SyndicatQuebecoisdelaConstr.../SQCSim2021/external/irrKlang-64bit-1.6.0/plugins/ikpMP3/CIrrKlangAudioStreamMP3.cpp

398 lines
8.2 KiB
C++
Raw Normal View History

// Copyright (C) 2002-2007 Nikolaus Gebhardt
// Part of the code for this plugin for irrKlang is based on:
// MP3 input for Audiere by Matt Campbell <mattcampbell@pobox.com>, based on
// libavcodec from ffmpeg (http://ffmpeg.sourceforge.net/).
// See license.txt for license details of this plugin.
#include "CIrrKlangAudioStreamMP3.h"
#include <memory.h>
#include <stdlib.h> // free, malloc and realloc
#include <string.h>
namespace irrklang
{
CIrrKlangAudioStreamMP3::CIrrKlangAudioStreamMP3(IFileReader* file)
: File(file), TheMPAuDecContext(0), InputPosition(0), InputLength(0),
DecodeBuffer(0), FirstFrameRead(false), EndOfFileReached(0),
FileBegin(0), Position(0)
{
if (File)
{
File->grab();
TheMPAuDecContext = new MPAuDecContext();
if (!TheMPAuDecContext || mpaudec_init(TheMPAuDecContext) < 0)
{
File->drop();
File = 0;
delete TheMPAuDecContext;
TheMPAuDecContext = 0;
return;
}
// init, get format
DecodeBuffer = new ik_u8[MPAUDEC_MAX_AUDIO_FRAME_SIZE];
if (File->getSize()>0)
{
// seekable file, now parse file to get size
// (needed to make it possible for the engine to loop a stream correctly)
skipID3IfNecessary();
TheMPAuDecContext->parse_only = 1;
Format.FrameCount = 0;
while(!EndOfFileReached)
{
if (!decodeFrame())
break;
Format.FrameCount += TheMPAuDecContext->frame_size;
if (!EndOfFileReached /*&& File->isSeekable()*/ )
{
// to be able to seek in the stream, store offsets and sizes
SFramePositionData data;
data.size = TheMPAuDecContext->frame_size;
data.offset = File->getPos() - (InputLength - InputPosition) - TheMPAuDecContext->coded_frame_size;
FramePositionData.push_back(data);
}
}
TheMPAuDecContext->parse_only = 0;
setPosition(0);
}
else
decodeFrame(); // decode first frame to read audio format
if (!TheMPAuDecContext->channels ||
!TheMPAuDecContext->sample_rate )
{
File->drop();
File = 0;
delete TheMPAuDecContext;
TheMPAuDecContext = 0;
return;
}
}
}
CIrrKlangAudioStreamMP3::~CIrrKlangAudioStreamMP3()
{
if (File)
File->drop();
if (TheMPAuDecContext)
{
mpaudec_clear(TheMPAuDecContext);
delete TheMPAuDecContext;
}
delete [] DecodeBuffer;
}
//! returns format of the audio stream
SAudioStreamFormat CIrrKlangAudioStreamMP3::getFormat()
{
return Format;
}
//! tells the audio stream to read n audio frames into the specified buffer
ik_s32 CIrrKlangAudioStreamMP3::readFrames(void* target, ik_s32 frameCountToRead)
{
const int frameSize = Format.getFrameSize();
int framesRead = 0;
ik_u8* out = (ik_u8*)target;
while (framesRead < frameCountToRead)
{
// no more samples? ask the MP3 for more
if (DecodedQueue.getSize() < frameSize)
{
if (!decodeFrame() || EndOfFileReached)
return framesRead;
// if the buffer is still empty, we are done
if (DecodedQueue.getSize() < frameSize)
return framesRead;
}
const int framesLeft = frameCountToRead - framesRead;
const int dequeSize = DecodedQueue.getSize() / frameSize;
const int framesToRead = framesLeft < dequeSize ? framesLeft : dequeSize;
DecodedQueue.read(out, framesToRead * frameSize);
out += framesToRead * frameSize;
framesRead += framesToRead;
Position += framesToRead;
}
return framesRead;
}
bool CIrrKlangAudioStreamMP3::decodeFrame()
{
int outputSize = 0;
while (!outputSize)
{
if (InputPosition == InputLength)
{
InputPosition = 0;
InputLength = File->read(InputBuffer, IKP_MP3_INPUT_BUFFER_SIZE);
if (InputLength == 0)
{
EndOfFileReached = true;
return true;
}
}
int rv = mpaudec_decode_frame( TheMPAuDecContext, (ik_s16*)DecodeBuffer,
&outputSize,
(ik_u8*)InputBuffer + InputPosition,
InputLength - InputPosition);
if (rv < 0)
return false;
InputPosition += rv;
} // end while
if (!FirstFrameRead)
{
Format.ChannelCount = TheMPAuDecContext->channels;
Format.SampleRate = TheMPAuDecContext->sample_rate;
Format.SampleFormat = ESF_S16;
Format.FrameCount = -1; // unknown lenght
FirstFrameRead = true;
}
else
if (TheMPAuDecContext->channels != Format.ChannelCount ||
TheMPAuDecContext->sample_rate != Format.SampleRate)
{
// Can't handle format changes mid-stream.
return false;
}
if (!TheMPAuDecContext->parse_only)
{
if (outputSize < 0)
{
// Couldn't decode this frame. Too bad, already lost it.
// This should only happen when seeking.
outputSize = TheMPAuDecContext->frame_size;
memset(DecodeBuffer, 0, outputSize * Format.getFrameSize());
}
DecodedQueue.write(DecodeBuffer, outputSize);
}
return true;
}
//! sets the position of the audio stream.
/** For example to let the stream be read from the beginning of the file again,
setPosition(0) would be called. This is usually done be the sound engine to
loop a stream after if has reached the end. Return true if sucessful and 0 if not. */
bool CIrrKlangAudioStreamMP3::setPosition(ik_s32 pos)
{
if (!File || !TheMPAuDecContext)
return false;
if (pos == 0)
{
// usually done for looping, just reset to start
File->seek(FileBegin); // skip possible ID3 header
EndOfFileReached = false;
DecodedQueue.clear();
MPAuDecContext oldContext = *TheMPAuDecContext;
mpaudec_clear(TheMPAuDecContext);
mpaudec_init(TheMPAuDecContext);
TheMPAuDecContext->bit_rate = oldContext.bit_rate;
TheMPAuDecContext->channels = oldContext.channels;
TheMPAuDecContext->frame_size = oldContext.frame_size;
TheMPAuDecContext->sample_rate = oldContext.sample_rate;
InputPosition = 0;
InputLength = 0;
Position = 0;
CurrentFramePosition = 0;
return true;
}
else
{
// user wants to seek in the stream, so do this here
int scan_position = 0;
int target_frame = 0;
int frame_count = (int)FramePositionData.size();
while (target_frame < frame_count)
{
int frame_size = FramePositionData[target_frame].size;
if (pos <= scan_position + frame_size)
break;
else
{
scan_position += frame_size;
target_frame++;
}
}
const int MAX_FRAME_DEPENDENCY = 10;
target_frame = std::max(0, target_frame - MAX_FRAME_DEPENDENCY);
setPosition(0);
File->seek(FramePositionData[target_frame].offset, false);
int i;
for (i = 0; i < target_frame; i++)
{
if (i>=(int)FramePositionData.size())
{
// internal error
setPosition(0);
return false;
}
Position += FramePositionData[i].size;
}
if (!decodeFrame() || EndOfFileReached)
{
setPosition(0);
return false;
}
int frames_to_consume = pos - Position; // PCM frames now
if (frames_to_consume > 0)
{
ik_u8 *buf = new ik_u8[frames_to_consume * Format.getFrameSize()];
readFrames(buf, frames_to_consume);
delete[] buf;
}
return true;
}
return false;
}
CIrrKlangAudioStreamMP3::QueueBuffer::QueueBuffer()
{
Capacity = 256;
Size = 0;
Buffer = (ik_u8*)malloc(Capacity);
}
CIrrKlangAudioStreamMP3::QueueBuffer::~QueueBuffer()
{
free(Buffer);
}
int CIrrKlangAudioStreamMP3::QueueBuffer::getSize()
{
return Size;
}
void CIrrKlangAudioStreamMP3::QueueBuffer::write(const void* buffer, int size)
{
bool needRealloc = false;
while (size + Size > Capacity)
{
Capacity *= 2;
needRealloc = true;
}
if (needRealloc)
{
Buffer = (ik_u8*)realloc(Buffer, Capacity);
}
memcpy(Buffer + Size, buffer, size);
Size += size;
}
int CIrrKlangAudioStreamMP3::QueueBuffer::read(void* buffer, int size)
{
int toRead = size < Size ? size : Size;
memcpy(buffer, Buffer, toRead);
memmove(Buffer, Buffer + toRead, Size - toRead);
Size -= toRead;
return toRead;
}
void CIrrKlangAudioStreamMP3::QueueBuffer::clear()
{
Size = 0;
}
void CIrrKlangAudioStreamMP3::skipID3IfNecessary()
{
char header[10];
int read = File->read(&header, 10);
if (read == 10 &&
header[0] == 'I' && header[1] == 'D' && header[2] == '3')
{
int versionMajor = header[3];
int versionMinor = header[4];
int flags = header[5];
// IDv2 size looks like the following: ID3v2 size 4 * %0xxxxxxx.
// Sick, but that's how it works.
int size = 0;
size = (header[6] & 0x7f) << (3*7);
size |= (header[7] & 0x7f) << (2*7);
size |= (header[8] & 0x7f) << (1*7);
size |= (header[9] & 0x7f) ;
size += 10; // header size
FileBegin = size;
File->seek(FileBegin);
}
else
File->seek(0);
}
} // end namespace irrklang