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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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f71eb29497
This MR provides a transform element that leverage ONNX runtime to run AI inference on a broad range of neural network toolkits, running on either CPU or GPU. ONNX supports 16 different providers at the moment, so with ONNX we immediately get support for Nvidia, AMD, Xilinx and many others. For the first release, this plugin adds a gstonnxobjectdetector element to detect objects in video frames. Meta data generated by the model is attached to the video buffer as a custom GstObjectDetectorMeta meta. Part-of: <https://gitlab.freedesktop.org/gstreamer/gst-plugins-bad/-/merge_requests/1997>
423 lines
12 KiB
C++
423 lines
12 KiB
C++
/*
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* GStreamer gstreamer-onnxclient
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* Copyright (C) 2021 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 <providers/cpu/cpu_provider_factory.h>
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#ifdef GST_ML_ONNX_RUNTIME_HAVE_CUDA
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#include <providers/cuda/cuda_provider_factory.h>
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#endif
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#include <exception>
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#include <fstream>
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#include <iostream>
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#include <limits>
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#include <numeric>
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#include <cmath>
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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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GstMlOutputNodeInfo::GstMlOutputNodeInfo (void):index
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(GST_ML_NODE_INDEX_DISABLED),
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type (ONNXTensorElementDataType::ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT)
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{
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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_MODEL_INPUT_IMAGE_FORMAT_HWC),
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fixedInputImageSize (true)
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{
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for (size_t i = 0; i < GST_ML_OUTPUT_NODE_NUMBER_OF; ++i)
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outputNodeIndexToFunction[i] = (GstMlOutputNodeFunction) i;
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}
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GstOnnxClient::~GstOnnxClient ()
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{
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delete session;
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delete[]dest;
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}
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Ort::Env & GstOnnxClient::getEnv (void)
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{
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static Ort::Env env (OrtLoggingLevel::ORT_LOGGING_LEVEL_WARNING,
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"GstOnnxNamespace");
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return env;
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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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std::string GstOnnxClient::getOutputNodeName (GstMlOutputNodeFunction nodeType)
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{
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switch (nodeType) {
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case GST_ML_OUTPUT_NODE_FUNCTION_DETECTION:
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return "detection";
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break;
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case GST_ML_OUTPUT_NODE_FUNCTION_BOUNDING_BOX:
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return "bounding box";
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break;
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case GST_ML_OUTPUT_NODE_FUNCTION_SCORE:
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return "score";
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break;
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case GST_ML_OUTPUT_NODE_FUNCTION_CLASS:
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return "label";
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break;
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};
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return "";
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}
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void GstOnnxClient::setInputImageFormat (GstMlModelInputImageFormat format)
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{
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inputImageFormat = format;
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}
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GstMlModelInputImageFormat 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::getOutputNodeNames (void)
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{
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return outputNames;
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}
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void GstOnnxClient::setOutputNodeIndex (GstMlOutputNodeFunction node,
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gint index)
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{
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g_assert (index < GST_ML_OUTPUT_NODE_NUMBER_OF);
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outputNodeInfo[node].index = index;
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if (index != GST_ML_NODE_INDEX_DISABLED)
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outputNodeIndexToFunction[index] = node;
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}
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gint GstOnnxClient::getOutputNodeIndex (GstMlOutputNodeFunction node)
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{
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return outputNodeInfo[node].index;
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}
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void GstOnnxClient::setOutputNodeType (GstMlOutputNodeFunction node,
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ONNXTensorElementDataType type)
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{
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outputNodeInfo[node].type = type;
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}
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ONNXTensorElementDataType
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GstOnnxClient::getOutputNodeType (GstMlOutputNodeFunction node)
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{
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return outputNodeInfo[node].type;
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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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Ort::SessionOptions sessionOptions;
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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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#ifdef GST_ML_ONNX_RUNTIME_HAVE_CUDA
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Ort::ThrowOnError (OrtSessionOptionsAppendExecutionProvider_CUDA
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(sessionOptions, 0));
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#else
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return false;
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#endif
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break;
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default:
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break;
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};
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session = new Ort::Session (getEnv (), 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_MODEL_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", (gint) session->GetOutputCount ());
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Ort::AllocatorWithDefaultOptions allocator;
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GST_DEBUG ("Input name: %s", session->GetInputName (0, allocator));
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for (size_t i = 0; i < session->GetOutputCount (); ++i) {
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auto output_name = session->GetOutputName (i, allocator);
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outputNames.push_back (output_name);
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auto type_info = session->GetOutputTypeInfo (i);
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auto tensor_info = type_info.GetTensorTypeAndShapeInfo ();
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if (i < GST_ML_OUTPUT_NODE_NUMBER_OF) {
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auto function = outputNodeIndexToFunction[i];
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outputNodeInfo[function].type = tensor_info.GetElementType ();
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}
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}
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return true;
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}
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std::vector < GstMlBoundingBox > GstOnnxClient::run (uint8_t * img_data,
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GstVideoMeta * vmeta, std::string labelPath, float scoreThreshold)
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{
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auto type = getOutputNodeType (GST_ML_OUTPUT_NODE_FUNCTION_CLASS);
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return (type ==
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ONNXTensorElementDataType::ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT) ?
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doRun < float >(img_data, vmeta, labelPath, scoreThreshold)
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: doRun < int >(img_data, vmeta, labelPath, scoreThreshold);
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}
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void GstOnnxClient::parseDimensions (GstVideoMeta * vmeta)
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{
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int32_t newWidth = fixedInputImageSize ? width : vmeta->width;
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int32_t newHeight = fixedInputImageSize ? height : vmeta->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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template < typename T > std::vector < GstMlBoundingBox >
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GstOnnxClient::doRun (uint8_t * img_data, GstVideoMeta * vmeta,
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std::string labelPath, float scoreThreshold)
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{
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std::vector < GstMlBoundingBox > boundingBoxes;
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if (!img_data)
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return boundingBoxes;
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parseDimensions (vmeta);
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Ort::AllocatorWithDefaultOptions allocator;
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auto inputName = session->GetInputName (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_MODEL_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 (vmeta->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 = vmeta->stride[0];
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if (inputImageFormat == GST_ML_MODEL_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 { inputName };
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std::vector < Ort::Value > modelOutput = session->Run (Ort::RunOptions { nullptr},
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inputNames.data (),
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inputTensors.data (), 1, outputNames.data (), outputNames.size ());
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auto numDetections =
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modelOutput[getOutputNodeIndex
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(GST_ML_OUTPUT_NODE_FUNCTION_DETECTION)].GetTensorMutableData < float >();
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auto bboxes =
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modelOutput[getOutputNodeIndex
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(GST_ML_OUTPUT_NODE_FUNCTION_BOUNDING_BOX)].GetTensorMutableData < float >();
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auto scores =
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modelOutput[getOutputNodeIndex
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(GST_ML_OUTPUT_NODE_FUNCTION_SCORE)].GetTensorMutableData < float >();
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T *labelIndex = nullptr;
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if (getOutputNodeIndex (GST_ML_OUTPUT_NODE_FUNCTION_CLASS) !=
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GST_ML_NODE_INDEX_DISABLED) {
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labelIndex =
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modelOutput[getOutputNodeIndex
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(GST_ML_OUTPUT_NODE_FUNCTION_CLASS)].GetTensorMutableData < T > ();
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}
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if (labels.empty () && !labelPath.empty ())
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labels = ReadLabels (labelPath);
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for (int i = 0; i < numDetections[0]; ++i) {
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if (scores[i] > scoreThreshold) {
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std::string label = "";
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if (labelIndex && !labels.empty ())
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label = labels[labelIndex[i] - 1];
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auto score = scores[i];
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auto y0 = bboxes[i * 4] * height;
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auto x0 = bboxes[i * 4 + 1] * width;
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auto bheight = bboxes[i * 4 + 2] * height - y0;
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auto bwidth = bboxes[i * 4 + 3] * width - x0;
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boundingBoxes.push_back (GstMlBoundingBox (label, score, x0, y0, bwidth,
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bheight));
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}
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}
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return boundingBoxes;
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}
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std::vector < std::string >
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GstOnnxClient::ReadLabels (const std::string & labelsFile)
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{
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std::vector < std::string > labels;
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std::string line;
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std::ifstream fp (labelsFile);
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while (std::getline (fp, line))
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labels.push_back (line);
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return labels;
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}
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}
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