winamp/Src/external_dependencies/openmpt-trunk/soundlib/ModSampleCopy.h

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2024-09-24 14:54:57 +02:00
/*
* ModSampleCopy.h
* ---------------
* Purpose: Functions for copying ModSample data.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#pragma once
#include "openmpt/all/BuildSettings.hpp"
#include "openmpt/soundbase/SampleDecode.hpp"
OPENMPT_NAMESPACE_BEGIN
struct ModSample;
// Copy a mono sample data buffer.
template <typename SampleConversion, typename Tbyte>
size_t CopyMonoSample(ModSample &sample, const Tbyte *sourceBuffer, size_t sourceSize, SampleConversion conv = SampleConversion())
{
MPT_ASSERT(sample.GetNumChannels() == 1);
MPT_ASSERT(sample.GetElementarySampleSize() == sizeof(typename SampleConversion::output_t));
const size_t frameSize = SampleConversion::input_inc;
const size_t countFrames = std::min(sourceSize / frameSize, static_cast<std::size_t>(sample.nLength));
size_t numFrames = countFrames;
SampleConversion sampleConv(conv);
const std::byte * MPT_RESTRICT inBuf = mpt::byte_cast<const std::byte*>(sourceBuffer);
typename SampleConversion::output_t * MPT_RESTRICT outBuf = static_cast<typename SampleConversion::output_t *>(sample.samplev());
while(numFrames--)
{
*outBuf = sampleConv(inBuf);
inBuf += SampleConversion::input_inc;
outBuf++;
}
return frameSize * countFrames;
}
// Copy a stereo interleaved sample data buffer.
template <typename SampleConversion, typename Tbyte>
size_t CopyStereoInterleavedSample(ModSample &sample, const Tbyte *sourceBuffer, size_t sourceSize, SampleConversion conv = SampleConversion())
{
MPT_ASSERT(sample.GetNumChannels() == 2);
MPT_ASSERT(sample.GetElementarySampleSize() == sizeof(typename SampleConversion::output_t));
const size_t frameSize = 2 * SampleConversion::input_inc;
const size_t countFrames = std::min(sourceSize / frameSize, static_cast<std::size_t>(sample.nLength));
size_t numFrames = countFrames;
SampleConversion sampleConvLeft(conv);
SampleConversion sampleConvRight(conv);
const std::byte * MPT_RESTRICT inBuf = mpt::byte_cast<const std::byte*>(sourceBuffer);
typename SampleConversion::output_t * MPT_RESTRICT outBuf = static_cast<typename SampleConversion::output_t *>(sample.samplev());
while(numFrames--)
{
*outBuf = sampleConvLeft(inBuf);
inBuf += SampleConversion::input_inc;
outBuf++;
*outBuf = sampleConvRight(inBuf);
inBuf += SampleConversion::input_inc;
outBuf++;
}
return frameSize * countFrames;
}
// Copy a stereo split sample data buffer.
template <typename SampleConversion, typename Tbyte>
size_t CopyStereoSplitSample(ModSample &sample, const Tbyte *sourceBuffer, size_t sourceSize, SampleConversion conv = SampleConversion())
{
MPT_ASSERT(sample.GetNumChannels() == 2);
MPT_ASSERT(sample.GetElementarySampleSize() == sizeof(typename SampleConversion::output_t));
const size_t sampleSize = SampleConversion::input_inc;
const size_t sourceSizeLeft = std::min(static_cast<std::size_t>(sample.nLength) * SampleConversion::input_inc, sourceSize);
const size_t sourceSizeRight = std::min(static_cast<std::size_t>(sample.nLength) * SampleConversion::input_inc, sourceSize - sourceSizeLeft);
const size_t countSamplesLeft = sourceSizeLeft / sampleSize;
const size_t countSamplesRight = sourceSizeRight / sampleSize;
size_t numSamplesLeft = countSamplesLeft;
SampleConversion sampleConvLeft(conv);
const std::byte * MPT_RESTRICT inBufLeft = mpt::byte_cast<const std::byte*>(sourceBuffer);
typename SampleConversion::output_t * MPT_RESTRICT outBufLeft = static_cast<typename SampleConversion::output_t *>(sample.samplev());
while(numSamplesLeft--)
{
*outBufLeft = sampleConvLeft(inBufLeft);
inBufLeft += SampleConversion::input_inc;
outBufLeft += 2;
}
size_t numSamplesRight = countSamplesRight;
SampleConversion sampleConvRight(conv);
const std::byte * MPT_RESTRICT inBufRight = mpt::byte_cast<const std::byte*>(sourceBuffer) + sample.nLength * SampleConversion::input_inc;
typename SampleConversion::output_t * MPT_RESTRICT outBufRight = static_cast<typename SampleConversion::output_t *>(sample.samplev()) + 1;
while(numSamplesRight--)
{
*outBufRight = sampleConvRight(inBufRight);
inBufRight += SampleConversion::input_inc;
outBufRight += 2;
}
return (countSamplesLeft + countSamplesRight) * sampleSize;
}
// Copy a sample data buffer and normalize it. Requires slightly advanced sample conversion functor.
template <typename SampleConversion, typename Tbyte>
size_t CopyAndNormalizeSample(ModSample &sample, const Tbyte *sourceBuffer, size_t sourceSize, typename SampleConversion::peak_t *srcPeak = nullptr, SampleConversion conv = SampleConversion())
{
const size_t sampleSize = SampleConversion::input_inc;
MPT_ASSERT(sample.GetElementarySampleSize() == sizeof(typename SampleConversion::output_t));
size_t numSamples = sample.nLength * sample.GetNumChannels();
LimitMax(numSamples, sourceSize / sampleSize);
const std::byte * inBuf = mpt::byte_cast<const std::byte*>(sourceBuffer);
// Finding max value
SampleConversion sampleConv(conv);
for(size_t i = numSamples; i != 0; i--)
{
sampleConv.FindMax(inBuf);
inBuf += SampleConversion::input_inc;
}
// If buffer is silent (maximum is 0), don't bother normalizing the sample - just keep the already silent buffer.
if(!sampleConv.IsSilent())
{
inBuf = sourceBuffer;
// Copying buffer.
typename SampleConversion::output_t *outBuf = static_cast<typename SampleConversion::output_t *>(sample.samplev());
for(size_t i = numSamples; i != 0; i--)
{
*outBuf = sampleConv(inBuf);
outBuf++;
inBuf += SampleConversion::input_inc;
}
}
if(srcPeak)
{
*srcPeak = sampleConv.GetSrcPeak();
}
return numSamples * sampleSize;
}
OPENMPT_NAMESPACE_END