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Introduce end-of-line normalization

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Ensures that all files that Git considers to be text will have
normalized (LF) line endings in the repository. When core.eol is set to
native (which is the default), Git will convert the line endings of
normalized files in your working directory back to your platform's
native line ending.

See also https://git-scm.com/docs/gitattributes
This commit is contained in:
Benjamin Drung
2016-05-16 21:31:38 +02:00
parent 8d360fe5f3
commit 787f2afd10
535 changed files with 107946 additions and 107944 deletions
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326
lib-src/portaudio-v19/bindings/cpp/source/portaudiocpp/DirectionSpecificStreamParameters.cxx
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@@ -1,163 +1,163 @@
#include "portaudiocpp/DirectionSpecificStreamParameters.hxx"
#include "portaudiocpp/Device.hxx"
namespace portaudio
{
// -----------------------------------------------------------------------------------
//////
/// Returns a `nil' DirectionSpecificStreamParameters object. This can be used to
/// specify that one direction of a Stream is not required (i.e. when creating
/// a half-duplex Stream). All fields of the null DirectionSpecificStreamParameters
/// object are invalid except for the device and the number of channel, which are set
/// to paNoDevice and 0 respectively.
//////
DirectionSpecificStreamParameters DirectionSpecificStreamParameters::null()
{
DirectionSpecificStreamParameters tmp;
tmp.paStreamParameters_.device = paNoDevice;
tmp.paStreamParameters_.channelCount = 0;
return tmp;
}
// -----------------------------------------------------------------------------------
//////
/// Default constructor -- all parameters will be uninitialized.
//////
DirectionSpecificStreamParameters::DirectionSpecificStreamParameters()
{
}
//////
/// Constructor which sets all required fields.
//////
DirectionSpecificStreamParameters::DirectionSpecificStreamParameters(const Device &device, int numChannels,
SampleDataFormat format, bool interleaved, PaTime suggestedLatency, void *hostApiSpecificStreamInfo)
{
setDevice(device);
setNumChannels(numChannels);
setSampleFormat(format, interleaved);
setSuggestedLatency(suggestedLatency);
setHostApiSpecificStreamInfo(hostApiSpecificStreamInfo);
}
// -----------------------------------------------------------------------------------
void DirectionSpecificStreamParameters::setDevice(const Device &device)
{
paStreamParameters_.device = device.index();
}
void DirectionSpecificStreamParameters::setNumChannels(int numChannels)
{
paStreamParameters_.channelCount = numChannels;
}
void DirectionSpecificStreamParameters::setSampleFormat(SampleDataFormat format, bool interleaved)
{
paStreamParameters_.sampleFormat = static_cast<PaSampleFormat>(format);
if (!interleaved)
paStreamParameters_.sampleFormat |= paNonInterleaved;
}
void DirectionSpecificStreamParameters::setHostApiSpecificSampleFormat(PaSampleFormat format, bool interleaved)
{
paStreamParameters_.sampleFormat = format;
paStreamParameters_.sampleFormat |= paCustomFormat;
if (!interleaved)
paStreamParameters_.sampleFormat |= paNonInterleaved;
}
void DirectionSpecificStreamParameters::setSuggestedLatency(PaTime latency)
{
paStreamParameters_.suggestedLatency = latency;
}
void DirectionSpecificStreamParameters::setHostApiSpecificStreamInfo(void *streamInfo)
{
paStreamParameters_.hostApiSpecificStreamInfo = streamInfo;
}
// -----------------------------------------------------------------------------------
PaStreamParameters *DirectionSpecificStreamParameters::paStreamParameters()
{
if (paStreamParameters_.channelCount > 0 && paStreamParameters_.device != paNoDevice)
return &paStreamParameters_;
else
return NULL;
}
const PaStreamParameters *DirectionSpecificStreamParameters::paStreamParameters() const
{
if (paStreamParameters_.channelCount > 0 && paStreamParameters_.device != paNoDevice)
return &paStreamParameters_;
else
return NULL;
}
Device &DirectionSpecificStreamParameters::device() const
{
return System::instance().deviceByIndex(paStreamParameters_.device);
}
int DirectionSpecificStreamParameters::numChannels() const
{
return paStreamParameters_.channelCount;
}
//////
/// Returns the (non host api-specific) sample format, without including
/// the paNonInterleaved flag. If the sample format is host api-spefific,
/// INVALID_FORMAT (0) will be returned.
//////
SampleDataFormat DirectionSpecificStreamParameters::sampleFormat() const
{
if (isSampleFormatHostApiSpecific())
return INVALID_FORMAT;
else
return static_cast<SampleDataFormat>(paStreamParameters_.sampleFormat & ~paNonInterleaved);
}
bool DirectionSpecificStreamParameters::isSampleFormatInterleaved() const
{
return ((paStreamParameters_.sampleFormat & paNonInterleaved) == 0);
}
bool DirectionSpecificStreamParameters::isSampleFormatHostApiSpecific() const
{
return ((paStreamParameters_.sampleFormat & paCustomFormat) == 0);
}
//////
/// Returns the host api-specific sample format, without including any
/// paCustomFormat or paNonInterleaved flags. Will return 0 if the sample format is
/// not host api-specific.
//////
PaSampleFormat DirectionSpecificStreamParameters::hostApiSpecificSampleFormat() const
{
if (isSampleFormatHostApiSpecific())
return paStreamParameters_.sampleFormat & ~paCustomFormat & ~paNonInterleaved;
else
return 0;
}
PaTime DirectionSpecificStreamParameters::suggestedLatency() const
{
return paStreamParameters_.suggestedLatency;
}
void *DirectionSpecificStreamParameters::hostApiSpecificStreamInfo() const
{
return paStreamParameters_.hostApiSpecificStreamInfo;
}
// -----------------------------------------------------------------------------------
} // namespace portaudio
#include "portaudiocpp/DirectionSpecificStreamParameters.hxx"
#include "portaudiocpp/Device.hxx"
namespace portaudio
{
// -----------------------------------------------------------------------------------
//////
/// Returns a `nil' DirectionSpecificStreamParameters object. This can be used to
/// specify that one direction of a Stream is not required (i.e. when creating
/// a half-duplex Stream). All fields of the null DirectionSpecificStreamParameters
/// object are invalid except for the device and the number of channel, which are set
/// to paNoDevice and 0 respectively.
//////
DirectionSpecificStreamParameters DirectionSpecificStreamParameters::null()
{
DirectionSpecificStreamParameters tmp;
tmp.paStreamParameters_.device = paNoDevice;
tmp.paStreamParameters_.channelCount = 0;
return tmp;
}
// -----------------------------------------------------------------------------------
//////
/// Default constructor -- all parameters will be uninitialized.
//////
DirectionSpecificStreamParameters::DirectionSpecificStreamParameters()
{
}
//////
/// Constructor which sets all required fields.
//////
DirectionSpecificStreamParameters::DirectionSpecificStreamParameters(const Device &device, int numChannels,
SampleDataFormat format, bool interleaved, PaTime suggestedLatency, void *hostApiSpecificStreamInfo)
{
setDevice(device);
setNumChannels(numChannels);
setSampleFormat(format, interleaved);
setSuggestedLatency(suggestedLatency);
setHostApiSpecificStreamInfo(hostApiSpecificStreamInfo);
}
// -----------------------------------------------------------------------------------
void DirectionSpecificStreamParameters::setDevice(const Device &device)
{
paStreamParameters_.device = device.index();
}
void DirectionSpecificStreamParameters::setNumChannels(int numChannels)
{
paStreamParameters_.channelCount = numChannels;
}
void DirectionSpecificStreamParameters::setSampleFormat(SampleDataFormat format, bool interleaved)
{
paStreamParameters_.sampleFormat = static_cast<PaSampleFormat>(format);
if (!interleaved)
paStreamParameters_.sampleFormat |= paNonInterleaved;
}
void DirectionSpecificStreamParameters::setHostApiSpecificSampleFormat(PaSampleFormat format, bool interleaved)
{
paStreamParameters_.sampleFormat = format;
paStreamParameters_.sampleFormat |= paCustomFormat;
if (!interleaved)
paStreamParameters_.sampleFormat |= paNonInterleaved;
}
void DirectionSpecificStreamParameters::setSuggestedLatency(PaTime latency)
{
paStreamParameters_.suggestedLatency = latency;
}
void DirectionSpecificStreamParameters::setHostApiSpecificStreamInfo(void *streamInfo)
{
paStreamParameters_.hostApiSpecificStreamInfo = streamInfo;
}
// -----------------------------------------------------------------------------------
PaStreamParameters *DirectionSpecificStreamParameters::paStreamParameters()
{
if (paStreamParameters_.channelCount > 0 && paStreamParameters_.device != paNoDevice)
return &paStreamParameters_;
else
return NULL;
}
const PaStreamParameters *DirectionSpecificStreamParameters::paStreamParameters() const
{
if (paStreamParameters_.channelCount > 0 && paStreamParameters_.device != paNoDevice)
return &paStreamParameters_;
else
return NULL;
}
Device &DirectionSpecificStreamParameters::device() const
{
return System::instance().deviceByIndex(paStreamParameters_.device);
}
int DirectionSpecificStreamParameters::numChannels() const
{
return paStreamParameters_.channelCount;
}
//////
/// Returns the (non host api-specific) sample format, without including
/// the paNonInterleaved flag. If the sample format is host api-spefific,
/// INVALID_FORMAT (0) will be returned.
//////
SampleDataFormat DirectionSpecificStreamParameters::sampleFormat() const
{
if (isSampleFormatHostApiSpecific())
return INVALID_FORMAT;
else
return static_cast<SampleDataFormat>(paStreamParameters_.sampleFormat & ~paNonInterleaved);
}
bool DirectionSpecificStreamParameters::isSampleFormatInterleaved() const
{
return ((paStreamParameters_.sampleFormat & paNonInterleaved) == 0);
}
bool DirectionSpecificStreamParameters::isSampleFormatHostApiSpecific() const
{
return ((paStreamParameters_.sampleFormat & paCustomFormat) == 0);
}
//////
/// Returns the host api-specific sample format, without including any
/// paCustomFormat or paNonInterleaved flags. Will return 0 if the sample format is
/// not host api-specific.
//////
PaSampleFormat DirectionSpecificStreamParameters::hostApiSpecificSampleFormat() const
{
if (isSampleFormatHostApiSpecific())
return paStreamParameters_.sampleFormat & ~paCustomFormat & ~paNonInterleaved;
else
return 0;
}
PaTime DirectionSpecificStreamParameters::suggestedLatency() const
{
return paStreamParameters_.suggestedLatency;
}
void *DirectionSpecificStreamParameters::hostApiSpecificStreamInfo() const
{
return paStreamParameters_.hostApiSpecificStreamInfo;
}
// -----------------------------------------------------------------------------------
} // namespace portaudio