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541 lines
18 KiB
C
541 lines
18 KiB
C
/*
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* Copyright © 2019 Benjamin Otte
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library. If not, see <http://www.gnu.org/licenses/>.
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*
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* Authors: Benjamin Otte <otte@gnome.org>
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*/
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#include "config.h"
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#include <gtk/gtk.h>
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#define EPSILON (1.f / 1024 / 32) /* 2^-15 */
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/* macros stolen from graphene testsuite, so they get to keep their names */
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#if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 9))
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/* Use typeof on GCC */
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# define graphene_fuzzy_equals(n1,n2,epsilon) \
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G_GNUC_EXTENSION({ \
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__auto_type _n1 = (n1); \
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__auto_type _n2 = (n2); \
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__auto_type _epsilon = (epsilon); \
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((_n1 > _n2 ? (_n1 - _n2 ) : (_n2 - _n1)) <= _epsilon); \
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})
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#else
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/* fallback for Visual Studio, typeof not supported */
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# define graphene_fuzzy_equals(n1,n2,epsilon) \
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(((n1) > (n2) ? ((n1) - (n2)) : ((n2) - (n1))) <= (epsilon))
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#endif /* __GNUC__ */
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#define graphene_assert_fuzzy_matrix_cell_equal(row,col,n1,n2,epsilon) \
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G_STMT_START { \
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if (graphene_fuzzy_equals (n1, n2, epsilon)) ; else { \
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char *s = g_strdup_printf ("[%d][%d]: " #n1 " == " #n2 " (+/- " #epsilon "): (%.7g == %.7g)", \
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row, col, n1, n2); \
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g_assertion_message (G_LOG_DOMAIN, __FILE__, __LINE__, G_STRFUNC, s); \
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g_free (s); \
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} \
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} G_STMT_END
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#define graphene_assert_fuzzy_matrix_equal(m1,m2,epsilon) \
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G_STMT_START { \
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unsigned int __i, __j; \
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float __m1[16], __m2[16]; \
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graphene_matrix_to_float ((m1), __m1); \
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graphene_matrix_to_float ((m2), __m2); \
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for (__i = 0; __i < 4; __i++) { \
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for (__j = 0; __j < 4; __j++) { \
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unsigned int __idx = __i * 4 + __j; \
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graphene_assert_fuzzy_matrix_cell_equal (__i, __j, __m1[__idx], __m2[__idx], epsilon); \
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} \
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} \
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} G_STMT_END
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#define graphene_assert_fuzzy_transform_equal(t1,t2,epsilon) \
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G_STMT_START { \
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graphene_matrix_t __mat1, __mat2; \
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gsk_transform_to_matrix ((t1), &__mat1); \
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gsk_transform_to_matrix ((t2), &__mat2); \
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graphene_assert_fuzzy_matrix_equal (&__mat1, &__mat2, (epsilon)); \
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} G_STMT_END
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static struct {
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GskTransformCategory category;
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} test_transforms[] = {
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{ GSK_TRANSFORM_CATEGORY_IDENTITY },
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{ GSK_TRANSFORM_CATEGORY_IDENTITY },
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{ GSK_TRANSFORM_CATEGORY_2D_TRANSLATE },
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{ GSK_TRANSFORM_CATEGORY_3D },
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{ GSK_TRANSFORM_CATEGORY_2D },
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{ GSK_TRANSFORM_CATEGORY_3D },
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{ GSK_TRANSFORM_CATEGORY_2D_AFFINE },
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{ GSK_TRANSFORM_CATEGORY_3D },
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{ GSK_TRANSFORM_CATEGORY_ANY },
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};
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static GskTransform *
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apply_test_transform (GskTransform *transform,
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guint i)
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{
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switch (i)
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{
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case 0:
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return transform ? transform : gsk_transform_new ();
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case 1:
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return gsk_transform_transform (transform, NULL);
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case 2:
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return gsk_transform_translate (transform, &GRAPHENE_POINT_INIT (3, 5));
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case 3:
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return gsk_transform_translate_3d (transform, &GRAPHENE_POINT3D_INIT (3, 5, 7));
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case 4:
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return gsk_transform_rotate (transform, 90);
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case 5:
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return gsk_transform_rotate_3d (transform, 90, graphene_vec3_y_axis ());
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case 6:
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return gsk_transform_scale (transform, 2, 3);
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case 7:
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return gsk_transform_scale_3d (transform, 2, 3, 5);
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case 8:
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return gsk_transform_perspective (transform, 5);
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default:
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g_assert_not_reached ();
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return NULL;
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}
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}
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static GskTransformCategory
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categorize_matrix (const graphene_matrix_t *matrix)
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{
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if (!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 0, 3), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 1, 3), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 2, 3), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 3, 3), 1, EPSILON))
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return GSK_TRANSFORM_CATEGORY_ANY;
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if (!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 0, 2), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 1, 2), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 2, 2), 1, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 3, 2), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 2, 0), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 2, 1), 0, EPSILON))
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return GSK_TRANSFORM_CATEGORY_3D;
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if (!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 0, 1), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 1, 0), 0, EPSILON))
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return GSK_TRANSFORM_CATEGORY_2D;
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if (!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 0, 0), 1, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 1, 1), 1, EPSILON))
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return GSK_TRANSFORM_CATEGORY_2D_AFFINE;
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if (!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 3, 0), 0, EPSILON) ||
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!graphene_fuzzy_equals (graphene_matrix_get_value (matrix, 3, 1), 0, EPSILON))
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return GSK_TRANSFORM_CATEGORY_2D_TRANSLATE;
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return GSK_TRANSFORM_CATEGORY_IDENTITY;
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}
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static void
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check_conversions (GskTransform *transform,
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GskTransformCategory expected_category)
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{
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graphene_matrix_t matrix, test;
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float f[16] = { 1, 0, 0, 0,
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0, 1, 0, 0,
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0, 0, 1, 0,
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0, 0, 0, 1 };
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g_assert_cmpint (gsk_transform_get_category (transform), ==, expected_category);
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gsk_transform_to_matrix (transform, &matrix);
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/* we don't insist on getting simplifications right.
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* The matrix "scale(2) scale(0.5)" would be categorized as identity,
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* but the transform might not do that.
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*/
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g_assert_cmpint (gsk_transform_get_category (transform), <=, categorize_matrix (&matrix));
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switch (expected_category)
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{
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case GSK_TRANSFORM_CATEGORY_UNKNOWN:
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case GSK_TRANSFORM_CATEGORY_ANY:
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case GSK_TRANSFORM_CATEGORY_3D:
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break;
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case GSK_TRANSFORM_CATEGORY_IDENTITY:
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case GSK_TRANSFORM_CATEGORY_2D_TRANSLATE:
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gsk_transform_to_translate (transform,
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&f[4 * 3 + 0], &f[4 * 3 + 1]);
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graphene_matrix_init_from_float (&test, f);
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graphene_assert_fuzzy_matrix_equal (&matrix, &test, EPSILON);
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G_GNUC_FALLTHROUGH;
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case GSK_TRANSFORM_CATEGORY_2D_AFFINE:
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gsk_transform_to_affine (transform,
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&f[4 * 0 + 0], &f[4 * 1 + 1],
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&f[4 * 3 + 0], &f[4 * 3 + 1]);
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graphene_matrix_init_from_float (&test, f);
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graphene_assert_fuzzy_matrix_equal (&matrix, &test, EPSILON);
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G_GNUC_FALLTHROUGH;
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case GSK_TRANSFORM_CATEGORY_2D:
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gsk_transform_to_2d (transform,
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&f[4 * 0 + 0], &f[4 * 0 + 1],
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&f[4 * 1 + 0], &f[4 * 1 + 1],
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&f[4 * 3 + 0], &f[4 * 3 + 1]);
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graphene_matrix_init_from_float (&test, f);
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graphene_assert_fuzzy_matrix_equal (&matrix, &test, EPSILON);
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break;
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default:
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g_assert_not_reached ();
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}
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}
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static void
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test_conversions_simple (void)
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{
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GskTransform *transform;
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guint i;
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for (i = 0; i < G_N_ELEMENTS (test_transforms); i++)
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{
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transform = apply_test_transform (NULL, i);
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check_conversions (transform, test_transforms[i].category);
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gsk_transform_unref (transform);
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}
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}
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static void
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test_conversions_transformed (void)
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{
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GskTransform *transform;
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guint i, j, k;
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for (i = 0; i < G_N_ELEMENTS (test_transforms); i++)
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{
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for (j = 0; j < G_N_ELEMENTS (test_transforms); j++)
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{
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for (k = 0; k < G_N_ELEMENTS (test_transforms); k++)
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{
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transform = apply_test_transform (NULL, i);
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transform = apply_test_transform (transform, j);
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transform = apply_test_transform (transform, k);
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check_conversions (transform, MIN (test_transforms[i].category, MIN (test_transforms[j].category, test_transforms[k].category)));
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gsk_transform_unref (transform);
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}
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}
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}
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}
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static void
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test_invert (void)
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{
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GskTransform *transform, *inverse, *identity;
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guint i, j, k;
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for (i = 0; i < G_N_ELEMENTS (test_transforms); i++)
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{
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for (j = 0; j < G_N_ELEMENTS (test_transforms); j++)
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{
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for (k = 0; k < G_N_ELEMENTS (test_transforms); k++)
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{
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transform = apply_test_transform (NULL, i);
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transform = apply_test_transform (transform, j);
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transform = apply_test_transform (transform, k);
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inverse = gsk_transform_invert (gsk_transform_ref (transform));
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g_assert (inverse != NULL || transform == NULL);
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identity = gsk_transform_transform (gsk_transform_ref (transform), inverse);
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graphene_assert_fuzzy_transform_equal (identity, NULL, EPSILON);
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gsk_transform_unref (identity);
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inverse = gsk_transform_invert (inverse);
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graphene_assert_fuzzy_transform_equal (transform, inverse, EPSILON);
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gsk_transform_unref (transform);
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gsk_transform_unref (inverse);
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}
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}
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}
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}
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/* some trivialities around identity transforms */
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static void
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test_identity (void)
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{
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GskTransform *s, *t, *u, *v, *w, *x;
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char *string;
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float a, b, c, d, tx, ty;
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gboolean res;
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s = gsk_transform_new ();
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t = gsk_transform_new ();
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u = gsk_transform_transform (gsk_transform_ref (s), NULL);
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g_assert_cmpint (gsk_transform_get_category (s), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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g_assert_cmpint (gsk_transform_get_category (t), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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g_assert_cmpint (gsk_transform_get_category (u), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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g_assert_true (gsk_transform_equal (s, t));
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g_assert_true (gsk_transform_equal (t, u));
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g_assert_true (gsk_transform_equal (s, u));
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v = gsk_transform_transform (gsk_transform_ref (s), t);
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g_assert_cmpint (gsk_transform_get_category (v), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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w = gsk_transform_invert (gsk_transform_ref (v));
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g_assert_cmpint (gsk_transform_get_category (w), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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string = gsk_transform_to_string (s);
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res = gsk_transform_parse (string, &x);
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g_assert_true (res);
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g_assert_cmpint (gsk_transform_get_category (x), ==, GSK_TRANSFORM_CATEGORY_IDENTITY);
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gsk_transform_to_2d (s, &a, &b, &c, &d, &tx, &ty);
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g_assert_cmpfloat (a, ==, 1.0f);
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g_assert_cmpfloat (b, ==, 0.0f);
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g_assert_cmpfloat (c, ==, 0.0f);
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g_assert_cmpfloat (d, ==, 1.0f);
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g_assert_cmpfloat (tx, ==, 0.0f);
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g_assert_cmpfloat (ty, ==, 0.f);
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gsk_transform_unref (s);
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gsk_transform_unref (t);
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gsk_transform_unref (u);
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gsk_transform_unref (v);
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gsk_transform_unref (w);
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gsk_transform_unref (x);
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g_free (string);
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}
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static void
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test_identity_equal (void)
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{
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GskTransform *id = gsk_transform_new ();
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GskTransform *t;
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g_assert_true (gsk_transform_equal (NULL, NULL));
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g_assert_true (gsk_transform_equal (id, NULL));
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g_assert_true (gsk_transform_equal (NULL, id));
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g_assert_true (gsk_transform_equal (id, id));
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t = gsk_transform_transform (NULL, NULL);
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g_assert_true (gsk_transform_equal (t, NULL));
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gsk_transform_unref (t);
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t = gsk_transform_transform (gsk_transform_new (), NULL);
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g_assert_true (gsk_transform_equal (t, NULL));
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gsk_transform_unref (t);
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t = gsk_transform_transform (NULL, id);
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g_assert_true (gsk_transform_equal (t, NULL));
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gsk_transform_unref (t);
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t = gsk_transform_transform (gsk_transform_new (), id);
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g_assert_true (gsk_transform_equal (t, NULL));
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gsk_transform_unref (t);
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t = gsk_transform_new ();
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t = gsk_transform_transform (t, t);
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g_assert_true (gsk_transform_equal (t, NULL));
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gsk_transform_unref (t);
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gsk_transform_unref (id);
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}
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static void
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test_print_parse (void)
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{
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GskTransform *transform, *parsed;
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guint i, j, k;
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char *str1, *str2;
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for (i = 0; i < G_N_ELEMENTS (test_transforms); i++)
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{
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for (j = 0; j < G_N_ELEMENTS (test_transforms); j++)
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{
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for (k = 0; k < G_N_ELEMENTS (test_transforms); k++)
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{
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transform = apply_test_transform (NULL, i);
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transform = apply_test_transform (transform, j);
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transform = apply_test_transform (transform, k);
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str1 = gsk_transform_to_string (transform);
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g_assert (str1);
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g_assert (strlen (str1) > 0);
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str2 = gsk_transform_to_string (transform);
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g_assert_cmpstr (str1, ==, str2);
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g_free (str2);
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g_assert (gsk_transform_parse (str1, &parsed));
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graphene_assert_fuzzy_transform_equal (parsed, transform, EPSILON);
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str2 = gsk_transform_to_string (parsed);
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g_assert_cmpstr (str1, ==, str2);
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g_free (str2);
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g_free (str1);
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gsk_transform_unref (parsed);
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gsk_transform_unref (transform);
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}
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}
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}
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}
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static void
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gsk_matrix_transform_rect (const graphene_matrix_t *m,
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const graphene_rect_t *r,
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graphene_quad_t *res)
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{
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graphene_point_t ret[4];
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graphene_rect_t rr;
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graphene_rect_normalize_r (r, &rr);
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#define TRANSFORM_POINT(matrix, rect, corner, out_p) do {\
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graphene_vec4_t __s; \
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graphene_point_t __p; \
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float w; \
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graphene_rect_get_ ## corner (rect, &__p); \
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graphene_vec4_init (&__s, __p.x, __p.y, 0.f, 1.f); \
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graphene_matrix_transform_vec4 (matrix, &__s, &__s); \
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w = graphene_vec4_get_w (&__s); \
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out_p.x = graphene_vec4_get_x (&__s) / w; \
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out_p.y = graphene_vec4_get_y (&__s) / w; } while (0)
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TRANSFORM_POINT (m, &rr, top_left, ret[0]);
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TRANSFORM_POINT (m, &rr, top_right, ret[1]);
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TRANSFORM_POINT (m, &rr, bottom_right, ret[2]);
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TRANSFORM_POINT (m, &rr, bottom_left, ret[3]);
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#undef TRANSFORM_POINT
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graphene_quad_init (res, &ret[0], &ret[1], &ret[2], &ret[3]);
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}
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/* This is an auxiliary function used in the GL renderer to
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* determine if transforming an axis-aligned rectangle produces
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* axis-aligned output, to decide whether to use linear
|
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* interpolation or not.
|
|
*
|
|
* Keep this in sync with gsk/gl/gskglrenderer.c
|
|
*/
|
|
static gboolean
|
|
result_is_axis_aligned (GskTransform *transform,
|
|
const graphene_rect_t *bounds)
|
|
{
|
|
graphene_matrix_t m;
|
|
graphene_quad_t q;
|
|
graphene_rect_t b;
|
|
graphene_point_t b1, b2;
|
|
const graphene_point_t *p;
|
|
int i;
|
|
|
|
gsk_transform_to_matrix (transform, &m);
|
|
gsk_matrix_transform_rect (&m, bounds, &q);
|
|
graphene_quad_bounds (&q, &b);
|
|
graphene_rect_get_top_left (&b, &b1);
|
|
graphene_rect_get_bottom_right (&b, &b2);
|
|
|
|
for (i = 0; i < 4; i++)
|
|
{
|
|
p = graphene_quad_get_point (&q, i);
|
|
if (fabs (p->x - b1.x) > FLT_EPSILON && fabs (p->x - b2.x) > FLT_EPSILON)
|
|
return FALSE;
|
|
if (fabs (p->y - b1.y) > FLT_EPSILON && fabs (p->y - b2.y) > FLT_EPSILON)
|
|
return FALSE;
|
|
}
|
|
|
|
return TRUE;
|
|
}
|
|
|
|
static void
|
|
test_axis_aligned (void)
|
|
{
|
|
graphene_rect_t r = GRAPHENE_RECT_INIT (0, 0, 10, 10);
|
|
GskTransform *transform = NULL;
|
|
|
|
transform = gsk_transform_translate (NULL, &GRAPHENE_POINT_INIT (10, 10));
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
transform = gsk_transform_translate_3d (NULL, &GRAPHENE_POINT3D_INIT(0, 10, 10));
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
transform = gsk_transform_rotate (NULL, 90);
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
transform = gsk_transform_scale (NULL, 2, 3);
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
/* rotating around the y axis does not affect axis alignedness,
|
|
* as long as we don't involve perspective
|
|
*/
|
|
transform = gsk_transform_rotate_3d (NULL, 45, graphene_vec3_y_axis ());
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
/* rotating by 45 around the z axis, not axis aligned */
|
|
transform = gsk_transform_rotate (NULL, 45);
|
|
g_assert_false (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
/* perspective is harmless as long as we stay in the z=0 plane */
|
|
transform = gsk_transform_perspective (NULL, 100);
|
|
g_assert_true (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
|
|
/* a complex transform that makes things look '3d' */
|
|
transform = gsk_transform_translate_3d (NULL, &GRAPHENE_POINT3D_INIT (0, 0, 50));
|
|
transform = gsk_transform_perspective (transform, 170);
|
|
transform = gsk_transform_translate_3d (transform, &GRAPHENE_POINT3D_INIT (50, 0, 50));
|
|
transform = gsk_transform_rotate (transform, 20);
|
|
transform = gsk_transform_rotate_3d (transform, 20, graphene_vec3_y_axis ());
|
|
g_assert_false (result_is_axis_aligned (transform, &r));
|
|
gsk_transform_unref (transform);
|
|
}
|
|
|
|
int
|
|
main (int argc,
|
|
char *argv[])
|
|
{
|
|
gtk_test_init (&argc, &argv, NULL);
|
|
|
|
g_test_add_func ("/transform/conversions/simple", test_conversions_simple);
|
|
g_test_add_func ("/transform/conversions/transformed", test_conversions_transformed);
|
|
g_test_add_func ("/transform/identity", test_identity);
|
|
g_test_add_func ("/transform/identity-equal", test_identity_equal);
|
|
g_test_add_func ("/transform/invert", test_invert);
|
|
g_test_add_func ("/transform/print-parse", test_print_parse);
|
|
g_test_add_func ("/transform/check-axis-aligneness", test_axis_aligned);
|
|
|
|
return g_test_run ();
|
|
}
|