1
0
Fork 0
mirror of https://git.rip/DMCA_FUCKER/re3.git synced 2024-12-23 03:30:00 +00:00

Cleanup and fixes for new decoders

This commit is contained in:
Sergeanur 2021-01-06 20:22:09 +02:00
parent ff9d6e4fd6
commit 0b73b13b9a

View file

@ -174,35 +174,45 @@ class CWavFile : public IDecoder
tFormatHeader() { memset(this, 0, sizeof(*this)); }
};
FILE* pFile;
bool bIsOpen;
tFormatHeader FormatHeader;
FILE *m_pFile;
bool m_bIsOpen;
uint32 DataStartOffset;
uint32 SampleCount;
uint32 SamplesPerBlock;
tFormatHeader m_FormatHeader;
uint32 m_DataStartOffset; // TODO: 64 bit?
uint32 m_nSampleCount;
uint32 m_nSamplesPerBlock;
// ADPCM things
uint8 *AdpcmBlock;
int16 **buffers;
CImaADPCMDecoder* decoders;
uint8 *m_pAdpcmBuffer;
int16 **m_ppPcmBuffers;
CImaADPCMDecoder *m_pAdpcmDecoders;
void Close()
{
if (pFile) {
fclose(pFile);
pFile = nil;
if (m_pFile) {
fclose(m_pFile);
m_pFile = nil;
}
if (AdpcmBlock) delete[] AdpcmBlock;
if (buffers) delete[] buffers;
if (decoders) delete[] decoders;
delete[] m_pAdpcmBuffer;
delete[] m_ppPcmBuffers;
delete[] m_pAdpcmDecoders;
}
uint32 GetCurrentSample() const
{
// TODO: 64 bit?
uint32 FilePos = ftell(m_pFile);
if (FilePos <= m_DataStartOffset)
return 0;
return (FilePos - m_DataStartOffset) / m_FormatHeader.BlockAlign * m_nSamplesPerBlock;
}
public:
CWavFile(const char* path) : bIsOpen(false), DataStartOffset(0), SampleCount(0), SamplesPerBlock(0), AdpcmBlock(nil), buffers(nil), decoders(nil)
CWavFile(const char* path) : m_bIsOpen(false), m_DataStartOffset(0), m_nSampleCount(0), m_nSamplesPerBlock(0), m_pAdpcmBuffer(nil), m_ppPcmBuffers(nil), m_pAdpcmDecoders(nil)
{
pFile = fopen(path, "rb");
if (!pFile) return;
m_pFile = fopen(path, "rb");
if (!m_pFile) return;
#define CLOSE_ON_ERROR(op)\
if (op) { \
@ -212,52 +222,58 @@ public:
tDataHeader DataHeader;
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, pFile) == 0);
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, m_pFile) == 0);
CLOSE_ON_ERROR(DataHeader.ID != 'FFIR');
// TODO? validate filesizes
int WAVE;
CLOSE_ON_ERROR(fread(&WAVE, 4, 1, pFile) == 0);
CLOSE_ON_ERROR(fread(&WAVE, 4, 1, m_pFile) == 0);
CLOSE_ON_ERROR(WAVE != 'EVAW')
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, pFile) == 0);
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, m_pFile) == 0);
CLOSE_ON_ERROR(DataHeader.ID != ' tmf');
CLOSE_ON_ERROR(fread(&FormatHeader, Min(DataHeader.Size, sizeof(tFormatHeader)), 1, pFile) == 0);
CLOSE_ON_ERROR(fread(&m_FormatHeader, Min(DataHeader.Size, sizeof(tFormatHeader)), 1, m_pFile) == 0);
CLOSE_ON_ERROR(DataHeader.Size > sizeof(tFormatHeader));
switch (FormatHeader.AudioFormat)
switch (m_FormatHeader.AudioFormat)
{
case WAVEFMT_XBOX_ADPCM:
FormatHeader.AudioFormat = WAVEFMT_IMA_ADPCM;
m_FormatHeader.AudioFormat = WAVEFMT_IMA_ADPCM;
case WAVEFMT_IMA_ADPCM:
SamplesPerBlock = (FormatHeader.BlockAlign / FormatHeader.NumChannels - 4) * 2 + 1;
AdpcmBlock = new uint8[FormatHeader.BlockAlign];
buffers = new int16*[FormatHeader.NumChannels];
decoders = new CImaADPCMDecoder[FormatHeader.NumChannels];
m_nSamplesPerBlock = (m_FormatHeader.BlockAlign / m_FormatHeader.NumChannels - 4) * 2 + 1;
m_pAdpcmBuffer = new uint8[m_FormatHeader.BlockAlign];
m_ppPcmBuffers = new int16*[m_FormatHeader.NumChannels];
m_pAdpcmDecoders = new CImaADPCMDecoder[m_FormatHeader.NumChannels];
break;
case WAVEFMT_PCM:
SamplesPerBlock = 1;
if (FormatHeader.BitsPerSample != 16)
m_nSamplesPerBlock = 1;
if (m_FormatHeader.BitsPerSample != 16)
{
debug("Unsupported PCM (%d bits), only signed 16-bit is supported (%s)\n", FormatHeader.BitsPerSample, path);
debug("Unsupported PCM (%d bits), only signed 16-bit is supported (%s)\n", m_FormatHeader.BitsPerSample, path);
Close();
return;
}
break;
default:
debug("Unsupported wav format 0x%x (%s)\n", FormatHeader.AudioFormat, path);
debug("Unsupported wav format 0x%x (%s)\n", m_FormatHeader.AudioFormat, path);
Close();
return;
}
while (true) {
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, pFile) == 0);
CLOSE_ON_ERROR(fread(&DataHeader, sizeof(DataHeader), 1, m_pFile) == 0);
if (DataHeader.ID == 'atad')
break;
fseek(pFile, DataHeader.Size, SEEK_CUR);
fseek(m_pFile, DataHeader.Size, SEEK_CUR);
// TODO? validate data size
// maybe check if there no extreme custom headers that might break this
}
DataStartOffset = ftell(pFile);
SampleCount = DataHeader.Size / FormatHeader.BlockAlign * SamplesPerBlock;
m_DataStartOffset = ftell(m_pFile);
m_nSampleCount = DataHeader.Size / m_FormatHeader.BlockAlign * m_nSamplesPerBlock;
bIsOpen = true;
m_bIsOpen = true;
#undef CLOSE_ON_ERROR
}
@ -268,7 +284,7 @@ public:
bool IsOpened()
{
return bIsOpen;
return m_bIsOpen;
}
uint32 GetSampleSize()
@ -278,29 +294,29 @@ public:
uint32 GetSampleCount()
{
return SampleCount;
return m_nSampleCount;
}
uint32 GetSampleRate()
{
return FormatHeader.SampleRate;
return m_FormatHeader.SampleRate;
}
uint32 GetChannels()
{
return FormatHeader.NumChannels;
return m_FormatHeader.NumChannels;
}
void Seek(uint32 milliseconds)
{
if (!IsOpened()) return;
fseek(pFile, DataStartOffset + ms2samples(milliseconds) / SamplesPerBlock * FormatHeader.BlockAlign, SEEK_SET);
fseek(m_pFile, m_DataStartOffset + ms2samples(milliseconds) / m_nSamplesPerBlock * m_FormatHeader.BlockAlign, SEEK_SET);
}
uint32 Tell()
{
if (!IsOpened()) return 0;
return samples2ms((ftell(pFile) - DataStartOffset) / FormatHeader.BlockAlign * SamplesPerBlock);
return samples2ms(GetCurrentSample());
}
#define SAMPLES_IN_LINE (8)
@ -309,52 +325,61 @@ public:
{
if (!IsOpened()) return 0;
if (FormatHeader.AudioFormat == WAVEFMT_PCM)
if (m_FormatHeader.AudioFormat == WAVEFMT_PCM)
{
uint32 size = fread(buffer, 1, GetBufferSize(), pFile);
if (FormatHeader.NumChannels == 2)
// just read the file and sort the samples
uint32 size = fread(buffer, 1, GetBufferSize(), m_pFile);
if (m_FormatHeader.NumChannels == 2)
SortStereoBuffer.SortStereo(buffer, size);
return size;
}
else if (FormatHeader.AudioFormat == WAVEFMT_IMA_ADPCM)
else if (m_FormatHeader.AudioFormat == WAVEFMT_IMA_ADPCM)
{
uint32 MaxSamples = GetBufferSamples() / FormatHeader.NumChannels;
uint32 CurSample = (ftell(pFile) - DataStartOffset) / FormatHeader.BlockAlign * SamplesPerBlock;
// trim the buffer size if we're at the end of our file
uint32 nMaxSamples = GetBufferSamples() / m_FormatHeader.NumChannels;
uint32 nSamplesLeft = m_nSampleCount - GetCurrentSample();
nMaxSamples = Min(nMaxSamples, nSamplesLeft);
MaxSamples = Min(MaxSamples, SampleCount - CurSample);
MaxSamples = MaxSamples / SamplesPerBlock * SamplesPerBlock;
uint32 OutBufSizePerChannel = MaxSamples * GetSampleSize();
uint32 OutBufSize = OutBufSizePerChannel * FormatHeader.NumChannels;
int16** buffers = new int16*[FormatHeader.NumChannels];
CImaADPCMDecoder* decoders = new CImaADPCMDecoder[FormatHeader.NumChannels];
for (uint32 i = 0; i < FormatHeader.NumChannels; i++)
buffers[i] = (int16*)((int8*)buffer + OutBufSizePerChannel * i);
// align sample count to our block
nMaxSamples = nMaxSamples / m_nSamplesPerBlock * m_nSamplesPerBlock;
// count the size of output buffer
uint32 OutBufSizePerChannel = nMaxSamples * GetSampleSize();
uint32 OutBufSize = OutBufSizePerChannel * m_FormatHeader.NumChannels;
// calculate the pointers to individual channel buffers
for (uint32 i = 0; i < m_FormatHeader.NumChannels; i++)
m_ppPcmBuffers[i] = (int16*)((int8*)buffer + OutBufSizePerChannel * i);
uint32 samplesRead = 0;
while (samplesRead < MaxSamples)
while (samplesRead < nMaxSamples)
{
uint8* AdpcmBuf = AdpcmBlock;
if (fread(AdpcmBlock, 1, FormatHeader.BlockAlign, pFile) == 0)
// read the file
uint8 *pAdpcmBuf = m_pAdpcmBuffer;
if (fread(m_pAdpcmBuffer, 1, m_FormatHeader.BlockAlign, m_pFile) == 0)
return 0;
for (uint32 i = 0; i < FormatHeader.NumChannels; i++)
// get the first sample in adpcm block and initialise the decoder(s)
for (uint32 i = 0; i < m_FormatHeader.NumChannels; i++)
{
int16 Sample = *(int16*)AdpcmBuf;
AdpcmBuf += sizeof(int16);
int16 Step = *(int16*)AdpcmBuf;
AdpcmBuf += sizeof(int16);
decoders[i].Init(Sample, Step);
*(buffers[i]) = Sample;
buffers[i]++;
int16 Sample = *(int16*)pAdpcmBuf;
pAdpcmBuf += sizeof(int16);
int16 Step = *(int16*)pAdpcmBuf;
pAdpcmBuf += sizeof(int16);
m_pAdpcmDecoders[i].Init(Sample, Step);
*(m_ppPcmBuffers[i]) = Sample;
m_ppPcmBuffers[i]++;
}
samplesRead++;
for (uint32 s = 1; s < SamplesPerBlock; s += SAMPLES_IN_LINE)
// decode the rest of the block
for (uint32 s = 1; s < m_nSamplesPerBlock; s += SAMPLES_IN_LINE)
{
for (uint32 i = 0; i < FormatHeader.NumChannels; i++)
for (uint32 i = 0; i < m_FormatHeader.NumChannels; i++)
{
decoders[i].Decode(AdpcmBuf, buffers[i], SAMPLES_IN_LINE / 2);
AdpcmBuf += SAMPLES_IN_LINE / 2;
buffers[i] += SAMPLES_IN_LINE;
m_pAdpcmDecoders[i].Decode(pAdpcmBuf, m_ppPcmBuffers[i], SAMPLES_IN_LINE / 2);
pAdpcmBuf += SAMPLES_IN_LINE / 2;
m_ppPcmBuffers[i] += SAMPLES_IN_LINE;
}
samplesRead += SAMPLES_IN_LINE;
}
@ -620,68 +645,68 @@ public:
class CVbFile : public IDecoder
{
FILE* pFile;
size_t m_FileSize;
size_t m_nNumberOfBlocks;
CVagDecoder* decoders;
FILE *m_pFile;
CVagDecoder *m_pVagDecoders;
uint32 m_nSampleRate;
uint8 m_nChannels;
bool m_bBlockRead;
uint16 m_LineInBlock;
size_t m_CurrentBlock;
size_t m_FileSize;
size_t m_nNumberOfBlocks;
uint8** ppTempBuffers;
int16** buffers;
uint32 m_nSampleRate;
uint8 m_nChannels;
bool m_bBlockRead;
uint16 m_LineInBlock;
size_t m_CurrentBlock;
uint8 **m_ppVagBuffers; // buffers that cache actual ADPCM file data
int16 **m_ppPcmBuffers;
void ReadBlock(int32 block = -1)
{
// just read next block if -1
if (block != -1)
fseek(pFile, block * m_nChannels * VB_BLOCK_SIZE, SEEK_SET);
fseek(m_pFile, block * m_nChannels * VB_BLOCK_SIZE, SEEK_SET);
for (int i = 0; i < m_nChannels; i++)
fread(ppTempBuffers[i], VB_BLOCK_SIZE, 1, pFile);
fread(m_ppVagBuffers[i], VB_BLOCK_SIZE, 1, m_pFile);
m_bBlockRead = true;
}
public:
CVbFile(const char* path, uint32 nSampleRate = 32000, uint8 nChannels = 2) : m_nSampleRate(nSampleRate), m_nChannels(nChannels), decoders(nil), ppTempBuffers(nil), buffers(nil),
CVbFile(const char* path, uint32 nSampleRate = 32000, uint8 nChannels = 2) : m_nSampleRate(nSampleRate), m_nChannels(nChannels), m_pVagDecoders(nil), m_ppVagBuffers(nil), m_ppPcmBuffers(nil),
m_FileSize(0), m_nNumberOfBlocks(0), m_bBlockRead(false), m_LineInBlock(0), m_CurrentBlock(0)
{
pFile = fopen(path, "rb");
if (!pFile) return;
m_pFile = fopen(path, "rb");
if (!m_pFile) return;
fseek(m_pFile, 0, SEEK_END);
m_FileSize = ftell(m_pFile);
fseek(m_pFile, 0, SEEK_SET);
fseek(pFile, 0, SEEK_END);
m_FileSize = ftell(pFile);
fseek(pFile, 0, SEEK_SET);
m_nNumberOfBlocks = m_FileSize / (nChannels * VB_BLOCK_SIZE);
decoders = new CVagDecoder[nChannels];
m_CurrentBlock = 0;
m_LineInBlock = 0;
m_bBlockRead = false;
ppTempBuffers = new uint8*[nChannels];
buffers = new int16*[nChannels];
m_pVagDecoders = new CVagDecoder[nChannels];
m_ppVagBuffers = new uint8*[nChannels];
m_ppPcmBuffers = new int16*[nChannels];
for (uint8 i = 0; i < nChannels; i++)
ppTempBuffers[i] = new uint8[VB_BLOCK_SIZE];
m_ppVagBuffers[i] = new uint8[VB_BLOCK_SIZE];
}
~CVbFile()
{
if (pFile)
if (m_pFile)
{
fclose(pFile);
delete[] decoders;
fclose(m_pFile);
delete[] m_pVagDecoders;
for (int i = 0; i < m_nChannels; i++)
delete[] ppTempBuffers[i];
delete[] ppTempBuffers;
delete[] buffers;
delete[] m_ppVagBuffers[i];
delete[] m_ppVagBuffers;
delete[] m_ppPcmBuffers;
}
}
bool IsOpened()
{
return pFile != nil;
return m_pFile != nil;
}
uint32 GetSampleSize()
@ -709,6 +734,8 @@ public:
{
if (!IsOpened()) return;
uint32 samples = ms2samples(milliseconds);
// find the block of our sample
uint32 block = samples / NUM_VAG_SAMPLES_IN_BLOCK;
if (block > m_nNumberOfBlocks)
{
@ -718,6 +745,7 @@ public:
if (block != m_CurrentBlock)
m_bBlockRead = false;
// find a line of our sample within our block
uint32 remainingSamples = samples - block * NUM_VAG_SAMPLES_IN_BLOCK;
uint32 newLine = remainingSamples / VAG_SAMPLES_IN_LINE / VAG_LINE_SIZE;
@ -726,7 +754,7 @@ public:
m_CurrentBlock = block;
m_LineInBlock = newLine;
for (uint32 i = 0; i < GetChannels(); i++)
decoders[i].ResetState();
m_pVagDecoders[i].ResetState();
}
}
@ -742,35 +770,38 @@ public:
{
if (!IsOpened()) return 0;
if (m_CurrentBlock >= m_nNumberOfBlocks) return 0;
// cache current ADPCM block
if (!m_bBlockRead)
ReadBlock(m_CurrentBlock);
if (m_CurrentBlock == m_nNumberOfBlocks) return 0;
int size = 0;
// trim the buffer size if we're at the end of our file
int numberOfRequiredLines = GetBufferSamples() / m_nChannels / VAG_SAMPLES_IN_LINE;
int numberOfRemainingLines = (m_nNumberOfBlocks - m_CurrentBlock) * NUM_VAG_LINES_IN_BLOCK - m_LineInBlock;
int bufSizePerChannel = Min(numberOfRequiredLines, numberOfRemainingLines) * VAG_SAMPLES_IN_LINE * GetSampleSize();
if (numberOfRequiredLines > numberOfRemainingLines)
numberOfRemainingLines = numberOfRemainingLines;
// calculate the pointers to individual channel buffers
for (uint32 i = 0; i < m_nChannels; i++)
buffers[i] = (int16*)((int8*)buffer + bufSizePerChannel * i);
m_ppPcmBuffers[i] = (int16*)((int8*)buffer + bufSizePerChannel * i);
int size = 0;
while (size < bufSizePerChannel)
{
// decode the VAG lines
for (uint32 i = 0; i < m_nChannels; i++)
{
decoders[i].Decode(ppTempBuffers[i] + m_LineInBlock * VAG_LINE_SIZE, buffers[i], VAG_LINE_SIZE);
buffers[i] += VAG_SAMPLES_IN_LINE;
m_pVagDecoders[i].Decode(m_ppVagBuffers[i] + m_LineInBlock * VAG_LINE_SIZE, m_ppPcmBuffers[i], VAG_LINE_SIZE);
m_ppPcmBuffers[i] += VAG_SAMPLES_IN_LINE;
}
size += VAG_SAMPLES_IN_LINE * GetSampleSize();
m_LineInBlock++;
// block is over, read the next block
if (m_LineInBlock >= NUM_VAG_LINES_IN_BLOCK)
{
m_CurrentBlock++;
if (m_CurrentBlock >= m_nNumberOfBlocks)
if (m_CurrentBlock >= m_nNumberOfBlocks) // end of file
break;
m_LineInBlock = 0;
ReadBlock();