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209 lines
5.4 KiB
C++
209 lines
5.4 KiB
C++
#include "avi_mp3_decoder.h"
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#include "../nsutil/pcm.h"
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#include <assert.h>
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int AVIDecoder::CreateAudioDecoder(const nsavi::AVIH *avi_header,
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const nsavi::STRH *stream_header, const nsavi::STRF *stream_format, const nsavi::STRD *stream_data,
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unsigned int preferred_bits, unsigned int max_channels, bool floating_point,
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ifc_aviaudiodecoder **decoder)
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{
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nsavi::mp3_format *waveformat = (nsavi::mp3_format *)stream_format;
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if (waveformat->format.format == nsavi::audio_format_mp3
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||waveformat->format.format == nsavi::audio_format_mp2)
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{
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mpg123_handle *ctx = mpg123_new(NULL, NULL);
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if (!ctx)
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return CREATEDECODER_FAILURE;
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long flags = MPG123_QUIET|MPG123_FORCE_FLOAT|MPG123_SKIP_ID3V2|MPG123_IGNORE_STREAMLENGTH|MPG123_IGNORE_INFOFRAME;
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if (max_channels == 1) {
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flags |= MPG123_FORCE_MONO;
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}
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mpg123_param(ctx, MPG123_FLAGS, flags, 0);
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mpg123_param(ctx, MPG123_RVA, MPG123_RVA_OFF, 0);
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*decoder = new AVIMP3Decoder(ctx, preferred_bits, max_channels, floating_point);
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return CREATEDECODER_SUCCESS;
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}
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return CREATEDECODER_NOT_MINE;
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}
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#define CBCLASS AVIDecoder
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START_DISPATCH;
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CB(CREATE_AUDIO_DECODER, CreateAudioDecoder)
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END_DISPATCH;
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#undef CBCLASS
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#define FHG_DELAY 529
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AVIMP3Decoder::AVIMP3Decoder(mpg123_handle *mp3, unsigned int bps, unsigned max_channels, bool floating_point)
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: mp3(mp3), bits(bps?bps:16), max_channels(max_channels?max_channels:2), floating_point(floating_point), channels(0)
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{
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mpg123_open_feed(mp3);
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pregap = FHG_DELAY;
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channels = 0;
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decode_buffer=0;
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decode_buffer_length=0;
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}
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AVIMP3Decoder::~AVIMP3Decoder()
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{
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if (mp3) {
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mpg123_delete(mp3);
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mp3 = 0;
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}
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free(decode_buffer);
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}
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int AVIMP3Decoder::OutputFrameSize(size_t *frame_size)
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{
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long sample_rate = 44100;
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int channels = 2;
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int encoding = 0;
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if (mpg123_getformat(mp3, &sample_rate, &channels, &encoding) == MPG123_OK) {
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this->channels = channels;
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}
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*frame_size = (bits/8) * channels * mpg123_spf(mp3);
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#if 0 // TODO?
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if (mp3->GetStreamInfo()->GetLayer() == 1)
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*frame_size *= 3;
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#endif
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return AVI_SUCCESS;
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}
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int AVIMP3Decoder::GetOutputProperties(unsigned int *sampleRate, unsigned int *_channels, unsigned int *bitsPerSample, bool *isFloat)
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{
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long sample_rate = 44100;
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int channels = 2;
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int encoding = 0;
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if (mpg123_getformat(mp3, &sample_rate, &channels, &encoding) == MPG123_OK) {
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this->channels = channels;
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*sampleRate = sample_rate;
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*_channels = channels;
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*bitsPerSample = bits;
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*isFloat = floating_point;
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return AVI_SUCCESS;
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}
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else
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{
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return AVI_FAILURE;
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}
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}
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int AVIMP3Decoder::DecodeChunk(uint16_t type, void **inputBuffer, size_t *inputBufferBytes, void *outputBuffer, size_t *outputBufferBytes)
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{
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if (!mp3)
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return AVI_FAILURE;
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if (inputBufferBytes) {
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const uint8_t *mp3_buffer = (const uint8_t *)*inputBuffer;
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int err = mpg123_feed(mp3, mp3_buffer, *inputBufferBytes);
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if (err == MPG123_OK) {
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mp3_buffer += *inputBufferBytes;
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*inputBuffer = (void *)mp3_buffer;
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*inputBufferBytes = 0;
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}
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}
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size_t output_buffer_len = *outputBufferBytes;
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*outputBufferBytes = 0;
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for (;;) {
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if (!decode_buffer) {
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int channels = 2;
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long sample_rate;
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int encoding;
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if (mpg123_getformat(mp3, &sample_rate, &channels, &encoding) == MPG123_OK) {
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this->channels = channels;
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decode_buffer_length = sizeof(float) * channels * mpg123_spf(mp3);
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decode_buffer = (float *)malloc(decode_buffer_length);
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if (!decode_buffer) {
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return AVI_FAILURE;
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}
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}
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}
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// get the decoded data out
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// TODO: if floating_point is true and pregap is 0, decode straight into outputBuffer
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size_t pcm_buf_used=0;
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int err = mpg123_read(mp3, (unsigned char *)decode_buffer, decode_buffer_length, &pcm_buf_used);
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if (err == MPG123_NEED_MORE && pcm_buf_used == 0) {
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if (*outputBufferBytes == 0) {
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return AVI_NEED_MORE_INPUT;
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} else {
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return AVI_SUCCESS;
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}
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} else if (err == MPG123_NEW_FORMAT) {
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assert(pcm_buf_used == 0);
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continue;
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} else if (err == MPG123_OK || pcm_buf_used) {
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if (!channels) {
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long sample_rate = 44100;
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int channels = 2;
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int encoding = 0;
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if (mpg123_getformat(mp3, &sample_rate, &channels, &encoding) == MPG123_OK) {
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this->channels = channels;
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} else {
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return AVI_FAILURE;
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}
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}
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// deal with pregap
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size_t numSamples = pcm_buf_used / sizeof(float);
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size_t offset = min(numSamples, pregap * channels);
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numSamples -= offset;
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pregap -= (int)offset / channels;
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float *pcm_buf = decode_buffer + offset;
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if (numSamples * bits / 8 > output_buffer_len) {
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return AVI_SUCCESS;
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}
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// convert to destination sample format
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if (floating_point)
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{
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memcpy(outputBuffer, pcm_buf, numSamples*bits/8);
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}
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else
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{
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nsutil_pcm_FloatToInt_Interleaved_Gain(outputBuffer, pcm_buf, bits, numSamples, 1.0);
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}
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*outputBufferBytes = *outputBufferBytes + numSamples * bits / 8;
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outputBuffer = (char *)outputBuffer + numSamples * bits / 8;
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output_buffer_len -= numSamples * bits / 8;
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//return AVI_SUCCESS;
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} else {
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assert(pcm_buf_used == 0);
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return AVI_FAILURE;
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}
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}
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return AVI_SUCCESS;
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}
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void AVIMP3Decoder::Flush()
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{
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mpg123_open_feed(mp3);
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pregap = FHG_DELAY;
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}
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void AVIMP3Decoder::Close()
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{
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if (mp3) {
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mpg123_delete(mp3);
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mp3 = 0;
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}
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delete this;
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}
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#define CBCLASS AVIMP3Decoder
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START_DISPATCH;
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CB(OUTPUT_FRAME_SIZE, OutputFrameSize)
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CB(GET_OUTPUT_PROPERTIES, GetOutputProperties)
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CB(DECODE_CHUNK, DecodeChunk)
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VCB(FLUSH, Flush)
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VCB(CLOSE, Close)
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END_DISPATCH;
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#undef CBCLASS |