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/*
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==============================================================================
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This file is part of the JUCE library.
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Copyright (c) 2015 - ROLI Ltd.
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Permission is granted to use this software under the terms of either:
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a) the GPL v2 (or any later version)
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b) the Affero GPL v3
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Details of these licenses can be found at: www.gnu.org/licenses
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JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
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A PARTICULAR PURPOSE. See the GNU General Public License for more details.
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------------------------------------------------------------------------------
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To release a closed-source product which uses JUCE, commercial licenses are
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available: visit www.juce.com for more information.
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==============================================================================
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*/
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#ifndef JUCE_AUDIOSAMPLEBUFFER_H_INCLUDED
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#define JUCE_AUDIOSAMPLEBUFFER_H_INCLUDED
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//==============================================================================
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/**
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A multi-channel buffer of 32-bit floating point audio samples.
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*/
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class JUCE_API AudioSampleBuffer
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{
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public:
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//==============================================================================
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/** Creates an empty buffer with 0 channels and 0 length. */
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AudioSampleBuffer() noexcept;
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//==============================================================================
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/** Creates a buffer with a specified number of channels and samples.
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The contents of the buffer will initially be undefined, so use clear() to
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set all the samples to zero.
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The buffer will allocate its memory internally, and this will be released
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when the buffer is deleted. If the memory can't be allocated, this will
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throw a std::bad_alloc exception.
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*/
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AudioSampleBuffer (int numChannels,
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int numSamples) noexcept;
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/** Creates a buffer using a pre-allocated block of memory.
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Note that if the buffer is resized or its number of channels is changed, it
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will re-allocate memory internally and copy the existing data to this new area,
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so it will then stop directly addressing this memory.
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@param dataToReferTo a pre-allocated array containing pointers to the data
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for each channel that should be used by this buffer. The
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buffer will only refer to this memory, it won't try to delete
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it when the buffer is deleted or resized.
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@param numChannels the number of channels to use - this must correspond to the
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number of elements in the array passed in
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@param numSamples the number of samples to use - this must correspond to the
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size of the arrays passed in
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*/
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AudioSampleBuffer (float* const* dataToReferTo,
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int numChannels,
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int numSamples) noexcept;
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/** Creates a buffer using a pre-allocated block of memory.
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Note that if the buffer is resized or its number of channels is changed, it
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will re-allocate memory internally and copy the existing data to this new area,
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so it will then stop directly addressing this memory.
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@param dataToReferTo a pre-allocated array containing pointers to the data
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for each channel that should be used by this buffer. The
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buffer will only refer to this memory, it won't try to delete
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it when the buffer is deleted or resized.
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@param numChannels the number of channels to use - this must correspond to the
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number of elements in the array passed in
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@param startSample the offset within the arrays at which the data begins
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@param numSamples the number of samples to use - this must correspond to the
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size of the arrays passed in
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*/
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AudioSampleBuffer (float* const* dataToReferTo,
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int numChannels,
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int startSample,
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int numSamples) noexcept;
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/** Copies another buffer.
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This buffer will make its own copy of the other's data, unless the buffer was created
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using an external data buffer, in which case boths buffers will just point to the same
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shared block of data.
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*/
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AudioSampleBuffer (const AudioSampleBuffer&) noexcept;
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/** Copies another buffer onto this one.
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This buffer's size will be changed to that of the other buffer.
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*/
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AudioSampleBuffer& operator= (const AudioSampleBuffer&) noexcept;
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/** Destructor.
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This will free any memory allocated by the buffer.
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*/
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~AudioSampleBuffer() noexcept;
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//==============================================================================
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/** Returns the number of channels of audio data that this buffer contains.
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@see getSampleData
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*/
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int getNumChannels() const noexcept { return numChannels; }
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/** Returns the number of samples allocated in each of the buffer's channels.
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@see getSampleData
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*/
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int getNumSamples() const noexcept { return size; }
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/** Returns a pointer to an array of read-only samples in one of the buffer's channels.
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For speed, this doesn't check whether the channel number is out of range,
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so be careful when using it!
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If you need to write to the data, do NOT call this method and const_cast the
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result! Instead, you must call getWritePointer so that the buffer knows you're
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planning on modifying the data.
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*/
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const float* getReadPointer (int channelNumber) const noexcept
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{
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jassert (isPositiveAndBelow (channelNumber, numChannels));
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return channels [channelNumber];
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}
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/** Returns a pointer to an array of read-only samples in one of the buffer's channels.
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For speed, this doesn't check whether the channel number or index are out of range,
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so be careful when using it!
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If you need to write to the data, do NOT call this method and const_cast the
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result! Instead, you must call getWritePointer so that the buffer knows you're
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planning on modifying the data.
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*/
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const float* getReadPointer (int channelNumber, int sampleIndex) const noexcept
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{
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jassert (isPositiveAndBelow (channelNumber, numChannels));
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jassert (isPositiveAndBelow (sampleIndex, size));
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return channels [channelNumber] + sampleIndex;
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}
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/** Returns a writeable pointer to one of the buffer's channels.
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For speed, this doesn't check whether the channel number is out of range,
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so be careful when using it!
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Note that if you're not planning on writing to the data, you should always
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use getReadPointer instead.
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*/
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float* getWritePointer (int channelNumber) noexcept
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{
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jassert (isPositiveAndBelow (channelNumber, numChannels));
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isClear = false;
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return channels [channelNumber];
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}
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/** Returns a writeable pointer to one of the buffer's channels.
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For speed, this doesn't check whether the channel number or index are out of range,
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so be careful when using it!
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Note that if you're not planning on writing to the data, you should
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use getReadPointer instead.
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*/
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float* getWritePointer (int channelNumber, int sampleIndex) noexcept
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{
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jassert (isPositiveAndBelow (channelNumber, numChannels));
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jassert (isPositiveAndBelow (sampleIndex, size));
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isClear = false;
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return channels [channelNumber] + sampleIndex;
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}
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/** Returns an array of pointers to the channels in the buffer.
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Don't modify any of the pointers that are returned, and bear in mind that
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these will become invalid if the buffer is resized.
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*/
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const float** getArrayOfReadPointers() const noexcept { return const_cast<const float**> (channels); }
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/** Returns an array of pointers to the channels in the buffer.
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Don't modify any of the pointers that are returned, and bear in mind that
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these will become invalid if the buffer is resized.
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*/
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float** getArrayOfWritePointers() noexcept { isClear = false; return channels; }
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//==============================================================================
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/** Changes the buffer's size or number of channels.
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This can expand or contract the buffer's length, and add or remove channels.
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If keepExistingContent is true, it will try to preserve as much of the
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old data as it can in the new buffer.
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If clearExtraSpace is true, then any extra channels or space that is
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allocated will be also be cleared. If false, then this space is left
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uninitialised.
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If avoidReallocating is true, then changing the buffer's size won't reduce the
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amount of memory that is currently allocated (but it will still increase it if
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the new size is bigger than the amount it currently has). If this is false, then
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a new allocation will be done so that the buffer uses takes up the minimum amount
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of memory that it needs.
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If the required memory can't be allocated, this will throw a std::bad_alloc exception.
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*/
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void setSize (int newNumChannels,
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int newNumSamples,
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bool keepExistingContent = false,
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bool clearExtraSpace = false,
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bool avoidReallocating = false) noexcept;
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/** Makes this buffer point to a pre-allocated set of channel data arrays.
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There's also a constructor that lets you specify arrays like this, but this
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lets you change the channels dynamically.
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Note that if the buffer is resized or its number of channels is changed, it
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will re-allocate memory internally and copy the existing data to this new area,
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so it will then stop directly addressing this memory.
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@param dataToReferTo a pre-allocated array containing pointers to the data
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for each channel that should be used by this buffer. The
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buffer will only refer to this memory, it won't try to delete
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it when the buffer is deleted or resized.
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@param numChannels the number of channels to use - this must correspond to the
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number of elements in the array passed in
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@param numSamples the number of samples to use - this must correspond to the
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size of the arrays passed in
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*/
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void setDataToReferTo (float** dataToReferTo,
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int numChannels,
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int numSamples) noexcept;
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//==============================================================================
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/** Clears all the samples in all channels. */
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void clear() noexcept;
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/** Clears a specified region of all the channels.
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For speed, this doesn't check whether the channel and sample number
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are in-range, so be careful!
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*/
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void clear (int startSample,
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int numSamples) noexcept;
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/** Clears a specified region of just one channel.
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For speed, this doesn't check whether the channel and sample number
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are in-range, so be careful!
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*/
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void clear (int channel,
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int startSample,
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int numSamples) noexcept;
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/** Returns true if the buffer has been entirely cleared.
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Note that this does not actually measure the contents of the buffer - it simply
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returns a flag that is set when the buffer is cleared, and which is reset whenever
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functions like getWritePointer() are invoked. That means the method does not take
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any time, but it may return false negatives when in fact the buffer is still empty.
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*/
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bool hasBeenCleared() const noexcept { return isClear; }
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//==============================================================================
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/** Returns a sample from the buffer.
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The channel and index are not checked - they are expected to be in-range. If not,
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an assertion will be thrown, but in a release build, you're into 'undefined behaviour'
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territory.
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*/
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float getSample (int channel, int sampleIndex) const noexcept;
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/** Sets a sample in the buffer.
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The channel and index are not checked - they are expected to be in-range. If not,
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an assertion will be thrown, but in a release build, you're into 'undefined behaviour'
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territory.
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*/
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void setSample (int destChannel, int destSample, float newValue) noexcept;
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/** Adds a value to a sample in the buffer.
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The channel and index are not checked - they are expected to be in-range. If not,
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an assertion will be thrown, but in a release build, you're into 'undefined behaviour'
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territory.
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*/
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void addSample (int destChannel, int destSample, float valueToAdd) noexcept;
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/** Applies a gain multiple to a region of one channel.
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For speed, this doesn't check whether the channel and sample number
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are in-range, so be careful!
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*/
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void applyGain (int channel,
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int startSample,
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int numSamples,
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float gain) noexcept;
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/** Applies a gain multiple to a region of all the channels.
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For speed, this doesn't check whether the sample numbers
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are in-range, so be careful!
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*/
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void applyGain (int startSample,
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int numSamples,
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float gain) noexcept;
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/** Applies a gain multiple to all the audio data. */
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void applyGain (float gain) noexcept;
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/** Applies a range of gains to a region of a channel.
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The gain that is applied to each sample will vary from
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startGain on the first sample to endGain on the last Sample,
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so it can be used to do basic fades.
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For speed, this doesn't check whether the sample numbers
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are in-range, so be careful!
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*/
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void applyGainRamp (int channel,
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int startSample,
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int numSamples,
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float startGain,
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float endGain) noexcept;
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/** Applies a range of gains to a region of all channels.
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The gain that is applied to each sample will vary from
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startGain on the first sample to endGain on the last Sample,
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so it can be used to do basic fades.
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For speed, this doesn't check whether the sample numbers
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are in-range, so be careful!
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*/
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void applyGainRamp (int startSample,
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int numSamples,
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float startGain,
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float endGain) noexcept;
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/** Adds samples from another buffer to this one.
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@param destChannel the channel within this buffer to add the samples to
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@param destStartSample the start sample within this buffer's channel
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@param source the source buffer to add from
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@param sourceChannel the channel within the source buffer to read from
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@param sourceStartSample the offset within the source buffer's channel to start reading samples from
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@param numSamples the number of samples to process
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@param gainToApplyToSource an optional gain to apply to the source samples before they are
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added to this buffer's samples
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@see copyFrom
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*/
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void addFrom (int destChannel,
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int destStartSample,
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const AudioSampleBuffer& source,
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int sourceChannel,
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int sourceStartSample,
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int numSamples,
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float gainToApplyToSource = 1.0f) noexcept;
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/** Adds samples from an array of floats to one of the channels.
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@param destChannel the channel within this buffer to add the samples to
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@param destStartSample the start sample within this buffer's channel
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@param source the source data to use
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@param numSamples the number of samples to process
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@param gainToApplyToSource an optional gain to apply to the source samples before they are
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added to this buffer's samples
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@see copyFrom
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*/
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void addFrom (int destChannel,
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int destStartSample,
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|
|
const float* source,
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int numSamples,
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|
|
float gainToApplyToSource = 1.0f) noexcept;
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/** Adds samples from an array of floats, applying a gain ramp to them.
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@param destChannel the channel within this buffer to add the samples to
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@param destStartSample the start sample within this buffer's channel
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@param source the source data to use
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@param numSamples the number of samples to process
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@param startGain the gain to apply to the first sample (this is multiplied with
|
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|
the source samples before they are added to this buffer)
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@param endGain the gain to apply to the final sample. The gain is linearly
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interpolated between the first and last samples.
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*/
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void addFromWithRamp (int destChannel,
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int destStartSample,
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const float* source,
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int numSamples,
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float startGain,
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float endGain) noexcept;
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/** Copies samples from another buffer to this one.
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@param destChannel the channel within this buffer to copy the samples to
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@param destStartSample the start sample within this buffer's channel
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@param source the source buffer to read from
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@param sourceChannel the channel within the source buffer to read from
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@param sourceStartSample the offset within the source buffer's channel to start reading samples from
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@param numSamples the number of samples to process
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@see addFrom
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*/
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void copyFrom (int destChannel,
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int destStartSample,
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const AudioSampleBuffer& source,
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int sourceChannel,
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int sourceStartSample,
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int numSamples) noexcept;
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/** Copies samples from an array of floats into one of the channels.
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|
@param destChannel the channel within this buffer to copy the samples to
|
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|
@param destStartSample the start sample within this buffer's channel
|
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|
@param source the source buffer to read from
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|
@param numSamples the number of samples to process
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|
@see addFrom
|
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*/
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|
void copyFrom (int destChannel,
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int destStartSample,
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const float* source,
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int numSamples) noexcept;
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|
|
/** Copies samples from an array of floats into one of the channels, applying a gain to it.
|
|
|
|
|
|
|
|
@param destChannel the channel within this buffer to copy the samples to
|
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|
|
@param destStartSample the start sample within this buffer's channel
|
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|
|
@param source the source buffer to read from
|
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|
@param numSamples the number of samples to process
|
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|
|
@param gain the gain to apply
|
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|
@see addFrom
|
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*/
|
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|
|
void copyFrom (int destChannel,
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|
int destStartSample,
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|
const float* source,
|
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|
|
int numSamples,
|
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|
|
float gain) noexcept;
|
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|
|
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|
|
|
/** Copies samples from an array of floats into one of the channels, applying a gain ramp.
|
|
|
|
|
|
|
|
@param destChannel the channel within this buffer to copy the samples to
|
|
|
|
@param destStartSample the start sample within this buffer's channel
|
|
|
|
@param source the source buffer to read from
|
|
|
|
@param numSamples the number of samples to process
|
|
|
|
@param startGain the gain to apply to the first sample (this is multiplied with
|
|
|
|
the source samples before they are copied to this buffer)
|
|
|
|
@param endGain the gain to apply to the final sample. The gain is linearly
|
|
|
|
interpolated between the first and last samples.
|
|
|
|
|
|
|
|
@see addFrom
|
|
|
|
*/
|
|
|
|
void copyFromWithRamp (int destChannel,
|
|
|
|
int destStartSample,
|
|
|
|
const float* source,
|
|
|
|
int numSamples,
|
|
|
|
float startGain,
|
|
|
|
float endGain) noexcept;
|
|
|
|
|
|
|
|
|
|
|
|
/** Returns a Range indicating the lowest and highest sample values in a given section.
|
|
|
|
|
|
|
|
@param channel the channel to read from
|
|
|
|
@param startSample the start sample within the channel
|
|
|
|
@param numSamples the number of samples to check
|
|
|
|
*/
|
|
|
|
Range<float> findMinMax (int channel,
|
|
|
|
int startSample,
|
|
|
|
int numSamples) const noexcept;
|
|
|
|
|
|
|
|
/** Finds the highest absolute sample value within a region of a channel. */
|
|
|
|
float getMagnitude (int channel,
|
|
|
|
int startSample,
|
|
|
|
int numSamples) const noexcept;
|
|
|
|
|
|
|
|
/** Finds the highest absolute sample value within a region on all channels. */
|
|
|
|
float getMagnitude (int startSample,
|
|
|
|
int numSamples) const noexcept;
|
|
|
|
|
|
|
|
/** Returns the root mean squared level for a region of a channel. */
|
|
|
|
float getRMSLevel (int channel,
|
|
|
|
int startSample,
|
|
|
|
int numSamples) const noexcept;
|
|
|
|
|
|
|
|
/** Reverses a part of a channel. */
|
|
|
|
void reverse (int channel, int startSample, int numSamples) const noexcept;
|
|
|
|
|
|
|
|
/** Reverses a part of the buffer. */
|
|
|
|
void reverse (int startSample, int numSamples) const noexcept;
|
|
|
|
|
|
|
|
//==============================================================================
|
|
|
|
#ifndef DOXYGEN
|
|
|
|
// Note that these methods have now been replaced by getReadPointer() and getWritePointer()
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (const float* getSampleData (int channel) const, { return getReadPointer (channel); })
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (const float* getSampleData (int channel, int index) const, { return getReadPointer (channel, index); })
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (float* getSampleData (int channel), { return getWritePointer (channel); })
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (float* getSampleData (int channel, int index), { return getWritePointer (channel, index); })
|
|
|
|
|
|
|
|
// These have been replaced by getArrayOfReadPointers() and getArrayOfWritePointers()
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (const float** getArrayOfChannels() const, { return getArrayOfReadPointers(); })
|
|
|
|
JUCE_DEPRECATED_WITH_BODY (float** getArrayOfChannels(), { return getArrayOfWritePointers(); })
|
|
|
|
#endif
|
|
|
|
|
|
|
|
private:
|
|
|
|
//==============================================================================
|
|
|
|
int numChannels, size;
|
|
|
|
size_t allocatedBytes;
|
|
|
|
float** channels;
|
|
|
|
HeapBlock<char, true> allocatedData;
|
|
|
|
float* preallocatedChannelSpace [32];
|
|
|
|
bool isClear;
|
|
|
|
|
|
|
|
void allocateData();
|
|
|
|
void allocateChannels (float* const*, int offset);
|
|
|
|
|
|
|
|
JUCE_LEAK_DETECTOR (AudioSampleBuffer)
|
|
|
|
};
|
|
|
|
|
|
|
|
|
|
|
|
#endif // JUCE_AUDIOSAMPLEBUFFER_H_INCLUDED
|