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|
//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "RefLayerSupport.hpp"
#include "RefBackendId.hpp"
#include <DataLayoutIndexed.hpp>
#include <InternalTypes.hpp>
#include <LayerSupportCommon.hpp>
#include <armnn/Types.hpp>
#include <armnn/Descriptors.hpp>
#include <backendsCommon/BackendRegistry.hpp>
#include <backendsCommon/LayerSupportRules.hpp>
#include <backendsCommon/test/WorkloadTestUtils.hpp>
#include <boost/core/ignore_unused.hpp>
#include <vector>
#include <algorithm>
#include <array>
using namespace boost;
namespace armnn
{
namespace
{
template<typename Float32Func, typename Uint8Func, typename ... Params>
bool IsSupportedForDataTypeRef(Optional<std::string&> reasonIfUnsupported,
DataType dataType,
Float32Func floatFuncPtr,
Uint8Func uint8FuncPtr,
Params&&... params)
{
return IsSupportedForDataTypeGeneric(reasonIfUnsupported,
dataType,
&FalseFunc<Params...>,
floatFuncPtr,
uint8FuncPtr,
&FalseFunc<Params...>,
&FalseFunc<Params...>,
std::forward<Params>(params)...);
}
} // anonymous namespace
namespace
{
std::string CreateIncorrectDimensionsErrorMsg(unsigned int expected,
unsigned int actual,
std::string& layerStr,
std::string& tensorName)
{
std::string errorMsg = "Reference " + layerStr + ": Expected " + std::to_string(expected) + " dimensions but got" +
" " + std::to_string(actual) + " dimensions instead, for the '" + tensorName + "' tensor.";
return errorMsg;
}
} // anonymous namespace
bool RefLayerSupport::IsAbsSupported(const TensorInfo& input, const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference abs: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference abs: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference abs: input and output types not matching");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference abs: input and output shapes have different number of total elements");
return supported;
}
bool RefLayerSupport::IsActivationSupported(const TensorInfo& input,
const TensorInfo& output,
const ActivationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
// Define supported types.
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference activation: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference activation: output type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference activation: input and output types mismatched.");
supported &= CheckSupportRule(ShapesAreSameRank(input, output), reasonIfUnsupported,
"Reference activation: input and output shapes are of different rank.");
struct ActivationFunctionSupported : public Rule
{
ActivationFunctionSupported(const ActivationDescriptor& desc)
{
switch(desc.m_Function)
{
case ActivationFunction::Abs:
case ActivationFunction::BoundedReLu:
case ActivationFunction::LeakyReLu:
case ActivationFunction::Linear:
case ActivationFunction::ReLu:
case ActivationFunction::Sigmoid:
case ActivationFunction::SoftReLu:
case ActivationFunction::Sqrt:
case ActivationFunction::Square:
case ActivationFunction::TanH:
{
m_Res = true;
break;
}
default:
{
m_Res = false;
break;
}
}
}
};
// Function is supported
supported &= CheckSupportRule(ActivationFunctionSupported(descriptor), reasonIfUnsupported,
"Reference activation: function not supported.");
return supported;
}
bool RefLayerSupport::IsAdditionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference addition: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference addition: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference addition: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference addition: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference addition: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference addition: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsBatchNormalizationSupported(const TensorInfo& input,
const TensorInfo& output,
const TensorInfo& mean,
const TensorInfo& variance,
const TensorInfo& beta,
const TensorInfo& gamma,
const BatchNormalizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
std::array<DataType, 4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
bool supported = true;
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference batch normalization: input and output types are mismatched");
supported &= CheckSupportRule(TypeAnyOf(mean, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: mean is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(variance, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: variance is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(beta, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: beta is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(gamma, supportedTypes), reasonIfUnsupported,
"Reference batch normalization: gamma is not a supported type.");
return supported;
}
bool RefLayerSupport::IsBatchToSpaceNdSupported(const TensorInfo& input,
const TensorInfo& output,
const BatchToSpaceNdDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::string batchToSpaceNdLayerStr = "batchToSpaceNd";
std::string inputTensorStr = "input";
std::string outputTensorStr = "output";
// Define supported types.
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference BatchToSpaceNd: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference BatchToSpaceNd: output type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference BatchToSpaceNd: input and output types mismatched.");
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(output, 4),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(4,
output.GetNumDimensions(),
batchToSpaceNdLayerStr,
outputTensorStr).data());
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(input, 4),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(4,
input.GetNumDimensions(),
batchToSpaceNdLayerStr,
inputTensorStr).data());
return supported;
}
bool RefLayerSupport::IsConcatSupported(const std::vector<const TensorInfo*> inputs,
const TensorInfo& output,
const ConcatDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference concatenation: output type not supported");
for (const TensorInfo* input : inputs)
{
BOOST_ASSERT(input != nullptr);
supported &= CheckSupportRule(TypeAnyOf(*input, supportedTypes), reasonIfUnsupported,
"Reference concatenation: input type not supported");
supported &= CheckSupportRule(TypesAreEqual(*input, output), reasonIfUnsupported,
"Reference concatenation: input and output types mismatched.");
}
return supported;
}
bool RefLayerSupport::IsConstantSupported(const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Signed32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
return CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference constant: output is not a supported type.");
}
bool RefLayerSupport::IsConvertFp16ToFp32Supported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
return (IsSupportedForDataTypeGeneric(reasonIfUnsupported,
input.GetDataType(),
&TrueFunc<>,
&FalseInputFuncF32<>,
&FalseFuncU8<>,
&FalseFuncI32<>,
&FalseFuncU8<>) &&
IsSupportedForDataTypeGeneric(reasonIfUnsupported,
output.GetDataType(),
&FalseOutputFuncF16<>,
&TrueFunc<>,
&FalseFuncU8<>,
&FalseFuncI32<>,
&FalseFuncU8<>));
}
bool RefLayerSupport::IsConvertFp32ToFp16Supported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
return (IsSupportedForDataTypeGeneric(reasonIfUnsupported,
input.GetDataType(),
&FalseInputFuncF16<>,
&TrueFunc<>,
&FalseFuncU8<>,
&FalseFuncI32<>,
&FalseFuncU8<>) &&
IsSupportedForDataTypeGeneric(reasonIfUnsupported,
output.GetDataType(),
&TrueFunc<>,
&FalseOutputFuncF32<>,
&FalseFuncU8<>,
&FalseFuncI32<>,
&FalseFuncU8<>));
}
bool RefLayerSupport::IsConvolution2dSupported(const TensorInfo& input,
const TensorInfo& output,
const Convolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
// Define supported types.
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference convolution2d: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference convolution2d: output is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(weights, supportedTypes), reasonIfUnsupported,
"Reference convolution2d: weights is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference convolution2d: input and output types mismatched.");
supported &= CheckSupportRule(TypesAreEqual(input, weights), reasonIfUnsupported,
"Reference convolution2d: input and weights types mismatched.");
if (biases.has_value())
{
std::array<DataType,3> biasesSupportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::Signed32
};
supported &= CheckSupportRule(TypeAnyOf(biases.value(), biasesSupportedTypes), reasonIfUnsupported,
"Reference convolution2d: biases is not a supported type.");
}
ignore_unused(descriptor);
return supported;
}
bool RefLayerSupport::IsDebugSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,3> supportedTypes =
{
DataType::Float32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference debug: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference debug: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference debug: input and output types are mismatched");
return supported;
}
bool RefLayerSupport::IsDepthwiseConvolutionSupported(const TensorInfo& input,
const TensorInfo& output,
const DepthwiseConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
// Define supported types.
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: output is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(weights, supportedTypes), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: weights is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: input and output types mismatched.");
supported &= CheckSupportRule(TypesAreEqual(input, weights), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: input and weights types mismatched.");
if (biases.has_value())
{
std::array<DataType,3> biasesSupportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::Signed32
};
supported &= CheckSupportRule(TypeAnyOf(biases.value(), biasesSupportedTypes), reasonIfUnsupported,
"Reference DepthwiseConvolution2d: biases is not a supported type.");
}
ignore_unused(descriptor);
return supported;
}
bool RefLayerSupport::IsDequantizeSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,2> supportedInputTypes = {
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedInputTypes), reasonIfUnsupported,
"Reference dequantize: input type not supported.");
std::array<DataType,1> supportedOutputTypes = {
DataType::Float32
};
supported &= CheckSupportRule(TypeAnyOf(output, supportedOutputTypes), reasonIfUnsupported,
"Reference dequantize: output type not supported.");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference dequantize: input and output shapes have different num total elements.");
return supported;
}
bool RefLayerSupport::IsDetectionPostProcessSupported(const armnn::TensorInfo& input0,
const armnn::TensorInfo& input1,
const armnn::DetectionPostProcessDescriptor& descriptor,
armnn::Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,3> supportedInputTypes =
{
DataType::Float32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedInputTypes), reasonIfUnsupported,
"Reference DetectionPostProcess: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedInputTypes), reasonIfUnsupported,
"Reference DetectionPostProcess: input 1 is not a supported type.");
return supported;
}
bool RefLayerSupport::IsDilatedDepthwiseConvolutionSupported(const TensorInfo& input,
const TensorInfo& output,
const DepthwiseConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
return IsDepthwiseConvolutionSupported(input, output, descriptor, weights, biases, reasonIfUnsupported);
}
bool RefLayerSupport::IsDivisionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference division: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference division: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference division: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference division: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference division: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference division: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsEqualSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference equal: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference equal: input 1 is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference equal: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference equal: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsFakeQuantizationSupported(const TensorInfo& input,
const FakeQuantizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,1> supportedTypes =
{
DataType::Float32
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference fake quantization: input type not supported.");
return supported;
}
bool RefLayerSupport::IsFloorSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(output);
bool supported = true;
std::array<DataType,3> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference Floor: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference Floor: output type not supported.");
return supported;
}
bool RefLayerSupport::IsFullyConnectedSupported(const TensorInfo& input,
const TensorInfo& output,
const TensorInfo& weights,
const TensorInfo& biases,
const FullyConnectedDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
// Define supported types.
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference Fully Connected: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference Fully Connected: output type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference Fully Connected: input and output types mismatched.");
supported &= CheckSupportRule(TypeAnyOf(weights, supportedTypes), reasonIfUnsupported,
"Reference Fully Connected: weights type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, weights), reasonIfUnsupported,
"Reference Fully Connected: input and weight types mismatched.");
if (descriptor.m_BiasEnabled)
{
// Defined supported types for bias
std::array<DataType, 3>
supportedBiasTypes =
{
DataType::Float32,
DataType::Float16,
DataType::Signed32
};
supported &= CheckSupportRule(TypeAnyOf(biases, supportedBiasTypes), reasonIfUnsupported,
"Reference Fully Connected: bias type not supported.");
supported &= CheckSupportRule(BiasAndWeightsTypesMatch(biases, weights), reasonIfUnsupported,
"Reference Fully Connected: bias and weight types mismatch.");
supported &= CheckSupportRule(BiasAndWeightsTypesCompatible(weights, supportedBiasTypes), reasonIfUnsupported,
"Reference Fully Connected: bias type inferred from weights is incompatible.");
}
return supported;
}
bool RefLayerSupport::IsGatherSupported(const armnn::TensorInfo& input0,
const armnn::TensorInfo& input1,
const armnn::TensorInfo& output,
armnn::Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference Gather: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference Gather: output type not supported");
supported &= CheckSupportRule(TypeIs(input1, DataType::Signed32), reasonIfUnsupported,
"Reference Gather: indices (input1) type not supported");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference Gather: input and output types not matching");
return supported;
}
bool RefLayerSupport::IsGreaterSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference greater: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference greater: input 1 is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference greater: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference greater: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsInputSupported(const TensorInfo& input,
Optional<std::string&> reasonIfUnsupported) const
{
return true;
}
bool RefLayerSupport::IsL2NormalizationSupported(const TensorInfo& input,
const TensorInfo& output,
const L2NormalizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
// Define supported types
std::array<DataType, 4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
bool supported = true;
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference L2normalization: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference L2normalization: output type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference L2normalization: input and output types mismatched.");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference L2normalization: input and output shapes have different "
"num total elements.");
return supported;
}
bool RefLayerSupport::IsLstmSupported(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 LstmInputParamsInfo& paramsInfo,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
ignore_unused(paramsInfo);
bool supported = true;
std::array<DataType,2> supportedTypes = {
DataType::Float32,
DataType::QuantisedSymm16
};
// check inputs and outputs
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference Lstm: input is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, outputStateIn), reasonIfUnsupported,
"Reference Lstm: input and outputStateIn types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, cellStateIn), reasonIfUnsupported,
"Reference Lstm: input and cellStateIn types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, scratchBuffer), reasonIfUnsupported,
"Reference Lstm: input and scratchBuffer types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, outputStateOut), reasonIfUnsupported,
"Reference Lstm: input and outputStateOut types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, cellStateOut), reasonIfUnsupported,
"Reference Lstm: input and cellStateOut types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference Lstm: input and output types are mismatched");
// check layer parameters
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputToForgetWeights()), reasonIfUnsupported,
"Reference Lstm: input and InputToForgetWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputToCellWeights()), reasonIfUnsupported,
"Reference Lstm: input and InputToCellWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputToOutputWeights()), reasonIfUnsupported,
"Reference Lstm: input and InputToOutputWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetRecurrentToForgetWeights()), reasonIfUnsupported,
"Reference Lstm: input and RecurrentToForgetWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetRecurrentToCellWeights()), reasonIfUnsupported,
"Reference Lstm: input and RecurrentToCellWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetRecurrentToOutputWeights()), reasonIfUnsupported,
"Reference Lstm: input and RecurrentToOutputWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetForgetGateBias()), reasonIfUnsupported,
"Reference Lstm: input and ForgetGateBias types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetCellBias()), reasonIfUnsupported,
"Reference Lstm: input and CellBias types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetOutputGateBias()), reasonIfUnsupported,
"Reference Lstm: input and OutputGateBias types are mismatched");
if (!descriptor.m_CifgEnabled)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputToInputWeights()), reasonIfUnsupported,
"Reference Lstm: input and InputToInputWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetRecurrentToInputWeights()),
reasonIfUnsupported,
"Reference Lstm: input and RecurrentToInputWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputGateBias()), reasonIfUnsupported,
"Reference Lstm: input and InputGateBias types are mismatched");
if (descriptor.m_PeepholeEnabled)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetCellToInputWeights()),
reasonIfUnsupported,
"Reference Lstm: input and CellToInputWeights types are mismatched");
}
}
if (descriptor.m_PeepholeEnabled)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetCellToForgetWeights()), reasonIfUnsupported,
"Reference Lstm: input and CellToForgetWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetCellToOutputWeights()), reasonIfUnsupported,
"Reference Lstm: input and CellToOutputWeights types are mismatched");
}
if (descriptor.m_ProjectionEnabled)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetProjectionWeights()), reasonIfUnsupported,
"Reference Lstm: input and mProjectionWeights types are mismatched");
if (paramsInfo.m_ProjectionBias != nullptr)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetProjectionBias()), reasonIfUnsupported,
"Reference Lstm: input and ProjectionBias types are mismatched");
}
}
if (descriptor.m_LayerNormEnabled)
{
if (!descriptor.m_CifgEnabled)
{
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetInputLayerNormWeights()),
reasonIfUnsupported,
"Reference Lstm: input and InputLayerNormWeights types are mismatched");
}
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetForgetLayerNormWeights()),
reasonIfUnsupported,
"Reference Lstm: input and ForgetLayerNormWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetCellLayerNormWeights()),
reasonIfUnsupported,
"Reference Lstm: input and CellLayerNormWeights types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input, paramsInfo.GetOutputLayerNormWeights()),
reasonIfUnsupported,
"Reference Lstm: input and OutputLayerNormWeights types are mismatched");
}
return supported;
}
bool RefLayerSupport::IsMaximumSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference maximum: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference maximum: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference maximum: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference maximum: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference maximum: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference maximum: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsMeanSupported(const TensorInfo& input,
const TensorInfo& output,
const MeanDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::string meanLayerStr = "Mean";
std::string outputTensorStr = "output";
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference Mean: input type not supported.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference Mean: input and output types are mismatched");
if (descriptor.m_KeepDims)
{
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(output, input.GetNumDimensions()),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(input.GetNumDimensions(),
output.GetNumDimensions(),
meanLayerStr, outputTensorStr).data());
}
else if (descriptor.m_Axis.empty())
{
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(output, 1),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(1, output.GetNumDimensions(),
meanLayerStr, outputTensorStr).data());
}
else
{
auto outputDim = input.GetNumDimensions() - boost::numeric_cast<unsigned int>(descriptor.m_Axis.size());
if (outputDim > 0)
{
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(output, outputDim),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(outputDim, output.GetNumDimensions(),
meanLayerStr, outputTensorStr).data());
}
else
{
supported &= CheckSupportRule(TensorNumDimensionsAreCorrect(output, 1),
reasonIfUnsupported,
CreateIncorrectDimensionsErrorMsg(1, output.GetNumDimensions(),
meanLayerStr, outputTensorStr).data());
}
}
return supported;
}
bool RefLayerSupport::IsMergerSupported(const std::vector<const TensorInfo*> inputs,
const TensorInfo& output,
const MergerDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
return IsConcatSupported(inputs, output, descriptor, reasonIfUnsupported);
}
bool RefLayerSupport::IsMemCopySupported(const TensorInfo &input,
const TensorInfo &output,
Optional<std::string &> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,5> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16,
DataType::Boolean
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference MemCopy: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference MemCopy: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference MemCopy: input and output types are mismatched");
return supported;
}
bool RefLayerSupport::IsMinimumSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference minimum: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference minimum: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference minimum: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference minimum: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference minimum: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference minimum: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsMultiplicationSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference multiplication: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference multiplication: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference multiplication: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference multiplication: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference multiplication: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference multiplication: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsNormalizationSupported(const TensorInfo& input,
const TensorInfo& output,
const NormalizationDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
// Define supported types
std::array<DataType, 4> supportedTypes =
{
DataType::Float16,
DataType::Float32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
bool supported = true;
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference normalization: input type not supported.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference normalization: output type not supported.");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference normalization: input and output shapes have different "
"num total elements.");
return supported;
}
bool RefLayerSupport::IsOutputSupported(const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
return true;
}
bool RefLayerSupport::IsPadSupported(const TensorInfo& input,
const TensorInfo& output,
const PadDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
// Define supported output and inputs types.
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference pad: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference pad: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference pad: input and output types are mismatched.");
return supported;
}
bool RefLayerSupport::IsPermuteSupported(const TensorInfo& input,
const TensorInfo& output,
const PermuteDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
// Define supported output and inputs types.
std::array<DataType,3> supportedTypes =
{
DataType::Float32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference permute: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference permute: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference permute: input and output types are mismatched.");
return supported;
}
bool RefLayerSupport::IsPooling2dSupported(const TensorInfo& input,
const TensorInfo& output,
const Pooling2dDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
// Define supported output and inputs types.
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference poolind2d: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference poolind2d: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference poolind2d: input and output types are mismatched.");
return supported;
}
bool RefLayerSupport::IsQuantizeSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
// Define supported output types.
std::array<DataType,1> supportedInputTypes = {
DataType::Float32,
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedInputTypes), reasonIfUnsupported,
"Reference quantize: input type not supported.");
// Define supported output types.
std::array<DataType,2> supportedOutputTypes = {
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(output, supportedOutputTypes), reasonIfUnsupported,
"Reference quantize: output type not supported.");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference quantize: input and output shapes have different num total elements.");
return supported;
}
bool RefLayerSupport::IsReshapeSupported(const TensorInfo& input,
const ReshapeDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
// Define supported output types.
std::array<DataType,4> supportedOutputTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
return CheckSupportRule(TypeAnyOf(input, supportedOutputTypes), reasonIfUnsupported,
"Reference reshape: input type not supported.");
}
bool RefLayerSupport::IsResizeBilinearSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference ResizeBilinear: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference ResizeBilinear: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference ResizeBilinear: input and output types not matching");
return supported;
}
bool RefLayerSupport::IsResizeSupported(const TensorInfo& input,
const TensorInfo& output,
const ResizeDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference Resize: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference Resize: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference Resize: input and output types not matching");
return supported;
}
bool RefLayerSupport::IsRsqrtSupported(const TensorInfo& input,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference rsqrt: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference rsqrt: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference rsqrt: input and output types not matching");
supported &= CheckSupportRule(ShapesAreSameTotalSize(input, output), reasonIfUnsupported,
"Reference Rsqrt: input and output shapes have different number of total elements");
return supported;
}
bool RefLayerSupport::IsSoftmaxSupported(const TensorInfo& input,
const TensorInfo& output,
const SoftmaxDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(output);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference concatenation: output type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference concatenation: input type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference concatenation: input type not supported");
return supported;
}
bool RefLayerSupport::IsSpaceToBatchNdSupported(const TensorInfo& input,
const TensorInfo& output,
const SpaceToBatchNdDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(output);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference SpaceToBatchNd: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference SpaceToBatchNd: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference SpaceToBatchNd: input and output types are mismatched");
return supported;
}
bool RefLayerSupport::IsSpaceToDepthSupported(const TensorInfo& input,
const TensorInfo& output,
const SpaceToDepthDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference SpaceToDepth: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference SpaceToDepth: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference SpaceToDepth: input and output types are mismatched");
return supported;
}
bool RefLayerSupport::IsSplitterSupported(const TensorInfo& input,
const ViewsDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference splitter: input type not supported");
return supported;
}
bool RefLayerSupport::IsSplitterSupported(const TensorInfo& input,
const std::vector<std::reference_wrapper<TensorInfo>>& outputs,
const ViewsDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference splitter: output type not supported");
for (const TensorInfo output : outputs)
{
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference splitter: input type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference splitter: input and output types mismatched.");
}
return supported;
}
bool RefLayerSupport::IsStackSupported(const std::vector<const TensorInfo*>& inputs,
const TensorInfo& output,
const StackDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference stack: output type not supported");
for (const TensorInfo* input : inputs)
{
BOOST_ASSERT(input != nullptr);
supported &= CheckSupportRule(TypeAnyOf(*input, supportedTypes), reasonIfUnsupported,
"Reference stack: input type not supported");
supported &= CheckSupportRule(TypesAreEqual(*input, output), reasonIfUnsupported,
"Reference stack: input and output types mismatched.");
}
return supported;
}
bool RefLayerSupport::IsStridedSliceSupported(const TensorInfo& input,
const TensorInfo& output,
const StridedSliceDescriptor& descriptor,
Optional<std::string&> reasonIfUnsupported) const
{
ignore_unused(descriptor);
bool supported = true;
std::array<DataType,3> supportedTypes =
{
DataType::Float32,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference StridedSlice: input type not supported");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference StridedSlice: output type not supported");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference StridedSlice: input and output types are mismatched");
return supported;
}
bool RefLayerSupport::IsSubtractionSupported(const TensorInfo& input0,
const TensorInfo& input1,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes = {
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input0, supportedTypes), reasonIfUnsupported,
"Reference subtraction: input 0 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(input1, supportedTypes), reasonIfUnsupported,
"Reference subtraction: input 1 is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference subtraction: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input0, input1), reasonIfUnsupported,
"Reference subtraction: input 0 and Input 1 types are mismatched");
supported &= CheckSupportRule(TypesAreEqual(input0, output), reasonIfUnsupported,
"Reference subtraction: input and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input0, input1, output), reasonIfUnsupported,
"Reference subtraction: shapes are not suitable for implicit broadcast.");
return supported;
}
bool RefLayerSupport::IsPreluSupported(const TensorInfo& input,
const TensorInfo& alpha,
const TensorInfo& output,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType, 4> supportedTypes
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"PReLU: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(alpha, supportedTypes), reasonIfUnsupported,
"PReLU: alpha is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"PReLU: output is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, alpha, output), reasonIfUnsupported,
"PReLU: input, alpha and output types are mismatched");
supported &= CheckSupportRule(ShapesAreBroadcastCompatible(input, alpha, output), reasonIfUnsupported,
"PReLU: shapes are not suitable for implicit broadcast");
return supported;
}
bool RefLayerSupport::IsTransposeConvolution2dSupported(const TensorInfo& input,
const TensorInfo& output,
const TransposeConvolution2dDescriptor& descriptor,
const TensorInfo& weights,
const Optional<TensorInfo>& biases,
Optional<std::string&> reasonIfUnsupported) const
{
bool supported = true;
std::array<DataType,4> supportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::QuantisedAsymm8,
DataType::QuantisedSymm16
};
supported &= CheckSupportRule(TypeAnyOf(input, supportedTypes), reasonIfUnsupported,
"Reference TransposeConvolution2d: input is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(output, supportedTypes), reasonIfUnsupported,
"Reference TransposeConvolution2d: output is not a supported type.");
supported &= CheckSupportRule(TypeAnyOf(weights, supportedTypes), reasonIfUnsupported,
"Reference TransposeConvolution2d: weights is not a supported type.");
supported &= CheckSupportRule(TypesAreEqual(input, output), reasonIfUnsupported,
"Reference TransposeConvolution2d: input and output types mismatched.");
supported &= CheckSupportRule(TypesAreEqual(input, weights), reasonIfUnsupported,
"Reference TransposeConvolution2d: input and weights types mismatched.");
if (biases.has_value())
{
std::array<DataType,3> biasesSupportedTypes =
{
DataType::Float32,
DataType::Float16,
DataType::Signed32
};
supported &= CheckSupportRule(TypeAnyOf(biases.value(), biasesSupportedTypes), reasonIfUnsupported,
"Reference TransposeConvolution2d: biases is not a supported type.");
}
return supported;
}
} // namespace armnn
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