Built SDL2_image and _mixer static
This commit is contained in:
309
libsdl2_mixer/external/flac-1.3.2/src/libFLAC/ia32/fixed_asm.nasm
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309
libsdl2_mixer/external/flac-1.3.2/src/libFLAC/ia32/fixed_asm.nasm
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@ -0,0 +1,309 @@
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; vim:filetype=nasm ts=8
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; libFLAC - Free Lossless Audio Codec library
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; Copyright (C) 2001-2009 Josh Coalson
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; Copyright (C) 2011-2016 Xiph.Org Foundation
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;
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; Redistribution and use in source and binary forms, with or without
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; modification, are permitted provided that the following conditions
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; are met:
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;
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; - Redistributions of source code must retain the above copyright
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; notice, this list of conditions and the following disclaimer.
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;
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; - Redistributions in binary form must reproduce the above copyright
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; notice, this list of conditions and the following disclaimer in the
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; documentation and/or other materials provided with the distribution.
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;
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; - Neither the name of the Xiph.org Foundation nor the names of its
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; contributors may be used to endorse or promote products derived from
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; this software without specific prior written permission.
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;
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; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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; ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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; LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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; A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
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; CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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; EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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; PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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; PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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; LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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; NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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%include "nasm.h"
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data_section
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cglobal FLAC__fixed_compute_best_predictor_asm_ia32_mmx_cmov
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code_section
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; **********************************************************************
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;
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; unsigned FLAC__fixed_compute_best_predictor(const FLAC__int32 *data, unsigned data_len, float residual_bits_per_sample[FLAC__MAX_FIXED_ORDER+1])
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; {
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; FLAC__int32 last_error_0 = data[-1];
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; FLAC__int32 last_error_1 = data[-1] - data[-2];
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; FLAC__int32 last_error_2 = last_error_1 - (data[-2] - data[-3]);
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; FLAC__int32 last_error_3 = last_error_2 - (data[-2] - 2*data[-3] + data[-4]);
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; FLAC__int32 error, save;
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; FLAC__uint32 total_error_0 = 0, total_error_1 = 0, total_error_2 = 0, total_error_3 = 0, total_error_4 = 0;
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; unsigned i, order;
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;
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; for(i = 0; i < data_len; i++) {
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; error = data[i] ; total_error_0 += local_abs(error); save = error;
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; error -= last_error_0; total_error_1 += local_abs(error); last_error_0 = save; save = error;
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; error -= last_error_1; total_error_2 += local_abs(error); last_error_1 = save; save = error;
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; error -= last_error_2; total_error_3 += local_abs(error); last_error_2 = save; save = error;
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; error -= last_error_3; total_error_4 += local_abs(error); last_error_3 = save;
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; }
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;
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; if(total_error_0 < min(min(min(total_error_1, total_error_2), total_error_3), total_error_4))
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; order = 0;
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; else if(total_error_1 < min(min(total_error_2, total_error_3), total_error_4))
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; order = 1;
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; else if(total_error_2 < min(total_error_3, total_error_4))
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; order = 2;
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; else if(total_error_3 < total_error_4)
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; order = 3;
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; else
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; order = 4;
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;
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; residual_bits_per_sample[0] = (float)((data_len > 0 && total_error_0 > 0) ? log(M_LN2 * (double)total_error_0 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[1] = (float)((data_len > 0 && total_error_1 > 0) ? log(M_LN2 * (double)total_error_1 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[2] = (float)((data_len > 0 && total_error_2 > 0) ? log(M_LN2 * (double)total_error_2 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[3] = (float)((data_len > 0 && total_error_3 > 0) ? log(M_LN2 * (double)total_error_3 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[4] = (float)((data_len > 0 && total_error_4 > 0) ? log(M_LN2 * (double)total_error_4 / (double)data_len) / M_LN2 : 0.0);
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;
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; return order;
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; }
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ALIGN 16
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cident FLAC__fixed_compute_best_predictor_asm_ia32_mmx_cmov
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; esp + 36 == data[]
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; esp + 40 == data_len
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; esp + 44 == residual_bits_per_sample[]
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push ebp
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push ebx
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push esi
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push edi
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sub esp, byte 16
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; qword [esp] == temp space for loading FLAC__uint64s to FPU regs
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; ebx == &data[i]
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; ecx == loop counter (i)
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; ebp == order
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; mm0 == total_error_1:total_error_0
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; mm1 == total_error_2:total_error_3
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; mm2 == :total_error_4
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; mm3 == last_error_1:last_error_0
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; mm4 == last_error_2:last_error_3
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mov ecx, [esp + 40] ; ecx = data_len
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test ecx, ecx
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jz near .data_len_is_0
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mov ebx, [esp + 36] ; ebx = data[]
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movd mm3, [ebx - 4] ; mm3 = 0:last_error_0
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movd mm2, [ebx - 8] ; mm2 = 0:data[-2]
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movd mm1, [ebx - 12] ; mm1 = 0:data[-3]
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movd mm0, [ebx - 16] ; mm0 = 0:data[-4]
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movq mm5, mm3 ; mm5 = 0:last_error_0
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psubd mm5, mm2 ; mm5 = 0:last_error_1
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punpckldq mm3, mm5 ; mm3 = last_error_1:last_error_0
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psubd mm2, mm1 ; mm2 = 0:data[-2] - data[-3]
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psubd mm5, mm2 ; mm5 = 0:last_error_2
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movq mm4, mm5 ; mm4 = 0:last_error_2
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psubd mm4, mm2 ; mm4 = 0:last_error_2 - (data[-2] - data[-3])
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paddd mm4, mm1 ; mm4 = 0:last_error_2 - (data[-2] - 2 * data[-3])
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psubd mm4, mm0 ; mm4 = 0:last_error_3
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punpckldq mm4, mm5 ; mm4 = last_error_2:last_error_3
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pxor mm0, mm0 ; mm0 = total_error_1:total_error_0
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pxor mm1, mm1 ; mm1 = total_error_2:total_error_3
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pxor mm2, mm2 ; mm2 = 0:total_error_4
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ALIGN 16
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.loop:
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movd mm7, [ebx] ; mm7 = 0:error_0
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add ebx, byte 4
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movq mm6, mm7 ; mm6 = 0:error_0
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psubd mm7, mm3 ; mm7 = :error_1
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punpckldq mm6, mm7 ; mm6 = error_1:error_0
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movq mm5, mm6 ; mm5 = error_1:error_0
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movq mm7, mm6 ; mm7 = error_1:error_0
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psubd mm5, mm3 ; mm5 = error_2:
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movq mm3, mm6 ; mm3 = error_1:error_0
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psrad mm6, 31
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pxor mm7, mm6
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psubd mm7, mm6 ; mm7 = abs(error_1):abs(error_0)
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paddd mm0, mm7 ; mm0 = total_error_1:total_error_0
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movq mm6, mm5 ; mm6 = error_2:
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psubd mm5, mm4 ; mm5 = error_3:
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punpckhdq mm5, mm6 ; mm5 = error_2:error_3
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movq mm7, mm5 ; mm7 = error_2:error_3
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movq mm6, mm5 ; mm6 = error_2:error_3
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psubd mm5, mm4 ; mm5 = :error_4
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movq mm4, mm6 ; mm4 = error_2:error_3
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psrad mm6, 31
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pxor mm7, mm6
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psubd mm7, mm6 ; mm7 = abs(error_2):abs(error_3)
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paddd mm1, mm7 ; mm1 = total_error_2:total_error_3
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movq mm6, mm5 ; mm6 = :error_4
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psrad mm5, 31
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pxor mm6, mm5
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psubd mm6, mm5 ; mm6 = :abs(error_4)
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paddd mm2, mm6 ; mm2 = :total_error_4
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dec ecx
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jnz short .loop
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; if(total_error_0 < min(min(min(total_error_1, total_error_2), total_error_3), total_error_4))
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; order = 0;
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; else if(total_error_1 < min(min(total_error_2, total_error_3), total_error_4))
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; order = 1;
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; else if(total_error_2 < min(total_error_3, total_error_4))
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; order = 2;
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; else if(total_error_3 < total_error_4)
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; order = 3;
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; else
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; order = 4;
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movq mm3, mm0 ; mm3 = total_error_1:total_error_0
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movd edi, mm2 ; edi = total_error_4
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movd esi, mm1 ; esi = total_error_3
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movd eax, mm0 ; eax = total_error_0
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punpckhdq mm1, mm1 ; mm1 = total_error_2:total_error_2
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punpckhdq mm3, mm3 ; mm3 = total_error_1:total_error_1
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movd edx, mm1 ; edx = total_error_2
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movd ecx, mm3 ; ecx = total_error_1
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xor ebx, ebx
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xor ebp, ebp
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inc ebx
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cmp ecx, eax
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cmovb eax, ecx ; eax = min(total_error_0, total_error_1)
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cmovbe ebp, ebx
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inc ebx
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cmp edx, eax
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cmovb eax, edx ; eax = min(total_error_0, total_error_1, total_error_2)
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cmovbe ebp, ebx
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inc ebx
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cmp esi, eax
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cmovb eax, esi ; eax = min(total_error_0, total_error_1, total_error_2, total_error_3)
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cmovbe ebp, ebx
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inc ebx
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cmp edi, eax
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cmovb eax, edi ; eax = min(total_error_0, total_error_1, total_error_2, total_error_3, total_error_4)
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cmovbe ebp, ebx
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movd ebx, mm0 ; ebx = total_error_0
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emms
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; residual_bits_per_sample[0] = (float)((data_len > 0 && total_error_0 > 0) ? log(M_LN2 * (double)total_error_0 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[1] = (float)((data_len > 0 && total_error_1 > 0) ? log(M_LN2 * (double)total_error_1 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[2] = (float)((data_len > 0 && total_error_2 > 0) ? log(M_LN2 * (double)total_error_2 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[3] = (float)((data_len > 0 && total_error_3 > 0) ? log(M_LN2 * (double)total_error_3 / (double)data_len) / M_LN2 : 0.0);
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; residual_bits_per_sample[4] = (float)((data_len > 0 && total_error_4 > 0) ? log(M_LN2 * (double)total_error_4 / (double)data_len) / M_LN2 : 0.0);
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xor eax, eax
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fild dword [esp + 40] ; ST = data_len (NOTE: assumes data_len is <2gigs)
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.rbps_0:
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test ebx, ebx
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jz .total_error_0_is_0
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fld1 ; ST = 1.0 data_len
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mov [esp], ebx
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mov [esp + 4], eax ; [esp] = (FLAC__uint64)total_error_0
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mov ebx, [esp + 44]
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fild qword [esp] ; ST = total_error_0 1.0 data_len
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fdiv st2 ; ST = total_error_0/data_len 1.0 data_len
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fldln2 ; ST = ln2 total_error_0/data_len 1.0 data_len
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fmulp st1 ; ST = ln2*total_error_0/data_len 1.0 data_len
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fyl2x ; ST = log2(ln2*total_error_0/data_len) data_len
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fstp dword [ebx] ; residual_bits_per_sample[0] = log2(ln2*total_error_0/data_len) ST = data_len
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jmp short .rbps_1
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.total_error_0_is_0:
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mov ebx, [esp + 44]
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mov [ebx], eax ; residual_bits_per_sample[0] = 0.0
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.rbps_1:
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test ecx, ecx
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jz .total_error_1_is_0
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fld1 ; ST = 1.0 data_len
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mov [esp], ecx
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mov [esp + 4], eax ; [esp] = (FLAC__uint64)total_error_1
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fild qword [esp] ; ST = total_error_1 1.0 data_len
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fdiv st2 ; ST = total_error_1/data_len 1.0 data_len
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fldln2 ; ST = ln2 total_error_1/data_len 1.0 data_len
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fmulp st1 ; ST = ln2*total_error_1/data_len 1.0 data_len
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fyl2x ; ST = log2(ln2*total_error_1/data_len) data_len
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fstp dword [ebx + 4] ; residual_bits_per_sample[1] = log2(ln2*total_error_1/data_len) ST = data_len
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jmp short .rbps_2
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.total_error_1_is_0:
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mov [ebx + 4], eax ; residual_bits_per_sample[1] = 0.0
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.rbps_2:
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test edx, edx
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jz .total_error_2_is_0
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fld1 ; ST = 1.0 data_len
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mov [esp], edx
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mov [esp + 4], eax ; [esp] = (FLAC__uint64)total_error_2
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fild qword [esp] ; ST = total_error_2 1.0 data_len
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fdiv st2 ; ST = total_error_2/data_len 1.0 data_len
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fldln2 ; ST = ln2 total_error_2/data_len 1.0 data_len
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fmulp st1 ; ST = ln2*total_error_2/data_len 1.0 data_len
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fyl2x ; ST = log2(ln2*total_error_2/data_len) data_len
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fstp dword [ebx + 8] ; residual_bits_per_sample[2] = log2(ln2*total_error_2/data_len) ST = data_len
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jmp short .rbps_3
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.total_error_2_is_0:
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mov [ebx + 8], eax ; residual_bits_per_sample[2] = 0.0
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.rbps_3:
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test esi, esi
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jz .total_error_3_is_0
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fld1 ; ST = 1.0 data_len
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mov [esp], esi
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mov [esp + 4], eax ; [esp] = (FLAC__uint64)total_error_3
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fild qword [esp] ; ST = total_error_3 1.0 data_len
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fdiv st2 ; ST = total_error_3/data_len 1.0 data_len
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fldln2 ; ST = ln2 total_error_3/data_len 1.0 data_len
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fmulp st1 ; ST = ln2*total_error_3/data_len 1.0 data_len
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fyl2x ; ST = log2(ln2*total_error_3/data_len) data_len
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fstp dword [ebx + 12] ; residual_bits_per_sample[3] = log2(ln2*total_error_3/data_len) ST = data_len
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jmp short .rbps_4
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.total_error_3_is_0:
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mov [ebx + 12], eax ; residual_bits_per_sample[3] = 0.0
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.rbps_4:
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test edi, edi
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jz .total_error_4_is_0
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fld1 ; ST = 1.0 data_len
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mov [esp], edi
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mov [esp + 4], eax ; [esp] = (FLAC__uint64)total_error_4
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fild qword [esp] ; ST = total_error_4 1.0 data_len
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fdiv st2 ; ST = total_error_4/data_len 1.0 data_len
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fldln2 ; ST = ln2 total_error_4/data_len 1.0 data_len
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fmulp st1 ; ST = ln2*total_error_4/data_len 1.0 data_len
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fyl2x ; ST = log2(ln2*total_error_4/data_len) data_len
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fstp dword [ebx + 16] ; residual_bits_per_sample[4] = log2(ln2*total_error_4/data_len) ST = data_len
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jmp short .rbps_end
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.total_error_4_is_0:
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mov [ebx + 16], eax ; residual_bits_per_sample[4] = 0.0
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.rbps_end:
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fstp st0 ; ST = [empty]
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jmp short .end
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.data_len_is_0:
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; data_len == 0, so residual_bits_per_sample[*] = 0.0
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xor ebp, ebp
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mov edi, [esp + 44]
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mov [edi], ebp
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mov [edi + 4], ebp
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mov [edi + 8], ebp
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mov [edi + 12], ebp
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mov [edi + 16], ebp
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add ebp, byte 4 ; order = 4
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.end:
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mov eax, ebp ; return order
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add esp, byte 16
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pop edi
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pop esi
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pop ebx
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pop ebp
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ret
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; end
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