605 lines
12 KiB
ArmAsm
605 lines
12 KiB
ArmAsm
/*
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* Copyright (C) 2006 Sampo Savolainen <v2@iki.fi>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#; void x86_sse_mix_buffers_with_gain (float *dst, float *src, unsigned int nframes, float gain);
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.globl x86_sse_mix_buffers_with_gain
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.type x86_sse_mix_buffers_with_gain,@function
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x86_sse_mix_buffers_with_gain:
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#; %rdi float *dst
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#; %rsi float *src
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#; %rdx unsigned int nframes
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#; %xmm0 float gain
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pushq %rbp
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movq %rsp, %rbp
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#; save the registers
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pushq %rbx
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pushq %rdi
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pushq %rsi
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#; if nframes == 0, go to end
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cmp $0, %rdx
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je .MBWG_END
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#; Check for alignment
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movq %rdi, %rax
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andq $12, %rax #; mask alignment offset
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movq %rsi, %rbx
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andq $12, %rbx #; mask alignment offset
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cmp %rax, %rbx
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jne .MBWG_NONALIGN #; if not aligned, calculate manually
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#; if we are aligned
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cmp $0, %rbx
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jz .MBWG_SSE
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#; Pre-loop, we need to run 1-3 frames "manually" without
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#; SSE instructions
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.MBWG_PRELOOP:
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#; gain is already in %xmm0
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movss (%rsi), %xmm1
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mulss %xmm0, %xmm1
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addss (%rdi), %xmm1
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movss %xmm1, (%rdi)
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addq $4, %rdi #; dst++
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addq $4, %rsi #; src++
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decq %rdx #; nframes--
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jz .MBWG_END
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addq $4, %rbx
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cmp $16, %rbx #; test if we've reached 16 byte alignment
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jne .MBWG_PRELOOP
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.MBWG_SSE:
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cmp $4, %rdx #; we know it's not zero, but if it's not >=4, then
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jnge .MBWG_NONALIGN #; we jump straight to the "normal" code
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#; gain is already in %xmm0
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shufps $0x00, %xmm0, %xmm0
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.MBWG_SSELOOP:
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movaps (%rsi), %xmm1 #; source => xmm0
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mulps %xmm0, %xmm1 #; apply gain to source
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addps (%rdi), %xmm1 #; mix with destination
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movaps %xmm1, (%rdi) #; copy result to destination
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addq $16, %rdi #; dst+=4
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addq $16, %rsi #; src+=4
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subq $4, %rdx #; nframes-=4
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cmp $4, %rdx
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jge .MBWG_SSELOOP
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cmp $0, %rdx
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je .MBWG_END
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#; if there are remaining frames, the nonalign code will do nicely
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#; for the rest 1-3 frames.
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.MBWG_NONALIGN:
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#; not aligned!
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#; gain is already in %xmm0
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.MBWG_NONALIGNLOOP:
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movss (%rsi), %xmm1
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mulss %xmm0, %xmm1
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addss (%rdi), %xmm1
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movss %xmm1, (%rdi)
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addq $4, %rdi
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addq $4, %rsi
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decq %rdx
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jnz .MBWG_NONALIGNLOOP
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.MBWG_END:
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popq %rsi
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popq %rdi
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popq %rbx
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#; return
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leave
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ret
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.size x86_sse_mix_buffers_with_gain, .-x86_sse_mix_buffers_with_gain
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#; void x86_sse_mix_buffers_no_gain (float *dst, float *src, unsigned int nframes);
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.globl x86_sse_mix_buffers_no_gain
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.type x86_sse_mix_buffers_no_gain,@function
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x86_sse_mix_buffers_no_gain:
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#; %rdi float *dst
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#; %rsi float *src
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#; %rdx unsigned int nframes
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pushq %rbp
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movq %rsp, %rbp
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#; save the registers
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pushq %rbx
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pushq %rdi
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pushq %rsi
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#; the real function
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#; if nframes == 0, go to end
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cmp $0, %rdx
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je .MBNG_END
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#; Check for alignment
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movq %rdi, %rax
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andq $12, %rax #; mask alignment offset
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movq %rsi, %rbx
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andq $12, %rbx #; mask alignment offset
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cmp %rax, %rbx
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jne .MBNG_NONALIGN #; if not aligned, calculate manually
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cmp $0, %rbx
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je .MBNG_SSE
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#; Pre-loop, we need to run 1-3 frames "manually" without
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#; SSE instructions
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.MBNG_PRELOOP:
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movss (%rsi), %xmm0
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addss (%rdi), %xmm0
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movss %xmm0, (%rdi)
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addq $4, %rdi #; dst++
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addq $4, %rsi #; src++
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decq %rdx #; nframes--
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jz .MBNG_END
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addq $4, %rbx
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cmp $16, %rbx #; test if we've reached 16 byte alignment
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jne .MBNG_PRELOOP
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.MBNG_SSE:
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cmp $4, %rdx #; if there are frames left, but less than 4
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jnge .MBNG_NONALIGN #; we can't run SSE
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.MBNG_SSELOOP:
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movaps (%rsi), %xmm0 #; source => xmm0
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addps (%rdi), %xmm0 #; mix with destination
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movaps %xmm0, (%rdi) #; copy result to destination
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addq $16, %rdi #; dst+=4
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addq $16, %rsi #; src+=4
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subq $4, %rdx #; nframes-=4
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cmp $4, %rdx
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jge .MBNG_SSELOOP
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cmp $0, %rdx
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je .MBNG_END
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#; if there are remaining frames, the nonalign code will do nicely
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#; for the rest 1-3 frames.
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.MBNG_NONALIGN:
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#; not aligned!
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movss (%rsi), %xmm0 #; src => xmm0
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addss (%rdi), %xmm0 #; xmm0 += dst
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movss %xmm0, (%rdi) #; xmm0 => dst
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addq $4, %rdi
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addq $4, %rsi
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decq %rdx
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jnz .MBNG_NONALIGN
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.MBNG_END:
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popq %rsi
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popq %rdi
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popq %rbx
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#; return
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leave
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ret
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.size x86_sse_mix_buffers_no_gain, .-x86_sse_mix_buffers_no_gain
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#; void x86_sse_apply_gain_to_buffer (float *buf, unsigned int nframes, float gain);
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.globl x86_sse_apply_gain_to_buffer
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.type x86_sse_apply_gain_to_buffer,@function
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x86_sse_apply_gain_to_buffer:
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#; %rdi float *buf 32(%rbp)
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#; %rsi unsigned int nframes
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#; %xmm0 float gain
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#; %xmm1 float buf[0]
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pushq %rbp
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movq %rsp, %rbp
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#; save %rdi
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pushq %rdi
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#; the real function
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#; if nframes == 0, go to end
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movq %rsi, %rcx #; nframes
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cmp $0, %rcx
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je .AG_END
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#; set up the gain buffer (gain is already in %xmm0)
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shufps $0x00, %xmm0, %xmm0
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#; Check for alignment
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movq %rdi, %rdx #; buf => %rdx
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andq $12, %rdx #; mask bits 1 & 2, result = 0, 4, 8 or 12
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jz .AG_SSE #; if buffer IS aligned
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#; PRE-LOOP
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#; we iterate 1-3 times, doing normal x87 float comparison
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#; so we reach a 16 byte aligned "buf" (=%rdi) value
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.AGLP_START:
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#; Load next value from the buffer into %xmm1
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movss (%rdi), %xmm1
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mulss %xmm0, %xmm1
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movss %xmm1, (%rdi)
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#; increment buffer, decrement counter
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addq $4, %rdi #; buf++;
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decq %rcx #; nframes--
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jz .AG_END #; if we run out of frames, we go to the end
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addq $4, %rdx #; one non-aligned byte less
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cmp $16, %rdx
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jne .AGLP_START #; if more non-aligned frames exist, we do a do-over
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.AG_SSE:
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#; We have reached the 16 byte aligned "buf" ("rdi") value
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#; Figure out how many loops we should do
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movq %rcx, %rax #; copy remaining nframes to %rax for division
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movq $0, %rdx #; 0 the edx register
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pushq %rdi
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movq $4, %rdi
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divq %rdi #; %rdx = remainder == 0
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popq %rdi
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#; %rax = SSE iterations
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cmp $0, %rax
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je .AGPOST_START
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.AGLP_SSE:
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movaps (%rdi), %xmm1
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mulps %xmm0, %xmm1
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movaps %xmm1, (%rdi)
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addq $16, %rdi
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subq $4, %rcx #; nframes-=4
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decq %rax
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jnz .AGLP_SSE
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#; Next we need to post-process all remaining frames
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#; the remaining frame count is in %rcx
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#; if no remaining frames, jump to the end
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cmp $0, %rcx
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andq $3, %rcx #; nframes % 4
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je .AG_END
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.AGPOST_START:
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movss (%rdi), %xmm1
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mulss %xmm0, %xmm1
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movss %xmm1, (%rdi)
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#; increment buffer, decrement counter
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addq $4, %rdi #; buf++;
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decq %rcx #; nframes--
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jnz .AGPOST_START #; if we run out of frames, we go to the end
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.AG_END:
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popq %rdi
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#; return
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leave
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ret
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.size x86_sse_apply_gain_to_buffer, .-x86_sse_apply_gain_to_buffer
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#; end proc
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#; x86_sse_apply_gain_vector(float *buf, float *gain_vector, unsigned int nframes)
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.globl x86_sse_apply_gain_vector
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.type x86_sse_apply_gain_vector,@function
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x86_sse_apply_gain_vector:
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#; %rdi float *buf
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#; %rsi float *gain_vector
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#; %rdx unsigned int nframes
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pushq %rbp
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movq %rsp, %rbp
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#; Save registers
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pushq %rdi
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pushq %rsi
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pushq %rbx
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#; if nframes == 0 go to end
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cmp $0, %rdx
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je .AGA_END
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#; Check alignment
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movq %rdi, %rax
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andq $12, %rax
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movq %rsi, %rbx
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andq $12, %rbx
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cmp %rax,%rbx
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jne .AGA_ENDLOOP
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cmp $0, %rax
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jz .AGA_SSE #; if buffers are aligned, jump to the SSE loop
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#; Buffers aren't 16 byte aligned, but they are unaligned by the same amount
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.AGA_ALIGNLOOP:
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movss (%rdi), %xmm0 #; buf => xmm0
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movss (%rsi), %xmm1 #; gain value => xmm1
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mulss %xmm1, %xmm0 #; xmm1 * xmm0 => xmm0
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movss %xmm0, (%rdi) #; signal with gain => buf
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decq %rdx
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jz .AGA_END
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addq $4, %rdi #; buf++
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addq $4, %rsi #; gab++
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addq $4, %rax
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cmp $16, %rax
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jne .AGA_ALIGNLOOP
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#; There are frames left for sure, as that is checked in the beginning
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#; and within the previous loop. BUT, there might be less than 4 frames
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#; to process
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.AGA_SSE:
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movq %rdx, %rax #; nframes => %rax
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shr $2, %rax #; unsigned divide by 4
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cmp $0, %rax #; Jos toimii ilman t<EFBFBD>t<EFBFBD>, niin kiva
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je .AGA_ENDLOOP
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.AGA_SSELOOP:
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movaps (%rdi), %xmm0
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movaps (%rsi), %xmm1
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mulps %xmm1, %xmm0
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movaps %xmm0, (%rdi)
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addq $16, %rdi
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addq $16, %rsi
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decq %rax
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jnz .AGA_SSELOOP
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andq $3, %rdx #; Remaining frames are nframes & 3
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jz .AGA_END
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#; Inside this loop, we know there are frames left to process
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#; but because either there are < 4 frames left, or the buffers
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#; are not aligned, we can't use the parallel SSE ops
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.AGA_ENDLOOP:
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movss (%rdi), %xmm0 #; buf => xmm0
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movss (%rsi), %xmm1 #; gain value => xmm1
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mulss %xmm1, %xmm0 #; xmm1 * xmm0 => xmm0
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movss %xmm0, (%rdi) #; signal with gain => buf
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addq $4,%rdi
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addq $4,%rsi
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decq %rdx #; nframes--
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jnz .AGA_ENDLOOP
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.AGA_END:
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popq %rbx
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popq %rsi
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popq %rdi
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leave
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ret
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.size x86_sse_apply_gain_vector, .-x86_sse_apply_gain_vector
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#; end proc
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#; float x86_sse_compute_peak(float *buf, long nframes, float current);
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.globl x86_sse_compute_peak
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.type x86_sse_compute_peak,@function
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x86_sse_compute_peak:
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#; %rdi float *buf 32(%rbp)
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#; %rsi unsigned int nframes
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#; %xmm0 float current
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#; %xmm1 float buf[0]
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pushq %rbp
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movq %rsp, %rbp
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#; save %rdi
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pushq %rdi
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#; if nframes == 0, go to end
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movq %rsi, %rcx #; nframes
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cmp $0, %rcx
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je .CP_END
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#; create the "abs" mask in %xmm2
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pushq $2147483647
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movss (%rsp), %xmm2
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addq $8, %rsp
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shufps $0x00, %xmm2, %xmm2
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#; Check for alignment
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#;movq 8(%rbp), %rdi #; buf
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movq %rdi, %rdx #; buf => %rdx
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andq $12, %rdx #; mask bits 1 & 2, result = 0, 4, 8 or 12
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jz .CP_SSE #; if buffer IS aligned
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#; PRE-LOOP
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#; we iterate 1-3 times, doing normal x87 float comparison
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#; so we reach a 16 byte aligned "buf" (=%rdi) value
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.LP_START:
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#; Load next value from the buffer
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movss (%rdi), %xmm1
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andps %xmm2, %xmm1
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maxss %xmm1, %xmm0
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#; increment buffer, decrement counter
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addq $4, %rdi #; buf++;
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decq %rcx #; nframes--
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jz .CP_END #; if we run out of frames, we go to the end
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addq $4, %rdx #; one non-aligned byte less
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cmp $16, %rdx
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jne .LP_START #; if more non-aligned frames exist, we do a do-over
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.CP_SSE:
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#; We have reached the 16 byte aligned "buf" ("rdi") value
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#; Figure out how many loops we should do
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movq %rcx, %rax #; copy remaining nframes to %rax for division
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shr $2,%rax #; unsigned divide by 4
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jz .POST_START
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#; %rax = SSE iterations
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#; current maximum is at %xmm0, but we need to ..
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shufps $0x00, %xmm0, %xmm0 #; shuffle "current" to all 4 FP's
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#;prefetcht0 16(%rdi)
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.LP_SSE:
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movaps (%rdi), %xmm1
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andps %xmm2, %xmm1
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maxps %xmm1, %xmm0
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addq $16, %rdi
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decq %rax
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jnz .LP_SSE
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|
||
#; Calculate the maximum value contained in the 4 FP's in %xmm0
|
||
movaps %xmm0, %xmm1
|
||
shufps $0x4e, %xmm1, %xmm1 #; shuffle left & right pairs (1234 => 3412)
|
||
maxps %xmm1, %xmm0 #; maximums of the two pairs
|
||
movaps %xmm0, %xmm1
|
||
shufps $0xb1, %xmm1, %xmm1 #; shuffle the floats inside the two pairs (1234 => 2143)
|
||
maxps %xmm1, %xmm0
|
||
|
||
#; now every float in %xmm0 is the same value, current maximum value
|
||
|
||
#; Next we need to post-process all remaining frames
|
||
#; the remaining frame count is in %rcx
|
||
|
||
#; if no remaining frames, jump to the end
|
||
|
||
andq $3, %rcx #; nframes % 4
|
||
jz .CP_END
|
||
|
||
.POST_START:
|
||
|
||
movss (%rdi), %xmm1
|
||
andps %xmm2, %xmm1
|
||
maxss %xmm1, %xmm0
|
||
|
||
addq $4, %rdi #; buf++;
|
||
|
||
decq %rcx #; nframes--;
|
||
jnz .POST_START
|
||
|
||
.CP_END:
|
||
|
||
popq %rdi
|
||
|
||
#; return
|
||
leave
|
||
ret
|
||
|
||
.size x86_sse_compute_peak, .-x86_sse_compute_peak
|
||
#; end proc
|
||
|
||
#ifdef __ELF__
|
||
.section .note.GNU-stack,"",%progbits
|
||
#endif
|
||
|