Commit 99b90d2f authored by jean-pierre charras's avatar jean-pierre charras

More work on a better support of polygons in Kicad (code cleaning).

parent ef5f1b9e
......@@ -561,15 +561,15 @@ void LIB_ARC::BeginEdit( int aEditMode, const wxPoint aPosition )
// Drag either the start, end point or the outline
if( HitTestPoints( m_ArcStart, aPosition, MINIMUM_SELECTION_DISTANCE ) )
{
m_editSelectPoint = START;
m_editSelectPoint = ARC_STATUS_START;
}
else if( HitTestPoints( m_ArcEnd, aPosition, MINIMUM_SELECTION_DISTANCE ) )
{
m_editSelectPoint = END;
m_editSelectPoint = ARC_STATUS_END;
}
else
{
m_editSelectPoint = OUTLINE;
m_editSelectPoint = ARC_STATUS_OUTLINE;
}
m_editState = 0;
......@@ -619,12 +619,12 @@ void LIB_ARC::calcEdit( const wxPoint& aPosition )
wxPoint newCenterPoint, startPos, endPos;
// Choose the point of the arc to be adjusted
if( m_editSelectPoint == START )
if( m_editSelectPoint == ARC_STATUS_START )
{
startPos = aPosition;
endPos = m_ArcEnd;
}
else if( m_editSelectPoint == END )
else if( m_editSelectPoint == ARC_STATUS_END )
{
endPos = aPosition;
startPos = m_ArcStart;
......@@ -658,7 +658,7 @@ void LIB_ARC::calcEdit( const wxPoint& aPosition )
newCenterPoint = m_Pos;
}
if( m_editSelectPoint == START || m_editSelectPoint == END )
if( m_editSelectPoint == ARC_STATUS_START || m_editSelectPoint == ARC_STATUS_END )
{
// Compute the new center point when the start/end points are modified
wxPoint middlePoint = wxPoint( (startPos.x + endPos.x) / 2,
......
......@@ -37,15 +37,15 @@ class TRANSFORM;
class LIB_ARC : public LIB_ITEM
{
enum SELECT_T
enum SELECT_T // When creating an arc: status of arc
{
START,
END,
OUTLINE,
ARC_STATUS_START,
ARC_STATUS_END,
ARC_STATUS_OUTLINE,
};
int m_Radius;
int m_t1; /* First radius angle of the arc in 0.1 degrees. */
int m_t1; // First radius angle of the arc in 0.1 degrees.
int m_t2; /* Second radius angle of the arc in 0.1 degrees. */
wxPoint m_ArcStart;
wxPoint m_ArcEnd; /* Arc end position. */
......
......@@ -1302,12 +1302,12 @@ static void AddNewTrace( PCB_EDIT_FRAME* pcbframe, wxDC* DC )
g_CurrentTrackList.PushBack( newTrack );
}
g_FirstTrackSegment->start = pcbframe->GetBoard()->GetPad( g_FirstTrackSegment, START );
g_FirstTrackSegment->start = pcbframe->GetBoard()->GetPad( g_FirstTrackSegment, FLG_START );
if( g_FirstTrackSegment->start )
g_FirstTrackSegment->SetState( BEGIN_ONPAD, ON );
g_CurrentTrackSegment->end = pcbframe->GetBoard()->GetPad( g_CurrentTrackSegment, END );
g_CurrentTrackSegment->end = pcbframe->GetBoard()->GetPad( g_CurrentTrackSegment, FLG_END );
if( g_CurrentTrackSegment->end )
g_CurrentTrackSegment->SetState( END_ONPAD, ON );
......
......@@ -1681,7 +1681,7 @@ D_PAD* BOARD::GetPad( TRACK* aTrace, int aEndPoint )
int aLayerMask = GetLayerMask( aTrace->GetLayer() );
if( aEndPoint == START )
if( aEndPoint == FLG_START )
{
aPosition = aTrace->m_Start;
}
......@@ -2271,7 +2271,7 @@ TRACK* BOARD::CreateLockPoint( wxPoint& aPosition, TRACK* aSegment, PICKED_ITEMS
aSegment->end = newTrack;
aSegment->SetState( END_ONPAD, OFF );
D_PAD * pad = GetPad( newTrack, START );
D_PAD * pad = GetPad( newTrack, FLG_START );
if ( pad )
{
......
......@@ -1282,7 +1282,7 @@ TRACK* TRACK::GetTrace( TRACK* aStartTrace, TRACK* aEndTrace, int aEndPoint )
int ii;
int max_dist;
if( aEndPoint == START )
if( aEndPoint == FLG_START )
position = m_Start;
else
position = m_End;
......
......@@ -613,7 +613,7 @@ private:
/* set of filled polygons used to draw a zone as a filled area.
* from outlines (m_Poly) but unlike m_Poly these filled polygons have no hole
* (they are* all in one piece) In very simple cases m_FilledPolysList is same
* (they are all in one piece) In very simple cases m_FilledPolysList is same
* as m_Poly. In less simple cases (when m_Poly has holes) m_FilledPolysList is
* a polygon equivalent to m_Poly, without holes but with extra outline segment
* connecting "holes" with external main outline. In complex cases an outline
......
......@@ -272,7 +272,7 @@ static void DeleteUnconnectedTracks( PCB_EDIT_FRAME* aFrame )
if( (type_end & START_ON_PAD ) == 0 )
{
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, START );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_START );
if( other == NULL ) // Test a connection to zones
{
......@@ -306,7 +306,7 @@ static void DeleteUnconnectedTracks( PCB_EDIT_FRAME* aFrame )
segment->SetState( BUSY, ON );
SEGVIA* via = (SEGVIA*) other;
other = via->GetTrace( aFrame->GetBoard()->m_Track, NULL, START );
other = via->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_START );
if( other == NULL )
{
......@@ -327,7 +327,7 @@ static void DeleteUnconnectedTracks( PCB_EDIT_FRAME* aFrame )
// if not connected to a pad, test if segment's END is connected to another track
if( (type_end & END_ON_PAD ) == 0 )
{
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, END );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_END );
if( other == NULL ) // Test a connection to zones
{
......@@ -362,7 +362,7 @@ static void DeleteUnconnectedTracks( PCB_EDIT_FRAME* aFrame )
segment->SetState( BUSY, ON );
SEGVIA* via = (SEGVIA*) other;
other = via->GetTrace( aFrame->GetBoard()->m_Track, NULL, END );
other = via->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_END );
if( other == NULL )
{
......@@ -486,7 +486,7 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
// search for a possible point that connects on the START point of the segment
for( segStart = segment->Next(); ; )
{
segStart = segment->GetTrace( segStart, NULL, START );
segStart = segment->GetTrace( segStart, NULL, FLG_START );
if( segStart )
{
......@@ -500,7 +500,7 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
// We must have only one segment connected
segStart->SetState( BUSY, ON );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, START );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_START );
segStart->SetState( BUSY, OFF );
if( other == NULL )
......@@ -514,7 +514,7 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
if( flag ) // We have the starting point of the segment is connected to an other segment
{
segDelete = MergeColinearSegmentIfPossible( aFrame->GetBoard(), segment, segStart,
START );
FLG_START );
if( segDelete )
{
......@@ -526,7 +526,7 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
// search for a possible point that connects on the END point of the segment:
for( segEnd = segment->Next(); ; )
{
segEnd = segment->GetTrace( segEnd, NULL, END );
segEnd = segment->GetTrace( segEnd, NULL, FLG_END );
if( segEnd )
{
......@@ -538,7 +538,7 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
// We must have only one segment connected
segEnd->SetState( BUSY, ON );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, END );
other = segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_END );
segEnd->SetState( BUSY, OFF );
if( other == NULL )
......@@ -554,7 +554,8 @@ static void clean_segments( PCB_EDIT_FRAME* aFrame )
if( flag & 2 ) // We have the ending point of the segment is connected to an other segment
{
segDelete = MergeColinearSegmentIfPossible( aFrame->GetBoard(), segment, segEnd, END );
segDelete = MergeColinearSegmentIfPossible( aFrame->GetBoard(),
segment, segEnd, FLG_END );
if( segDelete )
{
......@@ -643,7 +644,7 @@ TRACK* MergeColinearSegmentIfPossible( BOARD* aPcb, TRACK* aTrackRef, TRACK* aCa
* (this function) is called when there is only 2 connected segments,
*and if this point is not on a pad, it can be removed and the 2 segments will be merged
*/
if( aEndType == START )
if( aEndType == FLG_START )
{
// We must not have a pad, which is a always terminal point for a track
if( aPcb->GetPadFast( aTrackRef->m_Start, aTrackRef->ReturnMaskLayer() ) )
......@@ -712,7 +713,7 @@ bool PCB_EDIT_FRAME::RemoveMisConnectedTracks()
}
else
{
other = segment->GetTrace( GetBoard()->m_Track, NULL, START );
other = segment->GetTrace( GetBoard()->m_Track, NULL, FLG_START );
if( other )
net_code_s = other->GetNet();
......@@ -730,7 +731,7 @@ bool PCB_EDIT_FRAME::RemoveMisConnectedTracks()
}
else
{
other = segment->GetTrace( GetBoard()->m_Track, NULL, END );
other = segment->GetTrace( GetBoard()->m_Track, NULL, FLG_END );
if( other )
net_code_e = other->GetNet();
......@@ -871,14 +872,14 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* aFrame )
if( aFrame->GetCanvas()->GetAbortRequest() )
return;
pad = aFrame->GetBoard()->GetPad( segment, START );
pad = aFrame->GetBoard()->GetPad( segment, FLG_START );
if( pad )
{
// test if the track start point is not exactly starting on the pad
if( segment->m_Start != pad->GetPosition() )
{
if( segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, START ) == NULL )
if( segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_START ) == NULL )
{
TRACK* newTrack = (TRACK*) segment->Clone();
......@@ -893,14 +894,14 @@ void ConnectDanglingEndToPad( PCB_EDIT_FRAME* aFrame )
}
}
pad = aFrame->GetBoard()->GetPad( segment, END );
pad = aFrame->GetBoard()->GetPad( segment, FLG_END );
if( pad )
{
// test if the track end point is not exactly on the pad
if( segment->m_End != pad->GetPosition() )
{
if( segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, END ) == NULL )
if( segment->GetTrace( aFrame->GetBoard()->m_Track, NULL, FLG_END ) == NULL )
{
TRACK* newTrack = (TRACK*)segment->Clone();
......
......@@ -263,7 +263,7 @@ TRACK* PCB_EDIT_FRAME::Begin_Route( TRACK* aTrack, wxDC* aDC )
newTrack->SetState( BEGIN_ONPAD | END_ONPAD, OFF );
D_PAD* pad = GetBoard()->GetPad( previousTrack, END );
D_PAD* pad = GetBoard()->GetPad( previousTrack, FLG_END );
if( pad )
{
......@@ -1042,7 +1042,7 @@ void DeleteNullTrackSegments( BOARD* pcb, DLIST<TRACK>& aTrackList )
while( track != NULL )
{
TRACK* next_track = track->Next();
LockPoint = pcb->GetPad( track, END );
LockPoint = pcb->GetPad( track, FLG_END );
if( LockPoint )
{
......
......@@ -887,7 +887,7 @@ void PCB_EDIT_FRAME::Start_DragTrackSegmentAndKeepSlope( TRACK* track, wxDC* DC
s_StartSegmentPresent = s_EndSegmentPresent = true;
if( ( track->start == NULL ) || ( track->start->Type() == PCB_TRACE_T ) )
TrackToStartPoint = track->GetTrace( GetBoard()->m_Track, NULL, START );
TrackToStartPoint = track->GetTrace( GetBoard()->m_Track, NULL, FLG_START );
// Test if more than one segment is connected to this point
if( TrackToStartPoint )
......@@ -895,14 +895,14 @@ void PCB_EDIT_FRAME::Start_DragTrackSegmentAndKeepSlope( TRACK* track, wxDC* DC
TrackToStartPoint->SetState( BUSY, ON );
if( ( TrackToStartPoint->Type() == PCB_VIA_T )
|| track->GetTrace( GetBoard()->m_Track, NULL, START ) )
|| track->GetTrace( GetBoard()->m_Track, NULL, FLG_START ) )
error = true;
TrackToStartPoint->SetState( BUSY, OFF );
}
if( ( track->end == NULL ) || ( track->end->Type() == PCB_TRACE_T ) )
TrackToEndPoint = track->GetTrace( GetBoard()->m_Track, NULL, END );
TrackToEndPoint = track->GetTrace( GetBoard()->m_Track, NULL, FLG_END );
// Test if more than one segment is connected to this point
if( TrackToEndPoint )
......@@ -910,7 +910,7 @@ void PCB_EDIT_FRAME::Start_DragTrackSegmentAndKeepSlope( TRACK* track, wxDC* DC
TrackToEndPoint->SetState( BUSY, ON );
if( (TrackToEndPoint->Type() == PCB_VIA_T)
|| track->GetTrace( GetBoard()->m_Track, NULL, END ) )
|| track->GetTrace( GetBoard()->m_Track, NULL, FLG_END ) )
error = true;
TrackToEndPoint->SetState( BUSY, OFF );
......
......@@ -25,8 +25,8 @@
#define VISIBLE_ONLY (1 << 3) ///< if module not on a visible layer, do not select
#define START 0 /* Flag used in locate routines */
#define END 1
#define FLG_START 0 // Flag used in locate routines
#define FLG_END 1 // Flag used in locate routines
#define DIM_ANCRE_MODULE 3 /* Anchor size (footprint center) */
#define DIM_ANCRE_TEXTE 2 /* Anchor size (Text center) */
......
......@@ -89,39 +89,12 @@ int ZONE_CONTAINER::BuildFilledPolysListData( BOARD* aPcb, std::vector <CPolyPt>
break;
}
m_smoothedPoly->MakeKboolPoly( -1, -1, NULL, true );
int count = 0;
while( m_smoothedPoly->GetKboolEngine()->StartPolygonGet() )
{
CPolyPt corner( 0, 0, false );
while( m_smoothedPoly->GetKboolEngine()->PolygonHasMorePoints() )
{
corner.x = (int) m_smoothedPoly->GetKboolEngine()->GetPolygonXPoint();
corner.y = (int) m_smoothedPoly->GetKboolEngine()->GetPolygonYPoint();
corner.end_contour = false;
if( aCornerBuffer )
aCornerBuffer->push_back( corner );
else
m_FilledPolysList.push_back( corner );
count++;
}
corner.end_contour = true;
if( aCornerBuffer )
{
aCornerBuffer->pop_back();
aCornerBuffer->push_back( corner );
}
ConvertPolysListWithHolesToOnePolygon( m_smoothedPoly->m_CornersList,
*aCornerBuffer );
else
{
m_FilledPolysList.pop_back();
m_FilledPolysList.push_back( corner );
}
m_smoothedPoly->GetKboolEngine()->EndPolygonGet();
}
m_smoothedPoly->FreeKboolEngine();
ConvertPolysListWithHolesToOnePolygon( m_smoothedPoly->m_CornersList,
m_FilledPolysList );
/* For copper layers, we now must add holes in the Polygon list.
* holes are pads and tracks with their clearance area
*/
......@@ -134,7 +107,7 @@ int ZONE_CONTAINER::BuildFilledPolysListData( BOARD* aPcb, std::vector <CPolyPt>
Fill_Zone_Areas_With_Segments( );
}
return count;
return 1;
}
// Sort function to build filled zones
......
......@@ -524,10 +524,6 @@ int CopyPolygonsFromKiPolygonListToFilledPolysList( ZONE_CONTAINER* aZone,
corner.x = point.x();
corner.y = point.y();
corner.end_contour = false;
// Flag this corner if starting a hole connection segment:
// This is used by draw functions to draw only useful segments (and not extra segments)
// corner.utility = (aBoolengine->GetPolygonPointEdgeType() == KB_FALSE_EDGE) ? 1 : 0;
polysList.push_back( corner );
count++;
}
......
......@@ -31,7 +31,6 @@
*/
#include <fctsys.h>
#include <polygons_defs.h>
#include <common.h>
#include <confirm.h>
#include <class_undoredo_container.h>
......@@ -779,58 +778,6 @@ int BOARD::TestAreaIntersection( ZONE_CONTAINER* area_ref, ZONE_CONTAINER* area_
return 1;
}
/**
* Function CopyPolysListToKiPolygonWithHole
* converts the outline contours aPolysList to a KI_POLYGON_WITH_HOLES
*
* @param aPolysList = the list of corners of contours
* @param aPolygoneWithHole = a KI_POLYGON_WITH_HOLES to populate
*/
void CopyPolysListToKiPolygonWithHole( const std::vector<CPolyPt>& aPolysList,
KI_POLYGON_WITH_HOLES& aPolygoneWithHole )
{
unsigned corners_count = aPolysList.size();
std::vector<KI_POLY_POINT> cornerslist;
KI_POLYGON poly;
// Enter main outline: this is the first contour
unsigned ic = 0;
while( ic < corners_count )
{
const CPolyPt& corner = aPolysList[ic++];
cornerslist.push_back( KI_POLY_POINT( corner.x, corner.y ) );
if( corner.end_contour )
break;
}
aPolygoneWithHole.set( cornerslist.begin(), cornerslist.end() );
// Enter holes: they are next contours (when exist)
if( ic < corners_count )
{
KI_POLYGON_SET holePolyList;
while( ic < corners_count )
{
cornerslist.clear();
while( ic < corners_count )
{
const CPolyPt& corner = aPolysList[ic++];
cornerslist.push_back( KI_POLY_POINT( corner.x, corner.y ) );
if( corner.end_contour )
break;
}
bpl::set_points( poly, cornerslist.begin(), cornerslist.end() );
holePolyList.push_back( poly );
}
aPolygoneWithHole.set_holes( holePolyList.begin(), holePolyList.end() );
}
}
/**
* Function CombineAreas
......
This diff is collapsed.
......@@ -19,11 +19,12 @@
#include <kbool/include/kbool/booleng.h>
#include <pad_shapes.h>
#include <wx/gdicmn.h>
#include <wx/gdicmn.h> // for wxPoint definition
#include <polygons_defs.h>
// inflection modes for DS_LINE and DS_LINE_VERTEX, used in math_for_graphics.cpp
enum
{
enum {
IM_NONE = 0,
IM_90_45,
IM_45_90,
......@@ -44,11 +45,12 @@ public:
wxPoint m_End;
CSegment() { };
CSegment( const wxPoint & aStart, const wxPoint & aEnd )
CSegment( const wxPoint& aStart, const wxPoint& aEnd )
{
m_Start = aStart;
m_End = aEnd;
}
CSegment( int x0, int y0, int x1, int y1 )
{
m_Start.x = x0; m_Start.y = y0;
......@@ -77,8 +79,8 @@ public:
wxPoint( aX, aY ), end_contour( aEnd ), m_utility( aUtility )
{}
/// Pure copy constructor is here to dis-ambiguate from the
/// specialized CPolyPt( const wxPoint& ) constructor version below.
// / Pure copy constructor is here to dis-ambiguate from the
// / specialized CPolyPt( const wxPoint& ) constructor version below.
CPolyPt( const CPolyPt& aPt ) :
wxPoint( aPt.x, aPt.y ), end_contour( aPt.end_contour ), m_utility( aPt.m_utility )
{}
......@@ -91,10 +93,10 @@ public:
bool end_contour;
int m_utility;
bool operator == (const CPolyPt& cpt2 ) const
bool operator ==( const CPolyPt& cpt2 ) const
{ return (x == cpt2.x) && (y == cpt2.y) && (end_contour == cpt2.end_contour); }
bool operator != (CPolyPt& cpt2 ) const
bool operator !=( CPolyPt& cpt2 ) const
{ return (x != cpt2.x) || (y != cpt2.y) || (end_contour != cpt2.end_contour); }
};
......@@ -177,6 +179,7 @@ public:
int GetUtility( int ic ) { return m_CornersList[ic].m_utility; };
void SetUtility( int ic, int utility ) { m_CornersList[ic].m_utility = utility; };
int GetSideStyle( int is );
int GetHatchPitch() { return m_hatchPitch; }
int GetDefaultHatchPitchMils() { return 20; } // default hatch pitch value in mils
......@@ -184,59 +187,38 @@ public:
void SetHatch( int hatch, int pitch )
{
SetHatchPitch( pitch );
m_hatchStyle = (enum hatch_style ) hatch;
m_hatchStyle = (enum hatch_style) 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 );
void SetHatchStyle( enum hatch_style style )
{
m_hatchStyle = style;
}
void SetHatchPitch( int pitch ) { m_hatchPitch = pitch; }
int RestoreArcs( std::vector<CArc> * arc_array, std::vector<CPolyLine*> * pa = NULL );
int RestoreArcs( std::vector<CArc>* arc_array, std::vector<CPolyLine*>* pa = NULL );
int NormalizeAreaOutlines( std::vector<CPolyLine*> * pa = NULL,
int NormalizeAreaOutlines( std::vector<CPolyLine*>* pa = NULL,
bool bRetainArcs = false );
// KBOOL functions
/**
* 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 );
/**
* 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
*/
int MakeKboolPoly( int aStart_contour = -1,
int aEnd_contour = -1,
std::vector<CArc> * arc_array = NULL,
bool aConvertHoles = false);
int MakeKboolPoly( std::vector<CArc>* arc_array = NULL );
/**
* Function NormalizeWithKbool
......@@ -250,22 +232,11 @@ public:
* @param bRetainArcs == false, try to retain arcs in polys
* @return number of external contours, or -1 if error
*/
int NormalizeWithKbool( std::vector<CPolyLine*> * aExtraPolyList, bool bRetainArcs );
/**
* Function GetKboolEngine
* @return the current used Kbool Engine (after normalization using kbool)
*/
Bool_Engine* GetKboolEngine( ) { return m_Kbool_Poly_Engine; }
/**
* 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; }
int NormalizeWithKbool( std::vector<CPolyLine*>* aExtraPolyList, bool bRetainArcs );
// 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);
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 );
/**
* Function Distance
......@@ -296,11 +267,33 @@ private:
// for DIAGONAL_FULL, the pitch is twice this value
int m_utility; // a flag used in some calculations
Bool_Engine* m_Kbool_Poly_Engine; // polygons set in kbool engine data
public:
std::vector <CPolyPt> m_CornersList; // array of points for corners
std::vector <int> m_SideStyle; // array of styles for sides
std::vector <CSegment> m_HatchLines; // hatch lines showing the polygon area
};
/**
* Function CopyPolysListToKiPolygonWithHole
* converts the outline contours aPolysList to a KI_POLYGON_WITH_HOLES
*
* @param aPolysList = the list of corners of contours
* @param aPolygoneWithHole = a KI_POLYGON_WITH_HOLES to populate
*/
void CopyPolysListToKiPolygonWithHole( const std::vector<CPolyPt>& aPolysList,
KI_POLYGON_WITH_HOLES& aPolygoneWithHole );
/**
* Function ConvertPolysListWithHolesToOnePolygon
* converts the outline contours aPolysListWithHoles with holes to one polygon
* with no holes (only one contour)
* holes are linked to main outlines by overlap segments, to give only one polygon
*
* @param aPolysListWithHoles = the list of corners of contours (haing holes
* @param aOnePolyList = a polygon with no holes
*/
void ConvertPolysListWithHolesToOnePolygon( const std::vector<CPolyPt>& aPolysListWithHoles,
std::vector<CPolyPt>& aOnePolyList );
#endif // #ifndef POLYLINE_H
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