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233 lines
No EOL
7.6 KiB
C++
233 lines
No EOL
7.6 KiB
C++
#include "avi_adpcm_decoder.h"
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#include "avi_ima_adpcm_decoder.h"
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#pragma pack(push, 1)
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typedef int16_t ms_adpcm_coefficients[2];
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struct ms_adpcm_format
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{
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nsavi::audio_format format;
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uint16_t samples_per_block;
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uint16_t number_of_coefficients;
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ms_adpcm_coefficients coefficients[1];
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};
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#pragma pack(pop)
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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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const nsavi::audio_format *format = (const nsavi::audio_format *)stream_format;
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if (format->format == nsavi::audio_format_ms_adpcm)
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{
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// TODO: verify waveformat sizes
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*decoder = new MS_ADPCM_AVIDecoder( (const ms_adpcm_format *)format, stream_header);
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return CREATEDECODER_SUCCESS;
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}
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else if (format->format == nsavi::audio_format_ima_adpcm)
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{
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// TODO: verify waveformat sizes
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*decoder = new IMA_ADPCM_AVIDecoder((const ima_adpcm_format *)format, stream_header);
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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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int ms_adpcm_adaptationtable[] = { 230, 230, 230, 230, 307, 409, 512, 614, 768, 614, 512, 409, 307, 230, 230, 230 };
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//int ms_adpcm_adaptcoeff1[] = { 256, 512, 0, 192, 240, 460, 392 } ;
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//int ms_adpcm_adaptcoeff2[] = { 0, -256, 0, 64, 0, -208, -232 } ;
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MS_ADPCM_AVIDecoder::MS_ADPCM_AVIDecoder(const ms_adpcm_format *adpcmformat, const nsavi::STRH *stream_header) : adpcmformat(adpcmformat), stream_header(stream_header)
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{
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}
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int MS_ADPCM_AVIDecoder::OutputFrameSize(size_t *frame_size)
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{
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int channels = adpcmformat->format.channels;
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*frame_size = ((adpcmformat->format.block_align - 7*channels)*2 + 2*channels) * 2;
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return AVI_SUCCESS;
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}
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int MS_ADPCM_AVIDecoder::GetOutputProperties(unsigned int *sampleRate, unsigned int *channels, unsigned int *bitsPerSample, bool *isFloat)
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{
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if (adpcmformat)
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{
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*sampleRate = adpcmformat->format.sample_rate;
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*channels = adpcmformat->format.channels;
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*bitsPerSample = 16;
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*isFloat = false;
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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 MS_ADPCM_AVIDecoder::DecodeChunk(uint16_t type, void **inputBuffer, size_t *inputBufferBytes, void *outputBuffer, size_t *outputBufferBytes)
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{
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const ms_adpcm_coefficients *ms_adpcm_adaptcoeff = adpcmformat->coefficients;
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// TODO: use default coef values if they aren't present
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if (adpcmformat->format.channels == 1)
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{
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size_t adpcm_stream_length = *inputBufferBytes;
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if (adpcm_stream_length < adpcmformat->format.block_align) // i'm not even going to consider the possibility of adpcm frames split across avi chunks
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return AVI_FAILURE;
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adpcm_stream_length = adpcmformat->format.block_align; // do one block at a time, in_avi will call us again
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if (adpcm_stream_length < 7)
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return AVI_FAILURE;
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int16_t *out16 = (int16_t *)outputBuffer;
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size_t out16_length = *outputBufferBytes/2;
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const uint8_t *adpcm8 = (const uint8_t *)(*inputBuffer);
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uint8_t block_predictor = *adpcm8++;
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if (block_predictor > adpcmformat->number_of_coefficients)
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return AVI_FAILURE;
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int32_t coef1 = ms_adpcm_adaptcoeff[block_predictor][0];
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int32_t coef2 = ms_adpcm_adaptcoeff[block_predictor][1];
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const uint16_t *adpcm16 = (const uint16_t *)adpcm8;
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int16_t delta = *adpcm16++;
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int16_t sample1 = out16[1] = *adpcm16++;
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int16_t sample2 = out16[0] = *adpcm16++;
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int i=2;
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adpcm_stream_length-=7;
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adpcm8 = (const uint8_t *)adpcm16;
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while (adpcm_stream_length-- && out16_length)
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{
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int32_t predictor = ((int32_t)sample1 * coef1 + (int32_t)sample2 * coef2)>>8;
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uint32_t nibble = *adpcm8 >> 4;
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int32_t signed_nibble = ((int32_t)nibble << 28) >> 28;
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predictor += signed_nibble*delta;
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predictor = max(predictor, -32768);
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predictor = min(predictor, 32767);
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sample2=sample1;
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sample1=out16[i++]=predictor;
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out16_length--;
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delta = (ms_adpcm_adaptationtable[nibble]*delta)>>8;
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delta = max(delta, 16);
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predictor = ((int32_t)sample1 * coef1 + (int32_t)sample2 * coef2)>>8;
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nibble = *adpcm8++ & 0x0F;
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signed_nibble = ((int32_t)nibble << 28) >> 28;
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predictor += signed_nibble*delta;
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predictor = max(predictor, -32768);
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predictor = min(predictor, 32767);
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sample2=sample1;
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sample1=out16[i++]=predictor;
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out16_length--;
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delta = (ms_adpcm_adaptationtable[nibble]*delta)>>8;
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delta = max(delta, 16);
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}
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*inputBufferBytes -= adpcmformat->format.block_align;
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*inputBuffer = (void *)adpcm8;
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*outputBufferBytes = i*2;
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return AVI_SUCCESS;
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}
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else if (adpcmformat->format.channels == 2)
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{
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size_t adpcm_stream_length = *inputBufferBytes;
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if (adpcm_stream_length < adpcmformat->format.block_align) // i'm not even going to consider the possibility of adpcm frames split across avi chunks
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return AVI_FAILURE;
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adpcm_stream_length = adpcmformat->format.block_align; // do one block at a time, in_avi will call us again
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if (adpcm_stream_length < 14)
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return AVI_FAILURE;
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int16_t *out16 = (int16_t *)outputBuffer;
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size_t out16_length = *outputBufferBytes/2;
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const uint8_t *adpcm8 = (const uint8_t *)(*inputBuffer);
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uint8_t block_predictor_left = *adpcm8++;
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if (block_predictor_left > adpcmformat->number_of_coefficients)
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return AVI_FAILURE;
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uint8_t block_predictor_right = *adpcm8++;
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if (block_predictor_right > adpcmformat->number_of_coefficients)
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return AVI_FAILURE;
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int32_t coef1_left = ms_adpcm_adaptcoeff[block_predictor_left][0];
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int32_t coef2_left = ms_adpcm_adaptcoeff[block_predictor_left][1];
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int32_t coef1_right = ms_adpcm_adaptcoeff[block_predictor_right][0];
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int32_t coef2_right = ms_adpcm_adaptcoeff[block_predictor_right][1];
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const uint16_t *adpcm16 = (const uint16_t *)adpcm8;
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int16_t delta_left = *adpcm16++;
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int16_t delta_right = *adpcm16++;
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int16_t sample1_left = out16[2] = *adpcm16++;
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int16_t sample1_right = out16[3] = *adpcm16++;
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int16_t sample2_left = out16[0] = *adpcm16++;
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int16_t sample2_right = out16[1] = *adpcm16++;
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int i=4;
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adpcm_stream_length-=14;
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adpcm8 = (const uint8_t *)adpcm16;
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while (adpcm_stream_length-- && out16_length)
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{
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int32_t predictor = ((int32_t)sample1_left * coef1_left + (int32_t)sample2_left * coef2_left)>>8;
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uint32_t nibble = *adpcm8 >> 4;
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int32_t signed_nibble = ((int32_t)nibble << 28) >> 28;
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predictor += signed_nibble*delta_left;
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predictor = max(predictor, -32768);
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predictor = min(predictor, 32767);
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sample2_left=sample1_left;
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sample1_left=out16[i++]=predictor;
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out16_length--;
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delta_left = (ms_adpcm_adaptationtable[nibble]*delta_left)>>8;
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delta_left = max(delta_left, 16);
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predictor = ((int32_t)sample1_right * coef1_right + (int32_t)sample2_right * coef2_right)>>8;
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nibble = *adpcm8++ & 0x0F;
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signed_nibble = ((int32_t)nibble << 28) >> 28;
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predictor += signed_nibble*delta_right;
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predictor = max(predictor, -32768);
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predictor = min(predictor, 32767);
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sample2_right=sample1_right;
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sample1_right=out16[i++]=predictor;
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out16_length--;
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delta_right = (ms_adpcm_adaptationtable[nibble]*delta_right)>>8;
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delta_right = max(delta_right, 16);
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}
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*inputBufferBytes -= adpcmformat->format.block_align;
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*inputBuffer = (void *)adpcm8;
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*outputBufferBytes = i*2;
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return AVI_SUCCESS;
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}
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return AVI_FAILURE;
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}
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void MS_ADPCM_AVIDecoder::Close()
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{
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delete this;
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}
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#define CBCLASS MS_ADPCM_AVIDecoder
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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(CLOSE, Close)
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END_DISPATCH;
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#undef CBCLASS |