mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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432 lines
14 KiB
C++
432 lines
14 KiB
C++
/*
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* GStreamer gstreamer-onnxclient
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* Copyright (C) 2021-2023 Collabora Ltd
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*
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* gstonnxclient.cpp
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the
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* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#include "gstonnxclient.h"
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#include <cpu_provider_factory.h>
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#include <sstream>
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namespace GstOnnxNamespace
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{
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template < typename T >
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std::ostream & operator<< (std::ostream & os, const std::vector < T > &v)
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{
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os << "[";
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for (size_t i = 0; i < v.size (); ++i)
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{
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os << v[i];
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if (i != v.size () - 1)
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{
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os << ", ";
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}
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}
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os << "]";
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return os;
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}
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GstOnnxClient::GstOnnxClient ():session (nullptr),
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width (0),
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height (0),
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channels (0),
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dest (nullptr),
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m_provider (GST_ONNX_EXECUTION_PROVIDER_CPU),
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inputImageFormat (GST_ML_INPUT_IMAGE_FORMAT_HWC),
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fixedInputImageSize (false) {
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}
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GstOnnxClient::~GstOnnxClient () {
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delete session;
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delete[]dest;
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}
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int32_t GstOnnxClient::getWidth (void)
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{
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return width;
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}
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int32_t GstOnnxClient::getHeight (void)
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{
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return height;
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}
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bool GstOnnxClient::isFixedInputImageSize (void)
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{
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return fixedInputImageSize;
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}
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void GstOnnxClient::setInputImageFormat (GstMlInputImageFormat format)
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{
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inputImageFormat = format;
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}
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GstMlInputImageFormat GstOnnxClient::getInputImageFormat (void)
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{
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return inputImageFormat;
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}
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std::vector < const char *>GstOnnxClient::genOutputNamesRaw (void)
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{
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if (!outputNames.empty () && outputNamesRaw.size () != outputNames.size ()) {
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outputNamesRaw.resize (outputNames.size ());
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for (size_t i = 0; i < outputNamesRaw.size (); i++)
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outputNamesRaw[i] = outputNames[i].get ();
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}
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return outputNamesRaw;
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}
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bool GstOnnxClient::hasSession (void)
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{
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return session != nullptr;
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}
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bool GstOnnxClient::createSession (std::string modelFile,
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GstOnnxOptimizationLevel optim, GstOnnxExecutionProvider provider)
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{
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if (session)
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return true;
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GraphOptimizationLevel onnx_optim;
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switch (optim) {
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case GST_ONNX_OPTIMIZATION_LEVEL_DISABLE_ALL:
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onnx_optim = GraphOptimizationLevel::ORT_DISABLE_ALL;
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break;
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case GST_ONNX_OPTIMIZATION_LEVEL_ENABLE_BASIC:
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onnx_optim = GraphOptimizationLevel::ORT_ENABLE_BASIC;
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break;
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case GST_ONNX_OPTIMIZATION_LEVEL_ENABLE_EXTENDED:
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onnx_optim = GraphOptimizationLevel::ORT_ENABLE_EXTENDED;
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break;
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case GST_ONNX_OPTIMIZATION_LEVEL_ENABLE_ALL:
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onnx_optim = GraphOptimizationLevel::ORT_ENABLE_ALL;
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break;
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default:
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onnx_optim = GraphOptimizationLevel::ORT_ENABLE_EXTENDED;
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break;
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};
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try {
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Ort::SessionOptions sessionOptions;
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const auto & api = Ort::GetApi ();
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// for debugging
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//sessionOptions.SetIntraOpNumThreads (1);
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sessionOptions.SetGraphOptimizationLevel (onnx_optim);
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m_provider = provider;
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switch (m_provider) {
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case GST_ONNX_EXECUTION_PROVIDER_CUDA:
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try {
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OrtCUDAProviderOptionsV2 *cuda_options = nullptr;
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Ort::ThrowOnError (api.CreateCUDAProviderOptions (&cuda_options));
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std::unique_ptr < OrtCUDAProviderOptionsV2,
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decltype (api.ReleaseCUDAProviderOptions) >
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rel_cuda_options (cuda_options, api.ReleaseCUDAProviderOptions);
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Ort::ThrowOnError (api.SessionOptionsAppendExecutionProvider_CUDA_V2
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(static_cast < OrtSessionOptions * >(sessionOptions),
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rel_cuda_options.get ()));
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}
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catch (Ort::Exception & ortex) {
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GST_WARNING
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("Failed to create CUDA provider - dropping back to CPU");
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Ort::ThrowOnError (OrtSessionOptionsAppendExecutionProvider_CPU
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(sessionOptions, 1));
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}
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break;
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default:
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Ort::ThrowOnError (OrtSessionOptionsAppendExecutionProvider_CPU
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(sessionOptions, 1));
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break;
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};
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env =
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Ort::Env (OrtLoggingLevel::ORT_LOGGING_LEVEL_WARNING,
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"GstOnnxNamespace");
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session = new Ort::Session (env, modelFile.c_str (), sessionOptions);
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auto inputTypeInfo = session->GetInputTypeInfo (0);
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std::vector < int64_t > inputDims =
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inputTypeInfo.GetTensorTypeAndShapeInfo ().GetShape ();
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if (inputImageFormat == GST_ML_INPUT_IMAGE_FORMAT_HWC) {
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height = inputDims[1];
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width = inputDims[2];
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channels = inputDims[3];
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} else {
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channels = inputDims[1];
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height = inputDims[2];
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width = inputDims[3];
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}
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fixedInputImageSize = width > 0 && height > 0;
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GST_DEBUG ("Number of Output Nodes: %d",
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(gint) session->GetOutputCount ());
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Ort::AllocatorWithDefaultOptions allocator;
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auto input_name = session->GetInputNameAllocated (0, allocator);
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GST_DEBUG ("Input name: %s", input_name.get ());
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for (size_t i = 0; i < session->GetOutputCount (); ++i) {
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auto output_name = session->GetOutputNameAllocated (i, allocator);
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GST_DEBUG ("Output name %lu:%s", i, output_name.get ());
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outputNames.push_back (std::move (output_name));
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}
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genOutputNamesRaw ();
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// look up tensor ids
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auto metaData = session->GetModelMetadata ();
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OrtAllocator *ortAllocator;
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auto status =
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Ort::GetApi ().GetAllocatorWithDefaultOptions (&ortAllocator);
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if (status) {
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// Handle the error case
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const char *errorString = Ort::GetApi ().GetErrorMessage (status);
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GST_WARNING ("Failed to get allocator: %s", errorString);
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// Clean up the error status
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Ort::GetApi ().ReleaseStatus (status);
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return false;
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} else {
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for (auto & name:outputNamesRaw) {
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Ort::AllocatedStringPtr res =
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metaData.LookupCustomMetadataMapAllocated (name, ortAllocator);
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if (res) {
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GQuark quark = g_quark_from_static_string (res.get ());
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outputIds.push_back (quark);
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} else {
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GST_ERROR ("Failed to look up id for key %s", name);
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return false;
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}
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}
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}
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}
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catch (Ort::Exception & ortex) {
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GST_ERROR ("%s", ortex.what ());
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return false;
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}
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return true;
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}
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void GstOnnxClient::parseDimensions (GstVideoInfo vinfo)
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{
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int32_t newWidth = fixedInputImageSize ? width : vinfo.width;
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int32_t newHeight = fixedInputImageSize ? height : vinfo.height;
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if (!dest || width * height < newWidth * newHeight) {
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delete[]dest;
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dest = new uint8_t[newWidth * newHeight * channels];
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}
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width = newWidth;
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height = newHeight;
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}
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// copy tensor data to a GstTensorMeta
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GstTensorMeta *GstOnnxClient::copy_tensors_to_meta (std::vector < Ort::Value >
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&outputs, GstBuffer * buffer)
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{
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size_t num_tensors = outputNamesRaw.size ();
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GstTensorMeta *tmeta = (GstTensorMeta *) gst_buffer_add_meta (buffer,
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gst_tensor_meta_get_info (),
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NULL);
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tmeta->num_tensors = num_tensors;
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tmeta->tensor = (GstTensor *) g_malloc (num_tensors * sizeof (GstTensor));
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bool hasIds = outputIds.size () == num_tensors;
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for (size_t i = 0; i < num_tensors; i++) {
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Ort::Value outputTensor = std::move (outputs[i]);
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ONNXTensorElementDataType tensorType =
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outputTensor.GetTensorTypeAndShapeInfo ().GetElementType ();
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GstTensor *tensor = &tmeta->tensor[i];
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if (hasIds)
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tensor->id = outputIds[i];
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tensor->data = gst_buffer_new ();
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auto tensorShape = outputTensor.GetTensorTypeAndShapeInfo ().GetShape ();
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tensor->num_dims = tensorShape.size ();
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tensor->dims = g_new (int64_t, tensor->num_dims);
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for (size_t j = 0; j < tensorShape.size (); ++j) {
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tensor->dims[j] = tensorShape[j];
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}
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size_t numElements =
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outputTensor.GetTensorTypeAndShapeInfo ().GetElementCount ();
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size_t buffer_size = 0;
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guint8 *buffer_data = NULL;
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if (tensorType == ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT) {
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buffer_size = numElements * sizeof (float);
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// Allocate memory for the buffer data
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buffer_data = (guint8 *) malloc (buffer_size);
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if (buffer_data == NULL) {
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GST_ERROR ("Failed to allocate memory");
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return NULL;
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}
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// Copy the data from the source buffer to the allocated memory
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memcpy (buffer_data, outputTensor.GetTensorData < float >(),
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buffer_size);
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tensor->type = GST_TENSOR_TYPE_FLOAT32;
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} else if (tensorType == ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32) {
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buffer_size = numElements * sizeof (int);
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// Allocate memory for the buffer data
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guint8 *buffer_data = (guint8 *) malloc (buffer_size);
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if (buffer_data == NULL) {
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GST_ERROR ("Failed to allocate memory");
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return NULL;
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}
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// Copy the data from the source buffer to the allocated memory
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memcpy (buffer_data, outputTensor.GetTensorData < int >(),
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buffer_size);
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tensor->type = GST_TENSOR_TYPE_INT32;
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}
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if (buffer_data) {
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// Create a GstMemory object from the allocated memory
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GstMemory *memory = gst_memory_new_wrapped ((GstMemoryFlags) 0,
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buffer_data, buffer_size, 0, buffer_size, NULL, NULL);
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// Append the GstMemory object to the GstBuffer
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gst_buffer_append_memory (tmeta->tensor[i].data, memory);
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}
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}
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return tmeta;
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}
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std::vector < Ort::Value > GstOnnxClient::run (uint8_t * img_data,
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GstVideoInfo vinfo) {
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std::vector < Ort::Value > modelOutput;
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doRun (img_data, vinfo, modelOutput);
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return modelOutput;
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}
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bool GstOnnxClient::doRun (uint8_t * img_data, GstVideoInfo vinfo,
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std::vector < Ort::Value > &modelOutput)
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{
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if (!img_data)
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return false;
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Ort::AllocatorWithDefaultOptions allocator;
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auto inputName = session->GetInputNameAllocated (0, allocator);
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auto inputTypeInfo = session->GetInputTypeInfo (0);
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std::vector < int64_t > inputDims =
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inputTypeInfo.GetTensorTypeAndShapeInfo ().GetShape ();
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inputDims[0] = 1;
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if (inputImageFormat == GST_ML_INPUT_IMAGE_FORMAT_HWC) {
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inputDims[1] = height;
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inputDims[2] = width;
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} else {
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inputDims[2] = height;
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inputDims[3] = width;
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}
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std::ostringstream buffer;
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buffer << inputDims;
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GST_DEBUG ("Input dimensions: %s", buffer.str ().c_str ());
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// copy video frame
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uint8_t *srcPtr[3] = { img_data, img_data + 1, img_data + 2 };
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uint32_t srcSamplesPerPixel = 3;
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switch (vinfo.finfo->format) {
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case GST_VIDEO_FORMAT_RGBA:
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srcSamplesPerPixel = 4;
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break;
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case GST_VIDEO_FORMAT_BGRA:
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srcSamplesPerPixel = 4;
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srcPtr[0] = img_data + 2;
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srcPtr[1] = img_data + 1;
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srcPtr[2] = img_data + 0;
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break;
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case GST_VIDEO_FORMAT_ARGB:
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srcSamplesPerPixel = 4;
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srcPtr[0] = img_data + 1;
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srcPtr[1] = img_data + 2;
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srcPtr[2] = img_data + 3;
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break;
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case GST_VIDEO_FORMAT_ABGR:
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srcSamplesPerPixel = 4;
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srcPtr[0] = img_data + 3;
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srcPtr[1] = img_data + 2;
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srcPtr[2] = img_data + 1;
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break;
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case GST_VIDEO_FORMAT_BGR:
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srcPtr[0] = img_data + 2;
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srcPtr[1] = img_data + 1;
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srcPtr[2] = img_data + 0;
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break;
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default:
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break;
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}
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size_t destIndex = 0;
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uint32_t stride = vinfo.stride[0];
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if (inputImageFormat == GST_ML_INPUT_IMAGE_FORMAT_HWC) {
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for (int32_t j = 0; j < height; ++j) {
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for (int32_t i = 0; i < width; ++i) {
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for (int32_t k = 0; k < channels; ++k) {
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dest[destIndex++] = *srcPtr[k];
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srcPtr[k] += srcSamplesPerPixel;
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}
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}
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// correct for stride
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for (uint32_t k = 0; k < 3; ++k)
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srcPtr[k] += stride - srcSamplesPerPixel * width;
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}
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} else {
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size_t frameSize = width * height;
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uint8_t *destPtr[3] = { dest, dest + frameSize, dest + 2 * frameSize };
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for (int32_t j = 0; j < height; ++j) {
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for (int32_t i = 0; i < width; ++i) {
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for (int32_t k = 0; k < channels; ++k) {
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destPtr[k][destIndex] = *srcPtr[k];
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srcPtr[k] += srcSamplesPerPixel;
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}
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destIndex++;
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}
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// correct for stride
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for (uint32_t k = 0; k < 3; ++k)
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srcPtr[k] += stride - srcSamplesPerPixel * width;
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}
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}
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const size_t inputTensorSize = width * height * channels;
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auto memoryInfo =
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Ort::MemoryInfo::CreateCpu (OrtAllocatorType::OrtArenaAllocator,
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OrtMemType::OrtMemTypeDefault);
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std::vector < Ort::Value > inputTensors;
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inputTensors.push_back (Ort::Value::CreateTensor < uint8_t > (memoryInfo,
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dest, inputTensorSize, inputDims.data (), inputDims.size ()));
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std::vector < const char *>inputNames
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{
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inputName.get ()};
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modelOutput = session->Run (Ort::RunOptions {
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nullptr},
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inputNames.data (),
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inputTensors.data (), 1, outputNamesRaw.data (),
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outputNamesRaw.size ());
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return true;
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}
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}
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