kicad/pcbnew/zone_filling_algorithm.cpp

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/**
* @file zone_filling_algorithm.cpp:
* Algorithms used to fill a zone defined by a polygon and a filling starting point.
*/
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2012 Jean-Pierre Charras, jean-pierre.charras@ujf-grenoble.fr
* Copyright (C) 1992-2012 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
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#include <algorithm> // sort
#include <fctsys.h>
#include <trigo.h>
#include <wxPcbStruct.h>
#include <class_zone.h>
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#include <pcbnew.h>
#include <zones.h>
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int ZONE_CONTAINER::BuildFilledPolysListData( BOARD* aPcb, std::vector <CPolyPt>* aCornerBuffer )
{
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if( aCornerBuffer == NULL )
m_FilledPolysList.clear();
/* convert outlines + holes to outlines without holes (adding extra segments if necessary)
* m_Poly data is expected normalized, i.e. NormalizeAreaOutlines was used after building
* this zone
*/
if( GetNumCorners() <= 2 ) // malformed zone. polygon calculations do not like it ...
return 0;
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// Make a smoothed polygon out of the user-drawn polygon if required
if( m_smoothedPoly )
{
delete m_smoothedPoly;
m_smoothedPoly = NULL;
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}
switch( m_cornerSmoothingType )
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{
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case ZONE_SETTINGS::SMOOTHING_CHAMFER:
m_smoothedPoly = m_Poly->Chamfer( m_cornerRadius );
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break;
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case ZONE_SETTINGS::SMOOTHING_FILLET:
m_smoothedPoly = m_Poly->Fillet( m_cornerRadius, m_ArcToSegmentsCount );
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break;
default:
m_smoothedPoly = new CPolyLine;
m_smoothedPoly->Copy( m_Poly );
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break;
}
if( aCornerBuffer )
ConvertPolysListWithHolesToOnePolygon( m_smoothedPoly->m_CornersList,
*aCornerBuffer );
else
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
* for non copper layers just recalculate the m_FilledPolysList
* with m_ZoneMinThickness taken in account
*/
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if( ! aCornerBuffer )
{
if( IsOnCopperLayer() )
AddClearanceAreasPolygonsToPolysList( aPcb );
else
{
// This KI_POLYGON_SET is the area(s) to fill, with m_ZoneMinThickness/2
KI_POLYGON_SET polyset_zone_solid_areas;
int margin = m_ZoneMinThickness / 2;
/* First, creates the main polygon (i.e. the filled area using only one outline)
* to reserve a m_ZoneMinThickness/2 margin around the outlines and holes
* this margin is the room to redraw outlines with segments having a width set to
* m_ZoneMinThickness
* so m_ZoneMinThickness is the min thickness of the filled zones areas
* the polygon is stored in polyset_zone_solid_areas
*/
CopyPolygonsFromFilledPolysListToKiPolygonList( polyset_zone_solid_areas );
polyset_zone_solid_areas -= margin;
// put solid area in m_FilledPolysList:
m_FilledPolysList.clear();
CopyPolygonsFromKiPolygonListToFilledPolysList( polyset_zone_solid_areas );
}
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if ( m_FillMode ) // if fill mode uses segments, create them:
FillZoneAreasWithSegments( );
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}
return 1;
}
// Sort function to build filled zones
static bool SortByXValues( const int& a, const int &b)
{
return a < b;
}
int ZONE_CONTAINER::FillZoneAreasWithSegments()
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{
int ics, ice;
int count = 0;
std::vector <int> x_coordinates;
bool error = false;
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int istart, iend; // index of the starting and the endif corner of one filled area in m_FilledPolysList
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int margin = m_ZoneMinThickness * 2 / 10;
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int minwidth = Mils2iu( 2 );
margin = std::max ( minwidth, margin );
int step = m_ZoneMinThickness - margin;
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step = std::max( step, minwidth );
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// Read all filled areas in m_FilledPolysList
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m_FillSegmList.clear();
istart = 0;
int end_list = m_FilledPolysList.size()-1;
for( int ic = 0; ic <= end_list; ic++ )
{
CPolyPt* corner = &m_FilledPolysList[ic];
if ( corner->end_contour || (ic == end_list) )
{
iend = ic;
EDA_RECT rect = CalculateSubAreaBoundaryBox( istart, iend );
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// Calculate the y limits of the zone
int refy = rect.GetY();
int endy = rect.GetBottom();
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for( ; refy < endy; refy += step )
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{
// find all intersection points of an infinite line with polyline sides
x_coordinates.clear();
for( ics = istart, ice = iend; ics <= iend; ice = ics, ics++ )
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{
if ( m_FilledPolysList[ice].m_utility )
continue;
int seg_startX = m_FilledPolysList[ics].x;
int seg_startY = m_FilledPolysList[ics].y;
int seg_endX = m_FilledPolysList[ice].x;
int seg_endY = m_FilledPolysList[ice].y;
/* Trivial cases: skip if ref above or below the segment to test */
if( ( seg_startY > refy ) && (seg_endY > refy ) )
continue;
// segment below ref point, or its Y end pos on Y coordinate ref point: skip
if( ( seg_startY <= refy ) && (seg_endY <= refy ) )
continue;
/* at this point refy is between seg_startY and seg_endY
* see if an horizontal line at Y = refy is intersecting this segment
*/
// calculate the x position of the intersection of this segment and the
// infinite line this is more easier if we move the X,Y axis origin to
// the segment start point:
seg_endX -= seg_startX;
seg_endY -= seg_startY;
double newrefy = (double) (refy - seg_startY);
double intersec_x;
if ( seg_endY == 0 ) // horizontal segment on the same line: skip
continue;
// Now calculate the x intersection coordinate of the horizontal line at
// y = newrefy and the segment from (0,0) to (seg_endX,seg_endY) with the
// horizontal line at the new refy position the line slope is:
// slope = seg_endY/seg_endX; and inv_slope = seg_endX/seg_endY
// and the x pos relative to the new origin is:
// intersec_x = refy/slope = refy * inv_slope
// Note: because horizontal segments are already tested and skipped, slope
// exists (seg_end_y not O)
double inv_slope = (double)seg_endX / seg_endY;
intersec_x = newrefy * inv_slope;
x_coordinates.push_back((int) intersec_x + seg_startX);
}
// A line scan is finished: build list of segments
// Sort intersection points by increasing x value:
// So 2 consecutive points are the ends of a segment
sort( x_coordinates.begin(), x_coordinates.end(), SortByXValues );
// Create segments
if ( !error && ( x_coordinates.size() & 1 ) != 0 )
{ // An even number of coordinates is expected, because a segment has 2 ends.
// An if this algorithm always works, it must always find an even count.
wxString msg = wxT("Fill Zone: odd number of points at y = ");
msg << refy;
wxMessageBox(msg );
error = true;
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}
if ( error )
break;
int iimax = x_coordinates.size()-1;
for (int ii = 0; ii < iimax; ii +=2 )
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{
wxPoint seg_start, seg_end;
count++;
seg_start.x = x_coordinates[ii];
seg_start.y = refy;
seg_end.x = x_coordinates[ii+1];
seg_end.y = refy;
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SEGMENT segment( seg_start, seg_end );
m_FillSegmList.push_back( segment );
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}
} //End examine segments in one area
if ( error )
break;
istart = iend + 1; // istart points the first corner of the next area
} // End find one end of outline
if ( error )
break;
} // End examine all areas
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return count;
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}