/*************/ /* trigo.h */ /*************/ #ifndef TRIGO_H #define TRIGO_H void RotatePoint( int *pX, int *pY, int angle ); void RotatePoint( int *pX, int *pY, int cx, int cy, int angle ); void RotatePoint( wxPoint* point, int angle ); void RotatePoint( wxPoint *point, const wxPoint & centre, int angle ); void RotatePoint( double *pX, double *pY, int angle ); void RotatePoint( double *pX, double *pY, double cx, double cy, int angle ); /* Return the arc tangent of 0.1 degrees coord vector dx, dy * between -1800 and 1800 * Equivalent to atan2 (but faster for calculations if * the angle is 0 to -1800, or + - 900 */ int ArcTangente( int dy, int dx ); bool DistanceTest( int seuil, int dx, int dy, int spot_cX, int spot_cY ); /** Function TestSegmentHit * test for hit on line segment * i.e. cursor within a given distance from segment * @param aRefPoint = cursor (point to test) coords * @param aStart is the first end-point of the line segment * @param aEnd is the second end-point of the line segment * @param aDist = maximum distance for hit */ bool TestSegmentHit( wxPoint aRefPoint, wxPoint aStart, wxPoint aEnd, int aDist ); /*******************/ /* Macro NEW_COORD */ /*******************/ /* Calculate coordinates to rotate around an axis * coord: xrot = y + x * sin * cos * yrot = y * cos - sin * x * either: xrot = (y + x * tg) * cos * yrot = (y - x * tg) * cos * * Cosine coefficients are loaded from a trigometric table by 16 bit values. */ #define NEW_COORD( x0, y0 ) \ do { \ int itmp; \ itmp = x0; \ x0 = x0 + (int)( y0 * tg ); \ y0 = y0 - (int)( itmp * tg ); \ x0 = ( x0 * cosinus ) >> 8; \ y0 = ( y0 * cosinus ) >> 8; \ } while( 0 ); extern double fsinus[]; extern double fcosinus[]; #endif