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review.mlplatform.org / ml / armnn / fc9d5e7d1e0c1a4d7fed4ebc363832e03c3e2543 / . / src / backends / tosaReference / test / TosaRefLayerSupportTests.cpp
blob: 3c3abc2af3c5c288e70f8b0a1befeaa9fa6b5c1a [file] [log] [blame]
//
// Copyright © 2022 Arm Ltd and Contributors. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include <armnn/Optional.hpp>
#include <armnn/Types.hpp>
#include <tosaReference/TosaRefLayerSupport.hpp>
#include <doctest/doctest.h>
#include <string>
using namespace armnn;
TEST_SUITE("TosaRefLayerSupported")
{
TEST_CASE("IsLayerSupportedTosaReferenceAddition")
{
TensorShape shape0 = {1,1,3,4};
TensorShape shape1 = {1,1,3,4};
TensorShape outShape = {1,1,3,4};
TensorInfo in0(shape0, DataType::Float32);
TensorInfo in1(shape1, DataType::Float32);
TensorInfo out(outShape, DataType::Float32);
BaseDescriptor desc;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Addition,
{in0, in1, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceAdditionUnsupported")
{
TensorShape shape0 = {1,1,3,4};
TensorShape shape1 = {4};
TensorShape outShape = {1,1,3,4};
TensorInfo in0(shape0, DataType::Signed64);
TensorInfo in1(shape1, DataType::Signed64);
TensorInfo out(outShape, DataType::Signed64);
BaseDescriptor desc;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Addition,
{in0, in1, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceConstant")
{
TensorInfo outputInfo({1,1,3,4}, DataType::Float32);
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Constant,
{outputInfo},
BaseDescriptor(),
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceConstantUnsupported")
{
TensorInfo outputInfo({1,1,3,4}, DataType::Signed64);
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Constant,
{outputInfo},
BaseDescriptor(),
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceConv2d")
{
TensorInfo inputInfo ({ 1, 5, 5, 1 }, DataType::Float32);
TensorInfo outputInfo({ 1, 3, 3, 1 }, DataType::Float32);
TensorInfo weightsInfo({ 1, 3, 3, 1 }, DataType::Float32);
TensorInfo biasesInfo ({ 1 }, DataType::Float32);
Convolution2dDescriptor desc;
desc.m_BiasEnabled = true;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Convolution2d,
{inputInfo, outputInfo, weightsInfo, biasesInfo},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceConv2dUnsupported")
{
// If inputs and weights are Fp32, output must match.
TensorInfo inputInfo ({ 1, 5, 5, 1 }, DataType::Float32);
TensorInfo outputInfo({ 1, 3, 3, 1 }, DataType::Signed64);
TensorInfo weightsInfo({ 1, 3, 3, 1 }, DataType::Float32, 0.0f, 0, true);
TensorInfo biasesInfo ({ 1 }, DataType::Float32, 0.0f, 0, true);
Convolution2dDescriptor desc;
desc.m_BiasEnabled = true;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Convolution2d,
{inputInfo, outputInfo, weightsInfo, biasesInfo},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceMaxPooling2d")
{
TensorShape inShape = {1,1,3,4};
TensorShape outShape = {1,1,3,4};
TensorInfo in(inShape, DataType::Float32);
TensorInfo out(outShape, DataType::Float32);
Pooling2dDescriptor desc;
desc.m_PoolHeight = 1;
desc.m_PoolWidth = 1;
desc.m_StrideX = 1;
desc.m_StrideY = 1;
desc.m_PoolType = PoolingAlgorithm::Max;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Pooling2d,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceAvgPooling2d_IgnoreValue")
{
TensorShape inShape = {1,1,3,4};
TensorShape outShape = {1,1,3,4};
TensorInfo in(inShape, DataType::Float32);
TensorInfo out(outShape, DataType::Float32);
Pooling2dDescriptor desc;
desc.m_PoolHeight = 1;
desc.m_PoolWidth = 1;
desc.m_StrideX = 1;
desc.m_StrideY = 1;
desc.m_PaddingMethod = PaddingMethod::IgnoreValue;
desc.m_PoolType = PoolingAlgorithm::Average;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Pooling2d,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceMaxPooling2dUnsupported")
{
TensorShape inShape = {1,1,3,4};
TensorShape outShape = {1,1,3,4};
TensorInfo in(inShape, DataType::Signed64);
TensorInfo out(outShape, DataType::Signed64);
Pooling2dDescriptor desc;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Pooling2d,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceAvgPooling2dUnsupported_InputOutputDatatypeDifferent")
{
TensorShape inShape = {1,1,3,4};
TensorShape outShape = {1,1,3,4};
TensorInfo in(inShape, DataType::Float32);
TensorInfo out(outShape, DataType::Float16);
Pooling2dDescriptor desc;
desc.m_PaddingMethod = PaddingMethod::IgnoreValue;
desc.m_PoolType = PoolingAlgorithm::Average;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Pooling2d,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceReshape")
{
TensorShape inShape = {3,4};
TensorShape outShape = {12};
TensorInfo in(inShape, DataType::Float32);
TensorInfo out(outShape, DataType::Float32);
ReshapeDescriptor desc;
desc.m_TargetShape = {12};
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Reshape,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceReshapeUnsupported")
{
TensorShape inShape = {3,4};
TensorShape outShape = {12};
TensorInfo in(inShape, DataType::Signed64);
TensorInfo out(outShape, DataType::Signed64);
ReshapeDescriptor desc;
desc.m_TargetShape = {12};
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Reshape,
{in, out},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceSlice")
{
TensorShape inShape = {3,2,3};
TensorShape outShape = {2,1,3};
TensorInfo in(inShape, DataType::Float32);
TensorInfo out(outShape, DataType::Float32);
SliceDescriptor descriptor;
descriptor.m_Begin = {1,0,0 };
descriptor.m_Size = {2,1,3 };
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Slice,
{in, out},
descriptor,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceSliceUnsupported")
{
TensorShape inShape = {3,2,3};
TensorShape outShape = {2,1,3};
TensorInfo in(inShape, DataType::Signed64);
TensorInfo out(outShape, DataType::Signed64);
SliceDescriptor descriptor;
descriptor.m_Begin = {1,0,0};
descriptor.m_Size = {2,1,3};
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::Slice,
{in, out},
descriptor,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceTransposeConv2d")
{
TensorInfo inputInfo ({ 1, 3, 3, 1 }, DataType::Float32);
TensorInfo outputInfo({ 1, 5, 5, 1 }, DataType::Float32);
TensorInfo weightsInfo({ 1, 3, 3, 1 }, DataType::Float32);
TensorInfo biasesInfo ({ 1 }, DataType::Float32);
TransposeConvolution2dDescriptor desc;
desc.m_StrideX = 1;
desc.m_StrideY = 1;
desc.m_BiasEnabled = true;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::TransposeConvolution2d,
{inputInfo, outputInfo, weightsInfo, biasesInfo},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(supported);
}
TEST_CASE("IsLayerSupportedTosaReferenceTransposeConv2dUnsupported")
{
// If inputs and weights are Fp32, output must match.
TensorInfo inputInfo ({ 1, 3, 3, 1 }, DataType::Float32);
TensorInfo outputInfo({ 1, 5, 5, 1 }, DataType::Float32);
TensorInfo weightsInfo({ 1, 3, 3, 1 }, DataType::Float32, 0.0f, 0, true);
TensorInfo biasesInfo ({ 1 }, DataType::Float32, 0.0f, 0, true);
TransposeConvolution2dDescriptor desc;
desc.m_BiasEnabled = true;
TosaRefLayerSupport supportChecker;
std::string reasonIfNotSupported;
auto supported = supportChecker.IsLayerSupported(LayerType::TransposeConvolution2d,
{inputInfo, outputInfo, weightsInfo, biasesInfo},
desc,
EmptyOptional(),
EmptyOptional(),
reasonIfNotSupported);
CHECK(!supported);
}
}