Program Listing for File entity.hpp

Return to documentation for file (include/holoscan/core/gxf/entity.hpp)

Copy
Copied!
            

/* * SPDX-FileCopyrightText: Copyright (c) 2022-2023 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef HOLOSCAN_CORE_GXF_ENTITY_HPP #define HOLOSCAN_CORE_GXF_ENTITY_HPP #include <memory> // Entity definition // Since it has code that causes a warning as an error, we disable it here. #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wmissing-field-initializers" #include "gxf/core/entity.hpp" #pragma GCC diagnostic pop #include "gxf/multimedia/video.hpp" #include "holoscan/core/gxf/gxf_tensor.hpp" #include "holoscan/core/gxf/gxf_utils.hpp" #include "holoscan/core/type_traits.hpp" // Forward declaration namespace holoscan { class ExecutionContext; } namespace holoscan::gxf { class Entity : public nvidia::gxf::Entity { public: Entity() = default; explicit Entity(const nvidia::gxf::Entity& other) : nvidia::gxf::Entity(other) {} explicit Entity(nvidia::gxf::Entity&& other) : nvidia::gxf::Entity(other) {} // Creates a new entity static Entity New(ExecutionContext* context); operator bool() const { return !is_null(); } // Gets a component by type. Asserts if no such component. // Adds a component with given type template <typename DataT, typename = std::enable_if_t<!holoscan::is_vector_v<DataT> && holoscan::is_one_of_v<DataT, holoscan::Tensor>>> std::shared_ptr<DataT> get(const char* name = nullptr, bool log_errors = true) const { bool is_holoscan_gxf_tensor = true; // We should use nullptr as a default name because In GXF, 'nullptr' should be used with // GxfComponentFind() if we want to get the first component of the given type. // We first try to get holoscan::gxf::GXFTensor from GXF Entity. gxf_tid_t tid; auto tid_result = GxfComponentTypeId(context(), nvidia::TypenameAsString<holoscan::gxf::GXFTensor>(), &tid); if (tid_result != GXF_SUCCESS) { if (log_errors) { HOLOSCAN_LOG_ERROR("Unable to get component type id: {}", tid_result); } return nullptr; } gxf_uid_t cid; auto cid_result = GxfComponentFind(context(), eid(), tid, name, nullptr, &cid); if (cid_result != GXF_SUCCESS) { // Then, we try to get nvidia::gxf::Tensor from GXF Entity. tid_result = GxfComponentTypeId(context(), nvidia::TypenameAsString<nvidia::gxf::Tensor>(), &tid); if (tid_result != GXF_SUCCESS) { if (log_errors) { HOLOSCAN_LOG_ERROR( "Unable to get component type id from 'nvidia::gxf::Tensor' (error code: {})", tid_result); } return nullptr; } cid_result = GxfComponentFind(context(), eid(), tid, name, nullptr, &cid); is_holoscan_gxf_tensor = false; } if (cid_result != GXF_SUCCESS) { if (log_errors) { HOLOSCAN_LOG_ERROR("Unable to find component from the name '{}' (error code: {})", name == nullptr ? "" : name, cid_result); } return nullptr; } if (is_holoscan_gxf_tensor) { // We don't need to create DLManagedTensorCtx struct again because it is already created in // GXFTensor. (~150ns) auto handle = nvidia::gxf::Handle<holoscan::gxf::GXFTensor>::Create(context(), cid); auto tensor = handle->get()->as_tensor(); return tensor; } else { // Create a holoscan::Tensor object from the newly constructed GXF Tensor object. (~680 ns) auto handle = nvidia::gxf::Handle<nvidia::gxf::Tensor>::Create(context(), cid); auto gxf_tensor = holoscan::gxf::GXFTensor(*handle->get()); auto tensor = gxf_tensor.as_tensor(); return tensor; } } // Adds a component with given type template <typename DataT, typename = std::enable_if_t<!holoscan::is_vector_v<DataT> && holoscan::is_one_of_v<DataT, holoscan::Tensor>>> void add(std::shared_ptr<DataT>& data, const char* name = nullptr) { gxf_tid_t tid; HOLOSCAN_GXF_CALL_FATAL( GxfComponentTypeId(context(), nvidia::TypenameAsString<holoscan::gxf::GXFTensor>(), &tid)); gxf_uid_t cid; HOLOSCAN_GXF_CALL_FATAL(GxfComponentAdd(context(), eid(), tid, name, &cid)); auto handle = nvidia::gxf::Handle<holoscan::gxf::GXFTensor>::Create(context(), cid); holoscan::gxf::GXFTensor* tensor_ptr = handle->get(); // Copy the member data (std::shared_ptr<DLManagedTensorCtx>) from the Tensor to GXFTensor *tensor_ptr = GXFTensor(data->dl_ctx()); } }; // Modified version of the Tensor version of gxf::Entity::get // Retrieves a VideoBuffer instead // TODO: Support gxf::VideoBuffer natively in Holoscan nvidia::gxf::Handle<nvidia::gxf::VideoBuffer> get_videobuffer(Entity entity, const char* name = nullptr); } // namespace holoscan::gxf #endif/* HOLOSCAN_CORE_GXF_ENTITY_HPP */

© Copyright 2022-2023, NVIDIA. Last updated on Sep 13, 2023.