513 lines
20 KiB
C++
513 lines
20 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2016 Jean-Pierre Charras, jp.charras at wanadoo.fr
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* Copyright (C) 1992-2016 KiCad Developers, see AUTHORS.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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/* Functions to convert some board items to polygons
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* (pads, tracks ..)
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* This is used to calculate filled areas in copper zones.
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* Filled areas are areas remainder of the full zone area after removed all polygons
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* calculated from these items shapes and the clearance area
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*
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* Important note:
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* Because filled areas must have a minimum thickness to match with Design rule, they are
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* draw in 2 step:
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* 1 - filled polygons are drawn
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* 2 - polygon outlines are drawn with a "minimum thickness width" ( or with a minimum
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* thickness pen )
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* So outlines of filled polygons are calculated with the constraint they match with clearance,
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* taking in account outlines have thickness
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* This ensures:
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* - areas meet the minimum thickness requirement.
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* - shapes are smoothed.
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*/
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// Polygon calculations can use fast mode or force strickly simple polygons after calculations
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// Forcing strickly simple polygons is time consuming, and we have not see issues in fast mode
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// so we use fast mode
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#define POLY_CALC_MODE SHAPE_POLY_SET::PM_FAST
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#include <cmath>
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#include <sstream>
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#include <fctsys.h>
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#include <wxPcbStruct.h>
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#include <trigo.h>
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#include <class_board.h>
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#include <class_module.h>
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#include <class_track.h>
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#include <class_edge_mod.h>
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#include <class_drawsegment.h>
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#include <class_pcb_text.h>
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#include <class_zone.h>
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#include <project.h>
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#include <pcbnew.h>
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#include <zones.h>
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#include <convert_basic_shapes_to_polygon.h>
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#include <geometry/shape_poly_set.h>
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#include <geometry/shape_file_io.h>
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/* DEBUG OPTION:
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* To emit zone data to a file when filling zones for the debugging purposes,
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* set this 'true' and build.
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*/
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static const bool g_DumpZonesWhenFilling = false;
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extern void BuildUnconnectedThermalStubsPolygonList( SHAPE_POLY_SET& aCornerBuffer,
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BOARD* aPcb, ZONE_CONTAINER* aZone,
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double aArcCorrection,
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double aRoundPadThermalRotation);
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extern void Test_For_Copper_Island_And_Remove( BOARD* aPcb,
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ZONE_CONTAINER* aZone_container );
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extern void CreateThermalReliefPadPolygon( SHAPE_POLY_SET& aCornerBuffer,
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D_PAD& aPad,
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int aThermalGap,
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int aCopperThickness,
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int aMinThicknessValue,
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int aCircleToSegmentsCount,
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double aCorrectionFactor,
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double aThermalRot );
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// Local Variables:
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static double s_thermalRot = 450; // angle of stubs in thermal reliefs for round pads
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void ZONE_CONTAINER::buildFeatureHoleList( BOARD* aPcb, SHAPE_POLY_SET& aFeatures )
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{
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int segsPerCircle;
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double correctionFactor;
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// Set the number of segments in arc approximations
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if( m_ArcToSegmentsCount == ARC_APPROX_SEGMENTS_COUNT_HIGHT_DEF )
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segsPerCircle = ARC_APPROX_SEGMENTS_COUNT_HIGHT_DEF;
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else
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segsPerCircle = ARC_APPROX_SEGMENTS_COUNT_LOW_DEF;
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/* calculates the coeff to compensate radius reduction of holes clearance
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* due to the segment approx.
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* For a circle the min radius is radius * cos( 2PI / s_CircleToSegmentsCount / 2)
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* s_Correction is 1 /cos( PI/s_CircleToSegmentsCount )
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*/
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correctionFactor = 1.0 / cos( M_PI / (double) segsPerCircle );
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aFeatures.RemoveAllContours();
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int outline_half_thickness = m_ZoneMinThickness / 2;
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int zone_clearance = std::max( m_ZoneClearance, GetClearance() );
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zone_clearance += outline_half_thickness;
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/* store holes (i.e. tracks and pads areas as polygons outlines)
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* in a polygon list
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*/
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/* items ouside the zone bounding box are skipped
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* the bounding box is the zone bounding box + the biggest clearance found in Netclass list
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*/
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EDA_RECT item_boundingbox;
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EDA_RECT zone_boundingbox = GetBoundingBox();
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int biggest_clearance = aPcb->GetDesignSettings().GetBiggestClearanceValue();
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biggest_clearance = std::max( biggest_clearance, zone_clearance );
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zone_boundingbox.Inflate( biggest_clearance );
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/*
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* First : Add pads. Note: pads having the same net as zone are left in zone.
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* Thermal shapes will be created later if necessary
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*/
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int item_clearance;
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/* Use a dummy pad to calculate hole clerance when a pad is not on all copper layers
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* and this pad has a hole
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* This dummy pad has the size and shape of the hole
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* Therefore, this dummy pad is a circle or an oval.
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* A pad must have a parent because some functions expect a non null parent
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* to find the parent board, and some other data
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*/
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MODULE dummymodule( aPcb ); // Creates a dummy parent
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D_PAD dummypad( &dummymodule );
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for( MODULE* module = aPcb->m_Modules; module; module = module->Next() )
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{
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D_PAD* nextpad;
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for( D_PAD* pad = module->Pads(); pad != NULL; pad = nextpad )
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{
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nextpad = pad->Next(); // pad pointer can be modified by next code, so
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// calculate the next pad here
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if( !pad->IsOnLayer( GetLayer() ) )
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{
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/* Test for pads that are on top or bottom only and have a hole.
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* There are curious pads but they can be used for some components that are
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* inside the board (in fact inside the hole. Some photo diodes and Leds are
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* like this)
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*/
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if( pad->GetDrillSize().x == 0 && pad->GetDrillSize().y == 0 )
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continue;
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// Use a dummy pad to calculate a hole shape that have the same dimension as
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// the pad hole
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dummypad.SetSize( pad->GetDrillSize() );
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dummypad.SetOrientation( pad->GetOrientation() );
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dummypad.SetShape( pad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG ?
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PAD_SHAPE_OVAL : PAD_SHAPE_CIRCLE );
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dummypad.SetPosition( pad->GetPosition() );
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pad = &dummypad;
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}
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// Note: netcode <=0 means not connected item
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if( ( pad->GetNetCode() != GetNetCode() ) || ( pad->GetNetCode() <= 0 ) )
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{
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item_clearance = pad->GetClearance() + outline_half_thickness;
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item_boundingbox = pad->GetBoundingBox();
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item_boundingbox.Inflate( item_clearance );
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if( item_boundingbox.Intersects( zone_boundingbox ) )
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{
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int clearance = std::max( zone_clearance, item_clearance );
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pad->TransformShapeWithClearanceToPolygon( aFeatures,
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clearance,
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segsPerCircle,
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correctionFactor );
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}
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continue;
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}
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// Pads are removed from zone if the setup is PAD_ZONE_CONN_NONE
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if( GetPadConnection( pad ) == PAD_ZONE_CONN_NONE )
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{
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int gap = zone_clearance;
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int thermalGap = GetThermalReliefGap( pad );
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gap = std::max( gap, thermalGap );
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item_boundingbox = pad->GetBoundingBox();
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item_boundingbox.Inflate( gap );
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if( item_boundingbox.Intersects( zone_boundingbox ) )
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{
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pad->TransformShapeWithClearanceToPolygon( aFeatures,
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gap,
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segsPerCircle,
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correctionFactor );
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}
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}
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}
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}
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/* Add holes (i.e. tracks and vias areas as polygons outlines)
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* in cornerBufferPolysToSubstract
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*/
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for( TRACK* track = aPcb->m_Track; track; track = track->Next() )
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{
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if( !track->IsOnLayer( GetLayer() ) )
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continue;
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if( track->GetNetCode() == GetNetCode() && (GetNetCode() != 0) )
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continue;
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item_clearance = track->GetClearance() + outline_half_thickness;
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item_boundingbox = track->GetBoundingBox();
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if( item_boundingbox.Intersects( zone_boundingbox ) )
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{
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int clearance = std::max( zone_clearance, item_clearance );
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track->TransformShapeWithClearanceToPolygon( aFeatures,
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clearance,
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segsPerCircle,
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correctionFactor );
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}
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}
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/* Add module edge items that are on copper layers
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* Pcbnew allows these items to be on copper layers in microwave applictions
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* This is a bad thing, but must be handled here, until a better way is found
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*/
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for( MODULE* module = aPcb->m_Modules; module; module = module->Next() )
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{
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for( BOARD_ITEM* item = module->GraphicalItems(); item; item = item->Next() )
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{
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if( !item->IsOnLayer( GetLayer() ) && !item->IsOnLayer( Edge_Cuts ) )
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continue;
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if( item->Type() != PCB_MODULE_EDGE_T )
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continue;
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item_boundingbox = item->GetBoundingBox();
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if( item_boundingbox.Intersects( zone_boundingbox ) )
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{
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( (EDGE_MODULE*) item )->TransformShapeWithClearanceToPolygon(
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aFeatures, zone_clearance,
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segsPerCircle, correctionFactor );
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}
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}
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}
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// Add graphic items (copper texts) and board edges
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for( BOARD_ITEM* item = aPcb->m_Drawings; item; item = item->Next() )
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{
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if( item->GetLayer() != GetLayer() && item->GetLayer() != Edge_Cuts )
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continue;
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switch( item->Type() )
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{
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case PCB_LINE_T:
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( (DRAWSEGMENT*) item )->TransformShapeWithClearanceToPolygon(
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aFeatures,
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zone_clearance, segsPerCircle, correctionFactor );
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break;
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case PCB_TEXT_T:
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( (TEXTE_PCB*) item )->TransformBoundingBoxWithClearanceToPolygon(
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aFeatures, zone_clearance );
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break;
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default:
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break;
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}
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}
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// Add zones outlines having an higher priority and keepout
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for( int ii = 0; ii < GetBoard()->GetAreaCount(); ii++ )
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{
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ZONE_CONTAINER* zone = GetBoard()->GetArea( ii );
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if( zone->GetLayer() != GetLayer() )
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continue;
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if( !zone->GetIsKeepout() && zone->GetPriority() <= GetPriority() )
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continue;
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if( zone->GetIsKeepout() && ! zone->GetDoNotAllowCopperPour() )
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continue;
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// A highter priority zone or keepout area is found: remove this area
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item_boundingbox = zone->GetBoundingBox();
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if( !item_boundingbox.Intersects( zone_boundingbox ) )
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continue;
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// Add the zone outline area.
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// However if the zone has the same net as the current zone,
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// do not add any clearance.
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// the zone will be connected to the current zone, but filled areas
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// will use different parameters (clearance, thermal shapes )
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bool same_net = GetNetCode() == zone->GetNetCode();
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bool use_net_clearance = true;
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int min_clearance = zone_clearance;
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// Do not forget to make room to draw the thick outlines
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// of the hole created by the area of the zone to remove
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int holeclearance = zone->GetClearance() + outline_half_thickness;
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// The final clearance is obviously the max value of each zone clearance
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min_clearance = std::max( min_clearance, holeclearance );
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if( zone->GetIsKeepout() || same_net )
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{
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// Just take in account the fact the outline has a thickness, so
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// the actual area to substract is inflated to take in account this fact
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min_clearance = outline_half_thickness;
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use_net_clearance = false;
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}
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zone->TransformOutlinesShapeWithClearanceToPolygon(
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aFeatures,
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min_clearance, use_net_clearance );
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}
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// Remove thermal symbols
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for( MODULE* module = aPcb->m_Modules; module; module = module->Next() )
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{
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for( D_PAD* pad = module->Pads(); pad != NULL; pad = pad->Next() )
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{
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// Rejects non-standard pads with tht-only thermal reliefs
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if( GetPadConnection( pad ) == PAD_ZONE_CONN_THT_THERMAL
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&& pad->GetAttribute() != PAD_ATTRIB_STANDARD )
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continue;
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if( GetPadConnection( pad ) != PAD_ZONE_CONN_THERMAL
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&& GetPadConnection( pad ) != PAD_ZONE_CONN_THT_THERMAL )
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continue;
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if( !pad->IsOnLayer( GetLayer() ) )
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continue;
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if( pad->GetNetCode() != GetNetCode() )
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continue;
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item_boundingbox = pad->GetBoundingBox();
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int thermalGap = GetThermalReliefGap( pad );
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item_boundingbox.Inflate( thermalGap, thermalGap );
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if( item_boundingbox.Intersects( zone_boundingbox ) )
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{
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CreateThermalReliefPadPolygon( aFeatures,
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*pad, thermalGap,
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GetThermalReliefCopperBridge( pad ),
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m_ZoneMinThickness,
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segsPerCircle,
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correctionFactor, s_thermalRot );
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}
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}
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}
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}
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/**
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* Function AddClearanceAreasPolygonsToPolysList
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* Supports a min thickness area constraint.
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* Add non copper areas polygons (pads and tracks with clearance)
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* to the filled copper area found
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* in BuildFilledPolysListData after calculating filled areas in a zone
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* Non filled copper areas are pads and track and their clearance areas
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* The filled copper area must be computed just before.
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* BuildFilledPolysListData() call this function just after creating the
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* filled copper area polygon (without clearance areas)
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* to do that this function:
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* 1 - Creates the main outline (zone outline) using a correction to shrink the resulting area
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* with m_ZoneMinThickness/2 value.
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* The result is areas with a margin of m_ZoneMinThickness/2
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* When drawing outline with segments having a thickness of m_ZoneMinThickness, the
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* outlines will match exactly the initial outlines
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* 3 - Add all non filled areas (pads, tracks) in group B with a clearance of m_Clearance +
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* m_ZoneMinThickness/2
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* in a buffer
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* - If Thermal shapes are wanted, add non filled area, in order to create these thermal shapes
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* 4 - calculates the polygon A - B
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* 5 - put resulting list of polygons (filled areas) in m_FilledPolysList
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* This zone contains pads with the same net.
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* 6 - Remove insulated copper islands
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* 7 - If Thermal shapes are wanted, remove unconnected stubs in thermal shapes:
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* creates a buffer of polygons corresponding to stubs to remove
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* sub them to the filled areas.
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* Remove new insulated copper islands
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*/
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void ZONE_CONTAINER::AddClearanceAreasPolygonsToPolysList_NG( BOARD* aPcb )
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{
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int segsPerCircle;
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double correctionFactor;
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int outline_half_thickness = m_ZoneMinThickness / 2;
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std::unique_ptr<SHAPE_FILE_IO> dumper( new SHAPE_FILE_IO(
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g_DumpZonesWhenFilling ? "zones_dump.txt" : "", SHAPE_FILE_IO::IOM_APPEND ) );
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// Set the number of segments in arc approximations
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if( m_ArcToSegmentsCount == ARC_APPROX_SEGMENTS_COUNT_HIGHT_DEF )
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segsPerCircle = ARC_APPROX_SEGMENTS_COUNT_HIGHT_DEF;
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else
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segsPerCircle = ARC_APPROX_SEGMENTS_COUNT_LOW_DEF;
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/* calculates the coeff to compensate radius reduction of holes clearance
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* due to the segment approx.
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* For a circle the min radius is radius * cos( 2PI / s_CircleToSegmentsCount / 2)
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* s_Correction is 1 /cos( PI/s_CircleToSegmentsCount )
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*/
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correctionFactor = 1.0 / cos( M_PI / (double) segsPerCircle );
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CPOLYGONS_LIST tmp;
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if(g_DumpZonesWhenFilling)
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dumper->BeginGroup("clipper-zone");
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SHAPE_POLY_SET solidAreas = ConvertPolyListToPolySet( m_smoothedPoly->m_CornersList );
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solidAreas.Inflate( -outline_half_thickness, segsPerCircle );
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solidAreas.Simplify( POLY_CALC_MODE );
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SHAPE_POLY_SET holes;
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if(g_DumpZonesWhenFilling)
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dumper->Write( &solidAreas, "solid-areas" );
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tmp.RemoveAllContours();
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buildFeatureHoleList( aPcb, holes );
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if(g_DumpZonesWhenFilling)
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dumper->Write( &holes, "feature-holes" );
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holes.Simplify( POLY_CALC_MODE );
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if (g_DumpZonesWhenFilling)
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dumper->Write( &holes, "feature-holes-postsimplify" );
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solidAreas.BooleanSubtract( holes, POLY_CALC_MODE );
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if (g_DumpZonesWhenFilling)
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dumper->Write( &solidAreas, "solid-areas-minus-holes" );
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SHAPE_POLY_SET areas_fractured = solidAreas;
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areas_fractured.Fracture( POLY_CALC_MODE );
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if (g_DumpZonesWhenFilling)
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dumper->Write( &areas_fractured, "areas_fractured" );
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m_FilledPolysList = areas_fractured;
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// Remove insulated islands:
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if( GetNetCode() > 0 )
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TestForCopperIslandAndRemoveInsulatedIslands( aPcb );
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SHAPE_POLY_SET thermalHoles;
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// Test thermal stubs connections and add polygons to remove unconnected stubs.
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// (this is a refinement for thermal relief shapes)
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if( GetNetCode() > 0 )
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BuildUnconnectedThermalStubsPolygonList( thermalHoles, aPcb, this,
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correctionFactor, s_thermalRot );
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// remove copper areas corresponding to not connected stubs
|
|
if( !thermalHoles.IsEmpty() )
|
|
{
|
|
thermalHoles.Simplify( POLY_CALC_MODE );
|
|
// Remove unconnected stubs
|
|
solidAreas.BooleanSubtract( thermalHoles, POLY_CALC_MODE );
|
|
|
|
if( g_DumpZonesWhenFilling )
|
|
dumper->Write( &thermalHoles, "thermal-holes" );
|
|
|
|
// put these areas in m_FilledPolysList
|
|
SHAPE_POLY_SET th_fractured = solidAreas;
|
|
th_fractured.Fracture( POLY_CALC_MODE );
|
|
|
|
if( g_DumpZonesWhenFilling )
|
|
dumper->Write ( &th_fractured, "th_fractured" );
|
|
|
|
m_FilledPolysList = th_fractured;
|
|
|
|
if( GetNetCode() > 0 )
|
|
TestForCopperIslandAndRemoveInsulatedIslands( aPcb );
|
|
}
|
|
|
|
if(g_DumpZonesWhenFilling)
|
|
dumper->EndGroup();
|
|
}
|
|
|
|
void ZONE_CONTAINER::AddClearanceAreasPolygonsToPolysList( BOARD* aPcb )
|
|
{
|
|
}
|