robocar-road/vendor/gocv.io/x/gocv/objdetect.cpp

178 lines
5.3 KiB
C++

#include "objdetect.h"
// CascadeClassifier
CascadeClassifier CascadeClassifier_New() {
return new cv::CascadeClassifier();
}
void CascadeClassifier_Close(CascadeClassifier cs) {
delete cs;
}
int CascadeClassifier_Load(CascadeClassifier cs, const char* name) {
return cs->load(name);
}
struct Rects CascadeClassifier_DetectMultiScale(CascadeClassifier cs, Mat img) {
std::vector<cv::Rect> detected;
cs->detectMultiScale(*img, detected); // uses all default parameters
Rect* rects = new Rect[detected.size()];
for (size_t i = 0; i < detected.size(); ++i) {
Rect r = {detected[i].x, detected[i].y, detected[i].width, detected[i].height};
rects[i] = r;
}
Rects ret = {rects, (int)detected.size()};
return ret;
}
struct Rects CascadeClassifier_DetectMultiScaleWithParams(CascadeClassifier cs, Mat img,
double scale, int minNeighbors, int flags, Size minSize, Size maxSize) {
cv::Size minSz(minSize.width, minSize.height);
cv::Size maxSz(maxSize.width, maxSize.height);
std::vector<cv::Rect> detected;
cs->detectMultiScale(*img, detected, scale, minNeighbors, flags, minSz, maxSz);
Rect* rects = new Rect[detected.size()];
for (size_t i = 0; i < detected.size(); ++i) {
Rect r = {detected[i].x, detected[i].y, detected[i].width, detected[i].height};
rects[i] = r;
}
Rects ret = {rects, (int)detected.size()};
return ret;
}
// HOGDescriptor
HOGDescriptor HOGDescriptor_New() {
return new cv::HOGDescriptor();
}
void HOGDescriptor_Close(HOGDescriptor hog) {
delete hog;
}
int HOGDescriptor_Load(HOGDescriptor hog, const char* name) {
return hog->load(name);
}
struct Rects HOGDescriptor_DetectMultiScale(HOGDescriptor hog, Mat img) {
std::vector<cv::Rect> detected;
hog->detectMultiScale(*img, detected);
Rect* rects = new Rect[detected.size()];
for (size_t i = 0; i < detected.size(); ++i) {
Rect r = {detected[i].x, detected[i].y, detected[i].width, detected[i].height};
rects[i] = r;
}
Rects ret = {rects, (int)detected.size()};
return ret;
}
struct Rects HOGDescriptor_DetectMultiScaleWithParams(HOGDescriptor hog, Mat img,
double hitThresh, Size winStride, Size padding, double scale, double finalThresh,
bool useMeanshiftGrouping) {
cv::Size wSz(winStride.width, winStride.height);
cv::Size pSz(padding.width, padding.height);
std::vector<cv::Rect> detected;
hog->detectMultiScale(*img, detected, hitThresh, wSz, pSz, scale, finalThresh,
useMeanshiftGrouping);
Rect* rects = new Rect[detected.size()];
for (size_t i = 0; i < detected.size(); ++i) {
Rect r = {detected[i].x, detected[i].y, detected[i].width, detected[i].height};
rects[i] = r;
}
Rects ret = {rects, (int)detected.size()};
return ret;
}
Mat HOG_GetDefaultPeopleDetector() {
return new cv::Mat(cv::HOGDescriptor::getDefaultPeopleDetector());
}
void HOGDescriptor_SetSVMDetector(HOGDescriptor hog, Mat det) {
hog->setSVMDetector(*det);
}
struct Rects GroupRectangles(struct Rects rects, int groupThreshold, double eps) {
std::vector<cv::Rect> vRect;
for (int i = 0; i < rects.length; ++i) {
cv::Rect r = cv::Rect(rects.rects[i].x, rects.rects[i].y, rects.rects[i].width,
rects.rects[i].height);
vRect.push_back(r);
}
cv::groupRectangles(vRect, groupThreshold, eps);
Rect* results = new Rect[vRect.size()];
for (size_t i = 0; i < vRect.size(); ++i) {
Rect r = {vRect[i].x, vRect[i].y, vRect[i].width, vRect[i].height};
results[i] = r;
}
Rects ret = {results, (int)vRect.size()};
return ret;
}
// QRCodeDetector
QRCodeDetector QRCodeDetector_New() {
return new cv::QRCodeDetector();
}
void QRCodeDetector_Close(QRCodeDetector qr) {
delete qr;
}
const char* QRCodeDetector_DetectAndDecode(QRCodeDetector qr, Mat input,Mat points,Mat straight_qrcode) {
cv::String *str = new cv::String(qr->detectAndDecode(*input,*points,*straight_qrcode));
return str->c_str();
}
bool QRCodeDetector_Detect(QRCodeDetector qr, Mat input,Mat points) {
return qr->detect(*input,*points);
}
const char* QRCodeDetector_Decode(QRCodeDetector qr, Mat input,Mat inputPoints,Mat straight_qrcode) {
cv::String *str = new cv::String(qr->detectAndDecode(*input,*inputPoints,*straight_qrcode));
return str->c_str();
}
bool QRCodeDetector_DetectMulti(QRCodeDetector qr, Mat input, Mat points) {
return qr->detectMulti(*input,*points);
}
bool QRCodeDetector_DetectAndDecodeMulti(QRCodeDetector qr, Mat input, CStrings* decoded, Mat points, struct Mats* qrCodes) {
std::vector<cv::String> decodedCodes;
std::vector<cv::Mat> straightQrCodes;
bool res = qr->detectAndDecodeMulti(*input, decodedCodes, *points, straightQrCodes);
if (!res) {
return res;
}
qrCodes->mats = new Mat[straightQrCodes.size()];
qrCodes->length = straightQrCodes.size();
for (size_t i = 0; i < straightQrCodes.size(); i++) {
qrCodes->mats[i] = new cv::Mat(straightQrCodes[i]);
}
const char **strs = new const char*[decodedCodes.size()];
for (size_t i = 0; i < decodedCodes.size(); ++i) {
strs[i] = decodedCodes[i].c_str();
}
decoded->length = decodedCodes.size();
decoded->strs = strs;
return res;
}