kwin/libkwineffects/kwinxrenderutils.cpp

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2008 Lubos Lunak <l.lunak@kde.org>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
#include "kwinxrenderutils.h"
#include "kwinglobals.h"
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
#include <QStack>
#include <QVector>
#include <QPixmap>
#include <QPainter>
#include <kdebug.h>
namespace KWin
{
// Convert QRegion to XserverRegion. All code uses XserverRegion
// only when really necessary as the shared implementation uses
// QRegion.
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XserverRegion toXserverRegion(QRegion region)
{
QVector< QRect > rects = region.rects();
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XRectangle* xr = new XRectangle[ rects.count()];
for (int i = 0;
i < rects.count();
++i) {
xr[ i ].x = rects[ i ].x();
xr[ i ].y = rects[ i ].y();
xr[ i ].width = rects[ i ].width();
xr[ i ].height = rects[ i ].height();
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}
XserverRegion ret = XFixesCreateRegion(display(), xr, rects.count());
delete[] xr;
return ret;
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}
// adapted from Qt, because this really sucks ;)
XRenderColor preMultiply(const QColor &c, float opacity)
{
XRenderColor color;
const uint A = c.alpha() * opacity,
R = c.red(),
G = c.green(),
B = c.blue();
color.alpha = (A | A << 8);
color.red = (R | R << 8) * color.alpha / 0x10000;
color.green = (G | G << 8) * color.alpha / 0x10000;
color.blue = (B | B << 8) * color.alpha / 0x10000;
return color;
}
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XRenderPicture xRenderFill(const XRenderColor *xc)
{
Pixmap pixmap = XCreatePixmap(display(), rootWindow(), 1, 1, 32);
XRenderPictureAttributes pa; pa.repeat = True;
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XRenderPicture fill(pixmap, 32);
XFreePixmap(display(), pixmap);
XRenderChangePicture(display(), fill, CPRepeat, &pa);
XRenderFillRectangle(display(), PictOpSrc, fill, xc, 0, 0, 1, 1);
return fill;
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}
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XRenderPicture xRenderFill(const QColor &c)
{
XRenderColor xc = preMultiply(c);
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return xRenderFill(&xc);
}
static XRenderPicture _blendPicture = X::None;
static XRenderColor _blendColor;
XRenderPicture xRenderBlendPicture(double opacity)
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{
_blendColor.alpha = ushort(opacity * 0xffff);
if (_blendPicture == X::None)
_blendPicture = xRenderFill(&_blendColor);
else
XRenderFillRectangle(display(), PictOpSrc, _blendPicture, &_blendColor, 0, 0, 1, 1);
return _blendPicture;
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}
static XRenderPicture *_circle[4] = {NULL, NULL, NULL, NULL};
#define DUMP_CNR(_SECT_, _W_, _H_, _XOFF_, _YOFF_)\
dump = QPixmap(_W_, _H_);\
dump.fill(Qt::transparent);\
p.begin(&dump);\
p.drawPixmap( 0, 0, tmp, _XOFF_, _YOFF_, _W_, _H_ );\
p.end();\
_circle[_SECT_] = new XRenderPicture(dump);
#define CS 8
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static XRenderPicture *circle(int i)
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{
if (!_circle[0]) {
QPixmap tmp(2 * CS, 2 * CS);
tmp.fill(Qt::transparent);
QPainter p(&tmp);
p.setRenderHint(QPainter::Antialiasing);
p.setPen(Qt::NoPen); p.setBrush(Qt::black);
p.drawEllipse(tmp.rect());
p.end();
QPixmap dump;
DUMP_CNR(0, CS, CS, 0, 0);
DUMP_CNR(1, CS, CS, CS, 0);
DUMP_CNR(2, CS, CS, CS, CS);
DUMP_CNR(3, CS, CS, 0, CS);
}
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return _circle[i];
}
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void xRenderRoundBox(Picture pict, const QRect &rect, int , const QColor &c)
{
XRenderPicture fill = xRenderFill(c);
int op = c.alpha() == 255 ? PictOpSrc : PictOpOver;
// TODO: implement second paramenter "roundness"
// so rather use ?? XRenderCompositeTriFan (dpy, op, src, dst, maskFormat, xSrc, ySrc,
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//XPointFixed *points, npoint);
// this will require "points on a circle" calculation, however...
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int s = qMin(CS, qMin(rect.height() / 2, rect.width() / 2));
int x, y, b, r;
rect.getCoords(&x, &y, &r, &b);
r -= (s - 1);
b -= (s - 1);
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XRenderComposite(display(), PictOpOver, fill, *circle(0), pict, 0, 0, 0, 0, x, y, CS, CS);
XRenderComposite(display(), PictOpOver, fill, *circle(1), pict, 0, 0, CS - s, 0, r, y, s, s);
XRenderComposite(display(), PictOpOver, fill, *circle(2), pict, 0, 0, CS - s, CS - s, r, b, s, s);
XRenderComposite(display(), PictOpOver, fill, *circle(3), pict, 0, 0, 0, CS - s, x, b, s, s);
XRenderComposite(display(), op, fill, 0, pict, 0, 0, 0, 0, x + s, y, rect.width() - 2 * s, s);
XRenderComposite(display(), op, fill, 0, pict, 0, 0, 0, 0, x, y + s, rect.width(), rect.height() - 2 * s);
XRenderComposite(display(), op, fill, 0, pict, 0, 0, 0, 0, x + s, b, rect.width() - 2 * s, s);
}
#undef CS
#undef DUMP_CNR
// XRenderFind(Standard)Format() is a roundtrip, so cache the results
static XRenderPictFormat* renderformats[ 33 ];
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static Picture createPicture(Pixmap pix, int depth)
{
if (pix == None)
return None;
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if (renderformats[ depth ] == NULL) {
switch(depth) {
case 1:
renderformats[ 1 ] = XRenderFindStandardFormat(display(), PictStandardA1);
break;
case 8:
renderformats[ 8 ] = XRenderFindStandardFormat(display(), PictStandardA8);
break;
case 24:
renderformats[ 24 ] = XRenderFindStandardFormat(display(), PictStandardRGB24);
break;
case 32:
renderformats[ 32 ] = XRenderFindStandardFormat(display(), PictStandardARGB32);
break;
default: {
XRenderPictFormat req;
long mask = PictFormatType | PictFormatDepth;
req.type = PictTypeDirect;
req.depth = depth;
renderformats[ depth ] = XRenderFindFormat(display(), mask, &req, 0);
break;
}
}
if (renderformats[ depth ] == NULL) {
kWarning(1212) << "Could not find XRender format for depth" << depth;
return None;
}
}
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return XRenderCreatePicture(display(), pix, renderformats[ depth ], 0, NULL);
}
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XRenderPicture::XRenderPicture(QPixmap pix)
{
if (Extensions::nonNativePixmaps()) {
Pixmap xPix = XCreatePixmap(display(), rootWindow(), pix.width(), pix.height(), pix.depth());
QPixmap tempPix = QPixmap::fromX11Pixmap(xPix, QPixmap::ExplicitlyShared);
tempPix.fill(Qt::transparent);
QPainter p(&tempPix);
p.drawPixmap(QPoint(0, 0), pix);
p.end();
d = new XRenderPictureData(createPicture(tempPix.handle(), tempPix.depth()));
XFreePixmap(display(), xPix);
} else {
d = new XRenderPictureData(createPicture(pix.handle(), pix.depth()));
}
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}
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XRenderPicture::XRenderPicture(Pixmap pix, int depth)
: d(new XRenderPictureData(createPicture(pix, depth)))
{
}
static QPixmap *s_offscreenTarget = 0;
static QStack<XRenderPicture*> s_scene_offscreenTargetStack;
static int s_renderOffscreen = 0;
void scene_setXRenderOffscreenTarget(QPixmap *pix)
{
s_offscreenTarget = pix;
}
XRenderPicture *scene_xRenderOffscreenTarget()
{
return s_scene_offscreenTargetStack.isEmpty() ? 0 : s_scene_offscreenTargetStack.top();
}
void setXRenderOffscreen(bool b)
{
b ? ++s_renderOffscreen : --s_renderOffscreen;
if (s_renderOffscreen < 0) {
s_renderOffscreen = 0;
qWarning("*** SOMETHING IS MESSED UP WITH YOUR setXRenderOffscreen() USAGE ***");
}
}
void xRenderPushTarget(XRenderPicture *pic)
{
s_scene_offscreenTargetStack.push(pic);
++s_renderOffscreen;
}
void xRenderPopTarget()
{
s_scene_offscreenTargetStack.pop();
--s_renderOffscreen;
if (s_renderOffscreen < 0) {
s_renderOffscreen = 0;
qWarning("*** SOMETHING IS MESSED UP WITH YOUR xRenderPopTarget() USAGE ***");
}
}
bool xRenderOffscreen()
{
return s_renderOffscreen;
}
QPixmap *xRenderOffscreenTarget()
{
return s_offscreenTarget;
}
} // namespace
#endif