mirror of
https://github.com/hajimehoshi/ebiten.git
synced 2024-11-10 04:57:26 +01:00
170 lines
5.4 KiB
Go
170 lines
5.4 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_header g_frame_header;
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// extern t_mpeg1_side_info g_side_info;
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import "C"
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import (
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"fmt"
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)
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var g_mpeg1_bitrates = [3][15]int{
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{ /* Layer 1 */
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0, 32000, 64000, 96000, 128000, 160000, 192000, 224000,
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256000, 288000, 320000, 352000, 384000, 416000, 448000,
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},
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{ /* Layer 2 */
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0, 32000, 48000, 56000, 64000, 80000, 96000, 112000,
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128000, 160000, 192000, 224000, 256000, 320000, 384000,
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},
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{ /* Layer 3 */
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0, 32000, 40000, 48000, 56000, 64000, 80000, 96000,
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112000, 128000, 160000, 192000, 224000, 256000, 320000,
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},
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}
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var g_sampling_frequency = [3]int{44100, 48000, 32000}
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//export Read_Audio_L3
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func Read_Audio_L3() C.int {
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nch := 2
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if C.g_frame_header.mode == C.mpeg1_mode_single_channel {
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nch = 1
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}
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/* Calculate header audio data size */
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framesize := (144*
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g_mpeg1_bitrates[C.g_frame_header.layer-1][C.g_frame_header.bitrate_index])/
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g_sampling_frequency[C.g_frame_header.sampling_frequency] +
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int(C.g_frame_header.padding_bit)
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if framesize > 2000 {
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g_error = fmt.Errorf("mp3: framesize = %d\n", framesize)
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return C.ERROR
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}
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/* Sideinfo is 17 bytes for one channel and 32 bytes for two */
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sideinfo_size := 32
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if nch == 1 {
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sideinfo_size = 17
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}
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/* Main data size is the rest of the frame,including ancillary data */
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main_data_size := framesize - sideinfo_size - 4 /* sync+header */
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/* CRC is 2 bytes */
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if C.g_frame_header.protection_bit == 0 {
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main_data_size -= 2
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}
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/* Read sideinfo from bitstream into buffer used by getSideBits() */
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getSideinfo(sideinfo_size)
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if Get_Filepos() == eof {
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return C.ERROR
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}
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/* Parse audio data */
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/* Pointer to where we should start reading main data */
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C.g_side_info.main_data_begin = C.uint(getSideBits(9))
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/* Get private bits. Not used for anything. */
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if C.g_frame_header.mode == C.mpeg1_mode_single_channel {
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C.g_side_info.private_bits = C.uint(getSideBits(5))
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} else {
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C.g_side_info.private_bits = C.uint(getSideBits(3))
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}
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/* Get scale factor selection information */
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for ch := 0; ch < nch; ch++ {
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for scfsi_band := 0; scfsi_band < 4; scfsi_band++ {
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C.g_side_info.scfsi[ch][scfsi_band] = C.uint(getSideBits(1))
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}
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}
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/* Get the rest of the side information */
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for gr := 0; gr < 2; gr++ {
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for ch := 0; ch < nch; ch++ {
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C.g_side_info.part2_3_length[gr][ch] = C.uint(getSideBits(12))
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C.g_side_info.big_values[gr][ch] = C.uint(getSideBits(9))
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C.g_side_info.global_gain[gr][ch] = C.uint(getSideBits(8))
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C.g_side_info.scalefac_compress[gr][ch] = C.uint(getSideBits(4))
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C.g_side_info.win_switch_flag[gr][ch] = C.uint(getSideBits(1))
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if C.g_side_info.win_switch_flag[gr][ch] == 1 {
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C.g_side_info.block_type[gr][ch] = C.uint(getSideBits(2))
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C.g_side_info.mixed_block_flag[gr][ch] = C.uint(getSideBits(1))
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for region := 0; region < 2; region++ {
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C.g_side_info.table_select[gr][ch][region] = C.uint(getSideBits(5))
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}
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for window := 0; window < 3; window++ {
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C.g_side_info.subblock_gain[gr][ch][window] = C.uint(getSideBits(3))
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}
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if (C.g_side_info.block_type[gr][ch] == 2) && (C.g_side_info.mixed_block_flag[gr][ch] == 0) {
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C.g_side_info.region0_count[gr][ch] = 8 /* Implicit */
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} else {
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C.g_side_info.region0_count[gr][ch] = 7 /* Implicit */
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}
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/* The standard is wrong on this!!! */ /* Implicit */
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C.g_side_info.region1_count[gr][ch] = 20 - C.g_side_info.region0_count[gr][ch]
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} else {
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for region := 0; region < 3; region++ {
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C.g_side_info.table_select[gr][ch][region] = C.uint(getSideBits(5))
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}
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C.g_side_info.region0_count[gr][ch] = C.uint(getSideBits(4))
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C.g_side_info.region1_count[gr][ch] = C.uint(getSideBits(3))
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C.g_side_info.block_type[gr][ch] = 0 /* Implicit */
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}
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C.g_side_info.preflag[gr][ch] = C.uint(getSideBits(1))
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C.g_side_info.scalefac_scale[gr][ch] = C.uint(getSideBits(1))
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C.g_side_info.count1table_select[gr][ch] = C.uint(getSideBits(1))
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}
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}
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return C.OK
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}
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// A sideInfo is a bit reservoir for side info
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type sideInfo struct {
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vec []int
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idx int // Index into the current byte(0-7)
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}
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var theSideInfo sideInfo
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func getSideinfo(size int) {
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var err error
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theSideInfo.vec, err = getBytes(int(size))
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if err != nil {
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g_error = fmt.Errorf("mp3: couldn't read sideinfo %d bytes at pos %d: %v",
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size, Get_Filepos(), err)
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return
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}
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theSideInfo.idx = 0
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}
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func getSideBits(num int) int {
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// Form a word of the next four bytes
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// TODO: endianness?
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b := make([]int, 4)
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for i := range b {
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if len(theSideInfo.vec) > i {
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b[i] = theSideInfo.vec[i]
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}
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}
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tmp := (uint32(b[0]) << 24) | (uint32(b[1]) << 16) | (uint32(b[2]) << 8) | (uint32(b[3]) << 0)
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// Remove bits already used
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tmp = tmp << uint(theSideInfo.idx)
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// Remove bits after the desired bits
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tmp = tmp >> (32 - uint(num))
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// Update pointers
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theSideInfo.vec = theSideInfo.vec[(theSideInfo.idx+int(num))>>3:]
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theSideInfo.idx = (theSideInfo.idx + int(num)) & 0x07
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return int(tmp)
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}
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