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testsuite: Add librsvg path tests

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This commit is contained in:
Benjamin Otte
2020-11-29 04:10:27 +01:00
committed by Matthias Clasen
parent 42b017d073
commit aa695ae1c2
2 changed files with 289 additions and 0 deletions
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1
testsuite/gsk/meson.build
View File

@@ -202,6 +202,7 @@ endforeach
tests = [
['path'],
['path-special-cases'],
['rounded-rect'],
['transform'],
['shader'],

288
testsuite/gsk/path-special-cases.c Normal file
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@@ -0,0 +1,288 @@
/*
* 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>
/* testcases from path_parser.rs in librsvg */
static void
test_rsvg_parse (void)
{
struct {
const char *in;
const char *out;
} tests[] = {
{ "", "" },
// numbers
{ "M 10 20", "M 10 20" },
{ "M -10 -20", "M -10 -20" },
{ "M .10 0.20", "M 0.1 0.2" },
{ "M -.10 -0.20", "M -0.1 -0.2" },
{ "M-.10-0.20", "M -0.1 -0.2" },
{ "M10.5.50", "M 10.5 0.5" },
{ "M.10.20", "M 0.1 0.2" },
{ "M .10E1 .20e-4", "M 1 2e-05" },
{ "M-.10E1-.20", "M -1 -0.2" },
{ "M10.10E2 -0.20e3", "M 1010 -200" },
{ "M-10.10E2-0.20e-3", "M -1010 -0.0002" },
{ "M1e2.5", "M 100 0.5" },
{ "M1e-2.5", "M 0.01 0.5" },
{ "M1e+2.5", "M 100 0.5" },
// bogus numbers
{ "M+", NULL },
{ "M-", NULL },
{ "M+x", NULL },
{ "M10e", NULL },
{ "M10ex", NULL },
{ "M10e-", NULL },
{ "M10e+x", NULL },
// numbers with comma
{ "M 10, 20", "M 10 20" },
{ "M -10,-20", "M -10 -20" },
{ "M.10 , 0.20", "M 0.1 0.2" },
{ "M -.10, -0.20 ", "M -0.1 -0.2" },
{ "M-.10-0.20", "M -0.1 -0.2" },
{ "M.10.20", "M 0.1 0.2" },
{ "M .10E1,.20e-4", "M 1 2e-05" },
{ "M-.10E-2,-.20", "M -0.001 -0.2" },
{ "M10.10E2,-0.20e3", "M 1010 -200" },
{ "M-10.10E2,-0.20e-3", "M -1010 -0.0002" },
// single moveto
{ "M 10 20 ", "M 10 20" },
{ "M10,20 ", "M 10 20" },
{ "M10 20 ", "M 10 20" },
{ " M10,20 ", "M 10 20" },
// relative moveto
{ "m10 20", "M 10 20" },
// absolute moveto with implicit lineto
{ "M10 20 30 40", "M 10 20 L 30 40" },
{ "M10,20,30,40", "M 10 20 L 30 40" },
{ "M.1-2,3E2-4", "M 0.1 -2 L 300 -4" },
// relative moveto with implicit lineto
{ "m10 20 30 40", "M 10 20 L 40 60" },
// relative moveto with relative lineto sequence
{ "m 46,447 l 0,0.5 -1,0 -1,0 0,1 0,12",
"M 46 447 L 46 447.5 L 45 447.5 L 44 447.5 L 44 448.5 L 44 460.5" },
// absolute moveto with implicit linetos
{ "M10,20 30,40,50 60", "M 10 20 L 30 40 L 50 60" },
// relative moveto with implicit linetos
{ "m10 20 30 40 50 60", "M 10 20 L 40 60 L 90 120" },
// absolute moveto moveto
{ "M10 20 M 30 40", "M 10 20 M 30 40" },
// relative moveto moveto
{ "m10 20 m 30 40", "M 10 20 M 40 60" },
// relative moveto lineto moveto
{ "m10 20 30 40 m 50 60", "M 10 20 L 40 60 M 90 120" },
// absolute moveto lineto
{ "M10 20 L30,40", "M 10 20 L 30 40" },
// relative moveto lineto
{ "m10 20 l30,40", "M 10 20 L 40 60" },
// relative moveto lineto lineto abs lineto
{ "m10 20 30 40l30,40,50 60L200,300",
"M 10 20 L 40 60 L 70 100 L 120 160 L 200 300" },
// horizontal lineto
{ "M10 20 H30", "M 10 20 L 30 20" },
{ "M 10 20 H 30 40", "M 10 20 L 30 20 L 40 20" },
{ "M10 20 H30,40-50", "M 10 20 L 30 20 L 40 20 L -50 20" },
{ "m10 20 h30,40-50", "M 10 20 L 40 20 L 80 20 L 30 20" },
// vertical lineto
{ "M10 20 V30", "M 10 20 L 10 30" },
{ "M10 20 V30 40", "M 10 20 L 10 30 L 10 40" },
{ "M10 20 V30,40-50", "M 10 20 L 10 30 L 10 40 L 10 -50" },
{ "m10 20 v30,40-50", "M 10 20 L 10 50 L 10 90 L 10 40" },
// curveto
{ "M10 20 C 30,40 50 60-70,80", "M 10 20 C 30 40, 50 60, -70 80" },
{ "M10 20 C 30,40 50 60-70,80,90 100,110 120,130,140",
"M 10 20 C 30 40, 50 60, -70 80 C 90 100, 110 120, 130 140" },
{ "m10 20 c 30,40 50 60-70,80,90 100,110 120,130,140",
"M 10 20 C 40 60, 60 80, -60 100 C 30 200, 50 220, 70 240" },
{ "m10 20 c 30,40 50 60-70,80 90 100,110 120,130,140",
"M 10 20 C 40 60, 60 80, -60 100 C 30 200, 50 220, 70 240" },
// smooth curveto
{ "M10 20 S 30,40-50,60", "M 10 20 C 10 20, 30 40, -50 60" },
{ "M10 20 S 30,40 50 60-70,80,90 100",
"M 10 20 C 10 20, 30 40, 50 60 C 70 80, -70 80, 90 100" },
// quadratic curveto
{ "M10 20 Q30 40 50 60", "M 10 20 C 23.3333333 33.3333333, 36.6666667 46.6666667, 50 60" },
{ "M10 20 Q30 40 50 60,70,80-90 100",
"M 10 20 C 23.3333333 33.3333333, 36.6666667 46.6666667, 50 60 C 63.3333333 73.3333333, 16.6666667 86.6666667, -90 100" },
{ "m10 20 q 30,40 50 60-70,80 90 100",
"M 10 20 C 30 46.6666667, 46.6666667 66.6666667, 60 80 C 13.3333333 133.3333333, 43.3333333 166.6666667, 150 180" },
// smooth quadratic curveto
{ "M10 20 T30 40", "M 10 20 C 10 20, 16.6666667 26.6666667, 30 40" },
{ "M10 20 Q30 40 50 60 T70 80",
"M 10 20 C 23.3333333 33.3333333, 36.6666667 46.6666667, 50 60 C 63.3333333 73.3333333, 70 80, 70 80" },
{ "m10 20 q 30,40 50 60t-70,80",
"M 10 20 C 30 46.6666667, 46.6666667 66.6666667, 60 80 C 73.3333333 93.3333333, 50 120, -10 160" },
// elliptical arc. Exact numbers depend on too much math, so just verify
// that these parse successfully
{ "M 1 3 A 1 2 3 00 6 7", "path" },
{ "M 1 2 A 1 2 3 016 7", "path" },
{ "M 1 2 A 1 2 3 10,6 7", "path" },
{ "M 1 2 A 1 2 3 1,1 6 7", "path" },
{ "M 1 2 A 1 2 3 1 1 6 7", "path" },
{ "M 1 2 A 1 2 3 1 16 7", "path" },
// close path
{ "M10 20 Z", "M 10 20 Z" },
{ "m10 20 30 40 m 50 60 70 80 90 100z", "M 10 20 L 40 60 M 90 120 L 160 200 L 250 300 Z" },
// must start with moveto
{ " L10 20", NULL },
// moveto args
{ "M", NULL },
{ "M,", NULL },
{ "M10", NULL },
{ "M10,", NULL },
{ "M10x", NULL },
{ "M10,x", NULL },
{ "M10-20,", NULL },
{ "M10-20-30", NULL },
{ "M10-20-30 x", NULL },
// closepath args
{ "M10-20z10", NULL },
{ "M10-20z,", NULL },
// lineto args
{ "M10-20L10", NULL },
{ "M 10,10 L 20,20,30", NULL },
{ "M 10,10 L 20,20,", NULL },
// horizontal lineto args
{ "M10-20H", NULL },
{ "M10-20H,", NULL },
{ "M10-20H30,", NULL },
// vertical lineto args
{ "M10-20v", NULL },
{ "M10-20v,", NULL },
{ "M10-20v30,", NULL },
// curveto args
{ "M10-20C1", NULL },
{ "M10-20C1,", NULL },
{ "M10-20C1 2", NULL },
{ "M10-20C1,2,", NULL },
{ "M10-20C1 2 3", NULL },
{ "M10-20C1,2,3", NULL },
{ "M10-20C1,2,3,", NULL },
{ "M10-20C1 2 3 4", NULL },
{ "M10-20C1,2,3,4", NULL },
{ "M10-20C1,2,3,4,", NULL },
{ "M10-20C1 2 3 4 5", NULL },
{ "M10-20C1,2,3,4,5", NULL },
{ "M10-20C1,2,3,4,5,", NULL },
{ "M10-20C1,2,3,4,5,6,", NULL },
// smooth curveto args
{ "M10-20S1", NULL },
{ "M10-20S1,", NULL },
{ "M10-20S1 2", NULL },
{ "M10-20S1,2,", NULL },
{ "M10-20S1 2 3", NULL },
{ "M10-20S1,2,3,", NULL },
{ "M10-20S1,2,3,4,", NULL },
// quadratic curveto args
{ "M10-20Q1", NULL },
{ "M10-20Q1,", NULL },
{ "M10-20Q1 2", NULL },
{ "M10-20Q1,2,", NULL },
{ "M10-20Q1 2 3", NULL },
{ "M10-20Q1,2,3", NULL },
{ "M10-20Q1,2,3,", NULL },
{ "M10 20 Q30 40 50 60,", NULL },
// smooth quadratic curveto args
{ "M10-20T1", NULL },
{ "M10-20T1,", NULL },
{ "M10 20 T 30 40,", NULL },
// elliptical arc args
{ "M10-20A1", NULL },
{ "M10-20A1,", NULL },
{ "M10-20A1 2", NULL },
{ "M10-20A1 2,", NULL },
{ "M10-20A1 2 3", NULL },
{ "M10-20A1 2 3,", NULL },
{ "M10-20A1 2 3 4", NULL },
{ "M10-20A1 2 3 1", NULL },
{ "M10-20A1 2 3,1,", NULL },
{ "M10-20A1 2 3 1 5", NULL },
{ "M10-20A1 2 3 1 1", NULL },
{ "M10-20A1 2 3,1,1,", NULL },
{ "M10-20A1 2 3 1 1 6", NULL },
{ "M10-20A1 2 3,1,1,6,", NULL },
{ "M 1 2 A 1 2 3 1.0 0.0 6 7", NULL },
{ "M10-20A1 2 3,1,1,6,7,", NULL },
// misc
{ "M.. 1,0 0,100000", NULL },
{ "M 10 20,M 10 20", NULL },
{ "M 10 20, M 10 20", NULL },
{ "M 10 20, M 10 20", NULL },
{ "M 10 20, ", NULL },
};
int i;
for (i = 0; i < G_N_ELEMENTS (tests); i++)
{
GskPath *path;
char *string;
char *string2;
if (g_test_verbose ())
g_print ("%d: %s\n", i, tests[i].in);
path = gsk_path_parse (tests[i].in);
if (tests[i].out)
{
g_assert_nonnull (path);
string = gsk_path_to_string (path);
gsk_path_unref (path);
if (strcmp (tests[i].out, "path") != 0)
{
/* Preferred, but doesn't work, because
* gsk_path_print() prints numbers with
* insane accuracy */
/* g_assert_cmpstr (tests[i].out, ==, string); */
path = gsk_path_parse (tests[i].out);
g_assert_nonnull (path);
string2 = gsk_path_to_string (path);
gsk_path_unref (path);
g_assert_cmpstr (string, ==, string2);
}
path = gsk_path_parse (string);
g_assert_nonnull (path);
string2 = gsk_path_to_string (path);
gsk_path_unref (path);
g_assert_cmpstr (string, ==, string2);
g_free (string);
g_free (string2);
}
else
g_assert_null (path);
}
}
int
main (int argc,
char *argv[])
{
gtk_test_init (&argc, &argv, NULL);
g_test_add_func ("/path/rsvg-parse", test_rsvg_parse);
return g_test_run ();
}