delegate/opaque/src/Prelu.hpp - ml/armnn - Gitiles

 //
 // Copyright © 2023 Arm Ltd and Contributors. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #pragma once

 #include <OpaqueDelegateUtils.hpp>

 namespace armnnOpaqueDelegate
 {

 TfLiteStatus ValidatePreluOperator(DelegateData& delegateData,
                                    TfLiteOpaqueContext* tfLiteContext,
                                    const armnn::TensorInfo& inputInfo,
                                    const armnn::TensorInfo& alphaInfo,
                                    const armnn::TensorInfo& outputInfo)
 {
     bool isSupported = false;
     auto validateFunc = [&](const armnn::TensorInfo& outputInfo, bool& isSupported)
     {
         FORWARD_LAYER_OPAQUE_SUPPORT_FUNC("PRELU",
                                           tfLiteContext,
                                           IsPreluSupported,
                                           delegateData.m_Backends,
                                           isSupported,
                                           armnn::BackendId(),
                                           inputInfo,
                                           alphaInfo,
                                           outputInfo);
     };

     validateFunc(outputInfo, isSupported);
     return isSupported ? kTfLiteOk : kTfLiteError;
 }

 TfLiteStatus VisitPreluOperator(DelegateData& delegateData,
                                 TfLiteOpaqueContext* tfLiteContext,
                                 TfLiteOpaqueNode* tfLiteNode,
                                 int nodeIndex,
                                 int32_t operatorCode)
 {
     TF_LITE_ENSURE_STATUS(ValidateNumInputs(tfLiteContext, tfLiteNode, 2, nodeIndex));
     TF_LITE_ENSURE_STATUS(ValidateNumOutputs(tfLiteContext, tfLiteNode, 1, nodeIndex));

     // Gather input indices and use to get input tensor.
     int numInputs = 0;
     const int* inputTensors;
     if (TfLiteOpaqueNodeInputs(tfLiteNode, &inputTensors, &numInputs) != kTfLiteOk)
     {
         TF_LITE_OPAQUE_MAYBE_KERNEL_LOG(
                 tfLiteContext,
                 "TfLiteArmnnOpaqueDelegate: Unable to gather input tensor indices from node #%d: ",
                 nodeIndex);
         return kTfLiteError;
     }

     const TfLiteOpaqueTensor* tfLiteInputTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, inputTensors[0]);
     if (!IsValid(tfLiteContext, tfLiteInputTensor, operatorCode, nodeIndex))
     {
         return kTfLiteError;
     }

     const TfLiteOpaqueTensor* tfLiteAlphaTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, inputTensors[1]);
     if (!IsValid(tfLiteContext, tfLiteAlphaTensor, operatorCode, nodeIndex))
     {
         return kTfLiteError;
     }

     // Gather output indices and use to get output tensors.
     int numOutputs = 0;
     const int* outputTensors;
     if (TfLiteOpaqueNodeOutputs(tfLiteNode, &outputTensors, &numOutputs) != kTfLiteOk)
     {
         TF_LITE_OPAQUE_MAYBE_KERNEL_LOG(
                 tfLiteContext,
                 "TfLiteArmnnOpaqueDelegate: Unable to gather output tensor indices from node #%d: ",
                 nodeIndex);
         return kTfLiteError;
     }

     const TfLiteOpaqueTensor* tfLiteOutputTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, outputTensors[0]);
     if (!IsValid(tfLiteContext, tfLiteOutputTensor, operatorCode, nodeIndex))
     {
         return kTfLiteError;
     }

     const armnn::TensorInfo& inputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteInputTensor);
     const armnn::TensorInfo& alphaTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteAlphaTensor);
     const armnn::TensorInfo& outputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteOutputTensor, true);

     if (!delegateData.m_Network)
     {
         return ValidatePreluOperator(delegateData,
                                      tfLiteContext,
                                      inputTensorInfo,
                                      alphaTensorInfo,
                                      outputTensorInfo);
     }

     auto layerName = GetName(armnn::LayerType::Prelu, nodeIndex);
     armnn::IConnectableLayer* preluLayer = delegateData.m_Network->AddPreluLayer(layerName.c_str());
     ARMNN_ASSERT(preluLayer != nullptr);

     bool isConstantAlpha = IsConstantTensor(tfLiteAlphaTensor);

     // Add constant layer for constant alpha
     if (isConstantAlpha)
     {
         auto constAlphaTensor = armnn::ConstTensor(alphaTensorInfo, TfLiteOpaqueTensorData(tfLiteAlphaTensor));

         auto alphaName = GetName(armnn::LayerType::Constant, nodeIndex, "Alpha");
         armnn::IConnectableLayer* constLayer = delegateData.m_Network->AddConstantLayer(constAlphaTensor,
                                                                                         alphaName.c_str());
         ARMNN_ASSERT(constLayer != nullptr);

         constLayer->GetOutputSlot(0).SetTensorInfo(alphaTensorInfo);
         constLayer->GetOutputSlot(0).Connect(preluLayer->GetInputSlot(1));
     }

     armnn::IOutputSlot& outputSlot = preluLayer->GetOutputSlot(0);
     outputSlot.SetTensorInfo(outputTensorInfo);

     // Connect
     return Connect(preluLayer, tfLiteContext, tfLiteNode, delegateData);
 }

 } // namespace armnnOpaqueDelegate
	//
	// Copyright © 2023 Arm Ltd and Contributors. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#pragma once

	#include <OpaqueDelegateUtils.hpp>

	namespace armnnOpaqueDelegate
	{

	TfLiteStatus ValidatePreluOperator(DelegateData& delegateData,
	TfLiteOpaqueContext* tfLiteContext,
	const armnn::TensorInfo& inputInfo,
	const armnn::TensorInfo& alphaInfo,
	const armnn::TensorInfo& outputInfo)
	{
	bool isSupported = false;
	auto validateFunc = [&](const armnn::TensorInfo& outputInfo, bool& isSupported)
	{
	FORWARD_LAYER_OPAQUE_SUPPORT_FUNC("PRELU",
	tfLiteContext,
	IsPreluSupported,
	delegateData.m_Backends,
	isSupported,
	armnn::BackendId(),
	inputInfo,
	alphaInfo,
	outputInfo);
	};

	validateFunc(outputInfo, isSupported);
	return isSupported ? kTfLiteOk : kTfLiteError;
	}

	TfLiteStatus VisitPreluOperator(DelegateData& delegateData,
	TfLiteOpaqueContext* tfLiteContext,
	TfLiteOpaqueNode* tfLiteNode,
	int nodeIndex,
	int32_t operatorCode)
	{
	TF_LITE_ENSURE_STATUS(ValidateNumInputs(tfLiteContext, tfLiteNode, 2, nodeIndex));
	TF_LITE_ENSURE_STATUS(ValidateNumOutputs(tfLiteContext, tfLiteNode, 1, nodeIndex));

	// Gather input indices and use to get input tensor.
	int numInputs = 0;
	const int* inputTensors;
	if (TfLiteOpaqueNodeInputs(tfLiteNode, &inputTensors, &numInputs) != kTfLiteOk)
	{
	TF_LITE_OPAQUE_MAYBE_KERNEL_LOG(
	tfLiteContext,
	"TfLiteArmnnOpaqueDelegate: Unable to gather input tensor indices from node #%d: ",
	nodeIndex);
	return kTfLiteError;
	}

	const TfLiteOpaqueTensor* tfLiteInputTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, inputTensors[0]);
	if (!IsValid(tfLiteContext, tfLiteInputTensor, operatorCode, nodeIndex))
	{
	return kTfLiteError;
	}

	const TfLiteOpaqueTensor* tfLiteAlphaTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, inputTensors[1]);
	if (!IsValid(tfLiteContext, tfLiteAlphaTensor, operatorCode, nodeIndex))
	{
	return kTfLiteError;
	}

	// Gather output indices and use to get output tensors.
	int numOutputs = 0;
	const int* outputTensors;
	if (TfLiteOpaqueNodeOutputs(tfLiteNode, &outputTensors, &numOutputs) != kTfLiteOk)
	{
	TF_LITE_OPAQUE_MAYBE_KERNEL_LOG(
	tfLiteContext,
	"TfLiteArmnnOpaqueDelegate: Unable to gather output tensor indices from node #%d: ",
	nodeIndex);
	return kTfLiteError;
	}

	const TfLiteOpaqueTensor* tfLiteOutputTensor = TfLiteOpaqueContextGetOpaqueTensor(tfLiteContext, outputTensors[0]);
	if (!IsValid(tfLiteContext, tfLiteOutputTensor, operatorCode, nodeIndex))
	{
	return kTfLiteError;
	}

	const armnn::TensorInfo& inputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteInputTensor);
	const armnn::TensorInfo& alphaTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteAlphaTensor);
	const armnn::TensorInfo& outputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteOutputTensor, true);

	if (!delegateData.m_Network)
	{
	return ValidatePreluOperator(delegateData,
	tfLiteContext,
	inputTensorInfo,
	alphaTensorInfo,
	outputTensorInfo);
	}

	auto layerName = GetName(armnn::LayerType::Prelu, nodeIndex);
	armnn::IConnectableLayer* preluLayer = delegateData.m_Network->AddPreluLayer(layerName.c_str());
	ARMNN_ASSERT(preluLayer != nullptr);

	bool isConstantAlpha = IsConstantTensor(tfLiteAlphaTensor);

	// Add constant layer for constant alpha
	if (isConstantAlpha)
	{
	auto constAlphaTensor = armnn::ConstTensor(alphaTensorInfo, TfLiteOpaqueTensorData(tfLiteAlphaTensor));

	auto alphaName = GetName(armnn::LayerType::Constant, nodeIndex, "Alpha");
	armnn::IConnectableLayer* constLayer = delegateData.m_Network->AddConstantLayer(constAlphaTensor,
	alphaName.c_str());
	ARMNN_ASSERT(constLayer != nullptr);

	constLayer->GetOutputSlot(0).SetTensorInfo(alphaTensorInfo);
	constLayer->GetOutputSlot(0).Connect(preluLayer->GetInputSlot(1));
	}

	armnn::IOutputSlot& outputSlot = preluLayer->GetOutputSlot(0);
	outputSlot.SetTensorInfo(outputTensorInfo);

	// Connect
	return Connect(preluLayer, tfLiteContext, tfLiteNode, delegateData);
	}

	} // namespace armnnOpaqueDelegate