kolibrios-gitea/programs/develop/libraries/libmpg123/synth_i586_dither.S

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/*
decode_i586_dither: asm synth with dither noise
copyright ?-2007 by the mpg123 project - free software under the terms of the LGPL 2.1
see COPYING and AUTHORS files in distribution or http://mpg123.org
initially written by Stefan Bieschewski as decode_i586.s without dither
This version uses "circular" 64k dither noise.
(Patch by Adrian <adrian.bacon@xs4all.nl>)
Thomas learned something about assembler and the stack while making this one thread safe (removing static data).
*/
#include "mangle.h"
.data
#ifndef __APPLE__
.section .rodata
#endif
ALIGN8
.LC0:
.long 0x0,0x40dfffc0
ALIGN8
.LC1:
.long 0x0,0xc0e00000
ALIGN8
.text
/* int synth_1to1_i586_asm_dither(real *bandPtr, int channel, unsigned char *out, unsigned char *buffs, int bo_and_ditherindex[2], real *decwin, real* dithernoise); */
.globl ASM_NAME(synth_1to1_i586_asm_dither)
ASM_NAME(synth_1to1_i586_asm_dither):
subl $16,%esp
pushl %ebp
pushl %edi
pushl %esi
pushl %ebx
/* stack: 0(%esp)=%ebx 4=esi 8=edi 12=ebp 16,20,24,28=local 32=back 36=bandptr 40=channel 44=out 48=buffs 52=bo 56=decwin 60=dithernoise */
#define BANDPTR 36(%esp)
#define CHANNEL 40(%esp)
#define OUT 44(%esp)
#define BUFFS 48(%esp)
#define BO 52(%esp)
#define DECWIN 56(%esp)
#define DITHERNOISE 60(%esp)
/*#define DITHERNOISE $(ASM_NAME(dithernoise))*/
#define LOC0 16(%esp)
#define LOC1 20(%esp)
#define LOC2 24(%esp)
#define DITHERINDEX 28(%esp)
/* During application of the dithering, we need the shifted locations because there's an additional value on the stack. */
#define DITHERNOISE2 64(%esp)
#define DITHERINDEX2 32(%esp)
movl BANDPTR,%eax
movl OUT,%esi
movl BO, %ebx
movl (%ebx),%ebp /* get bo value */
movl 4(%ebx),%edi; /* get the ditherindex behind bo */
movl %edi,DITHERINDEX
xorl %edi,%edi
cmpl %edi,CHANNEL
jne .L48
decl %ebp
andl $15,%ebp
movl %ebp,(%ebx) /* save bo back */
movl BUFFS,%ecx
jmp .L49
.L48:
/* In stereo mode , "rewind" dither pointer 32 samples , so 2nd channel */
/* has same dither values. Tested OK for mono and stereo MP2 and MP3 */
subl $128,DITHERINDEX /* better move to %edi for the two calculations? */
andl $0x0003fffc,DITHERINDEX
addl $2,%esi
movl BUFFS,%ecx
addl $2176,%ecx
.L49:
/* now the call of dct64 is prepared, stuff pushed to the stack, but soon after it's removed again */
testl $1,%ebp
je .L50
movl %ecx,%ebx
movl %ebp,LOC0
pushl %eax
movl LOC1,%edx
leal (%ebx,%edx,4),%eax
pushl %eax
movl LOC2,%eax
incl %eax
andl $15,%eax
leal 1088(,%eax,4),%eax
addl %ebx,%eax
jmp .L74
.L50:
leal 1088(%ecx),%ebx
leal 1(%ebp),%edx
movl %edx,LOC0
pushl %eax
leal 1092(%ecx,%ebp,4),%eax
pushl %eax
leal (%ecx,%ebp,4),%eax
.L74:
pushl %eax
call ASM_NAME(dct64_i386)
addl $12,%esp
/* Now removed the parameters.
stack: 0(%esp)=%ebx 4=esi 8=edi 12=ebp 16,20,24,28=local 32=back 36=bandptr 40=channel 44=out 48=buffs 52=bo 56=decwin 60=dithernoise */
movl LOC0,%edx
leal 0(,%edx,4),%edx
/* movl ASM_VALUE(decwin)+64,%eax */
movl DECWIN,%eax
addl $64,%eax
movl %eax,%ecx
subl %edx,%ecx
movl $16,%ebp
.L55:
flds (%ecx)
fmuls (%ebx)
flds 4(%ecx)
fmuls 4(%ebx)
fxch %st(1)
flds 8(%ecx)
fmuls 8(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 12(%ecx)
fmuls 12(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 16(%ecx)
fmuls 16(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 20(%ecx)
fmuls 20(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 24(%ecx)
fmuls 24(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 28(%ecx)
fmuls 28(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 32(%ecx)
fmuls 32(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 36(%ecx)
fmuls 36(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 40(%ecx)
fmuls 40(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 44(%ecx)
fmuls 44(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 48(%ecx)
fmuls 48(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 52(%ecx)
fmuls 52(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 56(%ecx)
fmuls 56(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds 60(%ecx)
fmuls 60(%ebx)
fxch %st(2)
subl $4,%esp
faddp %st,%st(1)
fxch %st(1)
fsubrp %st,%st(1)
addl $4,DITHERINDEX2
andl $0x0003fffc,DITHERINDEX2
movl DITHERNOISE2,%edi
addl DITHERINDEX2,%edi
fadds (%edi)
/* fistpl and popl as a unit keep the stack unchanged */
fistpl (%esp)
popl %eax
cmpl $32767,%eax
jg 1f
cmpl $-32768,%eax
jl 2f
movw %ax,(%esi)
jmp 4f
1: movw $32767,(%esi)
jmp 3f
2: movw $-32768,(%esi)
3:
/* incl %edi */
4:
.L54:
addl $64,%ebx
subl $-128,%ecx
addl $4,%esi
decl %ebp
jnz .L55
flds (%ecx)
fmuls (%ebx)
flds 8(%ecx)
fmuls 8(%ebx)
flds 16(%ecx)
fmuls 16(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 24(%ecx)
fmuls 24(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 32(%ecx)
fmuls 32(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 40(%ecx)
fmuls 40(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 48(%ecx)
fmuls 48(%ebx)
fxch %st(2)
faddp %st,%st(1)
flds 56(%ecx)
fmuls 56(%ebx)
fxch %st(2)
subl $4,%esp
faddp %st,%st(1)
fxch %st(1)
faddp %st,%st(1)
addl $4,DITHERINDEX2
andl $0x0003fffc,DITHERINDEX2
movl DITHERNOISE2,%edi
addl DITHERINDEX2,%edi
fadds (%edi)
/* fistpl and popl as a unit keep the stack unchanged */
fistpl (%esp)
popl %eax
cmpl $32767,%eax
jg 1f
cmpl $-32768,%eax
jl 2f
movw %ax,(%esi)
jmp 4f
1: movw $32767,(%esi)
jmp 3f
2: movw $-32768,(%esi)
3:
/* incl %edi */
4:
.L62:
addl $-64,%ebx
addl $4,%esi
movl LOC0,%edx
leal -128(%ecx,%edx,8),%ecx
movl $15,%ebp
.L68:
flds -4(%ecx)
fchs
fmuls (%ebx)
flds -8(%ecx)
fmuls 4(%ebx)
fxch %st(1)
flds -12(%ecx)
fmuls 8(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -16(%ecx)
fmuls 12(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -20(%ecx)
fmuls 16(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -24(%ecx)
fmuls 20(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -28(%ecx)
fmuls 24(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -32(%ecx)
fmuls 28(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -36(%ecx)
fmuls 32(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -40(%ecx)
fmuls 36(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -44(%ecx)
fmuls 40(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -48(%ecx)
fmuls 44(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -52(%ecx)
fmuls 48(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -56(%ecx)
fmuls 52(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds -60(%ecx)
fmuls 56(%ebx)
fxch %st(2)
fsubrp %st,%st(1)
flds (%ecx)
fmuls 60(%ebx)
fxch %st(2)
subl $4,%esp
fsubrp %st,%st(1)
fxch %st(1)
fsubrp %st,%st(1)
addl $4,DITHERINDEX2
andl $0x0003fffc,DITHERINDEX2
movl DITHERNOISE2,%edi
addl DITHERINDEX2,%edi
fadds (%edi)
/* fistpl and popl as a unit keep the stack unchanged */
fistpl (%esp)
popl %eax
cmpl $32767,%eax
jg 1f
cmpl $-32768,%eax
jl 2f
movw %ax,(%esi)
jmp 4f
1: movw $32767,(%esi)
jmp 3f
2: movw $-32768,(%esi)
3:
/* incl %edi */
4:
.L67:
addl $-64,%ebx
addl $-128,%ecx
addl $4,%esi
decl %ebp
jnz .L68
/* return ipv edi 0 in eax */
movl $0,%eax
/* save ditherindex */
movl BO,%ebx
movl DITHERINDEX,%esi
movl %esi,4(%ebx);
/* stack: 0=ebx 4=esi 8=edi 12=ebp 16,20,24,28=local 32=back 36=bandptr 40=channel 44=out 48=buffs 52=bo */
popl %ebx
popl %esi
popl %edi
popl %ebp
addl $16,%esp
/* The stack must be now: 0=back 4=bandptr 8=channel 12=out 16=buffs 20=bo */
ret
NONEXEC_STACK