/****************************************/ /* Modules to handle component drawing. */ /****************************************/ #include "fctsys.h" #include "gr_basic.h" #include "common.h" #include "class_drawpanel.h" #include "program.h" #include "general.h" #include "protos.h" #include "class_library.h" #include //#define DRAW_ARC_WITH_ANGLE // Used to select function to draw arcs /***************************************************************************/ /** Function TransformCoordinate * Calculate the wew coordinate from the old one, according to the transform * matrix. * @param aTransformMatrix = rotation, mirror .. matrix * @param aPosition = the position to transform * @return the new coordinate */ /***************************************************************************/ wxPoint TransformCoordinate( const int aTransformMatrix[2][2], const wxPoint& aPosition ) { wxPoint new_pos; new_pos.x = ( aTransformMatrix[0][0] * aPosition.x ) + ( aTransformMatrix[0][1] * aPosition.y ); new_pos.y = ( aTransformMatrix[1][0] * aPosition.x ) + ( aTransformMatrix[1][1] * aPosition.y ); return new_pos; } /***************************************************************************** * Routine to rotate the given angular direction by the given Transformation. * * Input (and output) angles must be as follows: * * Unit is 0.1 degre * * Angle1 in [0..3600], Angle2 > Angle1 in [0..7200]. Arc is assumed to be * * less than 180.0 degrees. * * Algorithm: * * Map the angles to a point on the unit circle which is mapped using the * * transform (only mirror and rotate so it remains on the unit circle) to * * a new point which is used to detect new angle. * *****************************************************************************/ bool MapAngles( int* Angle1, int* Angle2, const int TransMat[2][2] ) { int Angle, Delta; double x, y, t; bool swap = FALSE; Delta = *Angle2 - *Angle1; if( Delta >= 1800 ) { *Angle1 -= 1; *Angle2 += 1; } x = cos( *Angle1 * M_PI / 1800.0 ); y = sin( *Angle1 * M_PI / 1800.0 ); t = x * TransMat[0][0] + y * TransMat[0][1]; y = x * TransMat[1][0] + y * TransMat[1][1]; x = t; *Angle1 = (int) ( atan2( y, x ) * 1800.0 / M_PI + 0.5 ); x = cos( *Angle2 * M_PI / 1800.0 ); y = sin( *Angle2 * M_PI / 1800.0 ); t = x * TransMat[0][0] + y * TransMat[0][1]; y = x * TransMat[1][0] + y * TransMat[1][1]; x = t; *Angle2 = (int) ( atan2( y, x ) * 1800.0 / M_PI + 0.5 ); NORMALIZE_ANGLE( *Angle1 ); NORMALIZE_ANGLE( *Angle2 ); if( *Angle2 < *Angle1 ) *Angle2 += 3600; if( *Angle2 - *Angle1 > 1800 ) /* Need to swap the two angles. */ { Angle = (*Angle1); *Angle1 = (*Angle2); *Angle2 = Angle; NORMALIZE_ANGLE( *Angle1 ); NORMALIZE_ANGLE( *Angle2 ); if( *Angle2 < *Angle1 ) *Angle2 += 3600; swap = TRUE; } if( Delta >= 1800 ) { *Angle1 += 1; *Angle2 -= 1; } return swap; } /***************************************************************************** * Routine to display an outline version of given library entry. * * This routine is applied by the PlaceLibItem routine above. * *****************************************************************************/ void DrawingLibInGhost( WinEDA_DrawPanel* panel, wxDC* DC, LIB_COMPONENT* LibEntry, SCH_COMPONENT* DrawLibItem, int PartX, int PartY, int multi, int convert, int Color, bool DrawPinText ) { int DrawMode = g_XorMode; DrawLibPartAux( panel, DC, DrawLibItem, LibEntry, wxPoint( PartX, PartY ), DrawLibItem->m_Transform, multi, convert, DrawMode, Color, DrawPinText ); }