/* -*- 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. * * 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 */ #include "cairoint.h" #include "cairo-surface-fallback-private.h" #include "cairo-clip-private.h" #include "cairo-device-private.h" #include "cairo-error-private.h" #include "cairo-recording-surface-private.h" #include "cairo-region-private.h" #include "cairo-tee-surface-private.h" #define DEFINE_NIL_SURFACE(status, name) \ const cairo_surface_t name = { \ NULL, /* backend */ \ NULL, /* device */ \ CAIRO_SURFACE_TYPE_IMAGE, /* type */ \ CAIRO_CONTENT_COLOR, /* content */ \ CAIRO_REFERENCE_COUNT_INVALID, /* ref_count */ \ status, /* status */ \ 0, /* unique id */ \ FALSE, /* finished */ \ TRUE, /* is_clear */ \ FALSE, /* has_font_options */ \ { 0, 0, 0, NULL, }, /* user_data */ \ { 0, 0, 0, NULL, }, /* mime_data */ \ { 1.0, 0.0, 0.0, 1.0, 0.0, 0.0 }, /* device_transform */ \ { 1.0, 0.0, 0.0, 1.0, 0.0, 0.0 }, /* device_transform_inverse */ \ 0.0, /* x_resolution */ \ 0.0, /* y_resolution */ \ 0.0, /* x_fallback_resolution */ \ 0.0, /* y_fallback_resolution */ \ NULL, /* snapshot_of */ \ NULL, /* snapshot_detach */ \ { NULL, NULL }, /* snapshots */ \ { NULL, NULL }, /* snapshot */ \ { CAIRO_ANTIALIAS_DEFAULT, /* antialias */ \ CAIRO_SUBPIXEL_ORDER_DEFAULT, /* subpixel_order */ \ CAIRO_HINT_STYLE_DEFAULT, /* hint_style */ \ CAIRO_HINT_METRICS_DEFAULT /* hint_metrics */ \ } /* font_options */ \ } /* XXX error object! */ static DEFINE_NIL_SURFACE(CAIRO_STATUS_NO_MEMORY, _cairo_surface_nil); static DEFINE_NIL_SURFACE(CAIRO_STATUS_SURFACE_TYPE_MISMATCH, _cairo_surface_nil_surface_type_mismatch); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_STATUS, _cairo_surface_nil_invalid_status); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_CONTENT, _cairo_surface_nil_invalid_content); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_FORMAT, _cairo_surface_nil_invalid_format); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_VISUAL, _cairo_surface_nil_invalid_visual); static DEFINE_NIL_SURFACE(CAIRO_STATUS_FILE_NOT_FOUND, _cairo_surface_nil_file_not_found); static DEFINE_NIL_SURFACE(CAIRO_STATUS_TEMP_FILE_ERROR, _cairo_surface_nil_temp_file_error); static DEFINE_NIL_SURFACE(CAIRO_STATUS_READ_ERROR, _cairo_surface_nil_read_error); static DEFINE_NIL_SURFACE(CAIRO_STATUS_WRITE_ERROR, _cairo_surface_nil_write_error); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_STRIDE, _cairo_surface_nil_invalid_stride); static DEFINE_NIL_SURFACE(CAIRO_STATUS_INVALID_SIZE, _cairo_surface_nil_invalid_size); static DEFINE_NIL_SURFACE(CAIRO_STATUS_DEVICE_TYPE_MISMATCH, _cairo_surface_nil_device_type_mismatch); static DEFINE_NIL_SURFACE(CAIRO_STATUS_DEVICE_ERROR, _cairo_surface_nil_device_error); /** * _cairo_surface_set_error: * @surface: a surface * @status: a status value indicating an error * * Atomically sets surface->status to @status and calls _cairo_error; * Does nothing if status is %CAIRO_STATUS_SUCCESS or any of the internal * status values. * * All assignments of an error status to surface->status should happen * through _cairo_surface_set_error(). Note that due to the nature of * the atomic operation, it is not safe to call this function on the * nil objects. * * The purpose of this function is to allow the user to set a * breakpoint in _cairo_error() to generate a stack trace for when the * user causes cairo to detect an error. * * Return value: the error status. **/ cairo_status_t _cairo_surface_set_error (cairo_surface_t *surface, cairo_status_t status) { if (status == CAIRO_INT_STATUS_NOTHING_TO_DO) status = CAIRO_STATUS_SUCCESS; if (status == CAIRO_STATUS_SUCCESS || status >= CAIRO_INT_STATUS_UNSUPPORTED) return status; /* Don't overwrite an existing error. This preserves the first * error, which is the most significant. */ _cairo_status_set_error (&surface->status, status); return _cairo_error (status); } /** * cairo_surface_get_type: * @surface: a #cairo_surface_t * * This function returns the type of the backend used to create * a surface. See #cairo_surface_type_t for available types. * * Return value: The type of @surface. * * Since: 1.2 **/ cairo_surface_type_t cairo_surface_get_type (cairo_surface_t *surface) { /* We don't use surface->backend->type here so that some of the * special "wrapper" surfaces such as cairo_paginated_surface_t * can override surface->type with the type of the "child" * surface. */ return surface->type; } slim_hidden_def (cairo_surface_get_type); /** * cairo_surface_get_content: * @surface: a #cairo_surface_t * * This function returns the content type of @surface which indicates * whether the surface contains color and/or alpha information. See * #cairo_content_t. * * Return value: The content type of @surface. * * Since: 1.2 **/ cairo_content_t cairo_surface_get_content (cairo_surface_t *surface) { return surface->content; } slim_hidden_def(cairo_surface_get_content); /** * cairo_surface_status: * @surface: a #cairo_surface_t * * Checks whether an error has previously occurred for this * surface. * * Return value: %CAIRO_STATUS_SUCCESS, %CAIRO_STATUS_NULL_POINTER, * %CAIRO_STATUS_NO_MEMORY, %CAIRO_STATUS_READ_ERROR, * %CAIRO_STATUS_INVALID_CONTENT, %CAIRO_STATUS_INVALID_FORMAT, or * %CAIRO_STATUS_INVALID_VISUAL. **/ cairo_status_t cairo_surface_status (cairo_surface_t *surface) { return surface->status; } slim_hidden_def (cairo_surface_status); static unsigned int _cairo_surface_allocate_unique_id (void) { static cairo_atomic_int_t unique_id; #if CAIRO_NO_MUTEX if (++unique_id == 0) unique_id = 1; return unique_id; #else cairo_atomic_int_t old, id; do { old = _cairo_atomic_uint_get (&unique_id); id = old + 1; if (id == 0) id = 1; } while (! _cairo_atomic_uint_cmpxchg (&unique_id, old, id)); return id; #endif } /** * cairo_surface_get_device: * @surface: a #cairo_surface_t * * This function returns the device for a @surface. * See #cairo_device_t. * * Return value: The device for @surface. * * Since: 1.10 **/ cairo_device_t * cairo_surface_get_device (cairo_surface_t *surface) { if (unlikely (surface->status)) return _cairo_device_create_in_error (surface->status); return surface->device; } static cairo_bool_t _cairo_surface_has_snapshots (cairo_surface_t *surface) { return ! cairo_list_is_empty (&surface->snapshots); } static cairo_bool_t _cairo_surface_has_mime_data (cairo_surface_t *surface) { return surface->mime_data.num_elements != 0; } static void _cairo_surface_detach_mime_data (cairo_surface_t *surface) { if (! _cairo_surface_has_mime_data (surface)) return; _cairo_user_data_array_fini (&surface->mime_data); _cairo_user_data_array_init (&surface->mime_data); } static void _cairo_surface_detach_snapshots (cairo_surface_t *surface) { while (_cairo_surface_has_snapshots (surface)) { _cairo_surface_detach_snapshot (cairo_list_first_entry (&surface->snapshots, cairo_surface_t, snapshot)); } } void _cairo_surface_detach_snapshot (cairo_surface_t *snapshot) { assert (snapshot->snapshot_of != NULL); snapshot->snapshot_of = NULL; cairo_list_del (&snapshot->snapshot); if (snapshot->snapshot_detach != NULL) snapshot->snapshot_detach (snapshot); cairo_surface_destroy (snapshot); } void _cairo_surface_attach_snapshot (cairo_surface_t *surface, cairo_surface_t *snapshot, cairo_surface_func_t detach_func) { assert (surface != snapshot); assert (snapshot->snapshot_of != surface); cairo_surface_reference (snapshot); if (snapshot->snapshot_of != NULL) _cairo_surface_detach_snapshot (snapshot); snapshot->snapshot_of = surface; snapshot->snapshot_detach = detach_func; cairo_list_add (&snapshot->snapshot, &surface->snapshots); assert (_cairo_surface_has_snapshot (surface, snapshot->backend) == snapshot); } cairo_surface_t * _cairo_surface_has_snapshot (cairo_surface_t *surface, const cairo_surface_backend_t *backend) { cairo_surface_t *snapshot; cairo_list_foreach_entry (snapshot, cairo_surface_t, &surface->snapshots, snapshot) { /* XXX is_similar? */ if (snapshot->backend == backend) return snapshot; } return NULL; } static cairo_bool_t _cairo_surface_is_writable (cairo_surface_t *surface) { return ! surface->finished && surface->snapshot_of == NULL && ! _cairo_surface_has_snapshots (surface) && ! _cairo_surface_has_mime_data (surface); } static void _cairo_surface_begin_modification (cairo_surface_t *surface) { assert (surface->status == CAIRO_STATUS_SUCCESS); assert (! surface->finished); assert (surface->snapshot_of == NULL); _cairo_surface_detach_snapshots (surface); _cairo_surface_detach_mime_data (surface); } void _cairo_surface_init (cairo_surface_t *surface, const cairo_surface_backend_t *backend, cairo_device_t *device, cairo_content_t content) { CAIRO_MUTEX_INITIALIZE (); surface->backend = backend; surface->device = cairo_device_reference (device); surface->content = content; surface->type = backend->type; CAIRO_REFERENCE_COUNT_INIT (&surface->ref_count, 1); surface->status = CAIRO_STATUS_SUCCESS; surface->unique_id = _cairo_surface_allocate_unique_id (); surface->finished = FALSE; surface->is_clear = FALSE; _cairo_user_data_array_init (&surface->user_data); _cairo_user_data_array_init (&surface->mime_data); cairo_matrix_init_identity (&surface->device_transform); cairo_matrix_init_identity (&surface->device_transform_inverse); surface->x_resolution = CAIRO_SURFACE_RESOLUTION_DEFAULT; surface->y_resolution = CAIRO_SURFACE_RESOLUTION_DEFAULT; surface->x_fallback_resolution = CAIRO_SURFACE_FALLBACK_RESOLUTION_DEFAULT; surface->y_fallback_resolution = CAIRO_SURFACE_FALLBACK_RESOLUTION_DEFAULT; cairo_list_init (&surface->snapshots); surface->snapshot_of = NULL; surface->has_font_options = FALSE; } static void _cairo_surface_copy_similar_properties (cairo_surface_t *surface, cairo_surface_t *other) { if (other->has_font_options || other->backend != surface->backend) { cairo_font_options_t options; cairo_surface_get_font_options (other, &options); _cairo_surface_set_font_options (surface, &options); } cairo_surface_set_fallback_resolution (surface, other->x_fallback_resolution, other->y_fallback_resolution); } cairo_surface_t * _cairo_surface_create_similar_scratch (cairo_surface_t *other, cairo_content_t content, int width, int height) { cairo_surface_t *surface; if (unlikely (other->status)) return _cairo_surface_create_in_error (other->status); if (other->backend->create_similar == NULL) return NULL; surface = other->backend->create_similar (other, content, width, height); if (surface == NULL || surface->status) return surface; _cairo_surface_copy_similar_properties (surface, other); return surface; } /** * cairo_surface_create_similar: * @other: an existing surface used to select the backend of the new surface * @content: the content for the new surface * @width: width of the new surface, (in device-space units) * @height: height of the new surface (in device-space units) * * Create a new surface that is as compatible as possible with an * existing surface. For example the new surface will have the same * fallback resolution and font options as @other. Generally, the new * surface will also use the same backend as @other, unless that is * not possible for some reason. The type of the returned surface may * be examined with cairo_surface_get_type(). * * Initially the surface contents are all 0 (transparent if contents * have transparency, black otherwise.) * * 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. **/ cairo_surface_t * cairo_surface_create_similar (cairo_surface_t *other, cairo_content_t content, int width, int height) { if (unlikely (other->status)) return _cairo_surface_create_in_error (other->status); if (unlikely (! CAIRO_CONTENT_VALID (content))) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_INVALID_CONTENT)); return _cairo_surface_create_similar_solid (other, content, width, height, CAIRO_COLOR_TRANSPARENT, TRUE); } cairo_surface_t * _cairo_surface_create_similar_solid (cairo_surface_t *other, cairo_content_t content, int width, int height, const cairo_color_t *color, cairo_bool_t allow_fallback) { cairo_status_t status; cairo_surface_t *surface; cairo_solid_pattern_t pattern; surface = _cairo_surface_create_similar_scratch (other, content, width, height); if (surface == NULL && allow_fallback) surface = _cairo_image_surface_create_with_content (content, width, height); if (surface == NULL || surface->status) return surface; _cairo_pattern_init_solid (&pattern, color, content); status = _cairo_surface_paint (surface, color == CAIRO_COLOR_TRANSPARENT ? CAIRO_OPERATOR_CLEAR : CAIRO_OPERATOR_SOURCE, &pattern.base, NULL); if (unlikely (status)) { cairo_surface_destroy (surface); surface = _cairo_surface_create_in_error (status); } return surface; } cairo_surface_t * _cairo_surface_create_solid_pattern_surface (cairo_surface_t *other, const cairo_solid_pattern_t *solid_pattern) { if (other->backend->create_solid_pattern_surface != NULL) { cairo_surface_t *surface; surface = other->backend->create_solid_pattern_surface (other, solid_pattern); if (surface) return surface; } return _cairo_surface_create_similar_solid (other, solid_pattern->content, 1, 1, &solid_pattern->color, FALSE); } cairo_int_status_t _cairo_surface_repaint_solid_pattern_surface (cairo_surface_t *other, cairo_surface_t *solid_surface, const cairo_solid_pattern_t *solid_pattern) { /* Solid pattern surface for these backends are special and not trivial * to repaint. Skip repainting. * * This does not work optimally with things like analysis surface that * are proxies. But returning UNSUPPORTED is *safe* as it only * disables some caching. */ if (other->backend->create_solid_pattern_surface != NULL && ! other->backend->can_repaint_solid_pattern_surface (solid_surface, solid_pattern)) { return CAIRO_INT_STATUS_UNSUPPORTED; } return _cairo_surface_paint (solid_surface, CAIRO_OPERATOR_SOURCE, &solid_pattern->base, NULL); } /** * cairo_surface_reference: * @surface: a #cairo_surface_t * * Increases the reference count on @surface by one. This prevents * @surface from being destroyed until a matching call to * cairo_surface_destroy() is made. * * The number of references to a #cairo_surface_t can be get using * cairo_surface_get_reference_count(). * * Return value: the referenced #cairo_surface_t. **/ cairo_surface_t * cairo_surface_reference (cairo_surface_t *surface) { if (surface == NULL || CAIRO_REFERENCE_COUNT_IS_INVALID (&surface->ref_count)) return surface; assert (CAIRO_REFERENCE_COUNT_HAS_REFERENCE (&surface->ref_count)); _cairo_reference_count_inc (&surface->ref_count); return surface; } slim_hidden_def (cairo_surface_reference); /** * cairo_surface_destroy: * @surface: a #cairo_surface_t * * Decreases the reference count on @surface by one. If the result is * zero, then @surface and all associated resources are freed. See * cairo_surface_reference(). **/ void cairo_surface_destroy (cairo_surface_t *surface) { if (surface == NULL || CAIRO_REFERENCE_COUNT_IS_INVALID (&surface->ref_count)) return; assert (CAIRO_REFERENCE_COUNT_HAS_REFERENCE (&surface->ref_count)); if (! _cairo_reference_count_dec_and_test (&surface->ref_count)) return; assert (surface->snapshot_of == NULL); if (! surface->finished) cairo_surface_finish (surface); /* paranoid check that nobody took a reference whilst finishing */ assert (! CAIRO_REFERENCE_COUNT_HAS_REFERENCE (&surface->ref_count)); _cairo_user_data_array_fini (&surface->user_data); _cairo_user_data_array_fini (&surface->mime_data); cairo_device_destroy (surface->device); free (surface); } slim_hidden_def(cairo_surface_destroy); /** * cairo_surface_get_reference_count: * @surface: a #cairo_surface_t * * Returns the current reference count of @surface. * * Return value: the current reference count of @surface. If the * object is a nil object, 0 will be returned. * * Since: 1.4 **/ unsigned int cairo_surface_get_reference_count (cairo_surface_t *surface) { if (surface == NULL || CAIRO_REFERENCE_COUNT_IS_INVALID (&surface->ref_count)) return 0; return CAIRO_REFERENCE_COUNT_GET_VALUE (&surface->ref_count); } /** * cairo_surface_finish: * @surface: the #cairo_surface_t to finish * * This function finishes the surface and drops all references to * external resources. For example, for the Xlib backend it means * that cairo will no longer access the drawable, which can be freed. * After calling cairo_surface_finish() the only valid operations on a * surface are getting and setting user, referencing and * destroying, and flushing and finishing it. * Further drawing to the surface will not affect the * surface but will instead trigger a %CAIRO_STATUS_SURFACE_FINISHED * error. * * When the last call to cairo_surface_destroy() decreases the * reference count to zero, cairo will call cairo_surface_finish() if * it hasn't been called already, before freeing the resources * associated with the surface. **/ void cairo_surface_finish (cairo_surface_t *surface) { cairo_status_t status; if (surface == NULL) return; if (CAIRO_REFERENCE_COUNT_IS_INVALID (&surface->ref_count)) return; if (surface->finished) return; /* update the snapshots *before* we declare the surface as finished */ _cairo_surface_detach_snapshots (surface); if (surface->snapshot_of != NULL) _cairo_surface_detach_snapshot (surface); surface->finished = TRUE; cairo_surface_flush (surface); /* call finish even if in error mode */ if (surface->backend->finish) { status = surface->backend->finish (surface); if (unlikely (status)) status = _cairo_surface_set_error (surface, status); } } slim_hidden_def (cairo_surface_finish); /** * cairo_surface_get_user_data: * @surface: a #cairo_surface_t * @key: the address of the #cairo_user_data_key_t the user data was * attached to * * Return user data previously attached to @surface using the specified * key. If no user data has been attached with the given key this * function returns %NULL. * * Return value: the user data previously attached or %NULL. **/ void * cairo_surface_get_user_data (cairo_surface_t *surface, const cairo_user_data_key_t *key) { return _cairo_user_data_array_get_data (&surface->user_data, key); } /** * cairo_surface_set_user_data: * @surface: a #cairo_surface_t * @key: the address of a #cairo_user_data_key_t to attach the user data to * @user_data: the user data to attach to the surface * @destroy: a #cairo_destroy_func_t which will be called when the * surface is destroyed or when new user data is attached using the * same key. * * Attach user data to @surface. To remove user data from a surface, * call this function with the key that was used to set it and %NULL * for @data. * * Return value: %CAIRO_STATUS_SUCCESS or %CAIRO_STATUS_NO_MEMORY if a * slot could not be allocated for the user data. **/ cairo_status_t cairo_surface_set_user_data (cairo_surface_t *surface, const cairo_user_data_key_t *key, void *user_data, cairo_destroy_func_t destroy) { if (CAIRO_REFERENCE_COUNT_IS_INVALID (&surface->ref_count)) return surface->status; return _cairo_user_data_array_set_data (&surface->user_data, key, user_data, destroy); } /** * cairo_surface_get_mime_data: * @surface: a #cairo_surface_t * @mime_type: the mime type of the image data * @data: the image data to attached to the surface * @length: the length of the image data * * Return mime data previously attached to @surface using the * specified mime type. If no data has been attached with the given * mime type, @data is set %NULL. * * Since: 1.10 **/ void cairo_surface_get_mime_data (cairo_surface_t *surface, const char *mime_type, const unsigned char **data, unsigned int *length) { cairo_user_data_slot_t *slots; int i, num_slots; *data = NULL; *length = 0; if (unlikely (surface->status)) return; /* The number of mime-types attached to a surface is usually small, * typically zero. Therefore it is quicker to do a strcmp() against * each key than it is to intern the string (i.e. compute a hash, * search the hash table, and do a final strcmp). */ num_slots = surface->mime_data.num_elements; slots = _cairo_array_index (&surface->mime_data, 0); for (i = 0; i < num_slots; i++) { if (strcmp ((char *) slots[i].key, mime_type) == 0) { cairo_mime_data_t *mime_data = slots[i].user_data; *data = mime_data->data; *length = mime_data->length; return; } } } slim_hidden_def (cairo_surface_get_mime_data); static void _cairo_mime_data_destroy (void *ptr) { cairo_mime_data_t *mime_data = ptr; if (! _cairo_reference_count_dec_and_test (&mime_data->ref_count)) return; if (mime_data->destroy && mime_data->closure) mime_data->destroy (mime_data->closure); free (mime_data); } /** * cairo_surface_set_mime_data: * @surface: a #cairo_surface_t * @mime_type: the MIME type of the image data * @data: the image data to attach to the surface * @length: the length of the image data * @destroy: a #cairo_destroy_func_t which will be called when the * surface is destroyed or when new image data is attached using the * same mime type. * @closure: the data to be passed to the @destroy notifier * * Attach an image in the format @mime_type to @surface. To remove * the data from a surface, call this function with same mime type * and %NULL for @data. * * The attached image (or filename) data can later be used by backends * which support it (currently: PDF, PS, SVG and Win32 Printing * surfaces) to emit this data instead of making a snapshot of the * @surface. This approach tends to be faster and requires less * memory and disk space. * * The recognized MIME types are the following: %CAIRO_MIME_TYPE_JPEG, * %CAIRO_MIME_TYPE_PNG, %CAIRO_MIME_TYPE_JP2, %CAIRO_MIME_TYPE_URI. * * See corresponding backend surface docs for details about which MIME * types it can handle. Caution: the associated MIME data will be * discarded if you draw on the surface afterwards. Use this function * with care. * * Since: 1.10 * * Return value: %CAIRO_STATUS_SUCCESS or %CAIRO_STATUS_NO_MEMORY if a * slot could not be allocated for the user data. **/ cairo_status_t cairo_surface_set_mime_data (cairo_surface_t *surface, const char *mime_type, const unsigned char *data, unsigned int length, cairo_destroy_func_t destroy, void *closure) { cairo_status_t status; cairo_mime_data_t *mime_data; if (unlikely (surface->status)) return surface->status; status = _cairo_intern_string (&mime_type, -1); if (unlikely (status)) return _cairo_surface_set_error (surface, status); if (data != NULL) { mime_data = malloc (sizeof (cairo_mime_data_t)); if (unlikely (mime_data == NULL)) return _cairo_surface_set_error (surface, _cairo_error (CAIRO_STATUS_NO_MEMORY)); CAIRO_REFERENCE_COUNT_INIT (&mime_data->ref_count, 1); mime_data->data = (unsigned char *) data; mime_data->length = length; mime_data->destroy = destroy; mime_data->closure = closure; } else mime_data = NULL; status = _cairo_user_data_array_set_data (&surface->mime_data, (cairo_user_data_key_t *) mime_type, mime_data, _cairo_mime_data_destroy); if (unlikely (status)) { if (mime_data != NULL) free (mime_data); return _cairo_surface_set_error (surface, status); } return CAIRO_STATUS_SUCCESS; } slim_hidden_def (cairo_surface_set_mime_data); static void _cairo_mime_data_reference (const void *key, void *elt, void *closure) { cairo_mime_data_t *mime_data = elt; _cairo_reference_count_inc (&mime_data->ref_count); } cairo_status_t _cairo_surface_copy_mime_data (cairo_surface_t *dst, cairo_surface_t *src) { cairo_status_t status; if (dst->status) return dst->status; if (src->status) return _cairo_surface_set_error (dst, src->status); /* first copy the mime-data, discarding any already set on dst */ status = _cairo_user_data_array_copy (&dst->mime_data, &src->mime_data); if (unlikely (status)) return _cairo_surface_set_error (dst, status); /* now increment the reference counters for the copies */ _cairo_user_data_array_foreach (&dst->mime_data, _cairo_mime_data_reference, NULL); return CAIRO_STATUS_SUCCESS; } /** * _cairo_surface_set_font_options: * @surface: a #cairo_surface_t * @options: a #cairo_font_options_t object that contains the * options to use for this surface instead of backend's default * font options. * * Sets the default font rendering options for the surface. * This is useful to correctly propagate default font options when * falling back to an image surface in a backend implementation. * This affects the options returned in cairo_surface_get_font_options(). * * If @options is %NULL the surface options are reset to those of * the backend default. **/ void _cairo_surface_set_font_options (cairo_surface_t *surface, cairo_font_options_t *options) { cairo_status_t status; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } if (options) { surface->has_font_options = TRUE; _cairo_font_options_init_copy (&surface->font_options, options); } else { surface->has_font_options = FALSE; } } /** * cairo_surface_get_font_options: * @surface: a #cairo_surface_t * @options: a #cairo_font_options_t object into which to store * the retrieved options. All existing values are overwritten * * Retrieves the default font rendering options for the surface. * This allows display surfaces to report the correct subpixel order * for rendering on them, print surfaces to disable hinting of * metrics and so forth. The result can then be used with * cairo_scaled_font_create(). **/ void cairo_surface_get_font_options (cairo_surface_t *surface, cairo_font_options_t *options) { if (cairo_font_options_status (options)) return; if (surface->status) { _cairo_font_options_init_default (options); return; } if (! surface->has_font_options) { surface->has_font_options = TRUE; _cairo_font_options_init_default (&surface->font_options); if (!surface->finished && surface->backend->get_font_options) { surface->backend->get_font_options (surface, &surface->font_options); } } _cairo_font_options_init_copy (options, &surface->font_options); } slim_hidden_def (cairo_surface_get_font_options); /** * cairo_surface_flush: * @surface: a #cairo_surface_t * * Do any pending drawing for the surface and also restore any * temporary modification's cairo has made to the surface's * state. This function must be called before switching from * drawing on the surface with cairo to drawing on it directly * with native APIs. If the surface doesn't support direct access, * then this function does nothing. **/ void cairo_surface_flush (cairo_surface_t *surface) { cairo_status_t status; if (surface->status) return; if (surface->finished) return; /* update the current snapshots *before* the user updates the surface */ _cairo_surface_detach_snapshots (surface); if (surface->backend->flush) { status = surface->backend->flush (surface); if (unlikely (status)) status = _cairo_surface_set_error (surface, status); } } slim_hidden_def (cairo_surface_flush); /** * cairo_surface_mark_dirty: * @surface: a #cairo_surface_t * * Tells cairo that drawing has been done to surface using means other * than cairo, and that cairo should reread any cached areas. Note * that you must call cairo_surface_flush() before doing such drawing. */ void cairo_surface_mark_dirty (cairo_surface_t *surface) { cairo_surface_mark_dirty_rectangle (surface, 0, 0, -1, -1); } slim_hidden_def (cairo_surface_mark_dirty); /** * cairo_surface_mark_dirty_rectangle: * @surface: a #cairo_surface_t * @x: X coordinate of dirty rectangle * @y: Y coordinate of dirty rectangle * @width: width of dirty rectangle * @height: height of dirty rectangle * * Like cairo_surface_mark_dirty(), but drawing has been done only to * the specified rectangle, so that cairo can retain cached contents * for other parts of the surface. * * Any cached clip set on the surface will be reset by this function, * to make sure that future cairo calls have the clip set that they * expect. */ void cairo_surface_mark_dirty_rectangle (cairo_surface_t *surface, int x, int y, int width, int height) { cairo_status_t status; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } /* The application *should* have called cairo_surface_flush() before * modifying the surface independently of cairo (and thus having to * call mark_dirty()). */ assert (! _cairo_surface_has_snapshots (surface)); assert (! _cairo_surface_has_mime_data (surface)); surface->is_clear = FALSE; if (surface->backend->mark_dirty_rectangle != NULL) { /* XXX: FRAGILE: We're ignoring the scaling component of * device_transform here. I don't know what the right thing to * do would actually be if there were some scaling here, but * we avoid this since device_transfom scaling is not exported * publicly and mark_dirty is not used internally. */ status = surface->backend->mark_dirty_rectangle (surface, x + surface->device_transform.x0, y + surface->device_transform.y0, width, height); if (unlikely (status)) status = _cairo_surface_set_error (surface, status); } } slim_hidden_def (cairo_surface_mark_dirty_rectangle); /** * _cairo_surface_set_device_scale: * @surface: a #cairo_surface_t * @sx: a scale factor in the X direction * @sy: a scale factor in the Y direction * * Private function for setting an extra scale factor to affect all * drawing to a surface. This is used, for example, when replaying a * recording surface to an image fallback intended for an eventual * vector-oriented backend. Since the recording surface will record * coordinates in one backend space, but the image fallback uses a * different backend space, (differing by the fallback resolution * scale factors), we need a scale factor correction. * * Caution: Not all places we use device transform correctly handle * both a translate and a scale. An audit would be nice. **/ void _cairo_surface_set_device_scale (cairo_surface_t *surface, double sx, double sy) { cairo_status_t status; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } _cairo_surface_begin_modification (surface); surface->device_transform.xx = sx; surface->device_transform.yy = sy; surface->device_transform.xy = 0.0; surface->device_transform.yx = 0.0; surface->device_transform_inverse = surface->device_transform; status = cairo_matrix_invert (&surface->device_transform_inverse); /* should always be invertible unless given pathological input */ assert (status == CAIRO_STATUS_SUCCESS); } /** * cairo_surface_set_device_offset: * @surface: a #cairo_surface_t * @x_offset: the offset in the X direction, in device units * @y_offset: the offset in the Y direction, in device units * * Sets an offset that is added to the device coordinates determined * by the CTM when drawing to @surface. One use case for this function * is when we want to create a #cairo_surface_t that redirects drawing * for a portion of an onscreen surface to an offscreen surface in a * way that is completely invisible to the user of the cairo * API. Setting a transformation via cairo_translate() isn't * sufficient to do this, since functions like * cairo_device_to_user() will expose the hidden offset. * * Note that the offset affects drawing to the surface as well as * using the surface in a source pattern. **/ void cairo_surface_set_device_offset (cairo_surface_t *surface, double x_offset, double y_offset) { cairo_status_t status; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } _cairo_surface_begin_modification (surface); surface->device_transform.x0 = x_offset; surface->device_transform.y0 = y_offset; surface->device_transform_inverse = surface->device_transform; status = cairo_matrix_invert (&surface->device_transform_inverse); /* should always be invertible unless given pathological input */ assert (status == CAIRO_STATUS_SUCCESS); } slim_hidden_def (cairo_surface_set_device_offset); /** * cairo_surface_get_device_offset: * @surface: a #cairo_surface_t * @x_offset: the offset in the X direction, in device units * @y_offset: the offset in the Y direction, in device units * * This function returns the previous device offset set by * cairo_surface_set_device_offset(). * * Since: 1.2 **/ void cairo_surface_get_device_offset (cairo_surface_t *surface, double *x_offset, double *y_offset) { if (x_offset) *x_offset = surface->device_transform.x0; if (y_offset) *y_offset = surface->device_transform.y0; } slim_hidden_def (cairo_surface_get_device_offset); /** * cairo_surface_set_fallback_resolution: * @surface: a #cairo_surface_t * @x_pixels_per_inch: horizontal setting for pixels per inch * @y_pixels_per_inch: vertical setting for pixels per inch * * Set the horizontal and vertical resolution for image fallbacks. * * When certain operations aren't supported natively by a backend, * cairo will fallback by rendering operations to an image and then * overlaying that image onto the output. For backends that are * natively vector-oriented, this function can be used to set the * resolution used for these image fallbacks, (larger values will * result in more detailed images, but also larger file sizes). * * Some examples of natively vector-oriented backends are the ps, pdf, * and svg backends. * * For backends that are natively raster-oriented, image fallbacks are * still possible, but they are always performed at the native * device resolution. So this function has no effect on those * backends. * * Note: The fallback resolution only takes effect at the time of * completing a page (with cairo_show_page() or cairo_copy_page()) so * there is currently no way to have more than one fallback resolution * in effect on a single page. * * The default fallback resoultion is 300 pixels per inch in both * dimensions. * * Since: 1.2 **/ void cairo_surface_set_fallback_resolution (cairo_surface_t *surface, double x_pixels_per_inch, double y_pixels_per_inch) { cairo_status_t status; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } if (x_pixels_per_inch <= 0 || y_pixels_per_inch <= 0) { /* XXX Could delay raising the error until we fallback, but throwing * the error here means that we can catch the real culprit. */ status = _cairo_surface_set_error (surface, CAIRO_STATUS_INVALID_MATRIX); return; } _cairo_surface_begin_modification (surface); surface->x_fallback_resolution = x_pixels_per_inch; surface->y_fallback_resolution = y_pixels_per_inch; } slim_hidden_def (cairo_surface_set_fallback_resolution); /** * cairo_surface_get_fallback_resolution: * @surface: a #cairo_surface_t * @x_pixels_per_inch: horizontal pixels per inch * @y_pixels_per_inch: vertical pixels per inch * * This function returns the previous fallback resolution set by * cairo_surface_set_fallback_resolution(), or default fallback * resolution if never set. * * Since: 1.8 **/ void cairo_surface_get_fallback_resolution (cairo_surface_t *surface, double *x_pixels_per_inch, double *y_pixels_per_inch) { if (x_pixels_per_inch) *x_pixels_per_inch = surface->x_fallback_resolution; if (y_pixels_per_inch) *y_pixels_per_inch = surface->y_fallback_resolution; } cairo_bool_t _cairo_surface_has_device_transform (cairo_surface_t *surface) { return ! _cairo_matrix_is_identity (&surface->device_transform); } /** * _cairo_surface_acquire_source_image: * @surface: a #cairo_surface_t * @image_out: location to store a pointer to an image surface that * has identical contents to @surface. This surface could be @surface * itself, a surface held internal to @surface, or it could be a new * surface with a copy of the relevant portion of @surface. * @image_extra: location to store image specific backend data * * Gets an image surface to use when drawing as a fallback when drawing with * @surface as a source. _cairo_surface_release_source_image() must be called * when finished. * * Return value: %CAIRO_STATUS_SUCCESS if an image was stored in @image_out. * %CAIRO_INT_STATUS_UNSUPPORTED if an image cannot be retrieved for the specified * surface. Or %CAIRO_STATUS_NO_MEMORY. **/ cairo_status_t _cairo_surface_acquire_source_image (cairo_surface_t *surface, cairo_image_surface_t **image_out, void **image_extra) { cairo_status_t status; if (surface->status) return surface->status; assert (!surface->finished); if (surface->backend->acquire_source_image == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; status = surface->backend->acquire_source_image (surface, image_out, image_extra); if (unlikely (status)) return _cairo_surface_set_error (surface, status); _cairo_debug_check_image_surface_is_defined (&(*image_out)->base); return CAIRO_STATUS_SUCCESS; } /** * _cairo_surface_release_source_image: * @surface: a #cairo_surface_t * @image_extra: same as return from the matching _cairo_surface_acquire_source_image() * * Releases any resources obtained with _cairo_surface_acquire_source_image() **/ void _cairo_surface_release_source_image (cairo_surface_t *surface, cairo_image_surface_t *image, void *image_extra) { assert (!surface->finished); if (surface->backend->release_source_image) surface->backend->release_source_image (surface, image, image_extra); } /** * _cairo_surface_acquire_dest_image: * @surface: a #cairo_surface_t * @interest_rect: area of @surface for which fallback drawing is being done. * A value of %NULL indicates that the entire surface is desired. * XXXX I'd like to get rid of being able to pass %NULL here (nothing seems to) * @image_out: location to store a pointer to an image surface that includes at least * the intersection of @interest_rect with the visible area of @surface. * This surface could be @surface itself, a surface held internal to @surface, * or it could be a new surface with a copy of the relevant portion of @surface. * If a new surface is created, it should have the same channels and depth * as @surface so that copying to and from it is exact. * @image_rect: location to store area of the original surface occupied * by the surface stored in @image. * @image_extra: location to store image specific backend data * * Retrieves a local image for a surface for implementing a fallback drawing * operation. After calling this function, the implementation of the fallback * drawing operation draws the primitive to the surface stored in @image_out * then calls _cairo_surface_release_dest_image(), * which, if a temporary surface was created, copies the bits back to the * main surface and frees the temporary surface. * * Return value: %CAIRO_STATUS_SUCCESS or %CAIRO_STATUS_NO_MEMORY. * %CAIRO_INT_STATUS_UNSUPPORTED can be returned but this will mean that * the backend can't draw with fallbacks. It's possible for the routine * to store %NULL in @local_out and return %CAIRO_STATUS_SUCCESS; * that indicates that no part of @interest_rect is visible, so no drawing * is necessary. _cairo_surface_release_dest_image() should not be called in that * case. **/ cairo_status_t _cairo_surface_acquire_dest_image (cairo_surface_t *surface, cairo_rectangle_int_t *interest_rect, cairo_image_surface_t **image_out, cairo_rectangle_int_t *image_rect, void **image_extra) { cairo_status_t status; if (surface->status) return surface->status; assert (_cairo_surface_is_writable (surface)); if (surface->backend->acquire_dest_image == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; status = surface->backend->acquire_dest_image (surface, interest_rect, image_out, image_rect, image_extra); if (unlikely (status)) return _cairo_surface_set_error (surface, status); _cairo_debug_check_image_surface_is_defined (&(*image_out)->base); return CAIRO_STATUS_SUCCESS; } /** * _cairo_surface_release_dest_image: * @surface: a #cairo_surface_t * @interest_rect: same as passed to the matching _cairo_surface_acquire_dest_image() * @image: same as returned from the matching _cairo_surface_acquire_dest_image() * @image_rect: same as returned from the matching _cairo_surface_acquire_dest_image() * @image_extra: same as return from the matching _cairo_surface_acquire_dest_image() * * Finishes the operation started with _cairo_surface_acquire_dest_image(), by, if * necessary, copying the image from @image back to @surface and freeing any * resources that were allocated. **/ void _cairo_surface_release_dest_image (cairo_surface_t *surface, cairo_rectangle_int_t *interest_rect, cairo_image_surface_t *image, cairo_rectangle_int_t *image_rect, void *image_extra) { assert (_cairo_surface_is_writable (surface)); if (surface->backend->release_dest_image) surface->backend->release_dest_image (surface, interest_rect, image, image_rect, image_extra); } static cairo_status_t _cairo_recording_surface_clone_similar (cairo_surface_t *surface, cairo_surface_t *src, int src_x, int src_y, int width, int height, int *clone_offset_x, int *clone_offset_y, cairo_surface_t **clone_out) { cairo_recording_surface_t *recorder = (cairo_recording_surface_t *) src; cairo_surface_t *similar; cairo_status_t status; similar = _cairo_surface_has_snapshot (src, surface->backend); if (similar != NULL) { *clone_out = cairo_surface_reference (similar); *clone_offset_x = 0; *clone_offset_y = 0; return CAIRO_STATUS_SUCCESS; } if (recorder->unbounded || width*height*8 < recorder->extents.width*recorder->extents.height) { similar = _cairo_surface_create_similar_solid (surface, src->content, width, height, CAIRO_COLOR_TRANSPARENT, FALSE); if (similar == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; if (unlikely (similar->status)) return similar->status; cairo_surface_set_device_offset (similar, -src_x, -src_y); status = _cairo_recording_surface_replay (src, similar); if (unlikely (status)) { cairo_surface_destroy (similar); return status; } } else { similar = _cairo_surface_create_similar_scratch (surface, src->content, recorder->extents.width, recorder->extents.height); if (similar == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; if (unlikely (similar->status)) return similar->status; status = _cairo_recording_surface_replay (src, similar); if (unlikely (status)) { cairo_surface_destroy (similar); return status; } _cairo_surface_attach_snapshot (src, similar, NULL); src_x = src_y = 0; } *clone_out = similar; *clone_offset_x = src_x; *clone_offset_y = src_y; return CAIRO_STATUS_SUCCESS; } /** * _cairo_surface_clone_similar: * @surface: a #cairo_surface_t * @src: the source image * @content: target content mask * @src_x: extent for the rectangle in src we actually care about * @src_y: extent for the rectangle in src we actually care about * @width: extent for the rectangle in src we actually care about * @height: extent for the rectangle in src we actually care about * @clone_out: location to store a surface compatible with @surface * and with contents identical to @src. The caller must call * cairo_surface_destroy() on the result. * * Creates a surface with contents identical to @src but that * can be used efficiently with @surface. If @surface and @src are * already compatible then it may return a new reference to @src. * * Return value: %CAIRO_STATUS_SUCCESS if a surface was created and stored * in @clone_out. Otherwise %CAIRO_INT_STATUS_UNSUPPORTED or another * error like %CAIRO_STATUS_NO_MEMORY. **/ cairo_status_t _cairo_surface_clone_similar (cairo_surface_t *surface, cairo_surface_t *src, int src_x, int src_y, int width, int height, int *clone_offset_x, int *clone_offset_y, cairo_surface_t **clone_out) { cairo_status_t status = CAIRO_INT_STATUS_UNSUPPORTED; cairo_image_surface_t *image; void *image_extra; if (unlikely (surface->status)) return surface->status; if (unlikely (surface->finished)) return _cairo_error (CAIRO_STATUS_SURFACE_FINISHED); if (src->type == CAIRO_SURFACE_TYPE_TEE) { cairo_surface_t *match; match = _cairo_tee_surface_find_match (src, surface->backend, src->content); if (match != NULL) src = match; } if (surface->backend->clone_similar != NULL) { status = surface->backend->clone_similar (surface, src, src_x, src_y, width, height, clone_offset_x, clone_offset_y, clone_out); if (status == CAIRO_INT_STATUS_UNSUPPORTED) { if (_cairo_surface_is_image (src)) return CAIRO_INT_STATUS_UNSUPPORTED; /* First check to see if we can replay to a similar surface */ if (_cairo_surface_is_recording (src)) { return _cairo_recording_surface_clone_similar (surface, src, src_x, src_y, width, height, clone_offset_x, clone_offset_y, clone_out); } /* If we failed, try again with an image surface */ status = _cairo_surface_acquire_source_image (src, &image, &image_extra); if (status == CAIRO_STATUS_SUCCESS) { status = surface->backend->clone_similar (surface, &image->base, src_x, src_y, width, height, clone_offset_x, clone_offset_y, clone_out); _cairo_surface_release_source_image (src, image, image_extra); } } } /* If we're still unsupported, hit our fallback path to get a clone */ if (status == CAIRO_INT_STATUS_UNSUPPORTED) { status = _cairo_surface_fallback_clone_similar (surface, src, src_x, src_y, width, height, clone_offset_x, clone_offset_y, clone_out); } if (unlikely (status)) return status; /* Update the clone's device_transform (which the underlying surface * backend knows nothing about) */ if (*clone_out != src) { (*clone_out)->device_transform = src->device_transform; (*clone_out)->device_transform_inverse = src->device_transform_inverse; } return status; } /** * _cairo_surface_is_similar * @surface_a: a #cairo_surface_t * @surface_b: a #cairo_surface_t * @content: a #cairo_content_t * * Find out whether the given surfaces share the same backend, * and if so, whether they can be considered similar. * * The definition of "similar" depends on the backend. In * general, it means that the surface is equivalent to one * that would have been generated by a call to cairo_surface_create_similar(). * * Return value: %TRUE if the surfaces are similar. **/ cairo_bool_t _cairo_surface_is_similar (cairo_surface_t *surface_a, cairo_surface_t *surface_b, cairo_content_t content) { if (surface_a->backend != surface_b->backend) return FALSE; if (surface_a->backend->is_similar != NULL) return surface_a->backend->is_similar (surface_a, surface_b, content); return TRUE; } cairo_status_t _cairo_surface_composite (cairo_operator_t op, const cairo_pattern_t *src, const cairo_pattern_t *mask, cairo_surface_t *dst, int src_x, int src_y, int mask_x, int mask_y, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_region_t *clip_region) { cairo_int_status_t status; if (unlikely (dst->status)) return dst->status; assert (_cairo_surface_is_writable (dst)); if (mask) { /* These operators aren't interpreted the same way by the backends; * they are implemented in terms of other operators in cairo-gstate.c */ assert (op != CAIRO_OPERATOR_SOURCE && op != CAIRO_OPERATOR_CLEAR); } if (dst->backend->composite) { status = dst->backend->composite (op, src, mask, dst, src_x, src_y, mask_x, mask_y, dst_x, dst_y, width, height, clip_region); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return _cairo_surface_set_error (dst, status); } return _cairo_surface_set_error (dst, _cairo_surface_fallback_composite (op, src, mask, dst, src_x, src_y, mask_x, mask_y, dst_x, dst_y, width, height, clip_region)); } /** * _cairo_surface_fill_rectangle: * @surface: a #cairo_surface_t * @op: the operator to apply to the rectangle * @color: the source color * @x: X coordinate of rectangle, in backend coordinates * @y: Y coordinate of rectangle, in backend coordinates * @width: width of rectangle, in backend coordinates * @height: height of rectangle, in backend coordinates * * Applies an operator to a rectangle using a solid color as the source. * See _cairo_surface_fill_rectangles() for full details. * * Return value: %CAIRO_STATUS_SUCCESS or the error that occurred **/ cairo_status_t _cairo_surface_fill_rectangle (cairo_surface_t *surface, cairo_operator_t op, const cairo_color_t *color, int x, int y, int width, int height) { cairo_rectangle_int_t rect; if (surface->status) return surface->status; assert (_cairo_surface_is_writable (surface)); rect.x = x; rect.y = y; rect.width = width; rect.height = height; return _cairo_surface_fill_rectangles (surface, op, color, &rect, 1); } /** * _cairo_surface_fill_region: * @surface: a #cairo_surface_t * @op: the operator to apply to the region * @color: the source color * @region: the region to modify, in backend coordinates * * Applies an operator to a set of rectangles specified as a * #cairo_region_t using a solid color as the source. * See _cairo_surface_fill_rectangles() for full details. * * Return value: %CAIRO_STATUS_SUCCESS or the error that occurred **/ cairo_status_t _cairo_surface_fill_region (cairo_surface_t *surface, cairo_operator_t op, const cairo_color_t *color, cairo_region_t *region) { int num_rects; cairo_rectangle_int_t stack_rects[CAIRO_STACK_ARRAY_LENGTH (cairo_rectangle_int_t)]; cairo_rectangle_int_t *rects = stack_rects; cairo_status_t status; int i; if (surface->status) return surface->status; assert (_cairo_surface_is_writable (surface)); num_rects = cairo_region_num_rectangles (region); if (num_rects == 0) return CAIRO_STATUS_SUCCESS; /* catch a common reduction of _cairo_clip_combine_with_surface() */ if (op == CAIRO_OPERATOR_IN && _cairo_color_equal (color, CAIRO_COLOR_WHITE)) { return CAIRO_STATUS_SUCCESS; } if (num_rects > ARRAY_LENGTH (stack_rects)) { rects = _cairo_malloc_ab (num_rects, sizeof (cairo_rectangle_int_t)); if (rects == NULL) { return _cairo_surface_set_error (surface, _cairo_error (CAIRO_STATUS_NO_MEMORY)); } } for (i = 0; i < num_rects; i++) cairo_region_get_rectangle (region, i, &rects[i]); status = _cairo_surface_fill_rectangles (surface, op, color, rects, num_rects); if (rects != stack_rects) free (rects); return _cairo_surface_set_error (surface, status); } /** * _cairo_surface_fill_rectangles: * @surface: a #cairo_surface_t * @op: the operator to apply to the region * @color: the source color * @rects: the rectangles to modify, in backend coordinates * @num_rects: the number of rectangles in @rects * * Applies an operator to a set of rectangles using a solid color * as the source. Note that even if the operator is an unbounded operator * such as %CAIRO_OPERATOR_IN, only the given set of rectangles * is affected. This differs from _cairo_surface_composite_trapezoids() * where the entire destination rectangle is cleared. * * Return value: %CAIRO_STATUS_SUCCESS or the error that occurred **/ cairo_status_t _cairo_surface_fill_rectangles (cairo_surface_t *surface, cairo_operator_t op, const cairo_color_t *color, cairo_rectangle_int_t *rects, int num_rects) { cairo_int_status_t status; if (surface->status) return surface->status; assert (_cairo_surface_is_writable (surface)); if (num_rects == 0) return CAIRO_STATUS_SUCCESS; if (surface->backend->fill_rectangles) { status = surface->backend->fill_rectangles (surface, op, color, rects, num_rects); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return _cairo_surface_set_error (surface, status); } return _cairo_surface_set_error (surface, _cairo_surface_fallback_fill_rectangles (surface, op, color, rects, num_rects)); } static cairo_status_t _pattern_has_error (const cairo_pattern_t *pattern) { const cairo_surface_pattern_t *spattern; if (unlikely (pattern->status)) return pattern->status; if (pattern->type != CAIRO_PATTERN_TYPE_SURFACE) return CAIRO_STATUS_SUCCESS; spattern = (const cairo_surface_pattern_t *) pattern; if (unlikely (spattern->surface->status)) return spattern->surface->status; if (unlikely (spattern->surface->finished)) return _cairo_error (CAIRO_STATUS_SURFACE_FINISHED); return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_surface_paint (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_clip_t *clip) { cairo_status_t status; if (unlikely (surface->status)) return surface->status; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_CLEAR && surface->is_clear) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_OVER && _cairo_pattern_is_clear (source)) { return CAIRO_STATUS_SUCCESS; } status = _pattern_has_error (source); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (surface->backend->paint != NULL) { status = surface->backend->paint (surface, op, source, clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) goto FINISH; } status = _cairo_surface_fallback_paint (surface, op, source, clip); FINISH: surface->is_clear = op == CAIRO_OPERATOR_CLEAR && clip == NULL; return _cairo_surface_set_error (surface, status); } cairo_status_t _cairo_surface_mask (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, const cairo_pattern_t *mask, cairo_clip_t *clip) { cairo_status_t status; if (unlikely (surface->status)) return surface->status; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_CLEAR && surface->is_clear) return CAIRO_STATUS_SUCCESS; /* If the mask is blank, this is just an expensive no-op */ if (_cairo_pattern_is_clear (mask) && _cairo_operator_bounded_by_mask (op)) { return CAIRO_STATUS_SUCCESS; } if (op == CAIRO_OPERATOR_OVER && _cairo_pattern_is_clear (source)) { return CAIRO_STATUS_SUCCESS; } status = _pattern_has_error (source); if (unlikely (status)) return status; status = _pattern_has_error (mask); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (surface->backend->mask != NULL) { status = surface->backend->mask (surface, op, source, mask, clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) goto FINISH; } status = _cairo_surface_fallback_mask (surface, op, source, mask, clip); FINISH: surface->is_clear = FALSE; return _cairo_surface_set_error (surface, status); } cairo_status_t _cairo_surface_fill_stroke (cairo_surface_t *surface, cairo_operator_t fill_op, const cairo_pattern_t *fill_source, cairo_fill_rule_t fill_rule, double fill_tolerance, cairo_antialias_t fill_antialias, cairo_path_fixed_t *path, cairo_operator_t stroke_op, const cairo_pattern_t *stroke_source, const cairo_stroke_style_t *stroke_style, const cairo_matrix_t *stroke_ctm, const cairo_matrix_t *stroke_ctm_inverse, double stroke_tolerance, cairo_antialias_t stroke_antialias, cairo_clip_t *clip) { cairo_status_t status; if (unlikely (surface->status)) return surface->status; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (surface->is_clear && fill_op == CAIRO_OPERATOR_CLEAR && stroke_op == CAIRO_OPERATOR_CLEAR) { return CAIRO_STATUS_SUCCESS; } status = _pattern_has_error (fill_source); if (unlikely (status)) return status; status = _pattern_has_error (stroke_source); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (surface->backend->fill_stroke) { cairo_matrix_t dev_ctm = *stroke_ctm; cairo_matrix_t dev_ctm_inverse = *stroke_ctm_inverse; status = surface->backend->fill_stroke (surface, fill_op, fill_source, fill_rule, fill_tolerance, fill_antialias, path, stroke_op, stroke_source, stroke_style, &dev_ctm, &dev_ctm_inverse, stroke_tolerance, stroke_antialias, clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) goto FINISH; } status = _cairo_surface_fill (surface, fill_op, fill_source, path, fill_rule, fill_tolerance, fill_antialias, clip); if (unlikely (status)) goto FINISH; status = _cairo_surface_stroke (surface, stroke_op, stroke_source, path, stroke_style, stroke_ctm, stroke_ctm_inverse, stroke_tolerance, stroke_antialias, clip); if (unlikely (status)) goto FINISH; FINISH: surface->is_clear = FALSE; return _cairo_surface_set_error (surface, status); } cairo_status_t _cairo_surface_stroke (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_path_fixed_t *path, const cairo_stroke_style_t *stroke_style, const cairo_matrix_t *ctm, const cairo_matrix_t *ctm_inverse, double tolerance, cairo_antialias_t antialias, cairo_clip_t *clip) { cairo_status_t status; if (unlikely (surface->status)) return surface->status; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_CLEAR && surface->is_clear) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_OVER && _cairo_pattern_is_clear (source)) { return CAIRO_STATUS_SUCCESS; } status = _pattern_has_error (source); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (surface->backend->stroke != NULL) { status = surface->backend->stroke (surface, op, source, path, stroke_style, ctm, ctm_inverse, tolerance, antialias, clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) goto FINISH; } status = _cairo_surface_fallback_stroke (surface, op, source, path, stroke_style, ctm, ctm_inverse, tolerance, antialias, clip); FINISH: surface->is_clear = FALSE; return _cairo_surface_set_error (surface, status); } cairo_status_t _cairo_surface_fill (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias, cairo_clip_t *clip) { cairo_status_t status; if (unlikely (surface->status)) return surface->status; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_CLEAR && surface->is_clear) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_OVER && _cairo_pattern_is_clear (source)) { return CAIRO_STATUS_SUCCESS; } status = _pattern_has_error (source); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (surface->backend->fill != NULL) { status = surface->backend->fill (surface, op, source, path, fill_rule, tolerance, antialias, clip); if (status != CAIRO_INT_STATUS_UNSUPPORTED) goto FINISH; } status = _cairo_surface_fallback_fill (surface, op, source, path, fill_rule, tolerance, antialias, clip); FINISH: surface->is_clear = FALSE; return _cairo_surface_set_error (surface, status); } cairo_status_t _cairo_surface_composite_trapezoids (cairo_operator_t op, const cairo_pattern_t *pattern, cairo_surface_t *dst, cairo_antialias_t antialias, int src_x, int src_y, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_trapezoid_t *traps, int num_traps, cairo_region_t *clip_region) { cairo_int_status_t status; if (dst->status) return dst->status; assert (_cairo_surface_is_writable (dst)); /* These operators aren't interpreted the same way by the backends; * they are implemented in terms of other operators in cairo-gstate.c */ assert (op != CAIRO_OPERATOR_SOURCE && op != CAIRO_OPERATOR_CLEAR); if (dst->backend->composite_trapezoids) { status = dst->backend->composite_trapezoids (op, pattern, dst, antialias, src_x, src_y, dst_x, dst_y, width, height, traps, num_traps, clip_region); if (status != CAIRO_INT_STATUS_UNSUPPORTED) return _cairo_surface_set_error (dst, status); } return _cairo_surface_set_error (dst, _cairo_surface_fallback_composite_trapezoids (op, pattern, dst, antialias, src_x, src_y, dst_x, dst_y, width, height, traps, num_traps, clip_region)); } cairo_span_renderer_t * _cairo_surface_create_span_renderer (cairo_operator_t op, const cairo_pattern_t *pattern, cairo_surface_t *dst, cairo_antialias_t antialias, const cairo_composite_rectangles_t *rects, cairo_region_t *clip_region) { assert (dst->snapshot_of == NULL); if (unlikely (dst->status)) return _cairo_span_renderer_create_in_error (dst->status); if (unlikely (dst->finished)) return _cairo_span_renderer_create_in_error (CAIRO_STATUS_SURFACE_FINISHED); if (dst->backend->create_span_renderer) { return dst->backend->create_span_renderer (op, pattern, dst, antialias, rects, clip_region); } ASSERT_NOT_REACHED; return _cairo_span_renderer_create_in_error (CAIRO_INT_STATUS_UNSUPPORTED); } cairo_bool_t _cairo_surface_check_span_renderer (cairo_operator_t op, const cairo_pattern_t *pattern, cairo_surface_t *dst, cairo_antialias_t antialias) { assert (dst->snapshot_of == NULL); assert (dst->status == CAIRO_STATUS_SUCCESS); assert (! dst->finished); /* XXX: Currently we have no mono span renderer */ if (antialias == CAIRO_ANTIALIAS_NONE) return FALSE; if (dst->backend->check_span_renderer != NULL) return dst->backend->check_span_renderer (op, pattern, dst, antialias); return FALSE; } /** * cairo_surface_copy_page: * @surface: a #cairo_surface_t * * Emits the current page for backends that support multiple pages, * but doesn't clear it, so that the contents of the current page will * be retained for the next page. Use cairo_surface_show_page() if you * want to get an empty page after the emission. * * There is a convenience function for this that takes a #cairo_t, * namely cairo_copy_page(). * * Since: 1.6 */ void cairo_surface_copy_page (cairo_surface_t *surface) { cairo_status_t status_ignored; if (surface->status) return; assert (surface->snapshot_of == NULL); if (surface->finished) { status_ignored = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } /* It's fine if some backends don't implement copy_page */ if (surface->backend->copy_page == NULL) return; status_ignored = _cairo_surface_set_error (surface, surface->backend->copy_page (surface)); } slim_hidden_def (cairo_surface_copy_page); /** * cairo_surface_show_page: * @surface: a #cairo_Surface_t * * Emits and clears the current page for backends that support multiple * pages. Use cairo_surface_copy_page() if you don't want to clear the page. * * There is a convenience function for this that takes a #cairo_t, * namely cairo_show_page(). * * Since: 1.6 **/ void cairo_surface_show_page (cairo_surface_t *surface) { cairo_status_t status_ignored; if (surface->status) return; _cairo_surface_begin_modification (surface); if (surface->finished) { status_ignored = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return; } /* It's fine if some backends don't implement show_page */ if (surface->backend->show_page == NULL) return; status_ignored = _cairo_surface_set_error (surface, surface->backend->show_page (surface)); } slim_hidden_def (cairo_surface_show_page); /** * _cairo_surface_get_extents: * @surface: the #cairo_surface_t to fetch extents for * * This function returns a bounding box for the surface. The surface * bounds are defined as a region beyond which no rendering will * possibly be recorded, in other words, it is the maximum extent of * potentially usable coordinates. * * For vector surfaces, (PDF, PS, SVG and recording-surfaces), the surface * might be conceived as unbounded, but we force the user to provide a * maximum size at the time of surface_create. So get_extents uses * that size. * * Note: The coordinates returned are in "backend" space rather than * "surface" space. That is, they are relative to the true (0,0) * origin rather than the device_transform origin. This might seem a * bit inconsistent with other #cairo_surface_t interfaces, but all * current callers are within the surface layer where backend space is * desired. * * This behavior would have to be changed is we ever exported a public * variant of this function. */ cairo_bool_t _cairo_surface_get_extents (cairo_surface_t *surface, cairo_rectangle_int_t *extents) { cairo_bool_t bounded; bounded = FALSE; if (surface->backend->get_extents != NULL) bounded = surface->backend->get_extents (surface, extents); if (! bounded) _cairo_unbounded_rectangle_init (extents); return bounded; } /** * cairo_surface_has_show_text_glyphs: * @surface: a #cairo_surface_t * * Returns whether the surface supports * sophisticated cairo_show_text_glyphs() operations. That is, * whether it actually uses the provided text and cluster data * to a cairo_show_text_glyphs() call. * * Note: Even if this function returns %FALSE, a * cairo_show_text_glyphs() operation targeted at @surface will * still succeed. It just will * act like a cairo_show_glyphs() operation. Users can use this * function to avoid computing UTF-8 text and cluster mapping if the * target surface does not use it. * * Return value: %TRUE if @surface supports * cairo_show_text_glyphs(), %FALSE otherwise * * Since: 1.8 **/ cairo_bool_t cairo_surface_has_show_text_glyphs (cairo_surface_t *surface) { cairo_status_t status_ignored; if (surface->status) return FALSE; if (surface->finished) { status_ignored = _cairo_surface_set_error (surface, CAIRO_STATUS_SURFACE_FINISHED); return FALSE; } if (surface->backend->has_show_text_glyphs) return surface->backend->has_show_text_glyphs (surface); else return surface->backend->show_text_glyphs != NULL; } slim_hidden_def (cairo_surface_has_show_text_glyphs); /* Note: the backends may modify the contents of the glyph array as long as * they do not return %CAIRO_INT_STATUS_UNSUPPORTED. This makes it possible to * avoid copying the array again and again, and edit it in-place. * Backends are in fact free to use the array as a generic buffer as they * see fit. * * For show_glyphs backend method, and NOT for show_text_glyphs method, * when they do return UNSUPPORTED, they may adjust remaining_glyphs to notify * that they have successfully rendered some of the glyphs (from the beginning * of the array), but not all. If they don't touch remaining_glyphs, it * defaults to all glyphs. * * See commits 5a9642c5746fd677aed35ce620ce90b1029b1a0c and * 1781e6018c17909311295a9cc74b70500c6b4d0a for the rationale. */ cairo_status_t _cairo_surface_show_text_glyphs (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, const char *utf8, int utf8_len, cairo_glyph_t *glyphs, int num_glyphs, const cairo_text_cluster_t *clusters, int num_clusters, cairo_text_cluster_flags_t cluster_flags, cairo_scaled_font_t *scaled_font, cairo_clip_t *clip) { cairo_status_t status; cairo_scaled_font_t *dev_scaled_font = scaled_font; if (unlikely (surface->status)) return surface->status; if (num_glyphs == 0 && utf8_len == 0) return CAIRO_STATUS_SUCCESS; if (clip && clip->all_clipped) return CAIRO_STATUS_SUCCESS; if (op == CAIRO_OPERATOR_CLEAR && surface->is_clear) return CAIRO_STATUS_SUCCESS; status = _pattern_has_error (source); if (unlikely (status)) return status; _cairo_surface_begin_modification (surface); if (_cairo_surface_has_device_transform (surface) && ! _cairo_matrix_is_integer_translation (&surface->device_transform, NULL, NULL)) { cairo_font_options_t font_options; cairo_matrix_t dev_ctm, font_matrix; cairo_scaled_font_get_font_matrix (scaled_font, &font_matrix); cairo_scaled_font_get_ctm (scaled_font, &dev_ctm); cairo_matrix_multiply (&dev_ctm, &dev_ctm, &surface->device_transform); cairo_scaled_font_get_font_options (scaled_font, &font_options); dev_scaled_font = cairo_scaled_font_create (cairo_scaled_font_get_font_face (scaled_font), &font_matrix, &dev_ctm, &font_options); } status = cairo_scaled_font_status (dev_scaled_font); if (unlikely (status)) return _cairo_surface_set_error (surface, status); status = CAIRO_INT_STATUS_UNSUPPORTED; /* The logic here is duplicated in _cairo_analysis_surface show_glyphs and * show_text_glyphs. Keep in synch. */ if (clusters) { /* A real show_text_glyphs call. Try show_text_glyphs backend * method first */ if (surface->backend->show_text_glyphs != NULL) { status = surface->backend->show_text_glyphs (surface, op, source, utf8, utf8_len, glyphs, num_glyphs, clusters, num_clusters, cluster_flags, dev_scaled_font, clip); } if (status == CAIRO_INT_STATUS_UNSUPPORTED && surface->backend->show_glyphs) { int remaining_glyphs = num_glyphs; status = surface->backend->show_glyphs (surface, op, source, glyphs, num_glyphs, dev_scaled_font, clip, &remaining_glyphs); glyphs += num_glyphs - remaining_glyphs; num_glyphs = remaining_glyphs; if (status == CAIRO_INT_STATUS_UNSUPPORTED && remaining_glyphs == 0) status = CAIRO_STATUS_SUCCESS; } } else { /* A mere show_glyphs call. Try show_glyphs backend method first */ if (surface->backend->show_glyphs != NULL) { int remaining_glyphs = num_glyphs; status = surface->backend->show_glyphs (surface, op, source, glyphs, num_glyphs, dev_scaled_font, clip, &remaining_glyphs); glyphs += num_glyphs - remaining_glyphs; num_glyphs = remaining_glyphs; if (status == CAIRO_INT_STATUS_UNSUPPORTED && remaining_glyphs == 0) status = CAIRO_STATUS_SUCCESS; } else if (surface->backend->show_text_glyphs != NULL) { /* Intentionally only try show_text_glyphs method for show_glyphs * calls if backend does not have show_glyphs. If backend has * both methods implemented, we don't fallback from show_glyphs to * show_text_glyphs, and hence the backend can assume in its * show_text_glyphs call that clusters is not NULL (which also * implies that UTF-8 is not NULL, unless the text is * zero-length). */ status = surface->backend->show_text_glyphs (surface, op, source, utf8, utf8_len, glyphs, num_glyphs, clusters, num_clusters, cluster_flags, dev_scaled_font, clip); } } if (status == CAIRO_INT_STATUS_UNSUPPORTED) { status = _cairo_surface_fallback_show_glyphs (surface, op, source, glyphs, num_glyphs, dev_scaled_font, clip); } if (dev_scaled_font != scaled_font) cairo_scaled_font_destroy (dev_scaled_font); surface->is_clear = FALSE; return _cairo_surface_set_error (surface, status); } /* XXX: Previously, we had a function named _cairo_surface_show_glyphs * with not-so-useful semantics. We've now got a * _cairo_surface_show_text_glyphs with the proper semantics, and its * fallback still uses this old function (which still needs to be * cleaned up in terms of both semantics and naming). */ cairo_status_t _cairo_surface_old_show_glyphs (cairo_scaled_font_t *scaled_font, cairo_operator_t op, const cairo_pattern_t *pattern, cairo_surface_t *dst, int source_x, int source_y, int dest_x, int dest_y, unsigned int width, unsigned int height, cairo_glyph_t *glyphs, int num_glyphs, cairo_region_t *clip_region) { cairo_status_t status; if (dst->status) return dst->status; assert (_cairo_surface_is_writable (dst)); if (dst->backend->old_show_glyphs) { status = dst->backend->old_show_glyphs (scaled_font, op, pattern, dst, source_x, source_y, dest_x, dest_y, width, height, glyphs, num_glyphs, clip_region); } else status = CAIRO_INT_STATUS_UNSUPPORTED; return _cairo_surface_set_error (dst, status); } static cairo_status_t _cairo_surface_composite_fixup_unbounded_internal (cairo_surface_t *dst, cairo_rectangle_int_t *src_rectangle, cairo_rectangle_int_t *mask_rectangle, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_region_t *clip_region) { cairo_rectangle_int_t dst_rectangle; cairo_region_t clear_region; cairo_status_t status; /* The area that was drawn is the area in the destination rectangle but * not within the source or the mask. */ dst_rectangle.x = dst_x; dst_rectangle.y = dst_y; dst_rectangle.width = width; dst_rectangle.height = height; _cairo_region_init_rectangle (&clear_region, &dst_rectangle); if (clip_region != NULL) { status = cairo_region_intersect (&clear_region, clip_region); if (unlikely (status)) goto CLEANUP_REGIONS; } if (src_rectangle != NULL) { if (! _cairo_rectangle_intersect (&dst_rectangle, src_rectangle)) goto EMPTY; } if (mask_rectangle != NULL) { if (! _cairo_rectangle_intersect (&dst_rectangle, mask_rectangle)) goto EMPTY; } /* Now compute the area that is in dst but not drawn */ status = cairo_region_subtract_rectangle (&clear_region, &dst_rectangle); if (unlikely (status) || cairo_region_is_empty (&clear_region)) goto CLEANUP_REGIONS; EMPTY: status = _cairo_surface_fill_region (dst, CAIRO_OPERATOR_CLEAR, CAIRO_COLOR_TRANSPARENT, &clear_region); CLEANUP_REGIONS: _cairo_region_fini (&clear_region); return _cairo_surface_set_error (dst, status); } /** * _cairo_surface_composite_fixup_unbounded: * @dst: the destination surface * @src_attr: source surface attributes (from _cairo_pattern_acquire_surface()) * @src_width: width of source surface * @src_height: height of source surface * @mask_attr: mask surface attributes or %NULL if no mask * @mask_width: width of mask surface * @mask_height: height of mask surface * @src_x: @src_x from _cairo_surface_composite() * @src_y: @src_y from _cairo_surface_composite() * @mask_x: @mask_x from _cairo_surface_composite() * @mask_y: @mask_y from _cairo_surface_composite() * @dst_x: @dst_x from _cairo_surface_composite() * @dst_y: @dst_y from _cairo_surface_composite() * @width: @width from _cairo_surface_composite() * @height: @height_x from _cairo_surface_composite() * * Eeek! Too many parameters! This is a helper function to take care of fixing * up for bugs in libpixman and RENDER where, when asked to composite an * untransformed surface with an unbounded operator (like CLEAR or SOURCE) * only the region inside both the source and the mask is affected. * This function clears the region that should have been drawn but was wasn't. **/ cairo_status_t _cairo_surface_composite_fixup_unbounded (cairo_surface_t *dst, cairo_surface_attributes_t *src_attr, int src_width, int src_height, cairo_surface_attributes_t *mask_attr, int mask_width, int mask_height, int src_x, int src_y, int mask_x, int mask_y, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_region_t *clip_region) { cairo_rectangle_int_t src_tmp, mask_tmp; cairo_rectangle_int_t *src_rectangle = NULL; cairo_rectangle_int_t *mask_rectangle = NULL; if (unlikely (dst->status)) return dst->status; assert (_cairo_surface_is_writable (dst)); /* The RENDER/libpixman operators are clipped to the bounds of the untransformed, * non-repeating sources and masks. Other sources and masks can be ignored. */ if (_cairo_matrix_is_integer_translation (&src_attr->matrix, NULL, NULL) && src_attr->extend == CAIRO_EXTEND_NONE) { src_tmp.x = (dst_x - (src_x + src_attr->x_offset)); src_tmp.y = (dst_y - (src_y + src_attr->y_offset)); src_tmp.width = src_width; src_tmp.height = src_height; src_rectangle = &src_tmp; } if (mask_attr && _cairo_matrix_is_integer_translation (&mask_attr->matrix, NULL, NULL) && mask_attr->extend == CAIRO_EXTEND_NONE) { mask_tmp.x = (dst_x - (mask_x + mask_attr->x_offset)); mask_tmp.y = (dst_y - (mask_y + mask_attr->y_offset)); mask_tmp.width = mask_width; mask_tmp.height = mask_height; mask_rectangle = &mask_tmp; } return _cairo_surface_composite_fixup_unbounded_internal (dst, src_rectangle, mask_rectangle, dst_x, dst_y, width, height, clip_region); } /** * _cairo_surface_composite_shape_fixup_unbounded: * @dst: the destination surface * @src_attr: source surface attributes (from _cairo_pattern_acquire_surface()) * @src_width: width of source surface * @src_height: height of source surface * @mask_width: width of mask surface * @mask_height: height of mask surface * @src_x: @src_x from _cairo_surface_composite() * @src_y: @src_y from _cairo_surface_composite() * @mask_x: @mask_x from _cairo_surface_composite() * @mask_y: @mask_y from _cairo_surface_composite() * @dst_x: @dst_x from _cairo_surface_composite() * @dst_y: @dst_y from _cairo_surface_composite() * @width: @width from _cairo_surface_composite() * @height: @height_x from _cairo_surface_composite() * * Like _cairo_surface_composite_fixup_unbounded(), but instead of * handling the case where we have a source pattern and a mask * pattern, handle the case where we are compositing a source pattern * using a mask we create ourselves, as in * _cairo_surface_composite_glyphs() or _cairo_surface_composite_trapezoids() **/ cairo_status_t _cairo_surface_composite_shape_fixup_unbounded (cairo_surface_t *dst, cairo_surface_attributes_t *src_attr, int src_width, int src_height, int mask_width, int mask_height, int src_x, int src_y, int mask_x, int mask_y, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_region_t *clip_region) { cairo_rectangle_int_t src_tmp, *src= NULL; cairo_rectangle_int_t mask; if (dst->status) return dst->status; assert (_cairo_surface_is_writable (dst)); /* The RENDER/libpixman operators are clipped to the bounds of the untransformed, * non-repeating sources and masks. Other sources and masks can be ignored. */ if (_cairo_matrix_is_integer_translation (&src_attr->matrix, NULL, NULL) && src_attr->extend == CAIRO_EXTEND_NONE) { src_tmp.x = (dst_x - (src_x + src_attr->x_offset)); src_tmp.y = (dst_y - (src_y + src_attr->y_offset)); src_tmp.width = src_width; src_tmp.height = src_height; src = &src_tmp; } mask.x = dst_x - mask_x; mask.y = dst_y - mask_y; mask.width = mask_width; mask.height = mask_height; return _cairo_surface_composite_fixup_unbounded_internal (dst, src, &mask, dst_x, dst_y, width, height, clip_region); } /** * _cairo_surface_set_resolution * @surface: the surface * @x_res: x resolution, in dpi * @y_res: y resolution, in dpi * * Set the actual surface resolution of @surface to the given x and y DPI. * Mainly used for correctly computing the scale factor when fallback * rendering needs to take place in the paginated surface. */ void _cairo_surface_set_resolution (cairo_surface_t *surface, double x_res, double y_res) { if (surface->status) return; surface->x_resolution = x_res; surface->y_resolution = y_res; } /* Generic methods for determining operation extents. */ static void _rectangle_intersect_clip (cairo_rectangle_int_t *extents, cairo_clip_t *clip) { const cairo_rectangle_int_t *clip_extents; cairo_bool_t is_empty; clip_extents = NULL; if (clip != NULL) clip_extents = _cairo_clip_get_extents (clip); if (clip_extents != NULL) is_empty = _cairo_rectangle_intersect (extents, clip_extents); } static void _cairo_surface_operation_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { cairo_bool_t is_empty; is_empty = _cairo_surface_get_extents (surface, extents); if (_cairo_operator_bounded_by_source (op)) { cairo_rectangle_int_t source_extents; _cairo_pattern_get_extents (source, &source_extents); is_empty = _cairo_rectangle_intersect (extents, &source_extents); } _rectangle_intersect_clip (extents, clip); } cairo_status_t _cairo_surface_paint_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { _cairo_surface_operation_extents (surface, op, source, clip, extents); return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_surface_mask_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, const cairo_pattern_t *mask, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { cairo_bool_t is_empty; _cairo_surface_operation_extents (surface, op, source, clip, extents); if (_cairo_operator_bounded_by_mask (op)) { cairo_rectangle_int_t mask_extents; _cairo_pattern_get_extents (mask, &mask_extents); is_empty = _cairo_rectangle_intersect (extents, &mask_extents); } return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_surface_stroke_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, 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, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { cairo_status_t status; cairo_bool_t is_empty; _cairo_surface_operation_extents (surface, op, source, clip, extents); if (_cairo_operator_bounded_by_mask (op)) { cairo_rectangle_int_t mask_extents; status = _cairo_path_fixed_stroke_extents (path, style, ctm, ctm_inverse, tolerance, &mask_extents); if (unlikely (status)) return status; is_empty = _cairo_rectangle_intersect (extents, &mask_extents); } return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_surface_fill_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_path_fixed_t *path, cairo_fill_rule_t fill_rule, double tolerance, cairo_antialias_t antialias, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { cairo_bool_t is_empty; _cairo_surface_operation_extents (surface, op, source, clip, extents); if (_cairo_operator_bounded_by_mask (op)) { cairo_rectangle_int_t mask_extents; _cairo_path_fixed_fill_extents (path, fill_rule, tolerance, &mask_extents); is_empty = _cairo_rectangle_intersect (extents, &mask_extents); } return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_surface_glyphs_extents (cairo_surface_t *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, cairo_clip_t *clip, cairo_rectangle_int_t *extents) { cairo_status_t status; cairo_bool_t is_empty; _cairo_surface_operation_extents (surface, op, source, clip, extents); if (_cairo_operator_bounded_by_mask (op)) { cairo_rectangle_int_t glyph_extents; status = _cairo_scaled_font_glyph_device_extents (scaled_font, glyphs, num_glyphs, &glyph_extents, NULL); if (unlikely (status)) return status; is_empty = _cairo_rectangle_intersect (extents, &glyph_extents); } return CAIRO_STATUS_SUCCESS; } cairo_surface_t * _cairo_surface_create_in_error (cairo_status_t status) { switch (status) { case CAIRO_STATUS_NO_MEMORY: return (cairo_surface_t *) &_cairo_surface_nil; case CAIRO_STATUS_SURFACE_TYPE_MISMATCH: return (cairo_surface_t *) &_cairo_surface_nil_surface_type_mismatch; case CAIRO_STATUS_INVALID_STATUS: return (cairo_surface_t *) &_cairo_surface_nil_invalid_status; case CAIRO_STATUS_INVALID_CONTENT: return (cairo_surface_t *) &_cairo_surface_nil_invalid_content; case CAIRO_STATUS_INVALID_FORMAT: return (cairo_surface_t *) &_cairo_surface_nil_invalid_format; case CAIRO_STATUS_INVALID_VISUAL: return (cairo_surface_t *) &_cairo_surface_nil_invalid_visual; case CAIRO_STATUS_READ_ERROR: return (cairo_surface_t *) &_cairo_surface_nil_read_error; case CAIRO_STATUS_WRITE_ERROR: return (cairo_surface_t *) &_cairo_surface_nil_write_error; case CAIRO_STATUS_FILE_NOT_FOUND: return (cairo_surface_t *) &_cairo_surface_nil_file_not_found; case CAIRO_STATUS_TEMP_FILE_ERROR: return (cairo_surface_t *) &_cairo_surface_nil_temp_file_error; case CAIRO_STATUS_INVALID_STRIDE: return (cairo_surface_t *) &_cairo_surface_nil_invalid_stride; case CAIRO_STATUS_INVALID_SIZE: return (cairo_surface_t *) &_cairo_surface_nil_invalid_size; case CAIRO_STATUS_DEVICE_TYPE_MISMATCH: return (cairo_surface_t *) &_cairo_surface_nil_device_type_mismatch; case CAIRO_STATUS_DEVICE_ERROR: return (cairo_surface_t *) &_cairo_surface_nil_device_error; case CAIRO_STATUS_SUCCESS: case CAIRO_STATUS_LAST_STATUS: ASSERT_NOT_REACHED; /* fall-through */ case CAIRO_STATUS_INVALID_RESTORE: case CAIRO_STATUS_INVALID_POP_GROUP: case CAIRO_STATUS_NO_CURRENT_POINT: case CAIRO_STATUS_INVALID_MATRIX: case CAIRO_STATUS_NULL_POINTER: case CAIRO_STATUS_INVALID_STRING: case CAIRO_STATUS_INVALID_PATH_DATA: case CAIRO_STATUS_SURFACE_FINISHED: case CAIRO_STATUS_PATTERN_TYPE_MISMATCH: case CAIRO_STATUS_INVALID_DASH: case CAIRO_STATUS_INVALID_DSC_COMMENT: case CAIRO_STATUS_INVALID_INDEX: case CAIRO_STATUS_CLIP_NOT_REPRESENTABLE: case CAIRO_STATUS_FONT_TYPE_MISMATCH: case CAIRO_STATUS_USER_FONT_IMMUTABLE: case CAIRO_STATUS_USER_FONT_ERROR: case CAIRO_STATUS_NEGATIVE_COUNT: case CAIRO_STATUS_INVALID_CLUSTERS: case CAIRO_STATUS_INVALID_SLANT: case CAIRO_STATUS_INVALID_WEIGHT: case CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED: default: _cairo_error_throw (CAIRO_STATUS_NO_MEMORY); return (cairo_surface_t *) &_cairo_surface_nil; } } /* LocalWords: rasterized */