diff options
Diffstat (limited to 'ac3dec/downmix.c')
| -rw-r--r-- | ac3dec/downmix.c | 441 |
1 files changed, 51 insertions, 390 deletions
diff --git a/ac3dec/downmix.c b/ac3dec/downmix.c index 94bc51a..8eac3e2 100644 --- a/ac3dec/downmix.c +++ b/ac3dec/downmix.c @@ -1,10 +1,7 @@ /* - * - * downmix.c + * imdct.c * - * Copyright (C) Aaron Holtzman - Sept 1999 - * - * Originally based on code by Yuqing Deng. + * Copyright (C) Aaron Holtzman - May 1999 * * This file is part of ac3dec, a free Dolby AC-3 stream decoder. * @@ -28,401 +25,65 @@ #include <stdlib.h> #include <stdio.h> #include <math.h> +#include <mm_accel.h> + #include "ac3.h" #include "ac3_internal.h" - -#include "decode.h" -#include "downmix.h" #include "debug.h" +#include "downmix.h" +#include "downmix_c.h" +#include "downmix_i386.h" +#ifdef HAVE_KNI +#include "downmix_kni.h" +#endif +void (*downmix_3f_2r_to_2ch)(float *samples, dm_par_t * dm_par); +void (*downmix_3f_1r_to_2ch)(float *samples, dm_par_t * dm_par); +void (*downmix_2f_2r_to_2ch)(float *samples, dm_par_t * dm_par); +void (*downmix_2f_1r_to_2ch)(float *samples, dm_par_t * dm_par); +void (*downmix_3f_0r_to_2ch)(float *samples, dm_par_t * dm_par); +void (*stream_sample_2ch_to_s16)(int16_t *s16_samples, float *left, float *right); +void (*stream_sample_1ch_to_s16)(int16_t *s16_samples, float *center); -//Pre-scaled downmix coefficients -static float cmixlev_lut[4] = { 0.2928, 0.2468, 0.2071, 0.2468 }; -static float smixlev_lut[4] = { 0.2928, 0.2071, 0.0 , 0.2071 }; -static void -downmix_3f_2r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) +void downmix_init() { - uint_32 j; - float right_tmp; - float left_tmp; - float clev,slev; - float *centre = 0, *left = 0, *right = 0, *left_sur = 0, *right_sur = 0; - - left = samples[0]; - centre = samples[1]; - right = samples[2]; - left_sur = samples[3]; - right_sur = samples[4]; - - clev = cmixlev_lut[bsi->cmixlev]; - slev = smixlev_lut[bsi->surmixlev]; - -#if defined DOLBY_SURROUND - for (j = 0; j < 256; j++) +#ifdef __i386__ +#ifdef HAVE_KNI + uint32_t accel = mm_accel (); + +// other dowmixing should go here too + if (accel & MM_ACCEL_X86_MMXEXT) { + dprintf("Using SSE for downmix\n"); + downmix_3f_2r_to_2ch = downmix_3f_2r_to_2ch_kni; + downmix_2f_2r_to_2ch = downmix_2f_2r_to_2ch_kni; + downmix_3f_1r_to_2ch = downmix_3f_1r_to_2ch_kni; + downmix_2f_1r_to_2ch = downmix_2f_1r_to_2ch_kni; + downmix_3f_0r_to_2ch = downmix_3f_0r_to_2ch_kni; + stream_sample_2ch_to_s16 = stream_sample_2ch_to_s16_kni; + stream_sample_1ch_to_s16 = stream_sample_1ch_to_s16_kni; + } else if (accel & MM_ACCEL_X86_3DNOW) { + } else +#endif +#endif { - right_tmp = *left_sur++ + *right_sur++; - left_tmp = 1.4142f * *left++ + *centre - right_tmp; - right_tmp += 1.4142f * *right++ + *centre++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 16000.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 16000.0f); - } + downmix_3f_2r_to_2ch = downmix_3f_2r_to_2ch_c; + downmix_2f_2r_to_2ch = downmix_2f_2r_to_2ch_c; + downmix_3f_1r_to_2ch = downmix_3f_1r_to_2ch_c; + downmix_2f_1r_to_2ch = downmix_2f_1r_to_2ch_c; + downmix_3f_0r_to_2ch = downmix_3f_0r_to_2ch_c; +#ifdef __i386__ +#if 1 + stream_sample_2ch_to_s16 = stream_sample_2ch_to_s16_c; + stream_sample_1ch_to_s16 = stream_sample_1ch_to_s16_c; #else - for (j = 0; j < 256; j++) - { - left_tmp = 0.4142f * *left++ + clev * *centre + slev * *left_sur++; - right_tmp= 0.4142f * *right++ + clev * *centre++ + slev * *right_sur++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 32767.0f); - } + stream_sample_2ch_to_s16 = stream_sample_2ch_to_s16_i386; + stream_sample_1ch_to_s16 = stream_sample_1ch_to_s16_i386; +#endif +#else + stream_sample_2ch_to_s16 = stream_sample_2ch_to_s16_c; + stream_sample_1ch_to_s16 = stream_sample_1ch_to_s16_c; #endif -} - -static void -downmix_2f_2r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - uint_32 j; - float right_tmp; - float left_tmp; - float slev; - float *left = 0, *right = 0, *left_sur = 0, *right_sur = 0; - - left = samples[0]; - right = samples[1]; - left_sur = samples[2]; - right_sur = samples[3]; - - slev = smixlev_lut[bsi->surmixlev]; - - for (j = 0; j < 256; j++) - { - left_tmp = 0.4142f * *left++ + slev * *left_sur++; - right_tmp= 0.4142f * *right++ + slev * *right_sur++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 32767.0f); - } -} - -static void -downmix_3f_1r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - uint_32 j; - float right_tmp; - float left_tmp; - float clev,slev; - float *centre = 0, *left = 0, *right = 0, *sur = 0; - - left = samples[0]; - centre = samples[1]; - right = samples[2]; - //Mono surround - sur = samples[3]; - - clev = cmixlev_lut[bsi->cmixlev]; - slev = smixlev_lut[bsi->surmixlev]; - - for (j = 0; j < 256; j++) - { - left_tmp = 0.4142f * *left++ + clev * *centre++ + slev * *sur; - right_tmp= 0.4142f * *right++ + clev * *centre + slev * *sur++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 32767.0f); - } -} - - -static void -downmix_2f_1r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - uint_32 j; - float right_tmp; - float left_tmp; - float slev; - float *left = 0, *right = 0, *sur = 0; - - left = samples[0]; - right = samples[1]; - //Mono surround - sur = samples[2]; - - slev = smixlev_lut[bsi->surmixlev]; - - for (j = 0; j < 256; j++) - { - left_tmp = 0.4142f * *left++ + slev * *sur; - right_tmp= 0.4142f * *right++ + slev * *sur++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 32767.0f); - } -} - -static void -downmix_3f_0r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - uint_32 j; - float right_tmp; - float left_tmp; - float clev; - float *centre = 0, *left = 0, *right = 0; - - left = samples[0]; - centre = samples[1]; - right = samples[2]; - - clev = cmixlev_lut[bsi->cmixlev]; - - for (j = 0; j < 256; j++) - { - left_tmp = 0.4142f * *left++ + clev * *centre; - right_tmp= 0.4142f * *right++ + clev * *centre++; - - s16_samples[j * 2 ] = (sint_16) (left_tmp * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (right_tmp * 32767.0f); - } -} - -static void -downmix_2f_0r_to_2ch(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - uint_32 j; - float *left = 0, *right = 0; - - left = samples[0]; - right = samples[1]; - - for (j = 0; j < 256; j++) - { - s16_samples[j * 2 ] = (sint_16) (*left++ * 32767.0f); - s16_samples[j * 2 + 1] = (sint_16) (*right++ * 32767.0f); - } -} - -static void -downmix_1f_0r_to_2ch(float *centre,sint_16 *s16_samples) -{ - uint_32 j; - float tmp; - - //Mono program! - - for (j = 0; j < 256; j++) - { - tmp = 32767.0f * 0.7071f * *centre++; - - s16_samples[j * 2 ] = s16_samples[j * 2 + 1] = (sint_16) tmp; - } -} - -// -// Downmix into 2 or 4 channels (4 ch isn't in quite yet) -// -// The downmix function names have the following format -// -// downmix_Xf_Yr_to_[2|4]ch[_dolby] -// -// where X = number of front channels -// Y = number of rear channels -// [2|4] = number of output channels -// [_dolby] = with or without dolby surround mix -// - -void downmix(bsi_t* bsi, stream_samples_t samples,sint_16 *s16_samples) -{ - if(bsi->acmod > 7) - dprintf("(downmix) invalid acmod number\n"); - - // - //There are two main cases, with or without Dolby Surround - // - if(ac3_config.flags & AC3_DOLBY_SURR_ENABLE) - { - fprintf(stderr,"Dolby Surround Mixes not currently enabled\n"); - exit(1); - } - - //Non-Dolby surround downmixes - switch(bsi->acmod) - { - // 3/2 - case 7: - downmix_3f_2r_to_2ch(bsi,samples,s16_samples); - break; - - // 2/2 - case 6: - downmix_2f_2r_to_2ch(bsi,samples,s16_samples); - break; - - // 3/1 - case 5: - downmix_3f_1r_to_2ch(bsi,samples,s16_samples); - break; - - // 2/1 - case 4: - downmix_2f_1r_to_2ch(bsi,samples,s16_samples); - break; - - // 3/0 - case 3: - downmix_3f_0r_to_2ch(bsi,samples,s16_samples); - break; - - case 2: - downmix_2f_0r_to_2ch(bsi,samples,s16_samples); - break; - - // 1/0 - case 1: - downmix_1f_0r_to_2ch(samples[0],s16_samples); - break; - - // 1+1 - case 0: - downmix_1f_0r_to_2ch(samples[ac3_config.dual_mono_ch_sel],s16_samples); - break; } } - - - -#if 0 - - //the dolby mixes lay here for the time being - switch(bsi->acmod) - { - // 3/2 - case 7: - left = samples[0]; - centre = samples[1]; - right = samples[2]; - left_sur = samples[3]; - right_sur = samples[4]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.2265f * *left_sur++ + 0.2265f * *right_sur++; - left_tmp = -1 * right_tmp; - right_tmp += 0.3204f * *right++ + 0.2265f * *centre; - left_tmp += 0.3204f * *left++ + 0.2265f * *centre++; - - samples[1][j] = right_tmp; - samples[0][j] = left_tmp; - } - - break; - - // 2/2 - case 6: - left = samples[0]; - right = samples[1]; - left_sur = samples[2]; - right_sur = samples[3]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.2265f * *left_sur++ + 0.2265f * *right_sur++; - left_tmp = -1 * right_tmp; - right_tmp += 0.3204f * *right++; - left_tmp += 0.3204f * *left++ ; - - samples[1][j] = right_tmp; - samples[0][j] = left_tmp; - } - break; - - // 3/1 - case 5: - left = samples[0]; - centre = samples[1]; - right = samples[2]; - //Mono surround - right_sur = samples[3]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.2265f * *right_sur++; - left_tmp = -1 * right_tmp; - right_tmp += 0.3204f * *right++ + 0.2265f * *centre; - left_tmp += 0.3204f * *left++ + 0.2265f * *centre++; - - samples[1][j] = right_tmp; - samples[0][j] = left_tmp; - } - break; - - // 2/1 - case 4: - left = samples[0]; - right = samples[1]; - //Mono surround - right_sur = samples[2]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.2265f * *right_sur++; - left_tmp = -1 * right_tmp; - right_tmp += 0.3204f * *right++; - left_tmp += 0.3204f * *left++; - - samples[1][j] = right_tmp; - samples[0][j] = left_tmp; - } - break; - - // 3/0 - case 3: - left = samples[0]; - centre = samples[1]; - right = samples[2]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.3204f * *right++ + 0.2265f * *centre; - left_tmp = 0.3204f * *left++ + 0.2265f * *centre++; - - samples[1][j] = right_tmp; - samples[0][j] = left_tmp; - } - break; - - // 2/0 - case 2: - //Do nothing! - break; - - // 1/0 - case 1: - //Mono program! - right = samples[0]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.7071f * *right++; - - samples[1][j] = right_tmp; - samples[0][j] = right_tmp; - } - - break; - - // 1+1 - case 0: - //Dual mono, output selected by user - right = samples[ac3_config.dual_mono_ch_sel]; - - for (j = 0; j < 256; j++) - { - right_tmp = 0.7071f * *right++; - - samples[1][j] = right_tmp; - samples[0][j] = right_tmp; - } - break; -#endif |