#include "dnn.h" Net Net_ReadNet(const char* model, const char* config) { Net n = new cv::dnn::Net(cv::dnn::readNet(model, config)); return n; } Net Net_ReadNetBytes(const char* framework, struct ByteArray model, struct ByteArray config) { std::vector modelv(model.data, model.data + model.length); std::vector configv(config.data, config.data + config.length); Net n = new cv::dnn::Net(cv::dnn::readNet(framework, modelv, configv)); return n; } Net Net_ReadNetFromCaffe(const char* prototxt, const char* caffeModel) { Net n = new cv::dnn::Net(cv::dnn::readNetFromCaffe(prototxt, caffeModel)); return n; } Net Net_ReadNetFromCaffeBytes(struct ByteArray prototxt, struct ByteArray caffeModel) { Net n = new cv::dnn::Net(cv::dnn::readNetFromCaffe(prototxt.data, prototxt.length, caffeModel.data, caffeModel.length)); return n; } Net Net_ReadNetFromTensorflow(const char* model) { Net n = new cv::dnn::Net(cv::dnn::readNetFromTensorflow(model)); return n; } Net Net_ReadNetFromTensorflowBytes(struct ByteArray model) { Net n = new cv::dnn::Net(cv::dnn::readNetFromTensorflow(model.data, model.length)); return n; } void Net_Close(Net net) { delete net; } bool Net_Empty(Net net) { return net->empty(); } void Net_SetInput(Net net, Mat blob, const char* name) { net->setInput(*blob, name); } Mat Net_Forward(Net net, const char* outputName) { return new cv::Mat(net->forward(outputName)); } void Net_ForwardLayers(Net net, struct Mats* outputBlobs, struct CStrings outBlobNames) { std::vector< cv::Mat > blobs; std::vector< cv::String > names; for (int i = 0; i < outBlobNames.length; ++i) { names.push_back(cv::String(outBlobNames.strs[i])); } net->forward(blobs, names); // copy blobs into outputBlobs outputBlobs->mats = new Mat[blobs.size()]; for (size_t i = 0; i < blobs.size(); ++i) { outputBlobs->mats[i] = new cv::Mat(blobs[i]); } outputBlobs->length = (int)blobs.size(); } void Net_SetPreferableBackend(Net net, int backend) { net->setPreferableBackend(backend); } void Net_SetPreferableTarget(Net net, int target) { net->setPreferableTarget(target); } int64_t Net_GetPerfProfile(Net net) { std::vector layersTimes; return net->getPerfProfile(layersTimes); } void Net_GetUnconnectedOutLayers(Net net, IntVector* res) { std::vector< int > cids(net->getUnconnectedOutLayers()); int* ids = new int[cids.size()]; for (size_t i = 0; i < cids.size(); ++i) { ids[i] = cids[i]; } res->length = cids.size(); res->val = ids; return; } Mat Net_BlobFromImage(Mat image, double scalefactor, Size size, Scalar mean, bool swapRB, bool crop) { cv::Size sz(size.width, size.height); cv::Scalar cm = cv::Scalar(mean.val1, mean.val2, mean.val3, mean.val4); // TODO: handle different version signatures of this function v2 vs v3. return new cv::Mat(cv::dnn::blobFromImage(*image, scalefactor, sz, cm, swapRB, crop)); } void Net_BlobFromImages(struct Mats images, Mat blob, double scalefactor, Size size, Scalar mean, bool swapRB, bool crop, int ddepth) { std::vector imgs; for (int i = 0; i < images.length; ++i) { imgs.push_back(*images.mats[i]); } cv::Size sz(size.width, size.height); cv::Scalar cm = cv::Scalar(mean.val1, mean.val2, mean.val3, mean.val4); // TODO: handle different version signatures of this function v2 vs v3. cv::dnn::blobFromImages(imgs, *blob, scalefactor, sz, cm, swapRB, crop, ddepth); } void Net_ImagesFromBlob(Mat blob_, struct Mats* images_) { std::vector imgs; cv::dnn::imagesFromBlob(*blob_, imgs); images_->mats = new Mat[imgs.size()]; for (size_t i = 0; i < imgs.size(); ++i) { images_->mats[i] = new cv::Mat(imgs[i]); } images_->length = (int) imgs.size(); } Mat Net_GetBlobChannel(Mat blob, int imgidx, int chnidx) { size_t w = blob->size[3]; size_t h = blob->size[2]; return new cv::Mat(h, w, CV_32F, blob->ptr(imgidx, chnidx)); } Scalar Net_GetBlobSize(Mat blob) { Scalar scal = Scalar(); scal.val1 = blob->size[0]; scal.val2 = blob->size[1]; scal.val3 = blob->size[2]; scal.val4 = blob->size[3]; return scal; } Layer Net_GetLayer(Net net, int layerid) { return new cv::Ptr(net->getLayer(layerid)); } void Layer_Close(Layer layer) { delete layer; } int Layer_InputNameToIndex(Layer layer, const char* name) { return (*layer)->inputNameToIndex(name); } int Layer_OutputNameToIndex(Layer layer, const char* name) { return (*layer)->outputNameToIndex(name); } const char* Layer_GetName(Layer layer) { return (*layer)->name.c_str(); } const char* Layer_GetType(Layer layer) { return (*layer)->type.c_str(); }