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//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "Serializer.hpp"
#include "SerializerUtils.hpp"
#include <armnn/ArmNN.hpp>
#include <iostream>
#include <ArmnnSchema_generated.h>
#include <flatbuffers/util.h>
using namespace armnn;
namespace fb = flatbuffers;
namespace serializer = armnnSerializer;
namespace armnnSerializer
{
serializer::ActivationFunction GetFlatBufferActivationFunction(armnn::ActivationFunction function)
{
switch (function)
{
case armnn::ActivationFunction::Sigmoid:
return serializer::ActivationFunction::ActivationFunction_Sigmoid;
case armnn::ActivationFunction::TanH:
return serializer::ActivationFunction::ActivationFunction_TanH;
case armnn::ActivationFunction::Linear:
return serializer::ActivationFunction::ActivationFunction_Linear;
case armnn::ActivationFunction::ReLu:
return serializer::ActivationFunction::ActivationFunction_ReLu;
case armnn::ActivationFunction::BoundedReLu:
return serializer::ActivationFunction::ActivationFunction_BoundedReLu;
case armnn::ActivationFunction::LeakyReLu:
return serializer::ActivationFunction::ActivationFunction_LeakyReLu;
case armnn::ActivationFunction::Abs:
return serializer::ActivationFunction::ActivationFunction_Abs;
case armnn::ActivationFunction::Sqrt:
return serializer::ActivationFunction::ActivationFunction_Sqrt;
case armnn::ActivationFunction::Square:
return serializer::ActivationFunction::ActivationFunction_Square;
default:
return serializer::ActivationFunction::ActivationFunction_Sigmoid;
}
}
uint32_t SerializerVisitor::GetSerializedId(unsigned int guid)
{
std::pair<unsigned int, uint32_t> guidPair(guid, m_layerId);
if (m_guidMap.empty())
{
m_guidMap.insert(guidPair);
}
else if (m_guidMap.find(guid) == m_guidMap.end())
{
guidPair.second = ++m_layerId;
m_guidMap.insert(guidPair);
return m_layerId;
}
return m_guidMap[guid];
}
// Build FlatBuffer for Input Layer
void SerializerVisitor::VisitInputLayer(const armnn::IConnectableLayer* layer, LayerBindingId id, const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferInputBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Input);
// Create FlatBuffer BindableBaseLayer
auto flatBufferInputBindableBaseLayer = serializer::CreateBindableLayerBase(m_flatBufferBuilder,
flatBufferInputBaseLayer,
id);
// Push layer Guid to outputIds.
m_inputIds.push_back(GetSerializedId(layer->GetGuid()));
// Create the FlatBuffer InputLayer
auto flatBufferInputLayer = serializer::CreateInputLayer(m_flatBufferBuilder, flatBufferInputBindableBaseLayer);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferInputLayer.o, serializer::Layer::Layer_InputLayer);
}
// Build FlatBuffer for Output Layer
void SerializerVisitor::VisitOutputLayer(const armnn::IConnectableLayer* layer, LayerBindingId id, const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferOutputBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Output);
// Create FlatBuffer BindableBaseLayer
auto flatBufferOutputBindableBaseLayer = serializer::CreateBindableLayerBase(m_flatBufferBuilder,
flatBufferOutputBaseLayer,
id);
// Push layer Guid to outputIds.
m_outputIds.push_back(GetSerializedId(layer->GetGuid()));
// Create the FlatBuffer OutputLayer
auto flatBufferOutputLayer = serializer::CreateOutputLayer(m_flatBufferBuilder, flatBufferOutputBindableBaseLayer);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferOutputLayer.o, serializer::Layer::Layer_OutputLayer);
}
// Build FlatBuffer for Activation Layer
void SerializerVisitor::VisitActivationLayer(const armnn::IConnectableLayer* layer,
const armnn::ActivationDescriptor& descriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Activation);
// Create the FlatBuffer ActivationDescriptor
auto flatBufferDescriptor = CreateActivationDescriptor(m_flatBufferBuilder,
GetFlatBufferActivationFunction(descriptor.m_Function),
descriptor.m_A,
descriptor.m_B);
// Create the FlatBuffer ActivationLayer
auto flatBufferAdditionLayer = CreateActivationLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferAdditionLayer.o, serializer::Layer::Layer_ActivationLayer);
}
// Build FlatBuffer for Addition Layer
void SerializerVisitor::VisitAdditionLayer(const armnn::IConnectableLayer* layer, const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferAdditionBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Addition);
// Create the FlatBuffer AdditionLayer
auto flatBufferAdditionLayer = serializer::CreateAdditionLayer(m_flatBufferBuilder, flatBufferAdditionBaseLayer);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferAdditionLayer.o, serializer::Layer::Layer_AdditionLayer);
}
// Build FlatBuffer for BatchToSpaceNd Layer
void SerializerVisitor::VisitBatchToSpaceNdLayer(const armnn::IConnectableLayer* layer,
const armnn::BatchToSpaceNdDescriptor& descriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_BatchToSpaceNd);
std::vector<unsigned int> crops;
crops.reserve(descriptor.m_Crops.size() * 2);
for (auto& crop : descriptor.m_Crops)
{
crops.push_back(crop.first);
crops.push_back(crop.second);
}
auto flatBufferDescriptor =
CreateBatchToSpaceNdDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(descriptor.m_BlockShape),
m_flatBufferBuilder.CreateVector(crops),
GetFlatBufferDataLayout(descriptor.m_DataLayout));
auto flatBufferLayer = serializer::CreateBatchToSpaceNdLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_BatchToSpaceNdLayer);
}
void SerializerVisitor::VisitBatchNormalizationLayer(const armnn::IConnectableLayer* layer,
const armnn::BatchNormalizationDescriptor& batchNormDescriptor,
const armnn::ConstTensor& mean,
const armnn::ConstTensor& variance,
const armnn::ConstTensor& beta,
const armnn::ConstTensor& gamma,
const char* name)
{
auto fbBatchNormalizationBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_BatchNormalization);
auto fbBatchNormalizationDescriptor = serializer::CreateBatchNormalizationDescriptor(
m_flatBufferBuilder,
batchNormDescriptor.m_Eps,
GetFlatBufferDataLayout(batchNormDescriptor.m_DataLayout));
auto fbMeanConstTensorInfo = CreateConstTensorInfo(mean);
auto fbVarianceConstTensorInfo = CreateConstTensorInfo(variance);
auto fbBetaConstTensorInfo = CreateConstTensorInfo(beta);
auto fbGammaConstTensorInfo = CreateConstTensorInfo(gamma);
auto fbBatchNormalizationLayer = serializer::CreateBatchNormalizationLayer(m_flatBufferBuilder,
fbBatchNormalizationBaseLayer,
fbBatchNormalizationDescriptor,
fbMeanConstTensorInfo,
fbVarianceConstTensorInfo,
fbBetaConstTensorInfo,
fbGammaConstTensorInfo);
CreateAnyLayer(fbBatchNormalizationLayer.o, serializer::Layer::Layer_BatchNormalizationLayer);
}
// Build FlatBuffer for Constant Layer
void SerializerVisitor::VisitConstantLayer(const armnn::IConnectableLayer* layer,
const armnn::ConstTensor& input,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferConstantBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Constant);
auto flatBufferConstTensorInfo = CreateConstTensorInfo(input);
// Create the FlatBuffer ConstantLayer
auto flatBufferLayer = CreateConstantLayer(m_flatBufferBuilder,
flatBufferConstantBaseLayer,
flatBufferConstTensorInfo);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_ConstantLayer);
}
// Build FlatBuffer for Convolution2dLayer
void SerializerVisitor::VisitConvolution2dLayer(const armnn::IConnectableLayer* layer,
const armnn::Convolution2dDescriptor& descriptor,
const armnn::ConstTensor& weights,
const armnn::Optional<armnn::ConstTensor>& biases,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Convolution2d);
auto flatBufferDescriptor = CreateConvolution2dDescriptor(m_flatBufferBuilder,
descriptor.m_PadLeft,
descriptor.m_PadRight,
descriptor.m_PadTop,
descriptor.m_PadBottom,
descriptor.m_StrideX,
descriptor.m_StrideY,
descriptor.m_BiasEnabled,
GetFlatBufferDataLayout(descriptor.m_DataLayout));
auto flatBufferWeightsConstTensorInfo = CreateConstTensorInfo(weights);
flatbuffers::Offset<serializer::ConstTensor> flatBufferBiasesConstTensorInfo;
if (biases.has_value())
{
flatBufferBiasesConstTensorInfo = CreateConstTensorInfo(biases.value());
}
// Create the FlatBuffer Convolution2dLayer
auto flatBufferLayer = CreateConvolution2dLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor,
flatBufferWeightsConstTensorInfo,
flatBufferBiasesConstTensorInfo);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_Convolution2dLayer);
}
void SerializerVisitor::VisitDepthwiseConvolution2dLayer(const armnn::IConnectableLayer* layer,
const armnn::DepthwiseConvolution2dDescriptor& descriptor,
const armnn::ConstTensor& weights,
const armnn::Optional<armnn::ConstTensor>& biases,
const char* name)
{
auto fbBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_DepthwiseConvolution2d);
auto fbDescriptor = CreateDepthwiseConvolution2dDescriptor(m_flatBufferBuilder,
descriptor.m_PadLeft,
descriptor.m_PadRight,
descriptor.m_PadTop,
descriptor.m_PadBottom,
descriptor.m_StrideX,
descriptor.m_StrideY,
descriptor.m_BiasEnabled,
GetFlatBufferDataLayout(descriptor.m_DataLayout));
flatbuffers::Offset<serializer::ConstTensor> fbWeightsConstTensorInfo = CreateConstTensorInfo(weights);
flatbuffers::Offset<serializer::ConstTensor> fbBiasesConstTensorInfo;
if (biases.has_value())
{
fbBiasesConstTensorInfo = CreateConstTensorInfo(biases.value());
}
auto flatBufferLayer = CreateDepthwiseConvolution2dLayer(m_flatBufferBuilder,
fbBaseLayer,
fbDescriptor,
fbWeightsConstTensorInfo,
fbBiasesConstTensorInfo);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_DepthwiseConvolution2dLayer);
}
void SerializerVisitor::VisitDivisionLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbDivisionBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Division);
auto fbDivisionLayer = serializer::CreateDivisionLayer(m_flatBufferBuilder, fbDivisionBaseLayer);
CreateAnyLayer(fbDivisionLayer.o, serializer::Layer::Layer_DivisionLayer);
}
void SerializerVisitor::VisitEqualLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Equal);
auto fbEqualLayer = serializer::CreateEqualLayer(m_flatBufferBuilder, fbBaseLayer);
CreateAnyLayer(fbEqualLayer.o, serializer::Layer::Layer_EqualLayer);
}
void SerializerVisitor::VisitFloorLayer(const armnn::IConnectableLayer *layer, const char *name)
{
auto flatBufferFloorBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Floor);
auto flatBufferFloorLayer = serializer::CreateFloorLayer(m_flatBufferBuilder, flatBufferFloorBaseLayer);
CreateAnyLayer(flatBufferFloorLayer.o, serializer::Layer::Layer_FloorLayer);
}
void SerializerVisitor::VisitMinimumLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbMinimumBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Minimum);
auto fbMinimumLayer = serializer::CreateMinimumLayer(m_flatBufferBuilder, fbMinimumBaseLayer);
CreateAnyLayer(fbMinimumLayer.o, serializer::Layer::Layer_MinimumLayer);
}
void SerializerVisitor::VisitMaximumLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbMaximumBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Maximum);
auto fbMaximumLayer = serializer::CreateMaximumLayer(m_flatBufferBuilder, fbMaximumBaseLayer);
CreateAnyLayer(fbMaximumLayer.o, serializer::Layer::Layer_MaximumLayer);
}
void SerializerVisitor::VisitGatherLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Gather);
auto flatBufferLayer = CreateGatherLayer(m_flatBufferBuilder,
fbBaseLayer);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_GatherLayer);
}
void SerializerVisitor::VisitGreaterLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbGreaterBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Greater);
auto fbGreaterLayer = serializer::CreateGreaterLayer(m_flatBufferBuilder, fbGreaterBaseLayer);
CreateAnyLayer(fbGreaterLayer.o, serializer::Layer::Layer_GreaterLayer);
}
// Build FlatBuffer for Multiplication Layer
void SerializerVisitor::VisitMultiplicationLayer(const armnn::IConnectableLayer* layer, const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferMultiplicationBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Multiplication);
// Create the FlatBuffer MultiplicationLayer
auto flatBufferMultiplicationLayer =
serializer::CreateMultiplicationLayer(m_flatBufferBuilder, flatBufferMultiplicationBaseLayer);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferMultiplicationLayer.o, serializer::Layer::Layer_MultiplicationLayer);
}
void SerializerVisitor::VisitPadLayer(const armnn::IConnectableLayer* layer,
const armnn::PadDescriptor& padDescriptor,
const char* name)
{
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Pad);
std::vector<unsigned int> padList;
for (auto& p: padDescriptor.m_PadList)
{
padList.push_back(p.first);
padList.push_back(p.second);
}
auto flatBufferPadDesc = serializer::CreatePadDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(padList));
auto flatBufferPadLayer = serializer::CreatePadLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferPadDesc);
CreateAnyLayer(flatBufferPadLayer.o, serializer::Layer::Layer_PadLayer);
}
void SerializerVisitor::VisitPermuteLayer(const armnn::IConnectableLayer* layer,
const armnn::PermuteDescriptor& permuteDescriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferPermuteBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Permute);
std::vector<unsigned int> dimMappings;
for (auto& v: permuteDescriptor.m_DimMappings)
{
dimMappings.push_back(v);
}
auto flatBufferPermuteDesc = serializer::CreatePermuteDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(dimMappings));
// Create the FlatBuffer PermuteLayer
auto flatBufferPermuteLayer = serializer::CreatePermuteLayer(m_flatBufferBuilder,
flatBufferPermuteBaseLayer,
flatBufferPermuteDesc);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferPermuteLayer.o, serializer::Layer::Layer_PermuteLayer);
}
// Build FlatBuffer for Reshape Layer
void SerializerVisitor::VisitReshapeLayer(const armnn::IConnectableLayer* layer,
const armnn::ReshapeDescriptor& reshapeDescriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferReshapeBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Reshape);
std::vector<unsigned int> targetShape;
for (unsigned int i =0; i < reshapeDescriptor.m_TargetShape.GetNumDimensions(); i++)
{
targetShape.push_back(reshapeDescriptor.m_TargetShape[i]);
}
auto flatBufferReshapeDesc = serializer::CreateReshapeDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(targetShape));
// Create the FlatBuffer ReshapeLayer
auto flatBufferReshapeLayer = serializer::CreateReshapeLayer(m_flatBufferBuilder, flatBufferReshapeBaseLayer,
flatBufferReshapeDesc);
// Add the AnyLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferReshapeLayer.o, serializer::Layer::Layer_ReshapeLayer);
}
void SerializerVisitor::VisitResizeBilinearLayer(const armnn::IConnectableLayer* layer,
const armnn::ResizeBilinearDescriptor& resizeDescriptor,
const char* name)
{
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_ResizeBilinear);
auto flatBufferDescriptor =
CreateResizeBilinearDescriptor(m_flatBufferBuilder,
resizeDescriptor.m_TargetWidth,
resizeDescriptor.m_TargetHeight,
GetFlatBufferDataLayout(resizeDescriptor.m_DataLayout));
auto flatBufferLayer = serializer::CreateResizeBilinearLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_ResizeBilinearLayer);
}
void SerializerVisitor::VisitRsqrtLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbRsqrtBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Rsqrt);
auto fbRsqrtLayer = serializer::CreateRsqrtLayer(m_flatBufferBuilder, fbRsqrtBaseLayer);
CreateAnyLayer(fbRsqrtLayer.o, serializer::Layer::Layer_RsqrtLayer);
}
// Build FlatBuffer for Softmax Layer
void SerializerVisitor::VisitSoftmaxLayer(const armnn::IConnectableLayer* layer,
const armnn::SoftmaxDescriptor& softmaxDescriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferSoftmaxBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Softmax);
// Create the FlatBuffer SoftmaxDescriptor
auto flatBufferSoftmaxDesc =
serializer::CreateSoftmaxDescriptor(m_flatBufferBuilder, softmaxDescriptor.m_Beta);
// Create the FlatBuffer SoftmaxLayer
auto flatBufferSoftmaxLayer =
serializer::CreateSoftmaxLayer(m_flatBufferBuilder,
flatBufferSoftmaxBaseLayer,
flatBufferSoftmaxDesc);
CreateAnyLayer(flatBufferSoftmaxLayer.o, serializer::Layer::Layer_SoftmaxLayer);
}
void SerializerVisitor::VisitPooling2dLayer(const armnn::IConnectableLayer* layer,
const armnn::Pooling2dDescriptor& pooling2dDescriptor,
const char* name)
{
auto fbPooling2dBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Pooling2d);
auto fbPooling2dDescriptor = serializer::CreatePooling2dDescriptor(
m_flatBufferBuilder,
GetFlatBufferPoolingAlgorithm(pooling2dDescriptor.m_PoolType),
pooling2dDescriptor.m_PadLeft,
pooling2dDescriptor.m_PadRight,
pooling2dDescriptor.m_PadTop,
pooling2dDescriptor.m_PadBottom,
pooling2dDescriptor.m_PoolWidth,
pooling2dDescriptor.m_PoolHeight,
pooling2dDescriptor.m_StrideX,
pooling2dDescriptor.m_StrideY,
GetFlatBufferOutputShapeRounding(pooling2dDescriptor.m_OutputShapeRounding),
GetFlatBufferPaddingMethod(pooling2dDescriptor.m_PaddingMethod),
GetFlatBufferDataLayout(pooling2dDescriptor.m_DataLayout));
auto fbPooling2dLayer = serializer::CreatePooling2dLayer(m_flatBufferBuilder,
fbPooling2dBaseLayer,
fbPooling2dDescriptor);
CreateAnyLayer(fbPooling2dLayer.o, serializer::Layer::Layer_Pooling2dLayer);
}
// Build FlatBuffer for FullyConnected Layer
void SerializerVisitor::VisitFullyConnectedLayer(const armnn::IConnectableLayer* layer,
const armnn::FullyConnectedDescriptor& fullyConnectedDescriptor,
const armnn::ConstTensor& weights,
const armnn::Optional<armnn::ConstTensor>& biases,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_FullyConnected);
// Create FlatBuffer FullyConnectedDescriptor
auto flatBufferDescriptor =
serializer::CreateFullyConnectedDescriptor(m_flatBufferBuilder,
fullyConnectedDescriptor.m_BiasEnabled,
fullyConnectedDescriptor.m_TransposeWeightMatrix);
// Create FlatBuffer weights data
auto flatBufferWeights = CreateConstTensorInfo(weights);
// Create FlatBuffer bias data
flatbuffers::Offset<serializer::ConstTensor> flatBufferBiases;
if (fullyConnectedDescriptor.m_BiasEnabled)
{
flatBufferBiases = CreateConstTensorInfo(biases.value());
}
// Create FlatBuffer FullyConnectedLayer
auto flatBufferLayer = serializer::CreateFullyConnectedLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor,
flatBufferWeights,
flatBufferBiases);
// Add created FullyConnectedLayer to the FlatBufferLayers
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_FullyConnectedLayer);
}
// Build FlatBuffer for SpaceToBatchNd Layer
void SerializerVisitor::VisitSpaceToBatchNdLayer(const armnn::IConnectableLayer* layer,
const armnn::SpaceToBatchNdDescriptor& spaceToBatchNdDescriptor,
const char* name)
{
// Create FlatBuffer BaseLayer
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_SpaceToBatchNd);
std::vector<unsigned int> padList;
padList.reserve(spaceToBatchNdDescriptor.m_PadList.size()*2);
for (auto& pad : spaceToBatchNdDescriptor.m_PadList)
{
padList.push_back(pad.first);
padList.push_back(pad.second);
}
auto flatBufferDescriptor =
CreateSpaceToBatchNdDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(spaceToBatchNdDescriptor.m_BlockShape),
m_flatBufferBuilder.CreateVector(padList),
GetFlatBufferDataLayout(spaceToBatchNdDescriptor.m_DataLayout));
auto flatBufferLayer = serializer::CreateSpaceToBatchNdLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_SpaceToBatchNdLayer);
}
void SerializerVisitor::VisitNormalizationLayer(const armnn::IConnectableLayer* layer,
const armnn::NormalizationDescriptor& descriptor,
const char* name)
{
auto fbNormalizationBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Normalization);
auto fbNormalizationDescriptor = serializer::CreateNormalizationDescriptor(
m_flatBufferBuilder,
GetFlatBufferNormalizationAlgorithmChannel(descriptor.m_NormChannelType),
GetFlatBufferNormalizationAlgorithmMethod(descriptor.m_NormMethodType),
descriptor.m_NormSize,
descriptor.m_Alpha,
descriptor.m_Beta,
descriptor.m_K,
GetFlatBufferDataLayout(descriptor.m_DataLayout));
auto flatBufferLayer = serializer::CreateNormalizationLayer(m_flatBufferBuilder,
fbNormalizationBaseLayer,
fbNormalizationDescriptor);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_NormalizationLayer);
}
void SerializerVisitor::VisitStridedSliceLayer(const armnn::IConnectableLayer* layer,
const armnn::StridedSliceDescriptor& stridedSliceDescriptor,
const char* name)
{
auto flatBufferBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_StridedSlice);
auto flatBufferDescriptor =
CreateStridedSliceDescriptor(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(stridedSliceDescriptor.m_Begin),
m_flatBufferBuilder.CreateVector(stridedSliceDescriptor.m_End),
m_flatBufferBuilder.CreateVector(stridedSliceDescriptor.m_Stride),
stridedSliceDescriptor.m_BeginMask,
stridedSliceDescriptor.m_EndMask,
stridedSliceDescriptor.m_ShrinkAxisMask,
stridedSliceDescriptor.m_EllipsisMask,
stridedSliceDescriptor.m_NewAxisMask,
GetFlatBufferDataLayout(stridedSliceDescriptor.m_DataLayout));
auto flatBufferLayer = serializer::CreateStridedSliceLayer(m_flatBufferBuilder,
flatBufferBaseLayer,
flatBufferDescriptor);
CreateAnyLayer(flatBufferLayer.o, serializer::Layer::Layer_StridedSliceLayer);
}
void SerializerVisitor::VisitSubtractionLayer(const armnn::IConnectableLayer* layer, const char* name)
{
auto fbSubtractionBaseLayer = CreateLayerBase(layer, serializer::LayerType::LayerType_Subtraction);
auto fbSubtractionLayer = serializer::CreateSubtractionLayer(m_flatBufferBuilder, fbSubtractionBaseLayer);
CreateAnyLayer(fbSubtractionLayer.o, serializer::Layer::Layer_SubtractionLayer);
}
fb::Offset<serializer::LayerBase> SerializerVisitor::CreateLayerBase(const IConnectableLayer* layer,
const serializer::LayerType layerType)
{
std::vector<fb::Offset<serializer::InputSlot>> inputSlots = CreateInputSlots(layer);
std::vector<fb::Offset<serializer::OutputSlot>> outputSlots = CreateOutputSlots(layer);
return serializer::CreateLayerBase(m_flatBufferBuilder,
GetSerializedId(layer->GetGuid()),
m_flatBufferBuilder.CreateString(layer->GetName()),
layerType,
m_flatBufferBuilder.CreateVector(inputSlots),
m_flatBufferBuilder.CreateVector(outputSlots));
}
void SerializerVisitor::CreateAnyLayer(const flatbuffers::Offset<void>& layer, const serializer::Layer serializerLayer)
{
auto anyLayer = armnnSerializer::CreateAnyLayer(m_flatBufferBuilder, serializerLayer, layer);
m_serializedLayers.push_back(anyLayer);
}
template <typename T>
flatbuffers::Offset<flatbuffers::Vector<T>> SerializerVisitor::CreateDataVector(const void* memory, unsigned int size)
{
const T* buffer = reinterpret_cast<const T*>(memory);
std::vector<T> vector(buffer, buffer + (size / sizeof(T)));
auto fbVector = m_flatBufferBuilder.CreateVector(vector);
return fbVector;
}
flatbuffers::Offset<serializer::ConstTensor>
SerializerVisitor::CreateConstTensorInfo(const armnn::ConstTensor& constTensor)
{
armnn::TensorInfo tensorInfo = constTensor.GetInfo();
// Get the dimensions
std::vector<unsigned int> shape;
for(unsigned int dim = 0; dim < tensorInfo.GetShape().GetNumDimensions(); ++dim)
{
shape.push_back(tensorInfo.GetShape()[dim]);
}
// Create FlatBuffer TensorInfo
auto flatBufferTensorInfo = serializer::CreateTensorInfo(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(shape),
GetFlatBufferDataType(tensorInfo.GetDataType()),
tensorInfo.GetQuantizationScale(),
tensorInfo.GetQuantizationOffset());
flatbuffers::Offset<void> fbPayload;
switch (tensorInfo.GetDataType())
{
case armnn::DataType::Float32:
case armnn::DataType::Signed32:
{
auto fbVector = CreateDataVector<int32_t>(constTensor.GetMemoryArea(), constTensor.GetNumBytes());
flatbuffers::Offset<serializer::IntData> flatBuffersData = serializer::CreateIntData(
m_flatBufferBuilder,
fbVector);
fbPayload = flatBuffersData.o;
break;
}
case armnn::DataType::Float16:
{
auto fbVector = CreateDataVector<int16_t>(constTensor.GetMemoryArea(), constTensor.GetNumBytes());
flatbuffers::Offset<serializer::ShortData> flatBuffersData = serializer::CreateShortData(
m_flatBufferBuilder,
fbVector);
fbPayload = flatBuffersData.o;
break;
}
case armnn::DataType::QuantisedAsymm8:
case armnn::DataType::Boolean:
default:
{
auto fbVector = CreateDataVector<int8_t>(constTensor.GetMemoryArea(), constTensor.GetNumBytes());
flatbuffers::Offset<serializer::ByteData> flatBuffersData = serializer::CreateByteData(
m_flatBufferBuilder,
fbVector);
fbPayload = flatBuffersData.o;
}
}
flatbuffers::Offset<serializer::ConstTensor> flatBufferConstTensor = serializer::CreateConstTensor(
m_flatBufferBuilder,
flatBufferTensorInfo,
GetFlatBufferConstTensorData(tensorInfo.GetDataType()),
fbPayload);
return flatBufferConstTensor;
}
std::vector<fb::Offset<serializer::InputSlot>>
SerializerVisitor::CreateInputSlots(const armnn::IConnectableLayer* layer)
{
std::vector<fb::Offset<serializer::InputSlot>> inputSlots;
// Get the InputSlots
for (unsigned int slotIndex = 0; slotIndex<layer->GetNumInputSlots(); ++slotIndex)
{
const IInputSlot& inputSlot = layer->GetInputSlot(slotIndex);
// Get the Connection for the InputSlot
const IOutputSlot* connection = inputSlot.GetConnection();
// Create FlatBuffer Connection
serializer::Connection conn(GetSerializedId(inputSlot.GetConnection()->GetOwningLayerGuid()),
connection->CalculateIndexOnOwner());
// Create FlatBuffer InputSlot
inputSlots.push_back(serializer::CreateInputSlot(m_flatBufferBuilder, slotIndex, &conn));
}
return inputSlots;
}
std::vector<fb::Offset<serializer::OutputSlot>>
SerializerVisitor::CreateOutputSlots(const armnn::IConnectableLayer* layer)
{
std::vector<fb::Offset<serializer::OutputSlot>> outputSlots;
// Get the OutputSlots
for (unsigned int slotIndex = 0; slotIndex < layer->GetNumOutputSlots(); ++slotIndex)
{
const IOutputSlot& outputSlot = layer->GetOutputSlot(slotIndex);
const armnn::TensorInfo& tensorInfo = outputSlot.GetTensorInfo();
// Get the dimensions
std::vector<unsigned int> shape;
for(unsigned int dim = 0; dim < tensorInfo.GetShape().GetNumDimensions(); ++dim)
{
shape.push_back(tensorInfo.GetShape()[dim]);
}
// Create FlatBuffer TensorInfo
auto flatBufferTensorInfo = serializer::CreateTensorInfo(m_flatBufferBuilder,
m_flatBufferBuilder.CreateVector(shape),
GetFlatBufferDataType(tensorInfo.GetDataType()),
tensorInfo.GetQuantizationScale(),
tensorInfo.GetQuantizationOffset());
// Create FlatBuffer Outputslot
outputSlots.push_back(serializer::CreateOutputSlot(m_flatBufferBuilder,
slotIndex,
flatBufferTensorInfo));
}
return outputSlots;
}
ISerializer* ISerializer::CreateRaw()
{
return new Serializer();
}
ISerializerPtr ISerializer::Create()
{
return ISerializerPtr(CreateRaw(), &ISerializer::Destroy);
}
void ISerializer::Destroy(ISerializer* serializer)
{
delete serializer;
}
void Serializer::Serialize(const INetwork& inNetwork)
{
// Iterate through to network
inNetwork.Accept(m_SerializerVisitor);
flatbuffers::FlatBufferBuilder& fbBuilder = m_SerializerVisitor.GetFlatBufferBuilder();
// Create FlatBuffer SerializedGraph
auto serializedGraph = serializer::CreateSerializedGraph(
fbBuilder,
fbBuilder.CreateVector(m_SerializerVisitor.GetSerializedLayers()),
fbBuilder.CreateVector(m_SerializerVisitor.GetInputIds()),
fbBuilder.CreateVector(m_SerializerVisitor.GetOutputIds()));
// Serialize the graph
fbBuilder.Finish(serializedGraph);
}
bool Serializer::SaveSerializedToStream(std::ostream& stream)
{
flatbuffers::FlatBufferBuilder& fbBuilder = m_SerializerVisitor.GetFlatBufferBuilder();
auto bytesToWrite = boost::numeric_cast<std::streamsize>(fbBuilder.GetSize());
stream.write(reinterpret_cast<const char*>(fbBuilder.GetBufferPointer()), bytesToWrite);
return !stream.bad();
}
} // namespace armnnSerializer
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