blender/intern/ghost/GHOST_Rect.h
Campbell Barton 2b7ca2304a unify include guard defines, __$FILENAME__
without the underscores these clogged up the namespace for autocompleation which was annoying.
2012-02-17 18:59:41 +00:00

259 lines
7.4 KiB
C++

/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* 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, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file ghost/intern/GHOST_Debug.h
* \ingroup GHOST
* Macro's used in GHOST debug target.
*/
#ifndef __GHOST_RECT_H__
#define __GHOST_RECT_H__
#include "GHOST_Types.h"
/**
* Implements rectangle functionality.
* The four extreme coordinates are stored as left, top, right and bottom.
* To be valid, a rectangle should have a left coordinate smaller than or equal to right.
* To be valid, a rectangle should have a top coordinate smaller than or equal to bottom.
* @author Maarten Gribnau
* @date May 10, 2001
*/
class GHOST_Rect {
public:
/**
* Constructs a rectangle with the given values.
* @param l requested left coordinate of the rectangle
* @param t requested top coordinate of the rectangle
* @param r requested right coordinate of the rectangle
* @param b requested bottom coordinate of the rectangle
*/
GHOST_Rect(GHOST_TInt32 l=0, GHOST_TInt32 t=0, GHOST_TInt32 r=0, GHOST_TInt32 b=0)
: m_l(l), m_t(t), m_r(r), m_b(b) {}
/**
* Copy constructor.
* @param r rectangle to copy
*/
GHOST_Rect(const GHOST_Rect& r)
: m_l(r.m_l), m_t(r.m_t), m_r(r.m_r), m_b(r.m_b) {}
/**
* Destructor.
*/
virtual ~GHOST_Rect() {};
/**
* Access to rectangle width.
* @return width of the rectangle
*/
virtual inline GHOST_TInt32 getWidth() const;
/**
* Access to rectangle height.
* @return height of the rectangle
*/
virtual inline GHOST_TInt32 getHeight() const;
/**
* Sets all members of the rectangle.
* @param l requested left coordinate of the rectangle
* @param t requested top coordinate of the rectangle
* @param r requested right coordinate of the rectangle
* @param b requested bottom coordinate of the rectangle
*/
virtual inline void set(GHOST_TInt32 l, GHOST_TInt32 t, GHOST_TInt32 r, GHOST_TInt32 b);
/**
* Returns whether this rectangle is empty.
* Empty rectangles are rectangles that have width==0 and/or height==0.
* @return boolean value (true==empty rectangle)
*/
virtual inline bool isEmpty() const;
/**
* Returns whether this rectangle is valid.
* Valid rectangles are rectangles that have m_l <= m_r and m_t <= m_b. Thus, emapty rectangles are valid.
* @return boolean value (true==valid rectangle)
*/
virtual inline bool isValid() const;
/**
* Grows (or shrinks the rectangle).
* The method avoids negative insets making the rectangle invalid
* @param i The amount of offset given to each extreme (negative values shrink the rectangle).
*/
virtual void inset(GHOST_TInt32 i);
/**
* Does a union of the rectangle given and this rectangle.
* The result is stored in this rectangle.
* @param r The rectangle that is input for the union operation.
*/
virtual inline void unionRect(const GHOST_Rect& r);
/**
* Grows the rectangle to included a point.
* @param x The x-coordinate of the point.
* @param y The y-coordinate of the point.
*/
virtual inline void unionPoint(GHOST_TInt32 x, GHOST_TInt32 y);
/**
* Grows the rectangle to included a point.
* @param x The x-coordinate of the point.
* @param y The y-coordinate of the point.
*/
virtual inline void wrapPoint(GHOST_TInt32 &x, GHOST_TInt32 &y, GHOST_TInt32 ofs);
/**
* Returns whether the point is inside this rectangle.
* Point on the boundary is considered inside.
* @param x x-coordinate of point to test.
* @param y y-coordinate of point to test.
* @return boolean value (true if point is inside).
*/
virtual inline bool isInside(GHOST_TInt32 x, GHOST_TInt32 y) const;
/**
* Returns whether the rectangle is inside this rectangle.
* @param r rectangle to test.
* @return visibility (not, partially or fully visible).
*/
virtual GHOST_TVisibility getVisibility(GHOST_Rect& r) const;
/**
* Sets rectangle members.
* Sets rectangle members such that it is centered at the given location.
* @param cx requested center x-coordinate of the rectangle
* @param cy requested center y-coordinate of the rectangle
*/
virtual void setCenter(GHOST_TInt32 cx, GHOST_TInt32 cy);
/**
* Sets rectangle members.
* Sets rectangle members such that it is centered at the given location,
* with the width requested.
* @param cx requested center x-coordinate of the rectangle
* @param cy requested center y-coordinate of the rectangle
* @param w requested width of the rectangle
* @param h requested height of the rectangle
*/
virtual void setCenter(GHOST_TInt32 cx, GHOST_TInt32 cy, GHOST_TInt32 w, GHOST_TInt32 h);
/**
* Clips a rectangle.
* Updates the rectangle given such that it will fit within this one.
* This can result in an empty rectangle.
* @param r the rectangle to clip
* @return whether clipping has occurred
*/
virtual bool clip(GHOST_Rect& r) const;
/** Left coordinate of the rectangle */
GHOST_TInt32 m_l;
/** Top coordinate of the rectangle */
GHOST_TInt32 m_t;
/** Right coordinate of the rectangle */
GHOST_TInt32 m_r;
/** Bottom coordinate of the rectangle */
GHOST_TInt32 m_b;
#ifdef WITH_CXX_GUARDEDALLOC
public:
void *operator new(size_t num_bytes) { return MEM_mallocN(num_bytes, "GHOST:GHOST_Rect"); }
void operator delete( void *mem ) { MEM_freeN(mem); }
#endif
};
inline GHOST_TInt32 GHOST_Rect::getWidth() const
{
return m_r - m_l;
}
inline GHOST_TInt32 GHOST_Rect::getHeight() const
{
return m_b - m_t;
}
inline void GHOST_Rect::set(GHOST_TInt32 l, GHOST_TInt32 t, GHOST_TInt32 r, GHOST_TInt32 b)
{
m_l = l; m_t = t; m_r = r; m_b = b;
}
inline bool GHOST_Rect::isEmpty() const
{
return (getWidth() == 0) || (getHeight() == 0);
}
inline bool GHOST_Rect::isValid() const
{
return (m_l <= m_r) && (m_t <= m_b);
}
inline void GHOST_Rect::unionRect(const GHOST_Rect& r)
{
if (r.m_l < m_l) m_l = r.m_l;
if (r.m_r > m_r) m_r = r.m_r;
if (r.m_t < m_t) m_t = r.m_t;
if (r.m_b > m_b) m_b = r.m_b;
}
inline void GHOST_Rect::unionPoint(GHOST_TInt32 x, GHOST_TInt32 y)
{
if (x < m_l) m_l = x;
if (x > m_r) m_r = x;
if (y < m_t) m_t = y;
if (y > m_b) m_b = y;
}
#include <stdio.h>
inline void GHOST_Rect::wrapPoint(GHOST_TInt32 &x, GHOST_TInt32 &y, GHOST_TInt32 ofs)
{
GHOST_TInt32 w= getWidth();
GHOST_TInt32 h= getHeight();
/* highly unlikely but avoid eternal loop */
if(w-ofs*2 <= 0 || h-ofs*2 <= 0)
return;
while(x-ofs < m_l) x+= w-(ofs*2);
while(y-ofs < m_t) y+= h-(ofs*2);
while(x+ofs > m_r) x-= w-(ofs*2);
while(y+ofs > m_b) y-= h-(ofs*2);
}
inline bool GHOST_Rect::isInside(GHOST_TInt32 x, GHOST_TInt32 y) const
{
return (x >= m_l) && (x <= m_r) && (y >= m_t) && (y <= m_b);
}
#endif // __GHOST_RECT_H__