2 * Copyright 2015 Henri Verbeet for CodeWeavers
4 * This library is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU Lesser General Public
6 * License as published by the Free Software Foundation; either
7 * version 2.1 of the License, or (at your option) any later version.
9 * This library is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * Lesser General Public License for more details.
14 * You should have received a copy of the GNU Lesser General Public
15 * License along with this library; if not, write to the Free Software
16 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
19 #include "d2d1_private.h"
22 WINE_DEFAULT_DEBUG_CHANNEL(d2d
);
24 #define D2D_FIGURE_FLAG_CLOSED 0x00000001u
25 #define D2D_FIGURE_FLAG_HOLLOW 0x00000002u
27 #define D2D_CDT_EDGE_FLAG_FREED 0x80000000u
28 #define D2D_CDT_EDGE_FLAG_VISITED(r) (1u << (r))
30 #define D2D_FP_EPS (1.0f / (1 << FLT_MANT_DIG))
32 static const D2D1_MATRIX_3X2_F identity
=
39 enum d2d_cdt_edge_next
41 D2D_EDGE_NEXT_ORIGIN
= 0,
42 D2D_EDGE_NEXT_ROT
= 1,
43 D2D_EDGE_NEXT_SYM
= 2,
44 D2D_EDGE_NEXT_TOR
= 3,
51 D2D_VERTEX_TYPE_BEZIER
,
52 D2D_VERTEX_TYPE_SPLIT_BEZIER
,
55 struct d2d_segment_idx
64 D2D1_POINT_2F
*vertices
;
66 enum d2d_vertex_type
*vertex_types
;
67 size_t vertex_types_size
;
70 D2D1_POINT_2F
*bezier_controls
;
71 size_t bezier_controls_size
;
72 size_t bezier_control_count
;
74 D2D1_POINT_2F
*original_bezier_controls
;
75 size_t original_bezier_control_count
;
81 struct d2d_cdt_edge_ref
84 enum d2d_cdt_edge_next r
;
89 struct d2d_cdt_edge_ref next
[4];
96 struct d2d_cdt_edge
*edges
;
101 const D2D1_POINT_2F
*vertices
;
104 struct d2d_geometry_intersection
113 struct d2d_geometry_intersections
115 struct d2d_geometry_intersection
*intersections
;
116 size_t intersections_size
;
117 size_t intersection_count
;
120 struct d2d_fp_two_vec2
132 static void d2d_curve_vertex_set(struct d2d_curve_vertex
*b
,
133 const D2D1_POINT_2F
*p
, float u
, float v
, float sign
)
138 b
->texcoord
.sign
= sign
;
141 static void d2d_face_set(struct d2d_face
*f
, UINT16 v0
, UINT16 v1
, UINT16 v2
)
148 static void d2d_outline_vertex_set(struct d2d_outline_vertex
*v
, float x
, float y
,
149 float prev_x
, float prev_y
, float next_x
, float next_y
)
151 d2d_point_set(&v
->position
, x
, y
);
152 d2d_point_set(&v
->prev
, prev_x
, prev_y
);
153 d2d_point_set(&v
->next
, next_x
, next_y
);
156 static void d2d_curve_outline_vertex_set(struct d2d_curve_outline_vertex
*a
, const D2D1_POINT_2F
*position
,
157 const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
,
158 float prev_x
, float prev_y
, float next_x
, float next_y
)
160 a
->position
= *position
;
164 d2d_point_set(&a
->prev
, prev_x
, prev_y
);
165 d2d_point_set(&a
->next
, next_x
, next_y
);
168 static void d2d_fp_two_sum(float *out
, float a
, float b
)
170 float a_virt
, a_round
, b_virt
, b_round
;
174 a_virt
= out
[1] - b_virt
;
175 b_round
= b
- b_virt
;
176 a_round
= a
- a_virt
;
177 out
[0] = a_round
+ b_round
;
180 static void d2d_fp_fast_two_sum(float *out
, float a
, float b
)
189 static void d2d_fp_two_two_sum(float *out
, const float *a
, const float *b
)
193 d2d_fp_two_sum(out
, a
[0], b
[0]);
194 d2d_fp_two_sum(sum
, a
[1], out
[1]);
195 d2d_fp_two_sum(&out
[1], sum
[0], b
[1]);
196 d2d_fp_two_sum(&out
[2], sum
[1], out
[2]);
199 static void d2d_fp_two_diff_tail(float *out
, float a
, float b
, float x
)
201 float a_virt
, a_round
, b_virt
, b_round
;
205 b_round
= b_virt
- b
;
206 a_round
= a
- a_virt
;
207 *out
= a_round
+ b_round
;
210 static void d2d_fp_two_two_diff(float *out
, const float *a
, const float *b
)
215 d2d_fp_two_diff_tail(out
, a
[0], b
[0], diff
);
216 d2d_fp_two_sum(sum
, a
[1], diff
);
217 diff
= sum
[0] - b
[1];
218 d2d_fp_two_diff_tail(&out
[1], sum
[0], b
[1], diff
);
219 d2d_fp_two_sum(&out
[2], sum
[1], diff
);
222 static void d2d_fp_split(float *out
, float a
)
226 c
= a
* ((1 << (FLT_MANT_DIG
/ 2)) + 1.0f
);
232 static void d2d_fp_two_product_presplit(float *out
, float a
, float b
, const float *b_split
)
234 float a_split
[2], err1
, err2
, err3
;
237 d2d_fp_split(a_split
, a
);
238 err1
= out
[1] - (a_split
[1] * b_split
[1]);
239 err2
= err1
- (a_split
[0] * b_split
[1]);
240 err3
= err2
- (a_split
[1] * b_split
[0]);
241 out
[0] = (a_split
[0] * b_split
[0]) - err3
;
244 static void d2d_fp_two_product(float *out
, float a
, float b
)
248 d2d_fp_split(b_split
, b
);
249 d2d_fp_two_product_presplit(out
, a
, b
, b_split
);
252 static void d2d_fp_square(float *out
, float a
)
254 float a_split
[2], err1
, err2
;
257 d2d_fp_split(a_split
, a
);
258 err1
= out
[1] - (a_split
[1] * a_split
[1]);
259 err2
= err1
- ((a_split
[1] + a_split
[1]) * a_split
[0]);
260 out
[0] = (a_split
[0] * a_split
[0]) - err2
;
263 static float d2d_fp_estimate(float *a
, size_t len
)
274 static void d2d_fp_fast_expansion_sum_zeroelim(float *out
, size_t *out_len
,
275 const float *a
, size_t a_len
, const float *b
, size_t b_len
)
277 float sum
[2], q
, a_curr
, b_curr
;
278 size_t a_idx
, b_idx
, out_idx
;
283 if ((b_curr
> a_curr
) == (b_curr
> -a_curr
))
294 if (a_idx
< a_len
&& b_idx
< b_len
)
296 if ((b_curr
> a_curr
) == (b_curr
> -a_curr
))
298 d2d_fp_fast_two_sum(sum
, a_curr
, q
);
303 d2d_fp_fast_two_sum(sum
, b_curr
, q
);
307 out
[out_idx
++] = sum
[0];
309 while (a_idx
< a_len
&& b_idx
< b_len
)
311 if ((b_curr
> a_curr
) == (b_curr
> -a_curr
))
313 d2d_fp_two_sum(sum
, q
, a_curr
);
318 d2d_fp_two_sum(sum
, q
, b_curr
);
322 out
[out_idx
++] = sum
[0];
326 while (a_idx
< a_len
)
328 d2d_fp_two_sum(sum
, q
, a_curr
);
331 out
[out_idx
++] = sum
[0];
334 while (b_idx
< b_len
)
336 d2d_fp_two_sum(sum
, q
, b_curr
);
339 out
[out_idx
++] = sum
[0];
342 if (q
!= 0.0f
|| !out_idx
)
348 static void d2d_fp_scale_expansion_zeroelim(float *out
, size_t *out_len
, const float *a
, size_t a_len
, float b
)
350 float product
[2], sum
[2], b_split
[2], q
[2], a_curr
;
351 size_t a_idx
, out_idx
;
353 d2d_fp_split(b_split
, b
);
354 d2d_fp_two_product_presplit(q
, a
[0], b
, b_split
);
357 out
[out_idx
++] = q
[0];
358 for (a_idx
= 1; a_idx
< a_len
; ++a_idx
)
361 d2d_fp_two_product_presplit(product
, a_curr
, b
, b_split
);
362 d2d_fp_two_sum(sum
, q
[1], product
[0]);
364 out
[out_idx
++] = sum
[0];
365 d2d_fp_fast_two_sum(q
, product
[1], sum
[1]);
367 out
[out_idx
++] = q
[0];
369 if (q
[1] != 0.0f
|| !out_idx
)
370 out
[out_idx
++] = q
[1];
375 static void d2d_point_subtract(D2D1_POINT_2F
*out
,
376 const D2D1_POINT_2F
*a
, const D2D1_POINT_2F
*b
)
378 out
->x
= a
->x
- b
->x
;
379 out
->y
= a
->y
- b
->y
;
382 static void d2d_point_scale(D2D1_POINT_2F
*p
, float scale
)
388 static void d2d_point_lerp(D2D1_POINT_2F
*out
,
389 const D2D1_POINT_2F
*a
, const D2D1_POINT_2F
*b
, float t
)
391 out
->x
= a
->x
* (1.0f
- t
) + b
->x
* t
;
392 out
->y
= a
->y
* (1.0f
- t
) + b
->y
* t
;
395 static void d2d_point_calculate_bezier(D2D1_POINT_2F
*out
, const D2D1_POINT_2F
*p0
,
396 const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
, float t
)
398 float t_c
= 1.0f
- t
;
400 out
->x
= t_c
* (t_c
* p0
->x
+ t
* p1
->x
) + t
* (t_c
* p1
->x
+ t
* p2
->x
);
401 out
->y
= t_c
* (t_c
* p0
->y
+ t
* p1
->y
) + t
* (t_c
* p1
->y
+ t
* p2
->y
);
404 static void d2d_point_normalise(D2D1_POINT_2F
*p
)
408 if ((l
= sqrtf(d2d_point_dot(p
, p
))) != 0.0f
)
409 d2d_point_scale(p
, 1.0f
/ l
);
412 static BOOL
d2d_vertex_type_is_bezier(enum d2d_vertex_type t
)
414 return (t
== D2D_VERTEX_TYPE_BEZIER
|| t
== D2D_VERTEX_TYPE_SPLIT_BEZIER
);
417 static BOOL
d2d_vertex_type_is_split_bezier(enum d2d_vertex_type t
)
419 return t
== D2D_VERTEX_TYPE_SPLIT_BEZIER
;
422 /* This implementation is based on the paper "Adaptive Precision
423 * Floating-Point Arithmetic and Fast Robust Geometric Predicates" and
424 * associated (Public Domain) code by Jonathan Richard Shewchuk. */
425 static float d2d_point_ccw(const D2D1_POINT_2F
*a
, const D2D1_POINT_2F
*b
, const D2D1_POINT_2F
*c
)
427 static const float err_bound_result
= (3.0f
+ 8.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
428 static const float err_bound_a
= (3.0f
+ 16.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
429 static const float err_bound_b
= (2.0f
+ 12.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
430 static const float err_bound_c
= (9.0f
+ 64.0f
* D2D_FP_EPS
) * D2D_FP_EPS
* D2D_FP_EPS
;
431 float det_d
[16], det_c2
[12], det_c1
[8], det_b
[4], temp4
[4], temp2a
[2], temp2b
[2], abxacy
[2], abyacx
[2];
432 size_t det_d_len
, det_c2_len
, det_c1_len
;
433 float det
, det_sum
, err_bound
;
434 struct d2d_fp_two_vec2 ab
, ac
;
436 ab
.x
[1] = b
->x
- a
->x
;
437 ab
.y
[1] = b
->y
- a
->y
;
438 ac
.x
[1] = c
->x
- a
->x
;
439 ac
.y
[1] = c
->y
- a
->y
;
441 abxacy
[1] = ab
.x
[1] * ac
.y
[1];
442 abyacx
[1] = ab
.y
[1] * ac
.x
[1];
443 det
= abxacy
[1] - abyacx
[1];
445 if (abxacy
[1] > 0.0f
)
447 if (abyacx
[1] <= 0.0f
)
449 det_sum
= abxacy
[1] + abyacx
[1];
451 else if (abxacy
[1] < 0.0f
)
453 if (abyacx
[1] >= 0.0f
)
455 det_sum
= -abxacy
[1] - abyacx
[1];
462 err_bound
= err_bound_a
* det_sum
;
463 if (det
>= err_bound
|| -det
>= err_bound
)
466 d2d_fp_two_product(abxacy
, ab
.x
[1], ac
.y
[1]);
467 d2d_fp_two_product(abyacx
, ab
.y
[1], ac
.x
[1]);
468 d2d_fp_two_two_diff(det_b
, abxacy
, abyacx
);
470 det
= d2d_fp_estimate(det_b
, 4);
471 err_bound
= err_bound_b
* det_sum
;
472 if (det
>= err_bound
|| -det
>= err_bound
)
475 d2d_fp_two_diff_tail(&ab
.x
[0], b
->x
, a
->x
, ab
.x
[1]);
476 d2d_fp_two_diff_tail(&ab
.y
[0], b
->y
, a
->y
, ab
.y
[1]);
477 d2d_fp_two_diff_tail(&ac
.x
[0], c
->x
, a
->x
, ac
.x
[1]);
478 d2d_fp_two_diff_tail(&ac
.y
[0], c
->y
, a
->y
, ac
.y
[1]);
480 if (ab
.x
[0] == 0.0f
&& ab
.y
[0] == 0.0f
&& ac
.x
[0] == 0.0f
&& ac
.y
[0] == 0.0f
)
483 err_bound
= err_bound_c
* det_sum
+ err_bound_result
* fabsf(det
);
484 det
+= (ab
.x
[1] * ac
.y
[0] + ac
.y
[1] * ab
.x
[0]) - (ab
.y
[1] * ac
.x
[0] + ac
.x
[1] * ab
.y
[0]);
485 if (det
>= err_bound
|| -det
>= err_bound
)
488 d2d_fp_two_product(temp2a
, ab
.x
[0], ac
.y
[1]);
489 d2d_fp_two_product(temp2b
, ab
.y
[0], ac
.x
[1]);
490 d2d_fp_two_two_diff(temp4
, temp2a
, temp2b
);
491 d2d_fp_fast_expansion_sum_zeroelim(det_c1
, &det_c1_len
, det_b
, 4, temp4
, 4);
493 d2d_fp_two_product(temp2a
, ab
.x
[1], ac
.y
[0]);
494 d2d_fp_two_product(temp2b
, ab
.y
[1], ac
.x
[0]);
495 d2d_fp_two_two_diff(temp4
, temp2a
, temp2b
);
496 d2d_fp_fast_expansion_sum_zeroelim(det_c2
, &det_c2_len
, det_c1
, det_c1_len
, temp4
, 4);
498 d2d_fp_two_product(temp2a
, ab
.x
[0], ac
.y
[0]);
499 d2d_fp_two_product(temp2b
, ab
.y
[0], ac
.x
[0]);
500 d2d_fp_two_two_diff(temp4
, temp2a
, temp2b
);
501 d2d_fp_fast_expansion_sum_zeroelim(det_d
, &det_d_len
, det_c2
, det_c2_len
, temp4
, 4);
503 return det_d
[det_d_len
- 1];
506 static void d2d_rect_union(D2D1_RECT_F
*l
, const D2D1_RECT_F
*r
)
508 l
->left
= min(l
->left
, r
->left
);
509 l
->top
= min(l
->top
, r
->top
);
510 l
->right
= max(l
->right
, r
->right
);
511 l
->bottom
= max(l
->bottom
, r
->bottom
);
514 static BOOL
d2d_rect_check_overlap(const D2D_RECT_F
*p
, const D2D_RECT_F
*q
)
516 return p
->left
< q
->right
&& p
->top
< q
->bottom
&& p
->right
> q
->left
&& p
->bottom
> q
->top
;
519 static void d2d_rect_get_bezier_bounds(D2D_RECT_F
*bounds
, const D2D1_POINT_2F
*p0
,
520 const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
)
525 bounds
->left
= p0
->x
;
527 bounds
->right
= p0
->x
;
528 bounds
->bottom
= p0
->y
;
530 d2d_rect_expand(bounds
, p2
);
532 /* f(t) = (1 - t)²P₀ + 2(1 - t)tP₁ + t²P₂
533 * f'(t) = 2(1 - t)(P₁ - P₀) + 2t(P₂ - P₁)
534 * = 2(P₂ - 2P₁ + P₀)t + 2(P₁ - P₀)
537 * t = (P₀ - P₁) / (P₂ - 2P₁ + P₀) */
538 root
= (p0
->x
- p1
->x
) / (p2
->x
- 2.0f
* p1
->x
+ p0
->x
);
539 if (root
> 0.0f
&& root
< 1.0f
)
541 d2d_point_calculate_bezier(&p
, p0
, p1
, p2
, root
);
542 d2d_rect_expand(bounds
, &p
);
545 root
= (p0
->y
- p1
->y
) / (p2
->y
- 2.0f
* p1
->y
+ p0
->y
);
546 if (root
> 0.0f
&& root
< 1.0f
)
548 d2d_point_calculate_bezier(&p
, p0
, p1
, p2
, root
);
549 d2d_rect_expand(bounds
, &p
);
553 static void d2d_rect_get_bezier_segment_bounds(D2D_RECT_F
*bounds
, const D2D1_POINT_2F
*p0
,
554 const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
, float start
, float end
)
556 D2D1_POINT_2F q
[3], r
[2];
558 d2d_point_lerp(&r
[0], p0
, p1
, start
);
559 d2d_point_lerp(&r
[1], p1
, p2
, start
);
560 d2d_point_lerp(&q
[0], &r
[0], &r
[1], start
);
562 end
= (end
- start
) / (1.0f
- start
);
563 d2d_point_lerp(&q
[1], &q
[0], &r
[1], end
);
564 d2d_point_lerp(&r
[0], &r
[1], p2
, end
);
565 d2d_point_lerp(&q
[2], &q
[1], &r
[0], end
);
567 d2d_rect_get_bezier_bounds(bounds
, &q
[0], &q
[1], &q
[2]);
570 static BOOL
d2d_figure_insert_vertex(struct d2d_figure
*figure
, size_t idx
, D2D1_POINT_2F vertex
)
572 if (!d2d_array_reserve((void **)&figure
->vertices
, &figure
->vertices_size
,
573 figure
->vertex_count
+ 1, sizeof(*figure
->vertices
)))
575 ERR("Failed to grow vertices array.\n");
579 if (!d2d_array_reserve((void **)&figure
->vertex_types
, &figure
->vertex_types_size
,
580 figure
->vertex_count
+ 1, sizeof(*figure
->vertex_types
)))
582 ERR("Failed to grow vertex types array.\n");
586 memmove(&figure
->vertices
[idx
+ 1], &figure
->vertices
[idx
],
587 (figure
->vertex_count
- idx
) * sizeof(*figure
->vertices
));
588 memmove(&figure
->vertex_types
[idx
+ 1], &figure
->vertex_types
[idx
],
589 (figure
->vertex_count
- idx
) * sizeof(*figure
->vertex_types
));
590 figure
->vertices
[idx
] = vertex
;
591 figure
->vertex_types
[idx
] = D2D_VERTEX_TYPE_NONE
;
592 d2d_rect_expand(&figure
->bounds
, &vertex
);
593 ++figure
->vertex_count
;
597 static BOOL
d2d_figure_add_vertex(struct d2d_figure
*figure
, D2D1_POINT_2F vertex
)
599 size_t last
= figure
->vertex_count
- 1;
601 if (figure
->vertex_count
&& figure
->vertex_types
[last
] == D2D_VERTEX_TYPE_LINE
602 && !memcmp(&figure
->vertices
[last
], &vertex
, sizeof(vertex
)))
605 if (!d2d_array_reserve((void **)&figure
->vertices
, &figure
->vertices_size
,
606 figure
->vertex_count
+ 1, sizeof(*figure
->vertices
)))
608 ERR("Failed to grow vertices array.\n");
612 if (!d2d_array_reserve((void **)&figure
->vertex_types
, &figure
->vertex_types_size
,
613 figure
->vertex_count
+ 1, sizeof(*figure
->vertex_types
)))
615 ERR("Failed to grow vertex types array.\n");
619 figure
->vertices
[figure
->vertex_count
] = vertex
;
620 figure
->vertex_types
[figure
->vertex_count
] = D2D_VERTEX_TYPE_NONE
;
621 d2d_rect_expand(&figure
->bounds
, &vertex
);
622 ++figure
->vertex_count
;
626 static BOOL
d2d_figure_insert_bezier_controls(struct d2d_figure
*figure
,
627 size_t idx
, size_t count
, const D2D1_POINT_2F
*p
)
629 if (!d2d_array_reserve((void **)&figure
->bezier_controls
, &figure
->bezier_controls_size
,
630 figure
->bezier_control_count
+ count
, sizeof(*figure
->bezier_controls
)))
632 ERR("Failed to grow bezier controls array.\n");
636 memmove(&figure
->bezier_controls
[idx
+ count
], &figure
->bezier_controls
[idx
],
637 (figure
->bezier_control_count
- idx
) * sizeof(*figure
->bezier_controls
));
638 memcpy(&figure
->bezier_controls
[idx
], p
, count
* sizeof(*figure
->bezier_controls
));
639 figure
->bezier_control_count
+= count
;
644 static BOOL
d2d_figure_add_bezier_controls(struct d2d_figure
*figure
, size_t count
, const D2D1_POINT_2F
*p
)
646 if (!d2d_array_reserve((void **)&figure
->bezier_controls
, &figure
->bezier_controls_size
,
647 figure
->bezier_control_count
+ count
, sizeof(*figure
->bezier_controls
)))
649 ERR("Failed to grow bezier controls array.\n");
653 memcpy(&figure
->bezier_controls
[figure
->bezier_control_count
], p
, count
* sizeof(*figure
->bezier_controls
));
654 figure
->bezier_control_count
+= count
;
659 static void d2d_cdt_edge_rot(struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
662 dst
->r
= (src
->r
+ D2D_EDGE_NEXT_ROT
) & 3;
665 static void d2d_cdt_edge_sym(struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
668 dst
->r
= (src
->r
+ D2D_EDGE_NEXT_SYM
) & 3;
671 static void d2d_cdt_edge_tor(struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
674 dst
->r
= (src
->r
+ D2D_EDGE_NEXT_TOR
) & 3;
677 static void d2d_cdt_edge_next_left(const struct d2d_cdt
*cdt
,
678 struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
680 d2d_cdt_edge_rot(dst
, &cdt
->edges
[src
->idx
].next
[(src
->r
+ D2D_EDGE_NEXT_TOR
) & 3]);
683 static void d2d_cdt_edge_next_origin(const struct d2d_cdt
*cdt
,
684 struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
686 *dst
= cdt
->edges
[src
->idx
].next
[src
->r
];
689 static void d2d_cdt_edge_prev_origin(const struct d2d_cdt
*cdt
,
690 struct d2d_cdt_edge_ref
*dst
, const struct d2d_cdt_edge_ref
*src
)
692 d2d_cdt_edge_rot(dst
, &cdt
->edges
[src
->idx
].next
[(src
->r
+ D2D_EDGE_NEXT_ROT
) & 3]);
695 static size_t d2d_cdt_edge_origin(const struct d2d_cdt
*cdt
, const struct d2d_cdt_edge_ref
*e
)
697 return cdt
->edges
[e
->idx
].vertex
[e
->r
>> 1];
700 static size_t d2d_cdt_edge_destination(const struct d2d_cdt
*cdt
, const struct d2d_cdt_edge_ref
*e
)
702 return cdt
->edges
[e
->idx
].vertex
[!(e
->r
>> 1)];
705 static void d2d_cdt_edge_set_origin(const struct d2d_cdt
*cdt
,
706 const struct d2d_cdt_edge_ref
*e
, size_t vertex
)
708 cdt
->edges
[e
->idx
].vertex
[e
->r
>> 1] = vertex
;
711 static void d2d_cdt_edge_set_destination(const struct d2d_cdt
*cdt
,
712 const struct d2d_cdt_edge_ref
*e
, size_t vertex
)
714 cdt
->edges
[e
->idx
].vertex
[!(e
->r
>> 1)] = vertex
;
717 static float d2d_cdt_ccw(const struct d2d_cdt
*cdt
, size_t a
, size_t b
, size_t c
)
719 return d2d_point_ccw(&cdt
->vertices
[a
], &cdt
->vertices
[b
], &cdt
->vertices
[c
]);
722 static BOOL
d2d_cdt_rightof(const struct d2d_cdt
*cdt
, size_t p
, const struct d2d_cdt_edge_ref
*e
)
724 return d2d_cdt_ccw(cdt
, p
, d2d_cdt_edge_destination(cdt
, e
), d2d_cdt_edge_origin(cdt
, e
)) > 0.0f
;
727 static BOOL
d2d_cdt_leftof(const struct d2d_cdt
*cdt
, size_t p
, const struct d2d_cdt_edge_ref
*e
)
729 return d2d_cdt_ccw(cdt
, p
, d2d_cdt_edge_origin(cdt
, e
), d2d_cdt_edge_destination(cdt
, e
)) > 0.0f
;
734 static void d2d_fp_four_det2x2(float *out
, float ax
, float ay
, float bx
, float by
)
736 float axby
[2], aybx
[2];
738 d2d_fp_two_product(axby
, ax
, by
);
739 d2d_fp_two_product(aybx
, ay
, bx
);
740 d2d_fp_two_two_diff(out
, axby
, aybx
);
743 /* (a->x² + a->y²) * det2x2 */
744 static void d2d_fp_sub_det3x3(float *out
, size_t *out_len
, const struct d2d_fp_two_vec2
*a
, const float *det2x2
)
746 size_t axd_len
, ayd_len
, axxd_len
, ayyd_len
;
747 float axd
[8], ayd
[8], axxd
[16], ayyd
[16];
749 d2d_fp_scale_expansion_zeroelim(axd
, &axd_len
, det2x2
, 4, a
->x
[1]);
750 d2d_fp_scale_expansion_zeroelim(axxd
, &axxd_len
, axd
, axd_len
, a
->x
[1]);
751 d2d_fp_scale_expansion_zeroelim(ayd
, &ayd_len
, det2x2
, 4, a
->y
[1]);
752 d2d_fp_scale_expansion_zeroelim(ayyd
, &ayyd_len
, ayd
, ayd_len
, a
->y
[1]);
753 d2d_fp_fast_expansion_sum_zeroelim(out
, out_len
, axxd
, axxd_len
, ayyd
, ayyd_len
);
756 /* det_abt = det_ab * c[0]
757 * fin += c[0] * (az * b - bz * a + c[1] * det_ab * 2.0f) */
758 static void d2d_cdt_incircle_refine1(struct d2d_fp_fin
*fin
, float *det_abt
, size_t *det_abt_len
,
759 const float *det_ab
, float a
, const float *az
, float b
, const float *bz
, const float *c
)
761 size_t temp48_len
, temp32_len
, temp16a_len
, temp16b_len
, temp16c_len
, temp8_len
;
762 float temp48
[48], temp32
[32], temp16a
[16], temp16b
[16], temp16c
[16], temp8
[8];
765 d2d_fp_scale_expansion_zeroelim(det_abt
, det_abt_len
, det_ab
, 4, c
[0]);
766 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, det_abt
, *det_abt_len
, 2.0f
* c
[1]);
767 d2d_fp_scale_expansion_zeroelim(temp8
, &temp8_len
, az
, 4, c
[0]);
768 d2d_fp_scale_expansion_zeroelim(temp16b
, &temp16b_len
, temp8
, temp8_len
, b
);
769 d2d_fp_scale_expansion_zeroelim(temp8
, &temp8_len
, bz
, 4, c
[0]);
770 d2d_fp_scale_expansion_zeroelim(temp16c
, &temp16c_len
, temp8
, temp8_len
, -a
);
771 d2d_fp_fast_expansion_sum_zeroelim(temp32
, &temp32_len
, temp16a
, temp16a_len
, temp16b
, temp16b_len
);
772 d2d_fp_fast_expansion_sum_zeroelim(temp48
, &temp48_len
, temp16c
, temp16c_len
, temp32
, temp32_len
);
773 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp48
, temp48_len
);
774 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
777 static void d2d_cdt_incircle_refine2(struct d2d_fp_fin
*fin
, const struct d2d_fp_two_vec2
*a
,
778 const struct d2d_fp_two_vec2
*b
, const float *bz
, const struct d2d_fp_two_vec2
*c
, const float *cz
,
779 const float *axt_det_bc
, size_t axt_det_bc_len
, const float *ayt_det_bc
, size_t ayt_det_bc_len
)
781 size_t temp64_len
, temp48_len
, temp32a_len
, temp32b_len
, temp16a_len
, temp16b_len
, temp8_len
;
782 float temp64
[64], temp48
[48], temp32a
[32], temp32b
[32], temp16a
[16], temp16b
[16], temp8
[8];
783 float bct
[8], bctt
[4], temp4a
[4], temp4b
[4], temp2a
[2], temp2b
[2];
784 size_t bct_len
, bctt_len
;
787 /* bct = (b->x[0] * c->y[1] + b->x[1] * c->y[0]) - (c->x[0] * b->y[1] + c->x[1] * b->y[0]) */
788 /* bctt = b->x[0] * c->y[0] + c->x[0] * b->y[0] */
789 if (b
->x
[0] != 0.0f
|| b
->y
[0] != 0.0f
|| c
->x
[0] != 0.0f
|| c
->y
[0] != 0.0f
)
791 d2d_fp_two_product(temp2a
, b
->x
[0], c
->y
[1]);
792 d2d_fp_two_product(temp2b
, b
->x
[1], c
->y
[0]);
793 d2d_fp_two_two_sum(temp4a
, temp2a
, temp2b
);
794 d2d_fp_two_product(temp2a
, c
->x
[0], -b
->y
[1]);
795 d2d_fp_two_product(temp2b
, c
->x
[1], -b
->y
[0]);
796 d2d_fp_two_two_sum(temp4b
, temp2a
, temp2b
);
797 d2d_fp_fast_expansion_sum_zeroelim(bct
, &bct_len
, temp4a
, 4, temp4b
, 4);
799 d2d_fp_two_product(temp2a
, b
->x
[0], c
->y
[0]);
800 d2d_fp_two_product(temp2b
, c
->x
[0], b
->y
[0]);
801 d2d_fp_two_two_diff(bctt
, temp2a
, temp2b
);
814 size_t axt_bct_len
, axt_bctt_len
;
815 float axt_bct
[16], axt_bctt
[8];
817 /* fin += a->x[0] * (axt_det_bc + bct * 2.0f * a->x[1]) */
818 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, axt_det_bc
, axt_det_bc_len
, a
->x
[0]);
819 d2d_fp_scale_expansion_zeroelim(axt_bct
, &axt_bct_len
, bct
, bct_len
, a
->x
[0]);
820 d2d_fp_scale_expansion_zeroelim(temp32a
, &temp32a_len
, axt_bct
, axt_bct_len
, 2.0f
* a
->x
[1]);
821 d2d_fp_fast_expansion_sum_zeroelim(temp48
, &temp48_len
, temp16a
, temp16a_len
, temp32a
, temp32a_len
);
822 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp48
, temp48_len
);
823 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
827 /* fin += a->x[0] * cz * b->y[0] */
828 d2d_fp_scale_expansion_zeroelim(temp8
, &temp8_len
, cz
, 4, a
->x
[0]);
829 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, temp8
, temp8_len
, b
->y
[0]);
830 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp16a
, temp16a_len
);
831 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
836 /* fin -= a->x[0] * bz * c->y[0] */
837 d2d_fp_scale_expansion_zeroelim(temp8
, &temp8_len
, bz
, 4, -a
->x
[0]);
838 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, temp8
, temp8_len
, c
->y
[0]);
839 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp16a
, temp16a_len
);
840 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
843 /* fin += a->x[0] * (bct * a->x[0] + bctt * (2.0f * a->x[1] + a->x[0])) */
844 d2d_fp_scale_expansion_zeroelim(temp32a
, &temp32a_len
, axt_bct
, axt_bct_len
, a
->x
[0]);
845 d2d_fp_scale_expansion_zeroelim(axt_bctt
, &axt_bctt_len
, bctt
, bctt_len
, a
->x
[0]);
846 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, axt_bctt
, axt_bctt_len
, 2.0f
* a
->x
[1]);
847 d2d_fp_scale_expansion_zeroelim(temp16b
, &temp16b_len
, axt_bctt
, axt_bctt_len
, a
->x
[0]);
848 d2d_fp_fast_expansion_sum_zeroelim(temp32b
, &temp32b_len
, temp16a
, temp16a_len
, temp16b
, temp16b_len
);
849 d2d_fp_fast_expansion_sum_zeroelim(temp64
, &temp64_len
, temp32a
, temp32a_len
, temp32b
, temp32b_len
);
850 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp64
, temp64_len
);
851 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
856 size_t ayt_bct_len
, ayt_bctt_len
;
857 float ayt_bct
[16], ayt_bctt
[8];
859 /* fin += a->y[0] * (ayt_det_bc + bct * 2.0f * a->y[1]) */
860 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, ayt_det_bc
, ayt_det_bc_len
, a
->y
[0]);
861 d2d_fp_scale_expansion_zeroelim(ayt_bct
, &ayt_bct_len
, bct
, bct_len
, a
->y
[0]);
862 d2d_fp_scale_expansion_zeroelim(temp32a
, &temp32a_len
, ayt_bct
, ayt_bct_len
, 2.0f
* a
->y
[1]);
863 d2d_fp_fast_expansion_sum_zeroelim(temp48
, &temp48_len
, temp16a
, temp16a_len
, temp32a
, temp32a_len
);
864 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp48
, temp48_len
);
865 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
867 /* fin += a->y[0] * (bct * a->y[0] + bctt * (2.0f * a->y[1] + a->y[0])) */
868 d2d_fp_scale_expansion_zeroelim(temp32a
, &temp32a_len
, ayt_bct
, ayt_bct_len
, a
->y
[0]);
869 d2d_fp_scale_expansion_zeroelim(ayt_bctt
, &ayt_bctt_len
, bctt
, bctt_len
, a
->y
[0]);
870 d2d_fp_scale_expansion_zeroelim(temp16a
, &temp16a_len
, ayt_bctt
, ayt_bctt_len
, 2.0f
* a
->y
[1]);
871 d2d_fp_scale_expansion_zeroelim(temp16b
, &temp16b_len
, ayt_bctt
, ayt_bctt_len
, a
->y
[0]);
872 d2d_fp_fast_expansion_sum_zeroelim(temp32b
, &temp32b_len
, temp16a
, temp16a_len
, temp16b
, temp16b_len
);
873 d2d_fp_fast_expansion_sum_zeroelim(temp64
, &temp64_len
, temp32a
, temp32a_len
, temp32b
, temp32b_len
);
874 d2d_fp_fast_expansion_sum_zeroelim(fin
->other
, &fin
->length
, fin
->now
, fin
->length
, temp64
, temp64_len
);
875 swap
= fin
->now
; fin
->now
= fin
->other
; fin
->other
= swap
;
879 /* Determine if point D is inside or outside the circle defined by points A,
880 * B, C. As explained in the paper by Guibas and Stolfi, this is equivalent to
881 * calculating the signed volume of the tetrahedron defined by projecting the
882 * points onto the paraboloid of revolution x = x² + y²,
883 * λ:(x, y) → (x, y, x² + y²). I.e., D is inside the cirlce if
890 * After translating D to the origin, that becomes:
896 * This implementation is based on the paper "Adaptive Precision
897 * Floating-Point Arithmetic and Fast Robust Geometric Predicates" and
898 * associated (Public Domain) code by Jonathan Richard Shewchuk. */
899 static BOOL
d2d_cdt_incircle(const struct d2d_cdt
*cdt
, size_t a
, size_t b
, size_t c
, size_t d
)
901 static const float err_bound_result
= (3.0f
+ 8.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
902 static const float err_bound_a
= (10.0f
+ 96.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
903 static const float err_bound_b
= (4.0f
+ 48.0f
* D2D_FP_EPS
) * D2D_FP_EPS
;
904 static const float err_bound_c
= (44.0f
+ 576.0f
* D2D_FP_EPS
) * D2D_FP_EPS
* D2D_FP_EPS
;
906 size_t axt_det_bc_len
, ayt_det_bc_len
, bxt_det_ca_len
, byt_det_ca_len
, cxt_det_ab_len
, cyt_det_ab_len
;
907 float axt_det_bc
[8], ayt_det_bc
[8], bxt_det_ca
[8], byt_det_ca
[8], cxt_det_ab
[8], cyt_det_ab
[8];
908 float fin1
[1152], fin2
[1152], temp64
[64], sub_det_a
[32], sub_det_b
[32], sub_det_c
[32];
909 float det_bc
[4], det_ca
[4], det_ab
[4], daz
[4], dbz
[4], dcz
[4], temp2a
[2], temp2b
[2];
910 size_t temp64_len
, sub_det_a_len
, sub_det_b_len
, sub_det_c_len
;
911 float dbxdcy
, dbydcx
, dcxday
, dcydax
, daxdby
, daydbx
;
912 const D2D1_POINT_2F
*p
= cdt
->vertices
;
913 struct d2d_fp_two_vec2 da
, db
, dc
;
914 float permanent
, err_bound
, det
;
915 struct d2d_fp_fin fin
;
917 da
.x
[1] = p
[a
].x
- p
[d
].x
;
918 da
.y
[1] = p
[a
].y
- p
[d
].y
;
919 db
.x
[1] = p
[b
].x
- p
[d
].x
;
920 db
.y
[1] = p
[b
].y
- p
[d
].y
;
921 dc
.x
[1] = p
[c
].x
- p
[d
].x
;
922 dc
.y
[1] = p
[c
].y
- p
[d
].y
;
924 daz
[3] = da
.x
[1] * da
.x
[1] + da
.y
[1] * da
.y
[1];
925 dbxdcy
= db
.x
[1] * dc
.y
[1];
926 dbydcx
= db
.y
[1] * dc
.x
[1];
928 dbz
[3] = db
.x
[1] * db
.x
[1] + db
.y
[1] * db
.y
[1];
929 dcxday
= dc
.x
[1] * da
.y
[1];
930 dcydax
= dc
.y
[1] * da
.x
[1];
932 dcz
[3] = dc
.x
[1] * dc
.x
[1] + dc
.y
[1] * dc
.y
[1];
933 daxdby
= da
.x
[1] * db
.y
[1];
934 daydbx
= da
.y
[1] * db
.x
[1];
936 det
= daz
[3] * (dbxdcy
- dbydcx
) + dbz
[3] * (dcxday
- dcydax
) + dcz
[3] * (daxdby
- daydbx
);
937 permanent
= daz
[3] * (fabsf(dbxdcy
) + fabsf(dbydcx
))
938 + dbz
[3] * (fabsf(dcxday
) + fabsf(dcydax
))
939 + dcz
[3] * (fabsf(daxdby
) + fabsf(daydbx
));
940 err_bound
= err_bound_a
* permanent
;
941 if (det
> err_bound
|| -det
> err_bound
)
947 d2d_fp_four_det2x2(det_bc
, db
.x
[1], db
.y
[1], dc
.x
[1], dc
.y
[1]);
948 d2d_fp_sub_det3x3(sub_det_a
, &sub_det_a_len
, &da
, det_bc
);
950 d2d_fp_four_det2x2(det_ca
, dc
.x
[1], dc
.y
[1], da
.x
[1], da
.y
[1]);
951 d2d_fp_sub_det3x3(sub_det_b
, &sub_det_b_len
, &db
, det_ca
);
953 d2d_fp_four_det2x2(det_ab
, da
.x
[1], da
.y
[1], db
.x
[1], db
.y
[1]);
954 d2d_fp_sub_det3x3(sub_det_c
, &sub_det_c_len
, &dc
, det_ab
);
956 d2d_fp_fast_expansion_sum_zeroelim(temp64
, &temp64_len
, sub_det_a
, sub_det_a_len
, sub_det_b
, sub_det_b_len
);
957 d2d_fp_fast_expansion_sum_zeroelim(fin
.now
, &fin
.length
, temp64
, temp64_len
, sub_det_c
, sub_det_c_len
);
958 det
= d2d_fp_estimate(fin
.now
, fin
.length
);
959 err_bound
= err_bound_b
* permanent
;
960 if (det
>= err_bound
|| -det
>= err_bound
)
963 d2d_fp_two_diff_tail(&da
.x
[0], p
[a
].x
, p
[d
].x
, da
.x
[1]);
964 d2d_fp_two_diff_tail(&da
.y
[0], p
[a
].y
, p
[d
].y
, da
.y
[1]);
965 d2d_fp_two_diff_tail(&db
.x
[0], p
[b
].x
, p
[d
].x
, db
.x
[1]);
966 d2d_fp_two_diff_tail(&db
.y
[0], p
[b
].y
, p
[d
].y
, db
.y
[1]);
967 d2d_fp_two_diff_tail(&dc
.x
[0], p
[c
].x
, p
[d
].x
, dc
.x
[1]);
968 d2d_fp_two_diff_tail(&dc
.y
[0], p
[c
].y
, p
[d
].y
, dc
.y
[1]);
969 if (da
.x
[0] == 0.0f
&& db
.x
[0] == 0.0f
&& dc
.x
[0] == 0.0f
970 && da
.y
[0] == 0.0f
&& db
.y
[0] == 0.0f
&& dc
.y
[0] == 0.0f
)
973 err_bound
= err_bound_c
* permanent
+ err_bound_result
* fabsf(det
);
974 det
+= (daz
[3] * ((db
.x
[1] * dc
.y
[0] + dc
.y
[1] * db
.x
[0]) - (db
.y
[1] * dc
.x
[0] + dc
.x
[1] * db
.y
[0]))
975 + 2.0f
* (da
.x
[1] * da
.x
[0] + da
.y
[1] * da
.y
[0]) * (db
.x
[1] * dc
.y
[1] - db
.y
[1] * dc
.x
[1]))
976 + (dbz
[3] * ((dc
.x
[1] * da
.y
[0] + da
.y
[1] * dc
.x
[0]) - (dc
.y
[1] * da
.x
[0] + da
.x
[1] * dc
.y
[0]))
977 + 2.0f
* (db
.x
[1] * db
.x
[0] + db
.y
[1] * db
.y
[0]) * (dc
.x
[1] * da
.y
[1] - dc
.y
[1] * da
.x
[1]))
978 + (dcz
[3] * ((da
.x
[1] * db
.y
[0] + db
.y
[1] * da
.x
[0]) - (da
.y
[1] * db
.x
[0] + db
.x
[1] * da
.y
[0]))
979 + 2.0f
* (dc
.x
[1] * dc
.x
[0] + dc
.y
[1] * dc
.y
[0]) * (da
.x
[1] * db
.y
[1] - da
.y
[1] * db
.x
[1]));
980 if (det
>= err_bound
|| -det
>= err_bound
)
983 if (db
.x
[0] != 0.0f
|| db
.y
[0] != 0.0f
|| dc
.x
[0] != 0.0f
|| dc
.y
[0] != 0.0f
)
985 d2d_fp_square(temp2a
, da
.x
[1]);
986 d2d_fp_square(temp2b
, da
.y
[1]);
987 d2d_fp_two_two_sum(daz
, temp2a
, temp2b
);
989 if (dc
.x
[0] != 0.0f
|| dc
.y
[0] != 0.0f
|| da
.x
[0] != 0.0f
|| da
.y
[0] != 0.0f
)
991 d2d_fp_square(temp2a
, db
.x
[1]);
992 d2d_fp_square(temp2b
, db
.y
[1]);
993 d2d_fp_two_two_sum(dbz
, temp2a
, temp2b
);
995 if (da
.x
[0] != 0.0f
|| da
.y
[0] != 0.0f
|| db
.x
[0] != 0.0f
|| db
.y
[0] != 0.0f
)
997 d2d_fp_square(temp2a
, dc
.x
[1]);
998 d2d_fp_square(temp2b
, dc
.y
[1]);
999 d2d_fp_two_two_sum(dcz
, temp2a
, temp2b
);
1002 if (da
.x
[0] != 0.0f
)
1003 d2d_cdt_incircle_refine1(&fin
, axt_det_bc
, &axt_det_bc_len
, det_bc
, dc
.y
[1], dcz
, db
.y
[1], dbz
, da
.x
);
1004 if (da
.y
[0] != 0.0f
)
1005 d2d_cdt_incircle_refine1(&fin
, ayt_det_bc
, &ayt_det_bc_len
, det_bc
, db
.x
[1], dbz
, dc
.x
[1], dcz
, da
.y
);
1006 if (db
.x
[0] != 0.0f
)
1007 d2d_cdt_incircle_refine1(&fin
, bxt_det_ca
, &bxt_det_ca_len
, det_ca
, da
.y
[1], daz
, dc
.y
[1], dcz
, db
.x
);
1008 if (db
.y
[0] != 0.0f
)
1009 d2d_cdt_incircle_refine1(&fin
, byt_det_ca
, &byt_det_ca_len
, det_ca
, dc
.x
[1], dcz
, da
.x
[1], daz
, db
.y
);
1010 if (dc
.x
[0] != 0.0f
)
1011 d2d_cdt_incircle_refine1(&fin
, cxt_det_ab
, &cxt_det_ab_len
, det_ab
, db
.y
[1], dbz
, da
.y
[1], daz
, dc
.x
);
1012 if (dc
.y
[0] != 0.0f
)
1013 d2d_cdt_incircle_refine1(&fin
, cyt_det_ab
, &cyt_det_ab_len
, det_ab
, da
.x
[1], daz
, db
.x
[1], dbz
, dc
.y
);
1015 if (da
.x
[0] != 0.0f
|| da
.y
[0] != 0.0f
)
1016 d2d_cdt_incircle_refine2(&fin
, &da
, &db
, dbz
, &dc
, dcz
,
1017 axt_det_bc
, axt_det_bc_len
, ayt_det_bc
, ayt_det_bc_len
);
1018 if (db
.x
[0] != 0.0f
|| db
.y
[0] != 0.0f
)
1019 d2d_cdt_incircle_refine2(&fin
, &db
, &dc
, dcz
, &da
, daz
,
1020 bxt_det_ca
, bxt_det_ca_len
, byt_det_ca
, byt_det_ca_len
);
1021 if (dc
.x
[0] != 0.0f
|| dc
.y
[0] != 0.0f
)
1022 d2d_cdt_incircle_refine2(&fin
, &dc
, &da
, daz
, &db
, dbz
,
1023 cxt_det_ab
, cxt_det_ab_len
, cyt_det_ab
, cyt_det_ab_len
);
1025 return fin
.now
[fin
.length
- 1] > 0.0f
;
1028 static void d2d_cdt_splice(const struct d2d_cdt
*cdt
, const struct d2d_cdt_edge_ref
*a
,
1029 const struct d2d_cdt_edge_ref
*b
)
1031 struct d2d_cdt_edge_ref ta
, tb
, alpha
, beta
;
1033 ta
= cdt
->edges
[a
->idx
].next
[a
->r
];
1034 tb
= cdt
->edges
[b
->idx
].next
[b
->r
];
1035 cdt
->edges
[a
->idx
].next
[a
->r
] = tb
;
1036 cdt
->edges
[b
->idx
].next
[b
->r
] = ta
;
1038 d2d_cdt_edge_rot(&alpha
, &ta
);
1039 d2d_cdt_edge_rot(&beta
, &tb
);
1041 ta
= cdt
->edges
[alpha
.idx
].next
[alpha
.r
];
1042 tb
= cdt
->edges
[beta
.idx
].next
[beta
.r
];
1043 cdt
->edges
[alpha
.idx
].next
[alpha
.r
] = tb
;
1044 cdt
->edges
[beta
.idx
].next
[beta
.r
] = ta
;
1047 static BOOL
d2d_cdt_create_edge(struct d2d_cdt
*cdt
, struct d2d_cdt_edge_ref
*e
)
1049 struct d2d_cdt_edge
*edge
;
1051 if (cdt
->free_edge
!= ~0u)
1053 e
->idx
= cdt
->free_edge
;
1054 cdt
->free_edge
= cdt
->edges
[e
->idx
].next
[D2D_EDGE_NEXT_ORIGIN
].idx
;
1058 if (!d2d_array_reserve((void **)&cdt
->edges
, &cdt
->edges_size
, cdt
->edge_count
+ 1, sizeof(*cdt
->edges
)))
1060 ERR("Failed to grow edges array.\n");
1063 e
->idx
= cdt
->edge_count
++;
1067 edge
= &cdt
->edges
[e
->idx
];
1068 edge
->next
[D2D_EDGE_NEXT_ORIGIN
] = *e
;
1069 d2d_cdt_edge_tor(&edge
->next
[D2D_EDGE_NEXT_ROT
], e
);
1070 d2d_cdt_edge_sym(&edge
->next
[D2D_EDGE_NEXT_SYM
], e
);
1071 d2d_cdt_edge_rot(&edge
->next
[D2D_EDGE_NEXT_TOR
], e
);
1077 static void d2d_cdt_destroy_edge(struct d2d_cdt
*cdt
, const struct d2d_cdt_edge_ref
*e
)
1079 struct d2d_cdt_edge_ref next
, sym
, prev
;
1081 d2d_cdt_edge_next_origin(cdt
, &next
, e
);
1082 if (next
.idx
!= e
->idx
|| next
.r
!= e
->r
)
1084 d2d_cdt_edge_prev_origin(cdt
, &prev
, e
);
1085 d2d_cdt_splice(cdt
, e
, &prev
);
1088 d2d_cdt_edge_sym(&sym
, e
);
1090 d2d_cdt_edge_next_origin(cdt
, &next
, &sym
);
1091 if (next
.idx
!= sym
.idx
|| next
.r
!= sym
.r
)
1093 d2d_cdt_edge_prev_origin(cdt
, &prev
, &sym
);
1094 d2d_cdt_splice(cdt
, &sym
, &prev
);
1097 cdt
->edges
[e
->idx
].flags
|= D2D_CDT_EDGE_FLAG_FREED
;
1098 cdt
->edges
[e
->idx
].next
[D2D_EDGE_NEXT_ORIGIN
].idx
= cdt
->free_edge
;
1099 cdt
->free_edge
= e
->idx
;
1102 static BOOL
d2d_cdt_connect(struct d2d_cdt
*cdt
, struct d2d_cdt_edge_ref
*e
,
1103 const struct d2d_cdt_edge_ref
*a
, const struct d2d_cdt_edge_ref
*b
)
1105 struct d2d_cdt_edge_ref tmp
;
1107 if (!d2d_cdt_create_edge(cdt
, e
))
1109 d2d_cdt_edge_set_origin(cdt
, e
, d2d_cdt_edge_destination(cdt
, a
));
1110 d2d_cdt_edge_set_destination(cdt
, e
, d2d_cdt_edge_origin(cdt
, b
));
1111 d2d_cdt_edge_next_left(cdt
, &tmp
, a
);
1112 d2d_cdt_splice(cdt
, e
, &tmp
);
1113 d2d_cdt_edge_sym(&tmp
, e
);
1114 d2d_cdt_splice(cdt
, &tmp
, b
);
1119 static BOOL
d2d_cdt_merge(struct d2d_cdt
*cdt
, struct d2d_cdt_edge_ref
*left_outer
,
1120 struct d2d_cdt_edge_ref
*left_inner
, struct d2d_cdt_edge_ref
*right_inner
,
1121 struct d2d_cdt_edge_ref
*right_outer
)
1123 struct d2d_cdt_edge_ref base_edge
, tmp
;
1125 /* Create the base edge between both parts. */
1128 if (d2d_cdt_leftof(cdt
, d2d_cdt_edge_origin(cdt
, right_inner
), left_inner
))
1130 d2d_cdt_edge_next_left(cdt
, left_inner
, left_inner
);
1132 else if (d2d_cdt_rightof(cdt
, d2d_cdt_edge_origin(cdt
, left_inner
), right_inner
))
1134 d2d_cdt_edge_sym(&tmp
, right_inner
);
1135 d2d_cdt_edge_next_origin(cdt
, right_inner
, &tmp
);
1143 d2d_cdt_edge_sym(&tmp
, right_inner
);
1144 if (!d2d_cdt_connect(cdt
, &base_edge
, &tmp
, left_inner
))
1146 if (d2d_cdt_edge_origin(cdt
, left_inner
) == d2d_cdt_edge_origin(cdt
, left_outer
))
1147 d2d_cdt_edge_sym(left_outer
, &base_edge
);
1148 if (d2d_cdt_edge_origin(cdt
, right_inner
) == d2d_cdt_edge_origin(cdt
, right_outer
))
1149 *right_outer
= base_edge
;
1153 struct d2d_cdt_edge_ref left_candidate
, right_candidate
, sym_base_edge
;
1154 BOOL left_valid
, right_valid
;
1156 /* Find the left candidate. */
1157 d2d_cdt_edge_sym(&sym_base_edge
, &base_edge
);
1158 d2d_cdt_edge_next_origin(cdt
, &left_candidate
, &sym_base_edge
);
1159 if ((left_valid
= d2d_cdt_leftof(cdt
, d2d_cdt_edge_destination(cdt
, &left_candidate
), &sym_base_edge
)))
1161 d2d_cdt_edge_next_origin(cdt
, &tmp
, &left_candidate
);
1162 while (d2d_cdt_edge_destination(cdt
, &tmp
) != d2d_cdt_edge_destination(cdt
, &sym_base_edge
)
1163 && d2d_cdt_incircle(cdt
,
1164 d2d_cdt_edge_origin(cdt
, &sym_base_edge
), d2d_cdt_edge_destination(cdt
, &sym_base_edge
),
1165 d2d_cdt_edge_destination(cdt
, &left_candidate
), d2d_cdt_edge_destination(cdt
, &tmp
)))
1167 d2d_cdt_destroy_edge(cdt
, &left_candidate
);
1168 left_candidate
= tmp
;
1169 d2d_cdt_edge_next_origin(cdt
, &tmp
, &left_candidate
);
1172 d2d_cdt_edge_sym(&left_candidate
, &left_candidate
);
1174 /* Find the right candidate. */
1175 d2d_cdt_edge_prev_origin(cdt
, &right_candidate
, &base_edge
);
1176 if ((right_valid
= d2d_cdt_rightof(cdt
, d2d_cdt_edge_destination(cdt
, &right_candidate
), &base_edge
)))
1178 d2d_cdt_edge_prev_origin(cdt
, &tmp
, &right_candidate
);
1179 while (d2d_cdt_edge_destination(cdt
, &tmp
) != d2d_cdt_edge_destination(cdt
, &base_edge
)
1180 && d2d_cdt_incircle(cdt
,
1181 d2d_cdt_edge_origin(cdt
, &sym_base_edge
), d2d_cdt_edge_destination(cdt
, &sym_base_edge
),
1182 d2d_cdt_edge_destination(cdt
, &right_candidate
), d2d_cdt_edge_destination(cdt
, &tmp
)))
1184 d2d_cdt_destroy_edge(cdt
, &right_candidate
);
1185 right_candidate
= tmp
;
1186 d2d_cdt_edge_prev_origin(cdt
, &tmp
, &right_candidate
);
1190 if (!left_valid
&& !right_valid
)
1193 /* Connect the appropriate candidate with the base edge. */
1194 if (!left_valid
|| (right_valid
&& d2d_cdt_incircle(cdt
,
1195 d2d_cdt_edge_origin(cdt
, &left_candidate
), d2d_cdt_edge_destination(cdt
, &left_candidate
),
1196 d2d_cdt_edge_origin(cdt
, &right_candidate
), d2d_cdt_edge_destination(cdt
, &right_candidate
))))
1198 if (!d2d_cdt_connect(cdt
, &base_edge
, &right_candidate
, &sym_base_edge
))
1203 if (!d2d_cdt_connect(cdt
, &base_edge
, &sym_base_edge
, &left_candidate
))
1211 /* Create a Delaunay triangulation from a set of vertices. This is an
1212 * implementation of the divide-and-conquer algorithm described by Guibas and
1213 * Stolfi. Should be called with at least two vertices. */
1214 static BOOL
d2d_cdt_triangulate(struct d2d_cdt
*cdt
, size_t start_vertex
, size_t vertex_count
,
1215 struct d2d_cdt_edge_ref
*left_edge
, struct d2d_cdt_edge_ref
*right_edge
)
1217 struct d2d_cdt_edge_ref left_inner
, left_outer
, right_inner
, right_outer
, tmp
;
1220 /* Only two vertices, create a single edge. */
1221 if (vertex_count
== 2)
1223 struct d2d_cdt_edge_ref a
;
1225 if (!d2d_cdt_create_edge(cdt
, &a
))
1227 d2d_cdt_edge_set_origin(cdt
, &a
, start_vertex
);
1228 d2d_cdt_edge_set_destination(cdt
, &a
, start_vertex
+ 1);
1231 d2d_cdt_edge_sym(right_edge
, &a
);
1236 /* Three vertices, create a triangle. */
1237 if (vertex_count
== 3)
1239 struct d2d_cdt_edge_ref a
, b
, c
;
1242 if (!d2d_cdt_create_edge(cdt
, &a
))
1244 if (!d2d_cdt_create_edge(cdt
, &b
))
1246 d2d_cdt_edge_sym(&tmp
, &a
);
1247 d2d_cdt_splice(cdt
, &tmp
, &b
);
1249 d2d_cdt_edge_set_origin(cdt
, &a
, start_vertex
);
1250 d2d_cdt_edge_set_destination(cdt
, &a
, start_vertex
+ 1);
1251 d2d_cdt_edge_set_origin(cdt
, &b
, start_vertex
+ 1);
1252 d2d_cdt_edge_set_destination(cdt
, &b
, start_vertex
+ 2);
1254 det
= d2d_cdt_ccw(cdt
, start_vertex
, start_vertex
+ 1, start_vertex
+ 2);
1255 if (det
!= 0.0f
&& !d2d_cdt_connect(cdt
, &c
, &b
, &a
))
1260 d2d_cdt_edge_sym(left_edge
, &c
);
1266 d2d_cdt_edge_sym(right_edge
, &b
);
1272 /* More than tree vertices, divide. */
1273 cut
= vertex_count
/ 2;
1274 if (!d2d_cdt_triangulate(cdt
, start_vertex
, cut
, &left_outer
, &left_inner
))
1276 if (!d2d_cdt_triangulate(cdt
, start_vertex
+ cut
, vertex_count
- cut
, &right_inner
, &right_outer
))
1278 /* Merge the left and right parts. */
1279 if (!d2d_cdt_merge(cdt
, &left_outer
, &left_inner
, &right_inner
, &right_outer
))
1282 *left_edge
= left_outer
;
1283 *right_edge
= right_outer
;
1287 static int __cdecl
d2d_cdt_compare_vertices(const void *a
, const void *b
)
1289 const D2D1_POINT_2F
*p0
= a
;
1290 const D2D1_POINT_2F
*p1
= b
;
1291 float diff
= p0
->x
- p1
->x
;
1294 diff
= p0
->y
- p1
->y
;
1296 return diff
== 0.0f
? 0 : (diff
> 0.0f
? 1 : -1);
1299 /* Determine whether a given point is inside the geometry, using the current
1300 * fill mode rule. */
1301 static BOOL
d2d_path_geometry_point_inside(const struct d2d_geometry
*geometry
,
1302 const D2D1_POINT_2F
*probe
, BOOL triangles_only
)
1304 const D2D1_POINT_2F
*p0
, *p1
;
1305 D2D1_POINT_2F v_p
, v_probe
;
1309 for (i
= 0, score
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
1311 const struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[i
];
1313 if (probe
->x
< figure
->bounds
.left
|| probe
->x
> figure
->bounds
.right
1314 || probe
->y
< figure
->bounds
.top
|| probe
->y
> figure
->bounds
.bottom
)
1317 last
= figure
->vertex_count
- 1;
1318 if (!triangles_only
)
1320 while (last
&& figure
->vertex_types
[last
] == D2D_VERTEX_TYPE_NONE
)
1323 p0
= &figure
->vertices
[last
];
1324 for (j
= 0; j
<= last
; ++j
)
1326 if (!triangles_only
&& figure
->vertex_types
[j
] == D2D_VERTEX_TYPE_NONE
)
1329 p1
= &figure
->vertices
[j
];
1330 d2d_point_subtract(&v_p
, p1
, p0
);
1331 d2d_point_subtract(&v_probe
, probe
, p0
);
1333 if ((probe
->y
< p0
->y
) != (probe
->y
< p1
->y
) && v_probe
.x
< v_p
.x
* (v_probe
.y
/ v_p
.y
))
1335 if (geometry
->u
.path
.fill_mode
== D2D1_FILL_MODE_ALTERNATE
|| (probe
->y
< p0
->y
))
1345 return geometry
->u
.path
.fill_mode
== D2D1_FILL_MODE_ALTERNATE
? score
& 1 : score
;
1348 static BOOL
d2d_path_geometry_add_fill_face(struct d2d_geometry
*geometry
, const struct d2d_cdt
*cdt
,
1349 const struct d2d_cdt_edge_ref
*base_edge
)
1351 struct d2d_cdt_edge_ref tmp
;
1352 struct d2d_face
*face
;
1353 D2D1_POINT_2F probe
;
1355 if (cdt
->edges
[base_edge
->idx
].flags
& D2D_CDT_EDGE_FLAG_VISITED(base_edge
->r
))
1358 if (!d2d_array_reserve((void **)&geometry
->fill
.faces
, &geometry
->fill
.faces_size
,
1359 geometry
->fill
.face_count
+ 1, sizeof(*geometry
->fill
.faces
)))
1361 ERR("Failed to grow faces array.\n");
1365 face
= &geometry
->fill
.faces
[geometry
->fill
.face_count
];
1367 /* It may seem tempting to use the center of the face as probe origin, but
1368 * multiplying by powers of two works much better for preserving accuracy. */
1371 cdt
->edges
[tmp
.idx
].flags
|= D2D_CDT_EDGE_FLAG_VISITED(tmp
.r
);
1372 face
->v
[0] = d2d_cdt_edge_origin(cdt
, &tmp
);
1373 probe
.x
= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].x
* 0.25f
;
1374 probe
.y
= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].y
* 0.25f
;
1376 d2d_cdt_edge_next_left(cdt
, &tmp
, &tmp
);
1377 cdt
->edges
[tmp
.idx
].flags
|= D2D_CDT_EDGE_FLAG_VISITED(tmp
.r
);
1378 face
->v
[1] = d2d_cdt_edge_origin(cdt
, &tmp
);
1379 probe
.x
+= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].x
* 0.25f
;
1380 probe
.y
+= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].y
* 0.25f
;
1382 d2d_cdt_edge_next_left(cdt
, &tmp
, &tmp
);
1383 cdt
->edges
[tmp
.idx
].flags
|= D2D_CDT_EDGE_FLAG_VISITED(tmp
.r
);
1384 face
->v
[2] = d2d_cdt_edge_origin(cdt
, &tmp
);
1385 probe
.x
+= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].x
* 0.50f
;
1386 probe
.y
+= cdt
->vertices
[d2d_cdt_edge_origin(cdt
, &tmp
)].y
* 0.50f
;
1388 if (d2d_cdt_leftof(cdt
, face
->v
[2], base_edge
) && d2d_path_geometry_point_inside(geometry
, &probe
, TRUE
))
1389 ++geometry
->fill
.face_count
;
1394 static BOOL
d2d_cdt_generate_faces(const struct d2d_cdt
*cdt
, struct d2d_geometry
*geometry
)
1396 struct d2d_cdt_edge_ref base_edge
;
1399 for (i
= 0; i
< cdt
->edge_count
; ++i
)
1401 if (cdt
->edges
[i
].flags
& D2D_CDT_EDGE_FLAG_FREED
)
1406 if (!d2d_path_geometry_add_fill_face(geometry
, cdt
, &base_edge
))
1408 d2d_cdt_edge_sym(&base_edge
, &base_edge
);
1409 if (!d2d_path_geometry_add_fill_face(geometry
, cdt
, &base_edge
))
1416 heap_free(geometry
->fill
.faces
);
1417 geometry
->fill
.faces
= NULL
;
1418 geometry
->fill
.faces_size
= 0;
1419 geometry
->fill
.face_count
= 0;
1423 static BOOL
d2d_cdt_fixup(struct d2d_cdt
*cdt
, const struct d2d_cdt_edge_ref
*base_edge
)
1425 struct d2d_cdt_edge_ref candidate
, next
, new_base
;
1426 unsigned int count
= 0;
1428 d2d_cdt_edge_next_left(cdt
, &next
, base_edge
);
1429 if (next
.idx
== base_edge
->idx
)
1431 ERR("Degenerate face.\n");
1436 while (d2d_cdt_edge_destination(cdt
, &next
) != d2d_cdt_edge_origin(cdt
, base_edge
))
1438 if (d2d_cdt_incircle(cdt
, d2d_cdt_edge_origin(cdt
, base_edge
), d2d_cdt_edge_destination(cdt
, base_edge
),
1439 d2d_cdt_edge_destination(cdt
, &candidate
), d2d_cdt_edge_destination(cdt
, &next
)))
1441 d2d_cdt_edge_next_left(cdt
, &next
, &next
);
1447 d2d_cdt_edge_next_left(cdt
, &next
, &candidate
);
1448 if (d2d_cdt_edge_destination(cdt
, &next
) == d2d_cdt_edge_origin(cdt
, base_edge
))
1449 d2d_cdt_edge_next_left(cdt
, &next
, base_edge
);
1452 if (!d2d_cdt_connect(cdt
, &new_base
, &candidate
, &next
))
1454 if (!d2d_cdt_fixup(cdt
, &new_base
))
1456 d2d_cdt_edge_sym(&new_base
, &new_base
);
1457 if (!d2d_cdt_fixup(cdt
, &new_base
))
1464 static void d2d_cdt_cut_edges(struct d2d_cdt
*cdt
, struct d2d_cdt_edge_ref
*end_edge
,
1465 const struct d2d_cdt_edge_ref
*base_edge
, size_t start_vertex
, size_t end_vertex
)
1467 struct d2d_cdt_edge_ref next
;
1470 d2d_cdt_edge_next_left(cdt
, &next
, base_edge
);
1471 if (d2d_cdt_edge_destination(cdt
, &next
) == end_vertex
)
1477 ccw
= d2d_cdt_ccw(cdt
, d2d_cdt_edge_destination(cdt
, &next
), end_vertex
, start_vertex
);
1485 d2d_cdt_edge_next_left(cdt
, &next
, &next
);
1487 d2d_cdt_edge_sym(&next
, &next
);
1488 d2d_cdt_cut_edges(cdt
, end_edge
, &next
, start_vertex
, end_vertex
);
1489 d2d_cdt_destroy_edge(cdt
, &next
);
1492 static BOOL
d2d_cdt_insert_segment(struct d2d_cdt
*cdt
, struct d2d_geometry
*geometry
,
1493 const struct d2d_cdt_edge_ref
*origin
, struct d2d_cdt_edge_ref
*edge
, size_t end_vertex
)
1495 struct d2d_cdt_edge_ref base_edge
, current
, new_origin
, next
, target
;
1496 size_t current_destination
, current_origin
;
1498 for (current
= *origin
;; current
= next
)
1500 d2d_cdt_edge_next_origin(cdt
, &next
, ¤t
);
1502 current_destination
= d2d_cdt_edge_destination(cdt
, ¤t
);
1503 if (current_destination
== end_vertex
)
1505 d2d_cdt_edge_sym(edge
, ¤t
);
1509 current_origin
= d2d_cdt_edge_origin(cdt
, ¤t
);
1510 if (d2d_cdt_ccw(cdt
, end_vertex
, current_origin
, current_destination
) == 0.0f
1511 && (cdt
->vertices
[current_destination
].x
> cdt
->vertices
[current_origin
].x
)
1512 == (cdt
->vertices
[end_vertex
].x
> cdt
->vertices
[current_origin
].x
)
1513 && (cdt
->vertices
[current_destination
].y
> cdt
->vertices
[current_origin
].y
)
1514 == (cdt
->vertices
[end_vertex
].y
> cdt
->vertices
[current_origin
].y
))
1516 d2d_cdt_edge_sym(&new_origin
, ¤t
);
1517 return d2d_cdt_insert_segment(cdt
, geometry
, &new_origin
, edge
, end_vertex
);
1520 if (d2d_cdt_rightof(cdt
, end_vertex
, &next
) && d2d_cdt_leftof(cdt
, end_vertex
, ¤t
))
1522 d2d_cdt_edge_next_left(cdt
, &base_edge
, ¤t
);
1524 d2d_cdt_edge_sym(&base_edge
, &base_edge
);
1525 d2d_cdt_cut_edges(cdt
, &target
, &base_edge
, d2d_cdt_edge_origin(cdt
, origin
), end_vertex
);
1526 d2d_cdt_destroy_edge(cdt
, &base_edge
);
1528 if (!d2d_cdt_connect(cdt
, &base_edge
, &target
, ¤t
))
1531 if (!d2d_cdt_fixup(cdt
, &base_edge
))
1533 d2d_cdt_edge_sym(&base_edge
, &base_edge
);
1534 if (!d2d_cdt_fixup(cdt
, &base_edge
))
1537 if (d2d_cdt_edge_origin(cdt
, edge
) == end_vertex
)
1540 return d2d_cdt_insert_segment(cdt
, geometry
, &new_origin
, edge
, end_vertex
);
1543 if (next
.idx
== origin
->idx
)
1545 ERR("Triangle not found.\n");
1551 static BOOL
d2d_cdt_insert_segments(struct d2d_cdt
*cdt
, struct d2d_geometry
*geometry
)
1553 size_t start_vertex
, end_vertex
, i
, j
, k
;
1554 struct d2d_cdt_edge_ref edge
, new_edge
;
1555 const struct d2d_figure
*figure
;
1556 const D2D1_POINT_2F
*p
;
1559 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
1561 figure
= &geometry
->u
.path
.figures
[i
];
1563 if (figure
->flags
& D2D_FIGURE_FLAG_HOLLOW
)
1566 /* Degenerate figure. */
1567 if (figure
->vertex_count
< 2)
1570 p
= bsearch(&figure
->vertices
[figure
->vertex_count
- 1], cdt
->vertices
,
1571 geometry
->fill
.vertex_count
, sizeof(*p
), d2d_cdt_compare_vertices
);
1572 start_vertex
= p
- cdt
->vertices
;
1574 for (k
= 0, found
= FALSE
; k
< cdt
->edge_count
; ++k
)
1576 if (cdt
->edges
[k
].flags
& D2D_CDT_EDGE_FLAG_FREED
)
1582 if (d2d_cdt_edge_origin(cdt
, &edge
) == start_vertex
)
1587 d2d_cdt_edge_sym(&edge
, &edge
);
1588 if (d2d_cdt_edge_origin(cdt
, &edge
) == start_vertex
)
1597 ERR("Edge not found.\n");
1601 for (j
= 0; j
< figure
->vertex_count
; start_vertex
= end_vertex
, ++j
)
1603 p
= bsearch(&figure
->vertices
[j
], cdt
->vertices
,
1604 geometry
->fill
.vertex_count
, sizeof(*p
), d2d_cdt_compare_vertices
);
1605 end_vertex
= p
- cdt
->vertices
;
1607 if (start_vertex
== end_vertex
)
1610 if (!d2d_cdt_insert_segment(cdt
, geometry
, &edge
, &new_edge
, end_vertex
))
1619 static BOOL
d2d_geometry_intersections_add(struct d2d_geometry_intersections
*i
,
1620 const struct d2d_segment_idx
*segment_idx
, float t
, D2D1_POINT_2F p
)
1622 struct d2d_geometry_intersection
*intersection
;
1624 if (!d2d_array_reserve((void **)&i
->intersections
, &i
->intersections_size
,
1625 i
->intersection_count
+ 1, sizeof(*i
->intersections
)))
1627 ERR("Failed to grow intersections array.\n");
1631 intersection
= &i
->intersections
[i
->intersection_count
++];
1632 intersection
->figure_idx
= segment_idx
->figure_idx
;
1633 intersection
->vertex_idx
= segment_idx
->vertex_idx
;
1634 intersection
->control_idx
= segment_idx
->control_idx
;
1635 intersection
->t
= t
;
1636 intersection
->p
= p
;
1641 static int __cdecl
d2d_geometry_intersections_compare(const void *a
, const void *b
)
1643 const struct d2d_geometry_intersection
*i0
= a
;
1644 const struct d2d_geometry_intersection
*i1
= b
;
1646 if (i0
->figure_idx
!= i1
->figure_idx
)
1647 return i0
->figure_idx
- i1
->figure_idx
;
1648 if (i0
->vertex_idx
!= i1
->vertex_idx
)
1649 return i0
->vertex_idx
- i1
->vertex_idx
;
1651 return i0
->t
> i1
->t
? 1 : -1;
1655 static BOOL
d2d_geometry_intersect_line_line(struct d2d_geometry
*geometry
,
1656 struct d2d_geometry_intersections
*intersections
, const struct d2d_segment_idx
*idx_p
,
1657 const struct d2d_segment_idx
*idx_q
)
1659 D2D1_POINT_2F v_p
, v_q
, v_qp
, intersection
;
1660 const D2D1_POINT_2F
*p
[2], *q
[2];
1661 const struct d2d_figure
*figure
;
1665 figure
= &geometry
->u
.path
.figures
[idx_p
->figure_idx
];
1666 p
[0] = &figure
->vertices
[idx_p
->vertex_idx
];
1667 next
= idx_p
->vertex_idx
+ 1;
1668 if (next
== figure
->vertex_count
)
1670 p
[1] = &figure
->vertices
[next
];
1672 figure
= &geometry
->u
.path
.figures
[idx_q
->figure_idx
];
1673 q
[0] = &figure
->vertices
[idx_q
->vertex_idx
];
1674 next
= idx_q
->vertex_idx
+ 1;
1675 if (next
== figure
->vertex_count
)
1677 q
[1] = &figure
->vertices
[next
];
1679 d2d_point_subtract(&v_p
, p
[1], p
[0]);
1680 d2d_point_subtract(&v_q
, q
[1], q
[0]);
1681 d2d_point_subtract(&v_qp
, p
[0], q
[0]);
1683 det
= v_p
.x
* v_q
.y
- v_p
.y
* v_q
.x
;
1687 s
= (v_q
.x
* v_qp
.y
- v_q
.y
* v_qp
.x
) / det
;
1688 t
= (v_p
.x
* v_qp
.y
- v_p
.y
* v_qp
.x
) / det
;
1690 if (s
< 0.0f
|| s
> 1.0f
|| t
< 0.0f
|| t
> 1.0f
)
1693 intersection
.x
= p
[0]->x
+ v_p
.x
* s
;
1694 intersection
.y
= p
[0]->y
+ v_p
.y
* s
;
1696 if (s
> 0.0f
&& s
< 1.0f
&& !d2d_geometry_intersections_add(intersections
, idx_p
, s
, intersection
))
1699 if (t
> 0.0f
&& t
< 1.0f
&& !d2d_geometry_intersections_add(intersections
, idx_q
, t
, intersection
))
1705 static BOOL
d2d_geometry_add_bezier_line_intersections(struct d2d_geometry
*geometry
,
1706 struct d2d_geometry_intersections
*intersections
, const struct d2d_segment_idx
*idx_p
,
1707 const D2D1_POINT_2F
**p
, const struct d2d_segment_idx
*idx_q
, const D2D1_POINT_2F
**q
, float s
)
1709 D2D1_POINT_2F intersection
;
1712 d2d_point_calculate_bezier(&intersection
, p
[0], p
[1], p
[2], s
);
1713 if (fabsf(q
[1]->x
- q
[0]->x
) > fabsf(q
[1]->y
- q
[0]->y
))
1714 t
= (intersection
.x
- q
[0]->x
) / (q
[1]->x
- q
[0]->x
);
1716 t
= (intersection
.y
- q
[0]->y
) / (q
[1]->y
- q
[0]->y
);
1717 if (t
< 0.0f
|| t
> 1.0f
)
1720 d2d_point_lerp(&intersection
, q
[0], q
[1], t
);
1722 if (s
> 0.0f
&& s
< 1.0f
&& !d2d_geometry_intersections_add(intersections
, idx_p
, s
, intersection
))
1725 if (t
> 0.0f
&& t
< 1.0f
&& !d2d_geometry_intersections_add(intersections
, idx_q
, t
, intersection
))
1731 static BOOL
d2d_geometry_intersect_bezier_line(struct d2d_geometry
*geometry
,
1732 struct d2d_geometry_intersections
*intersections
,
1733 const struct d2d_segment_idx
*idx_p
, const struct d2d_segment_idx
*idx_q
)
1735 const D2D1_POINT_2F
*p
[3], *q
[2];
1736 const struct d2d_figure
*figure
;
1737 float y
[3], root
, theta
, d
, e
;
1740 figure
= &geometry
->u
.path
.figures
[idx_p
->figure_idx
];
1741 p
[0] = &figure
->vertices
[idx_p
->vertex_idx
];
1742 p
[1] = &figure
->bezier_controls
[idx_p
->control_idx
];
1743 next
= idx_p
->vertex_idx
+ 1;
1744 if (next
== figure
->vertex_count
)
1746 p
[2] = &figure
->vertices
[next
];
1748 figure
= &geometry
->u
.path
.figures
[idx_q
->figure_idx
];
1749 q
[0] = &figure
->vertices
[idx_q
->vertex_idx
];
1750 next
= idx_q
->vertex_idx
+ 1;
1751 if (next
== figure
->vertex_count
)
1753 q
[1] = &figure
->vertices
[next
];
1755 /* Align the line with x-axis. */
1756 theta
= -atan2f(q
[1]->y
- q
[0]->y
, q
[1]->x
- q
[0]->x
);
1757 y
[0] = (p
[0]->x
- q
[0]->x
) * sinf(theta
) + (p
[0]->y
- q
[0]->y
) * cosf(theta
);
1758 y
[1] = (p
[1]->x
- q
[0]->x
) * sinf(theta
) + (p
[1]->y
- q
[0]->y
) * cosf(theta
);
1759 y
[2] = (p
[2]->x
- q
[0]->x
) * sinf(theta
) + (p
[2]->y
- q
[0]->y
) * cosf(theta
);
1761 /* Intersect the transformed curve with the x-axis.
1763 * f(t) = (1 - t)²P₀ + 2(1 - t)tP₁ + t²P₂
1764 * = (P₀ - 2P₁ + P₂)t² + 2(P₁ - P₀)t + P₀
1771 * t = (-b ± √(b² - 4ac)) / 2a
1772 * = (-2(P₁ - P₀) ± √((2(P₁ - P₀))² - 4((P₀ - 2P₁ + P₂)P₀))) / 2(P₀ - 2P₁ + P₂)
1773 * = (2P₀ - 2P₁ ± √(4P₀² + 4P₁² - 8P₀P₁ - 4P₀² + 8P₀P₁ - 4P₀P₂)) / (2P₀ - 4P₁ + 2P₂)
1774 * = (P₀ - P₁ ± √(P₁² - P₀P₂)) / (P₀ - 2P₁ + P₂) */
1776 d
= y
[0] - 2 * y
[1] + y
[2];
1779 /* P₀ - 2P₁ + P₂ = 0
1780 * f(t) = (P₀ - 2P₁ + P₂)t² + 2(P₁ - P₀)t + P₀ = 0
1781 * t = -P₀ / 2(P₁ - P₀) */
1782 root
= -y
[0] / (2.0f
* (y
[1] - y
[0]));
1783 if (root
< 0.0f
|| root
> 1.0f
)
1786 return d2d_geometry_add_bezier_line_intersections(geometry
, intersections
, idx_p
, p
, idx_q
, q
, root
);
1789 e
= y
[1] * y
[1] - y
[0] * y
[2];
1793 root
= (y
[0] - y
[1] + sqrtf(e
)) / d
;
1794 if (root
>= 0.0f
&& root
<= 1.0f
&& !d2d_geometry_add_bezier_line_intersections(geometry
,
1795 intersections
, idx_p
, p
, idx_q
, q
, root
))
1798 root
= (y
[0] - y
[1] - sqrtf(e
)) / d
;
1799 if (root
>= 0.0f
&& root
<= 1.0f
&& !d2d_geometry_add_bezier_line_intersections(geometry
,
1800 intersections
, idx_p
, p
, idx_q
, q
, root
))
1806 static BOOL
d2d_geometry_intersect_bezier_bezier(struct d2d_geometry
*geometry
,
1807 struct d2d_geometry_intersections
*intersections
,
1808 const struct d2d_segment_idx
*idx_p
, float start_p
, float end_p
,
1809 const struct d2d_segment_idx
*idx_q
, float start_q
, float end_q
)
1811 const D2D1_POINT_2F
*p
[3], *q
[3];
1812 const struct d2d_figure
*figure
;
1813 D2D_RECT_F p_bounds
, q_bounds
;
1814 D2D1_POINT_2F intersection
;
1815 float centre_p
, centre_q
;
1818 figure
= &geometry
->u
.path
.figures
[idx_p
->figure_idx
];
1819 p
[0] = &figure
->vertices
[idx_p
->vertex_idx
];
1820 p
[1] = &figure
->bezier_controls
[idx_p
->control_idx
];
1821 next
= idx_p
->vertex_idx
+ 1;
1822 if (next
== figure
->vertex_count
)
1824 p
[2] = &figure
->vertices
[next
];
1826 figure
= &geometry
->u
.path
.figures
[idx_q
->figure_idx
];
1827 q
[0] = &figure
->vertices
[idx_q
->vertex_idx
];
1828 q
[1] = &figure
->bezier_controls
[idx_q
->control_idx
];
1829 next
= idx_q
->vertex_idx
+ 1;
1830 if (next
== figure
->vertex_count
)
1832 q
[2] = &figure
->vertices
[next
];
1834 d2d_rect_get_bezier_segment_bounds(&p_bounds
, p
[0], p
[1], p
[2], start_p
, end_p
);
1835 d2d_rect_get_bezier_segment_bounds(&q_bounds
, q
[0], q
[1], q
[2], start_q
, end_q
);
1837 if (!d2d_rect_check_overlap(&p_bounds
, &q_bounds
))
1840 centre_p
= (start_p
+ end_p
) / 2.0f
;
1841 centre_q
= (start_q
+ end_q
) / 2.0f
;
1843 if (end_p
- start_p
< 1e-3f
)
1845 d2d_point_calculate_bezier(&intersection
, p
[0], p
[1], p
[2], centre_p
);
1846 if (start_p
> 0.0f
&& end_p
< 1.0f
&& !d2d_geometry_intersections_add(intersections
,
1847 idx_p
, centre_p
, intersection
))
1849 if (start_q
> 0.0f
&& end_q
< 1.0f
&& !d2d_geometry_intersections_add(intersections
,
1850 idx_q
, centre_q
, intersection
))
1855 if (!d2d_geometry_intersect_bezier_bezier(geometry
, intersections
,
1856 idx_p
, start_p
, centre_p
, idx_q
, start_q
, centre_q
))
1858 if (!d2d_geometry_intersect_bezier_bezier(geometry
, intersections
,
1859 idx_p
, start_p
, centre_p
, idx_q
, centre_q
, end_q
))
1861 if (!d2d_geometry_intersect_bezier_bezier(geometry
, intersections
,
1862 idx_p
, centre_p
, end_p
, idx_q
, start_q
, centre_q
))
1864 if (!d2d_geometry_intersect_bezier_bezier(geometry
, intersections
,
1865 idx_p
, centre_p
, end_p
, idx_q
, centre_q
, end_q
))
1871 static BOOL
d2d_geometry_apply_intersections(struct d2d_geometry
*geometry
,
1872 struct d2d_geometry_intersections
*intersections
)
1874 size_t vertex_offset
, control_offset
, next
, i
;
1875 struct d2d_geometry_intersection
*inter
;
1876 enum d2d_vertex_type vertex_type
;
1877 const D2D1_POINT_2F
*p
[3];
1878 struct d2d_figure
*figure
;
1882 for (i
= 0; i
< intersections
->intersection_count
; ++i
)
1884 inter
= &intersections
->intersections
[i
];
1885 if (!i
|| inter
->figure_idx
!= intersections
->intersections
[i
- 1].figure_idx
)
1886 vertex_offset
= control_offset
= 0;
1888 figure
= &geometry
->u
.path
.figures
[inter
->figure_idx
];
1889 vertex_type
= figure
->vertex_types
[inter
->vertex_idx
+ vertex_offset
];
1890 if (!d2d_vertex_type_is_bezier(vertex_type
))
1892 if (!d2d_figure_insert_vertex(&geometry
->u
.path
.figures
[inter
->figure_idx
],
1893 inter
->vertex_idx
+ vertex_offset
+ 1, inter
->p
))
1900 if (i
&& inter
->figure_idx
== intersections
->intersections
[i
- 1].figure_idx
1901 && inter
->vertex_idx
== intersections
->intersections
[i
- 1].vertex_idx
)
1903 t_prev
= intersections
->intersections
[i
- 1].t
;
1904 if (t
- t_prev
< 1e-3f
)
1906 inter
->t
= intersections
->intersections
[i
- 1].t
;
1909 t
= (t
- t_prev
) / (1.0f
- t_prev
);
1912 p
[0] = &figure
->vertices
[inter
->vertex_idx
+ vertex_offset
];
1913 p
[1] = &figure
->bezier_controls
[inter
->control_idx
+ control_offset
];
1914 next
= inter
->vertex_idx
+ vertex_offset
+ 1;
1915 if (next
== figure
->vertex_count
)
1917 p
[2] = &figure
->vertices
[next
];
1919 d2d_point_lerp(&q
[0], p
[0], p
[1], t
);
1920 d2d_point_lerp(&q
[1], p
[1], p
[2], t
);
1922 figure
->bezier_controls
[inter
->control_idx
+ control_offset
] = q
[0];
1923 if (!(d2d_figure_insert_bezier_controls(figure
, inter
->control_idx
+ control_offset
+ 1, 1, &q
[1])))
1927 if (!(d2d_figure_insert_vertex(figure
, inter
->vertex_idx
+ vertex_offset
+ 1, inter
->p
)))
1929 figure
->vertex_types
[inter
->vertex_idx
+ vertex_offset
+ 1] = D2D_VERTEX_TYPE_SPLIT_BEZIER
;
1936 /* Intersect the geometry's segments with themselves. This uses the
1937 * straightforward approach of testing everything against everything, but
1938 * there certainly exist more scalable algorithms for this. */
1939 static BOOL
d2d_geometry_intersect_self(struct d2d_geometry
*geometry
)
1941 struct d2d_geometry_intersections intersections
= {0};
1942 const struct d2d_figure
*figure_p
, *figure_q
;
1943 struct d2d_segment_idx idx_p
, idx_q
;
1944 enum d2d_vertex_type type_p
, type_q
;
1948 if (!geometry
->u
.path
.figure_count
)
1951 for (idx_p
.figure_idx
= 0; idx_p
.figure_idx
< geometry
->u
.path
.figure_count
; ++idx_p
.figure_idx
)
1953 figure_p
= &geometry
->u
.path
.figures
[idx_p
.figure_idx
];
1954 idx_p
.control_idx
= 0;
1955 for (idx_p
.vertex_idx
= 0; idx_p
.vertex_idx
< figure_p
->vertex_count
; ++idx_p
.vertex_idx
)
1957 type_p
= figure_p
->vertex_types
[idx_p
.vertex_idx
];
1958 for (idx_q
.figure_idx
= 0; idx_q
.figure_idx
<= idx_p
.figure_idx
; ++idx_q
.figure_idx
)
1960 figure_q
= &geometry
->u
.path
.figures
[idx_q
.figure_idx
];
1961 if (idx_q
.figure_idx
!= idx_p
.figure_idx
)
1963 if (!d2d_rect_check_overlap(&figure_p
->bounds
, &figure_q
->bounds
))
1965 max_q
= figure_q
->vertex_count
;
1969 max_q
= idx_p
.vertex_idx
;
1972 idx_q
.control_idx
= 0;
1973 for (idx_q
.vertex_idx
= 0; idx_q
.vertex_idx
< max_q
; ++idx_q
.vertex_idx
)
1975 type_q
= figure_q
->vertex_types
[idx_q
.vertex_idx
];
1976 if (d2d_vertex_type_is_bezier(type_q
))
1978 if (d2d_vertex_type_is_bezier(type_p
))
1980 if (!d2d_geometry_intersect_bezier_bezier(geometry
, &intersections
,
1981 &idx_p
, 0.0f
, 1.0f
, &idx_q
, 0.0f
, 1.0f
))
1986 if (!d2d_geometry_intersect_bezier_line(geometry
, &intersections
, &idx_q
, &idx_p
))
1989 ++idx_q
.control_idx
;
1993 if (d2d_vertex_type_is_bezier(type_p
))
1995 if (!d2d_geometry_intersect_bezier_line(geometry
, &intersections
, &idx_p
, &idx_q
))
2000 if (!d2d_geometry_intersect_line_line(geometry
, &intersections
, &idx_p
, &idx_q
))
2006 if (d2d_vertex_type_is_bezier(type_p
))
2007 ++idx_p
.control_idx
;
2011 qsort(intersections
.intersections
, intersections
.intersection_count
,
2012 sizeof(*intersections
.intersections
), d2d_geometry_intersections_compare
);
2013 ret
= d2d_geometry_apply_intersections(geometry
, &intersections
);
2016 heap_free(intersections
.intersections
);
2020 static HRESULT
d2d_path_geometry_triangulate(struct d2d_geometry
*geometry
)
2022 struct d2d_cdt_edge_ref left_edge
, right_edge
;
2023 size_t vertex_count
, i
, j
;
2024 struct d2d_cdt cdt
= {0};
2025 D2D1_POINT_2F
*vertices
;
2027 for (i
= 0, vertex_count
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
2029 if (geometry
->u
.path
.figures
[i
].flags
& D2D_FIGURE_FLAG_HOLLOW
)
2031 vertex_count
+= geometry
->u
.path
.figures
[i
].vertex_count
;
2034 if (vertex_count
< 3)
2036 WARN("Geometry has %lu vertices.\n", (long)vertex_count
);
2040 if (!(vertices
= heap_calloc(vertex_count
, sizeof(*vertices
))))
2041 return E_OUTOFMEMORY
;
2043 for (i
= 0, j
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
2045 if (geometry
->u
.path
.figures
[i
].flags
& D2D_FIGURE_FLAG_HOLLOW
)
2047 memcpy(&vertices
[j
], geometry
->u
.path
.figures
[i
].vertices
,
2048 geometry
->u
.path
.figures
[i
].vertex_count
* sizeof(*vertices
));
2049 j
+= geometry
->u
.path
.figures
[i
].vertex_count
;
2052 /* Sort vertices, eliminate duplicates. */
2053 qsort(vertices
, vertex_count
, sizeof(*vertices
), d2d_cdt_compare_vertices
);
2054 for (i
= 1; i
< vertex_count
; ++i
)
2056 if (!memcmp(&vertices
[i
- 1], &vertices
[i
], sizeof(*vertices
)))
2059 memmove(&vertices
[i
], &vertices
[i
+ 1], (vertex_count
- i
) * sizeof(*vertices
));
2064 geometry
->fill
.vertices
= vertices
;
2065 geometry
->fill
.vertex_count
= vertex_count
;
2067 cdt
.free_edge
= ~0u;
2068 cdt
.vertices
= vertices
;
2069 if (!d2d_cdt_triangulate(&cdt
, 0, vertex_count
, &left_edge
, &right_edge
))
2071 if (!d2d_cdt_insert_segments(&cdt
, geometry
))
2073 if (!d2d_cdt_generate_faces(&cdt
, geometry
))
2076 heap_free(cdt
.edges
);
2080 geometry
->fill
.vertices
= NULL
;
2081 geometry
->fill
.vertex_count
= 0;
2082 heap_free(vertices
);
2083 heap_free(cdt
.edges
);
2087 static BOOL
d2d_path_geometry_add_figure(struct d2d_geometry
*geometry
)
2089 struct d2d_figure
*figure
;
2091 if (!d2d_array_reserve((void **)&geometry
->u
.path
.figures
, &geometry
->u
.path
.figures_size
,
2092 geometry
->u
.path
.figure_count
+ 1, sizeof(*geometry
->u
.path
.figures
)))
2094 ERR("Failed to grow figures array.\n");
2098 figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
];
2099 memset(figure
, 0, sizeof(*figure
));
2100 figure
->bounds
.left
= FLT_MAX
;
2101 figure
->bounds
.top
= FLT_MAX
;
2102 figure
->bounds
.right
= -FLT_MAX
;
2103 figure
->bounds
.bottom
= -FLT_MAX
;
2105 ++geometry
->u
.path
.figure_count
;
2109 static BOOL
d2d_geometry_outline_add_join(struct d2d_geometry
*geometry
,
2110 const D2D1_POINT_2F
*prev
, const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*next
)
2112 static const D2D1_POINT_2F origin
= {0.0f
, 0.0f
};
2113 struct d2d_outline_vertex
*v
;
2118 if (!d2d_array_reserve((void **)&geometry
->outline
.vertices
, &geometry
->outline
.vertices_size
,
2119 geometry
->outline
.vertex_count
+ 4, sizeof(*geometry
->outline
.vertices
)))
2121 ERR("Failed to grow outline vertices array.\n");
2124 base_idx
= geometry
->outline
.vertex_count
;
2125 v
= &geometry
->outline
.vertices
[base_idx
];
2127 if (!d2d_array_reserve((void **)&geometry
->outline
.faces
, &geometry
->outline
.faces_size
,
2128 geometry
->outline
.face_count
+ 2, sizeof(*geometry
->outline
.faces
)))
2130 ERR("Failed to grow outline faces array.\n");
2133 f
= &geometry
->outline
.faces
[geometry
->outline
.face_count
];
2135 ccw
= d2d_point_ccw(&origin
, prev
, next
);
2138 d2d_outline_vertex_set(&v
[0], p0
->x
, p0
->y
, -prev
->x
, -prev
->y
, -prev
->x
, -prev
->y
);
2139 d2d_outline_vertex_set(&v
[1], p0
->x
, p0
->y
, prev
->x
, prev
->y
, prev
->x
, prev
->y
);
2140 d2d_outline_vertex_set(&v
[2], p0
->x
+ 25.0f
* -prev
->x
, p0
->y
+ 25.0f
* -prev
->y
,
2141 prev
->x
, prev
->y
, prev
->x
, prev
->y
);
2142 d2d_outline_vertex_set(&v
[3], p0
->x
+ 25.0f
* -prev
->x
, p0
->y
+ 25.0f
* -prev
->y
,
2143 -prev
->x
, -prev
->y
, -prev
->x
, -prev
->y
);
2145 else if (ccw
< 0.0f
)
2147 d2d_outline_vertex_set(&v
[0], p0
->x
, p0
->y
, next
->x
, next
->y
, -prev
->x
, -prev
->y
);
2148 d2d_outline_vertex_set(&v
[1], p0
->x
, p0
->y
, -next
->x
, -next
->y
, -next
->x
, -next
->y
);
2149 d2d_outline_vertex_set(&v
[2], p0
->x
, p0
->y
, -next
->x
, -next
->y
, prev
->x
, prev
->y
);
2150 d2d_outline_vertex_set(&v
[3], p0
->x
, p0
->y
, prev
->x
, prev
->y
, prev
->x
, prev
->y
);
2154 d2d_outline_vertex_set(&v
[0], p0
->x
, p0
->y
, prev
->x
, prev
->y
, -next
->x
, -next
->y
);
2155 d2d_outline_vertex_set(&v
[1], p0
->x
, p0
->y
, -prev
->x
, -prev
->y
, -prev
->x
, -prev
->y
);
2156 d2d_outline_vertex_set(&v
[2], p0
->x
, p0
->y
, -prev
->x
, -prev
->y
, next
->x
, next
->y
);
2157 d2d_outline_vertex_set(&v
[3], p0
->x
, p0
->y
, next
->x
, next
->y
, next
->x
, next
->y
);
2159 geometry
->outline
.vertex_count
+= 4;
2161 d2d_face_set(&f
[0], base_idx
+ 1, base_idx
+ 0, base_idx
+ 2);
2162 d2d_face_set(&f
[1], base_idx
+ 2, base_idx
+ 0, base_idx
+ 3);
2163 geometry
->outline
.face_count
+= 2;
2168 static BOOL
d2d_geometry_outline_add_line_segment(struct d2d_geometry
*geometry
,
2169 const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*next
)
2171 struct d2d_outline_vertex
*v
;
2172 D2D1_POINT_2F q_next
;
2176 if (!d2d_array_reserve((void **)&geometry
->outline
.vertices
, &geometry
->outline
.vertices_size
,
2177 geometry
->outline
.vertex_count
+ 4, sizeof(*geometry
->outline
.vertices
)))
2179 ERR("Failed to grow outline vertices array.\n");
2182 base_idx
= geometry
->outline
.vertex_count
;
2183 v
= &geometry
->outline
.vertices
[base_idx
];
2185 if (!d2d_array_reserve((void **)&geometry
->outline
.faces
, &geometry
->outline
.faces_size
,
2186 geometry
->outline
.face_count
+ 2, sizeof(*geometry
->outline
.faces
)))
2188 ERR("Failed to grow outline faces array.\n");
2191 f
= &geometry
->outline
.faces
[geometry
->outline
.face_count
];
2193 d2d_point_subtract(&q_next
, next
, p0
);
2194 d2d_point_normalise(&q_next
);
2196 d2d_outline_vertex_set(&v
[0], p0
->x
, p0
->y
, q_next
.x
, q_next
.y
, q_next
.x
, q_next
.y
);
2197 d2d_outline_vertex_set(&v
[1], p0
->x
, p0
->y
, -q_next
.x
, -q_next
.y
, -q_next
.x
, -q_next
.y
);
2198 d2d_outline_vertex_set(&v
[2], next
->x
, next
->y
, q_next
.x
, q_next
.y
, q_next
.x
, q_next
.y
);
2199 d2d_outline_vertex_set(&v
[3], next
->x
, next
->y
, -q_next
.x
, -q_next
.y
, -q_next
.x
, -q_next
.y
);
2200 geometry
->outline
.vertex_count
+= 4;
2202 d2d_face_set(&f
[0], base_idx
+ 0, base_idx
+ 1, base_idx
+ 2);
2203 d2d_face_set(&f
[1], base_idx
+ 2, base_idx
+ 1, base_idx
+ 3);
2204 geometry
->outline
.face_count
+= 2;
2209 static BOOL
d2d_geometry_outline_add_bezier_segment(struct d2d_geometry
*geometry
,
2210 const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
)
2212 struct d2d_curve_outline_vertex
*b
;
2213 D2D1_POINT_2F r0
, r1
, r2
;
2214 D2D1_POINT_2F q0
, q1
, q2
;
2218 if (!d2d_array_reserve((void **)&geometry
->outline
.beziers
, &geometry
->outline
.beziers_size
,
2219 geometry
->outline
.bezier_count
+ 7, sizeof(*geometry
->outline
.beziers
)))
2221 ERR("Failed to grow outline beziers array.\n");
2224 base_idx
= geometry
->outline
.bezier_count
;
2225 b
= &geometry
->outline
.beziers
[base_idx
];
2227 if (!d2d_array_reserve((void **)&geometry
->outline
.bezier_faces
, &geometry
->outline
.bezier_faces_size
,
2228 geometry
->outline
.bezier_face_count
+ 5, sizeof(*geometry
->outline
.bezier_faces
)))
2230 ERR("Failed to grow outline faces array.\n");
2233 f
= &geometry
->outline
.bezier_faces
[geometry
->outline
.bezier_face_count
];
2235 d2d_point_lerp(&q0
, p0
, p1
, 0.5f
);
2236 d2d_point_lerp(&q1
, p1
, p2
, 0.5f
);
2237 d2d_point_lerp(&q2
, &q0
, &q1
, 0.5f
);
2239 d2d_point_subtract(&r0
, &q0
, p0
);
2240 d2d_point_subtract(&r1
, &q1
, &q0
);
2241 d2d_point_subtract(&r2
, p2
, &q1
);
2243 d2d_point_normalise(&r0
);
2244 d2d_point_normalise(&r1
);
2245 d2d_point_normalise(&r2
);
2247 if (d2d_point_ccw(p0
, p1
, p2
) > 0.0f
)
2249 d2d_point_scale(&r0
, -1.0f
);
2250 d2d_point_scale(&r1
, -1.0f
);
2251 d2d_point_scale(&r2
, -1.0f
);
2254 d2d_curve_outline_vertex_set(&b
[0], p0
, p0
, p1
, p2
, r0
.x
, r0
.y
, r0
.x
, r0
.y
);
2255 d2d_curve_outline_vertex_set(&b
[1], p0
, p0
, p1
, p2
, -r0
.x
, -r0
.y
, -r0
.x
, -r0
.y
);
2256 d2d_curve_outline_vertex_set(&b
[2], &q0
, p0
, p1
, p2
, r0
.x
, r0
.y
, r1
.x
, r1
.y
);
2257 d2d_curve_outline_vertex_set(&b
[3], &q2
, p0
, p1
, p2
, -r1
.x
, -r1
.y
, -r1
.x
, -r1
.y
);
2258 d2d_curve_outline_vertex_set(&b
[4], &q1
, p0
, p1
, p2
, r1
.x
, r1
.y
, r2
.x
, r2
.y
);
2259 d2d_curve_outline_vertex_set(&b
[5], p2
, p0
, p1
, p2
, -r2
.x
, -r2
.y
, -r2
.x
, -r2
.y
);
2260 d2d_curve_outline_vertex_set(&b
[6], p2
, p0
, p1
, p2
, r2
.x
, r2
.y
, r2
.x
, r2
.y
);
2261 geometry
->outline
.bezier_count
+= 7;
2263 d2d_face_set(&f
[0], base_idx
+ 0, base_idx
+ 1, base_idx
+ 2);
2264 d2d_face_set(&f
[1], base_idx
+ 2, base_idx
+ 1, base_idx
+ 3);
2265 d2d_face_set(&f
[2], base_idx
+ 3, base_idx
+ 4, base_idx
+ 2);
2266 d2d_face_set(&f
[3], base_idx
+ 5, base_idx
+ 4, base_idx
+ 3);
2267 d2d_face_set(&f
[4], base_idx
+ 5, base_idx
+ 6, base_idx
+ 4);
2268 geometry
->outline
.bezier_face_count
+= 5;
2273 static BOOL
d2d_geometry_outline_add_arc_quadrant(struct d2d_geometry
*geometry
,
2274 const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
)
2276 struct d2d_curve_outline_vertex
*a
;
2277 D2D1_POINT_2F r0
, r1
;
2281 if (!d2d_array_reserve((void **)&geometry
->outline
.arcs
, &geometry
->outline
.arcs_size
,
2282 geometry
->outline
.arc_count
+ 5, sizeof(*geometry
->outline
.arcs
)))
2284 ERR("Failed to grow outline arcs array.\n");
2287 base_idx
= geometry
->outline
.arc_count
;
2288 a
= &geometry
->outline
.arcs
[base_idx
];
2290 if (!d2d_array_reserve((void **)&geometry
->outline
.arc_faces
, &geometry
->outline
.arc_faces_size
,
2291 geometry
->outline
.arc_face_count
+ 3, sizeof(*geometry
->outline
.arc_faces
)))
2293 ERR("Failed to grow outline faces array.\n");
2296 f
= &geometry
->outline
.arc_faces
[geometry
->outline
.arc_face_count
];
2298 d2d_point_subtract(&r0
, p1
, p0
);
2299 d2d_point_subtract(&r1
, p2
, p1
);
2301 d2d_point_normalise(&r0
);
2302 d2d_point_normalise(&r1
);
2304 if (d2d_point_ccw(p0
, p1
, p2
) > 0.0f
)
2306 d2d_point_scale(&r0
, -1.0f
);
2307 d2d_point_scale(&r1
, -1.0f
);
2310 d2d_curve_outline_vertex_set(&a
[0], p0
, p0
, p1
, p2
, r0
.x
, r0
.y
, r0
.x
, r0
.y
);
2311 d2d_curve_outline_vertex_set(&a
[1], p0
, p0
, p1
, p2
, -r0
.x
, -r0
.y
, -r0
.x
, -r0
.y
);
2312 d2d_curve_outline_vertex_set(&a
[2], p1
, p0
, p1
, p2
, r0
.x
, r0
.y
, r1
.x
, r1
.y
);
2313 d2d_curve_outline_vertex_set(&a
[3], p2
, p0
, p1
, p2
, -r1
.x
, -r1
.y
, -r1
.x
, -r1
.y
);
2314 d2d_curve_outline_vertex_set(&a
[4], p2
, p0
, p1
, p2
, r1
.x
, r1
.y
, r1
.x
, r1
.y
);
2315 geometry
->outline
.arc_count
+= 5;
2317 d2d_face_set(&f
[0], base_idx
+ 0, base_idx
+ 1, base_idx
+ 2);
2318 d2d_face_set(&f
[1], base_idx
+ 2, base_idx
+ 1, base_idx
+ 3);
2319 d2d_face_set(&f
[2], base_idx
+ 2, base_idx
+ 4, base_idx
+ 3);
2320 geometry
->outline
.arc_face_count
+= 3;
2325 static BOOL
d2d_geometry_add_figure_outline(struct d2d_geometry
*geometry
,
2326 struct d2d_figure
*figure
, D2D1_FIGURE_END figure_end
)
2328 const D2D1_POINT_2F
*prev
, *p0
, *next
;
2329 enum d2d_vertex_type prev_type
, type
;
2330 size_t bezier_idx
, i
;
2332 for (i
= 0, bezier_idx
= 0; i
< figure
->vertex_count
; ++i
)
2334 type
= figure
->vertex_types
[i
];
2335 if (type
== D2D_VERTEX_TYPE_NONE
)
2338 p0
= &figure
->vertices
[i
];
2342 prev_type
= figure
->vertex_types
[figure
->vertex_count
- 1];
2343 if (d2d_vertex_type_is_bezier(prev_type
))
2344 prev
= &figure
->bezier_controls
[figure
->bezier_control_count
- 1];
2346 prev
= &figure
->vertices
[figure
->vertex_count
- 1];
2350 prev_type
= figure
->vertex_types
[i
- 1];
2351 if (d2d_vertex_type_is_bezier(prev_type
))
2352 prev
= &figure
->bezier_controls
[bezier_idx
- 1];
2354 prev
= &figure
->vertices
[i
- 1];
2357 if (d2d_vertex_type_is_bezier(type
))
2358 next
= &figure
->bezier_controls
[bezier_idx
++];
2359 else if (i
== figure
->vertex_count
- 1)
2360 next
= &figure
->vertices
[0];
2362 next
= &figure
->vertices
[i
+ 1];
2364 if (figure_end
== D2D1_FIGURE_END_CLOSED
|| (i
&& i
< figure
->vertex_count
- 1))
2366 D2D1_POINT_2F q_next
, q_prev
;
2368 d2d_point_subtract(&q_prev
, prev
, p0
);
2369 d2d_point_subtract(&q_next
, next
, p0
);
2371 d2d_point_normalise(&q_prev
);
2372 d2d_point_normalise(&q_next
);
2374 if (!d2d_geometry_outline_add_join(geometry
, &q_prev
, p0
, &q_next
))
2376 ERR("Failed to add join.\n");
2381 if (type
== D2D_VERTEX_TYPE_LINE
&& (figure_end
== D2D1_FIGURE_END_CLOSED
|| i
< figure
->vertex_count
- 1)
2382 && !d2d_geometry_outline_add_line_segment(geometry
, p0
, next
))
2384 ERR("Failed to add line segment.\n");
2387 else if (d2d_vertex_type_is_bezier(type
))
2389 const D2D1_POINT_2F
*p2
;
2391 if (i
== figure
->vertex_count
- 1)
2392 p2
= &figure
->vertices
[0];
2394 p2
= &figure
->vertices
[i
+ 1];
2396 if (!d2d_geometry_outline_add_bezier_segment(geometry
, p0
, next
, p2
))
2398 ERR("Failed to add bezier segment.\n");
2407 static BOOL
d2d_geometry_fill_add_arc_triangle(struct d2d_geometry
*geometry
,
2408 const D2D1_POINT_2F
*p0
, const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
)
2410 struct d2d_curve_vertex
*a
;
2412 if (!d2d_array_reserve((void **)&geometry
->fill
.arc_vertices
, &geometry
->fill
.arc_vertices_size
,
2413 geometry
->fill
.arc_vertex_count
+ 3, sizeof(*geometry
->fill
.arc_vertices
)))
2416 a
= &geometry
->fill
.arc_vertices
[geometry
->fill
.arc_vertex_count
];
2417 d2d_curve_vertex_set(&a
[0], p0
, 0.0f
, 1.0f
, -1.0f
);
2418 d2d_curve_vertex_set(&a
[1], p1
, 1.0f
, 1.0f
, -1.0f
);
2419 d2d_curve_vertex_set(&a
[2], p2
, 1.0f
, 0.0f
, -1.0f
);
2420 geometry
->fill
.arc_vertex_count
+= 3;
2425 static void d2d_geometry_cleanup(struct d2d_geometry
*geometry
)
2427 heap_free(geometry
->outline
.arc_faces
);
2428 heap_free(geometry
->outline
.arcs
);
2429 heap_free(geometry
->outline
.bezier_faces
);
2430 heap_free(geometry
->outline
.beziers
);
2431 heap_free(geometry
->outline
.faces
);
2432 heap_free(geometry
->outline
.vertices
);
2433 heap_free(geometry
->fill
.arc_vertices
);
2434 heap_free(geometry
->fill
.bezier_vertices
);
2435 heap_free(geometry
->fill
.faces
);
2436 heap_free(geometry
->fill
.vertices
);
2437 ID2D1Factory_Release(geometry
->factory
);
2440 static void d2d_geometry_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
,
2441 const D2D1_MATRIX_3X2_F
*transform
, const struct ID2D1GeometryVtbl
*vtbl
)
2443 geometry
->ID2D1Geometry_iface
.lpVtbl
= vtbl
;
2444 geometry
->refcount
= 1;
2445 ID2D1Factory_AddRef(geometry
->factory
= factory
);
2446 geometry
->transform
= *transform
;
2449 static inline struct d2d_geometry
*impl_from_ID2D1GeometrySink(ID2D1GeometrySink
*iface
)
2451 return CONTAINING_RECORD(iface
, struct d2d_geometry
, u
.path
.ID2D1GeometrySink_iface
);
2454 static HRESULT STDMETHODCALLTYPE
d2d_geometry_sink_QueryInterface(ID2D1GeometrySink
*iface
, REFIID iid
, void **out
)
2456 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
2458 if (IsEqualGUID(iid
, &IID_ID2D1GeometrySink
)
2459 || IsEqualGUID(iid
, &IID_ID2D1SimplifiedGeometrySink
)
2460 || IsEqualGUID(iid
, &IID_IUnknown
))
2462 ID2D1GeometrySink_AddRef(iface
);
2467 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
2470 return E_NOINTERFACE
;
2473 static ULONG STDMETHODCALLTYPE
d2d_geometry_sink_AddRef(ID2D1GeometrySink
*iface
)
2475 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2477 TRACE("iface %p.\n", iface
);
2479 return ID2D1Geometry_AddRef(&geometry
->ID2D1Geometry_iface
);
2482 static ULONG STDMETHODCALLTYPE
d2d_geometry_sink_Release(ID2D1GeometrySink
*iface
)
2484 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2486 TRACE("iface %p.\n", iface
);
2488 return ID2D1Geometry_Release(&geometry
->ID2D1Geometry_iface
);
2491 static void STDMETHODCALLTYPE
d2d_geometry_sink_SetFillMode(ID2D1GeometrySink
*iface
, D2D1_FILL_MODE mode
)
2493 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2495 TRACE("iface %p, mode %#x.\n", iface
, mode
);
2497 if (geometry
->u
.path
.state
== D2D_GEOMETRY_STATE_CLOSED
)
2499 geometry
->u
.path
.fill_mode
= mode
;
2502 static void STDMETHODCALLTYPE
d2d_geometry_sink_SetSegmentFlags(ID2D1GeometrySink
*iface
, D2D1_PATH_SEGMENT flags
)
2504 FIXME("iface %p, flags %#x stub!\n", iface
, flags
);
2507 static void STDMETHODCALLTYPE
d2d_geometry_sink_BeginFigure(ID2D1GeometrySink
*iface
,
2508 D2D1_POINT_2F start_point
, D2D1_FIGURE_BEGIN figure_begin
)
2510 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2511 struct d2d_figure
*figure
;
2513 TRACE("iface %p, start_point %s, figure_begin %#x.\n",
2514 iface
, debug_d2d_point_2f(&start_point
), figure_begin
);
2516 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_OPEN
)
2518 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2522 if (!d2d_path_geometry_add_figure(geometry
))
2524 ERR("Failed to add figure.\n");
2525 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2529 figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1];
2530 if (figure_begin
== D2D1_FIGURE_BEGIN_HOLLOW
)
2531 figure
->flags
|= D2D_FIGURE_FLAG_HOLLOW
;
2533 if (!d2d_figure_add_vertex(figure
, start_point
))
2535 ERR("Failed to add vertex.\n");
2536 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2540 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_FIGURE
;
2543 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddLines(ID2D1GeometrySink
*iface
,
2544 const D2D1_POINT_2F
*points
, UINT32 count
)
2546 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2547 struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1];
2550 TRACE("iface %p, points %p, count %u.\n", iface
, points
, count
);
2552 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_FIGURE
)
2554 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2558 for (i
= 0; i
< count
; ++i
)
2560 figure
->vertex_types
[figure
->vertex_count
- 1] = D2D_VERTEX_TYPE_LINE
;
2561 if (!d2d_figure_add_vertex(figure
, points
[i
]))
2563 ERR("Failed to add vertex.\n");
2568 geometry
->u
.path
.segment_count
+= count
;
2571 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddBeziers(ID2D1GeometrySink
*iface
,
2572 const D2D1_BEZIER_SEGMENT
*beziers
, UINT32 count
)
2574 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2575 struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1];
2579 TRACE("iface %p, beziers %p, count %u.\n", iface
, beziers
, count
);
2581 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_FIGURE
)
2583 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2587 for (i
= 0; i
< count
; ++i
)
2589 D2D1_RECT_F bezier_bounds
;
2591 /* FIXME: This tries to approximate a cubic bezier with a quadratic one. */
2592 p
.x
= (beziers
[i
].point1
.x
+ beziers
[i
].point2
.x
) * 0.75f
;
2593 p
.y
= (beziers
[i
].point1
.y
+ beziers
[i
].point2
.y
) * 0.75f
;
2594 p
.x
-= (figure
->vertices
[figure
->vertex_count
- 1].x
+ beziers
[i
].point3
.x
) * 0.25f
;
2595 p
.y
-= (figure
->vertices
[figure
->vertex_count
- 1].y
+ beziers
[i
].point3
.y
) * 0.25f
;
2596 figure
->vertex_types
[figure
->vertex_count
- 1] = D2D_VERTEX_TYPE_BEZIER
;
2598 d2d_rect_get_bezier_bounds(&bezier_bounds
, &figure
->vertices
[figure
->vertex_count
- 1],
2599 &p
, &beziers
[i
].point3
);
2601 if (!d2d_figure_add_bezier_controls(figure
, 1, &p
))
2603 ERR("Failed to add bezier control.\n");
2604 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2608 if (!d2d_figure_add_vertex(figure
, beziers
[i
].point3
))
2610 ERR("Failed to add bezier vertex.\n");
2611 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2615 d2d_rect_union(&figure
->bounds
, &bezier_bounds
);
2618 geometry
->u
.path
.segment_count
+= count
;
2621 static void STDMETHODCALLTYPE
d2d_geometry_sink_EndFigure(ID2D1GeometrySink
*iface
, D2D1_FIGURE_END figure_end
)
2623 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2624 struct d2d_figure
*figure
;
2626 TRACE("iface %p, figure_end %#x.\n", iface
, figure_end
);
2628 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_FIGURE
)
2630 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2634 figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1];
2635 figure
->vertex_types
[figure
->vertex_count
- 1] = D2D_VERTEX_TYPE_LINE
;
2636 if (figure_end
== D2D1_FIGURE_END_CLOSED
)
2638 ++geometry
->u
.path
.segment_count
;
2639 figure
->flags
|= D2D_FIGURE_FLAG_CLOSED
;
2640 if (!memcmp(&figure
->vertices
[0], &figure
->vertices
[figure
->vertex_count
- 1], sizeof(*figure
->vertices
)))
2641 --figure
->vertex_count
;
2644 if (!d2d_geometry_add_figure_outline(geometry
, figure
, figure_end
))
2646 ERR("Failed to add figure outline.\n");
2647 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2651 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_OPEN
;
2654 static void d2d_path_geometry_free_figures(struct d2d_geometry
*geometry
)
2658 if (!geometry
->u
.path
.figures
)
2661 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
2663 heap_free(geometry
->u
.path
.figures
[i
].bezier_controls
);
2664 heap_free(geometry
->u
.path
.figures
[i
].original_bezier_controls
);
2665 heap_free(geometry
->u
.path
.figures
[i
].vertices
);
2667 heap_free(geometry
->u
.path
.figures
);
2668 geometry
->u
.path
.figures
= NULL
;
2669 geometry
->u
.path
.figures_size
= 0;
2672 static BOOL
d2d_geometry_get_bezier_segment_idx(struct d2d_geometry
*geometry
, struct d2d_segment_idx
*idx
, BOOL next
)
2680 for (; idx
->figure_idx
< geometry
->u
.path
.figure_count
; ++idx
->figure_idx
, idx
->vertex_idx
= idx
->control_idx
= 0)
2682 struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[idx
->figure_idx
];
2684 if (!figure
->bezier_control_count
|| figure
->flags
& D2D_FIGURE_FLAG_HOLLOW
)
2687 for (; idx
->vertex_idx
< figure
->vertex_count
; ++idx
->vertex_idx
)
2689 if (d2d_vertex_type_is_bezier(figure
->vertex_types
[idx
->vertex_idx
]))
2697 static BOOL
d2d_geometry_get_first_bezier_segment_idx(struct d2d_geometry
*geometry
, struct d2d_segment_idx
*idx
)
2699 memset(idx
, 0, sizeof(*idx
));
2701 return d2d_geometry_get_bezier_segment_idx(geometry
, idx
, FALSE
);
2704 static BOOL
d2d_geometry_get_next_bezier_segment_idx(struct d2d_geometry
*geometry
, struct d2d_segment_idx
*idx
)
2706 return d2d_geometry_get_bezier_segment_idx(geometry
, idx
, TRUE
);
2709 static BOOL
d2d_geometry_check_bezier_overlap(struct d2d_geometry
*geometry
,
2710 const struct d2d_segment_idx
*idx_p
, const struct d2d_segment_idx
*idx_q
)
2712 const D2D1_POINT_2F
*a
[3], *b
[3], *p
[2], *q
;
2713 const struct d2d_figure
*figure
;
2714 D2D1_POINT_2F v_q
[3], v_p
, v_qp
;
2715 unsigned int i
, j
, score
;
2718 figure
= &geometry
->u
.path
.figures
[idx_p
->figure_idx
];
2719 a
[0] = &figure
->vertices
[idx_p
->vertex_idx
];
2720 a
[1] = &figure
->bezier_controls
[idx_p
->control_idx
];
2721 if (idx_p
->vertex_idx
== figure
->vertex_count
- 1)
2722 a
[2] = &figure
->vertices
[0];
2724 a
[2] = &figure
->vertices
[idx_p
->vertex_idx
+ 1];
2726 figure
= &geometry
->u
.path
.figures
[idx_q
->figure_idx
];
2727 b
[0] = &figure
->vertices
[idx_q
->vertex_idx
];
2728 b
[1] = &figure
->bezier_controls
[idx_q
->control_idx
];
2729 if (idx_q
->vertex_idx
== figure
->vertex_count
- 1)
2730 b
[2] = &figure
->vertices
[0];
2732 b
[2] = &figure
->vertices
[idx_q
->vertex_idx
+ 1];
2734 if (d2d_point_ccw(a
[0], a
[1], a
[2]) == 0.0f
|| d2d_point_ccw(b
[0], b
[1], b
[2]) == 0.0f
)
2737 d2d_point_subtract(&v_q
[0], b
[1], b
[0]);
2738 d2d_point_subtract(&v_q
[1], b
[2], b
[0]);
2739 d2d_point_subtract(&v_q
[2], b
[1], b
[2]);
2741 /* Check for intersections between the edges. Strictly speaking we'd only
2742 * need to check 8 of the 9 possible intersections, since if there's any
2743 * intersection there has to be a second intersection as well. */
2744 for (i
= 0; i
< 3; ++i
)
2746 d2d_point_subtract(&v_p
, a
[(i
& 1) + 1], a
[i
& 2]);
2747 for (j
= 0; j
< 3; ++j
)
2749 det
= v_p
.x
* v_q
[j
].y
- v_p
.y
* v_q
[j
].x
;
2753 d2d_point_subtract(&v_qp
, a
[i
& 2], b
[j
& 2]);
2754 t
= (v_q
[j
].x
* v_qp
.y
- v_q
[j
].y
* v_qp
.x
) / det
;
2755 if (t
<= 0.0f
|| t
>= 1.0f
)
2758 t
= (v_p
.x
* v_qp
.y
- v_p
.y
* v_qp
.x
) / det
;
2759 if (t
<= 0.0f
|| t
>= 1.0f
)
2766 /* Check if one triangle is contained within the other. */
2767 for (j
= 0, score
= 0, q
= a
[1], p
[0] = b
[2]; j
< 3; ++j
)
2770 d2d_point_subtract(&v_p
, p
[1], p
[0]);
2771 d2d_point_subtract(&v_qp
, q
, p
[0]);
2773 if ((q
->y
< p
[0]->y
) != (q
->y
< p
[1]->y
) && v_qp
.x
< v_p
.x
* (v_qp
.y
/ v_p
.y
))
2782 for (j
= 0, score
= 0, q
= b
[1], p
[0] = a
[2]; j
< 3; ++j
)
2785 d2d_point_subtract(&v_p
, p
[1], p
[0]);
2786 d2d_point_subtract(&v_qp
, q
, p
[0]);
2788 if ((q
->y
< p
[0]->y
) != (q
->y
< p
[1]->y
) && v_qp
.x
< v_p
.x
* (v_qp
.y
/ v_p
.y
))
2797 static float d2d_geometry_bezier_ccw(struct d2d_geometry
*geometry
, const struct d2d_segment_idx
*idx
)
2799 const struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[idx
->figure_idx
];
2800 size_t next
= idx
->vertex_idx
+ 1;
2802 if (next
== figure
->vertex_count
)
2805 return d2d_point_ccw(&figure
->vertices
[idx
->vertex_idx
],
2806 &figure
->bezier_controls
[idx
->control_idx
], &figure
->vertices
[next
]);
2809 static BOOL
d2d_geometry_split_bezier(struct d2d_geometry
*geometry
, const struct d2d_segment_idx
*idx
)
2811 const D2D1_POINT_2F
*p
[3];
2812 struct d2d_figure
*figure
;
2816 figure
= &geometry
->u
.path
.figures
[idx
->figure_idx
];
2817 p
[0] = &figure
->vertices
[idx
->vertex_idx
];
2818 p
[1] = &figure
->bezier_controls
[idx
->control_idx
];
2819 next
= idx
->vertex_idx
+ 1;
2820 if (next
== figure
->vertex_count
)
2822 p
[2] = &figure
->vertices
[next
];
2824 d2d_point_lerp(&q
[0], p
[0], p
[1], 0.5f
);
2825 d2d_point_lerp(&q
[1], p
[1], p
[2], 0.5f
);
2826 d2d_point_lerp(&q
[2], &q
[0], &q
[1], 0.5f
);
2828 figure
->bezier_controls
[idx
->control_idx
] = q
[0];
2829 if (!(d2d_figure_insert_bezier_controls(figure
, idx
->control_idx
+ 1, 1, &q
[1])))
2831 if (!(d2d_figure_insert_vertex(figure
, idx
->vertex_idx
+ 1, q
[2])))
2833 figure
->vertex_types
[idx
->vertex_idx
+ 1] = D2D_VERTEX_TYPE_SPLIT_BEZIER
;
2838 static HRESULT
d2d_geometry_resolve_beziers(struct d2d_geometry
*geometry
)
2840 struct d2d_segment_idx idx_p
, idx_q
;
2841 struct d2d_curve_vertex
*b
;
2842 const D2D1_POINT_2F
*p
[3];
2843 struct d2d_figure
*figure
;
2844 size_t bezier_idx
, i
;
2846 if (!d2d_geometry_get_first_bezier_segment_idx(geometry
, &idx_p
))
2849 /* Split overlapping bezier control triangles. */
2850 while (d2d_geometry_get_next_bezier_segment_idx(geometry
, &idx_p
))
2852 d2d_geometry_get_first_bezier_segment_idx(geometry
, &idx_q
);
2853 while (idx_q
.figure_idx
< idx_p
.figure_idx
|| idx_q
.vertex_idx
< idx_p
.vertex_idx
)
2855 while (d2d_geometry_check_bezier_overlap(geometry
, &idx_p
, &idx_q
))
2857 if (fabsf(d2d_geometry_bezier_ccw(geometry
, &idx_q
)) > fabsf(d2d_geometry_bezier_ccw(geometry
, &idx_p
)))
2859 if (!d2d_geometry_split_bezier(geometry
, &idx_q
))
2860 return E_OUTOFMEMORY
;
2861 if (idx_p
.figure_idx
== idx_q
.figure_idx
)
2864 ++idx_p
.control_idx
;
2869 if (!d2d_geometry_split_bezier(geometry
, &idx_p
))
2870 return E_OUTOFMEMORY
;
2873 d2d_geometry_get_next_bezier_segment_idx(geometry
, &idx_q
);
2877 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
2879 if (geometry
->u
.path
.figures
[i
].flags
& D2D_FIGURE_FLAG_HOLLOW
)
2881 geometry
->fill
.bezier_vertex_count
+= 3 * geometry
->u
.path
.figures
[i
].bezier_control_count
;
2884 if (!(geometry
->fill
.bezier_vertices
= heap_calloc(geometry
->fill
.bezier_vertex_count
,
2885 sizeof(*geometry
->fill
.bezier_vertices
))))
2887 ERR("Failed to allocate bezier vertices array.\n");
2888 geometry
->fill
.bezier_vertex_count
= 0;
2889 return E_OUTOFMEMORY
;
2893 d2d_geometry_get_first_bezier_segment_idx(geometry
, &idx_p
);
2898 figure
= &geometry
->u
.path
.figures
[idx_p
.figure_idx
];
2899 p
[0] = &figure
->vertices
[idx_p
.vertex_idx
];
2900 p
[1] = &figure
->bezier_controls
[idx_p
.control_idx
];
2902 i
= idx_p
.vertex_idx
+ 1;
2903 if (d2d_path_geometry_point_inside(geometry
, p
[1], FALSE
))
2906 d2d_figure_insert_vertex(figure
, i
, *p
[1]);
2907 /* Inserting a vertex potentially invalidates p[0]. */
2908 p
[0] = &figure
->vertices
[idx_p
.vertex_idx
];
2912 if (i
== figure
->vertex_count
)
2914 p
[2] = &figure
->vertices
[i
];
2916 b
= &geometry
->fill
.bezier_vertices
[bezier_idx
* 3];
2917 d2d_curve_vertex_set(&b
[0], p
[0], 0.0f
, 0.0f
, sign
);
2918 d2d_curve_vertex_set(&b
[1], p
[1], 0.5f
, 0.0f
, sign
);
2919 d2d_curve_vertex_set(&b
[2], p
[2], 1.0f
, 1.0f
, sign
);
2921 if (!d2d_geometry_get_next_bezier_segment_idx(geometry
, &idx_p
))
2929 static HRESULT STDMETHODCALLTYPE
d2d_geometry_sink_Close(ID2D1GeometrySink
*iface
)
2931 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2932 HRESULT hr
= E_FAIL
;
2935 TRACE("iface %p.\n", iface
);
2937 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_OPEN
)
2939 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_CLOSED
)
2940 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2941 return D2DERR_WRONG_STATE
;
2943 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_CLOSED
;
2945 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
2947 struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[i
];
2948 size_t size
= figure
->bezier_control_count
* sizeof(*figure
->original_bezier_controls
);
2949 if (!(figure
->original_bezier_controls
= heap_alloc(size
)))
2951 memcpy(figure
->original_bezier_controls
, figure
->bezier_controls
, size
);
2954 if (!d2d_geometry_intersect_self(geometry
))
2956 if (FAILED(hr
= d2d_geometry_resolve_beziers(geometry
)))
2958 if (FAILED(hr
= d2d_path_geometry_triangulate(geometry
)))
2964 heap_free(geometry
->fill
.bezier_vertices
);
2965 geometry
->fill
.bezier_vertex_count
= 0;
2966 d2d_path_geometry_free_figures(geometry
);
2967 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
2972 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddLine(ID2D1GeometrySink
*iface
, D2D1_POINT_2F point
)
2974 TRACE("iface %p, point %s.\n", iface
, debug_d2d_point_2f(&point
));
2976 d2d_geometry_sink_AddLines(iface
, &point
, 1);
2979 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddBezier(ID2D1GeometrySink
*iface
, const D2D1_BEZIER_SEGMENT
*bezier
)
2981 TRACE("iface %p, bezier %p.\n", iface
, bezier
);
2983 d2d_geometry_sink_AddBeziers(iface
, bezier
, 1);
2986 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddQuadraticBezier(ID2D1GeometrySink
*iface
,
2987 const D2D1_QUADRATIC_BEZIER_SEGMENT
*bezier
)
2989 TRACE("iface %p, bezier %p.\n", iface
, bezier
);
2991 ID2D1GeometrySink_AddQuadraticBeziers(iface
, bezier
, 1);
2994 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddQuadraticBeziers(ID2D1GeometrySink
*iface
,
2995 const D2D1_QUADRATIC_BEZIER_SEGMENT
*beziers
, UINT32 bezier_count
)
2997 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
2998 struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1];
3001 TRACE("iface %p, beziers %p, bezier_count %u.\n", iface
, beziers
, bezier_count
);
3003 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_FIGURE
)
3005 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
3009 for (i
= 0; i
< bezier_count
; ++i
)
3011 D2D1_RECT_F bezier_bounds
;
3013 d2d_rect_get_bezier_bounds(&bezier_bounds
, &figure
->vertices
[figure
->vertex_count
- 1],
3014 &beziers
[i
].point1
, &beziers
[i
].point2
);
3016 figure
->vertex_types
[figure
->vertex_count
- 1] = D2D_VERTEX_TYPE_BEZIER
;
3017 if (!d2d_figure_add_bezier_controls(figure
, 1, &beziers
[i
].point1
))
3019 ERR("Failed to add bezier.\n");
3020 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
3024 if (!d2d_figure_add_vertex(figure
, beziers
[i
].point2
))
3026 ERR("Failed to add bezier vertex.\n");
3027 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
3031 d2d_rect_union(&figure
->bounds
, &bezier_bounds
);
3034 geometry
->u
.path
.segment_count
+= bezier_count
;
3037 static void STDMETHODCALLTYPE
d2d_geometry_sink_AddArc(ID2D1GeometrySink
*iface
, const D2D1_ARC_SEGMENT
*arc
)
3039 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometrySink(iface
);
3041 FIXME("iface %p, arc %p stub!\n", iface
, arc
);
3043 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_FIGURE
)
3045 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_ERROR
;
3049 if (!d2d_figure_add_vertex(&geometry
->u
.path
.figures
[geometry
->u
.path
.figure_count
- 1], arc
->point
))
3051 ERR("Failed to add vertex.\n");
3055 ++geometry
->u
.path
.segment_count
;
3058 static const struct ID2D1GeometrySinkVtbl d2d_geometry_sink_vtbl
=
3060 d2d_geometry_sink_QueryInterface
,
3061 d2d_geometry_sink_AddRef
,
3062 d2d_geometry_sink_Release
,
3063 d2d_geometry_sink_SetFillMode
,
3064 d2d_geometry_sink_SetSegmentFlags
,
3065 d2d_geometry_sink_BeginFigure
,
3066 d2d_geometry_sink_AddLines
,
3067 d2d_geometry_sink_AddBeziers
,
3068 d2d_geometry_sink_EndFigure
,
3069 d2d_geometry_sink_Close
,
3070 d2d_geometry_sink_AddLine
,
3071 d2d_geometry_sink_AddBezier
,
3072 d2d_geometry_sink_AddQuadraticBezier
,
3073 d2d_geometry_sink_AddQuadraticBeziers
,
3074 d2d_geometry_sink_AddArc
,
3077 static inline struct d2d_geometry
*impl_from_ID2D1PathGeometry(ID2D1PathGeometry
*iface
)
3079 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
3082 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_QueryInterface(ID2D1PathGeometry
*iface
, REFIID iid
, void **out
)
3084 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
3086 if (IsEqualGUID(iid
, &IID_ID2D1PathGeometry
)
3087 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
3088 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
3089 || IsEqualGUID(iid
, &IID_IUnknown
))
3091 ID2D1PathGeometry_AddRef(iface
);
3096 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
3099 return E_NOINTERFACE
;
3102 static ULONG STDMETHODCALLTYPE
d2d_path_geometry_AddRef(ID2D1PathGeometry
*iface
)
3104 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3105 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
3107 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
3112 static ULONG STDMETHODCALLTYPE
d2d_path_geometry_Release(ID2D1PathGeometry
*iface
)
3114 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3115 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
3117 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
3121 d2d_path_geometry_free_figures(geometry
);
3122 d2d_geometry_cleanup(geometry
);
3123 heap_free(geometry
);
3129 static void STDMETHODCALLTYPE
d2d_path_geometry_GetFactory(ID2D1PathGeometry
*iface
, ID2D1Factory
**factory
)
3131 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3133 TRACE("iface %p, factory %p.\n", iface
, factory
);
3135 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
3138 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_GetBounds(ID2D1PathGeometry
*iface
,
3139 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
3141 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3144 TRACE("iface %p, transform %p, bounds %p.\n", iface
, transform
, bounds
);
3146 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_CLOSED
)
3147 return D2DERR_WRONG_STATE
;
3149 bounds
->left
= FLT_MAX
;
3150 bounds
->top
= FLT_MAX
;
3151 bounds
->right
= -FLT_MAX
;
3152 bounds
->bottom
= -FLT_MAX
;
3156 if (geometry
->u
.path
.bounds
.left
> geometry
->u
.path
.bounds
.right
3157 && !isinf(geometry
->u
.path
.bounds
.left
))
3159 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
3161 if (geometry
->u
.path
.figures
[i
].flags
& D2D_FIGURE_FLAG_HOLLOW
)
3163 d2d_rect_union(&geometry
->u
.path
.bounds
, &geometry
->u
.path
.figures
[i
].bounds
);
3165 if (geometry
->u
.path
.bounds
.left
> geometry
->u
.path
.bounds
.right
)
3167 geometry
->u
.path
.bounds
.left
= INFINITY
;
3168 geometry
->u
.path
.bounds
.right
= FLT_MAX
;
3169 geometry
->u
.path
.bounds
.top
= INFINITY
;
3170 geometry
->u
.path
.bounds
.bottom
= FLT_MAX
;
3174 *bounds
= geometry
->u
.path
.bounds
;
3178 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
3180 const struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[i
];
3181 enum d2d_vertex_type type
= D2D_VERTEX_TYPE_NONE
;
3182 D2D1_RECT_F bezier_bounds
;
3183 D2D1_POINT_2F p
, p1
, p2
;
3184 size_t j
, bezier_idx
;
3186 if (figure
->flags
& D2D_FIGURE_FLAG_HOLLOW
)
3189 /* Single vertex figures are reduced by CloseFigure(). */
3190 if (figure
->vertex_count
== 0)
3192 d2d_point_transform(&p
, transform
, figure
->bounds
.left
, figure
->bounds
.top
);
3193 d2d_rect_expand(bounds
, &p
);
3197 for (j
= 0; j
< figure
->vertex_count
; ++j
)
3199 if (figure
->vertex_types
[j
] == D2D_VERTEX_TYPE_NONE
)
3202 p
= figure
->vertices
[j
];
3203 type
= figure
->vertex_types
[j
];
3204 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3205 d2d_rect_expand(bounds
, &p
);
3209 for (bezier_idx
= 0, ++j
; j
< figure
->vertex_count
; ++j
)
3211 if (figure
->vertex_types
[j
] == D2D_VERTEX_TYPE_NONE
3212 || d2d_vertex_type_is_split_bezier(figure
->vertex_types
[j
]))
3217 case D2D_VERTEX_TYPE_LINE
:
3218 p
= figure
->vertices
[j
];
3219 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3220 d2d_rect_expand(bounds
, &p
);
3223 case D2D_VERTEX_TYPE_BEZIER
:
3224 p1
= figure
->original_bezier_controls
[bezier_idx
++];
3225 d2d_point_transform(&p1
, transform
, p1
.x
, p1
.y
);
3226 p2
= figure
->vertices
[j
];
3227 d2d_point_transform(&p2
, transform
, p2
.x
, p2
.y
);
3228 d2d_rect_get_bezier_bounds(&bezier_bounds
, &p
, &p1
, &p2
);
3229 d2d_rect_union(bounds
, &bezier_bounds
);
3234 FIXME("Unhandled vertex type %#x.\n", type
);
3235 p
= figure
->vertices
[j
];
3236 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3237 d2d_rect_expand(bounds
, &p
);
3241 type
= figure
->vertex_types
[j
];
3244 if (d2d_vertex_type_is_bezier(type
))
3246 p1
= figure
->original_bezier_controls
[bezier_idx
++];
3247 d2d_point_transform(&p1
, transform
, p1
.x
, p1
.y
);
3248 p2
= figure
->vertices
[0];
3249 d2d_point_transform(&p2
, transform
, p2
.x
, p2
.y
);
3250 d2d_rect_get_bezier_bounds(&bezier_bounds
, &p
, &p1
, &p2
);
3251 d2d_rect_union(bounds
, &bezier_bounds
);
3255 if (bounds
->left
> bounds
->right
)
3257 bounds
->left
= INFINITY
;
3258 bounds
->right
= FLT_MAX
;
3259 bounds
->top
= INFINITY
;
3260 bounds
->bottom
= FLT_MAX
;
3266 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_GetWidenedBounds(ID2D1PathGeometry
*iface
, float stroke_width
,
3267 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_RECT_F
*bounds
)
3269 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
3270 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
3275 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_StrokeContainsPoint(ID2D1PathGeometry
*iface
,
3276 D2D1_POINT_2F point
, float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
3277 float tolerance
, BOOL
*contains
)
3279 FIXME("iface %p, point %s, stroke_width %.8e, stroke_style %p, "
3280 "transform %p, tolerance %.8e, contains %p stub!\n",
3281 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
3286 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_FillContainsPoint(ID2D1PathGeometry
*iface
,
3287 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
3289 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3290 D2D1_MATRIX_3X2_F g_i
;
3292 TRACE("iface %p, point %s, transform %p, tolerance %.8e, contains %p.\n",
3293 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
3297 if (!d2d_matrix_invert(&g_i
, transform
))
3298 return D2DERR_UNSUPPORTED_OPERATION
;
3299 d2d_point_transform(&point
, &g_i
, point
.x
, point
.y
);
3302 *contains
= !!d2d_path_geometry_point_inside(geometry
, &point
, FALSE
);
3304 TRACE("-> %#x.\n", *contains
);
3309 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_CompareWithGeometry(ID2D1PathGeometry
*iface
,
3310 ID2D1Geometry
*geometry
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
3312 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
3313 iface
, geometry
, transform
, tolerance
, relation
);
3318 static void d2d_geometry_flatten_cubic(ID2D1SimplifiedGeometrySink
*sink
, const D2D1_POINT_2F
*p0
,
3319 const D2D1_BEZIER_SEGMENT
*b
, float tolerance
)
3321 D2D1_BEZIER_SEGMENT b0
, b1
;
3325 /* It's certainly possible to calculate the maximum deviation of the
3326 * approximation from the curve, but it's a little involved. Instead, note
3327 * that if the control points were evenly spaced and collinear, p1 would
3328 * be exactly between p0 and p2, and p2 would be exactly between p1 and
3329 * p3. The deviation is a decent enough approximation, and much easier to
3332 * p1' = (p0 + p2) / 2
3333 * p2' = (p1 + p3) / 2
3334 * d = ‖p1 - p1'‖₁ + ‖p2 - p2'‖₁ */
3335 d2d_point_lerp(&q
, p0
, &b
->point2
, 0.5f
);
3336 d2d_point_subtract(&q
, &b
->point1
, &q
);
3337 d
= fabsf(q
.x
) + fabsf(q
.y
);
3338 d2d_point_lerp(&q
, &b
->point1
, &b
->point3
, 0.5f
);
3339 d2d_point_subtract(&q
, &b
->point2
, &q
);
3340 d
+= fabsf(q
.x
) + fabsf(q
.y
);
3343 ID2D1SimplifiedGeometrySink_AddLines(sink
, &b
->point3
, 1);
3347 d2d_point_lerp(&q
, &b
->point1
, &b
->point2
, 0.5f
);
3349 b1
.point3
= b
->point3
;
3350 d2d_point_lerp(&b1
.point2
, &b1
.point3
, &b
->point2
, 0.5f
);
3351 d2d_point_lerp(&b1
.point1
, &b1
.point2
, &q
, 0.5f
);
3353 d2d_point_lerp(&b0
.point1
, p0
, &b
->point1
, 0.5f
);
3354 d2d_point_lerp(&b0
.point2
, &b0
.point1
, &q
, 0.5f
);
3355 d2d_point_lerp(&b0
.point3
, &b0
.point2
, &b1
.point1
, 0.5f
);
3357 d2d_geometry_flatten_cubic(sink
, p0
, &b0
, tolerance
);
3358 ID2D1SimplifiedGeometrySink_SetSegmentFlags(sink
, D2D1_PATH_SEGMENT_FORCE_ROUND_LINE_JOIN
);
3359 d2d_geometry_flatten_cubic(sink
, &b0
.point3
, &b1
, tolerance
);
3360 ID2D1SimplifiedGeometrySink_SetSegmentFlags(sink
, D2D1_PATH_SEGMENT_NONE
);
3363 static void d2d_geometry_simplify_quadratic(ID2D1SimplifiedGeometrySink
*sink
,
3364 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_POINT_2F
*p0
,
3365 const D2D1_POINT_2F
*p1
, const D2D1_POINT_2F
*p2
, float tolerance
)
3367 D2D1_BEZIER_SEGMENT b
;
3369 d2d_point_lerp(&b
.point1
, p0
, p1
, 2.0f
/ 3.0f
);
3370 d2d_point_lerp(&b
.point2
, p2
, p1
, 2.0f
/ 3.0f
);
3373 if (option
== D2D1_GEOMETRY_SIMPLIFICATION_OPTION_LINES
)
3374 d2d_geometry_flatten_cubic(sink
, p0
, &b
, tolerance
);
3376 ID2D1SimplifiedGeometrySink_AddBeziers(sink
, &b
, 1);
3379 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Simplify(ID2D1PathGeometry
*iface
,
3380 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
3381 ID2D1SimplifiedGeometrySink
*sink
)
3383 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3384 enum d2d_vertex_type type
= D2D_VERTEX_TYPE_NONE
;
3385 unsigned int i
, j
, bezier_idx
;
3386 D2D1_FIGURE_BEGIN begin
;
3387 D2D1_POINT_2F p
, p1
, p2
;
3388 D2D1_FIGURE_END end
;
3390 TRACE("iface %p, option %#x, transform %p, tolerance %.8e, sink %p.\n",
3391 iface
, option
, transform
, tolerance
, sink
);
3393 ID2D1SimplifiedGeometrySink_SetFillMode(sink
, geometry
->u
.path
.fill_mode
);
3394 for (i
= 0; i
< geometry
->u
.path
.figure_count
; ++i
)
3396 const struct d2d_figure
*figure
= &geometry
->u
.path
.figures
[i
];
3398 for (j
= 0; j
< figure
->vertex_count
; ++j
)
3400 if (figure
->vertex_types
[j
] == D2D_VERTEX_TYPE_NONE
)
3403 p
= figure
->vertices
[j
];
3405 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3406 begin
= figure
->flags
& D2D_FIGURE_FLAG_HOLLOW
? D2D1_FIGURE_BEGIN_HOLLOW
: D2D1_FIGURE_BEGIN_FILLED
;
3407 ID2D1SimplifiedGeometrySink_BeginFigure(sink
, p
, begin
);
3408 type
= figure
->vertex_types
[j
];
3412 for (bezier_idx
= 0, ++j
; j
< figure
->vertex_count
; ++j
)
3414 if (figure
->vertex_types
[j
] == D2D_VERTEX_TYPE_NONE
3415 || d2d_vertex_type_is_split_bezier(figure
->vertex_types
[j
]))
3420 case D2D_VERTEX_TYPE_LINE
:
3421 p
= figure
->vertices
[j
];
3423 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3424 ID2D1SimplifiedGeometrySink_AddLines(sink
, &p
, 1);
3427 case D2D_VERTEX_TYPE_BEZIER
:
3428 p1
= figure
->original_bezier_controls
[bezier_idx
++];
3430 d2d_point_transform(&p1
, transform
, p1
.x
, p1
.y
);
3431 p2
= figure
->vertices
[j
];
3433 d2d_point_transform(&p2
, transform
, p2
.x
, p2
.y
);
3434 d2d_geometry_simplify_quadratic(sink
, option
, &p
, &p1
, &p2
, tolerance
);
3439 FIXME("Unhandled vertex type %#x.\n", type
);
3440 p
= figure
->vertices
[j
];
3442 d2d_point_transform(&p
, transform
, p
.x
, p
.y
);
3443 ID2D1SimplifiedGeometrySink_AddLines(sink
, &p
, 1);
3447 type
= figure
->vertex_types
[j
];
3450 if (d2d_vertex_type_is_bezier(type
))
3452 p1
= figure
->original_bezier_controls
[bezier_idx
++];
3454 d2d_point_transform(&p1
, transform
, p1
.x
, p1
.y
);
3455 p2
= figure
->vertices
[0];
3457 d2d_point_transform(&p2
, transform
, p2
.x
, p2
.y
);
3458 d2d_geometry_simplify_quadratic(sink
, option
, &p
, &p1
, &p2
, tolerance
);
3461 end
= figure
->flags
& D2D_FIGURE_FLAG_CLOSED
? D2D1_FIGURE_END_CLOSED
: D2D1_FIGURE_END_OPEN
;
3462 ID2D1SimplifiedGeometrySink_EndFigure(sink
, end
);
3468 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Tessellate(ID2D1PathGeometry
*iface
,
3469 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
3471 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
3476 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_CombineWithGeometry(ID2D1PathGeometry
*iface
,
3477 ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
, const D2D1_MATRIX_3X2_F
*transform
,
3478 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
3480 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
3481 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
3486 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Outline(ID2D1PathGeometry
*iface
,
3487 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
3489 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
3494 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_ComputeArea(ID2D1PathGeometry
*iface
,
3495 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
3497 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
3502 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_ComputeLength(ID2D1PathGeometry
*iface
,
3503 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
3505 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
3510 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_ComputePointAtLength(ID2D1PathGeometry
*iface
, float length
,
3511 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_POINT_2F
*point
, D2D1_POINT_2F
*tangent
)
3513 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
3514 iface
, length
, transform
, tolerance
, point
, tangent
);
3519 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Widen(ID2D1PathGeometry
*iface
, float stroke_width
,
3520 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
3521 ID2D1SimplifiedGeometrySink
*sink
)
3523 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
3524 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
3529 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Open(ID2D1PathGeometry
*iface
, ID2D1GeometrySink
**sink
)
3531 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3533 TRACE("iface %p, sink %p.\n", iface
, sink
);
3535 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_INITIAL
)
3536 return D2DERR_WRONG_STATE
;
3538 *sink
= &geometry
->u
.path
.ID2D1GeometrySink_iface
;
3539 ID2D1GeometrySink_AddRef(*sink
);
3541 geometry
->u
.path
.state
= D2D_GEOMETRY_STATE_OPEN
;
3546 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_Stream(ID2D1PathGeometry
*iface
, ID2D1GeometrySink
*sink
)
3548 FIXME("iface %p, sink %p stub!\n", iface
, sink
);
3553 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_GetSegmentCount(ID2D1PathGeometry
*iface
, UINT32
*count
)
3555 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3557 TRACE("iface %p, count %p.\n", iface
, count
);
3559 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_CLOSED
)
3560 return D2DERR_WRONG_STATE
;
3562 *count
= geometry
->u
.path
.segment_count
;
3567 static HRESULT STDMETHODCALLTYPE
d2d_path_geometry_GetFigureCount(ID2D1PathGeometry
*iface
, UINT32
*count
)
3569 struct d2d_geometry
*geometry
= impl_from_ID2D1PathGeometry(iface
);
3571 TRACE("iface %p, count %p.\n", iface
, count
);
3573 if (geometry
->u
.path
.state
!= D2D_GEOMETRY_STATE_CLOSED
)
3574 return D2DERR_WRONG_STATE
;
3576 *count
= geometry
->u
.path
.figure_count
;
3581 static const struct ID2D1PathGeometryVtbl d2d_path_geometry_vtbl
=
3583 d2d_path_geometry_QueryInterface
,
3584 d2d_path_geometry_AddRef
,
3585 d2d_path_geometry_Release
,
3586 d2d_path_geometry_GetFactory
,
3587 d2d_path_geometry_GetBounds
,
3588 d2d_path_geometry_GetWidenedBounds
,
3589 d2d_path_geometry_StrokeContainsPoint
,
3590 d2d_path_geometry_FillContainsPoint
,
3591 d2d_path_geometry_CompareWithGeometry
,
3592 d2d_path_geometry_Simplify
,
3593 d2d_path_geometry_Tessellate
,
3594 d2d_path_geometry_CombineWithGeometry
,
3595 d2d_path_geometry_Outline
,
3596 d2d_path_geometry_ComputeArea
,
3597 d2d_path_geometry_ComputeLength
,
3598 d2d_path_geometry_ComputePointAtLength
,
3599 d2d_path_geometry_Widen
,
3600 d2d_path_geometry_Open
,
3601 d2d_path_geometry_Stream
,
3602 d2d_path_geometry_GetSegmentCount
,
3603 d2d_path_geometry_GetFigureCount
,
3606 void d2d_path_geometry_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
)
3608 d2d_geometry_init(geometry
, factory
, &identity
, (ID2D1GeometryVtbl
*)&d2d_path_geometry_vtbl
);
3609 geometry
->u
.path
.ID2D1GeometrySink_iface
.lpVtbl
= &d2d_geometry_sink_vtbl
;
3610 geometry
->u
.path
.bounds
.left
= FLT_MAX
;
3611 geometry
->u
.path
.bounds
.right
= -FLT_MAX
;
3612 geometry
->u
.path
.bounds
.top
= FLT_MAX
;
3613 geometry
->u
.path
.bounds
.bottom
= -FLT_MAX
;
3616 static inline struct d2d_geometry
*impl_from_ID2D1EllipseGeometry(ID2D1EllipseGeometry
*iface
)
3618 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
3621 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_QueryInterface(ID2D1EllipseGeometry
*iface
,
3622 REFIID iid
, void **out
)
3624 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
3626 if (IsEqualGUID(iid
, &IID_ID2D1EllipseGeometry
)
3627 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
3628 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
3629 || IsEqualGUID(iid
, &IID_IUnknown
))
3631 ID2D1EllipseGeometry_AddRef(iface
);
3636 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
3639 return E_NOINTERFACE
;
3642 static ULONG STDMETHODCALLTYPE
d2d_ellipse_geometry_AddRef(ID2D1EllipseGeometry
*iface
)
3644 struct d2d_geometry
*geometry
= impl_from_ID2D1EllipseGeometry(iface
);
3645 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
3647 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
3652 static ULONG STDMETHODCALLTYPE
d2d_ellipse_geometry_Release(ID2D1EllipseGeometry
*iface
)
3654 struct d2d_geometry
*geometry
= impl_from_ID2D1EllipseGeometry(iface
);
3655 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
3657 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
3661 d2d_geometry_cleanup(geometry
);
3662 heap_free(geometry
);
3668 static void STDMETHODCALLTYPE
d2d_ellipse_geometry_GetFactory(ID2D1EllipseGeometry
*iface
, ID2D1Factory
**factory
)
3670 struct d2d_geometry
*geometry
= impl_from_ID2D1EllipseGeometry(iface
);
3672 TRACE("iface %p, factory %p.\n", iface
, factory
);
3674 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
3677 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_GetBounds(ID2D1EllipseGeometry
*iface
,
3678 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
3680 FIXME("iface %p, transform %p, bounds %p stub!\n", iface
, transform
, bounds
);
3685 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_GetWidenedBounds(ID2D1EllipseGeometry
*iface
,
3686 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
3687 float tolerance
, D2D1_RECT_F
*bounds
)
3689 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
3690 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
3695 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_StrokeContainsPoint(ID2D1EllipseGeometry
*iface
,
3696 D2D1_POINT_2F point
, float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
3697 float tolerance
, BOOL
*contains
)
3699 FIXME("iface %p, point %s, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, contains %p stub!\n",
3700 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
3705 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_FillContainsPoint(ID2D1EllipseGeometry
*iface
,
3706 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
3708 FIXME("iface %p, point %s, transform %p, tolerance %.8e, contains %p stub!\n",
3709 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
3714 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_CompareWithGeometry(ID2D1EllipseGeometry
*iface
,
3715 ID2D1Geometry
*geometry
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
3717 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
3718 iface
, geometry
, transform
, tolerance
, relation
);
3723 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_Simplify(ID2D1EllipseGeometry
*iface
,
3724 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
3725 ID2D1SimplifiedGeometrySink
*sink
)
3727 FIXME("iface %p, option %#x, transform %p, tolerance %.8e, sink %p stub!\n",
3728 iface
, option
, transform
, tolerance
, sink
);
3733 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_Tessellate(ID2D1EllipseGeometry
*iface
,
3734 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
3736 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
3741 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_CombineWithGeometry(ID2D1EllipseGeometry
*iface
,
3742 ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
, const D2D1_MATRIX_3X2_F
*transform
,
3743 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
3745 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
3746 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
3751 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_Outline(ID2D1EllipseGeometry
*iface
,
3752 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
3754 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
3759 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_ComputeArea(ID2D1EllipseGeometry
*iface
,
3760 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
3762 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
3767 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_ComputeLength(ID2D1EllipseGeometry
*iface
,
3768 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
3770 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
3775 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_ComputePointAtLength(ID2D1EllipseGeometry
*iface
,
3776 float length
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_POINT_2F
*point
,
3777 D2D1_POINT_2F
*tangent
)
3779 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
3780 iface
, length
, transform
, tolerance
, point
, tangent
);
3785 static HRESULT STDMETHODCALLTYPE
d2d_ellipse_geometry_Widen(ID2D1EllipseGeometry
*iface
, float stroke_width
,
3786 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
3787 ID2D1SimplifiedGeometrySink
*sink
)
3789 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
3790 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
3795 static void STDMETHODCALLTYPE
d2d_ellipse_geometry_GetEllipse(ID2D1EllipseGeometry
*iface
, D2D1_ELLIPSE
*ellipse
)
3797 struct d2d_geometry
*geometry
= impl_from_ID2D1EllipseGeometry(iface
);
3799 TRACE("iface %p, ellipse %p.\n", iface
, ellipse
);
3801 *ellipse
= geometry
->u
.ellipse
.ellipse
;
3804 static const struct ID2D1EllipseGeometryVtbl d2d_ellipse_geometry_vtbl
=
3806 d2d_ellipse_geometry_QueryInterface
,
3807 d2d_ellipse_geometry_AddRef
,
3808 d2d_ellipse_geometry_Release
,
3809 d2d_ellipse_geometry_GetFactory
,
3810 d2d_ellipse_geometry_GetBounds
,
3811 d2d_ellipse_geometry_GetWidenedBounds
,
3812 d2d_ellipse_geometry_StrokeContainsPoint
,
3813 d2d_ellipse_geometry_FillContainsPoint
,
3814 d2d_ellipse_geometry_CompareWithGeometry
,
3815 d2d_ellipse_geometry_Simplify
,
3816 d2d_ellipse_geometry_Tessellate
,
3817 d2d_ellipse_geometry_CombineWithGeometry
,
3818 d2d_ellipse_geometry_Outline
,
3819 d2d_ellipse_geometry_ComputeArea
,
3820 d2d_ellipse_geometry_ComputeLength
,
3821 d2d_ellipse_geometry_ComputePointAtLength
,
3822 d2d_ellipse_geometry_Widen
,
3823 d2d_ellipse_geometry_GetEllipse
,
3826 HRESULT
d2d_ellipse_geometry_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
, const D2D1_ELLIPSE
*ellipse
)
3828 D2D1_POINT_2F
*v
, v1
, v2
, v3
, v4
;
3832 d2d_geometry_init(geometry
, factory
, &identity
, (ID2D1GeometryVtbl
*)&d2d_ellipse_geometry_vtbl
);
3833 geometry
->u
.ellipse
.ellipse
= *ellipse
;
3835 if (!(geometry
->fill
.vertices
= heap_alloc(4 * sizeof(*geometry
->fill
.vertices
))))
3837 if (!d2d_array_reserve((void **)&geometry
->fill
.faces
,
3838 &geometry
->fill
.faces_size
, 2, sizeof(*geometry
->fill
.faces
)))
3841 l
= ellipse
->point
.x
- ellipse
->radiusX
;
3842 r
= ellipse
->point
.x
+ ellipse
->radiusX
;
3843 t
= ellipse
->point
.y
- ellipse
->radiusY
;
3844 b
= ellipse
->point
.y
+ ellipse
->radiusY
;
3846 d2d_point_set(&v1
, r
, t
);
3847 d2d_point_set(&v2
, r
, b
);
3848 d2d_point_set(&v3
, l
, b
);
3849 d2d_point_set(&v4
, l
, t
);
3851 v
= geometry
->fill
.vertices
;
3852 d2d_point_set(&v
[0], ellipse
->point
.x
, t
);
3853 d2d_point_set(&v
[1], r
, ellipse
->point
.y
);
3854 d2d_point_set(&v
[2], ellipse
->point
.x
, b
);
3855 d2d_point_set(&v
[3], l
, ellipse
->point
.y
);
3856 geometry
->fill
.vertex_count
= 4;
3858 f
= geometry
->fill
.faces
;
3859 d2d_face_set(&f
[0], 0, 3, 2);
3860 d2d_face_set(&f
[1], 0, 2, 1);
3861 geometry
->fill
.face_count
= 2;
3863 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[0], &v1
, &v
[1]))
3865 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[1], &v2
, &v
[2]))
3867 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[2], &v3
, &v
[3]))
3869 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[3], &v4
, &v
[0]))
3872 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[0], &v1
, &v
[1]))
3874 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[1], &v2
, &v
[2]))
3876 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[2], &v3
, &v
[3]))
3878 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[3], &v4
, &v
[0]))
3884 d2d_geometry_cleanup(geometry
);
3885 return E_OUTOFMEMORY
;
3888 static inline struct d2d_geometry
*impl_from_ID2D1RectangleGeometry(ID2D1RectangleGeometry
*iface
)
3890 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
3893 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_QueryInterface(ID2D1RectangleGeometry
*iface
,
3894 REFIID iid
, void **out
)
3896 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
3898 if (IsEqualGUID(iid
, &IID_ID2D1RectangleGeometry
)
3899 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
3900 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
3901 || IsEqualGUID(iid
, &IID_IUnknown
))
3903 ID2D1RectangleGeometry_AddRef(iface
);
3908 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
3911 return E_NOINTERFACE
;
3914 static ULONG STDMETHODCALLTYPE
d2d_rectangle_geometry_AddRef(ID2D1RectangleGeometry
*iface
)
3916 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
3917 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
3919 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
3924 static ULONG STDMETHODCALLTYPE
d2d_rectangle_geometry_Release(ID2D1RectangleGeometry
*iface
)
3926 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
3927 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
3929 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
3933 d2d_geometry_cleanup(geometry
);
3934 heap_free(geometry
);
3940 static void STDMETHODCALLTYPE
d2d_rectangle_geometry_GetFactory(ID2D1RectangleGeometry
*iface
, ID2D1Factory
**factory
)
3942 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
3944 TRACE("iface %p, factory %p.\n", iface
, factory
);
3946 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
3949 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_GetBounds(ID2D1RectangleGeometry
*iface
,
3950 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
3952 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
3956 TRACE("iface %p, transform %p, bounds %p.\n", iface
, transform
, bounds
);
3958 rect
= &geometry
->u
.rectangle
.rect
;
3965 bounds
->left
= FLT_MAX
;
3966 bounds
->top
= FLT_MAX
;
3967 bounds
->right
= -FLT_MAX
;
3968 bounds
->bottom
= -FLT_MAX
;
3970 d2d_point_transform(&p
, transform
, rect
->left
, rect
->top
);
3971 d2d_rect_expand(bounds
, &p
);
3972 d2d_point_transform(&p
, transform
, rect
->left
, rect
->bottom
);
3973 d2d_rect_expand(bounds
, &p
);
3974 d2d_point_transform(&p
, transform
, rect
->right
, rect
->bottom
);
3975 d2d_rect_expand(bounds
, &p
);
3976 d2d_point_transform(&p
, transform
, rect
->right
, rect
->top
);
3977 d2d_rect_expand(bounds
, &p
);
3982 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_GetWidenedBounds(ID2D1RectangleGeometry
*iface
,
3983 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
3984 float tolerance
, D2D1_RECT_F
*bounds
)
3986 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
3987 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
3992 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_StrokeContainsPoint(ID2D1RectangleGeometry
*iface
,
3993 D2D1_POINT_2F point
, float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
3994 float tolerance
, BOOL
*contains
)
3996 FIXME("iface %p, point %s, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, contains %p stub!\n",
3997 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
4002 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_FillContainsPoint(ID2D1RectangleGeometry
*iface
,
4003 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
4005 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
4006 D2D1_RECT_F
*rect
= &geometry
->u
.rectangle
.rect
;
4009 TRACE("iface %p, point %s, transform %p, tolerance %.8e, contains %p.\n",
4010 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
4014 D2D1_MATRIX_3X2_F g_i
;
4016 if (!d2d_matrix_invert(&g_i
, transform
))
4017 return D2DERR_UNSUPPORTED_OPERATION
;
4018 d2d_point_transform(&point
, &g_i
, point
.x
, point
.y
);
4021 if (tolerance
== 0.0f
)
4022 tolerance
= D2D1_DEFAULT_FLATTENING_TOLERANCE
;
4024 dx
= max(fabsf((rect
->right
+ rect
->left
) / 2.0f
- point
.x
) - (rect
->right
- rect
->left
) / 2.0f
, 0.0f
);
4025 dy
= max(fabsf((rect
->bottom
+ rect
->top
) / 2.0f
- point
.y
) - (rect
->bottom
- rect
->top
) / 2.0f
, 0.0f
);
4027 *contains
= tolerance
* tolerance
> (dx
* dx
+ dy
* dy
);
4031 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_CompareWithGeometry(ID2D1RectangleGeometry
*iface
,
4032 ID2D1Geometry
*geometry
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
4034 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
4035 iface
, geometry
, transform
, tolerance
, relation
);
4040 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_Simplify(ID2D1RectangleGeometry
*iface
,
4041 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4042 ID2D1SimplifiedGeometrySink
*sink
)
4044 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
4045 D2D1_RECT_F
*rect
= &geometry
->u
.rectangle
.rect
;
4049 TRACE("iface %p, option %#x, transform %p, tolerance %.8e, sink %p.\n",
4050 iface
, option
, transform
, tolerance
, sink
);
4052 d2d_point_set(&p
[0], rect
->left
, rect
->top
);
4053 d2d_point_set(&p
[1], rect
->right
, rect
->top
);
4054 d2d_point_set(&p
[2], rect
->right
, rect
->bottom
);
4055 d2d_point_set(&p
[3], rect
->left
, rect
->bottom
);
4059 for (i
= 0; i
< ARRAY_SIZE(p
); ++i
)
4061 d2d_point_transform(&p
[i
], transform
, p
[i
].x
, p
[i
].y
);
4065 ID2D1SimplifiedGeometrySink_SetFillMode(sink
, D2D1_FILL_MODE_ALTERNATE
);
4066 ID2D1SimplifiedGeometrySink_BeginFigure(sink
, p
[0], D2D1_FIGURE_BEGIN_FILLED
);
4067 ID2D1SimplifiedGeometrySink_AddLines(sink
, &p
[1], 3);
4068 ID2D1SimplifiedGeometrySink_EndFigure(sink
, D2D1_FIGURE_END_CLOSED
);
4073 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_Tessellate(ID2D1RectangleGeometry
*iface
,
4074 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
4076 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4081 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_CombineWithGeometry(ID2D1RectangleGeometry
*iface
,
4082 ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
, const D2D1_MATRIX_3X2_F
*transform
,
4083 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4085 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
4086 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
4091 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_Outline(ID2D1RectangleGeometry
*iface
,
4092 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4094 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4099 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_ComputeArea(ID2D1RectangleGeometry
*iface
,
4100 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
4102 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
4107 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_ComputeLength(ID2D1RectangleGeometry
*iface
,
4108 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
4110 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
4115 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_ComputePointAtLength(ID2D1RectangleGeometry
*iface
,
4116 float length
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_POINT_2F
*point
,
4117 D2D1_POINT_2F
*tangent
)
4119 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
4120 iface
, length
, transform
, tolerance
, point
, tangent
);
4125 static HRESULT STDMETHODCALLTYPE
d2d_rectangle_geometry_Widen(ID2D1RectangleGeometry
*iface
, float stroke_width
,
4126 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4127 ID2D1SimplifiedGeometrySink
*sink
)
4129 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
4130 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
4135 static void STDMETHODCALLTYPE
d2d_rectangle_geometry_GetRect(ID2D1RectangleGeometry
*iface
, D2D1_RECT_F
*rect
)
4137 struct d2d_geometry
*geometry
= impl_from_ID2D1RectangleGeometry(iface
);
4139 TRACE("iface %p, rect %p.\n", iface
, rect
);
4141 *rect
= geometry
->u
.rectangle
.rect
;
4144 static const struct ID2D1RectangleGeometryVtbl d2d_rectangle_geometry_vtbl
=
4146 d2d_rectangle_geometry_QueryInterface
,
4147 d2d_rectangle_geometry_AddRef
,
4148 d2d_rectangle_geometry_Release
,
4149 d2d_rectangle_geometry_GetFactory
,
4150 d2d_rectangle_geometry_GetBounds
,
4151 d2d_rectangle_geometry_GetWidenedBounds
,
4152 d2d_rectangle_geometry_StrokeContainsPoint
,
4153 d2d_rectangle_geometry_FillContainsPoint
,
4154 d2d_rectangle_geometry_CompareWithGeometry
,
4155 d2d_rectangle_geometry_Simplify
,
4156 d2d_rectangle_geometry_Tessellate
,
4157 d2d_rectangle_geometry_CombineWithGeometry
,
4158 d2d_rectangle_geometry_Outline
,
4159 d2d_rectangle_geometry_ComputeArea
,
4160 d2d_rectangle_geometry_ComputeLength
,
4161 d2d_rectangle_geometry_ComputePointAtLength
,
4162 d2d_rectangle_geometry_Widen
,
4163 d2d_rectangle_geometry_GetRect
,
4166 HRESULT
d2d_rectangle_geometry_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
, const D2D1_RECT_F
*rect
)
4172 static const D2D1_POINT_2F prev
[] =
4179 static const D2D1_POINT_2F next
[] =
4187 d2d_geometry_init(geometry
, factory
, &identity
, (ID2D1GeometryVtbl
*)&d2d_rectangle_geometry_vtbl
);
4188 geometry
->u
.rectangle
.rect
= *rect
;
4190 if (!(geometry
->fill
.vertices
= heap_alloc(4 * sizeof(*geometry
->fill
.vertices
))))
4192 if (!d2d_array_reserve((void **)&geometry
->fill
.faces
,
4193 &geometry
->fill
.faces_size
, 2, sizeof(*geometry
->fill
.faces
)))
4196 l
= min(rect
->left
, rect
->right
);
4197 r
= max(rect
->left
, rect
->right
);
4198 t
= min(rect
->top
, rect
->bottom
);
4199 b
= max(rect
->top
, rect
->bottom
);
4201 v
= geometry
->fill
.vertices
;
4202 d2d_point_set(&v
[0], l
, t
);
4203 d2d_point_set(&v
[1], l
, b
);
4204 d2d_point_set(&v
[2], r
, b
);
4205 d2d_point_set(&v
[3], r
, t
);
4206 geometry
->fill
.vertex_count
= 4;
4208 f
= geometry
->fill
.faces
;
4209 d2d_face_set(&f
[0], 1, 2, 0);
4210 d2d_face_set(&f
[1], 0, 2, 3);
4211 geometry
->fill
.face_count
= 2;
4213 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[0], &v
[1]))
4215 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[1], &v
[2]))
4217 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[2], &v
[3]))
4219 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[3], &v
[0]))
4222 if (!d2d_geometry_outline_add_join(geometry
, &prev
[0], &v
[0], &next
[0]))
4224 if (!d2d_geometry_outline_add_join(geometry
, &prev
[1], &v
[1], &next
[1]))
4226 if (!d2d_geometry_outline_add_join(geometry
, &prev
[2], &v
[2], &next
[2]))
4228 if (!d2d_geometry_outline_add_join(geometry
, &prev
[3], &v
[3], &next
[3]))
4234 d2d_geometry_cleanup(geometry
);
4235 return E_OUTOFMEMORY
;
4238 static inline struct d2d_geometry
*impl_from_ID2D1RoundedRectangleGeometry(ID2D1RoundedRectangleGeometry
*iface
)
4240 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
4243 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_QueryInterface(ID2D1RoundedRectangleGeometry
*iface
,
4244 REFIID iid
, void **out
)
4246 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
4248 if (IsEqualGUID(iid
, &IID_ID2D1RoundedRectangleGeometry
)
4249 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
4250 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
4251 || IsEqualGUID(iid
, &IID_IUnknown
))
4253 ID2D1RoundedRectangleGeometry_AddRef(iface
);
4258 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
4261 return E_NOINTERFACE
;
4264 static ULONG STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_AddRef(ID2D1RoundedRectangleGeometry
*iface
)
4266 struct d2d_geometry
*geometry
= impl_from_ID2D1RoundedRectangleGeometry(iface
);
4267 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
4269 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
4274 static ULONG STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_Release(ID2D1RoundedRectangleGeometry
*iface
)
4276 struct d2d_geometry
*geometry
= impl_from_ID2D1RoundedRectangleGeometry(iface
);
4277 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
4279 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
4283 d2d_geometry_cleanup(geometry
);
4284 heap_free(geometry
);
4290 static void STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_GetFactory(ID2D1RoundedRectangleGeometry
*iface
,
4291 ID2D1Factory
**factory
)
4293 struct d2d_geometry
*geometry
= impl_from_ID2D1RoundedRectangleGeometry(iface
);
4295 TRACE("iface %p, factory %p.\n", iface
, factory
);
4297 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
4300 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_GetBounds(ID2D1RoundedRectangleGeometry
*iface
,
4301 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
4303 FIXME("iface %p, transform %p, bounds %p stub!\n", iface
, transform
, bounds
);
4308 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_GetWidenedBounds(ID2D1RoundedRectangleGeometry
*iface
,
4309 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4310 float tolerance
, D2D1_RECT_F
*bounds
)
4312 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
4313 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
4318 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_StrokeContainsPoint(
4319 ID2D1RoundedRectangleGeometry
*iface
, D2D1_POINT_2F point
, float stroke_width
,
4320 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
4322 FIXME("iface %p, point %s, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, contains %p stub!\n",
4323 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
4328 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_FillContainsPoint(ID2D1RoundedRectangleGeometry
*iface
,
4329 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
4331 FIXME("iface %p, point %s, transform %p, tolerance %.8e, contains %p stub!\n",
4332 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
4337 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_CompareWithGeometry(
4338 ID2D1RoundedRectangleGeometry
*iface
, ID2D1Geometry
*geometry
,
4339 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
4341 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
4342 iface
, geometry
, transform
, tolerance
, relation
);
4347 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_Simplify(ID2D1RoundedRectangleGeometry
*iface
,
4348 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4349 ID2D1SimplifiedGeometrySink
*sink
)
4351 FIXME("iface %p, option %#x, transform %p, tolerance %.8e, sink %p stub!\n",
4352 iface
, option
, transform
, tolerance
, sink
);
4357 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_Tessellate(ID2D1RoundedRectangleGeometry
*iface
,
4358 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
4360 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4365 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_CombineWithGeometry(
4366 ID2D1RoundedRectangleGeometry
*iface
, ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
,
4367 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4369 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
4370 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
4375 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_Outline(ID2D1RoundedRectangleGeometry
*iface
,
4376 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4378 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4383 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_ComputeArea(ID2D1RoundedRectangleGeometry
*iface
,
4384 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
4386 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
4391 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_ComputeLength(ID2D1RoundedRectangleGeometry
*iface
,
4392 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
4394 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
4399 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_ComputePointAtLength(
4400 ID2D1RoundedRectangleGeometry
*iface
, float length
, const D2D1_MATRIX_3X2_F
*transform
,
4401 float tolerance
, D2D1_POINT_2F
*point
, D2D1_POINT_2F
*tangent
)
4403 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
4404 iface
, length
, transform
, tolerance
, point
, tangent
);
4409 static HRESULT STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_Widen(ID2D1RoundedRectangleGeometry
*iface
,
4410 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4411 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4413 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
4414 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
4419 static void STDMETHODCALLTYPE
d2d_rounded_rectangle_geometry_GetRoundedRect(ID2D1RoundedRectangleGeometry
*iface
,
4420 D2D1_ROUNDED_RECT
*rounded_rect
)
4422 struct d2d_geometry
*geometry
= impl_from_ID2D1RoundedRectangleGeometry(iface
);
4424 TRACE("iface %p, rounded_rect %p.\n", iface
, rounded_rect
);
4426 *rounded_rect
= geometry
->u
.rounded_rectangle
.rounded_rect
;
4429 static const struct ID2D1RoundedRectangleGeometryVtbl d2d_rounded_rectangle_geometry_vtbl
=
4431 d2d_rounded_rectangle_geometry_QueryInterface
,
4432 d2d_rounded_rectangle_geometry_AddRef
,
4433 d2d_rounded_rectangle_geometry_Release
,
4434 d2d_rounded_rectangle_geometry_GetFactory
,
4435 d2d_rounded_rectangle_geometry_GetBounds
,
4436 d2d_rounded_rectangle_geometry_GetWidenedBounds
,
4437 d2d_rounded_rectangle_geometry_StrokeContainsPoint
,
4438 d2d_rounded_rectangle_geometry_FillContainsPoint
,
4439 d2d_rounded_rectangle_geometry_CompareWithGeometry
,
4440 d2d_rounded_rectangle_geometry_Simplify
,
4441 d2d_rounded_rectangle_geometry_Tessellate
,
4442 d2d_rounded_rectangle_geometry_CombineWithGeometry
,
4443 d2d_rounded_rectangle_geometry_Outline
,
4444 d2d_rounded_rectangle_geometry_ComputeArea
,
4445 d2d_rounded_rectangle_geometry_ComputeLength
,
4446 d2d_rounded_rectangle_geometry_ComputePointAtLength
,
4447 d2d_rounded_rectangle_geometry_Widen
,
4448 d2d_rounded_rectangle_geometry_GetRoundedRect
,
4451 HRESULT
d2d_rounded_rectangle_geometry_init(struct d2d_geometry
*geometry
,
4452 ID2D1Factory
*factory
, const D2D1_ROUNDED_RECT
*rounded_rect
)
4454 D2D1_POINT_2F
*v
, v1
, v2
, v3
, v4
;
4459 d2d_geometry_init(geometry
, factory
, &identity
, (ID2D1GeometryVtbl
*)&d2d_rounded_rectangle_geometry_vtbl
);
4460 geometry
->u
.rounded_rectangle
.rounded_rect
= *rounded_rect
;
4462 if (!(geometry
->fill
.vertices
= heap_alloc(8 * sizeof(*geometry
->fill
.vertices
))))
4464 if (!d2d_array_reserve((void **)&geometry
->fill
.faces
,
4465 &geometry
->fill
.faces_size
, 6, sizeof(*geometry
->fill
.faces
)))
4468 l
= min(rounded_rect
->rect
.left
, rounded_rect
->rect
.right
);
4469 r
= max(rounded_rect
->rect
.left
, rounded_rect
->rect
.right
);
4470 t
= min(rounded_rect
->rect
.top
, rounded_rect
->rect
.bottom
);
4471 b
= max(rounded_rect
->rect
.top
, rounded_rect
->rect
.bottom
);
4473 rx
= min(rounded_rect
->radiusX
, 0.5f
* (r
- l
));
4474 ry
= min(rounded_rect
->radiusY
, 0.5f
* (b
- t
));
4476 d2d_point_set(&v1
, r
, t
);
4477 d2d_point_set(&v2
, r
, b
);
4478 d2d_point_set(&v3
, l
, b
);
4479 d2d_point_set(&v4
, l
, t
);
4481 v
= geometry
->fill
.vertices
;
4482 d2d_point_set(&v
[0], l
+ rx
, t
);
4483 d2d_point_set(&v
[1], r
- rx
, t
);
4484 d2d_point_set(&v
[2], r
, t
+ ry
);
4485 d2d_point_set(&v
[3], r
, b
- ry
);
4486 d2d_point_set(&v
[4], r
- rx
, b
);
4487 d2d_point_set(&v
[5], l
+ rx
, b
);
4488 d2d_point_set(&v
[6], l
, b
- ry
);
4489 d2d_point_set(&v
[7], l
, t
+ ry
);
4490 geometry
->fill
.vertex_count
= 8;
4492 f
= geometry
->fill
.faces
;
4493 d2d_face_set(&f
[0], 0, 7, 6);
4494 d2d_face_set(&f
[1], 0, 6, 5);
4495 d2d_face_set(&f
[2], 0, 5, 4);
4496 d2d_face_set(&f
[3], 0, 4, 1);
4497 d2d_face_set(&f
[4], 1, 4, 3);
4498 d2d_face_set(&f
[5], 1, 3, 2);
4499 geometry
->fill
.face_count
= 6;
4501 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[1], &v1
, &v
[2]))
4503 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[3], &v2
, &v
[4]))
4505 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[5], &v3
, &v
[6]))
4507 if (!d2d_geometry_fill_add_arc_triangle(geometry
, &v
[7], &v4
, &v
[0]))
4510 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[0], &v
[1]))
4512 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[1], &v1
, &v
[2]))
4514 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[2], &v
[3]))
4516 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[3], &v2
, &v
[4]))
4518 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[4], &v
[5]))
4520 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[5], &v3
, &v
[6]))
4522 if (!d2d_geometry_outline_add_line_segment(geometry
, &v
[6], &v
[7]))
4524 if (!d2d_geometry_outline_add_arc_quadrant(geometry
, &v
[7], &v4
, &v
[0]))
4530 d2d_geometry_cleanup(geometry
);
4531 return E_OUTOFMEMORY
;
4534 static inline struct d2d_geometry
*impl_from_ID2D1TransformedGeometry(ID2D1TransformedGeometry
*iface
)
4536 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
4539 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_QueryInterface(ID2D1TransformedGeometry
*iface
,
4540 REFIID iid
, void **out
)
4542 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
4544 if (IsEqualGUID(iid
, &IID_ID2D1TransformedGeometry
)
4545 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
4546 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
4547 || IsEqualGUID(iid
, &IID_IUnknown
))
4549 ID2D1TransformedGeometry_AddRef(iface
);
4554 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
4557 return E_NOINTERFACE
;
4560 static ULONG STDMETHODCALLTYPE
d2d_transformed_geometry_AddRef(ID2D1TransformedGeometry
*iface
)
4562 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4563 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
4565 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
4570 static ULONG STDMETHODCALLTYPE
d2d_transformed_geometry_Release(ID2D1TransformedGeometry
*iface
)
4572 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4573 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
4575 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
4579 geometry
->outline
.arc_faces
= NULL
;
4580 geometry
->outline
.arcs
= NULL
;
4581 geometry
->outline
.bezier_faces
= NULL
;
4582 geometry
->outline
.beziers
= NULL
;
4583 geometry
->outline
.faces
= NULL
;
4584 geometry
->outline
.vertices
= NULL
;
4585 geometry
->fill
.arc_vertices
= NULL
;
4586 geometry
->fill
.bezier_vertices
= NULL
;
4587 geometry
->fill
.faces
= NULL
;
4588 geometry
->fill
.vertices
= NULL
;
4589 ID2D1Geometry_Release(geometry
->u
.transformed
.src_geometry
);
4590 d2d_geometry_cleanup(geometry
);
4591 heap_free(geometry
);
4597 static void STDMETHODCALLTYPE
d2d_transformed_geometry_GetFactory(ID2D1TransformedGeometry
*iface
,
4598 ID2D1Factory
**factory
)
4600 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4602 TRACE("iface %p, factory %p.\n", iface
, factory
);
4604 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
4607 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_GetBounds(ID2D1TransformedGeometry
*iface
,
4608 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
4610 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4611 D2D1_MATRIX_3X2_F g
;
4613 TRACE("iface %p, transform %p, bounds %p.\n", iface
, transform
, bounds
);
4615 g
= geometry
->transform
;
4617 d2d_matrix_multiply(&g
, transform
);
4619 return ID2D1Geometry_GetBounds(geometry
->u
.transformed
.src_geometry
, &g
, bounds
);
4622 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_GetWidenedBounds(ID2D1TransformedGeometry
*iface
,
4623 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4624 float tolerance
, D2D1_RECT_F
*bounds
)
4626 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
4627 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
4632 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_StrokeContainsPoint(ID2D1TransformedGeometry
*iface
,
4633 D2D1_POINT_2F point
, float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4634 float tolerance
, BOOL
*contains
)
4636 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4637 D2D1_MATRIX_3X2_F g
;
4639 TRACE("iface %p, point %s, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, contains %p.\n",
4640 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
4642 g
= geometry
->transform
;
4644 d2d_matrix_multiply(&g
, transform
);
4646 return ID2D1Geometry_StrokeContainsPoint(geometry
->u
.transformed
.src_geometry
, point
, stroke_width
, stroke_style
,
4647 &g
, tolerance
, contains
);
4650 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_FillContainsPoint(ID2D1TransformedGeometry
*iface
,
4651 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
4653 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4654 D2D1_MATRIX_3X2_F g
;
4656 TRACE("iface %p, point %s, transform %p, tolerance %.8e, contains %p.\n",
4657 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
4659 g
= geometry
->transform
;
4661 d2d_matrix_multiply(&g
, transform
);
4663 return ID2D1Geometry_FillContainsPoint(geometry
->u
.transformed
.src_geometry
, point
, &g
, tolerance
, contains
);
4666 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_CompareWithGeometry(ID2D1TransformedGeometry
*iface
,
4667 ID2D1Geometry
*geometry
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
4669 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
4670 iface
, geometry
, transform
, tolerance
, relation
);
4675 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_Simplify(ID2D1TransformedGeometry
*iface
,
4676 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4677 ID2D1SimplifiedGeometrySink
*sink
)
4679 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4680 D2D1_MATRIX_3X2_F g
;
4682 TRACE("iface %p, option %#x, transform %p, tolerance %.8e, sink %p.\n",
4683 iface
, option
, transform
, tolerance
, sink
);
4685 g
= geometry
->transform
;
4687 d2d_matrix_multiply(&g
, transform
);
4689 return ID2D1Geometry_Simplify(geometry
->u
.transformed
.src_geometry
, option
, &g
, tolerance
, sink
);
4692 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_Tessellate(ID2D1TransformedGeometry
*iface
,
4693 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
4695 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4700 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_CombineWithGeometry(ID2D1TransformedGeometry
*iface
,
4701 ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
, const D2D1_MATRIX_3X2_F
*transform
,
4702 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4704 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
4705 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
4710 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_Outline(ID2D1TransformedGeometry
*iface
,
4711 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4713 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4718 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_ComputeArea(ID2D1TransformedGeometry
*iface
,
4719 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
4721 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
4726 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_ComputeLength(ID2D1TransformedGeometry
*iface
,
4727 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
4729 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
4734 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_ComputePointAtLength(ID2D1TransformedGeometry
*iface
,
4735 float length
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_POINT_2F
*point
,
4736 D2D1_POINT_2F
*tangent
)
4738 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
4739 iface
, length
, transform
, tolerance
, point
, tangent
);
4744 static HRESULT STDMETHODCALLTYPE
d2d_transformed_geometry_Widen(ID2D1TransformedGeometry
*iface
, float stroke_width
,
4745 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4746 ID2D1SimplifiedGeometrySink
*sink
)
4748 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
4749 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
4754 static void STDMETHODCALLTYPE
d2d_transformed_geometry_GetSourceGeometry(ID2D1TransformedGeometry
*iface
,
4755 ID2D1Geometry
**src_geometry
)
4757 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4759 TRACE("iface %p, src_geometry %p.\n", iface
, src_geometry
);
4761 ID2D1Geometry_AddRef(*src_geometry
= geometry
->u
.transformed
.src_geometry
);
4764 static void STDMETHODCALLTYPE
d2d_transformed_geometry_GetTransform(ID2D1TransformedGeometry
*iface
,
4765 D2D1_MATRIX_3X2_F
*transform
)
4767 struct d2d_geometry
*geometry
= impl_from_ID2D1TransformedGeometry(iface
);
4769 TRACE("iface %p, transform %p.\n", iface
, transform
);
4771 *transform
= geometry
->u
.transformed
.transform
;
4774 static const struct ID2D1TransformedGeometryVtbl d2d_transformed_geometry_vtbl
=
4776 d2d_transformed_geometry_QueryInterface
,
4777 d2d_transformed_geometry_AddRef
,
4778 d2d_transformed_geometry_Release
,
4779 d2d_transformed_geometry_GetFactory
,
4780 d2d_transformed_geometry_GetBounds
,
4781 d2d_transformed_geometry_GetWidenedBounds
,
4782 d2d_transformed_geometry_StrokeContainsPoint
,
4783 d2d_transformed_geometry_FillContainsPoint
,
4784 d2d_transformed_geometry_CompareWithGeometry
,
4785 d2d_transformed_geometry_Simplify
,
4786 d2d_transformed_geometry_Tessellate
,
4787 d2d_transformed_geometry_CombineWithGeometry
,
4788 d2d_transformed_geometry_Outline
,
4789 d2d_transformed_geometry_ComputeArea
,
4790 d2d_transformed_geometry_ComputeLength
,
4791 d2d_transformed_geometry_ComputePointAtLength
,
4792 d2d_transformed_geometry_Widen
,
4793 d2d_transformed_geometry_GetSourceGeometry
,
4794 d2d_transformed_geometry_GetTransform
,
4797 void d2d_transformed_geometry_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
,
4798 ID2D1Geometry
*src_geometry
, const D2D_MATRIX_3X2_F
*transform
)
4800 struct d2d_geometry
*src_impl
;
4803 src_impl
= unsafe_impl_from_ID2D1Geometry(src_geometry
);
4805 g
= src_impl
->transform
;
4806 d2d_matrix_multiply(&g
, transform
);
4807 d2d_geometry_init(geometry
, factory
, &g
, (ID2D1GeometryVtbl
*)&d2d_transformed_geometry_vtbl
);
4808 ID2D1Geometry_AddRef(geometry
->u
.transformed
.src_geometry
= src_geometry
);
4809 geometry
->u
.transformed
.transform
= *transform
;
4810 geometry
->fill
= src_impl
->fill
;
4811 geometry
->outline
= src_impl
->outline
;
4814 static inline struct d2d_geometry
*impl_from_ID2D1GeometryGroup(ID2D1GeometryGroup
*iface
)
4816 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);
4819 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_QueryInterface(ID2D1GeometryGroup
*iface
,
4820 REFIID iid
, void **out
)
4822 TRACE("iface %p, iid %s, out %p.\n", iface
, debugstr_guid(iid
), out
);
4824 if (IsEqualGUID(iid
, &IID_ID2D1GeometryGroup
)
4825 || IsEqualGUID(iid
, &IID_ID2D1Geometry
)
4826 || IsEqualGUID(iid
, &IID_ID2D1Resource
)
4827 || IsEqualGUID(iid
, &IID_IUnknown
))
4829 ID2D1GeometryGroup_AddRef(iface
);
4834 WARN("%s not implemented, returning E_NOINTERFACE.\n", debugstr_guid(iid
));
4837 return E_NOINTERFACE
;
4840 static ULONG STDMETHODCALLTYPE
d2d_geometry_group_AddRef(ID2D1GeometryGroup
*iface
)
4842 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
4843 ULONG refcount
= InterlockedIncrement(&geometry
->refcount
);
4845 TRACE("%p increasing refcount to %u.\n", iface
, refcount
);
4850 static ULONG STDMETHODCALLTYPE
d2d_geometry_group_Release(ID2D1GeometryGroup
*iface
)
4852 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
4853 ULONG refcount
= InterlockedDecrement(&geometry
->refcount
);
4856 TRACE("%p decreasing refcount to %u.\n", iface
, refcount
);
4860 for (i
= 0; i
< geometry
->u
.group
.geometry_count
; ++i
)
4861 ID2D1Geometry_Release(geometry
->u
.group
.src_geometries
[i
]);
4862 heap_free(geometry
->u
.group
.src_geometries
);
4863 d2d_geometry_cleanup(geometry
);
4864 heap_free(geometry
);
4870 static void STDMETHODCALLTYPE
d2d_geometry_group_GetFactory(ID2D1GeometryGroup
*iface
,
4871 ID2D1Factory
**factory
)
4873 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
4875 TRACE("iface %p, factory %p.\n", iface
, factory
);
4877 ID2D1Factory_AddRef(*factory
= geometry
->factory
);
4880 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_GetBounds(ID2D1GeometryGroup
*iface
,
4881 const D2D1_MATRIX_3X2_F
*transform
, D2D1_RECT_F
*bounds
)
4883 FIXME("iface %p, transform %p, bounds %p stub!.\n", iface
, transform
, bounds
);
4888 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_GetWidenedBounds(ID2D1GeometryGroup
*iface
,
4889 float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4890 float tolerance
, D2D1_RECT_F
*bounds
)
4892 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, bounds %p stub!\n",
4893 iface
, stroke_width
, stroke_style
, transform
, tolerance
, bounds
);
4898 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_StrokeContainsPoint(ID2D1GeometryGroup
*iface
,
4899 D2D1_POINT_2F point
, float stroke_width
, ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
,
4900 float tolerance
, BOOL
*contains
)
4902 FIXME("iface %p, point %s, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, contains %p.\n",
4903 iface
, debug_d2d_point_2f(&point
), stroke_width
, stroke_style
, transform
, tolerance
, contains
);
4908 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_FillContainsPoint(ID2D1GeometryGroup
*iface
,
4909 D2D1_POINT_2F point
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, BOOL
*contains
)
4911 FIXME("iface %p, point %s, transform %p, tolerance %.8e, contains %p stub!.\n",
4912 iface
, debug_d2d_point_2f(&point
), transform
, tolerance
, contains
);
4917 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_CompareWithGeometry(ID2D1GeometryGroup
*iface
,
4918 ID2D1Geometry
*geometry
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_GEOMETRY_RELATION
*relation
)
4920 FIXME("iface %p, geometry %p, transform %p, tolerance %.8e, relation %p stub!\n",
4921 iface
, geometry
, transform
, tolerance
, relation
);
4926 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_Simplify(ID2D1GeometryGroup
*iface
,
4927 D2D1_GEOMETRY_SIMPLIFICATION_OPTION option
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4928 ID2D1SimplifiedGeometrySink
*sink
)
4930 FIXME("iface %p, option %#x, transform %p, tolerance %.8e, sink %p stub!.\n",
4931 iface
, option
, transform
, tolerance
, sink
);
4936 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_Tessellate(ID2D1GeometryGroup
*iface
,
4937 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1TessellationSink
*sink
)
4939 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4944 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_CombineWithGeometry(ID2D1GeometryGroup
*iface
,
4945 ID2D1Geometry
*geometry
, D2D1_COMBINE_MODE combine_mode
, const D2D1_MATRIX_3X2_F
*transform
,
4946 float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4948 FIXME("iface %p, geometry %p, combine_mode %#x, transform %p, tolerance %.8e, sink %p stub!\n",
4949 iface
, geometry
, combine_mode
, transform
, tolerance
, sink
);
4954 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_Outline(ID2D1GeometryGroup
*iface
,
4955 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, ID2D1SimplifiedGeometrySink
*sink
)
4957 FIXME("iface %p, transform %p, tolerance %.8e, sink %p stub!\n", iface
, transform
, tolerance
, sink
);
4962 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_ComputeArea(ID2D1GeometryGroup
*iface
,
4963 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *area
)
4965 FIXME("iface %p, transform %p, tolerance %.8e, area %p stub!\n", iface
, transform
, tolerance
, area
);
4970 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_ComputeLength(ID2D1GeometryGroup
*iface
,
4971 const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, float *length
)
4973 FIXME("iface %p, transform %p, tolerance %.8e, length %p stub!\n", iface
, transform
, tolerance
, length
);
4978 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_ComputePointAtLength(ID2D1GeometryGroup
*iface
,
4979 float length
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
, D2D1_POINT_2F
*point
,
4980 D2D1_POINT_2F
*tangent
)
4982 FIXME("iface %p, length %.8e, transform %p, tolerance %.8e, point %p, tangent %p stub!\n",
4983 iface
, length
, transform
, tolerance
, point
, tangent
);
4988 static HRESULT STDMETHODCALLTYPE
d2d_geometry_group_Widen(ID2D1GeometryGroup
*iface
, float stroke_width
,
4989 ID2D1StrokeStyle
*stroke_style
, const D2D1_MATRIX_3X2_F
*transform
, float tolerance
,
4990 ID2D1SimplifiedGeometrySink
*sink
)
4992 FIXME("iface %p, stroke_width %.8e, stroke_style %p, transform %p, tolerance %.8e, sink %p stub!\n",
4993 iface
, stroke_width
, stroke_style
, transform
, tolerance
, sink
);
4998 static D2D1_FILL_MODE STDMETHODCALLTYPE
d2d_geometry_group_GetFillMode(ID2D1GeometryGroup
*iface
)
5000 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
5002 TRACE("iface %p.\n", iface
);
5004 return geometry
->u
.group
.fill_mode
;
5007 static UINT32 STDMETHODCALLTYPE
d2d_geometry_group_GetSourceGeometryCount(ID2D1GeometryGroup
*iface
)
5009 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
5011 TRACE("iface %p.\n", iface
);
5013 return geometry
->u
.group
.geometry_count
;
5016 static void STDMETHODCALLTYPE
d2d_geometry_group_GetSourceGeometries(ID2D1GeometryGroup
*iface
,
5017 ID2D1Geometry
**geometries
, UINT32 geometry_count
)
5019 struct d2d_geometry
*geometry
= impl_from_ID2D1GeometryGroup(iface
);
5022 TRACE("iface %p, geometries %p, geometry_count %u.\n", iface
, geometries
, geometry_count
);
5024 geometry_count
= min(geometry_count
, geometry
->u
.group
.geometry_count
);
5025 for (i
= 0; i
< geometry_count
; ++i
)
5026 ID2D1Geometry_AddRef(geometries
[i
] = geometry
->u
.group
.src_geometries
[i
]);
5029 static const struct ID2D1GeometryGroupVtbl d2d_geometry_group_vtbl
=
5031 d2d_geometry_group_QueryInterface
,
5032 d2d_geometry_group_AddRef
,
5033 d2d_geometry_group_Release
,
5034 d2d_geometry_group_GetFactory
,
5035 d2d_geometry_group_GetBounds
,
5036 d2d_geometry_group_GetWidenedBounds
,
5037 d2d_geometry_group_StrokeContainsPoint
,
5038 d2d_geometry_group_FillContainsPoint
,
5039 d2d_geometry_group_CompareWithGeometry
,
5040 d2d_geometry_group_Simplify
,
5041 d2d_geometry_group_Tessellate
,
5042 d2d_geometry_group_CombineWithGeometry
,
5043 d2d_geometry_group_Outline
,
5044 d2d_geometry_group_ComputeArea
,
5045 d2d_geometry_group_ComputeLength
,
5046 d2d_geometry_group_ComputePointAtLength
,
5047 d2d_geometry_group_Widen
,
5048 d2d_geometry_group_GetFillMode
,
5049 d2d_geometry_group_GetSourceGeometryCount
,
5050 d2d_geometry_group_GetSourceGeometries
,
5053 HRESULT
d2d_geometry_group_init(struct d2d_geometry
*geometry
, ID2D1Factory
*factory
,
5054 D2D1_FILL_MODE fill_mode
, ID2D1Geometry
**geometries
, unsigned int geometry_count
)
5058 d2d_geometry_init(geometry
, factory
, &identity
, (ID2D1GeometryVtbl
*)&d2d_geometry_group_vtbl
);
5060 if (!(geometry
->u
.group
.src_geometries
= heap_calloc(geometry_count
, sizeof(*geometries
))))
5062 d2d_geometry_cleanup(geometry
);
5063 return E_OUTOFMEMORY
;
5066 for (i
= 0; i
< geometry_count
; ++i
)
5068 ID2D1Geometry_AddRef(geometry
->u
.group
.src_geometries
[i
] = geometries
[i
]);
5070 geometry
->u
.group
.geometry_count
= geometry_count
;
5071 geometry
->u
.group
.fill_mode
= fill_mode
;
5076 struct d2d_geometry
*unsafe_impl_from_ID2D1Geometry(ID2D1Geometry
*iface
)
5080 assert(iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_ellipse_geometry_vtbl
5081 || iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_path_geometry_vtbl
5082 || iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_rectangle_geometry_vtbl
5083 || iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_rounded_rectangle_geometry_vtbl
5084 || iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_transformed_geometry_vtbl
5085 || iface
->lpVtbl
== (const ID2D1GeometryVtbl
*)&d2d_geometry_group_vtbl
);
5086 return CONTAINING_RECORD(iface
, struct d2d_geometry
, ID2D1Geometry_iface
);