1
0
mirror of https://github.com/mpv-player/mpv synced 2024-12-13 18:36:09 +00:00
mpv/mp3lib/decode_k7.s
nickols_k 30ef3699e1 K7 3dnow-dsp support
git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@737 b3059339-0415-0410-9bf9-f77b7e298cf2
2001-05-09 07:59:55 +00:00

280 lines
6.1 KiB
ArmAsm

///
/// Replacement of synth_1to1() with AMD's 3DNowEx(DSP)! SIMD operations support
///
/// This code based 'decode_3dnow.s' by Syuuhei Kashiyama
/// <squash@mb.kcom.ne.jp>,only some types of changes have been made:
///
/// - change function name for support 3DNowEx! automatic detect
///
/// note: because K7 processors are an aggresive out-of-order three-way
/// superscalar ones instruction order is not significand for them.
///
/// Modified by Nick Kurshev <nickols_k@mail.ru>
///
/ synth_1to1_3dnow works the same way as the c version of
/ synth_1to1. this assembler code based 'decode-i586.s'
/ (by Stefan Bieschewski <stb@acm.org>), two types of changes
/ have been made:
/ - use {MMX,3DNow!} instruction for reduce cpu
/ - remove unused(?) local symbols
/
/ useful sources of information on optimizing 3DNow! code include:
/ AMD 3DNow! Technology Manual (Publication #21928)
/ English: http://www.amd.com/K6/k6docs/pdf/21928d.pdf
/ (Japanese: http://www.amd.com/japan/K6/k6docs/j21928c.pdf)
/ AMD-K6-2 Processor Code Optimization Application Note (Publication #21924)
/ English: http://www.amd.com/K6/k6docs/pdf/21924b.pdf
/
/ This code was tested only AMD-K6-2 processor Linux systems,
/ please tell me:
/ - whether this code works on other 3DNow! capable processors
/ (ex.IDT-C6-2) or not
/ - whether this code works on other OSes or not
/
/ by KIMURA Takuhiro <kim@hannah.ipc.miyakyo-u.ac.jp> - until 31.Mar.1998
/ <kim@comtec.co.jp> - after 1.Apr.1998
/ Enhancments for q-word operation by Michael Hipp
.bss
.comm buffs,4352,4
.data
.align 4
bo:
.long 1
.text
.globl synth_1to1_3dnowex
synth_1to1_3dnowex:
subl $12,%esp
pushl %ebp
pushl %edi
pushl %esi
pushl %ebx
movl 32(%esp),%eax
movl 40(%esp),%esi
movl $0,%edi
movl bo,%ebp
cmpl %edi,36(%esp)
jne .L48
decl %ebp
andl $15,%ebp
movl %ebp,bo
movl $buffs,%ecx
jmp .L49
.L48:
addl $2,%esi
movl $buffs+2176,%ecx
.L49:
testl $1,%ebp
je .L50
movl %ecx,%ebx
movl %ebp,16(%esp)
pushl %eax
movl 20(%esp),%edx
leal (%ebx,%edx,4),%eax
pushl %eax
movl 24(%esp),%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,16(%esp)
pushl %eax
leal 1092(%ecx,%ebp,4),%eax
pushl %eax
leal (%ecx,%ebp,4),%eax
.L74:
pushl %eax
call dct64_3dnowex
addl $12,%esp
movl 16(%esp),%edx
leal 0(,%edx,4),%edx
movl $decwin+64,%eax
movl %eax,%ecx
subl %edx,%ecx
movl $16,%ebp
.L55:
movq (%ecx),%mm4
movq (%ebx),%mm3
movq 8(%ecx),%mm0
movq 8(%ebx),%mm1
pfmul %mm3,%mm4
movq 16(%ecx),%mm2
pfmul %mm1,%mm0
movq 16(%ebx),%mm3
pfadd %mm0,%mm4
movq 24(%ecx),%mm0
pfmul %mm2,%mm3
movq 24(%ebx),%mm1
pfadd %mm3,%mm4
movq 32(%ecx),%mm2
pfmul %mm1,%mm0
movq 32(%ebx),%mm3
pfadd %mm0,%mm4
movq 40(%ecx),%mm0
pfmul %mm2,%mm3
movq 40(%ebx),%mm1
pfadd %mm3,%mm4
movq 48(%ecx),%mm2
pfmul %mm1,%mm0
movq 48(%ebx),%mm3
pfadd %mm0,%mm4
movq 56(%ecx),%mm0
pfmul %mm2,%mm3
movq 56(%ebx),%mm1
pfadd %mm3,%mm4
pfmul %mm1,%mm0
pfadd %mm0,%mm4
movq %mm4,%mm0
psrlq $32,%mm0
pfsub %mm0,%mm4
pf2id %mm4,%mm4
movd %mm4,%eax
sar $16,%eax
movw %ax,(%esi)
addl $64,%ebx
subl $-128,%ecx
addl $4,%esi
decl %ebp
jnz .L55
/ --- end of loop 1 ---
movd (%ecx),%mm2
movd (%ebx),%mm1
pfmul %mm1,%mm2
movd 8(%ecx),%mm0
movd 8(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 16(%ecx),%mm0
movd 16(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 24(%ecx),%mm0
movd 24(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 32(%ecx),%mm0
movd 32(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 40(%ecx),%mm0
movd 40(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 48(%ecx),%mm0
movd 48(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
movd 56(%ecx),%mm0
movd 56(%ebx),%mm1
pfmul %mm0,%mm1
pfadd %mm1,%mm2
pf2id %mm2,%mm2
movd %mm2,%eax
sar $16,%eax
movw %ax,(%esi)
addl $-64,%ebx
addl $4,%esi
addl $256,%ecx
movl $15,%ebp
.L68:
psubd %mm0,%mm0
movq (%ebx),%mm1
movq (%ecx),%mm2
pfmul %mm1,%mm2
pfsub %mm2,%mm0
movq 8(%ebx),%mm3
movq 8(%ecx),%mm4
pfmul %mm3,%mm4
pfsub %mm4,%mm0
movq 16(%ebx),%mm1
movq 16(%ecx),%mm2
pfmul %mm1,%mm2
pfsub %mm2,%mm0
movq 24(%ebx),%mm3
movq 24(%ecx),%mm4
pfmul %mm3,%mm4
pfsub %mm4,%mm0
movq 32(%ebx),%mm1
movq 32(%ecx),%mm2
pfmul %mm1,%mm2
pfsub %mm2,%mm0
movq 40(%ebx),%mm3
movq 40(%ecx),%mm4
pfmul %mm3,%mm4
pfsub %mm4,%mm0
movq 48(%ebx),%mm1
movq 48(%ecx),%mm2
pfmul %mm1,%mm2
pfsub %mm2,%mm0
movq 56(%ebx),%mm3
movq 56(%ecx),%mm4
pfmul %mm3,%mm4
pfsub %mm4,%mm0
pfacc %mm0,%mm0
pf2id %mm0,%mm0
movd %mm0,%eax
sar $16,%eax
movw %ax,(%esi)
addl $-64,%ebx
subl $-128,%ecx
addl $4,%esi
decl %ebp
jnz .L68
/ --- end of loop 2
femms
movl %edi,%eax
popl %ebx
popl %esi
popl %edi
popl %ebp
addl $12,%esp
ret