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|
/* cairo - a vector graphics library with display and print output
*
* Copyright © 2002 University of Southern California
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 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 <cworth@cworth.org>
*/
#include <stdlib.h>
#include "cairoint.h"
typedef struct {
const cairo_user_data_key_t *key;
void *user_data;
cairo_destroy_func_t destroy;
} cairo_user_data_slot_t;
void
_cairo_surface_init (cairo_surface_t *surface,
const cairo_surface_backend_t *backend)
{
surface->backend = backend;
surface->ref_count = 1;
surface->finished = FALSE;
_cairo_array_init (&surface->user_data_slots,
sizeof (cairo_user_data_slot_t));
_cairo_matrix_init (&surface->matrix);
surface->filter = CAIRO_FILTER_NEAREST;
surface->repeat = 0;
surface->device_x_offset = 0;
surface->device_y_offset = 0;
}
cairo_surface_t *
_cairo_surface_create_similar_scratch (cairo_surface_t *other,
cairo_format_t format,
int drawable,
int width,
int height)
{
if (other == NULL)
return NULL;
return other->backend->create_similar (other, format, drawable,
width, height);
}
cairo_surface_t *
cairo_surface_create_similar (cairo_surface_t *other,
cairo_format_t format,
int width,
int height)
{
cairo_color_t empty;
if (other == NULL)
return NULL;
_cairo_color_init (&empty);
_cairo_color_set_rgb (&empty, 0., 0., 0.);
_cairo_color_set_alpha (&empty, 0.);
return _cairo_surface_create_similar_solid (other, format, width, height, &empty);
}
cairo_surface_t *
_cairo_surface_create_similar_solid (cairo_surface_t *other,
cairo_format_t format,
int width,
int height,
cairo_color_t *color)
{
cairo_status_t status;
cairo_surface_t *surface;
surface = _cairo_surface_create_similar_scratch (other, format, 1,
width, height);
if (surface == NULL)
surface = cairo_image_surface_create (format, width, height);
status = _cairo_surface_fill_rectangle (surface,
CAIRO_OPERATOR_SRC, color,
0, 0, width, height);
if (status) {
cairo_surface_destroy (surface);
return NULL;
}
return surface;
}
void
cairo_surface_reference (cairo_surface_t *surface)
{
if (surface == NULL)
return;
surface->ref_count++;
}
static void
_destroy_user_data (cairo_surface_t *surface)
{
int i, num_slots;
cairo_user_data_slot_t *slots;
num_slots = surface->user_data_slots.num_elements;
slots = (cairo_user_data_slot_t *) surface->user_data_slots.elements;
for (i = 0; i < num_slots; i++) {
if (slots[i].user_data != NULL && slots[i].destroy != NULL)
slots[i].destroy (slots[i].user_data);
}
_cairo_array_fini (&surface->user_data_slots);
}
void
cairo_surface_destroy (cairo_surface_t *surface)
{
if (surface == NULL)
return;
surface->ref_count--;
if (surface->ref_count)
return;
cairo_surface_finish (surface);
_destroy_user_data (surface);
free (surface);
}
slim_hidden_def(cairo_surface_destroy);
/**
* 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 data and referencing and
* destroying it. Further drawing the the surface will not affect the
* surface but set the surface status to
* CAIRO_STATUS_SURFACE_FINISHED.
*
* 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.
*
* Return value: CAIRO_STATUS_SUCCESS if the surface was finished
* successfully, otherwise CAIRO_STATUS_NO_MEMORY or
* CAIRO_STATUS_WRITE_ERROR.
**/
cairo_status_t
cairo_surface_finish (cairo_surface_t *surface)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (surface->backend->finish)
return surface->backend->finish (surface);
return CAIRO_STATUS_SUCCESS;
}
/**
* 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)
{
int i, num_slots;
cairo_user_data_slot_t *slots;
num_slots = surface->user_data_slots.num_elements;
slots = (cairo_user_data_slot_t *) surface->user_data_slots.elements;
for (i = 0; i < num_slots; i++) {
if (slots[i].key == key)
return slots[i].user_data;
}
return NULL;
}
/**
* 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)
{
int i, num_slots;
cairo_user_data_slot_t *slots, *s;
s = NULL;
num_slots = surface->user_data_slots.num_elements;
slots = (cairo_user_data_slot_t *) surface->user_data_slots.elements;
for (i = 0; i < num_slots; i++) {
if (slots[i].key == key) {
if (slots[i].user_data != NULL && slots[i].destroy != NULL)
slots[i].destroy (slots[i].user_data);
s = &slots[i];
break;
}
if (slots[i].user_data == NULL) {
s = &slots[i];
break;
}
}
if (s == NULL)
s = _cairo_array_append (&surface->user_data_slots, NULL, 1);
if (s == NULL)
return CAIRO_STATUS_NO_MEMORY;
s->key = key;
s->user_data = user_data;
s->destroy = destroy;
return 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_inverse_transform_point() will expose the hidden offset.
*
* Note that the offset only affects drawing to the surface, not using
* the surface in a surface pattern.
**/
void
cairo_surface_set_device_offset (cairo_surface_t *surface,
double x_offset,
double y_offset)
{
surface->device_x_offset = x_offset;
surface->device_y_offset = y_offset;
}
double
_cairo_surface_pixels_per_inch (cairo_surface_t *surface)
{
return surface->backend->pixels_per_inch (surface);
}
/**
* _cairo_surface_acquire_source_image:
* @surface: a #cairo_surface_t
* @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.
* @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 a 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_private cairo_status_t
_cairo_surface_acquire_source_image (cairo_surface_t *surface,
cairo_image_surface_t **image_out,
void **image_extra)
{
assert (!surface->finished);
return surface->backend->acquire_source_image (surface, image_out, image_extra);
}
/**
* _cairo_surface_release_source_image:
* @surface: a #cairo_surface_t
* @image_extra: same as return from the matching _cairo_surface_acquire_dest_image()
*
* Releases any resources obtained with _cairo_surface_acquire_source_image()
**/
cairo_private void
_cairo_surface_release_source_image (cairo_surface_t *surface,
cairo_image_surface_t *image,
void *image_extra)
{
assert (!surface->finished);
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.
* @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.
* @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_fallback(),
* 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_fallback() should not be called in that
* case.
**/
cairo_status_t
_cairo_surface_acquire_dest_image (cairo_surface_t *surface,
cairo_rectangle_t *interest_rect,
cairo_image_surface_t **image_out,
cairo_rectangle_t *image_rect,
void **image_extra)
{
assert (!surface->finished);
return surface->backend->acquire_dest_image (surface, interest_rect,
image_out, image_rect, image_extra);
}
/**
* _cairo_surface_end_fallback:
* @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_t *interest_rect,
cairo_image_surface_t *image,
cairo_rectangle_t *image_rect,
void *image_extra)
{
assert (!surface->finished);
surface->backend->release_dest_image (surface, interest_rect,
image, image_rect, image_extra);
}
/**
* _cairo_surface_clone_similar:
* @surface: a #cairo_surface_t
* @src: the source image
* @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,
cairo_surface_t **clone_out)
{
cairo_status_t status;
cairo_image_surface_t *image;
void *image_extra;
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
status = surface->backend->clone_similar (surface, src, clone_out);
if (status != CAIRO_INT_STATUS_UNSUPPORTED)
return status;
status = _cairo_surface_acquire_source_image (src, &image, &image_extra);
if (status != CAIRO_STATUS_SUCCESS)
return status;
status = surface->backend->clone_similar (surface, &image->base, clone_out);
/* If the above failed point, we could implement a full fallback
* using acquire_dest_image, but that's going to be very
* inefficient compared to a backend-specific implementation of
* clone_similar() with an image source. So we don't bother
*/
_cairo_surface_release_source_image (src, image, image_extra);
return status;
}
cairo_status_t
cairo_surface_set_matrix (cairo_surface_t *surface, cairo_matrix_t *matrix)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (surface == NULL)
return CAIRO_STATUS_NULL_POINTER;
return cairo_matrix_copy (&surface->matrix, matrix);
}
slim_hidden_def(cairo_surface_set_matrix);
cairo_status_t
cairo_surface_get_matrix (cairo_surface_t *surface, cairo_matrix_t *matrix)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (surface == NULL)
return CAIRO_STATUS_NULL_POINTER;
return cairo_matrix_copy (matrix, &surface->matrix);
}
slim_hidden_def(cairo_surface_get_matrix);
cairo_status_t
cairo_surface_set_filter (cairo_surface_t *surface, cairo_filter_t filter)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (surface == NULL)
return CAIRO_STATUS_NULL_POINTER;
surface->filter = filter;
return CAIRO_STATUS_SUCCESS;
}
cairo_filter_t
cairo_surface_get_filter (cairo_surface_t *surface)
{
return surface->filter;
}
/* XXX: NYI
cairo_status_t
cairo_surface_clip_rectangle (cairo_surface_t *surface,
int x, int y,
int width, int height)
{
}
*/
/* XXX: NYI
cairo_status_t
cairo_surface_clip_restore (cairo_surface_t *surface);
*/
cairo_status_t
cairo_surface_set_repeat (cairo_surface_t *surface, int repeat)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (surface == NULL)
return CAIRO_STATUS_NULL_POINTER;
surface->repeat = repeat;
return CAIRO_STATUS_SUCCESS;
}
slim_hidden_def(cairo_surface_set_repeat);
typedef struct {
cairo_surface_t *dst;
cairo_rectangle_t extents;
cairo_image_surface_t *image;
cairo_rectangle_t image_rect;
void *image_extra;
} fallback_state_t;
static cairo_status_t
_fallback_init (fallback_state_t *state,
cairo_surface_t *dst,
int x,
int y,
int width,
int height)
{
state->extents.x = x;
state->extents.y = y;
state->extents.width = width;
state->extents.height = height;
state->dst = dst;
return _cairo_surface_acquire_dest_image (dst, &state->extents,
&state->image, &state->image_rect, &state->image_extra);
}
static void
_fallback_cleanup (fallback_state_t *state)
{
_cairo_surface_release_dest_image (state->dst, &state->extents,
state->image, &state->image_rect, state->image_extra);
}
static cairo_status_t
_fallback_composite (cairo_operator_t operator,
cairo_pattern_t *src,
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)
{
fallback_state_t state;
cairo_status_t status;
status = _fallback_init (&state, dst, dst_x, dst_y, width, height);
if (!CAIRO_OK (status) || !state.image)
return status;
state.image->base.backend->composite (operator, src, mask,
&state.image->base,
src_x, src_y, mask_x, mask_y,
dst_x - state.image_rect.x,
dst_y - state.image_rect.y,
width, height);
_fallback_cleanup (&state);
return status;
}
cairo_status_t
_cairo_surface_composite (cairo_operator_t operator,
cairo_pattern_t *src,
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_int_status_t status;
if (dst->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
status = dst->backend->composite (operator,
src, mask, dst,
src_x, src_y,
mask_x, mask_y,
dst_x, dst_y,
width, height);
if (status != CAIRO_INT_STATUS_UNSUPPORTED)
return status;
return _fallback_composite (operator,
src, mask, dst,
src_x, src_y,
mask_x, mask_y,
dst_x, dst_y,
width, height);
}
cairo_status_t
_cairo_surface_fill_rectangle (cairo_surface_t *surface,
cairo_operator_t operator,
cairo_color_t *color,
int x,
int y,
int width,
int height)
{
cairo_rectangle_t rect;
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
rect.x = x;
rect.y = y;
rect.width = width;
rect.height = height;
return _cairo_surface_fill_rectangles (surface, operator, color, &rect, 1);
}
static cairo_status_t
_fallback_fill_rectangles (cairo_surface_t *surface,
cairo_operator_t operator,
const cairo_color_t *color,
cairo_rectangle_t *rects,
int num_rects)
{
fallback_state_t state;
cairo_rectangle_t *offset_rects = NULL;
cairo_status_t status;
int x1, y1, x2, y2;
int i;
if (num_rects <= 0)
return CAIRO_STATUS_SUCCESS;
/* Compute the bounds of the rectangles, so that we know what area of the
* destination surface to fetch
*/
x1 = rects[0].x;
y1 = rects[0].y;
x2 = rects[0].x + rects[0].width;
y2 = rects[0].y + rects[0].height;
for (i = 1; i < num_rects; i++) {
if (rects[0].x < x1)
x1 = rects[0].x;
if (rects[0].y < y1)
y1 = rects[0].y;
if (rects[0].x + rects[0].width > x2)
x2 = rects[0].x + rects[0].width;
if (rects[0].y + rects[0].height > y2)
y2 = rects[0].y + rects[0].height;
}
status = _fallback_init (&state, surface, x1, y1, x2 - x1, y2 - y1);
if (!CAIRO_OK (status) || !state.image)
return status;
/* If the fetched image isn't at 0,0, we need to offset the rectangles */
if (state.image_rect.x != 0 || state.image_rect.y != 0) {
offset_rects = malloc (sizeof (cairo_rectangle_t) * num_rects);
if (!offset_rects) {
status = CAIRO_STATUS_NO_MEMORY;
goto FAIL;
}
for (i = 0; i < num_rects; i++) {
offset_rects[i].x = rects[i].x - state.image_rect.x;
offset_rects[i].y = rects[i].y - state.image_rect.y;
offset_rects[i].width = rects[i].width;
offset_rects[i].height = rects[i].height;
}
rects = offset_rects;
}
state.image->base.backend->fill_rectangles (&state.image->base, operator, color,
rects, num_rects);
if (offset_rects)
free (offset_rects);
FAIL:
_fallback_cleanup (&state);
return status;
}
cairo_status_t
_cairo_surface_fill_rectangles (cairo_surface_t *surface,
cairo_operator_t operator,
const cairo_color_t *color,
cairo_rectangle_t *rects,
int num_rects)
{
cairo_int_status_t status;
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (num_rects == 0)
return CAIRO_STATUS_SUCCESS;
status = surface->backend->fill_rectangles (surface,
operator,
color,
rects, num_rects);
if (status != CAIRO_INT_STATUS_UNSUPPORTED)
return status;
return _fallback_fill_rectangles (surface, operator, color, rects, num_rects);
}
static cairo_status_t
_fallback_composite_trapezoids (cairo_operator_t operator,
cairo_pattern_t *pattern,
cairo_surface_t *dst,
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)
{
fallback_state_t state;
cairo_trapezoid_t *offset_traps = NULL;
cairo_status_t status;
int i;
status = _fallback_init (&state, dst, dst_x, dst_y, width, height);
if (!CAIRO_OK (status) || !state.image)
return status;
/* If the destination image isn't at 0,0, we need to offset the trapezoids */
if (state.image_rect.x != 0 || state.image_rect.y != 0) {
cairo_fixed_t xoff = _cairo_fixed_from_int (state.image_rect.x);
cairo_fixed_t yoff = _cairo_fixed_from_int (state.image_rect.y);
offset_traps = malloc (sizeof (cairo_trapezoid_t) * num_traps);
if (!offset_traps) {
status = CAIRO_STATUS_NO_MEMORY;
goto FAIL;
}
for (i = 0; i < num_traps; i++) {
offset_traps[i].top = traps[i].top - yoff;
offset_traps[i].bottom = traps[i].bottom - yoff;
offset_traps[i].left.p1.x = traps[i].left.p1.x - xoff;
offset_traps[i].left.p1.y = traps[i].left.p1.y - yoff;
offset_traps[i].left.p2.x = traps[i].left.p2.x - xoff;
offset_traps[i].left.p2.y = traps[i].left.p2.y - yoff;
offset_traps[i].right.p1.x = traps[i].right.p1.x - xoff;
offset_traps[i].right.p1.y = traps[i].right.p1.y - yoff;
offset_traps[i].right.p2.x = traps[i].right.p2.x - xoff;
offset_traps[i].right.p2.y = traps[i].right.p2.y - yoff;
}
traps = offset_traps;
}
state.image->base.backend->composite_trapezoids (operator, pattern,
&state.image->base,
src_x, src_y,
dst_x - state.image_rect.x,
dst_y - state.image_rect.y,
width, height, traps, num_traps);
if (offset_traps)
free (offset_traps);
FAIL:
_fallback_cleanup (&state);
return status;
}
cairo_status_t
_cairo_surface_composite_trapezoids (cairo_operator_t operator,
cairo_pattern_t *pattern,
cairo_surface_t *dst,
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_int_status_t status;
if (dst->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
status = dst->backend->composite_trapezoids (operator,
pattern, dst,
src_x, src_y,
dst_x, dst_y,
width, height,
traps, num_traps);
if (status != CAIRO_INT_STATUS_UNSUPPORTED)
return status;
return _fallback_composite_trapezoids (operator, pattern, dst,
src_x, src_y,
dst_x, dst_y,
width, height,
traps, num_traps);
}
cairo_status_t
_cairo_surface_copy_page (cairo_surface_t *surface)
{
cairo_int_status_t status;
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
status = surface->backend->copy_page (surface);
/* It's fine if some backends just don't support this. */
if (status == CAIRO_INT_STATUS_UNSUPPORTED)
return CAIRO_STATUS_SUCCESS;
if (status)
return status;
return CAIRO_STATUS_SUCCESS;
}
cairo_status_t
_cairo_surface_show_page (cairo_surface_t *surface)
{
cairo_int_status_t status;
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
status = surface->backend->show_page (surface);
/* It's fine if some backends just don't support this. */
if (status == CAIRO_INT_STATUS_UNSUPPORTED)
return CAIRO_STATUS_SUCCESS;
if (status)
return status;
return CAIRO_STATUS_SUCCESS;
}
cairo_status_t
_cairo_surface_set_clip_region (cairo_surface_t *surface, pixman_region16_t *region)
{
if (surface->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
return surface->backend->set_clip_region (surface, region);
}
cairo_status_t
_cairo_surface_show_glyphs (cairo_font_t *font,
cairo_operator_t operator,
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,
const cairo_glyph_t *glyphs,
int num_glyphs)
{
cairo_status_t status;
if (dst->finished)
return CAIRO_STATUS_SURFACE_FINISHED;
if (dst->backend->show_glyphs != NULL)
status = dst->backend->show_glyphs (font, operator, pattern, dst,
source_x, source_y,
dest_x, dest_y,
width, height,
glyphs, num_glyphs);
else
status = CAIRO_INT_STATUS_UNSUPPORTED;
return status;
}
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