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// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.
//
// Copyright (C) 2018-2024 Intel Corporation
#include "precomp.hpp"
// needs to be included regardless if IE is present or not
// (cv::gapi::ie::backend() is still there and is defined always)
#include "backends/ie/giebackend.hpp"
#if defined HAVE_INF_ENGINE && INF_ENGINE_RELEASE < 2023010000
#if INF_ENGINE_RELEASE <= 2019010000
# error G-API IE module supports only OpenVINO IE >= 2019 R1
#endif
#include <functional>
#include <unordered_set>
#include <atomic>
#include <tuple>
#include <ade/util/algorithm.hpp>
#include <ade/util/range.hpp>
#include <ade/util/zip_range.hpp>
#include <ade/util/chain_range.hpp>
#include <ade/typed_graph.hpp>
#include <opencv2/core/utility.hpp>
#include <opencv2/core/utils/logger.hpp>
#include <opencv2/gapi/gcommon.hpp>
#include <opencv2/gapi/garray.hpp>
#include <opencv2/gapi/gopaque.hpp>
#include <opencv2/gapi/util/any.hpp>
#include <opencv2/gapi/gtype_traits.hpp>
#include <opencv2/gapi/infer.hpp>
#include <opencv2/gapi/own/convert.hpp>
#include <opencv2/gapi/gframe.hpp>
#include "compiler/gobjref.hpp"
#include "compiler/gmodel.hpp"
#include "backends/ie/util.hpp"
#include "backends/ie/giebackend/giewrapper.hpp"
#include "api/gbackend_priv.hpp" // FIXME: Make it part of Backend SDK!
#include "logger.hpp"
#if INF_ENGINE_RELEASE < 2021010000
#include "ie_compound_blob.h"
#endif
#if defined(HAVE_TBB)
# include <tbb/concurrent_queue.h> // FIXME: drop it from here!
template<typename T> using QueueClass = tbb::concurrent_bounded_queue<T>;
#else
# include "executor/conc_queue.hpp"
template<typename T> using QueueClass = cv::gapi::own::concurrent_bounded_queue<T>;
#endif // TBB
#include "utils/itt.hpp"
#include "streaming/onevpl/engine/preproc_engine_interface.hpp"
#include "streaming/onevpl/engine/preproc/preproc_dispatcher.hpp"
namespace IE = InferenceEngine;
namespace {
IE::Layout toIE(const std::string &layout) {
const std::unordered_map<std::string, IE::Layout> layouts = {
{"NCDHW", IE::Layout::NCDHW},
{"NDHWC", IE::Layout::NDHWC},
{"NHWC" , IE::Layout::NHWC },
{"NCHW" , IE::Layout::NCHW },
{"CHW" , IE::Layout::CHW },
{"HWC" , IE::Layout::HWC },
{"HW" , IE::Layout::HW },
{"NC" , IE::Layout::NC },
{"CN" , IE::Layout::CN },
{"C" , IE::Layout::C },
};
const auto it = layouts.find(layout);
if (it == layouts.end()) {
cv::util::throw_error(
std::logic_error("IE Backend: Unsupported layout: " + layout));
}
return it->second;
};
inline IE::ROI toIE(const cv::Rect &rc) {
return IE::ROI
{ 0u
, static_cast<std::size_t>(rc.x)
, static_cast<std::size_t>(rc.y)
, static_cast<std::size_t>(rc.width)
, static_cast<std::size_t>(rc.height)
};
}
inline IE::SizeVector toIE(const cv::MatSize &sz) {
return cv::to_own<IE::SizeVector::value_type>(sz);
}
inline std::vector<int> toCV(const IE::SizeVector &vsz) {
std::vector<int> result;
result.reserve(vsz.size());
for (auto sz : vsz) {
result.push_back(ade::util::checked_cast<int>(sz));
}
return result;
}
inline IE::Layout toIELayout(const std::size_t ndims) {
static const IE::Layout lts[] = {
IE::Layout::SCALAR,
IE::Layout::C,
IE::Layout::NC,
IE::Layout::CHW,
IE::Layout::NCHW,
IE::Layout::NCDHW,
};
// FIXME: This is not really a good conversion,
// since it may also stand for NHWC/HW/CN/NDHWC data
CV_Assert(ndims < sizeof(lts) / sizeof(lts[0]));
return lts[ndims];
}
inline IE::Precision toIE(int depth) {
switch (depth) {
case CV_8U: return IE::Precision::U8;
case CV_32S: return IE::Precision::I32;
case CV_32F: return IE::Precision::FP32;
case CV_16F: return IE::Precision::FP16;
default: GAPI_Error("IE. Unsupported data type");
}
return IE::Precision::UNSPECIFIED;
}
inline int toCV(IE::Precision prec) {
switch (prec) {
case IE::Precision::U8: return CV_8U;
case IE::Precision::FP32: return CV_32F;
case IE::Precision::I32: return CV_32S;
case IE::Precision::I64: return CV_32S;
case IE::Precision::FP16: return CV_16F;
default: GAPI_Error("IE. Unsupported data type");
}
return -1;
}
inline IE::ResizeAlgorithm toIEInterp(int interpolation) {
switch (interpolation) {
case cv::INTER_LINEAR: return IE::RESIZE_BILINEAR;
case cv::INTER_AREA: return IE::RESIZE_AREA;
default: GAPI_Error("IE Backend: Unsupported resize algorithm");
}
// Unreachable code
GAPI_Assert(false);
}
template <typename Attr>
using AttrMap = cv::gapi::ie::detail::AttrMap<Attr>;
template <typename Attr>
using LayerVariantAttr = cv::gapi::ie::detail::LayerVariantAttr<Attr>;
template <typename Attr> AttrMap<Attr>
broadcastLayerAttr(const LayerVariantAttr<Attr> &layer_attr,
const std::vector<std::string> &layer_names) {
AttrMap<Attr> map;
if (cv::util::holds_alternative<AttrMap<Attr>>(layer_attr)) {
map = cv::util::get<AttrMap<Attr>>(layer_attr);
// NB: Validate map:
std::unordered_set<std::string> existing_layers =
{layer_names.begin(), layer_names.end()};
for (const auto &p : map) {
const auto it = existing_layers.find(p.first);
if (it == existing_layers.end()) {
cv::util::throw_error(
std::logic_error("IE Backend: Failed to"
" find layer with name: " + p.first));
}
}
} else if (cv::util::holds_alternative<Attr>(layer_attr)) {
// NB: Broadcast value to all layers.
auto elem = cv::util::get<Attr>(layer_attr);
for (auto &&layer_name : layer_names) {
map.emplace(layer_name, elem);
}
}
return map;
}
// TODO: Move it to some common place
template <typename K, typename V>
cv::optional<V> lookUp(const std::map<K, V> &map, const K& key) {
const auto it = map.find(key);
if (it == map.end()) {
return {};
}
return cv::util::make_optional(std::move(it->second));
}
static bool isImage(const cv::GMatDesc &desc,
const IE::SizeVector &model_dims) {
return (model_dims.size() == 4u) &&
(!desc.isND()) /* dims == 2 */ &&
(desc.chan == 1 || desc.chan == 3) &&
(desc.size.height != 1 && desc.size.width != 1) &&
(desc.depth == CV_8U);
}
cv::gapi::ie::TraitAs clarifyTrait(const cv::GMatDesc &mat_desc,
const IE::SizeVector &model_dims) {
if (isImage(mat_desc, model_dims)) {
return cv::gapi::ie::TraitAs::IMAGE;
}
return cv::gapi::ie::TraitAs::TENSOR;
}
cv::gapi::ie::TraitAs clarifyTrait(const cv::GMetaArg &meta,
const IE::SizeVector &model_dims) {
// NB: All media formats: BGR, NV12, Gray
// are traited as image.
if (cv::util::holds_alternative<cv::GFrameDesc>(meta)) {
return cv::gapi::ie::TraitAs::IMAGE;
}
GAPI_Assert(cv::util::holds_alternative<cv::GMatDesc>(meta));
return clarifyTrait(cv::util::get<cv::GMatDesc>(meta), model_dims);
}
inline IE::TensorDesc toIE(const cv::Mat &mat, cv::gapi::ie::TraitAs hint) {
const auto &sz = mat.size;
if (sz.dims() == 2 && hint == cv::gapi::ie::TraitAs::IMAGE)
{
// NB: This logic is mainly taken from IE samples
const size_t channels = mat.channels();
const size_t height = mat.size().height;
const size_t width = mat.size().width;
const size_t strideH = mat.step1();
IE::BlockingDesc bdesc({1, height, width, channels} /* blocking dims */,
{0, 2, 3, 1} /* order for NHWC */,
0 /* offset */,
{0, 0, 0, 0} /* offsets for dims */,
{strideH * height, strideH, channels, 1} /* strides for dims */);
return IE::TensorDesc(toIE(mat.depth()),
IE::SizeVector{1, channels, height, width}, bdesc);
}
return IE::TensorDesc(toIE(mat.depth()), toIE(sz), toIELayout(sz.dims()));
}
// NB: Inference dimmensions always follow NCDHW order
// even though the real layout is different.
// E.g if user provided Mat({1, 240, 320, 3}, CV_8U) + NHWC layout
// need to create Blob(U8, {1, 3, 240, 320}, NHWC).
inline IE::SizeVector toIEDims(const IE::SizeVector &dims,
const IE::Layout layout) {
switch (layout) {
case IE::Layout::NDHWC: // NCDHW
return {dims[0], dims[4], dims[1], dims[2], dims[3]};
case IE::Layout::NHWC: // NCHW
return {dims[0], dims[3], dims[1], dims[2]};
case IE::Layout::HWC: // CHW
return {dims[2], dims[0], dims[1]};
default: return dims;
}
GAPI_Assert(false);
}
// NB: Inference dimmensions always follow NCDHW order
// even though the real layout is different.
// E.g if U8 blob has {1, 3, 240, 320} dims and NHWC layout
// need to create cv::Mat({1, 240, 320, 3}, CV_8U);
inline std::vector<int> toCVDims(const std::vector<int> &dims,
const IE::Layout layout) {
switch (layout) {
case IE::Layout::NDHWC: // NCDHW
return {dims[0], dims[2], dims[3], dims[4], dims[1]};
case IE::Layout::NHWC: // NCHW
return {dims[0], dims[2], dims[3], dims[1]};
case IE::Layout::HWC: // CHW
return {dims[1], dims[2], dims[0]};
default: return dims;
}
GAPI_Assert(false);
}
inline IE::TensorDesc toIE(const cv::Mat &mat,
const cv::gapi::ie::TraitAs hint,
const IE::Layout layout) {
const auto &sz = mat.size;
if (sz.dims() == 2 && hint == cv::gapi::ie::TraitAs::IMAGE)
{
// NB: This logic is mainly taken from IE samples
const size_t channels = mat.channels();
const size_t height = mat.size().height;
const size_t width = mat.size().width;
const size_t strideH = mat.step1();
IE::BlockingDesc bdesc({1, height, width, channels} /* blocking dims */,
{0, 2, 3, 1} /* order for NHWC */,
0 /* offset */,
{0, 0, 0, 0} /* offsets for dims */,
{strideH * height, strideH, channels, 1} /* strides for dims */);
return IE::TensorDesc(toIE(mat.depth()),
IE::SizeVector{1, channels, height, width}, bdesc);
}
return IE::TensorDesc(toIE(mat.depth()),
toIEDims(toIE(sz), layout),
layout);
}
inline IE::Blob::Ptr wrapIE(const cv::Mat &mat,
cv::gapi::ie::TraitAs hint,
const IE::Layout layout = IE::Layout::ANY) {
const auto tDesc = toIE(mat, hint, layout);
switch (mat.depth()) {
// NB: Seems there's no way to create an untyped (T-less) Blob::Ptr
// in IE given only precision via TensorDesc. So we have to do this:
#define HANDLE(E,T) \
case CV_##E: return IE::make_shared_blob<T>(tDesc, const_cast<T*>(mat.ptr<T>()))
HANDLE(8U, uint8_t);
HANDLE(32F, float);
HANDLE(32S, int);
HANDLE(16F, int16_t);
#undef HANDLE
default: GAPI_Error("IE. Unsupported data type");
}
return IE::Blob::Ptr{};
}
inline IE::Blob::Ptr wrapIE(const cv::MediaFrame::View& view,
const cv::GFrameDesc& desc) {
switch (desc.fmt) {
case cv::MediaFormat::BGR: {
auto bgr = cv::Mat(desc.size, CV_8UC3, view.ptr[0], view.stride[0]);
return wrapIE(bgr, cv::gapi::ie::TraitAs::IMAGE);
}
case cv::MediaFormat::NV12: {
auto y_plane = cv::Mat(desc.size, CV_8UC1, view.ptr[0], view.stride[0]);
auto uv_plane = cv::Mat(desc.size / 2, CV_8UC2, view.ptr[1], view.stride[1]);
return cv::gapi::ie::util::to_ie(y_plane, uv_plane);
}
case cv::MediaFormat::GRAY: {
auto gray = cv::Mat(desc.size, CV_8UC1, view.ptr[0], view.stride[0]);
return wrapIE(gray, cv::gapi::ie::TraitAs::IMAGE);
}
default:
GAPI_Error("Unsupported media format for IE backend");
}
GAPI_Error("InternalError");
}
template<class MatType>
inline void copyFromIE(const IE::Blob::Ptr &blob, MatType &mat) {
const auto& desc = blob->getTensorDesc();
const auto ie_type = toCV(desc.getPrecision());
if (ie_type != mat.type()) {
std::stringstream ss;
ss << "Failed to copy blob from IE to OCV: "
<< "Blobs have different data types "
<< "(IE type: " << ie_type
<< " vs OCV type: " << mat.type() << ")." << std::endl;
throw std::logic_error(ss.str());
}
switch (blob->getTensorDesc().getPrecision()) {
#define HANDLE(E,T) \
case IE::Precision::E: std::copy_n(blob->buffer().as<T*>(), \
mat.total(), \
reinterpret_cast<T*>(mat.data)); \
break;
HANDLE(U8, uint8_t);
HANDLE(FP32, float);
HANDLE(I32, int);
HANDLE(FP16, cv::hfloat);
#undef HANDLE
case IE::Precision::I64: {
GAPI_LOG_WARNING(NULL, "INT64 isn't supported for cv::Mat. Conversion to INT32 is used.");
cv::gimpl::convertInt64ToInt32(blob->buffer().as<int64_t*>(),
reinterpret_cast<int*>(mat.data),
mat.total());
break;
}
default: GAPI_Error("IE. Unsupported data type");
}
}
template <typename MapT>
void checkLayerNames(const MapT& network_map,
const std::vector<std::string>& layer_names,
const std::string& layer_type) {
for (const auto& layer_name : layer_names) {
const auto it = network_map.find(layer_name);
if (it == network_map.end()) {
std::stringstream ss;
ss << "Failed to find " << layer_type << " layer with name: "
<< "\"" << layer_name << "\"" << std::endl;
ss << "Network " << layer_type << " layers: " << std::endl;
for (const auto& p : network_map) {
const auto& desc = p.second->getTensorDesc();
ss << p.first << " : " << desc.getPrecision()
<< " / " << desc.getLayout() << std::endl;
}
throw std::logic_error(ss.str());
}
}
}
template <typename MapT>
void checkInputLayerNames(const MapT& network_map,
const std::vector<std::string>& layer_names) {
checkLayerNames(network_map, layer_names, "input");
}
template <typename MapT>
void checkOutputLayerNames(const MapT& network_map,
const std::vector<std::string>& layer_names) {
checkLayerNames(network_map, layer_names, "output");
}
// IE-specific metadata, represents a network with its parameters
struct IEUnit {
static const char *name() { return "IEModelConfig"; }
cv::gapi::ie::detail::ParamDesc params;
IE::CNNNetwork net;
IE::ExecutableNetwork this_network;
cv::gimpl::ie::wrap::Plugin this_plugin;
InferenceEngine::RemoteContext::Ptr rctx = nullptr;
std::shared_ptr<cv::gapi::wip::IPreprocEngine> preproc_engine_impl;
// FIXME: Unlike loadNetwork case, importNetwork requires that preprocessing
// should be passed as ExecutableNetwork::SetBlob method, so need to collect
// and store this information at the graph compilation stage (outMeta) and use in runtime.
using PreProcMap = std::unordered_map<std::string, IE::PreProcessInfo>;
PreProcMap preproc_map;
// NEW FIXME: Need to aggregate getInputInfo & GetInputInfo from network
// into generic wrapper and invoke it at once in single place instead of
// analyzing ParamDesc::Kind::Load/Import every time when we need to get access
// for network info.
// In term of introducing custom VPP/VPL preprocessing functionality
// It was decided to use GFrameDesc as such aggregated network info with limitation
// that VPP/VPL produces cv::MediaFrame only. But it should be not considered as
// final solution
class InputFramesDesc {
using input_name_type = std::string;
using description_type = cv::GFrameDesc;
std::map<input_name_type, description_type> map;
public:
static bool is_applicable(const cv::GMetaArg &mm);
const description_type &get_param(const input_name_type &input) const;
void set_param(const input_name_type &input,
const IE::TensorDesc& desc);
};
InputFramesDesc net_input_params;
std::unordered_map<std::string, cv::gapi::ie::TraitAs> inputs_type;
explicit IEUnit(const cv::gapi::ie::detail::ParamDesc &pp)
: params(pp) {
InferenceEngine::ParamMap* ctx_params =
cv::util::any_cast<InferenceEngine::ParamMap>(¶ms.context_config);
if (ctx_params != nullptr) {
auto ie_core = cv::gimpl::ie::wrap::getCore();
GAPI_LOG_DEBUG(nullptr, "create IE remote ctx for device id: " << params.device_id);
rctx = ie_core.CreateContext(params.device_id, *ctx_params);
}
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
net = cv::gimpl::ie::wrap::readNetwork(params);
// NB: Set batch size only if user asked. (don't set by default)
if (params.batch_size.has_value()) {
net.setBatchSize(params.batch_size.value());
}
} else if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import) {
this_plugin = cv::gimpl::ie::wrap::getPlugin(params);
this_network = cv::gimpl::ie::wrap::importNetwork(this_plugin, params, rctx);
if (!params.reshape_table.empty() || !params.layer_names_to_reshape.empty()) {
GAPI_LOG_WARNING(NULL, "Reshape isn't supported for imported network");
}
} else {
cv::util::throw_error(std::logic_error("Unsupported ParamDesc::Kind"));
}
// The practice shows that not all inputs and not all outputs
// are mandatory to specify in IE model.
// So what we're concerned here about is:
// if operation's (not topology's) input/output number is
// greater than 1, then we do care about input/output layer
// names. Otherwise, names are picked up automatically.
// TODO: Probably this check could be done at the API entry point? (gnet)
if (params.num_in > 1u && params.num_in != params.input_names.size()) {
cv::util::throw_error(std::logic_error("Please specify input layer names for "
+ params.model_path));
}
if (params.num_out > 1u && params.num_out != params.output_names.size()) {
cv::util::throw_error(std::logic_error("Please specify output layer names for "
+ params.model_path));
}
if (params.num_in == 1u && params.input_names.empty()) {
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
params.input_names = { net.getInputsInfo().begin()->first };
} else {
params.input_names = { this_network.GetInputsInfo().begin()->first };
}
}
if (params.num_out == 1u && params.output_names.empty()) {
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
params.output_names = { net.getOutputsInfo().begin()->first };
} else {
params.output_names = { this_network.GetOutputsInfo().begin()->first };
}
}
if (!params.reshape_table.empty()) {
GAPI_Assert((params.reshape_table.size() + params.layer_names_to_reshape.size()) <=
params.num_in &&
"Number of layers to reshape must be less than or equal to number of inputs");
}
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
checkInputLayerNames(net.getInputsInfo(), params.input_names);
checkOutputLayerNames(net.getOutputsInfo(), params.output_names);
} else if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import) {
checkInputLayerNames(this_network.GetInputsInfo(), params.input_names);
checkOutputLayerNames(this_network.GetOutputsInfo(), params.output_names);
} else {
cv::util::throw_error(std::logic_error("Unsupported ParamDesc::Kind"));
}
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import &&
!cv::util::holds_alternative<cv::util::monostate>(params.output_precision)) {
cv::util::throw_error(
std::logic_error("Setting output precision isn't supported for imported network"));
}
using namespace cv::gapi::wip::onevpl;
if (params.vpl_preproc_device.has_value() && params.vpl_preproc_ctx.has_value()) {
using namespace cv::gapi::wip;
GAPI_LOG_INFO(nullptr, "VPP preproc creation requested");
preproc_engine_impl =
IPreprocEngine::create_preproc_engine<onevpl::VPPPreprocDispatcher>(
params.vpl_preproc_device.value(),
params.vpl_preproc_ctx.value());
GAPI_LOG_INFO(nullptr, "VPP preproc created successfuly");
}
if (params.mode == cv::gapi::ie::InferMode::Sync &&
params.nireq != 1u) {
throw std::logic_error(
"Failed: cv::gapi::ie::InferMode::Sync works only with nireq equal to 1.");
}
}
// This method is [supposed to be] called at Island compilation stage
cv::gimpl::ie::IECompiled compile() const {
IEUnit* non_const_this = const_cast<IEUnit*>(this);
// FIXME: LoadNetwork must be called only after all necessary model
// inputs information is set, since it's done in outMeta and compile called after that,
// this place seems to be suitable, but consider another place not to break const agreements.
if (params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
non_const_this->this_plugin = cv::gimpl::ie::wrap::getPlugin(params);
non_const_this->this_network = cv::gimpl::ie::wrap::loadNetwork(non_const_this->this_plugin,
net, params, rctx);
}
return {params, this_plugin, this_network};
}
};
bool IEUnit::InputFramesDesc::is_applicable(const cv::GMetaArg &mm) {
return cv::util::holds_alternative<cv::GFrameDesc>(mm);
}
const IEUnit::InputFramesDesc::description_type &
IEUnit::InputFramesDesc::get_param(const input_name_type &input) const {
auto it = map.find(input);
GAPI_Assert(it != map.end() && "No appropriate input is found in InputFramesDesc");
return it->second;
}
void IEUnit::InputFramesDesc::set_param(const input_name_type &input,
const IE::TensorDesc& desc) {
description_type ret;
ret.fmt = cv::MediaFormat::NV12;
const InferenceEngine::SizeVector& inDims = desc.getDims();
auto layout = desc.getLayout();
GAPI_LOG_DEBUG(nullptr, "network input: " << input <<
", tensor dims: " << inDims[0] << ", " << inDims[1] <<
", " << inDims[2] << ", " << inDims[3]);
if (layout != InferenceEngine::NHWC && layout != InferenceEngine::NCHW) {
GAPI_LOG_WARNING(nullptr, "Unsupported layout for VPP preproc: " << layout <<
", input name: " << input);
GAPI_Error("Unsupported layout for VPP preproc");
}
GAPI_Assert(inDims.size() == 4u);
ret.size.width = static_cast<int>(inDims[3]);
ret.size.height = static_cast<int>(inDims[2]);
auto res = map.emplace(input, ret);
GAPI_Assert(res.second && "Duplicated input info in InputFramesDesc are not allowable");
}
class IECallContext
{
public:
IECallContext(const IEUnit & unit,
cv::gimpl::GIslandExecutable::IOutput & output,
const cv::GArgs & args,
const std::vector<cv::gimpl::RcDesc> & outs,
cv::GRunArg::Meta && meta,
std::vector<cv::gimpl::GIslandExecutable::InObj> && input_objs,
std::vector<cv::gimpl::GIslandExecutable::OutObj> && output_objs);
const cv::GArgs& inArgs() const;
// Generic accessor API
template<typename T>
const T& inArg(std::size_t input) const {
return m_args.at(input).get<T>();
}
template<typename T>
std::vector<T>& outVecR(std::size_t output) {
return outVecRef(output).wref<T>();
}
// Syntax sugar
cv::GShape inShape(std::size_t input) const;
const cv::Mat& inMat (std::size_t input) const;
const cv::MediaFrame& inFrame(std::size_t input) const;
cv::GRunArgP output (std::size_t idx);
cv::Mat& outMatR(std::size_t idx);
cv::gapi::ie::TraitAs getInputType(const std::string &layer_name) const;
const IEUnit &uu;
cv::gimpl::GIslandExecutable::IOutput &out;
// NB: Need to guarantee that MediaFrame::View doesn't die until request is over.
using Views = std::vector<std::unique_ptr<cv::MediaFrame::View>>;
Views views;
// To store exception appeared in callback.
std::exception_ptr eptr;
const cv::GRunArg::Meta& getMeta() { return m_meta; };
using req_key_t = void*;
cv::MediaFrame* prepareKeepAliveFrameSlot(req_key_t key);
size_t releaseKeepAliveFrame(req_key_t key);
private:
cv::detail::VectorRef& outVecRef(std::size_t idx);
cv::GArg packArg(const cv::GArg &arg);
// To propagate accumulated meta from all inputs to output.
cv::GRunArg::Meta m_meta;
// To store input/output data from frames
std::vector<cv::gimpl::GIslandExecutable::InObj> m_input_objs;
std::vector<cv::gimpl::GIslandExecutable::OutObj> m_output_objs;
// To simplify access to cv::Mat inside cv::RMat
cv::gimpl::Mag m_res;
// FIXME: avoid conversion of arguments from internal representation to OpenCV one on each call
//to OCV kernel. (This can be achieved by a two single time conversions in GCPUExecutable::run,
//once on enter for input and output arguments, and once before return for output arguments only
// FIXME: check if the above applies to this backend (taken from CPU)
std::unordered_map<std::size_t, cv::GRunArgP> m_results;
// Input parameters passed to an inference operation.
cv::GArgs m_args;
cv::GShapes m_in_shapes;
// keep alive preprocessed frames
std::mutex keep_alive_frames_mutex;
std::unordered_map<req_key_t, cv::MediaFrame> keep_alive_pp_frames;
// NB: Hint to wrap input data properly into IE::Blob (see: wrapIE)
std::unordered_map<std::string, cv::gapi::ie::TraitAs> input_type;
};
IECallContext::IECallContext(const IEUnit & unit,
cv::gimpl::GIslandExecutable::IOutput & output,
const cv::GArgs & args,
const std::vector<cv::gimpl::RcDesc> & outs,
cv::GRunArg::Meta && meta,
std::vector<cv::gimpl::GIslandExecutable::InObj> && input_objs,
std::vector<cv::gimpl::GIslandExecutable::OutObj> && output_objs)
: uu(unit), out(output), m_meta(std::move(meta)),
m_input_objs(std::move(input_objs)), m_output_objs(std::move(output_objs))
{
for (auto& it : m_input_objs) cv::gimpl::magazine::bindInArg (m_res, it.first, it.second);
for (auto& it : m_output_objs) cv::gimpl::magazine::bindOutArg(m_res, it.first, it.second);
m_args.reserve(args.size());
using namespace std::placeholders;
ade::util::transform(args,
std::back_inserter(m_args),
std::bind(&IECallContext::packArg, this, _1));
ade::util::transform(args, std::back_inserter(m_in_shapes),
[](const cv::GArg& arg) {
return arg.get<cv::gimpl::RcDesc>().shape;
});
for (const auto out_it : ade::util::indexed(outs)) {
// FIXME: Can the same GArg type resolution mechanism be reused here?
const auto port = ade::util::index(out_it);
const auto desc = ade::util::value(out_it);
m_results[port] = cv::gimpl::magazine::getObjPtr(m_res, desc);
}
}
cv::gapi::ie::TraitAs
IECallContext::getInputType(const std::string &layer_name) const {
const auto it = uu.inputs_type.find(layer_name);
if (it == uu.inputs_type.end()) {
cv::util::throw_error(std::logic_error(
"Failed to find input type for layer: \"" + layer_name + "\""));
}
return it->second;
}
const cv::GArgs& IECallContext::inArgs() const {
return m_args;
}
cv::GShape IECallContext::inShape(std::size_t i) const {
return m_in_shapes[i];
}
const cv::Mat& IECallContext::inMat(std::size_t input) const {
return inArg<cv::Mat>(input);
}
const cv::MediaFrame& IECallContext::inFrame(std::size_t input) const {
return inArg<cv::MediaFrame>(input);
}
cv::Mat& IECallContext::outMatR(std::size_t idx) {
return *cv::util::get<cv::Mat*>(m_results.at(idx));
}
cv::GRunArgP IECallContext::output(std::size_t idx) {
return m_output_objs[idx].second;
};
cv::detail::VectorRef& IECallContext::outVecRef(std::size_t idx) {
return cv::util::get<cv::detail::VectorRef>(m_results.at(idx));
}
cv::GArg IECallContext::packArg(const cv::GArg &arg) {
// No API placeholders allowed at this point
// FIXME: this check has to be done somewhere in compilation stage.
GAPI_Assert( arg.kind != cv::detail::ArgKind::GMAT
&& arg.kind != cv::detail::ArgKind::GSCALAR
&& arg.kind != cv::detail::ArgKind::GARRAY);
if (arg.kind != cv::detail::ArgKind::GOBJREF) {
cv::util::throw_error(std::logic_error("Inference supports G-types ONLY!"));
}
GAPI_Assert(arg.kind == cv::detail::ArgKind::GOBJREF);
// Wrap associated CPU object (either host or an internal one)
// FIXME: object can be moved out!!! GExecutor faced that.
const cv::gimpl::RcDesc &ref = arg.get<cv::gimpl::RcDesc>();
switch (ref.shape)
{
case cv::GShape::GMAT: return cv::GArg(m_res.slot<cv::Mat>()[ref.id]);
// Note: .at() is intentional for GArray as object MUST be already there
// (and constructed by either bindIn/Out or resetInternal)
case cv::GShape::GARRAY: return cv::GArg(m_res.slot<cv::detail::VectorRef>().at(ref.id));
// Note: .at() is intentional for GOpaque as object MUST be already there
// (and constructed by either bindIn/Out or resetInternal)
case cv::GShape::GOPAQUE: return cv::GArg(m_res.slot<cv::detail::OpaqueRef>().at(ref.id));
case cv::GShape::GFRAME: return cv::GArg(m_res.slot<cv::MediaFrame>().at(ref.id));
default:
cv::util::throw_error(std::logic_error("Unsupported GShape type"));
break;
}
}
cv::MediaFrame* IECallContext::prepareKeepAliveFrameSlot(req_key_t key) {
std::lock_guard<std::mutex> lock(keep_alive_frames_mutex);
return &keep_alive_pp_frames[key];
}
size_t IECallContext::releaseKeepAliveFrame(req_key_t key) {
size_t elapsed_count = 0;
void *prev_slot = nullptr;
// NB: release MediaFrame previously captured by prepareKeepAliveFrameSlot
// We must capture it to keep a reference counter on inner media adapter
// to ensure that frame resource would be locked until inference done.
// Otherwise decoder could seized this frame resource as free/unlocked resource
// from resource pool
// Current function just take a unique frame `key` and overwrite stored
// actual frame by empty frame
{
std::lock_guard<std::mutex> lock(keep_alive_frames_mutex);
auto ka_frame_it = keep_alive_pp_frames.find(key);
if (ka_frame_it != keep_alive_pp_frames.end()) {
prev_slot = &ka_frame_it->second;
ka_frame_it->second = cv::MediaFrame();
}
elapsed_count = keep_alive_pp_frames.size();
}
cv::util::suppress_unused_warning(prev_slot);
GAPI_LOG_DEBUG(nullptr, "Release keep alive frame, slot: " << prev_slot <<
", reserved frames count: " << elapsed_count);
return elapsed_count;
}
struct IECallable {
static const char *name() { return "IERequestCallable"; }
using Run = std::function<void(std::shared_ptr<IECallContext>, cv::gimpl::ie::RequestPool&)>;
Run run;
};
struct KImpl {
cv::gimpl::CustomMetaFunction::CM customMetaFunc;
IECallable::Run run;
};
// FIXME: Is there a way to take a typed graph (our GModel),
// and create a new typed graph _ATOP_ of that (by extending with a couple of
// new types?).
// Alternatively, is there a way to compose types graphs?
//
// If not, we need to introduce that!
using GIEModel = ade::TypedGraph
< cv::gimpl::Protocol
, cv::gimpl::Op
, cv::gimpl::NetworkParams
, cv::gimpl::CustomMetaFunction
, IEUnit
, IECallable
>;
// FIXME: Same issue with Typed and ConstTyped
using GConstGIEModel = ade::ConstTypedGraph
< cv::gimpl::Protocol
, cv::gimpl::Op
, cv::gimpl::NetworkParams
, cv::gimpl::CustomMetaFunction
, IEUnit
, IECallable
>;
cv::MediaFrame preprocess_frame_impl(cv::MediaFrame &&in_frame, const std::string &layer_name,
IECallContext& ctx,
const cv::util::optional<cv::Rect> &opt_roi,
cv::MediaFrame* out_keep_alive_frame,
bool* out_is_preprocessed) {
cv::util::optional<cv::gapi::wip::pp_params> param =
ctx.uu.preproc_engine_impl->is_applicable(in_frame);
if (param.has_value()) {
GAPI_LOG_DEBUG(nullptr, "VPP preprocessing for decoded remote frame will be used");
cv::GFrameDesc expected_net_input_descr =
ctx.uu.net_input_params.get_param(layer_name);
// TODO: Find a better place to configure media format for GPU
// adjust color conversion to NV12 according to OV GPU limitation
if(ctx.uu.params.device_id.find("GPU") != std::string::npos &&
ctx.uu.rctx) {
auto it = ctx.uu.params.config.find(std::string("GPU_NV12_TWO_INPUTS"));
if (it != ctx.uu.params.config.end()) {
if (it->second == "YES") {
GAPI_LOG_DEBUG(nullptr, "Adjust preprocessing GPU media format to NV12");
expected_net_input_descr.fmt = cv::MediaFormat::NV12;
}
}
}
cv::gapi::wip::pp_session pp_sess =
ctx.uu.preproc_engine_impl->initialize_preproc(param.value(),
expected_net_input_descr);
in_frame = ctx.uu.preproc_engine_impl->run_sync(pp_sess, in_frame, opt_roi);
if (out_keep_alive_frame != nullptr) {
GAPI_LOG_DEBUG(nullptr, "remember preprocessed remote frame to keep it busy from reuse, slot: " <<
out_keep_alive_frame);
*out_keep_alive_frame = in_frame;
}
if (out_is_preprocessed) {
*out_is_preprocessed = true;
}
} // otherwise it is not suitable frame, then check on other preproc backend or rely on IE plugin
return std::move(in_frame);
}
inline IE::Blob::Ptr extractBlob(IECallContext& ctx,
std::size_t i,
const cv::gapi::ie::TraitAs hint,
const IE::Layout &layout,
const std::string& layer_name,
const cv::util::optional<cv::Rect> &opt_roi,
cv::MediaFrame* out_keep_alive_frame = nullptr,
bool* out_is_preprocessed = nullptr) {
switch (ctx.inShape(i)) {
case cv::GShape::GFRAME: {
auto frame = ctx.inFrame(i);
if (ctx.uu.preproc_engine_impl) {
GAPI_LOG_DEBUG(nullptr, "Try to use preprocessing for decoded frame in local ctx");
frame = preprocess_frame_impl(std::move(frame), layer_name, ctx, opt_roi,
out_keep_alive_frame, out_is_preprocessed);
}
// NB: check OV remote device context availability.
// if it exist and MediaFrame shares the same device context
// then we create a remote blob without memory copy
if (ctx.uu.rctx != nullptr) {
// Request params for result frame whatever it got preprocessed or not
cv::util::any any_blob_params = frame.blobParams();
using ParamType = std::pair<InferenceEngine::TensorDesc, InferenceEngine::ParamMap>;
using NV12ParamType = std::pair<ParamType, ParamType>;
NV12ParamType* blob_params = cv::util::any_cast<NV12ParamType>(&any_blob_params);
if (blob_params == nullptr) {
GAPI_Error("Incorrect type of blobParams:"
"expected std::pair<ParamType, ParamType>,"
"with ParamType std::pair<InferenceEngine::TensorDesc,"
"InferenceEngine::ParamMap >>");
}
//The parameters are TensorDesc and ParamMap for both y and uv blobs
auto y_blob = ctx.uu.rctx->CreateBlob(blob_params->first.first, blob_params->first.second);
auto uv_blob = ctx.uu.rctx->CreateBlob(blob_params->second.first, blob_params->second.second);
#if INF_ENGINE_RELEASE > 2023000000
cv::util::throw_error(std::logic_error(
"IE Backend: NV12 feature has been deprecated in OpenVINO 1.0 API."
" The last version which supports this is 2023.0"));
#elif INF_ENGINE_RELEASE >= 2021010000
return IE::make_shared_blob<IE::NV12Blob>(y_blob, uv_blob);
#else
return IE::make_shared_blob<InferenceEngine::NV12Blob>(y_blob, uv_blob);
#endif
}
// NB: If no OV remote context created then use default MediaFrame accessor approach:
// it invokes memory copying operation If GPU MediaFrame come
ctx.views.emplace_back(new cv::MediaFrame::View(frame.access(cv::MediaFrame::Access::R)));
return wrapIE(*(ctx.views.back()), frame.desc());
}
case cv::GShape::GMAT: {
return wrapIE(ctx.inMat(i), hint, layout);
}
default:
GAPI_Assert("Unsupported input shape for IE backend");
}
GAPI_Error("InternalError");
}
static void setBlob(InferenceEngine::InferRequest& req,
const std::string& layer_name,
const IE::Blob::Ptr& blob,
const IECallContext& ctx) {
// TODO: Ideally we shouldn't do SetBlob() but GetBlob() instead,
// and redirect our data producers to this memory
// (A memory dialog comes to the picture again)
using namespace cv::gapi::ie::detail;
if (ctx.uu.params.kind == ParamDesc::Kind::Load) {
req.SetBlob(layer_name, blob);
} else {
GAPI_Assert(ctx.uu.params.kind == ParamDesc::Kind::Import);
#if INF_ENGINE_RELEASE > 2023000000
// NB: SetBlob overload which accepts IE::PreProcessInfo
// has been deprecated - preprocessing can't be configured
// for "Import" networks anymore.
req.SetBlob(layer_name, blob);
#else
req.SetBlob(layer_name, blob, ctx.uu.preproc_map.at(layer_name));
#endif
}
}
static void setROIBlob(InferenceEngine::InferRequest& req,
const std::string& layer_name,
const IE::Blob::Ptr& blob,
const cv::Rect &roi,
const IECallContext& ctx) {
if (ctx.uu.params.device_id.find("GPU") != std::string::npos &&
ctx.uu.rctx) {
try {
// NB: make_shared_blob() cannot work with GPU NV12 & ROI at the moment.
// OpenVINO produces exception with unsupported status.
// To do not encounter with silent crash situation we should catch OV exception
// and suggest to avoid this problem by using inner preprocessing feature.
// VPP/VPL proprocessing are supported at the moment
setBlob(req, layer_name, IE::make_shared_blob(blob, toIE(roi)), ctx);
} catch (const std::exception &ex) {
GAPI_LOG_WARNING(nullptr, "cannot set ROI blob for layer: " << layer_name <<
", reason:\n" << ex.what() <<
"\nTry using self GAPI preprocessing feature: "
" Check method `cfgPreprocessingParams` in `cv::gapi::ie::Params`");
throw;
}
} else {
setBlob(req, layer_name, IE::make_shared_blob(blob, toIE(roi)), ctx);
}
}
} // anonymous namespace
std::vector<InferenceEngine::InferRequest> cv::gimpl::ie::IECompiled::createInferRequests() {
std::vector<InferenceEngine::InferRequest> requests;
requests.reserve(params.nireq);
for (size_t i = 0; i < params.nireq; ++i) {
requests.push_back(this_network.CreateInferRequest());
auto& request = requests.back();
// Bind const data to infer request
for (auto &&p : params.const_inputs) {
// FIXME: SetBlob is known to be inefficient,
// it is worth to make a customizable "initializer" and pass the
// cv::Mat-wrapped blob there to support IE's optimal "GetBlob idiom"
// Still, constant data is to set only once.
request.SetBlob(p.first, wrapIE(p.second.first, p.second.second));
}
}
return requests;
}
class IInferExecutor {
public:
using Ptr = std::shared_ptr<IInferExecutor>;
using NotifyCallbackF = std::function<void()>;
using SetInputDataF = std::function<void(InferenceEngine::InferRequest&)>;
using ReadOutputDataF = std::function<void(InferenceEngine::InferRequest&, InferenceEngine::StatusCode)>;
// NB: The task is represented by:
// SetInputDataF - function which set input data.
// ReadOutputDataF - function which read output data.
struct Task {
SetInputDataF set_input_data;
ReadOutputDataF read_output_data;
};
IInferExecutor(IE::InferRequest request, NotifyCallbackF notify)
: m_request(std::move(request)),
m_notify(std::move(notify)) {
};
virtual void execute(const Task& task) = 0;
virtual ~IInferExecutor() = default;
protected:
IE::InferRequest m_request;
NotifyCallbackF m_notify;
};
class SyncInferExecutor : public IInferExecutor {
using IInferExecutor::IInferExecutor;
virtual void execute(const IInferExecutor::Task& task) override;
};
void SyncInferExecutor::execute(const IInferExecutor::Task& task) {
try {
task.set_input_data(m_request);
m_request.Infer();
task.read_output_data(m_request, IE::StatusCode::OK);
} catch (...) {
m_notify();
throw;
}
// NB: Notify pool that executor has finished.
m_notify();
}
class AsyncInferExecutor : public IInferExecutor {
public:
using IInferExecutor::IInferExecutor;
virtual void execute(const IInferExecutor::Task& task) override;
private:
void callback(Task task,
IE::InferRequest request,
IE::StatusCode code) noexcept;
};
void AsyncInferExecutor::execute(const IInferExecutor::Task& task) {
using namespace std::placeholders;
using callback_t = std::function<void(IE::InferRequest, IE::StatusCode)>;
m_request.SetCompletionCallback(
static_cast<callback_t>(
std::bind(&AsyncInferExecutor::callback, this, task, _1, _2)));
try {
task.set_input_data(m_request);
m_request.StartAsync();
} catch (...) {
m_request.SetCompletionCallback([](){});
m_notify();
throw;
}
}
void AsyncInferExecutor::callback(IInferExecutor::Task task,
IE::InferRequest request,
IE::StatusCode code) noexcept {
task.read_output_data(request, code);
request.SetCompletionCallback([](){});
// NB: Notify pool that executor has finished.
m_notify();
}
class cv::gimpl::ie::RequestPool {
public:
explicit RequestPool(cv::gapi::ie::InferMode mode,
std::vector<InferenceEngine::InferRequest>&& requests);
IInferExecutor::Ptr getIdleRequest();
void waitAll();
private:
void setup();
void release(const size_t id);
QueueClass<size_t> m_idle_ids;
std::vector<IInferExecutor::Ptr> m_requests;
};
void cv::gimpl::ie::RequestPool::release(const size_t id) {
m_idle_ids.push(id);
}
// RequestPool implementation //////////////////////////////////////////////
cv::gimpl::ie::RequestPool::RequestPool(cv::gapi::ie::InferMode mode,
std::vector<InferenceEngine::InferRequest>&& requests) {
for (size_t i = 0; i < requests.size(); ++i) {
IInferExecutor::Ptr iexec = nullptr;
switch (mode) {
case cv::gapi::ie::InferMode::Async:
iexec = std::make_shared<AsyncInferExecutor>(std::move(requests[i]),
std::bind(&RequestPool::release, this, i));
break;
case cv::gapi::ie::InferMode::Sync:
iexec = std::make_shared<SyncInferExecutor>(std::move(requests[i]),
std::bind(&RequestPool::release, this, i));
break;
default:
GAPI_Error("Unsupported cv::gapi::ie::InferMode");
}
m_requests.emplace_back(std::move(iexec));
}
setup();
}
void cv::gimpl::ie::RequestPool::setup() {
for (size_t i = 0; i < m_requests.size(); ++i) {
m_idle_ids.push(i);
}
}
IInferExecutor::Ptr cv::gimpl::ie::RequestPool::getIdleRequest() {
size_t id = 0u;
m_idle_ids.pop(id);
return m_requests[id];
}
// NB: Not thread-safe.
void cv::gimpl::ie::RequestPool::waitAll() {
// NB: It will be blocked if at least one request is busy.
for (size_t i = 0; i < m_requests.size(); ++i) {
size_t id = 0u;
m_idle_ids.pop(id);
}
setup();
}
// GCPUExcecutable implementation //////////////////////////////////////////////
cv::gimpl::ie::GIEExecutable::GIEExecutable(const ade::Graph &g,
const std::vector<ade::NodeHandle> &nodes)
: m_g(g), m_gm(m_g) {
// FIXME: Currently this backend is capable to run a single inference node only.
// Need to extend our island fusion with merge/not-to-merge decision making parametrization
GConstGIEModel iem(g);
for (auto &nh : nodes) {
switch (m_gm.metadata(nh).get<NodeType>().t) {
case NodeType::OP:
if (this_nh == nullptr) {
this_nh = nh;
this_iec = iem.metadata(this_nh).get<IEUnit>().compile();
m_reqPool.reset(new RequestPool(this_iec.params.mode, this_iec.createInferRequests()));
}
else
util::throw_error(std::logic_error("Multi-node inference is not supported!"));
break;
case NodeType::DATA: {
m_dataNodes.push_back(nh);
const auto &desc = m_gm.metadata(nh).get<Data>();
if (desc.storage == Data::Storage::CONST_VAL) {
util::throw_error(std::logic_error("No const data please!"));
}
if (desc.storage == Data::Storage::INTERNAL) {
util::throw_error(std::logic_error("No internal data please!"));
}
break;
}
default: util::throw_error(std::logic_error("Unsupported NodeType type"));
}
}
}
void cv::gimpl::ie::GIEExecutable::run(cv::gimpl::GIslandExecutable::IInput &in,
cv::gimpl::GIslandExecutable::IOutput &out) {
// General algorithm:
// 1. Collect island inputs/outputs.
// 2. Create kernel context. (Every kernel has his own context).
// 3. If the EndOfStream message is recieved, wait until all passed task are done.
// 4. If the Exception message is revieved, propagate it further.
// 5.
// 5.1 Run the kernel.
// 5.2 Kernel wait for all nececcary infer requests and start asynchronous execution.
// 5.3 After the kernel is finished continue processing next frame.
//
// 6. If graph is compiled in non-streaming mode, wait until all tasks are done.
std::vector<InObj> input_objs;
std::vector<OutObj> output_objs;
const auto &in_desc = in.desc();
auto in_msg = in.get();
if (cv::util::holds_alternative<cv::gimpl::EndOfStream>(in_msg))
{
// (3) Wait until all passed task are done.
m_reqPool->waitAll();
out.post(cv::gimpl::EndOfStream{});
return;
}
GAPI_Assert(cv::util::holds_alternative<cv::GRunArgs>(in_msg));
const auto in_vector = cv::util::get<cv::GRunArgs>(in_msg);
// NB: Collect meta from all inputs.
cv::GRunArg::Meta stub_meta;
for (auto &&in_arg : in_vector)
{
stub_meta.insert(in_arg.meta.begin(), in_arg.meta.end());
}
// (1) Collect island inputs/outputs
input_objs.reserve(in_desc.size());
for (auto &&it: ade::util::zip(ade::util::toRange(in_desc),
ade::util::toRange(in_vector)))
{
input_objs.emplace_back(std::get<0>(it), std::get<1>(it));
}
const auto &out_desc = out.desc();
output_objs.reserve(out_desc.size());
for (auto &&it: ade::util::indexed(ade::util::toRange(out_desc)))
{
output_objs.emplace_back(ade::util::value(it),
out.get(ade::util::checked_cast<int>(ade::util::index(it))));
}
GConstGIEModel giem(m_g);
const auto &uu = giem.metadata(this_nh).get<IEUnit>();
const auto &op = m_gm.metadata(this_nh).get<Op>();
// (2) Create kernel context
auto ctx = std::make_shared<IECallContext>(uu, out, op.args, op.outs,
std::move(stub_meta), std::move(input_objs), std::move(output_objs));
const auto &kk = giem.metadata(this_nh).get<IECallable>();
// (5) Run the kernel.
try {
kk.run(ctx, *m_reqPool);
} catch (...) {
auto eptr = std::current_exception();
for (auto i : ade::util::iota(ctx->uu.params.num_out))
{
auto output = ctx->output(i);
ctx->out.meta(output, ctx->getMeta());
ctx->out.post(std::move(output), eptr);
}
return;
}
// (6) In non-streaming mode need to wait until the all tasks are done
// FIXME: Is there more graceful way to handle this case ?
if (!m_gm.metadata().contains<Streaming>()) {
m_reqPool->waitAll();
}
}
namespace cv {
namespace gimpl {
namespace ie {
static void configureInputReshapeByImage(const IE::InputInfo::Ptr& ii,
const cv::GMetaArg mm,
IE::ICNNNetwork::InputShapes& input_reshape_table) {
const auto& layer_name = ii->name();
// Finding name in reshape table
const auto name_pos_in_table = input_reshape_table.find(layer_name);
// If contains then reshape for this layer already configured by shapes
// otherwise create a new element of reshape table with name and dimension
// which based on input image size.
if (name_pos_in_table != input_reshape_table.end()) {
GAPI_Assert(false &&
"Names of layers for reshape with specified dimensions shouldn't intersect with names for reshape by image");
}
cv::Size image_sz;
switch (mm.index()) {
case cv::GMetaArg::index_of<cv::GMatDesc>():
{
const auto &meta = util::get<cv::GMatDesc>(mm);
image_sz = meta.size;
break;
}
case cv::GMetaArg::index_of<cv::GFrameDesc>():
{
const auto &meta = util::get<cv::GFrameDesc>(mm);
image_sz = meta.size;
break;
}
default:
util::throw_error(std::runtime_error("Unsupported input meta for IE backend"));
}
auto input_dims = ii->getTensorDesc().getDims();
const auto size = input_dims.size();
if (size <= 1) {
GAPI_Error("Unsupported number of dimensions for reshape by image");
}
input_dims.at(size - 2) = static_cast<size_t>(image_sz.height);
input_dims.at(size - 1) = static_cast<size_t>(image_sz.width);
// Adding new element to reshape table
input_reshape_table.emplace(layer_name, input_dims);
}
static void cfgInputPrecision(const IE::InputInfo::Ptr& ii, const cv::GMetaArg mm) {
switch (mm.index()) {
case cv::GMetaArg::index_of<cv::GMatDesc>(): {
const auto &desc = util::get<cv::GMatDesc>(mm);
ii->setPrecision(toIE(desc.depth));
break;
}
case cv::GMetaArg::index_of<cv::GFrameDesc>():
ii->setPrecision(toIE(CV_8U));
break;
default:
util::throw_error(std::runtime_error("Unsupported input meta for IE backend"));
}
}
static void cfgImagePreprocessing(const IE::InputInfo::Ptr &ii,
const cv::GMetaArg &mm,
const IE::ResizeAlgorithm interp) {
if (!cv::util::holds_alternative<cv::GMatDesc>(mm) &&
!cv::util::holds_alternative<cv::GFrameDesc>(mm)) {
util::throw_error(std::runtime_error("Unsupported input meta for IE backend"));
}
ii->getPreProcess().setResizeAlgorithm(interp);
if (cv::util::holds_alternative<cv::GFrameDesc>(mm)) {
const auto &meta = util::get<cv::GFrameDesc>(mm);
if (meta.fmt == cv::MediaFormat::NV12) {
#if INF_ENGINE_RELEASE > 2023000000
cv::util::throw_error(std::logic_error(
"IE Backend: cv::MediaFrame with NV12 format is no longer supported"
" because NV12 feature has been deprecated in OpenVINO 1.0 API."
" The last version which supports this is 2023.0"));
#else
ii->getPreProcess().setColorFormat(IE::ColorFormat::NV12);
#endif
}
}
}
// NB: This function is used in order to configure
// preprocessing for "Load" case networks.
static void cfgInputPreprocessing(const cv::gapi::ie::TraitAs trait,
const IE::InputInfo::Ptr &ii,
const cv::GMetaArg &mm,
const std::string &layer_name,
const AttrMap<std::string> &layout_map,
const AttrMap<int> &interp_map) {
cfgInputPrecision(ii, mm);
const auto explicit_input_layout = lookUp(layout_map, layer_name);
const auto explicit_resize = lookUp(interp_map, layer_name);
if (trait == cv::gapi::ie::TraitAs::IMAGE) {
// NB: Image case - preprocessing is configured automatically.
GAPI_LOG_DEBUG(NULL, "IE Backend: Input: \"" <<
layer_name << " " << mm << "\" is image.");
// NB: BlockingDesc is used instead (see wrapIE)
if (explicit_input_layout) {
util::throw_error(std::logic_error("Input data provided for layer: \"" +
layer_name + "\" is recognized as \"image\". Explicitly" +
" specified layout is prohibited."));
}
const auto interp = explicit_resize ? toIEInterp(*explicit_resize)
: IE::RESIZE_BILINEAR;
cfgImagePreprocessing(ii, mm, interp);
} else {
// NB: Tensor case - preprocessing is configured only if user asked.
GAPI_LOG_DEBUG(NULL, "IE Backend: Input: \"" <<
layer_name << "\" " << mm << " is tensor.");
if (explicit_input_layout) {
GAPI_LOG_DEBUG(NULL, "IE Backend: Set input layout \"" <<
*explicit_input_layout << "\" for layer \"" << layer_name << "\"");
ii->setLayout(toIE(*explicit_input_layout));
}
if (explicit_resize) {
GAPI_LOG_DEBUG(NULL, "IE Backend: Set resize for layer \"" << layer_name << "\"");
ii->getPreProcess().setResizeAlgorithm(toIEInterp(*explicit_resize));
}
}
}
static IE::PreProcessInfo createImagePreProcInfo(const cv::GMetaArg &mm,
const IE::ResizeAlgorithm interp) {
if (!cv::util::holds_alternative<cv::GMatDesc>(mm) &&
!cv::util::holds_alternative<cv::GFrameDesc>(mm)) {
util::throw_error(std::runtime_error("Unsupported input meta for IE backend"));
}
IE::PreProcessInfo info;
info.setResizeAlgorithm(interp);
if (cv::util::holds_alternative<cv::GFrameDesc>(mm)) {
const auto &meta = util::get<cv::GFrameDesc>(mm);
if (meta.fmt == cv::MediaFormat::NV12) {
#if INF_ENGINE_RELEASE > 2023000000
cv::util::throw_error(std::logic_error(
"IE Backend: cv::MediaFrame with NV12 format is no longer supported"
" because NV12 feature has been deprecated in OpenVINO 1.0 API."
" The last version which supports this is 2023.0"));
#else
info.setColorFormat(IE::ColorFormat::NV12);
#endif
}
}
return info;
}
// NB: This function is used in order to create
// preprocessing for "Import" case networks.
static IE::PreProcessInfo createPreProcInfo(const cv::gapi::ie::TraitAs trait,
const cv::GMetaArg& mm,
const cv::optional<int> explicit_resize) {
if (trait == cv::gapi::ie::TraitAs::IMAGE) {
const auto interp = explicit_resize ? toIEInterp(*explicit_resize)
: IE::RESIZE_BILINEAR;
return createImagePreProcInfo(mm, interp);
}
// NB: In case "tensor" only resize can't be spefied for "import" models.
IE::PreProcessInfo info;
if (explicit_resize) {
info.setResizeAlgorithm(toIEInterp(*explicit_resize));
}
return info;
}
using namespace cv::gapi::ie::detail;
static void configureOutputPrecision(const IE::OutputsDataMap &outputs_info,
const ParamDesc::PrecisionVariantT &output_precision) {
cv::util::visit(cv::util::overload_lambdas(
[&outputs_info](ParamDesc::PrecisionT cvdepth) {
auto precision = toIE(cvdepth);
for (auto it : outputs_info) {
it.second->setPrecision(precision);
}
},
[&outputs_info](const ParamDesc::PrecisionMapT& precision_map) {
for (auto it : precision_map) {
outputs_info.at(it.first)->setPrecision(toIE(it.second));
}
},
[&outputs_info](cv::util::monostate) {
// Do nothing.
}
), output_precision
);
}
static void configureOutputLayout(const IE::OutputsDataMap &outputs_info,
const AttrMap<std::string> &output_layout) {
for (const auto it : output_layout) {
outputs_info.at(it.first)->setLayout(toIE(it.second));
}
}
// NB: This is a callback used by async infer
// to post outputs blobs (cv::GMat's).
static void PostOutputs(InferenceEngine::InferRequest &request,
InferenceEngine::StatusCode code,
std::shared_ptr<IECallContext> ctx) {
GAPI_ITT_STATIC_LOCAL_HANDLE(ie_cb_post_outputs_hndl, "IE_async_callback_PostOutputs");
GAPI_ITT_AUTO_TRACE_GUARD(ie_cb_post_outputs_hndl);
if (code != IE::StatusCode::OK) {
std::stringstream ss;
ss << "InferRequest for model: " << ctx->uu.params.model_path
<< " finished with InferenceEngine::StatusCode: " << static_cast<int>(code);
ctx->eptr = std::make_exception_ptr(std::logic_error(ss.str()));
}
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
auto& out_mat = ctx->outMatR(i);
IE::Blob::Ptr this_blob = request.GetBlob(ctx->uu.params.output_names[i]);
copyFromIE(this_blob, out_mat);
auto output = ctx->output(i);
ctx->out.meta(output, ctx->getMeta());
ctx->out.post(std::move(output), ctx->eptr);
}
ctx->views.clear();
ctx->releaseKeepAliveFrame(&request);
}
class PostOutputsList {
public:
PostOutputsList(size_t size,
std::shared_ptr<IECallContext> ctx,
std::vector<std::vector<int>>&& cached_dims);
void operator()(InferenceEngine::InferRequest &request,
InferenceEngine::StatusCode code,
size_t pos) const;
private:
struct Priv {
size_t size;
std::atomic<size_t> finished{0u};
std::shared_ptr<IECallContext> ctx;
std::vector<std::vector<int>> cached_dims;
};
std::shared_ptr<Priv> m_priv;
};
PostOutputsList::PostOutputsList(size_t size,
std::shared_ptr<IECallContext> ctx,
std::vector<std::vector<int>>&& cached_dims)
: m_priv(new Priv()) {
m_priv->size = size;
m_priv->ctx = ctx;
m_priv->cached_dims = std::move(cached_dims);
}
void PostOutputsList::operator()(InferenceEngine::InferRequest &req,
InferenceEngine::StatusCode code,
size_t pos) const {
auto&& ctx = m_priv->ctx;
auto&& cached_dims = m_priv->cached_dims;
auto&& finished = m_priv->finished;
auto&& size = m_priv->size;
if (code != IE::StatusCode::OK) {
ctx->eptr = std::make_exception_ptr(
std::logic_error("IE::InferRequest finished with not OK status"));
}
if (!ctx->eptr) {
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
std::vector<cv::Mat> &out_vec = ctx->outVecR<cv::Mat>(i);
IE::Blob::Ptr out_blob = req.GetBlob(ctx->uu.params.output_names[i]);
GAPI_Assert(out_blob);
// FIXME: Avoid data copy. Not sure if it is possible though
out_vec[pos].create(cached_dims[i], toCV(out_blob->getTensorDesc().getPrecision()));
copyFromIE(out_blob, out_vec[pos]);
}
}
++finished;
if (finished == size) {
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
auto output = ctx->output(i);
ctx->out.meta(output, ctx->getMeta());
ctx->out.post(std::move(output), ctx->eptr);
}
}
}
struct Infer: public cv::detail::KernelTag {
using API = cv::GInferBase;
static cv::gapi::GBackend backend() { return cv::gapi::ie::backend(); }
static KImpl kernel() { return KImpl{outMeta, run}; }
static cv::GMetaArgs outMeta(const ade::Graph &gr,
const ade::NodeHandle &nh,
const cv::GMetaArgs &in_metas,
const cv::GArgs &/*in_args*/) {
// Specify network's output layer metadata to the framework
// Also specify the input information to the IE from the framework
// NB: Have no clue if network's input [dimensions] may ever define
// its output dimensions. It seems possible with OpenCV DNN APIs
cv::GMetaArgs result;
GConstGIEModel gm(gr);
const auto &uu = gm.metadata(nh).get<IEUnit>();
IE::ICNNNetwork::InputShapes input_reshape_table = uu.params.reshape_table;
// Initialize input information
// Note our input layers list order matches the API order and so
// meta order.
GAPI_Assert(uu.params.input_names.size() == in_metas.size()
&& "Known input layers count doesn't match input meta count");
const auto input_layout = broadcastLayerAttr(uu.params.input_layout,
uu.params.input_names);
const auto interpolation = broadcastLayerAttr(uu.params.interpolation,
uu.params.input_names);
// NB: Configuring input/output precision and network reshape must be done
// only in the loadNetwork case.
using namespace cv::gapi::ie::detail;
if (uu.params.kind == ParamDesc::Kind::Load) {
auto inputs = uu.net.getInputsInfo();
for (auto &&it : ade::util::zip(ade::util::toRange(uu.params.input_names),
ade::util::toRange(in_metas))) {
const auto &input_name = std::get<0>(it);
auto ii = inputs.at(input_name);
const auto &mm = std::get<1>(it);
if (uu.params.layer_names_to_reshape.find(input_name) !=
uu.params.layer_names_to_reshape.end()) {
configureInputReshapeByImage(ii, mm, input_reshape_table);
}
const auto trait = clarifyTrait(mm, ii->getTensorDesc().getDims());
// FIXME: This is the only place where information about input type
// can be stored for the futher execution.
const_cast<IEUnit&>(uu).inputs_type.emplace(input_name, trait);
cfgInputPreprocessing(trait, ii, mm, input_name,
input_layout, interpolation);
// NB: configure input param for further preproc
if (uu.net_input_params.is_applicable(mm)) {
const_cast<IEUnit::InputFramesDesc &>(uu.net_input_params)
.set_param(input_name, ii->getTensorDesc());
}
}
for (auto &&p : uu.params.const_inputs) {
const auto ii = inputs.at(p.first);
ii->setPrecision(toIE(p.second.first.depth()));
}
// FIXME: This isn't the best place to call reshape function.
// Сorrect solution would be to do this in compile() method of network,
// but now input meta isn't passed to compile() method.
if (!input_reshape_table.empty()) {
const_cast<IE::CNNNetwork *>(&uu.net)->reshape(input_reshape_table);
}
const auto output_layout = broadcastLayerAttr(uu.params.output_layout,
uu.params.output_names);
configureOutputLayout(uu.net.getOutputsInfo(), output_layout);
configureOutputPrecision(uu.net.getOutputsInfo(), uu.params.output_precision);
} else {
GAPI_Assert(uu.params.kind == ParamDesc::Kind::Import);
auto inputs = uu.this_network.GetInputsInfo();
// FIXME: This isn't the best place to collect PreProcMap.
auto* non_const_prepm = const_cast<IEUnit::PreProcMap*>(&uu.preproc_map);
for (auto &&it : ade::util::zip(ade::util::toRange(uu.params.input_names),
ade::util::toRange(in_metas))) {
const auto &input_name = std::get<0>(it);
auto ii = inputs.at(input_name);
const auto & mm = std::get<1>(it);
const auto trait = clarifyTrait(mm, ii->getTensorDesc().getDims());
// FIXME: This is the only place where information about input type
// can be stored for the futher execution.
const_cast<IEUnit&>(uu).inputs_type.emplace(input_name, trait);
const auto explicit_resize = lookUp(interpolation, input_name);
non_const_prepm->emplace(
input_name, createPreProcInfo(trait, mm, explicit_resize));
// NB: configure input param for further preproc
if (uu.net_input_params.is_applicable(mm)) {
const_cast<IEUnit::InputFramesDesc &>(uu.net_input_params)
.set_param(input_name, ii->getTensorDesc());
}
}
}
// FIXME: It would be nice here to have an exact number of network's
// input/output parameters. Probably GCall should store it here for us.
// It doesn't, as far as I know..
for (const auto &out_name : uu.params.output_names) {
// NOTE: our output_names vector follows the API order
// of this operation's outputs
const auto& desc =
uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load
? uu.net.getOutputsInfo().at(out_name)->getTensorDesc()
: uu.this_network.GetOutputsInfo().at(out_name)->getTensorDesc();
cv::GMatDesc outm(toCV(desc.getPrecision()),
toCVDims(toCV(desc.getDims()), desc.getLayout()));
result.emplace_back(outm);
}
return result;
}
static void run(std::shared_ptr<IECallContext> ctx,
cv::gimpl::ie::RequestPool &reqPool) {
using namespace std::placeholders;
reqPool.getIdleRequest()->execute(
IInferExecutor::Task {
[ctx](InferenceEngine::InferRequest &req) {
// non-generic version for now:
// - assumes all inputs/outputs are always Mats
for (auto i : ade::util::iota(ctx->uu.params.num_in)) {
const auto& layer_name = ctx->uu.params.input_names[i];
const auto hint = ctx->getInputType(layer_name);
const auto layout = req.GetBlob(layer_name)->getTensorDesc().getLayout();
IE::Blob::Ptr this_blob = extractBlob(*ctx, i, hint,
layout, layer_name,
cv::util::optional<cv::Rect>{});
setBlob(req, layer_name, this_blob, *ctx);
}
},
std::bind(PostOutputs, _1, _2, ctx)
}
);
}
};
struct InferROI: public cv::detail::KernelTag {
using API = cv::GInferROIBase;
static cv::gapi::GBackend backend() { return cv::gapi::ie::backend(); }
static KImpl kernel() { return KImpl{outMeta, run}; }
static cv::GMetaArgs outMeta(const ade::Graph &gr,
const ade::NodeHandle &nh,
const cv::GMetaArgs &in_metas,
const cv::GArgs &/*in_args*/) {
cv::GMetaArgs result;
GConstGIEModel gm(gr);
const auto &uu = gm.metadata(nh).get<IEUnit>();
IE::ICNNNetwork::InputShapes input_reshape_table = uu.params.reshape_table;
// Initialize input information
// FIXME: So far it is pretty limited
GAPI_Assert(1u == uu.params.input_names.size());
GAPI_Assert(2u == in_metas.size());
const auto &input_name = uu.params.input_names.at(0);
auto &&mm = in_metas.at(1u);
const auto &tensor_desc =
(uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load)
? uu.net.getInputsInfo().at(input_name)->getTensorDesc()
: uu.this_network.GetInputsInfo().at(input_name)->getTensorDesc();
if (cv::util::holds_alternative<cv::GMatDesc>(mm) ||
cv::util::holds_alternative<cv::GFrameDesc>(mm)) {
const auto trait = clarifyTrait(mm, tensor_desc.getDims());
if (trait != cv::gapi::ie::TraitAs::IMAGE) {
util::throw_error(std::runtime_error(
"IE Backend: Only image is supported"
" as the 1th argument for InferROI"));
}
} else {
util::throw_error(std::runtime_error(
"IE Backend: Unsupported input meta for"
" 1th argument for InferROI"));
}
// NB: Configuring input precision and network reshape must be done
// only in the loadNetwork case.
const auto input_layout = broadcastLayerAttr(uu.params.input_layout,
uu.params.input_names);
const auto interpolation = broadcastLayerAttr(uu.params.interpolation,
uu.params.input_names);
const auto trait = cv::gapi::ie::TraitAs::IMAGE;
if (uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
// 0th is ROI, 1st is input image
auto inputs = uu.net.getInputsInfo();
auto ii = inputs.at(input_name);
if (uu.params.layer_names_to_reshape.find(input_name) !=
uu.params.layer_names_to_reshape.end()) {
configureInputReshapeByImage(ii, mm, input_reshape_table);
}
cfgInputPreprocessing(trait, ii, mm, input_name,
input_layout, interpolation);
// FIXME: This isn't the best place to call reshape function.
// Сorrect solution would be to do this in compile() method of network,
// but now input meta isn't passed to compile() method.
if (!input_reshape_table.empty()) {
const_cast<IE::CNNNetwork *>(&uu.net)->reshape(input_reshape_table);
}
// NB: configure input param for further preproc
if (uu.net_input_params.is_applicable(mm)) {
const_cast<IEUnit::InputFramesDesc &>(uu.net_input_params)
.set_param(input_name, ii->getTensorDesc());
}
for (auto &&p : uu.params.const_inputs) {
inputs.at(p.first)->setPrecision(toIE(p.second.first.depth()));
}
const auto output_layout = broadcastLayerAttr(uu.params.output_layout,
uu.params.output_names);
configureOutputLayout(uu.net.getOutputsInfo(), output_layout);
configureOutputPrecision(uu.net.getOutputsInfo(), uu.params.output_precision);
} else {
GAPI_Assert(uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import);
auto inputs = uu.this_network.GetInputsInfo();
// FIXME: This isn't the best place to collect PreProcMap.
auto* non_const_prepm = const_cast<IEUnit::PreProcMap*>(&uu.preproc_map);
auto ii = inputs.at(input_name);
const auto explicit_resize = lookUp(interpolation, input_name);
non_const_prepm->emplace(
input_name, createPreProcInfo(trait, mm, explicit_resize));
// NB: configure intput param for further preproc
if (uu.net_input_params.is_applicable(mm)) {
const_cast<IEUnit::InputFramesDesc &>(uu.net_input_params)
.set_param(input_name, ii->getTensorDesc());
}
}
// FIXME: It would be nice here to have an exact number of network's
// input/output parameters. Probably GCall should store it here for us.
// It doesn't, as far as I know..
for (const auto &out_name : uu.params.output_names) {
// NOTE: our output_names vector follows the API order
// of this operation's outputs
const auto& desc =
uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load
? uu.net.getOutputsInfo().at(out_name)->getTensorDesc()
: uu.this_network.GetOutputsInfo().at(out_name)->getTensorDesc();
cv::GMatDesc outm(toCV(desc.getPrecision()),
toCVDims(toCV(desc.getDims()), desc.getLayout()));
result.emplace_back(outm);
}
return result;
}
static void run(std::shared_ptr<IECallContext> ctx,
cv::gimpl::ie::RequestPool &reqPool) {
using namespace std::placeholders;
reqPool.getIdleRequest()->execute(
IInferExecutor::Task {
[ctx](InferenceEngine::InferRequest &req) {
GAPI_Assert(ctx->uu.params.num_in == 1);
auto&& this_roi = ctx->inArg<cv::detail::OpaqueRef>(0).rref<cv::Rect>();
// reserve unique slot for keep alive preprocessed frame
cv::MediaFrame* slot_ptr = ctx->prepareKeepAliveFrameSlot(&req);
// NB: This blob will be used to make roi from its, so
// it should be treated as image
bool preprocessed = false;
IE::Blob::Ptr this_blob =
extractBlob(*ctx, 1, cv::gapi::ie::TraitAs::IMAGE,
IE::Layout::ANY,
*(ctx->uu.params.input_names.begin()),
cv::util::make_optional(this_roi),
slot_ptr, &preprocessed);
if (!preprocessed) {
setROIBlob(req,
*(ctx->uu.params.input_names.begin()),
this_blob, this_roi, *ctx);
} else {
setBlob(req,
*(ctx->uu.params.input_names.begin()),
this_blob, *ctx);
}
},
std::bind(PostOutputs, _1, _2, ctx)
}
);
}
};
struct InferList: public cv::detail::KernelTag {
using API = cv::GInferListBase;
static cv::gapi::GBackend backend() { return cv::gapi::ie::backend(); }
static KImpl kernel() { return KImpl{outMeta, run}; }
static cv::GMetaArgs outMeta(const ade::Graph &gr,
const ade::NodeHandle &nh,
const cv::GMetaArgs &in_metas,
const cv::GArgs &/*in_args*/) {
// Specify the input information to the IE from the framework
// NB: Have no clue if network's input [dimensions] may ever define
// its output dimensions. It seems possible with OpenCV DNN APIs
GConstGIEModel gm(gr);
const auto &uu = gm.metadata(nh).get<IEUnit>();
IE::ICNNNetwork::InputShapes input_reshape_table = uu.params.reshape_table;
// Initialize input information
// Note our input layers list order matches the API order and so
// meta order.
GAPI_Assert(uu.params.input_names.size() == (in_metas.size() - 1u)
&& "Known input layers count doesn't match input meta count");
// NB: Configuring input precision and network reshape must be done
// only in the loadNetwork case.
const auto input_layout = broadcastLayerAttr(uu.params.input_layout,
uu.params.input_names);
const auto interpolation = broadcastLayerAttr(uu.params.interpolation,
uu.params.input_names);
if (uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
std::size_t idx = 1u;
auto inputs = uu.net.getInputsInfo();
for (auto &&input_name : uu.params.input_names) {
auto ii = inputs.at(input_name);
const auto & mm = in_metas[idx++];
// NB: InferList expects the input starts with index 1 wil be the images.
const auto input_trait = clarifyTrait(mm, ii->getTensorDesc().getDims());
if (input_trait != cv::gapi::ie::TraitAs::IMAGE) {
util::throw_error(std::runtime_error(
"IE Backend: Only image is supported"
" as the " + std::to_string(idx) + "th argument for InferList"));
}
if (uu.params.layer_names_to_reshape.find(input_name) !=
uu.params.layer_names_to_reshape.end()) {
configureInputReshapeByImage(ii, mm, input_reshape_table);
}
cfgInputPreprocessing(input_trait, ii, mm,
input_name, input_layout, interpolation);
}
// FIXME: This isn't the best place to call reshape function.
// Сorrect solution would be to do this in compile() method of network,
// but now input meta isn't passed to compile() method.
if (!input_reshape_table.empty()) {
const_cast<IE::CNNNetwork *>(&uu.net)->reshape(input_reshape_table);
}
for (auto &&p : uu.params.const_inputs) {
const auto ii = inputs.at(p.first);
ii->setPrecision(toIE(p.second.first.depth()));
}
const auto output_layout = broadcastLayerAttr(uu.params.output_layout,
uu.params.output_names);
configureOutputLayout(uu.net.getOutputsInfo(), output_layout);
configureOutputPrecision(uu.net.getOutputsInfo(), uu.params.output_precision);
} else {
GAPI_Assert(uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import);
std::size_t idx = 1u;
auto inputs = uu.this_network.GetInputsInfo();
auto* non_const_prepm = const_cast<IEUnit::PreProcMap*>(&uu.preproc_map);
for (auto &&input_name : uu.params.input_names) {
auto ii = inputs.at(input_name);
const auto & mm = in_metas[idx++];
// NB: InferList expects the input starts with index 1 wil be the images.
const auto input_trait = clarifyTrait(mm, ii->getTensorDesc().getDims());
if (input_trait != cv::gapi::ie::TraitAs::IMAGE) {
util::throw_error(std::runtime_error(
"IE Backend: Only image is supported"
" as the " + std::to_string(idx) + "th argument for InferList"));
}
const auto explicit_resize = lookUp(interpolation, input_name);
non_const_prepm->emplace(
input_name, createPreProcInfo(input_trait, mm, explicit_resize));
}
}
// roi-list version is much easier at the moment.
// All our outputs are vectors which don't have
// metadata at the moment - so just create a vector of
// "empty" array metadatas of the required size.
return cv::GMetaArgs(uu.params.output_names.size(),
cv::GMetaArg{cv::empty_array_desc()});
}
static void run(std::shared_ptr<IECallContext> ctx,
cv::gimpl::ie::RequestPool &reqPool) {
const auto& in_roi_vec = ctx->inArg<cv::detail::VectorRef>(0u).rref<cv::Rect>();
// NB: In case there is no input data need to post output anyway
if (in_roi_vec.empty()) {
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
auto output = ctx->output(i);
ctx->out.meta(output, ctx->getMeta());
ctx->out.post(std::move(output));
}
return;
}
// NB: This blob will be used to make roi from its, so
// it should be treated as image
IE::Blob::Ptr this_blob = extractBlob(*ctx, 1, cv::gapi::ie::TraitAs::IMAGE,
IE::Layout::ANY,
ctx->uu.params.input_names[0u],
cv::util::optional<cv::Rect>{});
std::vector<std::vector<int>> cached_dims(ctx->uu.params.num_out);
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
const auto& out_name = ctx->uu.params.output_names[i];
const auto& desc =
ctx->uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load
? ctx->uu.net.getOutputsInfo().at(out_name)->getTensorDesc()
: ctx->uu.this_network.GetOutputsInfo().at(out_name)->getTensorDesc();
cached_dims[i] = toCVDims(toCV(desc.getDims()), desc.getLayout());
// FIXME: Isn't this should be done automatically
// by some resetInternalData(), etc? (Probably at the GExecutor level)
auto& out_vec = ctx->outVecR<cv::Mat>(i);
out_vec.clear();
out_vec.resize(in_roi_vec.size());
}
PostOutputsList callback(in_roi_vec.size(), ctx, std::move(cached_dims));
for (auto&& it : ade::util::indexed(in_roi_vec)) {
auto pos = ade::util::index(it);
const auto& rc = ade::util::value(it);
reqPool.getIdleRequest()->execute(
IInferExecutor::Task {
[ctx, rc, this_blob](InferenceEngine::InferRequest &req) {
setROIBlob(req, ctx->uu.params.input_names[0u], this_blob, rc, *ctx);
},
std::bind(callback, std::placeholders::_1, std::placeholders::_2, pos)
}
);
}
}
};
struct InferList2: public cv::detail::KernelTag {
using API = cv::GInferList2Base;
static cv::gapi::GBackend backend() { return cv::gapi::ie::backend(); }
static KImpl kernel() { return KImpl{outMeta, run}; }
static cv::GMetaArgs outMeta(const ade::Graph &gr,
const ade::NodeHandle &nh,
const cv::GMetaArgs &in_metas,
const cv::GArgs &/*in_args*/) {
// Specify the input information to the IE from the framework
// NB: Have no clue if network's input [dimensions] may ever define
// its output dimensions. It seems possible with OpenCV DNN APIs
GConstGIEModel gm(gr);
const auto &uu = gm.metadata(nh).get<IEUnit>();
IE::ICNNNetwork::InputShapes input_reshape_table = uu.params.reshape_table;
// Initialize input information
// Note our input layers list order matches the API order and so
// meta order.
GAPI_Assert(uu.params.input_names.size() == (in_metas.size() - 1u)
&& "Known input layers count doesn't match input meta count");
const auto &op = gm.metadata(nh).get<Op>();
// In contrast to InferList, the InferList2 has only one
// "full-frame" image argument, and all the rest are arrays of
// ether ROI or blobs. So here we set the 0th arg image format
// to all inputs which are ROI-based (skipping the
// "blob"-based ones)
// FIXME: this is filtering not done, actually! GArrayDesc has
// no hint for its underlying type!
const auto &input_name_0 = uu.params.input_names.front();
const auto &mm_0 = in_metas[0u];
const auto &tensor_desc_0 =
(uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load)
? uu.net.getInputsInfo().at(input_name_0)->getTensorDesc()
: uu.this_network.GetInputsInfo().at(input_name_0)->getTensorDesc();
if (!(cv::util::holds_alternative<cv::GMatDesc>(mm_0) ||
cv::util::holds_alternative<cv::GFrameDesc>(mm_0))) {
util::throw_error(std::runtime_error(
"IE Backend: Unsupported input meta"
" for 0th argument in IE backend"));
}
std::size_t idx = 1u;
const auto input_layout = broadcastLayerAttr(uu.params.input_layout,
uu.params.input_names);
const auto interpolation = broadcastLayerAttr(uu.params.interpolation,
uu.params.input_names);
for (auto &&input_name : uu.params.input_names) {
const auto &mm = in_metas[idx];
GAPI_Assert(util::holds_alternative<cv::GArrayDesc>(mm)
&& "Non-array inputs are not supported");
if (op.k.inKinds[idx] == cv::detail::OpaqueKind::CV_RECT) {
const auto input_trait = clarifyTrait(mm_0, tensor_desc_0.getDims());
GAPI_Assert(input_trait == cv::gapi::ie::TraitAs::IMAGE
&& "IE Backend: Only image is supported as the 0th argument for an input array of cv::Rect");
// NB: Configuring input precision and network reshape must be done
// only in the loadNetwork case.
if (uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load) {
auto inputs = uu.net.getInputsInfo();
// This is a cv::Rect -- configure the IE preprocessing
auto ii = inputs.at(input_name);
if (uu.params.layer_names_to_reshape.find(input_name) !=
uu.params.layer_names_to_reshape.end()) {
configureInputReshapeByImage(ii, mm_0, input_reshape_table);
}
cfgInputPreprocessing(input_trait, ii, mm_0,
input_name, input_layout, interpolation);
for (auto &&p : uu.params.const_inputs) {
inputs.at(p.first)->setPrecision(toIE(p.second.first.depth()));
}
// FIXME: This isn't the best place to call reshape function.
// Сorrect solution would be to do this in compile() method of network,
// but now input meta isn't passed to compile() method.
if (!input_reshape_table.empty()) {
const_cast<IE::CNNNetwork *>(&uu.net)->reshape(input_reshape_table);
}
const auto output_layout = broadcastLayerAttr(uu.params.output_layout,
uu.params.output_names);
configureOutputLayout(uu.net.getOutputsInfo(), output_layout);
configureOutputPrecision(uu.net.getOutputsInfo(), uu.params.output_precision);
} else {
GAPI_Assert(uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Import);
auto inputs = uu.this_network.GetInputsInfo();
auto* non_const_prepm = const_cast<IEUnit::PreProcMap*>(&uu.preproc_map);
auto ii = inputs.at(input_name);
const auto explicit_resize = lookUp(interpolation, input_name);
non_const_prepm->emplace(
input_name, createPreProcInfo(input_trait, mm_0, explicit_resize));
}
} else {
// This is a cv::GMat (equals to: cv::Mat)
// Just validate that it is really the type
// (other types are prohibited here)
GAPI_Assert(op.k.inKinds[idx] == cv::detail::OpaqueKind::CV_MAT);
// NB: Well, it's even impossible to specify the precision since
// there is not such info in GArray<cv::GMat>
const auto explicit_resize = lookUp(interpolation, input_name);
const auto explicit_layout = lookUp(input_layout , input_name);
if (explicit_resize || explicit_layout) {
util::throw_error(std::logic_error(
"InferList2 doesn't support preprocessing for \"tensor\"'s arguments!"));
}
}
idx++; // NB: Never forget to increment the counter
}
// roi-list version is much easier at the moment.
// All our outputs are vectors which don't have
// metadata at the moment - so just create a vector of
// "empty" array metadatas of the required size.
return cv::GMetaArgs(uu.params.output_names.size(),
cv::GMetaArg{cv::empty_array_desc()});
}
static void run(std::shared_ptr<IECallContext> ctx,
cv::gimpl::ie::RequestPool &reqPool) {
GAPI_Assert(ctx->inArgs().size() > 1u
&& "This operation must have at least two arguments");
// NB: This blob will be used to make roi from its, so
// it should be treated as image
IE::Blob::Ptr blob_0 = extractBlob(*ctx, 0, cv::gapi::ie::TraitAs::IMAGE,
IE::Layout::ANY,
ctx->uu.params.input_names[0u],
cv::util::optional<cv::Rect>{});
const auto list_size = ctx->inArg<cv::detail::VectorRef>(1u).size();
if (list_size == 0u) {
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
auto output = ctx->output(i);
ctx->out.meta(output, ctx->getMeta());
ctx->out.post(std::move(output));
}
return;
}
// FIXME: This could be done ONCE at graph compile stage!
std::vector< std::vector<int> > cached_dims(ctx->uu.params.num_out);
for (auto i : ade::util::iota(ctx->uu.params.num_out)) {
const auto& out_name = ctx->uu.params.output_names[i];
const auto& desc =
ctx->uu.params.kind == cv::gapi::ie::detail::ParamDesc::Kind::Load
? ctx->uu.net.getOutputsInfo().at(out_name)->getTensorDesc()
: ctx->uu.this_network.GetOutputsInfo().at(out_name)->getTensorDesc();
cached_dims[i] = toCVDims(toCV(desc.getDims()), desc.getLayout());
// FIXME: Isn't this should be done automatically
// by some resetInternalData(), etc? (Probably at the GExecutor level)
auto& out_vec = ctx->outVecR<cv::Mat>(i);
out_vec.clear();
out_vec.resize(list_size);
}
PostOutputsList callback(list_size, ctx, std::move(cached_dims));
for (const auto &list_idx : ade::util::iota(list_size)) {
reqPool.getIdleRequest()->execute(
IInferExecutor::Task {
[ctx, list_idx, list_size, blob_0](InferenceEngine::InferRequest &req) {
for (auto in_idx : ade::util::iota(ctx->uu.params.num_in)) {
const auto &this_vec = ctx->inArg<cv::detail::VectorRef>(in_idx+1u);
GAPI_Assert(this_vec.size() == list_size);
if (this_vec.getKind() == cv::detail::OpaqueKind::CV_RECT) {
const auto &vec = this_vec.rref<cv::Rect>();
setROIBlob(req, ctx->uu.params.input_names[in_idx],
blob_0, vec[list_idx], *ctx);
} else if (this_vec.getKind() == cv::detail::OpaqueKind::CV_MAT) {
const auto &vec = this_vec.rref<cv::Mat>();
const auto &mat = vec[list_idx];
const auto layer_name = ctx->uu.params.input_names[in_idx];
const auto layout = req.GetBlob(layer_name)->getTensorDesc().getLayout();
setBlob(req, layer_name,
wrapIE(mat, cv::gapi::ie::TraitAs::TENSOR, layout),
*ctx);
} else {
GAPI_Assert(false &&
"Only Rect and Mat types are supported for infer list 2!");
}
}
},
std::bind(callback, std::placeholders::_1, std::placeholders::_2, list_idx)
} // task
);
} // for
}
};
} // namespace ie
} // namespace gapi
} // namespace cv
// IE backend implementation of GBackend::Priv ///////////////////////
namespace {
class GIEBackendImpl final: public cv::gapi::GBackend::Priv {
virtual void unpackKernel(ade::Graph &gr,
const ade::NodeHandle &nh,
const cv::GKernelImpl &ii) override {
using namespace cv::gimpl;
// FIXME: Introduce a DNNBackend interface which'd specify
// the framework for this???
GIEModel gm(gr);
auto &np = gm.metadata(nh).get<NetworkParams>();
auto &pp = cv::util::any_cast<cv::gapi::ie::detail::ParamDesc>(np.opaque);
const auto &ki = cv::util::any_cast<KImpl>(ii.opaque);
GModel::Graph model(gr);
auto& op = model.metadata(nh).get<Op>();
// NB: In case generic infer, info about in/out names is stored in operation (op.params)
if (pp.is_generic)
{
auto& info = cv::util::any_cast<cv::detail::InOutInfo>(op.params);
pp.input_names = info.in_names;
pp.output_names = info.out_names;
pp.num_in = info.in_names.size();
pp.num_out = info.out_names.size();
}
gm.metadata(nh).set(IEUnit{pp});
gm.metadata(nh).set(IECallable{ki.run});
gm.metadata(nh).set(CustomMetaFunction{ki.customMetaFunc});
}
virtual EPtr compile(const ade::Graph &graph,
const cv::GCompileArgs &,
const std::vector<ade::NodeHandle> &nodes) const override {
return EPtr{new cv::gimpl::ie::GIEExecutable(graph, nodes)};
}
virtual cv::GKernelPackage auxiliaryKernels() const override {
return cv::gapi::kernels< cv::gimpl::ie::Infer
, cv::gimpl::ie::InferROI
, cv::gimpl::ie::InferList
, cv::gimpl::ie::InferList2
>();
}
virtual bool controlsMerge() const override {
return true;
}
virtual bool allowsMerge(const cv::gimpl::GIslandModel::Graph &,
const ade::NodeHandle &,
const ade::NodeHandle &,
const ade::NodeHandle &) const override {
return false;
}
};
}
cv::gapi::GBackend cv::gapi::ie::backend() {
static cv::gapi::GBackend this_backend(std::make_shared<GIEBackendImpl>());
return this_backend;
}
cv::Mat cv::gapi::ie::util::to_ocv(IE::Blob::Ptr blob) {
const auto& tdesc = blob->getTensorDesc();
return cv::Mat(toCV(tdesc.getDims()),
toCV(tdesc.getPrecision()),
blob->buffer().as<uint8_t*>());
}
std::vector<int> cv::gapi::ie::util::to_ocv(const IE::SizeVector &dims) {
return toCV(dims);
}
IE::Blob::Ptr cv::gapi::ie::util::to_ie(const cv::Mat &blob) {
return wrapIE(blob, cv::gapi::ie::TraitAs::IMAGE);
}
IE::Blob::Ptr cv::gapi::ie::util::to_ie(const cv::Mat &y_plane, const cv::Mat &uv_plane) {
auto y_blob = wrapIE(y_plane, cv::gapi::ie::TraitAs::IMAGE);
auto uv_blob = wrapIE(uv_plane, cv::gapi::ie::TraitAs::IMAGE);
#if INF_ENGINE_RELEASE > 2023000000
cv::util::throw_error(std::logic_error(
"IE Backend: NV12 feature has been deprecated in OpenVINO 1.0 API."
" The last version which supports this is 2023.0"));
#elif INF_ENGINE_RELEASE >= 2021010000
return IE::make_shared_blob<IE::NV12Blob>(y_blob, uv_blob);
#else
return IE::make_shared_blob<InferenceEngine::NV12Blob>(y_blob, uv_blob);
#endif
}
#else // HAVE_INF_ENGINE
cv::gapi::GBackend cv::gapi::ie::backend() {
// Still provide this symbol to avoid linking issues
util::throw_error(std::runtime_error("G-API has been compiled without OpenVINO IE support"));
}
#endif // HAVE_INF_ENGINE
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