// // Copyright © 2023 Arm Ltd and Contributors. All rights reserved. // SPDX-License-Identifier: MIT // #pragma once #include namespace armnnOpaqueDelegate { TfLiteStatus VisitSpaceToDepthOperator(DelegateData& delegateData, TfLiteOpaqueContext* tfLiteContext, TfLiteOpaqueNode* tfLiteNode, int nodeIndex, int32_t tfLiteSpaceDepthOperatorCode) { TF_LITE_ENSURE_STATUS(ValidateNumInputs(tfLiteContext, tfLiteNode, 1, nodeIndex)); TF_LITE_ENSURE_STATUS(ValidateNumOutputs(tfLiteContext, tfLiteNode, 1, nodeIndex)); // Gather input indices and use to get input tensor. const int* inputTensors; int numInputs; 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, tfLiteSpaceDepthOperatorCode, nodeIndex)) { return kTfLiteError; } // Gather output indices and use to get output tensors. const int* outputTensors; int numOutputs; 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, tfLiteSpaceDepthOperatorCode, nodeIndex)) { return kTfLiteError; } const armnn::TensorInfo& inputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteInputTensor); const armnn::TensorInfo& outputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteOutputTensor, true); armnn::SpaceToDepthDescriptor descriptor; auto* nodeParameters = reinterpret_cast(TfLiteOpaqueNodeGetBuiltinData(tfLiteNode)); descriptor.m_BlockSize = nodeParameters->block_size; bool isSupported = false; armnn::BackendId setBackend; auto validateFunc = [&](const armnn::TensorInfo& outInfo, bool& isSupported) { FORWARD_LAYER_OPAQUE_SUPPORT_FUNC("SPACE_TO_DEPTH", tfLiteContext, IsSpaceToDepthSupported, delegateData.m_Backends, isSupported, setBackend, inputTensorInfo, outInfo, descriptor); }; if (!delegateData.m_Network) { validateFunc(outputTensorInfo, isSupported); return isSupported ? kTfLiteOk : kTfLiteError; } // Add a SpaceToDepth layer auto layerName = GetName(armnn::LayerType::SpaceToDepth, nodeIndex); armnn::IConnectableLayer* layer = delegateData.m_Network->AddSpaceToDepthLayer(descriptor, layerName.c_str()); layer->SetBackendId(setBackend); ARMNN_ASSERT(layer != nullptr); // try to connect the Constant Inputs if there are any if (ProcessInputs(layer, delegateData, tfLiteContext, tfLiteNode, nodeIndex) != kTfLiteOk) { return kTfLiteError; } armnn::IOutputSlot& outputSlot = layer->GetOutputSlot(0); outputSlot.SetTensorInfo(outputTensorInfo); // Connect return Connect(layer, tfLiteContext, tfLiteNode, delegateData); } TfLiteStatus VisitDepthToSpaceOperator(DelegateData& delegateData, TfLiteOpaqueContext* tfLiteContext, TfLiteOpaqueNode* tfLiteNode, int nodeIndex, int32_t tfLiteDepthSpaceOperatorCode) { TF_LITE_ENSURE_STATUS(ValidateNumInputs(tfLiteContext, tfLiteNode, 1, nodeIndex)); TF_LITE_ENSURE_STATUS(ValidateNumOutputs(tfLiteContext, tfLiteNode, 1, nodeIndex)); // Gather input indices and use to get input tensor. const int* inputTensors; int numInputs; 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, tfLiteDepthSpaceOperatorCode, nodeIndex)) { return kTfLiteError; } // Gather output indices and use to get output tensors. const int* outputTensors; int numOutputs; 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, tfLiteDepthSpaceOperatorCode, nodeIndex)) { return kTfLiteError; } const armnn::TensorInfo& inputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteInputTensor); const armnn::TensorInfo& outputTensorInfo = GetTensorInfoForTfLiteOpaqueTensor(tfLiteOutputTensor, true); armnn::DepthToSpaceDescriptor descriptor; auto* nodeParameters = reinterpret_cast(TfLiteOpaqueNodeGetBuiltinData(tfLiteNode)); descriptor.m_BlockSize = nodeParameters->block_size; bool isSupported = false; armnn::BackendId setBackend; auto validateFunc = [&](const armnn::TensorInfo& outInfo, bool& isSupported) { FORWARD_LAYER_OPAQUE_SUPPORT_FUNC("DEPTH_TO_SPACE", tfLiteContext, IsDepthToSpaceSupported, delegateData.m_Backends, isSupported, setBackend, inputTensorInfo, outInfo, descriptor); }; if (!delegateData.m_Network) { validateFunc(outputTensorInfo, isSupported); return isSupported ? kTfLiteOk : kTfLiteError; } // Add a DepthToSpace layer auto layerName = GetName(armnn::LayerType::DepthToSpace, nodeIndex); armnn::IConnectableLayer* layer = delegateData.m_Network->AddDepthToSpaceLayer(descriptor, layerName.c_str()); layer->SetBackendId(setBackend); ARMNN_ASSERT(layer != nullptr); armnn::IOutputSlot& outputSlot = layer->GetOutputSlot(0); outputSlot.SetTensorInfo(outputTensorInfo); // try to connect the Constant Inputs if there are any if (ProcessInputs(layer, delegateData, tfLiteContext, tfLiteNode, nodeIndex) != kTfLiteOk) { return kTfLiteError; } // Connect return Connect(layer, tfLiteContext, tfLiteNode, delegateData); } } // namespace armnnOpaqueDelegate