зеркало из https://github.com/mozilla/pjs.git
648 строки
24 KiB
C++
648 строки
24 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* ***** BEGIN LICENSE BLOCK *****
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* Version: MPL 1.1/GPL 2.0/LGPL 2.1
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*
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* The contents of this file are subject to the Mozilla Public License Version
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* 1.1 (the "License"); you may not use this file except in compliance with
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* the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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* for the specific language governing rights and limitations under the
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* License.
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*
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* The Original Code is Novell code.
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*
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* The Initial Developer of the Original Code is Novell.
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* Portions created by the Initial Developer are Copyright (C) 2006
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* the Initial Developer. All Rights Reserved.
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*
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* Contributor(s):
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* rocallahan@novell.com
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* Vladimir Vukicevic <vladimir@pobox.com>
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* Karl Tomlinson <karlt+@karlt.net>, Mozilla Corporation
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*
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* Alternatively, the contents of this file may be used under the terms of
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* either the GNU General Public License Version 2 or later (the "GPL"), or
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* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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* in which case the provisions of the GPL or the LGPL are applicable instead
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* of those above. If you wish to allow use of your version of this file only
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* under the terms of either the GPL or the LGPL, and not to allow others to
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* use your version of this file under the terms of the MPL, indicate your
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* decision by deleting the provisions above and replace them with the notice
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* and other provisions required by the GPL or the LGPL. If you do not delete
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* the provisions above, a recipient may use your version of this file under
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* the terms of any one of the MPL, the GPL or the LGPL.
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*
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* ***** END LICENSE BLOCK ***** */
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#include "gfxXlibNativeRenderer.h"
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#include "gfxXlibSurface.h"
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#include "gfxImageSurface.h"
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#include "gfxContext.h"
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#include "gfxAlphaRecovery.h"
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#include "cairo-xlib.h"
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#include "cairo-xlib-xrender.h"
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#if 0
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#include <stdio.h>
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#define NATIVE_DRAWING_NOTE(m) fprintf(stderr, m)
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#else
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#define NATIVE_DRAWING_NOTE(m) do {} while (0)
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#endif
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/* We have four basic strategies available:
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1) 'direct': If the target is an xlib surface, and other conditions are met,
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we can pass the underlying drawable directly to the callback.
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2) 'simple': If the drawing is opaque, or we can draw to a surface with an
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alpha channel, then we can create a temporary xlib surface, pass its
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underlying drawable to the callback, and composite the result using
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cairo.
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3) 'copy-background': If the drawing is not opaque but the target is
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opaque, and we can draw to a surface with format such that pixel
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conversion to and from the target format is exact, we can create a
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temporary xlib surface, copy the background from the target, pass the
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underlying drawable to the callback, and copy back to the target.
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This strategy is not used if the pixel format conversion is not exact,
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because that would mean that drawing intended to be very transparent
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messes with other content.
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The strategy is prefered over simple for non-opaque drawing and opaque
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targets on the same screen as compositing without alpha is a simpler
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operation.
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4) 'alpha-extraction': create a temporary xlib surface, fill with black,
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pass its underlying drawable to the callback, copy the results to a
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cairo image surface, repeat with a white background, update the on-black
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image alpha values by comparing the two images, then paint the on-black
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image using cairo.
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Sure would be nice to have an X extension or GL to do this for us on the
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server...
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*/
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static cairo_bool_t
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_convert_coord_to_int (double coord, PRInt32 *v)
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{
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*v = (PRInt32)coord;
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/* XXX allow some tolerance here? */
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return *v == coord;
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}
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static bool
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_get_rectangular_clip (cairo_t *cr,
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const nsIntRect& bounds,
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bool *need_clip,
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nsIntRect *rectangles, int max_rectangles,
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int *num_rectangles)
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{
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cairo_rectangle_list_t *cliplist;
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cairo_rectangle_t *clips;
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int i;
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bool retval = true;
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cliplist = cairo_copy_clip_rectangle_list (cr);
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if (cliplist->status != CAIRO_STATUS_SUCCESS) {
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retval = false;
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NATIVE_DRAWING_NOTE("FALLBACK: non-rectangular clip");
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goto FINISH;
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}
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/* the clip is always in surface backend coordinates (i.e. native backend coords) */
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clips = cliplist->rectangles;
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for (i = 0; i < cliplist->num_rectangles; ++i) {
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nsIntRect rect;
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if (!_convert_coord_to_int (clips[i].x, &rect.x) ||
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!_convert_coord_to_int (clips[i].y, &rect.y) ||
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!_convert_coord_to_int (clips[i].width, &rect.width) ||
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!_convert_coord_to_int (clips[i].height, &rect.height))
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{
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retval = false;
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NATIVE_DRAWING_NOTE("FALLBACK: non-integer clip");
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goto FINISH;
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}
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if (rect.IsEqualInterior(bounds)) {
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/* the bounds are entirely inside the clip region so we don't need to clip. */
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*need_clip = false;
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goto FINISH;
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}
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NS_ASSERTION(bounds.Contains(rect),
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"Was expecting to be clipped to bounds");
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if (i >= max_rectangles) {
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retval = false;
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NATIVE_DRAWING_NOTE("FALLBACK: unsupported clip rectangle count");
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goto FINISH;
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}
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rectangles[i] = rect;
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}
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*need_clip = true;
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*num_rectangles = cliplist->num_rectangles;
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FINISH:
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cairo_rectangle_list_destroy (cliplist);
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return retval;
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}
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#define MAX_STATIC_CLIP_RECTANGLES 50
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/**
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* Try the direct path.
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* @return True if we took the direct path
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*/
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bool
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gfxXlibNativeRenderer::DrawDirect(gfxContext *ctx, nsIntSize size,
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PRUint32 flags,
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Screen *screen, Visual *visual)
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{
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cairo_t *cr = ctx->GetCairo();
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/* Check that the target surface is an xlib surface. */
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cairo_surface_t *target = cairo_get_group_target (cr);
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if (cairo_surface_get_type (target) != CAIRO_SURFACE_TYPE_XLIB) {
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NATIVE_DRAWING_NOTE("FALLBACK: non-X surface");
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return false;
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}
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cairo_matrix_t matrix;
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cairo_get_matrix (cr, &matrix);
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double device_offset_x, device_offset_y;
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cairo_surface_get_device_offset (target, &device_offset_x, &device_offset_y);
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/* Draw() checked that the matrix contained only a very-close-to-integer
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translation. Here (and in several other places and thebes) device
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offsets are assumed to be integer. */
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NS_ASSERTION(PRInt32(device_offset_x) == device_offset_x &&
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PRInt32(device_offset_y) == device_offset_y,
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"Expected integer device offsets");
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nsIntPoint offset(NS_lroundf(matrix.x0 + device_offset_x),
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NS_lroundf(matrix.y0 + device_offset_y));
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int max_rectangles = 0;
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if (flags & DRAW_SUPPORTS_CLIP_RECT) {
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max_rectangles = 1;
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}
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if (flags & DRAW_SUPPORTS_CLIP_LIST) {
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max_rectangles = MAX_STATIC_CLIP_RECTANGLES;
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}
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/* The client won't draw outside the surface so consider this when
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analysing clip rectangles. */
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nsIntRect bounds(offset, size);
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bounds.IntersectRect(bounds,
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nsIntRect(0, 0,
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cairo_xlib_surface_get_width(target),
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cairo_xlib_surface_get_height(target)));
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bool needs_clip = true;
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nsIntRect rectangles[MAX_STATIC_CLIP_RECTANGLES];
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int rect_count = 0;
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/* Check that the clip is rectangular and aligned on unit boundaries. */
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/* Temporarily set the matrix for _get_rectangular_clip. It's basically
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the identity matrix, but we must adjust for the fact that our
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offset-rect is in device coordinates. */
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cairo_identity_matrix (cr);
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cairo_translate (cr, -device_offset_x, -device_offset_y);
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bool have_rectangular_clip =
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_get_rectangular_clip (cr, bounds, &needs_clip,
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rectangles, max_rectangles, &rect_count);
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cairo_set_matrix (cr, &matrix);
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if (!have_rectangular_clip)
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return false;
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/* Stop now if everything is clipped out */
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if (needs_clip && rect_count == 0)
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return true;
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/* Check that the screen is supported.
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Visuals belong to screens, so, if alternate visuals are not supported,
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then alternate screens cannot be supported. */
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bool supports_alternate_visual =
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(flags & DRAW_SUPPORTS_ALTERNATE_VISUAL) != 0;
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bool supports_alternate_screen = supports_alternate_visual &&
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(flags & DRAW_SUPPORTS_ALTERNATE_SCREEN);
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if (!supports_alternate_screen &&
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cairo_xlib_surface_get_screen (target) != screen) {
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NATIVE_DRAWING_NOTE("FALLBACK: non-default screen");
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return false;
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}
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/* Check that there is a visual */
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Visual *target_visual = cairo_xlib_surface_get_visual (target);
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if (!target_visual) {
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NATIVE_DRAWING_NOTE("FALLBACK: no Visual for surface");
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return false;
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}
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/* Check that the visual is supported */
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if (!supports_alternate_visual && target_visual != visual) {
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// Only the format of the visual is important (not the GLX properties)
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// for Xlib or XRender drawing.
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XRenderPictFormat *target_format =
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cairo_xlib_surface_get_xrender_format (target);
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if (!target_format ||
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(target_format !=
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XRenderFindVisualFormat (DisplayOfScreen(screen), visual))) {
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NATIVE_DRAWING_NOTE("FALLBACK: unsupported Visual");
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return false;
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}
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}
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/* we're good to go! */
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NATIVE_DRAWING_NOTE("TAKING FAST PATH\n");
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cairo_surface_flush (target);
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nsRefPtr<gfxASurface> surface = gfxASurface::Wrap(target);
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nsresult rv = DrawWithXlib(static_cast<gfxXlibSurface*>(surface.get()),
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offset, rectangles,
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needs_clip ? rect_count : 0);
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if (NS_SUCCEEDED(rv)) {
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cairo_surface_mark_dirty (target);
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return true;
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}
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return false;
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}
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static bool
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VisualHasAlpha(Screen *screen, Visual *visual) {
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// There may be some other visuals format with alpha but usually this is
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// the only one we care about.
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return visual->c_class == TrueColor &&
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visual->bits_per_rgb == 8 &&
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visual->red_mask == 0xff0000 &&
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visual->green_mask == 0xff00 &&
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visual->blue_mask == 0xff &&
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gfxXlibSurface::DepthOfVisual(screen, visual) == 32;
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}
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// Returns whether pixel conversion between visual and format is exact (in
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// both directions).
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static bool
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FormatConversionIsExact(Screen *screen, Visual *visual, XRenderPictFormat *format) {
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if (!format ||
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visual->c_class != TrueColor ||
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format->type != PictTypeDirect ||
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gfxXlibSurface::DepthOfVisual(screen, visual) != format->depth)
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return false;
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XRenderPictFormat *visualFormat =
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XRenderFindVisualFormat(DisplayOfScreen(screen), visual);
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if (visualFormat->type != PictTypeDirect )
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return false;
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const XRenderDirectFormat& a = visualFormat->direct;
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const XRenderDirectFormat& b = format->direct;
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return a.redMask == b.redMask &&
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a.greenMask == b.greenMask &&
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a.blueMask == b.blueMask;
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}
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// The 3 non-direct strategies described above.
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// The surface format and strategy are inter-dependent.
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enum DrawingMethod {
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eSimple,
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eCopyBackground,
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eAlphaExtraction
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};
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static already_AddRefed<gfxXlibSurface>
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CreateTempXlibSurface (gfxASurface *destination, nsIntSize size,
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bool canDrawOverBackground,
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PRUint32 flags, Screen *screen, Visual *visual,
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DrawingMethod *method)
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{
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bool drawIsOpaque = (flags & gfxXlibNativeRenderer::DRAW_IS_OPAQUE) != 0;
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bool supportsAlternateVisual =
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(flags & gfxXlibNativeRenderer::DRAW_SUPPORTS_ALTERNATE_VISUAL) != 0;
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bool supportsAlternateScreen = supportsAlternateVisual &&
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(flags & gfxXlibNativeRenderer::DRAW_SUPPORTS_ALTERNATE_SCREEN);
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cairo_surface_t *target = destination->CairoSurface();
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cairo_surface_type_t target_type = cairo_surface_get_type (target);
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cairo_content_t target_content = cairo_surface_get_content (target);
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Screen *target_screen = target_type == CAIRO_SURFACE_TYPE_XLIB ?
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cairo_xlib_surface_get_screen (target) : screen;
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// When the background has an alpha channel, we need to draw with an alpha
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// channel anyway, so there is no need to copy the background. If
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// doCopyBackground is set here, we'll also need to check below that the
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// background can copied without any loss in format conversions.
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bool doCopyBackground = !drawIsOpaque && canDrawOverBackground &&
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target_content == CAIRO_CONTENT_COLOR;
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if (supportsAlternateScreen && screen != target_screen && drawIsOpaque) {
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// Prefer a visual on the target screen.
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// (If !drawIsOpaque, we'll need doCopyBackground or an alpha channel.)
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visual = DefaultVisualOfScreen(target_screen);
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screen = target_screen;
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} else if (doCopyBackground || (supportsAlternateVisual && drawIsOpaque)) {
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// Analyse the pixel formats either to check whether we can
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// doCopyBackground or to see if we can find a better visual for
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// opaque drawing.
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Visual *target_visual = NULL;
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XRenderPictFormat *target_format = NULL;
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switch (target_type) {
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case CAIRO_SURFACE_TYPE_XLIB:
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target_visual = cairo_xlib_surface_get_visual (target);
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target_format = cairo_xlib_surface_get_xrender_format (target);
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break;
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case CAIRO_SURFACE_TYPE_IMAGE: {
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gfxASurface::gfxImageFormat imageFormat =
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static_cast<gfxImageSurface*>(destination)->Format();
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target_visual = gfxXlibSurface::FindVisual(screen, imageFormat);
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Display *dpy = DisplayOfScreen(screen);
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if (target_visual) {
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target_format = XRenderFindVisualFormat(dpy, target_visual);
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} else {
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target_format =
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gfxXlibSurface::FindRenderFormat(dpy, imageFormat);
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}
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break;
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}
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default:
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break;
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}
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if (supportsAlternateVisual &&
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(supportsAlternateScreen || screen == target_screen)) {
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if (target_visual) {
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visual = target_visual;
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screen = target_screen;
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}
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}
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// Could try harder to match formats across screens for background
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// copying when !supportsAlternateScreen, if we cared. Preferably
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// we'll find a visual below with an alpha channel anyway; if so, the
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// background won't need to be copied.
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if (doCopyBackground && visual != target_visual &&
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!FormatConversionIsExact(screen, visual, target_format)) {
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doCopyBackground = false;
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}
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}
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if (supportsAlternateVisual && !drawIsOpaque &&
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(screen != target_screen ||
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!(doCopyBackground || VisualHasAlpha(screen, visual)))) {
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// Try to find a visual with an alpha channel.
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Screen *visualScreen =
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supportsAlternateScreen ? target_screen : screen;
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Visual *argbVisual =
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gfxXlibSurface::FindVisual(visualScreen,
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gfxASurface::ImageFormatARGB32);
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if (argbVisual) {
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visual = argbVisual;
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screen = visualScreen;
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} else if (!doCopyBackground &&
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gfxXlibSurface::DepthOfVisual(screen, visual) != 24) {
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// Will need to do alpha extraction; prefer a 24-bit visual.
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// No advantage in using the target screen.
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Visual *rgb24Visual =
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gfxXlibSurface::FindVisual(screen,
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gfxASurface::ImageFormatRGB24);
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if (rgb24Visual) {
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visual = rgb24Visual;
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}
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}
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}
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Drawable drawable =
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(screen == target_screen && target_type == CAIRO_SURFACE_TYPE_XLIB) ?
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cairo_xlib_surface_get_drawable (target) : RootWindowOfScreen(screen);
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nsRefPtr<gfxXlibSurface> surface =
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gfxXlibSurface::Create(screen, visual,
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gfxIntSize(size.width, size.height),
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drawable);
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if (drawIsOpaque ||
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surface->GetContentType() == gfxASurface::CONTENT_COLOR_ALPHA) {
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NATIVE_DRAWING_NOTE(drawIsOpaque ?
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", SIMPLE OPAQUE\n" : ", SIMPLE WITH ALPHA");
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*method = eSimple;
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} else if (doCopyBackground) {
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NATIVE_DRAWING_NOTE(", COPY BACKGROUND\n");
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*method = eCopyBackground;
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} else {
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NATIVE_DRAWING_NOTE(", SLOW ALPHA EXTRACTION\n");
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*method = eAlphaExtraction;
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}
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return surface.forget();
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}
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bool
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gfxXlibNativeRenderer::DrawOntoTempSurface(gfxXlibSurface *tempXlibSurface,
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nsIntPoint offset)
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{
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tempXlibSurface->Flush();
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/* no clipping is needed because the callback can't draw outside the native
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surface anyway */
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nsresult rv = DrawWithXlib(tempXlibSurface, offset, NULL, 0);
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tempXlibSurface->MarkDirty();
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return NS_SUCCEEDED(rv);
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}
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static already_AddRefed<gfxImageSurface>
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CopyXlibSurfaceToImage(gfxXlibSurface *tempXlibSurface,
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gfxASurface::gfxImageFormat format)
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{
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nsRefPtr<gfxImageSurface> result =
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new gfxImageSurface(tempXlibSurface->GetSize(), format);
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gfxContext copyCtx(result);
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copyCtx.SetSource(tempXlibSurface);
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copyCtx.SetOperator(gfxContext::OPERATOR_SOURCE);
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copyCtx.Paint();
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return result.forget();
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}
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void
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gfxXlibNativeRenderer::Draw(gfxContext* ctx, nsIntSize size,
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PRUint32 flags, Screen *screen, Visual *visual,
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DrawOutput* result)
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{
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if (result) {
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result->mSurface = NULL;
|
|
result->mUniformAlpha = false;
|
|
result->mUniformColor = false;
|
|
}
|
|
|
|
bool drawIsOpaque = (flags & DRAW_IS_OPAQUE) != 0;
|
|
gfxMatrix matrix = ctx->CurrentMatrix();
|
|
|
|
// We can only draw direct or onto a copied background if pixels align and
|
|
// native drawing is compatible with the current operator. (The matrix is
|
|
// actually also pixel-exact for flips and right-angle rotations, which
|
|
// would permit copying the background but not drawing direct.)
|
|
bool matrixIsIntegerTranslation = !matrix.HasNonIntegerTranslation();
|
|
bool canDrawOverBackground = matrixIsIntegerTranslation &&
|
|
ctx->CurrentOperator() == gfxContext::OPERATOR_OVER;
|
|
|
|
// The padding of 0.5 for non-pixel-exact transformations used here is
|
|
// the same as what _cairo_pattern_analyze_filter uses.
|
|
const gfxFloat filterRadius = 0.5;
|
|
gfxRect affectedRect(0.0, 0.0, size.width, size.height);
|
|
if (!matrixIsIntegerTranslation) {
|
|
// The filter footprint means that the affected rectangle is a
|
|
// little larger than the drawingRect;
|
|
affectedRect.Inflate(filterRadius);
|
|
|
|
NATIVE_DRAWING_NOTE("FALLBACK: matrix not integer translation");
|
|
} else if (!canDrawOverBackground) {
|
|
NATIVE_DRAWING_NOTE("FALLBACK: unsupported operator");
|
|
}
|
|
|
|
// Clipping to the region affected by drawing allows us to consider only
|
|
// the portions of the clip region that will be affected by drawing.
|
|
gfxRect clipExtents;
|
|
{
|
|
gfxContextAutoSaveRestore autoSR(ctx);
|
|
ctx->Clip(affectedRect);
|
|
|
|
clipExtents = ctx->GetClipExtents();
|
|
if (clipExtents.IsEmpty())
|
|
return; // nothing to do
|
|
|
|
if (canDrawOverBackground &&
|
|
DrawDirect(ctx, size, flags, screen, visual))
|
|
return;
|
|
}
|
|
|
|
nsIntRect drawingRect(nsIntPoint(0, 0), size);
|
|
// Drawing need only be performed within the clip extents
|
|
// (and padding for the filter).
|
|
if (!matrixIsIntegerTranslation) {
|
|
// The source surface may need to be a little larger than the clip
|
|
// extents due to the filter footprint.
|
|
clipExtents.Inflate(filterRadius);
|
|
}
|
|
clipExtents.RoundOut();
|
|
|
|
nsIntRect intExtents(PRInt32(clipExtents.X()),
|
|
PRInt32(clipExtents.Y()),
|
|
PRInt32(clipExtents.Width()),
|
|
PRInt32(clipExtents.Height()));
|
|
drawingRect.IntersectRect(drawingRect, intExtents);
|
|
gfxPoint offset(drawingRect.x, drawingRect.y);
|
|
|
|
DrawingMethod method;
|
|
nsRefPtr<gfxASurface> target = ctx->CurrentSurface();
|
|
nsRefPtr<gfxXlibSurface> tempXlibSurface =
|
|
CreateTempXlibSurface(target, drawingRect.Size(),
|
|
canDrawOverBackground, flags, screen, visual,
|
|
&method);
|
|
if (!tempXlibSurface)
|
|
return;
|
|
|
|
if (drawingRect.Size() != size || method == eCopyBackground) {
|
|
// Only drawing a portion, or copying background,
|
|
// so won't return a result.
|
|
result = NULL;
|
|
}
|
|
|
|
nsRefPtr<gfxContext> tmpCtx;
|
|
if (!drawIsOpaque) {
|
|
tmpCtx = new gfxContext(tempXlibSurface);
|
|
if (method == eCopyBackground) {
|
|
tmpCtx->SetOperator(gfxContext::OPERATOR_SOURCE);
|
|
tmpCtx->SetSource(target, -(offset + matrix.GetTranslation()));
|
|
// The copy from the tempXlibSurface to the target context should
|
|
// use operator SOURCE, but that would need a mask to bound the
|
|
// operation. Here we only copy opaque backgrounds so operator
|
|
// OVER will behave like SOURCE masked by the surface.
|
|
NS_ASSERTION(tempXlibSurface->GetContentType()
|
|
== gfxASurface::CONTENT_COLOR,
|
|
"Don't copy background with a transparent surface");
|
|
} else {
|
|
tmpCtx->SetOperator(gfxContext::OPERATOR_CLEAR);
|
|
}
|
|
tmpCtx->Paint();
|
|
}
|
|
|
|
if (!DrawOntoTempSurface(tempXlibSurface, -drawingRect.TopLeft())) {
|
|
return;
|
|
}
|
|
|
|
if (method != eAlphaExtraction) {
|
|
ctx->SetSource(tempXlibSurface, offset);
|
|
ctx->Paint();
|
|
if (result) {
|
|
result->mSurface = tempXlibSurface;
|
|
/* fill in the result with what we know, which is really just what our
|
|
assumption was */
|
|
result->mUniformAlpha = true;
|
|
result->mColor.a = 1.0;
|
|
}
|
|
return;
|
|
}
|
|
|
|
nsRefPtr<gfxImageSurface> blackImage =
|
|
CopyXlibSurfaceToImage(tempXlibSurface, gfxASurface::ImageFormatARGB32);
|
|
|
|
tmpCtx->SetDeviceColor(gfxRGBA(1.0, 1.0, 1.0));
|
|
tmpCtx->SetOperator(gfxContext::OPERATOR_SOURCE);
|
|
tmpCtx->Paint();
|
|
DrawOntoTempSurface(tempXlibSurface, -drawingRect.TopLeft());
|
|
nsRefPtr<gfxImageSurface> whiteImage =
|
|
CopyXlibSurfaceToImage(tempXlibSurface, gfxASurface::ImageFormatRGB24);
|
|
|
|
if (blackImage->CairoStatus() == CAIRO_STATUS_SUCCESS &&
|
|
whiteImage->CairoStatus() == CAIRO_STATUS_SUCCESS) {
|
|
gfxAlphaRecovery::Analysis analysis;
|
|
if (!gfxAlphaRecovery::RecoverAlpha(blackImage, whiteImage,
|
|
result ? &analysis : nsnull))
|
|
return;
|
|
|
|
ctx->SetSource(blackImage, offset);
|
|
|
|
/* if the caller wants to retrieve the rendered image, put it into
|
|
a 'similar' surface, and use that as the source for the drawing right
|
|
now. This means we always return a surface similar to the surface
|
|
used for 'cr', which is ideal if it's going to be cached and reused.
|
|
We do not return an image if the result has uniform color (including
|
|
alpha). */
|
|
if (result) {
|
|
if (analysis.uniformAlpha) {
|
|
result->mUniformAlpha = true;
|
|
result->mColor.a = analysis.alpha;
|
|
}
|
|
if (analysis.uniformColor) {
|
|
result->mUniformColor = true;
|
|
result->mColor.r = analysis.r;
|
|
result->mColor.g = analysis.g;
|
|
result->mColor.b = analysis.b;
|
|
} else {
|
|
result->mSurface = target->
|
|
CreateSimilarSurface(gfxASurface::CONTENT_COLOR_ALPHA,
|
|
gfxIntSize(size.width, size.height));
|
|
|
|
gfxContext copyCtx(result->mSurface);
|
|
copyCtx.SetSource(blackImage);
|
|
copyCtx.SetOperator(gfxContext::OPERATOR_SOURCE);
|
|
copyCtx.Paint();
|
|
|
|
ctx->SetSource(result->mSurface);
|
|
}
|
|
}
|
|
|
|
ctx->Paint();
|
|
}
|
|
}
|