kicad/pcbnew/zones_test_and_combine_area...

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/****************************************************************************/
/* Name: zones_by_polygon.cpp */
/* Licence: GPL License */
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/* functions to test, merges and cut polygons used as copper areas outlines */
/****************************************************************************/
#include <vector>
#include "fctsys.h"
#include "common.h"
#include "pcbnew.h"
using namespace std;
#undef ASSERT
#define ASSERT wxASSERT
bool bDontShowSelfIntersectionArcsWarning;
bool bDontShowSelfIntersectionWarning;
bool bDontShowIntersectionArcsWarning;
bool bDontShowIntersectionWarning;
/**
* Function AddArea
* add empty copper area to net
* @return pointer to the new area
*/
ZONE_CONTAINER* BOARD::AddArea( int netcode, int layer, int x, int y, int hatch )
{
ZONE_CONTAINER* new_area = InsertArea( netcode, m_ZoneDescriptorList.size(
) - 1, layer, x, y, hatch );
return new_area;
}
/**
* remove copper area from net
* @param area = area to remove
* @return 0
*/
int BOARD::RemoveArea( ZONE_CONTAINER* area_to_remove )
{
Delete( area_to_remove );
return 0;
}
/**
* Function InsertArea
* add empty copper area to net, inserting after m_ZoneDescriptorList[iarea]
* @return pointer to the new area
*/
ZONE_CONTAINER* BOARD::InsertArea( int netcode, int iarea, int layer, int x, int y, int hatch )
{
ZONE_CONTAINER* new_area = new ZONE_CONTAINER( this );
new_area->SetNet( netcode );
new_area->SetLayer( layer );
new_area->m_TimeStamp = GetTimeStamp();
if( iarea < (int) ( m_ZoneDescriptorList.size() - 1) )
m_ZoneDescriptorList.insert( m_ZoneDescriptorList.begin() + iarea + 1, new_area );
else
m_ZoneDescriptorList.push_back( new_area );
new_area->m_Poly->Start( layer, x, y, hatch );
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return new_area;
}
/**
* Function CompleteArea
* complete copper area contour by adding a line from last to first corner
* if there is only 1 or 2 corners, remove (delete) the area
* @param area_to_complete = area to complete or remove
* @param style = style of last corner
* @return 1 if Ok, 0 if area removed
*/
int BOARD::CompleteArea( ZONE_CONTAINER* area_to_complete, int style )
{
if( area_to_complete->m_Poly->GetNumCorners() > 2 )
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{
area_to_complete->m_Poly->Close( style );
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return 1;
}
else
{
RemoveArea( area_to_complete );
}
return 0;
}
/**
* Function TestAreaPolygon
* Test an area for self-intersection.
*
* @param CurrArea = copper area to test
* @return :
* -1 if arcs intersect other sides
* 0 if no intersecting sides
* 1 if intersecting sides, but no intersecting arcs
* Also sets utility2 flag of area with return value
*/
int BOARD::TestAreaPolygon( ZONE_CONTAINER* CurrArea )
{
CPolyLine* p = CurrArea->m_Poly;
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// first, check for sides intersecting other sides, especially arcs
bool bInt = false;
bool bArcInt = false;
int n_cont = p->GetNumContours();
// make bounding rect for each contour
std::vector<CRect> cr;
cr.reserve( n_cont );
for( int icont = 0; icont<n_cont; icont++ )
cr.push_back( p->GetCornerBounds( icont ) );
for( int icont = 0; icont<n_cont; icont++ )
{
int is_start = p->GetContourStart( icont );
int is_end = p->GetContourEnd( icont );
for( int is = is_start; is<=is_end; is++ )
{
int is_prev = is - 1;
if( is_prev < is_start )
is_prev = is_end;
int is_next = is + 1;
if( is_next > is_end )
is_next = is_start;
int style = p->GetSideStyle( is );
int x1i = p->GetX( is );
int y1i = p->GetY( is );
int x1f = p->GetX( is_next );
int y1f = p->GetY( is_next );
// check for intersection with any other sides
for( int icont2 = icont; icont2<n_cont; icont2++ )
{
if( cr[icont].left > cr[icont2].right
|| cr[icont].bottom > cr[icont2].top
|| cr[icont2].left > cr[icont].right
|| cr[icont2].bottom > cr[icont].top )
{
// rectangles don't overlap, do nothing
}
else
{
int is2_start = p->GetContourStart( icont2 );
int is2_end = p->GetContourEnd( icont2 );
for( int is2 = is2_start; is2<=is2_end; is2++ )
{
int is2_prev = is2 - 1;
if( is2_prev < is2_start )
is2_prev = is2_end;
int is2_next = is2 + 1;
if( is2_next > is2_end )
is2_next = is2_start;
if( icont != icont2
|| (is2 != is && is2 != is_prev && is2 != is_next && is != is2_prev
&& is !=
is2_next ) )
{
int style2 = p->GetSideStyle( is2 );
int x2i = p->GetX( is2 );
int y2i = p->GetY( is2 );
int x2f = p->GetX( is2_next );
int y2f = p->GetY( is2_next );
int ret = FindSegmentIntersections( x1i,
y1i,
x1f,
y1f,
style,
x2i,
y2i,
x2f,
y2f,
style2 );
if( ret )
{
// intersection between non-adjacent sides
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bInt = true;
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if( style != CPolyLine::STRAIGHT || style2 != CPolyLine::STRAIGHT )
{
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bArcInt = true;
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break;
}
}
}
}
}
if( bArcInt )
break;
}
if( bArcInt )
break;
}
if( bArcInt )
break;
}
if( bArcInt )
CurrArea->utility2 = -1;
else if( bInt )
CurrArea->utility2 = 1;
else
CurrArea->utility2 = 0;
return CurrArea->utility2;
}
/**
* Function ClipAreaPolygon
* Process an area that has been modified, by clipping its polygon against itself.
* This may change the number and order of copper areas in the net.
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* @param bMessageBoxInt == true, shows message when clipping occurs.
* @param bMessageBoxArc == true, shows message when clipping can't be done due to arcs.
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* @return:
* -1 if arcs intersect other sides, so polygon can't be clipped
* 0 if no intersecting sides
* 1 if intersecting sides
* Also sets areas->utility1 flags if areas are modified
*/
int BOARD::ClipAreaPolygon( ZONE_CONTAINER* CurrArea,
bool bMessageBoxArc, bool bMessageBoxInt, bool bRetainArcs )
{
CPolyLine* curr_polygon = CurrArea->m_Poly;
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int test = TestAreaPolygon( CurrArea ); // this sets utility2 flag
if( test == -1 && !bRetainArcs )
test = 1;
if( test == -1 )
{
// arc intersections, don't clip unless bRetainArcs == false
if( bMessageBoxArc && bDontShowSelfIntersectionArcsWarning == false )
{
wxString str;
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str.Printf( wxT( "Area %8.8X of net \"%s\" has arcs intersecting other sides.\n" ),
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CurrArea->m_TimeStamp, CurrArea->m_Netname.GetData() );
str += wxT( "This may cause problems with other editing operations,\n" );
str += wxT( "such as adding cutouts. It can't be fixed automatically.\n" );
str += wxT( "Manual correction is recommended." );
wxMessageBox( str );
// bDontShowSelfIntersectionArcsWarning = dlg.bDontShowBoxState;
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}
return -1; // arcs intersect with other sides, error
}
// mark all areas as unmodified except this one
for( unsigned ia = 0; ia < m_ZoneDescriptorList.size(); ia++ )
m_ZoneDescriptorList[ia]->utility = 0;
CurrArea->utility = 1;
if( test == 1 )
{
// non-arc intersections, clip the polygon
if( bMessageBoxInt && bDontShowSelfIntersectionWarning == false )
{
wxString str;
str.Printf( wxT(
"Area %8.8X of net \"%s\" is self-intersecting and will be clipped.\n" ),
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CurrArea->m_TimeStamp, CurrArea->m_Netname.GetData() );
str += wxT( "This may result in splitting the area.\n" );
str += wxT( "If the area is complex, this may take a few seconds." );
wxMessageBox( str );
// bDontShowSelfIntersectionWarning = dlg.bDontShowBoxState;
}
}
//** TODO test for cutouts outside of area
//** if( test == 1 )
{
std::vector<CPolyLine*> * pa = new std::vector<CPolyLine*>;
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curr_polygon->Undraw();
int n_poly = CurrArea->m_Poly->NormalizeAreaOutlines( pa, bRetainArcs );
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if( n_poly > 1 ) // i.e if clipping has created some polygons, we must add these new copper areas
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{
ZONE_CONTAINER* NewArea;
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for( int ip = 1; ip < n_poly; ip++ )
{
// create new copper area and copy poly into it
CPolyLine* new_p = (*pa)[ip - 1];
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NewArea = AddArea( CurrArea->GetNet(), CurrArea->GetLayer(), 0, 0, 0 );
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// remove the poly that was automatically created for the new area
// and replace it with a poly from NormalizeWithKbool
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delete NewArea->m_Poly;
NewArea->m_Poly = new_p;
NewArea->m_Poly->Draw();
NewArea->utility = 1;
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}
}
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curr_polygon->Draw();
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delete pa;
}
return test;
}
/**
* Process an area that has been modified, by clipping its polygon against
* itself and the polygons for any other areas on the same net.
* This may change the number and order of copper areas in the net.
* @param modified_area = area to test
* @param bMessageBoxInt == true, shows message when clipping occurs.
* @param bMessageBoxArc == true, shows message when clipping can't be done due to arcs.
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* @return :
* -1 if arcs intersect other sides, so polygon can't be clipped
* 0 if no intersecting sides
* 1 if intersecting sides, polygon clipped
*/
int BOARD::AreaPolygonModified( ZONE_CONTAINER* modified_area,
bool bMessageBoxArc,
bool bMessageBoxInt )
{
// clip polygon against itself
int test = ClipAreaPolygon( modified_area, bMessageBoxArc, bMessageBoxInt );
if( test == -1 )
return test;
// now see if we need to clip against other areas
bool bCheckAllAreas = false;
if( test == 1 )
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bCheckAllAreas = true;
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else
bCheckAllAreas = TestAreaIntersections( modified_area );
if( bCheckAllAreas )
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CombineAllAreasInNet( modified_area->GetNet(), bMessageBoxInt, true );
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return test;
}
/**
* Function CombineAllAreasInNet
* Checks all copper areas in net for intersections, combining them if found
* @param aNetCode = net to consider
* @param bMessageBox : if true display warning message box
* @param bUseUtility : if true, don't check areas if both utility flags are 0
* Sets utility flag = 1 for any areas modified
* If an area has self-intersecting arcs, doesn't try to combine it
*/
int BOARD::CombineAllAreasInNet( int aNetCode, bool bMessageBox, bool bUseUtility )
{
if( m_ZoneDescriptorList.size() > 1 )
{
// start by testing all area polygons to set utility2 flags
for( unsigned ia = 0; ia < m_ZoneDescriptorList.size(); ia++ )
if( m_ZoneDescriptorList[ia]->GetNet() == aNetCode )
TestAreaPolygon( m_ZoneDescriptorList[ia] );
// now loop through all combinations
for( unsigned ia1 = 0; ia1 < m_ZoneDescriptorList.size() - 1; ia1++ )
{
ZONE_CONTAINER* curr_area = m_ZoneDescriptorList[ia1];
if( curr_area->GetNet() != aNetCode )
continue;
// legal polygon
CRect b1 = curr_area->m_Poly->GetCornerBounds();
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bool mod_ia1 = false;
for( unsigned ia2 = m_ZoneDescriptorList.size() - 1; ia2 > ia1; ia2-- )
{
ZONE_CONTAINER* area2 = m_ZoneDescriptorList[ia2];
if( curr_area->GetLayer() == area2->GetLayer()
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&& curr_area->utility2 != -1 && area2->utility2 != -1 )
{
CRect b2 = area2->m_Poly->GetCornerBounds();
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if( !( b1.left > b2.right || b1.right < b2.left
|| b1.bottom > b2.top || b1.top < b2.bottom ) )
{
// check area2 against curr_area
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if( curr_area->utility || area2->utility || bUseUtility ==
false )
{
int ret = TestAreaIntersection( curr_area, area2 );
if( ret == 1 )
ret = CombineAreas( curr_area, area2 );
if( ret == 1 )
{
if( bMessageBox && bDontShowIntersectionWarning == false )
{
wxString str;
str.Printf(
wxT(
"Areas %d and %d of net \"%s\" intersect and will be combined.\n" ),
ia1 + 1,
ia2 + 1,
curr_area->m_Netname.GetData() );
str += wxT(
"If they are complex, this may take a few seconds." );
wxMessageBox( str );
// bDontShowIntersectionWarning = dlg.bDontShowBoxState;
}
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mod_ia1 = true;
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}
else if( ret == 2 )
{
if( bMessageBox && bDontShowIntersectionArcsWarning == false )
{
wxString str;
str.Printf(
wxT(
"Areas %d and %d of net \"%s\" intersect, but some of the intersecting sides are arcs.\n" ),
ia1 + 1,
ia2 + 1,
curr_area->m_Netname.GetData() );
str += wxT( "Therefore, these areas can't be combined." );
wxMessageBox( str );
// bDontShowIntersectionArcsWarning = dlg.bDontShowBoxState;
}
}
}
}
}
}
if( mod_ia1 )
ia1--; // if modified, we need to check it again
}
}
return 0;
}
/**
* Function TestAreaIntersections
* Check for intersection of a given copper area with other areas in same net
* @param area_to_test = area to compare to all other areas in the same net
*/
bool BOARD::TestAreaIntersections( ZONE_CONTAINER* area_to_test )
{
CPolyLine* poly1 = area_to_test->m_Poly;
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for( unsigned ia2 = 0; ia2 < m_ZoneDescriptorList.size(); ia2++ )
{
ZONE_CONTAINER* area2 = m_ZoneDescriptorList[ia2];
if( area_to_test->GetNet() != area2->GetNet() )
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continue;
if( area_to_test == area2 )
continue;
// see if areas are on same layer
if( area_to_test->GetLayer() != area2->GetLayer() )
continue;
CPolyLine* poly2 = area2->m_Poly;
// test bounding rects
CRect b1 = poly1->GetCornerBounds();
CRect b2 = poly2->GetCornerBounds();
if( b1.bottom > b2.top
|| b1.top < b2.bottom
|| b1.left > b2.right
|| b1.right < b2.left )
continue;
// test for intersecting segments
for( int icont1 = 0; icont1<poly1->GetNumContours(); icont1++ )
{
int is1 = poly1->GetContourStart( icont1 );
int ie1 = poly1->GetContourEnd( icont1 );
for( int ic1 = is1; ic1<=ie1; ic1++ )
{
int xi1 = poly1->GetX( ic1 );
int yi1 = poly1->GetY( ic1 );
int xf1, yf1, style1;
if( ic1 < ie1 )
{
xf1 = poly1->GetX( ic1 + 1 );
yf1 = poly1->GetY( ic1 + 1 );
}
else
{
xf1 = poly1->GetX( is1 );
yf1 = poly1->GetY( is1 );
}
style1 = poly1->GetSideStyle( ic1 );
for( int icont2 = 0; icont2 < poly2->GetNumContours(); icont2++ )
{
int is2 = poly2->GetContourStart( icont2 );
int ie2 = poly2->GetContourEnd( icont2 );
for( int ic2 = is2; ic2<=ie2; ic2++ )
{
int xi2 = poly2->GetX( ic2 );
int yi2 = poly2->GetY( ic2 );
int xf2, yf2, style2;
if( ic2 < ie2 )
{
xf2 = poly2->GetX( ic2 + 1 );
yf2 = poly2->GetY( ic2 + 1 );
}
else
{
xf2 = poly2->GetX( is2 );
yf2 = poly2->GetY( is2 );
}
style2 = poly2->GetSideStyle( ic2 );
int n_int = FindSegmentIntersections( xi1, yi1, xf1, yf1, style1,
xi2, yi2, xf2, yf2, style2 );
if( n_int )
return true;
}
}
}
}
// If a contour is inside an other contour, no segments intersects, but the zones can be combined
// test a corner inside an outline (only one corner is enought)
for( int ic2 = 0; ic2 < poly2->GetNumCorners(); ic2++ )
{
int x = poly2->GetX( ic2 );
int y = poly2->GetY( ic2 );
if( poly1->TestPointInside( x, y ) )
{
return true;
}
}
for( int ic1 = 0; ic1 < poly1->GetNumCorners(); ic1++ )
{
int x = poly1->GetX( ic1 );
int y = poly1->GetY( ic1 );
if( poly2->TestPointInside( x, y ) )
{
return true;
}
}
}
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return false;
}
/**
* Function TestAreaIntersection
* Test for intersection of 2 copper areas
* area_to_test must be after area_ref in m_ZoneDescriptorList
* @param area_ref = area reference
* @param area_to_test = area to compare for intersection calculations
* @return : 0 if no intersection
* 1 if intersection
* 2 if arcs intersect
*/
int BOARD::TestAreaIntersection( ZONE_CONTAINER* area_ref, ZONE_CONTAINER* area_to_test )
{
// see if areas are on same layer
if( area_ref->GetLayer() != area_to_test->GetLayer() )
return 0;
CPolyLine* poly1 = area_ref->m_Poly;
CPolyLine* poly2 = area_to_test->m_Poly;
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// test bounding rects
CRect b1 = poly1->GetCornerBounds();
CRect b2 = poly2->GetCornerBounds();
if( b1.bottom > b2.top
|| b1.top < b2.bottom
|| b1.left > b2.right
|| b1.right < b2.left )
return 0;
// now test for intersecting segments
bool bInt = false;
bool bArcInt = false;
for( int icont1 = 0; icont1<poly1->GetNumContours(); icont1++ )
{
int is1 = poly1->GetContourStart( icont1 );
int ie1 = poly1->GetContourEnd( icont1 );
for( int ic1 = is1; ic1<=ie1; ic1++ )
{
int xi1 = poly1->GetX( ic1 );
int yi1 = poly1->GetY( ic1 );
int xf1, yf1, style1;
if( ic1 < ie1 )
{
xf1 = poly1->GetX( ic1 + 1 );
yf1 = poly1->GetY( ic1 + 1 );
}
else
{
xf1 = poly1->GetX( is1 );
yf1 = poly1->GetY( is1 );
}
style1 = poly1->GetSideStyle( ic1 );
for( int icont2 = 0; icont2<poly2->GetNumContours(); icont2++ )
{
int is2 = poly2->GetContourStart( icont2 );
int ie2 = poly2->GetContourEnd( icont2 );
for( int ic2 = is2; ic2<=ie2; ic2++ )
{
int xi2 = poly2->GetX( ic2 );
int yi2 = poly2->GetY( ic2 );
int xf2, yf2, style2;
if( ic2 < ie2 )
{
xf2 = poly2->GetX( ic2 + 1 );
yf2 = poly2->GetY( ic2 + 1 );
}
else
{
xf2 = poly2->GetX( is2 );
yf2 = poly2->GetY( is2 );
}
style2 = poly2->GetSideStyle( ic2 );
int n_int = FindSegmentIntersections( xi1, yi1, xf1, yf1, style1,
xi2, yi2, xf2, yf2, style2 );
if( n_int )
{
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bInt = true;
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if( style1 != CPolyLine::STRAIGHT || style2 != CPolyLine::STRAIGHT )
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bArcInt = true;
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break;
}
}
if( bArcInt )
break;
}
if( bArcInt )
break;
}
if( bArcInt )
break;
}
if( !bInt )
{
if( bArcInt )
return 0;
// If a contour is inside an other contour, no segments intersects, but the zones can be combined
// test a corner inside an outline (only one corner is enought)
for( int ic2 = 0; ic2 < poly2->GetNumCorners(); ic2++ )
{
int x = poly2->GetX( ic2 );
int y = poly2->GetY( ic2 );
if( poly1->TestPointInside( x, y ) )
{
return 1;
}
}
for( int ic1 = 0; ic1 < poly1->GetNumCorners(); ic1++ )
{
int x = poly1->GetX( ic1 );
int y = poly1->GetY( ic1 );
if( poly2->TestPointInside( x, y ) )
{
return 1;
}
}
return 0;
}
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if( bArcInt )
return 2;
return 1;
}
/**
* Function CombineAreas
* If possible, combine 2 copper areas
* area_ref must be BEFORE area_to_combine in m_ZoneDescriptorList
* area_to_combine will be deleted, if areas are combined
* @return : 0 if no intersection
* 1 if intersection
* 2 if arcs intersect
*/
int BOARD::CombineAreas( ZONE_CONTAINER* area_ref, ZONE_CONTAINER* area_to_combine )
{
if( area_ref == area_to_combine )
ASSERT( 0 );
#if 0
// test for intersection
int test = TestAreaIntersection( area_ref, area_to_combine );
if( test != 1 )
return test; // no intersection
#endif
// polygons intersect, combine them
std::vector<CArc> arc_array1;
std::vector<CArc> arc_array2;
bool keep_area_to_combine = false;
Bool_Engine* booleng = new Bool_Engine();
ArmBoolEng( booleng );
area_ref->m_Poly->AddPolygonsToBoolEng( booleng, GROUP_A, -1, -1 );
area_to_combine->m_Poly->AddPolygonsToBoolEng( booleng, GROUP_B, -1, -1 );
booleng->Do_Operation( BOOL_OR );
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// create area with external contour: Recreate only area edges, NOT holes
if( booleng->StartPolygonGet() )
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{
if( booleng->GetPolygonPointEdgeType() == KB_INSIDE_EDGE )
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{
DisplayError( NULL, wxT( "BOARD::CombineAreas() error: unexpected hole descriptor" ) );
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}
area_ref->m_Poly->RemoveAllContours();
// foreach point in the polygon
bool first = true;
while( booleng->PolygonHasMorePoints() )
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{
int x = booleng->GetPolygonXPoint();
int y = booleng->GetPolygonYPoint();
if( first )
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{
first = false;
area_ref->m_Poly->Start( area_ref->GetLayer(
), x, y, area_ref->m_Poly->GetHatchStyle() );
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}
else
area_ref->m_Poly->AppendCorner( x, y );
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}
booleng->EndPolygonGet();
area_ref->m_Poly->Close();
}
// Recreate the area_to_combine if a second polygon exists
// if not exists , the first poly contains the 2 initial polygons
#if 0 // TestAreaIntersection must be called before combine areas, so
// 2 intersecting areas are expected, and only one outline contour after combining areas
else
{
area_to_combine->m_Poly->RemoveAllContours();
keep_area_to_combine = true;
// create area with external contour: Recreate only area edges, NOT holes (todo..)
{
// foreach point in the polygon
bool first = true;
while( booleng->PolygonHasMorePoints() )
{
int x = booleng->GetPolygonXPoint();
int y = booleng->GetPolygonYPoint();
if( first )
{
first = false;
area_to_combine->m_Poly->Start( area_ref->GetLayer(
), x, y, area_ref->m_Poly->GetHatchStyle() );
}
else
area_to_combine->m_Poly->AppendCorner( x, y );
}
booleng->EndPolygonGet();
area_to_combine->m_Poly->Close();
}
}
#endif
// add holes
while( booleng->StartPolygonGet() )
{
if( booleng->GetPolygonPointEdgeType() != KB_INSIDE_EDGE )
{
DisplayError( NULL,
wxT( "BOARD::CombineAreas() error: unexpected outside contour descriptor" ) );
continue;
}
while( booleng->PolygonHasMorePoints() )
{
int x = booleng->GetPolygonXPoint();
int y = booleng->GetPolygonYPoint();
area_ref->m_Poly->AppendCorner( x, y );
}
area_ref->m_Poly->Close();
booleng->EndPolygonGet();
}
if( !keep_area_to_combine )
RemoveArea( area_to_combine );
area_ref->utility = 1;
area_ref->m_Poly->RestoreArcs( &arc_array1 );
area_ref->m_Poly->RestoreArcs( &arc_array2 );
area_ref->m_Poly->Draw();
delete booleng;
return 1;
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}
#if 0 // Currently not used: work in progress
/**
* Function Is_Area_Inside_Area
* Test a given area to see if it is inside an other area, or an other area is inside the given area
* an area is inside an other are if ALL its edges are inside the other area
* @param Area_Ref: the given area to compare with other areas
* used to remove redundant areas
*/
ZONE_CONTAINER* BOARD::Is_Area_Inside_Area( ZONE_CONTAINER* Area_Ref )
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{
int corners_inside_count;
for( int ia = 0; ia < GetAreaCount(); ia++ )
{
ZONE_CONTAINER* Area_To_Test = GetArea( ia );
if( Area_Ref == Area_To_Test )
continue;
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// test for same layer
if( Area_Ref->GetLayer() != Area_To_Test->GetLayer() )
continue;
// test if Area_Ref inside Area_To_Test
corners_inside_count = Area_Ref->m_Poly->GetNumCorners();
for( int ic = 0; ic < Area_Ref->m_Poly->GetNumCorners(); ic++ )
{
int x = Area_Ref->m_Poly->GetX( ic );
int y = Area_Ref->m_Poly->GetY( ic );
if( Area_To_Test->m_Poly->TestPointInside( x, y ) )
corners_inside_count--;
}
if( corners_inside_count == 0 )
return Area_Ref;
// test if Area_To_Test inside Area_Ref
corners_inside_count = Area_To_Test->m_Poly->GetNumCorners();
for( int ic2 = 0; ic2 < Area_To_Test->m_Poly->GetNumCorners(); ic2++ )
{
int x = Area_To_Test->m_Poly->GetX( ic2 );
int y = Area_To_Test->m_Poly->GetY( ic2 );
if( Area_Ref->m_Poly->TestPointInside( x, y ) )
corners_inside_count--;
}
if( corners_inside_count == 0 )
return Area_Ref;
}
return NULL;
}
#endif
/**
* Function Test_Drc_Areas_Outlines_To_Areas_Outlines
* Test Areas outlines for DRC:
* Test areas inside other areas
* Test areas too close
* @param aArea_To_Examine: area to compare with other areas. if NULL: all areas are compared tp all others
* @param aCreate_Markers: if true create DRC markers. False: do not creates anything
* @return errors count
*/
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int BOARD::Test_Drc_Areas_Outlines_To_Areas_Outlines( ZONE_CONTAINER* aArea_To_Examine,
bool aCreate_Markers )
{
wxString str;
long nerrors = 0;
// iterate through all areas
for( int ia = 0; ia < GetAreaCount(); ia++ )
{
ZONE_CONTAINER* Area_Ref = GetArea( ia );
if( aArea_To_Examine && (aArea_To_Examine != Area_Ref) )
continue;
for( int ia2 = 0; ia2 < GetAreaCount(); ia2++ )
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{
ZONE_CONTAINER* Area_To_Test = GetArea( ia2 );
if( Area_Ref == Area_To_Test )
continue;
// test for same layer
if( Area_Ref->GetLayer() != Area_To_Test->GetLayer() )
continue;
// Test for same net
if( Area_Ref->GetNet() == Area_To_Test->GetNet() && Area_Ref->GetNet() > 0 )
continue;
// test for some corners of Area_Ref inside Area_To_Test
for( int ic = 0; ic < Area_Ref->m_Poly->GetNumCorners(); ic++ )
{
int x = Area_Ref->m_Poly->GetX( ic );
int y = Area_Ref->m_Poly->GetY( ic );
if( Area_To_Test->m_Poly->TestPointInside( x, y ) )
{
// COPPERAREA_COPPERAREA error: copper area ref corner inside copper area
if( aCreate_Markers )
{
wxString msg1 = Area_Ref->MenuText( this );
wxString msg2 = Area_To_Test->MenuText( this );
MARKER* marker = new MARKER( COPPERAREA_INSIDE_COPPERAREA, wxPoint( x, y ),
msg1, wxPoint( x, y ),
msg2, wxPoint( x, y ) );
Add( marker );
}
nerrors++;
}
}
// test for some corners of Area_To_Test inside Area_Ref
for( int ic2 = 0; ic2 < Area_To_Test->m_Poly->GetNumCorners(); ic2++ )
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{
int x = Area_To_Test->m_Poly->GetX( ic2 );
int y = Area_To_Test->m_Poly->GetY( ic2 );
if( Area_Ref->m_Poly->TestPointInside( x, y ) )
{
// COPPERAREA_COPPERAREA error: copper area corner inside copper area ref
if( aCreate_Markers )
{
wxString msg1 = Area_To_Test->MenuText( this );
wxString msg2 = Area_Ref->MenuText( this );
MARKER* marker = new MARKER( COPPERAREA_INSIDE_COPPERAREA, wxPoint( x, y ),
msg1, wxPoint( x, y ),
msg2, wxPoint( x, y ) );
Add( marker );
}
nerrors++;
}
}
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// now test spacing between areas
for( int icont = 0; icont < Area_Ref->m_Poly->GetNumContours(); icont++ )
{
int ic_start = Area_Ref->m_Poly->GetContourStart( icont );
int ic_end = Area_Ref->m_Poly->GetContourEnd( icont );
for( int ic = ic_start; ic<=ic_end; ic++ )
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{
int ax1 = Area_Ref->m_Poly->GetX( ic );
int ay1 = Area_Ref->m_Poly->GetY( ic );
int ax2, ay2;
if( ic == ic_end )
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{
ax2 = Area_Ref->m_Poly->GetX( ic_start );
ay2 = Area_Ref->m_Poly->GetY( ic_start );
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}
else
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{
ax2 = Area_Ref->m_Poly->GetX( ic + 1 );
ay2 = Area_Ref->m_Poly->GetY( ic + 1 );
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}
int astyle = Area_Ref->m_Poly->GetSideStyle( ic );
for( int icont2 = 0; icont2 < Area_To_Test->m_Poly->GetNumContours(); icont2++ )
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{
int ic_start2 = Area_To_Test->m_Poly->GetContourStart( icont2 );
int ic_end2 = Area_To_Test->m_Poly->GetContourEnd( icont2 );
for( int ic2 = ic_start2; ic2<=ic_end2; ic2++ )
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{
int bx1 = Area_To_Test->m_Poly->GetX( ic2 );
int by1 = Area_To_Test->m_Poly->GetY( ic2 );
int bx2, by2;
if( ic2 == ic_end2 )
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{
bx2 = Area_To_Test->m_Poly->GetX( ic_start2 );
by2 = Area_To_Test->m_Poly->GetY( ic_start2 );
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}
else
{
bx2 = Area_To_Test->m_Poly->GetX( ic2 + 1 );
by2 = Area_To_Test->m_Poly->GetY( ic2 + 1 );
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}
int bstyle = Area_To_Test->m_Poly->GetSideStyle( ic2 );
int x, y;
int d = ::GetClearanceBetweenSegments(
bx1, by1, bx2, by2, bstyle,
0,
ax1, ay1, ax2,
ay2, astyle,
0,
g_DesignSettings.
m_TrackClearence,
&x, &y );
if( d < g_DesignSettings.m_TrackClearence )
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{
// COPPERAREA_COPPERAREA error : intersect or too close
if( aCreate_Markers )
{
wxString msg1 = Area_Ref->MenuText( this );
wxString msg2 = Area_To_Test->MenuText( this );
MARKER* marker = new MARKER( COPPERAREA_CLOSE_TO_COPPERAREA,
wxPoint( x, y ),
msg1, wxPoint( x, y ),
msg2, wxPoint( x, y ) );
Add( marker );
}
nerrors++;
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}
}
}
}
}
}
}
return nerrors;
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}
/**
* Function doEdgeZoneDrc
* tests a segment in ZONE_CONTAINER * aArea:
* Test Edge inside other areas
* Test Edge too close other areas
* @param aArea The current area.
* @param aCornerIndex The first corner of the segment to test.
* @return bool - false if DRC error or true if OK
*/
bool DRC::doEdgeZoneDrc( ZONE_CONTAINER* aArea, int aCornerIndex )
{
wxString str;
wxPoint start = aArea->GetCornerPosition( aCornerIndex );
wxPoint end;
// Search the end point of the edge starting at aCornerIndex
if( aArea->m_Poly->corner[aCornerIndex].end_contour == FALSE
&& aCornerIndex < (aArea->GetNumCorners() - 1) )
{
end = aArea->GetCornerPosition( aCornerIndex + 1 );
}
else // aCornerIndex is the last corner of an outline.
// the corresponding end point of the segment is the first corner of the outline
{
int ii = aCornerIndex - 1;
end = aArea->GetCornerPosition( ii );
while( ii >= 0 )
{
if( aArea->m_Poly->corner[ii].end_contour )
break;
end = aArea->GetCornerPosition( ii );
ii--;
}
}
// iterate through all areas
for( int ia2 = 0; ia2 < m_pcb->GetAreaCount(); ia2++ )
{
ZONE_CONTAINER* Area_To_Test = m_pcb->GetArea( ia2 );
// test for same layer
if( Area_To_Test->GetLayer() != aArea->GetLayer() )
continue;
// Test for same net
if( ( aArea->GetNet() == Area_To_Test->GetNet() ) && (aArea->GetNet() > 0) )
continue;
// test for ending line inside Area_To_Test
int x = end.x;
int y = end.y;
if( Area_To_Test->m_Poly->TestPointInside( x, y ) )
{
// COPPERAREA_COPPERAREA error: corner inside copper area
m_currentMarker = fillMarker( aArea, wxPoint( x, y ),
COPPERAREA_INSIDE_COPPERAREA,
m_currentMarker );
return false;
}
// now test spacing between areas
int astyle = CPolyLine::STRAIGHT;
int ax1 = start.x;
int ay1 = start.y;
int ax2 = end.x;
int ay2 = end.y;
for( int icont2 = 0; icont2 < Area_To_Test->m_Poly->GetNumContours(); icont2++ )
{
int ic_start2 = Area_To_Test->m_Poly->GetContourStart( icont2 );
int ic_end2 = Area_To_Test->m_Poly->GetContourEnd( icont2 );
for( int ic2 = ic_start2; ic2<=ic_end2; ic2++ )
{
int bx1 = Area_To_Test->m_Poly->GetX( ic2 );
int by1 = Area_To_Test->m_Poly->GetY( ic2 );
int bx2, by2;
if( ic2 == ic_end2 )
{
bx2 = Area_To_Test->m_Poly->GetX( ic_start2 );
by2 = Area_To_Test->m_Poly->GetY( ic_start2 );
}
else
{
bx2 = Area_To_Test->m_Poly->GetX( ic2 + 1 );
by2 = Area_To_Test->m_Poly->GetY( ic2 + 1 );
}
int bstyle = Area_To_Test->m_Poly->GetSideStyle( ic2 );
int x, y;
int d = ::GetClearanceBetweenSegments( bx1, by1, bx2, by2, bstyle,
0,
ax1, ay1, ax2, ay2, astyle,
0,
g_DesignSettings.m_ZoneClearence,
&x, &y );
if( d < g_DesignSettings.m_ZoneClearence )
{
// COPPERAREA_COPPERAREA error : edge intersect or too close
m_currentMarker = fillMarker( aArea, wxPoint( x, y ),
COPPERAREA_CLOSE_TO_COPPERAREA,
m_currentMarker );
return false;
}
}
}
}
return true;
}