8 // icount 1393 slli r0, r7, 2 // icount 1394 add r3, r1, r0 // icount 1395 seq r6, r1, r2 // icount 1396 rori r1, r0, 10 // icount 1397 lbi r7, 2 // icount 1398 j 18 // icount 1399 nop // icount 1400 nop // icount 1401 nop // icount 1402 nop // icount 1403 nop // icount 1404 nop // icount 1405 nop // icount 1406 nop // icount 1407 nop // icount 1408 lbi r5, 0 // icount 1409 lbi r5, 0 // icount 1410 beqz r4, 0 // icount 1411 lbi r1, 0 // icount 1412 lbi r3, 0 // icount 1413 nop // to align branch icount 1414 bnez r0, 16 // icount 1415 andn r2, r3, r4 // icount 1416 srl r3, r4, r0 // icount 1417 slli r5, r2, 14 // icount 1418 add r0, r6, r2 // icount 1419 srl r0, r3, r4 // icount 1420 sle r2, r3, r1 // icount 1421 sco r4, r7, r4 // icount 1422 ror r4, r3, r6 // icount 1423 slt r0, r4, r4 // icount 1424 rol r4, r7, r2 // icount 1425 sub r0, r7, r1 // icount 1426 nop // to align meminst icount 1427 andni r0, r0, 1 // icount 1428 ld r6, r0, 0 // icount 1429 seq r2, r6, r2 // icount 1430 ror r5, r6, r0 // icount 1431 subi r4, r4, 8 // icount 1432 subi r0, r1, 3 // icount 1433 lbi r2, 0 // icount 1434 lbi r2, 0 // icount 1435 nop // to align branch icount 1436 bgez r3, 16 // icount 1437 seq r2, r6, r3 // icount 1438 andn r1, r0, r5 // icount 1439 srli r4, r5, 2 // icount 1440 xor r1, r0, r2 // icount 1441 sll r1, r3, r5 // icount 1442 seq r7, r5, r0 // icount 1443 lbi r6, 15 // icount 1444 ror r4, r5, r2 // icount 1445 ror r7, r3, r7 // icount 1446 lbi r5, 15 // icount 1447 nop // to align branch icount 1448 btr r0, r2 // icount 1449 sle r5, r2, r4 // icount 1450 btr r1, r1 // icount 1451 addi r4, r3, 13 // icount 1452 slt r6, r1, r2 // icount 1453 slt r4, r1, r7 // icount 1454 j 20 // icount 1455 nop // icount 1456 nop // icount 1457 nop // icount 1458 nop // icount 1459 nop // icount 1460 nop // icount 1461 nop // icount 1462 nop // icount 1463 nop // icount 1464 nop // icount 1465 lbi r6, 0 // icount 1466 lbi r6, 0 // icount 1467 nop // to align branch icount 1468 bnez r4, 4 // icount 1469 sco r4, r0, r2 // icount 1470 nop // to align meminst icount 1471 andni r0, r0, 1 // icount 1472 st r1, r0, 6 // icount 1473 andni r4, r4, 1 // icount 1474 stu r1, r4, 12 // icount 1475 andni r5, r5, 1 // icount 1476 ld r5, r5, 8 // icount 1477 j 18 // icount 1478 nop // icount 1479 nop // icount 1480 nop // icount 1481 nop // icount 1482 nop // icount 1483 nop // icount 1484 nop // icount 1485 nop // icount 1486 nop // icount 1487 lbi r1, 0 // icount 1488 lbi r6, 0 // icount 1489 nop // to align branch icount 1490 bnez r7, 4 // icount 1491 sll r1, r0, r2 // icount 1492 sub r4, r0, r4 // icount 1493 ror r3, r1, r2 // icount 1494 srli r1, r2, 10 // icount 1495 lbi r7, 0 // icount 1496 lbi r2, 0 // icount 1497 nop // to align branch icount 1498 bltz r6, 16 // icount 1499 rol r5, r5, r5 // icount 1500 srli r4, r6, 9 // icount 1501 sll r1, r1, r1 // icount 1502 add r6, r5, r3 // icount 1503 slbi r6, 4 // icount 1504 rori r1, r6, 2 // icount 1505 sub r7, r0, r4 // icount 1506 srli r5, r6, 5 // icount 1507 roli r7, r2, 11 // icount 1508 seq r3, r4, r6 // icount 1509 srl r0, r2, r5 // icount 1510 sle r6, r2, r1 // icount 1511 andni r2, r2, 1 // icount 1512 stu r1, r2, 10 // icount 1513 rol r3, r1, r0 // icount 1514 slt r4, r2, r4 // icount 1515 slt r1, r1, r2 // icount 1516 lbi r1, 0 // icount 1517 lbi r7, 0 // icount 1518 bnez r3, 28 // icount 1519 xori r3, r1, 11 // icount 1520 nop // to align meminst icount 1521 andni r3, r3, 1 // icount 1522 ld r4, r3, 10 // icount 1523 andni r5, r5, 1 // icount 1524 st r1, r5, 8 // icount 1525 ror r4, r7, r6 // icount 1526 slt r6, r5, r7 // icount 1527 sub r2, r4, r5 // icount 1528 btr r4, r1 // icount 1529 roli r5, r3, 2 // icount 1530 sub r5, r1, r0 // icount 1531 nop // to align branch icount 1532 btr r7, r4 // icount 1533 roli r3, r0, 13 // icount 1534 slt r6, r3, r4 // icount 1535 andn r4, r0, r6 // icount 1536 sub r6, r4, r4 // icount 1537 rori r3, r2, 1 // icount 1538 lbi r2, 14 // icount 1539 srli r1, r1, 14 // icount 1540 sco r0, r3, r2 // icount 1541 slli r5, r5, 14 // icount 1542 andni r7, r4, 9 // icount 1543 sll r5, r5, r4 // icount 1544 sll r1, r5, r3 // icount 1545 xor r5, r2, r7 // icount 1546 slt r0, r6, r7 // icount 1547 rol r5, r1, r1 // icount 1548 subi r2, r3, 10 // icount 1549 srli r4, r1, 5 // icount 1550 slbi r7, 5 // icount 1551 j 12 // icount 1552 nop // icount 1553 nop // icount 1554 nop // icount 1555 nop // icount 1556 nop // icount 1557 nop // icount 1558 j 28 // icount 1559 nop // icount 1560 nop // icount 1561 nop // icount 1562 nop // icount 1563 nop // icount 1564 nop // icount 1565 nop // icount 1566 nop // icount 1567 nop // icount 1568 nop // icount 1569 nop // icount 1570 nop // icount 1571 nop // icount 1572 nop // icount 1573 j 20 // icount 1574 nop // icount 1575 nop // icount 1576 nop // icount 1577 nop // icount 1578 nop // icount 1579 nop // icount 1580 nop // icount 1581 nop // icount 1582 nop // icount 1583 nop // icount 1584 lbi r2, 0 // icount 1585 lbi r5, 0 // icount 1586 bnez r0, 16 // icount 1587 sco r5, r2, r5 // icount 1588 roli r5, r1, 3 // icount 1589 rori r7, r4, 10 // icount 1590 andn r2, r0, r1 // icount 1591 addi r5, r3, 11 // icount 1592 sle r2, r0, r0 // icount 1593 add r3, r3, r3 // icount 1594 xori r5, r3, 0 // icount 1595 slli r1, r6, 15 // icount 1596 roli r1, r3, 15 // icount 1597 sll r1, r5, r3 // icount 1598 btr r7, r1 // icount 1599 seq r2, r5, r0 // icount 1600 nop // to align meminst icount 1601 andni r2, r2, 1 // icount 1602 stu r4, r2, 14 // icount 1603 andn r5, r0, r5 // icount 1604 xor r5, r0, r0 // icount 1605 lbi r5, 0 // icount 1606 lbi r0, 0 // icount 1607 nop // to align branch icount 1608 bgez r2, 12 // icount 1609 roli r6, r6, 10 // icount 1610 slbi r0, 4 // icount 1611 lbi r2, 4 // icount 1612 ror r5, r6, r2 // icount 1613 sle r5, r4, r2 // icount 1614 slbi r0, 11 // icount 1615 subi r6, r0, 0 // icount 1616 rori r0, r0, 15 // icount 1617 srl r4, r1, r1 // icount 1618 addi r4, r7, 12 // icount 1619 slbi r3, 2 // icount 1620 srli r1, r5, 1 // icount 1621 lbi r2, 0 // icount 1622 lbi r3, 0 // icount 1623 nop // to align branch icount 1624 beqz r6, 8 // icount 1625 andni r5, r5, 1 // icount 1626 st r6, r5, 4 // icount 1627 sco r3, r4, r3 // icount 1628 srl r2, r5, r6 // icount 1629 andni r3, r3, 1 // icount 1630 st r6, r3, 0 // icount 1631 nop // to align branch icount 1632 btr r5, r6 // icount 1633 add r7, r2, r3 // icount 1634 sco r6, r6, r2 // icount 1635 xori r2, r6, 10 // icount 1636 lbi r6, 0 // icount 1637 lbi r2, 0 // icount 1638 beqz r5, 8 // icount 1639 andni r3, r4, 8 // icount 1640 nop // to align meminst icount 1641 andni r6, r6, 1 // icount 1642 st r3, r6, 10 // icount 1643 subi r4, r1, 6 // icount 1644 sle r1, r4, r0 // icount 1645 lbi r5, 6 // icount 1646 sll r4, r3, r2 // icount 1647 sco r1, r5, r7 // icount 1648 seq r2, r3, r5 // icount 1649 j 12 // icount 1650 nop // icount 1651 nop // icount 1652 nop // icount 1653 nop // icount 1654 nop // icount 1655 nop // icount 1656 j 6 // icount 1657 nop // icount 1658 nop // icount 1659 nop // icount 1660 j 18 // icount 1661 nop // icount 1662 nop // icount 1663 nop // icount 1664 nop // icount 1665 nop // icount 1666 nop // icount 1667 nop // icount 1668 nop // icount 1669 nop // icount 1670 halt // icount 1671
26.221625
35
0.645085
edc456d3952d8564ab2551d2b581c795f1fcd9e4
466
asm
Assembly
oeis/043/A043155.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/043/A043155.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/043/A043155.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A043155: Numbers k such that 0 and 4 occur juxtaposed in the base-8 representation of k but not of k-1. ; 32,68,96,132,160,196,224,256,288,324,352,388,416,452,480,516,544,580,608,644,672,708,736,768,800,836,864,900,928,964,992,1028,1056,1092,1120,1156,1184,1220,1248,1280,1312,1348,1376 mov $4,$0 seq $0,59161 ; A hierarchical sequence (W'2{3}*c - see A059126). add $3,$0 add $0,$3 add $0,$3 seq $0,53793 ; n^2+n modulo 7. add $0,30 mov $2,$4 mul $2,32 add $0,$2
33.285714
182
0.693133
fce63998332bd0a2bb09942677a8da968b66ab2a
134
asm
Assembly
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_ix/___fs2slong.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_ix/___fs2slong.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/math/float/math48/lm/c/sdcc_ix/___fs2slong.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
SECTION code_clib SECTION code_fp_math48 PUBLIC ___fs2slong EXTERN cm48_sdccixp_ds2slong defc ___fs2slong = cm48_sdccixp_ds2slong
13.4
40
0.873134
8fe8fff878e0319ab0502a93dab63d1f56b51198
249
asm
Assembly
libsrc/_DEVELOPMENT/stdlib/z80/__strtod_suffix.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/stdlib/z80/__strtod_suffix.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/stdlib/z80/__strtod_suffix.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
SECTION code_clib SECTION code_stdlib PUBLIC __strtod_suffix EXTERN asm_tolower __strtod_suffix: ; hl = char * ld a,(hl) call asm_tolower cp 'f' jr z, valid_suffix cp 'l' ret nz valid_suffix: inc hl ret
9.576923
22
0.638554
aa0071bf3b435760f312559f0a9876b8566d4075
1,132
asm
Assembly
programs/oeis/080/A080541.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/080/A080541.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/080/A080541.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A080541: In binary representation: keep the first digit and rotate left the others. ; 1,2,3,4,6,5,7,8,10,12,14,9,11,13,15,16,18,20,22,24,26,28,30,17,19,21,23,25,27,29,31,32,34,36,38,40,42,44,46,48,50,52,54,56,58,60,62,33,35,37,39,41,43,45,47,49,51,53,55,57,59,61,63,64,66,68,70,72,74,76,78,80,82,84,86,88,90,92,94,96,98,100,102,104,106,108,110,112,114,116,118,120,122,124,126,65,67,69,71,73,75,77,79,81,83,85,87,89,91,93,95,97,99,101,103,105,107,109,111,113,115,117,119,121,123,125,127,128,130,132,134,136,138,140,142,144,146,148,150,152,154,156,158,160,162,164,166,168,170,172,174,176,178,180,182,184,186,188,190,192,194,196,198,200,202,204,206,208,210,212,214,216,218,220,222,224,226,228,230,232,234,236,238,240,242,244,246,248,250,252,254,129,131,133,135,137,139,141,143,145,147,149,151,153,155,157,159,161,163,165,167,169,171,173,175,177,179,181,183,185,187,189,191,193,195,197,199,201,203,205,207,209,211,213,215,217,219,221,223,225,227,229,231,233,235,237,239,241,243,245 mul $0,2 add $0,2 mov $2,1 mov $3,4 lpb $0 sub $0,$3 sub $0,$2 mul $2,2 mul $0,$2 add $0,3 div $0,$2 mov $1,$2 mov $3,$2 lpe add $1,$0
59.578947
893
0.690813
30d712ebcaf98e2d36dee7ddc1b2d2c06a9bcafa
797
asm
Assembly
libsrc/msx/msx_vpeek.asm
Toysoft/z88dk
f930bef9ac4feeec91a07303b79ddd9071131a24
[ "ClArtistic" ]
null
null
null
libsrc/msx/msx_vpeek.asm
Toysoft/z88dk
f930bef9ac4feeec91a07303b79ddd9071131a24
[ "ClArtistic" ]
null
null
null
libsrc/msx/msx_vpeek.asm
Toysoft/z88dk
f930bef9ac4feeec91a07303b79ddd9071131a24
[ "ClArtistic" ]
1
2019-12-03T23:28:20.000Z
2019-12-03T23:28:20.000Z
; ; MSX specific routines ; ; Improved functions by Rafael de Oliveira Jannone ; Originally released in 2004 for GFX - a small graphics library ; ; int msx_vpeek(int address); ; ; Read the MSX video memory ; ; $Id: msx_vpeek.asm,v 1.10 2016-06-16 19:30:25 dom Exp $ ; SECTION code_clib PUBLIC msx_vpeek PUBLIC _msx_vpeek INCLUDE "msx/vdp.inc" msx_vpeek: _msx_vpeek: ; (FASTCALL) -> HL = address ;ld ix,RDVRM ;call msxbios ; enter vdp address pointer ld a,l di IF VDP_CMD < 0 ld (-VDP_CMD),a ELSE ld bc,VDP_CMD out (c),a ENDIF ld a,h and @00111111 ei IF VDP_CMD < 0 ld (-VDP_CMD),a out (c),a ENDIF ; read data IF VDP_DATAIN < 0 ld a,(-VDP_DATAIN) ELSE IF VDP_DATAIN > 255 ld a,+(VDP_DATAIN / 256) ENDIF in a,(VDP_DATAIN % 256) ENDIF ld h,0 ld l,a ret
13.508475
64
0.675031
52745c7be3cc3d275977c075a21e726499f66ccd
6,562
asm
Assembly
Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2208.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.log_21829_2208.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.log_21829_2208.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 %r14 push %r8 push %r9 push %rax push %rbp push %rbx push %rcx push %rdi push %rsi lea addresses_UC_ht+0x1e3f6, %r9 nop nop nop nop dec %r14 mov (%r9), %bp nop add $7313, %rbp lea addresses_WT_ht+0xc1c6, %rbx add %r10, %r10 mov $0x6162636465666768, %r8 movq %r8, %xmm2 and $0xffffffffffffffc0, %rbx movaps %xmm2, (%rbx) cmp %r9, %r9 lea addresses_UC_ht+0xbf90, %r9 nop nop nop add $58825, %rax mov $0x6162636465666768, %r14 movq %r14, (%r9) cmp %r9, %r9 lea addresses_D_ht+0x90e6, %r9 nop nop and $18124, %rax mov $0x6162636465666768, %r8 movq %r8, (%r9) xor $10656, %r9 lea addresses_WT_ht+0x1a9c6, %rsi lea addresses_D_ht+0x10972, %rdi clflush (%rsi) nop nop nop and %rbp, %rbp mov $44, %rcx rep movsl nop nop nop xor %rbx, %rbx lea addresses_WT_ht+0x1aca6, %rbx nop nop nop xor $11772, %r8 mov (%rbx), %rdi nop nop cmp $23294, %rbx lea addresses_D_ht+0xa606, %rsi lea addresses_D_ht+0x81de, %rdi nop and $42467, %r9 mov $84, %rcx rep movsw nop nop nop nop nop cmp %rsi, %rsi lea addresses_normal_ht+0xd9c6, %rsi lea addresses_normal_ht+0x29a6, %rdi nop nop nop nop add $8801, %r14 mov $99, %rcx rep movsb nop nop nop dec %rcx lea addresses_UC_ht+0x1ec46, %rsi lea addresses_WT_ht+0xf9c6, %rdi nop nop nop nop nop sub $28368, %rbx mov $62, %rcx rep movsb nop nop nop nop nop sub $40633, %r10 lea addresses_D_ht+0x19c6, %r10 clflush (%r10) nop nop cmp %r9, %r9 movb (%r10), %bl nop nop sub $19508, %rcx pop %rsi pop %rdi pop %rcx pop %rbx pop %rbp pop %rax pop %r9 pop %r8 pop %r14 pop %r10 ret .global s_faulty_load s_faulty_load: push %r12 push %r13 push %r14 push %r8 push %rbx push %rsi // Faulty Load lea addresses_D+0x71c6, %r8 nop cmp %r14, %r14 movups (%r8), %xmm4 vpextrq $1, %xmm4, %rbx lea oracles, %r8 and $0xff, %rbx shlq $12, %rbx mov (%r8,%rbx,1), %rbx pop %rsi pop %rbx pop %r8 pop %r14 pop %r13 pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': True}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 3, 'size': 2, 'same': False, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': True, 'congruent': 10, 'size': 16, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 1, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 4, 'size': 8, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 8, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 2, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'congruent': 5, 'size': 8, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_D_ht', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 3, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 9, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 5, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 3, 'same': False}, 'dst': {'type': 'addresses_WT_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 11, 'size': 1, 'same': True, 'NT': True}} {'36': 21829} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 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36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 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37.497143
2,999
0.658945
8e6b1b72d8d86903f9b270937ec0c17f554cc027
463
asm
Assembly
data/pokemon/base_stats/hoenn/shedinja.asm
Dev727/ancientplatinum
8b212a1728cc32a95743e1538b9eaa0827d013a7
[ "blessing" ]
null
null
null
data/pokemon/base_stats/hoenn/shedinja.asm
Dev727/ancientplatinum
8b212a1728cc32a95743e1538b9eaa0827d013a7
[ "blessing" ]
null
null
null
data/pokemon/base_stats/hoenn/shedinja.asm
Dev727/ancientplatinum
8b212a1728cc32a95743e1538b9eaa0827d013a7
[ "blessing" ]
null
null
null
db 0 ; 292 DEX NO db 1, 90, 45, 40, 30, 30 ; hp atk def spd sat sdf db BUG, GHOST ; type db 45 ; catch rate db 95 ; base exp db NO_ITEM, NO_ITEM ; items db GENDER_UNKNOWN ; gender ratio db 100 ; unknown 1 db 15 ; step cycles to hatch db 5 ; unknown 2 INCBIN "gfx/pokemon/hoenn/shedinja/front.dimensions" db 0, 0, 0, 0 ; padding db GROWTH_ERRATIC ; growth rate dn EGG_MINERAL, EGG_MINERAL ; egg groups ; tm/hm learnset tmhm ; end
21.045455
53
0.663067
bbe84b17efb465364d0eff9814f239849c73a11b
108
asm
Assembly
hello.asm
shaswata56/MIPS-32-Assembly
86c7b00840899d1cf301226df5a4d4a0ccfb2563
[ "Unlicense" ]
3
2019-02-28T22:08:12.000Z
2020-09-27T13:21:47.000Z
hello.asm
shaswata56/MIPS-32-Assembly
86c7b00840899d1cf301226df5a4d4a0ccfb2563
[ "Unlicense" ]
null
null
null
hello.asm
shaswata56/MIPS-32-Assembly
86c7b00840899d1cf301226df5a4d4a0ccfb2563
[ "Unlicense" ]
null
null
null
.data hello: .asciiz "Hello World!" .text main: li $v0, 4 la $a0, hello syscall li $v0, 10 syscall
9.818182
29
0.62037
57fc6b97529719706b32d344bdf1d2b4bc4ad395
5,534
asm
Assembly
deps/mozjs/js/src/methodjit/TrampolineMasmX64.asm
zpao/spidernode
843d5b5e9be55ce447fd03127aeeb2c7728ae168
[ "MIT" ]
48
2015-01-09T20:39:35.000Z
2021-12-21T21:17:52.000Z
deps/mozjs/js/src/methodjit/TrampolineMasmX64.asm
ninja1002/spidernode
ada8fc559bd2c047a6e52c78af9d27ab273c87d5
[ "MIT" ]
2
2016-02-05T10:27:37.000Z
2019-01-22T16:22:51.000Z
deps/mozjs/js/src/methodjit/TrampolineMasmX64.asm
ninja1002/spidernode
ada8fc559bd2c047a6e52c78af9d27ab273c87d5
[ "MIT" ]
8
2015-01-12T17:14:36.000Z
2018-09-15T14:10:27.000Z
; -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- ; ***** BEGIN LICENSE BLOCK ***** ; Version: MPL 1.1/GPL 2.0/LGPL 2.1 ; ; The contents of this file are subject to the Mozilla Public License Version ; 1.1 (the "License"); you may not use this file except in compliance with ; the License. You may obtain a copy of the License at ; http://www.mozilla.org/MPL/ ; ; Software distributed under the License is distributed on an "AS IS" basis, ; WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License ; for the specific language governing rights and limitations under the ; License. ; ; The Original Code is mozilla.org code. ; ; The Initial Developer of the Original Code is Mozilla Japan. ; Portions created by the Initial Developer are Copyright (C) 2010 ; the Initial Developer. All Rights Reserved. ; ; Contributor(s): ; Makoto Kato <m_kato@ga2.so-net.ne.jp> ; ; Alternatively, the contents of this file may be used under the terms of ; either the GNU General Public License Version 2 or later (the "GPL"), or ; the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), ; in which case the provisions of the GPL or the LGPL are applicable instead ; of those above. If you wish to allow use of your version of this file only ; under the terms of either the GPL or the LGPL, and not to allow others to ; use your version of this file under the terms of the MPL, indicate your ; decision by deleting the provisions above and replace them with the notice ; and other provisions required by the GPL or the LGPL. If you do not delete ; the provisions above, a recipient may use your version of this file under ; the terms of any one of the MPL, the GPL or the LGPL. ; ; ***** END LICENSE BLOCK ***** extern js_InternalThrow:PROC extern PushActiveVMFrame:PROC extern PopActiveVMFrame:PROC extern js_InternalInterpret:PROC .CODE ; JSBool JaegerTrampoline(JSContext *cx, StackFrame *fp, void *code, ; Value *stackLimit, void *safePoint); JaegerTrampoline PROC FRAME push rbp .PUSHREG rbp mov rbp, rsp .SETFRAME rbp, 0 push r12 .PUSHREG r12 push r13 .PUSHREG r13 push r14 .PUSHREG r14 push r15 .PUSHREG r15 push rdi .PUSHREG rdi push rsi .PUSHREG rsi push rbx .PUSHREG rbx .ENDPROLOG ; Load mask registers mov r13, 0ffff800000000000h mov r14, 7fffffffffffh ; Build the JIT frame. ; rcx = cx ; rdx = fp ; r9 = inlineCallCount ; fp must go into rbx push 0 ; stubRejoin push rdx ; entryncode push rdx ; entryFp push r9 ; inlineCallCount push rcx ; cx push rdx ; fp mov rbx, rdx ; Space for the rest of the VMFrame. sub rsp, 28h ; This is actually part of the VMFrame. mov r10, [rbp+8*5+8] push r10 ; Set cx->regs and set the active frame. Save r8 and align frame in one push r8 mov rcx, rsp sub rsp, 20h call PushActiveVMFrame add rsp, 20h ; Jump into the JIT code. jmp qword ptr [rsp] JaegerTrampoline ENDP ; void JaegerTrampolineReturn(); JaegerTrampolineReturn PROC FRAME .ENDPROLOG or rsi, rdi mov qword ptr [rbx+30h], rsi sub rsp, 20h lea rcx, [rsp+20h] call PopActiveVMFrame add rsp, 68h+20h pop rbx pop rsi pop rdi pop r15 pop r14 pop r13 pop r12 pop rbp mov rax, 1 ret JaegerTrampolineReturn ENDP ; void JaegerThrowpoline() JaegerThrowpoline PROC FRAME .ENDPROLOG ; For Windows x64 stub calls, we pad the stack by 32 before ; calling, so we must account for that here. See doStubCall. lea rcx, [rsp+20h] call js_InternalThrow test rax, rax je throwpoline_exit add rsp, 20h jmp rax throwpoline_exit: lea rcx, [rsp+20h] call PopActiveVMFrame add rsp, 68h+20h pop rbx pop rsi pop rdi pop r15 pop r14 pop r13 pop r12 pop rbp xor rax, rax ret JaegerThrowpoline ENDP JaegerInterpoline PROC FRAME .ENDPROLOG mov rcx, rdi mov rdx, rsi lea r9, [rsp+20h] mov r8, rax call js_InternalInterpret mov rbx, qword ptr [rsp+38h+20h] ; Load Frame mov rsi, qword ptr [rbx+30h] ; Load rval payload and rsi, r14 ; Mask rval payload mov rdi, qword ptr [rbx+30h] ; Load rval type and rdi, r13 ; Mask rval type mov rcx, qword ptr [rsp+18h+20h] ; Load scratch -> argc test rax, rax je interpoline_exit add rsp, 20h jmp rax interpoline_exit: lea rcx, [rsp+20h] call PopActiveVMFrame add rsp, 68h+20h pop rbx pop rsi pop rdi pop r15 pop r14 pop r13 pop r12 pop rbp xor rax, rax ret JaegerInterpoline ENDP JaegerInterpolineScripted PROC FRAME .ENDPROLOG mov rbx, qword ptr [rbx+20h] ; Load prev mov qword ptr [rsp+38h], rbx ; fp -> regs.fp sub rsp, 20h jmp JaegerInterpoline JaegerInterpolineScripted ENDP JaegerInterpolinePatched PROC FRAME sub rsp, 20h .ALLOCSTACK 32 .ENDPROLOG jmp JaegerInterpoline JaegerInterpolinePatched ENDP END
26.864078
77
0.625587
ac5f78f36fb87984d8aa76ec8d13d888205e8718
301
asm
Assembly
programs/oeis/021/A021810.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/021/A021810.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/021/A021810.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A021810: Decimal expansion of 1/806. ; 0,0,1,2,4,0,6,9,4,7,8,9,0,8,1,8,8,5,8,5,6,0,7,9,4,0,4,4,6,6,5,0,1,2,4,0,6,9,4,7,8,9,0,8,1,8,8,5,8,5,6,0,7,9,4,0,4,4,6,6,5,0,1,2,4,0,6,9,4,7,8,9,0,8,1,8,8,5,8,5,6,0,7,9,4,0,4,4,6,6,5,0,1,2,4,0,6,9,4 add $0,2 mov $1,10 pow $1,$0 div $1,8060 mod $1,10 mov $0,$1
30.1
199
0.541528
6106574b115fbf2935c2471c07624f860dc90301
399
asm
Assembly
programs/oeis/047/A047506.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/047/A047506.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/047/A047506.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A047506: Numbers that are congruent to {4, 6, 7} mod 8. ; 4,6,7,12,14,15,20,22,23,28,30,31,36,38,39,44,46,47,52,54,55,60,62,63,68,70,71,76,78,79,84,86,87,92,94,95,100,102,103,108,110,111,116,118,119,124,126,127,132,134,135,140,142,143,148,150,151,156,158 mov $1,$0 mov $3,$0 add $0,1 lpb $0,1 trn $0,2 add $1,2 mov $2,$0 trn $0,1 lpe sub $1,$2 lpb $3,1 add $1,1 sub $3,1 lpe add $1,2
21
198
0.621554
3a58d90e1f74b49e45eed2e84731b53c8fcd3c0e
623
asm
Assembly
max_sum_digits.asm
Klaus073/Assembly-language
2ddddf9e3ef6ce6c05f56b015be5697d1ac3c0be
[ "BSD-2-Clause" ]
null
null
null
max_sum_digits.asm
Klaus073/Assembly-language
2ddddf9e3ef6ce6c05f56b015be5697d1ac3c0be
[ "BSD-2-Clause" ]
null
null
null
max_sum_digits.asm
Klaus073/Assembly-language
2ddddf9e3ef6ce6c05f56b015be5697d1ac3c0be
[ "BSD-2-Clause" ]
null
null
null
[org 0x0100] jmp start Example: dw 47, 72, 31 sum_of_two_digit: dw 0 max_sum_digit: dw 0 divider: dw 10 start: mov ax,0 mov bx,0 mov cx,0 mov dx,0 mov ax,[Example+bx] div [divider] add word[sum_of_two_digit],al add word[sum_of_two_digit],dx mov [max_sum_digit],ax loop: mov ax,[Example+bx+2] div [divider] add dx,al cmp [sum_of_two_digit],dx jge checker mov cx ,ax checker: add bx,2 cmp bx,6 jne loop ;; Main Function ;start: ;mov ax,0 ;mov bx,0 ;mov dx,0 ;call Odd_Subroutine ;; Calling the function mov ax, 0x4c00 int 0x21
12.714286
53
0.622793
0ea43e856fb37bf199748f6c611b52c43c14e78a
412
asm
Assembly
programs/oeis/032/A032612.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/032/A032612.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
programs/oeis/032/A032612.asm
jmorken/loda
99c09d2641e858b074f6344a352d13bc55601571
[ "Apache-2.0" ]
null
null
null
; A032612: Concatenation of n and n+7. ; 18,29,310,411,512,613,714,815,916,1017,1118,1219,1320,1421,1522,1623,1724,1825,1926,2027,2128,2229,2330,2431,2532,2633,2734,2835,2936,3037,3138,3239,3340,3441,3542,3643,3744,3845,3946,4047,4148,4249 mov $1,$0 add $1,1 mov $2,$1 mov $3,$0 add $0,$1 lpb $0 sub $0,$1 trn $0,1 mul $2,4 add $2,$1 mul $2,2 mov $1,$2 lpe lpb $3 add $1,1 sub $3,1 lpe add $1,8
18.727273
200
0.652913
9ace5454199dc3e6275a0eef6b57d3a97296a26c
39
asm
Assembly
OS/kernel_entry.asm
benediktweihs/os-tutorial
629db14e01141622fce72e12d17ddb56f0e98312
[ "BSD-3-Clause" ]
null
null
null
OS/kernel_entry.asm
benediktweihs/os-tutorial
629db14e01141622fce72e12d17ddb56f0e98312
[ "BSD-3-Clause" ]
null
null
null
OS/kernel_entry.asm
benediktweihs/os-tutorial
629db14e01141622fce72e12d17ddb56f0e98312
[ "BSD-3-Clause" ]
null
null
null
[bits 32] [extern main] call main jmp $
9.75
13
0.692308
1a438e7c0cc709c55063856eaad74a3dcf8c1d7d
1,079
asm
Assembly
semester-5/microprocessor/arrsub.asm
saranshbht/bsc-codes
7386c09cc986de9c84947f7dea7db3dc42219a35
[ "MIT" ]
3
2021-03-22T12:07:14.000Z
2021-08-30T17:28:23.000Z
semester-5/microprocessor/arrsub.asm
saranshbht/bsc-codes
7386c09cc986de9c84947f7dea7db3dc42219a35
[ "MIT" ]
null
null
null
semester-5/microprocessor/arrsub.asm
saranshbht/bsc-codes
7386c09cc986de9c84947f7dea7db3dc42219a35
[ "MIT" ]
null
null
null
.model small .data A db 54h, 10h, 3h, 5h, 6h, 27h B db 0b9h, 0f7h, 2h, 4h, 0h, 15h msg db "Resultant array: $", 10 tempcx dw ? .code .startup mov si, 0h lea dx, msg mov ah, 09h int 21h mov si, 0h mov cx, 6h output: mov bl, A[si] sub bl, B[si] ;check if the result is negative jnc nocarry ;print '-' character mov dl, 2dh mov ah, 02h int 21h ;2's complement not bl inc bl nocarry: mov tempcx, cx mov cx, 2h bitByBit: rol bl, 4h mov dl, bl and dl, 0fh cmp dl, 9 jbe lessThan10 add dl, 07h lessThan10: add dl, 30h mov ah, 02h int 21h loop bitByBit mov dl, 20h mov ah, 02h int 21h inc si mov cx, tempcx loop output .exit end
19.618182
40
0.400371
e90e536f3e37965f2b5bf396ab45a6ef540bb458
492
asm
Assembly
oeis/120/A120691.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/120/A120691.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/120/A120691.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A120691: First differences of coefficients in the continued fraction for e. ; Submitted by Simon Strandgaard ; 2,-1,1,-1,0,3,-3,0,5,-5,0,7,-7,0,9,-9,0,11,-11,0,13,-13,0,15,-15,0,17,-17,0,19,-19,0,21,-21,0,23,-23,0,25,-25,0,27,-27,0,29,-29,0,31,-31,0,33,-33,0,35,-35,0,37,-37,0,39,-39 mov $3,$0 mov $4,2 lpb $4 mov $0,$3 sub $4,1 add $0,$4 trn $0,1 seq $0,3417 ; Continued fraction for e. mov $2,$4 mul $2,$0 add $1,$2 mov $5,$0 lpe min $3,1 mul $3,$5 sub $1,$3 mov $0,$1
22.363636
174
0.583333
9411b7435c09f6665c54675adc971e7378372c6e
4,883
asm
Assembly
Transynther/x86/_processed/NC/_zr_/i3-7100_9_0xca_notsx.log_21829_560.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NC/_zr_/i3-7100_9_0xca_notsx.log_21829_560.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NC/_zr_/i3-7100_9_0xca_notsx.log_21829_560.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 %rax push %rcx push %rdi push %rsi lea addresses_normal_ht+0x1e07f, %rsi lea addresses_WC_ht+0x9ae2, %rdi nop nop nop nop nop xor $31068, %rax mov $114, %rcx rep movsb nop nop and $9562, %rcx pop %rsi pop %rdi pop %rcx pop %rax ret .global s_faulty_load s_faulty_load: push %r11 push %r13 push %r15 push %r9 push %rax push %rbp push %rsi // Load lea addresses_A+0x44a6, %r15 nop nop nop nop nop add $27741, %rbp mov (%r15), %r11w nop nop nop nop nop xor %rsi, %rsi // Store lea addresses_PSE+0x19222, %r15 nop nop dec %rax mov $0x5152535455565758, %r13 movq %r13, %xmm2 movups %xmm2, (%r15) nop nop sub %rbp, %rbp // Store mov $0xd22, %r11 clflush (%r11) nop nop nop nop nop and $59558, %rbp movl $0x51525354, (%r11) cmp $804, %rax // Faulty Load mov $0x1d01400000000e2, %r9 clflush (%r9) nop nop nop nop nop and $35643, %r13 movb (%r9), %r11b lea oracles, %r15 and $0xff, %r11 shlq $12, %r11 mov (%r15,%r11,1), %r11 pop %rsi pop %rbp pop %rax pop %r9 pop %r15 pop %r13 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'same': False, 'congruent': 0, 'NT': False, 'type': 'addresses_NC', 'size': 8, 'AVXalign': False}, 'OP': 'LOAD'} {'src': {'same': False, 'congruent': 1, 'NT': False, 'type': 'addresses_A', 'size': 2, 'AVXalign': False}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 5, 'NT': False, 'type': 'addresses_PSE', 'size': 16, 'AVXalign': False}} {'OP': 'STOR', 'dst': {'same': False, 'congruent': 5, 'NT': False, 'type': 'addresses_P', 'size': 4, 'AVXalign': False}} [Faulty Load] {'src': {'same': True, 'congruent': 0, 'NT': False, 'type': 'addresses_NC', 'size': 1, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_normal_ht', 'congruent': 0, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 5, 'same': True}} {'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 */
43.212389
2,999
0.659021
fe4f2fbea618da6308161a8e3213cdb6bbcc97bf
3,815
asm
Assembly
libsrc/_DEVELOPMENT/target/rc2014/device/lut/z80/l_lut_mulu_72_64x8.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/_DEVELOPMENT/target/rc2014/device/lut/z80/l_lut_mulu_72_64x8.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/_DEVELOPMENT/target/rc2014/device/lut/z80/l_lut_mulu_72_64x8.asm
Frodevan/z88dk
f27af9fe840ff995c63c80a73673ba7ee33fffac
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; ; feilipu, 2020 March ; ; This Source Code Form is subject to the terms of the Mozilla Public ; License, v. 2.0. If a copy of the MPL was not distributed with this ; file, You can obtain one at http://mozilla.org/MPL/2.0/. ; ;------------------------------------------------------------------------------ ; ; Using RC2014 LUT Module ; ;------------------------------------------------------------------------------ INCLUDE "config_private.inc" SECTION code_clib SECTION code_math PUBLIC l_lut_mulu_72_64x8 l_lut_mulu_72_64x8: ; multiplication of a 64-bit number and an 8-bit number into 72-bit result ; ; enter : dehl'dehl = 64-bit multiplicand ; a = 8-bit multiplicand ; ; exit : a dehl'dehl = 72-bit product ; carry reset ; ; uses : af, bc, de, hl, bc', de', hl' ld c,__IO_LUT_OPERAND_LATCH ; 7 operand latch address ld b,a ; 4 operand X in B out (c),l ; 12 operand Y0 from L in l,(c) ; 12 result LSB to A inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),h ; 12 operand Y1 from H in h,(c) ; 12 result LSB to H add a,h ; 4 ld h,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),e ; 12 operand Y2 from E in e,(c) ; 12 result LSB to E adc a,e ; 4 ld e,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),d ; 12 operand Y3 from D in d,(c) ; 12 result LSB to D adc a,d ; 4 ld d,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A push bc ; 11 exx ; 4 pop bc ; 10 dec c ; 4 operand latch address out (c),l ; 12 operand Y4 from L' in l,(c) ; 12 result LSB to L' adc a,l ; 4 ld l,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),h ; 12 operand Y5 from H in h,(c) ; 12 result LSB to H adc a,h ; 4 ld h,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),e ; 12 operand Y6 from E in e,(c) ; 12 result LSB to E adc a,e ; 4 ld e,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A dec c ; 4 operand latch address out (c),d ; 12 operand Y7 from D in d,(c) ; 12 result LSB to D adc a,d ; 4 ld d,a ; 4 inc c ; 4 result MSB address in a,(c) ; 12 result MSB to A adc a,0 ; 7 final carry exx ; 4 ret
35.990566
79
0.369332
e83bc0bad8982e42b417e26967bc52188c764175
509
asm
Assembly
libsrc/_DEVELOPMENT/math/float/math32/c/sdcc/cm32_sdcc_fsneg_fastcall.asm
rjcorrig/z88dk
c49c26bb232c17ea5a45d21bb81b6343572b7f4c
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math32/c/sdcc/cm32_sdcc_fsneg_fastcall.asm
rjcorrig/z88dk
c49c26bb232c17ea5a45d21bb81b6343572b7f4c
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/float/math32/c/sdcc/cm32_sdcc_fsneg_fastcall.asm
rjcorrig/z88dk
c49c26bb232c17ea5a45d21bb81b6343572b7f4c
[ "ClArtistic" ]
null
null
null
; float __fsneg_fastcall (float number) SECTION code_clib SECTION code_math PUBLIC cm32_sdcc_fsneg_fastcall EXTERN m32_fsneg_fastcall ; negate sdcc floats ; ; enter : stack = sdcc_float number, ret ; ; exit : DEHL = sdcc_float(-number) ; ; uses : af, bc, de, hl DEFC cm32_sdcc_fsneg_fastcall = m32_fsneg_fastcall ; enter DEHL = sdcc_float ; ; return DEHL = sdcc_float
23.136364
78
0.557957
483b6c9f77abf3e9c7898f8d3a3755700aaf8f89
2,297
asm
Assembly
libsrc/_DEVELOPMENT/math/integer/fast/l_fast_mulu_16_8x8.asm
teknoplop/z88dk
bb03fbfd6b2ab0f397a1358559089f9cd3706485
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/integer/fast/l_fast_mulu_16_8x8.asm
teknoplop/z88dk
bb03fbfd6b2ab0f397a1358559089f9cd3706485
[ "ClArtistic" ]
null
null
null
libsrc/_DEVELOPMENT/math/integer/fast/l_fast_mulu_16_8x8.asm
teknoplop/z88dk
bb03fbfd6b2ab0f397a1358559089f9cd3706485
[ "ClArtistic" ]
1
2019-12-03T23:57:48.000Z
2019-12-03T23:57:48.000Z
INCLUDE "clib_cfg.asm" SECTION code_clib SECTION code_math PUBLIC l_fast_mulu_16_8x8 l_fast_mulu_16_8x8: ; unsigned multiplication of two 8-bit ; multiplicands into a sixteen bit product ; ; enter : l = 8-bit multiplicand ; e = 8-bit multiplicand ; ; exit : hl = 16-bit product ; a = 0 ; d = 0 ; carry reset ; ; uses : af, b, de, hl xor a ld d,a ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; IF __CLIB_OPT_IMATH_FAST & $08 ld h,l ld l,e ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ELSE ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ld h,l ld l,a ENDIF ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; IF __CLIB_OPT_IMATH_FAST & $04 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ENABLE LOOP UNROLLING ;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; IF __CLIB_OPT_IMATH_FAST & $08 ; eliminate leading zero bits loop_00: sla h jr c, loop_11 sla h jr c, loop_12 sla h jr c, loop_13 sla h jr c, loop_14 sla h jr c, loop_15 sla h jr c, loop_16 sla h jr c, loop_17 sla h ccf ret nc xor a ld l,a ret ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ELSE ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; loop_10: sla h jr nc, loop_11 add hl,de ENDIF ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; general multiplication loop loop_11: add hl,hl jr nc, loop_12 add hl,de loop_12: add hl,hl jr nc, loop_13 add hl,de loop_13: add hl,hl jr nc, loop_14 add hl,de loop_14: add hl,hl jr nc, loop_15 add hl,de loop_15: add hl,hl jr nc, loop_16 add hl,de loop_16: add hl,hl jr nc, loop_17 add hl,de loop_17: add hl,hl ret nc add hl,de ret ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ELSE ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; DISABLE LOOP UNROLLING ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ld b,8 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; IF __CLIB_OPT_IMATH_FAST & $08 ; eliminate leading zeroes loop_00: sla h jr c, loop_01 djnz loop_00 xor a ld l,a ret ENDIF ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; general multiply loop loop_11: add hl,hl jr nc, loop_01 add hl,de loop_01: djnz loop_11 ret ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ENDIF ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
12.349462
45
0.436657
52163304404e3a8da8c23cce7d3d1949299fdea8
309
asm
Assembly
programs/oeis/090/A090618.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/090/A090618.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/090/A090618.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A090618: Highest power of 9 dividing n!. ; 0,0,0,0,0,0,1,1,1,2,2,2,2,2,2,3,3,3,4,4,4,4,4,4,5,5,5,6,6,6,7,7,7,7,7,7,8,8,8,9,9,9,9,9,9,10,10,10,11,11,11,11,11,11,13,13,13,13,13,13,14,14,14,15,15,15,15,15,15,16,16,16,17,17,17,17,17,17,18,18,18,20,20,20,20 lpb $0 div $0,3 add $1,$0 lpe div $1,2 mov $0,$1
30.9
211
0.592233
18dd88881db9158a3a118ee82a50032edae4d2a9
1,325
asm
Assembly
_build/dispatcher/jmp_ippsGFpECBindGxyTblStd256r1_97be7e97.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
1
2021-10-04T10:21:54.000Z
2021-10-04T10:21:54.000Z
_build/dispatcher/jmp_ippsGFpECBindGxyTblStd256r1_97be7e97.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
null
null
null
_build/dispatcher/jmp_ippsGFpECBindGxyTblStd256r1_97be7e97.asm
zyktrcn/ippcp
b0bbe9bbb750a7cf4af5914dd8e6776a8d544466
[ "Apache-2.0" ]
null
null
null
extern m7_ippsGFpECBindGxyTblStd256r1:function extern n8_ippsGFpECBindGxyTblStd256r1:function extern y8_ippsGFpECBindGxyTblStd256r1:function extern e9_ippsGFpECBindGxyTblStd256r1:function extern l9_ippsGFpECBindGxyTblStd256r1:function extern n0_ippsGFpECBindGxyTblStd256r1:function extern k0_ippsGFpECBindGxyTblStd256r1:function extern ippcpJumpIndexForMergedLibs extern ippcpSafeInit:function segment .data align 8 dq .Lin_ippsGFpECBindGxyTblStd256r1 .Larraddr_ippsGFpECBindGxyTblStd256r1: dq m7_ippsGFpECBindGxyTblStd256r1 dq n8_ippsGFpECBindGxyTblStd256r1 dq y8_ippsGFpECBindGxyTblStd256r1 dq e9_ippsGFpECBindGxyTblStd256r1 dq l9_ippsGFpECBindGxyTblStd256r1 dq n0_ippsGFpECBindGxyTblStd256r1 dq k0_ippsGFpECBindGxyTblStd256r1 segment .text global ippsGFpECBindGxyTblStd256r1:function (ippsGFpECBindGxyTblStd256r1.LEndippsGFpECBindGxyTblStd256r1 - ippsGFpECBindGxyTblStd256r1) .Lin_ippsGFpECBindGxyTblStd256r1: db 0xf3, 0x0f, 0x1e, 0xfa call ippcpSafeInit wrt ..plt align 16 ippsGFpECBindGxyTblStd256r1: db 0xf3, 0x0f, 0x1e, 0xfa mov rax, qword [rel ippcpJumpIndexForMergedLibs wrt ..gotpc] movsxd rax, dword [rax] lea r11, [rel .Larraddr_ippsGFpECBindGxyTblStd256r1] mov r11, qword [r11+rax*8] jmp r11 .LEndippsGFpECBindGxyTblStd256r1:
33.974359
135
0.833962
09a374e0d67fa8143b7c609fd87bd7b9916c45ac
1,694
asm
Assembly
asm/Audio2/acp_melodic.asm
clydeshaffer/GameTankEmulator
ed84475c8de65973b1366898b8a12784ed0b8c46
[ "MIT" ]
3
2020-04-16T13:28:07.000Z
2021-08-17T03:39:19.000Z
asm/Audio2/acp_melodic.asm
clydeshaffer/GameTankEmulator
ed84475c8de65973b1366898b8a12784ed0b8c46
[ "MIT" ]
null
null
null
asm/Audio2/acp_melodic.asm
clydeshaffer/GameTankEmulator
ed84475c8de65973b1366898b8a12784ed0b8c46
[ "MIT" ]
null
null
null
DAC = $8000 AccBuf = $00 Input = $02 ChIndex = $03 FreqsW = $10 FreqsF = $20 DecaysW = $30 DecaysF = $40 WaveStatesW = $50 WaveStatesF = $60 .org $0200 RESET: CLI LDA #$00 STA $00 Forever: JMP Forever IRQ: ;Clear sum buffer STZ AccBuf ;3? ;Advance channel decays LDA #$FF ;Channel 1 decay DEC DecaysF+0 ;5 BNE *+4 ;2/3 DEC DecaysW+0 ;5/0 BNE *+10 ;2/3 STZ FreqsW+0 ;3/0 STZ FreqsF+0 STA WaveStatesW+0 STZ WaveStatesF+0 ;Channel 2 decay DEC DecaysF+1 ;5 BNE *+4 ;2/3 DEC DecaysW+1 ;5/0 BNE *+10 ;2/3 STZ FreqsW+1 ;3/0 STZ FreqsF+1 STA WaveStatesW+1 STZ WaveStatesF+1 ;Channel 1 wavestate CLC ;2 LDA WaveStatesF+0 ;3 ADC FreqsF+0 ;3 STA WaveStatesF+0 LDA WaveStatesW+0 ADC FreqsW+0 STA WaveStatesW+0 ;3 ROL ;2 LDA #$FF ;2 ADC #$00 ;2 AND DecaysW+0 ;3 CLC ;2 ADC AccBuf ;3 STA AccBuf ;3 ;Channel 2 wavestate CLC ;2 LDA WaveStatesF+1 ;3 ADC FreqsF+1 ;3 STA WaveStatesF+1 LDA WaveStatesW+1 ADC FreqsW+1 STA WaveStatesW+1 ;3 ROL ;2 LDA #$FF ;2 ADC #$00 ;2 AND DecaysW+1 ;3 CLC ;2 ADC AccBuf ;3 STA AccBuf ;3 ;Move sum buffer to DAC LDA AccBuf ;3 STA DAC ;3 RTI ;6 NMI: INC ChIndex LDA ChIndex AND #1 ;only cycle through two channels in case new method too slow TAY LDX Input LDA NotesF, x STA FreqsF, y LDA NotesW, x STA FreqsW, y LDA #$40 STA DecaysW, y LDA #$00 STA DecaysF, y RTI NotesF: .db $CA, $13, $60, $B2, $09, $65, $C6, $2D, $9A, $0E, $89, $0B, $94, $26, $C1, $64 NotesW: .db $04, $05, $05, $05, $06, $06, $06, $07, $07, $08, $08, $09, $09, $0A, $0A, $0B .org $0FFA .dw NMI .dw RESET .dw IRQ
15.685185
84
0.595041
c4edb3b50baf74d4c39cd92d7804209f34c0e38c
924
asm
Assembly
symbolinen_konekieli/Ratol_msdos/palv54.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
symbolinen_konekieli/Ratol_msdos/palv54.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
symbolinen_konekieli/Ratol_msdos/palv54.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
;RaTol Symbolinen konekieli: Harjoitus 5, tehtävä 4 ;Tero Kukka IY96A ;Tiedosto: palv54.asm Versio 1.01 ;Luotu 25.4.1998 include a:makrot.txt ;Keskeytyspalvelu _palvelu public _palvelu public laskuri ;sekunnin laskuri public laskuri91 ;5 sekunnin laskuri .model large ;huom. muistimalli .stack 50h ;pinon koko .data laskuri dw 0 ;sekunnin laskuri laskuri91 dw 0 ;5 sekunnin laskuri .code _palvelu proc sti ;sallitaan muut keskeytykset push ds push ax mov ax, @data mov ds, ax inc laskuri inc laskuri91 pop ax pop ds iret _palvelu endp end
21.488372
60
0.465368
93b45080ec93a9f1eac2684b3d3b0853a9793f02
774
asm
Assembly
oeis/340/A340309.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/340/A340309.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/340/A340309.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A340309: Number of ordered pairs of vertices which have two different shortest paths between them in the n-Hanoi graph (3 pegs, n discs). ; Submitted by Jamie Morken(s2) ; 0,6,48,282,1476,7302,35016,164850,767340,3546366,16315248,74837802,342621396,1566620022,7157423256,32682574050,149184117180,680813718126,3106475197248,14173073072922,64659388538916,294971717255142,1345602571317096,6138257708432850,28000648258603020,127728420453368286,582645889481292048,2657787857694693642,12123693263095794036,55303027860844312662,252268164560294164536,1150736002426574765250,5249147389052663200860,23944276058531299584846,109223118868914570855648,498227142290600453107962 mov $3,1 lpb $0 sub $0,1 add $2,$3 add $1,$2 mul $1,3 add $3,$2 mul $3,2 lpe mov $0,$1 mul $0,2
48.375
492
0.826873
6ee50ab5376ae8c2108e2bddbd833a9d04dde821
12,591
asm
Assembly
include/memcpy.asm
kingwelx/intel-ipsec-mb
f67b588d92a477952de8704bf6104812e1517f27
[ "BSD-3-Clause" ]
null
null
null
include/memcpy.asm
kingwelx/intel-ipsec-mb
f67b588d92a477952de8704bf6104812e1517f27
[ "BSD-3-Clause" ]
null
null
null
include/memcpy.asm
kingwelx/intel-ipsec-mb
f67b588d92a477952de8704bf6104812e1517f27
[ "BSD-3-Clause" ]
null
null
null
;; ;; Copyright (c) 2012-2018, Intel Corporation ;; ;; Redistribution and use in source and binary forms, with or without ;; modification, are permitted provided that the following conditions are met: ;; ;; * Redistributions of source code must retain the above copyright notice, ;; this list of conditions and the following disclaimer. ;; * Redistributions in binary form must reproduce the above copyright ;; notice, this list of conditions and the following disclaimer in the ;; documentation and/or other materials provided with the distribution. ;; * Neither the name of Intel Corporation nor the names of its contributors ;; may be used to endorse or promote products derived from this software ;; without specific prior written permission. ;; ;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" ;; AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE ;; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE ;; DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE ;; FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL ;; DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR ;; SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER ;; CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, ;; OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE ;; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;; %ifndef __MEMCPY_ASM__ %define __MEMCPY_ASM__ %include "reg_sizes.asm" ; This section defines a series of macros to copy small to medium amounts ; of data from memory to memory, where the size is variable but limited. ; ; The macros are all called as: ; memcpy DST, SRC, SIZE, TMP0, TMP1, XTMP0, XTMP1, XTMP2, XTMP3 ; with the parameters defined as: ; DST : register: pointer to dst (not modified) ; SRC : register: pointer to src (not modified) ; SIZE : register: length in bytes (not modified) ; TMP0 : 64-bit temp GPR (clobbered) ; TMP1 : 64-bit temp GPR (clobbered) ; XTMP0 : temp XMM (clobbered) ; XTMP1 : temp XMM (clobbered) ; XTMP2 : temp XMM (clobbered) ; XTMP3 : temp XMM (clobbered) ; ; The name indicates the options. The name is of the form: ; memcpy_<VEC>_<SZ><ZERO><RET> ; where: ; <VEC> is either "sse" or "avx" or "avx2" ; <SZ> is either "64" or "128" and defines largest value of SIZE ; <ZERO> is blank or "_1". If "_1" then the min SIZE is 1 (otherwise 0) ; <RET> is blank or "_ret". If blank, the code falls through. If "ret" ; it does a "ret" at the end ; ; For the avx2 versions, the temp XMM registers need to be YMM registers ; If the SZ is 64, then only two YMM temps are needed, i.e. it is called as: ; memcpy_avx2_64 DST, SRC, SIZE, TMP0, TMP1, YTMP0, YTMP1 ; memcpy_avx2_128 DST, SRC, SIZE, TMP0, TMP1, YTMP0, YTMP1, YTMP2, YTMP3 ; ; For example: ; memcpy_sse_64 : SSE, 0 <= size < 64, falls through ; memcpy_avx_64_1 : AVX1, 1 <= size < 64, falls through ; memcpy_sse_128_ret : SSE, 0 <= size < 128, ends with ret ; mempcy_avx_128_1_ret : AVX1, 1 <= size < 128, ends with ret ; %macro memcpy_sse_64 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 64, 0, 0 %endm %macro memcpy_sse_64_1 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 64, 0, 0 %endm %macro memcpy_sse_128 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 128, 0, 0 %endm %macro memcpy_sse_128_1 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 128, 0, 0 %endm %macro memcpy_sse_64_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 64, 1, 0 %endm %macro memcpy_sse_64_1_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 64, 1, 0 %endm %macro memcpy_sse_128_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 128, 1, 0 %endm %macro memcpy_sse_128_1_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 128, 1, 0 %endm %macro memcpy_sse_16 5 __memcpy_int %1,%2,%3,%4,%5,,,,, 0, 16, 0, 0 %endm %macro memcpy_sse_16_1 5 __memcpy_int %1,%2,%3,%4,%5,,,,, 1, 16, 0, 0 %endm ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; %macro memcpy_avx_64 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 64, 0, 1 %endm %macro memcpy_avx_64_1 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 64, 0, 1 %endm %macro memcpy_avx_128 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 128, 0, 1 %endm %macro memcpy_avx_128_1 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 128, 0, 1 %endm %macro memcpy_avx_64_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 64, 1, 1 %endm %macro memcpy_avx_64_1_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 64, 1, 1 %endm %macro memcpy_avx_128_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 128, 1, 1 %endm %macro memcpy_avx_128_1_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 128, 1, 1 %endm %macro memcpy_avx_16 5 __memcpy_int %1,%2,%3,%4,%5,,,,, 0, 16, 0, 1 %endm %macro memcpy_avx_16_1 5 __memcpy_int %1,%2,%3,%4,%5,,,,, 1, 16, 0, 1 %endm ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; %macro memcpy_avx2_64 7 __memcpy_int %1,%2,%3,%4,%5,%6,%7,--,--, 0, 64, 0, 2 %endm %macro memcpy_avx2_64_1 7 __memcpy_int %1,%2,%3,%4,%5,%6,%7,--,--, 1, 64, 0, 2 %endm %macro memcpy_avx2_128 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7, %8, %9, 0, 128, 0, 2 %endm %macro memcpy_avx2_128_1 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7, %8, %9, 1, 128, 0, 2 %endm %macro memcpy_avx2_64_ret 7 __memcpy_int %1,%2,%3,%4,%5,%6,%7,--,--, 0, 64, 1, 2 %endm %macro memcpy_avx2_64_1_ret 7 __memcpy_int %1,%2,%3,%4,%5,%6,%7,--,--, 1, 64, 1, 2 %endm %macro memcpy_avx2_128_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 0, 128, 1, 2 %endm %macro memcpy_avx2_128_1_ret 9 __memcpy_int %1,%2,%3,%4,%5,%6,%7,%8,%9, 1, 128, 1, 2 %endm ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; %macro __memcpy_int 13 %define %%DST %1 ; register: pointer to dst (not modified) %define %%SRC %2 ; register: pointer to src (not modified) %define %%SIZE %3 ; register: length in bytes (not modified) %define %%TMP0 %4 ; 64-bit temp GPR (clobbered) %define %%TMP1 %5 ; 64-bit temp GPR (clobbered) %define %%XTMP0 %6 ; temp XMM (clobbered) %define %%XTMP1 %7 ; temp XMM (clobbered) %define %%XTMP2 %8 ; temp XMM (clobbered) %define %%XTMP3 %9 ; temp XMM (clobbered) %define %%NOT0 %10 ; if not 0, then assume size cannot be zero %define %%MAXSIZE %11 ; 128, 64, etc %define %%USERET %12 ; if not 0, use "ret" at end %define %%USEAVX %13 ; 0 = SSE, 1 = AVX1, 2 = AVX2 %if (%%USERET != 0) %define %%DONE ret %else %define %%DONE jmp %%end %endif %if (%%USEAVX != 0) %define %%MOVDQU vmovdqu %else %define %%MOVDQU movdqu %endif %if (%%MAXSIZE >= 128) test %%SIZE, 64 jz %%lt64 %if (%%USEAVX >= 2) %%MOVDQU %%XTMP0, [%%SRC + 0*32] %%MOVDQU %%XTMP1, [%%SRC + 1*32] %%MOVDQU %%XTMP2, [%%SRC + %%SIZE - 2*32] %%MOVDQU %%XTMP3, [%%SRC + %%SIZE - 1*32] %%MOVDQU [%%DST + 0*32], %%XTMP0 %%MOVDQU [%%DST + 1*32], %%XTMP1 %%MOVDQU [%%DST + %%SIZE - 2*32], %%XTMP2 %%MOVDQU [%%DST + %%SIZE - 1*32], %%XTMP3 %else %%MOVDQU %%XTMP0, [%%SRC + 0*16] %%MOVDQU %%XTMP1, [%%SRC + 1*16] %%MOVDQU %%XTMP2, [%%SRC + 2*16] %%MOVDQU %%XTMP3, [%%SRC + 3*16] %%MOVDQU [%%DST + 0*16], %%XTMP0 %%MOVDQU [%%DST + 1*16], %%XTMP1 %%MOVDQU [%%DST + 2*16], %%XTMP2 %%MOVDQU [%%DST + 3*16], %%XTMP3 %%MOVDQU %%XTMP0, [%%SRC + %%SIZE - 4*16] %%MOVDQU %%XTMP1, [%%SRC + %%SIZE - 3*16] %%MOVDQU %%XTMP2, [%%SRC + %%SIZE - 2*16] %%MOVDQU %%XTMP3, [%%SRC + %%SIZE - 1*16] %%MOVDQU [%%DST + %%SIZE - 4*16], %%XTMP0 %%MOVDQU [%%DST + %%SIZE - 3*16], %%XTMP1 %%MOVDQU [%%DST + %%SIZE - 2*16], %%XTMP2 %%MOVDQU [%%DST + %%SIZE - 1*16], %%XTMP3 %endif %%DONE %endif %if (%%MAXSIZE >= 64) %%lt64: test %%SIZE, 32 jz %%lt32 %if (%%USEAVX >= 2) %%MOVDQU %%XTMP0, [%%SRC + 0*32] %%MOVDQU %%XTMP1, [%%SRC + %%SIZE - 1*32] %%MOVDQU [%%DST + 0*32], %%XTMP0 %%MOVDQU [%%DST + %%SIZE - 1*32], %%XTMP1 %else %%MOVDQU %%XTMP0, [%%SRC + 0*16] %%MOVDQU %%XTMP1, [%%SRC + 1*16] %%MOVDQU %%XTMP2, [%%SRC + %%SIZE - 2*16] %%MOVDQU %%XTMP3, [%%SRC + %%SIZE - 1*16] %%MOVDQU [%%DST + 0*16], %%XTMP0 %%MOVDQU [%%DST + 1*16], %%XTMP1 %%MOVDQU [%%DST + %%SIZE - 2*16], %%XTMP2 %%MOVDQU [%%DST + %%SIZE - 1*16], %%XTMP3 %endif %%DONE %endif %if (%%MAXSIZE >= 32) %%lt32: test %%SIZE, 16 jz %%lt16 %if (%%USEAVX >= 2) %%MOVDQU XWORD(%%XTMP0), [%%SRC + 0*16] %%MOVDQU XWORD(%%XTMP1), [%%SRC + %%SIZE - 1*16] %%MOVDQU [%%DST + 0*16], XWORD(%%XTMP0) %%MOVDQU [%%DST + %%SIZE - 1*16], XWORD(%%XTMP1) %else %%MOVDQU %%XTMP0, [%%SRC + 0*16] %%MOVDQU %%XTMP1, [%%SRC + %%SIZE - 1*16] %%MOVDQU [%%DST + 0*16], %%XTMP0 %%MOVDQU [%%DST + %%SIZE - 1*16], %%XTMP1 %endif %%DONE %endif %if (%%MAXSIZE >= 16) %%lt16: test %%SIZE, 8 jz %%lt8 mov %%TMP0, [%%SRC] mov %%TMP1, [%%SRC + %%SIZE - 8] mov [%%DST], %%TMP0 mov [%%DST + %%SIZE - 8], %%TMP1 %%DONE %endif %if (%%MAXSIZE >= 8) %%lt8: test %%SIZE, 4 jz %%lt4 mov DWORD(%%TMP0), [%%SRC] mov DWORD(%%TMP1), [%%SRC + %%SIZE - 4] mov [%%DST], DWORD(%%TMP0) mov [%%DST + %%SIZE - 4], DWORD(%%TMP1) %%DONE %endif %if (%%MAXSIZE >= 4) %%lt4: test %%SIZE, 2 jz %%lt2 movzx DWORD(%%TMP0), word [%%SRC] movzx DWORD(%%TMP1), byte [%%SRC + %%SIZE - 1] mov [%%DST], WORD(%%TMP0) mov [%%DST + %%SIZE - 1], BYTE(%%TMP1) %%DONE %endif %%lt2: %if (%%NOT0 == 0) test %%SIZE, 1 jz %%end %endif movzx DWORD(%%TMP0), byte [%%SRC] mov [%%DST], BYTE(%%TMP0) %%end: %if (%%USERET != 0) ret %endif %endm ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; Utility macro to assist with SIMD shifting %macro _PSRLDQ 3 %define %%VEC %1 %define %%REG %2 %define %%IMM %3 %ifidn %%VEC, SSE psrldq %%REG, %%IMM %else vpsrldq %%REG, %%REG, %%IMM %endif %endm ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ; This section defines a series of macros to store small to medium amounts ; of data from SIMD registers to memory, where the size is variable but limited. ; ; The macros are all called as: ; memcpy DST, SRC, SIZE, TMP, IDX ; with the parameters defined as: ; DST : register: pointer to dst (not modified) ; SRC : register: src data (clobbered) ; SIZE : register: length in bytes (not modified) ; TMP : 64-bit temp GPR (clobbered) ; IDX : 64-bit GPR to store dst index/offset (clobbered) ; ; The name indicates the options. The name is of the form: ; simd_store_<VEC> ; where <VEC> is the SIMD instruction type e.g. "sse" or "avx" %macro simd_store_sse 5 __simd_store %1,%2,%3,%4,%5,SSE %endm %macro simd_store_avx 5 __simd_store %1,%2,%3,%4,%5,AVX %endm %macro __simd_store 6 %define %%DST %1 ; register: pointer to dst (not modified) %define %%SRC %2 ; register: src data (clobbered) %define %%SIZE %3 ; register: length in bytes (not modified) %define %%TMP %4 ; 64-bit temp GPR (clobbered) %define %%IDX %5 ; 64-bit temp GPR to store dst idx (clobbered) %define %%SIMDTYPE %6 ; "SSE" or "AVX" %define %%PSRLDQ _PSRLDQ %%SIMDTYPE, %ifidn %%SIMDTYPE, SSE %define %%MOVDQU movdqu %define %%MOVQ movq %else %define %%MOVDQU vmovdqu %define %%MOVQ vmovq %endif xor %%IDX, %%IDX ; zero idx test %%SIZE, 16 jz %%lt16 %%MOVDQU [%%DST], %%SRC jmp %%end %%lt16: test %%SIZE, 8 jz %%lt8 %%MOVQ [%%DST + %%IDX], %%SRC %%PSRLDQ %%SRC, 8 add %%IDX, 8 %%lt8: %%MOVQ %%TMP, %%SRC ; use GPR from now on test %%SIZE, 4 jz %%lt4 mov [%%DST + %%IDX], DWORD(%%TMP) shr %%TMP, 32 add %%IDX, 4 %%lt4: test %%SIZE, 2 jz %%lt2 mov [%%DST + %%IDX], WORD(%%TMP) shr %%TMP, 16 add %%IDX, 2 %%lt2: test %%SIZE, 1 jz %%end mov [%%DST + %%IDX], BYTE(%%TMP) %%end: %endm %endif ; ifndef __MEMCPY_ASM__
28.486425
81
0.561115
e567e16b4b981f1c74e598c33cb96cbc934fa3f5
793
asm
Assembly
oeis/199/A199935.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/199/A199935.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/199/A199935.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A199935: Size (b^3_n) of unit sphere in a certain graph (see Hazama article for precise definition). ; Submitted by Jamie Morken(s2) ; 0,0,2,5,9,14,22,36,60,99,161,260,420,680,1102,1785,2889,4674,7562,12236,19800,32039,51841,83880,135720,219600,355322,574925,930249,1505174,2435422,3940596,6376020,10316619,16692641,27009260,43701900,70711160,114413062,185124225,299537289,484661514,784198802,1268860316,2053059120,3321919439,5374978561,8696898000,14071876560,22768774560,36840651122,59609425685,96450076809,156059502494,252509579302,408569081796,661078661100,1069647742899,1730726404001,2800374146900,4531100550900,7331474697800 lpb $0 sub $0,1 add $4,$1 add $1,$3 mov $5,$3 add $5,$2 mov $2,$3 mov $3,$5 sub $3,$1 add $4,3 add $2,$4 add $5,$3 lpe mov $0,$5 div $0,3
39.65
496
0.765448
e5b6fcebd7544e903560b171994e4083e3bd90e3
400
asm
Assembly
Src/BE6502/template.asm
rprouse/65C02_SBC
eb127413d363c53a6f851232403f8a96c802e860
[ "MIT" ]
null
null
null
Src/BE6502/template.asm
rprouse/65C02_SBC
eb127413d363c53a6f851232403f8a96c802e860
[ "MIT" ]
null
null
null
Src/BE6502/template.asm
rprouse/65C02_SBC
eb127413d363c53a6f851232403f8a96c802e860
[ "MIT" ]
null
null
null
; ; template.asm ; ; > ca65 template.asm --listing template.lst ; > ld65 template.o -o template.bin -C 65C02.cfg ; ; > cl65 -t none -o template.bin -l template.lst -C 65C02.cfg ; .setcpu "65C02" .segment "OS" .org $8000 reset: ldx #$ff txs loop: jmp loop nmi: jmp nmi irq_brk: jmp irq_brk .segment "VECTORS" .org $FFFA .word nmi .word reset .word irq_brk
12.903226
62
0.6125
38ee3e906f7faa5ac292827a257424828daa7fdf
99,792
asm
Assembly
target/cos_117/disasm/iop_overlay1/AMSG.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/AMSG.asm
jrrk2/cray-sim
52c9639808d6890517092637b188282c00cce4f7
[ "BSL-1.0" ]
1
2021-12-29T15:59:25.000Z
2021-12-29T15:59:25.000Z
target/cos_117/disasm/iop_overlay1/AMSG.asm
jrrk2/cray-sim
52c9639808d6890517092637b188282c00cce4f7
[ "BSL-1.0" ]
6
2021-04-12T06:10:32.000Z
2022-02-08T23:11:19.000Z
0x0000 (0x000000) 0x1800-0x0D97 f:00014 d: 0 | A = 3479 (0x0D97) 0x0002 (0x000004) 0x2919- f:00024 d: 281 | OR[281] = A 0x0003 (0x000006) 0x0400- f:00002 d: 0 | I = 0 0x0004 (0x000008) 0x0000- f:00000 d: 0 | PASS 0x0005 (0x00000A) 0x2119- f:00020 d: 281 | A = OR[281] 0x0006 (0x00000C) 0x2819- f:00024 d: 25 | OR[25] = A 0x0007 (0x00000E) 0x7E00-0x1DC0 f:00077 d: 0 | R = OR[0]+7616 (0x1DC0) 0x0009 (0x000012) 0x201D- f:00020 d: 29 | A = OR[29] 0x000A (0x000014) 0x291A- f:00024 d: 282 | OR[282] = A 0x000B (0x000016) 0x840D- f:00102 d: 13 | P = P + 13 (0x0018), A = 0 0x000C (0x000018) 0x1800-0x0DD8 f:00014 d: 0 | A = 3544 (0x0DD8) 0x000E (0x00001C) 0x2908- f:00024 d: 264 | OR[264] = A 0x000F (0x00001E) 0x3D08- f:00036 d: 264 | (OR[264]) = (OR[264]) + 1 0x0010 (0x000020) 0x211A- f:00020 d: 282 | A = OR[282] 0x0011 (0x000022) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x0012 (0x000024) 0x291C- f:00024 d: 284 | OR[284] = A 0x0013 (0x000026) 0x211C- f:00020 d: 284 | A = OR[284] 0x0014 (0x000028) 0x1603- f:00013 d: 3 | A = A - 3 (0x0003) 0x0015 (0x00002A) 0x8440- f:00102 d: 64 | P = P + 64 (0x0055), A = 0 0x0016 (0x00002C) 0x7C34- f:00076 d: 52 | R = OR[52] 0x0017 (0x00002E) 0x0000- f:00000 d: 0 | PASS 0x0018 (0x000030) 0x1800-0x0DC5 f:00014 d: 0 | A = 3525 (0x0DC5) 0x001A (0x000034) 0x289D- f:00024 d: 157 | OR[157] = A 0x001B (0x000036) 0x309D- f:00030 d: 157 | A = (OR[157]) 0x001C (0x000038) 0x8437- f:00102 d: 55 | P = P + 55 (0x0053), A = 0 0x001D (0x00003A) 0x7E00-0x1FFD f:00077 d: 0 | R = OR[0]+8189 (0x1FFD) 0x001F (0x00003E) 0x209C- f:00020 d: 156 | A = OR[156] 0x0020 (0x000040) 0x2918- f:00024 d: 280 | OR[280] = A 0x0021 (0x000042) 0x2118- f:00020 d: 280 | A = OR[280] 0x0022 (0x000044) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0023 (0x000046) 0x2908- f:00024 d: 264 | OR[264] = A 0x0024 (0x000048) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0025 (0x00004A) 0x291B- f:00024 d: 283 | OR[283] = A 0x0026 (0x00004C) 0x211B- f:00020 d: 283 | A = OR[283] 0x0027 (0x00004E) 0x1622- f:00013 d: 34 | A = A - 34 (0x0022) 0x0028 (0x000050) 0xAC03-0x02FE f:00126 d: 3 | P = OR[3]+766 (0x02FE), A = 0 0x002A (0x000054) 0x211B- f:00020 d: 283 | A = OR[283] 0x002B (0x000056) 0x1620- f:00013 d: 32 | A = A - 32 (0x0020) 0x002C (0x000058) 0x8516- f:00102 d: 278 | P = P + 278 (0x0142), A = 0 0x002D (0x00005A) 0x211B- f:00020 d: 283 | A = OR[283] 0x002E (0x00005C) 0x1621- f:00013 d: 33 | A = A - 33 (0x0021) 0x002F (0x00005E) 0xAC03-0x027F f:00126 d: 3 | P = OR[3]+639 (0x027F), A = 0 0x0031 (0x000062) 0x211B- f:00020 d: 283 | A = OR[283] 0x0032 (0x000064) 0x1623- f:00013 d: 35 | A = A - 35 (0x0023) 0x0033 (0x000066) 0x853F- f:00102 d: 319 | P = P + 319 (0x0172), A = 0 0x0034 (0x000068) 0x211B- f:00020 d: 283 | A = OR[283] 0x0035 (0x00006A) 0x1624- f:00013 d: 36 | A = A - 36 (0x0024) 0x0036 (0x00006C) 0xAC03-0x02F2 f:00126 d: 3 | P = OR[3]+754 (0x02F2), A = 0 0x0038 (0x000070) 0x211B- f:00020 d: 283 | A = OR[283] 0x0039 (0x000072) 0x1625- f:00013 d: 37 | A = A - 37 (0x0025) 0x003A (0x000074) 0x8538- f:00102 d: 312 | P = P + 312 (0x0172), A = 0 0x003B (0x000076) 0x211B- f:00020 d: 283 | A = OR[283] 0x003C (0x000078) 0x1626- f:00013 d: 38 | A = A - 38 (0x0026) 0x003D (0x00007A) 0xAC03-0x02BF f:00126 d: 3 | P = OR[3]+703 (0x02BF), A = 0 0x003F (0x00007E) 0x211B- f:00020 d: 283 | A = OR[283] 0x0040 (0x000080) 0x1610- f:00013 d: 16 | A = A - 16 (0x0010) 0x0041 (0x000082) 0x8421- f:00102 d: 33 | P = P + 33 (0x0062), A = 0 0x0042 (0x000084) 0x211B- f:00020 d: 283 | A = OR[283] 0x0043 (0x000086) 0x1611- f:00013 d: 17 | A = A - 17 (0x0011) 0x0044 (0x000088) 0x8472- f:00102 d: 114 | P = P + 114 (0x00B6), A = 0 0x0045 (0x00008A) 0x211B- f:00020 d: 283 | A = OR[283] 0x0046 (0x00008C) 0x1614- f:00013 d: 20 | A = A - 20 (0x0014) 0x0047 (0x00008E) 0x84A7- f:00102 d: 167 | P = P + 167 (0x00EE), A = 0 0x0048 (0x000090) 0x211B- f:00020 d: 283 | A = OR[283] 0x0049 (0x000092) 0x1615- f:00013 d: 21 | A = A - 21 (0x0015) 0x004A (0x000094) 0x84C2- f:00102 d: 194 | P = P + 194 (0x010C), A = 0 0x004B (0x000096) 0x211B- f:00020 d: 283 | A = OR[283] 0x004C (0x000098) 0x161B- f:00013 d: 27 | A = A - 27 (0x001B) 0x004D (0x00009A) 0x84C9- f:00102 d: 201 | P = P + 201 (0x0116), A = 0 0x004E (0x00009C) 0x211B- f:00020 d: 283 | A = OR[283] 0x004F (0x00009E) 0x161C- f:00013 d: 28 | A = A - 28 (0x001C) 0x0050 (0x0000A0) 0x84D9- f:00102 d: 217 | P = P + 217 (0x0129), A = 0 0x0051 (0x0000A2) 0x7C34- f:00076 d: 52 | R = OR[52] 0x0052 (0x0000A4) 0x0000- f:00000 d: 0 | PASS 0x0053 (0x0000A6) 0x7A00-0x1A40 f:00075 d: 0 | P = OR[0]+6720 (0x1A40) 0x0055 (0x0000AA) 0x3083- f:00030 d: 131 | A = (OR[131]) 0x0056 (0x0000AC) 0x13FF- f:00011 d: 511 | A = A & 511 (0x01FF) 0x0057 (0x0000AE) 0x5800- f:00054 d: 0 | B = A 0x0058 (0x0000B0) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0059 (0x0000B2) 0xE800- f:00164 d: 0 | IOB , fn004 0x005A (0x0000B4) 0x0000- f:00000 d: 0 | PASS 0x005B (0x0000B6) 0x0000- f:00000 d: 0 | PASS 0x005C (0x0000B8) 0x0000- f:00000 d: 0 | PASS 0x005D (0x0000BA) 0x0000- f:00000 d: 0 | PASS 0x005E (0x0000BC) 0x1800-0x1000 f:00014 d: 0 | A = 4096 (0x1000) 0x0060 (0x0000C0) 0xE800- f:00164 d: 0 | IOB , fn004 0x0061 (0x0000C2) 0x7261- f:00071 d: 97 | P = P - 97 (0x0000) 0x0062 (0x0000C4) 0x1006- f:00010 d: 6 | A = 6 (0x0006) 0x0063 (0x0000C6) 0x2827- f:00024 d: 39 | OR[39] = A 0x0064 (0x0000C8) 0x7E00-0x1F58 f:00077 d: 0 | R = OR[0]+8024 (0x1F58) 0x0066 (0x0000CC) 0x2028- f:00020 d: 40 | A = OR[40] 0x0067 (0x0000CE) 0x291C- f:00024 d: 284 | OR[284] = A 0x0068 (0x0000D0) 0x843A- f:00102 d: 58 | P = P + 58 (0x00A2), A = 0 0x0069 (0x0000D2) 0x211C- f:00020 d: 284 | A = OR[284] 0x006A (0x0000D4) 0x290E- f:00024 d: 270 | OR[270] = A 0x006B (0x0000D6) 0x1006- f:00010 d: 6 | A = 6 (0x0006) 0x006C (0x0000D8) 0x290D- f:00024 d: 269 | OR[269] = A 0x006D (0x0000DA) 0x210D- f:00020 d: 269 | A = OR[269] 0x006E (0x0000DC) 0x8406- f:00102 d: 6 | P = P + 6 (0x0074), A = 0 0x006F (0x0000DE) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0070 (0x0000E0) 0x390E- f:00034 d: 270 | (OR[270]) = A 0x0071 (0x0000E2) 0x2F0D- f:00027 d: 269 | OR[269] = OR[269] - 1 0x0072 (0x0000E4) 0x2D0E- f:00026 d: 270 | OR[270] = OR[270] + 1 0x0073 (0x0000E6) 0x7206- f:00071 d: 6 | P = P - 6 (0x006D) 0x0074 (0x0000E8) 0x2118- f:00020 d: 280 | A = OR[280] 0x0075 (0x0000EA) 0x1406- f:00012 d: 6 | A = A + 6 (0x0006) 0x0076 (0x0000EC) 0x2908- f:00024 d: 264 | OR[264] = A 0x0077 (0x0000EE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0078 (0x0000F0) 0x2913- f:00024 d: 275 | OR[275] = A 0x0079 (0x0000F2) 0x102D- f:00010 d: 45 | A = 45 (0x002D) 0x007A (0x0000F4) 0x292B- f:00024 d: 299 | OR[299] = A 0x007B (0x0000F6) 0x2113- f:00020 d: 275 | A = OR[275] 0x007C (0x0000F8) 0x292C- f:00024 d: 300 | OR[300] = A 0x007D (0x0000FA) 0x1008- f:00010 d: 8 | A = 8 (0x0008) 0x007E (0x0000FC) 0x292D- f:00024 d: 301 | OR[301] = A 0x007F (0x0000FE) 0x1800-0xFFFF f:00014 d: 0 | A = 65535 (0xFFFF) 0x0081 (0x000102) 0x292E- f:00024 d: 302 | OR[302] = A 0x0082 (0x000104) 0x211C- f:00020 d: 284 | A = OR[284] 0x0083 (0x000106) 0x292F- f:00024 d: 303 | OR[303] = A 0x0084 (0x000108) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0085 (0x00010A) 0x5800- f:00054 d: 0 | B = A 0x0086 (0x00010C) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0087 (0x00010E) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0088 (0x000110) 0xB634- f:00133 d: 52 | R = OR[52], A # 0 0x0089 (0x000112) 0x0000- f:00000 d: 0 | PASS 0x008A (0x000114) 0x2006- f:00020 d: 6 | A = OR[6] 0x008B (0x000116) 0x140C- f:00012 d: 12 | A = A + 12 (0x000C) 0x008C (0x000118) 0x2908- f:00024 d: 264 | OR[264] = A 0x008D (0x00011A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x008E (0x00011C) 0x2913- f:00024 d: 275 | OR[275] = A 0x008F (0x00011E) 0x211C- f:00020 d: 284 | A = OR[284] 0x0090 (0x000120) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0091 (0x000122) 0x2908- f:00024 d: 264 | OR[264] = A 0x0092 (0x000124) 0x2113- f:00020 d: 275 | A = OR[275] 0x0093 (0x000126) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0094 (0x000128) 0x0400- f:00002 d: 0 | I = 0 0x0095 (0x00012A) 0x0000- f:00000 d: 0 | PASS 0x0096 (0x00012C) 0x1800-0x0DD9 f:00014 d: 0 | A = 3545 (0x0DD9) 0x0098 (0x000130) 0x291D- f:00024 d: 285 | OR[285] = A 0x0099 (0x000132) 0x311D- f:00030 d: 285 | A = (OR[285]) 0x009A (0x000134) 0x391C- f:00034 d: 284 | (OR[284]) = A 0x009B (0x000136) 0x211C- f:00020 d: 284 | A = OR[284] 0x009C (0x000138) 0x391D- f:00034 d: 285 | (OR[285]) = A 0x009D (0x00013A) 0x2118- f:00020 d: 280 | A = OR[280] 0x009E (0x00013C) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x009F (0x00013E) 0x2908- f:00024 d: 264 | OR[264] = A 0x00A0 (0x000140) 0x1011- f:00010 d: 17 | A = 17 (0x0011) 0x00A1 (0x000142) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00A2 (0x000144) 0x2118- f:00020 d: 280 | A = OR[280] 0x00A3 (0x000146) 0x1406- f:00012 d: 6 | A = A + 6 (0x0006) 0x00A4 (0x000148) 0x2908- f:00024 d: 264 | OR[264] = A 0x00A5 (0x00014A) 0x211C- f:00020 d: 284 | A = OR[284] 0x00A6 (0x00014C) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00A7 (0x00014E) 0x2118- f:00020 d: 280 | A = OR[280] 0x00A8 (0x000150) 0x2896- f:00024 d: 150 | OR[150] = A 0x00A9 (0x000152) 0x7E00-0x19C5 f:00077 d: 0 | R = OR[0]+6597 (0x19C5) 0x00AB (0x000156) 0x201D- f:00020 d: 29 | A = OR[29] 0x00AC (0x000158) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x00AD (0x00015A) 0x1608- f:00013 d: 8 | A = A - 8 (0x0008) 0x00AE (0x00015C) 0x281E- f:00024 d: 30 | OR[30] = A 0x00AF (0x00015E) 0x7E00-0x0685 f:00077 d: 0 | R = OR[0]+1669 (0x0685) 0x00B1 (0x000162) 0x2118- f:00020 d: 280 | A = OR[280] 0x00B2 (0x000164) 0x289C- f:00024 d: 156 | OR[156] = A 0x00B3 (0x000166) 0x7E00-0x2017 f:00077 d: 0 | R = OR[0]+8215 (0x2017) 0x00B5 (0x00016A) 0x72B5- f:00071 d: 181 | P = P - 181 (0x0000) 0x00B6 (0x00016C) 0x2118- f:00020 d: 280 | A = OR[280] 0x00B7 (0x00016E) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x00B8 (0x000170) 0x2908- f:00024 d: 264 | OR[264] = A 0x00B9 (0x000172) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00BA (0x000174) 0x291D- f:00024 d: 285 | OR[285] = A 0x00BB (0x000176) 0x100D- f:00010 d: 13 | A = 13 (0x000D) 0x00BC (0x000178) 0x2920- f:00024 d: 288 | OR[288] = A 0x00BD (0x00017A) 0x211D- f:00020 d: 285 | A = OR[285] 0x00BE (0x00017C) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x00BF (0x00017E) 0x2908- f:00024 d: 264 | OR[264] = A 0x00C0 (0x000180) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00C1 (0x000182) 0x291F- f:00024 d: 287 | OR[287] = A 0x00C2 (0x000184) 0x211F- f:00020 d: 287 | A = OR[287] 0x00C3 (0x000186) 0x2720- f:00023 d: 288 | A = A - OR[288] 0x00C4 (0x000188) 0xB634- f:00133 d: 52 | R = OR[52], A # 0 0x00C5 (0x00018A) 0x0000- f:00000 d: 0 | PASS 0x00C6 (0x00018C) 0x2118- f:00020 d: 280 | A = OR[280] 0x00C7 (0x00018E) 0x1406- f:00012 d: 6 | A = A + 6 (0x0006) 0x00C8 (0x000190) 0x2908- f:00024 d: 264 | OR[264] = A 0x00C9 (0x000192) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00CA (0x000194) 0x291E- f:00024 d: 286 | OR[286] = A 0x00CB (0x000196) 0x211D- f:00020 d: 285 | A = OR[285] 0x00CC (0x000198) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x00CD (0x00019A) 0x2908- f:00024 d: 264 | OR[264] = A 0x00CE (0x00019C) 0x211E- f:00020 d: 286 | A = OR[286] 0x00CF (0x00019E) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00D0 (0x0001A0) 0x211D- f:00020 d: 285 | A = OR[285] 0x00D1 (0x0001A2) 0x281D- f:00024 d: 29 | OR[29] = A 0x00D2 (0x0001A4) 0x7E00-0x1D88 f:00077 d: 0 | R = OR[0]+7560 (0x1D88) 0x00D4 (0x0001A8) 0x2118- f:00020 d: 280 | A = OR[280] 0x00D5 (0x0001AA) 0x1405- f:00012 d: 5 | A = A + 5 (0x0005) 0x00D6 (0x0001AC) 0x2908- f:00024 d: 264 | OR[264] = A 0x00D7 (0x0001AE) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x00D8 (0x0001B0) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x00D9 (0x0001B2) 0x2118- f:00020 d: 280 | A = OR[280] 0x00DA (0x0001B4) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x00DB (0x0001B6) 0x2921- f:00024 d: 289 | OR[289] = A 0x00DC (0x0001B8) 0x3121- f:00030 d: 289 | A = (OR[289]) 0x00DD (0x0001BA) 0x2811- f:00024 d: 17 | OR[17] = A 0x00DE (0x0001BC) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x00DF (0x0001BE) 0x3921- f:00034 d: 289 | (OR[289]) = A 0x00E0 (0x0001C0) 0x2D21- f:00026 d: 289 | OR[289] = OR[289] + 1 0x00E1 (0x0001C2) 0x3121- f:00030 d: 289 | A = (OR[289]) 0x00E2 (0x0001C4) 0x2812- f:00024 d: 18 | OR[18] = A 0x00E3 (0x0001C6) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x00E4 (0x0001C8) 0x3921- f:00034 d: 289 | (OR[289]) = A 0x00E5 (0x0001CA) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x00E6 (0x0001CC) 0x2810- f:00024 d: 16 | OR[16] = A 0x00E7 (0x0001CE) 0x7E00-0x171A f:00077 d: 0 | R = OR[0]+5914 (0x171A) 0x00E9 (0x0001D2) 0x2118- f:00020 d: 280 | A = OR[280] 0x00EA (0x0001D4) 0x289C- f:00024 d: 156 | OR[156] = A 0x00EB (0x0001D6) 0x7E00-0x2017 f:00077 d: 0 | R = OR[0]+8215 (0x2017) 0x00ED (0x0001DA) 0x72ED- f:00071 d: 237 | P = P - 237 (0x0000) 0x00EE (0x0001DC) 0x2118- f:00020 d: 280 | A = OR[280] 0x00EF (0x0001DE) 0x1406- f:00012 d: 6 | A = A + 6 (0x0006) 0x00F0 (0x0001E0) 0x2908- f:00024 d: 264 | OR[264] = A 0x00F1 (0x0001E2) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x00F2 (0x0001E4) 0x291E- f:00024 d: 286 | OR[286] = A 0x00F3 (0x0001E6) 0x211E- f:00020 d: 286 | A = OR[286] 0x00F4 (0x0001E8) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x00F5 (0x0001EA) 0x291F- f:00024 d: 287 | OR[287] = A 0x00F6 (0x0001EC) 0x311F- f:00030 d: 287 | A = (OR[287]) 0x00F7 (0x0001EE) 0x8602- f:00103 d: 2 | P = P + 2 (0x00F9), A # 0 0x00F8 (0x0001F0) 0x700C- f:00070 d: 12 | P = P + 12 (0x0104) 0x00F9 (0x0001F2) 0x1002- f:00010 d: 2 | A = 2 (0x0002) 0x00FA (0x0001F4) 0x292B- f:00024 d: 299 | OR[299] = A 0x00FB (0x0001F6) 0x211F- f:00020 d: 287 | A = OR[287] 0x00FC (0x0001F8) 0x292C- f:00024 d: 300 | OR[300] = A 0x00FD (0x0001FA) 0x2118- f:00020 d: 280 | A = OR[280] 0x00FE (0x0001FC) 0x292D- f:00024 d: 301 | OR[301] = A 0x00FF (0x0001FE) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0100 (0x000200) 0x5800- f:00054 d: 0 | B = A 0x0101 (0x000202) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0102 (0x000204) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0103 (0x000206) 0x7008- f:00070 d: 8 | P = P + 8 (0x010B) 0x0104 (0x000208) 0x2118- f:00020 d: 280 | A = OR[280] 0x0105 (0x00020A) 0x281D- f:00024 d: 29 | OR[29] = A 0x0106 (0x00020C) 0x211E- f:00020 d: 286 | A = OR[286] 0x0107 (0x00020E) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x0108 (0x000210) 0x2819- f:00024 d: 25 | OR[25] = A 0x0109 (0x000212) 0x7E00-0x1D75 f:00077 d: 0 | R = OR[0]+7541 (0x1D75) 0x010B (0x000216) 0x730B- f:00071 d: 267 | P = P - 267 (0x0000) 0x010C (0x000218) 0x100E- f:00010 d: 14 | A = 14 (0x000E) 0x010D (0x00021A) 0x2920- f:00024 d: 288 | OR[288] = A 0x010E (0x00021C) 0x2118- f:00020 d: 280 | A = OR[280] 0x010F (0x00021E) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x0110 (0x000220) 0x2908- f:00024 d: 264 | OR[264] = A 0x0111 (0x000222) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0112 (0x000224) 0x291D- f:00024 d: 285 | OR[285] = A 0x0113 (0x000226) 0x211D- f:00020 d: 285 | A = OR[285] 0x0114 (0x000228) 0x8E57- f:00107 d: 87 | P = P - 87 (0x00BD), A # 0 0x0115 (0x00022A) 0x7241- f:00071 d: 65 | P = P - 65 (0x00D4) 0x0116 (0x00022C) 0x102D- f:00010 d: 45 | A = 45 (0x002D) 0x0117 (0x00022E) 0x292B- f:00024 d: 299 | OR[299] = A 0x0118 (0x000230) 0x1800-0x0034 f:00014 d: 0 | A = 52 (0x0034) 0x011A (0x000234) 0x292C- f:00024 d: 300 | OR[300] = A 0x011B (0x000236) 0x1008- f:00010 d: 8 | A = 8 (0x0008) 0x011C (0x000238) 0x292D- f:00024 d: 301 | OR[301] = A 0x011D (0x00023A) 0x1800-0xFFFF f:00014 d: 0 | A = 65535 (0xFFFF) 0x011F (0x00023E) 0x292E- f:00024 d: 302 | OR[302] = A 0x0120 (0x000240) 0x2118- f:00020 d: 280 | A = OR[280] 0x0121 (0x000242) 0x292F- f:00024 d: 303 | OR[303] = A 0x0122 (0x000244) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x0123 (0x000246) 0x5800- f:00054 d: 0 | B = A 0x0124 (0x000248) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0125 (0x00024A) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0126 (0x00024C) 0xB634- f:00133 d: 52 | R = OR[52], A # 0 0x0127 (0x00024E) 0x0000- f:00000 d: 0 | PASS 0x0128 (0x000250) 0x7328- f:00071 d: 296 | P = P - 296 (0x0000) 0x0129 (0x000252) 0x2118- f:00020 d: 280 | A = OR[280] 0x012A (0x000254) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x012B (0x000256) 0x2908- f:00024 d: 264 | OR[264] = A 0x012C (0x000258) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x012D (0x00025A) 0x281D- f:00024 d: 29 | OR[29] = A 0x012E (0x00025C) 0x201D- f:00020 d: 29 | A = OR[29] 0x012F (0x00025E) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x0130 (0x000260) 0x2908- f:00024 d: 264 | OR[264] = A 0x0131 (0x000262) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0132 (0x000264) 0x161F- f:00013 d: 31 | A = A - 31 (0x001F) 0x0133 (0x000266) 0xB634- f:00133 d: 52 | R = OR[52], A # 0 0x0134 (0x000268) 0x0000- f:00000 d: 0 | PASS 0x0135 (0x00026A) 0x2118- f:00020 d: 280 | A = OR[280] 0x0136 (0x00026C) 0x1409- f:00012 d: 9 | A = A + 9 (0x0009) 0x0137 (0x00026E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0138 (0x000270) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0139 (0x000272) 0x2913- f:00024 d: 275 | OR[275] = A 0x013A (0x000274) 0x201D- f:00020 d: 29 | A = OR[29] 0x013B (0x000276) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x013C (0x000278) 0x2908- f:00024 d: 264 | OR[264] = A 0x013D (0x00027A) 0x2113- f:00020 d: 275 | A = OR[275] 0x013E (0x00027C) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x013F (0x00027E) 0x7E00-0x1D88 f:00077 d: 0 | R = OR[0]+7560 (0x1D88) 0x0141 (0x000282) 0x726D- f:00071 d: 109 | P = P - 109 (0x00D4) 0x0142 (0x000284) 0x2118- f:00020 d: 280 | A = OR[280] 0x0143 (0x000286) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0144 (0x000288) 0x2908- f:00024 d: 264 | OR[264] = A 0x0145 (0x00028A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0146 (0x00028C) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0147 (0x00028E) 0x291C- f:00024 d: 284 | OR[284] = A 0x0148 (0x000290) 0x211C- f:00020 d: 284 | A = OR[284] 0x0149 (0x000292) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x014A (0x000294) 0x8402- f:00102 d: 2 | P = P + 2 (0x014C), A = 0 0x014B (0x000296) 0x700A- f:00070 d: 10 | P = P + 10 (0x0155) 0x014C (0x000298) 0x2118- f:00020 d: 280 | A = OR[280] 0x014D (0x00029A) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x014E (0x00029C) 0x2908- f:00024 d: 264 | OR[264] = A 0x014F (0x00029E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0150 (0x0002A0) 0x0A09- f:00005 d: 9 | A = A < 9 (0x0009) 0x0151 (0x0002A2) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0152 (0x0002A4) 0x0C09- f:00006 d: 9 | A = A >> 9 (0x0009) 0x0153 (0x0002A6) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0154 (0x0002A8) 0x700A- f:00070 d: 10 | P = P + 10 (0x015E) 0x0155 (0x0002AA) 0x2118- f:00020 d: 280 | A = OR[280] 0x0156 (0x0002AC) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0157 (0x0002AE) 0x2908- f:00024 d: 264 | OR[264] = A 0x0158 (0x0002B0) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0159 (0x0002B2) 0x0E01- f:00007 d: 1 | A = A << 1 (0x0001) 0x015A (0x0002B4) 0x0A08- f:00005 d: 8 | A = A < 8 (0x0008) 0x015B (0x0002B6) 0x1400- f:00012 d: 0 | A = A + 0 (0x0000) 0x015C (0x0002B8) 0x0C09- f:00006 d: 9 | A = A >> 9 (0x0009) 0x015D (0x0002BA) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x015E (0x0002BC) 0x2118- f:00020 d: 280 | A = OR[280] 0x015F (0x0002BE) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x0160 (0x0002C0) 0x2908- f:00024 d: 264 | OR[264] = A 0x0161 (0x0002C2) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0162 (0x0002C4) 0x2922- f:00024 d: 290 | OR[290] = A 0x0163 (0x0002C6) 0x2118- f:00020 d: 280 | A = OR[280] 0x0164 (0x0002C8) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x0165 (0x0002CA) 0x2908- f:00024 d: 264 | OR[264] = A 0x0166 (0x0002CC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0167 (0x0002CE) 0x2923- f:00024 d: 291 | OR[291] = A 0x0168 (0x0002D0) 0x2118- f:00020 d: 280 | A = OR[280] 0x0169 (0x0002D2) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x016A (0x0002D4) 0x2908- f:00024 d: 264 | OR[264] = A 0x016B (0x0002D6) 0x2122- f:00020 d: 290 | A = OR[290] 0x016C (0x0002D8) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x016D (0x0002DA) 0x2118- f:00020 d: 280 | A = OR[280] 0x016E (0x0002DC) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x016F (0x0002DE) 0x2908- f:00024 d: 264 | OR[264] = A 0x0170 (0x0002E0) 0x2123- f:00020 d: 291 | A = OR[291] 0x0171 (0x0002E2) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0172 (0x0002E4) 0x0600- f:00003 d: 0 | I = 1 0x0173 (0x0002E6) 0x2118- f:00020 d: 280 | A = OR[280] 0x0174 (0x0002E8) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0175 (0x0002EA) 0x2908- f:00024 d: 264 | OR[264] = A 0x0176 (0x0002EC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0177 (0x0002EE) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0178 (0x0002F0) 0x291C- f:00024 d: 284 | OR[284] = A 0x0179 (0x0002F2) 0x2118- f:00020 d: 280 | A = OR[280] 0x017A (0x0002F4) 0x1414- f:00012 d: 20 | A = A + 20 (0x0014) 0x017B (0x0002F6) 0x2908- f:00024 d: 264 | OR[264] = A 0x017C (0x0002F8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x017D (0x0002FA) 0x080E- f:00004 d: 14 | A = A > 14 (0x000E) 0x017E (0x0002FC) 0x291D- f:00024 d: 285 | OR[285] = A 0x017F (0x0002FE) 0x2118- f:00020 d: 280 | A = OR[280] 0x0180 (0x000300) 0x1414- f:00012 d: 20 | A = A + 20 (0x0014) 0x0181 (0x000302) 0x2908- f:00024 d: 264 | OR[264] = A 0x0182 (0x000304) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0183 (0x000306) 0x1A00-0x3FFF f:00015 d: 0 | A = A & 16383 (0x3FFF) 0x0185 (0x00030A) 0x291E- f:00024 d: 286 | OR[286] = A 0x0186 (0x00030C) 0x2118- f:00020 d: 280 | A = OR[280] 0x0187 (0x00030E) 0x1415- f:00012 d: 21 | A = A + 21 (0x0015) 0x0188 (0x000310) 0x2908- f:00024 d: 264 | OR[264] = A 0x0189 (0x000312) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x018A (0x000314) 0x291F- f:00024 d: 287 | OR[287] = A 0x018B (0x000316) 0x2118- f:00020 d: 280 | A = OR[280] 0x018C (0x000318) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x018D (0x00031A) 0x2908- f:00024 d: 264 | OR[264] = A 0x018E (0x00031C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x018F (0x00031E) 0x2920- f:00024 d: 288 | OR[288] = A 0x0190 (0x000320) 0x2118- f:00020 d: 280 | A = OR[280] 0x0191 (0x000322) 0x141D- f:00012 d: 29 | A = A + 29 (0x001D) 0x0192 (0x000324) 0x2908- f:00024 d: 264 | OR[264] = A 0x0193 (0x000326) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0194 (0x000328) 0x2921- f:00024 d: 289 | OR[289] = A 0x0195 (0x00032A) 0x2118- f:00020 d: 280 | A = OR[280] 0x0196 (0x00032C) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x0197 (0x00032E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0198 (0x000330) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0199 (0x000332) 0x2922- f:00024 d: 290 | OR[290] = A 0x019A (0x000334) 0x2118- f:00020 d: 280 | A = OR[280] 0x019B (0x000336) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x019C (0x000338) 0x2908- f:00024 d: 264 | OR[264] = A 0x019D (0x00033A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x019E (0x00033C) 0x2923- f:00024 d: 291 | OR[291] = A 0x019F (0x00033E) 0x1008- f:00010 d: 8 | A = 8 (0x0008) 0x01A0 (0x000340) 0x0A09- f:00005 d: 9 | A = A < 9 (0x0009) 0x01A1 (0x000342) 0x2928- f:00024 d: 296 | OR[296] = A 0x01A2 (0x000344) 0x2006- f:00020 d: 6 | A = OR[6] 0x01A3 (0x000346) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x01A4 (0x000348) 0x2908- f:00024 d: 264 | OR[264] = A 0x01A5 (0x00034A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x01A6 (0x00034C) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x01A7 (0x00034E) 0x2925- f:00024 d: 293 | OR[293] = A 0x01A8 (0x000350) 0x2122- f:00020 d: 290 | A = OR[290] 0x01A9 (0x000352) 0x8402- f:00102 d: 2 | P = P + 2 (0x01AB), A = 0 0x01AA (0x000354) 0x7004- f:00070 d: 4 | P = P + 4 (0x01AE) 0x01AB (0x000356) 0x2123- f:00020 d: 291 | A = OR[291] 0x01AC (0x000358) 0xAC03-0x023D f:00126 d: 3 | P = OR[3]+573 (0x023D), A = 0 0x01AE (0x00035C) 0x2122- f:00020 d: 290 | A = OR[290] 0x01AF (0x00035E) 0x8607- f:00103 d: 7 | P = P + 7 (0x01B6), A # 0 0x01B0 (0x000360) 0x2123- f:00020 d: 291 | A = OR[291] 0x01B1 (0x000362) 0x2728- f:00023 d: 296 | A = A - OR[296] 0x01B2 (0x000364) 0x8003- f:00100 d: 3 | P = P + 3 (0x01B5), C = 0 0x01B3 (0x000366) 0x8402- f:00102 d: 2 | P = P + 2 (0x01B5), A = 0 0x01B4 (0x000368) 0x7002- f:00070 d: 2 | P = P + 2 (0x01B6) 0x01B5 (0x00036A) 0x7004- f:00070 d: 4 | P = P + 4 (0x01B9) 0x01B6 (0x00036C) 0x2128- f:00020 d: 296 | A = OR[296] 0x01B7 (0x00036E) 0x2924- f:00024 d: 292 | OR[292] = A 0x01B8 (0x000370) 0x7003- f:00070 d: 3 | P = P + 3 (0x01BB) 0x01B9 (0x000372) 0x2123- f:00020 d: 291 | A = OR[291] 0x01BA (0x000374) 0x2924- f:00024 d: 292 | OR[292] = A 0x01BB (0x000376) 0x1025- f:00010 d: 37 | A = 37 (0x0025) 0x01BC (0x000378) 0x292B- f:00024 d: 299 | OR[299] = A 0x01BD (0x00037A) 0x211C- f:00020 d: 284 | A = OR[284] 0x01BE (0x00037C) 0x292C- f:00024 d: 300 | OR[300] = A 0x01BF (0x00037E) 0x211D- f:00020 d: 285 | A = OR[285] 0x01C0 (0x000380) 0x292D- f:00024 d: 301 | OR[301] = A 0x01C1 (0x000382) 0x211E- f:00020 d: 286 | A = OR[286] 0x01C2 (0x000384) 0x292E- f:00024 d: 302 | OR[302] = A 0x01C3 (0x000386) 0x211F- f:00020 d: 287 | A = OR[287] 0x01C4 (0x000388) 0x292F- f:00024 d: 303 | OR[303] = A 0x01C5 (0x00038A) 0x2120- f:00020 d: 288 | A = OR[288] 0x01C6 (0x00038C) 0x2930- f:00024 d: 304 | OR[304] = A 0x01C7 (0x00038E) 0x2121- f:00020 d: 289 | A = OR[289] 0x01C8 (0x000390) 0x2931- f:00024 d: 305 | OR[305] = A 0x01C9 (0x000392) 0x2124- f:00020 d: 292 | A = OR[292] 0x01CA (0x000394) 0x2932- f:00024 d: 306 | OR[306] = A 0x01CB (0x000396) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x01CC (0x000398) 0x2933- f:00024 d: 307 | OR[307] = A 0x01CD (0x00039A) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x01CE (0x00039C) 0x5800- f:00054 d: 0 | B = A 0x01CF (0x00039E) 0x1800-0x2718 f:00014 d: 0 | A = 10008 (0x2718) 0x01D1 (0x0003A2) 0x7C09- f:00076 d: 9 | R = OR[9] 0x01D2 (0x0003A4) 0x211F- f:00020 d: 287 | A = OR[287] 0x01D3 (0x0003A6) 0x2524- f:00022 d: 292 | A = A + OR[292] 0x01D4 (0x0003A8) 0x291F- f:00024 d: 287 | OR[287] = A 0x01D5 (0x0003AA) 0x8002- f:00100 d: 2 | P = P + 2 (0x01D7), C = 0 0x01D6 (0x0003AC) 0x2D1E- f:00026 d: 286 | OR[286] = OR[286] + 1 0x01D7 (0x0003AE) 0x2121- f:00020 d: 289 | A = OR[289] 0x01D8 (0x0003B0) 0x2524- f:00022 d: 292 | A = A + OR[292] 0x01D9 (0x0003B2) 0x2921- f:00024 d: 289 | OR[289] = A 0x01DA (0x0003B4) 0x8002- f:00100 d: 2 | P = P + 2 (0x01DC), C = 0 0x01DB (0x0003B6) 0x2D20- f:00026 d: 288 | OR[288] = OR[288] + 1 0x01DC (0x0003B8) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x01DD (0x0003BA) 0x290F- f:00024 d: 271 | OR[271] = A 0x01DE (0x0003BC) 0x2123- f:00020 d: 291 | A = OR[291] 0x01DF (0x0003BE) 0x2724- f:00023 d: 292 | A = A - OR[292] 0x01E0 (0x0003C0) 0x2923- f:00024 d: 291 | OR[291] = A 0x01E1 (0x0003C2) 0x8202- f:00101 d: 2 | P = P + 2 (0x01E3), C = 1 0x01E2 (0x0003C4) 0x2F22- f:00027 d: 290 | OR[290] = OR[290] - 1 0x01E3 (0x0003C6) 0x0810- f:00004 d: 16 | A = A > 16 (0x0010) 0x01E4 (0x0003C8) 0x230F- f:00021 d: 271 | A = A & OR[271] 0x01E5 (0x0003CA) 0x2122- f:00020 d: 290 | A = OR[290] 0x01E6 (0x0003CC) 0x8605- f:00103 d: 5 | P = P + 5 (0x01EB), A # 0 0x01E7 (0x0003CE) 0x2123- f:00020 d: 291 | A = OR[291] 0x01E8 (0x0003D0) 0x8603- f:00103 d: 3 | P = P + 3 (0x01EB), A # 0 0x01E9 (0x0003D2) 0x7A03-0x023C f:00075 d: 3 | P = OR[3]+572 (0x023C) 0x01EB (0x0003D6) 0x1800-0x0CF3 f:00014 d: 0 | A = 3315 (0x0CF3) 0x01ED (0x0003DA) 0x2908- f:00024 d: 264 | OR[264] = A 0x01EE (0x0003DC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x01EF (0x0003DE) 0x2913- f:00024 d: 275 | OR[275] = A 0x01F0 (0x0003E0) 0x2113- f:00020 d: 275 | A = OR[275] 0x01F1 (0x0003E2) 0x8603- f:00103 d: 3 | P = P + 3 (0x01F4), A # 0 0x01F2 (0x0003E4) 0x7A03-0x023C f:00075 d: 3 | P = OR[3]+572 (0x023C) 0x01F4 (0x0003E8) 0x2113- f:00020 d: 275 | A = OR[275] 0x01F5 (0x0003EA) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x01F6 (0x0003EC) 0x2908- f:00024 d: 264 | OR[264] = A 0x01F7 (0x0003EE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x01F8 (0x0003F0) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x01F9 (0x0003F2) 0x4200- f:00041 d: 0 | C = 1, io 0000 (IOR) = BZ 0x01FA (0x0003F4) 0x2725- f:00023 d: 293 | A = A - OR[293] 0x01FB (0x0003F6) 0x8002- f:00100 d: 2 | P = P + 2 (0x01FD), C = 0 0x01FC (0x0003F8) 0x8603- f:00103 d: 3 | P = P + 3 (0x01FF), A # 0 0x01FD (0x0003FA) 0x7A03-0x0206 f:00075 d: 3 | P = OR[3]+518 (0x0206) 0x01FF (0x0003FE) 0x7037- f:00070 d: 55 | P = P + 55 (0x0236) 0x0200 (0x000400) 0x211E- f:00020 d: 286 | A = OR[286] 0x0201 (0x000402) 0x1A00-0x3FFF f:00015 d: 0 | A = A & 16383 (0x3FFF) 0x0203 (0x000406) 0x291E- f:00024 d: 286 | OR[286] = A 0x0204 (0x000408) 0x2118- f:00020 d: 280 | A = OR[280] 0x0205 (0x00040A) 0x1414- f:00012 d: 20 | A = A + 20 (0x0014) 0x0206 (0x00040C) 0x2908- f:00024 d: 264 | OR[264] = A 0x0207 (0x00040E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0208 (0x000410) 0x1A00-0xC000 f:00015 d: 0 | A = A & 49152 (0xC000) 0x020A (0x000414) 0x251E- f:00022 d: 286 | A = A + OR[286] 0x020B (0x000416) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x020C (0x000418) 0x2118- f:00020 d: 280 | A = OR[280] 0x020D (0x00041A) 0x1415- f:00012 d: 21 | A = A + 21 (0x0015) 0x020E (0x00041C) 0x2908- f:00024 d: 264 | OR[264] = A 0x020F (0x00041E) 0x211F- f:00020 d: 287 | A = OR[287] 0x0210 (0x000420) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0211 (0x000422) 0x2118- f:00020 d: 280 | A = OR[280] 0x0212 (0x000424) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x0213 (0x000426) 0x2908- f:00024 d: 264 | OR[264] = A 0x0214 (0x000428) 0x2120- f:00020 d: 288 | A = OR[288] 0x0215 (0x00042A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0216 (0x00042C) 0x2118- f:00020 d: 280 | A = OR[280] 0x0217 (0x00042E) 0x141D- f:00012 d: 29 | A = A + 29 (0x001D) 0x0218 (0x000430) 0x2908- f:00024 d: 264 | OR[264] = A 0x0219 (0x000432) 0x2121- f:00020 d: 289 | A = OR[289] 0x021A (0x000434) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x021B (0x000436) 0x2118- f:00020 d: 280 | A = OR[280] 0x021C (0x000438) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x021D (0x00043A) 0x2908- f:00024 d: 264 | OR[264] = A 0x021E (0x00043C) 0x2122- f:00020 d: 290 | A = OR[290] 0x021F (0x00043E) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0220 (0x000440) 0x2118- f:00020 d: 280 | A = OR[280] 0x0221 (0x000442) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x0222 (0x000444) 0x2908- f:00024 d: 264 | OR[264] = A 0x0223 (0x000446) 0x2123- f:00020 d: 291 | A = OR[291] 0x0224 (0x000448) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0225 (0x00044A) 0x1800-0x0E0C f:00014 d: 0 | A = 3596 (0x0E0C) 0x0227 (0x00044E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0228 (0x000450) 0x2118- f:00020 d: 280 | A = OR[280] 0x0229 (0x000452) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x022A (0x000454) 0x1004- f:00010 d: 4 | A = 4 (0x0004) 0x022B (0x000456) 0x292B- f:00024 d: 299 | OR[299] = A 0x022C (0x000458) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x022D (0x00045A) 0x5800- f:00054 d: 0 | B = A 0x022E (0x00045C) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x022F (0x00045E) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0230 (0x000460) 0x1800-0x0E0C f:00014 d: 0 | A = 3596 (0x0E0C) 0x0232 (0x000464) 0x2908- f:00024 d: 264 | OR[264] = A 0x0233 (0x000466) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0234 (0x000468) 0x2918- f:00024 d: 280 | OR[280] = A 0x0235 (0x00046A) 0x72C3- f:00071 d: 195 | P = P - 195 (0x0172) 0x0236 (0x00046C) 0x728E- f:00071 d: 142 | P = P - 142 (0x01A8) 0x0237 (0x00046E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0238 (0x000470) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0239 (0x000472) 0x2908- f:00024 d: 264 | OR[264] = A 0x023A (0x000474) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x023B (0x000476) 0x291B- f:00024 d: 283 | OR[283] = A 0x023C (0x000478) 0x211B- f:00020 d: 283 | A = OR[283] 0x023D (0x00047A) 0x1620- f:00013 d: 32 | A = A - 32 (0x0020) 0x023E (0x00047C) 0x8402- f:00102 d: 2 | P = P + 2 (0x0240), A = 0 0x023F (0x00047E) 0x7007- f:00070 d: 7 | P = P + 7 (0x0246) 0x0240 (0x000480) 0x2118- f:00020 d: 280 | A = OR[280] 0x0241 (0x000482) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0242 (0x000484) 0x2908- f:00024 d: 264 | OR[264] = A 0x0243 (0x000486) 0x1021- f:00010 d: 33 | A = 33 (0x0021) 0x0244 (0x000488) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0245 (0x00048A) 0x7014- f:00070 d: 20 | P = P + 20 (0x0259) 0x0246 (0x00048C) 0x211B- f:00020 d: 283 | A = OR[283] 0x0247 (0x00048E) 0x1623- f:00013 d: 35 | A = A - 35 (0x0023) 0x0248 (0x000490) 0x8402- f:00102 d: 2 | P = P + 2 (0x024A), A = 0 0x0249 (0x000492) 0x7007- f:00070 d: 7 | P = P + 7 (0x0250) 0x024A (0x000494) 0x2118- f:00020 d: 280 | A = OR[280] 0x024B (0x000496) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x024C (0x000498) 0x2908- f:00024 d: 264 | OR[264] = A 0x024D (0x00049A) 0x1024- f:00010 d: 36 | A = 36 (0x0024) 0x024E (0x00049C) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x024F (0x00049E) 0x700A- f:00070 d: 10 | P = P + 10 (0x0259) 0x0250 (0x0004A0) 0x211B- f:00020 d: 283 | A = OR[283] 0x0251 (0x0004A2) 0x1625- f:00013 d: 37 | A = A - 37 (0x0025) 0x0252 (0x0004A4) 0x8402- f:00102 d: 2 | P = P + 2 (0x0254), A = 0 0x0253 (0x0004A6) 0x7006- f:00070 d: 6 | P = P + 6 (0x0259) 0x0254 (0x0004A8) 0x2118- f:00020 d: 280 | A = OR[280] 0x0255 (0x0004AA) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0256 (0x0004AC) 0x2908- f:00024 d: 264 | OR[264] = A 0x0257 (0x0004AE) 0x1026- f:00010 d: 38 | A = 38 (0x0026) 0x0258 (0x0004B0) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0259 (0x0004B2) 0x2118- f:00020 d: 280 | A = OR[280] 0x025A (0x0004B4) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x025B (0x0004B6) 0x2908- f:00024 d: 264 | OR[264] = A 0x025C (0x0004B8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x025D (0x0004BA) 0x1A00-0xFF00 f:00015 d: 0 | A = A & 65280 (0xFF00) 0x025F (0x0004BE) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0260 (0x0004C0) 0x0400- f:00002 d: 0 | I = 0 0x0261 (0x0004C2) 0x0000- f:00000 d: 0 | PASS 0x0262 (0x0004C4) 0x2118- f:00020 d: 280 | A = OR[280] 0x0263 (0x0004C6) 0x2896- f:00024 d: 150 | OR[150] = A 0x0264 (0x0004C8) 0x7E00-0x19C5 f:00077 d: 0 | R = OR[0]+6597 (0x19C5) 0x0266 (0x0004CC) 0x0400- f:00002 d: 0 | I = 0 0x0267 (0x0004CE) 0x0000- f:00000 d: 0 | PASS 0x0268 (0x0004D0) 0x2118- f:00020 d: 280 | A = OR[280] 0x0269 (0x0004D2) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x026A (0x0004D4) 0x2908- f:00024 d: 264 | OR[264] = A 0x026B (0x0004D6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x026C (0x0004D8) 0x0809- f:00004 d: 9 | A = A > 9 (0x0009) 0x026D (0x0004DA) 0x1203- f:00011 d: 3 | A = A & 3 (0x0003) 0x026E (0x0004DC) 0x281E- f:00024 d: 30 | OR[30] = A 0x026F (0x0004DE) 0x7E00-0x0685 f:00077 d: 0 | R = OR[0]+1669 (0x0685) 0x0271 (0x0004E2) 0x0400- f:00002 d: 0 | I = 0 0x0272 (0x0004E4) 0x0000- f:00000 d: 0 | PASS 0x0273 (0x0004E6) 0x2118- f:00020 d: 280 | A = OR[280] 0x0274 (0x0004E8) 0x289C- f:00024 d: 156 | OR[156] = A 0x0275 (0x0004EA) 0x7E00-0x2017 f:00077 d: 0 | R = OR[0]+8215 (0x2017) 0x0277 (0x0004EE) 0x7A03-0x0006 f:00075 d: 3 | P = OR[3]+6 (0x0006) 0x0279 (0x0004F2) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x027A (0x0004F4) 0x2810- f:00024 d: 16 | OR[16] = A 0x027B (0x0004F6) 0x2118- f:00020 d: 280 | A = OR[280] 0x027C (0x0004F8) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x027D (0x0004FA) 0x2908- f:00024 d: 264 | OR[264] = A 0x027E (0x0004FC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x027F (0x0004FE) 0x2811- f:00024 d: 17 | OR[17] = A 0x0280 (0x000500) 0x2118- f:00020 d: 280 | A = OR[280] 0x0281 (0x000502) 0x1403- f:00012 d: 3 | A = A + 3 (0x0003) 0x0282 (0x000504) 0x2908- f:00024 d: 264 | OR[264] = A 0x0283 (0x000506) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0284 (0x000508) 0x2812- f:00024 d: 18 | OR[18] = A 0x0285 (0x00050A) 0x7E00-0x171A f:00077 d: 0 | R = OR[0]+5914 (0x171A) 0x0287 (0x00050E) 0x2118- f:00020 d: 280 | A = OR[280] 0x0288 (0x000510) 0x1408- f:00012 d: 8 | A = A + 8 (0x0008) 0x0289 (0x000512) 0x2908- f:00024 d: 264 | OR[264] = A 0x028A (0x000514) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x028B (0x000516) 0x2922- f:00024 d: 290 | OR[290] = A 0x028C (0x000518) 0x2118- f:00020 d: 280 | A = OR[280] 0x028D (0x00051A) 0x1409- f:00012 d: 9 | A = A + 9 (0x0009) 0x028E (0x00051C) 0x2908- f:00024 d: 264 | OR[264] = A 0x028F (0x00051E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0290 (0x000520) 0x2923- f:00024 d: 291 | OR[291] = A 0x0291 (0x000522) 0x2118- f:00020 d: 280 | A = OR[280] 0x0292 (0x000524) 0x1409- f:00012 d: 9 | A = A + 9 (0x0009) 0x0293 (0x000526) 0x2908- f:00024 d: 264 | OR[264] = A 0x0294 (0x000528) 0x2122- f:00020 d: 290 | A = OR[290] 0x0295 (0x00052A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0296 (0x00052C) 0x2118- f:00020 d: 280 | A = OR[280] 0x0297 (0x00052E) 0x1408- f:00012 d: 8 | A = A + 8 (0x0008) 0x0298 (0x000530) 0x2908- f:00024 d: 264 | OR[264] = A 0x0299 (0x000532) 0x2123- f:00020 d: 291 | A = OR[291] 0x029A (0x000534) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x029B (0x000536) 0x2118- f:00020 d: 280 | A = OR[280] 0x029C (0x000538) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x029D (0x00053A) 0x2908- f:00024 d: 264 | OR[264] = A 0x029E (0x00053C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x029F (0x00053E) 0x2922- f:00024 d: 290 | OR[290] = A 0x02A0 (0x000540) 0x2118- f:00020 d: 280 | A = OR[280] 0x02A1 (0x000542) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x02A2 (0x000544) 0x2908- f:00024 d: 264 | OR[264] = A 0x02A3 (0x000546) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02A4 (0x000548) 0x2923- f:00024 d: 291 | OR[291] = A 0x02A5 (0x00054A) 0x2118- f:00020 d: 280 | A = OR[280] 0x02A6 (0x00054C) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x02A7 (0x00054E) 0x2908- f:00024 d: 264 | OR[264] = A 0x02A8 (0x000550) 0x2122- f:00020 d: 290 | A = OR[290] 0x02A9 (0x000552) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x02AA (0x000554) 0x2118- f:00020 d: 280 | A = OR[280] 0x02AB (0x000556) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x02AC (0x000558) 0x2908- f:00024 d: 264 | OR[264] = A 0x02AD (0x00055A) 0x2123- f:00020 d: 291 | A = OR[291] 0x02AE (0x00055C) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x02AF (0x00055E) 0x2118- f:00020 d: 280 | A = OR[280] 0x02B0 (0x000560) 0x289C- f:00024 d: 156 | OR[156] = A 0x02B1 (0x000562) 0x7E00-0x30D7 f:00077 d: 0 | R = OR[0]+12503 (0x30D7) 0x02B3 (0x000566) 0x2082- f:00020 d: 130 | A = OR[130] 0x02B4 (0x000568) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x02B5 (0x00056A) 0x2908- f:00024 d: 264 | OR[264] = A 0x02B6 (0x00056C) 0x3F08- f:00037 d: 264 | (OR[264]) = (OR[264]) - 1 0x02B7 (0x00056E) 0x7A03-0x0006 f:00075 d: 3 | P = OR[3]+6 (0x0006) 0x02B9 (0x000572) 0x2118- f:00020 d: 280 | A = OR[280] 0x02BA (0x000574) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x02BB (0x000576) 0x2908- f:00024 d: 264 | OR[264] = A 0x02BC (0x000578) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02BD (0x00057A) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x02BE (0x00057C) 0x291C- f:00024 d: 284 | OR[284] = A 0x02BF (0x00057E) 0x211C- f:00020 d: 284 | A = OR[284] 0x02C0 (0x000580) 0x8402- f:00102 d: 2 | P = P + 2 (0x02C2), A = 0 0x02C1 (0x000582) 0x701B- f:00070 d: 27 | P = P + 27 (0x02DC) 0x02C2 (0x000584) 0x0400- f:00002 d: 0 | I = 0 0x02C3 (0x000586) 0x0000- f:00000 d: 0 | PASS 0x02C4 (0x000588) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x02C5 (0x00058A) 0x2810- f:00024 d: 16 | OR[16] = A 0x02C6 (0x00058C) 0x2118- f:00020 d: 280 | A = OR[280] 0x02C7 (0x00058E) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x02C8 (0x000590) 0x2908- f:00024 d: 264 | OR[264] = A 0x02C9 (0x000592) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02CA (0x000594) 0x2811- f:00024 d: 17 | OR[17] = A 0x02CB (0x000596) 0x2118- f:00020 d: 280 | A = OR[280] 0x02CC (0x000598) 0x141D- f:00012 d: 29 | A = A + 29 (0x001D) 0x02CD (0x00059A) 0x2908- f:00024 d: 264 | OR[264] = A 0x02CE (0x00059C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02CF (0x00059E) 0x2812- f:00024 d: 18 | OR[18] = A 0x02D0 (0x0005A0) 0x2118- f:00020 d: 280 | A = OR[280] 0x02D1 (0x0005A2) 0x141F- f:00012 d: 31 | A = A + 31 (0x001F) 0x02D2 (0x0005A4) 0x2908- f:00024 d: 264 | OR[264] = A 0x02D3 (0x0005A6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02D4 (0x0005A8) 0x2813- f:00024 d: 19 | OR[19] = A 0x02D5 (0x0005AA) 0x2118- f:00020 d: 280 | A = OR[280] 0x02D6 (0x0005AC) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x02D7 (0x0005AE) 0x2908- f:00024 d: 264 | OR[264] = A 0x02D8 (0x0005B0) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02D9 (0x0005B2) 0x2814- f:00024 d: 20 | OR[20] = A 0x02DA (0x0005B4) 0x7E00-0x17A1 f:00077 d: 0 | R = OR[0]+6049 (0x17A1) 0x02DC (0x0005B8) 0x0400- f:00002 d: 0 | I = 0 0x02DD (0x0005BA) 0x0000- f:00000 d: 0 | PASS 0x02DE (0x0005BC) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x02DF (0x0005BE) 0x2810- f:00024 d: 16 | OR[16] = A 0x02E0 (0x0005C0) 0x2118- f:00020 d: 280 | A = OR[280] 0x02E1 (0x0005C2) 0x141C- f:00012 d: 28 | A = A + 28 (0x001C) 0x02E2 (0x0005C4) 0x2908- f:00024 d: 264 | OR[264] = A 0x02E3 (0x0005C6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02E4 (0x0005C8) 0x2811- f:00024 d: 17 | OR[17] = A 0x02E5 (0x0005CA) 0x2118- f:00020 d: 280 | A = OR[280] 0x02E6 (0x0005CC) 0x141D- f:00012 d: 29 | A = A + 29 (0x001D) 0x02E7 (0x0005CE) 0x2908- f:00024 d: 264 | OR[264] = A 0x02E8 (0x0005D0) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02E9 (0x0005D2) 0x2812- f:00024 d: 18 | OR[18] = A 0x02EA (0x0005D4) 0x7E00-0x1716 f:00077 d: 0 | R = OR[0]+5910 (0x1716) @ Free buffer memory disk buffer 0x02EC (0x0005D8) 0x2118- f:00020 d: 280 | A = OR[280] 0x02ED (0x0005DA) 0x1404- f:00012 d: 4 | A = A + 4 (0x0004) 0x02EE (0x0005DC) 0x2908- f:00024 d: 264 | OR[264] = A 0x02EF (0x0005DE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02F0 (0x0005E0) 0x281D- f:00024 d: 29 | OR[29] = A 0x02F1 (0x0005E2) 0x201D- f:00020 d: 29 | A = OR[29] 0x02F2 (0x0005E4) 0x8602- f:00103 d: 2 | P = P + 2 (0x02F4), A # 0 0x02F3 (0x0005E6) 0x7003- f:00070 d: 3 | P = P + 3 (0x02F6) 0x02F4 (0x0005E8) 0x7E00-0x1D88 f:00077 d: 0 | R = OR[0]+7560 (0x1D88) 0x02F6 (0x0005EC) 0x7A03-0x00DA f:00075 d: 3 | P = OR[3]+218 (0x00DA) 0x02F8 (0x0005F0) 0x0600- f:00003 d: 0 | I = 1 0x02F9 (0x0005F2) 0x2118- f:00020 d: 280 | A = OR[280] 0x02FA (0x0005F4) 0x1411- f:00012 d: 17 | A = A + 17 (0x0011) 0x02FB (0x0005F6) 0x2908- f:00024 d: 264 | OR[264] = A 0x02FC (0x0005F8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x02FD (0x0005FA) 0x080A- f:00004 d: 10 | A = A > 10 (0x000A) 0x02FE (0x0005FC) 0x2913- f:00024 d: 275 | OR[275] = A 0x02FF (0x0005FE) 0x2113- f:00020 d: 275 | A = OR[275] 0x0300 (0x000600) 0x1610- f:00013 d: 16 | A = A - 16 (0x0010) 0x0301 (0x000602) 0x1C00-0x0C85 f:00016 d: 0 | A = A + 3205 (0x0C85) 0x0303 (0x000606) 0x2913- f:00024 d: 275 | OR[275] = A 0x0304 (0x000608) 0x3113- f:00030 d: 275 | A = (OR[275]) 0x0305 (0x00060A) 0x2927- f:00024 d: 295 | OR[295] = A 0x0306 (0x00060C) 0x2118- f:00020 d: 280 | A = OR[280] 0x0307 (0x00060E) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x0308 (0x000610) 0x2908- f:00024 d: 264 | OR[264] = A 0x0309 (0x000612) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x030A (0x000614) 0x080B- f:00004 d: 11 | A = A > 11 (0x000B) 0x030B (0x000616) 0x2913- f:00024 d: 275 | OR[275] = A 0x030C (0x000618) 0x2113- f:00020 d: 275 | A = OR[275] 0x030D (0x00061A) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x030E (0x00061C) 0x8405- f:00102 d: 5 | P = P + 5 (0x0313), A = 0 0x030F (0x00061E) 0x2113- f:00020 d: 275 | A = OR[275] 0x0310 (0x000620) 0x1602- f:00013 d: 2 | A = A - 2 (0x0002) 0x0311 (0x000622) 0x8402- f:00102 d: 2 | P = P + 2 (0x0313), A = 0 0x0312 (0x000624) 0x7009- f:00070 d: 9 | P = P + 9 (0x031B) 0x0313 (0x000626) 0x2118- f:00020 d: 280 | A = OR[280] 0x0314 (0x000628) 0x1405- f:00012 d: 5 | A = A + 5 (0x0005) 0x0315 (0x00062A) 0x2908- f:00024 d: 264 | OR[264] = A 0x0316 (0x00062C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0317 (0x00062E) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x0318 (0x000630) 0x1203- f:00011 d: 3 | A = A & 3 (0x0003) 0x0319 (0x000632) 0x2928- f:00024 d: 296 | OR[296] = A 0x031A (0x000634) 0x7008- f:00070 d: 8 | P = P + 8 (0x0322) 0x031B (0x000636) 0x2118- f:00020 d: 280 | A = OR[280] 0x031C (0x000638) 0x1405- f:00012 d: 5 | A = A + 5 (0x0005) 0x031D (0x00063A) 0x2908- f:00024 d: 264 | OR[264] = A 0x031E (0x00063C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x031F (0x00063E) 0x080A- f:00004 d: 10 | A = A > 10 (0x000A) 0x0320 (0x000640) 0x1203- f:00011 d: 3 | A = A & 3 (0x0003) 0x0321 (0x000642) 0x2928- f:00024 d: 296 | OR[296] = A 0x0322 (0x000644) 0x2127- f:00020 d: 295 | A = OR[295] 0x0323 (0x000646) 0x1403- f:00012 d: 3 | A = A + 3 (0x0003) 0x0324 (0x000648) 0x2926- f:00024 d: 294 | OR[294] = A 0x0325 (0x00064A) 0x2118- f:00020 d: 280 | A = OR[280] 0x0326 (0x00064C) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x0327 (0x00064E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0328 (0x000650) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0329 (0x000652) 0x12FF- f:00011 d: 255 | A = A & 255 (0x00FF) 0x032A (0x000654) 0x2914- f:00024 d: 276 | OR[276] = A 0x032B (0x000656) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x032C (0x000658) 0x2915- f:00024 d: 277 | OR[277] = A 0x032D (0x00065A) 0x2114- f:00020 d: 276 | A = OR[276] 0x032E (0x00065C) 0x2715- f:00023 d: 277 | A = A - OR[277] 0x032F (0x00065E) 0x840C- f:00102 d: 12 | P = P + 12 (0x033B), A = 0 0x0330 (0x000660) 0x3126- f:00030 d: 294 | A = (OR[294]) 0x0331 (0x000662) 0x2926- f:00024 d: 294 | OR[294] = A 0x0332 (0x000664) 0xB434- f:00132 d: 52 | R = OR[52], A = 0 0x0333 (0x000666) 0x0000- f:00000 d: 0 | PASS 0x0334 (0x000668) 0x2126- f:00020 d: 294 | A = OR[294] 0x0335 (0x00066A) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x0336 (0x00066C) 0x2908- f:00024 d: 264 | OR[264] = A 0x0337 (0x00066E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0338 (0x000670) 0x12FF- f:00011 d: 255 | A = A & 255 (0x00FF) 0x0339 (0x000672) 0x2915- f:00024 d: 277 | OR[277] = A 0x033A (0x000674) 0x720D- f:00071 d: 13 | P = P - 13 (0x032D) 0x033B (0x000676) 0x7457- f:00072 d: 87 | R = P + 87 (0x0392) 0x033C (0x000678) 0x2118- f:00020 d: 280 | A = OR[280] 0x033D (0x00067A) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x033E (0x00067C) 0x2908- f:00024 d: 264 | OR[264] = A 0x033F (0x00067E) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0340 (0x000680) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0341 (0x000682) 0x1606- f:00013 d: 6 | A = A - 6 (0x0006) 0x0342 (0x000684) 0x8402- f:00102 d: 2 | P = P + 2 (0x0344), A = 0 0x0343 (0x000686) 0x704B- f:00070 d: 75 | P = P + 75 (0x038E) 0x0344 (0x000688) 0x2128- f:00020 d: 296 | A = OR[296] 0x0345 (0x00068A) 0x2647- f:00023 d: 71 | A = A - OR[71] 0x0346 (0x00068C) 0x8602- f:00103 d: 2 | P = P + 2 (0x0348), A # 0 0x0347 (0x00068E) 0x7004- f:00070 d: 4 | P = P + 4 (0x034B) 0x0348 (0x000690) 0x7E03-0x04C0 f:00077 d: 3 | R = OR[3]+1216 (0x04C0) 0x034A (0x000694) 0x7043- f:00070 d: 67 | P = P + 67 (0x038D) 0x034B (0x000696) 0x2118- f:00020 d: 280 | A = OR[280] 0x034C (0x000698) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x034D (0x00069A) 0x2908- f:00024 d: 264 | OR[264] = A 0x034E (0x00069C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x034F (0x00069E) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0350 (0x0006A0) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x0351 (0x0006A2) 0x2928- f:00024 d: 296 | OR[296] = A 0x0352 (0x0006A4) 0x2126- f:00020 d: 294 | A = OR[294] 0x0353 (0x0006A6) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x0354 (0x0006A8) 0x290D- f:00024 d: 269 | OR[269] = A 0x0355 (0x0006AA) 0x310D- f:00030 d: 269 | A = (OR[269]) 0x0356 (0x0006AC) 0x290E- f:00024 d: 270 | OR[270] = A 0x0357 (0x0006AE) 0x210E- f:00020 d: 270 | A = OR[270] 0x0358 (0x0006B0) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0359 (0x0006B2) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x035A (0x0006B4) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x035B (0x0006B6) 0x290F- f:00024 d: 271 | OR[271] = A 0x035C (0x0006B8) 0x210F- f:00020 d: 271 | A = OR[271] 0x035D (0x0006BA) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x035E (0x0006BC) 0x290F- f:00024 d: 271 | OR[271] = A 0x035F (0x0006BE) 0x210E- f:00020 d: 270 | A = OR[270] 0x0360 (0x0006C0) 0x0E05- f:00007 d: 5 | A = A << 5 (0x0005) 0x0361 (0x0006C2) 0x0A04- f:00005 d: 4 | A = A < 4 (0x0004) 0x0362 (0x0006C4) 0x250F- f:00022 d: 271 | A = A + OR[271] 0x0363 (0x0006C6) 0x0C09- f:00006 d: 9 | A = A >> 9 (0x0009) 0x0364 (0x0006C8) 0x290E- f:00024 d: 270 | OR[270] = A 0x0365 (0x0006CA) 0x390D- f:00034 d: 269 | (OR[269]) = A 0x0366 (0x0006CC) 0x210F- f:00020 d: 271 | A = OR[271] 0x0367 (0x0006CE) 0x2728- f:00023 d: 296 | A = A - OR[296] 0x0368 (0x0006D0) 0x8402- f:00102 d: 2 | P = P + 2 (0x036A), A = 0 0x0369 (0x0006D2) 0x7022- f:00070 d: 34 | P = P + 34 (0x038B) 0x036A (0x0006D4) 0x2126- f:00020 d: 294 | A = OR[294] 0x036B (0x0006D6) 0x290D- f:00024 d: 269 | OR[269] = A 0x036C (0x0006D8) 0x2118- f:00020 d: 280 | A = OR[280] 0x036D (0x0006DA) 0x290E- f:00024 d: 270 | OR[270] = A 0x036E (0x0006DC) 0x1008- f:00010 d: 8 | A = 8 (0x0008) 0x036F (0x0006DE) 0x1418- f:00012 d: 24 | A = A + 24 (0x0018) 0x0370 (0x0006E0) 0x290F- f:00024 d: 271 | OR[271] = A 0x0371 (0x0006E2) 0x7006- f:00070 d: 6 | P = P + 6 (0x0377) 0x0372 (0x0006E4) 0x310D- f:00030 d: 269 | A = (OR[269]) 0x0373 (0x0006E6) 0x390E- f:00034 d: 270 | (OR[270]) = A 0x0374 (0x0006E8) 0x2D0D- f:00026 d: 269 | OR[269] = OR[269] + 1 0x0375 (0x0006EA) 0x2D0E- f:00026 d: 270 | OR[270] = OR[270] + 1 0x0376 (0x0006EC) 0x2F0F- f:00027 d: 271 | OR[271] = OR[271] - 1 0x0377 (0x0006EE) 0x210F- f:00020 d: 271 | A = OR[271] 0x0378 (0x0006F0) 0x8E06- f:00107 d: 6 | P = P - 6 (0x0372), A # 0 0x0379 (0x0006F2) 0x101C- f:00010 d: 28 | A = 28 (0x001C) 0x037A (0x0006F4) 0x292B- f:00024 d: 299 | OR[299] = A 0x037B (0x0006F6) 0x2118- f:00020 d: 280 | A = OR[280] 0x037C (0x0006F8) 0x292C- f:00024 d: 300 | OR[300] = A 0x037D (0x0006FA) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x037E (0x0006FC) 0x5800- f:00054 d: 0 | B = A 0x037F (0x0006FE) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0380 (0x000700) 0x7C09- f:00076 d: 9 | R = OR[9] 0x0381 (0x000702) 0x2006- f:00020 d: 6 | A = OR[6] 0x0382 (0x000704) 0x140B- f:00012 d: 11 | A = A + 11 (0x000B) 0x0383 (0x000706) 0x2908- f:00024 d: 264 | OR[264] = A 0x0384 (0x000708) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0385 (0x00070A) 0x2126- f:00020 d: 294 | A = OR[294] 0x0386 (0x00070C) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x0387 (0x00070E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0388 (0x000710) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0389 (0x000712) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x038A (0x000714) 0x7003- f:00070 d: 3 | P = P + 3 (0x038D) 0x038B (0x000716) 0x7E03-0x04B7 f:00077 d: 3 | R = OR[3]+1207 (0x04B7) 0x038D (0x00071A) 0x7003- f:00070 d: 3 | P = P + 3 (0x0390) 0x038E (0x00071C) 0x7E03-0x04C0 f:00077 d: 3 | R = OR[3]+1216 (0x04C0) 0x0390 (0x000720) 0x7A03-0x0006 f:00075 d: 3 | P = OR[3]+6 (0x0006) 0x0392 (0x000724) 0x2118- f:00020 d: 280 | A = OR[280] 0x0393 (0x000726) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0394 (0x000728) 0x2908- f:00024 d: 264 | OR[264] = A 0x0395 (0x00072A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0396 (0x00072C) 0x12FF- f:00011 d: 255 | A = A & 255 (0x00FF) 0x0397 (0x00072E) 0x2917- f:00024 d: 279 | OR[279] = A 0x0398 (0x000730) 0x8602- f:00103 d: 2 | P = P + 2 (0x039A), A # 0 0x0399 (0x000732) 0x0200- f:00001 d: 0 | EXIT 0x039A (0x000734) 0x2117- f:00020 d: 279 | A = OR[279] 0x039B (0x000736) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x039C (0x000738) 0x8602- f:00103 d: 2 | P = P + 2 (0x039E), A # 0 0x039D (0x00073A) 0x7031- f:00070 d: 49 | P = P + 49 (0x03CE) 0x039E (0x00073C) 0x2117- f:00020 d: 279 | A = OR[279] 0x039F (0x00073E) 0x160B- f:00013 d: 11 | A = A - 11 (0x000B) 0x03A0 (0x000740) 0x8602- f:00103 d: 2 | P = P + 2 (0x03A2), A # 0 0x03A1 (0x000742) 0x702D- f:00070 d: 45 | P = P + 45 (0x03CE) 0x03A2 (0x000744) 0x2118- f:00020 d: 280 | A = OR[280] 0x03A3 (0x000746) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x03A4 (0x000748) 0x2908- f:00024 d: 264 | OR[264] = A 0x03A5 (0x00074A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03A6 (0x00074C) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x03A7 (0x00074E) 0x2913- f:00024 d: 275 | OR[275] = A 0x03A8 (0x000750) 0x2113- f:00020 d: 275 | A = OR[275] 0x03A9 (0x000752) 0x1606- f:00013 d: 6 | A = A - 6 (0x0006) 0x03AA (0x000754) 0x8402- f:00102 d: 2 | P = P + 2 (0x03AC), A = 0 0x03AB (0x000756) 0x7023- f:00070 d: 35 | P = P + 35 (0x03CE) 0x03AC (0x000758) 0x2128- f:00020 d: 296 | A = OR[296] 0x03AD (0x00075A) 0x2647- f:00023 d: 71 | A = A - OR[71] 0x03AE (0x00075C) 0x8402- f:00102 d: 2 | P = P + 2 (0x03B0), A = 0 0x03AF (0x00075E) 0x701F- f:00070 d: 31 | P = P + 31 (0x03CE) 0x03B0 (0x000760) 0x2126- f:00020 d: 294 | A = OR[294] 0x03B1 (0x000762) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x03B2 (0x000764) 0x290D- f:00024 d: 269 | OR[269] = A 0x03B3 (0x000766) 0x310D- f:00030 d: 269 | A = (OR[269]) 0x03B4 (0x000768) 0x290E- f:00024 d: 270 | OR[270] = A 0x03B5 (0x00076A) 0x210E- f:00020 d: 270 | A = OR[270] 0x03B6 (0x00076C) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x03B7 (0x00076E) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x03B8 (0x000770) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x03B9 (0x000772) 0x290F- f:00024 d: 271 | OR[271] = A 0x03BA (0x000774) 0x210F- f:00020 d: 271 | A = OR[271] 0x03BB (0x000776) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x03BC (0x000778) 0x290F- f:00024 d: 271 | OR[271] = A 0x03BD (0x00077A) 0x210E- f:00020 d: 270 | A = OR[270] 0x03BE (0x00077C) 0x0E05- f:00007 d: 5 | A = A << 5 (0x0005) 0x03BF (0x00077E) 0x0A04- f:00005 d: 4 | A = A < 4 (0x0004) 0x03C0 (0x000780) 0x250F- f:00022 d: 271 | A = A + OR[271] 0x03C1 (0x000782) 0x0C09- f:00006 d: 9 | A = A >> 9 (0x0009) 0x03C2 (0x000784) 0x290E- f:00024 d: 270 | OR[270] = A 0x03C3 (0x000786) 0x390D- f:00034 d: 269 | (OR[269]) = A 0x03C4 (0x000788) 0x210F- f:00020 d: 271 | A = OR[271] 0x03C5 (0x00078A) 0x2126- f:00020 d: 294 | A = OR[294] 0x03C6 (0x00078C) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x03C7 (0x00078E) 0x2908- f:00024 d: 264 | OR[264] = A 0x03C8 (0x000790) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03C9 (0x000792) 0x0E0D- f:00007 d: 13 | A = A << 13 (0x000D) 0x03CA (0x000794) 0x0A01- f:00005 d: 1 | A = A < 1 (0x0001) 0x03CB (0x000796) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x03CC (0x000798) 0x0C0E- f:00006 d: 14 | A = A >> 14 (0x000E) 0x03CD (0x00079A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x03CE (0x00079C) 0x2118- f:00020 d: 280 | A = OR[280] 0x03CF (0x00079E) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x03D0 (0x0007A0) 0x2908- f:00024 d: 264 | OR[264] = A 0x03D1 (0x0007A2) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03D2 (0x0007A4) 0x2913- f:00024 d: 275 | OR[275] = A 0x03D3 (0x0007A6) 0x2126- f:00020 d: 294 | A = OR[294] 0x03D4 (0x0007A8) 0x140F- f:00012 d: 15 | A = A + 15 (0x000F) 0x03D5 (0x0007AA) 0x2908- f:00024 d: 264 | OR[264] = A 0x03D6 (0x0007AC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03D7 (0x0007AE) 0x2513- f:00022 d: 275 | A = A + OR[275] 0x03D8 (0x0007B0) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x03D9 (0x0007B2) 0x2127- f:00020 d: 295 | A = OR[295] 0x03DA (0x0007B4) 0x1402- f:00012 d: 2 | A = A + 2 (0x0002) 0x03DB (0x0007B6) 0x2908- f:00024 d: 264 | OR[264] = A 0x03DC (0x0007B8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03DD (0x0007BA) 0x2913- f:00024 d: 275 | OR[275] = A 0x03DE (0x0007BC) 0x2118- f:00020 d: 280 | A = OR[280] 0x03DF (0x0007BE) 0x1417- f:00012 d: 23 | A = A + 23 (0x0017) 0x03E0 (0x0007C0) 0x2908- f:00024 d: 264 | OR[264] = A 0x03E1 (0x0007C2) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03E2 (0x0007C4) 0x127F- f:00011 d: 127 | A = A & 127 (0x007F) 0x03E3 (0x0007C6) 0x2914- f:00024 d: 276 | OR[276] = A 0x03E4 (0x0007C8) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x03E5 (0x0007CA) 0x2915- f:00024 d: 277 | OR[277] = A 0x03E6 (0x0007CC) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x03E7 (0x0007CE) 0x2916- f:00024 d: 278 | OR[278] = A 0x03E8 (0x0007D0) 0x2115- f:00020 d: 277 | A = OR[277] 0x03E9 (0x0007D2) 0x2714- f:00023 d: 276 | A = A - OR[276] 0x03EA (0x0007D4) 0x840F- f:00102 d: 15 | P = P + 15 (0x03F9), A = 0 0x03EB (0x0007D6) 0x2113- f:00020 d: 275 | A = OR[275] 0x03EC (0x0007D8) 0x2516- f:00022 d: 278 | A = A + OR[278] 0x03ED (0x0007DA) 0x2915- f:00024 d: 277 | OR[277] = A 0x03EE (0x0007DC) 0x3115- f:00030 d: 277 | A = (OR[277]) 0x03EF (0x0007DE) 0x2915- f:00024 d: 277 | OR[277] = A 0x03F0 (0x0007E0) 0x2115- f:00020 d: 277 | A = OR[277] 0x03F1 (0x0007E2) 0x123F- f:00011 d: 63 | A = A & 63 (0x003F) 0x03F2 (0x0007E4) 0x2915- f:00024 d: 277 | OR[277] = A 0x03F3 (0x0007E6) 0x2115- f:00020 d: 277 | A = OR[277] 0x03F4 (0x0007E8) 0x2714- f:00023 d: 276 | A = A - OR[276] 0x03F5 (0x0007EA) 0x8602- f:00103 d: 2 | P = P + 2 (0x03F7), A # 0 0x03F6 (0x0007EC) 0x7002- f:00070 d: 2 | P = P + 2 (0x03F8) 0x03F7 (0x0007EE) 0x2D16- f:00026 d: 278 | OR[278] = OR[278] + 1 0x03F8 (0x0007F0) 0x7210- f:00071 d: 16 | P = P - 16 (0x03E8) 0x03F9 (0x0007F2) 0x2126- f:00020 d: 294 | A = OR[294] 0x03FA (0x0007F4) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x03FB (0x0007F6) 0x2908- f:00024 d: 264 | OR[264] = A 0x03FC (0x0007F8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x03FD (0x0007FA) 0x0804- f:00004 d: 4 | A = A > 4 (0x0004) 0x03FE (0x0007FC) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x03FF (0x0007FE) 0x2913- f:00024 d: 275 | OR[275] = A 0x0400 (0x000800) 0x2126- f:00020 d: 294 | A = OR[294] 0x0401 (0x000802) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0402 (0x000804) 0x2908- f:00024 d: 264 | OR[264] = A 0x0403 (0x000806) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0404 (0x000808) 0x12FF- f:00011 d: 255 | A = A & 255 (0x00FF) 0x0405 (0x00080A) 0x2914- f:00024 d: 276 | OR[276] = A 0x0406 (0x00080C) 0x2114- f:00020 d: 276 | A = OR[276] 0x0407 (0x00080E) 0x8602- f:00103 d: 2 | P = P + 2 (0x0409), A # 0 0x0408 (0x000810) 0x7027- f:00070 d: 39 | P = P + 39 (0x042F) 0x0409 (0x000812) 0x2114- f:00020 d: 276 | A = OR[276] 0x040A (0x000814) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x040B (0x000816) 0x8405- f:00102 d: 5 | P = P + 5 (0x0410), A = 0 0x040C (0x000818) 0x2114- f:00020 d: 276 | A = OR[276] 0x040D (0x00081A) 0x160B- f:00013 d: 11 | A = A - 11 (0x000B) 0x040E (0x00081C) 0x8402- f:00102 d: 2 | P = P + 2 (0x0410), A = 0 0x040F (0x00081E) 0x7010- f:00070 d: 16 | P = P + 16 (0x041F) 0x0410 (0x000820) 0x2113- f:00020 d: 275 | A = OR[275] 0x0411 (0x000822) 0x2716- f:00023 d: 278 | A = A - OR[278] 0x0412 (0x000824) 0x8002- f:00100 d: 2 | P = P + 2 (0x0414), C = 0 0x0413 (0x000826) 0x8602- f:00103 d: 2 | P = P + 2 (0x0415), A # 0 0x0414 (0x000828) 0x7002- f:00070 d: 2 | P = P + 2 (0x0416) 0x0415 (0x00082A) 0x7009- f:00070 d: 9 | P = P + 9 (0x041E) 0x0416 (0x00082C) 0x2117- f:00020 d: 279 | A = OR[279] 0x0417 (0x00082E) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x0418 (0x000830) 0x8405- f:00102 d: 5 | P = P + 5 (0x041D), A = 0 0x0419 (0x000832) 0x2117- f:00020 d: 279 | A = OR[279] 0x041A (0x000834) 0x160B- f:00013 d: 11 | A = A - 11 (0x000B) 0x041B (0x000836) 0x8402- f:00102 d: 2 | P = P + 2 (0x041D), A = 0 0x041C (0x000838) 0x7002- f:00070 d: 2 | P = P + 2 (0x041E) 0x041D (0x00083A) 0x0200- f:00001 d: 0 | EXIT 0x041E (0x00083C) 0x7011- f:00070 d: 17 | P = P + 17 (0x042F) 0x041F (0x00083E) 0x2113- f:00020 d: 275 | A = OR[275] 0x0420 (0x000840) 0x2716- f:00023 d: 278 | A = A - OR[278] 0x0421 (0x000842) 0x8002- f:00100 d: 2 | P = P + 2 (0x0423), C = 0 0x0422 (0x000844) 0x8602- f:00103 d: 2 | P = P + 2 (0x0424), A # 0 0x0423 (0x000846) 0x7002- f:00070 d: 2 | P = P + 2 (0x0425) 0x0424 (0x000848) 0x7003- f:00070 d: 3 | P = P + 3 (0x0427) 0x0425 (0x00084A) 0x0200- f:00001 d: 0 | EXIT 0x0426 (0x00084C) 0x7009- f:00070 d: 9 | P = P + 9 (0x042F) 0x0427 (0x00084E) 0x2117- f:00020 d: 279 | A = OR[279] 0x0428 (0x000850) 0x1601- f:00013 d: 1 | A = A - 1 (0x0001) 0x0429 (0x000852) 0x8405- f:00102 d: 5 | P = P + 5 (0x042E), A = 0 0x042A (0x000854) 0x2117- f:00020 d: 279 | A = OR[279] 0x042B (0x000856) 0x160B- f:00013 d: 11 | A = A - 11 (0x000B) 0x042C (0x000858) 0x8402- f:00102 d: 2 | P = P + 2 (0x042E), A = 0 0x042D (0x00085A) 0x7002- f:00070 d: 2 | P = P + 2 (0x042F) 0x042E (0x00085C) 0x0200- f:00001 d: 0 | EXIT 0x042F (0x00085E) 0x2117- f:00020 d: 279 | A = OR[279] 0x0430 (0x000860) 0x12FF- f:00011 d: 255 | A = A & 255 (0x00FF) 0x0431 (0x000862) 0x2917- f:00024 d: 279 | OR[279] = A 0x0432 (0x000864) 0x2126- f:00020 d: 294 | A = OR[294] 0x0433 (0x000866) 0x1416- f:00012 d: 22 | A = A + 22 (0x0016) 0x0434 (0x000868) 0x2908- f:00024 d: 264 | OR[264] = A 0x0435 (0x00086A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0436 (0x00086C) 0x1A00-0xFF00 f:00015 d: 0 | A = A & 65280 (0xFF00) 0x0438 (0x000870) 0x2517- f:00022 d: 279 | A = A + OR[279] 0x0439 (0x000872) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x043A (0x000874) 0x2116- f:00020 d: 278 | A = OR[278] 0x043B (0x000876) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x043C (0x000878) 0x2916- f:00024 d: 278 | OR[278] = A 0x043D (0x00087A) 0x2126- f:00020 d: 294 | A = OR[294] 0x043E (0x00087C) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x043F (0x00087E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0440 (0x000880) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0441 (0x000882) 0x0E09- f:00007 d: 9 | A = A << 9 (0x0009) 0x0442 (0x000884) 0x0A04- f:00005 d: 4 | A = A < 4 (0x0004) 0x0443 (0x000886) 0x2516- f:00022 d: 278 | A = A + OR[278] 0x0444 (0x000888) 0x0C0D- f:00006 d: 13 | A = A >> 13 (0x000D) 0x0445 (0x00088A) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0446 (0x00088C) 0x2127- f:00020 d: 295 | A = OR[295] 0x0447 (0x00088E) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x0448 (0x000890) 0x2908- f:00024 d: 264 | OR[264] = A 0x0449 (0x000892) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x044A (0x000894) 0x2913- f:00024 d: 275 | OR[275] = A 0x044B (0x000896) 0x2118- f:00020 d: 280 | A = OR[280] 0x044C (0x000898) 0x1419- f:00012 d: 25 | A = A + 25 (0x0019) 0x044D (0x00089A) 0x2908- f:00024 d: 264 | OR[264] = A 0x044E (0x00089C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x044F (0x00089E) 0x0809- f:00004 d: 9 | A = A > 9 (0x0009) 0x0450 (0x0008A0) 0x2914- f:00024 d: 276 | OR[276] = A 0x0451 (0x0008A2) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x0452 (0x0008A4) 0x2915- f:00024 d: 277 | OR[277] = A 0x0453 (0x0008A6) 0x2113- f:00020 d: 275 | A = OR[275] 0x0454 (0x0008A8) 0x8406- f:00102 d: 6 | P = P + 6 (0x045A), A = 0 0x0455 (0x0008AA) 0x2115- f:00020 d: 277 | A = OR[277] 0x0456 (0x0008AC) 0x2514- f:00022 d: 276 | A = A + OR[276] 0x0457 (0x0008AE) 0x2915- f:00024 d: 277 | OR[277] = A 0x0458 (0x0008B0) 0x2F13- f:00027 d: 275 | OR[275] = OR[275] - 1 0x0459 (0x0008B2) 0x7206- f:00071 d: 6 | P = P - 6 (0x0453) 0x045A (0x0008B4) 0x2115- f:00020 d: 277 | A = OR[277] 0x045B (0x0008B6) 0x2516- f:00022 d: 278 | A = A + OR[278] 0x045C (0x0008B8) 0x2915- f:00024 d: 277 | OR[277] = A 0x045D (0x0008BA) 0x2115- f:00020 d: 277 | A = OR[277] 0x045E (0x0008BC) 0x127F- f:00011 d: 127 | A = A & 127 (0x007F) 0x045F (0x0008BE) 0x2915- f:00024 d: 277 | OR[277] = A 0x0460 (0x0008C0) 0x2126- f:00020 d: 294 | A = OR[294] 0x0461 (0x0008C2) 0x1419- f:00012 d: 25 | A = A + 25 (0x0019) 0x0462 (0x0008C4) 0x2908- f:00024 d: 264 | OR[264] = A 0x0463 (0x0008C6) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0464 (0x0008C8) 0x0A08- f:00005 d: 8 | A = A < 8 (0x0008) 0x0465 (0x0008CA) 0x2515- f:00022 d: 277 | A = A + OR[277] 0x0466 (0x0008CC) 0x0C08- f:00006 d: 8 | A = A >> 8 (0x0008) 0x0467 (0x0008CE) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x0468 (0x0008D0) 0x2117- f:00020 d: 279 | A = OR[279] 0x0469 (0x0008D2) 0x160D- f:00013 d: 13 | A = A - 13 (0x000D) 0x046A (0x0008D4) 0x8405- f:00102 d: 5 | P = P + 5 (0x046F), A = 0 0x046B (0x0008D6) 0x2117- f:00020 d: 279 | A = OR[279] 0x046C (0x0008D8) 0x160C- f:00013 d: 12 | A = A - 12 (0x000C) 0x046D (0x0008DA) 0x8402- f:00102 d: 2 | P = P + 2 (0x046F), A = 0 0x046E (0x0008DC) 0x7042- f:00070 d: 66 | P = P + 66 (0x04B0) 0x046F (0x0008DE) 0x2118- f:00020 d: 280 | A = OR[280] 0x0470 (0x0008E0) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x0471 (0x0008E2) 0x2908- f:00024 d: 264 | OR[264] = A 0x0472 (0x0008E4) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0473 (0x0008E6) 0x2913- f:00024 d: 275 | OR[275] = A 0x0474 (0x0008E8) 0x2118- f:00020 d: 280 | A = OR[280] 0x0475 (0x0008EA) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x0476 (0x0008EC) 0x2908- f:00024 d: 264 | OR[264] = A 0x0477 (0x0008EE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0478 (0x0008F0) 0x2914- f:00024 d: 276 | OR[276] = A 0x0479 (0x0008F2) 0x1001- f:00010 d: 1 | A = 1 (0x0001) 0x047A (0x0008F4) 0x290F- f:00024 d: 271 | OR[271] = A 0x047B (0x0008F6) 0x2114- f:00020 d: 276 | A = OR[276] 0x047C (0x0008F8) 0x1E00-0x0200 f:00017 d: 0 | A = A - 512 (0x0200) 0x047E (0x0008FC) 0x2914- f:00024 d: 276 | OR[276] = A 0x047F (0x0008FE) 0x8202- f:00101 d: 2 | P = P + 2 (0x0481), C = 1 0x0480 (0x000900) 0x2F13- f:00027 d: 275 | OR[275] = OR[275] - 1 0x0481 (0x000902) 0x0810- f:00004 d: 16 | A = A > 16 (0x0010) 0x0482 (0x000904) 0x230F- f:00021 d: 271 | A = A & OR[271] 0x0483 (0x000906) 0x2118- f:00020 d: 280 | A = OR[280] 0x0484 (0x000908) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x0485 (0x00090A) 0x2908- f:00024 d: 264 | OR[264] = A 0x0486 (0x00090C) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x0487 (0x00090E) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x0488 (0x000910) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x0489 (0x000912) 0x2915- f:00024 d: 277 | OR[277] = A 0x048A (0x000914) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x048B (0x000916) 0x2929- f:00024 d: 297 | OR[297] = A 0x048C (0x000918) 0x292A- f:00024 d: 298 | OR[298] = A 0x048D (0x00091A) 0x2115- f:00020 d: 277 | A = OR[277] 0x048E (0x00091C) 0x840B- f:00102 d: 11 | P = P + 11 (0x0499), A = 0 0x048F (0x00091E) 0x2129- f:00020 d: 297 | A = OR[297] 0x0490 (0x000920) 0x2513- f:00022 d: 275 | A = A + OR[275] 0x0491 (0x000922) 0x2929- f:00024 d: 297 | OR[297] = A 0x0492 (0x000924) 0x212A- f:00020 d: 298 | A = OR[298] 0x0493 (0x000926) 0x2514- f:00022 d: 276 | A = A + OR[276] 0x0494 (0x000928) 0x292A- f:00024 d: 298 | OR[298] = A 0x0495 (0x00092A) 0x8002- f:00100 d: 2 | P = P + 2 (0x0497), C = 0 0x0496 (0x00092C) 0x2D29- f:00026 d: 297 | OR[297] = OR[297] + 1 0x0497 (0x00092E) 0x2F15- f:00027 d: 277 | OR[277] = OR[277] - 1 0x0498 (0x000930) 0x720B- f:00071 d: 11 | P = P - 11 (0x048D) 0x0499 (0x000932) 0x2117- f:00020 d: 279 | A = OR[279] 0x049A (0x000934) 0x160C- f:00013 d: 12 | A = A - 12 (0x000C) 0x049B (0x000936) 0x8402- f:00102 d: 2 | P = P + 2 (0x049D), A = 0 0x049C (0x000938) 0x7002- f:00070 d: 2 | P = P + 2 (0x049E) 0x049D (0x00093A) 0x2D16- f:00026 d: 278 | OR[278] = OR[278] + 1 0x049E (0x00093C) 0x2116- f:00020 d: 278 | A = OR[278] 0x049F (0x00093E) 0x0A09- f:00005 d: 9 | A = A < 9 (0x0009) 0x04A0 (0x000940) 0x2913- f:00024 d: 275 | OR[275] = A 0x04A1 (0x000942) 0x212A- f:00020 d: 298 | A = OR[298] 0x04A2 (0x000944) 0x2513- f:00022 d: 275 | A = A + OR[275] 0x04A3 (0x000946) 0x292A- f:00024 d: 298 | OR[298] = A 0x04A4 (0x000948) 0x8002- f:00100 d: 2 | P = P + 2 (0x04A6), C = 0 0x04A5 (0x00094A) 0x2D29- f:00026 d: 297 | OR[297] = OR[297] + 1 0x04A6 (0x00094C) 0x2126- f:00020 d: 294 | A = OR[294] 0x04A7 (0x00094E) 0x141A- f:00012 d: 26 | A = A + 26 (0x001A) 0x04A8 (0x000950) 0x2908- f:00024 d: 264 | OR[264] = A 0x04A9 (0x000952) 0x2129- f:00020 d: 297 | A = OR[297] 0x04AA (0x000954) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x04AB (0x000956) 0x2126- f:00020 d: 294 | A = OR[294] 0x04AC (0x000958) 0x141B- f:00012 d: 27 | A = A + 27 (0x001B) 0x04AD (0x00095A) 0x2908- f:00024 d: 264 | OR[264] = A 0x04AE (0x00095C) 0x212A- f:00020 d: 298 | A = OR[298] 0x04AF (0x00095E) 0x3908- f:00034 d: 264 | (OR[264]) = A 0x04B0 (0x000960) 0x0200- f:00001 d: 0 | EXIT 0x04B1 (0x000962) 0x1017- f:00010 d: 23 | A = 23 (0x0017) 0x04B2 (0x000964) 0x292B- f:00024 d: 299 | OR[299] = A 0x04B3 (0x000966) 0x2118- f:00020 d: 280 | A = OR[280] 0x04B4 (0x000968) 0x292C- f:00024 d: 300 | OR[300] = A 0x04B5 (0x00096A) 0x112B- f:00010 d: 299 | A = 299 (0x012B) 0x04B6 (0x00096C) 0x5800- f:00054 d: 0 | B = A 0x04B7 (0x00096E) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x04B8 (0x000970) 0x7C09- f:00076 d: 9 | R = OR[9] 0x04B9 (0x000972) 0x0200- f:00001 d: 0 | EXIT 0x04BA (0x000974) 0x2126- f:00020 d: 294 | A = OR[294] 0x04BB (0x000976) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x04BC (0x000978) 0x2908- f:00024 d: 264 | OR[264] = A 0x04BD (0x00097A) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x04BE (0x00097C) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x04BF (0x00097E) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x04C0 (0x000980) 0x2928- f:00024 d: 296 | OR[296] = A 0x04C1 (0x000982) 0x2126- f:00020 d: 294 | A = OR[294] 0x04C2 (0x000984) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x04C3 (0x000986) 0x290D- f:00024 d: 269 | OR[269] = A 0x04C4 (0x000988) 0x310D- f:00030 d: 269 | A = (OR[269]) 0x04C5 (0x00098A) 0x290E- f:00024 d: 270 | OR[270] = A 0x04C6 (0x00098C) 0x210E- f:00020 d: 270 | A = OR[270] 0x04C7 (0x00098E) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x04C8 (0x000990) 0x1401- f:00012 d: 1 | A = A + 1 (0x0001) 0x04C9 (0x000992) 0x290F- f:00024 d: 271 | OR[271] = A 0x04CA (0x000994) 0x210F- f:00020 d: 271 | A = OR[271] 0x04CB (0x000996) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x04CC (0x000998) 0x290F- f:00024 d: 271 | OR[271] = A 0x04CD (0x00099A) 0x210E- f:00020 d: 270 | A = OR[270] 0x04CE (0x00099C) 0x0A05- f:00005 d: 5 | A = A < 5 (0x0005) 0x04CF (0x00099E) 0x250F- f:00022 d: 271 | A = A + OR[271] 0x04D0 (0x0009A0) 0x0C05- f:00006 d: 5 | A = A >> 5 (0x0005) 0x04D1 (0x0009A2) 0x290E- f:00024 d: 270 | OR[270] = A 0x04D2 (0x0009A4) 0x390D- f:00034 d: 269 | (OR[269]) = A 0x04D3 (0x0009A6) 0x210F- f:00020 d: 271 | A = OR[271] 0x04D4 (0x0009A8) 0x2728- f:00023 d: 296 | A = A - OR[296] 0x04D5 (0x0009AA) 0x8402- f:00102 d: 2 | P = P + 2 (0x04D7), A = 0 0x04D6 (0x0009AC) 0x703D- f:00070 d: 61 | P = P + 61 (0x0513) 0x04D7 (0x0009AE) 0x1000- f:00010 d: 0 | A = 0 (0x0000) 0x04D8 (0x0009B0) 0x2913- f:00024 d: 275 | OR[275] = A 0x04D9 (0x0009B2) 0x2914- f:00024 d: 276 | OR[276] = A 0x04DA (0x0009B4) 0x2127- f:00020 d: 295 | A = OR[295] 0x04DB (0x0009B6) 0x1403- f:00012 d: 3 | A = A + 3 (0x0003) 0x04DC (0x0009B8) 0x2908- f:00024 d: 264 | OR[264] = A 0x04DD (0x0009BA) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x04DE (0x0009BC) 0x2915- f:00024 d: 277 | OR[277] = A 0x04DF (0x0009BE) 0x2113- f:00020 d: 275 | A = OR[275] 0x04E0 (0x0009C0) 0x2714- f:00023 d: 276 | A = A - OR[276] 0x04E1 (0x0009C2) 0x8632- f:00103 d: 50 | P = P + 50 (0x0513), A # 0 0x04E2 (0x0009C4) 0x2115- f:00020 d: 277 | A = OR[277] 0x04E3 (0x0009C6) 0x8430- f:00102 d: 48 | P = P + 48 (0x0513), A = 0 0x04E4 (0x0009C8) 0x2115- f:00020 d: 277 | A = OR[277] 0x04E5 (0x0009CA) 0x1410- f:00012 d: 16 | A = A + 16 (0x0010) 0x04E6 (0x0009CC) 0x2908- f:00024 d: 264 | OR[264] = A 0x04E7 (0x0009CE) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x04E8 (0x0009D0) 0x0808- f:00004 d: 8 | A = A > 8 (0x0008) 0x04E9 (0x0009D2) 0x120F- f:00011 d: 15 | A = A & 15 (0x000F) 0x04EA (0x0009D4) 0x2913- f:00024 d: 275 | OR[275] = A 0x04EB (0x0009D6) 0x2115- f:00020 d: 277 | A = OR[277] 0x04EC (0x0009D8) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x04ED (0x0009DA) 0x2908- f:00024 d: 264 | OR[264] = A 0x04EE (0x0009DC) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x04EF (0x0009DE) 0x080C- f:00004 d: 12 | A = A > 12 (0x000C) 0x04F0 (0x0009E0) 0x2914- f:00024 d: 276 | OR[276] = A 0x04F1 (0x0009E2) 0x2126- f:00020 d: 294 | A = OR[294] 0x04F2 (0x0009E4) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x04F3 (0x0009E6) 0x2908- f:00024 d: 264 | OR[264] = A 0x04F4 (0x0009E8) 0x3108- f:00030 d: 264 | A = (OR[264]) 0x04F5 (0x0009EA) 0x0803- f:00004 d: 3 | A = A > 3 (0x0003) 0x04F6 (0x0009EC) 0x1201- f:00011 d: 1 | A = A & 1 (0x0001) 0x04F7 (0x0009EE) 0x2916- f:00024 d: 278 | OR[278] = A 0x04F8 (0x0009F0) 0x3115- f:00030 d: 277 | A = (OR[277]) 0x04F9 (0x0009F2) 0x2915- f:00024 d: 277 | OR[277] = A 0x04FA (0x0009F4) 0x2113- f:00020 d: 275 | A = OR[275] 0x04FB (0x0009F6) 0x2714- f:00023 d: 276 | A = A - OR[276] 0x04FC (0x0009F8) 0x8402- f:00102 d: 2 | P = P + 2 (0x04FE), A = 0 0x04FD (0x0009FA) 0x7015- f:00070 d: 21 | P = P + 21 (0x0512) 0x04FE (0x0009FC) 0x0400- f:00002 d: 0 | I = 0 0x04FF (0x0009FE) 0x0000- f:00000 d: 0 | PASS 0x0500 (0x000A00) 0x2127- f:00020 d: 295 | A = OR[295] 0x0501 (0x000A02) 0x1403- f:00012 d: 3 | A = A + 3 (0x0003) 0x0502 (0x000A04) 0x289D- f:00024 d: 157 | OR[157] = A 0x0503 (0x000A06) 0x7E00-0x1FFD f:00077 d: 0 | R = OR[0]+8189 (0x1FFD) 0x0505 (0x000A0A) 0x2116- f:00020 d: 278 | A = OR[278] 0x0506 (0x000A0C) 0x8402- f:00102 d: 2 | P = P + 2 (0x0508), A = 0 0x0507 (0x000A0E) 0x7004- f:00070 d: 4 | P = P + 4 (0x050B) 0x0508 (0x000A10) 0x7E00-0x30D7 f:00077 d: 0 | R = OR[0]+12503 (0x30D7) 0x050A (0x000A14) 0x7003- f:00070 d: 3 | P = P + 3 (0x050D) 0x050B (0x000A16) 0x7E00-0x2017 f:00077 d: 0 | R = OR[0]+8215 (0x2017) 0x050D (0x000A1A) 0x2082- f:00020 d: 130 | A = OR[130] 0x050E (0x000A1C) 0x140A- f:00012 d: 10 | A = A + 10 (0x000A) 0x050F (0x000A1E) 0x2908- f:00024 d: 264 | OR[264] = A 0x0510 (0x000A20) 0x3F08- f:00037 d: 264 | (OR[264]) = (OR[264]) - 1 0x0511 (0x000A22) 0x0600- f:00003 d: 0 | I = 1 0x0512 (0x000A24) 0x7233- f:00071 d: 51 | P = P - 51 (0x04DF) 0x0513 (0x000A26) 0x7662- f:00073 d: 98 | R = P - 98 (0x04B1) 0x0514 (0x000A28) 0x0200- f:00001 d: 0 | EXIT 0x0515 (0x000A2A) 0x0000- f:00000 d: 0 | PASS 0x0516 (0x000A2C) 0x0000- f:00000 d: 0 | PASS 0x0517 (0x000A2E) 0x0000- f:00000 d: 0 | PASS
79.961538
111
0.464246
0496b29b2dfd4311a45a444c9964c38988dc600a
1,744
asm
Assembly
programs/oeis/053/A053138.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
1
2021-03-15T11:38:20.000Z
2021-03-15T11:38:20.000Z
programs/oeis/053/A053138.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/053/A053138.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A053138: Binomial coefficients C(2*n+9,9). ; 1,55,715,5005,24310,92378,293930,817190,2042975,4686825,10015005,20160075,38567100,70607460,124403620,211915132,350343565,563921995,886163135,1362649145,2054455634,3042312350,4431613550,6358402050,8996462475,12565671261,17341763505,23667689815,31966749880,42757703560,56672074888,74473879480,97082021465,125595622175,161322559475,205811513765,260887834350,328693558050,411731930610,512916800670,635627275767,783768050065,961835834245,1174992339235,1429144287220,1731030945644,2088319702700,2509710226100,3005047770725,3585446225075,4263421511271,5053035978705,5970054457290,7032112662630,8258898672310,9672348219898,11296854581155,13159493855365,15290266473625,17722355795375,20492404684400,23640810986000,27212042858000,31254974939760,35823246375345,40975641739527,46776495948315,53296124269245,60611278580710,68805631064170,77970286548154,88204324758550,99615373765775,112320215956025,126445427890925,142128055457531,159516325748780,178770397153140,200063149171380,223581013518060,249524848105533,278110855548955,309571547872015,344156759134825,382134707747650,423793110276910,469440348593150,519406692254450,574045578063035,633734948777645,698878653009537,769907908375815,847282830030120,931494026737560,1023064266708120,1122550215450664,1230544247958025,1347676337582575,1474616024011075,1612074462797525,1760806558963166,1921613187223730,2095343501455490,2282897336063630,2485227701968935,2703343379981793,2938311614386005,3191260909608915,3463383932908900,3755940526066300,4070260829119420,4407748519243300,4769884167925525,5158228719650435,5574427095360695,6020211924023297,6497407405685690,7007933309466870,7553809109987910,8137158265806570,8760212643481299 mul $0,2 mov $1,-10 bin $1,$0
249.142857
1,667
0.913417
f36139c20f3862d2d02a02a2f130ce9ac4cc4f69
1,272
asm
Assembly
symbolinen_konekieli/Linux/eka_32.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
symbolinen_konekieli/Linux/eka_32.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
symbolinen_konekieli/Linux/eka_32.asm
tkukka/VariousContent
f7e7ae98ff8521c6c709dabe30855104afe3fe04
[ "MIT" ]
null
null
null
BITS 32 laitetulostus EQU 4 stdout EQU 1 loppu_hyvin EQU 0 lopetus EQU 1 SECTION .rodata viesti db "Ääkköset äöåÄÖÅ. Хорошо Müller Straße",10,0 viestin_pituus EQU $ - viesti toinen_viesti db "Toinenkin tuloste.",10,0 toisen_viestin_pituus EQU $ - toinen_viesti SECTION .text GLOBAL _start:function _start: mov edx, viestin_pituus mov ecx, viesti mov ebx, stdout mov eax, laitetulostus int 80h ;vanhempi keino mov edx, toisen_viestin_pituus mov ecx, toinen_viesti mov ebx, stdout mov eax, laitetulostus int 80h mov ebx, loppu_hyvin mov eax, lopetus int 80h
35.333333
80
0.351415
13450aad0daf567267e438cfb0bdc62f3c10d488
238
asm
Assembly
Appendices/Appendix_C_Disassembly/Program_C.1/x86_64/Program_C.1_MASM.asm
chen150182055/Assembly
e5e76bea438a3752b59775098205a77aa7087110
[ "MIT" ]
272
2016-12-28T02:24:21.000Z
2022-03-30T21:05:37.000Z
Appendices/Appendix_C_Disassembly/Program_C.1/x86_64/Program_C.1_MASM.asm
chen150182055/Assembly
e5e76bea438a3752b59775098205a77aa7087110
[ "MIT" ]
1
2018-04-17T19:47:52.000Z
2018-04-17T19:47:52.000Z
Appendices/Appendix_C_Disassembly/Program_C.1/x86_64/Program_C.1_MASM.asm
chen150182055/Assembly
e5e76bea438a3752b59775098205a77aa7087110
[ "MIT" ]
62
2017-02-02T14:39:37.000Z
2022-01-04T09:02:07.000Z
; Program C.1 ; Template - MASM (64-bit) ; Copyright (c) 2018 Hall & Slonka extrn ExitProcess : proc .DATA num QWORD 80 sum QWORD ? .CODE _main PROC mov rax, num add rax, 20 mov sum, rax xor rcx, rcx call ExitProcess _main ENDP END
10.347826
34
0.701681
9f084c72a540be29d2654bdb6818537e4fef1f66
603
asm
Assembly
oeis/001/A001793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/001/A001793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/001/A001793.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A001793: a(n) = n*(n+3)*2^(n-3). ; 1,5,18,56,160,432,1120,2816,6912,16640,39424,92160,212992,487424,1105920,2490368,5570560,12386304,27394048,60293120,132120576,288358400,627048448,1358954496,2936012800,6325010432,13589544960,29125246976,62277025792,132875550720,282930970624,601295421440,1275605286912,2701534429184,5712306503680,12060268167168,25426206392320,53532472377344,112562502893568,236394999971840,495879744126976,1039038488248320,2174833999740928,4547580092481536,9499780463984640,19826393672056832,41341637204377600 mov $2,$0 seq $0,79859 ; a(n) = n*2^(n-4). mul $2,$0 add $0,$2 div $0,4
67
494
0.822554
23c4a894c3e7fa734322258de2e1242e026b999e
1,545
asm
Assembly
game-projects/Zedda/Objects/TitleScreen/Castle/Castle.asm
wide-dot/thomson-to8-game-engine
f305368ff28fba6e6bd03d0138a36ff5ea67e925
[ "Apache-2.0" ]
11
2021-09-07T18:45:06.000Z
2022-02-15T06:36:19.000Z
game-projects/Zedda/Objects/TitleScreen/Castle/Castle.asm
dougmasten/thomson-to8-game-engine
b1f29e3b650e2296a5058570173e1c9068bccbe4
[ "Apache-2.0" ]
null
null
null
game-projects/Zedda/Objects/TitleScreen/Castle/Castle.asm
dougmasten/thomson-to8-game-engine
b1f29e3b650e2296a5058570173e1c9068bccbe4
[ "Apache-2.0" ]
1
2021-11-22T08:43:52.000Z
2021-11-22T08:43:52.000Z
; --------------------------------------------------------------------------- ; Object - Castle ; ; input REG : [u] pointer to Object Status Table (OST) ; --------- ; ; Animated full screen Background ; ; --------------------------------------------------------------------------- INCLUDE "./Engine/Macros.asm" INCLUDE "./Objects/SFX/PaletteFade/PaletteFade.idx" Castle lda routine,u asla ldx #Castle_Routines jmp [a,x] Castle_Routines fdb Castle_Init fdb Castle_Wait fdb Castle_Main fdb Castle_End Castle_Init inc routine,u ldd #508 ; nb of frames before fade in std ext_variables,u rts Castle_Wait ldd ext_variables,u subd #1 std ext_variables,u beq @a rts @a inc routine,u ldb #$08 stb priority,u lda render_flags,u ora #render_overlay_mask sta render_flags,u ldd #$8076 std xy_pixel,u ldd #Img_Castle std image_set,u ldx #Obj_PaletteFade lda #ObjID_PaletteFade sta id,x ldb #0 ; wait two frames between palette update stb subtype,x ldd #White_palette std pal_src,x ldd #Pal_Flash std pal_dst,x jmp DisplaySprite Castle_Main inc routine,u jmp DisplaySprite Castle_End jmp DisplaySprite
21.760563
94
0.474434
9669263cb19d8621bdbbf327f500bf118b8f74f9
675
asm
Assembly
oeis/290/A290907.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/290/A290907.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/290/A290907.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A290907: a(n) = (1/3)*A290906(n). ; Submitted by Christian Krause ; 0,1,4,13,44,152,524,1803,6204,21351,73480,252880,870280,2995049,10307396,35472677,122078436,420130248,1445868996,4975926307,17124540796,58933729999,202819133840,697997582240,2402143306640,8266923285201,28450434416004,97911543452733,336960420397084,1159641865608952,3990881940639484,13734532303866683,47267090435587004,162668650727696951,559820578878854040,1926610192770806640,6630386546921865240,22818329274162760249,78528777648089817796,270255058764787644757,930076832664610301396 mov $1,1 lpb $0 sub $0,1 add $2,$1 add $1,$3 add $4,$2 add $3,$4 add $3,$4 add $3,$4 lpe mov $0,$3 div $0,3
39.705882
483
0.804444
3ae53a499bdc47c4025f8b1fdee6119bab4e455d
477
asm
Assembly
programs/oeis/120/A120197.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/120/A120197.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
programs/oeis/120/A120197.asm
karttu/loda
9c3b0fc57b810302220c044a9d17db733c76a598
[ "Apache-2.0" ]
null
null
null
; A120197: a(1)=4; a(n)=floor((35+sum(a(1) to a(n-1)))/8). ; 4,4,5,6,6,7,8,9,10,11,13,14,16,18,20,23,26,29,33,37,41,46,52,59,66,74,84,94,106,119,134,151,170,191,215,242,272,306,344,387 mov $2,$0 mov $5,2 lpb $5,1 mov $0,$2 sub $5,1 add $0,$5 mov $3,0 mov $6,1 lpb $0,1 sub $0,1 add $6,$3 mov $3,6 add $3,$6 div $3,8 add $3,1 add $6,3 lpe mov $4,$5 lpb $4,1 mov $1,$6 sub $4,1 lpe lpe lpb $2,1 sub $1,$6 mov $2,0 lpe
15.387097
125
0.505241
ccb75465afe30b418d16d46db9dd5907cee067a4
376
asm
Assembly
programs/oeis/106/A106390.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
22
2018-02-06T19:19:31.000Z
2022-01-17T21:53:31.000Z
programs/oeis/106/A106390.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
41
2021-02-22T19:00:34.000Z
2021-08-28T10:47:47.000Z
programs/oeis/106/A106390.asm
neoneye/loda
afe9559fb53ee12e3040da54bd6aa47283e0d9ec
[ "Apache-2.0" ]
5
2021-02-24T21:14:16.000Z
2021-08-09T19:48:05.000Z
; A106390: Numbers k such that 13k = 6j^2 + 6j + 1. ; 1,61,97,277,349,649,757,1177,1321,1861,2041,2701,2917,3697,3949,4849,5137,6157,6481,7621,7981,9241,9637,11017,11449,12949,13417,15037,15541,17281,17821,19681,20257,22237,22849,24949,25597,27817,28501,30841 seq $0,106389 ; Numbers j such that 6j^2 + 6j + 1 = 13k. mov $2,$0 pow $2,2 add $0,$2 div $0,26 mul $0,12 add $0,1
34.181818
207
0.704787
f7be382e31c8778c350504894645ef76d803c638
319
asm
Assembly
tests/023_VARIABLES_-_string_variables.asm
tpisto/pasm
5ade5841f3493dd8faab17bda3616a6ad25be238
[ "MIT" ]
103
2015-01-26T16:50:33.000Z
2021-12-20T04:20:54.000Z
tests/023_VARIABLES_-_string_variables.asm
tpisto/pasm
5ade5841f3493dd8faab17bda3616a6ad25be238
[ "MIT" ]
4
2015-10-21T09:15:35.000Z
2019-08-02T10:47:13.000Z
tests/023_VARIABLES_-_string_variables.asm
tpisto/pasm
5ade5841f3493dd8faab17bda3616a6ad25be238
[ "MIT" ]
16
2015-06-01T12:07:02.000Z
2021-02-09T15:22:22.000Z
; name: VARIABLES - string variables ; code: "74657374746573747465737474657374000000007465737400000000000000000000000074657374313274657374313233007465737431323334350000000000000074657374000000000000000000000000" tommi db 'test' db 'test' dw 'test' dq 'test' do 'test' db 'test12' dw 'test123' dq 'test12345' do 'test'
24.538462
174
0.830721
84fc1841b39e865be791cfabc8f47b1ab3c12d4b
7,144
asm
Assembly
Transynther/x86/_processed/NONE/_un_xt_sm_/i7-7700_9_0x48.log_21829_1713.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_un_xt_sm_/i7-7700_9_0x48.log_21829_1713.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_un_xt_sm_/i7-7700_9_0x48.log_21829_1713.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 %rax push %rcx push %rdi push %rdx push %rsi lea addresses_WT_ht+0x13775, %r11 nop sub %r12, %r12 mov (%r11), %rdi nop nop nop nop sub %rcx, %rcx lea addresses_UC_ht+0x9f62, %rcx nop nop nop sub $6534, %r13 mov $0x6162636465666768, %rsi movq %rsi, %xmm2 movups %xmm2, (%rcx) nop nop nop add %rdi, %rdi lea addresses_A_ht+0x45ce, %rcx nop nop nop nop nop dec %rax vmovups (%rcx), %ymm3 vextracti128 $1, %ymm3, %xmm3 vpextrq $0, %xmm3, %rdi sub %rsi, %rsi lea addresses_WC_ht+0x19c59, %rsi lea addresses_A_ht+0x1898e, %rdi nop nop nop nop cmp %rdx, %rdx mov $109, %rcx rep movsb and %rdi, %rdi lea addresses_WC_ht+0x1e189, %r13 add $33869, %rdi mov (%r13), %ax nop cmp %r12, %r12 lea addresses_A_ht+0x1c8a, %rsi lea addresses_D_ht+0x4abe, %rdi nop nop nop nop dec %r12 mov $13, %rcx rep movsw nop nop nop nop nop mfence lea addresses_A_ht+0x1dc0e, %rax nop cmp $12100, %rdx mov (%rax), %r13w nop nop nop and %rdi, %rdi lea addresses_normal_ht+0xfdfe, %rsi lea addresses_D_ht+0x9d0e, %rdi sub %rax, %rax mov $12, %rcx rep movsq cmp %rdi, %rdi lea addresses_D_ht+0xd84e, %rdi nop nop nop nop dec %r12 mov (%rdi), %si nop nop and %rdi, %rdi lea addresses_UC_ht+0xb58e, %r13 nop nop nop cmp %rax, %rax movw $0x6162, (%r13) nop nop nop nop add %rcx, %rcx pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r13 pop %r12 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r15 push %r9 push %rbp push %rdi push %rdx push %rsi // Load mov $0x74c4b4000000070e, %r9 clflush (%r9) nop nop nop nop xor %rsi, %rsi movb (%r9), %r15b inc %rsi // Store lea addresses_WC+0x1ad0e, %r10 nop nop nop nop cmp $57564, %r9 mov $0x5152535455565758, %rbp movq %rbp, %xmm0 vmovntdq %ymm0, (%r10) nop nop and $31340, %r9 // Store lea addresses_WC+0x1ad0e, %rdi nop inc %rdx movb $0x51, (%rdi) nop nop xor $35329, %rsi // Faulty Load lea addresses_WC+0x1ad0e, %r9 nop nop nop cmp %rbp, %rbp movb (%r9), %dl lea oracles, %rdi and $0xff, %rdx shlq $12, %rdx mov (%rdi,%rdx,1), %rdx pop %rsi pop %rdx pop %rdi pop %rbp pop %r9 pop %r15 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 4, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 9, 'size': 1, 'same': False, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 32, 'same': True, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': True, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 2, 'size': 16, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 2, 'size': 32, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 0, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 2, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 0, 'size': 2, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 2, 'same': True}, 'dst': {'type': 'addresses_D_ht', 'congruent': 1, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': True, 'congruent': 8, 'size': 2, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 2, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 1, 'size': 2, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 7, 'size': 2, 'same': False, 'NT': False}} {'58': 630, 'e0': 5, '51': 21194} 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 58 51 51 51 51 51 58 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 58 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 58 51 51 51 58 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 */
34.84878
2,999
0.652856
b39626a5cb44b36f9d6ef8074da1c28ee1ac950d
5,740
asm
Assembly
Transynther/x86/_processed/NONE/_zr_xt_/i7-8650U_0xd2_notsx.log_21829_800.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_zr_xt_/i7-8650U_0xd2_notsx.log_21829_800.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_zr_xt_/i7-8650U_0xd2_notsx.log_21829_800.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 %r15 push %rax push %rbp push %rcx push %rdi push %rsi lea addresses_UC_ht+0x11e52, %r10 nop nop nop cmp %rbp, %rbp movb (%r10), %r15b nop nop nop nop nop add $39820, %rax lea addresses_A_ht+0xadaf, %r12 clflush (%r12) nop nop and %rsi, %rsi mov (%r12), %cx nop sub $43645, %r10 lea addresses_A_ht+0x3ce2, %rsi lea addresses_normal_ht+0xcc42, %rdi nop dec %r15 mov $119, %rcx rep movsl nop nop nop nop nop add $23340, %r12 pop %rsi pop %rdi pop %rcx pop %rbp pop %rax pop %r15 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r14 push %r15 push %rax push %rbp push %rcx push %rdi push %rsi // REPMOV lea addresses_A+0xed52, %rsi lea addresses_A+0x14c02, %rdi nop nop nop nop nop lfence mov $55, %rcx rep movsl nop nop nop nop nop xor %rbp, %rbp // Store lea addresses_D+0x52ba, %rdi nop nop nop nop nop and %rsi, %rsi mov $0x5152535455565758, %rbp movq %rbp, %xmm4 vmovups %ymm4, (%rdi) nop nop nop xor %r15, %r15 // Store lea addresses_WC+0x5c2, %rdi nop nop nop and $45092, %rsi movl $0x51525354, (%rdi) nop nop nop and %rbp, %rbp // Store lea addresses_WT+0x7e52, %rbp nop nop nop sub %rax, %rax mov $0x5152535455565758, %rcx movq %rcx, %xmm5 movups %xmm5, (%rbp) nop nop xor %rax, %rax // Faulty Load lea addresses_A+0x17652, %rdi add %r15, %r15 mov (%rdi), %ebp lea oracles, %rcx and $0xff, %rbp shlq $12, %rbp mov (%rcx,%rbp,1), %rbp pop %rsi pop %rdi pop %rcx pop %rbp pop %rax pop %r15 pop %r14 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_A', 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 11, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 9, 'same': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 2, 'AVXalign': False, 'NT': True, 'congruent': 0, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 4, 'same': True}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 4, 'same': False}} {'00': 1, '35': 21828} 00 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 */
36.794872
2,999
0.657143
3fb35e2f28bbfa4de240d25c42e4f00d4f7164b0
856
asm
Assembly
session_09/00-logicalstack_pre/logicalstack.asm
DigiOhhh/LabArchitettura2-2017-2018
da34b9a75ab2945ac70d5cbf69395d0db5172f6f
[ "MIT" ]
1
2019-03-06T13:26:10.000Z
2019-03-06T13:26:10.000Z
session_09/00-logicalstack_pre/logicalstack.asm
DigiOhhh/LabArchitettura2-2017-2018
da34b9a75ab2945ac70d5cbf69395d0db5172f6f
[ "MIT" ]
null
null
null
session_09/00-logicalstack_pre/logicalstack.asm
DigiOhhh/LabArchitettura2-2017-2018
da34b9a75ab2945ac70d5cbf69395d0db5172f6f
[ "MIT" ]
1
2019-03-06T13:25:28.000Z
2019-03-06T13:25:28.000Z
.data stack : .word 0 # Puntatore all'ultimo elemento inserito nello stack stack_n : .word 0 # Nummero di elementi attualmente nello stack # Nodo di esempio: # struct{ # int x; # int y; # int angle; # int *next; # } .text .globl stack_push # Input : # a0 : x value # a1 : y value # a2 : angle value # Output: # --------- stack_push: # Inserisce un elemento nello stack move $t0, $a0 move $t1, $a1 move $t2, $a2 la $t8, stack lw $t7, 0($t8) la $t9, stack_n li $a0, 16 # malloc(4*4 bytes) li $v0, 9 syscall sw $t0, 0($v0) # inizializza nuovo nodo sw $t1, 4($v0) sw $t2, 8($v0) sw $t7, 12($v0) # next = *old_stack lw $t3, 0($t9) # stack_n++ addi $t3, $t3, 1 sw $v0, 0($t8) # aggiorna lo stack pointer al nodo appena creato sw $t3, 0($t9) # aggiorna il contatore di elementi jr $ra # ritorna al chiamante
17.12
72
0.606308
6c803e739d8c97eb5eaabe7c2df0412d129a90d5
275
asm
Assembly
Lista2/Lista2/Parte2/Programa4.asm
GustavoLR548/ACII-GLR
135690945f5e29938ef640a3d5475f8a12dbd76c
[ "MIT" ]
1
2021-11-03T17:22:02.000Z
2021-11-03T17:22:02.000Z
Lista2/Lista2/Parte2/Programa4.asm
GustavoLR548/ACII-GLR
135690945f5e29938ef640a3d5475f8a12dbd76c
[ "MIT" ]
null
null
null
Lista2/Lista2/Parte2/Programa4.asm
GustavoLR548/ACII-GLR
135690945f5e29938ef640a3d5475f8a12dbd76c
[ "MIT" ]
null
null
null
.text addi $s0,$zero,3 # s0 = x, x = 3 addi $s1,$zero,4 # s1 = y, y = 4 mul $t0,$s0,15 # t0 = tmp1 , tmp1 = 15 * 3 mul $t1,$s1,67 # t1 = tmp2 , tmp2 = 67 * 4 add $t2,$t1,$t0 # t2 = t1 + t0 | ( 15 * 3 + 67 ) sll $t2,$t2,2 # t2 *= 2^2 | ( 15 * 3 + 67 ) * 4
22.916667
51
0.429091
5cb7e828ec8ee2a6d800aa12e2f42b08a6a4742a
5,936
asm
Assembly
Transynther/x86/_processed/NONE/_un_/i9-9900K_12_0xa0_notsx.log_1_1817.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
9
2020-08-13T19:41:58.000Z
2022-03-30T12:22:51.000Z
Transynther/x86/_processed/NONE/_un_/i9-9900K_12_0xa0_notsx.log_1_1817.asm
ljhsiun2/medusa
67d769b8a2fb42c538f10287abaf0e6dbb463f0c
[ "MIT" ]
1
2021-04-29T06:29:35.000Z
2021-05-13T21:02:30.000Z
Transynther/x86/_processed/NONE/_un_/i9-9900K_12_0xa0_notsx.log_1_1817.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 %r11 push %r14 push %r15 push %r8 push %rax push %rdx lea addresses_WT_ht+0x1c7b8, %r10 nop nop nop nop cmp $58280, %r15 mov $0x6162636465666768, %r8 movq %r8, (%r10) nop nop xor $38961, %r10 lea addresses_WT_ht+0x64f0, %rax dec %rdx movw $0x6162, (%rax) nop sub %r10, %r10 lea addresses_UC_ht+0xe340, %r15 nop dec %r11 movb $0x61, (%r15) nop nop nop nop sub %r14, %r14 lea addresses_WC_ht+0x1eb80, %rdx nop cmp $56840, %r8 movb (%rdx), %r10b nop nop xor $47514, %r11 lea addresses_normal_ht+0x4800, %rax lfence vmovups (%rax), %ymm5 vextracti128 $1, %ymm5, %xmm5 vpextrq $0, %xmm5, %r14 nop nop nop dec %rax pop %rdx pop %rax pop %r8 pop %r15 pop %r14 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r14 push %r15 push %rax push %rcx push %rdi push %rdx push %rsi // Store mov $0x44518e0000000940, %rax nop nop nop add %r15, %r15 movw $0x5152, (%rax) nop nop sub %rdx, %rdx // Store lea addresses_A+0x1b5fc, %rdi nop nop nop add %r14, %r14 mov $0x5152535455565758, %r15 movq %r15, %xmm1 vmovups %ymm1, (%rdi) nop inc %r15 // REPMOV lea addresses_PSE+0x1db40, %rsi mov $0x940, %rdi inc %rax mov $103, %rcx rep movsq nop nop sub %r14, %r14 // Store mov $0x7c0a560000000540, %rsi add %rdx, %rdx mov $0x5152535455565758, %rcx movq %rcx, (%rsi) nop nop nop xor $30198, %r14 // Store lea addresses_PSE+0x11b40, %rdi nop nop and $4497, %r15 movb $0x51, (%rdi) nop nop sub $41651, %r14 // Store mov $0x72b0f50000000e80, %r14 nop nop nop and $4909, %r15 mov $0x5152535455565758, %rax movq %rax, (%r14) nop nop nop nop nop cmp $56465, %rsi // REPMOV lea addresses_normal+0x18b40, %rsi lea addresses_normal+0xce57, %rdi clflush (%rdi) nop nop nop nop nop and $61166, %rdx mov $16, %rcx rep movsw nop nop nop sub $5893, %rax // REPMOV lea addresses_US+0x15940, %rsi lea addresses_RW+0x5140, %rdi nop nop nop nop add %r14, %r14 mov $92, %rcx rep movsw nop xor %rax, %rax // Store lea addresses_PSE+0x11b40, %rax clflush (%rax) nop nop nop dec %r15 mov $0x5152535455565758, %rdx movq %rdx, (%rax) sub %rax, %rax // Store lea addresses_D+0x1f40, %rcx nop nop nop dec %rdx movw $0x5152, (%rcx) sub $60506, %rcx // Store lea addresses_US+0x18f40, %rax nop and $482, %r15 mov $0x5152535455565758, %rsi movq %rsi, (%rax) nop sub $58216, %rdx // Store mov $0x940, %r15 nop nop nop nop dec %rax movl $0x51525354, (%r15) nop sub $61940, %rdx // Load lea addresses_US+0xf470, %rsi nop nop nop cmp $31803, %rdx vmovups (%rsi), %ymm4 vextracti128 $1, %ymm4, %xmm4 vpextrq $0, %xmm4, %rax nop nop nop nop xor %r14, %r14 // Store mov $0x487, %r14 nop nop nop cmp $5220, %r15 mov $0x5152535455565758, %rdi movq %rdi, %xmm4 movups %xmm4, (%r14) nop nop nop dec %rcx // Store lea addresses_D+0x7340, %r15 sub $52718, %rax movw $0x5152, (%r15) nop nop nop nop nop cmp $20314, %r14 // Faulty Load lea addresses_PSE+0x11b40, %rdi nop nop nop xor %rcx, %rcx mov (%rdi), %rsi lea oracles, %rsi and $0xff, %rsi shlq $12, %rsi mov (%rsi,%rsi,1), %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r15 pop %r14 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_PSE', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 9}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'AVXalign': False, 'size': 32, 'NT': False, 'same': False, 'congruent': 2}} {'src': {'type': 'addresses_PSE', 'congruent': 11, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_P', 'congruent': 9, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 7}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'AVXalign': False, 'size': 1, 'NT': False, 'same': True, 'congruent': 0}} {'OP': 'STOR', 'dst': {'type': 'addresses_NC', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 6}} {'src': {'type': 'addresses_normal', 'congruent': 11, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_normal', 'congruent': 0, 'same': False}} {'src': {'type': 'addresses_US', 'congruent': 9, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_RW', 'congruent': 9, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'AVXalign': False, 'size': 8, 'NT': False, 'same': True, 'congruent': 0}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'AVXalign': False, 'size': 2, 'NT': False, 'same': True, 'congruent': 9}} {'OP': 'STOR', 'dst': {'type': 'addresses_US', 'AVXalign': False, 'size': 8, 'NT': True, 'same': False, 'congruent': 10}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'size': 4, 'NT': False, 'same': False, 'congruent': 8}} {'src': {'type': 'addresses_US', 'AVXalign': False, 'size': 32, 'NT': False, 'same': False, 'congruent': 4}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 0}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 10}} [Faulty Load] {'src': {'type': 'addresses_PSE', 'AVXalign': False, 'size': 8, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 3}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 4}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 11}} {'src': {'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 5}, 'OP': 'LOAD'} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 32, 'NT': False, 'same': False, 'congruent': 3}, 'OP': 'LOAD'} {'f6': 1} f6 */
19.919463
151
0.638646
7005e56081dc77dc0f03dd8dd479ea9c0b800841
67
asm
Assembly
libsrc/nc100/mcsetprinter.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/nc100/mcsetprinter.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
libsrc/nc100/mcsetprinter.asm
meesokim/z88dk
5763c7778f19a71d936b3200374059d267066bb2
[ "ClArtistic" ]
null
null
null
PUBLIC mcsetprinter ; Fastcall .mcsetprinter ld a, l jp 0xb857
13.4
21
0.746269
271268666c44e23b49f65aabad3896111cf6c8f1
2,281
asm
Assembly
fibonacci.asm
LSantos06/MIPS2
1e5f2a00a4aa8aa0933375c7880b88ac227f53f3
[ "MIT" ]
null
null
null
fibonacci.asm
LSantos06/MIPS2
1e5f2a00a4aa8aa0933375c7880b88ac227f53f3
[ "MIT" ]
null
null
null
fibonacci.asm
LSantos06/MIPS2
1e5f2a00a4aa8aa0933375c7880b88ac227f53f3
[ "MIT" ]
null
null
null
# Compute first twelve Fibonacci numbers and put in array, then print .data fibs: .word 0 : 12 # "array" of 12 words to contain fib values size: .word 12 # size of "array" space: .asciiz " " # space to insert between numbers head: .asciiz "The Fibonacci numbers are:\n" .text la $t0, fibs # load address of array la $t5, size # load address of size variable lw $t5, 0($t5) # load array size li $t2, 1 # 1 is first and second Fib. number sw $t2, 0($t0) # F[0] = 1 sw $t2, 4($t0) # F[1] = F[0] = 1 addi $t1, $t5, -2 # Counter for loop, will execute (size-2) times loop: lw $t3, 0($t0) # Get value from array F[n] lw $t4, 4($t0) # Get value from array F[n+1] add $t2, $t3, $t4 # $t2 = F[n] + F[n+1] sw $t2, 8($t0) # Store F[n+2] = F[n] + F[n+1] in array addi $t0, $t0, 4 # increment address of Fib. number source addi $t1, $t1, -1 # decrement loop counter bgtz $t1, loop # repeat if not finished yet. la $a0, fibs # first argument for print (array) add $a1, $zero, $t5 # second argument for print (size) jal print # call print routine. li $v0, 10 # system call for exit syscall # we are out of here. print: add $t0, $zero, $a0 # starting address of array add $t1, $zero, $a1 # initialize loop counter to array size la $a0, head # load address of print heading li $v0, 4 # specify Print String service syscall # print heading out: lw $a0, 0($t0) # load fibonacci number for syscall li $v0, 1 # specify Print Integer service syscall # print fibonacci number la $a0, space # load address of spacer for syscall li $v0, 4 # specify Print String service syscall # output string addi $t0, $t0, 4 # increment address addi $t1, $t1, -1 # decrement loop counter bgtz $t1, out # repeat if not finished jr $ra # return
46.55102
77
0.506795
93441268d64a2315ba02389c16918b97267ddd3b
322
asm
Assembly
libsrc/stdio/sc3000/fgetc_cons.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
640
2017-01-14T23:33:45.000Z
2022-03-30T11:28:42.000Z
libsrc/stdio/sc3000/fgetc_cons.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
1,600
2017-01-15T16:12:02.000Z
2022-03-31T12:11:12.000Z
libsrc/stdio/sc3000/fgetc_cons.asm
jpoikela/z88dk
7108b2d7e3a98a77de99b30c9a7c9199da9c75cb
[ "ClArtistic" ]
215
2017-01-17T10:43:03.000Z
2022-03-23T17:25:02.000Z
; ; SEGA SC-3000 C Library ; ; getkey() Wait for keypress ; ; $Id: fgetc_cons.asm,v 1.3 2016-06-12 17:32:01 dom Exp $ ; SECTION code_clib PUBLIC fgetc_cons PUBLIC _fgetc_cons .fgetc_cons ._fgetc_cons call $42D4 IF STANDARDESCAPECHARS cp 13 jr nz,not_return ld a,10 .not_return ENDIF ld l,a ld h,0 ret
12.88
57
0.698758
538cb8b5c754cfd7616204109b069dd8eb7d454b
504
asm
Assembly
basic/14_array/array.asm
bellshade/Assembly
94e1ab38f9f217b414cf1d19f9c52c052b7ec2e0
[ "MIT" ]
6
2021-11-12T14:13:57.000Z
2022-02-18T08:24:42.000Z
basic/14_array/array.asm
AdityaFitrianaNS/Assembly
c412279c8042300e77ec862c13e19f0c1cdf71af
[ "MIT" ]
2
2021-11-22T00:50:03.000Z
2021-11-24T01:14:24.000Z
basic/14_array/array.asm
AdityaFitrianaNS/Assembly
c412279c8042300e77ec862c13e19f0c1cdf71af
[ "MIT" ]
4
2021-11-22T00:18:36.000Z
2022-03-22T06:35:31.000Z
section .text global _start _start: mov eax, 3 mov ebx, 3 mov ecx, x top: add ebx, [ecx] add ecx 1 ; pindah pointer ke elemen berikutnya dec eax eax jnz top ; jika counternya tidak 0 maka looping lagi done: add ebx, '0' mov [sum], ebx ; hasil semua disimpan dalam sum display: mov edx, 1 mov ecx, sum mov ebx, 1 mob eax, 4 int 0x80 section .data global x x: db 2 db 4 db 3 sum: db 0
13.621622
56
0.543651
c5b4024500fe7e47517e39d211f53b4772869141
616
asm
Assembly
oeis/061/A061550.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/061/A061550.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/061/A061550.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A061550: a(n) = (2n+1)*(2n+3)*(2n+5). ; 15,105,315,693,1287,2145,3315,4845,6783,9177,12075,15525,19575,24273,29667,35805,42735,50505,59163,68757,79335,90945,103635,117453,132447,148665,166155,184965,205143,226737,249795,274365,300495,328233,357627,388725,421575,456225,492723,531117,571455,613785,658155,704613,753207,803985,856995,912285,969903,1029897,1092315,1157205,1224615,1294593,1367187,1442445,1520415,1601145,1684683,1771077,1860375,1952625,2047875,2146173,2247567,2352105,2459835,2570805,2685063,2802657,2923635,3048045,3175935 add $0,2 mov $1,$0 mul $0,2 bin $0,3 sub $0,$1 sub $0,2 mul $0,6 add $0,15
51.333333
499
0.785714
6259aa08b5873cf91d60353e582b51f196fdef8b
764
asm
Assembly
oeis/228/A228679.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
11
2021-08-22T19:44:55.000Z
2022-03-20T16:47:57.000Z
oeis/228/A228679.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
9
2021-08-29T13:15:54.000Z
2022-03-09T19:52:31.000Z
oeis/228/A228679.asm
neoneye/loda-programs
84790877f8e6c2e821b183d2e334d612045d29c0
[ "Apache-2.0" ]
3
2021-08-22T20:56:47.000Z
2021-09-29T06:26:12.000Z
; A228679: Number of nX4 binary arrays with no two ones adjacent horizontally, diagonally or antidiagonally. ; Submitted by Christian Krause ; 8,40,216,1152,6160,32928,176032,941056,5030848,26894720,143778176,768632832,4109082880,21967006208,117434808832,627802177536,3356207397888,17942161561600,95918137153536,512774840614912,2741275476889600,14654758082879488,78343798818578432,418823072930594816,2239012775283376128,11969680115290439680,63989470557731127296,342085360913538875392,1828775783443447480320,9776568214371758112768,52265174832035342712832,279407706295920960208896,1493703342396481010925568,7985283243130761403432960 mov $2,8 mov $4,1 lpb $0 sub $0,1 mov $3,$1 mul $4,2 add $4,$1 add $2,$4 mov $1,$2 sub $1,$3 mul $2,4 lpe mov $0,$2
42.444444
489
0.825916
afa8bb3a6e2fe5e39da1344c613f2d9e77a40c1f
7,605
asm
Assembly
MainControl2.0.0027/uCOS-CPU/cpu_a.asm
seekdeath/Autosample
1b514c04dd1af0a17cf15f8c906eb815687e8fc5
[ "Unlicense" ]
null
null
null
MainControl2.0.0027/uCOS-CPU/cpu_a.asm
seekdeath/Autosample
1b514c04dd1af0a17cf15f8c906eb815687e8fc5
[ "Unlicense" ]
null
null
null
MainControl2.0.0027/uCOS-CPU/cpu_a.asm
seekdeath/Autosample
1b514c04dd1af0a17cf15f8c906eb815687e8fc5
[ "Unlicense" ]
null
null
null
;******************************************************************************************************** ; uC/CPU ; CPU CONFIGURATION & PORT LAYER ; ; (c) Copyright 2004-2008; Micrium, Inc.; Weston, FL ; ; All rights reserved. Protected by international copyright laws. ; ; uC/CPU is provided in source form for FREE evaluation, for educational ; use or peaceful research. If you plan on using uC/CPU in a commercial ; product you need to contact Micrium to properly license its use in your ; product. We provide ALL the source code for your convenience and to ; help you experience uC/CPU. The fact that the source code is provided ; does NOT mean that you can use it without paying a licensing fee. ; ; Knowledge of the source code may NOT be used to develop a similar product. ; ; Please help us continue to provide the Embedded community with the finest ; software available. Your honesty is greatly appreciated. ;******************************************************************************************************** ;******************************************************************************************************** ; ; CPU PORT FILE ; ; ARM-Cortex-M3 ; IAR C Compiler ; ; Filename : cpu_a.asm ; Version : V1.19 ; Programmer(s) : JJL ;******************************************************************************************************** ;******************************************************************************************************** ; PUBLIC FUNCTIONS ;******************************************************************************************************** PUBLIC CPU_IntDis PUBLIC CPU_IntEn PUBLIC CPU_SR_Save PUBLIC CPU_SR_Restore PUBLIC CPU_CntLeadZeros PUBLIC CPU_RevBits PUBLIC CPU_WaitForInt PUBLIC CPU_WaitForExcept ;******************************************************************************************************** ; CODE GENERATION DIRECTIVES ;******************************************************************************************************** RSEG CODE:CODE:NOROOT(2) ;$PAGE ;******************************************************************************************************** ; DISABLE and ENABLE INTERRUPTS ; ; Description: Disable/Enable interrupts. ; ; Prototypes : void CPU_IntDis(void); ; void CPU_IntEn (void); ;******************************************************************************************************** CPU_IntDis CPSID I BX LR CPU_IntEn CPSIE I BX LR ;******************************************************************************************************** ; CRITICAL SECTION FUNCTIONS ; ; Description : Disable/Enable interrupts by preserving the state of interrupts. Generally speaking, the ; state of the interrupt disable flag is stored in the local variable 'cpu_sr' & interrupts ; are then disabled ('cpu_sr' is allocated in all functions that need to disable interrupts). ; The previous interrupt state is restored by copying 'cpu_sr' into the CPU's status register. ; ; Prototypes : CPU_SR CPU_SR_Save (void); ; void CPU_SR_Restore(CPU_SR cpu_sr); ; ; Note(s) : (1) These functions are used in general like this: ; ; void Task (void *p_arg) ; { ; /* Allocate storage for CPU status register */ ; #if (CPU_CFG_CRITICAL_METHOD == CPU_CRITICAL_METHOD_STATUS_LOCAL) ; CPU_SR cpu_sr; ; #endif ; ; : ; : ; CPU_CRITICAL_ENTER(); /* cpu_sr = CPU_SR_Save(); */ ; : ; : ; CPU_CRITICAL_EXIT(); /* CPU_SR_Restore(cpu_sr); */ ; : ; : ; } ;******************************************************************************************************** CPU_SR_Save MRS R0, PRIMASK ; Set prio int mask to mask all (except faults) CPSID I BX LR CPU_SR_Restore ; See Note #2. MSR PRIMASK, R0 BX LR ;$PAGE ;******************************************************************************************************** ; COUNT LEADING ZEROS ; ; Description : Counts the number of binary zero bits before the first binary one bit in the argument. ; If the argument is zero, the value 32 is returned. ; ; Prototypes : CPU_INT32U CPU_CntLeadZeros (CPU_INT32U val) ; ; Argument(s) : val variable to count leading zeros ;******************************************************************************************************** CPU_CntLeadZeros: CLZ R0, R0 ; Count leading zeros BX LR ;******************************************************************************************************** ; REVERSE BITS ; ; Description : Reverses the bits in the argument. ; ; Prototypes : CPU_INT32U CPU_RevBits (CPU_INT32U val) ; ; Argument(s) : val variable to reverse ;******************************************************************************************************** CPU_RevBits: RBIT R0, R0 ; Reverse bits BX LR ;$PAGE ;******************************************************************************************************** ; WAIT FOR INTERRUPT ; ; Description : Enters sleep state, which will be exited when an interrupt is received. ; ; Prototypes : void CPU_WaitForInt (void) ; ; Argument(s) : none. ;******************************************************************************************************** CPU_WaitForInt: WFI ; Wait for interrupt BX LR ;******************************************************************************************************** ; WAIT FOR EXCEPTION ; ; Description : Enters sleep state, which will be exited when an exception is received. ; ; Prototypes : void CPU_WaitForExcept (void) ; ; Argument(s) : none. ;******************************************************************************************************** CPU_WaitForExcept: WFE ; Wait for exception BX LR ;$PAGE ;******************************************************************************************************** ; CPU ASSEMBLY PORT FILE END ;******************************************************************************************************** END
39.609375
110
0.341617
202eaa91d40ce8e45ba818b098a6cbb2ec8ce503
2,767
asm
Assembly
Blatt3/hauptprogramm.asm
Ruhrpottpatriot/Rechnerorganisation
9f38dc40270b1b85a1a6311702d0205e92b2676f
[ "MIT" ]
null
null
null
Blatt3/hauptprogramm.asm
Ruhrpottpatriot/Rechnerorganisation
9f38dc40270b1b85a1a6311702d0205e92b2676f
[ "MIT" ]
null
null
null
Blatt3/hauptprogramm.asm
Ruhrpottpatriot/Rechnerorganisation
9f38dc40270b1b85a1a6311702d0205e92b2676f
[ "MIT" ]
null
null
null
.text .globl main main: addiu $sp, $sp, -4 # reserve stack space for 1 register sw $ra, 0($sp) # save return address on stack move $fp, $sp # set $fp = $sp li $a0, 62 # set $a0 = '>' (ASCII char) li $v0, 11 # set $v0 = index of system call "print_char" syscall # print on console: '>' li $v0, 5 # set $v0 = index of system call "read_int" syscall # read integer value n from console bgtz $v0, validn # goto validn if n > 0 li $v0, 1 # enforce n > 0 validn: li $t1, 4 # set $t1 = 4 mul $t1, $t1, $v0 # set $t1 = 4 * n subu $sp, $sp, $t1 # reserve stack space for vector V move $a0, $v0 # set $a0 = n move $a1, $sp # set $a1 = address of vector V jal algorithm # call algorithm(n, V) move $t0, $sp # set $t0 = address of vector V output: lw $a0, 0($t0) # set $a0 = value of current vector element li $v0, 1 # set $v0 = index of system call "print_int" syscall # print on console: value of current vector element addiu $t0, $t0, 4 # set $t0 = $t0 + 4 beq $t0, $fp, endln # goto "endln" if end of vector reached li $a0, 44 # set $a0 = ',' (ASCII char) li $v0, 11 # set $v0 = index of system call "print_char" syscall # print on console: ',' j output # continue output endln: li $a0, 13 # set $a0 = CR (ASCII char) li $v0, 11 # set $v0 = index of system call "print_char" syscall # print on console: CR finish: # program execution finished lw $ra, 0($fp) # restore return address from stack addiu $sp, $fp, 4 # release reserved stack space jr $ra # return to operating system algorithm: ############################################################################### # Insert your code here! # ############################################################################### li $t0, 0 # $t0 = 0 loop: bge $t0, $a0, end # Break condition (i >= n) sll $t1, $t0, 2 # Calculate address offset with left-logocal shift add $t1, $t1, $a1 # Calculate array element address addi $t2, $t0, 1 # Add 1 to element value, since we mustn't start at 0 :(((((( sw $t2, 0($t1) # Write element addi $t0, $t0, 1 # $t0 = $t0 + 1 j loop # jump to loop end: jr $ra # return to main program
47.706897
86
0.447416