520 lines
16 KiB
C++
520 lines
16 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) 2004-2020 KiCad Developers.
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*
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* This program is free software: you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation, either version 3 of the License, or (at your
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* option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* 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 along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <common.h>
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#include <board.h>
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#include <track.h>
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#include <drc/drc_engine.h>
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#include <drc/drc_item.h>
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#include <drc/drc_rule.h>
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#include <drc/drc_test_provider.h>
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#include <drc/drc_length_report.h>
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#include <drc/drc_rtree.h>
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#include <geometry/shape_segment.h>
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#include <connectivity/connectivity_data.h>
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#include <connectivity/from_to_cache.h>
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/*
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Differential pair gap/coupling test.
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Errors generated:
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- DRCE_DIFF_PAIR_GAP_OUT_OF_RANGE
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- DRCE_DIFF_PAIR_UNCOUPLED_LENGTH_TOO_LONG
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- DRCE_TOO_MANY_VIAS
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Todo:
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- arc support.
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- improve recognition of coupled segments (now anything that's parallel is considered
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coupled, causing DRC errors on meanders)
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*/
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namespace test {
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class DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING : public DRC_TEST_PROVIDER
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{
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public:
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DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING () :
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m_board( nullptr )
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{
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}
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virtual ~DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING()
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{
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}
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virtual bool Run() override;
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virtual const wxString GetName() const override
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{
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return "diff_pair_coupling";
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};
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virtual const wxString GetDescription() const override
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{
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return "Tests differential pair coupling";
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}
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virtual int GetNumPhases() const override
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{
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return 1;
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}
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virtual std::set<DRC_CONSTRAINT_T> GetConstraintTypes() const override;
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private:
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BOARD* m_board;
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};
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};
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static bool commonParallelProjection( SEG p, SEG n, SEG &pClip, SEG& nClip )
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{
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SEG n_proj_p( p.LineProject( n.A ), p.LineProject( n.B ) );
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int64_t t_a = 0;
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int64_t t_b = p.TCoef( p.B );
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int64_t tproj_a = p.TCoef( n_proj_p.A );
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int64_t tproj_b = p.TCoef( n_proj_p.B );
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if( t_b < t_a )
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std::swap( t_b, t_a );
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if( tproj_b < tproj_a )
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std::swap( tproj_b, tproj_a );
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if( t_b <= tproj_a )
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return false;
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if( t_a >= tproj_b )
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return false;
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int64_t t[4] = { 0, p.TCoef( p.B ), p.TCoef( n_proj_p.A ), p.TCoef( n_proj_p.B ) };
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std::vector<int64_t> tv( t, t + 4 );
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std::sort( tv.begin(), tv.end() ); // fixme: awful and disgusting way of finding 2 midpoints
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int64_t pLenSq = p.SquaredLength();
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VECTOR2I dp = p.B - p.A;
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pClip.A.x = p.A.x + rescale( (int64_t)dp.x, tv[1], pLenSq );
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pClip.A.y = p.A.y + rescale( (int64_t)dp.y, tv[1], pLenSq );
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pClip.B.x = p.A.x + rescale( (int64_t)dp.x, tv[2], pLenSq );
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pClip.B.y = p.A.y + rescale( (int64_t)dp.y, tv[2], pLenSq );
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nClip.A = n.LineProject( pClip.A );
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nClip.B = n.LineProject( pClip.B );
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return true;
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}
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struct DIFF_PAIR_KEY
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{
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bool operator<( const DIFF_PAIR_KEY& b ) const
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{
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if( netP < b.netP )
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{
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return true;
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}
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else if( netP > b.netP )
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{
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return false;
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}
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else // netP == b.netP
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{
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if( netN < b.netN )
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return true;
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else if( netN > b.netN )
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return false;
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else
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return parentRule < b.parentRule;
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}
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}
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int netP, netN;
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DRC_RULE* parentRule;
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};
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struct DIFF_PAIR_COUPLED_SEGMENTS
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{
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SEG coupledN;
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SEG coupledP;
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TRACK* parentN;
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TRACK* parentP;
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int computedGap;
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PCB_LAYER_ID layer;
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bool couplingOK;
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DIFF_PAIR_COUPLED_SEGMENTS() :
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parentN( nullptr ),
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parentP( nullptr ),
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computedGap( 0 ),
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layer( UNDEFINED_LAYER ),
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couplingOK( false )
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{}
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};
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struct DIFF_PAIR_ITEMS
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{
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std::set<BOARD_CONNECTED_ITEM*> itemsP, itemsN;
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std::vector<DIFF_PAIR_COUPLED_SEGMENTS> coupled;
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int totalCoupled;
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int totalLengthN;
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int totalLengthP;
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};
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static void extractDiffPairCoupledItems( DIFF_PAIR_ITEMS& aDp, DRC_RTREE& aTree )
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{
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for( BOARD_CONNECTED_ITEM* itemP : aDp.itemsP )
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{
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TRACK* sp = dyn_cast<TRACK*>( itemP );
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OPT<DIFF_PAIR_COUPLED_SEGMENTS> bestCoupled;
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int bestGap = std::numeric_limits<int>::max();
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if(!sp)
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continue;
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for ( BOARD_CONNECTED_ITEM* itemN : aDp.itemsN )
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{
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auto sn = dyn_cast<TRACK*> ( itemN );
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if(!sn)
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continue;
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if( ( sn->GetLayerSet() & sp->GetLayerSet() ).none() )
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continue;
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SEG ssp ( sp->GetStart(), sp->GetEnd() );
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SEG ssn ( sn->GetStart(), sn->GetEnd() );
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if( ssp.ApproxParallel(ssn) )
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{
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DIFF_PAIR_COUPLED_SEGMENTS cpair;
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bool coupled = commonParallelProjection( ssp, ssn, cpair.coupledP, cpair.coupledN );
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if( coupled )
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{
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cpair.parentP = sp;
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cpair.parentN = sn;
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cpair.layer = sp->GetLayer();
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int gap = (cpair.coupledP.A - cpair.coupledN.A).EuclideanNorm();
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if( gap < bestGap )
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{
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bestGap = gap;
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bestCoupled = cpair;
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}
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}
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}
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}
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if( bestCoupled )
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{
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auto excludeSelf =
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[&] ( BOARD_ITEM *aItem )
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{
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if( aItem == bestCoupled->parentN || aItem == bestCoupled->parentP )
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{
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return false;
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}
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if( aItem->Type() == PCB_TRACE_T || aItem->Type() == PCB_VIA_T )
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{
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auto bci = static_cast<BOARD_CONNECTED_ITEM*>( aItem );
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if( bci->GetNetCode() == bestCoupled->parentN->GetNetCode()
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|| bci->GetNetCode() == bestCoupled->parentP->GetNetCode() )
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return false;
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}
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return true;
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};
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SHAPE_SEGMENT checkSegStart( bestCoupled->coupledP.A, bestCoupled->coupledN.A );
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SHAPE_SEGMENT checkSegEnd( bestCoupled->coupledP.B, bestCoupled->coupledN.B );
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// check if there's anyting in between the segments suspected to be coupled. If
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// there's nothing, assume they are really coupled.
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if( !aTree.CheckColliding( &checkSegStart, sp->GetLayer(), 0, excludeSelf )
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&& !aTree.CheckColliding( &checkSegEnd, sp->GetLayer(), 0, excludeSelf ) )
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{
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aDp.coupled.push_back( *bestCoupled );
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}
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}
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}
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}
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bool test::DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING::Run()
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{
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m_board = m_drcEngine->GetBoard();
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std::map<DIFF_PAIR_KEY, DIFF_PAIR_ITEMS> dpRuleMatches;
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auto evaluateDpConstraints =
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[&]( BOARD_ITEM *item ) -> bool
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{
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DIFF_PAIR_KEY key;
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BOARD_CONNECTED_ITEM* citem = static_cast<BOARD_CONNECTED_ITEM*>( item );
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NETINFO_ITEM* refNet = citem->GetNet();
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if( refNet && DRC_ENGINE::IsNetADiffPair( m_board, refNet, key.netP, key.netN ) )
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{
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drc_dbg( 10, "eval dp %p\n", item );
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const DRC_CONSTRAINT_T constraintsToCheck[] = {
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DIFF_PAIR_GAP_CONSTRAINT,
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DIFF_PAIR_MAX_UNCOUPLED_CONSTRAINT
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};
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for( int i = 0; i < 2; i++ )
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{
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auto constraint = m_drcEngine->EvalRulesForItems( constraintsToCheck[i],
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item, nullptr,
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item->GetLayer() );
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if( constraint.IsNull() )
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continue;
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drc_dbg( 10, "cns %d item %p\n", constraintsToCheck[i], item );
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key.parentRule = constraint.GetParentRule();
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if( refNet->GetNetCode() == key.netN )
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dpRuleMatches[key].itemsN.insert( citem );
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else
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dpRuleMatches[key].itemsP.insert( citem );
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}
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}
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return true;
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};
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m_board->GetConnectivity()->GetFromToCache()->Rebuild( m_board );
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forEachGeometryItem( { PCB_TRACE_T, PCB_VIA_T, PCB_ARC_T },
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LSET::AllCuMask(), evaluateDpConstraints );
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drc_dbg( 10, "dp rule matches %d\n", (int) dpRuleMatches.size() );
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DRC_RTREE copperTree;
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auto addToTree =
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[&copperTree]( BOARD_ITEM *item ) -> bool
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{
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copperTree.Insert( item );
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return true;
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};
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forEachGeometryItem( { PCB_TRACE_T, PCB_VIA_T, PCB_PAD_T, PCB_ZONE_T, PCB_ARC_T },
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LSET::AllCuMask(), addToTree );
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reportAux( wxString::Format( _("DPs evaluated:") ) );
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for( auto& it : dpRuleMatches )
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{
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NETINFO_ITEM *niP = m_board->GetNetInfo().GetNetItem( it.first.netP );
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NETINFO_ITEM *niN = m_board->GetNetInfo().GetNetItem( it.first.netN );
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assert( niP );
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assert( niN );
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wxString nameP = niP->GetNetname();
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wxString nameN = niN->GetNetname();
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reportAux( wxString::Format( "Rule '%s', DP: (+) %s - (-) %s",
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it.first.parentRule->m_Name, nameP, nameN ) );
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extractDiffPairCoupledItems( it.second, copperTree );
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it.second.totalCoupled = 0;
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it.second.totalLengthN = 0;
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it.second.totalLengthP = 0;
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drc_dbg(10, " coupled prims : %d\n", (int) it.second.coupled.size() );
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OPT<DRC_CONSTRAINT> gapConstraint =
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it.first.parentRule->FindConstraint( DIFF_PAIR_GAP_CONSTRAINT );
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OPT<DRC_CONSTRAINT> maxUncoupledConstraint =
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it.first.parentRule->FindConstraint( DIFF_PAIR_MAX_UNCOUPLED_CONSTRAINT );
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for( auto& item : it.second.itemsN )
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{
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// fixme: include vias
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if( auto track = dyn_cast<TRACK*>( item ) )
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it.second.totalLengthN += track->GetLength();
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}
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for( auto& item : it.second.itemsP )
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{
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// fixme: include vias
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if( auto track = dyn_cast<TRACK*>( item ) )
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it.second.totalLengthP += track->GetLength();
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}
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for( auto& cpair : it.second.coupled )
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{
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int length = cpair.coupledN.Length();
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int gap = cpair.coupledN.Distance( cpair.coupledP );
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gap -= cpair.parentN->GetWidth() / 2;
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gap -= cpair.parentP->GetWidth() / 2;
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cpair.computedGap = gap;
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auto overlay = m_drcEngine->GetDebugOverlay();
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if( overlay )
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{
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overlay->SetIsFill(false);
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overlay->SetIsStroke(true);
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overlay->SetStrokeColor( RED );
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overlay->SetLineWidth( 100000 );
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overlay->Line( cpair.coupledP );
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overlay->SetStrokeColor( BLUE );
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overlay->Line( cpair.coupledN );
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}
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drc_dbg( 10, " len %d gap %d l %d\n", length, gap,
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cpair.parentP->GetLayer() );
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if( gapConstraint )
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{
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auto val = gapConstraint->GetValue();
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bool insideRange = true;
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if ( val.HasMin() && gap < val.Min() )
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insideRange = false;
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if ( val.HasMax() && gap > val.Max() )
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insideRange = false;
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// if(val.HasMin() && val.HasMax() )
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// drc_dbg(10, "Vmin %d vmax %d\n", val.Min(), val.Max() );
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cpair.couplingOK = insideRange;
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if( insideRange )
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it.second.totalCoupled += length;
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}
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}
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int totalLen = std::max( it.second.totalLengthN, it.second.totalLengthP );
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reportAux( wxString::Format( " - coupled length: %s, total length: %s",
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MessageTextFromValue( userUnits(), it.second.totalCoupled ),
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MessageTextFromValue( userUnits(), totalLen ) ) );
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int totalUncoupled = totalLen - it.second.totalCoupled;
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bool uncoupledViolation = false;
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if( maxUncoupledConstraint )
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{
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auto val = maxUncoupledConstraint->GetValue();
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if ( val.HasMax() && totalUncoupled > val.Max() )
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{
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auto drce = DRC_ITEM::Create( DRCE_DIFF_PAIR_UNCOUPLED_LENGTH_TOO_LONG );
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m_msg = wxString::Format( _( "(%s maximum uncoupled length: %s; actual: %s)" ),
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maxUncoupledConstraint->GetParentRule()->m_Name,
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MessageTextFromValue( userUnits(), val.Max() ),
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MessageTextFromValue( userUnits(), totalUncoupled ) );
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drce->SetErrorMessage( drce->GetErrorText() + wxS( " " ) + m_msg );
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for( BOARD_CONNECTED_ITEM* offendingTrack : it.second.itemsP )
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drce->AddItem( offendingTrack );
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for( BOARD_CONNECTED_ITEM* offendingTrack : it.second.itemsN )
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drce->AddItem( offendingTrack );
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uncoupledViolation = true;
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drce->SetViolatingRule( maxUncoupledConstraint->GetParentRule() );
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reportViolation( drce, ( *it.second.itemsP.begin() )->GetPosition() );
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}
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}
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if ( gapConstraint && ( uncoupledViolation || !maxUncoupledConstraint ) )
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{
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for( auto& cpair : it.second.coupled )
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{
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if( !cpair.couplingOK )
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{
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auto val = gapConstraint->GetValue();
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auto drcItem = DRC_ITEM::Create( DRCE_DIFF_PAIR_GAP_OUT_OF_RANGE );
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m_msg = drcItem->GetErrorText() + " (" +
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gapConstraint->GetParentRule()->m_Name + " ";
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if( val.HasMin() )
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m_msg += wxString::Format( _( "minimum gap: %s; " ),
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MessageTextFromValue( userUnits(), val.Min() ) );
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if( val.HasMax() )
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m_msg += wxString::Format( _( "maximum gap: %s; " ),
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MessageTextFromValue( userUnits(), val.Max() ) );
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m_msg += wxString::Format( _( "actual: %s)" ),
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MessageTextFromValue( userUnits(), cpair.computedGap ) );
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drcItem->SetErrorMessage( m_msg );
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drcItem->AddItem( cpair.parentP );
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drcItem->AddItem( cpair.parentN );
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drcItem->SetViolatingRule( gapConstraint->GetParentRule() );
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reportViolation( drcItem, cpair.parentP->GetPosition() );
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}
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}
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}
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}
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reportRuleStatistics();
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return true;
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}
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std::set<DRC_CONSTRAINT_T> test::DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING::GetConstraintTypes() const
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{
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return { DIFF_PAIR_GAP_CONSTRAINT, DIFF_PAIR_MAX_UNCOUPLED_CONSTRAINT };
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}
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namespace detail
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{
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static DRC_REGISTER_TEST_PROVIDER<test::DRC_TEST_PROVIDER_DIFF_PAIR_COUPLING> dummy;
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}
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