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@ -35,13 +35,13 @@ protected: |
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Point2f intersectionLines(Point2f a1, Point2f a2, Point2f b1, Point2f b2); |
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Point2f intersectionLines(Point2f a1, Point2f a2, Point2f b1, Point2f b2); |
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vector<Point2f> getQuadrilateral(vector<Point2f> angle_list); |
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vector<Point2f> getQuadrilateral(vector<Point2f> angle_list); |
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bool testBypassRoute(vector<Point2f> hull, int start, int finish); |
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bool testBypassRoute(vector<Point2f> hull, int start, int finish); |
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double getQuadrilateralArea(Point2f a, Point2f b, Point2f c, Point2f d); |
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double getTriangleArea(Point2f a, Point2f b, Point2f c); |
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double getTriangleArea(Point2f a, Point2f b, Point2f c); |
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double getPolygonArea(vector<Point2f> points); |
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double getCosVectors(Point2f a, Point2f b, Point2f c); |
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double getCosVectors(Point2f a, Point2f b, Point2f c); |
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Mat barcode, bin_barcode, straight_barcode; |
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Mat barcode, bin_barcode, straight_barcode; |
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vector<Point2f> localization_points, transformation_points; |
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vector<Point2f> localization_points, transformation_points; |
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double experimental_area, eps_vertical, eps_horizontal, coeff_expansion; |
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double eps_vertical, eps_horizontal, coeff_expansion; |
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}; |
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}; |
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@ -113,8 +113,8 @@ vector<Vec3d> QRDecode::searchVerticalLines() |
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for (size_t i = 0; i < test_lines.size(); i++) |
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for (size_t i = 0; i < test_lines.size(); i++) |
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{ |
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{ |
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if (i == 2) { weight += abs((test_lines[i] / length) - 3.0/7.0); } |
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if (i == 2) { weight += fabs((test_lines[i] / length) - 3.0/7.0); } |
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else { weight += abs((test_lines[i] / length) - 1.0/7.0); } |
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else { weight += fabs((test_lines[i] / length) - 1.0/7.0); } |
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} |
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} |
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if (weight < eps_vertical) |
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if (weight < eps_vertical) |
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@ -184,8 +184,8 @@ vector<Point2f> QRDecode::separateHorizontalLines(vector<Vec3d> list_lines) |
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for (size_t i = 0; i < test_lines.size(); i++) |
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for (size_t i = 0; i < test_lines.size(); i++) |
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{ |
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{ |
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if (i % 3 == 0) { weight += abs((test_lines[i] / length) - 3.0/14.0); } |
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if (i % 3 == 0) { weight += fabs((test_lines[i] / length) - 3.0/14.0); } |
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else { weight += abs((test_lines[i] / length) - 1.0/ 7.0); } |
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else { weight += fabs((test_lines[i] / length) - 1.0/ 7.0); } |
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} |
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} |
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if(weight < eps_horizontal) |
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if(weight < eps_horizontal) |
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@ -245,6 +245,7 @@ bool QRDecode::localization() |
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vector<Point2f> centers; |
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vector<Point2f> centers; |
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Mat labels; |
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Mat labels; |
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if (list_lines_y.size() < 3) { return false; } |
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kmeans(list_lines_y, 3, labels, |
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kmeans(list_lines_y, 3, labels, |
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TermCriteria( TermCriteria::EPS+TermCriteria::COUNT, 10, 1.0), |
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TermCriteria( TermCriteria::EPS+TermCriteria::COUNT, 10, 1.0), |
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3, KMEANS_PP_CENTERS, localization_points); |
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3, KMEANS_PP_CENTERS, localization_points); |
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@ -390,13 +391,6 @@ bool QRDecode::computeTransformationPoints() |
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intersectionLines(down_left_edge_point, down_max_delta_point, |
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intersectionLines(down_left_edge_point, down_max_delta_point, |
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up_right_edge_point, up_max_delta_point)); |
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up_right_edge_point, up_max_delta_point)); |
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experimental_area = getQuadrilateralArea(transformation_points[0], |
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transformation_points[1], |
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transformation_points[2], |
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transformation_points[3]); |
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vector<Point2f> quadrilateral = getQuadrilateral(transformation_points); |
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vector<Point2f> quadrilateral = getQuadrilateral(transformation_points); |
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transformation_points = quadrilateral; |
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transformation_points = quadrilateral; |
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@ -489,6 +483,8 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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hull[i] = Point2f(x, y); |
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hull[i] = Point2f(x, y); |
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} |
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} |
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const double experimental_area = getPolygonArea(hull); |
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vector<Point2f> result_hull_point(angle_size); |
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vector<Point2f> result_hull_point(angle_size); |
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double min_norm; |
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double min_norm; |
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for (size_t i = 0; i < angle_size; i++) |
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for (size_t i = 0; i < angle_size; i++) |
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@ -600,8 +596,11 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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extra_bypass_orientation = testBypassRoute(hull, finish_line[1], unstable_pnt); |
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extra_bypass_orientation = testBypassRoute(hull, finish_line[1], unstable_pnt); |
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vector<Point2f> result_angle_list(4), test_result_angle_list(4); |
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vector<Point2f> result_angle_list(4), test_result_angle_list(4); |
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double min_area = std::numeric_limits<double>::max(), test_area; |
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double min_diff_area = std::numeric_limits<double>::max(), test_diff_area; |
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index_hull = start_line[0]; |
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index_hull = start_line[0]; |
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double standart_norm = std::max( |
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norm(result_side_begin[0] - result_side_end[0]), |
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norm(result_side_begin[1] - result_side_end[1])); |
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do |
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do |
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{ |
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{ |
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if (bypass_orientation) { next_index_hull = index_hull + 1; } |
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if (bypass_orientation) { next_index_hull = index_hull + 1; } |
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@ -610,6 +609,9 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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if (next_index_hull == hull_size) { next_index_hull = 0; } |
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if (next_index_hull == hull_size) { next_index_hull = 0; } |
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if (next_index_hull == -1) { next_index_hull = hull_size - 1; } |
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if (next_index_hull == -1) { next_index_hull = hull_size - 1; } |
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if (norm(hull[index_hull] - hull[next_index_hull]) < standart_norm / 10.0) |
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{ index_hull = next_index_hull; continue; } |
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extra_index_hull = finish_line[1]; |
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extra_index_hull = finish_line[1]; |
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do |
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do |
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{ |
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{ |
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@ -619,6 +621,9 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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if (extra_next_index_hull == hull_size) { extra_next_index_hull = 0; } |
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if (extra_next_index_hull == hull_size) { extra_next_index_hull = 0; } |
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if (extra_next_index_hull == -1) { extra_next_index_hull = hull_size - 1; } |
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if (extra_next_index_hull == -1) { extra_next_index_hull = hull_size - 1; } |
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if (norm(hull[extra_index_hull] - hull[extra_next_index_hull]) < standart_norm / 10.0) |
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{ extra_index_hull = extra_next_index_hull; continue; } |
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test_result_angle_list[0] |
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test_result_angle_list[0] |
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= intersectionLines(result_side_begin[0], result_side_end[0], |
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= intersectionLines(result_side_begin[0], result_side_end[0], |
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result_side_begin[1], result_side_end[1]); |
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result_side_begin[1], result_side_end[1]); |
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@ -632,13 +637,10 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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= intersectionLines(hull[index_hull], hull[next_index_hull], |
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= intersectionLines(hull[index_hull], hull[next_index_hull], |
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result_side_begin[0], result_side_end[0]); |
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result_side_begin[0], result_side_end[0]); |
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test_area = getQuadrilateralArea(test_result_angle_list[0], |
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test_diff_area = fabs(getPolygonArea(test_result_angle_list) - experimental_area); |
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test_result_angle_list[1], |
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if (min_diff_area > test_diff_area) |
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test_result_angle_list[2], |
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test_result_angle_list[3]); |
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if (min_area > test_area) |
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{ |
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{ |
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min_area = test_area; |
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min_diff_area = test_diff_area; |
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for (size_t i = 0; i < test_result_angle_list.size(); i++) |
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for (size_t i = 0; i < test_result_angle_list.size(); i++) |
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{ |
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{ |
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result_angle_list[i] = test_result_angle_list[i]; |
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result_angle_list[i] = test_result_angle_list[i]; |
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@ -652,48 +654,9 @@ vector<Point2f> QRDecode::getQuadrilateral(vector<Point2f> angle_list) |
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index_hull = next_index_hull; |
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index_hull = next_index_hull; |
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} |
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} |
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while(index_hull != unstable_pnt); |
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while(index_hull != unstable_pnt); |
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if (norm(result_angle_list[0] - angle_list[2]) > |
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norm(angle_list[2] - angle_list[1]) / 3) { result_angle_list[0] = angle_list[2]; } |
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if (norm(result_angle_list[1] - angle_list[1]) > |
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norm(angle_list[1] - angle_list[0]) / 3) { result_angle_list[1] = angle_list[1]; } |
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if (norm(result_angle_list[2] - angle_list[0]) > |
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norm(angle_list[0] - angle_list[3]) / 3) { result_angle_list[2] = angle_list[0]; } |
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if (norm(result_angle_list[3] - angle_list[3]) > |
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norm(angle_list[3] - angle_list[2]) / 3) { result_angle_list[3] = angle_list[3]; } |
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return result_angle_list; |
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return result_angle_list; |
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} |
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} |
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// b __________ c
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// / |
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// / |
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// / S |
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// / |
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// a --------------- d
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double QRDecode::getQuadrilateralArea(Point2f a, Point2f b, Point2f c, Point2f d) |
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{ |
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double length_sides[4], perimeter = 0.0, result_area = 1.0; |
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length_sides[0] = norm(a - b); length_sides[1] = norm(b - c); |
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length_sides[2] = norm(c - d); length_sides[3] = norm(d - a); |
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for (size_t i = 0; i < 4; i++) { perimeter += length_sides[i]; } |
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perimeter /= 2; |
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for (size_t i = 0; i < 4; i++) |
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{ |
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result_area *= (perimeter - length_sides[i]); |
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} |
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result_area = sqrt(result_area); |
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return result_area; |
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} |
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// b
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// b
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// / |
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// / |
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// / |
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// / |
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@ -704,19 +667,29 @@ double QRDecode::getQuadrilateralArea(Point2f a, Point2f b, Point2f c, Point2f d |
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double QRDecode::getTriangleArea(Point2f a, Point2f b, Point2f c) |
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double QRDecode::getTriangleArea(Point2f a, Point2f b, Point2f c) |
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{ |
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{ |
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double length_sides[3], perimeter = 0.0, triangle_area = 1.0; |
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double norm_sides[] = { norm(a - b), norm(b - c), norm(c - a) }; |
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length_sides[0] = norm(a - b); |
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double half_perimeter = (norm_sides[0] + norm_sides[1] + norm_sides[2]) / 2.0; |
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length_sides[1] = norm(b - c); |
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double triangle_area = sqrt(half_perimeter * |
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length_sides[2] = norm(c - a); |
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(half_perimeter - norm_sides[0]) * |
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for (size_t i = 0; i < 3; i++) { perimeter += length_sides[i]; } |
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(half_perimeter - norm_sides[1]) * |
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perimeter /= 2; |
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(half_perimeter - norm_sides[2])); |
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for (size_t i = 0; i < 3; i++) |
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return triangle_area; |
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} |
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double QRDecode::getPolygonArea(vector<Point2f> points) |
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{ |
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CV_Assert(points.size() >= 3); |
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if (points.size() == 3) |
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{ return getTriangleArea(points[0], points[1], points[2]); } |
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else |
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{ |
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double result_area = 0.0; |
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for (size_t i = 1; i < points.size() - 1; i++) |
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{ |
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{ |
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triangle_area *= (perimeter - length_sides[i]); |
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result_area += getTriangleArea(points[0], points[i], points[i + 1]); |
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} |
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return result_area; |
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} |
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} |
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triangle_area += sqrt(triangle_area); |
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return triangle_area; |
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} |
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} |
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// / | b
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// / | b
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Alexander Nesterov
7 years ago
committed by
Alexander Nesterov