kicad/include/eda_rect.h

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
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* Copyright (C) 2018 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 2004-2021 KiCad Developers, see AUTHORS.txt for contributors.
*
* 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
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* @file eda_rect.h
*/
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#ifndef EDA_RECT_H
#define EDA_RECT_H
#include <wx/gdicmn.h>
#include <math/box2.h>
/**
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* Handle the component boundary box.
*
* This class is similar to wxRect, but some wxRect functions are very curious, and are
* working only if dimensions are >= 0 (not always the case in KiCad) and also KiCad needs
* some specific method which makes this a more suitable class.
*/
class EDA_RECT
{
public:
EDA_RECT() : m_init( false ) { };
EDA_RECT( const VECTOR2I& aPos, const VECTOR2I& aSize ) :
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m_pos( aPos ),
m_size( aSize ),
m_init( true )
{ }
EDA_RECT( const wxPoint& aPos, const wxSize& aSize ) :
EDA_RECT( VECTOR2I( aPos.x, aPos.y ), VECTOR2I( aSize.x, aSize.y ) )
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{ }
template<class T>
EDA_RECT( const BOX2<T> aBox )
{
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m_pos = aBox.GetPosition();
m_size.x = aBox.GetWidth();
m_size.y = aBox.GetHeight();
m_init = true;
}
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virtual ~EDA_RECT() { };
VECTOR2I Centre() const
{
return VECTOR2I( m_pos.x + ( m_size.x >> 1 ), m_pos.y + ( m_size.y >> 1 ) );
}
/**
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* Move the rectangle by the \a aMoveVector.
*
* @param aMoveVector A wxPoint that is the value to move this rectangle.
*/
void Move( const VECTOR2I& aMoveVector );
/**
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* Ensures that the height ant width are positive.
*/
void Normalize();
/**
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* @param aPoint the wxPoint to test.
* @return true if aPoint is inside the boundary box. A point on a edge is seen as inside.
*/
bool Contains( const VECTOR2I& aPoint ) const;
/**
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* @param x the x coordinate of the point to test.
* @param y the x coordinate of the point to test.
* @return true if point is inside the boundary box. A point on a edge is seen as inside
*/
bool Contains( int x, int y ) const { return Contains( VECTOR2I( x, y ) ); }
/**
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* @param aRect the EDA_RECT to test.
* @return true if aRect is Contained. A common edge is seen as contained.
*/
bool Contains( const EDA_RECT& aRect ) const;
const VECTOR2I GetSize() const { return m_size; }
/**
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* @return the max size dimension.
*/
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int GetSizeMax() const { return ( m_size.x > m_size.y ) ? m_size.x : m_size.y; }
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int GetX() const { return m_pos.x; }
int GetY() const { return m_pos.y; }
const VECTOR2I GetOrigin() const { return m_pos; }
const VECTOR2I GetPosition() const { return m_pos; }
const VECTOR2I GetEnd() const { return VECTOR2I( m_pos.x + m_size.x, m_pos.y + m_size.y ); }
const VECTOR2I GetCenter() const
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{
return VECTOR2I( m_pos.x + ( m_size.x / 2 ), m_pos.y + ( m_size.y / 2 ) );
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}
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int GetWidth() const { return m_size.x; }
int GetHeight() const { return m_size.y; }
int GetRight() const { return m_pos.x + m_size.x; }
int GetLeft() const { return m_pos.x; }
int GetTop() const { return m_pos.y; }
int GetBottom() const { return m_pos.y + m_size.y; } // Y axis from top to bottom
bool IsValid() const
{
return m_init;
}
void SetOrigin( const VECTOR2I& pos )
{
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m_pos = pos;
m_init = true;
}
void SetOrigin( int x, int y )
{
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m_pos.x = x;
m_pos.y = y;
m_init = true;
}
void SetSize( const VECTOR2I& size )
{
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m_size = size;
m_init = true;
}
void SetSize( int w, int h )
{
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m_size.x = w;
m_size.y = h;
m_init = true;
}
void Offset( int dx, int dy )
{
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m_pos.x += dx;
m_pos.y += dy;
}
void Offset( const VECTOR2I& offset )
{
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m_pos += offset;
}
void SetX( int val )
{
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m_pos.x = val;
m_init = true;
}
void SetY( int val )
{
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m_pos.y = val;
m_init = true;
}
void SetWidth( int val )
{
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m_size.x = val;
m_init = true;
}
void SetHeight( int val )
{
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m_size.y = val;
m_init = true;
}
void SetEnd( int x, int y )
{
SetEnd( VECTOR2I( x, y ) );
m_init = true;
}
void SetEnd( const VECTOR2I& pos )
{
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m_size.x = pos.x - m_pos.x;
m_size.y = pos.y - m_pos.y;
m_init = true;
}
/**
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* Mirror the rectangle from the X axis (negate Y pos and size).
*/
void RevertYAxis()
{
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m_pos.y = -m_pos.y;
m_size.y = -m_size.y;
Normalize();
}
/**
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* Test for a common area between rectangles.
*
* @param aRect A rectangle to test intersection with.
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* @return true if the argument rectangle intersects this rectangle.
* (i.e. if the 2 rectangles have at least a common point)
*/
bool Intersects( const EDA_RECT& aRect ) const;
/**
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* Tests for a common area between this rectangle, and a rectangle with arbitrary rotation
*
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* @param aRect a rectangle to test intersection with.
* @param aRot rectangle rotation (in 1/10 degrees).
*/
bool Intersects( const EDA_RECT& aRect, double aRot ) const;
/**
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* Test for a common area between a segment and this rectangle.
*
* @param aPoint1 First point of the segment to test intersection with.
* @param aPoint2 Second point of the segment to test intersection with.
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* @return true if the argument segment intersects this rectangle.
* (i.e. if the segment and rectangle have at least a common point)
*/
bool Intersects( const VECTOR2I& aPoint1, const VECTOR2I& aPoint2 ) const;
/**
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* Test for intersection between a segment and this rectangle, returning the intersections.
*
* @param aPoint1 is the first point of the segment to test intersection with.
* @param aPoint2 is the second point of the segment to test intersection with.
* @param aIntersection1 will be filled with the first intersection point, if any.
* @param aIntersection2 will be filled with the second intersection point, if any.
* @return true if the segment intersects the rect.
*/
bool Intersects( const VECTOR2I& aPoint1, const VECTOR2I& aPoint2, VECTOR2I* aIntersection1,
VECTOR2I* aIntersection2 ) const;
/**
* Return the point in this rect that is closest to the provided point
*/
const VECTOR2I ClosestPointTo( const VECTOR2I& aPoint ) const;
/**
* Return the point in this rect that is farthest from the provided point
*/
const VECTOR2I FarthestPointTo( const VECTOR2I& aPoint ) const;
/**
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* Test for a common area between a circle and this rectangle.
*
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* @param aCenter center of the circle.
* @param aRadius radius of the circle.
*/
bool IntersectsCircle( const VECTOR2I& aCenter, const int aRadius ) const;
/**
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* Test for intersection between this rect and the edge (radius) of a circle.
*
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* @param aCenter center of the circle.
* @param aRadius radius of the circle.
* @param aWidth width of the circle edge.
*/
bool IntersectsCircleEdge( const VECTOR2I& aCenter, const int aRadius, const int aWidth ) const;
/**
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* Overload the cast operator to return a wxRect.
*
* wxRect does not accept negative values for size, so ensure the wxRect size is always >= 0.
*/
operator wxRect() const
{
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EDA_RECT rect( m_pos, m_size );
rect.Normalize();
return wxRect( (wxPoint)rect.m_pos, (wxSize)rect.m_size );
}
/**
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* Overload the cast operator to return a BOX2I.
*
* @return this box shaped as a BOX2I object.
*/
operator BOX2I() const
{
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EDA_RECT rect( m_pos, m_size );
rect.Normalize();
return BOX2I( rect.GetOrigin(), rect.GetSize() );
}
/**
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* Inflate the rectangle horizontally by \a dx and vertically by \a dy. If \a dx
* and/or \a dy is negative the rectangle is deflated.
*/
EDA_RECT& Inflate( wxCoord dx, wxCoord dy );
/**
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* Inflate the rectangle horizontally and vertically by \a aDelta. If \a aDelta
* is negative the rectangle is deflated.
*/
EDA_RECT& Inflate( int aDelta );
/**
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* Modify the position and size of the rectangle in order to contain \a aRect.
*
* It is mainly used to calculate bounding boxes.
*
* @param aRect The rectangle to merge with this rectangle.
*/
void Merge( const EDA_RECT& aRect );
/**
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* Modify the position and size of the rectangle in order to contain the given point.
*
* @param aPoint The point to merge with the rectangle.
*/
void Merge( const VECTOR2I& aPoint );
/**
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* Return the area of the rectangle.
*
* @return The area of the rectangle.
*/
double GetArea() const;
/**
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* Return the area that is common with another rectangle.
*
* @param aRect is the rectangle to find the common area with.
* @return The common area rect or 0-sized rectangle if there is no intersection.
*/
EDA_RECT Common( const EDA_RECT& aRect ) const;
/**
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* Useful to calculate bounding box of rotated items, when rotation if not k*90 degrees.
*
* @param aAngle the rotation angle in 0.1 deg.
* @param aRotCenter the rotation point.
* @return the bounding box of this, after rotation.
*/
const EDA_RECT GetBoundingBoxRotated( const VECTOR2I& aRotCenter, double aAngle ) const;
private:
VECTOR2I m_pos; // Rectangle Origin
VECTOR2I m_size; // Rectangle Size
bool m_init; // Is the rectangle initialized
};
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#endif // EDA_RECT_H