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postprocess.cpp
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postprocess.cpp
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#include "postprocess.h"
#include "utils.h"
cv::Rect get_rect(cv::Mat& img, float bbox[4]) {
float l, r, t, b;
float r_w = kInputW / (img.cols * 1.0);
float r_h = kInputH / (img.rows * 1.0);
if (r_h > r_w) {
l = bbox[0];
r = bbox[2];
t = bbox[1] - (kInputH - r_w * img.rows) / 2;
b = bbox[3] - (kInputH - r_w * img.rows) / 2;
l = l / r_w;
r = r / r_w;
t = t / r_w;
b = b / r_w;
} else {
l = bbox[0] - (kInputW - r_h * img.cols) / 2;
r = bbox[2] - (kInputW - r_h * img.cols) / 2;
t = bbox[1];
b = bbox[3];
l = l / r_h;
r = r / r_h;
t = t / r_h;
b = b / r_h;
}
return cv::Rect(round(l), round(t), round(r - l), round(b - t));
}
static float iou(float lbox[4], float rbox[4]) {
float interBox[] = {
(std::max)(lbox[0], rbox[0]),
(std::min)(lbox[2], rbox[2]),
(std::max)(lbox[1], rbox[1]),
(std::min)(lbox[3], rbox[3]),
};
if (interBox[2] > interBox[3] || interBox[0] > interBox[1])
return 0.0f;
float interBoxS = (interBox[1] - interBox[0]) * (interBox[3] - interBox[2]);
float unionBoxS = (lbox[2] - lbox[0]) * (lbox[3] - lbox[1]) + (rbox[2] - rbox[0]) * (rbox[3] - rbox[1]) - interBoxS;
return interBoxS / unionBoxS;
}
static bool cmp(const Detection& a, const Detection& b) {
if (a.conf == b.conf) {
return a.bbox[0] < b.bbox[0];
}
return a.conf > b.conf;
}
void nms(std::vector<Detection>& res, float* output, float conf_thresh, float nms_thresh) {
int det_size = sizeof(Detection) / sizeof(float);
std::map<float, std::vector<Detection>> m;
for (int i = 0; i < output[0]; i++) {
if (output[1 + det_size * i + 4] <= conf_thresh)
continue;
Detection det;
memcpy(&det, &output[1 + det_size * i], det_size * sizeof(float));
if (m.count(det.class_id) == 0)
m.emplace(det.class_id, std::vector<Detection>());
m[det.class_id].push_back(det);
}
for (auto it = m.begin(); it != m.end(); it++) {
auto& dets = it->second;
std::sort(dets.begin(), dets.end(), cmp);
for (size_t m = 0; m < dets.size(); ++m) {
auto& item = dets[m];
res.push_back(item);
for (size_t n = m + 1; n < dets.size(); ++n) {
if (iou(item.bbox, dets[n].bbox) > nms_thresh) {
dets.erase(dets.begin() + n);
--n;
}
}
}
}
}
void batch_nms(std::vector<std::vector<Detection>>& res_batch, float* output, int batch_size, int output_size,
float conf_thresh, float nms_thresh) {
res_batch.resize(batch_size);
for (int i = 0; i < batch_size; i++) {
nms(res_batch[i], &output[i * output_size], conf_thresh, nms_thresh);
}
}
void process_decode_ptr_host(std::vector<Detection>& res, const float* decode_ptr_host, int bbox_element, cv::Mat& img,
int count) {
Detection det;
for (int i = 0; i < count; i++) {
int basic_pos = 1 + i * bbox_element;
int keep_flag = decode_ptr_host[basic_pos + 6];
if (keep_flag == 1) {
det.bbox[0] = decode_ptr_host[basic_pos + 0];
det.bbox[1] = decode_ptr_host[basic_pos + 1];
det.bbox[2] = decode_ptr_host[basic_pos + 2];
det.bbox[3] = decode_ptr_host[basic_pos + 3];
det.conf = decode_ptr_host[basic_pos + 4];
det.class_id = decode_ptr_host[basic_pos + 5];
res.push_back(det);
}
}
}
void batch_process(std::vector<std::vector<Detection>>& res_batch, const float* decode_ptr_host, int batch_size,
int bbox_element, const std::vector<cv::Mat>& img_batch) {
res_batch.resize(batch_size);
int count = static_cast<int>(*decode_ptr_host);
count = std::min(count, kMaxNumOutputBbox);
for (int i = 0; i < batch_size; i++) {
auto& img = const_cast<cv::Mat&>(img_batch[i]);
process_decode_ptr_host(res_batch[i], &decode_ptr_host[i * count], bbox_element, img, count);
}
}
void draw_bbox(std::vector<cv::Mat>& img_batch, std::vector<std::vector<Detection>>& res_batch) {
for (size_t i = 0; i < img_batch.size(); i++) {
auto& res = res_batch[i];
cv::Mat img = img_batch[i];
for (size_t j = 0; j < res.size(); j++) {
cv::Rect r = get_rect(img, res[j].bbox);
cv::rectangle(img, r, cv::Scalar(0x27, 0xC1, 0x36), 2);
cv::putText(img, std::to_string((int)res[j].class_id), cv::Point(r.x, r.y - 1), cv::FONT_HERSHEY_PLAIN, 1.2,
cv::Scalar(0xFF, 0xFF, 0xFF), 2);
}
}
}
cv::Mat scale_mask(cv::Mat mask, cv::Mat img) {
int x, y, w, h;
float r_w = kInputW / (img.cols * 1.0);
float r_h = kInputH / (img.rows * 1.0);
if (r_h > r_w) {
w = kInputW;
h = r_w * img.rows;
x = 0;
y = (kInputH - h) / 2;
} else {
w = r_h * img.cols;
h = kInputH;
x = (kInputW - w) / 2;
y = 0;
}
cv::Rect r(x, y, w, h);
cv::Mat res;
cv::resize(mask(r), res, img.size());
return res;
}
void draw_mask_bbox(cv::Mat& img, std::vector<Detection>& dets, std::vector<cv::Mat>& masks,
std::unordered_map<int, std::string>& labels_map) {
static std::vector<uint32_t> colors = {0xFF3838, 0xFF9D97, 0xFF701F, 0xFFB21D, 0xCFD231, 0x48F90A, 0x92CC17,
0x3DDB86, 0x1A9334, 0x00D4BB, 0x2C99A8, 0x00C2FF, 0x344593, 0x6473FF,
0x0018EC, 0x8438FF, 0x520085, 0xCB38FF, 0xFF95C8, 0xFF37C7};
for (size_t i = 0; i < dets.size(); i++) {
cv::Mat img_mask = scale_mask(masks[i], img);
auto color = colors[(int)dets[i].class_id % colors.size()];
auto bgr = cv::Scalar(color & 0xFF, color >> 8 & 0xFF, color >> 16 & 0xFF);
cv::Rect r = get_rect(img, dets[i].bbox);
for (int x = r.x; x < r.x + r.width; x++) {
for (int y = r.y; y < r.y + r.height; y++) {
float val = img_mask.at<float>(y, x);
if (val <= 0.5)
continue;
img.at<cv::Vec3b>(y, x)[0] = img.at<cv::Vec3b>(y, x)[0] / 2 + bgr[0] / 2;
img.at<cv::Vec3b>(y, x)[1] = img.at<cv::Vec3b>(y, x)[1] / 2 + bgr[1] / 2;
img.at<cv::Vec3b>(y, x)[2] = img.at<cv::Vec3b>(y, x)[2] / 2 + bgr[2] / 2;
}
}
cv::rectangle(img, r, bgr, 2);
// Get the size of the text
cv::Size textSize =
cv::getTextSize(labels_map[(int)dets[i].class_id] + " " + to_string_with_precision(dets[i].conf),
cv::FONT_HERSHEY_PLAIN, 1.2, 2, NULL);
// Set the top left corner of the rectangle
cv::Point topLeft(r.x, r.y - textSize.height);
// Set the bottom right corner of the rectangle
cv::Point bottomRight(r.x + textSize.width, r.y + textSize.height);
// Set the thickness of the rectangle lines
int lineThickness = 2;
// Draw the rectangle on the image
cv::rectangle(img, topLeft, bottomRight, bgr, -1);
cv::putText(img, labels_map[(int)dets[i].class_id] + " " + to_string_with_precision(dets[i].conf),
cv::Point(r.x, r.y + 4), cv::FONT_HERSHEY_PLAIN, 1.2, cv::Scalar::all(0xFF), 2);
}
}