Learning_GTK4_tree/testsuite/gsk/curve-special-cases.c

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2023-12-12 11:36:42 +01:00
/*
* Copyright © 2020 Benjamin Otte
*
* 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 <http://www.gnu.org/licenses/>.
*
* Authors: Benjamin Otte <otte@gnome.org>
*/
#include <gtk/gtk.h>
#include "gsk/gskcurveprivate.h"
static void
test_curve_tangents (void)
{
GskCurve c;
graphene_point_t p[4];
graphene_vec2_t t;
graphene_point_init (&p[0], 0, 0);
graphene_point_init (&p[1], 100, 0);
gsk_curve_init (&c, gsk_pathop_encode (GSK_PATH_LINE, p));
gsk_curve_get_start_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
gsk_curve_get_end_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
graphene_point_init (&p[0], 0, 0);
graphene_point_init (&p[1], 0, 100);
gsk_curve_init (&c, gsk_pathop_encode (GSK_PATH_LINE, p));
gsk_curve_get_start_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_y_axis (), 0.0001));
gsk_curve_get_end_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_y_axis (), 0.0001));
graphene_point_init (&p[0], 0, 0);
graphene_point_init (&p[1], 50, 0);
graphene_point_init (&p[2], 100, 50);
graphene_point_init (&p[3], 100, 100);
gsk_curve_init (&c, gsk_pathop_encode (GSK_PATH_CUBIC, p));
gsk_curve_get_start_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
gsk_curve_get_end_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_y_axis (), 0.0001));
}
static void
test_curve_degenerate_tangents (void)
{
GskCurve c;
graphene_point_t p[4];
graphene_vec2_t t;
graphene_point_init (&p[0], 0, 0);
graphene_point_init (&p[1], 0, 0);
graphene_point_init (&p[2], 100, 0);
graphene_point_init (&p[3], 100, 0);
gsk_curve_init (&c, gsk_pathop_encode (GSK_PATH_CUBIC, p));
gsk_curve_get_start_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
gsk_curve_get_end_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
graphene_point_init (&p[0], 0, 0);
graphene_point_init (&p[1], 50, 0);
graphene_point_init (&p[2], 50, 0);
graphene_point_init (&p[3], 100, 0);
gsk_curve_init (&c, gsk_pathop_encode (GSK_PATH_CUBIC, p));
gsk_curve_get_start_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
gsk_curve_get_end_tangent (&c, &t);
g_assert_true (graphene_vec2_near (&t, graphene_vec2_x_axis (), 0.0001));
}
static gboolean
pathop_cb (GskPathOperation op,
const graphene_point_t *pts,
gsize n_pts,
float weight,
gpointer user_data)
{
GskCurve *curve = user_data;
g_assert (op != GSK_PATH_CLOSE);
if (op == GSK_PATH_MOVE)
return TRUE;
gsk_curve_init_foreach (curve, op, pts, n_pts, weight);
return FALSE;
}
static void
parse_curve (GskCurve *c,
const char *str)
{
GskPath *path = gsk_path_parse (str);
gsk_path_foreach (path, -1, pathop_cb, c);
gsk_path_unref (path);
}
static void
test_curve_crossing (void)
{
struct {
const char *c;
const graphene_point_t p;
int crossing;
} tests[] = {
{ "M 0 0 L 200 200", { 200, 100 }, 0 },
{ "M 0 0 L 200 200", { 0, 100 }, 1 },
{ "M 0 200 L 200 0", { 0, 100 }, -1 },
{ "M 0 0 C 100 100 200 200 300 300", { 200, 100 }, 0 },
{ "M 0 0 C 100 100 200 200 300 300", { 0, 100 }, 1 },
{ "M 0 300 C 100 200 200 100 300 0", { 0, 100 }, -1 },
{ "M 0 0 C 100 600 200 -300 300 300", { 0, 150 }, 1 },
{ "M 0 0 C 100 600 200 -300 300 300", { 100, 150 }, 0 },
{ "M 0 0 C 100 600 200 -300 300 300", { 200, 150 }, 1 },
};
for (unsigned int i = 0; i < G_N_ELEMENTS (tests); i++)
{
GskCurve c;
parse_curve (&c, tests[i].c);
g_assert_true (gsk_curve_get_crossing (&c, &tests[i].p) == tests[i].crossing);
}
}
static void
test_circle (void)
{
GskCurve c;
graphene_vec2_t tangent, tangent2;
parse_curve (&c, "M 1 0 O 1 1 0 1 0.707107");
g_assert_true (c.op == GSK_PATH_CONIC);
g_assert_true (graphene_point_equal (gsk_curve_get_start_point (&c), &GRAPHENE_POINT_INIT (1, 0)));
g_assert_true (graphene_point_equal (gsk_curve_get_end_point (&c), &GRAPHENE_POINT_INIT (0, 1)));
gsk_curve_get_start_tangent (&c, &tangent);
g_assert_true (graphene_vec2_equal (&tangent, graphene_vec2_init (&tangent2, 0, 1)));
gsk_curve_get_end_tangent (&c, &tangent);
g_assert_true (graphene_vec2_equal (&tangent, graphene_vec2_init (&tangent2, -1, 0)));
g_assert_cmpfloat_with_epsilon (gsk_curve_get_length (&c), M_PI_2, 0.001);
for (int i = 1; i < 10; i++)
{
float t = i / 10.f;
float dist, t_out;
gsk_curve_get_closest_point (&c,
&GRAPHENE_POINT_INIT (cos (t * M_PI_2),
sin (t * M_PI_2)),
INFINITY,
&dist,
&t_out);
g_assert_true (dist < 0.001);
}
}
static void
test_curve_length (void)
{
GskCurve c, c1, c2;
float l, l1, l2, l1a;
/* This curve is a bad case for our sampling, since it has
* a very sharp turn. gskcontour.c handles these better, by
* splitting at the curvature extrema.
*
* Here, we just bump our epsilon up high enough.
*/
parse_curve (&c, "M 1462.632080 -1593.118896 C 751.533630 -74.179169 -914.280090 956.537720 -83.091866 207.213776");
gsk_curve_split (&c, 0.5, &c1, &c2);
l = gsk_curve_get_length (&c);
l1a = gsk_curve_get_length_to (&c, 0.5);
l1 = gsk_curve_get_length (&c1);
l2 = gsk_curve_get_length (&c2);
g_assert_cmpfloat_with_epsilon (l1, l1a, 0.1);
g_assert_cmpfloat_with_epsilon (l, l1 + l2, 0.62);
}
int
main (int argc,
char *argv[])
{
gtk_test_init (&argc, &argv, NULL);
g_test_add_func ("/curve/special/tangents", test_curve_tangents);
g_test_add_func ("/curve/special/degenerate-tangents", test_curve_degenerate_tangents);
g_test_add_func ("/curve/special/crossing", test_curve_crossing);
g_test_add_func ("/curve/special/circle", test_circle);
g_test_add_func ("/curve/special/length", test_curve_length);
return g_test_run ();
}