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/*
* Copyright © 2008 Dennis Kasprzyk
*
* Permission to use, copy, modify, distribute, and sell this software
* and its documentation for any purpose is hereby granted without
* fee, provided that the above copyright notice appear in all copies
* and that both that copyright notice and this permission notice
* appear in supporting documentation, and that the name of
* Dennis Kasprzyk not be used in advertising or publicity pertaining to
* distribution of the software without specific, written prior permission.
* Dennis Kasprzyk makes no representations about the suitability of this
* software for any purpose. It is provided "as is" without express or
* implied warranty.
*
* DENNIS KASPRZYK DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN
* NO EVENT SHALL DENNIS KASPRZYK BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
* OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
* NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
* WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* Authors: Dennis Kasprzyk <onestone@compiz-fusion.org>
*/
#include "core/rect.h"
#include "core/region.h"
#include <X11/Xlib-xcb.h>
#include <X11/Xutil.h>
#include <X11/Xregion.h>
#include <stdio.h>
#include <cassert>
#include <boost/foreach.hpp>
#define foreach BOOST_FOREACH
const CompRegion infiniteRegion (CompRect (MINSHORT, MINSHORT,
MAXSHORT * 2, MAXSHORT * 2));
const CompRegion emptyRegion;
/* Alternate emptyRegion, mostly just required to construct infiniteRegion
when emptyRegion may still be uninitialized */
static const CompRegion &
_emptyRegion ()
{
static const CompRegion r;
return r;
}
CompRegion::CompRegion ()
{
init ();
}
CompRegion::CompRegion (const CompRegion &c)
{
init ();
XUnionRegion (_emptyRegion ().handle (), c.handle (), handle ());
}
CompRegion::CompRegion ( int x, int y, int w, int h)
{
init ();
XRectangle rect;
rect.x = x;
rect.y = y;
rect.width = w;
rect.height = h;
XUnionRectWithRegion (&rect, _emptyRegion ().handle (), handle ());
}
CompRegion::CompRegion (const CompRect &r)
{
init ();
XRectangle rect;
rect.x = r.x ();
rect.y = r.y ();
rect.width = r.width ();
rect.height = r.height ();
XUnionRectWithRegion (&rect, _emptyRegion ().handle (), handle ());
}
CompRegion::CompRegion (Region external)
{
priv = external;
}
CompRegionRef::CompRegionRef (Region external) :
CompRegion (external)
{
}
CompRegionRef::~CompRegionRef ()
{
/* Ensure CompRegion::~CompRegion does not destroy the region, because
it's external and we don't own it. */
priv = NULL;
}
CompRegion::~CompRegion ()
{
if (priv)
XDestroyRegion (static_cast<Region> (priv));
}
void
CompRegion::init ()
{
assert (sizeof (Region) == sizeof (void*));
priv = XCreateRegion ();
}
Region
CompRegion::handle () const
{
return static_cast<Region> (priv);
}
CompRegion &
CompRegion::operator= (const CompRegion &c)
{
XUnionRegion (emptyRegion.handle (), c.handle (), handle ());
return *this;
}
bool
CompRegion::operator== (const CompRegion &c) const
{
return XEqualRegion (handle (), c.handle ());
}
bool
CompRegion::operator!= (const CompRegion &c) const
{
return !(*this == c);
}
CompRect
CompRegion::boundingRect () const
{
BOX b = handle ()->extents;
return CompRect (b.x1, b.y1, b.x2 - b.x1, b.y2 - b.y1);
}
bool
CompRegion::contains (const CompPoint &p) const
{
return XPointInRegion (handle (), p.x (), p.y ());
}
bool
CompRegion::contains (const CompRect &r) const
{
int result;
result = XRectInRegion (handle (), r.x (), r.y (), r.width (), r.height ());
return result == RectangleIn;
}
bool
CompRegion::contains (int x, int y, int width, int height) const
{
int result;
result = XRectInRegion (handle (), x, y, width, height);
return result == RectangleIn;
}
CompRegion
CompRegion::intersected (const CompRegion &r) const
{
CompRegion reg (r);
XIntersectRegion (reg.handle (), handle (), reg.handle ());
return reg;
}
CompRegion
CompRegion::intersected (const CompRect &r) const
{
CompRegion reg (r);
XIntersectRegion (reg.handle (), handle (), reg.handle ());
return reg;
}
bool
CompRegion::intersects (const CompRegion &r) const
{
return !intersected (r).isEmpty ();
}
bool
CompRegion::intersects (const CompRect &r) const
{
int result;
result = XRectInRegion (handle (), r.x (), r.y (), r.width (), r.height ());
return result != RectangleOut;
}
bool
CompRegion::isEmpty () const
{
return XEmptyRegion (handle ());
}
int
CompRegion::numRects () const
{
return handle ()->numRects;
}
CompRect::vector
CompRegion::rects () const
{
CompRect::vector rv;
if (!numRects ())
return rv;
BOX b;
for (int i = 0; i < handle ()->numRects; i++)
{
b = handle ()->rects[i];
rv.push_back (CompRect (b.x1, b.y1, b.x2 - b.x1, b.y2 - b.y1));
}
return rv;
}
CompRegion
CompRegion::subtracted (const CompRegion &r) const
{
CompRegion rv;
XSubtractRegion (handle (), r.handle (), rv.handle ());
return rv;
}
CompRegion
CompRegion::subtracted (const CompRect &r) const
{
CompRegion rv;
XSubtractRegion (handle (), r.region (), rv.handle ());
return rv;
}
void
CompRegion::translate (int dx, int dy)
{
XOffsetRegion (handle (), dx, dy);
}
void
CompRegion::translate (const CompPoint &p)
{
translate (p.x (), p.y ());
}
CompRegion
CompRegion::translated (int dx, int dy) const
{
CompRegion rv (*this);
rv.translate (dx, dy);
return rv;
}
CompRegion
CompRegion::translated (const CompPoint &p) const
{
CompRegion rv (*this);
rv.translate (p);
return rv;
}
void
CompRegion::shrink (int dx, int dy)
{
XShrinkRegion (handle (), dx, dy);
}
void
CompRegion::shrink (const CompPoint &p)
{
shrink (p.x (), p.y ());
}
CompRegion
CompRegion::shrinked (int dx, int dy) const
{
CompRegion rv (*this);
rv.shrink (dx, dy);
return rv;
}
CompRegion
CompRegion::shrinked (const CompPoint &p) const
{
CompRegion rv (*this);
rv.shrink (p);
return rv;
}
CompRegion
CompRegion::united (const CompRegion &r) const
{
CompRegion rv;
XUnionRegion (handle (), r.handle (), rv.handle ());
return rv;
}
CompRegion
CompRegion::united (const CompRect &r) const
{
CompRegion rv;
XUnionRegion (handle (), r.region (), rv.handle ());
return rv;
}
CompRegion
CompRegion::xored (const CompRegion &r) const
{
CompRegion rv;
XXorRegion (handle (), r.handle (), rv.handle ());
return rv;
}
const CompRegion
CompRegion::operator& (const CompRegion &r) const
{
return intersected (r);
}
const CompRegion
CompRegion::operator& (const CompRect &r) const
{
return intersected (r);
}
CompRegion &
CompRegion::operator&= (const CompRegion &r)
{
XIntersectRegion (r.handle (), handle (), handle ());
return *this;
}
CompRegion &
CompRegion::operator&= (const CompRect &r)
{
CompRegionRef ref (r.region ());
XIntersectRegion (ref.handle (), handle (), handle ());
return *this;
}
const CompRegion
CompRegion::operator+ (const CompRegion &r) const
{
return united (r);
}
const CompRegion
CompRegion::operator+ (const CompRect &r) const
{
return united (r);
}
CompRegion &
CompRegion::operator+= (const CompRegion &r)
{
XUnionRegion (handle (), r.handle (), handle ());
return *this;
}
CompRegion &
CompRegion::operator+= (const CompRect &r)
{
CompRegionRef ref (r.region ());
XUnionRegion (handle (), ref.handle (), handle ());
return *this;
}
const CompRegion
CompRegion::operator- (const CompRegion &r) const
{
return subtracted (r);
}
const CompRegion
CompRegion::operator- (const CompRect &r) const
{
return subtracted (r);
}
CompRegion &
CompRegion::operator-= (const CompRegion &r)
{
XSubtractRegion (handle (), r.handle (), handle ());
return *this;
}
CompRegion &
CompRegion::operator-= (const CompRect &r)
{
CompRegionRef ref (r.region ());
XSubtractRegion (handle (), ref.handle (), handle ());
return *this;
}
const CompRegion
CompRegion::operator^ (const CompRegion &r) const
{
return xored (r);
}
CompRegion &
CompRegion::operator^= (const CompRegion &r)
{
XXorRegion (handle (), r.handle (), handle ());
return *this;
}
const CompRegion
CompRegion::operator| (const CompRegion &r) const
{
return united (r);
}
CompRegion &
CompRegion::operator|= (const CompRegion &r)
{
XUnionRegion (handle (), r.handle (), handle ());
return *this;
}
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