/* ============================================================================== This file is part of the JUCE 6 technical preview. Copyright (c) 2017 - ROLI Ltd. You may use this code under the terms of the GPL v3 (see www.gnu.org/licenses). For this technical preview, this file is not subject to commercial licensing. 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 { namespace dsp { template class AudioBlockUnitTests : public UnitTest { public: //============================================================================== using NumericType = typename SampleTypeHelpers::ElementType::Type; AudioBlockUnitTests() : UnitTest ("AudioBlock", UnitTestCategories::dsp) { for (auto v : { &data, &otherData }) for (auto& channel : *v) channel = allocateAlignedMemory (numSamples); block = { data.data(), data.size(), (size_t) numSamples }; otherBlock = { otherData.data(), otherData.size(), (size_t) numSamples }; resetBlocks(); } ~AudioBlockUnitTests() override { for (auto v : { &data, &otherData }) for (auto channel : *v) deallocateAlignedMemory (channel); } void runTest() override { beginTest ("Equality"); { expect (block == block); expect (block != otherBlock); } beginTest ("Constructors"); { expect (block == AudioBlock (data.data(), data.size(), numSamples)); expect (block == AudioBlock (data.data(), data.size(), (size_t) 0, numSamples)); expect (block == AudioBlock (block)); expect (block == AudioBlock (data.data(), data.size(), numSamples)); expect (block == AudioBlock (data.data(), data.size(), (size_t) 0, numSamples)); expect (block == AudioBlock (block)); } beginTest ("Swap"); { resetBlocks(); expect (block != otherBlock); expect (block.getSample (0, 0) == SampleType (1.0)); expect (block.getSample (0, 4) == SampleType (5.0)); expect (otherBlock.getSample (0, 0) == SampleType (-1.0)); expect (otherBlock.getSample (0, 3) == SampleType (-4.0)); block.swap (otherBlock); expect (block != otherBlock); expect (otherBlock.getSample (0, 0) == SampleType (1.0)); expect (otherBlock.getSample (0, 4) == SampleType (5.0)); expect (block.getSample (0, 0) == SampleType (-1.0)); expect (block.getSample (0, 3) == SampleType (-4.0)); block.swap (otherBlock); expect (block.getSample (0, 0) == SampleType (1.0)); expect (block.getSample (0, 4) == SampleType (5.0)); expect (otherBlock.getSample (0, 0) == SampleType (-1.0)); expect (otherBlock.getSample (0, 3) == SampleType (-4.0)); } beginTest ("Getters and setters"); { resetBlocks(); expectEquals ((int) block.getNumChannels(), (int) data.size()); expectEquals ((int) block.getNumSamples(), numSamples); expect (block.getChannelPointer (0)[2] == SampleType (3.0)); block.getChannelPointer (0)[2] = SampleType (999.0); expect (block.getChannelPointer (0)[2] == SampleType (999.0)); expect (block.getSample (0, 4) == SampleType (5.0)); expect (block.getSample (1, 4) == SampleType (11.0)); expect (block.getSingleChannelBlock (1).getSample (0, 3) == block.getSample (1, 3)); expect (block.getSubsetChannelBlock (0, 2).getSample (1, 3) == block.getSample (1, 3)); expect (block.getSubsetChannelBlock (1, 1).getSample (0, 3) == block.getSample (1, 3)); block.setSample (1, 1, SampleType (777.0)); expect (block.getSample (1, 1) == SampleType (777.0)); block.addSample (1, 1, SampleType (1.0)); expect (block.getSample (1, 1) == SampleType (778.0)); } beginTest ("Basic copying"); { block.clear(); expect (block.getSample (0, 2) == SampleType (0.0)); expect (block.getSample (1, 4) == SampleType (0.0)); block.fill ((NumericType) 456.0); expect (block.getSample (0, 2) == SampleType (456.0)); expect (block.getSample (1, 4) == SampleType (456.0)); block.copyFrom (otherBlock); expect (block != otherBlock); expect (block.getSample (0, 2) == otherBlock.getSample (0, 2)); expect (block.getSample (1, 4) == otherBlock.getSample (1, 4)); resetBlocks(); SampleType testSample1 = block.getSample (0, 2); SampleType testSample2 = block.getSample (1, 3); expect (testSample1 != block.getSample (0, 4)); expect (testSample2 != block.getSample (1, 5)); block.move (0, 2); expect (block.getSample (0, 4) == testSample1); expect (block.getSample (1, 5) == testSample2); } beginTest ("Addition"); { resetBlocks(); block.add ((NumericType) 15.0); expect (block.getSample (0, 4) == SampleType (20.0)); expect (block.getSample (1, 4) == SampleType (26.0)); block.add (otherBlock); expect (block.getSample (0, 4) == SampleType (15.0)); expect (block.getSample (1, 4) == SampleType (15.0)); block.replaceWithSumOf (otherBlock, (NumericType) 9.0); expect (block.getSample (0, 4) == SampleType (4.0)); expect (block.getSample (1, 4) == SampleType (-2.0)); resetBlocks(); block.replaceWithSumOf (block, otherBlock); expect (block.getSample (0, 4) == SampleType (0.0)); expect (block.getSample (1, 4) == SampleType (0.0)); } beginTest ("Subtraction"); { resetBlocks(); block.subtract ((NumericType) 15.0); expect (block.getSample (0, 4) == SampleType (-10.0)); expect (block.getSample (1, 4) == SampleType (-4.0)); block.subtract (otherBlock); expect (block.getSample (0, 4) == SampleType (-5.0)); expect (block.getSample (1, 4) == SampleType (7.0)); block.replaceWithDifferenceOf (otherBlock, (NumericType) 9.0); expect (block.getSample (0, 4) == SampleType (-14.0)); expect (block.getSample (1, 4) == SampleType (-20.0)); resetBlocks(); block.replaceWithDifferenceOf (block, otherBlock); expect (block.getSample (0, 4) == SampleType (10.0)); expect (block.getSample (1, 4) == SampleType (22.0)); } beginTest ("Multiplication"); { resetBlocks(); block.multiplyBy ((NumericType) 10.0); expect (block.getSample (0, 4) == SampleType (50.0)); expect (block.getSample (1, 4) == SampleType (110.0)); block.multiplyBy (otherBlock); expect (block.getSample (0, 4) == SampleType (-250.0)); expect (block.getSample (1, 4) == SampleType (-1210.0)); block.replaceWithProductOf (otherBlock, (NumericType) 3.0); expect (block.getSample (0, 4) == SampleType (-15.0)); expect (block.getSample (1, 4) == SampleType (-33.0)); resetBlocks(); block.replaceWithProductOf (block, otherBlock); expect (block.getSample (0, 4) == SampleType (-25.0)); expect (block.getSample (1, 4) == SampleType (-121.0)); } beginTest ("Multiply add"); { resetBlocks(); block.addProductOf (otherBlock, (NumericType) -1.0); expect (block.getSample (0, 4) == SampleType (10.0)); expect (block.getSample (1, 4) == SampleType (22.0)); block.addProductOf (otherBlock, otherBlock); expect (block.getSample (0, 4) == SampleType (35.0)); expect (block.getSample (1, 4) == SampleType (143.0)); } beginTest ("Negative abs min max"); { resetBlocks(); otherBlock.negate(); block.add (otherBlock); expect (block.getSample (0, 4) == SampleType (10.0)); expect (block.getSample (1, 4) == SampleType (22.0)); block.replaceWithNegativeOf (otherBlock); expect (block.getSample (0, 4) == SampleType (-5.0)); expect (block.getSample (1, 4) == SampleType (-11.0)); block.clear(); otherBlock.negate(); block.replaceWithAbsoluteValueOf (otherBlock); expect (block.getSample (0, 4) == SampleType (5.0)); expect (block.getSample (1, 4) == SampleType (11.0)); resetBlocks(); block.replaceWithMinOf (block, otherBlock); expect (block.getSample (0, 4) == SampleType (-5.0)); expect (block.getSample (1, 4) == SampleType (-11.0)); resetBlocks(); block.replaceWithMaxOf (block, otherBlock); expect (block.getSample (0, 4) == SampleType (5.0)); expect (block.getSample (1, 4) == SampleType (11.0)); resetBlocks(); auto range = block.findMinAndMax(); expect (SampleType (range.getStart()) == SampleType (1.0)); expect (SampleType (range.getEnd()) == SampleType (12.0)); } beginTest ("Operators"); { resetBlocks(); block += (NumericType) 10.0; expect (block.getSample (0, 4) == SampleType (15.0)); expect (block.getSample (1, 4) == SampleType (21.0)); block += otherBlock; expect (block.getSample (0, 4) == SampleType (10.0)); expect (block.getSample (1, 4) == SampleType (10.0)); resetBlocks(); block -= (NumericType) 10.0; expect (block.getSample (0, 4) == SampleType (-5.0)); expect (block.getSample (1, 4) == SampleType (1.0)); block -= otherBlock; expect (block.getSample (0, 4) == SampleType (0.0)); expect (block.getSample (1, 4) == SampleType (12.0)); resetBlocks(); block *= (NumericType) 10.0; expect (block.getSample (0, 4) == SampleType (50.0)); expect (block.getSample (1, 4) == SampleType (110.0)); block *= otherBlock; expect (block.getSample (0, 4) == SampleType (-250.0)); expect (block.getSample (1, 4) == SampleType (-1210.0)); } beginTest ("Process"); { resetBlocks(); AudioBlock::process (block, otherBlock, [](SampleType x) { return x + (NumericType) 1.0; }); expect (otherBlock.getSample (0, 4) == SampleType (6.0)); expect (otherBlock.getSample (1, 4) == SampleType (12.0)); } beginTest ("Copying"); { resetBlocks(); copyingTests(); } beginTest ("Smoothing"); { resetBlocks(); smoothedValueTests(); } } private: //============================================================================== template using ScalarVoid = typename std::enable_if_t < std::is_scalar ::value, void>; template using SIMDVoid = typename std::enable_if_t ::value, void>; //============================================================================== template ScalarVoid copyingTests() { auto unchangedElement1 = block.getSample (0, 4); auto unchangedElement2 = block.getSample (1, 1); AudioBuffer otherBuffer (otherData.data(), (int) otherData.size(), numSamples); block.copyFrom (otherBuffer, 1, 2, 2); expectEquals (block.getSample (0, 4), unchangedElement1); expectEquals (block.getSample (1, 1), unchangedElement2); expectEquals (block.getSample (0, 2), otherBuffer.getSample (0, 1)); expectEquals (block.getSample (1, 3), otherBuffer.getSample (1, 2)); resetBlocks(); unchangedElement1 = otherBuffer.getSample (0, 4); unchangedElement2 = otherBuffer.getSample (1, 3); block.copyTo (otherBuffer, 2, 1, 2); expectEquals (otherBuffer.getSample (0, 4), unchangedElement1); expectEquals (otherBuffer.getSample (1, 3), unchangedElement2); expectEquals (otherBuffer.getSample (0, 1), block.getSample (0, 2)); expectEquals (otherBuffer.getSample (1, 2), block.getSample (1, 3)); } template SIMDVoid copyingTests() { auto numSIMDElements = SIMDRegister::SIMDNumElements; AudioBuffer numericData ((int) block.getNumChannels(), (int) (block.getNumSamples() * numSIMDElements)); for (int c = 0; c < numericData.getNumChannels(); ++c) std::fill_n (numericData.getWritePointer (c), numericData.getNumSamples(), (NumericType) 1.0); numericData.applyGainRamp (0, numericData.getNumSamples(), (NumericType) 0.127, (NumericType) 17.3); auto lastUnchangedIndexBeforeCopiedRange = (int) ((numSIMDElements * 2) - 1); auto firstUnchangedIndexAfterCopiedRange = (int) ((numSIMDElements * 4) + 1); auto unchangedElement1 = numericData.getSample (0, lastUnchangedIndexBeforeCopiedRange); auto unchangedElement2 = numericData.getSample (1, firstUnchangedIndexAfterCopiedRange); block.copyTo (numericData, 1, 2, 2); expectEquals (numericData.getSample (0, lastUnchangedIndexBeforeCopiedRange), unchangedElement1); expectEquals (numericData.getSample (1, firstUnchangedIndexAfterCopiedRange), unchangedElement2); expect (SampleType (numericData.getSample (0, 2 * (int) numSIMDElements)) == block.getSample (0, 1)); expect (SampleType (numericData.getSample (1, 3 * (int) numSIMDElements)) == block.getSample (1, 2)); numericData.applyGainRamp (0, numericData.getNumSamples(), (NumericType) 15.1, (NumericType) 0.7); auto unchangedSIMDElement1 = block.getSample (0, 1); auto unchangedSIMDElement2 = block.getSample (1, 4); block.copyFrom (numericData, 1, 2, 2); expect (block.getSample (0, 1) == unchangedSIMDElement1); expect (block.getSample (1, 4) == unchangedSIMDElement2); expectEquals (block.getSample (0, 2).get (0), numericData.getSample (0, (int) numSIMDElements)); expectEquals (block.getSample (1, 3).get (0), numericData.getSample (1, (int) (numSIMDElements * 2))); if (numSIMDElements > 1) { expectEquals (block.getSample (0, 2).get (1), numericData.getSample (0, (int) (numSIMDElements + 1))); expectEquals (block.getSample (1, 3).get (1), numericData.getSample (1, (int) ((numSIMDElements * 2) + 1))); } } //============================================================================== template ScalarVoid smoothedValueTests() { block.fill ((SampleType) 1.0); SmoothedValue sv { (SampleType) 1.0 }; sv.reset (1, 4); sv.setTargetValue ((SampleType) 0.0); block.multiplyBy (sv); expect (block.getSample (0, 2) < (SampleType) 1.0); expect (block.getSample (1, 2) < (SampleType) 1.0); expect (block.getSample (0, 2) > (SampleType) 0.0); expect (block.getSample (1, 2) > (SampleType) 0.0); expectEquals (block.getSample (0, 5), (SampleType) 0.0); expectEquals (block.getSample (1, 5), (SampleType) 0.0); sv.setCurrentAndTargetValue (-1.0f); sv.setTargetValue (0.0f); otherBlock.fill (-1.0f); block.replaceWithProductOf (otherBlock, sv); expect (block.getSample (0, 2) < (SampleType) 1.0); expect (block.getSample (1, 2) < (SampleType) 1.0); expect (block.getSample (0, 2) > (SampleType) 0.0); expect (block.getSample (1, 2) > (SampleType) 0.0); expectEquals (block.getSample (0, 5), (SampleType) 0.0); expectEquals (block.getSample (1, 5), (SampleType) 0.0); } template SIMDVoid smoothedValueTests() {} //============================================================================== void resetBlocks() { auto value = SampleType (1.0); for (size_t c = 0; c < block.getNumChannels(); ++c) { for (size_t i = 0; i < block.getNumSamples(); ++i) { block.setSample ((int) c, (int) i, value); value += SampleType (1.0); } } otherBlock.replaceWithNegativeOf (block); } //============================================================================== static SampleType* allocateAlignedMemory (int numSamplesToAllocate) { auto alignmentLowerBound = std::alignment_of::value; #if ! JUCE_WINDOWS alignmentLowerBound = jmax (sizeof (void*), alignmentLowerBound); #endif auto alignmentOrder = std::ceil (std::log2 (alignmentLowerBound)); auto requiredAlignment = (size_t) std::pow (2, alignmentOrder); auto size = (size_t) numSamplesToAllocate * sizeof (SampleType); #if JUCE_WINDOWS auto* memory = _aligned_malloc (size, requiredAlignment); #else void* memory; auto result = posix_memalign (&memory, requiredAlignment, size); if (result != 0) { jassertfalse; return nullptr; } #endif return static_cast (memory); } void deallocateAlignedMemory (void* address) { #if JUCE_WINDOWS _aligned_free (address); #else free (address); #endif } //============================================================================== static constexpr int numChannels = 2, numSamples = 6; std::array data, otherData; AudioBlock block, otherBlock; }; static AudioBlockUnitTests audioBlockFloatUnitTests; static AudioBlockUnitTests audioBlockDoubleUnitTests; static AudioBlockUnitTests> audioBlockSIMDFloatUnitTests; static AudioBlockUnitTests> audioBlockSIMDDoubleUnitTests; } // namespace dsp } // namespace juce