/* cairo - a vector graphics library with display and print output * * 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 Intel Corporation. * * Contributor(s): * Chris Wilson */ #include "cairoint.h" #include "cairo-surface-observer-private.h" #include "cairo-surface-observer-inline.h" #include "cairo-array-private.h" #include "cairo-combsort-inline.h" #include "cairo-composite-rectangles-private.h" #include "cairo-error-private.h" #include "cairo-image-surface-private.h" #include "cairo-list-inline.h" #include "cairo-pattern-private.h" #include "cairo-output-stream-private.h" #include "cairo-recording-surface-private.h" #include "cairo-surface-subsurface-inline.h" #include "cairo-reference-count-private.h" #if CAIRO_HAS_SCRIPT_SURFACE #include "cairo-script-private.h" #endif static const cairo_surface_backend_t _cairo_surface_observer_backend; /* observation/stats */ static void init_stats (struct stat *s) { s->min = HUGE_VAL; s->max = -HUGE_VAL; } static void init_extents (struct extents *e) { init_stats (&e->area); } static void init_pattern (struct pattern *p) { } static void init_path (struct path *p) { } static void init_clip (struct clip *c) { } static void init_paint (struct paint *p) { init_extents (&p->extents); init_pattern (&p->source); init_clip (&p->clip); } static void init_mask (struct mask *m) { init_extents (&m->extents); init_pattern (&m->source); init_pattern (&m->mask); init_clip (&m->clip); } static void init_fill (struct fill *f) { init_extents (&f->extents); init_pattern (&f->source); init_path (&f->path); init_clip (&f->clip); } static void init_stroke (struct stroke *s) { init_extents (&s->extents); init_pattern (&s->source); init_path (&s->path); init_clip (&s->clip); } static void init_glyphs (struct glyphs *g) { init_extents (&g->extents); init_pattern (&g->source); init_clip (&g->clip); } static cairo_status_t log_init (cairo_observation_t *log, cairo_bool_t record) { memset (log, 0, sizeof(*log)); init_paint (&log->paint); init_mask (&log->mask); init_fill (&log->fill); init_stroke (&log->stroke); init_glyphs (&log->glyphs); _cairo_array_init (&log->timings, sizeof (cairo_observation_record_t)); if (record) { log->record = (cairo_recording_surface_t *) cairo_recording_surface_create (CAIRO_CONTENT_COLOR_ALPHA, NULL); if (unlikely (log->record->base.status)) return log->record->base.status; log->record->optimize_clears = FALSE; } return CAIRO_STATUS_SUCCESS; } static void log_fini (cairo_observation_t *log) { _cairo_array_fini (&log->timings); cairo_surface_destroy (&log->record->base); } static cairo_surface_t* get_pattern_surface (const cairo_pattern_t *pattern) { return ((cairo_surface_pattern_t *)pattern)->surface; } static int classify_pattern (const cairo_pattern_t *pattern, const cairo_surface_t *target) { int classify; switch (pattern->type) { case CAIRO_PATTERN_TYPE_SURFACE: if (get_pattern_surface (pattern)->type == target->type) classify = 0; else if (get_pattern_surface (pattern)->type == CAIRO_SURFACE_TYPE_RECORDING) classify = 1; else classify = 2; break; default: case CAIRO_PATTERN_TYPE_SOLID: classify = 3; break; case CAIRO_PATTERN_TYPE_LINEAR: classify = 4; break; case CAIRO_PATTERN_TYPE_RADIAL: classify = 5; break; case CAIRO_PATTERN_TYPE_MESH: classify = 6; break; case CAIRO_PATTERN_TYPE_RASTER_SOURCE: classify = 7; break; } return classify; } static void add_pattern (struct pattern *stats, const cairo_pattern_t *pattern, const cairo_surface_t *target) { stats->type[classify_pattern(pattern, target)]++; } static int classify_path (const cairo_path_fixed_t *path, cairo_bool_t is_fill) { int classify; /* XXX improve for stroke */ classify = -1; if (is_fill) { if (path->fill_is_empty) classify = 0; else if (_cairo_path_fixed_fill_is_rectilinear (path)) classify = path->fill_maybe_region ? 1 : 2; } else { if (_cairo_path_fixed_stroke_is_rectilinear (path)) classify = 2; } if (classify == -1) classify = 3 + (path->has_curve_to != 0); return classify; } static void add_path (struct path *stats, const cairo_path_fixed_t *path, cairo_bool_t is_fill) { stats->type[classify_path(path, is_fill)]++; } static int classify_clip (const cairo_clip_t *clip) { int classify; if (clip == NULL) classify = 0; else if (_cairo_clip_is_region (clip)) classify = 1; else if (clip->path == NULL) classify = 2; else if (clip->path->prev == NULL) classify = 3; else if (_cairo_clip_is_polygon (clip)) classify = 4; else classify = 5; return classify; } static void add_clip (struct clip *stats, const cairo_clip_t *clip) { stats->type[classify_clip (clip)]++; } static void stats_add (struct stat *s, double v) { if (v < s->min) s->min = v; if (v > s->max) s->max = v; s->sum += v; s->sum_sq += v*v; s->count++; } static void add_extents (struct extents *stats, const cairo_composite_rectangles_t *extents) { const cairo_rectangle_int_t *r = extents->is_bounded ? &extents->bounded :&extents->unbounded; stats_add (&stats->area, r->width * r->height); stats->bounded += extents->is_bounded != 0; stats->unbounded += extents->is_bounded == 0; } /* device interface */ static void _cairo_device_observer_lock (void *_device) { cairo_device_observer_t *device = (cairo_device_observer_t *) _device; cairo_status_t ignored; /* cairo_device_acquire() can fail for nil and finished * devices. We don't care about observing them. */ ignored = cairo_device_acquire (device->target); } static void _cairo_device_observer_unlock (void *_device) { cairo_device_observer_t *device = (cairo_device_observer_t *) _device; cairo_device_release (device->target); } static cairo_status_t _cairo_device_observer_flush (void *_device) { cairo_device_observer_t *device = (cairo_device_observer_t *) _device; if (device->target == NULL) return CAIRO_STATUS_SUCCESS; cairo_device_flush (device->target); return device->target->status; } static void _cairo_device_observer_finish (void *_device) { cairo_device_observer_t *device = (cairo_device_observer_t *) _device; log_fini (&device->log); cairo_device_finish (device->target); } static void _cairo_device_observer_destroy (void *_device) { cairo_device_observer_t *device = (cairo_device_observer_t *) _device; cairo_device_destroy (device->target); free (device); } static const cairo_device_backend_t _cairo_device_observer_backend = { CAIRO_INTERNAL_DEVICE_TYPE_OBSERVER, _cairo_device_observer_lock, _cairo_device_observer_unlock, _cairo_device_observer_flush, _cairo_device_observer_finish, _cairo_device_observer_destroy, }; static cairo_device_t * _cairo_device_create_observer_internal (cairo_device_t *target, cairo_bool_t record) { cairo_device_observer_t *device; cairo_status_t status; device = _cairo_malloc (sizeof (cairo_device_observer_t)); if (unlikely (device == NULL)) return _cairo_device_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); _cairo_device_init (&device->base, &_cairo_device_observer_backend); status = log_init (&device->log, record); if (unlikely (status)) { free (device); return _cairo_device_create_in_error (status); } device->target = cairo_device_reference (target); return &device->base; } /* surface interface */ static cairo_device_observer_t * to_device (cairo_surface_observer_t *suface) { return (cairo_device_observer_t *)suface->base.device; } static cairo_surface_t * _cairo_surface_create_observer_internal (cairo_device_t *device, cairo_surface_t *target) { cairo_surface_observer_t *surface; cairo_status_t status; surface = _cairo_malloc (sizeof (cairo_surface_observer_t)); if (unlikely (surface == NULL)) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); _cairo_surface_init (&surface->base, &_cairo_surface_observer_backend, device, target->content, target->is_vector); status = log_init (&surface->log, ((cairo_device_observer_t *)device)->log.record != NULL); if (unlikely (status)) { free (surface); return _cairo_surface_create_in_error (status); } surface->target = cairo_surface_reference (target); surface->base.type = surface->target->type; surface->base.is_clear = surface->target->is_clear; cairo_list_init (&surface->paint_callbacks); cairo_list_init (&surface->mask_callbacks); cairo_list_init (&surface->fill_callbacks); cairo_list_init (&surface->stroke_callbacks); cairo_list_init (&surface->glyphs_callbacks); cairo_list_init (&surface->flush_callbacks); cairo_list_init (&surface->finish_callbacks); surface->log.num_surfaces++; to_device (surface)->log.num_surfaces++; return &surface->base; } static inline void do_callbacks (cairo_surface_observer_t *surface, cairo_list_t *head) { struct callback_list *cb; cairo_list_foreach_entry (cb, struct callback_list, head, link) cb->func (&surface->base, surface->target, cb->data); } static cairo_status_t _cairo_surface_observer_finish (void *abstract_surface) { cairo_surface_observer_t *surface = abstract_surface; do_callbacks (surface, &surface->finish_callbacks); cairo_surface_destroy (surface->target); log_fini (&surface->log); return CAIRO_STATUS_SUCCESS; } static cairo_surface_t * _cairo_surface_observer_create_similar (void *abstract_other, cairo_content_t content, int width, int height) { cairo_surface_observer_t *other = abstract_other; cairo_surface_t *target, *surface; target = NULL; if (other->target->backend->create_similar) target = other->target->backend->create_similar (other->target, content, width, height); if (target == NULL) target = _cairo_image_surface_create_with_content (content, width, height); surface = _cairo_surface_create_observer_internal (other->base.device, target); cairo_surface_destroy (target); return surface; } static cairo_surface_t * _cairo_surface_observer_create_similar_image (void *other, cairo_format_t format, int width, int height) { cairo_surface_observer_t *surface = other; if (surface->target->backend->create_similar_image) return surface->target->backend->create_similar_image (surface->target, format, width, height); return NULL; } static cairo_image_surface_t * _cairo_surface_observer_map_to_image (void *abstract_surface, const cairo_rectangle_int_t *extents) { cairo_surface_observer_t *surface = abstract_surface; return _cairo_surface_map_to_image (surface->target, extents); } static cairo_int_status_t _cairo_surface_observer_unmap_image (void *abstract_surface, cairo_image_surface_t *image) { cairo_surface_observer_t *surface = abstract_surface; return _cairo_surface_unmap_image (surface->target, image); } static void record_target (cairo_observation_record_t *r, cairo_surface_t *target) { cairo_rectangle_int_t extents; r->target_content = target->content; if (_cairo_surface_get_extents (target, &extents)) { r->target_width = extents.width; r->target_height = extents.height; } else { r->target_width = -1; r->target_height = -1; } } static cairo_observation_record_t * record_paint (cairo_observation_record_t *r, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_clip_t *clip, cairo_time_t elapsed) { record_target (r, target); r->op = op; r->source = classify_pattern (source, target); r->mask = -1; r->num_glyphs = -1; r->path = -1; r->fill_rule = -1; r->tolerance = -1; r->antialias = -1; r->clip = classify_clip (clip); r->elapsed = elapsed; return r; } static cairo_observation_record_t * record_mask (cairo_observation_record_t *r, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_pattern_t *mask, const cairo_clip_t *clip, cairo_time_t elapsed) { record_target (r, target); r->op = op; r->source = classify_pattern (source, target); r->mask = classify_pattern (mask, target); r->num_glyphs = -1; r->path = -1; r->fill_rule = -1; r->tolerance = -1; r->antialias = -1; r->clip = classify_clip (clip); r->elapsed = elapsed; return r; } static cairo_observation_record_t * record_fill (cairo_observation_record_t *r, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias, const cairo_clip_t *clip, cairo_time_t elapsed) { record_target (r, target); r->op = op; r->source = classify_pattern (source, target); r->mask = -1; r->num_glyphs = -1; r->path = classify_path (path, TRUE); r->fill_rule = fill_rule; r->tolerance = tolerance; r->antialias = antialias; r->clip = classify_clip (clip); r->elapsed = elapsed; return r; } static cairo_observation_record_t * record_stroke (cairo_observation_record_t *r, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, 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_clip_t *clip, cairo_time_t elapsed) { record_target (r, target); r->op = op; r->source = classify_pattern (source, target); r->mask = -1; r->num_glyphs = -1; r->path = classify_path (path, FALSE); r->fill_rule = -1; r->tolerance = tolerance; r->antialias = antialias; r->clip = classify_clip (clip); r->elapsed = elapsed; return r; } static cairo_observation_record_t * record_glyphs (cairo_observation_record_t *r, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, const cairo_clip_t *clip, cairo_time_t elapsed) { record_target (r, target); r->op = op; r->source = classify_pattern (source, target); r->mask = -1; r->path = -1; r->num_glyphs = num_glyphs; r->fill_rule = -1; r->tolerance = -1; r->antialias = -1; r->clip = classify_clip (clip); r->elapsed = elapsed; return r; } static void add_record (cairo_observation_t *log, cairo_observation_record_t *r) { cairo_int_status_t status; r->index = log->record ? log->record->commands.num_elements : 0; status = _cairo_array_append (&log->timings, r); assert (status == CAIRO_INT_STATUS_SUCCESS); } static void _cairo_surface_sync (cairo_surface_t *target, int x, int y) { cairo_rectangle_int_t extents; extents.x = x; extents.y = y; extents.width = 1; extents.height = 1; _cairo_surface_unmap_image (target, _cairo_surface_map_to_image (target, &extents)); } static void midpt (const cairo_composite_rectangles_t *extents, int *x, int *y) { *x = extents->bounded.x + extents->bounded.width / 2; *y = extents->bounded.y + extents->bounded.height / 2; } static void add_record_paint (cairo_observation_t *log, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_clip_t *clip, cairo_time_t elapsed) { cairo_observation_record_t record; cairo_int_status_t status; add_record (log, record_paint (&record, target, op, source, clip, elapsed)); /* We have to bypass the high-level surface layer in case it tries to be * too smart and discard operations; we need to record exactly what just * happened on the target. */ if (log->record) { status = log->record->base.backend->paint (&log->record->base, op, source, clip); assert (status == CAIRO_INT_STATUS_SUCCESS); } if (_cairo_time_gt (elapsed, log->paint.slowest.elapsed)) log->paint.slowest = record; log->paint.elapsed = _cairo_time_add (log->paint.elapsed, elapsed); } static cairo_int_status_t _cairo_surface_observer_paint (void *abstract_surface, cairo_operator_t op, const cairo_pattern_t *source, const cairo_clip_t *clip) { cairo_surface_observer_t *surface = abstract_surface; cairo_device_observer_t *device = to_device (surface); cairo_composite_rectangles_t composite; cairo_int_status_t status; cairo_time_t t; int x, y; /* XXX device locking */ surface->log.paint.count++; surface->log.paint.operators[op]++; add_pattern (&surface->log.paint.source, source, surface->target); add_clip (&surface->log.paint.clip, clip); device->log.paint.count++; device->log.paint.operators[op]++; add_pattern (&device->log.paint.source, source, surface->target); add_clip (&device->log.paint.clip, clip); status = _cairo_composite_rectangles_init_for_paint (&composite, surface->target, op, source, clip); if (unlikely (status)) { surface->log.paint.noop++; device->log.paint.noop++; return status; } midpt (&composite, &x, &y); add_extents (&surface->log.paint.extents, &composite); add_extents (&device->log.paint.extents, &composite); _cairo_composite_rectangles_fini (&composite); t = _cairo_time_get (); status = _cairo_surface_paint (surface->target, op, source, clip); if (unlikely (status)) return status; _cairo_surface_sync (surface->target, x, y); t = _cairo_time_get_delta (t); add_record_paint (&surface->log, surface->target, op, source, clip, t); add_record_paint (&device->log, surface->target, op, source, clip, t); do_callbacks (surface, &surface->paint_callbacks); return CAIRO_STATUS_SUCCESS; } static void add_record_mask (cairo_observation_t *log, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_pattern_t *mask, const cairo_clip_t *clip, cairo_time_t elapsed) { cairo_observation_record_t record; cairo_int_status_t status; add_record (log, record_mask (&record, target, op, source, mask, clip, elapsed)); if (log->record) { status = log->record->base.backend->mask (&log->record->base, op, source, mask, clip); assert (status == CAIRO_INT_STATUS_SUCCESS); } if (_cairo_time_gt (elapsed, log->mask.slowest.elapsed)) log->mask.slowest = record; log->mask.elapsed = _cairo_time_add (log->mask.elapsed, elapsed); } static cairo_int_status_t _cairo_surface_observer_mask (void *abstract_surface, cairo_operator_t op, const cairo_pattern_t *source, const cairo_pattern_t *mask, const cairo_clip_t *clip) { cairo_surface_observer_t *surface = abstract_surface; cairo_device_observer_t *device = to_device (surface); cairo_composite_rectangles_t composite; cairo_int_status_t status; cairo_time_t t; int x, y; surface->log.mask.count++; surface->log.mask.operators[op]++; add_pattern (&surface->log.mask.source, source, surface->target); add_pattern (&surface->log.mask.mask, mask, surface->target); add_clip (&surface->log.mask.clip, clip); device->log.mask.count++; device->log.mask.operators[op]++; add_pattern (&device->log.mask.source, source, surface->target); add_pattern (&device->log.mask.mask, mask, surface->target); add_clip (&device->log.mask.clip, clip); status = _cairo_composite_rectangles_init_for_mask (&composite, surface->target, op, source, mask, clip); if (unlikely (status)) { surface->log.mask.noop++; device->log.mask.noop++; return status; } midpt (&composite, &x, &y); add_extents (&surface->log.mask.extents, &composite); add_extents (&device->log.mask.extents, &composite); _cairo_composite_rectangles_fini (&composite); t = _cairo_time_get (); status = _cairo_surface_mask (surface->target, op, source, mask, clip); if (unlikely (status)) return status; _cairo_surface_sync (surface->target, x, y); t = _cairo_time_get_delta (t); add_record_mask (&surface->log, surface->target, op, source, mask, clip, t); add_record_mask (&device->log, surface->target, op, source, mask, clip, t); do_callbacks (surface, &surface->mask_callbacks); return CAIRO_STATUS_SUCCESS; } static void add_record_fill (cairo_observation_t *log, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, const cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias, const cairo_clip_t *clip, cairo_time_t elapsed) { cairo_observation_record_t record; cairo_int_status_t status; add_record (log, record_fill (&record, target, op, source, path, fill_rule, tolerance, antialias, clip, elapsed)); if (log->record) { status = log->record->base.backend->fill (&log->record->base, op, source, path, fill_rule, tolerance, antialias, clip); assert (status == CAIRO_INT_STATUS_SUCCESS); } if (_cairo_time_gt (elapsed, log->fill.slowest.elapsed)) log->fill.slowest = record; log->fill.elapsed = _cairo_time_add (log->fill.elapsed, elapsed); } static cairo_int_status_t _cairo_surface_observer_fill (void *abstract_surface, cairo_operator_t op, const cairo_pattern_t *source, const cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias, const cairo_clip_t *clip) { cairo_surface_observer_t *surface = abstract_surface; cairo_device_observer_t *device = to_device (surface); cairo_composite_rectangles_t composite; cairo_int_status_t status; cairo_time_t t; int x, y; surface->log.fill.count++; surface->log.fill.operators[op]++; surface->log.fill.fill_rule[fill_rule]++; surface->log.fill.antialias[antialias]++; add_pattern (&surface->log.fill.source, source, surface->target); add_path (&surface->log.fill.path, path, TRUE); add_clip (&surface->log.fill.clip, clip); device->log.fill.count++; device->log.fill.operators[op]++; device->log.fill.fill_rule[fill_rule]++; device->log.fill.antialias[antialias]++; add_pattern (&device->log.fill.source, source, surface->target); add_path (&device->log.fill.path, path, TRUE); add_clip (&device->log.fill.clip, clip); status = _cairo_composite_rectangles_init_for_fill (&composite, surface->target, op, source, path, clip); if (unlikely (status)) { surface->log.fill.noop++; device->log.fill.noop++; return status; } midpt (&composite, &x, &y); add_extents (&surface->log.fill.extents, &composite); add_extents (&device->log.fill.extents, &composite); _cairo_composite_rectangles_fini (&composite); t = _cairo_time_get (); status = _cairo_surface_fill (surface->target, op, source, path, fill_rule, tolerance, antialias, clip); if (unlikely (status)) return status; _cairo_surface_sync (surface->target, x, y); t = _cairo_time_get_delta (t); add_record_fill (&surface->log, surface->target, op, source, path, fill_rule, tolerance, antialias, clip, t); add_record_fill (&device->log, surface->target, op, source, path, fill_rule, tolerance, antialias, clip, t); do_callbacks (surface, &surface->fill_callbacks); return CAIRO_STATUS_SUCCESS; } static void add_record_stroke (cairo_observation_t *log, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t *source, 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_clip_t *clip, cairo_time_t elapsed) { cairo_observation_record_t record; cairo_int_status_t status; add_record (log, record_stroke (&record, target, op, source, path, style, ctm,ctm_inverse, tolerance, antialias, clip, elapsed)); if (log->record) { status = log->record->base.backend->stroke (&log->record->base, op, source, path, style, ctm,ctm_inverse, tolerance, antialias, clip); assert (status == CAIRO_INT_STATUS_SUCCESS); } if (_cairo_time_gt (elapsed, log->stroke.slowest.elapsed)) log->stroke.slowest = record; log->stroke.elapsed = _cairo_time_add (log->stroke.elapsed, elapsed); } static cairo_int_status_t _cairo_surface_observer_stroke (void *abstract_surface, cairo_operator_t op, const cairo_pattern_t *source, 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_clip_t *clip) { cairo_surface_observer_t *surface = abstract_surface; cairo_device_observer_t *device = to_device (surface); cairo_composite_rectangles_t composite; cairo_int_status_t status; cairo_time_t t; int x, y; surface->log.stroke.count++; surface->log.stroke.operators[op]++; surface->log.stroke.antialias[antialias]++; surface->log.stroke.caps[style->line_cap]++; surface->log.stroke.joins[style->line_join]++; add_pattern (&surface->log.stroke.source, source, surface->target); add_path (&surface->log.stroke.path, path, FALSE); add_clip (&surface->log.stroke.clip, clip); device->log.stroke.count++; device->log.stroke.operators[op]++; device->log.stroke.antialias[antialias]++; device->log.stroke.caps[style->line_cap]++; device->log.stroke.joins[style->line_join]++; add_pattern (&device->log.stroke.source, source, surface->target); add_path (&device->log.stroke.path, path, FALSE); add_clip (&device->log.stroke.clip, clip); status = _cairo_composite_rectangles_init_for_stroke (&composite, surface->target, op, source, path, style, ctm, clip); if (unlikely (status)) { surface->log.stroke.noop++; device->log.stroke.noop++; return status; } midpt (&composite, &x, &y); add_extents (&surface->log.stroke.extents, &composite); add_extents (&device->log.stroke.extents, &composite); _cairo_composite_rectangles_fini (&composite); t = _cairo_time_get (); status = _cairo_surface_stroke (surface->target, op, source, path, style, ctm, ctm_inverse, tolerance, antialias, clip); if (unlikely (status)) return status; _cairo_surface_sync (surface->target, x, y); t = _cairo_time_get_delta (t); add_record_stroke (&surface->log, surface->target, op, source, path, style, ctm,ctm_inverse, tolerance, antialias, clip, t); add_record_stroke (&device->log, surface->target, op, source, path, style, ctm,ctm_inverse, tolerance, antialias, clip, t); do_callbacks (surface, &surface->stroke_callbacks); return CAIRO_STATUS_SUCCESS; } static void add_record_glyphs (cairo_observation_t *log, cairo_surface_t *target, cairo_operator_t op, const cairo_pattern_t*source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, const cairo_clip_t *clip, cairo_time_t elapsed) { cairo_observation_record_t record; cairo_int_status_t status; add_record (log, record_glyphs (&record, target, op, source, glyphs, num_glyphs, scaled_font, clip, elapsed)); if (log->record) { status = log->record->base.backend->show_text_glyphs (&log->record->base, op, source, NULL, 0, glyphs, num_glyphs, NULL, 0, 0, scaled_font, clip); assert (status == CAIRO_INT_STATUS_SUCCESS); } if (_cairo_time_gt (elapsed, log->glyphs.slowest.elapsed)) log->glyphs.slowest = record; log->glyphs.elapsed = _cairo_time_add (log->glyphs.elapsed, elapsed); } static cairo_int_status_t _cairo_surface_observer_glyphs (void *abstract_surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, const cairo_clip_t *clip) { cairo_surface_observer_t *surface = abstract_surface; cairo_device_observer_t *device = to_device (surface); cairo_composite_rectangles_t composite; cairo_int_status_t status; cairo_glyph_t *dev_glyphs; cairo_time_t t; int x, y; surface->log.glyphs.count++; surface->log.glyphs.operators[op]++; add_pattern (&surface->log.glyphs.source, source, surface->target); add_clip (&surface->log.glyphs.clip, clip); device->log.glyphs.count++; device->log.glyphs.operators[op]++; add_pattern (&device->log.glyphs.source, source, surface->target); add_clip (&device->log.glyphs.clip, clip); status = _cairo_composite_rectangles_init_for_glyphs (&composite, surface->target, op, source, scaled_font, glyphs, num_glyphs, clip, NULL); if (unlikely (status)) { surface->log.glyphs.noop++; device->log.glyphs.noop++; return status; } midpt (&composite, &x, &y); add_extents (&surface->log.glyphs.extents, &composite); add_extents (&device->log.glyphs.extents, &composite); _cairo_composite_rectangles_fini (&composite); /* XXX We have to copy the glyphs, because the backend is allowed to * modify! */ dev_glyphs = _cairo_malloc_ab (num_glyphs, sizeof (cairo_glyph_t)); if (unlikely (dev_glyphs == NULL)) return _cairo_error (CAIRO_STATUS_NO_MEMORY); memcpy (dev_glyphs, glyphs, num_glyphs * sizeof (cairo_glyph_t)); t = _cairo_time_get (); status = _cairo_surface_show_text_glyphs (surface->target, op, source, NULL, 0, dev_glyphs, num_glyphs, NULL, 0, 0, scaled_font, clip); free (dev_glyphs); if (unlikely (status)) return status; _cairo_surface_sync (surface->target, x, y); t = _cairo_time_get_delta (t); add_record_glyphs (&surface->log, surface->target, op, source, glyphs, num_glyphs, scaled_font, clip, t); add_record_glyphs (&device->log, surface->target, op, source, glyphs, num_glyphs, scaled_font, clip, t); do_callbacks (surface, &surface->glyphs_callbacks); return CAIRO_STATUS_SUCCESS; } static cairo_status_t _cairo_surface_observer_flush (void *abstract_surface, unsigned flags) { cairo_surface_observer_t *surface = abstract_surface; do_callbacks (surface, &surface->flush_callbacks); return _cairo_surface_flush (surface->target, flags); } static cairo_status_t _cairo_surface_observer_mark_dirty (void *abstract_surface, int x, int y, int width, int height) { cairo_surface_observer_t *surface = abstract_surface; cairo_status_t status; status = CAIRO_STATUS_SUCCESS; if (surface->target->backend->mark_dirty_rectangle) status = surface->target->backend->mark_dirty_rectangle (surface->target, x,y, width,height); return status; } static cairo_int_status_t _cairo_surface_observer_copy_page (void *abstract_surface) { cairo_surface_observer_t *surface = abstract_surface; cairo_status_t status; status = CAIRO_STATUS_SUCCESS; if (surface->target->backend->copy_page) status = surface->target->backend->copy_page (surface->target); return status; } static cairo_int_status_t _cairo_surface_observer_show_page (void *abstract_surface) { cairo_surface_observer_t *surface = abstract_surface; cairo_status_t status; status = CAIRO_STATUS_SUCCESS; if (surface->target->backend->show_page) status = surface->target->backend->show_page (surface->target); return status; } static cairo_bool_t _cairo_surface_observer_get_extents (void *abstract_surface, cairo_rectangle_int_t *extents) { cairo_surface_observer_t *surface = abstract_surface; return _cairo_surface_get_extents (surface->target, extents); } static void _cairo_surface_observer_get_font_options (void *abstract_surface, cairo_font_options_t *options) { cairo_surface_observer_t *surface = abstract_surface; if (surface->target->backend->get_font_options != NULL) surface->target->backend->get_font_options (surface->target, options); } static cairo_surface_t * _cairo_surface_observer_source (void *abstract_surface, cairo_rectangle_int_t *extents) { cairo_surface_observer_t *surface = abstract_surface; return _cairo_surface_get_source (surface->target, extents); } static cairo_status_t _cairo_surface_observer_acquire_source_image (void *abstract_surface, cairo_image_surface_t **image_out, void **image_extra) { cairo_surface_observer_t *surface = abstract_surface; surface->log.num_sources_acquired++; to_device (surface)->log.num_sources_acquired++; return _cairo_surface_acquire_source_image (surface->target, image_out, image_extra); } static void _cairo_surface_observer_release_source_image (void *abstract_surface, cairo_image_surface_t *image, void *image_extra) { cairo_surface_observer_t *surface = abstract_surface; _cairo_surface_release_source_image (surface->target, image, image_extra); } static cairo_surface_t * _cairo_surface_observer_snapshot (void *abstract_surface) { cairo_surface_observer_t *surface = abstract_surface; /* XXX hook onto the snapshot so that we measure number of reads */ if (surface->target->backend->snapshot) return surface->target->backend->snapshot (surface->target); return NULL; } static cairo_t * _cairo_surface_observer_create_context(void *target) { cairo_surface_observer_t *surface = target; if (_cairo_surface_is_subsurface (&surface->base)) surface = (cairo_surface_observer_t *) _cairo_surface_subsurface_get_target (&surface->base); surface->log.num_contexts++; to_device (surface)->log.num_contexts++; return surface->target->backend->create_context (target); } static const cairo_surface_backend_t _cairo_surface_observer_backend = { CAIRO_INTERNAL_SURFACE_TYPE_OBSERVER, _cairo_surface_observer_finish, _cairo_surface_observer_create_context, _cairo_surface_observer_create_similar, _cairo_surface_observer_create_similar_image, _cairo_surface_observer_map_to_image, _cairo_surface_observer_unmap_image, _cairo_surface_observer_source, _cairo_surface_observer_acquire_source_image, _cairo_surface_observer_release_source_image, _cairo_surface_observer_snapshot, _cairo_surface_observer_copy_page, _cairo_surface_observer_show_page, _cairo_surface_observer_get_extents, _cairo_surface_observer_get_font_options, _cairo_surface_observer_flush, _cairo_surface_observer_mark_dirty, _cairo_surface_observer_paint, _cairo_surface_observer_mask, _cairo_surface_observer_stroke, _cairo_surface_observer_fill, NULL, /* fill-stroke */ _cairo_surface_observer_glyphs, }; /** * cairo_surface_create_observer: * @target: an existing surface for which the observer will watch * @mode: sets the mode of operation (normal vs. record) * * Create a new surface that exists solely to watch another is doing. In * the process it will log operations and times, which are fast, which are * slow, which are frequent, etc. * * The @mode parameter can be set to either CAIRO_SURFACE_OBSERVER_NORMAL * or CAIRO_SURFACE_OBSERVER_RECORD_OPERATIONS, to control whether or not * the internal observer should record operations. * * Return value: a pointer to the newly allocated surface. The caller * owns the surface and should call cairo_surface_destroy() when done * with it. * * This function always returns a valid pointer, but it will return a * pointer to a "nil" surface if @other is already in an error state * or any other error occurs. * * Since: 1.12 **/ cairo_surface_t * cairo_surface_create_observer (cairo_surface_t *target, cairo_surface_observer_mode_t mode) { cairo_device_t *device; cairo_surface_t *surface; cairo_bool_t record; if (unlikely (target->status)) return _cairo_surface_create_in_error (target->status); if (unlikely (target->finished)) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_SURFACE_FINISHED)); record = mode & CAIRO_SURFACE_OBSERVER_RECORD_OPERATIONS; device = _cairo_device_create_observer_internal (target->device, record); if (unlikely (device->status)) return _cairo_surface_create_in_error (device->status); surface = _cairo_surface_create_observer_internal (device, target); cairo_device_destroy (device); return surface; } static cairo_status_t _cairo_surface_observer_add_callback (cairo_list_t *head, cairo_surface_observer_callback_t func, void *data) { struct callback_list *cb; cb = _cairo_malloc (sizeof (*cb)); if (unlikely (cb == NULL)) return _cairo_error (CAIRO_STATUS_NO_MEMORY); cairo_list_add (&cb->link, head); cb->func = func; cb->data = data; return CAIRO_STATUS_SUCCESS; } cairo_status_t cairo_surface_observer_add_paint_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->paint_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_mask_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->mask_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_fill_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->fill_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_stroke_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->stroke_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_glyphs_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->glyphs_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_flush_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->flush_callbacks, func, data); } cairo_status_t cairo_surface_observer_add_finish_callback (cairo_surface_t *abstract_surface, cairo_surface_observer_callback_t func, void *data) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return abstract_surface->status; if (! _cairo_surface_is_observer (abstract_surface)) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *)abstract_surface; return _cairo_surface_observer_add_callback (&surface->finish_callbacks, func, data); } static void print_extents (cairo_output_stream_t *stream, const struct extents *e) { _cairo_output_stream_printf (stream, " extents: total %g, avg %g [unbounded %d]\n", e->area.sum, e->area.sum / e->area.count, e->unbounded); } static inline int ordercmp (int a, int b, const unsigned int *array) { /* high to low */ return array[b] - array[a]; } CAIRO_COMBSORT_DECLARE_WITH_DATA (sort_order, int, ordercmp) static void print_array (cairo_output_stream_t *stream, const unsigned int *array, const char **names, int count) { int order[64]; int i, j; assert (count < ARRAY_LENGTH (order)); for (i = j = 0; i < count; i++) { if (array[i] != 0) order[j++] = i; } sort_order (order, j, (void *)array); for (i = 0; i < j; i++) _cairo_output_stream_printf (stream, " %d %s%s", array[order[i]], names[order[i]], i < j -1 ? "," : ""); } static const char *operator_names[] = { "CLEAR", /* CAIRO_OPERATOR_CLEAR */ "SOURCE", /* CAIRO_OPERATOR_SOURCE */ "OVER", /* CAIRO_OPERATOR_OVER */ "IN", /* CAIRO_OPERATOR_IN */ "OUT", /* CAIRO_OPERATOR_OUT */ "ATOP", /* CAIRO_OPERATOR_ATOP */ "DEST", /* CAIRO_OPERATOR_DEST */ "DEST_OVER", /* CAIRO_OPERATOR_DEST_OVER */ "DEST_IN", /* CAIRO_OPERATOR_DEST_IN */ "DEST_OUT", /* CAIRO_OPERATOR_DEST_OUT */ "DEST_ATOP", /* CAIRO_OPERATOR_DEST_ATOP */ "XOR", /* CAIRO_OPERATOR_XOR */ "ADD", /* CAIRO_OPERATOR_ADD */ "SATURATE", /* CAIRO_OPERATOR_SATURATE */ "MULTIPLY", /* CAIRO_OPERATOR_MULTIPLY */ "SCREEN", /* CAIRO_OPERATOR_SCREEN */ "OVERLAY", /* CAIRO_OPERATOR_OVERLAY */ "DARKEN", /* CAIRO_OPERATOR_DARKEN */ "LIGHTEN", /* CAIRO_OPERATOR_LIGHTEN */ "DODGE", /* CAIRO_OPERATOR_COLOR_DODGE */ "BURN", /* CAIRO_OPERATOR_COLOR_BURN */ "HARD_LIGHT", /* CAIRO_OPERATOR_HARD_LIGHT */ "SOFT_LIGHT", /* CAIRO_OPERATOR_SOFT_LIGHT */ "DIFFERENCE", /* CAIRO_OPERATOR_DIFFERENCE */ "EXCLUSION", /* CAIRO_OPERATOR_EXCLUSION */ "HSL_HUE", /* CAIRO_OPERATOR_HSL_HUE */ "HSL_SATURATION", /* CAIRO_OPERATOR_HSL_SATURATION */ "HSL_COLOR", /* CAIRO_OPERATOR_HSL_COLOR */ "HSL_LUMINOSITY" /* CAIRO_OPERATOR_HSL_LUMINOSITY */ }; static void print_operators (cairo_output_stream_t *stream, unsigned int *array) { _cairo_output_stream_printf (stream, " op:"); print_array (stream, array, operator_names, NUM_OPERATORS); _cairo_output_stream_printf (stream, "\n"); } static const char *fill_rule_names[] = { "non-zero", "even-odd", }; static void print_fill_rule (cairo_output_stream_t *stream, unsigned int *array) { _cairo_output_stream_printf (stream, " fill rule:"); print_array (stream, array, fill_rule_names, ARRAY_LENGTH(fill_rule_names)); _cairo_output_stream_printf (stream, "\n"); } static const char *cap_names[] = { "butt", /* CAIRO_LINE_CAP_BUTT */ "round", /* CAIRO_LINE_CAP_ROUND */ "square" /* CAIRO_LINE_CAP_SQUARE */ }; static void print_line_caps (cairo_output_stream_t *stream, unsigned int *array) { _cairo_output_stream_printf (stream, " caps:"); print_array (stream, array, cap_names, NUM_CAPS); _cairo_output_stream_printf (stream, "\n"); } static const char *join_names[] = { "miter", /* CAIRO_LINE_JOIN_MITER */ "round", /* CAIRO_LINE_JOIN_ROUND */ "bevel", /* CAIRO_LINE_JOIN_BEVEL */ }; static void print_line_joins (cairo_output_stream_t *stream, unsigned int *array) { _cairo_output_stream_printf (stream, " joins:"); print_array (stream, array, join_names, NUM_JOINS); _cairo_output_stream_printf (stream, "\n"); } static const char *antialias_names[] = { "default", "none", "gray", "subpixel", "fast", "good", "best" }; static void print_antialias (cairo_output_stream_t *stream, unsigned int *array) { _cairo_output_stream_printf (stream, " antialias:"); print_array (stream, array, antialias_names, NUM_ANTIALIAS); _cairo_output_stream_printf (stream, "\n"); } static const char *pattern_names[] = { "native", "record", "other surface", "solid", "linear", "radial", "mesh", "raster" }; static void print_pattern (cairo_output_stream_t *stream, const char *name, const struct pattern *p) { _cairo_output_stream_printf (stream, " %s:", name); print_array (stream, p->type, pattern_names, ARRAY_LENGTH (pattern_names)); _cairo_output_stream_printf (stream, "\n"); } static const char *path_names[] = { "empty", "pixel-aligned", "rectliinear", "straight", "curved", }; static void print_path (cairo_output_stream_t *stream, const struct path *p) { _cairo_output_stream_printf (stream, " path:"); print_array (stream, p->type, path_names, ARRAY_LENGTH (path_names)); _cairo_output_stream_printf (stream, "\n"); } static const char *clip_names[] = { "none", "region", "boxes", "single path", "polygon", "general", }; static void print_clip (cairo_output_stream_t *stream, const struct clip *c) { _cairo_output_stream_printf (stream, " clip:"); print_array (stream, c->type, clip_names, ARRAY_LENGTH (clip_names)); _cairo_output_stream_printf (stream, "\n"); } static void print_record (cairo_output_stream_t *stream, cairo_observation_record_t *r) { _cairo_output_stream_printf (stream, " op: %s\n", operator_names[r->op]); _cairo_output_stream_printf (stream, " source: %s\n", pattern_names[r->source]); if (r->mask != -1) _cairo_output_stream_printf (stream, " mask: %s\n", pattern_names[r->mask]); if (r->num_glyphs != -1) _cairo_output_stream_printf (stream, " num_glyphs: %d\n", r->num_glyphs); if (r->path != -1) _cairo_output_stream_printf (stream, " path: %s\n", path_names[r->path]); if (r->fill_rule != -1) _cairo_output_stream_printf (stream, " fill rule: %s\n", fill_rule_names[r->fill_rule]); if (r->antialias != -1) _cairo_output_stream_printf (stream, " antialias: %s\n", antialias_names[r->antialias]); _cairo_output_stream_printf (stream, " clip: %s\n", clip_names[r->clip]); _cairo_output_stream_printf (stream, " elapsed: %f ns\n", _cairo_time_to_ns (r->elapsed)); } static double percent (cairo_time_t a, cairo_time_t b) { /* Fake %.1f */ return _cairo_round (_cairo_time_to_s (a) * 1000 / _cairo_time_to_s (b)) / 10; } static cairo_bool_t replay_record (cairo_observation_t *log, cairo_observation_record_t *r, cairo_device_t *script) { #if CAIRO_HAS_SCRIPT_SURFACE cairo_surface_t *surface; cairo_int_status_t status; if (log->record == NULL || script == NULL) return FALSE; surface = cairo_script_surface_create (script, r->target_content, r->target_width, r->target_height); status = _cairo_recording_surface_replay_one (log->record, r->index, surface); cairo_surface_destroy (surface); assert (status == CAIRO_INT_STATUS_SUCCESS); return TRUE; #else return FALSE; #endif } static cairo_time_t _cairo_observation_total_elapsed (cairo_observation_t *log) { cairo_time_t total; total = log->paint.elapsed; total = _cairo_time_add (total, log->mask.elapsed); total = _cairo_time_add (total, log->fill.elapsed); total = _cairo_time_add (total, log->stroke.elapsed); total = _cairo_time_add (total, log->glyphs.elapsed); return total; } static void _cairo_observation_print (cairo_output_stream_t *stream, cairo_observation_t *log) { cairo_device_t *script; cairo_time_t total; #if CAIRO_HAS_SCRIPT_SURFACE script = _cairo_script_context_create_internal (stream); _cairo_script_context_attach_snapshots (script, FALSE); #else script = NULL; #endif total = _cairo_observation_total_elapsed (log); _cairo_output_stream_printf (stream, "elapsed: %f\n", _cairo_time_to_ns (total)); _cairo_output_stream_printf (stream, "surfaces: %d\n", log->num_surfaces); _cairo_output_stream_printf (stream, "contexts: %d\n", log->num_contexts); _cairo_output_stream_printf (stream, "sources acquired: %d\n", log->num_sources_acquired); _cairo_output_stream_printf (stream, "paint: count %d [no-op %d], elapsed %f [%f%%]\n", log->paint.count, log->paint.noop, _cairo_time_to_ns (log->paint.elapsed), percent (log->paint.elapsed, total)); if (log->paint.count) { print_extents (stream, &log->paint.extents); print_operators (stream, log->paint.operators); print_pattern (stream, "source", &log->paint.source); print_clip (stream, &log->paint.clip); _cairo_output_stream_printf (stream, "slowest paint: %f%%\n", percent (log->paint.slowest.elapsed, log->paint.elapsed)); print_record (stream, &log->paint.slowest); _cairo_output_stream_printf (stream, "\n"); if (replay_record (log, &log->paint.slowest, script)) _cairo_output_stream_printf (stream, "\n\n"); } _cairo_output_stream_printf (stream, "mask: count %d [no-op %d], elapsed %f [%f%%]\n", log->mask.count, log->mask.noop, _cairo_time_to_ns (log->mask.elapsed), percent (log->mask.elapsed, total)); if (log->mask.count) { print_extents (stream, &log->mask.extents); print_operators (stream, log->mask.operators); print_pattern (stream, "source", &log->mask.source); print_pattern (stream, "mask", &log->mask.mask); print_clip (stream, &log->mask.clip); _cairo_output_stream_printf (stream, "slowest mask: %f%%\n", percent (log->mask.slowest.elapsed, log->mask.elapsed)); print_record (stream, &log->mask.slowest); _cairo_output_stream_printf (stream, "\n"); if (replay_record (log, &log->mask.slowest, script)) _cairo_output_stream_printf (stream, "\n\n"); } _cairo_output_stream_printf (stream, "fill: count %d [no-op %d], elaspsed %f [%f%%]\n", log->fill.count, log->fill.noop, _cairo_time_to_ns (log->fill.elapsed), percent (log->fill.elapsed, total)); if (log->fill.count) { print_extents (stream, &log->fill.extents); print_operators (stream, log->fill.operators); print_pattern (stream, "source", &log->fill.source); print_path (stream, &log->fill.path); print_fill_rule (stream, log->fill.fill_rule); print_antialias (stream, log->fill.antialias); print_clip (stream, &log->fill.clip); _cairo_output_stream_printf (stream, "slowest fill: %f%%\n", percent (log->fill.slowest.elapsed, log->fill.elapsed)); print_record (stream, &log->fill.slowest); _cairo_output_stream_printf (stream, "\n"); if (replay_record (log, &log->fill.slowest, script)) _cairo_output_stream_printf (stream, "\n\n"); } _cairo_output_stream_printf (stream, "stroke: count %d [no-op %d], elapsed %f [%f%%]\n", log->stroke.count, log->stroke.noop, _cairo_time_to_ns (log->stroke.elapsed), percent (log->stroke.elapsed, total)); if (log->stroke.count) { print_extents (stream, &log->stroke.extents); print_operators (stream, log->stroke.operators); print_pattern (stream, "source", &log->stroke.source); print_path (stream, &log->stroke.path); print_antialias (stream, log->stroke.antialias); print_line_caps (stream, log->stroke.caps); print_line_joins (stream, log->stroke.joins); print_clip (stream, &log->stroke.clip); _cairo_output_stream_printf (stream, "slowest stroke: %f%%\n", percent (log->stroke.slowest.elapsed, log->stroke.elapsed)); print_record (stream, &log->stroke.slowest); _cairo_output_stream_printf (stream, "\n"); if (replay_record (log, &log->stroke.slowest, script)) _cairo_output_stream_printf (stream, "\n\n"); } _cairo_output_stream_printf (stream, "glyphs: count %d [no-op %d], elasped %f [%f%%]\n", log->glyphs.count, log->glyphs.noop, _cairo_time_to_ns (log->glyphs.elapsed), percent (log->glyphs.elapsed, total)); if (log->glyphs.count) { print_extents (stream, &log->glyphs.extents); print_operators (stream, log->glyphs.operators); print_pattern (stream, "source", &log->glyphs.source); print_clip (stream, &log->glyphs.clip); _cairo_output_stream_printf (stream, "slowest glyphs: %f%%\n", percent (log->glyphs.slowest.elapsed, log->glyphs.elapsed)); print_record (stream, &log->glyphs.slowest); _cairo_output_stream_printf (stream, "\n"); if (replay_record (log, &log->glyphs.slowest, script)) _cairo_output_stream_printf (stream, "\n\n"); } cairo_device_destroy (script); } cairo_status_t cairo_surface_observer_print (cairo_surface_t *abstract_surface, cairo_write_func_t write_func, void *closure) { cairo_output_stream_t *stream; cairo_surface_observer_t *surface; if (unlikely (abstract_surface->status)) return abstract_surface->status; if (unlikely (! _cairo_surface_is_observer (abstract_surface))) return _cairo_error (CAIRO_STATUS_SURFACE_TYPE_MISMATCH); surface = (cairo_surface_observer_t *) abstract_surface; stream = _cairo_output_stream_create (write_func, NULL, closure); _cairo_observation_print (stream, &surface->log); return _cairo_output_stream_destroy (stream); } double cairo_surface_observer_elapsed (cairo_surface_t *abstract_surface) { cairo_surface_observer_t *surface; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_surface->ref_count))) return -1; if (! _cairo_surface_is_observer (abstract_surface)) return -1; surface = (cairo_surface_observer_t *) abstract_surface; return _cairo_time_to_ns (_cairo_observation_total_elapsed (&surface->log)); } cairo_status_t cairo_device_observer_print (cairo_device_t *abstract_device, cairo_write_func_t write_func, void *closure) { cairo_output_stream_t *stream; cairo_device_observer_t *device; if (unlikely (abstract_device->status)) return abstract_device->status; if (unlikely (! _cairo_device_is_observer (abstract_device))) return _cairo_error (CAIRO_STATUS_DEVICE_TYPE_MISMATCH); device = (cairo_device_observer_t *) abstract_device; stream = _cairo_output_stream_create (write_func, NULL, closure); _cairo_observation_print (stream, &device->log); return _cairo_output_stream_destroy (stream); } double cairo_device_observer_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (_cairo_observation_total_elapsed (&device->log)); } double cairo_device_observer_paint_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (device->log.paint.elapsed); } double cairo_device_observer_mask_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (device->log.mask.elapsed); } double cairo_device_observer_fill_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (device->log.fill.elapsed); } double cairo_device_observer_stroke_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (device->log.stroke.elapsed); } double cairo_device_observer_glyphs_elapsed (cairo_device_t *abstract_device) { cairo_device_observer_t *device; if (unlikely (CAIRO_REFERENCE_COUNT_IS_INVALID (&abstract_device->ref_count))) return -1; if (! _cairo_device_is_observer (abstract_device)) return -1; device = (cairo_device_observer_t *) abstract_device; return _cairo_time_to_ns (device->log.glyphs.elapsed); }