///////////////////////////////////////////////////////////////////////////// // Name: src/common/geometry.cpp // Purpose: Common Geometry Classes // Author: Stefan Csomor // Modified by: // Created: 08/05/99 // Copyright: (c) 1999 Stefan Csomor // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if wxUSE_GEOMETRY #include "wx/geometry.h" #ifndef WX_PRECOMP #include "wx/log.h" #endif #include #include "wx/datstrm.h" // // wxPoint2D // // // wxRect2D // // wxDouble version // for the following calculations always remember // that the right and bottom edges are not part of a rect bool wxRect2DDouble::Intersects( const wxRect2DDouble &rect ) const { wxDouble left,right,bottom,top; left = wxMax ( m_x , rect.m_x ); right = wxMin ( m_x+m_width, rect.m_x + rect.m_width ); top = wxMax ( m_y , rect.m_y ); bottom = wxMin ( m_y+m_height, rect.m_y + rect.m_height ); if ( left < right && top < bottom ) { return true; } return false; } void wxRect2DDouble::Intersect( const wxRect2DDouble &src1 , const wxRect2DDouble &src2 , wxRect2DDouble *dest ) { wxDouble left,right,bottom,top; left = wxMax ( src1.m_x , src2.m_x ); right = wxMin ( src1.m_x+src1.m_width, src2.m_x + src2.m_width ); top = wxMax ( src1.m_y , src2.m_y ); bottom = wxMin ( src1.m_y+src1.m_height, src2.m_y + src2.m_height ); if ( left < right && top < bottom ) { dest->m_x = left; dest->m_y = top; dest->m_width = right - left; dest->m_height = bottom - top; } else { dest->m_width = dest->m_height = 0; } } void wxRect2DDouble::Union( const wxRect2DDouble &src1 , const wxRect2DDouble &src2 , wxRect2DDouble *dest ) { wxDouble left,right,bottom,top; left = wxMin ( src1.m_x , src2.m_x ); right = wxMax ( src1.m_x+src1.m_width, src2.m_x + src2.m_width ); top = wxMin ( src1.m_y , src2.m_y ); bottom = wxMax ( src1.m_y+src1.m_height, src2.m_y + src2.m_height ); dest->m_x = left; dest->m_y = top; dest->m_width = right - left; dest->m_height = bottom - top; } void wxRect2DDouble::Union( const wxPoint2DDouble &pt ) { wxDouble x = pt.m_x; wxDouble y = pt.m_y; if ( x < m_x ) { SetLeft( x ); } else if ( x < m_x + m_width ) { // contained } else { SetRight( x ); } if ( y < m_y ) { SetTop( y ); } else if ( y < m_y + m_height ) { // contained } else { SetBottom( y ); } } void wxRect2DDouble::ConstrainTo( const wxRect2DDouble &rect ) { if ( GetLeft() < rect.GetLeft() ) SetLeft( rect.GetLeft() ); if ( GetRight() > rect.GetRight() ) SetRight( rect.GetRight() ); if ( GetBottom() > rect.GetBottom() ) SetBottom( rect.GetBottom() ); if ( GetTop() < rect.GetTop() ) SetTop( rect.GetTop() ); } wxRect2DDouble& wxRect2DDouble::operator=( const wxRect2DDouble &r ) { m_x = r.m_x; m_y = r.m_y; m_width = r.m_width; m_height = r.m_height; return *this; } // integer version // for the following calculations always remember // that the right and bottom edges are not part of a rect // wxPoint2D #if wxUSE_STREAMS void wxPoint2DInt::WriteTo( wxDataOutputStream &stream ) const { stream.Write32( m_x ); stream.Write32( m_y ); } void wxPoint2DInt::ReadFrom( wxDataInputStream &stream ) { m_x = stream.Read32(); m_y = stream.Read32(); } #endif // wxUSE_STREAMS wxDouble wxPoint2DInt::GetVectorAngle() const { if ( m_x == 0 ) { if ( m_y >= 0 ) return 90; else return 270; } if ( m_y == 0 ) { if ( m_x >= 0 ) return 0; else return 180; } // casts needed for MIPSpro compiler under SGI wxDouble deg = atan2( (double)m_y , (double)m_x ) * 180 / M_PI; if ( deg < 0 ) { deg += 360; } return deg; } void wxPoint2DInt::SetVectorAngle( wxDouble degrees ) { wxDouble length = GetVectorLength(); m_x = (int)(length * cos( degrees / 180 * M_PI )); m_y = (int)(length * sin( degrees / 180 * M_PI )); } wxDouble wxPoint2DDouble::GetVectorAngle() const { if ( wxIsNullDouble(m_x) ) { if ( m_y >= 0 ) return 90; else return 270; } if ( wxIsNullDouble(m_y) ) { if ( m_x >= 0 ) return 0; else return 180; } wxDouble deg = atan2( m_y , m_x ) * 180 / M_PI; if ( deg < 0 ) { deg += 360; } return deg; } void wxPoint2DDouble::SetVectorAngle( wxDouble degrees ) { wxDouble length = GetVectorLength(); m_x = length * cos( degrees / 180 * M_PI ); m_y = length * sin( degrees / 180 * M_PI ); } // wxRect2D bool wxRect2DInt::Intersects( const wxRect2DInt &rect ) const { wxInt32 left,right,bottom,top; left = wxMax ( m_x , rect.m_x ); right = wxMin ( m_x+m_width, rect.m_x + rect.m_width ); top = wxMax ( m_y , rect.m_y ); bottom = wxMin ( m_y+m_height, rect.m_y + rect.m_height ); if ( left < right && top < bottom ) { return true; } return false; } void wxRect2DInt::Intersect( const wxRect2DInt &src1 , const wxRect2DInt &src2 , wxRect2DInt *dest ) { wxInt32 left,right,bottom,top; left = wxMax ( src1.m_x , src2.m_x ); right = wxMin ( src1.m_x+src1.m_width, src2.m_x + src2.m_width ); top = wxMax ( src1.m_y , src2.m_y ); bottom = wxMin ( src1.m_y+src1.m_height, src2.m_y + src2.m_height ); if ( left < right && top < bottom ) { dest->m_x = left; dest->m_y = top; dest->m_width = right - left; dest->m_height = bottom - top; } else { dest->m_width = dest->m_height = 0; } } void wxRect2DInt::Union( const wxRect2DInt &src1 , const wxRect2DInt &src2 , wxRect2DInt *dest ) { wxInt32 left,right,bottom,top; left = wxMin ( src1.m_x , src2.m_x ); right = wxMax ( src1.m_x+src1.m_width, src2.m_x + src2.m_width ); top = wxMin ( src1.m_y , src2.m_y ); bottom = wxMax ( src1.m_y+src1.m_height, src2.m_y + src2.m_height ); dest->m_x = left; dest->m_y = top; dest->m_width = right - left; dest->m_height = bottom - top; } void wxRect2DInt::Union( const wxPoint2DInt &pt ) { wxInt32 x = pt.m_x; wxInt32 y = pt.m_y; if ( x < m_x ) { SetLeft( x ); } else if ( x < m_x + m_width ) { // contained } else { SetRight( x ); } if ( y < m_y ) { SetTop( y ); } else if ( y < m_y + m_height ) { // contained } else { SetBottom( y ); } } void wxRect2DInt::ConstrainTo( const wxRect2DInt &rect ) { if ( GetLeft() < rect.GetLeft() ) SetLeft( rect.GetLeft() ); if ( GetRight() > rect.GetRight() ) SetRight( rect.GetRight() ); if ( GetBottom() > rect.GetBottom() ) SetBottom( rect.GetBottom() ); if ( GetTop() < rect.GetTop() ) SetTop( rect.GetTop() ); } wxRect2DInt& wxRect2DInt::operator=( const wxRect2DInt &r ) { m_x = r.m_x; m_y = r.m_y; m_width = r.m_width; m_height = r.m_height; return *this; } #if wxUSE_STREAMS void wxRect2DInt::WriteTo( wxDataOutputStream &stream ) const { stream.Write32( m_x ); stream.Write32( m_y ); stream.Write32( m_width ); stream.Write32( m_height ); } void wxRect2DInt::ReadFrom( wxDataInputStream &stream ) { m_x = stream.Read32(); m_y = stream.Read32(); m_width = stream.Read32(); m_height = stream.Read32(); } #endif // wxUSE_STREAMS // wxTransform2D void wxTransform2D::Transform( wxRect2DInt* r ) const { wxPoint2DInt a = r->GetLeftTop(), b = r->GetRightBottom(); Transform( &a ); Transform( &b ); *r = wxRect2DInt( a, b ); } wxPoint2DInt wxTransform2D::Transform( const wxPoint2DInt &pt ) const { wxPoint2DInt res = pt; Transform( &res ); return res; } wxRect2DInt wxTransform2D::Transform( const wxRect2DInt &r ) const { wxRect2DInt res = r; Transform( &res ); return res; } void wxTransform2D::InverseTransform( wxRect2DInt* r ) const { wxPoint2DInt a = r->GetLeftTop(), b = r->GetRightBottom(); InverseTransform( &a ); InverseTransform( &b ); *r = wxRect2DInt( a , b ); } wxPoint2DInt wxTransform2D::InverseTransform( const wxPoint2DInt &pt ) const { wxPoint2DInt res = pt; InverseTransform( &res ); return res; } wxRect2DInt wxTransform2D::InverseTransform( const wxRect2DInt &r ) const { wxRect2DInt res = r; InverseTransform( &res ); return res; } #endif // wxUSE_GEOMETRY