/* * Copyright © 2023 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . * * Authors: Matthias Clasen */ #include "config.h" #include #include "gskpathpointprivate.h" #include "gskcontourprivate.h" #include "gdk/gdkprivate.h" #define RAD_TO_DEG(x) ((x) / (G_PI / 180.f)) /** * GskPathPoint: * * `GskPathPoint` is an opaque type representing a point on a path. * * It can be queried for properties of the path at that point, such as * its tangent or its curvature. * * To obtain a `GskPathPoint`, use [method@Gsk.Path.get_closest_point], * [method@Gsk.Path.get_start_point], [method@Gsk.Path.get_end_point] * or [method@Gsk.PathMeasure.get_point]. * * Note that `GskPathPoint` structs are meant to be stack-allocated, * and don't hold a reference to the path object they are obtained from. * It is the callers responsibility to keep a reference to the path * as long as the `GskPathPoint` is used. * * Since: 4.14 */ G_DEFINE_BOXED_TYPE (GskPathPoint, gsk_path_point, gsk_path_point_copy, gsk_path_point_free) GskPathPoint * gsk_path_point_copy (GskPathPoint *point) { GskPathPoint *copy; copy = g_new0 (GskPathPoint, 1); memcpy (copy, point, sizeof (GskPathPoint)); return copy; } void gsk_path_point_free (GskPathPoint *point) { g_free (point); } /** * gsk_path_point_equal: * @point1: a `GskPathPoint` * @point2: another `GskPathPoint` * * Returns whether the two path points refer to the same * location on all paths. * * Note that the start- and endpoint of a closed contour * will compare nonequal according to this definition. * Use [method@Gsk.Path.is_closed] to find out if the * start- and endpoint of a concrete path refer to the * same location. * * Return: `TRUE` if @point1 and @point2 are equal * * Since: 4.14 */ gboolean gsk_path_point_equal (const GskPathPoint *point1, const GskPathPoint *point2) { if (point1->contour == point2->contour) { if ((point1->idx == point2->idx && point1->t == point2->t) || (point1->idx + 1 == point2->idx && point1->t == 1 && point2->t == 0) || (point1->idx == point2->idx + 1 && point1->t == 0 && point2->t == 1)) return TRUE; } return FALSE; } /** * gsk_path_point_compare: * @point1: a `GskPathPoint` * @point2: another `GskPathPoint` * * Returns whether @point1 is before or after @point2. * * Returns: -1 if @point1 is before @point2, * 1 if @point1 is after @point2, * 0 if they are equal * * Since: 4.14 */ int gsk_path_point_compare (const GskPathPoint *point1, const GskPathPoint *point2) { if (gsk_path_point_equal (point1, point2)) return 0; if (point1->contour < point2->contour) return -1; else if (point1->contour > point2->contour) return 1; else if (point1->idx < point2->idx) return -1; else if (point1->idx > point2->idx) return 1; else if (point1->t < point2->t) return -1; else if (point1->t > point2->t) return 1; return 0; } /** * gsk_path_point_get_position: * @point: a `GskPathPoint` * @path: the path that @point is on * @position: (out caller-allocates): Return location for * the coordinates of the point * * Gets the position of the point. * * Since: 4.14 */ void gsk_path_point_get_position (const GskPathPoint *point, GskPath *path, graphene_point_t *position) { const GskContour *contour; g_return_if_fail (path != NULL); g_return_if_fail (gsk_path_point_valid (point, path)); g_return_if_fail (position != NULL); contour = gsk_path_get_contour (path, point->contour), gsk_contour_get_position (contour, point, position); } /** * gsk_path_point_get_tangent: * @point: a `GskPathPoint` * @path: the path that @point is on * @direction: the direction for which to return the tangent * @tangent: (out caller-allocates): Return location for * the tangent at the point * * Gets the tangent of the path at the point. * * Note that certain points on a path may not have a single * tangent, such as sharp turns. At such points, there are * two tangents -- the direction of the path going into the * point, and the direction coming out of it. The @direction * argument lets you choose which one to get. * * If the path is just a single point (e.g. a circle with * radius zero), then @tangent is set to `0, 0`. * * If you want to orient something in the direction of the * path, [method@Gsk.PathPoint.get_rotation] may be more * convenient to use. * * Since: 4.14 */ void gsk_path_point_get_tangent (const GskPathPoint *point, GskPath *path, GskPathDirection direction, graphene_vec2_t *tangent) { const GskContour *contour; g_return_if_fail (path != NULL); g_return_if_fail (gsk_path_point_valid (point, path)); g_return_if_fail (tangent != NULL); contour = gsk_path_get_contour (path, point->contour), gsk_contour_get_tangent (contour, point, direction, tangent); } /** * gsk_path_point_get_rotation: * @point: a `GskPathPoint` * @path: the path that @point is on * @direction: the direction for which to return the rotation * * Gets the direction of the tangent at a given point. * * This is a convenience variant of [method@Gsk.PathPoint.get_tangent] * that returns the angle between the tangent and the X axis. The angle * can e.g. be used in * [gtk_snapshot_rotate()](../gtk4/method.Snapshot.rotate.html). * * Returns: the angle between the tangent and the X axis, in degrees * * Since: 4.14 */ float gsk_path_point_get_rotation (const GskPathPoint *point, GskPath *path, GskPathDirection direction) { graphene_vec2_t tangent; g_return_val_if_fail (path != NULL, 0); g_return_val_if_fail (gsk_path_point_valid (point, path), 0); gsk_path_point_get_tangent (point, path, direction, &tangent); return RAD_TO_DEG (atan2f (graphene_vec2_get_y (&tangent), graphene_vec2_get_x (&tangent))); } /** * gsk_path_point_get_curvature: * @point: a `GskPathPoint` * @path: the path that @point is on * @direction: the direction for which to return the curvature * @center: (out caller-allocates) (nullable): Return location for * the center of the osculating circle * * Calculates the curvature of the path at the point. * * Optionally, returns the center of the osculating circle as well. * The curvature is the inverse of the radius of the osculating circle. * * Lines have a curvature of zero (indicating an osculating circle of * infinite radius. In this case, the @center is not modified. * * Circles with a radius of zero have `INFINITY` as curvature * * Note that certain points on a path may not have a single curvature, * such as sharp turns. At such points, there are two curvatures -- * the (limit of) the curvature of the path going into the point, * and the (limit of) the curvature of the path coming out of it. * The @direction argument lets you choose which one to get. * * * * Osculating circle * * Returns: The curvature of the path at the given point * * Since: 4.14 */ float gsk_path_point_get_curvature (const GskPathPoint *point, GskPath *path, GskPathDirection direction, graphene_point_t *center) { const GskContour *contour; g_return_val_if_fail (path != NULL, 0); g_return_val_if_fail (gsk_path_point_valid (point, path), 0); contour = gsk_path_get_contour (path, point->contour); return gsk_contour_get_curvature (contour, point, direction, center); }