/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. The code included in this file is provided under the terms of the ISC license http://www.isc.org/downloads/software-support-policy/isc-license. Permission To use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted provided that the above copyright notice and this permission notice appear in all copies. JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wdeprecated-declarations") JUCE_BEGIN_IGNORE_WARNINGS_MSVC (4996) void AudioDataConverters::convertFloatToInt16LE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (intData) = ByteOrder::swapIfBigEndian ((uint16) (short) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; *unalignedPointerCast (intData) = ByteOrder::swapIfBigEndian ((uint16) (short) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); } } } void AudioDataConverters::convertFloatToInt16BE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (intData) = ByteOrder::swapIfLittleEndian ((uint16) (short) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; *unalignedPointerCast (intData) = ByteOrder::swapIfLittleEndian ((uint16) (short) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); } } } void AudioDataConverters::convertFloatToInt24LE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fffff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { ByteOrder::littleEndian24BitToChars (roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i])), intData); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; ByteOrder::littleEndian24BitToChars (roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i])), intData); } } } void AudioDataConverters::convertFloatToInt24BE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fffff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { ByteOrder::bigEndian24BitToChars (roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i])), intData); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; ByteOrder::bigEndian24BitToChars (roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i])), intData); } } } void AudioDataConverters::convertFloatToInt32LE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fffffff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (intData) = ByteOrder::swapIfBigEndian ((uint32) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; *unalignedPointerCast (intData) = ByteOrder::swapIfBigEndian ((uint32) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); } } } void AudioDataConverters::convertFloatToInt32BE (const float* source, void* dest, int numSamples, int destBytesPerSample) { auto maxVal = (double) 0x7fffffff; auto intData = static_cast (dest); if (dest != (void*) source || destBytesPerSample <= 4) { for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (intData) = ByteOrder::swapIfLittleEndian ((uint32) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); intData += destBytesPerSample; } } else { intData += destBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= destBytesPerSample; *unalignedPointerCast (intData) = ByteOrder::swapIfLittleEndian ((uint32) roundToInt (jlimit (-maxVal, maxVal, maxVal * source[i]))); } } } void AudioDataConverters::convertFloatToFloat32LE (const float* source, void* dest, int numSamples, int destBytesPerSample) { jassert (dest != (void*) source || destBytesPerSample <= 4); // This op can't be performed on in-place data! char* d = static_cast (dest); for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (d) = source[i]; #if JUCE_BIG_ENDIAN *unalignedPointerCast (d) = ByteOrder::swap (*unalignedPointerCast (d)); #endif d += destBytesPerSample; } } void AudioDataConverters::convertFloatToFloat32BE (const float* source, void* dest, int numSamples, int destBytesPerSample) { jassert (dest != (void*) source || destBytesPerSample <= 4); // This op can't be performed on in-place data! auto d = static_cast (dest); for (int i = 0; i < numSamples; ++i) { *unalignedPointerCast (d) = source[i]; #if JUCE_LITTLE_ENDIAN *unalignedPointerCast (d) = ByteOrder::swap (*unalignedPointerCast (d)); #endif d += destBytesPerSample; } } //============================================================================== void AudioDataConverters::convertInt16LEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / 0x7fff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (short) ByteOrder::swapIfBigEndian (*unalignedPointerCast (intData)); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (short) ByteOrder::swapIfBigEndian (*unalignedPointerCast (intData)); } } } void AudioDataConverters::convertInt16BEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / 0x7fff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (short) ByteOrder::swapIfLittleEndian (*unalignedPointerCast (intData)); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (short) ByteOrder::swapIfLittleEndian (*unalignedPointerCast (intData)); } } } void AudioDataConverters::convertInt24LEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / 0x7fffff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (short) ByteOrder::littleEndian24Bit (intData); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (short) ByteOrder::littleEndian24Bit (intData); } } } void AudioDataConverters::convertInt24BEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / 0x7fffff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (short) ByteOrder::bigEndian24Bit (intData); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (short) ByteOrder::bigEndian24Bit (intData); } } } void AudioDataConverters::convertInt32LEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / (float) 0x7fffffff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (float) ByteOrder::swapIfBigEndian (*unalignedPointerCast (intData)); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (float) ByteOrder::swapIfBigEndian (*unalignedPointerCast (intData)); } } } void AudioDataConverters::convertInt32BEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { const float scale = 1.0f / (float) 0x7fffffff; auto intData = static_cast (source); if (source != (void*) dest || srcBytesPerSample >= 4) { for (int i = 0; i < numSamples; ++i) { dest[i] = scale * (float) ByteOrder::swapIfLittleEndian (*unalignedPointerCast (intData)); intData += srcBytesPerSample; } } else { intData += srcBytesPerSample * numSamples; for (int i = numSamples; --i >= 0;) { intData -= srcBytesPerSample; dest[i] = scale * (float) ByteOrder::swapIfLittleEndian (*unalignedPointerCast (intData)); } } } void AudioDataConverters::convertFloat32LEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { auto s = static_cast (source); for (int i = 0; i < numSamples; ++i) { dest[i] = *unalignedPointerCast (s); #if JUCE_BIG_ENDIAN auto d = unalignedPointerCast (dest + i); *d = ByteOrder::swap (*d); #endif s += srcBytesPerSample; } } void AudioDataConverters::convertFloat32BEToFloat (const void* source, float* dest, int numSamples, int srcBytesPerSample) { auto s = static_cast (source); for (int i = 0; i < numSamples; ++i) { dest[i] = *unalignedPointerCast (s); #if JUCE_LITTLE_ENDIAN auto d = unalignedPointerCast (dest + i); *d = ByteOrder::swap (*d); #endif s += srcBytesPerSample; } } //============================================================================== void AudioDataConverters::convertFloatToFormat (DataFormat destFormat, const float* source, void* dest, int numSamples) { switch (destFormat) { case int16LE: convertFloatToInt16LE (source, dest, numSamples); break; case int16BE: convertFloatToInt16BE (source, dest, numSamples); break; case int24LE: convertFloatToInt24LE (source, dest, numSamples); break; case int24BE: convertFloatToInt24BE (source, dest, numSamples); break; case int32LE: convertFloatToInt32LE (source, dest, numSamples); break; case int32BE: convertFloatToInt32BE (source, dest, numSamples); break; case float32LE: convertFloatToFloat32LE (source, dest, numSamples); break; case float32BE: convertFloatToFloat32BE (source, dest, numSamples); break; default: jassertfalse; break; } } void AudioDataConverters::convertFormatToFloat (DataFormat sourceFormat, const void* source, float* dest, int numSamples) { switch (sourceFormat) { case int16LE: convertInt16LEToFloat (source, dest, numSamples); break; case int16BE: convertInt16BEToFloat (source, dest, numSamples); break; case int24LE: convertInt24LEToFloat (source, dest, numSamples); break; case int24BE: convertInt24BEToFloat (source, dest, numSamples); break; case int32LE: convertInt32LEToFloat (source, dest, numSamples); break; case int32BE: convertInt32BEToFloat (source, dest, numSamples); break; case float32LE: convertFloat32LEToFloat (source, dest, numSamples); break; case float32BE: convertFloat32BEToFloat (source, dest, numSamples); break; default: jassertfalse; break; } } //============================================================================== void AudioDataConverters::interleaveSamples (const float** source, float* dest, int numSamples, int numChannels) { for (int chan = 0; chan < numChannels; ++chan) { auto i = chan; auto src = source [chan]; for (int j = 0; j < numSamples; ++j) { dest [i] = src [j]; i += numChannels; } } } void AudioDataConverters::deinterleaveSamples (const float* source, float** dest, int numSamples, int numChannels) { for (int chan = 0; chan < numChannels; ++chan) { auto i = chan; auto dst = dest [chan]; for (int j = 0; j < numSamples; ++j) { dst [j] = source [i]; i += numChannels; } } } //============================================================================== //============================================================================== #if JUCE_UNIT_TESTS class AudioConversionTests : public UnitTest { public: AudioConversionTests() : UnitTest ("Audio data conversion", UnitTestCategories::audio) {} template struct Test5 { static void test (UnitTest& unitTest, Random& r) { test (unitTest, false, r); test (unitTest, true, r); } JUCE_BEGIN_IGNORE_WARNINGS_MSVC (6262) static void test (UnitTest& unitTest, bool inPlace, Random& r) { const int numSamples = 2048; int32 original [(size_t) numSamples], converted[(size_t) numSamples], reversed [(size_t) numSamples]; { AudioData::Pointer d (original); bool clippingFailed = false; for (int i = 0; i < numSamples / 2; ++i) { d.setAsFloat (r.nextFloat() * 2.2f - 1.1f); if (! d.isFloatingPoint()) clippingFailed = d.getAsFloat() > 1.0f || d.getAsFloat() < -1.0f || clippingFailed; ++d; d.setAsInt32 (r.nextInt()); ++d; } unitTest.expect (! clippingFailed); } // convert data from the source to dest format.. std::unique_ptr conv (new AudioData::ConverterInstance, AudioData::Pointer>()); conv->convertSamples (inPlace ? reversed : converted, original, numSamples); // ..and back again.. conv.reset (new AudioData::ConverterInstance, AudioData::Pointer>()); if (! inPlace) zeromem (reversed, sizeof (reversed)); conv->convertSamples (reversed, inPlace ? reversed : converted, numSamples); { int biggestDiff = 0; AudioData::Pointer d1 (original); AudioData::Pointer d2 (reversed); const int errorMargin = 2 * AudioData::Pointer::get32BitResolution() + AudioData::Pointer::get32BitResolution(); for (int i = 0; i < numSamples; ++i) { biggestDiff = jmax (biggestDiff, std::abs (d1.getAsInt32() - d2.getAsInt32())); ++d1; ++d2; } unitTest.expect (biggestDiff <= errorMargin); } } JUCE_END_IGNORE_WARNINGS_MSVC }; template struct Test3 { static void test (UnitTest& unitTest, Random& r) { Test5 ::test (unitTest, r); Test5 ::test (unitTest, r); } }; template struct Test2 { static void test (UnitTest& unitTest, Random& r) { Test3 ::test (unitTest, r); Test3 ::test (unitTest, r); Test3 ::test (unitTest, r); Test3 ::test (unitTest, r); Test3 ::test (unitTest, r); Test3 ::test (unitTest, r); } }; template struct Test1 { static void test (UnitTest& unitTest, Random& r) { Test2 ::test (unitTest, r); Test2 ::test (unitTest, r); } }; void runTest() override { auto r = getRandom(); beginTest ("Round-trip conversion: Int8"); Test1 ::test (*this, r); beginTest ("Round-trip conversion: Int16"); Test1 ::test (*this, r); beginTest ("Round-trip conversion: Int24"); Test1 ::test (*this, r); beginTest ("Round-trip conversion: Int32"); Test1 ::test (*this, r); beginTest ("Round-trip conversion: Float32"); Test1 ::test (*this, r); } }; static AudioConversionTests audioConversionUnitTests; #endif JUCE_END_IGNORE_WARNINGS_MSVC JUCE_END_IGNORE_WARNINGS_GCC_LIKE } // namespace juce