/* -*- Mode: c; tab-width: 8; c-basic-offset: 4; indent-tabs-mode: t; -*- */ /* cairo - a vector graphics library with display and print output * * Copyright © 2002 University of Southern California * Copyright © 2005 Red Hat, Inc. * Copyright © 2011 Intel Corporation * * This library is free software; you can redistribute it and/or * modify it either under the terms of the GNU Lesser General Public * License version 2.1 as published by the Free Software Foundation * (the "LGPL") or, at your option, under the terms of the Mozilla * Public License Version 1.1 (the "MPL"). If you do not alter this * notice, a recipient may use your version of this file under either * the MPL or the LGPL. * * You should have received a copy of the LGPL along with this library * in the file COPYING-LGPL-2.1; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335, USA * You should have received a copy of the MPL along with this library * in the file COPYING-MPL-1.1 * * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY * OF ANY KIND, either express or implied. See the LGPL or the MPL for * the specific language governing rights and limitations. * * The Original Code is the cairo graphics library. * * The Initial Developer of the Original Code is University of Southern * California. * * Contributor(s): * Carl D. Worth * Joonas Pihlaja * Chris Wilson */ #include "cairoint.h" #include "cairo-compositor-private.h" #include "cairo-clip-inline.h" #include "cairo-clip-private.h" #include "cairo-image-surface-private.h" #include "cairo-paginated-private.h" #include "cairo-pattern-inline.h" #include "cairo-region-private.h" #include "cairo-recording-surface-inline.h" #include "cairo-spans-compositor-private.h" #include "cairo-surface-subsurface-private.h" #include "cairo-surface-snapshot-private.h" #include "cairo-surface-observer-private.h" typedef struct { cairo_polygon_t *polygon; cairo_fill_rule_t fill_rule; cairo_antialias_t antialias; } composite_spans_info_t; static cairo_int_status_t composite_polygon (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_polygon_t *polygon, cairo_fill_rule_t fill_rule, cairo_antialias_t antialias); static cairo_int_status_t composite_boxes (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes); static cairo_int_status_t clip_and_composite_polygon (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_polygon_t *polygon, cairo_fill_rule_t fill_rule, cairo_antialias_t antialias); static cairo_surface_t * get_clip_surface (const cairo_spans_compositor_t *compositor, cairo_surface_t *dst, const cairo_clip_t *clip, const cairo_rectangle_int_t *extents) { cairo_composite_rectangles_t composite; cairo_surface_t *surface; cairo_box_t box; cairo_polygon_t polygon; const cairo_clip_path_t *clip_path; cairo_antialias_t antialias; cairo_fill_rule_t fill_rule; cairo_int_status_t status; assert (clip->path); surface = _cairo_surface_create_scratch (dst, CAIRO_CONTENT_ALPHA, extents->width, extents->height, CAIRO_COLOR_TRANSPARENT); _cairo_box_from_rectangle (&box, extents); _cairo_polygon_init (&polygon, &box, 1); clip_path = clip->path; status = _cairo_path_fixed_fill_to_polygon (&clip_path->path, clip_path->tolerance, &polygon); if (unlikely (status)) goto cleanup_polygon; polygon.num_limits = 0; antialias = clip_path->antialias; fill_rule = clip_path->fill_rule; if (clip->boxes) { cairo_polygon_t intersect; cairo_boxes_t tmp; _cairo_boxes_init_for_array (&tmp, clip->boxes, clip->num_boxes); status= _cairo_polygon_init_boxes (&intersect, &tmp); if (unlikely (status)) goto cleanup_polygon; status = _cairo_polygon_intersect (&polygon, fill_rule, &intersect, CAIRO_FILL_RULE_WINDING); _cairo_polygon_fini (&intersect); if (unlikely (status)) goto cleanup_polygon; fill_rule = CAIRO_FILL_RULE_WINDING; } polygon.limits = NULL; polygon.num_limits = 0; clip_path = clip_path->prev; while (clip_path) { if (clip_path->antialias == antialias) { cairo_polygon_t next; _cairo_polygon_init (&next, NULL, 0); status = _cairo_path_fixed_fill_to_polygon (&clip_path->path, clip_path->tolerance, &next); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = _cairo_polygon_intersect (&polygon, fill_rule, &next, clip_path->fill_rule); _cairo_polygon_fini (&next); if (unlikely (status)) goto cleanup_polygon; fill_rule = CAIRO_FILL_RULE_WINDING; } clip_path = clip_path->prev; } _cairo_polygon_translate (&polygon, -extents->x, -extents->y); status = _cairo_composite_rectangles_init_for_polygon (&composite, surface, CAIRO_OPERATOR_ADD, &_cairo_pattern_white.base, &polygon, NULL); if (unlikely (status)) goto cleanup_polygon; status = composite_polygon (compositor, &composite, &polygon, fill_rule, antialias); _cairo_composite_rectangles_fini (&composite); _cairo_polygon_fini (&polygon); if (unlikely (status)) goto error; _cairo_polygon_init (&polygon, &box, 1); clip_path = clip->path; antialias = clip_path->antialias == CAIRO_ANTIALIAS_DEFAULT ? CAIRO_ANTIALIAS_NONE : CAIRO_ANTIALIAS_DEFAULT; clip_path = clip_path->prev; while (clip_path) { if (clip_path->antialias == antialias) { if (polygon.num_edges == 0) { status = _cairo_path_fixed_fill_to_polygon (&clip_path->path, clip_path->tolerance, &polygon); fill_rule = clip_path->fill_rule; polygon.limits = NULL; polygon.num_limits = 0; } else { cairo_polygon_t next; _cairo_polygon_init (&next, NULL, 0); status = _cairo_path_fixed_fill_to_polygon (&clip_path->path, clip_path->tolerance, &next); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = _cairo_polygon_intersect (&polygon, fill_rule, &next, clip_path->fill_rule); _cairo_polygon_fini (&next); fill_rule = CAIRO_FILL_RULE_WINDING; } if (unlikely (status)) goto error; } clip_path = clip_path->prev; } if (polygon.num_edges) { _cairo_polygon_translate (&polygon, -extents->x, -extents->y); status = _cairo_composite_rectangles_init_for_polygon (&composite, surface, CAIRO_OPERATOR_IN, &_cairo_pattern_white.base, &polygon, NULL); if (unlikely (status)) goto cleanup_polygon; status = composite_polygon (compositor, &composite, &polygon, fill_rule, antialias); _cairo_composite_rectangles_fini (&composite); _cairo_polygon_fini (&polygon); if (unlikely (status)) goto error; } return surface; cleanup_polygon: _cairo_polygon_fini (&polygon); error: cairo_surface_destroy (surface); return _cairo_int_surface_create_in_error (status); } static cairo_int_status_t fixup_unbounded_mask (const cairo_spans_compositor_t *compositor, const cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_composite_rectangles_t composite; cairo_surface_t *clip; cairo_int_status_t status; TRACE((stderr, "%s\n", __FUNCTION__)); clip = get_clip_surface (compositor, extents->surface, extents->clip, &extents->unbounded); if (unlikely (clip->status)) { if ((cairo_int_status_t)clip->status == CAIRO_INT_STATUS_NOTHING_TO_DO) return CAIRO_STATUS_SUCCESS; return clip->status; } status = _cairo_composite_rectangles_init_for_boxes (&composite, extents->surface, CAIRO_OPERATOR_CLEAR, &_cairo_pattern_clear.base, boxes, NULL); if (unlikely (status)) goto cleanup_clip; _cairo_pattern_init_for_surface (&composite.mask_pattern.surface, clip); composite.mask_pattern.base.filter = CAIRO_FILTER_NEAREST; composite.mask_pattern.base.extend = CAIRO_EXTEND_NONE; status = composite_boxes (compositor, &composite, boxes); _cairo_pattern_fini (&composite.mask_pattern.base); _cairo_composite_rectangles_fini (&composite); cleanup_clip: cairo_surface_destroy (clip); return status; } static cairo_int_status_t fixup_unbounded_polygon (const cairo_spans_compositor_t *compositor, const cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_polygon_t polygon, intersect; cairo_composite_rectangles_t composite; cairo_fill_rule_t fill_rule; cairo_antialias_t antialias; cairo_int_status_t status; TRACE((stderr, "%s\n", __FUNCTION__)); /* Can we treat the clip as a regular clear-polygon and use it to fill? */ status = _cairo_clip_get_polygon (extents->clip, &polygon, &fill_rule, &antialias); if (status == CAIRO_INT_STATUS_UNSUPPORTED) return status; status= _cairo_polygon_init_boxes (&intersect, boxes); if (unlikely (status)) goto cleanup_polygon; status = _cairo_polygon_intersect (&polygon, fill_rule, &intersect, CAIRO_FILL_RULE_WINDING); _cairo_polygon_fini (&intersect); if (unlikely (status)) goto cleanup_polygon; status = _cairo_composite_rectangles_init_for_polygon (&composite, extents->surface, CAIRO_OPERATOR_CLEAR, &_cairo_pattern_clear.base, &polygon, NULL); if (unlikely (status)) goto cleanup_polygon; status = composite_polygon (compositor, &composite, &polygon, fill_rule, antialias); _cairo_composite_rectangles_fini (&composite); cleanup_polygon: _cairo_polygon_fini (&polygon); return status; } static cairo_int_status_t fixup_unbounded_boxes (const cairo_spans_compositor_t *compositor, const cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_boxes_t tmp, clear; cairo_box_t box; cairo_int_status_t status; assert (boxes->is_pixel_aligned); TRACE ((stderr, "%s\n", __FUNCTION__)); if (extents->bounded.width == extents->unbounded.width && extents->bounded.height == extents->unbounded.height) { return CAIRO_STATUS_SUCCESS; } /* subtract the drawn boxes from the unbounded area */ _cairo_boxes_init (&clear); box.p1.x = _cairo_fixed_from_int (extents->unbounded.x + extents->unbounded.width); box.p1.y = _cairo_fixed_from_int (extents->unbounded.y); box.p2.x = _cairo_fixed_from_int (extents->unbounded.x); box.p2.y = _cairo_fixed_from_int (extents->unbounded.y + extents->unbounded.height); if (boxes->num_boxes) { _cairo_boxes_init (&tmp); status = _cairo_boxes_add (&tmp, CAIRO_ANTIALIAS_DEFAULT, &box); assert (status == CAIRO_INT_STATUS_SUCCESS); tmp.chunks.next = &boxes->chunks; tmp.num_boxes += boxes->num_boxes; status = _cairo_bentley_ottmann_tessellate_boxes (&tmp, CAIRO_FILL_RULE_WINDING, &clear); tmp.chunks.next = NULL; if (unlikely (status)) goto error; } else { box.p1.x = _cairo_fixed_from_int (extents->unbounded.x); box.p2.x = _cairo_fixed_from_int (extents->unbounded.x + extents->unbounded.width); status = _cairo_boxes_add (&clear, CAIRO_ANTIALIAS_DEFAULT, &box); assert (status == CAIRO_INT_STATUS_SUCCESS); } /* If we have a clip polygon, we need to intersect with that as well */ if (extents->clip->path) { status = fixup_unbounded_polygon (compositor, extents, &clear); if (status == CAIRO_INT_STATUS_UNSUPPORTED) status = fixup_unbounded_mask (compositor, extents, &clear); } else { /* Otherwise just intersect with the clip boxes */ if (extents->clip->num_boxes) { _cairo_boxes_init_for_array (&tmp, extents->clip->boxes, extents->clip->num_boxes); status = _cairo_boxes_intersect (&clear, &tmp, &clear); if (unlikely (status)) goto error; } if (clear.is_pixel_aligned) { status = compositor->fill_boxes (extents->surface, CAIRO_OPERATOR_CLEAR, CAIRO_COLOR_TRANSPARENT, &clear); } else { cairo_composite_rectangles_t composite; status = _cairo_composite_rectangles_init_for_boxes (&composite, extents->surface, CAIRO_OPERATOR_CLEAR, &_cairo_pattern_clear.base, &clear, NULL); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) { status = composite_boxes (compositor, &composite, &clear); _cairo_composite_rectangles_fini (&composite); } } } error: _cairo_boxes_fini (&clear); return status; } static cairo_surface_t * unwrap_source (const cairo_pattern_t *pattern) { cairo_rectangle_int_t limit; return _cairo_pattern_get_source ((cairo_surface_pattern_t *)pattern, &limit); } static cairo_bool_t is_recording_pattern (const cairo_pattern_t *pattern) { cairo_surface_t *surface; if (pattern->type != CAIRO_PATTERN_TYPE_SURFACE) return FALSE; surface = ((const cairo_surface_pattern_t *) pattern)->surface; return _cairo_surface_is_recording (surface); } static cairo_bool_t recording_pattern_contains_sample (const cairo_pattern_t *pattern, const cairo_rectangle_int_t *sample) { cairo_recording_surface_t *surface; if (! is_recording_pattern (pattern)) return FALSE; if (pattern->extend == CAIRO_EXTEND_NONE) return TRUE; surface = (cairo_recording_surface_t *) unwrap_source (pattern); if (surface->unbounded) return TRUE; return _cairo_rectangle_contains_rectangle (&surface->extents, sample); } static cairo_bool_t op_reduces_to_source (const cairo_composite_rectangles_t *extents, cairo_bool_t no_mask) { if (extents->op == CAIRO_OPERATOR_SOURCE) return TRUE; if (extents->surface->is_clear) return extents->op == CAIRO_OPERATOR_OVER || extents->op == CAIRO_OPERATOR_ADD; if (no_mask && extents->op == CAIRO_OPERATOR_OVER) return _cairo_pattern_is_opaque (&extents->source_pattern.base, &extents->source_sample_area); return FALSE; } static cairo_status_t upload_boxes (const cairo_spans_compositor_t *compositor, const cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_surface_t *dst = extents->surface; const cairo_surface_pattern_t *source = &extents->source_pattern.surface; cairo_surface_t *src; cairo_rectangle_int_t limit; cairo_int_status_t status; int tx, ty; TRACE ((stderr, "%s\n", __FUNCTION__)); if (source->base.filter == CAIRO_FILTER_GAUSSIAN) return CAIRO_INT_STATUS_UNSUPPORTED; src = _cairo_pattern_get_source(source, &limit); if (!(src->type == CAIRO_SURFACE_TYPE_IMAGE || src->type == dst->type)) return CAIRO_INT_STATUS_UNSUPPORTED; if (! _cairo_matrix_is_integer_translation (&source->base.matrix, &tx, &ty)) return CAIRO_INT_STATUS_UNSUPPORTED; /* Check that the data is entirely within the image */ if (extents->bounded.x + tx < limit.x || extents->bounded.y + ty < limit.y) return CAIRO_INT_STATUS_UNSUPPORTED; if (extents->bounded.x + extents->bounded.width + tx > limit.x + limit.width || extents->bounded.y + extents->bounded.height + ty > limit.y + limit.height) return CAIRO_INT_STATUS_UNSUPPORTED; tx += limit.x; ty += limit.y; if (src->type == CAIRO_SURFACE_TYPE_IMAGE) status = compositor->draw_image_boxes (dst, (cairo_image_surface_t *)src, boxes, tx, ty); else status = compositor->copy_boxes (dst, src, boxes, &extents->bounded, tx, ty); return status; } static cairo_bool_t _clip_is_region (const cairo_clip_t *clip) { int i; if (clip->is_region) return TRUE; if (clip->path) return FALSE; for (i = 0; i < clip->num_boxes; i++) { const cairo_box_t *b = &clip->boxes[i]; if (!_cairo_fixed_is_integer (b->p1.x | b->p1.y | b->p2.x | b->p2.y)) return FALSE; } return TRUE; } static cairo_int_status_t composite_aligned_boxes (const cairo_spans_compositor_t *compositor, const cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_surface_t *dst = extents->surface; cairo_operator_t op = extents->op; const cairo_pattern_t *source = &extents->source_pattern.base; cairo_int_status_t status; cairo_bool_t need_clip_mask = ! _clip_is_region (extents->clip); cairo_bool_t op_is_source; cairo_bool_t no_mask; cairo_bool_t inplace; TRACE ((stderr, "%s: need_clip_mask=%d, is-bounded=%d\n", __FUNCTION__, need_clip_mask, extents->is_bounded)); if (need_clip_mask && ! extents->is_bounded) { TRACE ((stderr, "%s: unsupported clip\n", __FUNCTION__)); return CAIRO_INT_STATUS_UNSUPPORTED; } no_mask = extents->mask_pattern.base.type == CAIRO_PATTERN_TYPE_SOLID && CAIRO_COLOR_IS_OPAQUE (&extents->mask_pattern.solid.color); op_is_source = op_reduces_to_source (extents, no_mask); inplace = ! need_clip_mask && op_is_source && no_mask; TRACE ((stderr, "%s: op-is-source=%d [op=%d], no-mask=%d, inplace=%d\n", __FUNCTION__, op_is_source, op, no_mask, inplace)); if (op == CAIRO_OPERATOR_SOURCE && (need_clip_mask || ! no_mask)) { /* SOURCE with a mask is actually a LERP in cairo semantics */ if ((compositor->flags & CAIRO_SPANS_COMPOSITOR_HAS_LERP) == 0) { TRACE ((stderr, "%s: unsupported lerp\n", __FUNCTION__)); return CAIRO_INT_STATUS_UNSUPPORTED; } } /* Are we just copying a recording surface? */ if (inplace && recording_pattern_contains_sample (&extents->source_pattern.base, &extents->source_sample_area)) { cairo_clip_t *recording_clip; const cairo_pattern_t *source = &extents->source_pattern.base; const cairo_matrix_t *m; cairo_matrix_t matrix; /* XXX could also do tiling repeat modes... */ /* first clear the area about to be overwritten */ if (! dst->is_clear) { status = compositor->fill_boxes (dst, CAIRO_OPERATOR_CLEAR, CAIRO_COLOR_TRANSPARENT, boxes); if (unlikely (status)) return status; dst->is_clear = TRUE; } m = &source->matrix; if (_cairo_surface_has_device_transform (dst)) { cairo_matrix_multiply (&matrix, &source->matrix, &dst->device_transform); m = &matrix; } recording_clip = _cairo_clip_from_boxes (boxes); status = _cairo_recording_surface_replay_with_clip (unwrap_source (source), m, dst, recording_clip); _cairo_clip_destroy (recording_clip); return status; } status = CAIRO_INT_STATUS_UNSUPPORTED; if (! need_clip_mask && no_mask && source->type == CAIRO_PATTERN_TYPE_SOLID) { const cairo_color_t *color; color = &((cairo_solid_pattern_t *) source)->color; if (op_is_source) op = CAIRO_OPERATOR_SOURCE; status = compositor->fill_boxes (dst, op, color, boxes); } else if (inplace && source->type == CAIRO_PATTERN_TYPE_SURFACE) { status = upload_boxes (compositor, extents, boxes); } if (status == CAIRO_INT_STATUS_UNSUPPORTED) { cairo_surface_t *src; cairo_surface_t *mask = NULL; int src_x, src_y; int mask_x = 0, mask_y = 0; /* All typical cases will have been resolved before now... */ if (need_clip_mask) { mask = get_clip_surface (compositor, dst, extents->clip, &extents->bounded); if (unlikely (mask->status)) return mask->status; mask_x = -extents->bounded.x; mask_y = -extents->bounded.y; } /* XXX but this is still ugly */ if (! no_mask) { src = compositor->pattern_to_surface (dst, &extents->mask_pattern.base, TRUE, &extents->bounded, &extents->mask_sample_area, &src_x, &src_y); if (unlikely (src->status)) { cairo_surface_destroy (mask); return src->status; } if (mask != NULL) { status = compositor->composite_boxes (mask, CAIRO_OPERATOR_IN, src, NULL, src_x, src_y, 0, 0, mask_x, mask_y, boxes, &extents->bounded); cairo_surface_destroy (src); } else { mask = src; mask_x = src_x; mask_y = src_y; } } src = compositor->pattern_to_surface (dst, source, FALSE, &extents->bounded, &extents->source_sample_area, &src_x, &src_y); if (likely (src->status == CAIRO_STATUS_SUCCESS)) { status = compositor->composite_boxes (dst, op, src, mask, src_x, src_y, mask_x, mask_y, 0, 0, boxes, &extents->bounded); cairo_surface_destroy (src); } else status = src->status; cairo_surface_destroy (mask); } if (status == CAIRO_INT_STATUS_SUCCESS && ! extents->is_bounded) status = fixup_unbounded_boxes (compositor, extents, boxes); return status; } static cairo_bool_t composite_needs_clip (const cairo_composite_rectangles_t *composite, const cairo_box_t *extents) { return !_cairo_clip_contains_box (composite->clip, extents); } static cairo_int_status_t composite_boxes (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_abstract_span_renderer_t renderer; cairo_rectangular_scan_converter_t converter; const struct _cairo_boxes_chunk *chunk; cairo_int_status_t status; cairo_box_t box; TRACE ((stderr, "%s\n", __FUNCTION__)); _cairo_box_from_rectangle (&box, &extents->unbounded); if (composite_needs_clip (extents, &box)) { TRACE ((stderr, "%s: unsupported clip\n", __FUNCTION__)); return CAIRO_INT_STATUS_UNSUPPORTED; } _cairo_rectangular_scan_converter_init (&converter, &extents->unbounded); for (chunk = &boxes->chunks; chunk != NULL; chunk = chunk->next) { const cairo_box_t *box = chunk->base; int i; for (i = 0; i < chunk->count; i++) { status = _cairo_rectangular_scan_converter_add_box (&converter, &box[i], 1); if (unlikely (status)) goto cleanup_converter; } } status = compositor->renderer_init (&renderer, extents, CAIRO_ANTIALIAS_DEFAULT, FALSE); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = converter.base.generate (&converter.base, &renderer.base); compositor->renderer_fini (&renderer, status); cleanup_converter: converter.base.destroy (&converter.base); return status; } static cairo_int_status_t composite_polygon (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_polygon_t *polygon, cairo_fill_rule_t fill_rule, cairo_antialias_t antialias) { cairo_abstract_span_renderer_t renderer; cairo_scan_converter_t *converter; cairo_bool_t needs_clip; cairo_int_status_t status; if (extents->is_bounded) needs_clip = extents->clip->path != NULL; else needs_clip = !_clip_is_region (extents->clip) || extents->clip->num_boxes > 1; TRACE ((stderr, "%s - needs_clip=%d\n", __FUNCTION__, needs_clip)); if (needs_clip) { TRACE ((stderr, "%s: unsupported clip\n", __FUNCTION__)); return CAIRO_INT_STATUS_UNSUPPORTED; } else { const cairo_rectangle_int_t *r = &extents->unbounded; if (antialias == CAIRO_ANTIALIAS_FAST) { converter = _cairo_tor22_scan_converter_create (r->x, r->y, r->x + r->width, r->y + r->height, fill_rule, antialias); status = _cairo_tor22_scan_converter_add_polygon (converter, polygon); } else if (antialias == CAIRO_ANTIALIAS_NONE) { converter = _cairo_mono_scan_converter_create (r->x, r->y, r->x + r->width, r->y + r->height, fill_rule); status = _cairo_mono_scan_converter_add_polygon (converter, polygon); } else { converter = _cairo_tor_scan_converter_create (r->x, r->y, r->x + r->width, r->y + r->height, fill_rule, antialias); status = _cairo_tor_scan_converter_add_polygon (converter, polygon); } } if (unlikely (status)) goto cleanup_converter; status = compositor->renderer_init (&renderer, extents, antialias, needs_clip); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = converter->generate (converter, &renderer.base); compositor->renderer_fini (&renderer, status); cleanup_converter: converter->destroy (converter); return status; } static cairo_int_status_t trim_extents_to_boxes (cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_box_t box; _cairo_boxes_extents (boxes, &box); return _cairo_composite_rectangles_intersect_mask_extents (extents, &box); } static cairo_int_status_t trim_extents_to_polygon (cairo_composite_rectangles_t *extents, cairo_polygon_t *polygon) { return _cairo_composite_rectangles_intersect_mask_extents (extents, &polygon->extents); } static cairo_int_status_t clip_and_composite_boxes (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_boxes_t *boxes) { cairo_int_status_t status; cairo_polygon_t polygon; TRACE ((stderr, "%s\n", __FUNCTION__)); status = trim_extents_to_boxes (extents, boxes); if (unlikely (status)) return status; if (boxes->num_boxes == 0) { if (extents->is_bounded) return CAIRO_STATUS_SUCCESS; return fixup_unbounded_boxes (compositor, extents, boxes); } /* Can we reduce drawing through a clip-mask to simply drawing the clip? */ if (extents->clip->path != NULL && extents->is_bounded) { cairo_polygon_t polygon; cairo_fill_rule_t fill_rule; cairo_antialias_t antialias; cairo_clip_t *clip; clip = _cairo_clip_copy (extents->clip); clip = _cairo_clip_intersect_boxes (clip, boxes); if (_cairo_clip_is_all_clipped (clip)) return CAIRO_INT_STATUS_NOTHING_TO_DO; status = _cairo_clip_get_polygon (clip, &polygon, &fill_rule, &antialias); _cairo_clip_path_destroy (clip->path); clip->path = NULL; if (likely (status == CAIRO_INT_STATUS_SUCCESS)) { cairo_clip_t *saved_clip = extents->clip; extents->clip = clip; status = clip_and_composite_polygon (compositor, extents, &polygon, fill_rule, antialias); clip = extents->clip; extents->clip = saved_clip; _cairo_polygon_fini (&polygon); } _cairo_clip_destroy (clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return status; } if (boxes->is_pixel_aligned) { status = composite_aligned_boxes (compositor, extents, boxes); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return status; } status = composite_boxes (compositor, extents, boxes); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return status; status = _cairo_polygon_init_boxes (&polygon, boxes); if (unlikely (status)) return status; status = composite_polygon (compositor, extents, &polygon, CAIRO_FILL_RULE_WINDING, CAIRO_ANTIALIAS_DEFAULT); _cairo_polygon_fini (&polygon); return status; } static cairo_int_status_t clip_and_composite_polygon (const cairo_spans_compositor_t *compositor, cairo_composite_rectangles_t *extents, cairo_polygon_t *polygon, cairo_fill_rule_t fill_rule, cairo_antialias_t antialias) { cairo_int_status_t status; TRACE ((stderr, "%s\n", __FUNCTION__)); /* XXX simply uses polygon limits.point extemities, tessellation? */ status = trim_extents_to_polygon (extents, polygon); if (unlikely (status)) return status; if (_cairo_polygon_is_empty (polygon)) { cairo_boxes_t boxes; if (extents->is_bounded) return CAIRO_STATUS_SUCCESS; _cairo_boxes_init (&boxes); extents->bounded.width = extents->bounded.height = 0; return fixup_unbounded_boxes (compositor, extents, &boxes); } if (extents->is_bounded && extents->clip->path) { cairo_polygon_t clipper; cairo_antialias_t clip_antialias; cairo_fill_rule_t clip_fill_rule; TRACE((stderr, "%s - combining shape with clip polygon\n", __FUNCTION__)); status = _cairo_clip_get_polygon (extents->clip, &clipper, &clip_fill_rule, &clip_antialias); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) { cairo_clip_t *old_clip; if (clip_antialias == antialias) { status = _cairo_polygon_intersect (polygon, fill_rule, &clipper, clip_fill_rule); _cairo_polygon_fini (&clipper); if (unlikely (status)) return status; old_clip = extents->clip; extents->clip = _cairo_clip_copy_region (extents->clip); _cairo_clip_destroy (old_clip); status = trim_extents_to_polygon (extents, polygon); if (unlikely (status)) return status; fill_rule = CAIRO_FILL_RULE_WINDING; } else { _cairo_polygon_fini (&clipper); } } } return composite_polygon (compositor, extents, polygon, fill_rule, antialias); } /* high-level compositor interface */ static cairo_int_status_t _cairo_spans_compositor_paint (const cairo_compositor_t *_compositor, cairo_composite_rectangles_t *extents) { const cairo_spans_compositor_t *compositor = (cairo_spans_compositor_t*)_compositor; cairo_boxes_t boxes; cairo_int_status_t status; TRACE ((stderr, "%s\n", __FUNCTION__)); _cairo_clip_steal_boxes (extents->clip, &boxes); status = clip_and_composite_boxes (compositor, extents, &boxes); _cairo_clip_unsteal_boxes (extents->clip, &boxes); return status; } static cairo_int_status_t _cairo_spans_compositor_mask (const cairo_compositor_t *_compositor, cairo_composite_rectangles_t *extents) { const cairo_spans_compositor_t *compositor = (cairo_spans_compositor_t*)_compositor; cairo_int_status_t status; cairo_boxes_t boxes; TRACE ((stderr, "%s\n", __FUNCTION__)); _cairo_clip_steal_boxes (extents->clip, &boxes); status = clip_and_composite_boxes (compositor, extents, &boxes); _cairo_clip_unsteal_boxes (extents->clip, &boxes); return status; } static cairo_int_status_t _cairo_spans_compositor_stroke (const cairo_compositor_t *_compositor, cairo_composite_rectangles_t *extents, const cairo_path_fixed_t *path, const cairo_stroke_style_t *style, const cairo_matrix_t *ctm, const cairo_matrix_t *ctm_inverse, double tolerance, cairo_antialias_t antialias) { const cairo_spans_compositor_t *compositor = (cairo_spans_compositor_t*)_compositor; cairo_int_status_t status; TRACE ((stderr, "%s\n", __FUNCTION__)); TRACE_ (_cairo_debug_print_path (stderr, path)); TRACE_ (_cairo_debug_print_clip (stderr, extents->clip)); status = CAIRO_INT_STATUS_UNSUPPORTED; if (_cairo_path_fixed_stroke_is_rectilinear (path)) { cairo_boxes_t boxes; _cairo_boxes_init (&boxes); if (! _cairo_clip_contains_rectangle (extents->clip, &extents->mask)) _cairo_boxes_limit (&boxes, extents->clip->boxes, extents->clip->num_boxes); status = _cairo_path_fixed_stroke_rectilinear_to_boxes (path, style, ctm, antialias, &boxes); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = clip_and_composite_boxes (compositor, extents, &boxes); _cairo_boxes_fini (&boxes); } if (status == CAIRO_INT_STATUS_UNSUPPORTED) { cairo_polygon_t polygon; cairo_fill_rule_t fill_rule = CAIRO_FILL_RULE_WINDING; if (! _cairo_rectangle_contains_rectangle (&extents->unbounded, &extents->mask)) { if (extents->clip->num_boxes == 1) { _cairo_polygon_init (&polygon, extents->clip->boxes, 1); } else { cairo_box_t limits; _cairo_box_from_rectangle (&limits, &extents->unbounded); _cairo_polygon_init (&polygon, &limits, 1); } } else { _cairo_polygon_init (&polygon, NULL, 0); } status = _cairo_path_fixed_stroke_to_polygon (path, style, ctm, ctm_inverse, tolerance, &polygon); TRACE_ (_cairo_debug_print_polygon (stderr, &polygon)); polygon.num_limits = 0; if (status == CAIRO_INT_STATUS_SUCCESS && extents->clip->num_boxes > 1) { status = _cairo_polygon_intersect_with_boxes (&polygon, &fill_rule, extents->clip->boxes, extents->clip->num_boxes); } if (likely (status == CAIRO_INT_STATUS_SUCCESS)) { cairo_clip_t *saved_clip = extents->clip; if (extents->is_bounded) { extents->clip = _cairo_clip_copy_path (extents->clip); extents->clip = _cairo_clip_intersect_box(extents->clip, &polygon.extents); } status = clip_and_composite_polygon (compositor, extents, &polygon, fill_rule, antialias); if (extents->is_bounded) { _cairo_clip_destroy (extents->clip); extents->clip = saved_clip; } } _cairo_polygon_fini (&polygon); } return status; } static cairo_int_status_t _cairo_spans_compositor_fill (const cairo_compositor_t *_compositor, cairo_composite_rectangles_t *extents, const cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias) { const cairo_spans_compositor_t *compositor = (cairo_spans_compositor_t*)_compositor; cairo_int_status_t status; TRACE((stderr, "%s op=%d, antialias=%d\n", __FUNCTION__, extents->op, antialias)); status = CAIRO_INT_STATUS_UNSUPPORTED; if (_cairo_path_fixed_fill_is_rectilinear (path)) { cairo_boxes_t boxes; TRACE((stderr, "%s - rectilinear\n", __FUNCTION__)); _cairo_boxes_init (&boxes); if (! _cairo_clip_contains_rectangle (extents->clip, &extents->mask)) _cairo_boxes_limit (&boxes, extents->clip->boxes, extents->clip->num_boxes); status = _cairo_path_fixed_fill_rectilinear_to_boxes (path, fill_rule, antialias, &boxes); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) status = clip_and_composite_boxes (compositor, extents, &boxes); _cairo_boxes_fini (&boxes); } if (status == CAIRO_INT_STATUS_UNSUPPORTED) { cairo_polygon_t polygon; TRACE((stderr, "%s - polygon\n", __FUNCTION__)); if (! _cairo_rectangle_contains_rectangle (&extents->unbounded, &extents->mask)) { TRACE((stderr, "%s - clipping to bounds\n", __FUNCTION__)); if (extents->clip->num_boxes == 1) { _cairo_polygon_init (&polygon, extents->clip->boxes, 1); } else { cairo_box_t limits; _cairo_box_from_rectangle (&limits, &extents->unbounded); _cairo_polygon_init (&polygon, &limits, 1); } } else { _cairo_polygon_init (&polygon, NULL, 0); } status = _cairo_path_fixed_fill_to_polygon (path, tolerance, &polygon); TRACE_ (_cairo_debug_print_polygon (stderr, &polygon)); polygon.num_limits = 0; if (status == CAIRO_INT_STATUS_SUCCESS && extents->clip->num_boxes > 1) { TRACE((stderr, "%s - polygon intersect with %d clip boxes\n", __FUNCTION__, extents->clip->num_boxes)); status = _cairo_polygon_intersect_with_boxes (&polygon, &fill_rule, extents->clip->boxes, extents->clip->num_boxes); } TRACE_ (_cairo_debug_print_polygon (stderr, &polygon)); if (likely (status == CAIRO_INT_STATUS_SUCCESS)) { cairo_clip_t *saved_clip = extents->clip; if (extents->is_bounded) { TRACE((stderr, "%s - polygon discard clip boxes\n", __FUNCTION__)); extents->clip = _cairo_clip_copy_path (extents->clip); extents->clip = _cairo_clip_intersect_box(extents->clip, &polygon.extents); } status = clip_and_composite_polygon (compositor, extents, &polygon, fill_rule, antialias); if (extents->is_bounded) { _cairo_clip_destroy (extents->clip); extents->clip = saved_clip; } } _cairo_polygon_fini (&polygon); TRACE((stderr, "%s - polygon status=%d\n", __FUNCTION__, status)); } return status; } void _cairo_spans_compositor_init (cairo_spans_compositor_t *compositor, const cairo_compositor_t *delegate) { compositor->base.delegate = delegate; compositor->base.paint = _cairo_spans_compositor_paint; compositor->base.mask = _cairo_spans_compositor_mask; compositor->base.fill = _cairo_spans_compositor_fill; compositor->base.stroke = _cairo_spans_compositor_stroke; compositor->base.glyphs = NULL; }