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//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include <armnn/LayerSupport.hpp>
#include <armnn/Optional.hpp>
#include <backends/LayerSupportRegistry.hpp>
#include <boost/assert.hpp>
#include <cstring>
#include <algorithm>
#include <unordered_map>
namespace armnn
{
namespace
{
/// Helper function to copy a full string to a truncated version.
void CopyErrorMessage(char* truncatedString, const char* fullString, size_t maxLength)
{
if(truncatedString != nullptr)
{
size_t copyLength = std::min(maxLength, strlen(fullString));
std::strncpy(truncatedString, fullString, copyLength);
// Ensure null-terminated string.
truncatedString[copyLength] = '\0';
}
}
}
// Helper macro to avoid code duplication.
// Forwards function func to funcRef, funcNeon or funcCl, depending on the value of compute.
#define FORWARD_LAYER_SUPPORT_FUNC(backendId, func, ...) \
std::string reasonIfUnsupportedFull; \
bool isSupported; \
try { \
auto factoryFunc = LayerSupportRegistryInstance().GetFactory(backendId); \
auto layerSupportObject = factoryFunc(); \
isSupported = layerSupportObject->func(__VA_ARGS__, Optional<std::string&>(reasonIfUnsupportedFull)); \
CopyErrorMessage(reasonIfUnsupported, reasonIfUnsupportedFull.c_str(), reasonIfUnsupportedMaxLength); \
} catch (InvalidArgumentException e) { \
/* re-throwing with more context information */ \
throw InvalidArgumentException(e, "Failed to check layer support", CHECK_LOCATION()); \
} \
return isSupported;
bool CheckTensorDataTypesEqual(const TensorInfo& input0, const TensorInfo& input1)
{
return input0.GetDataType() == input1.GetDataType();
}
bool IsActivationSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const ActivationDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsActivationSupported, input, output, descriptor);
}
bool IsAdditionSupported(const BackendId& backend,
const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
if(!CheckTensorDataTypesEqual(input0, input1))
{
return false;
}
FORWARD_LAYER_SUPPORT_FUNC(backend, IsAdditionSupported, input0, input1, output);
}
bool IsBatchNormalizationSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const TensorInfo& mean,
const TensorInfo& var,
const TensorInfo& beta,
const TensorInfo& gamma,
const BatchNormalizationDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend,
IsBatchNormalizationSupported,
input,
output,
mean,
var,
beta,
gamma,
descriptor);
}
bool IsConstantSupported(const BackendId& backend,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsConstantSupported, output);
}
bool IsConvertFp16ToFp32Supported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsConvertFp16ToFp32Supported, input, output);
}
bool IsConvertFp32ToFp16Supported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsConvertFp32ToFp16Supported, input, output);
}
bool IsConvolution2dSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const Convolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsConvolution2dSupported, input, output, descriptor, weights, biases);
}
bool IsDivisionSupported(const BackendId& backend,
const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsDivisionSupported, input0, input1, output);
}
bool IsSubtractionSupported(const BackendId& backend,
const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsSubtractionSupported, input0, input1, output);
}
bool IsDepthwiseConvolutionSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const DepthwiseConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsDepthwiseConvolutionSupported, input, output, descriptor, weights, biases);
}
bool IsInputSupported(const BackendId& backend,
const TensorInfo& input,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsInputSupported, input);
}
bool IsFullyConnectedSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const TensorInfo& weights,
const TensorInfo& biases,
const FullyConnectedDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsFullyConnectedSupported, input, output, weights, biases, descriptor);
}
bool IsL2NormalizationSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const L2NormalizationDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsL2NormalizationSupported, input, output, descriptor);
}
bool IsLstmSupported(const BackendId& backend, const TensorInfo& input, const TensorInfo& outputStateIn,
const TensorInfo& cellStateIn, const TensorInfo& scratchBuffer,
const TensorInfo& outputStateOut, const TensorInfo& cellStateOut,
const TensorInfo& output, const LstmDescriptor& descriptor,
const TensorInfo& inputToForgetWeights, const TensorInfo& inputToCellWeights,
const TensorInfo& inputToOutputWeights, const TensorInfo& recurrentToForgetWeights,
const TensorInfo& recurrentToCellWeights, const TensorInfo& recurrentToOutputWeights,
const TensorInfo& forgetGateBias, const TensorInfo& cellBias,
const TensorInfo& outputGateBias, const TensorInfo* inputToInputWeights,
const TensorInfo* recurrentToInputWeights, const TensorInfo* cellToInputWeights,
const TensorInfo* inputGateBias, const TensorInfo* projectionWeights,
const TensorInfo* projectionBias, const TensorInfo* cellToForgetWeights,
const TensorInfo* cellToOutputWeights, char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsLstmSupported, input, outputStateIn, cellStateIn,
scratchBuffer, outputStateOut, cellStateOut,
output, descriptor, inputToForgetWeights, inputToCellWeights,
inputToOutputWeights, recurrentToForgetWeights,
recurrentToCellWeights, recurrentToOutputWeights,
forgetGateBias, cellBias, outputGateBias,
inputToInputWeights, recurrentToInputWeights,
cellToInputWeights, inputGateBias, projectionWeights,
projectionBias, cellToForgetWeights, cellToOutputWeights);
}
bool IsMergerSupported(const BackendId& backend,
std::vector<const TensorInfo*> inputs,
const OriginsDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
BOOST_ASSERT(inputs.size() > 0);
FORWARD_LAYER_SUPPORT_FUNC(backend, IsMergerSupported, inputs, descriptor);
}
bool IsMultiplicationSupported(const BackendId& backend,
const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsMultiplicationSupported, input0, input1, output);
}
bool IsNormalizationSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const NormalizationDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsNormalizationSupported, input, output, descriptor);
}
bool IsOutputSupported(const BackendId& backend,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsOutputSupported, output);
}
bool IsPermuteSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const PermuteDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsPermuteSupported, input, output, descriptor);
}
bool IsPooling2dSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const Pooling2dDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsPooling2dSupported, input, output, descriptor);
}
bool IsResizeBilinearSupported(const BackendId& backend,
const TensorInfo& input,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsResizeBilinearSupported, input);
}
bool IsSoftmaxSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const SoftmaxDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsSoftmaxSupported, input, output, descriptor);
}
bool IsSplitterSupported(const BackendId& backend,
const TensorInfo& input,
const ViewsDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsSplitterSupported, input, descriptor);
}
bool IsFakeQuantizationSupported(const BackendId& backend,
const TensorInfo& input,
const FakeQuantizationDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsFakeQuantizationSupported, input, descriptor);
}
bool IsReshapeSupported(const BackendId& backend,
const TensorInfo& input,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsReshapeSupported, input);
}
bool IsFloorSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
// By definition (that is, regardless of compute device), shapes and data type must match.
if (input.GetShape() != output.GetShape() || input.GetDataType() != output.GetDataType())
{
return false;
}
FORWARD_LAYER_SUPPORT_FUNC(backend, IsFloorSupported, input, output);
}
bool IsMeanSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const MeanDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsMeanSupported, input, output, descriptor);
}
bool IsPadSupported(const BackendId& backend,
const TensorInfo& input,
const TensorInfo& output,
const PadDescriptor& descriptor,
char* reasonIfUnsupported,
size_t reasonIfUnsupportedMaxLength)
{
FORWARD_LAYER_SUPPORT_FUNC(backend, IsPadSupported, input, output, descriptor);
}
}
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