mirror of
https://gitlab.freedesktop.org/pipewire/pipewire.git
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425 lines
12 KiB
C
425 lines
12 KiB
C
/* Spa
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*
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* Copyright © 2018 Wim Taymans
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice (including the next
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* paragraph) shall be included in all copies or substantial portions of the
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* Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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* DEALINGS IN THE SOFTWARE.
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*/
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#include <string.h>
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#include <stdio.h>
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#include <math.h>
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#include <spa/param/audio/format-utils.h>
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#include <spa/support/cpu.h>
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#include <spa/support/log.h>
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#include <spa/utils/defs.h>
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#define VOLUME_MIN 0.0f
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#define VOLUME_NORM 1.0f
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#include "channelmix-ops.h"
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#define _M(ch) (1UL << SPA_AUDIO_CHANNEL_ ## ch)
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#define MASK_MONO _M(FC)|_M(MONO)|_M(UNKNOWN)
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#define MASK_STEREO _M(FL)|_M(FR)|_M(UNKNOWN)
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#define MASK_QUAD _M(FL)|_M(FR)|_M(RL)|_M(RR)|_M(UNKNOWN)
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#define MASK_3_1 _M(FL)|_M(FR)|_M(FC)|_M(LFE)
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#define MASK_5_1 _M(FL)|_M(FR)|_M(FC)|_M(LFE)|_M(SL)|_M(SR)|_M(RL)|_M(RR)
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#define MASK_7_1 _M(FL)|_M(FR)|_M(FC)|_M(LFE)|_M(SL)|_M(SR)|_M(RL)|_M(RR)
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#define ANY ((uint32_t)-1)
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#define EQ ((uint32_t)-2)
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typedef void (*channelmix_func_t) (struct channelmix *mix, uint32_t n_dst, void * SPA_RESTRICT dst[n_dst],
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uint32_t n_src, const void * SPA_RESTRICT src[n_src], uint32_t n_samples);
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static const struct channelmix_info {
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uint32_t src_chan;
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uint64_t src_mask;
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uint32_t dst_chan;
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uint64_t dst_mask;
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channelmix_func_t process;
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uint32_t cpu_flags;
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} channelmix_table[] =
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{
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#if defined (HAVE_SSE)
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{ 2, MASK_MONO, 2, MASK_MONO, channelmix_copy_sse, SPA_CPU_FLAG_SSE },
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{ 2, MASK_STEREO, 2, MASK_STEREO, channelmix_copy_sse, SPA_CPU_FLAG_SSE },
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{ EQ, 0, EQ, 0, channelmix_copy_sse, SPA_CPU_FLAG_SSE },
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#endif
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{ 2, MASK_MONO, 2, MASK_MONO, channelmix_copy_c, 0 },
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{ 2, MASK_STEREO, 2, MASK_STEREO, channelmix_copy_c, 0 },
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{ EQ, 0, EQ, 0, channelmix_copy_c, 0 },
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{ 1, MASK_MONO, 2, MASK_STEREO, channelmix_f32_1_2_c, 0 },
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{ 2, MASK_STEREO, 1, MASK_MONO, channelmix_f32_2_1_c, 0 },
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{ 4, MASK_QUAD, 1, MASK_MONO, channelmix_f32_4_1_c, 0 },
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{ 4, MASK_3_1, 1, MASK_MONO, channelmix_f32_3p1_1_c, 0 },
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#if defined (HAVE_SSE)
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{ 2, MASK_STEREO, 4, MASK_QUAD, channelmix_f32_2_4_sse, SPA_CPU_FLAG_SSE },
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#endif
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{ 2, MASK_STEREO, 4, MASK_QUAD, channelmix_f32_2_4_c, 0 },
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{ 2, MASK_STEREO, 4, MASK_3_1, channelmix_f32_2_3p1_c, 0 },
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{ 2, MASK_STEREO, 6, MASK_5_1, channelmix_f32_2_5p1_c, 0 },
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#if defined (HAVE_SSE)
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{ 6, MASK_5_1, 2, MASK_STEREO, channelmix_f32_5p1_2_sse, SPA_CPU_FLAG_SSE },
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#endif
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{ 6, MASK_5_1, 2, MASK_STEREO, channelmix_f32_5p1_2_c, 0 },
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#if defined (HAVE_SSE)
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{ 6, MASK_5_1, 4, MASK_QUAD, channelmix_f32_5p1_4_sse, SPA_CPU_FLAG_SSE },
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#endif
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{ 6, MASK_5_1, 4, MASK_QUAD, channelmix_f32_5p1_4_c, 0 },
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#if defined (HAVE_SSE)
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{ 6, MASK_5_1, 4, MASK_3_1, channelmix_f32_5p1_3p1_sse, SPA_CPU_FLAG_SSE },
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#endif
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{ 6, MASK_5_1, 4, MASK_3_1, channelmix_f32_5p1_3p1_c, 0 },
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{ 8, MASK_7_1, 2, MASK_STEREO, channelmix_f32_7p1_2_c, 0 },
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{ 8, MASK_7_1, 4, MASK_QUAD, channelmix_f32_7p1_4_c, 0 },
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{ 8, MASK_7_1, 4, MASK_3_1, channelmix_f32_7p1_3p1_c, 0 },
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{ ANY, 0, ANY, 0, channelmix_f32_n_m_c, 0 },
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};
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#define MATCH_CHAN(a,b) ((a) == ANY || (a) == (b))
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#define MATCH_CPU_FLAGS(a,b) ((a) == 0 || ((a) & (b)) == a)
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#define MATCH_MASK(a,b) ((a) == 0 || ((a) & (b)) == (b))
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static const struct channelmix_info *find_channelmix_info(uint32_t src_chan, uint64_t src_mask,
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uint32_t dst_chan, uint64_t dst_mask, uint32_t cpu_flags)
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{
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size_t i;
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for (i = 0; i < SPA_N_ELEMENTS(channelmix_table); i++) {
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if (!MATCH_CPU_FLAGS(channelmix_table[i].cpu_flags, cpu_flags))
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continue;
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if (src_chan == dst_chan && src_mask == dst_mask)
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return &channelmix_table[i];
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if (MATCH_CHAN(channelmix_table[i].src_chan, src_chan) &&
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MATCH_CHAN(channelmix_table[i].dst_chan, dst_chan) &&
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MATCH_MASK(channelmix_table[i].src_mask, src_mask) &&
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MATCH_MASK(channelmix_table[i].dst_mask, dst_mask))
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return &channelmix_table[i];
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}
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return NULL;
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}
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#define M 0
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#define FL 1
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#define FR 2
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#define FC 3
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#define LFE 4
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#define SL 5
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#define SR 6
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#define FLC 7
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#define FRC 8
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#define RC 9
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#define RL 10
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#define RR 11
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#define TC 12
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#define TFL 13
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#define TFC 14
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#define TFR 15
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#define TRL 16
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#define TRC 17
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#define TRR 18
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#define NUM_CHAN 19
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#define SQRT3_2 1.224744871f /* sqrt(3/2) */
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#define SQRT1_2 0.707106781f
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#define SQRT2 1.414213562f
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#define MATRIX_NORMAL 0
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#define MATRIX_DOLBY 1
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#define MATRIX_DPLII 2
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#define _MASK(ch) (1ULL << SPA_AUDIO_CHANNEL_ ## ch)
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#define STEREO (_MASK(FL)|_MASK(FR))
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static int make_matrix(struct channelmix *mix)
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{
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float matrix[NUM_CHAN][NUM_CHAN] = {{ 0.0f }};
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uint64_t src_mask = mix->src_mask;
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uint64_t dst_mask = mix->dst_mask;
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uint64_t unassigned;
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uint32_t i, j, ic, jc, matrix_encoding = MATRIX_NORMAL;
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float clev = SQRT1_2;
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float slev = SQRT1_2;
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float llev = 0.5f;
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float max;
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spa_log_debug(mix->log, "src-mask:%08"PRIx64" dst-mask:%08"PRIx64,
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src_mask, dst_mask);
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if ((src_mask & _MASK(MONO)) == _MASK(MONO))
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src_mask = _MASK(FC);
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if ((dst_mask & _MASK(MONO)) == _MASK(MONO))
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dst_mask = _MASK(FC);
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for (i = 0; i < NUM_CHAN; i++) {
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if (src_mask & dst_mask & (1ULL << (i + 2)))
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matrix[i][i]= 1.0f;
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}
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unassigned = src_mask & ~dst_mask;
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spa_log_debug(mix->log, "unassigned %08" PRIx64, unassigned);
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if (unassigned & _MASK(FC)){
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if ((dst_mask & STEREO) == STEREO){
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if(src_mask & STEREO) {
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matrix[FL][FC] += clev;
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matrix[FR][FC] += clev;
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} else {
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matrix[FL][FC] += SQRT1_2;
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matrix[FR][FC] += SQRT1_2;
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}
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} else {
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spa_log_warn(mix->log, "can't assign FC");
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}
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}
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if (unassigned & STEREO){
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if (dst_mask & _MASK(FC)) {
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matrix[FC][FL] += SQRT1_2;
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matrix[FC][FR] += SQRT1_2;
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if (src_mask & _MASK(FC))
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matrix[FC][FC] = clev * SQRT2;
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} else {
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spa_log_warn(mix->log, "can't assign STEREO");
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}
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}
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if (unassigned & _MASK(RC)) {
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if (dst_mask & _MASK(RL)){
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matrix[RL][RC] += SQRT1_2;
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matrix[RR][RC] += SQRT1_2;
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} else if (dst_mask & _MASK(SL)) {
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matrix[SL][RC] += SQRT1_2;
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matrix[SR][RC] += SQRT1_2;
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} else if(dst_mask & _MASK(FL)) {
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if (matrix_encoding == MATRIX_DOLBY ||
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matrix_encoding == MATRIX_DPLII) {
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if (unassigned & (_MASK(RL)|_MASK(RR))) {
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matrix[FL][RC] -= slev * SQRT1_2;
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matrix[FR][RC] += slev * SQRT1_2;
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} else {
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matrix[FL][RC] -= slev;
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matrix[FR][RC] += slev;
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}
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} else {
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matrix[FL][RC] += slev * SQRT1_2;
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matrix[FR][RC] += slev * SQRT1_2;
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}
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} else if (dst_mask & _MASK(FC)) {
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matrix[FC][RC] += slev * SQRT1_2;
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} else {
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spa_log_warn(mix->log, "can't assign RC");
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}
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}
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if (unassigned & _MASK(RL)) {
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if (dst_mask & _MASK(RC)) {
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matrix[RC][RL] += SQRT1_2;
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matrix[RC][RR] += SQRT1_2;
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} else if (dst_mask & _MASK(SL)) {
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if (src_mask & _MASK(SL)) {
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matrix[SL][RL] += SQRT1_2;
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matrix[SR][RR] += SQRT1_2;
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} else {
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matrix[SL][RL] += 1.0f;
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matrix[SR][RR] += 1.0f;
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}
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} else if (dst_mask & _MASK(FL)) {
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if (matrix_encoding == MATRIX_DOLBY) {
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matrix[FL][RL] -= slev * SQRT1_2;
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matrix[FL][RR] -= slev * SQRT1_2;
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matrix[FR][RL] += slev * SQRT1_2;
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matrix[FR][RR] += slev * SQRT1_2;
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} else if (matrix_encoding == MATRIX_DPLII) {
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matrix[FL][RL] -= slev * SQRT3_2;
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matrix[FL][RR] -= slev * SQRT1_2;
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matrix[FR][RL] += slev * SQRT1_2;
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matrix[FR][RR] += slev * SQRT3_2;
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} else {
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matrix[FL][RL] += slev;
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matrix[FR][RR] += slev;
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}
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} else if (dst_mask & _MASK(FC)) {
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matrix[FC][RL]+= slev * SQRT1_2;
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matrix[FC][RR]+= slev * SQRT1_2;
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} else {
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spa_log_warn(mix->log, "can't assign RL");
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}
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}
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if (unassigned & _MASK(SL)) {
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if (dst_mask & _MASK(RL)) {
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if (src_mask & _MASK(RL)) {
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matrix[RL][SL] += SQRT1_2;
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matrix[RR][SR] += SQRT1_2;
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} else {
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matrix[RL][SL] += 1.0f;
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matrix[RR][SR] += 1.0f;
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}
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} else if (dst_mask & _MASK(RC)) {
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matrix[RC][SL]+= SQRT1_2;
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matrix[RC][SR]+= SQRT1_2;
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} else if (dst_mask & _MASK(FL)) {
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if (matrix_encoding == MATRIX_DOLBY) {
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matrix[FL][SL] -= slev * SQRT1_2;
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matrix[FL][SR] -= slev * SQRT1_2;
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matrix[FR][SL] += slev * SQRT1_2;
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matrix[FR][SR] += slev * SQRT1_2;
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} else if (matrix_encoding == MATRIX_DPLII) {
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matrix[FL][SL] -= slev * SQRT3_2;
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matrix[FL][SR] -= slev * SQRT1_2;
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matrix[FR][SL] += slev * SQRT1_2;
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matrix[FR][SR] += slev * SQRT3_2;
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} else {
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matrix[FL][SL] += slev;
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matrix[FR][SR] += slev;
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}
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} else if (dst_mask & _MASK(FC)) {
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matrix[FC][SL] += slev * SQRT1_2;
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matrix[FC][SR] += slev * SQRT1_2;
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} else {
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spa_log_warn(mix->log, "can't assign SL");
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}
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}
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if (unassigned & _MASK(FLC)) {
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if (dst_mask & _MASK(FL)) {
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matrix[FC][FLC]+= 1.0f;
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matrix[FC][FRC]+= 1.0f;
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} else if(dst_mask & _MASK(FC)) {
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matrix[FC][FLC]+= SQRT1_2;
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matrix[FC][FRC]+= SQRT1_2;
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} else {
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spa_log_warn(mix->log, "can't assign FLC");
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}
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}
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if (unassigned & _MASK(LFE)) {
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if (dst_mask & _MASK(FC)) {
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matrix[FC][LFE] += llev;
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} else if (dst_mask & _MASK(FL)) {
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matrix[FL][LFE] += llev * SQRT1_2;
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matrix[FR][LFE] += llev * SQRT1_2;
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} else {
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spa_log_warn(mix->log, "can't assign LFE");
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}
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}
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max = 0.0f;
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for (ic = 0, i = 0; i < NUM_CHAN; i++) {
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float sum = 0.0f;
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if ((dst_mask & (1UL << (i + 2))) == 0)
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continue;
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for (jc = 0, j = 0; j < NUM_CHAN; j++) {
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if ((src_mask & (1UL << (j + 2))) == 0)
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continue;
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mix->matrix_orig[ic][jc++] = matrix[i][j];
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sum += fabs(matrix[i][j]);
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}
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ic++;
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max = SPA_MAX(max, sum);
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}
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return 0;
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}
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static void impl_channelmix_set_volume(struct channelmix *mix, float volume, bool mute,
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uint32_t n_channel_volumes, float *channel_volumes)
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{
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float volumes[SPA_AUDIO_MAX_CHANNELS];
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float vol = mute ? 0.0f : volume, sum, t;
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uint32_t i, j;
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uint32_t src_chan = mix->src_chan;
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uint32_t dst_chan = mix->dst_chan;
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/** apply global volume to channels */
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sum = 0.0;
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mix->norm = true;
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for (i = 0; i < n_channel_volumes; i++) {
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volumes[i] = channel_volumes[i] * vol;
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if (volumes[i] != 1.0f)
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mix->norm = false;
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sum += volumes[i];
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}
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if (n_channel_volumes == src_chan) {
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for (i = 0; i < dst_chan; i++) {
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for (j = 0; j < src_chan; j++) {
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mix->matrix[i][j] = mix->matrix_orig[i][j] * volumes[j];
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}
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}
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} else if (n_channel_volumes == dst_chan) {
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for (i = 0; i < dst_chan; i++) {
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for (j = 0; j < src_chan; j++) {
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mix->matrix[i][j] = mix->matrix_orig[i][j] * volumes[i];
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}
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}
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}
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mix->zero = true;
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mix->equal = true;
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mix->identity = dst_chan == src_chan;
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t = 0.0;
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for (i = 0; i < dst_chan; i++) {
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for (j = 0; j < src_chan; j++) {
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float v = mix->matrix[i][j];
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spa_log_debug(mix->log, "%d %d: %f", i, j, v);
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if (i == 0 && j == 0)
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t = v;
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else if (t != v)
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mix->equal = false;
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if (v != 0.0)
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mix->zero = false;
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if ((i == j && v != 1.0f) ||
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(i != j && v != 0.0f))
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mix->identity = false;
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}
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}
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spa_log_debug(mix->log, "zero:%d norm:%d identity:%d", mix->zero, mix->norm, mix->identity);
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}
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static void impl_channelmix_free(struct channelmix *mix)
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{
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mix->process = NULL;
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}
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int channelmix_init(struct channelmix *mix)
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{
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const struct channelmix_info *info;
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info = find_channelmix_info(mix->src_chan, mix->src_mask, mix->dst_chan, mix->dst_mask,
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mix->cpu_flags);
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if (info == NULL)
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return -ENOTSUP;
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mix->free = impl_channelmix_free;
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mix->process = info->process;
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mix->set_volume = impl_channelmix_set_volume;
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mix->cpu_flags = info->cpu_flags;
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return make_matrix(mix);
|
|
}
|