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201 lines
4.9 KiB
C++
201 lines
4.9 KiB
C++
/*
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* \brief Geometric primitives
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* \author Norman Feske
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* \date 2006-08-05
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*/
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/*
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* Copyright (C) 2006-2013 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU General Public License version 2.
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*/
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#ifndef _INCLUDE__UTIL__GEOMETRY_H_
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#define _INCLUDE__UTIL__GEOMETRY_H_
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#include <util/misc_math.h>
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#include <base/stdint.h>
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namespace Genode {
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template <typename CT = int> class Point;
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template <typename DT = unsigned> class Area;
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template <typename CT = int, typename DT = unsigned> class Rect;
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}
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/**
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* \param CT coordinate type
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*/
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template <typename CT>
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class Genode::Point
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{
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private:
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CT _x, _y;
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public:
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Point(CT x, CT y): _x(x), _y(y) { }
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Point(): _x(0), _y(0) { }
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int x() const { return _x; }
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int y() const { return _y; }
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/**
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* Operator for adding points
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*/
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Point operator + (Point const &p) const { return Point(_x + p.x(), _y + p.y()); }
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/**
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* Operator for subtracting points
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*/
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Point operator - (Point const &p) const { return Point(_x - p.x(), _y - p.y()); }
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/**
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* Operator for testing non-equality of two points
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*/
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bool operator != (Point const &p) const { return p.x() != _x || p.y() != _y; }
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/**
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* Operator for testing equality of two points
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*/
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bool operator == (Point const &p) const { return p.x() == _x && p.y() == _y; }
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};
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/**
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* \param DT distance type
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*/
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template <typename DT>
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class Genode::Area
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{
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private:
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DT _w, _h;
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public:
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Area(DT w, DT h): _w(w), _h(h) { }
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Area(): _w(0), _h(0) { }
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DT w() const { return _w; }
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DT h() const { return _h; }
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bool valid() const { return _w > 0 && _h > 0; }
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size_t count() const { return _w*_h; }
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/**
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* Operator for testing non-equality of two areas
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*/
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bool operator != (Area const &a) const { return a.w() != _w || a.h() != _h; }
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/**
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* Operator for testing equality of two areas
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*/
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bool operator == (Area const &a) const { return a.w() == _w && a.h() == _h; }
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};
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/**
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* Rectangle
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*
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* A valid rectangle consists of two points wheras point 2 has higher or equal
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* coordinates than point 1. All other cases are threated as invalid
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* rectangles.
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*
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* \param CT coordinate type
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* \param DT distance type
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*/
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template <typename CT, typename DT>
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class Genode::Rect
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{
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private:
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Point<CT> _p1, _p2;
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public:
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/**
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* Constructors
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*/
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Rect(Point<CT> p1, Point<CT> p2): _p1(p1), _p2(p2) { }
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Rect(Point<CT> p, Area<DT> a)
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: _p1(p), _p2(p.x() + a.w() - 1, p.y() + a.h() - 1) { }
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Rect() : /* invalid */ _p1(1, 1), _p2(0, 0) { }
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/**
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* Accessors
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*/
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CT x1() const { return _p1.x(); }
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CT y1() const { return _p1.y(); }
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CT x2() const { return _p2.x(); }
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CT y2() const { return _p2.y(); }
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DT w() const { return _p2.x() - _p1.x() + 1; }
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DT h() const { return _p2.y() - _p1.y() + 1; }
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Point<CT> p1() const { return _p1; }
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Point<CT> p2() const { return _p2; }
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Area<DT> area() const { return Area<DT>(w(), h()); }
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/**
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* Return true if rectangle area is greater than zero
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*/
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bool valid() const { return _p1.x() <= _p2.x() && _p1.y() <= _p2.y(); }
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/**
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* Return true if area fits in rectangle
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*/
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bool fits(Area<DT> area) const { return w() >= area.w() && h() >= area.h(); }
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/**
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* Return true if the specified point lies within the rectangle
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*/
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bool contains(Point<CT> p) const {
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return p.x() >= x1() && p.x() <= x2() && p.y() >= y1() && p.y() <= y2(); }
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/**
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* Create new rectangle by intersecting two rectangles
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*/
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static Rect intersect(Rect r1, Rect r2) {
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return Rect(Point<CT>(max(r1.x1(), r2.x1()), max(r1.y1(), r2.y1())),
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Point<CT>(min(r1.x2(), r2.x2()), min(r1.y2(), r2.y2()))); }
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/**
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* Compute compounding rectangle of two rectangles
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*/
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static Rect compound(Rect r1, Rect r2) {
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return Rect(Point<CT>(min(r1.x1(), r2.x1()), min(r1.y1(), r2.y1())),
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Point<CT>(max(r1.x2(), r2.x2()), max(r1.y2(), r2.y2()))); }
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/**
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* Cut out rectangle from rectangle
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*
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* \param r rectangle to cut out
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*
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* In the worst case (if we cut a hole into the rectangle) we get
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* four valid resulting rectangles.
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*/
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void cut(Rect r, Rect *top, Rect *left, Rect *right, Rect *bottom) const
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{
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/* limit the cut-out area to the actual rectangle */
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r = intersect(r, *this);
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*top = Rect(Point<CT>(x1(), y1()), Point<CT>(x2(), r.y1() - 1));
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*left = Rect(Point<CT>(x1(), r.y1()), Point<CT>(r.x1() - 1, r.y2()));
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*right = Rect(Point<CT>(r.x2() + 1, r.y1()), Point<CT>(x2(), r.y2()));
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*bottom = Rect(Point<CT>(x1(), r.y2() + 1), Point<CT>(x2(), y2()));
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}
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/**
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* Return position of an area when centered within the rectangle
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*/
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Point<CT> center(Area<DT> area) const {
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return Point<CT>(((CT)w() - (CT)area.w())/2,
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((CT)h() - (CT)area.h())/2) + p1(); }
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};
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#endif /* _INCLUDE__UTIL__GEOMETRY_H_ */
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