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540 lines
19 KiB
540 lines
19 KiB
// This file is part of OpenCV project. |
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// It is subject to the license terms in the LICENSE file found in the top-level directory |
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// of this distribution and at http://opencv.org/license.html. |
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// |
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// Copyright (C) 2023 Intel Corporation |
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#if defined HAVE_INF_ENGINE && INF_ENGINE_RELEASE >= 2022010000 |
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#include "../test_precomp.hpp" |
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#include "backends/ov/util.hpp" |
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#include <opencv2/gapi/infer/ov.hpp> |
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#include <openvino/openvino.hpp> |
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namespace opencv_test |
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{ |
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namespace { |
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// FIXME: taken from DNN module |
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void initDLDTDataPath() |
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{ |
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#ifndef WINRT |
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static bool initialized = false; |
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if (!initialized) |
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{ |
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const char* omzDataPath = getenv("OPENCV_OPEN_MODEL_ZOO_DATA_PATH"); |
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if (omzDataPath) |
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cvtest::addDataSearchPath(omzDataPath); |
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const char* dnnDataPath = getenv("OPENCV_DNN_TEST_DATA_PATH"); |
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if (dnnDataPath) { |
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// Add the dnnDataPath itself - G-API is using some images there directly |
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cvtest::addDataSearchPath(dnnDataPath); |
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cvtest::addDataSearchPath(dnnDataPath + std::string("/omz_intel_models")); |
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} |
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initialized = true; |
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} |
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#endif // WINRT |
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} |
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static const std::string SUBDIR = "intel/age-gender-recognition-retail-0013/FP32/"; |
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void copyFromOV(ov::Tensor &tensor, cv::Mat &mat) { |
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GAPI_Assert(tensor.get_byte_size() == mat.total() * mat.elemSize()); |
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std::copy_n(reinterpret_cast<uint8_t*>(tensor.data()), |
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tensor.get_byte_size(), |
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mat.ptr<uint8_t>()); |
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} |
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void copyToOV(const cv::Mat &mat, ov::Tensor &tensor) { |
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GAPI_Assert(tensor.get_byte_size() == mat.total() * mat.elemSize()); |
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std::copy_n(mat.ptr<uint8_t>(), |
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tensor.get_byte_size(), |
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reinterpret_cast<uint8_t*>(tensor.data())); |
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} |
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// FIXME: taken from the DNN module |
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void normAssert(cv::InputArray ref, cv::InputArray test, |
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const char *comment /*= ""*/, |
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double l1 = 0.00001, double lInf = 0.0001) { |
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double normL1 = cvtest::norm(ref, test, cv::NORM_L1) / ref.getMat().total(); |
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EXPECT_LE(normL1, l1) << comment; |
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double normInf = cvtest::norm(ref, test, cv::NORM_INF); |
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EXPECT_LE(normInf, lInf) << comment; |
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} |
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ov::Core getCore() { |
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static ov::Core core; |
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return core; |
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} |
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// TODO: AGNetGenComp, AGNetTypedComp, AGNetOVComp, AGNetOVCompiled |
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// can be generalized to work with any model and used as parameters for tests. |
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struct AGNetGenComp { |
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static constexpr const char* tag = "age-gender-generic"; |
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using Params = cv::gapi::ov::Params<cv::gapi::Generic>; |
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static Params params(const std::string &xml, |
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const std::string &bin, |
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const std::string &device) { |
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return {tag, xml, bin, device}; |
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} |
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static Params params(const std::string &blob_path, |
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const std::string &device) { |
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return {tag, blob_path, device}; |
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} |
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static cv::GComputation create() { |
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cv::GMat in; |
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GInferInputs inputs; |
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inputs["data"] = in; |
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auto outputs = cv::gapi::infer<cv::gapi::Generic>(tag, inputs); |
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auto age = outputs.at("age_conv3"); |
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auto gender = outputs.at("prob"); |
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return cv::GComputation{cv::GIn(in), cv::GOut(age, gender)}; |
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} |
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}; |
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struct AGNetTypedComp { |
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using AGInfo = std::tuple<cv::GMat, cv::GMat>; |
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G_API_NET(AgeGender, <AGInfo(cv::GMat)>, "typed-age-gender"); |
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using Params = cv::gapi::ov::Params<AgeGender>; |
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static Params params(const std::string &xml_path, |
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const std::string &bin_path, |
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const std::string &device) { |
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return Params { |
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xml_path, bin_path, device |
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}.cfgOutputLayers({ "age_conv3", "prob" }); |
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} |
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static cv::GComputation create() { |
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cv::GMat in; |
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cv::GMat age, gender; |
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std::tie(age, gender) = cv::gapi::infer<AgeGender>(in); |
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return cv::GComputation{cv::GIn(in), cv::GOut(age, gender)}; |
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} |
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}; |
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class AGNetOVCompiled { |
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public: |
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AGNetOVCompiled(ov::CompiledModel &&compiled_model) |
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: m_compiled_model(std::move(compiled_model)) { |
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} |
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void operator()(const cv::Mat &in_mat, |
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cv::Mat &age_mat, |
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cv::Mat &gender_mat) { |
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auto infer_request = m_compiled_model.create_infer_request(); |
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auto input_tensor = infer_request.get_input_tensor(); |
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copyToOV(in_mat, input_tensor); |
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infer_request.infer(); |
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auto age_tensor = infer_request.get_tensor("age_conv3"); |
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age_mat.create(cv::gapi::ov::util::to_ocv(age_tensor.get_shape()), |
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cv::gapi::ov::util::to_ocv(age_tensor.get_element_type())); |
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copyFromOV(age_tensor, age_mat); |
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auto gender_tensor = infer_request.get_tensor("prob"); |
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gender_mat.create(cv::gapi::ov::util::to_ocv(gender_tensor.get_shape()), |
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cv::gapi::ov::util::to_ocv(gender_tensor.get_element_type())); |
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copyFromOV(gender_tensor, gender_mat); |
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} |
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void export_model(const std::string &outpath) { |
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std::ofstream file{outpath, std::ios::out | std::ios::binary}; |
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GAPI_Assert(file.is_open()); |
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m_compiled_model.export_model(file); |
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} |
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private: |
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ov::CompiledModel m_compiled_model; |
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}; |
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struct ImageInputPreproc { |
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void operator()(ov::preprocess::PrePostProcessor &ppp) { |
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ppp.input().tensor().set_layout(ov::Layout("NHWC")) |
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.set_element_type(ov::element::u8) |
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.set_shape({1, size.height, size.width, 3}); |
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ppp.input().model().set_layout(ov::Layout("NCHW")); |
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ppp.input().preprocess().resize(::ov::preprocess::ResizeAlgorithm::RESIZE_LINEAR); |
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} |
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cv::Size size; |
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}; |
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class AGNetOVComp { |
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public: |
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AGNetOVComp(const std::string &xml_path, |
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const std::string &bin_path, |
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const std::string &device) |
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: m_device(device) { |
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m_model = getCore().read_model(xml_path, bin_path); |
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} |
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using PrePostProcessF = std::function<void(ov::preprocess::PrePostProcessor&)>; |
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void cfgPrePostProcessing(PrePostProcessF f) { |
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ov::preprocess::PrePostProcessor ppp(m_model); |
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f(ppp); |
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m_model = ppp.build(); |
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} |
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AGNetOVCompiled compile() { |
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auto compiled_model = getCore().compile_model(m_model, m_device); |
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return {std::move(compiled_model)}; |
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} |
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void apply(const cv::Mat &in_mat, |
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cv::Mat &age_mat, |
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cv::Mat &gender_mat) { |
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compile()(in_mat, age_mat, gender_mat); |
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} |
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private: |
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std::string m_device; |
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std::shared_ptr<ov::Model> m_model; |
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}; |
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} // anonymous namespace |
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// TODO: Make all of tests below parmetrized to avoid code duplication |
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TEST(TestAgeGenderOV, InferTypedTensor) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat({1, 3, 62, 62}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetTypedComp::create(); |
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auto pp = AGNetTypedComp::params(xml_path, bin_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferTypedImage) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat(300, 300, CV_8UC3); |
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cv::randu(in_mat, 0, 255); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing(ImageInputPreproc{in_mat.size()}); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetTypedComp::create(); |
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auto pp = AGNetTypedComp::params(xml_path, bin_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferGenericTensor) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat({1, 3, 62, 62}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(xml_path, bin_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferGenericImage) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat(300, 300, CV_8UC3); |
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cv::randu(in_mat, 0, 255); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing(ImageInputPreproc{in_mat.size()}); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(xml_path, bin_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferGenericImageBlob) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string blob_path = "age-gender-recognition-retail-0013.blob"; |
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const std::string device = "CPU"; |
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cv::Mat in_mat(300, 300, CV_8UC3); |
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cv::randu(in_mat, 0, 255); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing(ImageInputPreproc{in_mat.size()}); |
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auto cc_ref = ref.compile(); |
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// NB: Output blob will contain preprocessing inside. |
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cc_ref.export_model(blob_path); |
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cc_ref(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(blob_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferGenericTensorBlob) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string blob_path = "age-gender-recognition-retail-0013.blob"; |
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const std::string device = "CPU"; |
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cv::Mat in_mat({1, 3, 62, 62}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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auto cc_ref = ref.compile(); |
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cc_ref.export_model(blob_path); |
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cc_ref(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(blob_path, device); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferBothOutputsFP16) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat({1, 3, 62, 62}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing([](ov::preprocess::PrePostProcessor &ppp){ |
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ppp.output(0).tensor().set_element_type(ov::element::f16); |
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ppp.output(1).tensor().set_element_type(ov::element::f16); |
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}); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(xml_path, bin_path, device); |
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pp.cfgOutputTensorPrecision(CV_16F); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, InferOneOutputFP16) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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cv::Mat in_mat({1, 3, 62, 62}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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// OpenVINO |
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const std::string fp16_output_name = "prob"; |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing([&](ov::preprocess::PrePostProcessor &ppp){ |
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ppp.output(fp16_output_name).tensor().set_element_type(ov::element::f16); |
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}); |
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ref.apply(in_mat, ov_age, ov_gender); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(xml_path, bin_path, device); |
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pp.cfgOutputTensorPrecision({{fp16_output_name, CV_16F}}); |
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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TEST(TestAgeGenderOV, ThrowCfgOutputPrecForBlob) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string blob_path = "age-gender-recognition-retail-0013.blob"; |
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const std::string device = "CPU"; |
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// OpenVINO (Just for blob compilation) |
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AGNetOVComp ref(xml_path, bin_path, device); |
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auto cc_ref = ref.compile(); |
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cc_ref.export_model(blob_path); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(blob_path, device); |
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EXPECT_ANY_THROW(pp.cfgOutputTensorPrecision(CV_16F)); |
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} |
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TEST(TestAgeGenderOV, ThrowInvalidConfigIR) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(xml_path, bin_path, device); |
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pp.cfgPluginConfig({{"some_key", "some_value"}}); |
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EXPECT_ANY_THROW(comp.compile(cv::GMatDesc{CV_8U,3,cv::Size{320, 240}}, |
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cv::compile_args(cv::gapi::networks(pp)))); |
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} |
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TEST(TestAgeGenderOV, ThrowInvalidConfigBlob) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string blob_path = "age-gender-recognition-retail-0013.blob"; |
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const std::string device = "CPU"; |
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// OpenVINO (Just for blob compilation) |
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AGNetOVComp ref(xml_path, bin_path, device); |
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auto cc_ref = ref.compile(); |
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cc_ref.export_model(blob_path); |
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// G-API |
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auto comp = AGNetGenComp::create(); |
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auto pp = AGNetGenComp::params(blob_path, device); |
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pp.cfgPluginConfig({{"some_key", "some_value"}}); |
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EXPECT_ANY_THROW(comp.compile(cv::GMatDesc{CV_8U,3,cv::Size{320, 240}}, |
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cv::compile_args(cv::gapi::networks(pp)))); |
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} |
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TEST(TestAgeGenderOV, ThrowInvalidImageLayout) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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|
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// NB: This mat may only have "NHWC" layout. |
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cv::Mat in_mat(300, 300, CV_8UC3); |
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cv::randu(in_mat, 0, 255); |
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cv::Mat gender, gapi_age, gapi_gender; |
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auto comp = AGNetTypedComp::create(); |
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auto pp = AGNetTypedComp::params(xml_path, bin_path, device); |
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pp.cfgInputTensorLayout("NCHW"); |
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EXPECT_ANY_THROW(comp.compile(cv::descr_of(in_mat), |
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cv::compile_args(cv::gapi::networks(pp)))); |
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} |
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TEST(TestAgeGenderOV, InferTensorWithPreproc) { |
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initDLDTDataPath(); |
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const std::string xml_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.xml"); |
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const std::string bin_path = findDataFile(SUBDIR + "age-gender-recognition-retail-0013.bin"); |
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const std::string device = "CPU"; |
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|
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cv::Mat in_mat({1, 240, 320, 3}, CV_32F); |
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cv::randu(in_mat, -1, 1); |
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cv::Mat ov_age, ov_gender, gapi_age, gapi_gender; |
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|
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// OpenVINO |
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AGNetOVComp ref(xml_path, bin_path, device); |
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ref.cfgPrePostProcessing([](ov::preprocess::PrePostProcessor &ppp) { |
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auto& input = ppp.input(); |
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input.tensor().set_spatial_static_shape(240, 320) |
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.set_layout("NHWC"); |
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input.preprocess().resize(ov::preprocess::ResizeAlgorithm::RESIZE_LINEAR); |
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}); |
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ref.apply(in_mat, ov_age, ov_gender); |
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|
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// G-API |
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auto comp = AGNetTypedComp::create(); |
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auto pp = AGNetTypedComp::params(xml_path, bin_path, device); |
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pp.cfgResize(cv::INTER_LINEAR) |
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.cfgInputTensorLayout("NHWC"); |
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|
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comp.apply(cv::gin(in_mat), cv::gout(gapi_age, gapi_gender), |
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cv::compile_args(cv::gapi::networks(pp))); |
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|
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// Assert |
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normAssert(ov_age, gapi_age, "Test age output" ); |
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normAssert(ov_gender, gapi_gender, "Test gender output"); |
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} |
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} // namespace opencv_test |
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#endif // HAVE_INF_ENGINE && INF_ENGINE_RELEASE >= 2022010000
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