kicad/polygon/PolyLine.h

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// PolyLine.h ... definition of CPolyLine class
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//
// A polyline contains one or more contours, where each contour
// is defined by a list of corners and side-styles
// There may be multiple contours in a polyline.
// The last contour may be open or closed, any others must be closed.
// All of the corners and side-styles are concatenated into 2 arrays,
// separated by setting the end_contour flag of the last corner of
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// each contour.
//
// When used for copper (or technical layers) areas, the first contour is the outer edge
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// of the area, subsequent ones are "holes" in the copper.
#ifndef POLYLINE_H
#define POLYLINE_H
#include <vector>
#include <kbool/include/kbool/booleng.h>
#include <pad_shapes.h>
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#include <wx/gdicmn.h>
// inflection modes for DS_LINE and DS_LINE_VERTEX, used in math_for_graphics.cpp
enum
{
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IM_NONE = 0,
IM_90_45,
IM_45_90,
IM_90
};
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/**
* Function ArmBoolEng
* Initialise parameters used in kbool
* @param aBooleng = pointer to the Bool_Engine to initialise
* @param aConvertHoles = mode for holes when a boolean operation is made
* true: holes are linked into outer contours by double overlapping segments
* false: holes are not linked: in this mode contours are added clockwise
* and polygons added counter clockwise are holes (default)
*/
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void ArmBoolEng( Bool_Engine* aBooleng, bool aConvertHoles = false );
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class CRect
{
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public:
int left, right, top, bottom;
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};
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class CPoint
{
public:
int x, y;
public:
CPoint( void ) { x = y = 0; };
CPoint( int i, int j ) { x = i; y = j; };
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};
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class CSegment
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{
public:
int xi, yi, xf, yf;
CSegment() { };
CSegment( int x0, int y0, int x1, int y1 )
{
xi = x0; yi = y0; xf = x1; yf = y1;
}
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};
#include <math_for_graphics.h>
class CArc
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{
public:
enum { MAX_STEP = 50 * 25400 }; // max step is 20 mils
enum { MIN_STEPS = 18 }; // min step is 5 degrees
int style;
int xi, yi, xf, yf;
int n_steps; // number of straight-line segments in gpc_poly
bool bFound;
};
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class CPolyPt : public wxPoint
{
public:
CPolyPt( int qx = 0, int qy = 0, bool qf = false, int aUtility = 0 )
{ x = qx; y = qy; end_contour = qf; utility = aUtility; };
bool end_contour;
int utility;
bool operator == (const CPolyPt& cpt2 ) const
{ return (x == cpt2.x) && (y == cpt2.y) && (end_contour == cpt2.end_contour); }
bool operator != (CPolyPt& cpt2 ) const
{ return (x != cpt2.x) || (y != cpt2.y) || (end_contour != cpt2.end_contour); }
};
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#include <polygon_test_point_inside.h>
class CPolyLine
{
public:
enum { STRAIGHT, ARC_CW, ARC_CCW }; // side styles
enum { NO_HATCH, DIAGONAL_FULL, DIAGONAL_EDGE }; // hatch styles
// constructors/destructor
CPolyLine();
~CPolyLine();
// functions for modifying polyline
void Start( int layer, int x, int y, int hatch );
void AppendCorner( int x, int y, int style = STRAIGHT, bool bDraw = false );
void InsertCorner( int ic, int x, int y );
void DeleteCorner( int ic, bool bDraw = false );
void MoveCorner( int ic, int x, int y );
void Close( int style = STRAIGHT, bool bDraw = false );
void RemoveContour( int icont );
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/**
* Function Chamfer
* returns a chamfered version of a polygon.
* @param aDistance is the chamfering distance.
* @return CPolyLine* - Pointer to new polygon.
*/
CPolyLine* Chamfer( unsigned int aDistance );
/**
* Function Fillet
* returns a filleted version of a polygon.
* @param aRadius is the fillet radius.
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* @param aSegments is the number of segments / fillet.
* @return CPolyLine* - Pointer to new polygon.
*/
CPolyLine* Fillet( unsigned int aRadius, unsigned int aSegments );
void RemoveAllContours( void );
// Remove or create hatch
void UnHatch();
void Hatch();
// Transform functions
void MoveOrigin( int x_off, int y_off );
// misc. functions
CRect GetBounds();
CRect GetCornerBounds();
CRect GetCornerBounds( int icont );
void Copy( CPolyLine* src );
bool TestPointInside( int x, int y );
bool IsCutoutContour( int icont );
void AppendArc( int xi, int yi, int xf, int yf, int xc, int yc, int num );
// access functions
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int GetLayer() { return m_layer; }
int GetNumCorners();
int GetNumSides();
int GetClosed();
int GetNumContours();
int GetContour( int ic );
int GetContourStart( int icont );
int GetContourEnd( int icont );
int GetContourSize( int icont );
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int GetX( int ic ) const { return corner[ic].x; }
int GetY( int ic ) const { return corner[ic].y; }
const wxPoint& GetPos( int ic ) const { return corner[ic]; }
int GetEndContour( int ic );
int GetUtility( int ic ) { return corner[ic].utility; };
void SetUtility( int ic, int utility ) { corner[ic].utility = utility; };
int GetSideStyle( int is );
int GetHatchStyle() { return m_HatchStyle; }
void SetHatch( int hatch ) { m_HatchStyle = hatch; Hatch(); };
void SetX( int ic, int x );
void SetY( int ic, int y );
void SetEndContour( int ic, bool end_contour );
void SetSideStyle( int is, int style );
int RestoreArcs( std::vector<CArc> * arc_array, std::vector<CPolyLine*> * pa = NULL );
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int NormalizeAreaOutlines( std::vector<CPolyLine*> * pa = NULL,
bool bRetainArcs = false );
// KBOOL functions
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/**
* Function AddPolygonsToBoolEng
* and edges contours to a kbool engine, preparing a boolean op between polygons
* @param aStart_contour: starting contour number (-1 = all, 0 is the outlines of zone, > 1 = holes in zone
* @param aEnd_contour: ending contour number (-1 = all after aStart_contour)
* @param arc_array: arc connverted to poly (NULL if not exists)
* @param aBooleng : pointer on a bool engine (handle a set of polygons)
* @param aGroup : group to fill (aGroup = GROUP_A or GROUP_B) operations are made between GROUP_A and GROUP_B
*/
int AddPolygonsToBoolEng( Bool_Engine* aBooleng,
GroupType aGroup,
int aStart_contour = -1,
int aEnd_contour = -1,
std::vector<CArc> * arc_array = NULL );
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/**
* Function MakeKboolPoly
* fill a kbool engine with a closed polyline contour
* approximates arcs with multiple straight-line segments
* @param aStart_contour: starting contour number (-1 = all, 0 is the outlines of zone, > 1 = holes in zone
* @param aEnd_contour: ending contour number (-1 = all after aStart_contour)
* combining intersecting contours if possible
* @param arc_array : return data on arcs in arc_array
* @param aConvertHoles = mode for holes when a boolean operation is made
* true: holes are linked into outer contours by double overlapping segments
* false: holes are not linked: in this mode contours are added clockwise
* and polygons added counter clockwise are holes (default)
* @return error: 0 if Ok, 1 if error
*/
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int MakeKboolPoly( int aStart_contour = -1,
int aEnd_contour = -1,
std::vector<CArc> * arc_array = NULL,
bool aConvertHoles = false);
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/**
* Function NormalizeWithKbool
* Use the Kbool Library to clip contours: if outlines are crossing, the self-crossing polygon
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* is converted to non self-crossing polygon by adding extra points at the crossing locations
* and reordering corners
* if more than one outside contour are found, extra CPolyLines will be created
* because copper areas have only one outside contour
* Therefore, if this results in new CPolyLines, return them as std::vector pa
* @param aExtraPolyList: pointer on a std::vector<CPolyLine*> to store extra CPolyLines
* @param bRetainArcs == false, try to retain arcs in polys
* @return number of external contours, or -1 if error
*/
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int NormalizeWithKbool( std::vector<CPolyLine*> * aExtraPolyList, bool bRetainArcs );
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/**
* Function GetKboolEngine
* @return the current used Kbool Engine (after normalization using kbool)
*/
Bool_Engine* GetKboolEngine( ) { return m_Kbool_Poly_Engine; }
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/**
* Function FreeKboolEngine
* delete the current used Kbool Engine (free memory after normalization using kbool)
*/
void FreeKboolEngine( ) { delete m_Kbool_Poly_Engine; m_Kbool_Poly_Engine = NULL; }
// Bezier Support
void AppendBezier(int x1, int y1, int x2, int y2, int x3, int y3);
void AppendBezier(int x1, int y1, int x2, int y2, int x3, int y3, int x4, int y4);
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private:
int m_layer; // layer to draw on
int m_Width; // lines width when drawing. Provided but not really used
int utility;
Bool_Engine* m_Kbool_Poly_Engine; // polygons set in kbool engine data
public:
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std::vector <CPolyPt> corner; // array of points for corners
std::vector <int> side_style; // array of styles for sides
int m_HatchStyle; // hatch style, see enum above
std::vector <CSegment> m_HatchLines; // hatch lines
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};
#endif // #ifndef POLYLINE_H