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https://github.com/opencv/opencv.git
synced 2024-11-28 05:06:29 +08:00
fixed build warnings on Windows
This commit is contained in:
Vadim Pisarevsky
parent
1686b0d9d3
commit
e5f9f97954
@ -74,7 +74,7 @@ static void removeOcclusions(const Mat& flow,
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static void wd(Mat& d, int top_shift, int bottom_shift, int left_shift, int right_shift, float sigma) {
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for (int dr = -top_shift, r = 0; dr <= bottom_shift; ++dr, ++r) {
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for (int dc = -left_shift, c = 0; dc <= right_shift; ++dc, ++c) {
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d.at<float>(r, c) = -(dr*dr + dc*dc);
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d.at<float>(r, c) = (float)-(dr*dr + dc*dc);
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}
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}
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d *= 1.0 / (2.0 * sigma * sigma);
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@ -134,11 +134,11 @@ static void crossBilateralFilter(const Mat& image, const Mat& edge_image, const
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multiply(weights, confidence_extended(window_rows, window_cols), weights);
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multiply(weights, weights_space, weights);
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float weights_sum = sum(weights)[0];
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float weights_sum = (float)sum(weights)[0];
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for (int ch = 0; ch < 2; ++ch) {
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multiply(weights, image_extended_channels[ch](window_rows, window_cols), weighted_sum);
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float total_sum = sum(weighted_sum)[0];
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float total_sum = (float)sum(weighted_sum)[0];
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dst.at<Vec2f>(row, col)[ch] = (flag && fabs(weights_sum) < 1e-9)
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? image.at<float>(row, col)
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@ -164,7 +164,7 @@ static void calcOpticalFlowSingleScaleSF(const Mat& prev,
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Mat diff_storage(averaging_radius*2 + 1, averaging_radius*2 + 1, CV_32F);
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Mat w_full_window(averaging_radius*2 + 1, averaging_radius*2 + 1, CV_32F);
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Mat wd_full_window(averaging_radius*2 + 1, averaging_radius*2 + 1, CV_32F);
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float w_full_window_sum = 1e-9;
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float w_full_window_sum = 1e-9f;
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Mat prev_extended;
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copyMakeBorder(prev, prev_extended,
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@ -176,10 +176,10 @@ static void calcOpticalFlowSingleScaleSF(const Mat& prev,
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for (int r0 = 0; r0 < rows; ++r0) {
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for (int c0 = 0; c0 < cols; ++c0) {
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Vec2f flow_at_point = flow.at<Vec2f>(r0, c0);
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int u0 = floor(flow_at_point[0] + 0.5);
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int u0 = cvRound(flow_at_point[0]);
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if (r0 + u0 < 0) { u0 = -r0; }
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if (r0 + u0 >= rows) { u0 = rows - 1 - r0; }
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int v0 = floor(flow_at_point[1] + 0.5);
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int v0 = cvRound(flow_at_point[1]);
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if (c0 + v0 < 0) { v0 = -c0; }
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if (c0 + v0 >= cols) { v0 = cols - 1 - c0; }
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@ -188,13 +188,13 @@ static void calcOpticalFlowSingleScaleSF(const Mat& prev,
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const int min_col_shift = -min(c0 + v0, max_flow);
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const int max_col_shift = min(cols - 1 - (c0 + v0), max_flow);
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float min_cost = DBL_MAX, best_u = u0, best_v = v0;
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float min_cost = FLT_MAX, best_u = (float)u0, best_v = (float)v0;
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if (mask.at<uchar>(r0, c0)) {
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wc(prev_extended, w_full_window, r0 + averaging_radius, c0 + averaging_radius,
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averaging_radius, averaging_radius, averaging_radius, averaging_radius, sigma_color);
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multiply(w_full_window, wd_full_window, w_full_window);
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w_full_window_sum = sum(w_full_window)[0];
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w_full_window_sum = (float)sum(w_full_window)[0];
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}
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bool first_flow_iteration = true;
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@ -255,15 +255,15 @@ static void calcOpticalFlowSingleScaleSF(const Mat& prev,
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averaging_radius + 1 + window_bottom_shift),
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Range(averaging_radius - window_left_shift,
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averaging_radius + 1 + window_right_shift));
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w_sum = sum(w)[0];
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w_sum = (float)sum(w)[0];
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}
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multiply(diff2, w, diff2);
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const float cost = sum(diff2)[0] / w_sum;
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const float cost = (float)(sum(diff2)[0] / w_sum);
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if (cost < min_cost) {
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min_cost = cost;
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best_u = u + u0;
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best_v = v + v0;
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best_u = (float)(u + u0);
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best_v = (float)(v + v0);
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}
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}
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}
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@ -371,7 +371,7 @@ static void selectPointsToRecalcFlow(const Mat& flow,
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mask.at<uchar>(curr_bottom, curr_right) = MASK_TRUE_VALUE;
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for (int rr = curr_top; rr <= curr_bottom; ++rr) {
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for (int cc = curr_left; cc <= curr_right; ++cc) {
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speed_up.at<uchar>(rr, cc) = speed_up_at_this_point + 1;
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speed_up.at<uchar>(rr, cc) = (uchar)(speed_up_at_this_point + 1);
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}
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}
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} else {
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@ -408,9 +408,9 @@ static inline float extrapolateValueInRect(int height, int width,
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if (r == height && c == width) { return v22;}
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float qr = float(r) / height;
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float pr = 1.0 - qr;
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float pr = 1.0f - qr;
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float qc = float(c) / width;
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float pc = 1.0 - qc;
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float pc = 1.0f - qc;
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return v11*pr*pc + v12*pr*qc + v21*qr*pc + v22*qc*qr;
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}
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@ -517,8 +517,8 @@ void calcOpticalFlowSF(Mat& from,
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confidence,
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averaging_block_size,
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max_flow,
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sigma_dist,
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sigma_color);
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(float)sigma_dist,
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(float)sigma_color);
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calcOpticalFlowSingleScaleSF(first_to_image,
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first_from_image,
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@ -527,17 +527,17 @@ void calcOpticalFlowSF(Mat& from,
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confidence_inv,
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averaging_block_size,
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max_flow,
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sigma_dist,
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sigma_color);
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(float)sigma_dist,
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(float)sigma_color);
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removeOcclusions(flow,
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flow_inv,
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occ_thr,
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(float)occ_thr,
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confidence);
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removeOcclusions(flow_inv,
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flow,
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occ_thr,
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(float)occ_thr,
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confidence_inv);
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Mat speed_up = Mat::zeros(first_from_image.rows, first_from_image.cols, CV_8U);
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@ -556,7 +556,7 @@ void calcOpticalFlowSF(Mat& from,
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selectPointsToRecalcFlow(flow,
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averaging_block_size,
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speed_up_thr,
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(int)speed_up_thr,
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curr_rows,
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curr_cols,
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speed_up,
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@ -565,7 +565,7 @@ void calcOpticalFlowSF(Mat& from,
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selectPointsToRecalcFlow(flow_inv,
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averaging_block_size,
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speed_up_thr,
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(int)speed_up_thr,
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curr_rows,
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curr_cols,
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speed_up_inv,
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@ -581,8 +581,8 @@ void calcOpticalFlowSF(Mat& from,
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confidence,
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flow,
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upscale_averaging_radius,
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upscale_sigma_dist,
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upscale_sigma_color);
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(float)upscale_sigma_dist,
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(float)upscale_sigma_color);
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flow_inv = upscaleOpticalFlow(curr_rows,
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curr_cols,
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@ -590,8 +590,8 @@ void calcOpticalFlowSF(Mat& from,
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confidence_inv,
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flow_inv,
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upscale_averaging_radius,
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upscale_sigma_dist,
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upscale_sigma_color);
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(float)upscale_sigma_dist,
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(float)upscale_sigma_color);
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calcOpticalFlowSingleScaleSF(curr_from,
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curr_to,
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@ -600,8 +600,8 @@ void calcOpticalFlowSF(Mat& from,
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confidence,
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averaging_block_size,
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max_flow,
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sigma_dist,
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sigma_color);
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(float)sigma_dist,
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(float)sigma_color);
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calcOpticalFlowSingleScaleSF(curr_to,
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curr_from,
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@ -610,18 +610,18 @@ void calcOpticalFlowSF(Mat& from,
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confidence_inv,
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averaging_block_size,
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max_flow,
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sigma_dist,
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sigma_color);
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(float)sigma_dist,
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(float)sigma_color);
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extrapolateFlow(flow, speed_up);
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extrapolateFlow(flow_inv, speed_up_inv);
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removeOcclusions(flow, flow_inv, occ_thr, confidence);
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removeOcclusions(flow_inv, flow, occ_thr, confidence_inv);
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removeOcclusions(flow, flow_inv, (float)occ_thr, confidence);
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removeOcclusions(flow_inv, flow, (float)occ_thr, confidence_inv);
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}
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crossBilateralFilter(flow, pyr_from_images[0], confidence, flow,
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postprocess_window, sigma_color_fix, sigma_dist_fix);
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postprocess_window, (float)sigma_color_fix, (float)sigma_dist_fix);
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GaussianBlur(flow, flow, Size(3, 3), 5);
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@ -53,9 +53,9 @@ using namespace std;
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namespace cv {
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inline static float dist(const Vec3b& p1, const Vec3b& p2) {
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return (p1[0] - p2[0]) * (p1[0] - p2[0]) +
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return (float)((p1[0] - p2[0]) * (p1[0] - p2[0]) +
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(p1[1] - p2[1]) * (p1[1] - p2[1]) +
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(p1[2] - p2[2]) * (p1[2] - p2[2]);
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(p1[2] - p2[2]) * (p1[2] - p2[2]));
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}
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inline static float dist(const Vec2f& p1, const Vec2f& p2) {
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@ -87,7 +87,7 @@ static bool readOpticalFlowFromFile(FILE* file, cv::Mat& flow) {
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}
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static bool isFlowCorrect(float u) {
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return !isnan(u) && (fabs(u) < 1e9);
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return !cvIsNaN(u) && (fabs(u) < 1e9);
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}
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static float calc_rmse(cv::Mat flow1, cv::Mat flow2) {
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@ -112,11 +112,11 @@ static float calc_rmse(cv::Mat flow1, cv::Mat flow2) {
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}
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}
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}
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return sqrt(sum / (1e-9 + counter));
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return (float)sqrt(sum / (1e-9 + counter));
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}
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void CV_SimpleFlowTest::run(int) {
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const float MAX_RMSE = 0.6;
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const float MAX_RMSE = 0.6f;
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const string frame1_path = ts->get_data_path() + "optflow/RubberWhale1.png";
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const string frame2_path = ts->get_data_path() + "optflow/RubberWhale2.png";
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const string gt_flow_path = ts->get_data_path() + "optflow/RubberWhale.flo";
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