Datasets:

devngho

/

the-stack-mini-nonshuffled

like 0

3a7ff00f2df847ac9c37afa81dea24afa8736a61

asm

Assembly

libsrc/strings/rindex.asm

grancier/z180

e83f35e36c9b4d1457e40585019430e901c86ed9

2017-01-18T12:02:17.000Z

2021-06-12T09:40:28.000Z

libsrc/strings/rindex.asm

grancier/z180

e83f35e36c9b4d1457e40585019430e901c86ed9

2017-03-06T07:41:56.000Z

2017-03-06T07:41:56.000Z

libsrc/strings/rindex.asm

RC2014Z80/z88dk

e5b9447b970e5fae26544b6d8aa5957c98ba0e6a

2017-03-07T03:19:40.000Z

2021-09-15T17:59:19.000Z

; CALLER linkage for function pointers SECTION code_clib PUBLIC rindex PUBLIC _rindex EXTERN strrchr_callee EXTERN ASMDISP_STRRCHR_CALLEE .rindex ._rindex pop hl pop bc pop de push de push bc push hl jp strrchr_callee + ASMDISP_STRRCHR_CALLEE

d76dca06c9026aab14553230eaba741d6c854c9b

asm

Assembly

oeis/176/A176213.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/176/A176213.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/176/A176213.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A176213: Decimal expansion of 2+sqrt(6). ; Submitted by Jon Maiga ; 4,4,4,9,4,8,9,7,4,2,7,8,3,1,7,8,0,9,8,1,9,7,2,8,4,0,7,4,7,0,5,8,9,1,3,9,1,9,6,5,9,4,7,4,8,0,6,5,6,6,7,0,1,2,8,4,3,2,6,9,2,5,6,7,2,5,0,9,6,0,3,7,7,4,5,7,3,1,5,0,2,6,5,3,9,8,5,9,4,3,3,1,0,4,6,4,0,2,3,4 mov $2,4 mov $3,$0 mul $3,4 mov $5,56 lpb $3 add $1,$5 mov $5,$1 add $5,$2 mov $2,$1 mul $1,2 sub $3,1 mul $5,2 lpe add $1,$5 mov $4,10 pow $4,$0 div $2,$4 div $1,$2 mov $0,$1 mod $0,10

900b0d26e496e01e442a6f0421212991ad19fd39

asm

Assembly

oeis/141/A141974.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/141/A141974.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/141/A141974.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A141974: Primes congruent to 23 mod 28. ; Submitted by Jon Maiga ; 23,79,107,163,191,331,359,443,499,751,863,919,947,1031,1087,1171,1283,1367,1423,1451,1619,1759,1787,1871,2011,2039,2179,2207,2347,2459,2543,2683,2711,2767,2851,2879,2963,3019,3187,3271,3299,3467,3607,3691,3719,3803,3943,4027,4111,4139,4363,4391,4447,4643,4783,4951,5119,5147,5231,5399,5483,5623,5651,5791,5903,5987,6043,6211,6323,6379,6491,6547,6659,6827,6883,6911,6967,7079,7219,7247,7331,7499,7583,7639,7723,7919,8059,8087,8171,8311,8423,8563,8647,8731,9011,9067,9151,9319,9403,9431 mov $2,$0 add $2,6 pow $2,2 mov $4,22 lpb $2 mov $3,$4 seq $3,10051 ; Characteristic function of primes: 1 if n is prime, else 0. sub $0,$3 mov $1,$0 max $1,0 cmp $1,$0 mul $2,$1 sub $2,1 add $4,28 lpe mov $0,$4 add $0,1

2f27f192ea51831ed5cbaec6059195d389b87cf9

asm

Assembly

buildTools/win32-x64/gbdk/libc/reverse.asm

asiekierka/gb-studio

0ff8b7c5bd661a13c2b574e844ae7f2299b439e2

2019-04-17T14:58:27.000Z

2022-03-31T08:41:22.000Z

buildTools/win32-x64/gbdk/libc/reverse.asm

asiekierka/gb-studio

0ff8b7c5bd661a13c2b574e844ae7f2299b439e2

2019-04-18T18:57:48.000Z

2022-03-31T19:42:20.000Z

buildTools/win32-x64/gbdk/libc/reverse.asm

asiekierka/gb-studio

0ff8b7c5bd661a13c2b574e844ae7f2299b439e2

2019-04-18T18:10:50.000Z

2022-03-31T21:30:57.000Z

;-------------------------------------------------------- ; File Created by SDCC : FreeWare ANSI-C Compiler ; Version 2.3.1 Wed Sep 04 21:56:18 2019 ;-------------------------------------------------------- .module reverse ;-------------------------------------------------------- ; Public variables in this module ;-------------------------------------------------------- .globl _reverse ;-------------------------------------------------------- ; special function registers ;-------------------------------------------------------- ;-------------------------------------------------------- ; special function bits ;-------------------------------------------------------- ;-------------------------------------------------------- ; internal ram data ;-------------------------------------------------------- .area _DATA ;-------------------------------------------------------- ; overlayable items in internal ram ;-------------------------------------------------------- .area _OVERLAY ;-------------------------------------------------------- ; indirectly addressable internal ram data ;-------------------------------------------------------- .area _ISEG ;-------------------------------------------------------- ; bit data ;-------------------------------------------------------- .area _BSEG ;-------------------------------------------------------- ; external ram data ;-------------------------------------------------------- .area _XSEG ;-------------------------------------------------------- ; global & static initialisations ;-------------------------------------------------------- .area _GSINIT .area _GSFINAL .area _GSINIT ;-------------------------------------------------------- ; Home ;-------------------------------------------------------- .area _HOME .area _CODE ;-------------------------------------------------------- ; code ;-------------------------------------------------------- .area _CODE ; reverse.c 5 ; genLabel ; genFunction ; --------------------------------- ; Function reverse ; --------------------------------- ___reverse_start: _reverse: lda sp,-5(sp) ; reverse.c 11 ; genIpush ; _saveRegsForCall: sendSetSize: 0 deInUse: 0 bcInUse: 0 deSending: 0 ; AOP_STK for lda hl,7(sp) ld a,(hl+) ld h,(hl) ld l,a push hl ; genCall call _strlen ld b,d ld c,e lda sp,2(sp) ; genMinus dec bc ; genCast ; Removed redundent load ; reverse.c 12 ; genAssign ; AOP_STK for _reverse_i_1_1 lda hl,4(sp) ld (hl),#0x00 ; genAssign ; AOP_STK for _reverse_j_1_1 dec hl ld (hl),c ; genLabel 00101$: ; genCmpLt ; AOP_STK for _reverse_i_1_1 ; AOP_STK for _reverse_j_1_1 lda hl,4(sp) ld a,(hl) dec hl sub a,(hl) jp nc,00103$ ; reverse.c 13 ; genPlus ; AOP_STK for ; AOP_STK for _reverse_i_1_1 ; AOP_STK for _reverse_sloc0_1_0 ; Can't optimise plus by inc, falling back to the normal way lda hl,7(sp) ld e,(hl) inc hl ld d,(hl) lda hl,4(sp) ld l,(hl) ld h,#0x00 add hl,de ld a,l ld d,h lda hl,0(sp) ; genPointerGet ; AOP_STK for _reverse_sloc0_1_0 ld (hl+),a ld (hl),d ld e,a ld a,(de) ld c,a ; genAssign ; AOP_STK for _reverse_c_1_1 inc hl ld (hl),c ; reverse.c 14 ; genPlus ; AOP_STK for ; AOP_STK for _reverse_j_1_1 ; Can't optimise plus by inc, falling back to the normal way lda hl,7(sp) ld e,(hl) inc hl ld d,(hl) lda hl,3(sp) ld l,(hl) ld h,#0x00 add hl,de ld c,l ld b,h ; genPointerGet ld a,(bc) ; genAssign (pointer) ; AOP_STK for _reverse_sloc0_1_0 lda hl,0(sp) ld e,(hl) inc hl ld d,(hl) ld (de),a ; reverse.c 15 ; genAssign (pointer) ; AOP_STK for _reverse_c_1_1 inc hl ld a,(hl) ld (bc),a ; reverse.c 16 ; genPlus ; AOP_STK for _reverse_i_1_1 ; genPlusIncr inc hl inc hl inc (hl) ; reverse.c 17 ; genMinus ; AOP_STK for _reverse_j_1_1 dec hl dec (hl) ; genGoto jp 00101$ ; genLabel 00103$: ; reverse.c 19 ; genRet ; AOP_STK for lda hl,7(sp) ld e,(hl) inc hl ld d,(hl) ; genLabel 00104$: ; genEndFunction lda sp,5(sp) ret ___reverse_end: .area _CODE

bfebca80ad9e33117cd51d822b17c4b5c5d04c0c

asm

Assembly

mc-sema/validator/x86_64/tests/FBLD.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

2021-08-07T16:21:29.000Z

2021-11-17T10:58:37.000Z

mc-sema/validator/x86_64/tests/FBLD.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

mc-sema/validator/x86_64/tests/FBLD.asm

randolphwong/mcsema

eb5b376736e7f57ff0a61f7e4e5a436bbb874720

BITS 64 ;TEST_FILE_META_BEGIN ;TEST_TYPE=TEST_F ;TEST_IGNOREFLAGS= ;TEST_FILE_META_END ;TEST_BEGIN_RECORDING lea rdi, [rsp-0x10] mov dword [rdi], 0x12345678 mov dword [rdi+04], 0x12345678 mov dword [rdi+08], 0x00001234 FBLD tword [rdi] mov edi, 0 ;TEST_END_RECORDING

9086dea7203608990e748357372925eb4a1a50c3

asm

Assembly

libsrc/gfx/common/cclg.asm

ahjelm/z88dk

c4de367f39a76b41f6390ceeab77737e148178fa

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/gfx/common/cclg.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/gfx/common/cclg.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; ; Colour graphics routines ; ; cls () -- clear screen ; ; Stefano Bodrato - 2018 ; ; ; $Id: cclg.asm $ ; SECTION code_graphics PUBLIC cclg PUBLIC _cclg EXTERN clg .cclg ._cclg jp clg

d34da9eeaa98d55ffc4e50b97e9fd9dcce4db933

asm

Assembly

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2908.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2908.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2908.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r13 push %rbp push %rcx push %rdi push %rdx push %rsi lea addresses_UC_ht+0xfc17, %rsi lea addresses_normal_ht+0x16e2f, %rdi nop nop nop nop dec %r10 mov $1, %rcx rep movsw mfence lea addresses_D_ht+0x129ff, %rdx sub $32043, %r13 mov (%rdx), %rcx nop nop nop nop nop inc %rsi lea addresses_normal_ht+0x14e7f, %rdx nop nop nop nop add %r10, %r10 movb $0x61, (%rdx) nop nop dec %rcx lea addresses_WC_ht+0x12f2b, %rdx nop nop nop xor %rdi, %rdi movw $0x6162, (%rdx) nop nop nop nop sub $30459, %rbp pop %rsi pop %rdx pop %rdi pop %rcx pop %rbp pop %r13 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %rax push %rbp push %rdx push %rsi // Store lea addresses_normal+0x1d67f, %r11 clflush (%r11) nop nop dec %r10 movl $0x51525354, (%r11) nop nop nop cmp $48320, %rax // Faulty Load lea addresses_RW+0xa67f, %rdx nop nop nop nop add $24736, %rbp movups (%rdx), %xmm1 vpextrq $0, %xmm1, %rax lea oracles, %rdx and $0xff, %rax shlq $12, %rax mov (%rdx,%rax,1), %rax pop %rsi pop %rdx pop %rbp pop %rax pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'AVXalign': False, 'congruent': 10, 'size': 4, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 3, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 4, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 11, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 2, 'size': 2, 'same': True, 'NT': True}} {'32': 21829} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */

f90db332e1912816e7b2d946adc741dbd4795343

asm

Assembly

Testcases/Own Testcases/sum_sq/sum_sq20.asm

swapnil96/Cache_simulator

df7b0dd6132e45660ef2731fa4ec722fd7dab2c6

Testcases/Own Testcases/sum_sq/sum_sq20.asm

swapnil96/Cache_simulator

df7b0dd6132e45660ef2731fa4ec722fd7dab2c6

Testcases/Own Testcases/sum_sq/sum_sq20.asm

swapnil96/Cache_simulator

df7b0dd6132e45660ef2731fa4ec722fd7dab2c6

lui $1, 0x00000000 ori $t4,$1,0x00000014 # t4(Input register) is initialized to 10. and $t0, $0, $0 # i = 0 lui $1, 0x00001001 # Address of a ori $t1,$1,0x00000010 loop1: sll $t2, $t0, 2 # byte offset for ith element add $t2, $t2, $t1 # address of a[i] sw $t0, 0($t2) # put i into a[i] addi $t0, $t0, 1 # increment i slt $t5, $t0, $t4 # is $t0 < $t4 ? bne $t5, $0, loop1 # branch if so # Sum the array values and $s0, $0, $0 # sum = 0, Result Register and $t0, $0, $0 # i = 0 add $t2, $t1, $0 # address of a[i] loop2: lw $t3, 0($t2) # load a[i] mult $t3, $t3 # multiply a[i] with a[i] mflo $t3 # move product to $t3 add $s0, $s0, $t3 # increment sum addi $t0, $t0, 1 # increment i addi $t2, $t2, 4 # increment address of a[i] slt $t5, $t0, $t4 # is $t0 < $t4 ? bne $t5, $0, loop2 # branch if so # Output Sum li $v0, 1 # Load 1=print_int into $v0 add $a0, $s0, $zero # Load first number into $a0 jr $ra

0cedde06287f35085eb8846a6b7a35c69fa2ed1f

asm

Assembly

src/test/ref/examples/cx16/cx16-rasterbars.asm

jbrandwood/kickc

d4b68806f84f8650d51b0e3ef254e40f38b0ffad

2022-03-01T02:21:14.000Z

2022-03-01T04:33:35.000Z

src/test/ref/examples/cx16/cx16-rasterbars.asm

jbrandwood/kickc

d4b68806f84f8650d51b0e3ef254e40f38b0ffad

src/test/ref/examples/cx16/cx16-rasterbars.asm

jbrandwood/kickc

d4b68806f84f8650d51b0e3ef254e40f38b0ffad

// Example program for the Commander X16 // Displays raster bars in the border .cpu _65c02 // Commodore 64 PRG executable file .file [name="cx16-rasterbars.prg", type="prg", segments="Program"] .segmentdef Program [segments="Basic, Code, Data"] .segmentdef Basic [start=$0801] .segmentdef Code [start=$80d] .segmentdef Data [startAfter="Code"] .segment Basic :BasicUpstart(__start) .const VERA_DCSEL = 2 .const VERA_LINE = 2 .const SIZEOF_CHAR = 1 /// $9F25 CTRL Control /// Bit 7: Reset /// Bit 1: DCSEL /// Bit 2: ADDRSEL .label VERA_CTRL = $9f25 /// $9F26 IEN Interrupt Enable /// Bit 7: IRQ line (8) /// Bit 3: AFLOW /// Bit 2: SPRCOL /// Bit 1: LINE /// Bit 0: VSYNC .label VERA_IEN = $9f26 /// $9F27 ISR Interrupt Status /// Interrupts will be generated for the interrupt sources set in the lower 4 bits of IEN. ISR will indicate the interrupts that have occurred. /// Writing a 1 to one of the lower 3 bits in ISR will clear that interrupt status. AFLOW can only be cleared by filling the audio FIFO for at least 1/4. /// Bit 4-7: Sprite Collisions. This field indicates which groups of sprites have collided. /// Bit 3: AFLOW /// Bit 2: SPRCOL /// Bit 1: LINE /// Bit 0: VSYNC .label VERA_ISR = $9f27 /// $9F28 IRQLINE_L IRQ line (7:0) /// IRQ_LINE specifies at which line the LINE interrupt will be generated. /// Note that bit 8 of this value is present in the IEN register. /// For interlaced modes the interrupt will be generated each field and the bit 0 of IRQ_LINE is ignored. .label VERA_IRQLINE_L = $9f28 /// $9F2C DC_BORDER (DCSEL=0) Border Color .label VERA_DC_BORDER = $9f2c /// $9F29 DC_HSTART (DCSEL=1) Active Display H-Start (9:2) .label VERA_DC_HSTART = $9f29 /// $9F2A DC_HSTOP (DCSEL=1) Active Display H-Stop (9:2) .label VERA_DC_HSTOP = $9f2a /// $9F2B DC_VSTART (DCSEL=1) Active Display V-Start (8:1) .label VERA_DC_VSTART = $9f2b /// $9F2C DC_VSTOP (DCSEL=1) Active Display V-Stop (8:1) .label VERA_DC_VSTOP = $9f2c /// $0314 (RAM) IRQ vector - The vector used when the KERNAL serves IRQ interrupts .label KERNEL_IRQ = $314 // The horizontal start .label hstart = 6 // The horizontal stop .label hstop = 7 // The vertical start .label vstart = 8 // The vertical stop .label vstop = 9 // The countdown .label cnt = 5 // The sin idx .label sin_idx = $a .segment Code __start: { // volatile char hstart = 0/4 lda #0 sta.z hstart // volatile char hstop = 640/4 lda #$280/4 sta.z hstop // volatile char vstart = 0/2 lda #0 sta.z vstart // volatile char vstop = 480/2 lda #$1e0/2 sta.z vstop // volatile char cnt = 2 lda #2 sta.z cnt // volatile char sin_idx = 100 lda #$64 sta.z sin_idx jsr main rts } // LINE Interrupt Routine irq_line: { .label idx = 4 .label bar = 2 // *VERA_CTRL |= VERA_DCSEL // Update the border lda #VERA_DCSEL ora VERA_CTRL sta VERA_CTRL // *VERA_DC_HSTART = hstart lda.z hstart sta VERA_DC_HSTART // *VERA_DC_HSTOP = hstop lda.z hstop sta VERA_DC_HSTOP // *VERA_DC_VSTART = vstart lda.z vstart sta VERA_DC_VSTART // *VERA_DC_VSTOP = vstop lda.z vstop sta VERA_DC_VSTOP // *VERA_CTRL &= ~VERA_DCSEL // Show color raster bars in the border lda #VERA_DCSEL^$ff and VERA_CTRL sta VERA_CTRL ldx #0 __b2: // for(char l=0;l!=230;l++) cpx #$e6 bne __b3 // if(--cnt==0) dec.z cnt lda.z cnt bne __b1 // cnt = 2 lda #2 sta.z cnt // if(hstart<=320/4) lda.z hstart cmp #$140/4+1 bcs __b1 // hstart++; inc.z hstart // hstop--; dec.z hstop // vstart++; inc.z vstart // vstop--; dec.z vstop __b1: // memset(BARS, 0, sizeof(BARS)) // Animate the bars jsr memset // char idx = sin_idx-- lda.z sin_idx sta.z idx dec.z sin_idx ldx #0 __b13: // for(char b=0;b<8;b++) cpx #8 bcc __b14 // *VERA_ISR = VERA_LINE // Reset the LINE interrupt lda #VERA_LINE sta VERA_ISR // } jmp $e049 __b14: // char * bar = BARS + SIN[idx] ldy.z idx lda SIN,y clc adc #<BARS sta.z bar lda #>BARS adc #0 sta.z bar+1 ldy #0 __b16: // for(char i=0;i<sizeof(BAR);i++) cpy #$20*SIZEOF_CHAR bcc __b17 // idx += 13 lda #$d clc adc.z idx sta.z idx // for(char b=0;b<8;b++) inx jmp __b13 __b17: // bar[i] = BAR[i] lda BAR,y sta (bar),y // for(char i=0;i<sizeof(BAR);i++) iny jmp __b16 __b3: // *VERA_DC_BORDER = BARS[l] lda BARS,x sta VERA_DC_BORDER lda #0 __b5: // for(char i=0;i<24;i++) cmp #$18 bcc __b6 // *VERA_DC_BORDER = 0 // Wait exactly long enough to go to the next raster line lda #0 sta VERA_DC_BORDER __b8: // for(char i=0;i<23;i++) cmp #$17 bcc __b9 // asm // Wait exactly long enough to go to the next raster line nop nop // for(char l=0;l!=230;l++) inx jmp __b2 __b9: // for(char i=0;i<23;i++) inc jmp __b8 __b6: // for(char i=0;i<24;i++) inc jmp __b5 } main: { // asm sei // *KERNEL_IRQ = &irq_line lda #<irq_line sta KERNEL_IRQ lda #>irq_line sta KERNEL_IRQ+1 // *VERA_IEN = VERA_LINE lda #VERA_LINE sta VERA_IEN // *VERA_IRQLINE_L = 5 lda #5 sta VERA_IRQLINE_L // asm cli __b1: jmp __b1 } // Copies the character c (an unsigned char) to the first num characters of the object pointed to by the argument str. // void * memset(void *str, char c, unsigned int num) memset: { .const num = $e6*SIZEOF_CHAR .const c = 0 .label str = BARS .label end = str+num .label dst = 2 lda #<str sta.z dst lda #>str sta.z dst+1 __b1: // for(char* dst = str; dst!=end; dst++) lda.z dst+1 cmp #>end bne __b2 lda.z dst cmp #<end bne __b2 // } rts __b2: // *dst = c lda #c ldy #0 sta (dst),y // for(char* dst = str; dst!=end; dst++) inc.z dst bne !+ inc.z dst+1 !: jmp __b1 } .segment Data .align $100 SIN: .fill 256, 99+99*sin(i*2*PI/256) .align $100 BARS: .fill $e6, 0 .align $100 BAR: .byte $10, $11, $12, $13, $14, $15, $16, $17, $18, $19, $1a, $1b, $1c, $1d, $1e, $1f, $1f, $1e, $1d, $1c, $1b, $1a, $19, $18, $17, $16, $15, $14, $13, $12, $11, $10

8aa31d160c1801f247f038ae3fcdb58140c449c3

asm

Assembly

libsrc/_DEVELOPMENT/math/integer/small/l_small_divu_64_64x8.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/_DEVELOPMENT/math/integer/small/l_small_divu_64_64x8.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/_DEVELOPMENT/math/integer/small/l_small_divu_64_64x8.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; 2016 aralbrec SECTION code_clib SECTION code_math PUBLIC l_small_divu_64_64x8 PUBLIC l0_small_divu_64_64x8 EXTERN error_llmc, error_divide_by_zero_mc l_small_divu_64_64x8: ; unsigned division of a 64-bit number ; by an 8-bit number ; ; enter : dehl'dehl = 64-bit dividend ; c = 8-bit divisor ; ; exit : success ; ; dehl'dehl = 64-bit quotient ; a = remainder ; carry reset ; ; divide by zero ; ; dehl'dehl = ULLONG_MAX ; (dividend is lost) ; carry set, errno = EDOM ; ; uses : af, b, de, hl, de', hl' ld a,c or a jr z, divide_by_zero l0_small_divu_64_64x8: xor a ld b,64 loop_11: add hl,hl rl e rl d exx adc hl,hl rl e rl d exx rla jr c, loop_02 cp c jr c, loop_03 loop_02: sub c inc l loop_03: djnz loop_11 or a ret divide_by_zero: call error_llmc jp error_divide_by_zero_mc

5e586cf9a8d440f37d3ca53023b0fa6153a62496

asm

Assembly

oeis/102/A102370.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/102/A102370.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/102/A102370.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A102370: "Sloping binary numbers": write numbers in binary under each other (right-justified), read diagonals in upward direction, convert to decimal. ; Submitted by Christian Krause ; 0,3,6,5,4,15,10,9,8,11,14,13,28,23,18,17,16,19,22,21,20,31,26,25,24,27,30,61,44,39,34,33,32,35,38,37,36,47,42,41,40,43,46,45,60,55,50,49,48,51,54,53,52,63,58,57,56,59,126,93,76,71,66,65,64,67,70,69,68,79,74,73,72,75,78,77,92,87,82,81,80,83,86,85,84,95,90,89,88,91,94,125,108,103,98,97,96,99,102,101 add $0,1 mov $1,$0 mov $2,$0 mov $4,1 lpb $2 mul $4,2 mov $3,$4 mov $5,$0 add $0,1 mod $5,$4 cmp $5,0 mul $3,$5 add $1,$3 div $2,2 lpe mov $0,$1 sub $0,1

c5b4688b2e3e8b4ddf027cc1f70fb0b039041469

asm

Assembly

grep.asm

Tookerton21/Xv6_OS

ed9ab1648952b2f62e60db2ca8e6aa42e69bd340

grep.asm

Tookerton21/Xv6_OS

ed9ab1648952b2f62e60db2ca8e6aa42e69bd340

grep.asm

Tookerton21/Xv6_OS

ed9ab1648952b2f62e60db2ca8e6aa42e69bd340

_grep: file format elf32-i386 Disassembly of section .text: 00000000 <grep>: char buf[1024]; int match(char*, char*); void grep(char *pattern, int fd) { 0: 55 push %ebp 1: 89 e5 mov %esp,%ebp 3: 83 ec 18 sub $0x18,%esp int n, m; char *p, *q; m = 0; 6: c7 45 f4 00 00 00 00 movl $0x0,-0xc(%ebp) while((n = read(fd, buf+m, sizeof(buf)-m-1)) > 0){ d: e9 b6 00 00 00 jmp c8 <grep+0xc8> m += n; 12: 8b 45 ec mov -0x14(%ebp),%eax 15: 01 45 f4 add %eax,-0xc(%ebp) buf[m] = '\0'; 18: 8b 45 f4 mov -0xc(%ebp),%eax 1b: 05 80 0e 00 00 add $0xe80,%eax 20: c6 00 00 movb $0x0,(%eax) p = buf; 23: c7 45 f0 80 0e 00 00 movl $0xe80,-0x10(%ebp) while((q = strchr(p, '\n')) != 0){ 2a: eb 4a jmp 76 <grep+0x76> *q = 0; 2c: 8b 45 e8 mov -0x18(%ebp),%eax 2f: c6 00 00 movb $0x0,(%eax) if(match(pattern, p)){ 32: 83 ec 08 sub $0x8,%esp 35: ff 75 f0 pushl -0x10(%ebp) 38: ff 75 08 pushl 0x8(%ebp) 3b: e8 9a 01 00 00 call 1da <match> 40: 83 c4 10 add $0x10,%esp 43: 85 c0 test %eax,%eax 45: 74 26 je 6d <grep+0x6d> *q = '\n'; 47: 8b 45 e8 mov -0x18(%ebp),%eax 4a: c6 00 0a movb $0xa,(%eax) write(1, p, q+1 - p); 4d: 8b 45 e8 mov -0x18(%ebp),%eax 50: 83 c0 01 add $0x1,%eax 53: 89 c2 mov %eax,%edx 55: 8b 45 f0 mov -0x10(%ebp),%eax 58: 29 c2 sub %eax,%edx 5a: 89 d0 mov %edx,%eax 5c: 83 ec 04 sub $0x4,%esp 5f: 50 push %eax 60: ff 75 f0 pushl -0x10(%ebp) 63: 6a 01 push $0x1 65: e8 88 05 00 00 call 5f2 <write> 6a: 83 c4 10 add $0x10,%esp } p = q+1; 6d: 8b 45 e8 mov -0x18(%ebp),%eax 70: 83 c0 01 add $0x1,%eax 73: 89 45 f0 mov %eax,-0x10(%ebp) m = 0; while((n = read(fd, buf+m, sizeof(buf)-m-1)) > 0){ m += n; buf[m] = '\0'; p = buf; while((q = strchr(p, '\n')) != 0){ 76: 83 ec 08 sub $0x8,%esp 79: 6a 0a push $0xa 7b: ff 75 f0 pushl -0x10(%ebp) 7e: e8 89 03 00 00 call 40c <strchr> 83: 83 c4 10 add $0x10,%esp 86: 89 45 e8 mov %eax,-0x18(%ebp) 89: 83 7d e8 00 cmpl $0x0,-0x18(%ebp) 8d: 75 9d jne 2c <grep+0x2c> *q = '\n'; write(1, p, q+1 - p); } p = q+1; } if(p == buf) 8f: 81 7d f0 80 0e 00 00 cmpl $0xe80,-0x10(%ebp) 96: 75 07 jne 9f <grep+0x9f> m = 0; 98: c7 45 f4 00 00 00 00 movl $0x0,-0xc(%ebp) if(m > 0){ 9f: 83 7d f4 00 cmpl $0x0,-0xc(%ebp) a3: 7e 23 jle c8 <grep+0xc8> m -= p - buf; a5: 8b 45 f0 mov -0x10(%ebp),%eax a8: ba 80 0e 00 00 mov $0xe80,%edx ad: 29 d0 sub %edx,%eax af: 29 45 f4 sub %eax,-0xc(%ebp) memmove(buf, p, m); b2: 83 ec 04 sub $0x4,%esp b5: ff 75 f4 pushl -0xc(%ebp) b8: ff 75 f0 pushl -0x10(%ebp) bb: 68 80 0e 00 00 push $0xe80 c0: e8 c8 04 00 00 call 58d <memmove> c5: 83 c4 10 add $0x10,%esp { int n, m; char *p, *q; m = 0; while((n = read(fd, buf+m, sizeof(buf)-m-1)) > 0){ c8: 8b 45 f4 mov -0xc(%ebp),%eax cb: ba ff 03 00 00 mov $0x3ff,%edx d0: 29 c2 sub %eax,%edx d2: 89 d0 mov %edx,%eax d4: 89 c2 mov %eax,%edx d6: 8b 45 f4 mov -0xc(%ebp),%eax d9: 05 80 0e 00 00 add $0xe80,%eax de: 83 ec 04 sub $0x4,%esp e1: 52 push %edx e2: 50 push %eax e3: ff 75 0c pushl 0xc(%ebp) e6: e8 ff 04 00 00 call 5ea <read> eb: 83 c4 10 add $0x10,%esp ee: 89 45 ec mov %eax,-0x14(%ebp) f1: 83 7d ec 00 cmpl $0x0,-0x14(%ebp) f5: 0f 8f 17 ff ff ff jg 12 <grep+0x12> if(m > 0){ m -= p - buf; memmove(buf, p, m); } } } fb: 90 nop fc: c9 leave fd: c3 ret 000000fe <main>: int main(int argc, char *argv[]) { fe: 8d 4c 24 04 lea 0x4(%esp),%ecx 102: 83 e4 f0 and $0xfffffff0,%esp 105: ff 71 fc pushl -0x4(%ecx) 108: 55 push %ebp 109: 89 e5 mov %esp,%ebp 10b: 53 push %ebx 10c: 51 push %ecx 10d: 83 ec 10 sub $0x10,%esp 110: 89 cb mov %ecx,%ebx int fd, i; char *pattern; if(argc <= 1){ 112: 83 3b 01 cmpl $0x1,(%ebx) 115: 7f 17 jg 12e <main+0x30> printf(2, "usage: grep pattern [file ...]\n"); 117: 83 ec 08 sub $0x8,%esp 11a: 68 40 0b 00 00 push $0xb40 11f: 6a 02 push $0x2 121: e8 63 06 00 00 call 789 <printf> 126: 83 c4 10 add $0x10,%esp exit(); 129: e8 a4 04 00 00 call 5d2 <exit> } pattern = argv[1]; 12e: 8b 43 04 mov 0x4(%ebx),%eax 131: 8b 40 04 mov 0x4(%eax),%eax 134: 89 45 f0 mov %eax,-0x10(%ebp) if(argc <= 2){ 137: 83 3b 02 cmpl $0x2,(%ebx) 13a: 7f 15 jg 151 <main+0x53> grep(pattern, 0); 13c: 83 ec 08 sub $0x8,%esp 13f: 6a 00 push $0x0 141: ff 75 f0 pushl -0x10(%ebp) 144: e8 b7 fe ff ff call 0 <grep> 149: 83 c4 10 add $0x10,%esp exit(); 14c: e8 81 04 00 00 call 5d2 <exit> } for(i = 2; i < argc; i++){ 151: c7 45 f4 02 00 00 00 movl $0x2,-0xc(%ebp) 158: eb 74 jmp 1ce <main+0xd0> if((fd = open(argv[i], 0)) < 0){ 15a: 8b 45 f4 mov -0xc(%ebp),%eax 15d: 8d 14 85 00 00 00 00 lea 0x0(,%eax,4),%edx 164: 8b 43 04 mov 0x4(%ebx),%eax 167: 01 d0 add %edx,%eax 169: 8b 00 mov (%eax),%eax 16b: 83 ec 08 sub $0x8,%esp 16e: 6a 00 push $0x0 170: 50 push %eax 171: e8 9c 04 00 00 call 612 <open> 176: 83 c4 10 add $0x10,%esp 179: 89 45 ec mov %eax,-0x14(%ebp) 17c: 83 7d ec 00 cmpl $0x0,-0x14(%ebp) 180: 79 29 jns 1ab <main+0xad> printf(1, "grep: cannot open %s\n", argv[i]); 182: 8b 45 f4 mov -0xc(%ebp),%eax 185: 8d 14 85 00 00 00 00 lea 0x0(,%eax,4),%edx 18c: 8b 43 04 mov 0x4(%ebx),%eax 18f: 01 d0 add %edx,%eax 191: 8b 00 mov (%eax),%eax 193: 83 ec 04 sub $0x4,%esp 196: 50 push %eax 197: 68 60 0b 00 00 push $0xb60 19c: 6a 01 push $0x1 19e: e8 e6 05 00 00 call 789 <printf> 1a3: 83 c4 10 add $0x10,%esp exit(); 1a6: e8 27 04 00 00 call 5d2 <exit> } grep(pattern, fd); 1ab: 83 ec 08 sub $0x8,%esp 1ae: ff 75 ec pushl -0x14(%ebp) 1b1: ff 75 f0 pushl -0x10(%ebp) 1b4: e8 47 fe ff ff call 0 <grep> 1b9: 83 c4 10 add $0x10,%esp close(fd); 1bc: 83 ec 0c sub $0xc,%esp 1bf: ff 75 ec pushl -0x14(%ebp) 1c2: e8 33 04 00 00 call 5fa <close> 1c7: 83 c4 10 add $0x10,%esp if(argc <= 2){ grep(pattern, 0); exit(); } for(i = 2; i < argc; i++){ 1ca: 83 45 f4 01 addl $0x1,-0xc(%ebp) 1ce: 8b 45 f4 mov -0xc(%ebp),%eax 1d1: 3b 03 cmp (%ebx),%eax 1d3: 7c 85 jl 15a <main+0x5c> exit(); } grep(pattern, fd); close(fd); } exit(); 1d5: e8 f8 03 00 00 call 5d2 <exit> 000001da <match>: int matchhere(char*, char*); int matchstar(int, char*, char*); int match(char *re, char *text) { 1da: 55 push %ebp 1db: 89 e5 mov %esp,%ebp 1dd: 83 ec 08 sub $0x8,%esp if(re[0] == '^') 1e0: 8b 45 08 mov 0x8(%ebp),%eax 1e3: 0f b6 00 movzbl (%eax),%eax 1e6: 3c 5e cmp $0x5e,%al 1e8: 75 17 jne 201 <match+0x27> return matchhere(re+1, text); 1ea: 8b 45 08 mov 0x8(%ebp),%eax 1ed: 83 c0 01 add $0x1,%eax 1f0: 83 ec 08 sub $0x8,%esp 1f3: ff 75 0c pushl 0xc(%ebp) 1f6: 50 push %eax 1f7: e8 38 00 00 00 call 234 <matchhere> 1fc: 83 c4 10 add $0x10,%esp 1ff: eb 31 jmp 232 <match+0x58> do{ // must look at empty string if(matchhere(re, text)) 201: 83 ec 08 sub $0x8,%esp 204: ff 75 0c pushl 0xc(%ebp) 207: ff 75 08 pushl 0x8(%ebp) 20a: e8 25 00 00 00 call 234 <matchhere> 20f: 83 c4 10 add $0x10,%esp 212: 85 c0 test %eax,%eax 214: 74 07 je 21d <match+0x43> return 1; 216: b8 01 00 00 00 mov $0x1,%eax 21b: eb 15 jmp 232 <match+0x58> }while(*text++ != '\0'); 21d: 8b 45 0c mov 0xc(%ebp),%eax 220: 8d 50 01 lea 0x1(%eax),%edx 223: 89 55 0c mov %edx,0xc(%ebp) 226: 0f b6 00 movzbl (%eax),%eax 229: 84 c0 test %al,%al 22b: 75 d4 jne 201 <match+0x27> return 0; 22d: b8 00 00 00 00 mov $0x0,%eax } 232: c9 leave 233: c3 ret 00000234 <matchhere>: // matchhere: search for re at beginning of text int matchhere(char *re, char *text) { 234: 55 push %ebp 235: 89 e5 mov %esp,%ebp 237: 83 ec 08 sub $0x8,%esp if(re[0] == '\0') 23a: 8b 45 08 mov 0x8(%ebp),%eax 23d: 0f b6 00 movzbl (%eax),%eax 240: 84 c0 test %al,%al 242: 75 0a jne 24e <matchhere+0x1a> return 1; 244: b8 01 00 00 00 mov $0x1,%eax 249: e9 99 00 00 00 jmp 2e7 <matchhere+0xb3> if(re[1] == '*') 24e: 8b 45 08 mov 0x8(%ebp),%eax 251: 83 c0 01 add $0x1,%eax 254: 0f b6 00 movzbl (%eax),%eax 257: 3c 2a cmp $0x2a,%al 259: 75 21 jne 27c <matchhere+0x48> return matchstar(re[0], re+2, text); 25b: 8b 45 08 mov 0x8(%ebp),%eax 25e: 8d 50 02 lea 0x2(%eax),%edx 261: 8b 45 08 mov 0x8(%ebp),%eax 264: 0f b6 00 movzbl (%eax),%eax 267: 0f be c0 movsbl %al,%eax 26a: 83 ec 04 sub $0x4,%esp 26d: ff 75 0c pushl 0xc(%ebp) 270: 52 push %edx 271: 50 push %eax 272: e8 72 00 00 00 call 2e9 <matchstar> 277: 83 c4 10 add $0x10,%esp 27a: eb 6b jmp 2e7 <matchhere+0xb3> if(re[0] == '$' && re[1] == '\0') 27c: 8b 45 08 mov 0x8(%ebp),%eax 27f: 0f b6 00 movzbl (%eax),%eax 282: 3c 24 cmp $0x24,%al 284: 75 1d jne 2a3 <matchhere+0x6f> 286: 8b 45 08 mov 0x8(%ebp),%eax 289: 83 c0 01 add $0x1,%eax 28c: 0f b6 00 movzbl (%eax),%eax 28f: 84 c0 test %al,%al 291: 75 10 jne 2a3 <matchhere+0x6f> return *text == '\0'; 293: 8b 45 0c mov 0xc(%ebp),%eax 296: 0f b6 00 movzbl (%eax),%eax 299: 84 c0 test %al,%al 29b: 0f 94 c0 sete %al 29e: 0f b6 c0 movzbl %al,%eax 2a1: eb 44 jmp 2e7 <matchhere+0xb3> if(*text!='\0' && (re[0]=='.' || re[0]==*text)) 2a3: 8b 45 0c mov 0xc(%ebp),%eax 2a6: 0f b6 00 movzbl (%eax),%eax 2a9: 84 c0 test %al,%al 2ab: 74 35 je 2e2 <matchhere+0xae> 2ad: 8b 45 08 mov 0x8(%ebp),%eax 2b0: 0f b6 00 movzbl (%eax),%eax 2b3: 3c 2e cmp $0x2e,%al 2b5: 74 10 je 2c7 <matchhere+0x93> 2b7: 8b 45 08 mov 0x8(%ebp),%eax 2ba: 0f b6 10 movzbl (%eax),%edx 2bd: 8b 45 0c mov 0xc(%ebp),%eax 2c0: 0f b6 00 movzbl (%eax),%eax 2c3: 38 c2 cmp %al,%dl 2c5: 75 1b jne 2e2 <matchhere+0xae> return matchhere(re+1, text+1); 2c7: 8b 45 0c mov 0xc(%ebp),%eax 2ca: 8d 50 01 lea 0x1(%eax),%edx 2cd: 8b 45 08 mov 0x8(%ebp),%eax 2d0: 83 c0 01 add $0x1,%eax 2d3: 83 ec 08 sub $0x8,%esp 2d6: 52 push %edx 2d7: 50 push %eax 2d8: e8 57 ff ff ff call 234 <matchhere> 2dd: 83 c4 10 add $0x10,%esp 2e0: eb 05 jmp 2e7 <matchhere+0xb3> return 0; 2e2: b8 00 00 00 00 mov $0x0,%eax } 2e7: c9 leave 2e8: c3 ret 000002e9 <matchstar>: // matchstar: search for c*re at beginning of text int matchstar(int c, char *re, char *text) { 2e9: 55 push %ebp 2ea: 89 e5 mov %esp,%ebp 2ec: 83 ec 08 sub $0x8,%esp do{ // a * matches zero or more instances if(matchhere(re, text)) 2ef: 83 ec 08 sub $0x8,%esp 2f2: ff 75 10 pushl 0x10(%ebp) 2f5: ff 75 0c pushl 0xc(%ebp) 2f8: e8 37 ff ff ff call 234 <matchhere> 2fd: 83 c4 10 add $0x10,%esp 300: 85 c0 test %eax,%eax 302: 74 07 je 30b <matchstar+0x22> return 1; 304: b8 01 00 00 00 mov $0x1,%eax 309: eb 29 jmp 334 <matchstar+0x4b> }while(*text!='\0' && (*text++==c || c=='.')); 30b: 8b 45 10 mov 0x10(%ebp),%eax 30e: 0f b6 00 movzbl (%eax),%eax 311: 84 c0 test %al,%al 313: 74 1a je 32f <matchstar+0x46> 315: 8b 45 10 mov 0x10(%ebp),%eax 318: 8d 50 01 lea 0x1(%eax),%edx 31b: 89 55 10 mov %edx,0x10(%ebp) 31e: 0f b6 00 movzbl (%eax),%eax 321: 0f be c0 movsbl %al,%eax 324: 3b 45 08 cmp 0x8(%ebp),%eax 327: 74 c6 je 2ef <matchstar+0x6> 329: 83 7d 08 2e cmpl $0x2e,0x8(%ebp) 32d: 74 c0 je 2ef <matchstar+0x6> return 0; 32f: b8 00 00 00 00 mov $0x0,%eax } 334: c9 leave 335: c3 ret 00000336 <stosb>: "cc"); } static inline void stosb(void *addr, int data, int cnt) { 336: 55 push %ebp 337: 89 e5 mov %esp,%ebp 339: 57 push %edi 33a: 53 push %ebx asm volatile("cld; rep stosb" : 33b: 8b 4d 08 mov 0x8(%ebp),%ecx 33e: 8b 55 10 mov 0x10(%ebp),%edx 341: 8b 45 0c mov 0xc(%ebp),%eax 344: 89 cb mov %ecx,%ebx 346: 89 df mov %ebx,%edi 348: 89 d1 mov %edx,%ecx 34a: fc cld 34b: f3 aa rep stos %al,%es:(%edi) 34d: 89 ca mov %ecx,%edx 34f: 89 fb mov %edi,%ebx 351: 89 5d 08 mov %ebx,0x8(%ebp) 354: 89 55 10 mov %edx,0x10(%ebp) "=D" (addr), "=c" (cnt) : "0" (addr), "1" (cnt), "a" (data) : "memory", "cc"); } 357: 90 nop 358: 5b pop %ebx 359: 5f pop %edi 35a: 5d pop %ebp 35b: c3 ret 0000035c <strcpy>: #include "user.h" #include "x86.h" char* strcpy(char *s, char *t) { 35c: 55 push %ebp 35d: 89 e5 mov %esp,%ebp 35f: 83 ec 10 sub $0x10,%esp char *os; os = s; 362: 8b 45 08 mov 0x8(%ebp),%eax 365: 89 45 fc mov %eax,-0x4(%ebp) while((*s++ = *t++) != 0) 368: 90 nop 369: 8b 45 08 mov 0x8(%ebp),%eax 36c: 8d 50 01 lea 0x1(%eax),%edx 36f: 89 55 08 mov %edx,0x8(%ebp) 372: 8b 55 0c mov 0xc(%ebp),%edx 375: 8d 4a 01 lea 0x1(%edx),%ecx 378: 89 4d 0c mov %ecx,0xc(%ebp) 37b: 0f b6 12 movzbl (%edx),%edx 37e: 88 10 mov %dl,(%eax) 380: 0f b6 00 movzbl (%eax),%eax 383: 84 c0 test %al,%al 385: 75 e2 jne 369 <strcpy+0xd> ; return os; 387: 8b 45 fc mov -0x4(%ebp),%eax } 38a: c9 leave 38b: c3 ret 0000038c <strcmp>: int strcmp(const char *p, const char *q) { 38c: 55 push %ebp 38d: 89 e5 mov %esp,%ebp while(*p && *p == *q) 38f: eb 08 jmp 399 <strcmp+0xd> p++, q++; 391: 83 45 08 01 addl $0x1,0x8(%ebp) 395: 83 45 0c 01 addl $0x1,0xc(%ebp) } int strcmp(const char *p, const char *q) { while(*p && *p == *q) 399: 8b 45 08 mov 0x8(%ebp),%eax 39c: 0f b6 00 movzbl (%eax),%eax 39f: 84 c0 test %al,%al 3a1: 74 10 je 3b3 <strcmp+0x27> 3a3: 8b 45 08 mov 0x8(%ebp),%eax 3a6: 0f b6 10 movzbl (%eax),%edx 3a9: 8b 45 0c mov 0xc(%ebp),%eax 3ac: 0f b6 00 movzbl (%eax),%eax 3af: 38 c2 cmp %al,%dl 3b1: 74 de je 391 <strcmp+0x5> p++, q++; return (uchar)*p - (uchar)*q; 3b3: 8b 45 08 mov 0x8(%ebp),%eax 3b6: 0f b6 00 movzbl (%eax),%eax 3b9: 0f b6 d0 movzbl %al,%edx 3bc: 8b 45 0c mov 0xc(%ebp),%eax 3bf: 0f b6 00 movzbl (%eax),%eax 3c2: 0f b6 c0 movzbl %al,%eax 3c5: 29 c2 sub %eax,%edx 3c7: 89 d0 mov %edx,%eax } 3c9: 5d pop %ebp 3ca: c3 ret 000003cb <strlen>: uint strlen(char *s) { 3cb: 55 push %ebp 3cc: 89 e5 mov %esp,%ebp 3ce: 83 ec 10 sub $0x10,%esp int n; for(n = 0; s[n]; n++) 3d1: c7 45 fc 00 00 00 00 movl $0x0,-0x4(%ebp) 3d8: eb 04 jmp 3de <strlen+0x13> 3da: 83 45 fc 01 addl $0x1,-0x4(%ebp) 3de: 8b 55 fc mov -0x4(%ebp),%edx 3e1: 8b 45 08 mov 0x8(%ebp),%eax 3e4: 01 d0 add %edx,%eax 3e6: 0f b6 00 movzbl (%eax),%eax 3e9: 84 c0 test %al,%al 3eb: 75 ed jne 3da <strlen+0xf> ; return n; 3ed: 8b 45 fc mov -0x4(%ebp),%eax } 3f0: c9 leave 3f1: c3 ret 000003f2 <memset>: void* memset(void *dst, int c, uint n) { 3f2: 55 push %ebp 3f3: 89 e5 mov %esp,%ebp stosb(dst, c, n); 3f5: 8b 45 10 mov 0x10(%ebp),%eax 3f8: 50 push %eax 3f9: ff 75 0c pushl 0xc(%ebp) 3fc: ff 75 08 pushl 0x8(%ebp) 3ff: e8 32 ff ff ff call 336 <stosb> 404: 83 c4 0c add $0xc,%esp return dst; 407: 8b 45 08 mov 0x8(%ebp),%eax } 40a: c9 leave 40b: c3 ret 0000040c <strchr>: char* strchr(const char *s, char c) { 40c: 55 push %ebp 40d: 89 e5 mov %esp,%ebp 40f: 83 ec 04 sub $0x4,%esp 412: 8b 45 0c mov 0xc(%ebp),%eax 415: 88 45 fc mov %al,-0x4(%ebp) for(; *s; s++) 418: eb 14 jmp 42e <strchr+0x22> if(*s == c) 41a: 8b 45 08 mov 0x8(%ebp),%eax 41d: 0f b6 00 movzbl (%eax),%eax 420: 3a 45 fc cmp -0x4(%ebp),%al 423: 75 05 jne 42a <strchr+0x1e> return (char*)s; 425: 8b 45 08 mov 0x8(%ebp),%eax 428: eb 13 jmp 43d <strchr+0x31> } char* strchr(const char *s, char c) { for(; *s; s++) 42a: 83 45 08 01 addl $0x1,0x8(%ebp) 42e: 8b 45 08 mov 0x8(%ebp),%eax 431: 0f b6 00 movzbl (%eax),%eax 434: 84 c0 test %al,%al 436: 75 e2 jne 41a <strchr+0xe> if(*s == c) return (char*)s; return 0; 438: b8 00 00 00 00 mov $0x0,%eax } 43d: c9 leave 43e: c3 ret 0000043f <gets>: char* gets(char *buf, int max) { 43f: 55 push %ebp 440: 89 e5 mov %esp,%ebp 442: 83 ec 18 sub $0x18,%esp int i, cc; char c; for(i=0; i+1 < max; ){ 445: c7 45 f4 00 00 00 00 movl $0x0,-0xc(%ebp) 44c: eb 42 jmp 490 <gets+0x51> cc = read(0, &c, 1); 44e: 83 ec 04 sub $0x4,%esp 451: 6a 01 push $0x1 453: 8d 45 ef lea -0x11(%ebp),%eax 456: 50 push %eax 457: 6a 00 push $0x0 459: e8 8c 01 00 00 call 5ea <read> 45e: 83 c4 10 add $0x10,%esp 461: 89 45 f0 mov %eax,-0x10(%ebp) if(cc < 1) 464: 83 7d f0 00 cmpl $0x0,-0x10(%ebp) 468: 7e 33 jle 49d <gets+0x5e> break; buf[i++] = c; 46a: 8b 45 f4 mov -0xc(%ebp),%eax 46d: 8d 50 01 lea 0x1(%eax),%edx 470: 89 55 f4 mov %edx,-0xc(%ebp) 473: 89 c2 mov %eax,%edx 475: 8b 45 08 mov 0x8(%ebp),%eax 478: 01 c2 add %eax,%edx 47a: 0f b6 45 ef movzbl -0x11(%ebp),%eax 47e: 88 02 mov %al,(%edx) if(c == '\n' || c == '\r') 480: 0f b6 45 ef movzbl -0x11(%ebp),%eax 484: 3c 0a cmp $0xa,%al 486: 74 16 je 49e <gets+0x5f> 488: 0f b6 45 ef movzbl -0x11(%ebp),%eax 48c: 3c 0d cmp $0xd,%al 48e: 74 0e je 49e <gets+0x5f> gets(char *buf, int max) { int i, cc; char c; for(i=0; i+1 < max; ){ 490: 8b 45 f4 mov -0xc(%ebp),%eax 493: 83 c0 01 add $0x1,%eax 496: 3b 45 0c cmp 0xc(%ebp),%eax 499: 7c b3 jl 44e <gets+0xf> 49b: eb 01 jmp 49e <gets+0x5f> cc = read(0, &c, 1); if(cc < 1) break; 49d: 90 nop buf[i++] = c; if(c == '\n' || c == '\r') break; } buf[i] = '\0'; 49e: 8b 55 f4 mov -0xc(%ebp),%edx 4a1: 8b 45 08 mov 0x8(%ebp),%eax 4a4: 01 d0 add %edx,%eax 4a6: c6 00 00 movb $0x0,(%eax) return buf; 4a9: 8b 45 08 mov 0x8(%ebp),%eax } 4ac: c9 leave 4ad: c3 ret 000004ae <stat>: int stat(char *n, struct stat *st) { 4ae: 55 push %ebp 4af: 89 e5 mov %esp,%ebp 4b1: 83 ec 18 sub $0x18,%esp int fd; int r; fd = open(n, O_RDONLY); 4b4: 83 ec 08 sub $0x8,%esp 4b7: 6a 00 push $0x0 4b9: ff 75 08 pushl 0x8(%ebp) 4bc: e8 51 01 00 00 call 612 <open> 4c1: 83 c4 10 add $0x10,%esp 4c4: 89 45 f4 mov %eax,-0xc(%ebp) if(fd < 0) 4c7: 83 7d f4 00 cmpl $0x0,-0xc(%ebp) 4cb: 79 07 jns 4d4 <stat+0x26> return -1; 4cd: b8 ff ff ff ff mov $0xffffffff,%eax 4d2: eb 25 jmp 4f9 <stat+0x4b> r = fstat(fd, st); 4d4: 83 ec 08 sub $0x8,%esp 4d7: ff 75 0c pushl 0xc(%ebp) 4da: ff 75 f4 pushl -0xc(%ebp) 4dd: e8 48 01 00 00 call 62a <fstat> 4e2: 83 c4 10 add $0x10,%esp 4e5: 89 45 f0 mov %eax,-0x10(%ebp) close(fd); 4e8: 83 ec 0c sub $0xc,%esp 4eb: ff 75 f4 pushl -0xc(%ebp) 4ee: e8 07 01 00 00 call 5fa <close> 4f3: 83 c4 10 add $0x10,%esp return r; 4f6: 8b 45 f0 mov -0x10(%ebp),%eax } 4f9: c9 leave 4fa: c3 ret 000004fb <atoi>: // new atoi added 4/22/17 to be able to handle negative numbers int atoi(const char *s) { 4fb: 55 push %ebp 4fc: 89 e5 mov %esp,%ebp 4fe: 83 ec 10 sub $0x10,%esp int n, sign; n=0; 501: c7 45 fc 00 00 00 00 movl $0x0,-0x4(%ebp) while(*s==' ')s++;//Remove leading spaces 508: eb 04 jmp 50e <atoi+0x13> 50a: 83 45 08 01 addl $0x1,0x8(%ebp) 50e: 8b 45 08 mov 0x8(%ebp),%eax 511: 0f b6 00 movzbl (%eax),%eax 514: 3c 20 cmp $0x20,%al 516: 74 f2 je 50a <atoi+0xf> sign =(*s=='-')?-1 : 1; 518: 8b 45 08 mov 0x8(%ebp),%eax 51b: 0f b6 00 movzbl (%eax),%eax 51e: 3c 2d cmp $0x2d,%al 520: 75 07 jne 529 <atoi+0x2e> 522: b8 ff ff ff ff mov $0xffffffff,%eax 527: eb 05 jmp 52e <atoi+0x33> 529: b8 01 00 00 00 mov $0x1,%eax 52e: 89 45 f8 mov %eax,-0x8(%ebp) if(*s=='+' || *s=='-') 531: 8b 45 08 mov 0x8(%ebp),%eax 534: 0f b6 00 movzbl (%eax),%eax 537: 3c 2b cmp $0x2b,%al 539: 74 0a je 545 <atoi+0x4a> 53b: 8b 45 08 mov 0x8(%ebp),%eax 53e: 0f b6 00 movzbl (%eax),%eax 541: 3c 2d cmp $0x2d,%al 543: 75 2b jne 570 <atoi+0x75> s++; 545: 83 45 08 01 addl $0x1,0x8(%ebp) while('0' <= *s&&*s<='9') 549: eb 25 jmp 570 <atoi+0x75> n = n*10 + *s++ - '0'; 54b: 8b 55 fc mov -0x4(%ebp),%edx 54e: 89 d0 mov %edx,%eax 550: c1 e0 02 shl $0x2,%eax 553: 01 d0 add %edx,%eax 555: 01 c0 add %eax,%eax 557: 89 c1 mov %eax,%ecx 559: 8b 45 08 mov 0x8(%ebp),%eax 55c: 8d 50 01 lea 0x1(%eax),%edx 55f: 89 55 08 mov %edx,0x8(%ebp) 562: 0f b6 00 movzbl (%eax),%eax 565: 0f be c0 movsbl %al,%eax 568: 01 c8 add %ecx,%eax 56a: 83 e8 30 sub $0x30,%eax 56d: 89 45 fc mov %eax,-0x4(%ebp) n=0; while(*s==' ')s++;//Remove leading spaces sign =(*s=='-')?-1 : 1; if(*s=='+' || *s=='-') s++; while('0' <= *s&&*s<='9') 570: 8b 45 08 mov 0x8(%ebp),%eax 573: 0f b6 00 movzbl (%eax),%eax 576: 3c 2f cmp $0x2f,%al 578: 7e 0a jle 584 <atoi+0x89> 57a: 8b 45 08 mov 0x8(%ebp),%eax 57d: 0f b6 00 movzbl (%eax),%eax 580: 3c 39 cmp $0x39,%al 582: 7e c7 jle 54b <atoi+0x50> n = n*10 + *s++ - '0'; return sign*n; 584: 8b 45 f8 mov -0x8(%ebp),%eax 587: 0f af 45 fc imul -0x4(%ebp),%eax } 58b: c9 leave 58c: c3 ret 0000058d <memmove>: return n; } */ void* memmove(void *vdst, void *vsrc, int n) { 58d: 55 push %ebp 58e: 89 e5 mov %esp,%ebp 590: 83 ec 10 sub $0x10,%esp char *dst, *src; dst = vdst; 593: 8b 45 08 mov 0x8(%ebp),%eax 596: 89 45 fc mov %eax,-0x4(%ebp) src = vsrc; 599: 8b 45 0c mov 0xc(%ebp),%eax 59c: 89 45 f8 mov %eax,-0x8(%ebp) while(n-- > 0) 59f: eb 17 jmp 5b8 <memmove+0x2b> *dst++ = *src++; 5a1: 8b 45 fc mov -0x4(%ebp),%eax 5a4: 8d 50 01 lea 0x1(%eax),%edx 5a7: 89 55 fc mov %edx,-0x4(%ebp) 5aa: 8b 55 f8 mov -0x8(%ebp),%edx 5ad: 8d 4a 01 lea 0x1(%edx),%ecx 5b0: 89 4d f8 mov %ecx,-0x8(%ebp) 5b3: 0f b6 12 movzbl (%edx),%edx 5b6: 88 10 mov %dl,(%eax) { char *dst, *src; dst = vdst; src = vsrc; while(n-- > 0) 5b8: 8b 45 10 mov 0x10(%ebp),%eax 5bb: 8d 50 ff lea -0x1(%eax),%edx 5be: 89 55 10 mov %edx,0x10(%ebp) 5c1: 85 c0 test %eax,%eax 5c3: 7f dc jg 5a1 <memmove+0x14> *dst++ = *src++; return vdst; 5c5: 8b 45 08 mov 0x8(%ebp),%eax } 5c8: c9 leave 5c9: c3 ret 000005ca <fork>: name: \ movl $SYS_ ## name, %eax; \ int $T_SYSCALL; \ ret SYSCALL(fork) 5ca: b8 01 00 00 00 mov $0x1,%eax 5cf: cd 40 int $0x40 5d1: c3 ret 000005d2 <exit>: SYSCALL(exit) 5d2: b8 02 00 00 00 mov $0x2,%eax 5d7: cd 40 int $0x40 5d9: c3 ret 000005da <wait>: SYSCALL(wait) 5da: b8 03 00 00 00 mov $0x3,%eax 5df: cd 40 int $0x40 5e1: c3 ret 000005e2 <pipe>: SYSCALL(pipe) 5e2: b8 04 00 00 00 mov $0x4,%eax 5e7: cd 40 int $0x40 5e9: c3 ret 000005ea <read>: SYSCALL(read) 5ea: b8 05 00 00 00 mov $0x5,%eax 5ef: cd 40 int $0x40 5f1: c3 ret 000005f2 <write>: SYSCALL(write) 5f2: b8 10 00 00 00 mov $0x10,%eax 5f7: cd 40 int $0x40 5f9: c3 ret 000005fa <close>: SYSCALL(close) 5fa: b8 15 00 00 00 mov $0x15,%eax 5ff: cd 40 int $0x40 601: c3 ret 00000602 <kill>: SYSCALL(kill) 602: b8 06 00 00 00 mov $0x6,%eax 607: cd 40 int $0x40 609: c3 ret 0000060a <exec>: SYSCALL(exec) 60a: b8 07 00 00 00 mov $0x7,%eax 60f: cd 40 int $0x40 611: c3 ret 00000612 <open>: SYSCALL(open) 612: b8 0f 00 00 00 mov $0xf,%eax 617: cd 40 int $0x40 619: c3 ret 0000061a <mknod>: SYSCALL(mknod) 61a: b8 11 00 00 00 mov $0x11,%eax 61f: cd 40 int $0x40 621: c3 ret 00000622 <unlink>: SYSCALL(unlink) 622: b8 12 00 00 00 mov $0x12,%eax 627: cd 40 int $0x40 629: c3 ret 0000062a <fstat>: SYSCALL(fstat) 62a: b8 08 00 00 00 mov $0x8,%eax 62f: cd 40 int $0x40 631: c3 ret 00000632 <link>: SYSCALL(link) 632: b8 13 00 00 00 mov $0x13,%eax 637: cd 40 int $0x40 639: c3 ret 0000063a <mkdir>: SYSCALL(mkdir) 63a: b8 14 00 00 00 mov $0x14,%eax 63f: cd 40 int $0x40 641: c3 ret 00000642 <chdir>: SYSCALL(chdir) 642: b8 09 00 00 00 mov $0x9,%eax 647: cd 40 int $0x40 649: c3 ret 0000064a <dup>: SYSCALL(dup) 64a: b8 0a 00 00 00 mov $0xa,%eax 64f: cd 40 int $0x40 651: c3 ret 00000652 <getpid>: SYSCALL(getpid) 652: b8 0b 00 00 00 mov $0xb,%eax 657: cd 40 int $0x40 659: c3 ret 0000065a <sbrk>: SYSCALL(sbrk) 65a: b8 0c 00 00 00 mov $0xc,%eax 65f: cd 40 int $0x40 661: c3 ret 00000662 <sleep>: SYSCALL(sleep) 662: b8 0d 00 00 00 mov $0xd,%eax 667: cd 40 int $0x40 669: c3 ret 0000066a <uptime>: SYSCALL(uptime) 66a: b8 0e 00 00 00 mov $0xe,%eax 66f: cd 40 int $0x40 671: c3 ret 00000672 <halt>: SYSCALL(halt) 672: b8 16 00 00 00 mov $0x16,%eax 677: cd 40 int $0x40 679: c3 ret 0000067a <date>: //Project additions SYSCALL(date) 67a: b8 17 00 00 00 mov $0x17,%eax 67f: cd 40 int $0x40 681: c3 ret 00000682 <getuid>: SYSCALL(getuid) 682: b8 18 00 00 00 mov $0x18,%eax 687: cd 40 int $0x40 689: c3 ret 0000068a <getgid>: SYSCALL(getgid) 68a: b8 19 00 00 00 mov $0x19,%eax 68f: cd 40 int $0x40 691: c3 ret 00000692 <getppid>: SYSCALL(getppid) 692: b8 1a 00 00 00 mov $0x1a,%eax 697: cd 40 int $0x40 699: c3 ret 0000069a <setuid>: SYSCALL(setuid) 69a: b8 1b 00 00 00 mov $0x1b,%eax 69f: cd 40 int $0x40 6a1: c3 ret 000006a2 <setgid>: SYSCALL(setgid) 6a2: b8 1c 00 00 00 mov $0x1c,%eax 6a7: cd 40 int $0x40 6a9: c3 ret 000006aa <getprocs>: SYSCALL(getprocs) 6aa: b8 1d 00 00 00 mov $0x1d,%eax 6af: cd 40 int $0x40 6b1: c3 ret 000006b2 <putc>: #include "stat.h" #include "user.h" static void putc(int fd, char c) { 6b2: 55 push %ebp 6b3: 89 e5 mov %esp,%ebp 6b5: 83 ec 18 sub $0x18,%esp 6b8: 8b 45 0c mov 0xc(%ebp),%eax 6bb: 88 45 f4 mov %al,-0xc(%ebp) write(fd, &c, 1); 6be: 83 ec 04 sub $0x4,%esp 6c1: 6a 01 push $0x1 6c3: 8d 45 f4 lea -0xc(%ebp),%eax 6c6: 50 push %eax 6c7: ff 75 08 pushl 0x8(%ebp) 6ca: e8 23 ff ff ff call 5f2 <write> 6cf: 83 c4 10 add $0x10,%esp } 6d2: 90 nop 6d3: c9 leave 6d4: c3 ret 000006d5 <printint>: static void printint(int fd, int xx, int base, int sgn) { 6d5: 55 push %ebp 6d6: 89 e5 mov %esp,%ebp 6d8: 53 push %ebx 6d9: 83 ec 24 sub $0x24,%esp static char digits[] = "0123456789ABCDEF"; char buf[16]; int i, neg; uint x; neg = 0; 6dc: c7 45 f0 00 00 00 00 movl $0x0,-0x10(%ebp) if(sgn && xx < 0){ 6e3: 83 7d 14 00 cmpl $0x0,0x14(%ebp) 6e7: 74 17 je 700 <printint+0x2b> 6e9: 83 7d 0c 00 cmpl $0x0,0xc(%ebp) 6ed: 79 11 jns 700 <printint+0x2b> neg = 1; 6ef: c7 45 f0 01 00 00 00 movl $0x1,-0x10(%ebp) x = -xx; 6f6: 8b 45 0c mov 0xc(%ebp),%eax 6f9: f7 d8 neg %eax 6fb: 89 45 ec mov %eax,-0x14(%ebp) 6fe: eb 06 jmp 706 <printint+0x31> } else { x = xx; 700: 8b 45 0c mov 0xc(%ebp),%eax 703: 89 45 ec mov %eax,-0x14(%ebp) } i = 0; 706: c7 45 f4 00 00 00 00 movl $0x0,-0xc(%ebp) do{ buf[i++] = digits[x % base]; 70d: 8b 4d f4 mov -0xc(%ebp),%ecx 710: 8d 41 01 lea 0x1(%ecx),%eax 713: 89 45 f4 mov %eax,-0xc(%ebp) 716: 8b 5d 10 mov 0x10(%ebp),%ebx 719: 8b 45 ec mov -0x14(%ebp),%eax 71c: ba 00 00 00 00 mov $0x0,%edx 721: f7 f3 div %ebx 723: 89 d0 mov %edx,%eax 725: 0f b6 80 4c 0e 00 00 movzbl 0xe4c(%eax),%eax 72c: 88 44 0d dc mov %al,-0x24(%ebp,%ecx,1) }while((x /= base) != 0); 730: 8b 5d 10 mov 0x10(%ebp),%ebx 733: 8b 45 ec mov -0x14(%ebp),%eax 736: ba 00 00 00 00 mov $0x0,%edx 73b: f7 f3 div %ebx 73d: 89 45 ec mov %eax,-0x14(%ebp) 740: 83 7d ec 00 cmpl $0x0,-0x14(%ebp) 744: 75 c7 jne 70d <printint+0x38> if(neg) 746: 83 7d f0 00 cmpl $0x0,-0x10(%ebp) 74a: 74 2d je 779 <printint+0xa4> buf[i++] = '-'; 74c: 8b 45 f4 mov -0xc(%ebp),%eax 74f: 8d 50 01 lea 0x1(%eax),%edx 752: 89 55 f4 mov %edx,-0xc(%ebp) 755: c6 44 05 dc 2d movb $0x2d,-0x24(%ebp,%eax,1) while(--i >= 0) 75a: eb 1d jmp 779 <printint+0xa4> putc(fd, buf[i]); 75c: 8d 55 dc lea -0x24(%ebp),%edx 75f: 8b 45 f4 mov -0xc(%ebp),%eax 762: 01 d0 add %edx,%eax 764: 0f b6 00 movzbl (%eax),%eax 767: 0f be c0 movsbl %al,%eax 76a: 83 ec 08 sub $0x8,%esp 76d: 50 push %eax 76e: ff 75 08 pushl 0x8(%ebp) 771: e8 3c ff ff ff call 6b2 <putc> 776: 83 c4 10 add $0x10,%esp buf[i++] = digits[x % base]; }while((x /= base) != 0); if(neg) buf[i++] = '-'; while(--i >= 0) 779: 83 6d f4 01 subl $0x1,-0xc(%ebp) 77d: 83 7d f4 00 cmpl $0x0,-0xc(%ebp) 781: 79 d9 jns 75c <printint+0x87> putc(fd, buf[i]); } 783: 90 nop 784: 8b 5d fc mov -0x4(%ebp),%ebx 787: c9 leave 788: c3 ret 00000789 <printf>: // Print to the given fd. Only understands %d, %x, %p, %s. void printf(int fd, char *fmt, ...) { 789: 55 push %ebp 78a: 89 e5 mov %esp,%ebp 78c: 83 ec 28 sub $0x28,%esp char *s; int c, i, state; uint *ap; state = 0; 78f: c7 45 ec 00 00 00 00 movl $0x0,-0x14(%ebp) ap = (uint*)(void*)&fmt + 1; 796: 8d 45 0c lea 0xc(%ebp),%eax 799: 83 c0 04 add $0x4,%eax 79c: 89 45 e8 mov %eax,-0x18(%ebp) for(i = 0; fmt[i]; i++){ 79f: c7 45 f0 00 00 00 00 movl $0x0,-0x10(%ebp) 7a6: e9 59 01 00 00 jmp 904 <printf+0x17b> c = fmt[i] & 0xff; 7ab: 8b 55 0c mov 0xc(%ebp),%edx 7ae: 8b 45 f0 mov -0x10(%ebp),%eax 7b1: 01 d0 add %edx,%eax 7b3: 0f b6 00 movzbl (%eax),%eax 7b6: 0f be c0 movsbl %al,%eax 7b9: 25 ff 00 00 00 and $0xff,%eax 7be: 89 45 e4 mov %eax,-0x1c(%ebp) if(state == 0){ 7c1: 83 7d ec 00 cmpl $0x0,-0x14(%ebp) 7c5: 75 2c jne 7f3 <printf+0x6a> if(c == '%'){ 7c7: 83 7d e4 25 cmpl $0x25,-0x1c(%ebp) 7cb: 75 0c jne 7d9 <printf+0x50> state = '%'; 7cd: c7 45 ec 25 00 00 00 movl $0x25,-0x14(%ebp) 7d4: e9 27 01 00 00 jmp 900 <printf+0x177> } else { putc(fd, c); 7d9: 8b 45 e4 mov -0x1c(%ebp),%eax 7dc: 0f be c0 movsbl %al,%eax 7df: 83 ec 08 sub $0x8,%esp 7e2: 50 push %eax 7e3: ff 75 08 pushl 0x8(%ebp) 7e6: e8 c7 fe ff ff call 6b2 <putc> 7eb: 83 c4 10 add $0x10,%esp 7ee: e9 0d 01 00 00 jmp 900 <printf+0x177> } } else if(state == '%'){ 7f3: 83 7d ec 25 cmpl $0x25,-0x14(%ebp) 7f7: 0f 85 03 01 00 00 jne 900 <printf+0x177> if(c == 'd'){ 7fd: 83 7d e4 64 cmpl $0x64,-0x1c(%ebp) 801: 75 1e jne 821 <printf+0x98> printint(fd, *ap, 10, 1); 803: 8b 45 e8 mov -0x18(%ebp),%eax 806: 8b 00 mov (%eax),%eax 808: 6a 01 push $0x1 80a: 6a 0a push $0xa 80c: 50 push %eax 80d: ff 75 08 pushl 0x8(%ebp) 810: e8 c0 fe ff ff call 6d5 <printint> 815: 83 c4 10 add $0x10,%esp ap++; 818: 83 45 e8 04 addl $0x4,-0x18(%ebp) 81c: e9 d8 00 00 00 jmp 8f9 <printf+0x170> } else if(c == 'x' || c == 'p'){ 821: 83 7d e4 78 cmpl $0x78,-0x1c(%ebp) 825: 74 06 je 82d <printf+0xa4> 827: 83 7d e4 70 cmpl $0x70,-0x1c(%ebp) 82b: 75 1e jne 84b <printf+0xc2> printint(fd, *ap, 16, 0); 82d: 8b 45 e8 mov -0x18(%ebp),%eax 830: 8b 00 mov (%eax),%eax 832: 6a 00 push $0x0 834: 6a 10 push $0x10 836: 50 push %eax 837: ff 75 08 pushl 0x8(%ebp) 83a: e8 96 fe ff ff call 6d5 <printint> 83f: 83 c4 10 add $0x10,%esp ap++; 842: 83 45 e8 04 addl $0x4,-0x18(%ebp) 846: e9 ae 00 00 00 jmp 8f9 <printf+0x170> } else if(c == 's'){ 84b: 83 7d e4 73 cmpl $0x73,-0x1c(%ebp) 84f: 75 43 jne 894 <printf+0x10b> s = (char*)*ap; 851: 8b 45 e8 mov -0x18(%ebp),%eax 854: 8b 00 mov (%eax),%eax 856: 89 45 f4 mov %eax,-0xc(%ebp) ap++; 859: 83 45 e8 04 addl $0x4,-0x18(%ebp) if(s == 0) 85d: 83 7d f4 00 cmpl $0x0,-0xc(%ebp) 861: 75 25 jne 888 <printf+0xff> s = "(null)"; 863: c7 45 f4 76 0b 00 00 movl $0xb76,-0xc(%ebp) while(*s != 0){ 86a: eb 1c jmp 888 <printf+0xff> putc(fd, *s); 86c: 8b 45 f4 mov -0xc(%ebp),%eax 86f: 0f b6 00 movzbl (%eax),%eax 872: 0f be c0 movsbl %al,%eax 875: 83 ec 08 sub $0x8,%esp 878: 50 push %eax 879: ff 75 08 pushl 0x8(%ebp) 87c: e8 31 fe ff ff call 6b2 <putc> 881: 83 c4 10 add $0x10,%esp s++; 884: 83 45 f4 01 addl $0x1,-0xc(%ebp) } else if(c == 's'){ s = (char*)*ap; ap++; if(s == 0) s = "(null)"; while(*s != 0){ 888: 8b 45 f4 mov -0xc(%ebp),%eax 88b: 0f b6 00 movzbl (%eax),%eax 88e: 84 c0 test %al,%al 890: 75 da jne 86c <printf+0xe3> 892: eb 65 jmp 8f9 <printf+0x170> putc(fd, *s); s++; } } else if(c == 'c'){ 894: 83 7d e4 63 cmpl $0x63,-0x1c(%ebp) 898: 75 1d jne 8b7 <printf+0x12e> putc(fd, *ap); 89a: 8b 45 e8 mov -0x18(%ebp),%eax 89d: 8b 00 mov (%eax),%eax 89f: 0f be c0 movsbl %al,%eax 8a2: 83 ec 08 sub $0x8,%esp 8a5: 50 push %eax 8a6: ff 75 08 pushl 0x8(%ebp) 8a9: e8 04 fe ff ff call 6b2 <putc> 8ae: 83 c4 10 add $0x10,%esp ap++; 8b1: 83 45 e8 04 addl $0x4,-0x18(%ebp) 8b5: eb 42 jmp 8f9 <printf+0x170> } else if(c == '%'){ 8b7: 83 7d e4 25 cmpl $0x25,-0x1c(%ebp) 8bb: 75 17 jne 8d4 <printf+0x14b> putc(fd, c); 8bd: 8b 45 e4 mov -0x1c(%ebp),%eax 8c0: 0f be c0 movsbl %al,%eax 8c3: 83 ec 08 sub $0x8,%esp 8c6: 50 push %eax 8c7: ff 75 08 pushl 0x8(%ebp) 8ca: e8 e3 fd ff ff call 6b2 <putc> 8cf: 83 c4 10 add $0x10,%esp 8d2: eb 25 jmp 8f9 <printf+0x170> } else { // Unknown % sequence. Print it to draw attention. putc(fd, '%'); 8d4: 83 ec 08 sub $0x8,%esp 8d7: 6a 25 push $0x25 8d9: ff 75 08 pushl 0x8(%ebp) 8dc: e8 d1 fd ff ff call 6b2 <putc> 8e1: 83 c4 10 add $0x10,%esp putc(fd, c); 8e4: 8b 45 e4 mov -0x1c(%ebp),%eax 8e7: 0f be c0 movsbl %al,%eax 8ea: 83 ec 08 sub $0x8,%esp 8ed: 50 push %eax 8ee: ff 75 08 pushl 0x8(%ebp) 8f1: e8 bc fd ff ff call 6b2 <putc> 8f6: 83 c4 10 add $0x10,%esp } state = 0; 8f9: c7 45 ec 00 00 00 00 movl $0x0,-0x14(%ebp) int c, i, state; uint *ap; state = 0; ap = (uint*)(void*)&fmt + 1; for(i = 0; fmt[i]; i++){ 900: 83 45 f0 01 addl $0x1,-0x10(%ebp) 904: 8b 55 0c mov 0xc(%ebp),%edx 907: 8b 45 f0 mov -0x10(%ebp),%eax 90a: 01 d0 add %edx,%eax 90c: 0f b6 00 movzbl (%eax),%eax 90f: 84 c0 test %al,%al 911: 0f 85 94 fe ff ff jne 7ab <printf+0x22> putc(fd, c); } state = 0; } } } 917: 90 nop 918: c9 leave 919: c3 ret 0000091a <free>: static Header base; static Header *freep; void free(void *ap) { 91a: 55 push %ebp 91b: 89 e5 mov %esp,%ebp 91d: 83 ec 10 sub $0x10,%esp Header *bp, *p; bp = (Header*)ap - 1; 920: 8b 45 08 mov 0x8(%ebp),%eax 923: 83 e8 08 sub $0x8,%eax 926: 89 45 f8 mov %eax,-0x8(%ebp) for(p = freep; !(bp > p && bp < p->s.ptr); p = p->s.ptr) 929: a1 68 0e 00 00 mov 0xe68,%eax 92e: 89 45 fc mov %eax,-0x4(%ebp) 931: eb 24 jmp 957 <free+0x3d> if(p >= p->s.ptr && (bp > p || bp < p->s.ptr)) 933: 8b 45 fc mov -0x4(%ebp),%eax 936: 8b 00 mov (%eax),%eax 938: 3b 45 fc cmp -0x4(%ebp),%eax 93b: 77 12 ja 94f <free+0x35> 93d: 8b 45 f8 mov -0x8(%ebp),%eax 940: 3b 45 fc cmp -0x4(%ebp),%eax 943: 77 24 ja 969 <free+0x4f> 945: 8b 45 fc mov -0x4(%ebp),%eax 948: 8b 00 mov (%eax),%eax 94a: 3b 45 f8 cmp -0x8(%ebp),%eax 94d: 77 1a ja 969 <free+0x4f> free(void *ap) { Header *bp, *p; bp = (Header*)ap - 1; for(p = freep; !(bp > p && bp < p->s.ptr); p = p->s.ptr) 94f: 8b 45 fc mov -0x4(%ebp),%eax 952: 8b 00 mov (%eax),%eax 954: 89 45 fc mov %eax,-0x4(%ebp) 957: 8b 45 f8 mov -0x8(%ebp),%eax 95a: 3b 45 fc cmp -0x4(%ebp),%eax 95d: 76 d4 jbe 933 <free+0x19> 95f: 8b 45 fc mov -0x4(%ebp),%eax 962: 8b 00 mov (%eax),%eax 964: 3b 45 f8 cmp -0x8(%ebp),%eax 967: 76 ca jbe 933 <free+0x19> if(p >= p->s.ptr && (bp > p || bp < p->s.ptr)) break; if(bp + bp->s.size == p->s.ptr){ 969: 8b 45 f8 mov -0x8(%ebp),%eax 96c: 8b 40 04 mov 0x4(%eax),%eax 96f: 8d 14 c5 00 00 00 00 lea 0x0(,%eax,8),%edx 976: 8b 45 f8 mov -0x8(%ebp),%eax 979: 01 c2 add %eax,%edx 97b: 8b 45 fc mov -0x4(%ebp),%eax 97e: 8b 00 mov (%eax),%eax 980: 39 c2 cmp %eax,%edx 982: 75 24 jne 9a8 <free+0x8e> bp->s.size += p->s.ptr->s.size; 984: 8b 45 f8 mov -0x8(%ebp),%eax 987: 8b 50 04 mov 0x4(%eax),%edx 98a: 8b 45 fc mov -0x4(%ebp),%eax 98d: 8b 00 mov (%eax),%eax 98f: 8b 40 04 mov 0x4(%eax),%eax 992: 01 c2 add %eax,%edx 994: 8b 45 f8 mov -0x8(%ebp),%eax 997: 89 50 04 mov %edx,0x4(%eax) bp->s.ptr = p->s.ptr->s.ptr; 99a: 8b 45 fc mov -0x4(%ebp),%eax 99d: 8b 00 mov (%eax),%eax 99f: 8b 10 mov (%eax),%edx 9a1: 8b 45 f8 mov -0x8(%ebp),%eax 9a4: 89 10 mov %edx,(%eax) 9a6: eb 0a jmp 9b2 <free+0x98> } else bp->s.ptr = p->s.ptr; 9a8: 8b 45 fc mov -0x4(%ebp),%eax 9ab: 8b 10 mov (%eax),%edx 9ad: 8b 45 f8 mov -0x8(%ebp),%eax 9b0: 89 10 mov %edx,(%eax) if(p + p->s.size == bp){ 9b2: 8b 45 fc mov -0x4(%ebp),%eax 9b5: 8b 40 04 mov 0x4(%eax),%eax 9b8: 8d 14 c5 00 00 00 00 lea 0x0(,%eax,8),%edx 9bf: 8b 45 fc mov -0x4(%ebp),%eax 9c2: 01 d0 add %edx,%eax 9c4: 3b 45 f8 cmp -0x8(%ebp),%eax 9c7: 75 20 jne 9e9 <free+0xcf> p->s.size += bp->s.size; 9c9: 8b 45 fc mov -0x4(%ebp),%eax 9cc: 8b 50 04 mov 0x4(%eax),%edx 9cf: 8b 45 f8 mov -0x8(%ebp),%eax 9d2: 8b 40 04 mov 0x4(%eax),%eax 9d5: 01 c2 add %eax,%edx 9d7: 8b 45 fc mov -0x4(%ebp),%eax 9da: 89 50 04 mov %edx,0x4(%eax) p->s.ptr = bp->s.ptr; 9dd: 8b 45 f8 mov -0x8(%ebp),%eax 9e0: 8b 10 mov (%eax),%edx 9e2: 8b 45 fc mov -0x4(%ebp),%eax 9e5: 89 10 mov %edx,(%eax) 9e7: eb 08 jmp 9f1 <free+0xd7> } else p->s.ptr = bp; 9e9: 8b 45 fc mov -0x4(%ebp),%eax 9ec: 8b 55 f8 mov -0x8(%ebp),%edx 9ef: 89 10 mov %edx,(%eax) freep = p; 9f1: 8b 45 fc mov -0x4(%ebp),%eax 9f4: a3 68 0e 00 00 mov %eax,0xe68 } 9f9: 90 nop 9fa: c9 leave 9fb: c3 ret 000009fc <morecore>: static Header* morecore(uint nu) { 9fc: 55 push %ebp 9fd: 89 e5 mov %esp,%ebp 9ff: 83 ec 18 sub $0x18,%esp char *p; Header *hp; if(nu < 4096) a02: 81 7d 08 ff 0f 00 00 cmpl $0xfff,0x8(%ebp) a09: 77 07 ja a12 <morecore+0x16> nu = 4096; a0b: c7 45 08 00 10 00 00 movl $0x1000,0x8(%ebp) p = sbrk(nu * sizeof(Header)); a12: 8b 45 08 mov 0x8(%ebp),%eax a15: c1 e0 03 shl $0x3,%eax a18: 83 ec 0c sub $0xc,%esp a1b: 50 push %eax a1c: e8 39 fc ff ff call 65a <sbrk> a21: 83 c4 10 add $0x10,%esp a24: 89 45 f4 mov %eax,-0xc(%ebp) if(p == (char*)-1) a27: 83 7d f4 ff cmpl $0xffffffff,-0xc(%ebp) a2b: 75 07 jne a34 <morecore+0x38> return 0; a2d: b8 00 00 00 00 mov $0x0,%eax a32: eb 26 jmp a5a <morecore+0x5e> hp = (Header*)p; a34: 8b 45 f4 mov -0xc(%ebp),%eax a37: 89 45 f0 mov %eax,-0x10(%ebp) hp->s.size = nu; a3a: 8b 45 f0 mov -0x10(%ebp),%eax a3d: 8b 55 08 mov 0x8(%ebp),%edx a40: 89 50 04 mov %edx,0x4(%eax) free((void*)(hp + 1)); a43: 8b 45 f0 mov -0x10(%ebp),%eax a46: 83 c0 08 add $0x8,%eax a49: 83 ec 0c sub $0xc,%esp a4c: 50 push %eax a4d: e8 c8 fe ff ff call 91a <free> a52: 83 c4 10 add $0x10,%esp return freep; a55: a1 68 0e 00 00 mov 0xe68,%eax } a5a: c9 leave a5b: c3 ret 00000a5c <malloc>: void* malloc(uint nbytes) { a5c: 55 push %ebp a5d: 89 e5 mov %esp,%ebp a5f: 83 ec 18 sub $0x18,%esp Header *p, *prevp; uint nunits; nunits = (nbytes + sizeof(Header) - 1)/sizeof(Header) + 1; a62: 8b 45 08 mov 0x8(%ebp),%eax a65: 83 c0 07 add $0x7,%eax a68: c1 e8 03 shr $0x3,%eax a6b: 83 c0 01 add $0x1,%eax a6e: 89 45 ec mov %eax,-0x14(%ebp) if((prevp = freep) == 0){ a71: a1 68 0e 00 00 mov 0xe68,%eax a76: 89 45 f0 mov %eax,-0x10(%ebp) a79: 83 7d f0 00 cmpl $0x0,-0x10(%ebp) a7d: 75 23 jne aa2 <malloc+0x46> base.s.ptr = freep = prevp = &base; a7f: c7 45 f0 60 0e 00 00 movl $0xe60,-0x10(%ebp) a86: 8b 45 f0 mov -0x10(%ebp),%eax a89: a3 68 0e 00 00 mov %eax,0xe68 a8e: a1 68 0e 00 00 mov 0xe68,%eax a93: a3 60 0e 00 00 mov %eax,0xe60 base.s.size = 0; a98: c7 05 64 0e 00 00 00 movl $0x0,0xe64 a9f: 00 00 00 } for(p = prevp->s.ptr; ; prevp = p, p = p->s.ptr){ aa2: 8b 45 f0 mov -0x10(%ebp),%eax aa5: 8b 00 mov (%eax),%eax aa7: 89 45 f4 mov %eax,-0xc(%ebp) if(p->s.size >= nunits){ aaa: 8b 45 f4 mov -0xc(%ebp),%eax aad: 8b 40 04 mov 0x4(%eax),%eax ab0: 3b 45 ec cmp -0x14(%ebp),%eax ab3: 72 4d jb b02 <malloc+0xa6> if(p->s.size == nunits) ab5: 8b 45 f4 mov -0xc(%ebp),%eax ab8: 8b 40 04 mov 0x4(%eax),%eax abb: 3b 45 ec cmp -0x14(%ebp),%eax abe: 75 0c jne acc <malloc+0x70> prevp->s.ptr = p->s.ptr; ac0: 8b 45 f4 mov -0xc(%ebp),%eax ac3: 8b 10 mov (%eax),%edx ac5: 8b 45 f0 mov -0x10(%ebp),%eax ac8: 89 10 mov %edx,(%eax) aca: eb 26 jmp af2 <malloc+0x96> else { p->s.size -= nunits; acc: 8b 45 f4 mov -0xc(%ebp),%eax acf: 8b 40 04 mov 0x4(%eax),%eax ad2: 2b 45 ec sub -0x14(%ebp),%eax ad5: 89 c2 mov %eax,%edx ad7: 8b 45 f4 mov -0xc(%ebp),%eax ada: 89 50 04 mov %edx,0x4(%eax) p += p->s.size; add: 8b 45 f4 mov -0xc(%ebp),%eax ae0: 8b 40 04 mov 0x4(%eax),%eax ae3: c1 e0 03 shl $0x3,%eax ae6: 01 45 f4 add %eax,-0xc(%ebp) p->s.size = nunits; ae9: 8b 45 f4 mov -0xc(%ebp),%eax aec: 8b 55 ec mov -0x14(%ebp),%edx aef: 89 50 04 mov %edx,0x4(%eax) } freep = prevp; af2: 8b 45 f0 mov -0x10(%ebp),%eax af5: a3 68 0e 00 00 mov %eax,0xe68 return (void*)(p + 1); afa: 8b 45 f4 mov -0xc(%ebp),%eax afd: 83 c0 08 add $0x8,%eax b00: eb 3b jmp b3d <malloc+0xe1> } if(p == freep) b02: a1 68 0e 00 00 mov 0xe68,%eax b07: 39 45 f4 cmp %eax,-0xc(%ebp) b0a: 75 1e jne b2a <malloc+0xce> if((p = morecore(nunits)) == 0) b0c: 83 ec 0c sub $0xc,%esp b0f: ff 75 ec pushl -0x14(%ebp) b12: e8 e5 fe ff ff call 9fc <morecore> b17: 83 c4 10 add $0x10,%esp b1a: 89 45 f4 mov %eax,-0xc(%ebp) b1d: 83 7d f4 00 cmpl $0x0,-0xc(%ebp) b21: 75 07 jne b2a <malloc+0xce> return 0; b23: b8 00 00 00 00 mov $0x0,%eax b28: eb 13 jmp b3d <malloc+0xe1> nunits = (nbytes + sizeof(Header) - 1)/sizeof(Header) + 1; if((prevp = freep) == 0){ base.s.ptr = freep = prevp = &base; base.s.size = 0; } for(p = prevp->s.ptr; ; prevp = p, p = p->s.ptr){ b2a: 8b 45 f4 mov -0xc(%ebp),%eax b2d: 89 45 f0 mov %eax,-0x10(%ebp) b30: 8b 45 f4 mov -0xc(%ebp),%eax b33: 8b 00 mov (%eax),%eax b35: 89 45 f4 mov %eax,-0xc(%ebp) return (void*)(p + 1); } if(p == freep) if((p = morecore(nunits)) == 0) return 0; } b38: e9 6d ff ff ff jmp aaa <malloc+0x4e> } b3d: c9 leave b3e: c3 ret

512005be8b5d0b3a284ce22254e49f4c0ad7815c

asm

Assembly

oeis/313/A313778.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/313/A313778.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/313/A313778.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A313778: Coordination sequence Gal.6.203.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. ; Submitted by Simon Strandgaard ; 1,5,10,15,21,26,30,34,39,45,50,55,60,65,70,75,81,86,90,94,99,105,110,115,120,125,130,135,141,146,150,154,159,165,170,175,180,185,190,195 seq $0,315768 ; Coordination sequence Gal.6.628.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. mul $0,6 add $0,3 div $0,7

f72e800b2c700b1ab59b99e9bf7b068e6bc7c80a

asm

Assembly

crd2consl/crd2consl.asm

s390guy/simh_tests

545ca36d735f1136594c14ccabc8f5020a9d75e8

2021-12-01T01:32:22.000Z

2021-12-01T01:32:22.000Z

crd2consl/crd2consl.asm

s390guy/simh_tests

545ca36d735f1136594c14ccabc8f5020a9d75e8

crd2consl/crd2consl.asm

s390guy/simh_tests

545ca36d735f1136594c14ccabc8f5020a9d75e8

* Copyright 2021 Harold Grovesteen * * MIT License: * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. TITLE 'CRD2CONSL - SEND CARD CONTENTS TO CONSOLE' * Program Description: * * CRD2CONSL is a bare-metal program. It requires input/output commands to * the IPL card stream to read a card's contents and then send the card's * contents to the consolde device. * * The program is executed by means of an IPL from a card deck containing as * the last card the one that is sent to the console. The card contains * EBCDIC data and is part of the IPL deck. * * Target Architecture: S/360 * * Devices Used: * 10C - IPL card reader * 01F - Console device * * Program Register Usage: * * R0 Base register for access to the ASA. Required by DSECT usage * R1 Device Channel and Unit Address for I/O instructions * R11 Contains zero for STATUS clearing (zero from CPU reset). * R12 The program base register * R15 Subroutine return register * * Disabled Wait State PSW's address field values used by the program: * X'000000' - Successful execution of the program * X'000008' - Unexpected Restart interruption occurred. Old Restart PSW at * address X'8' * X'000018' - Unexpected External interruption occurred. Old External PSW at * address X'18' * X'000020' - Unexpected Supervisor interruption occurred. Old Supervisor * PSW at address X'20' * X'000028' - Unexpected Program interruption occurred. Old Program PSW at * address X'28' * X'000030' - Unexpected Machine Check interruption occurred. Old Machine * Check PSW at address X'30' * X'000038' - Unexpected Input/Output interruption occurred. Old Input/Output * PSW at address X'38' * X'010004' - Console Device X'01F' or channel not operational * X'010008' - Console Device X'01F' or channel busy * X'01000C' - Console Device X'01F' or channel had a problem. See CSW. * X'010010' - Unexpected interruption from some other device. See ASA X'BA' * X'010014' - Console channel error occurred * X'010018' - Console device did not complete the I/O without a problem * X'020004' - Reader Device X'00C' or channel not operational * X'020008' - Reader Device X'00C' or channel busy * X'02000C' - Reader Device X'00C' or channel had a problem. See CSW. * X'020010' - Not used * X'020014' - Reader channel error occurred * X'020018' - Reader device did not complete the I/O without a problem EJECT * See all object data and macro generated model statements in the listing PRINT DATA,GEN SPACE 1 * Inform the SATK macros of the architecture being targeted. Inferred from * the ASMA -t command-line argument. ARCHLVL * Ensure interrupt traps are loaded by iplasma.py before program execution * begins. This macro will create the memory region that will also contain * the IPL PSW. The region name defaults to ASAREGN. iplasma.py knows how * to deal with this situation. ASASECT ASALOAD ASAIPL IA=PGMSTART Define the bare-metal program's IPL PSW SPACE 2 * * The Bare-Metal Hello World Program * SPACE 1 PGMSECT START X'2000',CRD2CSL Start a second region for the program itself * This results in CRD2CSL.bin being created in the list directed IPL directory USING ASA,0 Give me instruction access to the ASA CSECT PGMSTART BALR 12,0 Establish my base register USING *,12 Tell the assembler SPACE 1 LH 1,2 Get the card reader device address (stored by IPL) * Do this before bytes 2 and 3 are overlayed by the restart trap PSW. SPACE 1 * Ensure program is not re-entered by a Hercules console initiated restart. * Address 0 changed from its absolute storage role (IPL PSW) to its real * storage role (Restart New PSW) after the IPL. * Change from the IPL PSW at address 0 to Restart New PSW trap MVC RSTNPSW,PGMRS SPACE 3 * Most systems pass control to the CPU following receipt of CE and DE from * the IPL device. On some systems, the transfer occurs upon receipt of * CE allowing the device to later supply the DE. The following code is * used to effect the same wait for DE that usually happens by the hardware * executing the IPL function. IPLWAIT TIO 0(1) Request the IPL device status BC B'0001',RNOAVL If CC=3, device unavailable. Tell someone. * IF CC=2 or 1, busy or CSW stored, wait until the device is available. * The assumption is that the CSW contains the DE that the program is waiting * to see. The program does not really care about the received status. * It is just looking for the IPL device to be available. BC B'0110',IPLWAIT * CC=0, available, allows the program to continue. SPACE 1 * Note: For systems the do NOT transfer control to the CPU until DE IS * received, the above sequence will return CC=0 on the first TIO and proceed * into the program as it would normally. SPACE 3 * Read a card from the IPL device * No need to validate that the IPL device is present. The fact that this * program got loaded and is executing proves the reader device is present and * working. MVC CAW(4),RCCWADDR Identify the IPL device CCW to be executed SIO 0(1) Request the reader channel program to start, did it? BC B'0001',RNOAVL ..No, CC=3 don't know why, but tell someone. BC B'0010',RBUSY ..No, CC=2 console device or channel is busy BC B'0100',RCSW ..No, CC=1 CSW stored in ASA at X'40' * Reader device is now sending the card's contents (CC=0) * Wait for an I/O interruption RDRWAIT BAL 15,DOWAIT WAIT FOR I/O interrupt SPACE 1 * I/O results can now be checked. * Yes, check the CSW conditions to determine if the console I/O worked OC STATUS,CSW+4 Accummulate Device and Channel status CLI STATUS+1,X'00' Did the channel have, a problem? BNE RCHLERR ..Yes, end with a reader channel error TM STATUS,X'F3' Did the unit encounter a problem? BNZ RUNTERR ..No, end with a unit error TM STATUS,X'0C' Did both channel and unit end? BNO RDRWAIT Wait again for both to be done * CARD HAS BEEN SUCCESSFULLY READ! SPACE 3 * Determine if the console device, subchannel and channel are ready for use. LH 1,CONDEV Set up I/O device address in I/O instruction register TIO 0(1) Determine if the console is there BC B'0001',DEVNOAVL ..No, CC=3 might have a different config address BC B'0010',DEVBUSY ..No, CC=2 console device or channel is busy BC B'0100',DEVCSW ..No, CC=1 CSW stored in ASA at X'40' * Console device is available (CC=0)! SPACE 1 * Prepare for I/O to console STH 11,STATUS Clear status for console I/O operation MVC CAW(4),CCWADDR Identify in ASA where first CCW resides SPACE 1 * Send the Hello World message to the console SIO 0(1) Request console channel program to start, did it? BC B'0001',DEVNOAVL ..No, CC=3 don't know why, but tell someone. BC B'0010',DEVBUSY ..No, CC=2 console device or channel is busy BC B'0100',DEVCSW ..No, CC=1 CSW stored in ASA at X'40' * Console device is now receiving the card contents (CC=0) SPACE 1 * Wait for an I/O interruption CONWAIT BAL 15,DOWAIT SPACE 1 * I/O results can now be checked. * Yes, check the CSW conditions to determine if the console I/O worked OC STATUS,CSW+4 Accummulate Device and Channel status CLI STATUS+1,X'00' Did the channel have, a problem? BNE CHNLERR ..Yes, end with a channel error TM STATUS,X'F3' Did the unit encounter a problem? BNZ UNITERR ..No, end with a unit error TM STATUS,X'0C' Did both channel and unit end? BNO CONWAIT Wait again for both to be done * Both channel and unit have ended SPACE 1 * HURRAY! CARD CONTENTS HAVE BEEN SENT TO THE CONSOLE! LPSW DONE Normal program termination SPACE 3 * * I/O WAIT SUBROUTINE * DOWAIT MVC IONPSW(8),CONT Set up continuation PSW for after I/O interrupt LPSW WAIT Wait for I/O interruption and CSW from channel IODONE EQU * The bare-metal program continues here after I/O MVC IONPSW(8),IOTRAP Restore I/O trap PSW * Did the interruption come from the expected device? CH 1,IOOPSW+2 Is the interrupt from the expected device? BER 15 ..Yes, return to caller B DEVUNKN ..No, end program with an error SPACE 3 * End the bare-metal program with an error indicated in PSW DEVNOAVL LPSW NODEV Code 004 End console device is not available DEVBUSY LPSW BUSYDEV Code 008 End because device is busy (no wait) DEVCSW LPSW CSWSTR Code 00C End because CSW stored in ASA DEVUNKN LPSW NOTCON Code 010 End unexpected device caused I/O interruption CHNLERR LPSW CHERROR Code 014 End because console channel error occurred UNITERR LPSW DVERROR Code 018 End because console device error occurred RNOAVL LPSW RNODEV Code 004 End reader device is not available RBUSY LPSW RBUSYDEV Code 008 End because reader device is busy (no wait) RCSW LPSW RCSWSTR Code 00C End because CSW stored in ASA for reader *RUNKN LPSW RNOTCON Code 010 End unexpected device caused I/O interruption RCHLERR LPSW RCHERROR Code 014 End because reader channel error occurred RUNTERR LPSW RDVERROR Code 018 End because reader device error occurred SPACE 1 * I/O related information CCWADDR DC A(CONCCW) Address of first CCW to be executed by console device. RCCWADDR DC A(RDRCCW) Address of first CCW to be executed by reader device. CONDEV DC XL2'001F' Console device address STATUS DC XL2'0000' Used to accumulate unit and channel status SPACE 1 * CCW used by the program to write the card contents to the console CONCCW CCW0 X'09',RIOAREA,0,L'RIOAREA Write card to console with CR * CCW0 X'03',0,0,1 ..then a NOP. * If the preceding NOP CCW command is enabled, then the CONCCW must set * command chaining in the flag byte, setting the third operand to X'40' SPACE 1 * CCW used to read the card from the IPL device stream on X'00C' RDRCCW CCW X'02',RIOAREA,0,L'RIOAREA Read the card into memory * CCW0 X'03',0,0,1 ..then a NOP. * If the preceding NOP CCW command is enabled, then the RDRCW must set * command chaining in the flag byte, setting the third operand to X'40' SPACE 1 * PSW's used by the bare-metal program PGMRS DWAIT CODE=008 Restart New PSW trap. Points to Restart Old PSW WAIT PSW360 X'F8',0,2,0,0 Causes CPU to wait for I/O interruption CONT PSW360 0,0,0,0,IODONE Causes the CPU to continue after waiting IOTRAP PSW360 0,0,2,0,X'38' I/O trap New PSW (restored after I/O) SPACE 1 * PSW's terminating program execution DONE DWAITEND Successful execution of the program NODEV DWAIT PGM=01,CMP=0,CODE=004 Console device not available BUSYDEV DWAIT PGM=01,CMP=0,CODE=008 Console device busy CSWSTR DWAIT PGM=01,CMP=0,CODE=00C CSW stored in ASA NOTCON DWAIT PGM=01,CMP=0,CODE=010 Unexpected interruption from other device CHERROR DWAIT PGM=01,CMP=0,CODE=014 Console channel error occurred DVERROR DWAIT PGM=01,CMP=0,CODE=018 Console device error occurred RNODEV DWAIT PGM=02,CMP=0,CODE=004 Reader device not available RBUSYDEV DWAIT PGM=02,CMP=0,CODE=008 Reader device busy RCSWSTR DWAIT PGM=02,CMP=0,CODE=00C CSW stored in ASA *RNOTCON DWAIT PGM=02,CMP=0,CODE=010 Unexpected interruption from other device RCHERROR DWAIT PGM=02,CMP=0,CODE=014 Reader channel error occurred RDVERROR DWAIT PGM=02,CMP=0,CODE=018 Reader device error occurred SPACE 3 * No constants should be placed below this area. Base register not needed * because this area is only referenced by CCW's RIOAREA DS 0CL80 * Note: the 0 ensures no space is reserved in IPL deck for this area. SPACE 3 * * Hardware Assigned Storage Locations * SPACE 1 * This DSECT allows symbolic access to these locations. The DSECT created is * named ASA. ASA ASAREA DSECT=YES END

0ac6e7bb3d515be8f1d37c2103f54f4b4fe038fb

asm

Assembly

oeis/246/A246146.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/246/A246146.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/246/A246146.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A246146: Limiting block extension of A010060 (Thue-Morse sequence) with first term as initial block. ; 0,1,1,0,0,1,1,0,1,0,0,1,0,1,1,0,1,0,0,1,1,0,0,1,0,1,1,0,1,0,0,1,0,1,1,0,0,1,1,0,1,0,0,1,1,0,0,1,0,1,1,0,0,1,1,0,1,0,0,1,0,1,1,0,1,0,0,1,1,0,0,1,0,1,1,0,0,1,1,0,1,0,0,1,1,0 add $0,180 lpb $0 sub $0,1 sub $1,$0 add $0,1 div $0,2 lpe mov $0,$1 mod $0,2 add $0,2 mod $0,2

f8efa029234348b0453513352a4e4ef983257edb

asm

Assembly

micro/assembler/sub_test.asm

andrewparlane/fiuba6633_lab_de_sistemas_digitales

909b33d640315f38220d268f113fc2ab8fa5e322

micro/assembler/sub_test.asm

andrewparlane/fiuba6633_lab_de_sistemas_digitales

909b33d640315f38220d268f113fc2ab8fa5e322

micro/assembler/sub_test.asm

andrewparlane/fiuba6633_lab_de_sistemas_digitales

909b33d640315f38220d268f113fc2ab8fa5e322

# ---------------------------------------------------------------------- # Test_name: sub_test # ---------------------------------------------------------------------- # # RAM memory will be structured in the following manner: # # +---------+----------+ # | Address | Variable | # +---------+----------+ # | RAM[00] | A | # | RAM[01] | B | # | RAM[02] | Y | # +---------+----------+ # # Where: # - Y = A - B # # # ROM Memory will be loaded with the following program: # ---------------------------------------------------------------------- $begin: LOAD A,0; # Load A operand SUB A,1; # ALU Operation to be tested. STORE A,2; # Save result LOAD A,0; # Load A operand ADDI A,1; # Add +1 to A operand STORE A,0; # Save A operand JZ $incb; # Jump to increase B operand if A operand is 0 JUMP $begin; # Start again the operation $incb: LOAD A,1; # Load B operand ADDI A,1; # Add +1 to B operand STORE A,1; # Save B operand JZ $end; # Go to end JUMP $begin; # Start again the operation $end: JUMP $end; # End, Finish test

c18a95064a8e7b93bacb8d725fecf4dfcbdbe291

asm

Assembly

wof/lcs/base/1F8.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

2020-10-14T15:29:10.000Z

2022-02-12T18:58:54.000Z

wof/lcs/base/1F8.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

wof/lcs/base/1F8.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

2020-12-17T08:59:10.000Z

2020-12-17T08:59:10.000Z

copyright zengfr site:http://github.com/zengfr/romhack 012A70 clr.b ($1f8,A5) [base+1DC] 012A74 clr.b ($200,A5) 012B0E bne $12b30 01A610 dbra D1, $1a60e copyright zengfr site:http://github.com/zengfr/romhack

67d8b2c0ec8fdae8a4677ed22b1d2422be8ad89b

asm

Assembly

oeis/097/A097075.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/097/A097075.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/097/A097075.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A097075: Expansion of (1-x-x^2)/(1-x-3*x^2-x^3). ; Submitted by Jon Maiga ; 1,0,2,3,9,20,50,119,289,696,1682,4059,9801,23660,57122,137903,332929,803760,1940450,4684659,11309769,27304196,65918162,159140519,384199201,927538920,2239277042,5406093003,13051463049,31509019100,76069501250 mov $2,$0 mov $4,2 lpb $4 mov $0,$2 sub $4,1 add $0,$4 trn $0,1 seq $0,133654 ; a(n) = 2*A000129(n) - 1. div $0,4 add $0,1 mov $5,$4 mul $5,$0 add $3,$5 lpe min $2,1 mul $2,$0 mov $0,$3 sub $0,$2

a00904b5f0f8baff56953c73492c8a9399892b56

asm

Assembly

src/game_of_life_graphics.asm

Kippiii/Assembly-Game-Of-Life

45c1d85a16855ad22264a1a437f6d01553a9bb9e

src/game_of_life_graphics.asm

Kippiii/Assembly-Game-Of-Life

45c1d85a16855ad22264a1a437f6d01553a9bb9e

src/game_of_life_graphics.asm

Kippiii/Assembly-Game-Of-Life

45c1d85a16855ad22264a1a437f6d01553a9bb9e

; main PROC for Game of Life ; prompts user for input ; displays current board ; IDEAS ; Nicer cursor? ; Random boards include Irvine32.inc include backend.inc .data MAXIMUM_HEIGHT BYTE 255 MAXIMUM_WIDTH BYTE 255 carriage_X_pos BYTE 0 carriage_Y_pos BYTE 0 prev_map DWORD ? world_map DWORD ? board_size DWORD ? current_key_stroke BYTE ?, 0 array_position WORD 0 hHeap DWORD ? WELCOME_PROMPT BYTE "<-> John Conway's Game of Life <->", 0AH, 0DH, 0 MAIN_MENU BYTE "<->.......Controls......<->", 0AH, 0DH, 0 PROMPT_1 BYTE "w Shift carriage up.....<->", 0AH, 0DH, 0 PROMPT_2 BYTE "a Shift carriage left...<->", 0AH, 0DH, 0 PROMPT_3 BYTE "s Shift carriage down...<->", 0AH, 0DH, 0 PROMPT_4 BYTE "d Shift carriage right..<->", 0AH, 0DH, 0 PROMPT_5 BYTE "q Quit Game.............<->", 0AH, 0DH, 0 PROMPT_6 BYTE "p Toggle pause/continue.<->", 0AH, 0DH, 0 PROMPT_7 BYTE "f Step one frame........<->", 0AH, 0DH, 0 PROMPT_8 BYTE "x Flip Cell.............<->", 0AH, 0DH, 0 PROMPT_9 BYTE "c Clear all cells.......<->", 0AH, 0DH, 0 PROMPT_10 BYTE "r Randomize the grid....<->", 0AH, 0DH, 0 BOTTOM_FRAME BYTE "<->.....................<->", 0AH, 0DH, 0 P_CHAR BYTE "p", 0 F_CHAR BYTE "f", 0 Q_CHAR BYTE "q", 0 X_CHAR BYTE "x", 0 W_CHAR BYTE "w", 0 A_CHAR BYTE "a", 0 S_CHAR BYTE "s", 0 D_CHAR BYTE "d", 0 C_CHAR BYTE "c", 0 R_CHAR BYTE "r", 0 SPACE_CHAR BYTE " ", 0 LEAVING_SET_CELL BYTE "LEAVING set_cell", 0 .code display_WELCOME PROC ; INPUT: NONE mov EDX, OFFSET WELCOME_PROMPT call WriteString ; Print WELCOME_PROMPT call WaitMsg ; Stop program, Print "Press any key to continue..." call Clrscr ret ; OUTPUT: NONE display_WELCOME ENDP .code display_MAIN_MENU PROC ; INPUT: NONE mov EDX, OFFSET MAIN_MENU call WriteString ; Print MAIN_MENU mov EDX, OFFSET PROMPT_1 call WriteString ; Print PROMPT_1 mov EDX, OFFSET PROMPT_2 call WriteString ; Print PROMPT_2 mov EDX, OFFSET PROMPT_3 call WriteString ; Print PROMPT_3 mov EDX, OFFSET PROMPT_4 call WriteString ; Print PROMPT_4 mov EDX, OFFSET PROMPT_5 call WriteString ; Print PROMPT_5 mov EDX, OFFSET PROMPT_6 call WriteString ; Print PROMPT_6 mov EDX, OFFSET PROMPT_7 call WriteString ; Print PROMPT_7 mov EDX, OFFSET PROMPT_8 call WriteString ; Print PROMPT_8 mov EDX, OFFSET PROMPT_9 call WriteString ; Print PROMPT_9 mov EDX, OFFSET PROMPT_10 call WriteString ; Print PROMPT_10 mov EDX, OFFSET BOTTOM_FRAME call WriteString ; Print BOTTOM_FRAME call WaitMsg call Clrscr ret ; OUTPUT: NONE display_MAIN_MENU ENDP .code set_cell PROC ; INPUT: NONE mov EAX, 0 mov AL, carriage_Y_pos mul MAXIMUM_WIDTH mov BX, 0 mov BL, carriage_X_pos add AX, BX mov ESI, world_map add ESI, EAX xor BYTE PTR [ESI], 1 ret ; OUTPUT: NONE set_cell ENDP .code initialize_world_map PROC ; INPUT: NONE call Randomize mov ESI, 0 mov ECX, board_size L1: mov EDI, world_map add EDI, ESI mov AL, BYTE PTR [EDI] mov EAX, 2d ; generate random integers call RandomRange ; 0 or 1 in EAX mov BYTE PTR [EDI], BYTE PTR AL ; store in the array add ESI, 1 ; next array position loop L1 ret ; OUTPUT: NONE initialize_world_map ENDP .code display_board PROC ; INPUT: NONE and edx, 0 ; Set the values for Gotoxy at the origin, DL, DH call Gotoxy mov esi, 0 ; Start counter mov ecx, board_size ; Maximum loops cld L1: ; Only updating when the value has been updating mov edi, world_map add edi, esi mov al, byte ptr [edi] mov edi, prev_map add edi, esi cmp al, byte ptr [edi] jz CONTINUE_L1 mov eax, esi mov bl, MAXIMUM_WIDTH div bl mov dl, ah mov dh, al call Gotoxy FIRST_RUN: mov edi, world_map add edi, esi mov al, BYTE PTR [edi] cmp al, 1 jz PRINT_X_CHAR_LABEL jnz PRINT_SPACE_CHAR_LABEL CONTINUE_L1: add ESI, 1 cmp ECX, 1 jz RET_LABEL loop L1 PRINT_X_CHAR_LABEL: mov EAX, black + (white * 16) call SetTextColor mov EDX, OFFSET SPACE_CHAR call WriteString jmp CONTINUE_L1 PRINT_SPACE_CHAR_LABEL: mov EAX, white + (black * 16) call SetTextColor mov EDX, OFFSET SPACE_CHAR call WriteString jmp CONTINUE_L1 RET_LABEL: mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy push world_map push prev_map push board_size call copy_array ret ; OUTPUT: NONE display_board ENDP ; MAIN PROGRAM game_of_life_main PROC ; Initializing the heap TODO (Handle errors?) invoke GetProcessHeap mov hHeap, eax ; get board measurements call GetMaxXY mov MAXIMUM_HEIGHT, AL mov MAXIMUM_WIDTH, DL mov eax, 0 mov al, MAXIMUM_HEIGHT mul MAXIMUM_WIDTH mov board_size, eax invoke HeapAlloc, hHeap, HEAP_ZERO_MEMORY, board_size mov world_map, eax invoke HeapAlloc, hHeap, HEAP_ZERO_MEMORY, board_size mov prev_map, eax mov esi, prev_map mov ecx, board_size PREV_ARR_MAP: mov byte ptr [esi], 2 inc esi loop PREV_ARR_MAP ; display WELCOME_PROMPT call display_WELCOME ; display MAIN_MENU call display_MAIN_MENU mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy ; while user doesnt press "q" MAIN_LABEL: mov EAX, white + (blue * 16) call SetTextColor call Clrscr call display_board jmp PAUSE_LABEL INPUT_LABEL: mov ESI, world_map mov EAX, 0 mov AL, MAXIMUM_HEIGHT mov EBX, 0 mov BL, MAXIMUM_WIDTH push ESI push EAX push EBX call update_board call display_board mov EAX, 50 call Delay call ReadKey ; Get keyboard input jz INPUT_LABEL ; If no input was given, repeat INPUT_LABEL mov current_key_stroke, AL ; current_key_stroke = ReadKey() ; check if p mov AL, P_CHAR cmp AL, current_key_stroke jz PAUSE_LABEL ; if current_key_stroke == 'p' ; check if q mov AL, Q_CHAR cmp AL, current_key_stroke jz EXIT_LABEL ; if current_key_stroke == 'q' ; check if w, a, s, OR d jnz INPUT_LABEL ; if no match to p, f, q, w, a, s, d, jump to INPUT_LABEL PAUSE_LABEL: mov EAX, 10 call Delay call ReadKey ; Get keyboard input jz PAUSE_LABEL ; If no input was given, repeat PAUSE_LABEL mov current_key_stroke, AL ; current_key_stroke = ReadKey() mov AL, Q_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'q' jz EXIT_LABEL mov AL, P_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'p' jz INPUT_LABEL mov AL, F_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'f' jz FRAME_LABEL mov AL, X_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'x' jz CALL_SET_CELL_LABEL mov AL, W_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'w' jz MOVE_CELL_UP_LABEL mov AL, A_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'a' jz MOVE_CELL_LEFT_LABEL mov AL, S_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 's' jz MOVE_CELL_DOWN_LABEL mov AL, D_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'd' jz MOVE_CELL_RIGHT_LABEL mov AL, C_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'c' jz CLEAR_MAP mov AL, R_CHAR cmp AL, current_key_stroke ; if current_key_stroke == 'r' jz RANDOM_MAP jmp PAUSE_LABEL MOVE_CELL_UP_LABEL: cmp carriage_Y_pos, 0 je PAUSE_LABEL sub carriage_Y_pos, 1 mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy jmp PAUSE_LABEL MOVE_CELL_LEFT_LABEL: cmp carriage_X_pos, 0 je PAUSE_LABEL sub carriage_X_pos, 1 mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy jmp PAUSE_LABEL MOVE_CELL_DOWN_LABEL: mov AL, MAXIMUM_HEIGHT sub AL, 1 cmp carriage_Y_pos, AL je PAUSE_LABEL add carriage_Y_pos, 1 mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy jmp PAUSE_LABEL MOVE_CELL_RIGHT_LABEL: mov AL, MAXIMUM_WIDTH sub AL, 1 cmp carriage_X_pos, AL je PAUSE_LABEL add carriage_X_pos, 1 mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy jmp PAUSE_LABEL CALL_SET_CELL_LABEL: call set_cell call display_board jmp PAUSE_LABEL FRAME_LABEL: mov ESI, world_map mov EAX, 0 mov AL, MAXIMUM_HEIGHT mov EBX, 0 mov BL, MAXIMUM_WIDTH push ESI push EAX push EBX call update_board call display_board mov DL, carriage_X_pos mov DH, carriage_Y_pos call Gotoxy jmp PAUSE_LABEL CLEAR_MAP: mov ecx, board_size mov esi, world_map CLEAR_MAP_LOOP: mov byte ptr [esi], 0 inc esi loop CLEAR_MAP_LOOP call display_board jmp PAUSE_LABEL RANDOM_MAP: call initialize_world_map ; initialize a random board call display_board jmp PAUSE_LABEL EXIT_LABEL: INVOKE HeapFree, hHeap, 0, world_map exit game_of_life_main ENDP END game_of_life_main

f4294ea9bf5123d636a3145fc7e1ae75a65ea05f

asm

Assembly

libsrc/_DEVELOPMENT/sound/sn76489/c/sccz80/PSGSFXPlayLoop_callee.asm

ahjelm/z88dk

c4de367f39a76b41f6390ceeab77737e148178fa

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/_DEVELOPMENT/sound/sn76489/c/sccz80/PSGSFXPlayLoop_callee.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/_DEVELOPMENT/sound/sn76489/c/sccz80/PSGSFXPlayLoop_callee.asm

C-Chads/z88dk

a4141a8e51205c6414b4ae3263b633c4265778e6

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; void PSGSFXPlayLoop(void *sfx,unsigned char channels) SECTION code_clib SECTION code_PSGlib PUBLIC PSGSFXPlayLoop_callee EXTERN asm_PSGlib_SFXPlayLoop PSGSFXPlayLoop_callee: pop af pop bc pop de push af jp asm_PSGlib_SFXPlayLoop ; SDCC bridge for Classic IF __CLASSIC PUBLIC _PSGSFXPlayLoop_callee defc _PSGSFXPlayLoop_callee = PSGSFXPlayLoop_callee ENDIF

761b5ecd9784a325fd60dff471b254339fabd126

asm

Assembly

oeis/296/A296081.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/296/A296081.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/296/A296081.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A296081: a(n) = gcd(tau(n)-1, sigma(n)-1), where tau = A000005 and sigma = A000203. ; Submitted by Christian Krause ; 0,1,1,2,1,1,1,1,2,1,1,1,1,1,1,2,1,1,1,1,1,1,1,1,2,1,3,5,1,1,1,1,1,1,1,2,1,1,1,1,1,1,1,1,1,1,1,3,2,1,1,1,1,7,1,7,1,1,1,1,1,1,1,6,1,1,1,5,1,1,1,1,1,1,1,1,1,1,1,1,4,1,1,1,1,1,1,1,1,1,3,1,1,1,1,1,1,5,5,8 add $0,1 mov $2,$0 lpb $0 add $1,$4 mov $3,$2 dif $3,$0 sub $0,1 cmp $3,$2 cmp $3,0 add $4,$3 lpe gcd $1,$4 mov $0,$1

57a8c7a10f61f1e915362fc3dc12e408e7aef965

asm

Assembly

chap18/ex33/double_div_26.asm

JamesType/optimization-manual

61cdcebb16e0768a6ab7e85ed535e64e9d8cc31a

2021-06-08T10:42:01.000Z

2022-03-29T14:21:45.000Z

chap18/ex33/double_div_26.asm

JamesType/optimization-manual

61cdcebb16e0768a6ab7e85ed535e64e9d8cc31a

2021-06-11T20:24:02.000Z

2021-06-11T20:24:02.000Z

chap18/ex33/double_div_26.asm

JamesType/optimization-manual

61cdcebb16e0768a6ab7e85ed535e64e9d8cc31a

2021-06-08T11:25:29.000Z

2022-03-05T05:14:17.000Z

; ; Copyright (C) 2021 by Intel Corporation ; ; Permission to use, copy, modify, and/or distribute this software for any ; purpose with or without fee is hereby granted. ; ; THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH ; REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY ; AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, ; INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM ; LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR ; OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR ; PERFORMANCE OF THIS SOFTWARE. ; ; .globl double_div_26 ; void double_div_26(double *a, double *b, double *out); ; On entry: ; rcx = a ; rdx = b ; r8 = out .code double_div_26 PROC public vmovupd zmm0, [rcx] vmovupd zmm1, [rdx] vrcp14pd zmm2, zmm1 vmulpd zmm3, zmm0, zmm2 vmovapd zmm4, zmm0 vfnmadd231pd zmm4, zmm3, zmm1 vfmadd231pd zmm3, zmm4, zmm2 vmovupd [r8], zmm3 vzeroupper ret double_div_26 ENDP end

75ada34c4e5bb2790373e03a113a8e68c333ca7c

asm

Assembly

sse/main.asm

DaveAxiom/simd

8140b8e12bf4f9cb24b7601b98b44525b8ba9e72

2020-07-09T04:06:17.000Z

2021-08-07T17:40:46.000Z

sse/main.asm

DaveAxiom/simd

8140b8e12bf4f9cb24b7601b98b44525b8ba9e72

2020-10-05T12:23:51.000Z

2020-10-05T12:23:51.000Z

sse/main.asm

DaveAxiom/simd

8140b8e12bf4f9cb24b7601b98b44525b8ba9e72

2020-10-02T00:26:40.000Z

2020-10-02T00:26:40.000Z

%define SYS_EXIT 60 segment .data src: db 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15, 1, 15 shift: db 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13 cap: db 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25 cap0: db 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26 segment .text global _start rot13_16b: movaps xmm0, [rax] movaps xmm1, [shift] paddb xmm0, xmm1 movaps xmm2, xmm0 movaps xmm1, [cap] pcmpgtb xmm0, xmm1 movaps xmm1, [cap0] pand xmm0, xmm1 psubb xmm2, xmm0 movaps [rax], xmm2 ret _start: mov rax, src call rot13_16b call rot13_16b mov rax, SYS_EXIT mov rdi, 0 syscall ret

fb674e1a1c9afb2ea3af6183edf20073e2ce64ac

asm

Assembly

gfx/pokemon/sentret/anim.asm

pokeachromicdevs/pokeoctober

db74bb68bbfceac07eec6d64674bc24fd4c0b67f

2021-07-05T23:48:37.000Z

2021-07-05T23:48:37.000Z

gfx/pokemon/sentret/anim.asm

AtmaBuster/pokeoctober

12652b84eb2df1a0ed2f654a0ffcfb78202e515f

2020-12-16T01:11:20.000Z

2020-12-16T22:53:56.000Z

gfx/pokemon/sentret/anim.asm

AtmaBuster/pokeoctober

12652b84eb2df1a0ed2f654a0ffcfb78202e515f

2021-07-05T23:33:22.000Z

2021-07-05T23:33:22.000Z

frame 0, 15 frame 1, 15 frame 2, 15 frame 1, 15 frame 2, 15 frame 1, 15 frame 3, 7 frame 1, 7 frame 3, 7 frame 1, 7 frame 3, 7 frame 0, 15 endanim

1f7755ab598ce970f2d484b806c28e8bbd3e9930

asm

Assembly

sys.asm

lybrown/edfries-chess-xasm

81d716492c7276bffa815caa4077f046f092d89a

2021-08-12T08:52:52.000Z

2021-08-12T08:52:52.000Z

sys.asm

lybrown/edfries-chess-xasm

81d716492c7276bffa815caa4077f046f092d89a

sys.asm

lybrown/edfries-chess-xasm

81d716492c7276bffa815caa4077f046f092d89a

; SCREEN ROWCRS equ $54 COLCRS equ $55 TEMP1 equ $312+1 ;TEMP LOCATIONS ; IOCB OFFSETS IOCB equ $340 ;I/O CONTROL BLOCKS ICHID equ $340 ;HANDLER INDEX ($FF = FREE) ICDNO equ $341 ;DEVICE NUMBER (DRIVE NUMBER) ICCOM equ $342 ;COMMAND CODE ICSTA equ $343 ;STATUS ICBAL equ $344 ;BUFFER ADDRESS ICBAH equ $345 ; ... ICPTL equ $346 ;PUT BYTE ROUTINE ADDRESS - 1 ICPTH equ $347 ; ... ICBLL equ $348 ;BUFFER LENGTH ICBLH equ $349 ; ... ICAX1 equ $34A ;AUXILLARY INFO ICAX2 equ $34B ; ... ICSPR equ $34C ;4 SPARE BYTES ; JUMP VECTOR TABLE DISKIV equ $E450 ;DISK INITIALIZATION DSKINV equ $E453 ;DISK INTERFACE CIOV equ $E456 ;CIO ROUTINE SIOV equ $E459 ;SIO ROUTINE SETVBV equ $E45C ;SET VERTICAL BLANK VECTORS SYSVBV equ $E45F ;SYSTEM VERTICAL BLANK ROUTINE XITVBV equ $E462 ;EXIT VERTICAL BLANK ROUTINE SIOINV equ $E465 ;SIO INIT SENDEV equ $E468 ;SEND ENABLE ROUTINE INTINV equ $E46B ;INTERRUPT HANDLER INIT CIOINV equ $E46E ;CIO INIT BLKBDV equ $E471 ;BLACKBOARD MODE WARMSV equ $E474 ;WARM START ENTRY POINT COLDSV equ $E477 ;COLD START ENTRY POINT RBLOKV equ $E47A ;CASSETTE READ BLOCK VECTOR CSOPIV equ $E47D ;CASSETTE OPEN VECTOR DSOPIV equ $E480 ;CASSETTE OPEN FOR INPUT VECTOR ; COMMAND CODES FOR IOCB OPEN equ $03 ;OPEN FOR INPUT/OUTPUT GETREC equ $05 ;GET RECORD (TEXT) GETCHR equ $07 ;GET CHARACTER(S) PUTREC equ $09 ;PUT RECORD (TEXT) PUTCHR equ $0B ;PUT CHARACTER(S) CLOSE equ $0C ;CLOSE DEVICE STATIS equ $0D ;STATUS REQUEST SPECIL equ $0E ;SPECIAL ENTRY COMMANDS ; AUX1 VALUES FOR OPEN APPEND equ $01 ;OPEN FOR APPEND DIRECT equ $02 ;OPEN FOR DIRECTORY ACCESS OPNIN equ $04 ;OPEN FOR INPUT OPNOT equ $08 ;OPEN FOR OUTPUT OPNINO equ [OPNIN|OPNOT] ;OPEN FOR INPUT/OUTPUT MXDMOD equ $10 ;OPEN FOR MIXED MODE INSCLR equ $20 ;OPEN WITHOUT CLEARING SCREEN

9d25fbb6d979cbaf26cd495924726880fca6841d

asm

Assembly

programs/oeis/047/A047599.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/047/A047599.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/047/A047599.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

; A047599: Numbers that are congruent to {0, 3, 4, 5} mod 8. ; 0,3,4,5,8,11,12,13,16,19,20,21,24,27,28,29,32,35,36,37,40,43,44,45,48,51,52,53,56,59,60,61,64,67,68,69,72,75,76,77,80,83,84,85,88,91,92,93,96,99,100,101,104,107,108,109,112,115,116,117,120,123,124 add $0,7 mov $1,$0 div $1,4 mul $1,2 mov $2,$0 lpb $2,1 mov $3,$0 add $3,2 mov $0,$3 sub $2,4 lpe add $1,$0 sub $1,13

1fcc712012fb0238c0e9b515833df948f4b76a83

asm

Assembly

base/atari/putchar.asm

zbyti/Mad-Pascal

546cae9724828f93047080109488be7d0d07d47e

2020-05-02T15:37:57.000Z

2021-02-17T01:59:41.000Z

base/atari/putchar.asm

michalkolodziejski/Mad-Pascal

0a7a1e2f379e50b0a23878b0d881ff3407269ed6

2020-05-03T02:02:35.000Z

2020-08-10T08:41:19.000Z

base/atari/putchar.asm

michalkolodziejski/Mad-Pascal

0a7a1e2f379e50b0a23878b0d881ff3407269ed6

2020-06-02T18:34:14.000Z

2020-07-09T18:13:44.000Z

; unit GRAPH: InitGraph, PutPixel, LineTo ; unit S2: SetGraphMode /* PUT CHAR Procedura wyprowadza znak na ekran na pozycji X/Y kursora okreslonej przez zmienne odpowiednio COLCRS ($55-$56) i ROWCRS ($54). Zaklada sie, ze obowiazuja przy tym domyslne ustawienia OS-u, to jest ekran jest w trybie Graphics 0, a kanal IOCB 0 jest otwarty dla edytora ekranowego. Wyprowadzenie znaku polega na zaladowaniu jego kodu ATASCII do akumulatora i wykonaniu rozkazu JSR PUTCHR. */ .proc @putchar (.byte a) .reg vbxe bit * ; jsr vbxe_cmap ldx #$00 ; $60 -> S2: chn equ *-1 .ifdef MAIN.CRT.TextAttr ora MAIN.CRT.TextAttr .endif main tay lda icputb+1,x pha lda icputb,x pha tya rts .endp

d3ac540def68d91aaff88dab8bd58061dff2eb7b

asm

Assembly

Assembler/AssemblyCode/NOT.asm

KPU-RISC/KPU

9f85c322e1b8489eef31f0696799e0c6c7273c0e

2017-04-16T16:53:03.000Z

2021-09-14T22:29:28.000Z

Assembler/AssemblyCode/TTL/NOT.asm

KPU-RISC/KPU

9f85c322e1b8489eef31f0696799e0c6c7273c0e

Assembler/AssemblyCode/TTL/NOT.asm

KPU-RISC/KPU

9f85c322e1b8489eef31f0696799e0c6c7273c0e

; Write register D to the Output Port MOV D, 11110000b MOV E, 00001111b NOT D NOT D SHR D NOT E NOT E SHL E NOT D NOT D SHR D NOT E NOT E SHL E NOT D NOT D SHR D NOT E NOT E SHL E NOT D NOT D SHR D NOT E NOT E SHL E

6c48a7c6898bacfc2853935b4027acb2dce936c3

asm

Assembly

src/asm/define_music.asm

h1romas4/z88dk-msx-template

8667669ba30f343c59f5ba394ac8be899cc8a8e6

2021-09-06T15:25:33.000Z

2022-03-24T06:38:12.000Z

src/asm/define_music.asm

h1romas4/z88dk-msx-template

8667669ba30f343c59f5ba394ac8be899cc8a8e6

src/asm/define_music.asm

h1romas4/z88dk-msx-template

8667669ba30f343c59f5ba394ac8be899cc8a8e6

; license:MIT License ; copyright-holders:Hiromasa Tanaka ; rodata_user ; https://github.com/z88dk/z88dk/blob/master/doc/overview.md#a-quick-note-for-asm-code ; rodata_user if for constant data ; kept in rom if program is in rom SECTION rodata_user PUBLIC _music_title, _music_main, _music_game_over, _sound_extend, _sound_get include "../resources/music_title.asm" include "../resources/music_main.asm" include "../resources/music_game_over.asm" include "../resources/sound_extend.asm" include "../resources/sound_get.asm"

b1fa223bb51f0b628f775f515ebb0de3a7e5fc29

asm

Assembly

2001-fall/mp4/mp4.asm

ece291/machine-problems

5f91f9f2ddceb7cda1e14c2973d83023a42d9929

2016-07-16T04:33:49.000Z

2021-07-13T16:18:17.000Z

2001-fall/mp4/mp4.asm

ece291/machine-problems

5f91f9f2ddceb7cda1e14c2973d83023a42d9929

2001-fall/mp4/mp4.asm

ece291/machine-problems

5f91f9f2ddceb7cda1e14c2973d83023a42d9929

; ECE 291 Fall 2001 MP4 ; -- Paint291 -- ; ; Completed By: ; Your Name ; ; Josh Potts ; Guest Author - Ryan Chmiel ; University of Illinois Urbana Champaign ; Dept. of Electrical & Computer Engineering ; ; Ver 1.0 %include "lib291.inc" %include "libmp4.inc" BITS 32 GLOBAL _main ; Define functions and variables used by main() EXTERN _LoadPNG _LoadPNG_arglen EQU 18 ; Define Contstants DOWNARROW EQU 80 RIGHTARROW EQU 77 LEFTARROW EQU 75 UPARROW EQU 72 CANVAS_X EQU 20 CANVAS_Y EQU 20 NUM_MENU_ITEMS EQU 11 BKSP EQU 8 ESC EQU 1 ENTERKEY EQU 13 SPACE EQU 57 LSHIFT EQU 42 RSHIFT EQU 54 SECTION .bss _GraphicsMode resw 1 ; Graphics mode # _kbINT resb 1 ; Keyboard interrupt # _kbIRQ resb 1 ; Keyboard IRQ _kbPort resw 1 ; Keyboard port _MouseSeg resw 1 ; real mode segment for MouseCallback _MouseOff resw 1 ; real mode offset for MouseCallback _MouseX resw 1 ; X coordinate position of mouse on screen _MouseY resw 1 ; Y coordinate position of mouse on screen _ScreenOff resd 1 ; Screen image offset _CanvasOff resd 1 ; Canvas image offset _OverlayOff resd 1 ; Overlay image offset _FontOff resd 1 ; Font image offset _MenuOff resd 1 ; Menu image offset _TitleOff resd 1 ; Title Bar image offset _MPFlags resb 1 ; program flags ; Bit 0 - Exit program ; Bit 1 - Left mouse button (LMB) status: set if down, cleared if up ; Bit 2 - Change in LMB status: set if button status ; moves from pressed->released or vice-versa ; Bit 3 - Right shift key status: set if down, cleared if up ; Bit 4 - Left shift key status: set if down, cleared if up ; Bit 5 - Key other than shift was pressed ; Bit 6 - Not Used Anymore ; Bit 7 - Status of chosen color: set if obtained with user input, ; cleared if obtained with eyedrop (you do not have to deal ; with this - the library code uses it) _MenuItem resb 1 ; selected menu item ; line algorithm variables _x resw 1 _y resw 1 _dx resw 1 _dy resw 1 _lineerror resw 1 _xhorizinc resw 1 _xdiaginc resw 1 _yvertinc resw 1 _ydiaginc resw 1 _errordiaginc resw 1 _errornodiaginc resw 1 ; circle algorithm variables _radius resw 1 _circleerror resw 1 _xdist resw 1 _ydist resw 1 ; flood fill variables _PointQueue resd 1 _QueueHead resd 1 _QueueTail resd 1 _key resb 1 SECTION .data ; Required image files _FontFN db 'font.png',0 _MenuFN db 'menu.png',0 _TitleFN db 'title.png',0 ; Defined color values _CurrentColor dd 0ffff0000h ; current color _ColorBlue dd 0ff0033ffh _ColorWhite dd 0ffffffffh _ColorBlack dd 0ff000000h _ColorHalfBlack dd 0cc000000h _buffer db ' ','$' _ColorString1 db 'Enter numerical values for','$' _ColorString2 db 'each channel (ARGB), and','$' _ColorString3 db 'separate each number by a','$' _ColorString4 db 'space (ex. 127 255 255 0).','$' _QwertyNames db 0 ; filler db 0,'1','2','3','4','5','6','7','8','9','0','-','=',BKSP db 0, 'q','w','e','r','t','y','u','i','o','p','[',']',ENTERKEY db 0,'a','s','d','f','g','h','j','k','l',';',"'","`" db 0,'\','z','x','c','v','b','n','m',",",'.','/',0,'*' db 0, ' ', 0, 0,0,0,0,0,0,0,0,0,0 ; F1-F10 db 0,0 ; numlock, scroll lock db 0, 0, 0, '-' db 0, 0, 0, '+' db 0, 0, 0, 0 db 0, 0; sysrq _QwertyNames_end resb 0 _QwertyShift db 0 ; filler db 0,'!','@','#','$','%','^','&','*','(',')','_','+',BKSP db 0, 'Q','W','E','R','T','Y','U','I','O','P','{','}',ENTERKEY db 0,'A','S','D','F','G','H','J','K','L',':','"','~' db 0,'|','Z','X','C','V','B','N','M',"<",'>','?',0,'*' db 0, ' ', 0, 0,0,0,0,0,0,0,0,0,0 ; F1-F10 db 0,0 ; numlock, scroll lock db 0, 0, 0, '-' db 0, 0, 0, '+' db 0, 0, 0, 0 db 0, 0; sysrq _QwertyShift_end resb 0 _TextInputString times 80 db 0,'$' _ColorInputString times 15 db 0,'$' _RoundingFactor dd 000800080h, 00000080h SECTION .text _main call _LibInit ; Allocate Screen Image buffer invoke _AllocMem, dword 640*480*4 cmp eax, -1 je near .memerror mov [_ScreenOff], eax ; Allocate Canvas Image buffer invoke _AllocMem, dword 480*400*4 cmp eax, -1 je near .memerror mov [_CanvasOff], eax ; Allocate Overlay Image buffer invoke _AllocMem, dword 480*400*4 cmp eax, -1 je near .memerror mov [_OverlayOff], eax ; Allocate Font Image buffer invoke _AllocMem, dword 2048*16*4 cmp eax, -1 je near .memerror mov [_FontOff], eax ; Allocate Menu Image buffer invoke _AllocMem, dword 400*100*4 cmp eax, -1 je near .memerror mov [_MenuOff], eax ; Allocate Title Bar Image buffer invoke _AllocMem, dword 640*20*4 cmp eax, -1 je near .memerror mov [_TitleOff], eax ; Allocate Point Queue invoke _AllocMem, dword 480*400*4*40 cmp eax, -1 je near .memerror mov [_PointQueue], eax ; Load image files invoke _LoadPNG, dword _FontFN, ds, dword [_FontOff], dword 0, dword 0 invoke _LoadPNG, dword _MenuFN, ds, dword [_MenuOff], dword 0, dword 0 invoke _LoadPNG, dword _TitleFN, ds, dword [_TitleOff], dword 0, dword 0 ; Graphics init invoke _InitGraphics, dword _kbINT, dword _kbIRQ, dword _kbPort test eax, eax jnz near .graphicserror ; Find graphics mode: 640x480x32, allow driver-emulated modes invoke _FindGraphicsMode, word 640, word 480, word 32, dword 1 mov [_GraphicsMode], ax ; Keyboard/Mouse init call _InstallKeyboard test eax, eax jnz near .keyboarderror invoke _SetGraphicsMode, word [_GraphicsMode] test eax, eax jnz .setgraphicserror call _InstallMouse test eax, eax jnz .mouseerror ; Show mouse cursor mov dword [DPMI_EAX], 01h mov bx, 33h call DPMI_Int call _MP4Main ; Shutdown and cleanup .mouseerror call _RemoveMouse .setgraphicserror call _UnsetGraphicsMode .keyboarderror call _RemoveKeyboard .graphicserror call _ExitGraphics .memerror call _MP4LibExit call _LibExit ret ;-------------------------------------------------------------- ;-- Replace Library Calls with your Code! -- ;-- Do not forget to add Function Headers -- ;-------------------------------------------------------------- ;-------------------------------------------------------------- ;-- PointInBox() -- ;-------------------------------------------------------------- proc _PointInBox .X arg 2 .Y arg 2 .BoxULCornerX arg 2 .BoxULCornerY arg 2 .BoxLRCornerX arg 2 .BoxLRCornerY arg 2 invoke _libPointInBox, word [ebp+.X], word [ebp+.Y], word [ebp+.BoxULCornerX], word [ebp+.BoxULCornerY], word [ebp+.BoxLRCornerX], word [ebp+.BoxLRCornerY] ret endproc _PointInBox_arglen EQU 12 ;-------------------------------------------------------------- ;-- GetPixel() -- ;-------------------------------------------------------------- proc _GetPixel .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 invoke _libGetPixel, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y] ret endproc _GetPixel_arglen EQU 12 ;-------------------------------------------------------------- ;-- DrawPixel() -- ;-------------------------------------------------------------- proc _DrawPixel .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 .Color arg 4 invoke _libDrawPixel, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y], dword [ebp+.Color] ret endproc _DrawPixel_arglen EQU 16 ;-------------------------------------------------------------- ;-- DrawLine() -- ;-------------------------------------------------------------- proc _DrawLine .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X1 arg 2 .Y1 arg 2 .X2 arg 2 .Y2 arg 2 .Color arg 4 invoke _libDrawLine, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X1], word [ebp+.Y1], word [ebp+.X2], word [ebp+.Y2], dword [ebp+.Color] ret endproc _DrawLine_arglen EQU 20 ;-------------------------------------------------------------- ;-- DrawRect() -- ;-------------------------------------------------------------- proc _DrawRect .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X1 arg 2 .Y1 arg 2 .X2 arg 2 .Y2 arg 2 .Color arg 4 .FillRectFlag arg 4 invoke _libDrawRect, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X1], word [ebp+.Y1], word [ebp+.X2], word [ebp+.Y2], dword [ebp+.Color], dword [ebp+.FillRectFlag] ret endproc _DrawRect_arglen EQU 24 ;-------------------------------------------------------------- ;-- DrawCircle() -- ;-------------------------------------------------------------- proc _DrawCircle .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 .Radius arg 2 .Color arg 4 .FillCircleFlag arg 4 invoke _libDrawCircle, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y], word [ebp+.Radius], dword [ebp+.Color], dword [ebp+.FillCircleFlag] ret endproc _DrawCircle_arglen EQU 22 ;-------------------------------------------------------------- ;-- DrawText() -- ;-------------------------------------------------------------- proc _DrawText .StringOff arg 4 .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 .Color arg 4 invoke _libDrawText, dword [ebp+.StringOff], dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y], dword [ebp+.Color] ret endproc _DrawText_arglen EQU 20 ;-------------------------------------------------------------- ;-- ClearBuffer() -- ;-------------------------------------------------------------- proc _ClearBuffer .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .Color arg 4 invoke _libClearBuffer, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], dword [ebp+.Color] ret endproc _ClearBuffer_arglen EQU 12 ;-------------------------------------------------------------- ;-- CopyBuffer() -- ;-------------------------------------------------------------- proc _CopyBuffer .SrcOff arg 4 .SrcWidth arg 2 .SrcHeight arg 2 .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 invoke _libCopyBuffer, dword [ebp+.SrcOff], word [ebp+.SrcWidth], word [ebp+.SrcHeight], dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y] ret endproc _CopyBuffer_arglen EQU 20 ;-------------------------------------------------------------- ;-- ComposeBuffers() -- ;-------------------------------------------------------------- proc _ComposeBuffers .SrcOff arg 4 .SrcWidth arg 2 .SrcHeight arg 2 .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 invoke _libComposeBuffers, dword [ebp+.SrcOff], word [ebp+.SrcWidth], word [ebp+.SrcHeight], dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y] ret endproc _ComposeBuffers_arglen EQU 20 ;-------------------------------------------------------------- ;-- BlurBuffer() -- ;-------------------------------------------------------------- proc _BlurBuffer .SrcOff arg 4 .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 invoke _libBlurBuffer, dword [ebp+.SrcOff], dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight] ret endproc _BlurBuffer_arglen EQU 12 ;-------------------------------------------------------------- ;-- FloodFill() -- ;-------------------------------------------------------------- proc _FloodFill .DestOff arg 4 .DestWidth arg 2 .DestHeight arg 2 .X arg 2 .Y arg 2 .Color arg 4 .ComposeFlag arg 4 invoke _libFloodFill, dword [ebp+.DestOff], word [ebp+.DestWidth], word [ebp+.DestHeight], word [ebp+.X], word [ebp+.Y], dword [ebp+.Color], dword [ebp+.ComposeFlag] ret endproc _FloodFill_arglen EQU 20 ;-------------------------------------------------------------- ;-- InstallKeyboard() -- ;-------------------------------------------------------------- _InstallKeyboard call _libInstallKeyboard ret ;-------------------------------------------------------------- ;-- RemoveKeyboard() -- ;-------------------------------------------------------------- _RemoveKeyboard call _libRemoveKeyboard ret ;-------------------------------------------------------------- ;-- KeyboardISR() -- ;-------------------------------------------------------------- _KeyboardISR call _libKeyboardISR ret _KeyboardISR_end ;-------------------------------------------------------------- ;-- InstallMouse() -- ;-------------------------------------------------------------- _InstallMouse call _libInstallMouse ret ;-------------------------------------------------------------- ;-- RemoveMouse() -- ;-------------------------------------------------------------- _RemoveMouse call _libRemoveMouse ret ;-------------------------------------------------------------- ;-- MouseCallback() -- ;-------------------------------------------------------------- proc _MouseCallback .DPMIRegsPtr arg 4 invoke _libMouseCallback, dword [ebp+.DPMIRegsPtr] ret endproc _MouseCallback_end _MouseCallback_arglen EQU 4

af9f1c6db7a11c385cb38a878d3339adc633b565

asm

Assembly

ffight/lcs/boss/9A.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

2020-10-14T15:29:10.000Z

2022-02-12T18:58:54.000Z

ffight/lcs/boss/9A.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

ffight/lcs/boss/9A.asm

zengfr/arcade_game_romhacking_sourcecode_top_secret_data

a4a0c86c200241494b3f1834cd0aef8dc02f7683

2020-12-17T08:59:10.000Z

2020-12-17T08:59:10.000Z

copyright zengfr site:http://github.com/zengfr/romhack 03DB86 move.b #$1, ($95,A6) [boss+9A, boss+9C] 03DD02 move.l A0, ($9a,A6) [boss+4] 03DD06 bra $40b46 [boss+9A, boss+9C] copyright zengfr site:http://github.com/zengfr/romhack

9ca186f3f118ea2b7ce949d9bcb364e08d61823a

asm

Assembly

asm/msvc/ax.asm

awesie/aes_dust

34706d884921fcaedd84f3b517e82bca1ef8962b

2018-10-01T12:14:08.000Z

2021-11-17T02:58:34.000Z

asm/msvc/ax.asm

awesie/aes_dust

34706d884921fcaedd84f3b517e82bca1ef8962b

2020-11-17T17:47:35.000Z

2020-11-17T17:47:35.000Z

asm/msvc/ax.asm

awesie/aes_dust

34706d884921fcaedd84f3b517e82bca1ef8962b

2019-01-25T01:18:27.000Z

2021-05-07T10:32:04.000Z

; ; This is free and unencumbered software released into the public domain. ; ; Anyone is free to copy, modify, publish, use, compile, sell, or ; distribute this software, either in source code form or as a compiled ; binary, for any purpose, commercial or non-commercial, and by any ; means. ; In jurisdictions that recognize copyright laws, the author or authors ; of this software dedicate any and all copyright interest in the ; software to the public domain. We make this dedication for the benefit ; of the public at large and to the detriment of our heirs and ; successors. We intend this dedication to be an overt act of ; relinquishment in perpetuity of all present and future rights to this ; software under copyright law. ; ; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ; IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR ; OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ; ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR ; OTHER DEALINGS IN THE SOFTWARE. ; ; For more information, please refer to <http://unlicense.org/> ; ; ----------------------------------------------- ; AES-128 Encryption in x86 assembly ; ; size: 188 bytes for ECB, 255 for CTR ; ; global calls use cdecl convention ; ; ----------------------------------------------- bits 32 %ifndef BIN global _aes_ecb_asm global aes_ecb_asm %endif ; ***************************** ; void aes_ecb_asm(void *s); ; ***************************** _aes_ecb_asm: aes_ecb_asm: pusha xor ecx, ecx ; ecx = 0 mul ecx ; eax = 0, edx = 0 inc eax ; c = 1 mov cl, 4 pusha ; alloca(32) ; F(8)x[i]=((W*)s)[i] mov esi, [esp+64+4] ; esi = s mov edi, esp pusha add ecx, ecx ; copy state + master key to stack rep movsd popa ; ***************************** ; Multiplication over GF(2**8) ; ***************************** call $+21 ; save address push ecx ; save ecx mov cl, 4 ; 4 bytes add al, al ; al <<= 1 jnc $+4 ; xor al, 27 ; ror eax, 8 ; rotate for next byte loop $-9 ; pop ecx ; restore ecx ret pop ebp enc_main: ; ***************************** ; AddRoundKey, AddRoundConstant, ExpandRoundKey ; ***************************** ; w=k[3]; F(4)w=(w&-256)|S(w),w=R(w,8),((W*)s)[i]=x[i]^k[i]; ; w=R(w,8)^c;F(4)w=k[i]^=w; pusha xchg eax, edx xchg esi, edi mov eax, [esi+16+12] ; w=R(k[3],8) ror eax, 8 xor_key: mov ebx, [esi+16] ; t=k[i] xor [esi], ebx ; x[i]^=t movsd ; s[i]=x[i] ; w=(w&-256)|S(w) call S ; al=S(al) ror eax, 8 ; w=R(w,8) loop xor_key ; w=R(w,8)^c xor eax, edx ; w^=c ; F(4)w=k[i]^=w mov cl, 4 exp_key: xor [esi], eax ; k[i]^=w lodsd ; w=k[i] loop exp_key popa ; **************************** ; if(c==108) break; cmp al, 108 jne upd_con popa popa ret upd_con: call ebp ; *************************** ; ShiftRows and SubBytes ; *************************** ; F(16)((u8*)x)[w]=S(((u8*)s)[i]), w=(w-3)&15; pusha shift_rows: lodsb ; al = S(s[i]) call S mov [edi+edx], al sub edx, 3 and edx, 15 jnz shift_rows popa ; ***************************** ; if(c!=108){ cmp al, 108 je enc_main ; ***************************** ; MixColumns ; ***************************** ; F(4)w=x[i],x[i]=R(w,8)^R(w,16)^R(w,24)^M(R(w, 8)^w); pusha mix_cols: mov eax, [edi] ; w = x[i] mov edx, eax ; t = R(w, 8) ror edx, 8 ; xor eax, edx ; w ^= t call ebp ; xor eax, edx ror edx, 8 xor eax, edx ror edx, 8 xor eax, edx stosd loop mix_cols popa jmp enc_main ; ***************************** ; B SubByte(B x) ; ***************************** S: %ifndef DYNAMIC push ebx call init_sbox db 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5 db 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76 db 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0 db 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0 db 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc db 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15 db 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a db 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75 db 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0 db 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84 db 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b db 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf db 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85 db 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8 db 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5 db 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2 db 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17 db 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73 db 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88 db 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb db 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c db 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79 db 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9 db 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08 db 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6 db 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a db 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e db 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e db 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94 db 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf db 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68 db 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 init_sbox: pop ebx xlatb pop ebx %else pusha test al, al ; if(x){ jz sb_l6 xchg eax, edx mov cl, -1 ; i=255 ; for(c=i=0,y=1;--i;y=(!c&&y==x)?c=1:y,y^=M(y)) sb_l0: mov al, 1 ; y=1 sb_l1: test ah, ah ; !c jnz sb_l2 cmp al, dl ; y!=x setz ah jz sb_l0 sb_l2: mov dh, al ; y^=M(y) call ebp ; xor al, dh loop sb_l1 ; --i ; F(4)x^=y=(y<<1)|(y>>7); mov dl, al ; dl=y mov cl, 4 ; i=4 sb_l5: rol dl, 1 ; y=R(y,1) xor al, dl ; x^=y loop sb_l5 ; i-- sb_l6: xor al, 99 ; return x^99 mov [esp+28], al popa %endif ret %ifdef CTR global aes_ctr global _aes_ctr ; void aes_ctr(W len, B *ctr, B *in, B *key) _aes_ctr: aes_ctr: pusha lea esi,[esp+32+4] lodsd xchg eax, ecx ; ecx = len lodsd xchg eax, ebp ; ebp = ctr lodsd xchg eax, edx ; edx = in lodsd xchg esi, eax ; esi = key pusha ; alloca(32) ; copy master key to local buffer ; F(16)t[i+16]=key[i] lea edi, [esp+16] ; edi = &t[16] movsd movsd movsd movsd aes_l0: xor eax, eax jecxz aes_l3 ; while(len){ ; copy counter+nonce to local buffer ; F(16)t[i]=ctr[i] mov edi, esp ; edi = t mov esi, ebp ; esi = ctr push edi movsd movsd movsd movsd ; encrypt t call aes_ecb_asm ; E(t) pop edi aes_l1: ; xor plaintext with ciphertext ; r=len>16?16:len ; F(r)in[i]^=t[i] mov bl, [edi+eax] ; xor [edx], bl ; *in++^=t[i] inc edx ; inc eax ; i++ cmp al, 16 ; loopne aes_l1 ; while(i!=16 && --ecx!=0) ; update counter xchg eax, ecx ; mov cl, 16 aes_l2: inc byte[ebp+ecx-1] ; loopz aes_l2 ; while(++c[i]==0 && --ecx!=0) xchg eax, ecx jmp aes_l0 aes_l3: popa popa ret %endif

5da987fae3e5ebcef8b516a52a85165c469c7bbe

asm

Assembly

libsrc/zx81/tape/tape_load_block_callee.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

libsrc/zx81/tape/tape_load_block_callee.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

libsrc/zx81/tape/tape_load_block_callee.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

2019-12-03T23:57:48.000Z

2019-12-03T23:57:48.000Z

; ; Tape load routine ; ; ; int __CALLEE__ tape_load_block_callee(void *addr, size_t len, unsigned char type) ; ; ; $Id: tape_load_block_callee.asm,v 1.6 2015/08/11 07:16:36 stefano Exp $ ; PUBLIC tape_load_block_callee PUBLIC ASMDISP_TAPE_LOAD_BLOCK_CALLEE EXTERN zx_fast EXTERN zx_slow ; Very simple header, only check the 'type' byte in a Spectrum-ish way. ; For design reasons, we test a whole word.. ;----- .header defw 0 ; LEN defw 0 ; LOC .header2 defw 0 ; file type (2 bytes) ;----- EXTERN musamy_load .tape_load_block_callee pop de pop bc ld a,c pop bc pop hl push de .asmentry LD (header+2),hl ; LOC LD (header),bc ; LEN ld e,a .ld_retry push de ld hl,rethere push hl LD HL,header PUSH HL LD BC,2 ; file type len PUSH BC LD HL,header2 PUSH HL call zx_fast ;LD L,40h ; VERIFY MODE LD L,0 ; LOAD MODE jp musamy_load .rethere push hl call zx_slow IF FORlambda call $1C28 ; BREAK-1 on Lambda ELSE call $f46 ; BREAK-1 on ZX81 ENDIF pop hl pop de ret nc ; if BREAK is pressed, return; timeout error code is valid for BREAK too ld a,3 cp l ; timeout ? jr z,ld_retry xor a or l ret nz ; other errors ld a,(header2) cp e ret z ; all OK ld l,4 ; file type error ret DEFC ASMDISP_TAPE_LOAD_BLOCK_CALLEE = # asmentry - tape_load_block_callee

676e0978ab335d8f1859aa7f48a8138e79620249

asm

Assembly

programs/oeis/060/A060264.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

2021-03-15T11:38:20.000Z

2021-03-15T11:38:20.000Z

programs/oeis/060/A060264.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

programs/oeis/060/A060264.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

; A060264: First prime after 2n. ; 2,3,5,7,11,11,13,17,17,19,23,23,29,29,29,31,37,37,37,41,41,43,47,47,53,53,53,59,59,59,61,67,67,67,71,71,73,79,79,79,83,83,89,89,89,97,97,97,97,101,101,103,107,107,109,113,113,127,127,127,127,127,127,127,131,131,137,137,137,139,149,149,149,149,149,151,157,157,157,163,163,163,167,167,173,173,173,179,179,179,181,191,191,191,191,191,193,197,197,199,211,211,211,211,211,211,223,223,223,223,223,223,227,227,229,233,233,239,239,239,241,251,251,251,251,251,257,257,257,263,263,263,269,269,269,271,277,277,277,281,281,283,293,293,293,293,293,307,307,307,307,307,307,307,311,311,313,317,317,331,331,331,331,331,331,331,337,337,337,347,347,347,347,347,349,353,353,359,359,359,367,367,367,367,373,373,373,379,379,379,383,383,389,389,389,397,397,397,397,401,401,409,409,409,409,419,419,419,419,419,421,431,431,431,431,431,433,439,439,439,443,443,449,449,449,457,457,457,457,461,461,463,467,467,479,479,479,479,479,479,487,487,487,487,491,491,499,499,499,499 mul $0,2 cal $0,151800 ; Least prime > n (version 2 of the "next prime" function). mov $1,$0

16f16ba03179ef64e96ec11c8ed6ddf70e4e73aa

asm

Assembly

programs/oeis/159/A159721.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/159/A159721.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/159/A159721.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

; A159721: Number of permutations of 3 indistinguishable copies of 1..n arranged in a circle with exactly 1 local maximum. ; 6,36,192,960,4608,21504,98304,442368,1966080,8650752,37748736,163577856,704643072,3019898880,12884901888,54760833024,231928233984,979252543488,4123168604160,17317308137472,72567767433216,303465209266176,1266637395197952,5277655813324800 mov $1,$0 add $1,2 mov $2,4 pow $2,$0 mul $1,$2 mul $1,3

af42318f112a2de87c03243b68c2f0f99a93c224

asm

Assembly

10a-interrupts/boot.asm

starsheriff/train-os

218f446fd0a6be12e7f51664631a17d00dca94de

2019-10-23T06:21:45.000Z

2022-01-25T13:00:02.000Z

10a-interrupts/boot.asm

starsheriff/train-os

218f446fd0a6be12e7f51664631a17d00dca94de

10a-interrupts/boot.asm

starsheriff/train-os

218f446fd0a6be12e7f51664631a17d00dca94de

; boot.asm ; The label start is our entry point. We have to make it ; public so that the linker can use it. global start extern c_start extern init_idt extern print_interrupt global flush_idt ; we are still in 32-bit protected mode so we have to use ; 32-bit wide instructions bits 32 ; PTE_PRESENT equ 1 << 7 ; Flags for _large_ p2 aka. PDE page table entries PDE_PRESENT equ 1 << 0 PDE_WRITABLE equ 1 << 1 PDE_LARGE equ 1 << 7 ; number of entries in IDT_ENTRIES equ 32 ; GDT Flags start: ; Set stack pointer mov esp, stack_top ; Switching to long mode ; ; Step 1: Disable paging ; ; to disable paging set `CR0.PG` to `0`. mov eax, cr0 and eax, ~(1 << 31) mov cr0, eax ; Step 2: Enable Physical Address Extension mov eax, cr4 or eax, (1 << 5) mov cr4, eax ; Step 3: Set `cr3` register mov eax, p4_table mov cr3, eax ; Step 4: Set the p2[1] entry to point to the _second_ 2 MiB frame mov eax, (0x20_0000 | PDE_PRESENT | PDE_WRITABLE | PDE_LARGE) mov [p2_table + 8], eax ; point the 0th entry to the first frame ; TODO: explain mov eax, (0x00_0000 | PDE_PRESENT | PDE_WRITABLE | PDE_LARGE) mov [p2_table], eax ; Step 5: Set the 0th entry of p3 to point to our p2 table mov eax, p2_table ; load the address of the p2 table or eax, (PDE_PRESENT | PDE_WRITABLE) mov [p3_table], eax ; Step 6: Set the 0th entry of p4 to point to our p3 table mov eax, p3_table or eax, (PDE_PRESENT | PDE_WRITABLE) mov [p4_table], eax ; Step 7: Set EFER.LME to 1 to enable the long mode mov ecx, 0xC0000080 rdmsr or eax, 1 << 8 wrmsr ; Step 8: enable paging mov eax, cr0 or eax, 1 << 31 mov cr0, eax ; Now we set up the IDT ; Step 9: Disable Interrupts lgdt [gdt64.pointer] ; Step 11: Enable Interrupts ; cli ; disable interrupts jmp gdt64.code:longstart section .text bits 64 longstart: mov rsp, stack_top ; not sure if we have to reload the lgdt once we are in 64-bit mode. lgdt [gdt64.pointer] ; load the interrupt descriptor table register. This allows the cpu to find the ; interrupt descriptor table (IDT). lidt [idt.idtr] ; call populate_idt ; asm code call init_idt ; c code ;mov word [0xb8000], 0x0e4f ; 'O', yellow on black ;mov word [0xb8002], 0x0e4b ; 'K', yellow on black ; sti ; immediately clear interupts to avoid reboots ; cli ; uncomment the next line and you will have a page fault ;mov eax, [0xFF_FFFF] call c_start ; dummy handler that does _nothing_ global idt_handler idt_handler: ; jmp $ call print_interrupt iretq global disable_interrupts disable_interrupts: cli ret global trigger_interrupt trigger_interrupt: int 0x03 ret ; *************************************** IDT ********************* FLAG_INTERRUPT equ 0xe FLAG_R0 equ (0 << 5) ;Rings 0 - 3 FLAG_P equ (1 << 7) CODE_SEL equ 0x08 GLOBAL populate_idt populate_idt: mov eax, idt mov ebx, idt_handler ; or ebx, (VIRT_BASE & 0xFFFFFFFF) idt_init_one: ; /* Target Low (word) */ mov ecx, ebx mov word [eax], cx add eax, 2 ; /* Code Selector (word) */ mov word[eax], CODE_SEL add eax, 2 ; /* IST (byte) */ mov byte[eax], 0 add eax, 1 ; /* Flags (byte) */ mov byte[eax], (FLAG_P|FLAG_R0|FLAG_INTERRUPT) add eax, 1 ; /* Target High (word) */ shr ecx, 16 mov word[eax], cx add eax, 2 ; /* Long Mode Target High 32 */ shr ecx, 16 mov dword[eax], ecx ;(idt_handler >> 32) add eax, 4 mov dword[eax], 0 add eax, 4 cmp eax, idt.idtend jl idt_init_one ; lidt[IDTR] ret flush_idt: ; changed from +8 to +16, that did the trick! mov rax, [rsp+16] lidt[rax] ret section .bss ; must be page aligned align 4096 p4_table: resb 4096 p3_table: resb 4096 p2_table: resb 4096 stack_bottom: resb 4096 stack_top: section .rodata gdt64: dq 0 .code: equ $ - gdt64 dq (1 << 43) | (1 << 44) | (1 << 47) | (1 << 53) .pointer: dw $ - gdt64 - 1 ; length of the gdt64 table dq gdt64 ; address of the gdt64 table section .data ; bits 64 ; ; the IDT table contains 256 64-bit entries. ; Hence, we reserve 256 double quad words (64-bit) entries. ; ; The IDT must be 16-bit aligned. align 16 ; global idt idt: times IDT_ENTRIES dq 0 ; a double quad per entry times IDT_ENTRIES dq 0 ; a double quad per entry ; Figure 4-8 shows the format of the `IDTR` in long-mode. The format is identical to the ; format in protected mode, except the size of the base address. .idtr: dw $ - idt - 1 ; two bytes (word), declaring the size of the IDT in bytes dq idt ; 64-bit (double quad word) base address of the idt .idtend:

fc275a25bcd0a969f9293a34dc5d2cebdf8410a5

asm

Assembly

programs/oeis/204/A204267.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

2021-03-15T11:38:20.000Z

2021-03-15T11:38:20.000Z

programs/oeis/204/A204267.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

programs/oeis/204/A204267.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

; A204267: Symmetric matrix: f(i,j)=(i+j+1 mod 3), by antidiagonals. ; 0,1,1,2,2,2,0,0,0,0,1,1,1,1,1,2,2,2,2,2,2,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 mov $2,$0 mov $4,$0 lpb $2 add $3,1 lpb $4 add $3,1 trn $4,$3 add $5,$4 lpe lpb $5 sub $3,3 sub $5,$3 lpe mov $1,$3 sub $1,1 sub $2,$2 lpe

1d7db4f6c2b073fef562bdaf12842ec62b79e6bd

asm

Assembly

agent/io/memory.asm

jephthai/EvilVM

429fcc9df6f1168d38c21f37b377c36cf7bcc957

2019-05-18T20:46:47.000Z

2022-02-28T05:10:43.000Z

agent/io/memory.asm

jephthai/EvilVM

429fcc9df6f1168d38c21f37b377c36cf7bcc957

2019-06-04T15:33:21.000Z

2021-05-07T15:27:58.000Z

agent/io/memory.asm

jephthai/EvilVM

429fcc9df6f1168d38c21f37b377c36cf7bcc957

2019-05-22T02:48:30.000Z

2021-11-03T05:34:48.000Z

;;; memory.asm ;;; ;;; An IO stream layer implemented around shared memory. It should make sense ;;; in both inter-process and same-process shared memory regions. ;;; Put a number on the stack identifying which IO engine this is. Each IO layer ;;; needs to have its own unique ID. This allows payloads to make decisions ;;; based on the configured IO. start_def ASM, engine, "engine" pushthing 4 end_def engine ;;; This function will be called before any IO is performed. This can be used to ;;; set up streams, initialize IO layer global variables, make network connections, ;;; etc. ;;; ;;; In the case of the memory I/O layer, we should have received a pointer to the ;;; memory buffer used for transfer in the first argument to the compiler's entry ;;; point. This has been saved in the arbitrary data pointer in the TEB. start_def ASM, initio, "initio" mov rbp, rsp sub rsp, 0x20 and rsp, -16 xor ebx, ebx AddGlobal G_IOVAL, rbx mov bl, 0x28 mov rcx, [gs:rbx] AddGlobal G_IOBUF, rcx xor ecx, ecx ; clear the ADP so later code won't try to use it mov [gs:rbx], rcx ;; Get function pointers for WinINet interface InlineString "api-ms-win-core-synch-l1-2-0.dll", rcx, rax call W32_LoadLibraryA AddGlobal G_SYNCHDLL, rax mov rsi, W32_GetProcAddress mov rdi, G_SYNCHDLL GetProcAddress "WaitOnAddress", W32_WaitOnAddress mov rsp, rbp end_def initio %assign dbgoffset1 code_initio - main %warning Initio is at dbgoffset1 bytes ;;; Take a value from the stack and emit it to the output stream as a single byte. start_def ASM, emit, "emit" mov rbp, rsp sub rsp, 0x20 and rsp, -16 mov rbx, G_IOBUF ; get pointer to IO buffer .lp: mov al, [rbx+0] ; get flag for outbound byte waiting and al, al ; test it jz .continue ; no data waitin to be read by upstream mov rax, [rbx] mov G_IOVAL, rax mov rcx, rbx lea rdx, [r15 + G_IOVAL_OFF] mov r8, 1 mov r9, 100 call W32_WaitOnAddress jmp .lp .continue: mov al, dil ; byte to send mov ah, 255 ; set flag xchg ah, al mov [rbx+0], ax ; send the byte popthing rsp mov rsp, rbp end_def emit %assign where code_emit - main %warning Emit is at byte where ;;; Read a single byte from the input stream and put its value on top of the stkack. start_def ASM, key, "key" mov rbp, rsp sub rsp, 0x20 and rsp, -16 mov rbx, G_IOBUF .lp: mov al, [rbx+2] ; get flag for byte available and al, al ; test it jnz .continue ; there's a byte available to read mov rax, [rbx + 2] mov G_IOVAL, rax lea rcx, [rbx + 2] lea rdx, [r15 + G_IOVAL_OFF] mov r8, 1 mov r9, 100 call W32_WaitOnAddress jmp .lp .continue: xor eax, eax ; blank the A register mov al, [rbx+3] ; get the byte pushthing rax ; put it on the stack xor ax, ax ; get 16 bits of zero mov [rbx+2], ax ; clear the flag mov rsp, rbp end_def key ;;; Given a buffer and length, send multiple bytes to the output stream. This is ;;; largely provided as a convenience for situations where IO can be optimized ;;; for block communications. start_def ASM, type, "type" popthing rcx popthing rsi .loop: pushthing [rsi] and rdi, 0xff push rcx push rsi call code_emit pop rsi pop rcx inc rsi loop .loop end_def type ;;; Enable and disable echoing of input to the output stream. Some IO ;;; layers may prefer to allow this to be configurable. Leave them empty ;;; if they don't make sense for your IO layer. start_def ASM, echooff, "-echo" end_def echooff start_def ASM, echoon, "+echo" end_def echoon start_def ASM, setecho, "!echo" end_def setecho start_def ASM, keyq, "key?" pushthing G_IOBUF mov rdi, [rdi] and rdi, 0xff0000 end_def keyq

656f4b422bda6e6e88a750f48c020b81ad0b6bcb

asm

Assembly

tests/parsing/string_expressions_db.asm

cizo2000/sjasmplus

615d7c0e09a44aa2a923095fc9ed6dca6ecae4a4

2016-10-22T19:44:39.000Z

2022-03-29T20:57:04.000Z

tests/parsing/string_expressions_db.asm

ped7g/sjasmplus

487635c8057cd5594c372d9b70bc00a3f3a1ecc4

2018-05-07T10:31:23.000Z

2022-03-30T04:35:59.000Z

tests/parsing/string_expressions_db.asm

ped7g/sjasmplus

487635c8057cd5594c372d9b70bc00a3f3a1ecc4

2016-05-12T21:27:36.000Z

2022-03-27T15:16:16.000Z

OUTPUT "string_expressions_db.bin" DB 'A','A'+1,2|'A',3+'A' ; ABCD (41 42 43 44) DB 'A'|4,'F'&$46, $47&'G', 9^'A' ; EFGH (45 46 47 48) DB 'A'^8, low 'AJ', high 'KA', 'M'-1 ; IJKL (49 4A 4B 4C) DB 'M'*1, 'N'/1, 'O'%128, '('<<1 ; MNOP (4D 4E 4F 50) DB 'Q'<?'Z', 'R'>?'A', 'S'%'T',~~'T' ; QRST (51 52 53 54)

356d9e1020d1ef5e07b7e321ead38e03b66ca753

asm

Assembly

programs/oeis/273/A273407.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/273/A273407.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/273/A273407.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

; A273407: First differences of number of active (ON,black) cells in n-th stage of growth of two-dimensional cellular automaton defined by "Rule 673", based on the 5-celled von Neumann neighborhood. ; 3,17,23,33,39,49,55,65,71,81,87,97,103,113,119,129,135,145,151,161,167,177,183,193,199,209,215,225,231,241,247,257,263,273,279,289,295,305,311,321,327,337,343,353,359,369,375,385,391,401,407,417,423,433,439,449,455,465,471,481,487,497,503,513,519,529,535,545,551,561,567,577,583,593,599,609,615,625,631,641,647,657,663,673,679,689,695,705,711,721,727,737,743,753,759,769,775,785,791,801,807,817,823,833,839,849,855,865,871,881,887,897,903,913,919,929,935,945,951,961,967,977,983,993,999,1009,1015,1025 mov $2,$0 lpb $0,1 mov $1,4 sub $1,$0 trn $0,2 lpe add $1,4 mul $1,2 lpb $2,1 add $1,8 sub $2,1 lpe sub $1,5

495c8fa0fe266bb2c15ee2c2dd90fdc30b26c47d

asm

Assembly

src/in/platform.asm

phiwen96/asm_mac

f50a463e38a32e35eacfed8a48b4c5a0745900ac

src/in/platform.asm

phiwen96/asm_mac

f50a463e38a32e35eacfed8a48b4c5a0745900ac

src/in/platform.asm

phiwen96/asm_mac

f50a463e38a32e35eacfed8a48b4c5a0745900ac

%define System @_System@ %define Darwin 0 %define Linux 1 %define Windows 2 %define x86_64 0 %define arm64 1 %define Processor @_Processor@

2169621dea8194ce8b07effe2ec0b655ceb068c0

asm

Assembly

programs/oeis/246/A246706.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

2021-03-15T11:38:20.000Z

2021-03-15T11:38:20.000Z

programs/oeis/246/A246706.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

programs/oeis/246/A246706.asm

jmorken/loda

99c09d2641e858b074f6344a352d13bc55601571

; A246706: Position of last n in A246694 (read as a sequence, with offset changed to 1); complement of A246705. ; 2,5,7,9,12,14,16,18,20,23,25,27,29,31,33,35,38,40,42,44,46,48,50,52,54,57,59,61,63,65,67,69,71,73,75,77,80,82,84,86,88,90,92,94,96,98,100,102,104,107,109,111,113,115,117,119,121,123,125,127,129,131 add $0,1 mov $1,2 mul $1,$0 mov $2,1 lpb $0 sub $0,$2 sub $0,1 add $1,1 add $2,2 lpe mul $1,4 sub $1,8 div $1,4 add $1,2

2fb49c9bf20b394aad5c7de8d5b08276fee5c0ed

asm

Assembly

oeis/008/A008355.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/008/A008355.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/008/A008355.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A008355: Coordination sequence for D_5 lattice. ; 1,40,370,1640,4930,11752,24050,44200,75010,119720,182002,265960,376130,517480,695410,915752,1184770,1509160,1896050,2353000,2888002,3509480,4226290,5047720,5983490,7043752,8239090,9580520,11079490,12747880,14598002,16642600,18894850,21368360,24077170,27035752,30259010,33762280,37561330,41672360,46112002,50897320,56045810,61575400,67504450,73851752,80636530,87878440,95597570,103814440,112550002,121825640,131663170,142084840,153113330,164771752,177083650,190073000,203764210,218182120,233352002 mov $1,$0 trn $1,1 mov $3,$0 sub $0,$1 add $0,1 mov $4,$3 mov $6,$3 lpb $6 add $5,$4 sub $6,1 lpe mov $2,20 mov $4,$5 lpb $2 add $0,$4 sub $2,1 lpe mov $5,0 mov $6,$3 lpb $6 add $5,$4 sub $6,1 lpe mov $4,$5 mov $5,0 mov $6,$3 lpb $6 add $5,$4 sub $6,1 lpe mov $2,18 mov $4,$5 lpb $2 add $0,$4 sub $2,1 lpe

da98fd5cd0a14b23e18bf36700f67aba6f6266e1

asm

Assembly

libsrc/_DEVELOPMENT/compress/zx7/z80/asm_dzx7_standard_back.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/_DEVELOPMENT/compress/zx7/z80/asm_dzx7_standard_back.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/_DEVELOPMENT/compress/zx7/z80/asm_dzx7_standard_back.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; =============================================================== ; Feb 2016 by Einar Saukas ; "Standard" version (70 bytes) - BACKWARDS VARIANT ; =============================================================== ; ; void dzx7_standard_back(void *src, void *dst) ; ; Decompress backwards the compressed block at last address src ; to last address dst. ; ; =============================================================== INCLUDE "config_private.inc" SECTION code_clib SECTION code_compress_zx7 PUBLIC asm_dzx7_standard_back EXTERN l_ret asm_dzx7_standard_back: ; enter : hl = void *src ; de = void *dst ; ; exit : hl = & previous uncompressed block ; ; uses : af, bc, de, hl ld a, $80 dzx7s_copy_byte_loop_b: ldd ; copy literal byte dzx7s_main_loop_b: call dzx7s_next_bit_b jr nc, dzx7s_copy_byte_loop_b ; next bit indicates either literal or sequence ; determine number of bits used for length (Elias gamma coding) push de ld bc, 0 ld d, b dzx7s_len_size_loop_b: inc d call dzx7s_next_bit_b jr nc, dzx7s_len_size_loop_b ; determine length dzx7s_len_value_loop_b: call nc, dzx7s_next_bit_b rl c rl b ;; jr c, dzx7s_exit_b ; check end marker jp c, l_ret - 1 dec d jr nz, dzx7s_len_value_loop_b inc bc ; adjust length ; determine offset ld e, (hl) ; load offset flag (1 bit) + offset value (7 bits) dec hl IF __CPU_INFO & $01 defb $cb, $33 ; opcode for undocumented instruction "SLL E" aka "SLS E" ELSE sla e inc e ENDIF jr nc, dzx7s_offset_end_b ; if offset flag is set, load 4 extra bits ld d, $10 ; bit marker to load 4 bits dzx7s_rld_next_bit_b: call dzx7s_next_bit_b rl d ; insert next bit into D jr nc, dzx7s_rld_next_bit_b ; repeat 4 times, until bit marker is out inc d ; add 128 to DE srl d ; retrieve fourth bit from D dzx7s_offset_end_b: rr e ; insert fourth bit into E ; copy previous sequence ex (sp), hl ; store source, restore destination push hl ; store destination adc hl, de ; HL = destination + offset + 1 pop de ; DE = destination lddr dzx7s_exit_b: pop hl ; restore source address (compressed data) jr nc, dzx7s_main_loop_b dzx7s_next_bit_b: add a, a ; check next bit ret nz ; no more bits left? ld a, (hl) ; load another group of 8 bits dec hl rla ret

a7deb515bfc1509d5e97fb19421c5253f3a75b61

asm

Assembly

Win32/Win32.Ramlide/bitmap.asm

fengjixuchui/Family

2abe167082817d70ff2fd6567104ce4bcf0fe304

2021-05-15T15:57:13.000Z

2022-03-16T09:11:05.000Z

Win32/Win32.Ramlide/bitmap.asm

fengjixuchui/Family

2abe167082817d70ff2fd6567104ce4bcf0fe304

Win32/Win32.Ramlide/bitmap.asm

fengjixuchui/Family

2abe167082817d70ff2fd6567104ce4bcf0fe304

2021-05-15T15:57:15.000Z

2022-01-08T20:51:04.000Z

;; Imagen del Payload ;; @BitMap: DB 042h, 01Ch, 04Dh, 0B6h, 0F4h, 02Ah, 001h, 033h DB 036h, 004h, 008h, 028h, 010h, 011h, 09Eh, 001h DB 022h, 094h, 0CAh, 00Eh, 008h, 018h, 08Eh, 080h DB 0F0h, 014h, 001h, 0ECh, 080h, 0ABh, 003h, 078h DB 008h, 0A4h, 007h, 0A3h, 002h, 036h, 013h, 0C0h DB 002h, 008h, 040h, 0DCh, 0F0h, 031h, 0CAh, 0A6h DB 01Ah, 020h, 040h, 091h, 009h, 060h, 022h, 080h DB 044h, 0A0h, 0C0h, 089h, 0E0h, 006h, 02Fh, 0DFh DB 008h, 062h, 0F3h, 012h, 060h, 024h, 080h, 048h DB 0A0h, 091h, 0C0h, 064h, 041h, 060h, 05Dh, 022h DB 0F1h, 017h, 0C8h, 0BEh, 045h, 0F2h, 02Fh, 091h DB 07Fh, 08Ah, 0ADh, 071h, 041h, 0E2h, 02Fh, 091h DB 07Ch, 08Bh, 0E4h, 05Fh, 022h, 0F9h, 017h, 0B8h DB 0BFh, 0C5h, 0E2h, 02Fh, 091h, 07Ch, 08Bh, 0E4h DB 05Fh, 022h, 0F9h, 017h, 078h, 0BDh, 0C5h, 0FEh DB 02Fh, 091h, 07Ch, 08Bh, 0E4h, 05Fh, 022h, 0F9h DB 017h, 038h, 0BBh, 0C5h, 0EEh, 02Fh, 0F1h, 07Ch DB 08Bh, 0E4h, 05Fh, 022h, 0F9h, 005h, 035h, 0BFh DB 01Ah, 0C9h, 008h, 0A6h, 002h, 060h, 009h, 044h DB 080h, 0A0h, 089h, 0C0h, 012h, 0E0h, 0B3h, 0DBh DB 0A6h, 041h, 0F1h, 017h, 0C8h, 0BEh, 045h, 0FEh DB 02Fh, 091h, 07Ch, 08Bh, 0ECh, 05Fh, 062h, 0FBh DB 017h, 0D8h, 0BEh, 0C5h, 0F6h, 02Fh, 0F1h, 07Dh DB 089h, 060h, 017h, 048h, 0BCh, 045h, 0F2h, 02Fh DB 091h, 07Ch, 08Bh, 0E4h, 05Fh, 0E2h, 0FFh, 017h DB 048h, 0BCh, 045h, 0F2h, 02Fh, 091h, 07Ch, 08Bh DB 0E4h, 05Fh, 022h, 0F7h, 017h, 0F8h, 0BCh, 045h DB 0F2h, 02Fh, 091h, 07Ch, 08Bh, 0E4h, 05Fh, 022h DB 0EFh, 017h, 0B8h, 0BFh, 0C5h, 0F2h, 02Fh, 091h DB 07Ch, 08Bh, 0E4h, 05Fh, 022h, 0E7h, 017h, 078h DB 0BDh, 0C5h, 0FEh, 02Fh, 091h, 07Ch, 08Bh, 0E4h DB 05Fh, 020h, 093h, 0F0h, 014h, 020h, 0F6h, 0D9h DB 008h, 060h, 026h, 0FCh, 049h, 000h, 07Ch, 08Bh DB 0E4h, 05Fh, 0A2h, 0F9h, 017h, 0C8h, 0BEh, 045h DB 0F2h, 02Fh, 091h, 07Ch, 08Bh, 0E4h, 05Fh, 0A2h DB 0F9h, 017h, 0C8h, 0BEh, 045h, 0F2h, 02Fh, 091h DB 07Ch, 08Bh, 0E4h, 05Fh, 0A2h, 0F9h, 017h, 0C8h DB 0BEh, 045h, 0F2h, 02Fh, 091h, 07Ch, 08Bh, 0E4h DB 05Fh, 0A2h, 0F9h, 017h, 0C8h, 0BEh, 045h, 0FEh DB 02Fh, 0F1h, 07Fh, 08Bh, 0FCh, 05Fh, 0E2h, 0FFh DB 017h, 0F8h, 0BFh, 0C5h, 0F2h, 02Fh, 091h, 07Ch DB 08Bh, 0E4h, 05Fh, 0A2h, 0F9h, 017h, 0C8h, 0BEh DB 045h, 0F2h, 02Fh, 091h, 07Ch, 08Bh, 0E4h, 05Fh DB 0A2h, 0F9h, 017h, 0C8h, 0BEh, 045h, 0F2h, 02Fh DB 091h, 07Ch, 08Bh, 0E4h, 05Dh, 0A2h, 0F5h, 017h DB 0E9h, 019h, 0F2h, 060h, 04Dh, 0F6h, 091h, 008h DB 0A0h, 050h, 002h, 0E0h, 09Bh, 05Bh, 03Ah, 06Fh DB 041h, 011h, 07Ch, 08Bh, 0E4h, 05Fh, 0E2h, 0F9h DB 017h, 0C8h, 091h, 040h, 074h, 08Bh, 0C4h, 05Fh DB 022h, 0F9h, 017h, 0C8h, 0BFh, 0C5h, 0F2h, 024h DB 060h, 05Dh, 022h, 0F1h, 017h, 0C8h, 0BEh, 045h DB 0F2h, 02Fh, 091h, 07Fh, 08Bh, 0FCh, 05Dh, 022h DB 0F1h, 017h, 0C8h, 0BEh, 045h, 0F2h, 02Fh, 091h DB 07Ch, 08Bh, 0DCh, 05Fh, 0E2h, 0F1h, 017h, 0C8h DB 0BEh, 045h, 0F2h, 02Fh, 091h, 07Ch, 08Bh, 0ECh DB 05Fh, 062h, 0FFh, 017h, 0D8h, 0BEh, 0C5h, 087h DB 06Bh, 0F0h, 0FBh, 0FFh, 006h, 0A4h, 050h, 091h DB 050h, 0B7h, 002h, 0CAh, 003h, 0B7h, 008h, 08Ah DB 007h, 04Ah, 002h, 028h, 013h, 0D5h, 00Bh, 001h DB 0FFh, 0EFh, 022h, 010h, 0A7h, 02Dh, 072h, 045h DB 05Fh, 0F5h, 0C9h, 03Fh, 03Dh, 04Dh, 069h, 0CEh DB 047h, 0A2h, 05Ah, 089h, 02Ch, 017h, 0A2h, 07Fh DB 024h, 032h, 07Ah, 04Dh, 03Dh, 0DBh, 036h, 063h DB 018h, 003h, 071h, 0A5h, 02Dh, 0FAh, 04Dh, 0A2h DB 07Fh, 0A9h, 0CFh, 0BAh, 0D7h, 001h, 0A5h, 079h DB 020h, 077h, 07Ah, 09Ah, 02Bh, 0B4h, 00Ah, 0A7h DB 011h, 0A4h, 032h, 0ABh, 011h, 035h, 017h, 02Eh DB 028h, 06Ah, 025h, 008h, 0D2h, 04Dh, 0D0h, 08Dh DB 018h, 002h, 003h, 0D6h, 0B4h, 014h, 0FDh, 05Ah DB 0B5h, 094h, 02Dh, 06Bh, 0E0h, 037h, 074h, 0B5h DB 02Ah, 03Fh, 0EBh, 0D4h, 015h, 0A4h, 0A3h, 069h DB 092h, 02Bh, 00Ch, 056h, 045h, 0B7h, 009h, 0BFh DB 030h, 065h, 010h, 06Eh, 001h, 0D4h, 03Bh, 0BFh DB 024h, 018h, 05Eh, 0EAh, 00Bh, 0D2h, 09Dh, 001h DB 04Ch, 06Ah, 028h, 071h, 030h, 0E7h, 0A6h, 070h DB 046h, 057h, 0A9h, 02Dh, 036h, 058h, 0CBh, 091h DB 0A2h, 0F9h, 010h, 04Ah, 001h, 0ADh, 0A4h, 08Ch DB 0D3h, 05Dh, 0BFh, 0CCh, 0D3h, 0F9h, 028h, 0CCh DB 0BBh, 053h, 009h, 097h, 037h, 03Fh, 05Ah, 001h DB 0F4h, 0AFh, 020h, 029h, 03Bh, 0CAh, 007h, 0ABh DB 00Ah, 04Ah, 011h, 052h, 044h, 032h, 03Ah, 031h DB 06Ah, 052h, 010h, 07Bh, 0F3h, 0EEh, 04Ch, 069h DB 0A5h, 04Fh, 04Ah, 008h, 0D3h, 0F5h, 038h, 025h DB 002h, 015h, 030h, 073h, 0B3h, 038h, 09Dh, 02Bh DB 095h, 0D2h, 0A0h, 02Dh, 031h, 0B4h, 06Ah, 030h DB 08Bh, 04Ah, 002h, 02Fh, 016h, 055h, 07Ah, 04Fh DB 0EBh, 0F5h, 029h, 015h, 0AEh, 00Ah, 00Bh, 05Ah DB 095h, 0E6h, 03Ah, 056h, 045h, 0B4h, 0A2h, 0A0h DB 0D2h, 07Fh, 0B3h, 04Dh, 0E0h, 0B9h, 0CFh, 0AFh DB 05Ah, 001h, 0F4h, 0AFh, 020h, 037h, 0E1h, 00Bh DB 096h, 07Ah, 0A2h, 01Dh, 0B4h, 00Ah, 0A5h, 026h DB 026h, 0D1h, 042h, 0F6h, 069h, 0B3h, 011h, 0CFh DB 0BBh, 032h, 00Ah, 0BEh, 04Fh, 0E3h, 05Ah, 008h DB 07Eh, 0A7h, 025h, 0A4h, 0A0h, 004h, 008h, 0FFh DB 029h, 099h, 0A1h, 0D2h, 0BDh, 095h, 02Ah, 001h DB 090h, 0A0h, 072h, 0FFh, 06Ah, 030h, 036h, 046h DB 0EEh, 05Ch, 026h, 0E8h, 0DBh, 053h, 033h, 0EBh DB 0FDh, 04Ah, 015h, 04Ah, 029h, 069h, 05Fh, 087h DB 051h, 011h, 05Ah, 045h, 0DAh, 06Eh, 0EDh, 037h DB 0C9h, 09Fh, 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04Fh, 056h, 0EFh, 0EAh, 0A2h, 0EFh DB 0F8h, 0E2h, 0E2h, 056h, 0BDh, 0DBh, 0CDh, 012h DB 05Fh, 06Bh, 012h, 069h, 04Fh, 01Fh, 09Fh, 0CEh DB 033h, 0A1h, 0E7h, 022h, 09Fh, 048h, 01Eh, 0A4h DB 0A1h, 067h, 04Ch, 0BDh, 04Eh, 0E5h, 027h, 0A0h DB 0B2h, 053h, 00Eh, 032h, 0B4h, 0CEh, 0AFh, 056h DB 00Fh, 08Dh, 0F4h, 0C2h, 0E3h, 09Fh, 0A9h, 08Eh DB 084h, 054h, 05Dh, 0DEh, 053h, 0DAh, 04Ch, 053h DB 0FAh, 0AFh, 0DEh, 040h, 07Dh, 0A4h, 050h, 016h DB 09Dh, 0E3h, 004h, 0F9h, 06Dh, 012h, 0B1h, 001h DB 00Eh, 02Ah, 0EDh, 08Dh, 0F4h, 0ADh, 0A1h, 0EDh DB 02Ah, 0ECh, 0C6h, 0B9h, 04Bh, 001h, 05Ch, 085h DB 04Bh, 0A8h, 00Bh, 0D5h, 027h, 08Ah, 00Fh, 05Fh DB 0DAh, 094h, 027h, 0D5h, 018h, 047h, 0ADh, 04Ah DB 058h, 0D3h, 014h, 0BCh, 097h, 0F2h, 049h, 0DCh DB 045h, 0CAh, 0AEh, 0FCh, 0A5h, 025h, 0B9h, 056h DB 06Eh, 0E4h, 0D5h, 053h, 094h, 01Ah, 0ABh, 0B0h DB 026h, 05Fh, 0A1h, 001h, 09Fh, 00Ch, 0A7h, 0BFh DB 05Bh, 0F8h, 04Bh, 0FEh, 023h, 044h, 00Eh, 07Fh DB 055h, 0F5h, 04Bh, 0D7h, 092h, 0AFh, 09Bh, 0A0h DB 0E5h, 05Ch, 051h, 066h, 07Eh, 02Fh, 01Ah, 0AFh DB 0FFh, 0C2h, 038h, 057h, 059h, 0E0h, 074h, 0A3h DB 033h, 095h, 04Ah, 029h, 056h, 03Ah, 0CEh, 050h DB 0D7h, 098h, 0F9h, 055h, 092h, 047h, 0A5h, 027h DB 0B5h, 02Ch, 069h, 060h, 059h, 010h, 0F9h, 00Ch DB 059h, 047h, 0A9h, 027h, 04Ah, 04Ah, 001h, 0ABh DB 010h, 06Ah, 058h, 066h, 054h, 0B3h, 095h, 03Ch DB 087h, 090h, 07Ch, 0D5h, 0AAh, 0AEh, 0E9h, 04Bh DB 025h, 06Ah, 0DAh, 06Ch, 07Ah, 0B6h, 0B5h, 0FBh DB 049h, 05Dh, 02Bh, 0A9h, 040h, 0E9h, 07Fh, 0CAh DB 023h, 0F4h, 0AEh, 0B3h, 0E0h, 094h, 06Ah, 0DDh DB 0E5h, 075h, 0BDh, 0E0h, 0ECh, 0A5h, 00Bh, 053h DB 055h, 001h, 04Ah, 0FAh, 075h, 05Eh, 015h, 084h DB 085h, 0FDh, 02Bh, 0E8h, 06Ch, 04Ah, 0FAh, 029h DB 046h, 059h, 03Bh, 04Dh, 00Ch, 03Ah, 0A5h, 02Ch DB 04Bh, 027h, 052h, 025h, 0DFh, 069h, 035h, 0CDh DB 04Eh, 049h, 046h, 0B5h, 024h, 090h, 02Bh, 001h DB 0D7h, 01Ah, 023h, 0B2h, 05Ch, 028h, 054h, 0E2h DB 04Ch, 09Ah, 0D1h, 097h, 0BFh, 0EDh, 029h, 025h DB 029h, 0B4h, 05Ah, 0BCh, 0B5h, 0DCh, 0BBh, 066h DB 07Ah, 059h, 04Eh, 00Bh, 04Ah, 0EFh, 07Dh, 0D5h DB 07Eh, 0F2h, 041h, 0B9h, 0A9h, 0AAh, 05Ah, 0CBh DB 0F7h, 029h, 0F0h, 05Fh, 0CFh, 0C1h, 0D2h, 057h DB 0FBh, 071h, 04Bh, 0F4h, 069h, 057h, 01Bh, 00Ah DB 003h, 028h, 04Eh, 04Bh, 0F9h, 0A7h, 03Ah, 0ABh DB 00Ch, 012h, 053h, 0BFh, 0CBh, 0D3h, 04Ah, 0FFh DB 03Fh, 0D1h, 07Fh, 093h, 011h, 036h, 040h, 042h DB 0F1h, 00Eh, 056h, 001h, 0F5h, 0ADh, 043h, 0F4h DB 0A3h, 0F2h, 072h, 0B7h, 015h, 06Eh, 06Dh, 04Bh DB 0ABh, 0D8h, 0B4h, 0B5h, 0DAh, 03Fh, 0B5h, 069h DB 0BBh, 09Ch, 07Ah, 048h, 04Dh, 0C4h, 0F7h, 0FAh DB 001h, 0C9h, 02Bh, 09Dh, 0FEh, 023h, 057h, 025h DB 0D5h, 02Ah, 060h, 0E9h, 0DBh, 0FCh, 09Fh, 09Fh DB 0B6h, 0A5h, 057h, 053h, 001h, 067h, 0ADh, 04Ah DB 01Bh, 051h, 0A8h, 076h, 097h, 05Ch, 0EBh, 0D2h DB 09Ch, 001h, 0BDh, 0E2h, 00Bh, 09Ch, 027h, 04Bh DB 053h, 0AEh, 068h, 0EDh, 04Bh, 0A5h, 027h, 0B8h DB 0D6h, 047h, 0E5h, 02Ah, 001h, 012h, 04Ah, 049h DB 03Ah, 07Ch, 02Dh, 00Ah, 015h, 008h, 06Dh, 077h DB 05Fh, 0B4h, 0D5h, 05Dh, 089h, 00Ah, 09Fh, 054h DB 025h, 0D7h, 016h, 055h, 091h, 01Ch, 05Eh, 0A2h DB 02Fh, 047h, 01Ch, 0A4h, 00Fh, 0ABh, 001h, 0F4h DB 047h, 053h, 021h, 052h, 016h, 04Ah, 0F2h, 0E8h DB 0FDh, 0AAh, 052h, 0F8h, 0A7h, 03Bh, 0B5h, 015h DB 0FBh, 09Fh, 069h, 03Eh, 00Ah, 052h, 026h, 0D2h DB 0EEh, 0C9h, 0F5h, 05Ch, 00Dh, 049h, 097h, 033h DB 0E7h, 048h, 026h, 09Eh, 0BBh, 06Bh, 04Eh, 0C7h DB 0F0h, 065h, 00Ah, 0B2h, 0A9h, 0BCh, 04Ah, 0A5h DB 0B4h, 0EAh, 0B5h, 0DBh, 04Ch, 0BBh, 07Ah, 0F8h DB 04Bh, 097h, 076h, 041h, 05Ah, 045h, 069h, 0F2h DB 05Dh, 0F0h, 0E0h, 0A5h, 05Bh, 034h, 0B8h, 08Ah DB 0A0h, 0ACh, 052h, 0A7h, 001h, 0A5h, 071h, 069h DB 0DCh, 0A7h, 001h, 04Dh, 032h, 04Ah, 026h, 0E6h DB 04Fh, 0AFh, 020h, 04Dh, 0B1h, 04Ah, 099h, 0B5h DB 017h, 03Eh, 0CBh, 04Ah, 0A7h, 049h, 071h, 05Fh DB 04Ah, 05Dh, 0FEh, 093h, 0C6h, 069h, 07Dh, 045h DB 082h, 0AEh, 0A5h, 075h, 0A9h, 0D2h, 053h, 048h DB 0B4h, 0A0h, 0BEh, 088h, 049h, 055h, 04Dh, 030h DB 023h, 0C6h, 0BDh, 023h, 0A0h, 0BDh, 02Fh, 0F8h DB 0ABh, 0F9h, 04Bh, 0ABh, 0B7h, 03Ah, 08Eh, 055h DB 0B9h, 057h, 0B4h, 0A2h, 04Ah, 05Fh, 079h, 0C0h DB 0F4h, 09Bh, 0F0h, 074h, 091h, 0A0h, 07Ch, 071h DB 049h, 087h, 07Bh, 048h, 002h, 046h, 0ABh, 056h DB 025h, 094h, 00Eh, 0A4h, 0EAh, 0A6h, 001h, 092h DB 02Fh, 09Eh, 092h, 0FEh, 0CAh, 0BEh, 0F6h, 003h DB 093h, 0C6h, 072h, 09Fh, 06Dh, 035h, 0BAh, 09Eh DB 0F4h, 092h, 0FFh, 09Ah, 077h, 0B6h, 087h, 09Bh DB 0F0h, 054h, 0AFh, 050h, 0C9h, 07Fh, 067h, 0B0h DB 0F2h, 05Fh, 0FBh, 0EBh, 0DCh, 0AAh, 028h, 0BFh DB 020h, 025h, 0FFh, 017h, 080h, 069h, 07Ch, 056h DB 05Fh, 029h, 08Eh, 076h, 0AFh, 0B4h, 0C9h, 03Dh DB 050h, 049h, 017h, 0A0h, 0FBh, 084h, 07Fh, 092h DB 03Fh, 0C6h, 092h, 02Ah, 09Eh, 0A4h, 0DFh, 089h DB 0B4h, 0CFh, 054h, 0F4h, 08Fh, 050h, 0F9h, 04Bh DB 001h, 0BAh, 093h, 03Eh, 020h, 0E5h, 02Ah, 001h DB 0BEh, 0FDh, 080h, 000h Size_Bitmap = $ - @BitMap

ec226bee9b63b5dde323e8f5021d3ce8d60dcf7d

asm

Assembly

Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_7746_1333.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_7746_1333.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_7746_1333.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r10 push %rbp push %rcx push %rdi push %rsi lea addresses_A_ht+0x7bb5, %rsi lea addresses_WT_ht+0x14439, %rdi nop nop inc %r10 mov $24, %rcx rep movsb nop nop nop nop nop cmp $63030, %r10 lea addresses_UC_ht+0x74b5, %rsi clflush (%rsi) xor $41188, %rdi movw $0x6162, (%rsi) nop nop nop inc %rcx lea addresses_WT_ht+0x1beb5, %rsi lea addresses_WC_ht+0xf835, %rdi nop nop nop nop nop dec %r10 mov $42, %rcx rep movsq nop nop nop nop nop inc %r10 pop %rsi pop %rdi pop %rcx pop %rbp pop %r10 ret .global s_faulty_load s_faulty_load: push %r12 push %r14 push %r9 push %rbp push %rcx push %rdx // Store lea addresses_WT+0xfab5, %rcx nop nop xor $6664, %rbp movw $0x5152, (%rcx) nop nop nop xor $663, %r9 // Faulty Load lea addresses_D+0x16b5, %r9 sub $26205, %rdx mov (%r9), %r12 lea oracles, %r9 and $0xff, %r12 shlq $12, %r12 mov (%r9,%r12,1), %r12 pop %rdx pop %rcx pop %rbp pop %r9 pop %r14 pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 8, 'same': True}, 'dst': {'type': 'addresses_WT_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 11, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 4, 'same': False}} {'36': 7746} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 */

161f351ce2ef0dd2904ca0f526ed56803b4f561c

asm

Assembly

ti_simplelink_sdk/kernel/tirtos/packages/ti/sysbios/family/arm/TaskSupport_asm_gnu.asm

intrepidcs/OBD2PRO_WIFI_CC32XX

903d791bddcb43c269d9c258500a454fe4f9caa6

ti_simplelink_sdk/kernel/tirtos/packages/ti/sysbios/family/arm/TaskSupport_asm_gnu.asm

intrepidcs/OBD2PRO_WIFI_CC32XX

903d791bddcb43c269d9c258500a454fe4f9caa6

ti_simplelink_sdk/kernel/tirtos/packages/ti/sysbios/family/arm/TaskSupport_asm_gnu.asm

intrepidcs/OBD2PRO_WIFI_CC32XX

903d791bddcb43c269d9c258500a454fe4f9caa6

@ @ Copyright (c) 2014-2016, Texas Instruments Incorporated @ All rights reserved. @ @ 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 Texas Instruments Incorporated 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. @ @ @ ======== TaskSupport_asm.asm ======== @ .arm .global ti_sysbios_family_arm_TaskSupport_swap__E .global ti_sysbios_family_arm_TaskSupport_buildTaskStack .global ti_sysbios_family_arm_TaskSupport_glue .align 4 @ @ ======== Task_buildTaskStack ======== @ @ Task_buildTaskStack(stack, fxn, exit, entry, arg0, arg1) @ r0, r1, r2, r3, [0], [4] @ @ initial stack image: @ @ d8-d15 = 0 if vfp supported @ r4 = -1 @ r5 = -1 @ r6 = -1 @ r7 = -1 @ r8 = -1 @ r9 = -1 @ r10 = -1 @ r11 = -1 @ glue @ arg0 @ arg1 @ fxn @ exit @ enter @ STACK .req r0 @ 1st argument, return value FXN .req r1 @ 2nd argument EXIT .req r2 @ 3rd argument ENTER .req r3 @ 4th argument .set ARG0, 0 @ 5th argument (stack offset) .set ARG1, 4 @ 6th argument (stack offset) .section .text.ti_sysbios_family_arm_TaskSupport_buildTaskStack .func ti_sysbios_family_arm_TaskSupport_buildTaskStack ti_sysbios_family_arm_TaskSupport_buildTaskStack: str ENTER, [STACK,#-4]! str EXIT, [STACK,#-4]! str FXN, [STACK,#-4]! ldr r1, [sp, #ARG1] str r1, [STACK,#-4]! ldr r1, [sp, #ARG0] str r1, [STACK,#-4]! ldr r1, glueAddr str r1, [STACK,#-4]! eor r1, r1, r1 @ set r1 to 0 sub r1, r1, #1 str r1, [STACK,#-4]! @ init r4-r11, lr with -1 str r1, [STACK,#-4]! str r1, [STACK,#-4]! str r1, [STACK,#-4]! str r1, [STACK,#-4]! str r1, [STACK,#-4]! str r1, [STACK,#-4]! str r1, [STACK,#-4]! #if (defined(__VFP_FP__) && !defined(__SOFTFP__)) eor r2, r2, r2 eor r3, r3, r3 strd r2, [STACK,#-8]! @ make room for 8 vfp strd r2, [STACK,#-8]! @ saved by parent regs strd r2, [STACK,#-8]! @ d8-d15 strd r2, [STACK,#-8]! strd r2, [STACK,#-8]! strd r2, [STACK,#-8]! strd r2, [STACK,#-8]! strd r2, [STACK,#-8]! #endif bx lr .endfunc .align 2 glueAddr: .word ti_sysbios_family_arm_TaskSupport_glue @ @ ======== TaskSupport_swap ======== @ @ TaskSupport_swap(oldSP, newSP) @ OLD .req r0 @ 1st argument NEW .req r1 @ 2nd argument .section .text.ti_sysbios_family_arm_TaskSupport_swap__E .func ti_sysbios_family_arm_TaskSupport_swap__E ti_sysbios_family_arm_TaskSupport_swap__E: push {r4-r11, lr} #if (defined(__VFP_FP__) && !defined(__SOFTFP__)) vstmdb r13!, {D8-D15} @ push vfp caller regs #endif str sp, [OLD] .if (ti_sysbios_BIOS_smpEnabled__D == TRUE) clrex @ clear exclusive monitor status @ This instruction is not supported on ARM9 but since SMP is never @ enabled for ARM9, it is okay to make execution of clrex conditional @ on SMP being enabled. .endif ldr sp, [NEW] #if (defined(__VFP_FP__) && !defined(__SOFTFP__)) vldmia r13!, {D8-D15} @ pop vfp caller regs #endif pop {r4-r11, pc} .endfunc @ @ ======== TaskSupport_glue ======== @ @ This glue function is executed immediately before executing the "fxn" @ passed to Task_start. This function loads the parameters to "fxn" into @ registers - necessary for the arm register passing model. @ .section .text.ti_sysbios_family_arm_TaskSupport_glue .func ti_sysbios_family_arm_TaskSupport_glue ti_sysbios_family_arm_TaskSupport_glue: ldr r0, [sp, #16] @ Task enter function blx r0 @ call Task enter function @ return from Task enter function here ldr r0, [sp, #0] @ task arg0 ldr r1, [sp, #4] @ task arg1 ldr r2, [sp, #8] @ task fxn ldr lr, [sp, #12] @ Task exit function bx r2 @ call task fxn, ("returns" to exit func) .endfunc

db9316ca3592eff2b68970bc53876d57d6aca3f8

asm

Assembly

V2/src/ASH VGA/Old/ASH_VGA_BITEST.z80.asm

anjennings/Tom80

99b58b32b923068c26e8781912ad825978b10f37

2021-01-16T16:18:45.000Z

2022-03-28T17:58:05.000Z

V2/src/ASH VGA/Old/ASH_VGA_BITEST.z80.asm

anjennings/Z80-Computer

99b58b32b923068c26e8781912ad825978b10f37

2021-03-19T13:38:28.000Z

2021-03-19T14:04:13.000Z

V2/src/ASH VGA/Old/ASH_VGA_BITEST.z80.asm

anjennings/Z80-Computer

99b58b32b923068c26e8781912ad825978b10f37

2021-02-07T18:52:32.000Z

2022-01-18T07:00:45.000Z

;ASH - Aidan's SHell (VGA Output Only Test) STACK equ 0xFFF0 OUTPUT_SEL equ STACK+1 ;Indicates if output is via serial or VGA PROP_ENABLED equ STACK+2 ;Set to 0 if Prop is detected at boot PROP_WRITE_FLAG equ STACK+3 PROP_READ_FLAG equ STACK+4 ;First byte of term buf is the size of the term buf TERM_BUF equ 0x8000 ;Maximum size of the buffer TERM_BUF_MAX equ 256 ;Baud Rate Divisor (115200) BAUD_DIV_HIGH equ 0 BAUD_DIV_LOW equ 8 ;//////////////// ;UART Registers ;//////////////// UART_DHR equ 0x10 ;UART Data R/W register UART_IER equ 0x11 ;Interrupt Enable Register UART_IFR equ 0x12 ;Interrupt ID Reg (READ), FIFO Control Reg (WRITE) UART_LCR equ 0x13 ;Line Control Register UART_MCR equ 0x14 ;Modem Control UART_LSR equ 0x15 ;Line Status Register UART_MSR equ 0x16 ;Modem Status (Unused) UART_SCR equ 0x17 ;Arbitrary data can be stored here ;According to the datasheet: ;8 Databits, No parity, 1 Stop ;/////////// ;Charactars ;/////////// CHAR_NEWLINE equ 0xA CHAR_RETURN equ 0xD CHAR_EOT equ 0x3 CHAR_SPACE equ 0x20 CHAR_NULL equ 0x0 SYM_READ equ ":" SYM_WRITE equ "<" SYM_EXE equ "@" SYM_HELP equ "?" ;////////////////////////////////////// ;PIO REGISTERS ;////////////////////////////////////// PIO_BASE equ 0x0 PIO_PORTA_DAT equ (PIO_BASE) PIO_PORTB_DAT equ (PIO_BASE+1) PIO_PORTA_CON equ (PIO_BASE+2) PIO_PORTB_CON equ (PIO_BASE+3) ;Interrupt Vector PIO_INT_HIGH equ 0x08 PIO_INT_LOW equ 0x00 ;LSB is disregarded by PIO PIO_INT equ ((PIO_INT_HIGH*256) + (PIO_INT_LOW)) PIO_INT_VECT_A equ (PIO_INT_LOW & 0xFE) PIO_INT_VECT_B equ (PIO_INT_LOW+2 & 0xFE) ;Mode Control Words MODE_OUT equ 0x0F ;MODE 0 MODE_IN equ 0x4F ;MODE 1 MODE_BI equ 0x8F ;MODE 2 MODE_CON equ 0xCF ;MODE 3 ;Must be sent after setting mode 3 PIO_B_CON_IO equ 0x00 ;Set PB0, all of port B to outputs ;Interrupt Contro Words PIO_INT_EN_A equ 0x87 ;Enable interrupt for mode 0-2 PIO_INT_EN_B equ 0x97 ;Enable interrupt for mode 3, mask follows PIO_INT_DE equ 0x07 ;Disable interrupt for all modes PIO_MASK equ 0xFF ;Must follow Int enable on mode 3 OUTPUT_SERIAL equ 'S' OUTPUT_VGA equ 'V' org PIO_INT dw (PIO_INT_HANDLER_OUT) dw (PIO_INT_HANDLER_IN) ;///////////////// ;Code Starts HERE ;///////////////// org 0000h BOOT: ;Wait a few clocks DI NOP NOP JP INIT org 08h CALL GETCH RET org 10h CALL GETSTR RET org 18h CALL PRINTCH RET org 20h CALL WRITE_STR RET org 28h RET org 30h RET ;////////////////// ;Interrupt Routine ;////////////////// org 0038h RETI INIT: ;Set up Stack LD HL, STACK LD SP, HL ;Set up output check LD HL, OUTPUT_SEL LD (HL), 0 ;Set up UART CALL UART_INIT ;Set up PIO CALL PIO_INIT INIT_DETECT_PIO: CALL PIO_DETECT LD HL, PROP_ENABLED LD A, (HL) CP 0 JP Z, INIT_OUTPUT_SET ;If Prop is disabled, set to serial LD HL, OUTPUT_SEL LD (HL), OUTPUT_SERIAL JP MAIN INIT_OUTPUT_SET: CALL GETCH ;Wait until user presses a button to do anything LD HL, OUTPUT_MSG CALL WRITE_STR CALL OUTPUT_CHECK MAIN: CALL GETCH ;Print Boot Screen LD HL, BOOT_MSG CALL WRITE_STR ;Do PIO Test Here CALL PIO_TEST CALL PRINTCH LD HL, PIO_TEST_STR CALL WRITE_STR MAIN_LOOP: CALL MONITOR JP MAIN_LOOP MONITOR: PUSH AF PUSH HL ;Clear Terminal Buffer LD HL, TERM_BUF LD A, 0 LD (HL), A ;Print Prompt LD HL, PROMPT CALL WRITE_STR ;Get the user input and evaluate CALL GETSTR CALL EVALUATE_STMT POP HL POP AF RET ;////////////////////// ;//////Functions/////// ;////////////////////// ;////////////////////////////////////// ;PIO Functions ;////////////////////////////////////// PIO_INIT: PUSH AF DI ;Set interrupt page LD A, PIO_INT_HIGH LD I, A ;Set Interrupt Vector on port A and B to be the same (they can be different) LD A, PIO_INT_VECT_A OUT PIO_PORTA_CON, A LD A, PIO_INT_VECT_B OUT PIO_PORTB_CON, A ;Set port B as manual control LD A, MODE_CON OUT PIO_PORTB_CON, A LD A, PIO_B_CON_IO OUT PIO_PORTB_CON, A ;Set Interrupt Enable on Port B LD A, PIO_INT_EN_B OUT PIO_PORTB_CON, A LD A, PIO_MASK ;No pins generate interrupts OUT PIO_PORTB_CON, A ;Put port B in a known state LD A, 0xFF OUT PIO_PORTB_DAT, A ;Set port A as bi-directional LD A, MODE_BI OUT PIO_PORTA_CON, A ;Set Interrupt Enable on Port A LD A, PIO_INT_EN_A OUT PIO_PORTA_CON, A ;Clear input register IN A, PIO_PORTA_DAT POP AF IM 2 ;EI RET ;This is run when the PIO is written to PIO_INT_HANDLER_OUT: EX AF, AF' EXX ;Indicate that prop is enabled LD HL, PROP_ENABLED LD (HL), 0 EX AF, AF' EXX RETI ;Runs when PIO returns data to CPU PIO_INT_HANDLER_IN: RETI ;Send command to PIO ;Expects A to be command ;Halt until interrupt response PIO_SEND_CMD: PUSH AF ;Write to PIO (Check status beforehand?) OUT PIO_PORTA_DAT, A EI HALT ;Wait for Prop to acknowledge write DI ;Read data from PIO ;IN A, PIO_PORTA_DAT POP AF RET ;Wait for interrupt to break out of loop ;Read data from register PIO_GET_DATA: EI HALT DI IN A, PIO_PORTA_DAT RET ;Send command to PIO and wait for reply ;If nothing comes through assume prop is disabled ;Returns 0 if Prop is running PIO_DETECT: PUSH AF PUSH BC PUSH HL ;Send data LD A, 0 OUT PIO_PORTA_DAT, A EI ;Set flag LD HL, PROP_ENABLED LD A, 0xFF LD (HL), A LD A, 0 EI DETECT_LOOP: INC A LD B, A ;Save A LD A, (HL) CP 0 ;Check if flag has changed JP Z, DETECT_END LD A, B CP 0 ;Check if count has rolled over JP NZ, DETECT_LOOP DETECT_END: DI POP HL POP BC POP AF RET ;Get a character and set output mode based on value OUTPUT_CHECK: PUSH AF PUSH HL LD HL, OUTPUT_SEL CHECK: CALL GETCH CHECK_SERIAL: CP OUTPUT_SERIAL JP NZ, CHECK_VIDEO LD (HL), OUTPUT_SERIAL JP OUTPUT_CHECK_END CHECK_VIDEO: CP OUTPUT_VGA JP NZ, CHECK LD (HL), OUTPUT_VGA OUTPUT_CHECK_END: POP HL POP AF RET PIO_TEST: LD A, 0x80 CALL PIO_SEND_CMD ;Send command CALL PIO_GET_DATA ;Get reply RET ;Return with value ;////////////////////////////////////// ;UART Functions ;////////////////////////////////////// UART_INIT: PUSH AF CALL UART_CLEAR_DLAB CALL UART_DISABLE_FIFO CALL UART_SET_LINE_CONTROL CALL UART_TOGGLE_OUT1 CALL UART_TOGGLE_OUT2 CALL UART_CLEAR_LSR CALL UART_SET_DLAB CALL UART_SET_BAUD CALL UART_CLEAR_DLAB POP AF RET UART_CLEAR_DLAB: PUSH AF IN A, (UART_LCR) AND 0x7F OUT (UART_LCR), A POP AF RET UART_SET_DLAB: PUSH AF IN A, (UART_LCR) OR 0x80 OUT (UART_LCR), A POP AF RET UART_SET_LINE_CONTROL: PUSH AF LD A, 0x3 ;8 Bit word, 1 stop, no parity OUT (UART_LCR), A POP AF RET UART_DISABLE_FIFO: PUSH AF LD A, 0x6 OUT (UART_IFR), A POP AF RET UART_SET_BAUD: PUSH AF ;115200 LD A, BAUD_DIV_LOW OUT (UART_DHR), A LD A, BAUD_DIV_HIGH OUT (UART_IER), A POP AF RET UART_CLEAR_LSR: PUSH AF ;Clear Line Status Reg Errors (Page 21) IN A, (UART_LSR) POP AF RET UART_TOGGLE_OUT1: PUSH AF IN A, (UART_MCR) XOR 0x4 OUT (UART_MCR), A POP AF RET UART_TOGGLE_OUT2: PUSH AF IN A, (UART_MCR) XOR 0x8 OUT (UART_MCR), A POP AF RET ;////////////////////////////////////// ;Get a character from the FIFO, add to write buffer and echo to screen ;Value is returned in A ;////////////////////////////////////// GETCH: PUSH BC CALL UART_CLEAR_DLAB GETCH_LOOP: ;Read Line Status Reg IN A, (UART_LSR) ;If only bit 1 is set then FIFO has new data AND 0x1F CP 1 JP NZ, GETCH_LOOP ;Get next char from data holding register IN A, (UART_DHR) CALL WRITE_BUFFER CALL UART_TOGGLE_OUT2 GETCH_END: POP BC RET ;////////////////////////////////////// ;Get a line of text from the FIFO, until a return or newline is recieved ;////////////////////////////////////// GETSTR: PUSH AF GETSTR_LOOP: CALL GETCH CP CHAR_RETURN JP NZ, GETSTR_LOOP POP AF RET ;/////////////////////////////////////// ;Write a charactar to the terminal buffer, and echo to screen ;expects A to be the character ;////////////////////////////////////// WRITE_BUFFER: PUSH AF PUSH BC PUSH DE ;Save character in D LD D, A ;Load address of terminal buffer LD BC, TERM_BUF ;Get size of terminal buffer LD A, (BC) ;Add 1 INC A ;Write new length to start of buffer LD (BC), A ;Add A and C for new offset (C should be 0 but just in case) ADD A, C ;Put A into C LD C, A ;Put char back into A LD A, D ;Write to buffer LD (BC), A CALL PRINTCH POP DE POP BC POP AF RET ;///////////////////////////////////////// ;Assumes that A is the charactar to write ;///////////////////////////////////////// PRINTCH: PUSH AF PUSH BC PUSH HL ;Save char into B LD B, A LD HL, OUTPUT_SEL LD A, (HL) CP OUTPUT_VGA JP Z, PRINTCH_VIDEO PRINTCH_SERIAL: CALL UART_CLEAR_DLAB PRINTCH_LOOP: ;Read transmit register status in line status register (LSR) See page 22 ;Wait if not empty IN A, (UART_LSR) AND 0x60 CP 0x60 JP NZ, PRINTCH_LOOP ;Write Char to UART LD A, B OUT (UART_DHR), A LD HL, OUTPUT_SEL LD A, (HL) CP 'S' JP Z, PRINTCH_EXIT PRINTCH_VIDEO: LD A, B ;AND 0x7F ;CALL PIO_SEND_CMD CALL PRINTCH_VGA PRINTCH_EXIT: POP HL POP BC POP AF RET PRINTCH_VGA: PUSH AF AND 0x7F CALL PIO_SEND_CMD POP AF RET ;//////////////////////////////////////// ;Writes a string via IO ;Expects HL to be the address of a string ;//////////////////////////////////////// WRITE_STR: PUSH AF PUSH HL WRITE_START: LD A, (HL) CP CHAR_EOT JP Z, WRITE_CLOSE CALL PRINTCH INC HL JP WRITE_START WRITE_CLOSE: CALL UART_TOGGLE_OUT1 POP HL POP AF RET ;Main function to tokenize, parse, and execute user entered expressions ;Assume AF has return values EVALUATE_STMT: PUSH AF PUSH HL ;Tokenizes and checks for invalid characters CALL TOKENIZE_BUFFER JP C, EVALUATE_STMT_TOKEN_FAIL ;Checks syntax and prepares for execution CALL PARSE_BUFFER JP C, EVALUATE_STMT_SYNTAX_FAIL ;Execute the commands found in the buffer CALL EXECUTE_BUFFER JP C, EVALUATE_STMT_EXE_FAIL ;If all three functions return then jump to end JP EVALUATE_STMT_RETURN EVALUATE_STMT_TOKEN_FAIL: LD HL, TOKEN_ERROR CALL WRITE_STR JP EVALUATE_STMT_RETURN EVALUATE_STMT_SYNTAX_FAIL: LD HL, SYNTAX_ERROR CALL WRITE_STR JP EVALUATE_STMT_RETURN EVALUATE_STMT_EXE_FAIL: LD HL, EXE_ERROR CALL WRITE_STR EVALUATE_STMT_RETURN: POP HL POP AF RET ;//////////////////////////////////////////////////////////////// ;There are 5 types of symbols - LITERAL, @, :, <, ? ;Returns status in register A ;0x00 - Good ;0xFF - Bad ;//////////////////////////////////////////////////////////////// ;Buffer for tokens, first byte is size of buffer TOKEN_BUF equ 0x8100 ;Token Symbols in token buffer TOKEN_EF equ 0 ;End of buffer size 1 TOKEN_LT equ 1 ;ABCDEF0123456789 size 2 TOKEN_EX equ 2 ;@ size 1 TOKEN_RD equ 3 ;: size 1 TOKEN_WR equ 4 ;< size 1 TOKEN_HE equ 5 ;? size 1 TOKEN_WD equ 6 ;Full Word, size 3 ;//////////////////////////////////////////////////////////////// TOKENIZE_BUFFER: PUSH BC PUSH DE ;Clear parse buffer LD DE, TOKEN_BUF LD A, 0 LD (DE), A ;Get start of terminal buffer LD DE, TERM_BUF ;For instruction tokens or newlines ;Load the token code into C and pass that to the tokenize function ;If its a hex letter or number ;The value is in B already and the tokenize function expects that ;Basically, for every byte in the buffer: ;is it a newline? if so then exit ;is it a number? if so then convert to hex and tokenize ;is it a a hex char? convert to hex and tokenize ;is it an instruction? put the propper token ;is it whitespace? ignore TOKENIZE_BUFFER_LOOP: ;Get next character INC DE LD A, (DE) ;Save character LD B, A ;///////////////////// ;Check if return ;///////////////////// LD C, TOKEN_EF CP CHAR_RETURN CALL Z, TOKENIZE_INSTR ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_RETURN_SUCCESS ;///////////////////// ;Check if a number ;///////////////////// SUB 0x30 CP 0xA CALL C, TOKENIZE_NUMBERS ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_LOOP ;Return original character LD A, B ;///////////////////// ;Check if a hex character ;///////////////////// SUB 0x41 CP 0x6 CALL C, TOKENIZE_CHAR ;Return to start of loop if return is FF CP 0xF JP Z, TOKENIZE_BUFFER_LOOP ;Return original character LD A, B ;///////////////////// ;Check if a ? ;///////////////////// LD C, TOKEN_HE CP SYM_HELP CALL Z, TOKENIZE_INSTR ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_LOOP ;Return original character LD A, B ;///////////////////// ;Check if a : ;///////////////////// LD C, TOKEN_RD CP SYM_READ CALL Z, TOKENIZE_INSTR ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_LOOP ;Return original character LD A, B ;///////////////////// ;Check if a < ;///////////////////// LD C, TOKEN_WR CP SYM_WRITE CALL Z, TOKENIZE_INSTR ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_LOOP ;Return original character LD A, B ;///////////////////// ;Check if a @ ;///////////////////// LD C, TOKEN_EX CP SYM_EXE CALL Z, TOKENIZE_INSTR ;Return to start of loop if return is FF CP 0xFF JP Z, TOKENIZE_BUFFER_LOOP ;///////////////////// ;Check if whitespace (ignore) (maybe shouldn't ignore?) ;///////////////////// CP 0x20 JP Z, TOKENIZE_BUFFER_LOOP ;If the program gets to this point there is an error SCF JP TOKENIZE_BUFFER_RETURN TOKENIZE_BUFFER_RETURN_SUCCESS: ;Signal that the program returned successful! SCF CCF TOKENIZE_BUFFER_RETURN: POP DE POP BC RET ;Expects C to be the token value ;Return 0xFF in A when complete TOKENIZE_INSTR: PUSH BC PUSH DE PUSH HL ;Get size of token buffer LD HL, TOKEN_BUF LD A, (HL) ;Save in D LD D, A ;Increment token buffer size INC A LD (HL), A ;Add the new size to the pointer so that it points to the next open spot LD A, D ADD A, L INC A LD L, A ;Put Instruction Token at the next open spot LD (HL), C INC L ;TODO: ??? POP HL POP DE POP BC LD A, 0xFF RET ;Expects B to hold next char value ;Write token symbol and value (if needed) to TOKEN_BUF TOKENIZE_NUMBERS: PUSH BC PUSH DE PUSH HL ;Get size of token buffer LD HL, TOKEN_BUF LD A, (HL) ;Save in C LD C, A ;Increment by 2 ADD A, 2 LD (HL), A ;Add size to the buffer pointer to get the next available spot LD A, C ADD A, L INC A LD L, A ;Put Number Token LD (HL), TOKEN_LT INC L ;Put Token Value LD A, B SUB 0x30 LD (HL), A POP HL POP DE POP BC LD A, 0xFF RET ;Expects B to be the Char value ;Write token symbol and value to TOKEN_BUF ;Returns an F instead of FF because of an error with @ TOKENIZE_CHAR: PUSH BC PUSH DE PUSH HL ;Get size of token buffer LD HL, TOKEN_BUF LD A, (HL) ;Save in C LD C, A ;Increment by 2 ADD A, 2 LD (HL), A ;Goto next free spot LD A, C ADD A, L INC A LD L, A ;Put Number Token LD (HL), TOKEN_LT INC L ;Put Token Value LD A, B SUB 0x37 LD (HL), A POP HL POP DE POP BC LD A, 0xF RET ;TODO: Can this just write over the other buffers? ;Buffer for Parser PARSE_RAM equ 0x8200 ;Current and next token for parser PARSE_CUR equ 0x8200 PARSE_NEXT equ 0x8201 ;Location of state for FSM PARSE_STATE equ 0x8202 ;Incrementor location for parser PARSE_INC equ 0x8203 ;High and low values for literals PARSE_LIT_H equ 0x8204 PARSE_LIT_L equ 0x8205 PARSE_BUF equ 0x8210 ;This should organize each token into a fully readable form ;I'm using the term 'Parse' very loosely ;Return 0x00 on success PARSE_BUFFER: PUSH BC PUSH DE PUSH HL ;Get start of token buffer LD HL, TOKEN_BUF ;Get size of buffer LD A, (HL) ;Return if its empty CP 0 JP Z, PARSE_BUFFER_RETUN_SUCCESS ;Clear literal storage LD HL, PARSE_LIT_L LD (HL), 0 LD HL, PARSE_LIT_H LD (HL), 0 ;Set state to be start ;LD HL, PARSE_STATE ;LD (HL), STATE_START ;Set size of buffer to be 0 LD HL, PARSE_BUF LD (HL), 0 ;Set incrementor LD HL, PARSE_INC LD (HL), 1 PARSE_BUFFER_LOOP: ;Get incrementor LD HL, PARSE_INC LD A, (HL) ;Go to next location in token buffer LD HL, TOKEN_BUF ADD A, L LD L, A ;Get Token, save to A and B LD A, (HL) LD B, A ;Check if its the end of the buffer CP TOKEN_EF CALL Z, PARSE_INST CP 0xFF JP Z, PARSE_BUFFER_RETUN_SUCCESS ;Check if current token is a single literal value CP TOKEN_LT CALL Z, PARSE_LITERAL CP 0xFF JP Z, PARSE_BUFFER_LOOP ;Check if current token is an @ symbol CP TOKEN_EX CALL Z, PARSE_INST CP 0xFF JP Z, PARSE_BUFFER_LOOP ;Check if current token is an : symbol CP TOKEN_RD CALL Z, PARSE_INST CP 0xFF JP Z, PARSE_BUFFER_LOOP ;Check if current token is an < symbol CP TOKEN_WR CALL Z, PARSE_INST CP 0xFF JP Z, PARSE_BUFFER_LOOP ;Check if current token is an ? symbol CP TOKEN_HE CALL Z, PARSE_INST CP 0xFF JP Z, PARSE_BUFFER_LOOP ;If parser reaches this point there is an invalid token ;LD A, 0xFF ;Set carry flag SCF JP PARSE_BUFFER_RETURN PARSE_BUFFER_RETUN_SUCCESS: ;Clear carry flag SCF CCF PARSE_BUFFER_RETURN: POP HL POP DE POP BC RET ;HL should be location of next token ;A should be the token PARSE_LITERAL: PUSH BC PUSH DE PUSH HL PARSE_LITERAL_LOOP: ;Check if this is a literal token ;TODO jump to an error state, not save CP TOKEN_LT JP NZ, PARSE_LITERAL_SAVE ;The goal of this next section is to shift the current token into two 8 bit values to create a single 16 bit value ;This is horrible and ugly but im too tired to make it better right now ;Get value INC L LD A, (HL) ;Save HL for later PUSH HL ;Save value into E LD E, A ;Get high literal value LD HL, PARSE_LIT_H LD A, (HL) ;Rotate A by 4 to the left (may have to rotate 5 times?) so now low bytes are high RLCA RLCA RLCA RLCA ;Zero out lower bytes AND 0xF0 ;Save rotated high byte into B LD B, A ;Get Low literal value LD HL, PARSE_LIT_L LD A, (HL) ;Rotate A by 4 to the left (so now low and high bytes are swapped) RLCA RLCA RLCA RLCA ;Save into C LD C, A ;Zero out high bytes AND 0x0F ;Now A should contain the HIGH byte OR B LD HL, PARSE_LIT_H LD (HL), A ;Now get the value of the token LD A, C ;Put the new token (stored in E) into the low bytes of A AND 0xF0 OR E ;Save LD HL, PARSE_LIT_L LD (HL), A ;Get TOKEN incrementor LD HL, PARSE_INC LD A, (HL) ADD A, 2 LD (HL), A ;Increment pointer and return to start POP HL INC L LD A, (HL) JP PARSE_LITERAL_LOOP PARSE_LITERAL_SAVE: ;First, save this token and the full value ;Get size of parse buffer ;HL Holds the location of the next (non literal) token PUSH HL LD HL, PARSE_BUF LD A, (HL) ;Go to next empty spot ADD A, L INC A LD L, A ;First put word token LD (HL), TOKEN_WD INC L ;Next Put High Byte LD DE, PARSE_LIT_H LD A, (DE) LD (HL), A INC L ;Next put low byte LD DE, PARSE_LIT_L LD A, (DE) LD (HL), A INC L ;Clear literal storage NEWNEWNEW LD HL, PARSE_LIT_L LD (HL), 0 LD HL, PARSE_LIT_H LD (HL), 0 ;Go back to start of buffer, get size LD HL, PARSE_BUF LD A, (HL) ;Increment by size of token ADD A, 0x3 LD (HL), A POP HL PARSE_LITERAL_RETURN_SUCCESS: LD A, 0xFF PARSE_LITERAL_RETURN: POP HL POP DE POP BC RET ;A should just be the instruciton token, no additional work needed PARSE_INST: PUSH BC PUSH DE PUSH HL ;Save token into B LD B, A LD HL, PARSE_BUF LD A, (HL) ;Go to next empty spot ADD A, L INC A LD L, A ;Put token LD (HL), B ;Go back to start of buffer, get size LD HL, PARSE_BUF LD A, (HL) ;Increment by size of token INC A LD (HL), A ;Update TOKEN incrementor LD HL, PARSE_INC LD A, (HL) INC A LD (HL), A ;Set return value LD A, 0xFF POP HL POP DE POP BC RET ;This is essentially a big case statement depending on which token appears ;first in the parse buffer, each case has a corresponding subroutine ;it shouldn't be hard to add extra functions later if needed EXECUTE_BUFFER: PUSH BC PUSH DE PUSH HL ;Go to first token in parse buffer LD HL, PARSE_BUF INC HL ;Get token LD A, (HL) EXECUTE_BUFFER_EF: ;Check if its the end of the buffer (no instruction) CP TOKEN_EF JP Z, EXECUTE_BUFFER_RETURN_SUCCESS EXECUTE_BUFFER_WD: ;Check if current token is a Word Value CP TOKEN_WD JP NZ, EXECUTE_BUFFER_EXE ;If not, jump to the next CALL EVAL_LITERAL CP 0 ;Expect a return value of 0 JP Z, EXECUTE_BUFFER_RETURN_SUCCESS EXECUTE_BUFFER_EXE: ;Check if current token is an @ symbol CP TOKEN_EX JP NZ, EXECUTE_BUFFER_HE CALL EVAL_EXE CP 0 JP Z, EXECUTE_BUFFER_RETURN_SUCCESS EXECUTE_BUFFER_HE: ;Check if current token is an ? symbol CP TOKEN_HE CALL Z, EVAL_HELP CP 0 JP Z, EXECUTE_BUFFER_RETURN_SUCCESS ;More actions could be added here EXECUTE_BUFFER_FAIL: ;If parser reaches this point then there is an invalid instruction ;LD A, 0xFF SCF JP EXECUTE_BUFFER_RETURN EXECUTE_BUFFER_RETURN_SUCCESS: ;I don't think this is needed because A should already be 0 ;LD A, 0x00 SCF CCF EXECUTE_BUFFER_RETURN: POP HL POP DE POP BC RET EVAL_LITERAL: PUSH HL PUSH DE ;Get First Two Bytes LD HL, PARSE_BUF LD A, L ADD A, 2 LD L, A ;Get the top byte LD A, (HL) ;Store into D LD D, A ;Get the bottom byte INC HL LD A, (HL) ;Store into E LD E, A ;Get the instruction token INC HL LD A, (HL) ;See if A is a read instruction EVAL_LITERAL_READ: CP TOKEN_RD JP NZ, EVAL_LITERAL_WRITE CALL EVAL_READ CP 0 ;Check for error JP Z, EVAL_LITERAL_SUCCESS EVAL_LITERAL_WRITE: CP TOKEN_WR JP NZ, EVAL_LITERAL_FAIL CALL EVAL_WRITE CP 0 ;Check for error JP Z, EVAL_LITERAL_SUCCESS ;Other instrucitons could be added here... EVAL_LITERAL_FAIL: LD A, 0xFF EVAL_LITERAL_SUCCESS: POP DE POP HL RET EVAL_EXE: PUSH HL PUSH DE ;Clear DE LD D, 0 LD E, 0 ;Get look at the location of the second token in the buffer LD HL, PARSE_BUF LD A, L ADD A, 2 LD L, A ;Get the token LD A, (HL) ;Make sure its a WORD token CP TOKEN_WD JP NZ, EVAL_EXE_FAILURE ;Get the literal INC HL LD A, (HL) ;Assume 1 Byte at first LD D, A ;Get next token INC HL LD A, (HL) LD E, A ;Set Up Return Address so that RET can be called LD HL, EVAL_EXE_SUCCESS PUSH HL LD H, D LD L, E ;Jump to new, arbitrary location JP (HL) EVAL_EXE_FAILURE: LD A, 0xFF JP EVAL_EXE_EXIT EVAL_EXE_SUCCESS: LD A, 0 EVAL_EXE_EXIT: POP DE POP HL RET EVAL_READ: ;DE is the literal value ;HL should be pointing to the read token PUSH HL PUSH DE PUSH BC ;get next token INC HL LD A, (HL) ;check that it is a word CP TOKEN_WD JP NZ, EVAL_READ_FAIL ;Get the 8 bit value INC HL INC HL LD A, (HL) ;Put the target address in HL LD H, D LD L, E ;Use B to count when a newline is needed LD B, 0 ;Loop over each value at the location EVAL_READ_LOOP: ;Save the pointer, and the incrementor PUSH AF PUSH HL ;Is a newline needed? LD A, B AND 0x0F CP 0 JP NZ, EVAL_READ_LOOP_L1 LD A, CHAR_NEWLINE CALL PRINTCH LD A, CHAR_RETURN CALL PRINTCH EVAL_READ_LOOP_L1: ;Convert the hex to ascii LD A, (HL) CALL HTOA ;Print the first char LD A, H CALL PRINTCH ;Print the second char LD A, L CALL PRINTCH ;Print a space LD A, CHAR_SPACE CALL PRINTCH ;Get the pointer and the incrementor back POP HL POP AF ;Decrement counter and return if A is not 0 INC HL INC B DEC A CP 0 JP NZ, EVAL_READ_LOOP ;A is already 0, just jump to end JP EVAL_READ_EXIT EVAL_READ_FAIL: LD A, 0xFF EVAL_READ_EXIT: POP BC POP DE POP HL RET EVAL_WRITE: ;DE is the literal value ;HL should not have been modified from before PUSH HL PUSH DE ;Look now for the final Literal INC HL LD A, (HL) ;Check that next token is a word, even though we only use the lower byte CP TOKEN_WD JP NZ, EVAL_WRITE_FAIL ;Get value to write INC HL INC HL LD A, (HL) ;Write the value LD H, D LD L, E LD (HL), A ;SUCCESS! LD A, 0 JP EVAL_WRITE_RETURN EVAL_WRITE_FAIL: LD A, 0xFF EVAL_WRITE_RETURN: POP DE POP HL RET ;Just print out the help text EVAL_HELP: PUSH HL LD HL, HELP_TEXT CALL WRITE_STR LD A, 0 POP HL RET ;HEX to ASCII ;Convert hex value to 2 ascii characters ;Expects A to be the hex value ;Returns 2 chars in HL HTOA: PUSH AF PUSH BC ;High Nibble First, save into H ;Copy A into B LD B, A HTOA_HIGH: ;Rotate right RR A RR A RR A RR A ;Clear high bits AND 0x0F ;Is this A-F? HTOA_HEX_1: CP 0xA JP C, HTOA_INT_1 ADD A, 0x37 LD H, A JP HTOA_LOW ;Is this 0-9? HTOA_INT_1: ADD A, 0x30 LD H, A ;Next do the low nibble, save into E HTOA_LOW: ;Copy B back into A LD A, B AND 0x0F ;Is this A-F? HTOA_HEX_2: CP 0xA JP C, HTOA_INT_2 ADD A, 0x37 LD L, A JP HTOA_EXIT ;Is this 0-9? HTOA_INT_2: ADD A, 0x30 LD L, A HTOA_EXIT: POP BC POP AF RET ;////////////////////// ;/////////DATA///////// ;////////////////////// BOOT_MSG: db CHAR_NEWLINE, CHAR_RETURN, "ASH v0.5", CHAR_NEWLINE, CHAR_RETURN, "(C) 2021 by Aidan Jennings" db CHAR_NEWLINE, CHAR_RETURN, "ZILOG Z80 32k EEPROM, 64k SRAM", CHAR_NEWLINE, CHAR_RETURN, CHAR_EOT SYNTAX_ERROR: db CHAR_NEWLINE, CHAR_RETURN, "SYNTAX ERROR", CHAR_NEWLINE, CHAR_EOT TOKEN_ERROR: db CHAR_NEWLINE, CHAR_RETURN, "INVALID TOKEN", CHAR_NEWLINE, CHAR_EOT EXE_ERROR: db CHAR_NEWLINE, CHAR_RETURN, "EXECUTION ERROR", CHAR_NEWLINE, CHAR_EOT HELP_TEXT: db CHAR_NEWLINE, CHAR_RETURN, "INSTRUCTIONS : ", CHAR_NEWLINE, CHAR_RETURN, "1FFF : 10 - READ 16 BYTES STARTING AT LOCATION 0x1FFF", CHAR_NEWLINE, CHAR_RETURN, "1FFF < 10 - WRITE 0x10 TO LOCAITON 0x1FFF", CHAR_NEWLINE, CHAR_RETURN, "@1FFF - BEGIN EXECUTION AT LOCATION 0x1FFF", CHAR_NEWLINE, CHAR_RETURN, "? - DISPLAY HELP MESSAGE", CHAR_NEWLINE, CHAR_EOT PROMPT: db CHAR_NEWLINE, CHAR_RETURN, "[Tom80]:~$ ", CHAR_EOT OUTPUT_MSG: db CHAR_NEWLINE, CHAR_RETURN, "(S)erial or (V)ideo?", CHAR_NEWLINE, CHAR_RETURN, CHAR_EOT PIO_TEST_STR: db " << I got this from the PIO", CHAR_NEWLINE, CHAR_NEWLINE, CHAR_RETURN, CHAR_EOT

7bc367cc082b133601cd887d691bf86ee719c8a4

asm

Assembly

oeis/054/A054995.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/054/A054995.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/054/A054995.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A054995: A version of Josephus problem: a(n) is the surviving integer under the following elimination process. Arrange 1,2,3,...,n in a circle, increasing clockwise. Starting with i=1, delete the integer two places clockwise from i. Repeat, counting two places from the next undeleted integer, until only one integer remains. ; 1,2,2,1,4,1,4,7,1,4,7,10,13,2,5,8,11,14,17,20,2,5,8,11,14,17,20,23,26,29,1,4,7,10,13,16,19,22,25,28,31,34,37,40,43,46,2,5,8,11,14,17,20,23,26,29,32,35,38,41,44,47,50,53,56,59,62,65,68,1,4,7,10,13,16,19,22,25,28,31,34,37,40,43,46,49,52,55,58,61,64,67,70,73,76,79,82,85,88,91 mov $2,1 lpb $0 sub $0,1 add $1,3 add $2,1 mod $1,$2 lpe mov $0,$1 add $0,1

22d66cd6ed16302f49f71e45a134cd28860a6edc

asm

Assembly

src/main.asm

Iambian/Falldown2-CE

3f73a7be510b8bbc24b224ccf02757476222e3ea

2020-05-18T14:09:57.000Z

2022-02-14T23:45:55.000Z

src/main.asm

Iambian/Falldown2-CE

3f73a7be510b8bbc24b224ccf02757476222e3ea

src/main.asm

Iambian/Falldown2-CE

3f73a7be510b8bbc24b224ccf02757476222e3ea

#include "src/ti84pce_short.inc" .org userMem-2 .db 0EFh, 07Bh .assume adl=1 ;Note. 2bpp screen mode. screen @ $D43500, buffer @D48000. programStart: di ld hl,gameData ld de,0D40000h call zx7_decompress ;jr $ call 0D40000h jp _boot_ClearVRAM #include "src/dzx7.asm" .echo "Loader stub size: ",$-programStart," bytes" gameData: #import "obj/game.zx7" .echo "Total file size: ",$-programStart," bytes"

59b5df71eae6101079ee59ea51347d53a41f3866

asm

Assembly

libsrc/_DEVELOPMENT/temp/sp1/zx/sprites/draw/SP1_DRAW_LOAD1LB.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/_DEVELOPMENT/temp/sp1/zx/sprites/draw/SP1_DRAW_LOAD1LB.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/_DEVELOPMENT/temp/sp1/zx/sprites/draw/SP1_DRAW_LOAD1LB.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; DRAW LOAD SPRITE 1 BYTE DEFINITION ROTATED, ON LEFT BORDER ; 01.2006 aralbrec, Sprite Pack v3.0 ; sinclair spectrum version INCLUDE "config_private.inc" SECTION code_clib SECTION code_temp_sp1 PUBLIC _SP1_DRAW_LOAD1LB EXTERN _SP1_DRAW_LOAD1NR EXTERN SP1RETSPRDRAW ; following data segment copied into struct sp1_cs ld hl,0 nop ld de,0 call _SP1_DRAW_LOAD1LB ; following draw code called by way of SP1UpdateNow ; ; a = hor rot table ; bc = graphic disp ; hl = graphic def ptr ; de = left graphic def ptr ; ; 32 + 33*8 - 6 + 10 = 300 cycles _SP1_DRAW_LOAD1LB: cp SP1V_ROTTBL/256 jp z, _SP1_DRAW_LOAD1NR add hl,bc ld d,a ; d = shift table ; hl = sprite def (graph only) _SP1Load1LBRotate: ; 0 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+0),a ; 1 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+1),a ; 2 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+2),a ; 3 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+3),a ; 4 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+4),a ; 5 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+5),a ; 6 ld e,(hl) inc hl ld a,(de) ld (SP1V_PIXELBUFFER+6),a ; 7 ld e,(hl) ld a,(de) ld (SP1V_PIXELBUFFER+7),a jp SP1RETSPRDRAW

fcaa85ad00d71f0c7b8eb8de927e84d37dbd7f3d

asm

Assembly

Src/SacaraVm/vm_jump_if_less_equals.asm

mrfearless/sacara

126ee1c8c18c9d01a09fac4aedd9044976cf17c4

Src/SacaraVm/vm_jump_if_less_equals.asm

mrfearless/sacara

126ee1c8c18c9d01a09fac4aedd9044976cf17c4

Src/SacaraVm/vm_jump_if_less_equals.asm

mrfearless/sacara

126ee1c8c18c9d01a09fac4aedd9044976cf17c4

header_VmJumpIfLessEquals vm_jump_if_less_equals PROC push ebp mov ebp, esp ; pop the value push [ebp+arg0] call_vm_stack_pop_enc ; test the carry flag mov ebx, [ebp+arg0] mov ebx, [ebx+vm_flags] test ebx, VM_CARRY_FLAG jnz modify_ip ; test the zero flag mov ebx, [ebp+arg0] mov ebx, [ebx+vm_flags] test ebx, VM_ZERO_FLAG jz finish modify_ip: ; modify the vm IP mov ebx, [ebp+arg0] mov [ebx+vm_ip], eax finish: mov esp, ebp pop ebp ret vm_jump_if_less_equals ENDP header_marker

d598ae9db7456e43356d6229a209b1c989a92b5c

asm

Assembly

Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_21829_1236.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_21829_1236.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2021-04-29T06:29:35.000Z

2021-05-13T21:02:30.000Z

Transynther/x86/_processed/NC/_zr_/i7-7700_9_0x48.log_21829_1236.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-07-14T17:07:07.000Z

2022-03-21T01:12:22.000Z

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %rax push %rcx push %rdi push %rdx lea addresses_D_ht+0xacb6, %rdi nop sub %rdx, %rdx mov (%rdi), %r10d nop nop nop sub %rdx, %rdx lea addresses_A_ht+0x1afb6, %rdi add $63691, %rax movb (%rdi), %cl nop xor %r10, %r10 lea addresses_D_ht+0x19fc2, %rax nop nop nop nop nop sub $49010, %r11 mov $0x6162636465666768, %rdx movq %rdx, %xmm2 vmovups %ymm2, (%rax) nop nop sub %rdx, %rdx pop %rdx pop %rdi pop %rcx pop %rax pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r12 push %r14 push %r8 push %r9 push %rbp push %rdi // Store lea addresses_normal+0x12136, %rbp nop nop add %r12, %r12 mov $0x5152535455565758, %r14 movq %r14, %xmm7 vmovups %ymm7, (%rbp) nop cmp $39931, %r9 // Store lea addresses_normal+0x59a6, %rdi nop nop nop nop nop xor $19527, %r14 mov $0x5152535455565758, %rbp movq %rbp, (%rdi) nop nop nop cmp $26639, %r11 // Faulty Load mov $0x4f216a0000000936, %r11 nop nop inc %r8 movups (%r11), %xmm4 vpextrq $0, %xmm4, %r12 lea oracles, %r9 and $0xff, %r12 shlq $12, %r12 mov (%r9,%r12,1), %r12 pop %rdi pop %rbp pop %r9 pop %r8 pop %r14 pop %r12 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'AVXalign': True, 'congruent': 0, 'size': 16, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'AVXalign': False, 'congruent': 11, 'size': 32, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'AVXalign': False, 'congruent': 4, 'size': 8, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_NC', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 6, 'size': 4, 'same': False, 'NT': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 6, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 1, 'size': 32, 'same': True, 'NT': False}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

30f9b2047cd25baf78863981da6b9b91762129fe

asm

Assembly

oeis/127/A127651.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/127/A127651.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/127/A127651.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A127651: Triangle T(n,k) = n*k if k|n, 0 otherwise; 1<=k<=n. ; Submitted by Christian Krause ; 1,2,4,3,0,9,4,8,0,16,5,0,0,0,25,6,12,18,0,0,36,7,0,0,0,0,0,49,8,16,0,32,0,0,0,64,9,0,27,0,0,0,0,0,81,10,20,0,0,50,0,0,0,0,100,11,0,0,0,0,0,0,0,0,0,121,12,24,36,48,0,72,0,0,0,0,0,144 lpb $0 add $2,1 sub $0,$2 lpe add $0,1 add $2,1 lpb $0 gcd $0,$2 mul $2,$1 lpe mul $0,$2

52c361da1c713158436fa385f968212086014aea

asm

Assembly

libsrc/_DEVELOPMENT/stdio/c/sccz80/ferror.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

libsrc/_DEVELOPMENT/stdio/c/sccz80/ferror.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

libsrc/_DEVELOPMENT/stdio/c/sccz80/ferror.asm

teknoplop/z88dk

bb03fbfd6b2ab0f397a1358559089f9cd3706485

2019-12-03T23:57:48.000Z

2019-12-03T23:57:48.000Z

; int ferror(FILE *stream) INCLUDE "clib_cfg.asm" SECTION code_clib SECTION code_stdio ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; IF __CLIB_OPT_MULTITHREAD & $02 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; PUBLIC ferror EXTERN asm_ferror ferror: push hl pop ix jp asm_ferror ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ELSE ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; PUBLIC ferror EXTERN ferror_unlocked defc ferror = ferror_unlocked ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ENDIF ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;

87870b7d6351513e2eebf401f6c5e29a0f1c118c

asm

Assembly

oeis/083/A083045.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T19:44:55.000Z

2022-03-20T16:47:57.000Z

oeis/083/A083045.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-29T13:15:54.000Z

2022-03-09T19:52:31.000Z

oeis/083/A083045.asm

neoneye/loda-programs

84790877f8e6c2e821b183d2e334d612045d29c0

2021-08-22T20:56:47.000Z

2021-09-29T06:26:12.000Z

; A083045: Main diagonal of table A083044. ; Submitted by Jamie Morken(s1) ; 1,6,17,35,68,122,224,383,656,1092,1841,2978,4859,7835,12776,20291,32664,51422,82485,129720,204821,319482,506060,789872,1237733,1927494,3024318,4687259,7274921,11271293,17578760,27133793,42125475,64909160 mov $1,3 mov $2,$0 lpb $2 add $1,$2 mul $1,3 add $1,5 div $1,2 sub $2,1 lpe mov $0,$1 sub $0,2

33d4166d0a00d96a11783ce4700ef5eecc91b8d0

asm

Assembly

libsrc/_DEVELOPMENT/input/zx/c/sccz80/in_key_pressed.asm

meesokim/z88dk

5763c7778f19a71d936b3200374059d267066bb2

libsrc/_DEVELOPMENT/input/zx/c/sccz80/in_key_pressed.asm

meesokim/z88dk

5763c7778f19a71d936b3200374059d267066bb2

libsrc/_DEVELOPMENT/input/zx/c/sccz80/in_key_pressed.asm

meesokim/z88dk

5763c7778f19a71d936b3200374059d267066bb2

; int in_key_pressed(uint16_t scancode) SECTION code_input PUBLIC in_key_pressed EXTERN asm_in_key_pressed defc in_key_pressed = asm_in_key_pressed

1d2199b7fc0111cc2369cda7537cb643205cee1c

asm

Assembly

programs/oeis/114/A114696.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

2021-03-15T11:38:20.000Z

2021-03-15T11:38:20.000Z

programs/oeis/114/A114696.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/114/A114696.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

; A114696: Expansion of (1+4*x+x^2)/((x-1)*(x+1)*(x^2+2*x-1)); a Pellian-related sequence. ; 1,6,15,40,97,238,575,1392,3361,8118,19599,47320,114241,275806,665855,1607520,3880897,9369318,22619535,54608392,131836321,318281038,768398399,1855077840,4478554081,10812186006,26102926095,63018038200,152139002497,367296043198,886731088895,2140758220992,5168247530881,12477253282758,30122754096399,72722761475560,175568277047521,423859315570606,1023286908188735,2470433131948080,5964153172084897 add $0,1 cal $0,113224 ; a(2n) = A002315(n), a(2n+1) = A082639(n+1). mov $1,$0 sub $1,1

bfe035319a64a5304a9b0b36d9b58d5c228012f2

asm

Assembly

sort4a.asm

clayne/SortingNetworks

fedbe780891b4fb66265eafd04212e07a30e48c9

2017-02-04T17:32:39.000Z

2021-05-27T09:35:57.000Z

sort4a.asm

clayne/SortingNetworks

fedbe780891b4fb66265eafd04212e07a30e48c9

2017-11-30T02:44:46.000Z

2017-11-30T03:37:19.000Z

sort4a.asm

clayne/SortingNetworks

fedbe780891b4fb66265eafd04212e07a30e48c9

2017-04-08T07:47:59.000Z

2021-05-08T14:57:39.000Z

;******************************************************************* ; sort4a.asm ; Sorting Networks ; ; Author: Kareem Omar ; [email protected] ; https//github.com/komrad36 ; ; Last updated Feb 15, 2017 ;******************************************************************* ; ; SUMMARY: I present novel and state-of-the-art sorting of 4 int32_t ; and sorting of 6 int8_t, as examples, using SSE4, and some thoughts ; and notes on fast sorting of small fixed-size arrays. ; ; These are the fastest known approaches on modern CPUs. ; They are completely branchless and extremely fast. ; For example, 4 int32_t can be sorted in ~18 cycles on Skylake. ; ; These examples can be modified to sort signed or unsigned data as long ; as the total size of the data is <= 128 bits (16 bytes). Note that ; trying to use AVX2 to push that to 256 bits will NOT HELP ; because of the 3 cycle interlane latency that makes shuffling ; across the 128-bit lane boundary too expensive to be useful. ; ; In that case, or in the case that you can't support SSE4, ; efficient scalar code can also be generated that isn't too much ; slower, but it's not immediately evident what the optimal approach ; is in assembly, nor how to coerce C/C++ compilers to produce that ; assembly from C/C++ code. (I discuss the approach at the end of this ; documentation.) ; ; Not all compilers correctly generate optimal assembly for either the ; SSE or scalar code, so I provide assembly versions too. In fact, this ; is not a strong enough statement; many compilers FAIL MISERABLY ; at both the SSE and scalar cases for n >= 3. CL in particular ; (Microsoft Visual C++) just dies horribly in a fire, so the assembly ; snippets may not be a bad idea. Profile and/or check your disassembly. ; ; Note that these assembly snippets use the Windows x64 calling convention, ; but then proceed to clobber a bunch of registers they shouldn't. Normally ; they'd be inlined. Feel free to callee-save registers that your ; application cannot safely clobber. ; ; These code snippets work on the principle of sorting networks. ; Conventional sorting algorithms like quicksort and mergesort ; are not great at small array sizes. One notices in profiling that ; simpler sorts like insertion and selection tend to win. However, ; even these are not NEARLY as fast as they could be for ; fixed-size, small arrays. ; ; Available sorts and their function names: ; ; >>> SSE Assembly (fast as hell. FASTEST option on modern CPUs. ; these are written in MASM for Win64; ; but it's Intel syntax and you can make the small ; modifications required for other assemblers.) ; Sorting 4 int32_t | simdsort4a() ; Sorting 4 int32_t | simdsort4a_noconstants() ; Sorting 4 int32_t | simdsort4a_nofloat() ; ; >>> SSE C++ (make sure generated assembly matches): ; Sorting 4 int32_t | simdsort4() ; Sorting 6 int8_t | simdsort6() ; ; >>> Scalar Assembly (these are written in MASM for Win64; ; but it's Intel syntax and you can make the small ; modifications required for other assemblers.) ; Sorting 2 int32_t | sort2a() ; Sorting 3 int32_t | sort3a() ; Sorting 4 int32_t | sort4a() ; Sorting 5 int32_t | sort5a() ; Sorting 6 int32_t | sort6a() ; ; >>> Scalar C++ (make sure generated assembly matches) ; Sorting 2 int32_t | sort2() ; Sorting 6 int32_t | sort6() ; ; ; Okay, if you've made it this far, let's discuss ; fast conditional swap operations. Conditional swaps ; if the lower element is greater are the heart of sorting ; networks. Given two values, ; 'a', and 'b', leave them as they are if 'a' is less ; than 'b', i.e. if they are in sorted order. However, ; swap them if 'a' is greater than or equal to 'b'. ; Thus after such a conditional swap operation 'a' and 'b' are in sorted ; order no matter what order they came in as. ; ; A series of such operations can deterministically sort ; a fixed-size array. Typically one can optimize for depth ; (minimum number of operations given infinite parallel ; processing) or for size (minimum number of operations given ; no parallel processing). For n == 4 these two optimal solutions ; are actually given by the same network, with depth 3 and ; size 5. ; ; Scalar first: how do you efficiently conditional swap? Again, note that ; lots of compilers don't produce optimal assembly no matter ; what C++ you give them. But what is the optimal assembly? ; Well, on modern processors, the answer is conditional moves: ; ; ; inputs: eax, r9d ; ; scratch register: edx ; cmp eax, r9d ; mov edx, eax ; cmovg eax, r9d ; cmovg r9d, edx ; ; eax and r9d have been swapped if necessary such that eax is now <= r9d ; ; See the function 'sort6' in 'sorts.cpp' for an attempt at some C++ code ; that has a decent chance of compiling into conditional swaps that look like that. ; Again, they OFTEN DON'T, especially the CL compiler and g++. Use the assembly ; snippets instead, or at least profile and inspect your disassembly to be sure. ; ; The SSE sorts are rather more sophisticated, but the basic principle ; is to branchlessly generate shuffle index masks at runtime and then ; use them to permute the order of the data in parallel, performing ; one complete level of the sorting network at a time. ; ; I provide 3 versions of the assembly for sorting 4 int32_t. The fastest ; should be the plain 'simdsort4a'. It performs float reinterpretation ; and relies on some constant loads, but both of these are USUALLY ; better than the alternatives. However: ; ; Older CPUs may incur too much latency from the reinterpretation to be ; worth it. For such CPUs, try 'simdsort4a_nofloat.asm'. ; ; Applications that cannot afford to have these constants occupying L1 ; may wish to try 'simdsort4a_noconstants.asm', which does not eat ; up any cache space with constants - everything is done with immediates ; and some fairly nasty bit twiddling. ; .CODE sort4a PROC mov eax, [rcx] mov r10d, [rcx+4] mov edx, [rcx+8] mov r9d, [rcx+12] mov r11d, edx mov r8d, eax cmp eax, r10d cmovg r8d, r10d cmovg r10d, eax cmp edx, r9d cmovg r11d, r9d cmovg r9d, edx cmp r8d, r11d mov edx, r8d cmovg edx, r11d cmovg r11d, r8d cmp r10d, r9d mov r8d, r9d cmovg r8d, r10d cmovg r10d, r9d cmp r11d, r10d mov eax, r11d cmovg r11d, r10d cmovg r10d, eax mov [rcx], edx mov [rcx+4], r11d mov [rcx+8], r10d mov [rcx+12], r8d ret sort4a ENDP END

25ed8ba7df3e9d7e3f3340ed0e6214f593610f51

asm

Assembly

programs/oeis/111/A111736.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/111/A111736.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/111/A111736.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A111736: Distance between k*(n-th prime) and next prime, k=4 case. ; 3,1,3,1,3,1,3,3,5,11,3,1,3,1,3,11,3,7,1,9,1,1,5,3,1,5,7,3,3,5,1,17,9,1,3,3,3,1,5,9,3,3,5,1,9,1,9,15,3,3,5,11,3,5,3,9,11,3,1,5,19,9,1,5,7,9,3,13,11,3,11,3,3,1,7,11,3,9,3,1,17,9,9,1,3,5,5,3,3,9,3,15,1,9,1,5,3,3,7 seq $0,40 ; The prime numbers. mul $0,4 seq $0,308046 ; a(n) = 2*nextprime(n - 1) - 2*n, where nextprime(n) is the smallest prime > n. div $0,2 add $0,1

09cd40b810024493398949f7e389bc052e4395bb

asm

Assembly

Examples/ch14/DiskSpc.asm

satadriver/LiunuxOS_t

c6222f04b6e734002cbf1aa366eb62e51f0ebbe5

Examples/ch14/DiskSpc.asm

satadriver/LiunuxOS_t

c6222f04b6e734002cbf1aa366eb62e51f0ebbe5

Examples/ch14/DiskSpc.asm

satadriver/LiunuxOS_t

c6222f04b6e734002cbf1aa366eb62e51f0ebbe5

TITLE Disk Free Space (DiskSpc.asm) ; This program calls INT 21h Function 7303h, to get free space information ; on a FAT-type drive volume. It displays both the volume size and free space. ; Runs under Windows 95/98/Me, but not under Windows NT/2000/XP. ; Last update: 12/11/01 INCLUDE Irvine16.inc .data buffer ExtGetDskFreSpcStruc <> driveName BYTE "C:\",0 str1 BYTE "Volume size (KB): ",0 str2 BYTE "Free space (KB): ",0 str3 BYTE "Function call failed.",0dh,0ah,0 .code main PROC mov ax,@data mov ds,ax mov es,ax mov buffer.Level,0 ; must be zero mov di, OFFSET buffer ; ES:DI points to buffer mov cx, SIZEOF buffer ; buffer size mov dx, OFFSET DriveName ; ptr to drive name mov ax, 7303h ; Get disk free space int 21h jc error ; Failed if CF = 1 mov dx,OFFSET str1 ; volume size call WriteString call CalcVolumeSize call WriteDec call Crlf mov dx,OFFSET str2 ; free space call WriteString call CalcVolumeFree call WriteDec call Crlf jmp quit error: mov dx,OFFSET str3 call WriteString quit: exit main ENDP ;------------------------------------------------------------------- CalcVolumeSize PROC ; Calculate and return the disk volume size, in kilobytes. ; Receives: buffer variable, a ExtGetDskFreSpcStruc structure ; Returns: EAX = volume size ; Remarks: (SectorsPerCluster * 512 * TotalClusters) / 1024 ;-------------------------------------------------------------------- mov eax,buffer.SectorsPerCluster shl eax,9 ; mult by 512 mul buffer.TotalClusters mov ebx,1024 div ebx ; return kilobytes ret CalcVolumeSize ENDP ;------------------------------------------------------------------- CalcVolumeFree PROC ; Calculate and return the number of available kilobytes on the ; given volume. ; Receives: buffer variable, a ExtGetDskFreSpcStruc structure ; Returns: EAX = available space, in kilobytes ; Remarks: (SectorsPerCluster * 512 * AvailableClusters) / 1024 ;-------------------------------------------------------------------- mov eax,buffer.SectorsPerCluster shl eax,9 ; mult by 512 mul buffer.AvailableClusters mov ebx,1024 div ebx ; return kilobytes ret CalcVolumeFree ENDP END main

2d0b11b037c683719cff5e1ce73d065439e9ec1b

asm

Assembly

programs/oeis/226/A226276.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/226/A226276.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/226/A226276.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A226276: Period 4: repeat [8, 4, 4, 4]. ; 8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4,8,4,4,4 mod $0,4 pow $1,$0 mul $1,4 add $1,4 mov $0,$1

030048f833863aeaeadeb2eb6aa474993eb83d4b

asm

Assembly

asm/dos_infinite_magical_tickets.asm

Nauglamir-dev/DSVEdit

b772b175e7bb3f1e1ad340c00311cc164ee01346

asm/dos_infinite_magical_tickets.asm

Nauglamir-dev/DSVEdit

b772b175e7bb3f1e1ad340c00311cc164ee01346

asm/dos_infinite_magical_tickets.asm

Nauglamir-dev/DSVEdit

b772b175e7bb3f1e1ad340c00311cc164ee01346

.nds .relativeinclude on .erroronwarning on @Overlay41Start equ 0x02308920 @FreeSpace equ @Overlay41Start + 0x7C .open "ftc/overlay9_0", 0219E3E0h ; This patch should be applied after "dos_magical_ticket.asm". ; When starting a new game, give the player a Magical Ticket. ; There's not enough space so we overwrite the code where it checks if you already have a potion and skips giving you another three (for new game+). .org 0x021F61D4 ; Potions mov r2, 3h bl 021E78F0h ; SetOwnedItemNum ; Magical Ticket mov r0, 2h mov r1, 2Bh bl 021E7870h ; GiveItem b 021F61F0h .close .open "ftc/overlay9_41", @Overlay41Start ; Don't consume magical tickets on use. .org @FreeSpace mov r0, 42h ; This is the SFX that will be played on use. b 0x021EF264 ; Return to the consumable code after the part where it would remove the item from your inventory. ; Change the global flags checked to not care that the game hasn't been saved once yet (bit 0x40000000). In its place we check the bit that makes soul drops have a 100% drop chance (bit 0x10000000), so that the player can't use magical tickets during the prologue. .org @FreeSpace+0x08 mov r1, 90000007h .close

c4c9241ad570bc0af5c7a7e8048752527437bd7c

asm

Assembly

libsrc/_DEVELOPMENT/stdio/c/sdcc_iy/fopen.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/_DEVELOPMENT/stdio/c/sdcc_iy/fopen.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/_DEVELOPMENT/stdio/c/sdcc_iy/fopen.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; FILE *fopen(const char *filename, const char *mode) SECTION code_clib SECTION code_stdio PUBLIC _fopen EXTERN asm_fopen _fopen: pop af pop hl pop de push de push hl push af jp asm_fopen

5965f6d6f76a0124a998dd2ea928f615ee8c9ac6

asm

Assembly

programs/oeis/004/A004171.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

2021-03-15T11:38:20.000Z

2021-03-15T11:38:20.000Z

programs/oeis/004/A004171.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

programs/oeis/004/A004171.asm

karttu/loda

9c3b0fc57b810302220c044a9d17db733c76a598

; A004171: a(n) = 2^(2n+1). ; 2,8,32,128,512,2048,8192,32768,131072,524288,2097152,8388608,33554432,134217728,536870912,2147483648,8589934592,34359738368,137438953472,549755813888,2199023255552,8796093022208,35184372088832,140737488355328,562949953421312,2251799813685248,9007199254740992 mov $1,4 pow $1,$0 mul $1,2

94a691667e70e3c017bf9f09b8b22f73e48efa31

asm

Assembly

programs/oeis/327/A327672.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/327/A327672.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/327/A327672.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A327672: a(n) = Sum_{k=0..n} ceiling(sqrt(k)). ; 0,1,3,5,7,10,13,16,19,22,26,30,34,38,42,46,50,55,60,65,70,75,80,85,90,95,101,107,113,119,125,131,137,143,149,155,161,168,175,182,189,196,203,210,217,224,231,238,245,252,260,268,276,284,292,300,308,316,324,332,340,348,356,364,372,381,390,399,408,417,426,435,444,453,462,471,480,489,498,507,516,525,535,545,555,565,575,585,595,605,615,625,635,645,655,665,675,685,695,705 lpb $0 add $1,$0 add $2,2 sub $0,$2 add $0,2 trn $0,1 lpe mov $0,$1

e97650bde6e914cc4fb343cb9ba8a5cdbe471078

asm

Assembly

programs/oeis/268/A268315.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/268/A268315.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/268/A268315.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A268315: Decimal expansion of 256/27. ; 9,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8,1,4,8 mul $0,2 add $0,1 sub $1,$0 mul $0,2 div $1,3 add $1,$0 mod $1,$0 add $1,9 mod $1,10 mov $0,$1

c5a9e3e7571fac909dfdfa12a1c082621c494071

asm

Assembly

SE-2/MIL/3_tsr-div0/div0.asm

Adityajn/College-Codes

f40e1eee53b951f2101981230fc72201081fd5f7

2017-02-22T18:22:39.000Z

2017-02-22T18:22:39.000Z

SE-2/MIL/3_tsr-div0/div0.asm

Adityajn/College-Codes

f40e1eee53b951f2101981230fc72201081fd5f7

SE-2/MIL/3_tsr-div0/div0.asm

Adityajn/College-Codes

f40e1eee53b951f2101981230fc72201081fd5f7

.MODEL TINY .CODE ORG 100H BEGIN: MOV AX,10H MOV BX,0H DIV BX MOV AH,4CH INT 21H END BEGIN

1c3f24908badb2840a5eaae01bfc96e60db37013

asm

Assembly

test/link/group1/seg1b.asm

nigelperks/BasicAssembler

13dcc861254fa6c19f1d450682b4495bbebcf934

test/link/group1/seg1b.asm

nigelperks/BasicAssembler

13dcc861254fa6c19f1d450682b4495bbebcf934

test/link/group1/seg1b.asm

nigelperks/BasicAssembler

13dcc861254fa6c19f1d450682b4495bbebcf934

; Do private segments in distinct modules in groups of same name ; get relocated to beginning of one combined group? ; That is, are groups public? IDEAL ASSUME CS:SEG1, DS:SEG1, ES:SEG1, SS:SEG1 SEGMENT SEG1 PRIVATE sword: DW 0DEADh DW 0FACEh jmp sword jmp near cs:100h ENDS GROUP MYGROUP SEG1 END

c90e3b2b0619517107b6562fef517d265d9ec760

asm

Assembly

ble_tx.asm

liuyichen12/BLE-Backscattering-Tag

a1072e9ddf13a14648ac5300ac238fb43c1866a4

2022-03-25T15:19:53.000Z

2022-03-25T15:19:53.000Z

ble_tx.asm

liuyichen12/BLE-Backscattering-Tag

a1072e9ddf13a14648ac5300ac238fb43c1866a4

ble_tx.asm

liuyichen12/BLE-Backscattering-Tag

a1072e9ddf13a14648ac5300ac238fb43c1866a4

; ***************************************************************************** ; File: ble_tx.asm ; Date: ; ; ***************************************************************************** .cdecls C, LIST, "blebs_base.h" .include "NOPdefs.asm" .def sendBLEPacket .def TA_sendBLEPacket R_TxDelay .set R9 R_bitout .set R10 R_prevState .set R11 R_currBit .set R12 R_currByte .set R13 R_dataPtr .set R14 R_byteCt .set R15 sendBLEPacket: ;setup ble_tx register MOV &(ptr_blePacket), R_dataPtr MOV.B &(len_blePacket), R_byteCt MOV.B #BIT7, R_bitout ;data in P1.7, LSB ;turn on oscillator BIS #BIT6, &(P1OUT) BIS #BIT5, &(P1OUT) BIS #BIT0, &(P3OUT) MOV #TX_DELAY2, R_TxDelay MOV.B &(P1OUT), R_prevState AND #0x7F, R_prevState ;MOV #0 , R_prevState ;JMP LoadByte TxWakeupDelay: NOP ;[1] DEC R_TxDelay ;[1] JNZ TxWakeupDelay ;[2] TimingCompensate: JMP LoadByte ;[1.5] LoadByte: MOV.B @R_dataPtr+, R_currByte;[2] SendByte: ;b0 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b1 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b2 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b3 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b4 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b5 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b6 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] RLA R_currByte ;[1] NOPx6 ;[6] ;b7 MOV.B R_bitout, R_currBit ;[1] AND R_currByte, R_currBit ;[1] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] DEC R_byteCt ;[1] NOP NOP JNZ LoadByte ;[1.5] TxTurnOff: NOPx3 ;[3] MOV.B #0, R_currBit ;[2] BIS R_prevState,R_currBit ;[1] MOV.B R_currBit, &(P1OUT) ;[4] MOV #TX_DELAY, R_TxDelay ; TxTurnOffDelay: NOP ;[1] DEC R_TxDelay ;[1] JNZ TxTurnOffDelay ;[2] BIC #BIT5, &(P1OUT) ; BIC #BIT0, &(P3OUT) BIC #BIT6, &(P1OUT) ; RETA

e4e556fd4b3ced4640fba1ca77b292eb5ad49008

asm

Assembly

programs/oeis/287/A287533.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/287/A287533.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/287/A287533.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A287533: Fibonacci numbers modulo 20. ; 0,1,1,2,3,5,8,13,1,14,15,9,4,13,17,10,7,17,4,1,5,6,11,17,8,5,13,18,11,9,0,9,9,18,7,5,12,17,9,6,15,1,16,17,13,10,3,13,16,9,5,14,19,13,12,5,17,2,19,1,0,1,1,2,3,5,8,13,1,14,15,9,4,13,17,10,7,17,4,1 seq $0,45 ; Fibonacci numbers: F(n) = F(n-1) + F(n-2) with F(0) = 0 and F(1) = 1. mod $0,20

b99ccb753bafee78b5337329be2824d30f731f86

asm

Assembly

libsrc/stdio/ansi/generic/f_ansi_cls.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-14T23:33:45.000Z

2022-03-30T11:28:42.000Z

libsrc/stdio/ansi/generic/f_ansi_cls.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-15T16:12:02.000Z

2022-03-31T12:11:12.000Z

libsrc/stdio/ansi/generic/f_ansi_cls.asm

jpoikela/z88dk

7108b2d7e3a98a77de99b30c9a7c9199da9c75cb

2017-01-17T10:43:03.000Z

2022-03-23T17:25:02.000Z

; ; ANSI Video handling ; Non optimized (but generic) code ; ; CLS - Clear the screen ; ; ; Stefano Bodrato - 2014 ; ; ; $Id: f_ansi_cls.asm,v 1.4 2016-06-12 16:06:42 dom Exp $ ; SECTION code_clib PUBLIC ansi_cls EXTERN ansi_del_line EXTERN __console_h .ansi_cls ld a,(__console_h) ld b,a .clsloop push bc ld a,b dec a call ansi_del_line pop bc djnz clsloop ret

6a06522bb3e9f154b0dd8fb5ff560e685eaa5670

asm

Assembly

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/unpack32.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/unpack32.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

C5515_Support_Files/C5515_Lib/dsplib_2.40.00/55x_src/unpack32.asm

HeroSizy/Sizy

89bc29940dc7666591259730b5112efd0a626043

;*********************************************************** ; Version 2.40.00 ;*********************************************************** ; Function UNPACK32 ; Processor: C55xx ; Decription: Unpacks the output of a Radix-2 DIF complex FFT using bit-reversed input ; data and bit-reversed twiddle table (length N/2, cosine/sine format). ; ; Usage: void unpack(DATA *xy, ushort nx); ; ; Copyright Texas instruments Inc, 2000 ; History; ; - 11/20/2003 C. Iovescu initial implementation ; ;************************************************************************************ ; ; DFT of N-point real-valued sequence ; ; Implementation of the rfft based on the equations: ; ; ; ; g(n) n=0:N-1 is a real valued sequence. Purpose of the code ; is to compute the RFFT of this signal: G(k) k=0:N-1 complex sequence. ; ; g(n) is split in two real sequences, odd and even part ; ; xe(n) = g(2n) n=0:N/2-1 ; xo(n) = g(2n+1) n=0:N/2-1 ; ; Form the complex sequence: ; ; x(n) = xe(n) + jxo(n) n=0:N/2-1 ; ; Compute the CFFT of x(n): ; ; X(k) k=0:N/2-1 ; ; Derive from X(k) the CFFT of xe(n) and xo(n) using the equations ; ; Xe(k) = 0.5 (X(k) + X*(N/2-k)) k=0:N/2-1 (1) ; Xo(k) = -0.5j (X(k) - X*(N/2-k)) k=0:N/2-1 (2) ; ; Separate in Real and Imag parts: ; ; Define: ; Xe(k) = Xer(k)+jXei(k) ; Xo(k) = Xor(k)+jXoi(k) ; ; Equations (1) and (2) yield: ; ; Xer(k) = 0.5 (Xr(k) + Xr(N/2-k)) k=0:N/2-1 (3) ; Xei(k) = 0.5 (Xi(k) - Xi(N/2-k)) k=0:N/2-1 (4) ; Xor(k) = 0.5 (Xi(k) + Xi(N/2-k)) k=0:N/2-1 (5) ; Xoi(k) = -0.5 (Xr(k) - Xr(N/2-k)) k=0:N/2-1 (6) ; ; The previous equations have special values for: ; ; DC Offset: ; k=0 Xer(0)= Xr(0) ; Xei(0)= 0 ; Xor(0)= Xi(0) ; Xoi(0)= 0 ; ; ; Nyquist Frequency: ; k=N/4 Xer(N/4)= Xr(N/4) ; Xei(N/4)= 0 ; Xor(N/4)= Xi(N/4) ; Xoi(N/4)= 0 ; ; ; Computing G(k) ; ; G(k) = Xe(k) + W(k,N)Xo(k) k = 0:N/2-1 (7) ; G(N/2-k) = Xe*(k) - W(-k,N)Xo*(k) k = 0:N/2-1 (8) ; ; Separate in Real and Imag parts: ; ; Define: ; G(k) = Gr(k)+jGi(k) ; G(N-k) = Gr(N-k)+jGi(N-k) ; W(k,N) = cos(2Pik/N)-jsin(2Pik/N) = Wr(k)-jWi(k) ; ; Equations (7) and (8) yield: ; ; Gr(k) = Xer(k) + Wr(k)Xor(k)+Wi(k)Xoi(k) (9) ; Gi(k) = Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k) (10) ; Gr(N/2-k) = Xer(k) - Wr(k)Xor(k)-Wi(k)Xoi(k) (11) ; Gi(N/2-k) =-Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k) (12) ; ; ; Equations (9) through (12) will be DIVIDED BY TWO in order to avoid ; overflow. ; ; Gr(k) = 0.5[Xer(k) + Wr(k)Xor(k)+Wi(k)Xoi(k)] (13) ; Gi(k) = 0.5[Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] (14) ; Gr(N/2-k) = 0.5[Xer(k) - Wr(k)Xor(k)-Wi(k)Xoi(k)] (15) ; Gi(N/2-k) =0.5[-Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] (16) ; ; Special values: ; ; * DC Offset k = 0 (17) ; ; Gr(0) = 0.5 (Xr(0)+Xi(0)) ; Gi(0) = 0 ; ; * k = N/4 (18) ; ; Gr(N/4) = 0.5 Xr(N/4) ; Gi(N/4) =-0.5 Xi(N/4) ; ; * Nyquist Frequency k = N/2 (19) ; ; Gr(N/2) = 0.5 (Xr(0)-Xi(0)) ; Gi(N/2) = 0 ; ; ; Practical computation of G(k) k=0:N-1 ; ; 1) Compute G(k) k=0:N/2 ; - G(0),G(N/4), G(N/2) based on special values formulae ; - G(k) for (0<k<N/2) ; 2) Deduct G(k) k=N/2+1:N-1 from the values computed in 1) using ; the complex conjugate symmetry formulae (since g(n) is a real ; sequence) ; ; G(k) = G*(N-k) k=0:N-1 ; ; Algorithm implementation: ; ; ; The algorithm computes only G(k) k=0:N/2. In order to store the ; result in the input array, G(0) and G(N/2) which have zero imag parts are ; packed together and Gr(N/2) is stored at the location of Gi(0). ; ; 1) Compute Xer(k), Xei(k), Xor(k), Xoi(k) for k=1:N/4-1 ; ( k=0 and k=N/4 are special values) ; ; ; ; ;**************************************************************** .mmregs .cpl_on .arms_off .ref twiddle32 ;//----------------------------------------------------------------------------- ;// Program section ;//----------------------------------------------------------------------------- .sect ".text:unpack32" .global _unpack32 _unpack32: ;//----------------------------------------------------------------------------- ;// Context save / get arguments ;//----------------------------------------------------------------------------- ; upon entry stack aligned on 32-bit boundary PSH mmap(ST0_55) PSH mmap(ST1_55) PSH mmap(ST2_55) PSH mmap(ST3_55) AADD #-21,SP ; create local frame ;//----------------------------------------------------------------------------- ;// Initialization code ;//----------------------------------------------------------------------------- Initialize: AND #0FF00h,mmap(ST2_55) ; linear addr for CDP,AR2,AR3,AR0, AR1 BSET #6,ST1_55 ; set FRCT BSET #8,ST1_55 ; set SXMD ; SATD = 0 required for 32-bit multiplication BCLR #9,ST1_55 ; set SATD BCLR #15,ST2_55 ; reset ARMS BCLR #10,ST1_55 ; reset M40 ;//----------------------------------------------------------------------------- ;// Unpack for RFFT ;// ;// T0 = N (Rfft size) ;// ;// ;// ;//----------------------------------------------------------------------------- MOV XAR0,XAR1 ; AR0 = start ptr input data = Xr[0] ADD T0,AR1 ; AR1 = end ptr input data ADD T0,AR1 ; 32-bit data MOV T0,T1 ; T1 = T0 = RFFT size/2 SFTS T1,#-1 ; T1 = RFFT size/2 SFTS T1,#-1 ; T1 = RFFT size/4 (req. for loop) SUB #4,AR1 ; AR1 = Xr[N/2-1] - last 32-bit elt SUB #2,T1 ; loop = N/4 - 2 MOV T1,BRC0 ; and store in repeat counter AMOV #twiddle32,XAR2 ; pointer to sin and cos tables AMOV #(twiddle32+2),XAR3 ; 32-bit values (add 2) AMAR *(AR2+T0B) ; set to 2nd entry of bit reversed AMAR *(AR3+T0B) ; sin/cos table ; T0 = RFFT size for bitrev because 32-bit values MOV XSP,XAR4 ; XAR4 local var ptr (stack) ADD #4, AR4 ;-------------------------------------------------------------------------------- ; Step1: ; Special values G(0) and G(N/2): ; ; * DC Offset k = 0 ; ; Gr(0) = 0.5 (Xr(0)+Xi(0)) ; Gi(0) = 0 ; ; ; * Nyquist Frequency k = N/2 ; ; Gr(N/2) = 0.5 (Xr(0)-Xi(0)) ; Gi(N/2) = 0 ; ; In order to store G(k) in the input array, Gr(0) and Gr(N/2) ; are packed as real&imag values. ; ;-------------------------------------------------------------------------------- MOV dbl(*AR0+),AC1 ; AC1 = Xr[0] ADD dbl(*AR0),AC1,AC0 ; AC0 = Xr[0] + Xi[0] SUB dbl(*AR0-),AC1,AC1 ; AC1 = Xr[0] - Xi[0] SFTS AC0, #-1 ; 0.5x SFTS AC1, #-1 ; 0.5x MOV AC0, dbl(*AR0+) ; Gr(0) MOV AC1, dbl(*AR0+) ; Gr(N/2) ;-------------------------------------------------------------------------------- ; Step 2: ; ; General loop G(k) k=1:N/2-1 (k<>N/4) ; ; Xer(k) = 0.5 (Xr(k) + Xr(N/2-k)) k=1:N/4-1 ; Xei(k) = 0.5 (Xi(k) - Xi(N/2-k)) k=1:N/4-1 ; Xor(k) = 0.5 (Xi(k) + Xi(N/2-k)) k=1:N/4-1 ; Xoi(k) = -0.5 (Xr(k) - Xr(N/2-k)) k=1:N/4-1 ; ;-------------------------------------------------------------------------------- RPTB unpack_end ; setup loopcounter (RFFT-size)/4 - 2 MOV dbl(*AR1+),AC1 ; AC1= Xr[N/2-k] ADD dbl(*AR0),AC1,AC0 ; Xer = AC0 = Xr[k] + Xr[N/2-k] SUB dbl(*AR0+),AC1,AC3 ; Xoi = AC3 = -(Xr[k] - Xr[N/2-k]) MOV dbl(*AR0-),AC2 ; AC2 = Xi[k] SUB dbl(*AR1), AC2, AC1 ; Xei = AC1 = Xi[k] - Xi[N/2-k] ADD dbl(*AR1-),AC2,AC2 ; Xor = AC2 = Xi[k] + Xi[N/2-k] SFTS AC0,#-1 ; Xer = 0.5*AC0 SFTS AC1,#-1 ; Xei = 0.5*AC1 SFTS AC2,#-1 ; Xor = 0.5*AC2 SFTS AC3,#-1 ; Xoi = 0.5*AC3 MOV AC0 ,dbl(*SP(#00h)) ; save Xer MOV AC1 ,dbl(*SP(#02h)) ; save Xei MOV AC2 ,dbl(*SP(#04h)) ; save Xor MOV AC3 ,dbl(*SP(#06h)) ; save Xoi ;----------------------------------------------------------------------- ; ; Output N-point RFFT ; ; Gr(k) = 0.5[ Xer(k) + Wr(k)Xor(k)+Wi(k)Xoi(k)] ; Gi(k) = 0.5[ Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] ; Gr(N/2-k) = 0.5[ Xer(k) - Wr(k)Xor(k)-Wi(k)Xoi(k)] ; Gi(N/2-k) = 0.5[-Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] ; ; Wr(k) = cos(2Pik/N) ; Wi(k) = sin(2Pik/N) ; ;-------------------------------------------------------------------------------- ; Wr(k)Xor(k) ; AR2 -> cos_H ; cos_L ; ; AR4 -> Xor_H ; Xor_L ; AMAR *AR2+ MPYM uns(*AR2-), *AR4+, AC0 ; AC0 = cos_L*Xor_H MACM *AR2, uns(*AR4-), AC0 ; AC0 = AC0 + cos_H*Xor_L MACM *AR2+, *AR4, AC0 >> #16, AC0 ; AC0 = AC0>>16 + cos_H*Xor_H MOV AC0 ,dbl(*SP(#08h)) ; save cos*Xor ; Wi(k)Xor(k) ; AR3 -> sin_H ; sin_L ; ; AR4 -> Xor_H ; Xor_L ; AMAR *AR3+ MPYM uns(*AR3-), *AR4+, AC0 ; AC0 = sin_L*Xor_H MACM *AR3, uns(*AR4-), AC0 ; AC0 = AC0 + sin_H*Xor_L MACM *AR3+, *AR4+, AC0 >> #16, AC0 ; AC0 = AC0>>16 + sin_H*Xor_H MOV AC0 ,dbl(*SP(#0Ah)) ; save sin*Xor AMAR *AR4+ ; Wr(k)Xoi(k) ; cos_H ; AR2 -> cos_L ; ; AR4 -> Xoi_H ; Xoi_L ; MPYM uns(*AR2-), *AR4+, AC0 ; AC0 = cos_L*Xoi_H MACM *AR2, uns(*AR4-), AC0 ; AC0 = AC0 + cos_H*Xoi_L MACM *AR2, *AR4, AC0 >> #16, AC0 ; AC0 = AC0>>16 + cos_H*Xoi_H MOV AC0 ,dbl(*SP(#0Ch)) ; save cos*Xoi ; Wi(k)Xoi(k) ; sin_H ; AR3 -> sin_L ; ; AR4 -> Xoi_H ; Xoi_L ; MPYM uns(*AR3-), *AR4+, AC0 ; AC0 = sin_L*Xoi_H MACM *AR3, uns(*AR4-), AC0 ; AC0 = AC0 + sin_H*Xoi_L MACM *AR3, *AR4, AC0 >> #16, AC0 ; AC0 = AC0>>16 + sin_H*Xoi_H MOV AC0 ,dbl(*SP(#0Eh)) ; save sin*Xoi ; update AR4, local var pointer for next loop iteration SUB #2, AR4 ; update the sin/cos pointers ; bit-reversed addressing used because twiddle table ; is in bit-reversed format and normal format is needed ; in this algorithm. ; !!!this requires special alignement of twiddle table ?? ; AR2 -> cos_H ; cos_L ; AR3 -> sin_H ; sin_L AMAR *(AR3+T0B) ; sin AMAR *(AR2+T0B) ; cos ; Gr(k) = 0.5[ Xer(k) + Wr(k)Xor(k)+Wi(k)Xoi(k)] MOV dbl(*SP(#00h)),AC0 ; AC0 = Xer(k) ADD dbl(*SP(#08h)),AC0,AC1 ; AC1 = Xer(k)+Wr(k)Xor(k) ADD dbl(*SP(#0Eh)),AC1,AC1 ; AC1 = Xer(k)+Wr(k)Xor(k)+Wi(k)Xoi(k) SFTS AC1, #-1 ; 0.5x MOV AC1, dbl(*AR0+) ; Gr(k) ; Gi(k) = 0.5[ Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] MOV dbl(*SP(#02h)),AC1 ; AC1 = Xei(k) ADD dbl(*SP(#0Ch)),AC1,AC2 ; AC2 = Xei(k)+ Wr(k)Xoi(k) SUB dbl(*SP(#0Ah)),AC2,AC2 ; AC2 = Xei(k)+ Wr(k)Xoi(k)-Wi(k)Xor(k) SFTS AC2, #-1 ; 0.5x MOV AC2, dbl(*AR0+) ; Gi(k) ; Gr(N/2-k) = 0.5[ Xer(k) - Wr(k)Xor(k)-Wi(k)Xoi(k)] MOV dbl(*SP(#00h)),AC1 ; AC1 = Xer(k) SUB dbl(*SP(#08h)),AC1,AC2 ; AC2 = Xer(k)- Wr(k)Xor(k) SUB dbl(*SP(#0Eh)),AC2,AC2 ; AC2 = Xer(k)- Wr(k)Xor(k)-Wi(k)Xoi(k) SFTS AC2, #-1 ; 0.5x MOV AC2, dbl(*AR1+) ; Gr(N/2-k) ; Gi(N/2-k) = 0.5[-Xei(k) + Wr(k)Xoi(k)-Wi(k)Xor(k)] MOV dbl(*SP(#0Ch)),AC1 ; AC1 = Wr(k)Xoi(k) SUB dbl(*SP(#02h)),AC1,AC2 ; AC2 = -Xei(k)+ Wr(k)Xoi(k) SUB dbl(*SP(#0Ah)),AC2,AC2 ; AC2 = -Xei(k)+ Wr(k)Xoi(k)-Wi(k)Xor(k) SFTS AC2, #-1 ; 0.5x MOV AC2, dbl(*AR1) ; Gi(N/2-k) unpack_end: SUB #6,AR1 ; adjust to Gr(N/2-k-1) ;-------------------------------------------------------------------------------- ; Step3: ; Special values G(N/4): ; ; Gr(N/4) = 0.5 Xr(N/4) ; Gi(N/4) =-0.5 Xi(N/4) ; ;//----------------------------------------------------------------------------- MOV dbl(*AR0+),AC0 ; Xr(N/4) MOV dbl(*AR0-) ,AC1 ; Xi(N/4) NEG AC1,AC1 ;-Xi(N/4) SFTS AC0,#-1,AC0 ; 0.5*Xr(N/4) SFTS AC1,#-1,AC1 ;-0.5*Xi(N/4) MOV AC0 ,dbl(*AR0+) ;Gr(N/4) = 0.5 Xr(N/4) MOV AC1 ,dbl(*AR0+) ;Gi(N/4) =-0.5 Xi(N/4) ;//----------------------------------------------------------------------------- ;// Context restore ;//----------------------------------------------------------------------------- AADD #21,SP ; destroy local frame ;//----------------------------------------------------------------------------- ;// Return ;//----------------------------------------------------------------------------- POP mmap(ST3_55) POP mmap(ST2_55) POP mmap(ST1_55) POP mmap(ST0_55) RET .end

8a4a5f4eceef1c5be0985bd63d2023c75bba18de

asm

Assembly

programs/oeis/046/A046951.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2018-02-06T19:19:31.000Z

2022-01-17T21:53:31.000Z

programs/oeis/046/A046951.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-22T19:00:34.000Z

2021-08-28T10:47:47.000Z

programs/oeis/046/A046951.asm

neoneye/loda

afe9559fb53ee12e3040da54bd6aa47283e0d9ec

2021-02-24T21:14:16.000Z

2021-08-09T19:48:05.000Z

; A046951: a(n) is the number of squares dividing n. ; 1,1,1,2,1,1,1,2,2,1,1,2,1,1,1,3,1,2,1,2,1,1,1,2,2,1,2,2,1,1,1,3,1,1,1,4,1,1,1,2,1,1,1,2,2,1,1,3,2,2,1,2,1,2,1,2,1,1,1,2,1,1,2,4,1,1,1,2,1,1,1,4,1,1,2,2,1,1,1,3,3,1,1,2,1,1,1,2,1,2,1,2,1,1,1,3,1,2,2,4 seq $0,57918 ; Number of pairs of numbers (a,b) each less than n where (a,b,n) is in geometric progression. seq $0,5 ; d(n) (also called tau(n) or sigma_0(n)), the number of divisors of n.

20884361edb6e545d52b82186802d15d934cabc3

asm

Assembly

Transynther/x86/_processed/AVXALIGN/_zr_/i7-8650U_0xd2.log_2084_255.asm

ljhsiun2/medusa

67d769b8a2fb42c538f10287abaf0e6dbb463f0c

2020-08-13T19:41:58.000Z

2022-03-30T12:22:51.000Z

Transynther/x86/_processed/AVXALIGN/_zr_/i7-8650U_0xd2.log_2084_255.asm