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cairo/src/cairo-xlib-surface.c
Søren Sandmann 1cca5a1348 [region] Remove underscores from _cairo_region_*
2009-03-28 18:02:07 -04:00

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/* -*- Mode: c; c-basic-offset: 4; indent-tabs-mode: t; tab-width: 8; -*- */
/* 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., 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>
* Behdad Esfahbod <behdad@behdad.org>
* Chris Wilson <chris@chris-wilson.co.uk>
* Karl Tomlinson <karlt+@karlt.net>, Mozilla Corporation
*/
#include "cairoint.h"
#include "cairo-xlib-private.h"
#include "cairo-xlib-surface-private.h"
#include "cairo-clip-private.h"
#include "cairo-scaled-font-private.h"
#include <X11/Xutil.h> /* for XDestroyImage */
#define XLIB_COORD_MAX 32767
/* Xlib doesn't define a typedef, so define one ourselves */
typedef int (*cairo_xlib_error_func_t) (Display *display,
XErrorEvent *event);
static cairo_surface_t *
_cairo_xlib_surface_create_internal (Display *dpy,
Drawable drawable,
Screen *screen,
Visual *visual,
XRenderPictFormat *xrender_format,
int width,
int height,
int depth);
static cairo_status_t
_cairo_xlib_surface_ensure_gc (cairo_xlib_surface_t *surface);
static void
_cairo_xlib_surface_ensure_src_picture (cairo_xlib_surface_t *surface);
static void
_cairo_xlib_surface_ensure_dst_picture (cairo_xlib_surface_t *surface);
static cairo_bool_t
_cairo_surface_is_xlib (cairo_surface_t *surface);
static cairo_bool_t
_native_byte_order_lsb (void);
static cairo_int_status_t
_cairo_xlib_surface_show_glyphs (void *abstract_dst,
cairo_operator_t op,
const cairo_pattern_t *src_pattern,
cairo_glyph_t *glyphs,
int num_glyphs,
cairo_scaled_font_t *scaled_font,
int *remaining_glyphs,
cairo_rectangle_int_t *extents);
/*
* Instead of taking two round trips for each blending request,
* assume that if a particular drawable fails GetImage that it will
* fail for a "while"; use temporary pixmaps to avoid the errors
*/
#define CAIRO_ASSUME_PIXMAP 20
static const XTransform identity = { {
{ 1 << 16, 0x00000, 0x00000 },
{ 0x00000, 1 << 16, 0x00000 },
{ 0x00000, 0x00000, 1 << 16 },
} };
#define CAIRO_SURFACE_RENDER_AT_LEAST(surface, major, minor) \
(((surface)->render_major > major) || \
(((surface)->render_major == major) && ((surface)->render_minor >= minor)))
#define CAIRO_SURFACE_RENDER_HAS_CREATE_PICTURE(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 0)
#define CAIRO_SURFACE_RENDER_HAS_COMPOSITE(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 0)
#define CAIRO_SURFACE_RENDER_HAS_COMPOSITE_TEXT(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 0)
#define CAIRO_SURFACE_RENDER_HAS_FILL_RECTANGLES(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 1)
#define CAIRO_SURFACE_RENDER_HAS_DISJOINT(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 2)
#define CAIRO_SURFACE_RENDER_HAS_CONJOINT(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 2)
#define CAIRO_SURFACE_RENDER_HAS_TRAPEZOIDS(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 4)
#define CAIRO_SURFACE_RENDER_HAS_TRIANGLES(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 4)
#define CAIRO_SURFACE_RENDER_HAS_TRISTRIP(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 4)
#define CAIRO_SURFACE_RENDER_HAS_TRIFAN(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 4)
#define CAIRO_SURFACE_RENDER_HAS_PICTURE_TRANSFORM(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 6)
#define CAIRO_SURFACE_RENDER_HAS_FILTERS(surface) CAIRO_SURFACE_RENDER_AT_LEAST((surface), 0, 6)
static cairo_surface_t *
_cairo_xlib_surface_create_similar_with_format (void *abstract_src,
cairo_format_t format,
int width,
int height)
{
cairo_xlib_surface_t *src = abstract_src;
Display *dpy = src->dpy;
Pixmap pix;
cairo_xlib_surface_t *surface;
XRenderPictFormat *xrender_format;
assert (width <= XLIB_COORD_MAX && height <= XLIB_COORD_MAX);
/* As a good first approximation, if the display doesn't have even
* the most elementary RENDER operation, then we're better off
* using image surfaces for all temporary operations, so return NULL
* and let the fallback code happen.
*/
if (! CAIRO_SURFACE_RENDER_HAS_COMPOSITE (src))
return NULL;
xrender_format = _cairo_xlib_display_get_xrender_format (src->display,
format);
if (xrender_format == NULL)
return NULL;
pix = XCreatePixmap (dpy, src->drawable,
width <= 0 ? 1 : width, height <= 0 ? 1 : height,
xrender_format->depth);
surface = (cairo_xlib_surface_t *)
_cairo_xlib_surface_create_internal (dpy, pix,
src->screen, NULL,
xrender_format,
width, height,
xrender_format->depth);
if (surface->base.status) {
XFreePixmap (dpy, pix);
return &surface->base;
}
surface->owns_pixmap = TRUE;
return &surface->base;
}
static cairo_content_t
_xrender_format_to_content (XRenderPictFormat *xrender_format)
{
cairo_bool_t xrender_format_has_alpha;
cairo_bool_t xrender_format_has_color;
/* This only happens when using a non-Render server. Let's punt
* and say there's no alpha here. */
if (xrender_format == NULL)
return CAIRO_CONTENT_COLOR;
xrender_format_has_alpha = (xrender_format->direct.alphaMask != 0);
xrender_format_has_color = (xrender_format->direct.redMask != 0 ||
xrender_format->direct.greenMask != 0 ||
xrender_format->direct.blueMask != 0);
if (xrender_format_has_alpha)
if (xrender_format_has_color)
return CAIRO_CONTENT_COLOR_ALPHA;
else
return CAIRO_CONTENT_ALPHA;
else
return CAIRO_CONTENT_COLOR;
}
static cairo_surface_t *
_cairo_xlib_surface_create_similar (void *abstract_src,
cairo_content_t content,
int width,
int height)
{
cairo_xlib_surface_t *src = abstract_src;
XRenderPictFormat *xrender_format = src->xrender_format;
cairo_xlib_surface_t *surface;
Pixmap pix;
if (width > XLIB_COORD_MAX || height > XLIB_COORD_MAX)
return _cairo_surface_create_in_error (_cairo_error(CAIRO_STATUS_INVALID_SIZE));
_cairo_xlib_display_notify (src->display);
/* Start by examining the surface's XRenderFormat, or if it
* doesn't have one, then look one up through its visual (in the
* case of a bitmap, it won't even have that). */
if (xrender_format == NULL && src->visual != NULL)
xrender_format = XRenderFindVisualFormat (src->dpy, src->visual);
/* If we never found an XRenderFormat or if it isn't compatible
* with the content being requested, then we fallback to just
* constructing a cairo_format_t instead, (which will fairly
* arbitrarily pick a visual/depth for the similar surface.
*/
if (xrender_format == NULL ||
_xrender_format_to_content (xrender_format) != content)
{
return _cairo_xlib_surface_create_similar_with_format (abstract_src,
_cairo_format_from_content (content),
width, height);
}
/* We've got a compatible XRenderFormat now, which means the
* similar surface will match the existing surface as closely in
* visual/depth etc. as possible. */
pix = XCreatePixmap (src->dpy, src->drawable,
width <= 0 ? 1 : width, height <= 0 ? 1 : height,
xrender_format->depth);
surface = (cairo_xlib_surface_t *)
_cairo_xlib_surface_create_internal (src->dpy, pix,
src->screen, src->visual,
xrender_format,
width, height,
xrender_format->depth);
if (surface->base.status != CAIRO_STATUS_SUCCESS) {
XFreePixmap (src->dpy, pix);
return &surface->base;
}
surface->owns_pixmap = TRUE;
return &surface->base;
}
static cairo_status_t
_cairo_xlib_surface_finish (void *abstract_surface)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_xlib_display_t *display = surface->display;
cairo_status_t status = CAIRO_STATUS_SUCCESS;
if (surface->owns_pixmap) {
cairo_status_t status2;
if (surface->dst_picture != None) {
status2 = _cairo_xlib_display_queue_resource (display,
XRenderFreePicture,
surface->dst_picture);
if (status2 == CAIRO_STATUS_SUCCESS)
surface->dst_picture = None;
else if (status == CAIRO_STATUS_SUCCESS)
status = status2;
}
if (surface->src_picture != None) {
status2 = _cairo_xlib_display_queue_resource (display,
XRenderFreePicture,
surface->src_picture);
if (status2 == CAIRO_STATUS_SUCCESS)
surface->src_picture = None;
else if (status == CAIRO_STATUS_SUCCESS)
status = status2;
}
status2 = _cairo_xlib_display_queue_resource (display,
(cairo_xlib_notify_resource_func) XFreePixmap,
surface->drawable);
if (status2 == CAIRO_STATUS_SUCCESS) {
surface->owns_pixmap = FALSE;
surface->drawable = None;
} else if (status == CAIRO_STATUS_SUCCESS)
status = status2;
} else {
if (surface->dst_picture != None)
XRenderFreePicture (surface->dpy, surface->dst_picture);
if (surface->src_picture != None)
XRenderFreePicture (surface->dpy, surface->src_picture);
}
if (surface->gc != NULL) {
cairo_status_t status2;
status2 = _cairo_xlib_screen_put_gc (surface->screen_info,
surface->depth,
surface->gc,
surface->gc_has_clip_rects);
surface->gc = NULL;
if (status == CAIRO_STATUS_SUCCESS)
status = status2;
}
if (surface->clip_rects != surface->embedded_clip_rects)
free (surface->clip_rects);
if (surface->screen_info != NULL)
_cairo_xlib_screen_info_destroy (surface->screen_info);
if (surface->display != NULL) {
_cairo_xlib_remove_close_display_hook (surface->display,
&surface->close_display_hook);
_cairo_xlib_display_destroy (surface->display);
}
surface->dpy = NULL;
return status;
}
static int
_noop_error_handler (Display *display,
XErrorEvent *event)
{
return False; /* return value is ignored */
}
static void
_swap_ximage_2bytes (XImage *ximage)
{
int i, j;
char *line = ximage->data;
for (j = ximage->height; j; j--) {
uint16_t *p = (uint16_t *) line;
for (i = ximage->width; i; i--) {
*p = bswap_16 (*p);
p++;
}
line += ximage->bytes_per_line;
}
}
static void
_swap_ximage_3bytes (XImage *ximage)
{
int i, j;
char *line = ximage->data;
for (j = ximage->height; j; j--) {
uint8_t *p = (uint8_t *) line;
for (i = ximage->width; i; i--) {
uint8_t tmp;
tmp = p[2];
p[2] = p[0];
p[0] = tmp;
p += 3;
}
line += ximage->bytes_per_line;
}
}
static void
_swap_ximage_4bytes (XImage *ximage)
{
int i, j;
char *line = ximage->data;
for (j = ximage->height; j; j--) {
uint32_t *p = (uint32_t *) line;
for (i = ximage->width; i; i--) {
*p = bswap_32 (*p);
p++;
}
line += ximage->bytes_per_line;
}
}
static void
_swap_ximage_nibbles (XImage *ximage)
{
int i, j;
char *line = ximage->data;
for (j = ximage->height; j; j--) {
uint8_t *p = (uint8_t *) line;
for (i = (ximage->width + 1) / 2; i; i--) {
*p = ((*p >> 4) & 0xf) | ((*p << 4) & ~0xf);
p++;
}
line += ximage->bytes_per_line;
}
}
static void
_swap_ximage_bits (XImage *ximage)
{
int i, j;
char *line = ximage->data;
int unit = ximage->bitmap_unit;
int line_bytes = ((ximage->width + unit - 1) & ~(unit - 1)) / 8;
for (j = ximage->height; j; j--) {
char *p = line;
for (i = line_bytes; i; i--) {
char b = *p;
b = ((b << 1) & 0xaa) | ((b >> 1) & 0x55);
b = ((b << 2) & 0xcc) | ((b >> 2) & 0x33);
b = ((b << 4) & 0xf0) | ((b >> 4) & 0x0f);
*p = b;
p++;
}
line += ximage->bytes_per_line;
}
}
static void
_swap_ximage_to_native (XImage *ximage)
{
int unit_bytes = 0;
int native_byte_order = _native_byte_order_lsb () ? LSBFirst : MSBFirst;
if (ximage->bits_per_pixel == 1 &&
ximage->bitmap_bit_order != native_byte_order)
{
_swap_ximage_bits (ximage);
if (ximage->bitmap_bit_order == ximage->byte_order)
return;
}
if (ximage->byte_order == native_byte_order)
return;
switch (ximage->bits_per_pixel) {
case 1:
unit_bytes = ximage->bitmap_unit / 8;
break;
case 4:
_swap_ximage_nibbles (ximage);
/* fall-through */
case 8:
case 16:
case 20:
case 24:
case 28:
case 30:
case 32:
unit_bytes = (ximage->bits_per_pixel + 7) / 8;
break;
default:
/* This could be hit on some rare but possible cases. */
ASSERT_NOT_REACHED;
}
switch (unit_bytes) {
case 1:
break;
case 2:
_swap_ximage_2bytes (ximage);
break;
case 3:
_swap_ximage_3bytes (ximage);
break;
case 4:
_swap_ximage_4bytes (ximage);
break;
default:
ASSERT_NOT_REACHED;
}
}
/* Given a mask, (with a single sequence of contiguous 1 bits), return
* the number of 1 bits in 'width' and the number of 0 bits to its
* right in 'shift'. */
static void
_characterize_field (uint32_t mask, int *width, int *shift)
{
*width = _cairo_popcount (mask);
/* The final '& 31' is to force a 0 mask to result in 0 shift. */
*shift = _cairo_popcount ((mask - 1) & ~mask) & 31;
}
/* Convert a field of 'width' bits to 'new_width' bits with correct
* rounding. */
static inline uint32_t
_resize_field (uint32_t field, int width, int new_width)
{
if (width == 0)
return 0;
if (width >= new_width) {
return field >> (width - new_width);
} else {
uint32_t result = field << (new_width - width);
while (width < new_width) {
result |= result >> width;
width <<= 1;
}
return result;
}
}
static inline uint32_t
_adjust_field (uint32_t field, int adjustment)
{
return MIN (255, MAX(0, (int)field + adjustment));
}
/* Given a shifted field value, (described by 'width' and 'shift),
* resize it 8-bits and return that value.
*
* Note that the original field value must not have any non-field bits
* set.
*/
static inline uint32_t
_field_to_8 (uint32_t field, int width, int shift)
{
return _resize_field (field >> shift, width, 8);
}
static inline uint32_t
_field_to_8_undither (uint32_t field, int width, int shift,
int dither_adjustment)
{
return _adjust_field (_field_to_8 (field, width, shift), - dither_adjustment>>width);
}
/* Given an 8-bit value, convert it to a field of 'width', shift it up
* to 'shift, and return it. */
static inline uint32_t
_field_from_8 (uint32_t field, int width, int shift)
{
return _resize_field (field, 8, width) << shift;
}
static inline uint32_t
_field_from_8_dither (uint32_t field, int width, int shift,
int8_t dither_adjustment)
{
return _field_from_8 (_adjust_field (field, dither_adjustment>>width), width, shift);
}
static inline uint32_t
_pseudocolor_from_rgb888_dither (cairo_xlib_visual_info_t *visual_info,
uint32_t r, uint32_t g, uint32_t b,
int8_t dither_adjustment)
{
if (r == g && g == b) {
dither_adjustment /= RAMP_SIZE;
return visual_info->gray8_to_pseudocolor[_adjust_field (r, dither_adjustment)];
} else {
dither_adjustment = visual_info->dither8_to_cube[dither_adjustment+128];
return visual_info->cube_to_pseudocolor[visual_info->field8_to_cube[_adjust_field (r, dither_adjustment)]]
[visual_info->field8_to_cube[_adjust_field (g, dither_adjustment)]]
[visual_info->field8_to_cube[_adjust_field (b, dither_adjustment)]];
}
}
static inline uint32_t
_pseudocolor_to_rgb888 (cairo_xlib_visual_info_t *visual_info,
uint32_t pixel)
{
uint32_t r, g, b;
pixel &= 0xff;
r = visual_info->colors[pixel].r;
g = visual_info->colors[pixel].g;
b = visual_info->colors[pixel].b;
return (r << 16) |
(g << 8) |
(b );
}
/* should range from -128 to 127 */
#define X 16
static const int8_t dither_pattern[4][4] = {
{-8*X, +0*X, -6*X, +2*X},
{+4*X, -4*X, +6*X, -2*X},
{-5*X, +4*X, -7*X, +1*X},
{+7*X, -1*X, +5*X, -3*X}
};
#undef X
static cairo_status_t
_get_image_surface (cairo_xlib_surface_t *surface,
cairo_rectangle_int_t *interest_rect,
cairo_image_surface_t **image_out,
cairo_rectangle_int_t *image_rect)
{
cairo_int_status_t status;
cairo_image_surface_t *image = NULL;
XImage *ximage;
cairo_rectangle_int_t extents;
pixman_format_code_t pixman_format;
cairo_format_masks_t xlib_masks;
extents.x = 0;
extents.y = 0;
extents.width = surface->width;
extents.height = surface->height;
if (interest_rect) {
if (! _cairo_rectangle_intersect (&extents, interest_rect)) {
*image_out = NULL;
return CAIRO_STATUS_SUCCESS;
}
}
if (image_rect)
*image_rect = extents;
/* XXX: This should try to use the XShm extension if available */
if (surface->use_pixmap == 0)
{
cairo_xlib_error_func_t old_handler;
old_handler = XSetErrorHandler (_noop_error_handler);
ximage = XGetImage (surface->dpy,
surface->drawable,
extents.x, extents.y,
extents.width, extents.height,
AllPlanes, ZPixmap);
XSetErrorHandler (old_handler);
/* If we get an error, the surface must have been a window,
* so retry with the safe code path.
*/
if (!ximage)
surface->use_pixmap = CAIRO_ASSUME_PIXMAP;
}
else
{
surface->use_pixmap--;
ximage = NULL;
}
if (!ximage)
{
/* XGetImage from a window is dangerous because it can
* produce errors if the window is unmapped or partially
* outside the screen. We could check for errors and
* retry, but to keep things simple, we just create a
* temporary pixmap
*/
Pixmap pixmap;
status = _cairo_xlib_surface_ensure_gc (surface);
if (unlikely (status))
return status;
pixmap = XCreatePixmap (surface->dpy,
surface->drawable,
extents.width, extents.height,
surface->depth);
if (pixmap) {
XCopyArea (surface->dpy, surface->drawable, pixmap, surface->gc,
extents.x, extents.y,
extents.width, extents.height,
0, 0);
ximage = XGetImage (surface->dpy,
pixmap,
0, 0,
extents.width, extents.height,
AllPlanes, ZPixmap);
XFreePixmap (surface->dpy, pixmap);
}
}
if (!ximage)
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
_swap_ximage_to_native (ximage);
xlib_masks.bpp = ximage->bits_per_pixel;
xlib_masks.alpha_mask = surface->a_mask;
xlib_masks.red_mask = surface->r_mask;
xlib_masks.green_mask = surface->g_mask;
xlib_masks.blue_mask = surface->b_mask;
if (_pixman_format_from_masks (&xlib_masks, &pixman_format) &&
xlib_masks.bpp >= 24 &&
ximage->bitmap_unit == 32 &&
ximage->bitmap_pad == 32)
{
image = (cairo_image_surface_t*)
_cairo_image_surface_create_with_pixman_format ((unsigned char *) ximage->data,
pixman_format,
ximage->width,
ximage->height,
ximage->bytes_per_line);
status = image->base.status;
if (unlikely (status))
goto BAIL;
/* Let the surface take ownership of the data */
_cairo_image_surface_assume_ownership_of_data (image);
ximage->data = NULL;
} else {
/* The visual we are dealing with is not supported by the
* standard pixman formats. So we must first convert the data
* to a supported format. */
cairo_format_t format;
unsigned char *data;
uint32_t *row;
uint32_t in_pixel, out_pixel;
unsigned int rowstride;
uint32_t a_mask=0, r_mask=0, g_mask=0, b_mask=0;
int a_width=0, r_width=0, g_width=0, b_width=0;
int a_shift=0, r_shift=0, g_shift=0, b_shift=0;
int x, y, x0, y0, x_off, y_off;
cairo_xlib_visual_info_t *visual_info;
if (surface->visual == NULL || surface->visual->class == TrueColor) {
cairo_bool_t has_alpha;
cairo_bool_t has_color;
has_alpha = surface->a_mask;
has_color = (surface->r_mask ||
surface->g_mask ||
surface->b_mask);
if (has_color) {
if (has_alpha) {
format = CAIRO_FORMAT_ARGB32;
} else {
format = CAIRO_FORMAT_RGB24;
}
} else {
/* XXX: Using CAIRO_FORMAT_A8 here would be more
* efficient, but would require slightly different code in
* the image conversion to put the alpha channel values
* into the right place. */
format = CAIRO_FORMAT_ARGB32;
}
a_mask = surface->a_mask;
r_mask = surface->r_mask;
g_mask = surface->g_mask;
b_mask = surface->b_mask;
_characterize_field (a_mask, &a_width, &a_shift);
_characterize_field (r_mask, &r_width, &r_shift);
_characterize_field (g_mask, &g_width, &g_shift);
_characterize_field (b_mask, &b_width, &b_shift);
} else {
format = CAIRO_FORMAT_RGB24;
status = _cairo_xlib_screen_get_visual_info (surface->screen_info,
surface->visual,
&visual_info);
if (unlikely (status))
goto BAIL;
}
image = (cairo_image_surface_t *) cairo_image_surface_create
(format, ximage->width, ximage->height);
status = image->base.status;
if (unlikely (status))
goto BAIL;
data = cairo_image_surface_get_data (&image->base);
rowstride = cairo_image_surface_get_stride (&image->base) >> 2;
row = (uint32_t *) data;
x0 = extents.x + surface->base.device_transform.x0;
y0 = extents.y + surface->base.device_transform.y0;
for (y = 0, y_off = y0 % ARRAY_LENGTH (dither_pattern);
y < ximage->height;
y++, y_off = (y_off+1) % ARRAY_LENGTH (dither_pattern)) {
const int8_t *dither_row = dither_pattern[y_off];
for (x = 0, x_off = x0 % ARRAY_LENGTH (dither_pattern[0]);
x < ximage->width;
x++, x_off = (x_off+1) % ARRAY_LENGTH (dither_pattern[0])) {
int dither_adjustment = dither_row[x_off];
in_pixel = XGetPixel (ximage, x, y);
if (surface->visual == NULL || surface->visual->class == TrueColor) {
out_pixel = (
_field_to_8 (in_pixel & a_mask, a_width, a_shift) << 24 |
_field_to_8_undither (in_pixel & r_mask, r_width, r_shift, dither_adjustment) << 16 |
_field_to_8_undither (in_pixel & g_mask, g_width, g_shift, dither_adjustment) << 8 |
_field_to_8_undither (in_pixel & b_mask, b_width, b_shift, dither_adjustment));
} else {
/* Undithering pseudocolor does not look better */
out_pixel = _pseudocolor_to_rgb888 (visual_info, in_pixel);
}
row[x] = out_pixel;
}
row += rowstride;
}
}
BAIL:
XDestroyImage (ximage);
if (unlikely (status)) {
if (image) {
cairo_surface_destroy (&image->base);
image = NULL;
}
}
*image_out = image;
return status;
}
static void
_cairo_xlib_surface_ensure_src_picture (cairo_xlib_surface_t *surface)
{
if (!surface->src_picture)
{
XRenderPictureAttributes pa;
int mask = 0;
pa.subwindow_mode = IncludeInferiors;
mask |= CPSubwindowMode;
surface->src_picture = XRenderCreatePicture (surface->dpy,
surface->drawable,
surface->xrender_format,
mask, &pa);
}
}
static void
_cairo_xlib_surface_set_picture_clip_rects (cairo_xlib_surface_t *surface)
{
if (surface->have_clip_rects) {
XRenderSetPictureClipRectangles (surface->dpy, surface->dst_picture,
0, 0,
surface->clip_rects,
surface->num_clip_rects);
} else {
XRenderPictureAttributes pa;
pa.clip_mask = None;
XRenderChangePicture (surface->dpy, surface->dst_picture,
CPClipMask, &pa);
}
surface->clip_dirty &= ~CAIRO_XLIB_SURFACE_CLIP_DIRTY_PICTURE;
}
static void
_cairo_xlib_surface_set_gc_clip_rects (cairo_xlib_surface_t *surface)
{
surface->gc_has_clip_rects = surface->have_clip_rects;
if (surface->have_clip_rects) {
XSetClipRectangles(surface->dpy, surface->gc,
0, 0,
surface->clip_rects,
surface->num_clip_rects, YXSorted);
} else
XSetClipMask (surface->dpy, surface->gc, None);
surface->clip_dirty &= ~CAIRO_XLIB_SURFACE_CLIP_DIRTY_GC;
}
static void
_cairo_xlib_surface_ensure_dst_picture (cairo_xlib_surface_t *surface)
{
if (!surface->dst_picture) {
surface->dst_picture = XRenderCreatePicture (surface->dpy,
surface->drawable,
surface->xrender_format,
0, NULL);
}
if (surface->clip_dirty & CAIRO_XLIB_SURFACE_CLIP_DIRTY_PICTURE)
_cairo_xlib_surface_set_picture_clip_rects (surface);
}
static cairo_status_t
_cairo_xlib_surface_ensure_gc (cairo_xlib_surface_t *surface)
{
XGCValues gcv;
if (surface->gc == NULL) {
surface->gc = _cairo_xlib_screen_get_gc (surface->screen_info,
surface->depth,
&surface->clip_dirty);
if (surface->gc == NULL) {
gcv.graphics_exposures = False;
surface->gc = XCreateGC (surface->dpy, surface->drawable,
GCGraphicsExposures, &gcv);
if (unlikely (surface->gc == NULL))
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
}
}
if (surface->clip_dirty & CAIRO_XLIB_SURFACE_CLIP_DIRTY_GC)
_cairo_xlib_surface_set_gc_clip_rects (surface);
return CAIRO_STATUS_SUCCESS;
}
static cairo_status_t
_draw_image_surface (cairo_xlib_surface_t *surface,
cairo_image_surface_t *image,
int src_x,
int src_y,
int width,
int height,
int dst_x,
int dst_y)
{
XImage ximage;
cairo_format_masks_t image_masks;
int native_byte_order = _native_byte_order_lsb () ? LSBFirst : MSBFirst;
cairo_status_t status;
cairo_bool_t own_data;
_pixman_format_to_masks (image->pixman_format, &image_masks);
ximage.width = image->width;
ximage.height = image->height;
ximage.format = ZPixmap;
ximage.byte_order = native_byte_order;
ximage.bitmap_unit = 32; /* always for libpixman */
ximage.bitmap_bit_order = native_byte_order;
ximage.bitmap_pad = 32; /* always for libpixman */
ximage.depth = surface->depth;
ximage.red_mask = surface->r_mask;
ximage.green_mask = surface->g_mask;
ximage.blue_mask = surface->b_mask;
ximage.xoffset = 0;
if (image_masks.red_mask == surface->r_mask &&
image_masks.green_mask == surface->g_mask &&
image_masks.blue_mask == surface->b_mask)
{
int ret;
ximage.bits_per_pixel = image_masks.bpp;
ximage.bytes_per_line = image->stride;
ximage.data = (char *)image->data;
own_data = FALSE;
ret = XInitImage (&ximage);
assert (ret != 0);
} else {
unsigned int stride, rowstride;
int x, y, x0, y0, x_off, y_off;
uint32_t in_pixel, out_pixel, *row;
int i_a_width=0, i_r_width=0, i_g_width=0, i_b_width=0;
int i_a_shift=0, i_r_shift=0, i_g_shift=0, i_b_shift=0;
int o_a_width=0, o_r_width=0, o_g_width=0, o_b_width=0;
int o_a_shift=0, o_r_shift=0, o_g_shift=0, o_b_shift=0;
cairo_xlib_visual_info_t *visual_info = NULL;
cairo_bool_t true_color;
int ret;
if (surface->depth > 16) {
ximage.bits_per_pixel = 32;
} else if (surface->depth > 8) {
ximage.bits_per_pixel = 16;
} else if (surface->depth > 1) {
ximage.bits_per_pixel = 8;
} else {
ximage.bits_per_pixel = 1;
}
stride = CAIRO_STRIDE_FOR_WIDTH_BPP (ximage.width,
ximage.bits_per_pixel);
ximage.bytes_per_line = stride;
ximage.data = _cairo_malloc_ab (stride, ximage.height);
if (unlikely (ximage.data == NULL))
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
own_data = TRUE;
ret = XInitImage (&ximage);
assert (ret != 0);
_characterize_field (image_masks.alpha_mask, &i_a_width, &i_a_shift);
_characterize_field (image_masks.red_mask , &i_r_width, &i_r_shift);
_characterize_field (image_masks.green_mask, &i_g_width, &i_g_shift);
_characterize_field (image_masks.blue_mask , &i_b_width, &i_b_shift);
true_color = surface->visual == NULL ||
surface->visual->class == TrueColor;
if (true_color) {
_characterize_field (surface->a_mask, &o_a_width, &o_a_shift);
_characterize_field (surface->r_mask, &o_r_width, &o_r_shift);
_characterize_field (surface->g_mask, &o_g_width, &o_g_shift);
_characterize_field (surface->b_mask, &o_b_width, &o_b_shift);
} else {
status = _cairo_xlib_screen_get_visual_info (surface->screen_info,
surface->visual,
&visual_info);
if (unlikely (status))
goto BAIL;
}
rowstride = cairo_image_surface_get_stride (&image->base) >> 2;
row = (uint32_t *) cairo_image_surface_get_data (&image->base);
x0 = dst_x + surface->base.device_transform.x0;
y0 = dst_y + surface->base.device_transform.y0;
for (y = 0, y_off = y0 % ARRAY_LENGTH (dither_pattern);
y < ximage.height;
y++, y_off = (y_off+1) % ARRAY_LENGTH (dither_pattern))
{
const int8_t *dither_row = dither_pattern[y_off];
for (x = 0, x_off = x0 % ARRAY_LENGTH (dither_pattern[0]);
x < ximage.width;
x++, x_off = (x_off+1) % ARRAY_LENGTH (dither_pattern[0]))
{
int dither_adjustment = dither_row[x_off];
int a, r, g, b;
if (image_masks.bpp <= 8)
in_pixel = ((uint8_t*)row)[x];
else if (image_masks.bpp <= 16)
in_pixel = ((uint16_t*)row)[x];
else
in_pixel = row[x];
/* If the incoming image has no alpha channel, then the input
* is opaque and the output should have the maximum alpha value.
* For all other channels, their absence implies 0.
*/
if (image_masks.alpha_mask == 0x0)
a = 0xff;
else
a = _field_to_8 (in_pixel & image_masks.alpha_mask, i_a_width, i_a_shift);
r = _field_to_8 (in_pixel & image_masks.red_mask , i_r_width, i_r_shift);
g = _field_to_8 (in_pixel & image_masks.green_mask, i_g_width, i_g_shift);
b = _field_to_8 (in_pixel & image_masks.blue_mask , i_b_width, i_b_shift);
if (true_color) {
out_pixel = _field_from_8 (a, o_a_width, o_a_shift) |
_field_from_8_dither (r, o_r_width, o_r_shift, dither_adjustment) |
_field_from_8_dither (g, o_g_width, o_g_shift, dither_adjustment) |
_field_from_8_dither (b, o_b_width, o_b_shift, dither_adjustment);
} else {
out_pixel = _pseudocolor_from_rgb888_dither (visual_info, r, g, b, dither_adjustment);
}
XPutPixel (&ximage, x, y, out_pixel);
}
row += rowstride;
}
}
status = _cairo_xlib_surface_ensure_gc (surface);
if (unlikely (status))
goto BAIL;
XPutImage(surface->dpy, surface->drawable, surface->gc,
&ximage, src_x, src_y, dst_x, dst_y,
width, height);
BAIL:
if (own_data)
free (ximage.data);
return status;
}
static cairo_status_t
_cairo_xlib_surface_acquire_source_image (void *abstract_surface,
cairo_image_surface_t **image_out,
void **image_extra)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_image_surface_t *image;
cairo_status_t status;
_cairo_xlib_display_notify (surface->display);
status = _get_image_surface (surface, NULL, &image, NULL);
if (unlikely (status))
return status;
*image_out = image;
*image_extra = NULL;
return CAIRO_STATUS_SUCCESS;
}
static void
_cairo_xlib_surface_release_source_image (void *abstract_surface,
cairo_image_surface_t *image,
void *image_extra)
{
cairo_surface_destroy (&image->base);
}
static cairo_status_t
_cairo_xlib_surface_acquire_dest_image (void *abstract_surface,
cairo_rectangle_int_t *interest_rect,
cairo_image_surface_t **image_out,
cairo_rectangle_int_t *image_rect_out,
void **image_extra)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_image_surface_t *image;
cairo_status_t status;
_cairo_xlib_display_notify (surface->display);
status = _get_image_surface (surface, interest_rect, &image, image_rect_out);
if (unlikely (status))
return status;
*image_out = image;
*image_extra = NULL;
return CAIRO_STATUS_SUCCESS;
}
static void
_cairo_xlib_surface_release_dest_image (void *abstract_surface,
cairo_rectangle_int_t *interest_rect,
cairo_image_surface_t *image,
cairo_rectangle_int_t *image_rect,
void *image_extra)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_status_t status;
status = _draw_image_surface (surface, image,
0, 0, image->width, image->height,
image_rect->x, image_rect->y);
status = _cairo_surface_set_error (&surface->base, status);
cairo_surface_destroy (&image->base);
}
/*
* Return whether two xlib surfaces share the same
* screen. Both core and Render drawing require this
* when using multiple drawables in an operation.
*/
static cairo_bool_t
_cairo_xlib_surface_same_screen (cairo_xlib_surface_t *dst,
cairo_xlib_surface_t *src)
{
return dst->dpy == src->dpy && dst->screen == src->screen;
}
static cairo_status_t
_cairo_xlib_surface_clone_similar (void *abstract_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_xlib_surface_t *surface = abstract_surface;
cairo_xlib_surface_t *clone;
cairo_status_t status;
_cairo_xlib_display_notify (surface->display);
if (src->backend == surface->base.backend ) {
cairo_xlib_surface_t *xlib_src = (cairo_xlib_surface_t *)src;
if (_cairo_xlib_surface_same_screen (surface, xlib_src)) {
*clone_offset_x = 0;
*clone_offset_y = 0;
*clone_out = cairo_surface_reference (src);
return CAIRO_STATUS_SUCCESS;
}
} else if (_cairo_surface_is_image (src)) {
cairo_image_surface_t *image_src = (cairo_image_surface_t *)src;
if (! CAIRO_FORMAT_VALID (image_src->format))
return CAIRO_INT_STATUS_UNSUPPORTED;
if (width > XLIB_COORD_MAX || height > XLIB_COORD_MAX)
return _cairo_error (CAIRO_STATUS_INVALID_SIZE);
clone = (cairo_xlib_surface_t *)
_cairo_xlib_surface_create_similar_with_format (surface,
image_src->format,
width, height);
if (clone == NULL)
return CAIRO_INT_STATUS_UNSUPPORTED;
if (clone->base.status)
return clone->base.status;
status = _draw_image_surface (clone, image_src,
src_x, src_y,
width, height,
0, 0);
if (unlikely (status)) {
cairo_surface_destroy (&clone->base);
return status;
}
*clone_offset_x = src_x;
*clone_offset_y = src_y;
*clone_out = &clone->base;
return CAIRO_STATUS_SUCCESS;
}
return CAIRO_INT_STATUS_UNSUPPORTED;
}
static cairo_surface_t *
_cairo_xlib_surface_create_solid_pattern_surface (void *abstract_surface,
const cairo_solid_pattern_t *solid_pattern)
{
/* This function's only responsibility is to create a proper surface
* for when XRender is not available. The proper surface is a xlib
* surface (as opposed to image surface which is what create_similar
* returns in those cases) and the size of the dithering pattern, not
* 1x1. This surface can then be used in
* _cairo_xlib_surface_solid_fill_rectangles() to do dithered "solid"
* fills using core protocol */
cairo_xlib_surface_t *other = abstract_surface;
cairo_image_surface_t *image;
cairo_xlib_surface_t *surface = NULL;
cairo_status_t status = CAIRO_STATUS_SUCCESS;
int width = ARRAY_LENGTH (dither_pattern[0]);
int height = ARRAY_LENGTH (dither_pattern);
Pixmap pixmap = None;
if (CAIRO_SURFACE_RENDER_HAS_COMPOSITE (other))
return NULL;
if (width > XLIB_COORD_MAX || height > XLIB_COORD_MAX)
return NULL;
image = (cairo_image_surface_t *)
_cairo_image_surface_create_with_content (solid_pattern->content,
width, height);
status = image->base.status;
if (unlikely (status))
goto BAIL;
pixmap = XCreatePixmap (other->dpy,
other->drawable,
width, height,
other->depth);
surface = (cairo_xlib_surface_t *)
_cairo_xlib_surface_create_internal (other->dpy,
pixmap,
other->screen, other->visual,
other->xrender_format,
width, height,
other->depth);
status = surface->base.status;
if (unlikely (status))
goto BAIL;
status = _cairo_surface_paint (&image->base,
CAIRO_OPERATOR_SOURCE,
&solid_pattern->base, NULL);
if (unlikely (status))
goto BAIL;
status = _draw_image_surface (surface, image,
0, 0,
width, height,
0, 0);
if (unlikely (status))
goto BAIL;
BAIL:
cairo_surface_destroy (&image->base);
if (unlikely (status)) {
if (pixmap != None)
XFreePixmap (other->dpy, pixmap);
cairo_surface_destroy (&surface->base);
return _cairo_surface_create_in_error (status);
}
surface->owns_pixmap = TRUE;
return &surface->base;
}
static cairo_bool_t
_cairo_xlib_surface_can_repaint_solid_pattern_surface (void *abstract_surface,
const cairo_solid_pattern_t *solid_pattern)
{
cairo_xlib_surface_t *other = abstract_surface;
return CAIRO_SURFACE_RENDER_HAS_COMPOSITE (other);
}
static cairo_status_t
_cairo_xlib_surface_set_matrix (cairo_xlib_surface_t *surface,
cairo_matrix_t *matrix,
double xc,
double yc)
{
XTransform xtransform;
if (!surface->src_picture)
return CAIRO_STATUS_SUCCESS;
/* Casting between pixman_transform_t and XTransform is safe because
* they happen to be the exact same type.
*/
_cairo_matrix_to_pixman_matrix (matrix,
(pixman_transform_t *) &xtransform,
xc, yc);
if (memcmp (&xtransform, &surface->xtransform, sizeof (XTransform)) == 0)
return CAIRO_STATUS_SUCCESS;
if (!CAIRO_SURFACE_RENDER_HAS_PICTURE_TRANSFORM (surface))
return CAIRO_INT_STATUS_UNSUPPORTED;
XRenderSetPictureTransform (surface->dpy, surface->src_picture, &xtransform);
surface->xtransform = xtransform;
return CAIRO_STATUS_SUCCESS;
}
static cairo_status_t
_cairo_xlib_surface_set_filter (cairo_xlib_surface_t *surface,
cairo_filter_t filter)
{
const char *render_filter;
if (!surface->src_picture)
return CAIRO_STATUS_SUCCESS;
if (surface->filter == filter)
return CAIRO_STATUS_SUCCESS;
if (!CAIRO_SURFACE_RENDER_HAS_FILTERS (surface))
{
if (filter == CAIRO_FILTER_FAST || filter == CAIRO_FILTER_NEAREST)
return CAIRO_STATUS_SUCCESS;
return CAIRO_INT_STATUS_UNSUPPORTED;
}
switch (filter) {
case CAIRO_FILTER_FAST:
render_filter = FilterFast;
break;
case CAIRO_FILTER_GOOD:
render_filter = FilterGood;
break;
case CAIRO_FILTER_BEST:
render_filter = FilterBest;
break;
case CAIRO_FILTER_NEAREST:
render_filter = FilterNearest;
break;
case CAIRO_FILTER_BILINEAR:
render_filter = FilterBilinear;
break;
case CAIRO_FILTER_GAUSSIAN:
/* XXX: The GAUSSIAN value has no implementation in cairo
* whatsoever, so it was really a mistake to have it in the
* API. We could fix this by officially deprecating it, or
* else inventing semantics and providing an actual
* implementation for it. */
default:
render_filter = FilterBest;
break;
}
XRenderSetPictureFilter (surface->dpy, surface->src_picture,
(char *) render_filter, NULL, 0);
surface->filter = filter;
return CAIRO_STATUS_SUCCESS;
}
static void
_cairo_xlib_surface_set_repeat (cairo_xlib_surface_t *surface, int repeat)
{
XRenderPictureAttributes pa;
unsigned long mask;
if (!surface->src_picture)
return;
if (surface->repeat == repeat)
return;
mask = CPRepeat;
pa.repeat = repeat;
XRenderChangePicture (surface->dpy, surface->src_picture, mask, &pa);
surface->repeat = repeat;
}
static cairo_int_status_t
_cairo_xlib_surface_set_attributes (cairo_xlib_surface_t *surface,
cairo_surface_attributes_t *attributes,
double xc,
double yc)
{
cairo_int_status_t status;
_cairo_xlib_surface_ensure_src_picture (surface);
status = _cairo_xlib_surface_set_matrix (surface, &attributes->matrix,
xc, yc);
if (unlikely (status))
return status;
switch (attributes->extend) {
case CAIRO_EXTEND_NONE:
_cairo_xlib_surface_set_repeat (surface, RepeatNone);
break;
case CAIRO_EXTEND_REPEAT:
_cairo_xlib_surface_set_repeat (surface, RepeatNormal);
break;
case CAIRO_EXTEND_REFLECT:
case CAIRO_EXTEND_PAD:
default:
return CAIRO_INT_STATUS_UNSUPPORTED;
}
status = _cairo_xlib_surface_set_filter (surface, attributes->filter);
if (unlikely (status))
return status;
return CAIRO_STATUS_SUCCESS;
}
/* Checks whether we can can directly draw from src to dst with
* the core protocol: either with CopyArea or using src as a
* a tile in a GC.
*/
static cairo_bool_t
_surfaces_compatible (cairo_xlib_surface_t *dst,
cairo_xlib_surface_t *src)
{
/* same screen */
if (!_cairo_xlib_surface_same_screen (dst, src))
return FALSE;
/* same depth (for core) */
if (src->depth != dst->depth)
return FALSE;
/* if Render is supported, match picture formats */
if (src->xrender_format != dst->xrender_format)
return FALSE;
else if (src->xrender_format != NULL)
return TRUE;
/* Without Render, match visuals instead */
if (src->visual == dst->visual)
return TRUE;
return FALSE;
}
static cairo_bool_t
_surface_has_alpha (cairo_xlib_surface_t *surface)
{
if (surface->xrender_format) {
if (surface->xrender_format->type == PictTypeDirect &&
surface->xrender_format->direct.alphaMask != 0)
return TRUE;
else
return FALSE;
} else {
/* In the no-render case, we never have alpha */
return FALSE;
}
}
/* Returns true if the given operator and source-alpha combination
* requires alpha compositing to complete.
*/
static cairo_bool_t
_operator_needs_alpha_composite (cairo_operator_t op,
cairo_bool_t surface_has_alpha)
{
if (op == CAIRO_OPERATOR_SOURCE ||
(!surface_has_alpha &&
(op == CAIRO_OPERATOR_OVER ||
op == CAIRO_OPERATOR_ATOP ||
op == CAIRO_OPERATOR_IN)))
return FALSE;
return TRUE;
}
/* There is a bug in most older X servers with compositing using a
* untransformed repeating source pattern when the source is in off-screen
* video memory, and another with repeated transformed images using a
* general transform matrix. When these bugs could be triggered, we need a
* fallback: in the common case where we have no transformation and the
* source and destination have the same format/visual, we can do the
* operation using the core protocol for the first bug, otherwise, we need
* a software fallback.
*
* We can also often optimize a compositing operation by calling XCopyArea
* for some common cases where there is no alpha compositing to be done.
* We figure that out here as well.
*/
typedef enum {
DO_RENDER, /* use render */
DO_XCOPYAREA, /* core protocol XCopyArea optimization/fallback */
DO_XTILE, /* core protocol XSetTile optimization/fallback */
DO_UNSUPPORTED /* software fallback */
} composite_operation_t;
/* Initial check for the render bugs; we need to recheck for the
* offscreen-memory bug after we turn patterns into surfaces, since that
* may introduce a repeating pattern for gradient patterns. We don't need
* to check for the repeat+transform bug because gradient surfaces aren't
* transformed.
*
* All we do here is reject cases where we *know* are going to
* hit the bug and won't be able to use a core protocol fallback.
*/
static composite_operation_t
_categorize_composite_operation (cairo_xlib_surface_t *dst,
cairo_operator_t op,
const cairo_pattern_t *src_pattern,
cairo_bool_t have_mask)
{
if (!dst->buggy_repeat)
return DO_RENDER;
if (src_pattern->type == CAIRO_PATTERN_TYPE_SURFACE)
{
cairo_surface_pattern_t *surface_pattern = (cairo_surface_pattern_t *)src_pattern;
if (_cairo_matrix_is_integer_translation (&src_pattern->matrix, NULL, NULL) &&
src_pattern->extend == CAIRO_EXTEND_REPEAT)
{
/* This is the case where we have the bug involving
* untransformed repeating source patterns with off-screen
* video memory; reject some cases where a core protocol
* fallback is impossible.
*/
if (have_mask ||
!(op == CAIRO_OPERATOR_SOURCE || op == CAIRO_OPERATOR_OVER))
return DO_UNSUPPORTED;
if (_cairo_surface_is_xlib (surface_pattern->surface)) {
cairo_xlib_surface_t *src = (cairo_xlib_surface_t *)surface_pattern->surface;
if (op == CAIRO_OPERATOR_OVER && _surface_has_alpha (src))
return DO_UNSUPPORTED;
/* If these are on the same screen but otherwise incompatible,
* make a copy as core drawing can't cross depths and doesn't
* work right across visuals of the same depth
*/
if (_cairo_xlib_surface_same_screen (dst, src) &&
!_surfaces_compatible (dst, src))
return DO_UNSUPPORTED;
}
}
/* Check for the other bug involving repeat patterns with general
* transforms. */
if (!_cairo_matrix_is_integer_translation (&src_pattern->matrix, NULL, NULL) &&
src_pattern->extend == CAIRO_EXTEND_REPEAT)
return DO_UNSUPPORTED;
}
return DO_RENDER;
}
/* Recheck for composite-repeat once we've turned patterns into Xlib surfaces
* If we end up returning DO_UNSUPPORTED here, we're throwing away work we
* did to turn gradients into a pattern, but most of the time we can handle
* that case with core protocol fallback.
*
* Also check here if we can just use XCopyArea, instead of going through
* Render.
*/
static composite_operation_t
_recategorize_composite_operation (cairo_xlib_surface_t *dst,
cairo_operator_t op,
cairo_xlib_surface_t *src,
cairo_surface_attributes_t *src_attr,
cairo_bool_t have_mask)
{
cairo_bool_t is_integer_translation =
_cairo_matrix_is_integer_translation (&src_attr->matrix, NULL, NULL);
cairo_bool_t needs_alpha_composite;
if (! _cairo_surface_is_xlib (&src->base))
return DO_UNSUPPORTED;
needs_alpha_composite =
_operator_needs_alpha_composite (op, _surface_has_alpha (src));
if (! have_mask &&
is_integer_translation &&
src_attr->extend == CAIRO_EXTEND_NONE &&
! needs_alpha_composite &&
_surfaces_compatible (src, dst))
{
return DO_XCOPYAREA;
}
if (dst->buggy_repeat &&
is_integer_translation &&
src_attr->extend == CAIRO_EXTEND_REPEAT &&
(src->width != 1 || src->height != 1))
{
if (! have_mask &&
! needs_alpha_composite &&
_surfaces_compatible (dst, src))
{
return DO_XTILE;
}
return DO_UNSUPPORTED;
}
if (! CAIRO_SURFACE_RENDER_HAS_COMPOSITE (src))
return DO_UNSUPPORTED;
if (! CAIRO_SURFACE_RENDER_HAS_COMPOSITE (dst))
return DO_UNSUPPORTED;
return DO_RENDER;
}
static int
_render_operator (cairo_operator_t op)
{
switch (op) {
case CAIRO_OPERATOR_CLEAR:
return PictOpClear;
case CAIRO_OPERATOR_SOURCE:
return PictOpSrc;
case CAIRO_OPERATOR_OVER:
return PictOpOver;
case CAIRO_OPERATOR_IN:
return PictOpIn;
case CAIRO_OPERATOR_OUT:
return PictOpOut;
case CAIRO_OPERATOR_ATOP:
return PictOpAtop;
case CAIRO_OPERATOR_DEST:
return PictOpDst;
case CAIRO_OPERATOR_DEST_OVER:
return PictOpOverReverse;
case CAIRO_OPERATOR_DEST_IN:
return PictOpInReverse;
case CAIRO_OPERATOR_DEST_OUT:
return PictOpOutReverse;
case CAIRO_OPERATOR_DEST_ATOP:
return PictOpAtopReverse;
case CAIRO_OPERATOR_XOR:
return PictOpXor;
case CAIRO_OPERATOR_ADD:
return PictOpAdd;
case CAIRO_OPERATOR_SATURATE:
return PictOpSaturate;
default:
return PictOpOver;
}
}
static cairo_int_status_t
_cairo_xlib_surface_composite (cairo_operator_t op,
const cairo_pattern_t *src_pattern,
const cairo_pattern_t *mask_pattern,
void *abstract_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_surface_attributes_t src_attr, mask_attr;
cairo_xlib_surface_t *dst = abstract_dst;
cairo_xlib_surface_t *src;
cairo_xlib_surface_t *mask;
cairo_int_status_t status;
composite_operation_t operation;
int itx, ity;
cairo_bool_t is_integer_translation;
_cairo_xlib_display_notify (dst->display);
operation = _categorize_composite_operation (dst, op, src_pattern,
mask_pattern != NULL);
if (operation == DO_UNSUPPORTED)
return CAIRO_INT_STATUS_UNSUPPORTED;
status = _cairo_pattern_acquire_surfaces (src_pattern, mask_pattern,
&dst->base,
src_x, src_y,
mask_x, mask_y,
width, height,
(cairo_surface_t **) &src,
(cairo_surface_t **) &mask,
&src_attr, &mask_attr);
if (unlikely (status))
return status;
/* check for fallback surfaces that we cannot handle ... */
if (!_cairo_surface_is_xlib (&src->base)) {
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL;
}
if (mask != NULL &&
(! _cairo_surface_is_xlib (&mask->base) ||
! CAIRO_SURFACE_RENDER_HAS_COMPOSITE (dst)))
{
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL;
}
operation = _recategorize_composite_operation (dst, op, src, &src_attr,
mask_pattern != NULL);
if (operation == DO_UNSUPPORTED) {
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL;
}
switch (operation)
{
case DO_RENDER:
status = _cairo_xlib_surface_set_attributes (src, &src_attr,
dst_x + width / 2.,
dst_y + height / 2.);
if (unlikely (status))
goto BAIL;
_cairo_xlib_surface_ensure_dst_picture (dst);
if (mask) {
status = _cairo_xlib_surface_set_attributes (mask, &mask_attr,
dst_x + width / 2.,
dst_y + height/ 2.);
if (unlikely (status))
goto BAIL;
XRenderComposite (dst->dpy,
_render_operator (op),
src->src_picture,
mask->src_picture,
dst->dst_picture,
src_x + src_attr.x_offset,
src_y + src_attr.y_offset,
mask_x + mask_attr.x_offset,
mask_y + mask_attr.y_offset,
dst_x, dst_y,
width, height);
} else {
XRenderComposite (dst->dpy,
_render_operator (op),
src->src_picture,
0,
dst->dst_picture,
src_x + src_attr.x_offset,
src_y + src_attr.y_offset,
0, 0,
dst_x, dst_y,
width, height);
}
break;
case DO_XCOPYAREA:
status = _cairo_xlib_surface_ensure_gc (dst);
if (unlikely (status))
goto BAIL;
is_integer_translation = _cairo_matrix_is_integer_translation (&src_attr.matrix,
&itx, &ity);
/* This is a pre-condition for DO_XCOPYAREA. */
assert (is_integer_translation);
XCopyArea (dst->dpy,
src->drawable,
dst->drawable,
dst->gc,
src_x + src_attr.x_offset + itx,
src_y + src_attr.y_offset + ity,
width, height,
dst_x, dst_y);
break;
case DO_XTILE:
/* This case is only used for bug fallbacks, though we also use it for
* the case where we don't have the RENDER extension, by forcing
* buggy_repeat to TRUE.
*
* We've checked that we have a repeating unscaled source in
* _recategorize_composite_operation.
*/
status = _cairo_xlib_surface_ensure_gc (dst);
if (unlikely (status))
goto BAIL;
is_integer_translation = _cairo_matrix_is_integer_translation (&src_attr.matrix,
&itx, &ity);
/* This is a pre-condition for DO_XTILE. */
assert (is_integer_translation);
XSetTSOrigin (dst->dpy, dst->gc,
- (itx + src_attr.x_offset), - (ity + src_attr.y_offset));
XSetTile (dst->dpy, dst->gc, src->drawable);
XSetFillStyle (dst->dpy, dst->gc, FillTiled);
XFillRectangle (dst->dpy, dst->drawable, dst->gc,
dst_x, dst_y, width, height);
break;
case DO_UNSUPPORTED:
default:
ASSERT_NOT_REACHED;
}
if (!_cairo_operator_bounded_by_source (op))
status = _cairo_surface_composite_fixup_unbounded (&dst->base,
&src_attr, src->width, src->height,
mask ? &mask_attr : NULL,
mask ? mask->width : 0,
mask ? mask->height : 0,
src_x, src_y,
mask_x, mask_y,
dst_x, dst_y, width, height);
BAIL:
if (mask)
_cairo_pattern_release_surface (mask_pattern, &mask->base, &mask_attr);
_cairo_pattern_release_surface (src_pattern, &src->base, &src_attr);
return status;
}
static cairo_int_status_t
_cairo_xlib_surface_solid_fill_rectangles (cairo_xlib_surface_t *surface,
const cairo_color_t *color,
cairo_rectangle_int_t *rects,
int num_rects)
{
cairo_status_t status;
cairo_solid_pattern_t solid;
cairo_surface_t *solid_surface = NULL;
cairo_surface_attributes_t attrs;
int i;
_cairo_pattern_init_solid (&solid, color, CAIRO_CONTENT_COLOR);
status = _cairo_xlib_surface_ensure_gc (surface);
if (unlikely (status))
return status;
status = _cairo_pattern_acquire_surface (&solid.base, &surface->base,
0, 0,
ARRAY_LENGTH (dither_pattern[0]),
ARRAY_LENGTH (dither_pattern),
&solid_surface,
&attrs);
if (unlikely (status))
return status;
if (! _cairo_surface_is_xlib (solid_surface)) {
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL;
}
XSetTSOrigin (surface->dpy, surface->gc,
- (surface->base.device_transform.x0 + attrs.x_offset),
- (surface->base.device_transform.y0 + attrs.y_offset));
XSetTile (surface->dpy, surface->gc,
((cairo_xlib_surface_t *) solid_surface)->drawable);
XSetFillStyle (surface->dpy, surface->gc, FillTiled);
for (i = 0; i < num_rects; i++) {
XFillRectangle (surface->dpy, surface->drawable, surface->gc,
rects[i].x, rects[i].y,
rects[i].width, rects[i].height);
}
BAIL:
_cairo_pattern_release_surface (&solid.base, solid_surface, &attrs);
return status;
}
static cairo_int_status_t
_cairo_xlib_surface_fill_rectangles (void *abstract_surface,
cairo_operator_t op,
const cairo_color_t *color,
cairo_rectangle_int_t *rects,
int num_rects)
{
cairo_xlib_surface_t *surface = abstract_surface;
XRenderColor render_color;
int i;
_cairo_xlib_display_notify (surface->display);
if (! CAIRO_SURFACE_RENDER_HAS_FILL_RECTANGLES (surface)) {
if (op == CAIRO_OPERATOR_CLEAR ||
((op == CAIRO_OPERATOR_SOURCE || op == CAIRO_OPERATOR_OVER) &&
CAIRO_COLOR_IS_OPAQUE (color)))
{
return _cairo_xlib_surface_solid_fill_rectangles (surface, color,
rects, num_rects);
}
return CAIRO_INT_STATUS_UNSUPPORTED;
}
render_color.red = color->red_short;
render_color.green = color->green_short;
render_color.blue = color->blue_short;
render_color.alpha = color->alpha_short;
_cairo_xlib_surface_ensure_dst_picture (surface);
if (num_rects == 1) {
/* Take advantage of the protocol compaction that libXrender performs
* to amalgamate sequences of XRenderFillRectangle().
*/
XRenderFillRectangle (surface->dpy,
_render_operator (op),
surface->dst_picture,
&render_color,
rects->x,
rects->y,
rects->width,
rects->height);
} else {
XRectangle static_xrects[CAIRO_STACK_ARRAY_LENGTH (XRectangle)];
XRectangle *xrects = static_xrects;
if (num_rects > ARRAY_LENGTH (static_xrects)) {
xrects = _cairo_malloc_ab (num_rects, sizeof (XRectangle));
if (unlikely (xrects == NULL))
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
}
for (i = 0; i < num_rects; i++) {
xrects[i].x = rects[i].x;
xrects[i].y = rects[i].y;
xrects[i].width = rects[i].width;
xrects[i].height = rects[i].height;
}
XRenderFillRectangles (surface->dpy,
_render_operator (op),
surface->dst_picture,
&render_color, xrects, num_rects);
if (xrects != static_xrects)
free (xrects);
}
return CAIRO_STATUS_SUCCESS;
}
/* Creates an A8 picture of size @width x @height, initialized with @color
*/
static Picture
_create_a8_picture (cairo_xlib_surface_t *surface,
XRenderColor *color,
int width,
int height,
cairo_bool_t repeat)
{
XRenderPictureAttributes pa;
unsigned long mask = 0;
Pixmap pixmap;
Picture picture;
XRenderPictFormat *xrender_format;
if (width > XLIB_COORD_MAX || height > XLIB_COORD_MAX)
return None;
xrender_format =
_cairo_xlib_display_get_xrender_format (surface->display,
CAIRO_FORMAT_A8);
if (xrender_format == NULL)
return None;
pixmap = XCreatePixmap (surface->dpy, surface->drawable,
width <= 0 ? 1 : width,
height <= 0 ? 1 : height,
8);
if (repeat) {
pa.repeat = TRUE;
mask = CPRepeat;
}
picture = XRenderCreatePicture (surface->dpy, pixmap,
xrender_format, mask, &pa);
XRenderFillRectangle (surface->dpy, PictOpSrc, picture, color,
0, 0, width, height);
XFreePixmap (surface->dpy, pixmap);
return picture;
}
/* Creates a temporary mask for the trapezoids covering the area
* [@dst_x, @dst_y, @width, @height] of the destination surface.
*/
static Picture
_create_trapezoid_mask (cairo_xlib_surface_t *dst,
cairo_trapezoid_t *traps,
int num_traps,
int dst_x,
int dst_y,
int width,
int height,
XRenderPictFormat *pict_format)
{
XRenderColor transparent = { 0, 0, 0, 0 };
XRenderColor solid = { 0xffff, 0xffff, 0xffff, 0xffff };
Picture mask_picture, solid_picture;
XTrapezoid *offset_traps;
int i;
/* This would be considerably simpler using XRenderAddTraps(), but since
* we are only using this in the unbounded-operator case, we stick with
* XRenderCompositeTrapezoids, which is available on older versions
* of RENDER rather than conditionalizing. We should still hit an
* optimization that avoids creating another intermediate surface on
* the servers that have XRenderAddTraps().
*/
mask_picture = _create_a8_picture (dst, &transparent, width, height, FALSE);
if (mask_picture == None || num_traps == 0)
return mask_picture;
offset_traps = _cairo_malloc_ab (num_traps, sizeof (XTrapezoid));
if (!offset_traps) {
XRenderFreePicture (dst->dpy, mask_picture);
_cairo_error_throw (CAIRO_STATUS_NO_MEMORY);
return None;
}
for (i = 0; i < num_traps; i++) {
offset_traps[i].top = _cairo_fixed_to_16_16(traps[i].top) - 0x10000 * dst_y;
offset_traps[i].bottom = _cairo_fixed_to_16_16(traps[i].bottom) - 0x10000 * dst_y;
offset_traps[i].left.p1.x = _cairo_fixed_to_16_16(traps[i].left.p1.x) - 0x10000 * dst_x;
offset_traps[i].left.p1.y = _cairo_fixed_to_16_16(traps[i].left.p1.y) - 0x10000 * dst_y;
offset_traps[i].left.p2.x = _cairo_fixed_to_16_16(traps[i].left.p2.x) - 0x10000 * dst_x;
offset_traps[i].left.p2.y = _cairo_fixed_to_16_16(traps[i].left.p2.y) - 0x10000 * dst_y;
offset_traps[i].right.p1.x = _cairo_fixed_to_16_16(traps[i].right.p1.x) - 0x10000 * dst_x;
offset_traps[i].right.p1.y = _cairo_fixed_to_16_16(traps[i].right.p1.y) - 0x10000 * dst_y;
offset_traps[i].right.p2.x = _cairo_fixed_to_16_16(traps[i].right.p2.x) - 0x10000 * dst_x;
offset_traps[i].right.p2.y = _cairo_fixed_to_16_16(traps[i].right.p2.y) - 0x10000 * dst_y;
}
solid_picture = _create_a8_picture (dst, &solid, width, height, TRUE);
if (solid_picture == None) {
XRenderFreePicture (dst->dpy, mask_picture);
free (offset_traps);
return None;
}
XRenderCompositeTrapezoids (dst->dpy, PictOpAdd,
solid_picture, mask_picture,
pict_format,
0, 0,
offset_traps, num_traps);
XRenderFreePicture (dst->dpy, solid_picture);
free (offset_traps);
return mask_picture;
}
static cairo_int_status_t
_cairo_xlib_surface_composite_trapezoids (cairo_operator_t op,
const cairo_pattern_t *pattern,
void *abstract_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_surface_attributes_t attributes;
cairo_xlib_surface_t *dst = abstract_dst;
cairo_xlib_surface_t *src;
cairo_int_status_t status;
composite_operation_t operation;
int render_reference_x, render_reference_y;
int render_src_x, render_src_y;
XRenderPictFormat *pict_format;
_cairo_xlib_display_notify (dst->display);
if (!CAIRO_SURFACE_RENDER_HAS_TRAPEZOIDS (dst))
return CAIRO_INT_STATUS_UNSUPPORTED;
operation = _categorize_composite_operation (dst, op, pattern, TRUE);
if (operation == DO_UNSUPPORTED)
return CAIRO_INT_STATUS_UNSUPPORTED;
status = _cairo_pattern_acquire_surface (pattern, &dst->base,
src_x, src_y, width, height,
(cairo_surface_t **) &src,
&attributes);
if (unlikely (status))
return status;
operation = _recategorize_composite_operation (dst, op, src,
&attributes, TRUE);
if (operation == DO_UNSUPPORTED) {
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL;
}
switch (antialias) {
case CAIRO_ANTIALIAS_NONE:
pict_format =
_cairo_xlib_display_get_xrender_format (dst->display,
CAIRO_FORMAT_A1);
break;
case CAIRO_ANTIALIAS_GRAY:
case CAIRO_ANTIALIAS_SUBPIXEL:
case CAIRO_ANTIALIAS_DEFAULT:
default:
pict_format =
_cairo_xlib_display_get_xrender_format (dst->display,
CAIRO_FORMAT_A8);
break;
}
if (traps[0].left.p1.y < traps[0].left.p2.y) {
render_reference_x = _cairo_fixed_integer_floor (traps[0].left.p1.x);
render_reference_y = _cairo_fixed_integer_floor (traps[0].left.p1.y);
} else {
render_reference_x = _cairo_fixed_integer_floor (traps[0].left.p2.x);
render_reference_y = _cairo_fixed_integer_floor (traps[0].left.p2.y);
}
render_src_x = src_x + render_reference_x - dst_x;
render_src_y = src_y + render_reference_y - dst_y;
_cairo_xlib_surface_ensure_dst_picture (dst);
status = _cairo_xlib_surface_set_attributes (src, &attributes,
dst_x + width / 2.,
dst_y + height / 2.);
if (unlikely (status))
goto BAIL;
if (!_cairo_operator_bounded_by_mask (op)) {
/* XRenderCompositeTrapezoids() creates a mask only large enough for the
* trapezoids themselves, but if the operator is unbounded, then we need
* to actually composite all the way out to the bounds, so we create
* the mask and composite ourselves. There actually would
* be benefit to doing this in all cases, since RENDER implementations
* will frequently create a too temporary big mask, ignoring destination
* bounds and clip. (XRenderAddTraps() could be used to make creating
* the mask somewhat cheaper.)
*/
Picture mask_picture = _create_trapezoid_mask (dst, traps, num_traps,
dst_x, dst_y, width, height,
pict_format);
if (!mask_picture) {
status = _cairo_error (CAIRO_STATUS_NO_MEMORY);
goto BAIL;
}
XRenderComposite (dst->dpy,
_render_operator (op),
src->src_picture,
mask_picture,
dst->dst_picture,
src_x + attributes.x_offset,
src_y + attributes.y_offset,
0, 0,
dst_x, dst_y,
width, height);
XRenderFreePicture (dst->dpy, mask_picture);
status = _cairo_surface_composite_shape_fixup_unbounded (&dst->base,
&attributes, src->width, src->height,
width, height,
src_x, src_y,
0, 0,
dst_x, dst_y, width, height);
} else {
XTrapezoid xtraps_stack[CAIRO_STACK_ARRAY_LENGTH (XTrapezoid)];
XTrapezoid *xtraps = xtraps_stack;
int i;
if (num_traps > ARRAY_LENGTH (xtraps_stack)) {
xtraps = _cairo_malloc_ab (num_traps, sizeof (XTrapezoid));
if (unlikely (xtraps == NULL)) {
status = _cairo_error (CAIRO_STATUS_NO_MEMORY);
goto BAIL;
}
}
for (i = 0; i < num_traps; i++) {
xtraps[i].top = _cairo_fixed_to_16_16(traps[i].top);
xtraps[i].bottom = _cairo_fixed_to_16_16(traps[i].bottom);
xtraps[i].left.p1.x = _cairo_fixed_to_16_16(traps[i].left.p1.x);
xtraps[i].left.p1.y = _cairo_fixed_to_16_16(traps[i].left.p1.y);
xtraps[i].left.p2.x = _cairo_fixed_to_16_16(traps[i].left.p2.x);
xtraps[i].left.p2.y = _cairo_fixed_to_16_16(traps[i].left.p2.y);
xtraps[i].right.p1.x = _cairo_fixed_to_16_16(traps[i].right.p1.x);
xtraps[i].right.p1.y = _cairo_fixed_to_16_16(traps[i].right.p1.y);
xtraps[i].right.p2.x = _cairo_fixed_to_16_16(traps[i].right.p2.x);
xtraps[i].right.p2.y = _cairo_fixed_to_16_16(traps[i].right.p2.y);
}
XRenderCompositeTrapezoids (dst->dpy,
_render_operator (op),
src->src_picture, dst->dst_picture,
pict_format,
render_src_x + attributes.x_offset,
render_src_y + attributes.y_offset,
xtraps, num_traps);
if (xtraps != xtraps_stack)
free(xtraps);
}
BAIL:
_cairo_pattern_release_surface (pattern, &src->base, &attributes);
return status;
}
static cairo_int_status_t
_cairo_xlib_surface_set_clip_region (void *abstract_surface,
cairo_region_t *region)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_bool_t had_clip_rects = surface->have_clip_rects;
if (had_clip_rects == FALSE && region == NULL)
return CAIRO_STATUS_SUCCESS;
if (surface->clip_rects != surface->embedded_clip_rects) {
free (surface->clip_rects);
surface->clip_rects = surface->embedded_clip_rects;
}
surface->have_clip_rects = FALSE;
surface->num_clip_rects = 0;
if (region != NULL) {
cairo_status_t status;
XRectangle *rects = NULL;
int n_rects, i;
cairo_rectangle_int_t rect;
cairo_region_t *bounded;
rect.x = rect.y = 0;
rect.width = surface->width;
rect.height = surface->height;
/* Intersect the region with the bounds of the surface. This
* is necessary so we don't wrap around when we convert cairo's
* 32 bit region into 16 bit rectangles.
*/
bounded = cairo_region_create_rect (&rect);
status = cairo_region_intersect (bounded, region);
if (unlikely (status)) {
cairo_region_destroy (bounded);
return status;
}
n_rects = cairo_region_num_rectangles (bounded);
if (n_rects > ARRAY_LENGTH (surface->embedded_clip_rects)) {
rects = _cairo_malloc_ab (n_rects, sizeof (XRectangle));
if (unlikely (rects == NULL)) {
cairo_region_destroy (bounded);
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
}
} else {
rects = surface->embedded_clip_rects;
}
for (i = 0; i < n_rects; i++) {
cairo_rectangle_int_t rect;
cairo_region_get_rectangle (bounded, i, &rect);
rects[i].x = rect.x;
rects[i].y = rect.y;
rects[i].width = rect.width;
rects[i].height = rect.height;
}
cairo_region_destroy (bounded);
surface->have_clip_rects = TRUE;
surface->clip_rects = rects;
surface->num_clip_rects = n_rects;
/* Discard the trivial clip rectangle that covers the entire surface */
if (n_rects == 1 &&
rects[0].x == 0 &&
rects[0].y == 0 &&
rects[0].width == surface->width &&
rects[0].height == surface->height)
{
surface->have_clip_rects = FALSE;
surface->num_clip_rects = 0;
if (! had_clip_rects)
goto DONE;
}
}
surface->clip_dirty = CAIRO_XLIB_SURFACE_CLIP_DIRTY_ALL;
DONE:
return CAIRO_STATUS_SUCCESS;
}
static cairo_int_status_t
_cairo_xlib_surface_get_extents (void *abstract_surface,
cairo_rectangle_int_t *rectangle)
{
cairo_xlib_surface_t *surface = abstract_surface;
rectangle->x = 0;
rectangle->y = 0;
rectangle->width = surface->width;
rectangle->height = surface->height;
return CAIRO_STATUS_SUCCESS;
}
static void
_cairo_xlib_surface_get_font_options (void *abstract_surface,
cairo_font_options_t *options)
{
cairo_xlib_surface_t *surface = abstract_surface;
*options = *_cairo_xlib_screen_get_font_options (surface->screen_info);
}
static void
_cairo_xlib_surface_scaled_font_fini (cairo_scaled_font_t *scaled_font);
static void
_cairo_xlib_surface_scaled_glyph_fini (cairo_scaled_glyph_t *scaled_glyph,
cairo_scaled_font_t *scaled_font);
static cairo_bool_t
_cairo_xlib_surface_is_similar (void *surface_a,
void *surface_b,
cairo_content_t content)
{
cairo_xlib_surface_t *a = surface_a;
cairo_xlib_surface_t *b = surface_b;
XRenderPictFormat *xrender_format = b->xrender_format;
if (!_cairo_xlib_surface_same_screen (a, b))
return FALSE;
/* now inspect the content to check that a is similar to b */
if (xrender_format == NULL && b->visual != NULL)
xrender_format = XRenderFindVisualFormat (b->dpy, b->visual);
if (xrender_format == NULL ||
_xrender_format_to_content (xrender_format) != content)
{
xrender_format = _cairo_xlib_display_get_xrender_format (
b->display,
_cairo_format_from_content (content));
}
return a->xrender_format == xrender_format;
}
static cairo_status_t
_cairo_xlib_surface_reset (void *abstract_surface)
{
cairo_xlib_surface_t *surface = abstract_surface;
cairo_status_t status;
status = _cairo_xlib_surface_set_clip_region (surface, NULL);
if (unlikely (status))
return status;
return CAIRO_STATUS_SUCCESS;
}
static const cairo_surface_backend_t cairo_xlib_surface_backend = {
CAIRO_SURFACE_TYPE_XLIB,
_cairo_xlib_surface_create_similar,
_cairo_xlib_surface_finish,
_cairo_xlib_surface_acquire_source_image,
_cairo_xlib_surface_release_source_image,
_cairo_xlib_surface_acquire_dest_image,
_cairo_xlib_surface_release_dest_image,
_cairo_xlib_surface_clone_similar,
_cairo_xlib_surface_composite,
_cairo_xlib_surface_fill_rectangles,
_cairo_xlib_surface_composite_trapezoids,
NULL, /* create_span_renderer */
NULL, /* check_span_renderer */
NULL, /* copy_page */
NULL, /* show_page */
_cairo_xlib_surface_set_clip_region,
NULL, /* intersect_clip_path */
_cairo_xlib_surface_get_extents,
NULL, /* old_show_glyphs */
_cairo_xlib_surface_get_font_options,
NULL, /* flush */
NULL, /* mark_dirty_rectangle */
_cairo_xlib_surface_scaled_font_fini,
_cairo_xlib_surface_scaled_glyph_fini,
NULL, /* paint */
NULL, /* mask */
NULL, /* stroke */
NULL, /* fill */
_cairo_xlib_surface_show_glyphs,
NULL, /* snapshot */
_cairo_xlib_surface_is_similar,
_cairo_xlib_surface_reset,
NULL, /* fill_stroke */
_cairo_xlib_surface_create_solid_pattern_surface,
_cairo_xlib_surface_can_repaint_solid_pattern_surface
};
/**
* _cairo_surface_is_xlib:
* @surface: a #cairo_surface_t
*
* Checks if a surface is a #cairo_xlib_surface_t
*
* Return value: True if the surface is an xlib surface
**/
static cairo_bool_t
_cairo_surface_is_xlib (cairo_surface_t *surface)
{
return surface->backend == &cairo_xlib_surface_backend;
}
/* callback from CloseDisplay */
static void
_cairo_xlib_surface_detach_display (cairo_xlib_display_t *display, void *data)
{
cairo_xlib_surface_t *surface = cairo_container_of (data,
cairo_xlib_surface_t,
close_display_hook);
Display *dpy;
dpy = surface->dpy;
surface->dpy = NULL;
if (surface->dst_picture != None) {
XRenderFreePicture (dpy, surface->dst_picture);
surface->dst_picture = None;
}
if (surface->src_picture != None) {
XRenderFreePicture (dpy, surface->src_picture);
surface->src_picture = None;
}
if (surface->owns_pixmap) {
XFreePixmap (dpy, surface->drawable);
surface->drawable = None;
surface->owns_pixmap = FALSE;
}
if (surface->gc != NULL) {
XFreeGC (dpy, surface->gc);
surface->gc = NULL;
}
}
static cairo_surface_t *
_cairo_xlib_surface_create_internal (Display *dpy,
Drawable drawable,
Screen *screen,
Visual *visual,
XRenderPictFormat *xrender_format,
int width,
int height,
int depth)
{
cairo_xlib_surface_t *surface;
cairo_xlib_display_t *display;
cairo_xlib_screen_info_t *screen_info;
cairo_status_t status;
CAIRO_MUTEX_INITIALIZE ();
if (xrender_format) {
depth = xrender_format->depth;
/* XXX find matching visual for core/dithering fallbacks? */
} else if (visual) {
int j, k;
/* This is ugly, but we have to walk over all visuals
* for the display to find the correct depth.
*/
depth = 0;
for (j = 0; j < screen->ndepths; j++) {
Depth *d = &screen->depths[j];
for (k = 0; k < d->nvisuals; k++) {
if (&d->visuals[k] == visual) {
depth = d->depth;
goto found;
}
}
}
found:
;
}
if (depth == 0)
return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_INVALID_VISUAL));
status = _cairo_xlib_display_get (dpy, &display);
if (unlikely (status))
return _cairo_surface_create_in_error (status);
status = _cairo_xlib_screen_info_get (display, screen, &screen_info);
if (unlikely (status)) {
_cairo_xlib_display_destroy (display);
return _cairo_surface_create_in_error (status);
}
surface = malloc (sizeof (cairo_xlib_surface_t));
if (unlikely (surface == NULL)) {
_cairo_xlib_screen_info_destroy (screen_info);
_cairo_xlib_display_destroy (display);
return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY));
}
/* initialize and hook into the CloseDisplay callback */
surface->close_display_hook.func = _cairo_xlib_surface_detach_display;
_cairo_xlib_add_close_display_hook (display, &surface->close_display_hook);
surface->render_major = display->render_major;
surface->render_minor = display->render_minor;
if (CAIRO_SURFACE_RENDER_HAS_CREATE_PICTURE (surface)) {
if (!xrender_format) {
if (visual) {
xrender_format = XRenderFindVisualFormat (dpy, visual);
} else if (depth == 1) {
xrender_format =
_cairo_xlib_display_get_xrender_format (display,
CAIRO_FORMAT_A1);
}
}
} else {
xrender_format = NULL;
}
/* we cannot use XRender for this surface, so ensure we don't try */
if (xrender_format == NULL) {
surface->render_major = -1;
surface->render_minor = -1;
}
_cairo_surface_init (&surface->base, &cairo_xlib_surface_backend,
_xrender_format_to_content (xrender_format));
surface->dpy = dpy;
surface->display = display;
surface->screen_info = screen_info;
surface->gc = NULL;
surface->drawable = drawable;
surface->screen = screen;
surface->owns_pixmap = FALSE;
surface->use_pixmap = 0;
surface->width = width;
surface->height = height;
surface->buggy_repeat = screen_info->display->buggy_repeat;
if (!CAIRO_SURFACE_RENDER_HAS_FILL_RECTANGLES (surface)) {
/* so we can use the XTile fallback */
surface->buggy_repeat = TRUE;
}
surface->dst_picture = None;
surface->src_picture = None;
surface->visual = visual;
surface->xrender_format = xrender_format;
surface->depth = depth;
surface->filter = CAIRO_FILTER_NEAREST;
surface->repeat = FALSE;
surface->xtransform = identity;
surface->have_clip_rects = FALSE;
surface->gc_has_clip_rects = FALSE;
surface->clip_rects = surface->embedded_clip_rects;
surface->num_clip_rects = 0;
surface->clip_dirty = 0;
/*
* Compute the pixel format masks from either a XrenderFormat or
* else from a visual; failing that we assume the drawable is an
* alpha-only pixmap as it could only have been created that way
* through the cairo_xlib_surface_create_for_bitmap function.
*/
if (xrender_format) {
surface->a_mask = (unsigned long)
surface->xrender_format->direct.alphaMask
<< surface->xrender_format->direct.alpha;
surface->r_mask = (unsigned long)
surface->xrender_format->direct.redMask
<< surface->xrender_format->direct.red;
surface->g_mask = (unsigned long)
surface->xrender_format->direct.greenMask
<< surface->xrender_format->direct.green;
surface->b_mask = (unsigned long)
surface->xrender_format->direct.blueMask
<< surface->xrender_format->direct.blue;
} else if (visual) {
surface->a_mask = 0;
surface->r_mask = visual->red_mask;
surface->g_mask = visual->green_mask;
surface->b_mask = visual->blue_mask;
} else {
if (depth < 32)
surface->a_mask = (1 << depth) - 1;
else
surface->a_mask = 0xffffffff;
surface->r_mask = 0;
surface->g_mask = 0;
surface->b_mask = 0;
}
return (cairo_surface_t *) surface;
}
static Screen *
_cairo_xlib_screen_from_visual (Display *dpy, Visual *visual)
{
int s;
int d;
int v;
Screen *screen;
Depth *depth;
for (s = 0; s < ScreenCount (dpy); s++) {
screen = ScreenOfDisplay (dpy, s);
if (visual == DefaultVisualOfScreen (screen))
return screen;
for (d = 0; d < screen->ndepths; d++) {
depth = &screen->depths[d];
for (v = 0; v < depth->nvisuals; v++)
if (visual == &depth->visuals[v])
return screen;
}
}
return NULL;
}
/**
* cairo_xlib_surface_create:
* @dpy: an X Display
* @drawable: an X Drawable, (a Pixmap or a Window)
* @visual: the visual to use for drawing to @drawable. The depth
* of the visual must match the depth of the drawable.
* Currently, only TrueColor visuals are fully supported.
* @width: the current width of @drawable.
* @height: the current height of @drawable.
*
* Creates an Xlib surface that draws to the given drawable.
* The way that colors are represented in the drawable is specified
* by the provided visual.
*
* Note: If @drawable is a Window, then the function
* cairo_xlib_surface_set_size() must be called whenever the size of the
* window changes.
*
* When @drawable is a Window containing child windows then drawing to
* the created surface will be clipped by those child windows. When
* the created surface is used as a source, the contents of the
* children will be included.
*
* Return value: the newly created surface
**/
cairo_surface_t *
cairo_xlib_surface_create (Display *dpy,
Drawable drawable,
Visual *visual,
int width,
int height)
{
Screen *screen = _cairo_xlib_screen_from_visual (dpy, visual);
if (screen == NULL)
return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_INVALID_VISUAL));
return _cairo_xlib_surface_create_internal (dpy, drawable, screen,
visual, NULL, width, height, 0);
}
/**
* cairo_xlib_surface_create_for_bitmap:
* @dpy: an X Display
* @bitmap: an X Drawable, (a depth-1 Pixmap)
* @screen: the X Screen associated with @bitmap
* @width: the current width of @bitmap.
* @height: the current height of @bitmap.
*
* Creates an Xlib surface that draws to the given bitmap.
* This will be drawn to as a %CAIRO_FORMAT_A1 object.
*
* Return value: the newly created surface
**/
cairo_surface_t *
cairo_xlib_surface_create_for_bitmap (Display *dpy,
Pixmap bitmap,
Screen *screen,
int width,
int height)
{
return _cairo_xlib_surface_create_internal (dpy, bitmap, screen,
NULL, NULL, width, height, 1);
}
#if CAIRO_HAS_XLIB_XRENDER_SURFACE
/**
* cairo_xlib_surface_create_with_xrender_format:
* @dpy: an X Display
* @drawable: an X Drawable, (a Pixmap or a Window)
* @screen: the X Screen associated with @drawable
* @format: the picture format to use for drawing to @drawable. The depth
* of @format must match the depth of the drawable.
* @width: the current width of @drawable.
* @height: the current height of @drawable.
*
* Creates an Xlib surface that draws to the given drawable.
* The way that colors are represented in the drawable is specified
* by the provided picture format.
*
* Note: If @drawable is a Window, then the function
* cairo_xlib_surface_set_size() must be called whenever the size of the
* window changes.
*
* Return value: the newly created surface
**/
cairo_surface_t *
cairo_xlib_surface_create_with_xrender_format (Display *dpy,
Drawable drawable,
Screen *screen,
XRenderPictFormat *format,
int width,
int height)
{
return _cairo_xlib_surface_create_internal (dpy, drawable, screen,
NULL, format, width, height, 0);
}
/**
* cairo_xlib_surface_get_xrender_format:
* @surface: an xlib surface
*
* Gets the X Render picture format that @surface uses for rendering with the
* X Render extension. If the surface was created by
* cairo_xlib_surface_create_with_xrender_format() originally, the return
* value is the format passed to that constructor.
*
* Return value: the XRenderPictFormat* associated with @surface,
* or %NULL if the surface is not an xlib surface
* or if the X Render extension is not available.
*
* Since: 1.6
**/
XRenderPictFormat *
cairo_xlib_surface_get_xrender_format (cairo_surface_t *surface)
{
cairo_xlib_surface_t *xlib_surface = (cairo_xlib_surface_t *) surface;
/* Throw an error for a non-xlib surface */
if (! _cairo_surface_is_xlib (surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return NULL;
}
return xlib_surface->xrender_format;
}
#endif
/**
* cairo_xlib_surface_set_size:
* @surface: a #cairo_surface_t for the XLib backend
* @width: the new width of the surface
* @height: the new height of the surface
*
* Informs cairo of the new size of the X Drawable underlying the
* surface. For a surface created for a Window (rather than a Pixmap),
* this function must be called each time the size of the window
* changes. (For a subwindow, you are normally resizing the window
* yourself, but for a toplevel window, it is necessary to listen for
* ConfigureNotify events.)
*
* A Pixmap can never change size, so it is never necessary to call
* this function on a surface created for a Pixmap.
**/
void
cairo_xlib_surface_set_size (cairo_surface_t *abstract_surface,
int width,
int height)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
cairo_status_t status;
if (! _cairo_surface_is_xlib (abstract_surface)) {
status = _cairo_surface_set_error (abstract_surface,
CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return;
}
surface->width = width;
surface->height = height;
}
/**
* cairo_xlib_surface_set_drawable:
* @surface: a #cairo_surface_t for the XLib backend
* @drawable: the new drawable for the surface
* @width: the width of the new drawable
* @height: the height of the new drawable
*
* Informs cairo of a new X Drawable underlying the
* surface. The drawable must match the display, screen
* and format of the existing drawable or the application
* will get X protocol errors and will probably terminate.
* No checks are done by this function to ensure this
* compatibility.
**/
void
cairo_xlib_surface_set_drawable (cairo_surface_t *abstract_surface,
Drawable drawable,
int width,
int height)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *)abstract_surface;
cairo_status_t status;
if (! _cairo_surface_is_xlib (abstract_surface)) {
status = _cairo_surface_set_error (abstract_surface,
CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return;
}
/* XXX: and what about this case? */
if (surface->owns_pixmap)
return;
if (surface->drawable != drawable) {
if (surface->dst_picture != None) {
status = _cairo_xlib_display_queue_resource (
surface->display,
XRenderFreePicture,
surface->dst_picture);
if (unlikely (status)) {
status = _cairo_surface_set_error (&surface->base, status);
return;
}
surface->dst_picture = None;
}
if (surface->src_picture != None) {
status = _cairo_xlib_display_queue_resource (
surface->display,
XRenderFreePicture,
surface->src_picture);
if (unlikely (status)) {
status = _cairo_surface_set_error (&surface->base, status);
return;
}
surface->src_picture = None;
}
surface->drawable = drawable;
}
surface->width = width;
surface->height = height;
}
/**
* cairo_xlib_surface_get_display:
* @surface: a #cairo_xlib_surface_t
*
* Get the X Display for the underlying X Drawable.
*
* Return value: the display.
*
* Since: 1.2
**/
Display *
cairo_xlib_surface_get_display (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return NULL;
}
return surface->dpy;
}
/**
* cairo_xlib_surface_get_drawable:
* @surface: a #cairo_xlib_surface_t
*
* Get the underlying X Drawable used for the surface.
*
* Return value: the drawable.
*
* Since: 1.2
**/
Drawable
cairo_xlib_surface_get_drawable (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return 0;
}
return surface->drawable;
}
/**
* cairo_xlib_surface_get_screen:
* @surface: a #cairo_xlib_surface_t
*
* Get the X Screen for the underlying X Drawable.
*
* Return value: the screen.
*
* Since: 1.2
**/
Screen *
cairo_xlib_surface_get_screen (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return NULL;
}
return surface->screen;
}
/**
* cairo_xlib_surface_get_visual:
* @surface: a #cairo_xlib_surface_t
*
* Get the X Visual used for underlying X Drawable.
*
* Return value: the visual.
*
* Since: 1.2
**/
Visual *
cairo_xlib_surface_get_visual (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return NULL;
}
return surface->visual;
}
/**
* cairo_xlib_surface_get_depth:
* @surface: a #cairo_xlib_surface_t
*
* Get the number of bits used to represent each pixel value.
*
* Return value: the depth of the surface in bits.
*
* Since: 1.2
**/
int
cairo_xlib_surface_get_depth (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return 0;
}
return surface->depth;
}
/**
* cairo_xlib_surface_get_width:
* @surface: a #cairo_xlib_surface_t
*
* Get the width of the X Drawable underlying the surface in pixels.
*
* Return value: the width of the surface in pixels.
*
* Since: 1.2
**/
int
cairo_xlib_surface_get_width (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return -1;
}
return surface->width;
}
/**
* cairo_xlib_surface_get_height:
* @surface: a #cairo_xlib_surface_t
*
* Get the height of the X Drawable underlying the surface in pixels.
*
* Return value: the height of the surface in pixels.
*
* Since: 1.2
**/
int
cairo_xlib_surface_get_height (cairo_surface_t *abstract_surface)
{
cairo_xlib_surface_t *surface = (cairo_xlib_surface_t *) abstract_surface;
if (! _cairo_surface_is_xlib (abstract_surface)) {
_cairo_error_throw (CAIRO_STATUS_SURFACE_TYPE_MISMATCH);
return -1;
}
return surface->height;
}
enum {
GLYPHSET_INDEX_ARGB32,
GLYPHSET_INDEX_A8,
GLYPHSET_INDEX_A1,
NUM_GLYPHSETS
};
typedef struct _cairo_xlib_font_glyphset_free_glyphs {
GlyphSet glyphset;
int glyph_count;
unsigned long glyph_indices[128];
} cairo_xlib_font_glyphset_free_glyphs_t;
typedef struct _cairo_xlib_font_glyphset_info {
GlyphSet glyphset;
cairo_format_t format;
XRenderPictFormat *xrender_format;
cairo_xlib_font_glyphset_free_glyphs_t *pending_free_glyphs;
} cairo_xlib_font_glyphset_info_t;
typedef struct _cairo_xlib_surface_font_private {
cairo_scaled_font_t *scaled_font;
cairo_xlib_hook_t close_display_hook;
cairo_xlib_display_t *display;
cairo_xlib_font_glyphset_info_t glyphset_info[NUM_GLYPHSETS];
} cairo_xlib_surface_font_private_t;
/* callback from CloseDisplay */
static void
_cairo_xlib_surface_remove_scaled_font (cairo_xlib_display_t *display,
void *data)
{
cairo_xlib_surface_font_private_t *font_private;
cairo_scaled_font_t *scaled_font;
font_private = cairo_container_of (data,
cairo_xlib_surface_font_private_t,
close_display_hook);
scaled_font = font_private->scaled_font;
CAIRO_MUTEX_LOCK (scaled_font->mutex);
font_private = scaled_font->surface_private;
scaled_font->surface_private = NULL;
_cairo_scaled_font_reset_cache (scaled_font);
CAIRO_MUTEX_UNLOCK (scaled_font->mutex);
if (font_private != NULL) {
Display *dpy;
int i;
dpy = display->display;
for (i = 0; i < NUM_GLYPHSETS; i++) {
cairo_xlib_font_glyphset_info_t *glyphset_info;
glyphset_info = &font_private->glyphset_info[i];
if (glyphset_info->glyphset)
XRenderFreeGlyphSet (dpy, glyphset_info->glyphset);
if (glyphset_info->pending_free_glyphs != NULL)
free (glyphset_info->pending_free_glyphs);
}
_cairo_xlib_display_destroy (font_private->display);
free (font_private);
}
}
static cairo_status_t
_cairo_xlib_surface_font_init (Display *dpy,
cairo_scaled_font_t *scaled_font)
{
cairo_xlib_surface_font_private_t *font_private;
cairo_status_t status;
int i;
font_private = malloc (sizeof (cairo_xlib_surface_font_private_t));
if (unlikely (font_private == NULL))
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
font_private->scaled_font = scaled_font;
status = _cairo_xlib_display_get (dpy, &font_private->display);
if (unlikely (status)) {
free (font_private);
return status;
}
/* initialize and hook into the CloseDisplay callback */
font_private->close_display_hook.func =
_cairo_xlib_surface_remove_scaled_font;
_cairo_xlib_add_close_display_hook (font_private->display,
&font_private->close_display_hook);
for (i = 0; i < NUM_GLYPHSETS; i++) {
cairo_xlib_font_glyphset_info_t *glyphset_info = &font_private->glyphset_info[i];
switch (i) {
case GLYPHSET_INDEX_ARGB32: glyphset_info->format = CAIRO_FORMAT_ARGB32; break;
case GLYPHSET_INDEX_A8: glyphset_info->format = CAIRO_FORMAT_A8; break;
case GLYPHSET_INDEX_A1: glyphset_info->format = CAIRO_FORMAT_A1; break;
default: ASSERT_NOT_REACHED; break;
}
glyphset_info->xrender_format = NULL;
glyphset_info->glyphset = None;
glyphset_info->pending_free_glyphs = NULL;
}
scaled_font->surface_private = font_private;
scaled_font->surface_backend = &cairo_xlib_surface_backend;
return CAIRO_STATUS_SUCCESS;
}
static void
_cairo_xlib_surface_scaled_font_fini (cairo_scaled_font_t *scaled_font)
{
cairo_xlib_surface_font_private_t *font_private;
font_private = scaled_font->surface_private;
if (font_private != NULL) {
cairo_xlib_display_t *display;
int i;
display = font_private->display;
_cairo_xlib_remove_close_display_hook (display,
&font_private->close_display_hook);
for (i = 0; i < NUM_GLYPHSETS; i++) {
cairo_xlib_font_glyphset_info_t *glyphset_info;
glyphset_info = &font_private->glyphset_info[i];
if (glyphset_info->pending_free_glyphs != NULL)
free (glyphset_info->pending_free_glyphs);
if (glyphset_info->glyphset) {
cairo_status_t status;
status = _cairo_xlib_display_queue_resource (display,
XRenderFreeGlyphSet,
glyphset_info->glyphset);
(void) status; /* XXX cannot propagate failure */
}
}
_cairo_xlib_display_destroy (display);
free (font_private);
}
}
static void
_cairo_xlib_render_free_glyphs (Display *dpy,
cairo_xlib_font_glyphset_free_glyphs_t *to_free)
{
XRenderFreeGlyphs (dpy,
to_free->glyphset,
to_free->glyph_indices,
to_free->glyph_count);
}
static cairo_xlib_font_glyphset_info_t *
_cairo_xlib_scaled_glyph_get_glyphset_info (cairo_scaled_glyph_t *scaled_glyph)
{
return scaled_glyph->surface_private;
}
static void
_cairo_xlib_scaled_glyph_set_glyphset_info (cairo_scaled_glyph_t *scaled_glyph,
cairo_xlib_font_glyphset_info_t *glyphset_info)
{
scaled_glyph->surface_private = glyphset_info;
}
static void
_cairo_xlib_surface_scaled_glyph_fini (cairo_scaled_glyph_t *scaled_glyph,
cairo_scaled_font_t *scaled_font)
{
cairo_xlib_surface_font_private_t *font_private;
cairo_xlib_font_glyphset_info_t *glyphset_info;
if (scaled_font->finished)
return;
font_private = scaled_font->surface_private;
glyphset_info = _cairo_xlib_scaled_glyph_get_glyphset_info (scaled_glyph);
if (font_private != NULL && glyphset_info != NULL) {
cairo_xlib_font_glyphset_free_glyphs_t *to_free;
cairo_status_t status;
to_free = glyphset_info->pending_free_glyphs;
if (to_free != NULL &&
to_free->glyph_count == ARRAY_LENGTH (to_free->glyph_indices))
{
status = _cairo_xlib_display_queue_work (font_private->display,
(cairo_xlib_notify_func) _cairo_xlib_render_free_glyphs,
to_free,
free);
/* XXX cannot propagate failure */
if (unlikely (status))
free (to_free);
to_free = glyphset_info->pending_free_glyphs = NULL;
}
if (to_free == NULL) {
to_free = malloc (sizeof (cairo_xlib_font_glyphset_free_glyphs_t));
if (unlikely (to_free == NULL)) {
_cairo_error_throw (CAIRO_STATUS_NO_MEMORY);
return; /* XXX cannot propagate failure */
}
to_free->glyphset = glyphset_info->glyphset;
to_free->glyph_count = 0;
glyphset_info->pending_free_glyphs = to_free;
}
to_free->glyph_indices[to_free->glyph_count++] =
_cairo_scaled_glyph_index (scaled_glyph);
}
}
static cairo_bool_t
_native_byte_order_lsb (void)
{
int x = 1;
return *((char *) &x) == 1;
}
static cairo_xlib_font_glyphset_info_t *
_cairo_xlib_scaled_font_get_glyphset_info_for_format (cairo_scaled_font_t *scaled_font,
cairo_format_t format)
{
cairo_xlib_surface_font_private_t *font_private;
cairo_xlib_font_glyphset_info_t *glyphset_info;
int glyphset_index;
switch (format) {
default:
case CAIRO_FORMAT_RGB24:
case CAIRO_FORMAT_ARGB32: glyphset_index = GLYPHSET_INDEX_ARGB32; break;
case CAIRO_FORMAT_A8: glyphset_index = GLYPHSET_INDEX_A8; break;
case CAIRO_FORMAT_A1: glyphset_index = GLYPHSET_INDEX_A1; break;
}
font_private = scaled_font->surface_private;
glyphset_info = &font_private->glyphset_info[glyphset_index];
if (glyphset_info->glyphset == None) {
cairo_xlib_display_t *display = font_private->display;
glyphset_info->xrender_format =
_cairo_xlib_display_get_xrender_format (display,
glyphset_info->format);
glyphset_info->glyphset = XRenderCreateGlyphSet (display->display,
glyphset_info->xrender_format);
}
return glyphset_info;
}
static cairo_bool_t
_cairo_xlib_glyphset_info_has_pending_free_glyph (
cairo_xlib_font_glyphset_info_t *glyphset_info,
unsigned long glyph_index)
{
if (glyphset_info->pending_free_glyphs != NULL) {
cairo_xlib_font_glyphset_free_glyphs_t *to_free;
int i;
to_free = glyphset_info->pending_free_glyphs;
for (i = 0; i < to_free->glyph_count; i++) {
if (to_free->glyph_indices[i] == glyph_index) {
to_free->glyph_count--;
memmove (&to_free->glyph_indices[i],
&to_free->glyph_indices[i+1],
(to_free->glyph_count - i) * sizeof (to_free->glyph_indices[0]));
return TRUE;
}
}
}
return FALSE;
}
static cairo_xlib_font_glyphset_info_t *
_cairo_xlib_scaled_font_get_glyphset_info_for_pending_free_glyph (
cairo_scaled_font_t *scaled_font,
unsigned long glyph_index,
cairo_image_surface_t *surface)
{
cairo_xlib_surface_font_private_t *font_private;
int i;
font_private = scaled_font->surface_private;
if (font_private == NULL)
return NULL;
if (surface != NULL) {
switch (surface->format) {
default:
case CAIRO_FORMAT_RGB24:
case CAIRO_FORMAT_ARGB32: i = GLYPHSET_INDEX_ARGB32; break;
case CAIRO_FORMAT_A8: i = GLYPHSET_INDEX_A8; break;
case CAIRO_FORMAT_A1: i = GLYPHSET_INDEX_A1; break;
}
if (_cairo_xlib_glyphset_info_has_pending_free_glyph (
&font_private->glyphset_info[i],
glyph_index))
{
return &font_private->glyphset_info[i];
}
} else {
for (i = 0; i < NUM_GLYPHSETS; i++) {
if (_cairo_xlib_glyphset_info_has_pending_free_glyph (
&font_private->glyphset_info[i],
glyph_index))
{
return &font_private->glyphset_info[i];
}
}
}
return NULL;
}
static cairo_status_t
_cairo_xlib_surface_add_glyph (Display *dpy,
cairo_scaled_font_t *scaled_font,
cairo_scaled_glyph_t **pscaled_glyph)
{
XGlyphInfo glyph_info;
unsigned long glyph_index;
unsigned char *data;
cairo_status_t status = CAIRO_STATUS_SUCCESS;
cairo_scaled_glyph_t *scaled_glyph = *pscaled_glyph;
cairo_image_surface_t *glyph_surface = scaled_glyph->surface;
cairo_bool_t already_had_glyph_surface;
cairo_xlib_font_glyphset_info_t *glyphset_info;
glyph_index = _cairo_scaled_glyph_index (scaled_glyph);
/* check to see if we have a pending XRenderFreeGlyph for this glyph */
glyphset_info = _cairo_xlib_scaled_font_get_glyphset_info_for_pending_free_glyph (scaled_font, glyph_index, glyph_surface);
if (glyphset_info != NULL) {
_cairo_xlib_scaled_glyph_set_glyphset_info (scaled_glyph, glyphset_info);
return CAIRO_STATUS_SUCCESS;
}
if (!glyph_surface) {
status = _cairo_scaled_glyph_lookup (scaled_font,
glyph_index,
CAIRO_SCALED_GLYPH_INFO_METRICS |
CAIRO_SCALED_GLYPH_INFO_SURFACE,
pscaled_glyph);
if (unlikely (status))
return status;
scaled_glyph = *pscaled_glyph;
glyph_surface = scaled_glyph->surface;
already_had_glyph_surface = FALSE;
} else {
already_had_glyph_surface = TRUE;
}
if (scaled_font->surface_private == NULL) {
status = _cairo_xlib_surface_font_init (dpy, scaled_font);
if (unlikely (status))
return status;
}
glyphset_info = _cairo_xlib_scaled_font_get_glyphset_info_for_format (scaled_font,
glyph_surface->format);
/* XRenderAddGlyph does not handle a glyph surface larger than the extended maximum XRequest size. */
{
int len = cairo_format_stride_for_width (glyphset_info->format, glyph_surface->width) * glyph_surface->height;
int max_request_size = (XExtendedMaxRequestSize (dpy) ? XExtendedMaxRequestSize (dpy) : XMaxRequestSize (dpy)) * 4 -
sz_xRenderAddGlyphsReq -
sz_xGlyphInfo -
8;
if (len >= max_request_size)
return CAIRO_INT_STATUS_UNSUPPORTED;
}
/* If the glyph surface has zero height or width, we create
* a clear 1x1 surface, to avoid various X server bugs.
*/
if (glyph_surface->width == 0 || glyph_surface->height == 0) {
cairo_t *cr;
cairo_surface_t *tmp_surface;
tmp_surface = cairo_image_surface_create (glyphset_info->format, 1, 1);
status = tmp_surface->status;
if (unlikely (status))
goto BAIL;
cr = cairo_create (tmp_surface);
cairo_set_operator (cr, CAIRO_OPERATOR_CLEAR);
cairo_paint (cr);
status = cairo_status (cr);
cairo_destroy (cr);
tmp_surface->device_transform = glyph_surface->base.device_transform;
tmp_surface->device_transform_inverse = glyph_surface->base.device_transform_inverse;
glyph_surface = (cairo_image_surface_t *) tmp_surface;
if (unlikely (status))
goto BAIL;
}
/* If the glyph format does not match the font format, then we
* create a temporary surface for the glyph image with the font's
* format.
*/
if (glyph_surface->format != glyphset_info->format) {
cairo_t *cr;
cairo_surface_t *tmp_surface;
tmp_surface = cairo_image_surface_create (glyphset_info->format,
glyph_surface->width,
glyph_surface->height);
status = tmp_surface->status;
if (unlikely (status))
goto BAIL;
tmp_surface->device_transform = glyph_surface->base.device_transform;
tmp_surface->device_transform_inverse = glyph_surface->base.device_transform_inverse;
cr = cairo_create (tmp_surface);
cairo_set_source_surface (cr, &glyph_surface->base, 0, 0);
cairo_set_operator (cr, CAIRO_OPERATOR_SOURCE);
cairo_paint (cr);
status = cairo_status (cr);
cairo_destroy (cr);
glyph_surface = (cairo_image_surface_t *) tmp_surface;
if (unlikely (status))
goto BAIL;
}
/* XXX: FRAGILE: We're ignore device_transform scaling here. A bug? */
glyph_info.x = _cairo_lround (glyph_surface->base.device_transform.x0);
glyph_info.y = _cairo_lround (glyph_surface->base.device_transform.y0);
glyph_info.width = glyph_surface->width;
glyph_info.height = glyph_surface->height;
glyph_info.xOff = scaled_glyph->x_advance;
glyph_info.yOff = scaled_glyph->y_advance;
data = glyph_surface->data;
/* flip formats around */
switch (scaled_glyph->surface->format) {
case CAIRO_FORMAT_A1:
/* local bitmaps are always stored with bit == byte */
if (_native_byte_order_lsb() != (BitmapBitOrder (dpy) == LSBFirst)) {
int c = glyph_surface->stride * glyph_surface->height;
unsigned char *d;
unsigned char *new, *n;
new = malloc (c);
if (!new) {
status = _cairo_error (CAIRO_STATUS_NO_MEMORY);
goto BAIL;
}
n = new;
d = data;
while (c--)
{
char b = *d++;
b = ((b << 1) & 0xaa) | ((b >> 1) & 0x55);
b = ((b << 2) & 0xcc) | ((b >> 2) & 0x33);
b = ((b << 4) & 0xf0) | ((b >> 4) & 0x0f);
*n++ = b;
}
data = new;
}
break;
case CAIRO_FORMAT_A8:
break;
case CAIRO_FORMAT_ARGB32:
if (_native_byte_order_lsb() != (ImageByteOrder (dpy) == LSBFirst)) {
unsigned int c = glyph_surface->stride * glyph_surface->height;
unsigned char *d;
unsigned char *new, *n;
new = malloc (c);
if (unlikely (new == NULL)) {
status = _cairo_error (CAIRO_STATUS_NO_MEMORY);
goto BAIL;
}
n = new;
d = data;
while (c >= 4)
{
n[3] = d[0];
n[2] = d[1];
n[1] = d[2];
n[0] = d[3];
d += 4;
n += 4;
c -= 4;
}
data = new;
}
break;
case CAIRO_FORMAT_RGB24:
default:
ASSERT_NOT_REACHED;
break;
}
/* XXX assume X server wants pixman padding. Xft assumes this as well */
XRenderAddGlyphs (dpy, glyphset_info->glyphset,
&glyph_index, &glyph_info, 1,
(char *) data,
glyph_surface->stride * glyph_surface->height);
if (data != glyph_surface->data)
free (data);
_cairo_xlib_scaled_glyph_set_glyphset_info (scaled_glyph, glyphset_info);
BAIL:
if (glyph_surface != scaled_glyph->surface)
cairo_surface_destroy (&glyph_surface->base);
/* if the scaled glyph didn't already have a surface attached
* to it, release the created surface now that we have it
* uploaded to the X server. If the surface has already been
* there (eg. because image backend requested it), leave it in
* the cache
*/
if (!already_had_glyph_surface)
_cairo_scaled_glyph_set_surface (scaled_glyph, scaled_font, NULL);
return status;
}
typedef void (*cairo_xrender_composite_text_func_t)
(Display *dpy,
int op,
Picture src,
Picture dst,
_Xconst XRenderPictFormat *maskFormat,
int xSrc,
int ySrc,
int xDst,
int yDst,
_Xconst XGlyphElt8 *elts,
int nelt);
/* Build a struct of the same size of #cairo_glyph_t that can be used both as
* an input glyph with double coordinates, and as "working" glyph with
* integer from-current-point offsets. */
typedef union {
cairo_glyph_t d;
unsigned long index;
struct {
unsigned long index;
int x;
int y;
} i;
} cairo_xlib_glyph_t;
/* compile-time assert that #cairo_xlib_glyph_t is the same size as #cairo_glyph_t */
COMPILE_TIME_ASSERT (sizeof (cairo_xlib_glyph_t) == sizeof (cairo_glyph_t));
/* Start a new element for the first glyph,
* or for any glyph that has unexpected position,
* or if current element has too many glyphs
* (Xrender limits each element to 252 glyphs, we limit them to 128)
*
* These same conditions need to be mirrored between
* _cairo_xlib_surface_emit_glyphs and _emit_glyph_chunks
*/
#define _start_new_glyph_elt(count, glyph) \
(((count) & 127) == 0 || (glyph)->i.x || (glyph)->i.y)
static cairo_status_t
_emit_glyphs_chunk (cairo_xlib_surface_t *dst,
cairo_xlib_glyph_t *glyphs,
int num_glyphs,
cairo_scaled_font_t *scaled_font,
cairo_operator_t op,
cairo_xlib_surface_t *src,
cairo_surface_attributes_t *attributes,
/* info for this chunk */
int num_elts,
int width,
cairo_xlib_font_glyphset_info_t *glyphset_info)
{
/* Which XRenderCompositeText function to use */
cairo_xrender_composite_text_func_t composite_text_func;
int size;
/* Element buffer stuff */
XGlyphElt8 *elts;
XGlyphElt8 stack_elts[CAIRO_STACK_ARRAY_LENGTH (XGlyphElt8)];
/* Reuse the input glyph array for output char generation */
char *char8 = (char *) glyphs;
unsigned short *char16 = (unsigned short *) glyphs;
unsigned int *char32 = (unsigned int *) glyphs;
int i;
int nelt; /* Element index */
int n; /* Num output glyphs in current element */
int j; /* Num output glyphs so far */
switch (width) {
case 1:
/* don't cast the 8-variant, to catch possible mismatches */
composite_text_func = XRenderCompositeText8;
size = sizeof (char);
break;
case 2:
composite_text_func = (cairo_xrender_composite_text_func_t) XRenderCompositeText16;
size = sizeof (unsigned short);
break;
default:
case 4:
composite_text_func = (cairo_xrender_composite_text_func_t) XRenderCompositeText32;
size = sizeof (unsigned int);
}
/* Allocate element array */
if (num_elts <= ARRAY_LENGTH (stack_elts)) {
elts = stack_elts;
} else {
elts = _cairo_malloc_ab (num_elts, sizeof (XGlyphElt8));
if (unlikely (elts == NULL))
return _cairo_error (CAIRO_STATUS_NO_MEMORY);
}
/* Fill them in */
nelt = 0;
n = 0;
j = 0;
for (i = 0; i < num_glyphs; i++) {
/* Start a new element for first output glyph,
* or for any glyph that has unexpected position,
* or if current element has too many glyphs.
*
* These same conditions are mirrored in _cairo_xlib_surface_emit_glyphs()
*/
if (_start_new_glyph_elt (j, &glyphs[i])) {
if (j) {
elts[nelt].nchars = n;
nelt++;
n = 0;
}
elts[nelt].chars = char8 + size * j;
elts[nelt].glyphset = glyphset_info->glyphset;
elts[nelt].xOff = glyphs[i].i.x;
elts[nelt].yOff = glyphs[i].i.y;
}
switch (width) {
case 1: char8 [j] = (char) glyphs[i].index; break;
case 2: char16[j] = (unsigned short) glyphs[i].index; break;
default:
case 4: char32[j] = (unsigned int) glyphs[i].index; break;
}
n++;
j++;
}
if (n) {
elts[nelt].nchars = n;
nelt++;
n = 0;
}
/* Check that we agree with _cairo_xlib_surface_emit_glyphs() on the
* expected number of xGlyphElts. */
assert (nelt == num_elts);
composite_text_func (dst->dpy,
_render_operator (op),
src->src_picture,
dst->dst_picture,
glyphset_info->xrender_format,
attributes->x_offset + elts[0].xOff,
attributes->y_offset + elts[0].yOff,
elts[0].xOff, elts[0].yOff,
(XGlyphElt8 *) elts, nelt);
if (elts != stack_elts)
free (elts);
return CAIRO_STATUS_SUCCESS;
}
/* sz_xGlyphtElt required alignment to a 32-bit boundary, so ensure we have
* enough room for padding */
#define _cairo_sz_xGlyphElt (sz_xGlyphElt + 4)
static cairo_status_t
_cairo_xlib_surface_emit_glyphs (cairo_xlib_surface_t *dst,
cairo_xlib_glyph_t *glyphs,
int num_glyphs,
cairo_scaled_font_t *scaled_font,
cairo_operator_t op,
cairo_xlib_surface_t *src,
cairo_surface_attributes_t *attributes,
int *remaining_glyphs)
{
int i;
cairo_status_t status = CAIRO_STATUS_SUCCESS;
cairo_scaled_glyph_t *scaled_glyph;
cairo_fixed_t x = 0, y = 0;
cairo_xlib_font_glyphset_info_t *glyphset_info = NULL, *this_glyphset_info;
unsigned long max_index = 0;
int width = 1;
int num_elts = 0;
int num_out_glyphs = 0;
int max_request_size = XMaxRequestSize (dst->dpy) * 4
- MAX (sz_xRenderCompositeGlyphs8Req,
MAX(sz_xRenderCompositeGlyphs16Req,
sz_xRenderCompositeGlyphs32Req));
int request_size = 0;
_cairo_xlib_surface_ensure_dst_picture (dst);
_cairo_xlib_display_notify (dst->display);
for (i = 0; i < num_glyphs; i++) {
int this_x, this_y;
int old_width;
status = _cairo_scaled_glyph_lookup (scaled_font,
glyphs[i].index,
CAIRO_SCALED_GLYPH_INFO_METRICS,
&scaled_glyph);
if (status != CAIRO_STATUS_SUCCESS)
return status;
this_x = _cairo_lround (glyphs[i].d.x);
this_y = _cairo_lround (glyphs[i].d.y);
/* Glyph skipping:
*
* We skip any glyphs that have troublesome coordinates. We want
* to make sure that (glyph2.x - (glyph1.x + glyph1.width)) fits in
* a signed 16bit integer, otherwise it will overflow in the render
* protocol.
* To ensure this, we'll make sure that (glyph2.x - glyph1.x) fits in
* a signed 15bit integer. The trivial option would be to allow
* coordinates -8192..8192, but that's kinda dull. It probably will
* take a decade or so to get monitors 8192x4096 or something. A
* negative value of -8192 on the other hand, is absolutely useless.
* Note that we do want to allow some negative positions. The glyph
* may start off the screen but part of it make it to the screen.
* Anyway, we will allow positions in the range -4096..122887. That
* will buy us a few more years before this stops working.
*
* Update: upon seeing weird glyphs, we just return and let fallback
* code do the job.
*/
if (((this_x+4096)|(this_y+4096))&~0x3fffu)
break;
/* Send unsent glyphs to the server */
if (_cairo_xlib_scaled_glyph_get_glyphset_info (scaled_glyph) == NULL) {
status = _cairo_xlib_surface_add_glyph (dst->dpy,
scaled_font,
&scaled_glyph);
if (unlikely (status)) {
if (status == CAIRO_INT_STATUS_UNSUPPORTED)
/* Break so we flush glyphs so far and let fallback code
* handle the rest */
break;
return status;
}
}
this_glyphset_info = _cairo_xlib_scaled_glyph_get_glyphset_info (scaled_glyph);
if (!glyphset_info)
glyphset_info = this_glyphset_info;
/* The invariant here is that we can always flush the glyphs
* accumulated before this one, using old_width, and they
* would fit in the request.
*/
old_width = width;
/* Update max glyph index */
if (glyphs[i].index > max_index) {
max_index = glyphs[i].index;
if (max_index >= 65536)
width = 4;
else if (max_index >= 256)
width = 2;
if (width != old_width)
request_size += (width - old_width) * num_out_glyphs;
}
/* If we will pass the max request size by adding this glyph,
* flush current glyphs. Note that we account for a
* possible element being added below.
*
* Also flush if changing glyphsets, as Xrender limits one mask
* format per request, so we can either break up, or use a
* wide-enough mask format. We do the former. One reason to
* prefer the latter is the fact that Xserver ADDs all glyphs
* to the mask first, and then composes that to final surface,
* though it's not a big deal.
*/
if (request_size + width > max_request_size - _cairo_sz_xGlyphElt ||
(this_glyphset_info != glyphset_info)) {
status = _emit_glyphs_chunk (dst, glyphs, i,
scaled_font, op, src, attributes,
num_elts, old_width, glyphset_info);
if (status != CAIRO_STATUS_SUCCESS)
return status;
glyphs += i;
num_glyphs -= i;
i = 0;
max_index = glyphs[i].index;
width = max_index < 256 ? 1 : max_index < 65536 ? 2 : 4;
request_size = 0;
num_elts = 0;
num_out_glyphs = 0;
x = y = 0;
glyphset_info = this_glyphset_info;
}
/* Convert absolute glyph position to relative-to-current-point
* position */
glyphs[i].i.x = this_x - x;
glyphs[i].i.y = this_y - y;
/* Start a new element for the first glyph,
* or for any glyph that has unexpected position,
* or if current element has too many glyphs.
*
* These same conditions are mirrored in _emit_glyphs_chunk().
*/
if (_start_new_glyph_elt (num_out_glyphs, &glyphs[i])) {
num_elts++;
request_size += _cairo_sz_xGlyphElt;
}
/* adjust current-position */
x = this_x + scaled_glyph->x_advance;
y = this_y + scaled_glyph->y_advance;
num_out_glyphs++;
request_size += width;
}
if (num_elts)
status = _emit_glyphs_chunk (dst, glyphs, i,
scaled_font, op, src, attributes,
num_elts, width, glyphset_info);
*remaining_glyphs = num_glyphs - i;
if (*remaining_glyphs && status == CAIRO_STATUS_SUCCESS)
status = CAIRO_INT_STATUS_UNSUPPORTED;
return status;
}
static cairo_bool_t
_cairo_xlib_surface_owns_font (cairo_xlib_surface_t *dst,
cairo_scaled_font_t *scaled_font)
{
cairo_xlib_surface_font_private_t *font_private;
font_private = scaled_font->surface_private;
if ((scaled_font->surface_backend != NULL &&
scaled_font->surface_backend != &cairo_xlib_surface_backend) ||
(font_private != NULL && font_private->display != dst->display))
{
return FALSE;
}
return TRUE;
}
static cairo_int_status_t
_cairo_xlib_surface_show_glyphs (void *abstract_dst,
cairo_operator_t op,
const cairo_pattern_t *src_pattern,
cairo_glyph_t *glyphs,
int num_glyphs,
cairo_scaled_font_t *scaled_font,
int *remaining_glyphs,
cairo_rectangle_int_t *extents)
{
cairo_int_status_t status = CAIRO_STATUS_SUCCESS;
cairo_xlib_surface_t *dst = (cairo_xlib_surface_t*) abstract_dst;
composite_operation_t operation;
cairo_surface_attributes_t attributes;
cairo_xlib_surface_t *src = NULL;
cairo_solid_pattern_t solid_pattern;
if (! CAIRO_SURFACE_RENDER_HAS_COMPOSITE_TEXT (dst))
return CAIRO_INT_STATUS_UNSUPPORTED;
/* Just let unbounded operators go through the fallback code
* instead of trying to do the fixups here */
if (!_cairo_operator_bounded_by_mask (op))
return CAIRO_INT_STATUS_UNSUPPORTED;
/* Render <= 0.10 seems to have a bug with PictOpSrc and glyphs --
* the solid source seems to be multiplied by the glyph mask, and
* then the entire thing is copied to the destination surface,
* including the fully transparent "background" of the rectangular
* glyph surface. */
if (op == CAIRO_OPERATOR_SOURCE &&
!CAIRO_SURFACE_RENDER_AT_LEAST(dst, 0, 11))
return CAIRO_INT_STATUS_UNSUPPORTED;
/* We can only use our code if we either have no clip or
* have a real native clip region set. If we're using
* fallback clip masking, we have to go through the full
* fallback path.
*/
if (dst->base.clip &&
(dst->base.clip->mode != CAIRO_CLIP_MODE_REGION ||
dst->base.clip->surface != NULL))
return CAIRO_INT_STATUS_UNSUPPORTED;
operation = _categorize_composite_operation (dst, op, src_pattern, TRUE);
if (operation == DO_UNSUPPORTED)
return CAIRO_INT_STATUS_UNSUPPORTED;
if (! _cairo_xlib_surface_owns_font (dst, scaled_font))
return CAIRO_INT_STATUS_UNSUPPORTED;
/* After passing all those tests, we're now committed to rendering
* these glyphs or to fail trying. We first upload any glyphs to
* the X server that it doesn't have already, then we draw
* them.
*/
/* PictOpClear doesn't seem to work with CompositeText; it seems to ignore
* the mask (the glyphs). This code below was executed as a side effect
* of going through the _clip_and_composite fallback code for old_show_glyphs,
* so PictOpClear was never used with CompositeText before.
*/
if (op == CAIRO_OPERATOR_CLEAR) {
_cairo_pattern_init_solid (&solid_pattern, CAIRO_COLOR_WHITE,
CAIRO_CONTENT_COLOR);
src_pattern = &solid_pattern.base;
op = CAIRO_OPERATOR_DEST_OUT;
}
if (src_pattern->type == CAIRO_PATTERN_TYPE_SOLID) {
status = _cairo_pattern_acquire_surface (src_pattern, &dst->base,
0, 0, 1, 1,
(cairo_surface_t **) &src,
&attributes);
if (unlikely (status))
goto BAIL0;
} else {
cairo_rectangle_int_t glyph_extents;
status = _cairo_scaled_font_glyph_device_extents (scaled_font,
glyphs,
num_glyphs,
&glyph_extents);
if (unlikely (status))
goto BAIL0;
status = _cairo_pattern_acquire_surface (src_pattern, &dst->base,
glyph_extents.x, glyph_extents.y,
glyph_extents.width, glyph_extents.height,
(cairo_surface_t **) &src,
&attributes);
if (unlikely (status))
goto BAIL0;
}
operation = _recategorize_composite_operation (dst, op, src,
&attributes, TRUE);
if (operation == DO_UNSUPPORTED) {
status = CAIRO_INT_STATUS_UNSUPPORTED;
goto BAIL1;
}
status = _cairo_xlib_surface_set_attributes (src, &attributes, 0, 0);
if (unlikely (status))
goto BAIL1;
_cairo_scaled_font_freeze_cache (scaled_font);
if (_cairo_xlib_surface_owns_font (dst, scaled_font)) {
status = _cairo_xlib_surface_emit_glyphs (dst,
(cairo_xlib_glyph_t *) glyphs,
num_glyphs,
scaled_font,
op,
src,
&attributes,
remaining_glyphs);
} else
status = CAIRO_INT_STATUS_UNSUPPORTED;
_cairo_scaled_font_thaw_cache (scaled_font);
BAIL1:
if (src)
_cairo_pattern_release_surface (src_pattern, &src->base, &attributes);
if (src_pattern == &solid_pattern.base)
_cairo_pattern_fini (&solid_pattern.base);
BAIL0:
_cairo_xlib_display_notify (dst->display);
return status;
}
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