mirror of
https://github.com/hajimehoshi/ebiten.git
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423 lines
17 KiB
Go
423 lines
17 KiB
Go
// Copyright 2017 The Ebiten Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// +build !js
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package mp3
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// #include "pdmp3.h"
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//
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// extern t_mpeg1_main_data g_main_data;
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// extern t_mpeg1_side_info g_side_info;
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// extern t_mpeg1_header g_frame_header;
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import "C"
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import (
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"math"
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"unsafe"
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)
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type sfBandIndices struct {
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l [23]int
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s [14]int
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}
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var (
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is_ratios = [6]float32{0.000000, 0.267949, 0.577350, 1.000000, 1.732051, 3.732051}
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g_sf_band_indices = [3]sfBandIndices{
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{
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l: [...]int{0, 4, 8, 12, 16, 20, 24, 30, 36, 44, 52, 62, 74, 90, 110, 134, 162, 196, 238, 288, 342, 418, 576},
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s: [...]int{0, 4, 8, 12, 16, 22, 30, 40, 52, 66, 84, 106, 136, 192},
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},
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{
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l: [...]int{0, 4, 8, 12, 16, 20, 24, 30, 36, 42, 50, 60, 72, 88, 106, 128, 156, 190, 230, 276, 330, 384, 576},
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s: [...]int{0, 4, 8, 12, 16, 22, 28, 38, 50, 64, 80, 100, 126, 192},
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},
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{
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l: [...]int{0, 4, 8, 12, 16, 20, 24, 30, 36, 44, 54, 66, 82, 102, 126, 156, 194, 240, 296, 364, 448, 550, 576},
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s: [...]int{0, 4, 8, 12, 16, 22, 30, 42, 58, 78, 104, 138, 180, 192},
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},
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}
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)
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func stereoProcessIntensityLong(gr int, sfb int) {
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is_ratio_l := float32(0)
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is_ratio_r := float32(0)
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/* Check that((is_pos[sfb]=scalefac) != 7) => no intensity stereo */
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is_pos := C.g_main_data.scalefac_l[gr][0][sfb]
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if is_pos != 7 {
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sfreq := C.g_frame_header.sampling_frequency /* Setup sampling freq index */
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sfb_start := g_sf_band_indices[sfreq].l[sfb]
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sfb_stop := g_sf_band_indices[sfreq].l[sfb+1]
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if is_pos == 6 { /* tan((6*PI)/12 = PI/2) needs special treatment! */
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is_ratio_l = 1.0
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is_ratio_r = 0.0
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} else {
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is_ratio_l = is_ratios[is_pos] / (1.0 + is_ratios[is_pos])
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is_ratio_r = 1.0 / (1.0 + is_ratios[is_pos])
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}
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/* Now decode all samples in this scale factor band */
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for i := sfb_start; i < sfb_stop; i++ {
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C.g_main_data.is[gr][0][i] *= C.float(is_ratio_l)
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C.g_main_data.is[gr][1][i] *= C.float(is_ratio_r)
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}
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}
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}
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func stereoProcessIntensityShort(gr int, sfb int) {
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is_ratio_l := float32(0)
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is_ratio_r := float32(0)
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sfreq := C.g_frame_header.sampling_frequency /* Setup sampling freq index */
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/* The window length */
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win_len := g_sf_band_indices[sfreq].s[sfb+1] - g_sf_band_indices[sfreq].s[sfb]
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/* The three windows within the band has different scalefactors */
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for win := 0; win < 3; win++ {
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/* Check that((is_pos[sfb]=scalefac) != 7) => no intensity stereo */
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is_pos := C.g_main_data.scalefac_s[gr][0][sfb][win]
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if is_pos != 7 {
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sfb_start := g_sf_band_indices[sfreq].s[sfb]*3 + win_len*win
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sfb_stop := sfb_start + win_len
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if is_pos == 6 { /* tan((6*PI)/12 = PI/2) needs special treatment! */
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is_ratio_l = 1.0
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is_ratio_r = 0.0
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} else {
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is_ratio_l = is_ratios[is_pos] / (1.0 + is_ratios[is_pos])
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is_ratio_r = 1.0 / (1.0 + is_ratios[is_pos])
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}
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/* Now decode all samples in this scale factor band */
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for i := sfb_start; i < sfb_stop; i++ {
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// https://github.com/technosaurus/PDMP3/issues/3
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C.g_main_data.is[gr][0][i] *= C.float(is_ratio_l)
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C.g_main_data.is[gr][1][i] *= C.float(is_ratio_r)
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}
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}
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}
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}
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//export L3_Stereo
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func L3_Stereo(gr C.unsigned) {
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/* Do nothing if joint stereo is not enabled */
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if (C.g_frame_header.mode != 1) || (C.g_frame_header.mode_extension == 0) {
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return
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}
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/* Do Middle/Side("normal") stereo processing */
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if (C.g_frame_header.mode_extension & 0x2) != 0 {
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/* Determine how many frequency lines to transform */
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i := 0
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if C.g_side_info.count1[gr][0] > C.g_side_info.count1[gr][1] {
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i = 1
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}
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max_pos := int(C.g_side_info.count1[gr][i])
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/* Do the actual processing */
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const invSqrt2 = math.Sqrt2 / 2
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for i := 0; i < max_pos; i++ {
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left := (C.g_main_data.is[gr][0][i] + C.g_main_data.is[gr][1][i]) * invSqrt2
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right := (C.g_main_data.is[gr][0][i] - C.g_main_data.is[gr][1][i]) * invSqrt2
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C.g_main_data.is[gr][0][i] = left
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C.g_main_data.is[gr][1][i] = right
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}
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}
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/* Do intensity stereo processing */
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if (C.g_frame_header.mode_extension & 0x1) != 0 {
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/* Setup sampling frequency index */
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sfreq := C.g_frame_header.sampling_frequency
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/* First band that is intensity stereo encoded is first band scale factor
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* band on or above count1 frequency line. N.B.: Intensity stereo coding is
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* only done for higher subbands, but logic is here for lower subbands. */
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/* Determine type of block to process */
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if (C.g_side_info.win_switch_flag[gr][0] == 1) &&
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(C.g_side_info.block_type[gr][0] == 2) { /* Short blocks */
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/* Check if the first two subbands
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*(=2*18 samples = 8 long or 3 short sfb's) uses long blocks */
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if C.g_side_info.mixed_block_flag[gr][0] != 0 { /* 2 longbl. sb first */
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for sfb := 0; sfb < 8; sfb++ { /* First process 8 sfb's at start */
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/* Is this scale factor band above count1 for the right channel? */
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if C.unsigned(g_sf_band_indices[sfreq].l[sfb]) >= C.g_side_info.count1[gr][1] {
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stereoProcessIntensityLong(int(gr), int(sfb))
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}
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}
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/* And next the remaining bands which uses short blocks */
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for sfb := 3; sfb < 12; sfb++ {
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/* Is this scale factor band above count1 for the right channel? */
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if C.unsigned(g_sf_band_indices[sfreq].s[sfb])*3 >= C.g_side_info.count1[gr][1] {
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stereoProcessIntensityShort(int(gr), int(sfb)) /* intensity stereo processing */
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}
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}
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} else { /* Only short blocks */
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for sfb := 0; sfb < 12; sfb++ {
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/* Is this scale factor band above count1 for the right channel? */
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if C.unsigned(g_sf_band_indices[sfreq].s[sfb])*3 >= C.g_side_info.count1[gr][1] {
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stereoProcessIntensityShort(int(gr), int(sfb)) /* intensity stereo processing */
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}
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}
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}
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} else { /* Only long blocks */
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for sfb := 0; sfb < 21; sfb++ {
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/* Is this scale factor band above count1 for the right channel? */
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if C.unsigned(g_sf_band_indices[sfreq].l[sfb]) >= C.g_side_info.count1[gr][1] {
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/* Perform the intensity stereo processing */
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stereoProcessIntensityLong(int(gr), int(sfb))
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}
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}
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}
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}
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}
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var store = [2][32][18]float32{}
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//export L3_Hybrid_Synthesis
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func L3_Hybrid_Synthesis(gr C.unsigned, ch C.unsigned) {
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for sb := 0; sb < 32; sb++ { /* Loop through all 32 subbands */
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/* Determine blocktype for this subband */
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bt := 0
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if (C.g_side_info.win_switch_flag[gr][ch] == 1) &&
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(C.g_side_info.mixed_block_flag[gr][ch] == 1) && (sb < 2) {
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bt = int(C.g_side_info.block_type[gr][ch])
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}
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/* Do the inverse modified DCT and windowing */
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in := make([]float32, 18)
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for i := range in {
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in[i] = float32(C.g_main_data.is[gr][ch][sb*18+i])
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}
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rawout := imdctWin(in, bt)
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for i := 0; i < 18; i++ { /* Overlapp add with stored vector into main_data vector */
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C.g_main_data.is[gr][ch][sb*18+i] = C.float(rawout[i] + store[ch][sb][i])
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store[ch][sb][i] = rawout[i+18]
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}
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}
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}
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//export L3_Frequency_Inversion
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func L3_Frequency_Inversion(gr C.unsigned, ch C.unsigned) {
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for sb := 1; sb < 32; sb += 2 { //OPT? : for(sb = 18; sb < 576; sb += 36)
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for i := 1; i < 18; i += 2 {
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C.g_main_data.is[gr][ch][sb*18+i] = -C.g_main_data.is[gr][ch][sb*18+i]
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}
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}
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}
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var (
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g_synth_n_win = [64][32]float32{}
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v_vec = [2][1024]float32{}
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)
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func init() {
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for i := 0; i < 64; i++ {
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for j := 0; j < 32; j++ {
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g_synth_n_win[i][j] =
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float32(math.Cos(float64((16+i)*(2*j+1)) * (math.Pi / 64.0)))
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}
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}
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}
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var g_synth_dtbl = [512]float32{
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0.000000000, -0.000015259, -0.000015259, -0.000015259,
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-0.000015259, -0.000015259, -0.000015259, -0.000030518,
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-0.000030518, -0.000030518, -0.000030518, -0.000045776,
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-0.000045776, -0.000061035, -0.000061035, -0.000076294,
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-0.000076294, -0.000091553, -0.000106812, -0.000106812,
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-0.000122070, -0.000137329, -0.000152588, -0.000167847,
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-0.000198364, -0.000213623, -0.000244141, -0.000259399,
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-0.000289917, -0.000320435, -0.000366211, -0.000396729,
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-0.000442505, -0.000473022, -0.000534058, -0.000579834,
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-0.000625610, -0.000686646, -0.000747681, -0.000808716,
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-0.000885010, -0.000961304, -0.001037598, -0.001113892,
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-0.001205444, -0.001296997, -0.001388550, -0.001480103,
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-0.001586914, -0.001693726, -0.001785278, -0.001907349,
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-0.002014160, -0.002120972, -0.002243042, -0.002349854,
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-0.002456665, -0.002578735, -0.002685547, -0.002792358,
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-0.002899170, -0.002990723, -0.003082275, -0.003173828,
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0.003250122, 0.003326416, 0.003387451, 0.003433228,
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0.003463745, 0.003479004, 0.003479004, 0.003463745,
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0.003417969, 0.003372192, 0.003280640, 0.003173828,
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0.003051758, 0.002883911, 0.002700806, 0.002487183,
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0.002227783, 0.001937866, 0.001617432, 0.001266479,
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0.000869751, 0.000442505, -0.000030518, -0.000549316,
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-0.001098633, -0.001693726, -0.002334595, -0.003005981,
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-0.003723145, -0.004486084, -0.005294800, -0.006118774,
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-0.007003784, -0.007919312, -0.008865356, -0.009841919,
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-0.010848999, -0.011886597, -0.012939453, -0.014022827,
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-0.015121460, -0.016235352, -0.017349243, -0.018463135,
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-0.019577026, -0.020690918, -0.021789551, -0.022857666,
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-0.023910522, -0.024932861, -0.025909424, -0.026840210,
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-0.027725220, -0.028533936, -0.029281616, -0.029937744,
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-0.030532837, -0.031005859, -0.031387329, -0.031661987,
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-0.031814575, -0.031845093, -0.031738281, -0.031478882,
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0.031082153, 0.030517578, 0.029785156, 0.028884888,
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0.027801514, 0.026535034, 0.025085449, 0.023422241,
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0.021575928, 0.019531250, 0.017257690, 0.014801025,
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0.012115479, 0.009231567, 0.006134033, 0.002822876,
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-0.000686646, -0.004394531, -0.008316040, -0.012420654,
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-0.016708374, -0.021179199, -0.025817871, -0.030609131,
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-0.035552979, -0.040634155, -0.045837402, -0.051132202,
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-0.056533813, -0.061996460, -0.067520142, -0.073059082,
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-0.078628540, -0.084182739, -0.089706421, -0.095169067,
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-0.100540161, -0.105819702, -0.110946655, -0.115921021,
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-0.120697021, -0.125259399, -0.129562378, -0.133590698,
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-0.137298584, -0.140670776, -0.143676758, -0.146255493,
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-0.148422241, -0.150115967, -0.151306152, -0.151962280,
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-0.152069092, -0.151596069, -0.150497437, -0.148773193,
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-0.146362305, -0.143264771, -0.139450073, -0.134887695,
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-0.129577637, -0.123474121, -0.116577148, -0.108856201,
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0.100311279, 0.090927124, 0.080688477, 0.069595337,
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0.057617188, 0.044784546, 0.031082153, 0.016510010,
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0.001068115, -0.015228271, -0.032379150, -0.050354004,
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-0.069168091, -0.088775635, -0.109161377, -0.130310059,
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-0.152206421, -0.174789429, -0.198059082, -0.221984863,
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-0.246505737, -0.271591187, -0.297210693, -0.323318481,
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-0.349868774, -0.376800537, -0.404083252, -0.431655884,
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-0.459472656, -0.487472534, -0.515609741, -0.543823242,
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-0.572036743, -0.600219727, -0.628295898, -0.656219482,
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-0.683914185, -0.711318970, -0.738372803, -0.765029907,
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-0.791213989, -0.816864014, -0.841949463, -0.866363525,
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-0.890090942, -0.913055420, -0.935195923, -0.956481934,
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-0.976852417, -0.996246338, -1.014617920, -1.031936646,
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-1.048156738, -1.063217163, -1.077117920, -1.089782715,
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-1.101211548, -1.111373901, -1.120223999, -1.127746582,
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-1.133926392, -1.138763428, -1.142211914, -1.144287109,
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1.144989014, 1.144287109, 1.142211914, 1.138763428,
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1.133926392, 1.127746582, 1.120223999, 1.111373901,
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1.101211548, 1.089782715, 1.077117920, 1.063217163,
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1.048156738, 1.031936646, 1.014617920, 0.996246338,
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0.976852417, 0.956481934, 0.935195923, 0.913055420,
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0.890090942, 0.866363525, 0.841949463, 0.816864014,
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0.791213989, 0.765029907, 0.738372803, 0.711318970,
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0.683914185, 0.656219482, 0.628295898, 0.600219727,
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0.572036743, 0.543823242, 0.515609741, 0.487472534,
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0.459472656, 0.431655884, 0.404083252, 0.376800537,
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0.349868774, 0.323318481, 0.297210693, 0.271591187,
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0.246505737, 0.221984863, 0.198059082, 0.174789429,
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0.152206421, 0.130310059, 0.109161377, 0.088775635,
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0.069168091, 0.050354004, 0.032379150, 0.015228271,
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-0.001068115, -0.016510010, -0.031082153, -0.044784546,
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-0.057617188, -0.069595337, -0.080688477, -0.090927124,
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0.100311279, 0.108856201, 0.116577148, 0.123474121,
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0.129577637, 0.134887695, 0.139450073, 0.143264771,
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0.146362305, 0.148773193, 0.150497437, 0.151596069,
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0.152069092, 0.151962280, 0.151306152, 0.150115967,
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0.148422241, 0.146255493, 0.143676758, 0.140670776,
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0.137298584, 0.133590698, 0.129562378, 0.125259399,
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0.120697021, 0.115921021, 0.110946655, 0.105819702,
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0.100540161, 0.095169067, 0.089706421, 0.084182739,
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0.078628540, 0.073059082, 0.067520142, 0.061996460,
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0.056533813, 0.051132202, 0.045837402, 0.040634155,
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0.035552979, 0.030609131, 0.025817871, 0.021179199,
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0.016708374, 0.012420654, 0.008316040, 0.004394531,
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0.000686646, -0.002822876, -0.006134033, -0.009231567,
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-0.012115479, -0.014801025, -0.017257690, -0.019531250,
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-0.021575928, -0.023422241, -0.025085449, -0.026535034,
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-0.027801514, -0.028884888, -0.029785156, -0.030517578,
|
|
0.031082153, 0.031478882, 0.031738281, 0.031845093,
|
|
0.031814575, 0.031661987, 0.031387329, 0.031005859,
|
|
0.030532837, 0.029937744, 0.029281616, 0.028533936,
|
|
0.027725220, 0.026840210, 0.025909424, 0.024932861,
|
|
0.023910522, 0.022857666, 0.021789551, 0.020690918,
|
|
0.019577026, 0.018463135, 0.017349243, 0.016235352,
|
|
0.015121460, 0.014022827, 0.012939453, 0.011886597,
|
|
0.010848999, 0.009841919, 0.008865356, 0.007919312,
|
|
0.007003784, 0.006118774, 0.005294800, 0.004486084,
|
|
0.003723145, 0.003005981, 0.002334595, 0.001693726,
|
|
0.001098633, 0.000549316, 0.000030518, -0.000442505,
|
|
-0.000869751, -0.001266479, -0.001617432, -0.001937866,
|
|
-0.002227783, -0.002487183, -0.002700806, -0.002883911,
|
|
-0.003051758, -0.003173828, -0.003280640, -0.003372192,
|
|
-0.003417969, -0.003463745, -0.003479004, -0.003479004,
|
|
-0.003463745, -0.003433228, -0.003387451, -0.003326416,
|
|
0.003250122, 0.003173828, 0.003082275, 0.002990723,
|
|
0.002899170, 0.002792358, 0.002685547, 0.002578735,
|
|
0.002456665, 0.002349854, 0.002243042, 0.002120972,
|
|
0.002014160, 0.001907349, 0.001785278, 0.001693726,
|
|
0.001586914, 0.001480103, 0.001388550, 0.001296997,
|
|
0.001205444, 0.001113892, 0.001037598, 0.000961304,
|
|
0.000885010, 0.000808716, 0.000747681, 0.000686646,
|
|
0.000625610, 0.000579834, 0.000534058, 0.000473022,
|
|
0.000442505, 0.000396729, 0.000366211, 0.000320435,
|
|
0.000289917, 0.000259399, 0.000244141, 0.000213623,
|
|
0.000198364, 0.000167847, 0.000152588, 0.000137329,
|
|
0.000122070, 0.000106812, 0.000106812, 0.000091553,
|
|
0.000076294, 0.000076294, 0.000061035, 0.000061035,
|
|
0.000045776, 0.000045776, 0.000030518, 0.000030518,
|
|
0.000030518, 0.000030518, 0.000015259, 0.000015259,
|
|
0.000015259, 0.000015259, 0.000015259, 0.000015259,
|
|
}
|
|
|
|
//export L3_Subband_Synthesis
|
|
func L3_Subband_Synthesis(gr C.unsigned, ch C.unsigned, outdata *C.unsigned) {
|
|
out := make([]C.unsigned, 576)
|
|
for i := range out {
|
|
out[i] = *(*C.unsigned)(unsafe.Pointer(uintptr(unsafe.Pointer(outdata)) + uintptr(i)*unsafe.Sizeof(*outdata)))
|
|
}
|
|
|
|
u_vec := make([]float32, 512)
|
|
s_vec := make([]float32, 32)
|
|
|
|
/* Number of channels(1 for mono and 2 for stereo) */
|
|
nch := 2
|
|
if C.g_frame_header.mode == C.mpeg1_mode_single_channel {
|
|
nch = 1
|
|
}
|
|
/* Setup the n_win windowing vector and the v_vec intermediate vector */
|
|
for ss := 0; ss < 18; ss++ { /* Loop through 18 samples in 32 subbands */
|
|
for i := 1023; i > 63; i-- { /* Shift up the V vector */
|
|
v_vec[ch][i] = v_vec[ch][i-64]
|
|
}
|
|
for i := 0; i < 32; i++ { /* Copy next 32 time samples to a temp vector */
|
|
s_vec[i] = float32(C.g_main_data.is[gr][ch][i*18+ss])
|
|
}
|
|
for i := 0; i < 64; i++ { /* Matrix multiply input with n_win[][] matrix */
|
|
sum := float32(0)
|
|
for j := 0; j < 32; j++ {
|
|
sum += g_synth_n_win[i][j] * s_vec[j]
|
|
}
|
|
v_vec[ch][i] = sum
|
|
}
|
|
for i := 0; i < 8; i++ { /* Build the U vector */
|
|
for j := 0; j < 32; j++ { /* <<7 == *128 */
|
|
u_vec[(i<<6)+j] = v_vec[ch][(i<<7)+j]
|
|
u_vec[(i<<6)+j+32] = v_vec[ch][(i<<7)+j+96]
|
|
}
|
|
}
|
|
for i := 0; i < 512; i++ { /* Window by u_vec[i] with g_synth_dtbl[i] */
|
|
u_vec[i] *= g_synth_dtbl[i]
|
|
}
|
|
for i := 0; i < 32; i++ { /* Calc 32 samples,store in outdata vector */
|
|
sum := float32(0)
|
|
for j := 0; j < 16; j++ { /* sum += u_vec[j*32 + i]; */
|
|
sum += u_vec[(j<<5)+i]
|
|
}
|
|
/* sum now contains time sample 32*ss+i. Convert to 16-bit signed int */
|
|
samp := int(sum * 32767)
|
|
if samp > 32767 {
|
|
samp = 32767
|
|
} else if samp < -32767 {
|
|
samp = -32767
|
|
}
|
|
samp &= 0xffff
|
|
if ch == 0 { /* This function must be called for channel 0 first */
|
|
/* We always run in stereo mode,& duplicate channels here for mono */
|
|
if nch == 1 {
|
|
out[32*ss+i] = C.unsigned((samp << 16) | (samp))
|
|
} else {
|
|
out[32*ss+i] = C.unsigned(samp << 16)
|
|
}
|
|
} else {
|
|
out[32*ss+i] |= C.unsigned(samp)
|
|
}
|
|
}
|
|
}
|
|
for i := range out {
|
|
*(*C.unsigned)(unsafe.Pointer(uintptr(unsafe.Pointer(outdata)) + uintptr(i)*unsafe.Sizeof(*outdata))) = out[i]
|
|
}
|
|
}
|