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|
//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#pragma once
#include <armnn/ArmNN.hpp>
#include "TestLayerVisitor.hpp"
#include <boost/test/unit_test.hpp>
namespace armnn
{
// Concrete TestLayerVisitor subclasses for layers taking Descriptor argument with overridden VisitLayer methods
class TestPermuteLayerVisitor : public TestLayerVisitor
{
private:
const PermuteDescriptor m_VisitorDescriptor;
public:
explicit TestPermuteLayerVisitor(const PermuteDescriptor& permuteDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(permuteDescriptor.m_DimMappings)
{};
void CheckDescriptor(const PermuteDescriptor& permuteDescriptor)
{
if (permuteDescriptor.m_DimMappings.GetSize() == m_VisitorDescriptor.m_DimMappings.GetSize())
{
for (unsigned int i = 0; i < permuteDescriptor.m_DimMappings.GetSize(); ++i)
{
BOOST_CHECK_EQUAL(permuteDescriptor.m_DimMappings[i], m_VisitorDescriptor.m_DimMappings[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for batchToSpaceNdDescriptor m_DimMappings.");
}
};
void VisitPermuteLayer(const IConnectableLayer* layer,
const PermuteDescriptor& permuteDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(permuteDescriptor);
CheckLayerName(name);
};
};
class TestBatchToSpaceNdLayerVisitor : public TestLayerVisitor
{
private:
BatchToSpaceNdDescriptor m_VisitorDescriptor;
public:
explicit TestBatchToSpaceNdLayerVisitor(const BatchToSpaceNdDescriptor& batchToSpaceNdDescriptor,
const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(batchToSpaceNdDescriptor.m_BlockShape, batchToSpaceNdDescriptor.m_Crops)
{
m_VisitorDescriptor.m_DataLayout = batchToSpaceNdDescriptor.m_DataLayout;
};
void CheckDescriptor(const BatchToSpaceNdDescriptor& batchToSpaceNdDescriptor)
{
if (batchToSpaceNdDescriptor.m_BlockShape.size() == m_VisitorDescriptor.m_BlockShape.size())
{
for (unsigned int i = 0; i < batchToSpaceNdDescriptor.m_BlockShape.size(); ++i)
{
BOOST_CHECK_EQUAL(batchToSpaceNdDescriptor.m_BlockShape[i], m_VisitorDescriptor.m_BlockShape[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for batchToSpaceNdDescriptor m_BlockShape.");
}
if (batchToSpaceNdDescriptor.m_Crops.size() == m_VisitorDescriptor.m_Crops.size())
{
for (unsigned int i = 0; i < batchToSpaceNdDescriptor.m_Crops.size(); ++i)
{
BOOST_CHECK_EQUAL(batchToSpaceNdDescriptor.m_Crops[i].first, m_VisitorDescriptor.m_Crops[i].first);
BOOST_CHECK_EQUAL(batchToSpaceNdDescriptor.m_Crops[i].second, m_VisitorDescriptor.m_Crops[i].second);
}
}
else
{
BOOST_ERROR("Unequal vector size for batchToSpaceNdDescriptor m_Crops.");
}
BOOST_CHECK(batchToSpaceNdDescriptor.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitBatchToSpaceNdLayer(const IConnectableLayer* layer,
const BatchToSpaceNdDescriptor& batchToSpaceNdDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(batchToSpaceNdDescriptor);
CheckLayerName(name);
};
};
class TestPooling2dLayerVisitor : public TestLayerVisitor
{
private:
Pooling2dDescriptor m_VisitorDescriptor;
public:
explicit TestPooling2dLayerVisitor(const Pooling2dDescriptor& pooling2dDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_PoolType = pooling2dDescriptor.m_PoolType;
m_VisitorDescriptor.m_PadLeft = pooling2dDescriptor.m_PadLeft;
m_VisitorDescriptor.m_PadRight = pooling2dDescriptor.m_PadRight;
m_VisitorDescriptor.m_PadTop = pooling2dDescriptor.m_PadTop;
m_VisitorDescriptor.m_PadBottom = pooling2dDescriptor.m_PadBottom;
m_VisitorDescriptor.m_PoolWidth = pooling2dDescriptor.m_PoolWidth;
m_VisitorDescriptor.m_PoolHeight = pooling2dDescriptor.m_PoolHeight;
m_VisitorDescriptor.m_StrideX = pooling2dDescriptor.m_StrideX;
m_VisitorDescriptor.m_StrideY = pooling2dDescriptor.m_StrideY;
m_VisitorDescriptor.m_OutputShapeRounding = pooling2dDescriptor.m_OutputShapeRounding;
m_VisitorDescriptor.m_PaddingMethod = pooling2dDescriptor.m_PaddingMethod;
m_VisitorDescriptor.m_DataLayout = pooling2dDescriptor.m_DataLayout;
};
void CheckDescriptor(const Pooling2dDescriptor& pooling2dDescriptor)
{
BOOST_CHECK(pooling2dDescriptor.m_PoolType == m_VisitorDescriptor.m_PoolType);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PadLeft, m_VisitorDescriptor.m_PadLeft);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PadRight, m_VisitorDescriptor.m_PadRight);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PadTop, m_VisitorDescriptor.m_PadTop);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PadBottom, m_VisitorDescriptor.m_PadBottom);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PoolWidth, m_VisitorDescriptor.m_PoolWidth);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_PoolHeight, m_VisitorDescriptor.m_PoolHeight);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_StrideX, m_VisitorDescriptor.m_StrideX);
BOOST_CHECK_EQUAL(pooling2dDescriptor.m_StrideY, m_VisitorDescriptor.m_StrideY);
BOOST_CHECK(pooling2dDescriptor.m_OutputShapeRounding == m_VisitorDescriptor.m_OutputShapeRounding);
BOOST_CHECK(pooling2dDescriptor.m_PaddingMethod == m_VisitorDescriptor.m_PaddingMethod);
BOOST_CHECK(pooling2dDescriptor.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitPooling2dLayer(const IConnectableLayer* layer,
const Pooling2dDescriptor& pooling2dDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(pooling2dDescriptor);
CheckLayerName(name);
};
};
class TestActivationLayerVisitor : public TestLayerVisitor
{
private:
ActivationDescriptor m_VisitorDescriptor;
public:
explicit TestActivationLayerVisitor(const ActivationDescriptor& activationDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_Function = activationDescriptor.m_Function;
m_VisitorDescriptor.m_A = activationDescriptor.m_A;
m_VisitorDescriptor.m_B = activationDescriptor.m_B;
};
void CheckDescriptor(const ActivationDescriptor& activationDescriptor)
{
BOOST_CHECK(activationDescriptor.m_Function == m_VisitorDescriptor.m_Function);
BOOST_CHECK_EQUAL(activationDescriptor.m_A, m_VisitorDescriptor.m_A);
BOOST_CHECK_EQUAL(activationDescriptor.m_B, m_VisitorDescriptor.m_B);
};
void VisitActivationLayer(const IConnectableLayer* layer,
const ActivationDescriptor& activationDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(activationDescriptor);
CheckLayerName(name);
};
};
class TestNormalizationLayerVisitor : public TestLayerVisitor
{
private:
NormalizationDescriptor m_VisitorDescriptor;
public:
explicit TestNormalizationLayerVisitor(const NormalizationDescriptor& normalizationDescriptor,
const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_NormChannelType = normalizationDescriptor.m_NormChannelType;
m_VisitorDescriptor.m_NormMethodType = normalizationDescriptor.m_NormMethodType;
m_VisitorDescriptor.m_NormSize = normalizationDescriptor.m_NormSize;
m_VisitorDescriptor.m_Alpha = normalizationDescriptor.m_Alpha;
m_VisitorDescriptor.m_Beta = normalizationDescriptor.m_Beta;
m_VisitorDescriptor.m_K = normalizationDescriptor.m_K;
m_VisitorDescriptor.m_DataLayout = normalizationDescriptor.m_DataLayout;
};
void CheckDescriptor(const NormalizationDescriptor& normalizationDescriptor)
{
BOOST_CHECK(normalizationDescriptor.m_NormChannelType == m_VisitorDescriptor.m_NormChannelType);
BOOST_CHECK(normalizationDescriptor.m_NormMethodType == m_VisitorDescriptor.m_NormMethodType);
BOOST_CHECK_EQUAL(normalizationDescriptor.m_NormSize, m_VisitorDescriptor.m_NormSize);
BOOST_CHECK_EQUAL(normalizationDescriptor.m_Alpha, m_VisitorDescriptor.m_Alpha);
BOOST_CHECK_EQUAL(normalizationDescriptor.m_Beta, m_VisitorDescriptor.m_Beta);
BOOST_CHECK_EQUAL(normalizationDescriptor.m_K, m_VisitorDescriptor.m_K);
BOOST_CHECK(normalizationDescriptor.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitNormalizationLayer(const IConnectableLayer* layer,
const NormalizationDescriptor& normalizationDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(normalizationDescriptor);
CheckLayerName(name);
};
};
class TestSoftmaxLayerVisitor : public TestLayerVisitor
{
private:
SoftmaxDescriptor m_VisitorDescriptor;
public:
explicit TestSoftmaxLayerVisitor(const SoftmaxDescriptor& softmaxDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_Beta = softmaxDescriptor.m_Beta;
};
void CheckDescriptor(const SoftmaxDescriptor& softmaxDescriptor)
{
BOOST_CHECK_EQUAL(softmaxDescriptor.m_Beta, m_VisitorDescriptor.m_Beta);
}
void VisitSoftmaxLayer(const IConnectableLayer* layer,
const SoftmaxDescriptor& softmaxDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(softmaxDescriptor);
CheckLayerName(name);
};
};
class TestSplitterLayerVisitor : public TestLayerVisitor
{
private:
ViewsDescriptor m_VisitorDescriptor;
public:
explicit TestSplitterLayerVisitor(const ViewsDescriptor& splitterDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(splitterDescriptor.GetNumViews(), splitterDescriptor.GetNumDimensions())
{
if (splitterDescriptor.GetNumViews() != m_VisitorDescriptor.GetNumViews())
{
BOOST_ERROR("Unequal number of views in splitter descriptor.");
}
else if (splitterDescriptor.GetNumDimensions() != m_VisitorDescriptor.GetNumDimensions())
{
BOOST_ERROR("Unequal number of dimensions in splitter descriptor.");
}
else
{
for (unsigned int i = 0; i < splitterDescriptor.GetNumViews(); ++i)
{
for (unsigned int j = 0; j < splitterDescriptor.GetNumDimensions(); ++j)
{
m_VisitorDescriptor.SetViewOriginCoord(i, j, splitterDescriptor.GetViewOrigin(i)[j]);
m_VisitorDescriptor.SetViewSize(i, j, splitterDescriptor.GetViewSizes(i)[j]);
}
}
}
};
void CheckDescriptor(const ViewsDescriptor& splitterDescriptor)
{
BOOST_CHECK_EQUAL(splitterDescriptor.GetNumViews(), m_VisitorDescriptor.GetNumViews());
BOOST_CHECK_EQUAL(splitterDescriptor.GetNumDimensions(), m_VisitorDescriptor.GetNumDimensions());
if (splitterDescriptor.GetNumViews() != m_VisitorDescriptor.GetNumViews())
{
BOOST_ERROR("Unequal number of views in splitter descriptor.");
}
else if (splitterDescriptor.GetNumDimensions() != m_VisitorDescriptor.GetNumDimensions())
{
BOOST_ERROR("Unequal number of dimensions in splitter descriptor.");
}
else
{
for (unsigned int i = 0; i < splitterDescriptor.GetNumViews(); ++i)
{
for (unsigned int j = 0; j < splitterDescriptor.GetNumDimensions(); ++j)
{
BOOST_CHECK_EQUAL(splitterDescriptor.GetViewOrigin(i)[j], m_VisitorDescriptor.GetViewOrigin(i)[j]);
BOOST_CHECK_EQUAL(splitterDescriptor.GetViewSizes(i)[j], m_VisitorDescriptor.GetViewSizes(i)[j]);
}
}
}
};
void VisitSplitterLayer(const IConnectableLayer* layer,
const ViewsDescriptor& splitterDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(splitterDescriptor);
CheckLayerName(name);
};
};
class TestConcatLayerVisitor : public TestLayerVisitor
{
private:
OriginsDescriptor m_VisitorDescriptor;
public:
explicit TestConcatLayerVisitor(const OriginsDescriptor& concatDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(concatDescriptor.GetNumViews(), concatDescriptor.GetNumDimensions())
{
m_VisitorDescriptor.SetConcatAxis(concatDescriptor.GetConcatAxis());
if (concatDescriptor.GetNumViews() != m_VisitorDescriptor.GetNumViews())
{
BOOST_ERROR("Unequal number of views in splitter descriptor.");
}
else if (concatDescriptor.GetNumDimensions() != m_VisitorDescriptor.GetNumDimensions())
{
BOOST_ERROR("Unequal number of dimensions in splitter descriptor.");
}
else
{
for (unsigned int i = 0; i < concatDescriptor.GetNumViews(); ++i)
{
for (unsigned int j = 0; j < concatDescriptor.GetNumDimensions(); ++j)
{
m_VisitorDescriptor.SetViewOriginCoord(i, j, concatDescriptor.GetViewOrigin(i)[j]);
}
}
}
};
void CheckDescriptor(const OriginsDescriptor& concatDescriptor)
{
BOOST_CHECK_EQUAL(concatDescriptor.GetNumViews(), m_VisitorDescriptor.GetNumViews());
BOOST_CHECK_EQUAL(concatDescriptor.GetNumDimensions(), m_VisitorDescriptor.GetNumDimensions());
BOOST_CHECK_EQUAL(concatDescriptor.GetConcatAxis(), m_VisitorDescriptor.GetConcatAxis());
if (concatDescriptor.GetNumViews() != m_VisitorDescriptor.GetNumViews())
{
BOOST_ERROR("Unequal number of views in splitter descriptor.");
}
else if (concatDescriptor.GetNumDimensions() != m_VisitorDescriptor.GetNumDimensions())
{
BOOST_ERROR("Unequal number of dimensions in splitter descriptor.");
}
else
{
for (unsigned int i = 0; i < concatDescriptor.GetNumViews(); ++i)
{
for (unsigned int j = 0; j < concatDescriptor.GetNumDimensions(); ++j)
{
BOOST_CHECK_EQUAL(concatDescriptor.GetViewOrigin(i)[j], m_VisitorDescriptor.GetViewOrigin(i)[j]);
}
}
}
}
void VisitConcatLayer(const IConnectableLayer* layer,
const OriginsDescriptor& concatDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(concatDescriptor);
CheckLayerName(name);
};
};
class TestResizeLayerVisitor : public TestLayerVisitor
{
private:
ResizeDescriptor m_VisitorDescriptor;
public:
explicit TestResizeLayerVisitor(const ResizeDescriptor& descriptor, const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_Method = descriptor.m_Method;
m_VisitorDescriptor.m_TargetWidth = descriptor.m_TargetWidth;
m_VisitorDescriptor.m_TargetHeight = descriptor.m_TargetHeight;
m_VisitorDescriptor.m_DataLayout = descriptor.m_DataLayout;
};
void CheckDescriptor(const ResizeDescriptor& descriptor)
{
BOOST_CHECK(descriptor.m_Method == m_VisitorDescriptor.m_Method);
BOOST_CHECK(descriptor.m_TargetWidth == m_VisitorDescriptor.m_TargetWidth);
BOOST_CHECK(descriptor.m_TargetHeight == m_VisitorDescriptor.m_TargetHeight);
BOOST_CHECK(descriptor.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitResizeLayer(const IConnectableLayer* layer,
const ResizeDescriptor& descriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(descriptor);
CheckLayerName(name);
};
};
class TestL2NormalizationLayerVisitor : public TestLayerVisitor
{
private:
L2NormalizationDescriptor m_VisitorDescriptor;
public:
explicit TestL2NormalizationLayerVisitor(const L2NormalizationDescriptor& desc, const char* name = nullptr)
: TestLayerVisitor(name)
{
m_VisitorDescriptor.m_DataLayout = desc.m_DataLayout;
};
void CheckDescriptor(const L2NormalizationDescriptor& desc)
{
BOOST_CHECK(desc.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitL2NormalizationLayer(const IConnectableLayer* layer,
const L2NormalizationDescriptor& desc,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(desc);
CheckLayerName(name);
};
};
class TestReshapeLayerVisitor : public TestLayerVisitor
{
private:
const ReshapeDescriptor m_VisitorDescriptor;
public:
explicit TestReshapeLayerVisitor(const ReshapeDescriptor& reshapeDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(reshapeDescriptor.m_TargetShape)
{};
void CheckDescriptor(const ReshapeDescriptor& reshapeDescriptor)
{
BOOST_CHECK_MESSAGE(reshapeDescriptor.m_TargetShape == m_VisitorDescriptor.m_TargetShape,
reshapeDescriptor.m_TargetShape << " compared to " << m_VisitorDescriptor.m_TargetShape);
}
void VisitReshapeLayer(const IConnectableLayer* layer,
const ReshapeDescriptor& reshapeDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(reshapeDescriptor);
CheckLayerName(name);
};
};
class TestSpaceToBatchNdLayerVisitor : public TestLayerVisitor
{
private:
SpaceToBatchNdDescriptor m_VisitorDescriptor;
public:
explicit TestSpaceToBatchNdLayerVisitor(const SpaceToBatchNdDescriptor& desc, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(desc.m_BlockShape, desc.m_PadList)
{
m_VisitorDescriptor.m_DataLayout = desc.m_DataLayout;
};
void CheckDescriptor(const SpaceToBatchNdDescriptor& desc)
{
if (desc.m_BlockShape.size() == m_VisitorDescriptor.m_BlockShape.size())
{
for (unsigned int i = 0; i < desc.m_BlockShape.size(); ++i)
{
BOOST_CHECK_EQUAL(desc.m_BlockShape[i], m_VisitorDescriptor.m_BlockShape[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for SpaceToBatchNdDescriptor m_BlockShape.");
}
if (desc.m_PadList.size() == m_VisitorDescriptor.m_PadList.size())
{
for (unsigned int i = 0; i < desc.m_PadList.size(); ++i)
{
BOOST_CHECK_EQUAL(desc.m_PadList[i].first, m_VisitorDescriptor.m_PadList[i].first);
BOOST_CHECK_EQUAL(desc.m_PadList[i].second, m_VisitorDescriptor.m_PadList[i].second);
}
}
else
{
BOOST_ERROR("Unequal vector size for SpaceToBatchNdDescriptor m_PadList.");
}
BOOST_CHECK(desc.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitSpaceToBatchNdLayer(const IConnectableLayer* layer,
const SpaceToBatchNdDescriptor& desc,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(desc);
CheckLayerName(name);
};
};
class TestMeanLayerVisitor : public TestLayerVisitor
{
private:
const MeanDescriptor m_VisitorDescriptor;
public:
explicit TestMeanLayerVisitor(const MeanDescriptor& meanDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(meanDescriptor.m_Axis, meanDescriptor.m_KeepDims)
{};
void CheckDescriptor(const MeanDescriptor& meanDescriptor)
{
if (meanDescriptor.m_Axis.size() == m_VisitorDescriptor.m_Axis.size())
{
for (unsigned int i = 0; i < meanDescriptor.m_Axis.size(); ++i)
{
BOOST_CHECK_EQUAL(meanDescriptor.m_Axis[i], m_VisitorDescriptor.m_Axis[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for MeanDescriptor m_Axis.");
}
BOOST_CHECK_EQUAL(meanDescriptor.m_KeepDims, m_VisitorDescriptor.m_KeepDims);
}
void VisitMeanLayer(const IConnectableLayer* layer,
const MeanDescriptor& meanDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(meanDescriptor);
CheckLayerName(name);
};
};
class TestPadLayerVisitor : public TestLayerVisitor
{
private:
const PadDescriptor m_VisitorDescriptor;
public:
explicit TestPadLayerVisitor(const PadDescriptor& padDescriptor, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(padDescriptor.m_PadList)
{};
void CheckDescriptor(const PadDescriptor& padDescriptor)
{
if (padDescriptor.m_PadList.size() == m_VisitorDescriptor.m_PadList.size())
{
for (unsigned int i = 0; i < padDescriptor.m_PadList.size(); ++i)
{
BOOST_CHECK_EQUAL(padDescriptor.m_PadList[i].first, m_VisitorDescriptor.m_PadList[i].first);
BOOST_CHECK_EQUAL(padDescriptor.m_PadList[i].second, m_VisitorDescriptor.m_PadList[i].second);
}
}
else
{
BOOST_ERROR("Unequal vector size for SpaceToBatchNdDescriptor m_PadList.");
}
}
void VisitPadLayer(const IConnectableLayer* layer,
const PadDescriptor& padDescriptor,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(padDescriptor);
CheckLayerName(name);
};
};
class TestStridedSliceLayerVisitor : public TestLayerVisitor
{
private:
StridedSliceDescriptor m_VisitorDescriptor;
public:
explicit TestStridedSliceLayerVisitor(const StridedSliceDescriptor& desc, const char* name = nullptr)
: TestLayerVisitor(name)
, m_VisitorDescriptor(desc.m_Begin, desc.m_End, desc.m_Stride)
{
m_VisitorDescriptor.m_BeginMask = desc.m_BeginMask;
m_VisitorDescriptor.m_EndMask = desc.m_EndMask;
m_VisitorDescriptor.m_ShrinkAxisMask = desc.m_ShrinkAxisMask;
m_VisitorDescriptor.m_EllipsisMask = desc.m_EllipsisMask;
m_VisitorDescriptor.m_NewAxisMask = desc.m_NewAxisMask;
m_VisitorDescriptor.m_DataLayout = desc.m_DataLayout;
};
void CheckDescriptor(const StridedSliceDescriptor& desc)
{
if (desc.m_Begin.size() == m_VisitorDescriptor.m_Begin.size())
{
for (unsigned int i = 0; i < desc.m_Begin.size(); ++i)
{
BOOST_CHECK_EQUAL(desc.m_Begin[i], m_VisitorDescriptor.m_Begin[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for StridedSliceDescriptor m_Begin.");
}
if (desc.m_End.size() == m_VisitorDescriptor.m_End.size())
{
for (unsigned int i = 0; i < desc.m_End.size(); ++i)
{
BOOST_CHECK_EQUAL(desc.m_End[i], m_VisitorDescriptor.m_End[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for StridedSliceDescriptor m_End.");
}
if (desc.m_Stride.size() == m_VisitorDescriptor.m_Stride.size())
{
for (unsigned int i = 0; i < desc.m_Stride.size(); ++i)
{
BOOST_CHECK_EQUAL(desc.m_Stride[i], m_VisitorDescriptor.m_Stride[i]);
}
}
else
{
BOOST_ERROR("Unequal vector size for StridedSliceDescriptor m_Stride.");
}
BOOST_CHECK_EQUAL(desc.m_BeginMask, m_VisitorDescriptor.m_BeginMask);
BOOST_CHECK_EQUAL(desc.m_EndMask, m_VisitorDescriptor.m_EndMask);
BOOST_CHECK_EQUAL(desc.m_ShrinkAxisMask, m_VisitorDescriptor.m_ShrinkAxisMask);
BOOST_CHECK_EQUAL(desc.m_EllipsisMask, m_VisitorDescriptor.m_EllipsisMask);
BOOST_CHECK_EQUAL(desc.m_NewAxisMask, m_VisitorDescriptor.m_NewAxisMask);
BOOST_CHECK(desc.m_DataLayout == m_VisitorDescriptor.m_DataLayout);
}
void VisitStridedSliceLayer(const IConnectableLayer* layer,
const StridedSliceDescriptor& desc,
const char* name = nullptr) override
{
CheckLayerPointer(layer);
CheckDescriptor(desc);
CheckLayerName(name);
};
};
} //namespace armnn
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