/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2004-2019 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2014 Dick Hollenbeck, dick@softplc.com * Copyright (C) 2017-2019 KiCad Developers, see change_log.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 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // for KiROUND #include #include #include #include #include #include #include DRC::DRC() : PCB_TOOL_BASE( "pcbnew.DRCTool" ), m_currentMarker( nullptr ), m_pcbEditorFrame( nullptr ), m_pcb( nullptr ), m_drcDialog( nullptr ) { // establish initial values for everything: m_doPad2PadTest = true; // enable pad to pad clearance tests m_doUnconnectedTest = true; // enable unconnected tests m_doZonesTest = false; // disable zone to items clearance tests m_doKeepoutTest = true; // enable keepout areas to items clearance tests m_refillZones = false; // Only fill zones if requested by user. m_reportAllTrackErrors = false; m_testFootprints = false; m_drcRun = false; m_footprintsTested = false; m_doCreateRptFile = false; // m_rptFilename set to empty by its constructor m_segmAngle = 0; m_segmLength = 0; m_xcliplo = 0; m_ycliplo = 0; m_xcliphi = 0; m_ycliphi = 0; } DRC::~DRC() { for( DRC_ITEM* unconnectedItem : m_unconnected ) delete unconnectedItem; for( DRC_ITEM* footprintItem : m_footprints ) delete footprintItem; } void DRC::Reset( RESET_REASON aReason ) { m_pcbEditorFrame = getEditFrame(); if( aReason == MODEL_RELOAD ) { if( m_drcDialog ) DestroyDRCDialog( wxID_OK ); m_pcb = m_pcbEditorFrame->GetBoard(); m_markerFactory.SetUnitsProvider( [=]() { return m_pcbEditorFrame->GetUserUnits(); } ); } } void DRC::ShowDRCDialog( wxWindow* aParent ) { bool show_dlg_modal = true; // the dialog needs a parent frame. if it is not specified, this is // the PCB editor frame specified in DRC class. if( !aParent ) { // if any parent is specified, the dialog is modal. // if this is the default PCB editor frame, it is not modal show_dlg_modal = false; aParent = m_pcbEditorFrame; } Activate(); m_toolMgr->RunAction( PCB_ACTIONS::selectionClear, true ); if( !m_drcDialog ) { m_drcDialog = new DIALOG_DRC_CONTROL( this, m_pcbEditorFrame, aParent ); updatePointers(); m_drcDialog->SetRptSettings( m_doCreateRptFile, m_rptFilename ); if( show_dlg_modal ) m_drcDialog->ShowModal(); else m_drcDialog->Show( true ); } else // The dialog is just not visible (because the user has double clicked on an error item) { updatePointers(); m_drcDialog->Show( true ); } } int DRC::ShowDRCDialog( const TOOL_EVENT& aEvent ) { ShowDRCDialog( nullptr ); return 0; } void DRC::addMarkerToPcb( MARKER_PCB* aMarker ) { BOARD_COMMIT commit( m_pcbEditorFrame ); commit.Add( aMarker ); commit.Push( wxEmptyString, false, false ); } void DRC::DestroyDRCDialog( int aReason ) { if( m_drcDialog ) { m_drcDialog->GetRptSettings( &m_doCreateRptFile, m_rptFilename); m_drcDialog->Destroy(); m_drcDialog = nullptr; } } int DRC::TestZoneToZoneOutline( ZONE_CONTAINER* aZone, bool aCreateMarkers ) { BOARD* board = m_pcbEditorFrame->GetBoard(); BOARD_COMMIT commit( m_pcbEditorFrame ); int nerrors = 0; std::vector smoothed_polys; smoothed_polys.resize( board->GetAreaCount() ); for( int ia = 0; ia < board->GetAreaCount(); ia++ ) { ZONE_CONTAINER* zoneRef = board->GetArea( ia ); std::set colinearCorners; zoneRef->GetColinearCorners( board, colinearCorners ); zoneRef->BuildSmoothedPoly( smoothed_polys[ia], &colinearCorners ); } // iterate through all areas for( int ia = 0; ia < board->GetAreaCount(); ia++ ) { ZONE_CONTAINER* zoneRef = board->GetArea( ia ); if( !zoneRef->IsOnCopperLayer() ) continue; // When testing only a single area, skip all others if( aZone && ( aZone != zoneRef) ) continue; // If we are testing a single zone, then iterate through all other zones // Otherwise, we have already tested the zone combination for( int ia2 = ( aZone ? 0 : ia + 1 ); ia2 < board->GetAreaCount(); ia2++ ) { ZONE_CONTAINER* zoneToTest = board->GetArea( ia2 ); if( zoneRef == zoneToTest ) continue; // test for same layer if( zoneRef->GetLayer() != zoneToTest->GetLayer() ) continue; // Test for same net if( zoneRef->GetNetCode() == zoneToTest->GetNetCode() && zoneRef->GetNetCode() >= 0 ) continue; // test for different priorities if( zoneRef->GetPriority() != zoneToTest->GetPriority() ) continue; // test for different types if( zoneRef->GetIsKeepout() != zoneToTest->GetIsKeepout() ) continue; // Examine a candidate zone: compare zoneToTest to zoneRef // Get clearance used in zone to zone test. The policy used to // obtain that value is now part of the zone object itself by way of // ZONE_CONTAINER::GetClearance(). int zone2zoneClearance = zoneRef->GetClearance( zoneToTest ); // Keepout areas have no clearance, so set zone2zoneClearance to 1 // ( zone2zoneClearance = 0 can create problems in test functions) if( zoneRef->GetIsKeepout() ) zone2zoneClearance = 1; // test for some corners of zoneRef inside zoneToTest for( auto iterator = smoothed_polys[ia].IterateWithHoles(); iterator; iterator++ ) { VECTOR2I currentVertex = *iterator; wxPoint pt( currentVertex.x, currentVertex.y ); if( smoothed_polys[ia2].Contains( currentVertex ) ) { if( aCreateMarkers ) commit.Add( m_markerFactory.NewMarker( pt, zoneRef, zoneToTest, DRCE_ZONES_INTERSECT ) ); nerrors++; } } // test for some corners of zoneToTest inside zoneRef for( auto iterator = smoothed_polys[ia2].IterateWithHoles(); iterator; iterator++ ) { VECTOR2I currentVertex = *iterator; wxPoint pt( currentVertex.x, currentVertex.y ); if( smoothed_polys[ia].Contains( currentVertex ) ) { if( aCreateMarkers ) commit.Add( m_markerFactory.NewMarker( pt, zoneToTest, zoneRef, DRCE_ZONES_INTERSECT ) ); nerrors++; } } // Iterate through all the segments of refSmoothedPoly std::set conflictPoints; for( auto refIt = smoothed_polys[ia].IterateSegmentsWithHoles(); refIt; refIt++ ) { // Build ref segment SEG refSegment = *refIt; // Iterate through all the segments in smoothed_polys[ia2] for( auto testIt = smoothed_polys[ia2].IterateSegmentsWithHoles(); testIt; testIt++ ) { // Build test segment SEG testSegment = *testIt; wxPoint pt; int ax1, ay1, ax2, ay2; ax1 = refSegment.A.x; ay1 = refSegment.A.y; ax2 = refSegment.B.x; ay2 = refSegment.B.y; int bx1, by1, bx2, by2; bx1 = testSegment.A.x; by1 = testSegment.A.y; bx2 = testSegment.B.x; by2 = testSegment.B.y; int d = GetClearanceBetweenSegments( bx1, by1, bx2, by2, 0, ax1, ay1, ax2, ay2, 0, zone2zoneClearance, &pt.x, &pt.y ); if( d < zone2zoneClearance ) conflictPoints.insert( pt ); } } for( wxPoint pt : conflictPoints ) { if( aCreateMarkers ) commit.Add( m_markerFactory.NewMarker( pt, zoneRef, zoneToTest, DRCE_ZONES_TOO_CLOSE ) ); nerrors++; } } } if( aCreateMarkers ) commit.Push( wxEmptyString, false, false ); return nerrors; } void DRC::RunTests( wxTextCtrl* aMessages ) { // be sure m_pcb is the current board, not a old one // ( the board can be reloaded ) m_pcb = m_pcbEditorFrame->GetBoard(); if( aMessages ) { aMessages->AppendText( _( "Board Outline...\n" ) ); wxSafeYield(); } testOutline(); // someone should have cleared the two lists before calling this. if( !testNetClasses() ) { // testing the netclasses is a special case because if the netclasses // do not pass the BOARD_DESIGN_SETTINGS checks, then every member of a net // class (a NET) will cause its items such as tracks, vias, and pads // to also fail. So quit after *all* netclass errors have been reported. if( aMessages ) aMessages->AppendText( _( "Aborting\n" ) ); // update the m_drcDialog listboxes updatePointers(); return; } // test pad to pad clearances, nothing to do with tracks, vias or zones. if( m_doPad2PadTest ) { if( aMessages ) { aMessages->AppendText( _( "Pad clearances...\n" ) ); wxSafeYield(); } testPad2Pad(); } // test clearances between drilled holes if( aMessages ) { aMessages->AppendText( _( "Drill clearances...\n" ) ); wxSafeYield(); } testDrilledHoles(); // caller (a wxTopLevelFrame) is the wxDialog or the Pcb Editor frame that call DRC: wxWindow* caller = aMessages ? aMessages->GetParent() : m_pcbEditorFrame; if( m_refillZones ) { if( aMessages ) aMessages->AppendText( _( "Refilling all zones...\n" ) ); m_toolMgr->GetTool()->FillAllZones( caller ); } else { if( aMessages ) aMessages->AppendText( _( "Checking zone fills...\n" ) ); m_toolMgr->GetTool()->CheckAllZones( caller ); } // test track and via clearances to other tracks, pads, and vias if( aMessages ) { aMessages->AppendText( _( "Track clearances...\n" ) ); wxSafeYield(); } testTracks( aMessages ? aMessages->GetParent() : m_pcbEditorFrame, true ); // test zone clearances to other zones if( aMessages ) { aMessages->AppendText( _( "Zone to zone clearances...\n" ) ); wxSafeYield(); } testZones(); // find and gather unconnected pads. if( m_doUnconnectedTest ) { if( aMessages ) { aMessages->AppendText( _( "Unconnected pads...\n" ) ); aMessages->Refresh(); } testUnconnected(); } // find and gather vias, tracks, pads inside keepout areas. if( m_doKeepoutTest ) { if( aMessages ) { aMessages->AppendText( _( "Keepout areas ...\n" ) ); aMessages->Refresh(); } testKeepoutAreas(); } // find and gather vias, tracks, pads inside text boxes. if( aMessages ) { aMessages->AppendText( _( "Text and graphic clearances...\n" ) ); wxSafeYield(); } testCopperTextAndGraphics(); // find overlapping courtyard ares. if( m_pcb->GetDesignSettings().m_ProhibitOverlappingCourtyards || m_pcb->GetDesignSettings().m_RequireCourtyards ) { if( aMessages ) { aMessages->AppendText( _( "Courtyard areas...\n" ) ); aMessages->Refresh(); } doOverlappingCourtyardsDrc(); } for( DRC_ITEM* footprintItem : m_footprints ) delete footprintItem; m_footprints.clear(); m_footprintsTested = false; if( m_testFootprints && !Kiface().IsSingle() ) { if( aMessages ) { aMessages->AppendText( _( "Checking footprints against schematic...\n" ) ); aMessages->Refresh(); } NETLIST netlist; m_pcbEditorFrame->FetchNetlistFromSchematic( netlist, PCB_EDIT_FRAME::ANNOTATION_DIALOG ); if( m_drcDialog ) m_drcDialog->Raise(); TestFootprints( netlist, m_pcb, m_drcDialog->GetUserUnits(), m_footprints ); m_footprintsTested = true; } // Check if there are items on disabled layers testDisabledLayers(); if( aMessages ) { aMessages->AppendText( _( "Items on disabled layers...\n" ) ); aMessages->Refresh(); } m_drcRun = true; // update the m_drcDialog listboxes updatePointers(); if( aMessages ) { // no newline on this one because it is last, don't want the window // to unnecessarily scroll. aMessages->AppendText( _( "Finished" ) ); } } void DRC::updatePointers() { // update my pointers, m_pcbEditorFrame is the only unchangeable one m_pcb = m_pcbEditorFrame->GetBoard(); if( m_drcDialog ) // Use diag list boxes only in DRC dialog { m_drcDialog->m_ClearanceListBox->SetList( m_pcbEditorFrame->GetUserUnits(), new DRC_LIST_MARKERS( m_pcb ) ); m_drcDialog->m_UnconnectedListBox->SetList( m_pcbEditorFrame->GetUserUnits(), new DRC_LIST_GENERIC( &m_unconnected ) ); m_drcDialog->m_FootprintsListBox->SetList( m_pcbEditorFrame->GetUserUnits(), new DRC_LIST_GENERIC( &m_footprints ) ); m_drcDialog->UpdateDisplayedCounts(); } } bool DRC::doNetClass( const NETCLASSPTR& nc, wxString& msg ) { bool ret = true; const BOARD_DESIGN_SETTINGS& g = m_pcb->GetDesignSettings(); #define FmtVal( x ) GetChars( StringFromValue( m_pcbEditorFrame->GetUserUnits(), x ) ) #if 0 // set to 1 when (if...) BOARD_DESIGN_SETTINGS has a m_MinClearance value if( nc->GetClearance() < g.m_MinClearance ) { msg.Printf( _( "NETCLASS: \"%s\" has Clearance:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetClearance() ), FmtVal( g.m_TrackClearance ) ); addMarkerToPcb( fillMarker( DRCE_NETCLASS_CLEARANCE, msg, m_currentMarker ) ); m_currentMarker = nullptr; ret = false; } #endif if( nc->GetTrackWidth() < g.m_TrackMinWidth ) { msg.Printf( _( "NETCLASS: \"%s\" has TrackWidth:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetTrackWidth() ), FmtVal( g.m_TrackMinWidth ) ); addMarkerToPcb( m_markerFactory.NewMarker( DRCE_NETCLASS_TRACKWIDTH, msg ) ); ret = false; } if( nc->GetViaDiameter() < g.m_ViasMinSize ) { msg.Printf( _( "NETCLASS: \"%s\" has Via Dia:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetViaDiameter() ), FmtVal( g.m_ViasMinSize ) ); addMarkerToPcb( m_markerFactory.NewMarker( DRCE_NETCLASS_VIASIZE, msg ) ); ret = false; } if( nc->GetViaDrill() < g.m_ViasMinDrill ) { msg.Printf( _( "NETCLASS: \"%s\" has Via Drill:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetViaDrill() ), FmtVal( g.m_ViasMinDrill ) ); addMarkerToPcb( m_markerFactory.NewMarker( DRCE_NETCLASS_VIADRILLSIZE, msg ) ); ret = false; } if( nc->GetuViaDiameter() < g.m_MicroViasMinSize ) { msg.Printf( _( "NETCLASS: \"%s\" has uVia Dia:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetuViaDiameter() ), FmtVal( g.m_MicroViasMinSize ) ); addMarkerToPcb( m_markerFactory.NewMarker( DRCE_NETCLASS_uVIASIZE, msg ) ); ret = false; } if( nc->GetuViaDrill() < g.m_MicroViasMinDrill ) { msg.Printf( _( "NETCLASS: \"%s\" has uVia Drill:%s which is less than global:%s" ), GetChars( nc->GetName() ), FmtVal( nc->GetuViaDrill() ), FmtVal( g.m_MicroViasMinDrill ) ); addMarkerToPcb( m_markerFactory.NewMarker( DRCE_NETCLASS_uVIADRILLSIZE, msg ) ); ret = false; } return ret; } bool DRC::testNetClasses() { bool ret = true; NETCLASSES& netclasses = m_pcb->GetDesignSettings().m_NetClasses; wxString msg; // construct this only once here, not in a loop, since somewhat expensive. if( !doNetClass( netclasses.GetDefault(), msg ) ) ret = false; for( NETCLASSES::const_iterator i = netclasses.begin(); i != netclasses.end(); ++i ) { NETCLASSPTR nc = i->second; if( !doNetClass( nc, msg ) ) ret = false; } return ret; } void DRC::testPad2Pad() { std::vector sortedPads; m_pcb->GetSortedPadListByXthenYCoord( sortedPads ); if( sortedPads.empty() ) return; // find the max size of the pads (used to stop the test) int max_size = 0; for( D_PAD* pad : sortedPads ) { // GetBoundingRadius() is the radius of the minimum sized circle fully containing the pad int radius = pad->GetBoundingRadius(); if( radius > max_size ) max_size = radius; } // Upper limit of pad list (limit not included) D_PAD** listEnd = &sortedPads[0] + sortedPads.size(); // Test the pads for( auto& pad : sortedPads ) { int x_limit = pad->GetClearance() + pad->GetBoundingRadius() + pad->GetPosition().x; if( !doPadToPadsDrc( pad, &pad, listEnd, max_size + x_limit ) ) { wxASSERT( m_currentMarker ); addMarkerToPcb ( m_currentMarker ); m_currentMarker = nullptr; } } } void DRC::testDrilledHoles() { int holeToHoleMin = m_pcb->GetDesignSettings().m_HoleToHoleMin; if( holeToHoleMin == 0 ) // No min setting turns testing off. return; // Test drilled hole clearances to minimize drill bit breakage. // // Notes: slots are milled, so we're only concerned with circular holes // microvias are laser-drilled, so we're only concerned with standard vias struct DRILLED_HOLE { wxPoint m_location; int m_drillRadius; BOARD_ITEM* m_owner; }; std::vector holes; DRILLED_HOLE hole; for( MODULE* mod : m_pcb->Modules() ) { for( D_PAD* pad : mod->Pads( ) ) { if( pad->GetDrillSize().x && pad->GetDrillShape() == PAD_DRILL_SHAPE_CIRCLE ) { hole.m_location = pad->GetPosition(); hole.m_drillRadius = pad->GetDrillSize().x / 2; hole.m_owner = pad; holes.push_back( hole ); } } } for( TRACK* track : m_pcb->Tracks() ) { VIA* via = dynamic_cast( track ); if( via && via->GetViaType() == VIATYPE::THROUGH ) { hole.m_location = via->GetPosition(); hole.m_drillRadius = via->GetDrillValue() / 2; hole.m_owner = via; holes.push_back( hole ); } } for( size_t ii = 0; ii < holes.size(); ++ii ) { const DRILLED_HOLE& refHole = holes[ ii ]; for( size_t jj = ii + 1; jj < holes.size(); ++jj ) { const DRILLED_HOLE& checkHole = holes[ jj ]; // Holes with identical locations are allowable if( checkHole.m_location == refHole.m_location ) continue; if( KiROUND( GetLineLength( checkHole.m_location, refHole.m_location ) ) < checkHole.m_drillRadius + refHole.m_drillRadius + holeToHoleMin ) { addMarkerToPcb( new MARKER_PCB( m_pcbEditorFrame->GetUserUnits(), DRCE_DRILLED_HOLES_TOO_CLOSE, refHole.m_location, refHole.m_owner, refHole.m_location, checkHole.m_owner, checkHole.m_location ) ); } } } } void DRC::testTracks( wxWindow *aActiveWindow, bool aShowProgressBar ) { wxProgressDialog * progressDialog = NULL; const int delta = 500; // This is the number of tests between 2 calls to the // progress bar int count = m_pcb->Tracks().size(); int deltamax = count/delta; if( aShowProgressBar && deltamax > 3 ) { // Do not use wxPD_APP_MODAL style here: it is not necessary and create issues // on OSX progressDialog = new wxProgressDialog( _( "Track clearances" ), wxEmptyString, deltamax, aActiveWindow, wxPD_AUTO_HIDE | wxPD_CAN_ABORT | wxPD_ELAPSED_TIME ); progressDialog->Update( 0, wxEmptyString ); } int ii = 0; count = 0; for( auto seg_it = m_pcb->Tracks().begin(); seg_it != m_pcb->Tracks().end(); seg_it++ ) { if( ii++ > delta ) { ii = 0; count++; if( progressDialog ) { if( !progressDialog->Update( count, wxEmptyString ) ) break; // Aborted by user #ifdef __WXMAC__ // Work around a dialog z-order issue on OS X if( count == deltamax ) aActiveWindow->Raise(); #endif } } // Test new segment against tracks and pads, optionally against copper zones if( !doTrackDrc( *seg_it, seg_it + 1, m_pcb->Tracks().end(), m_doZonesTest ) ) { if( m_currentMarker ) { addMarkerToPcb ( m_currentMarker ); m_currentMarker = nullptr; } } } if( progressDialog ) progressDialog->Destroy(); } void DRC::testUnconnected() { for( DRC_ITEM* unconnectedItem : m_unconnected ) delete unconnectedItem; m_unconnected.clear(); auto connectivity = m_pcb->GetConnectivity(); connectivity->Clear(); connectivity->Build( m_pcb ); // just in case. This really needs to be reliable. connectivity->RecalculateRatsnest(); std::vector edges; connectivity->GetUnconnectedEdges( edges ); for( const auto& edge : edges ) { auto src = edge.GetSourcePos(); auto dst = edge.GetTargetPos(); m_unconnected.emplace_back( new DRC_ITEM( m_pcbEditorFrame->GetUserUnits(), DRCE_UNCONNECTED_ITEMS, edge.GetSourceNode()->Parent(), wxPoint( src.x, src.y ), edge.GetTargetNode()->Parent(), wxPoint( dst.x, dst.y ) ) ); } } void DRC::testZones() { // Test copper areas for valid netcodes // if a netcode is < 0 the netname was not found when reading a netlist // if a netcode is == 0 the netname is void, and the zone is not connected. // This is allowed, but i am not sure this is a good idea // // In recent Pcbnew versions, the netcode is always >= 0, but an internal net name // is stored, and initialized from the file or the zone properties editor. // if it differs from the net name from net code, there is a DRC issue for( int ii = 0; ii < m_pcb->GetAreaCount(); ii++ ) { ZONE_CONTAINER* zone = m_pcb->GetArea( ii ); if( !zone->IsOnCopperLayer() ) continue; int netcode = zone->GetNetCode(); // a netcode < 0 or > 0 and no pad in net is a error or strange // perhaps a "dead" net, which happens when all pads in this net were removed // Remark: a netcode < 0 should not happen (this is more a bug somewhere) int pads_in_net = ( netcode > 0 ) ? m_pcb->GetConnectivity()->GetPadCount( netcode ) : 1; if( ( netcode < 0 ) || pads_in_net == 0 ) { wxPoint markerPos = zone->GetPosition(); addMarkerToPcb( m_markerFactory.NewMarker( markerPos, zone, DRCE_SUSPICIOUS_NET_FOR_ZONE_OUTLINE ) ); } } // Test copper areas outlines, and create markers when needed TestZoneToZoneOutline( NULL, true ); } void DRC::testKeepoutAreas() { // Get a list of all zones to inspect, from both board and footprints std::list areasToInspect = m_pcb->GetZoneList( true ); // Test keepout areas for vias, tracks and pads inside keepout areas for( ZONE_CONTAINER* area : areasToInspect ) { if( !area->GetIsKeepout() ) continue; for( auto segm : m_pcb->Tracks() ) { if( segm->Type() == PCB_TRACE_T ) { if( !area->GetDoNotAllowTracks() ) continue; // Ignore if the keepout zone is not on the same layer if( !area->IsOnLayer( segm->GetLayer() ) ) continue; SEG trackSeg( segm->GetStart(), segm->GetEnd() ); if( area->Outline()->Distance( trackSeg, segm->GetWidth() ) == 0 ) addMarkerToPcb( m_markerFactory.NewMarker( segm, area, DRCE_TRACK_INSIDE_KEEPOUT ) ); } else if( segm->Type() == PCB_VIA_T ) { if( ! area->GetDoNotAllowVias() ) continue; auto viaLayers = segm->GetLayerSet(); if( !area->CommonLayerExists( viaLayers ) ) continue; if( area->Outline()->Distance( segm->GetPosition() ) < segm->GetWidth()/2 ) addMarkerToPcb( m_markerFactory.NewMarker( segm, area, DRCE_VIA_INSIDE_KEEPOUT ) ); } } // Test pads: TODO } } void DRC::testCopperTextAndGraphics() { // Test copper items for clearance violations with vias, tracks and pads for( BOARD_ITEM* brdItem : m_pcb->Drawings() ) { if( IsCopperLayer( brdItem->GetLayer() ) ) { if( brdItem->Type() == PCB_TEXT_T ) testCopperTextItem( brdItem ); else if( brdItem->Type() == PCB_LINE_T ) testCopperDrawItem( static_cast( brdItem )); } } for( MODULE* module : m_pcb->Modules() ) { TEXTE_MODULE& ref = module->Reference(); TEXTE_MODULE& val = module->Value(); if( ref.IsVisible() && IsCopperLayer( ref.GetLayer() ) ) testCopperTextItem( &ref ); if( val.IsVisible() && IsCopperLayer( val.GetLayer() ) ) testCopperTextItem( &val ); if( module->IsNetTie() ) continue; for( auto item : module->GraphicalItems() ) { if( IsCopperLayer( item->GetLayer() ) ) { if( item->Type() == PCB_MODULE_TEXT_T && ( (TEXTE_MODULE*) item )->IsVisible() ) testCopperTextItem( item ); else if( item->Type() == PCB_MODULE_EDGE_T ) testCopperDrawItem( static_cast( item )); } } } } void DRC::testCopperDrawItem( DRAWSEGMENT* aItem ) { std::vector itemShape; int itemWidth = aItem->GetWidth(); switch( aItem->GetShape() ) { case S_ARC: { SHAPE_ARC arc( aItem->GetCenter(), aItem->GetArcStart(), (double) aItem->GetAngle() / 10.0 ); auto l = arc.ConvertToPolyline(); for( int i = 0; i < l.SegmentCount(); i++ ) itemShape.push_back( l.Segment( i ) ); break; } case S_SEGMENT: itemShape.emplace_back( SEG( aItem->GetStart(), aItem->GetEnd() ) ); break; case S_CIRCLE: { // SHAPE_CIRCLE has no ConvertToPolyline() method, so use a 360.0 SHAPE_ARC SHAPE_ARC circle( aItem->GetCenter(), aItem->GetEnd(), 360.0 ); auto l = circle.ConvertToPolyline(); for( int i = 0; i < l.SegmentCount(); i++ ) itemShape.push_back( l.Segment( i ) ); break; } case S_CURVE: { aItem->RebuildBezierToSegmentsPointsList( aItem->GetWidth() ); wxPoint start_pt = aItem->GetBezierPoints()[0]; for( unsigned int jj = 1; jj < aItem->GetBezierPoints().size(); jj++ ) { wxPoint end_pt = aItem->GetBezierPoints()[jj]; itemShape.emplace_back( SEG( start_pt, end_pt ) ); start_pt = end_pt; } break; } default: break; } // Test tracks and vias for( auto track : m_pcb->Tracks() ) { if( !track->IsOnLayer( aItem->GetLayer() ) ) continue; int minDist = ( track->GetWidth() + itemWidth ) / 2 + track->GetClearance( NULL ); SEG trackAsSeg( track->GetStart(), track->GetEnd() ); for( const auto& itemSeg : itemShape ) { if( trackAsSeg.Distance( itemSeg ) < minDist ) { if( track->Type() == PCB_VIA_T ) addMarkerToPcb( m_markerFactory.NewMarker( track, aItem, itemSeg, DRCE_VIA_NEAR_COPPER ) ); else addMarkerToPcb( m_markerFactory.NewMarker( track, aItem, itemSeg, DRCE_TRACK_NEAR_COPPER ) ); break; } } } // Test pads for( auto pad : m_pcb->GetPads() ) { if( !pad->IsOnLayer( aItem->GetLayer() ) ) continue; // Graphic items are allowed to act as net-ties within their own footprint if( pad->GetParent() == aItem->GetParent() ) continue; SHAPE_POLY_SET padOutline; pad->TransformShapeWithClearanceToPolygon( padOutline, pad->GetClearance( NULL ) ); for( const auto& itemSeg : itemShape ) { if( padOutline.Distance( itemSeg, itemWidth ) == 0 ) { addMarkerToPcb( m_markerFactory.NewMarker( pad, aItem, DRCE_PAD_NEAR_COPPER ) ); break; } } } } void DRC::testCopperTextItem( BOARD_ITEM* aTextItem ) { EDA_TEXT* text = dynamic_cast( aTextItem ); if( text == nullptr ) return; std::vector textShape; // a buffer to store the text shape (set of segments) int textWidth = text->GetThickness(); // So far the bounding box makes up the text-area text->TransformTextShapeToSegmentList( textShape ); if( textShape.size() == 0 ) // Should not happen (empty text?) return; EDA_RECT bbox = text->GetTextBox(); SHAPE_RECT rect_area( bbox.GetX(), bbox.GetY(), bbox.GetWidth(), bbox.GetHeight() ); // Test tracks and vias for( auto track : m_pcb->Tracks() ) { if( !track->IsOnLayer( aTextItem->GetLayer() ) ) continue; int minDist = ( track->GetWidth() + textWidth ) / 2 + track->GetClearance( NULL ); SEG trackAsSeg( track->GetStart(), track->GetEnd() ); // Fast test to detect a trach segment candidate inside the text bounding box if( !rect_area.Collide( trackAsSeg, minDist ) ) continue; for( unsigned jj = 0; jj < textShape.size(); jj += 2 ) { SEG textSeg( textShape[jj], textShape[jj+1] ); if( trackAsSeg.Distance( textSeg ) < minDist ) { if( track->Type() == PCB_VIA_T ) addMarkerToPcb( m_markerFactory.NewMarker( track, aTextItem, textSeg, DRCE_VIA_NEAR_COPPER ) ); else addMarkerToPcb( m_markerFactory.NewMarker( track, aTextItem, textSeg, DRCE_TRACK_NEAR_COPPER ) ); break; } } } // Test pads for( auto pad : m_pcb->GetPads() ) { if( !pad->IsOnLayer( aTextItem->GetLayer() ) ) continue; // Fast test to detect a pad candidate inside the text bounding box // Finer test (time consumming) is made only for pads near the text. int bb_radius = pad->GetBoundingRadius() + pad->GetClearance( NULL ); VECTOR2I shape_pos( pad->ShapePos() ); if( !rect_area.Collide( SEG( shape_pos, shape_pos ), bb_radius ) ) continue; SHAPE_POLY_SET padOutline; int minDist = textWidth/2 + pad->GetClearance( NULL ); pad->TransformShapeWithClearanceToPolygon( padOutline, 0 ); for( unsigned jj = 0; jj < textShape.size(); jj += 2 ) { SEG textSeg( textShape[jj], textShape[jj+1] ); if( padOutline.Distance( textSeg, 0 ) <= minDist ) { addMarkerToPcb( m_markerFactory.NewMarker( pad, aTextItem, DRCE_PAD_NEAR_COPPER ) ); break; } } } } void DRC::testOutline() { wxPoint error_loc( m_pcb->GetBoardEdgesBoundingBox().GetPosition() ); m_board_outlines.RemoveAllContours(); if( !m_pcb->GetBoardPolygonOutlines( m_board_outlines, nullptr, &error_loc ) ) { addMarkerToPcb( m_markerFactory.NewMarker( error_loc, m_pcb, DRCE_INVALID_OUTLINE ) ); return; } } void DRC::testDisabledLayers() { BOARD* board = m_pcbEditorFrame->GetBoard(); wxCHECK( board, /*void*/ ); LSET disabledLayers = board->GetEnabledLayers().flip(); // Perform the test only for copper layers disabledLayers &= LSET::AllCuMask(); auto createMarker = [&]( BOARD_ITEM* aItem ) { addMarkerToPcb( m_markerFactory.NewMarker( aItem->GetPosition(), aItem, DRCE_DISABLED_LAYER_ITEM ) ); }; for( auto track : board->Tracks() ) { if( disabledLayers.test( track->GetLayer() ) ) createMarker( track ); } for( auto module : board->Modules() ) { module->RunOnChildren( [&]( BOARD_ITEM* aItem ) { if( disabledLayers.test( aItem->GetLayer() ) ) createMarker( aItem ); } ); } for( auto zone : board->Zones() ) { if( disabledLayers.test( zone->GetLayer() ) ) createMarker( zone ); } } bool DRC::doPadToPadsDrc( D_PAD* aRefPad, D_PAD** aStart, D_PAD** aEnd, int x_limit ) { const static LSET all_cu = LSET::AllCuMask(); LSET layerMask = aRefPad->GetLayerSet() & all_cu; /* used to test DRC pad to holes: this dummy pad has the size and shape of the hole * to test pad to pad hole DRC, using the pad to pad DRC test function. * Therefore, this dummy pad is a circle or an oval. * A pad must have a parent because some functions expect a non null parent * to find the parent board, and some other data */ MODULE dummymodule( m_pcb ); // Creates a dummy parent D_PAD dummypad( &dummymodule ); // Ensure the hole is on all copper layers dummypad.SetLayerSet( all_cu | dummypad.GetLayerSet() ); // Use the minimal local clearance value for the dummy pad. // The clearance of the active pad will be used as minimum distance to a hole // (a value = 0 means use netclass value) dummypad.SetLocalClearance( 1 ); for( D_PAD** pad_list = aStart; pad_listGetPosition().x > x_limit // because the list is sorted by X values if( pad->GetPosition().x > x_limit ) break; // No problem if pads which are on copper layers are on different copper layers, // (pads can be only on a technical layer, to build complex pads) // but their hole (if any ) can create DRC error because they are on all // copper layers, so we test them if( ( pad->GetLayerSet() & layerMask ) == 0 && ( pad->GetLayerSet() & all_cu ) != 0 && ( aRefPad->GetLayerSet() & all_cu ) != 0 ) { // if holes are in the same location and have the same size and shape, // this can be accepted if( pad->GetPosition() == aRefPad->GetPosition() && pad->GetDrillSize() == aRefPad->GetDrillSize() && pad->GetDrillShape() == aRefPad->GetDrillShape() ) { if( aRefPad->GetDrillShape() == PAD_DRILL_SHAPE_CIRCLE ) continue; // for oval holes: must also have the same orientation if( pad->GetOrientation() == aRefPad->GetOrientation() ) continue; } /* Here, we must test clearance between holes and pads * dummy pad size and shape is adjusted to pad drill size and shape */ if( pad->GetDrillSize().x ) { // pad under testing has a hole, test this hole against pad reference dummypad.SetPosition( pad->GetPosition() ); dummypad.SetSize( pad->GetDrillSize() ); dummypad.SetShape( pad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG ? PAD_SHAPE_OVAL : PAD_SHAPE_CIRCLE ); dummypad.SetOrientation( pad->GetOrientation() ); if( !checkClearancePadToPad( aRefPad, &dummypad ) ) { // here we have a drc error on pad! m_currentMarker = m_markerFactory.NewMarker( pad, aRefPad, DRCE_HOLE_NEAR_PAD ); return false; } } if( aRefPad->GetDrillSize().x ) // pad reference has a hole { dummypad.SetPosition( aRefPad->GetPosition() ); dummypad.SetSize( aRefPad->GetDrillSize() ); dummypad.SetShape( aRefPad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG ? PAD_SHAPE_OVAL : PAD_SHAPE_CIRCLE ); dummypad.SetOrientation( aRefPad->GetOrientation() ); if( !checkClearancePadToPad( pad, &dummypad ) ) { // here we have a drc error on aRefPad! m_currentMarker = m_markerFactory.NewMarker( aRefPad, pad, DRCE_HOLE_NEAR_PAD ); return false; } } continue; } // The pad must be in a net (i.e pt_pad->GetNet() != 0 ), // But no problem if pads have the same netcode (same net) if( pad->GetNetCode() && ( aRefPad->GetNetCode() == pad->GetNetCode() ) ) continue; // if pads are from the same footprint if( pad->GetParent() == aRefPad->GetParent() ) { // and have the same pad number ( equivalent pads ) // one can argue that this 2nd test is not necessary, that any // two pads from a single module are acceptable. This 2nd test // should eventually be a configuration option. if( pad->PadNameEqual( aRefPad ) ) continue; } // if either pad has no drill and is only on technical layers, not a clearance violation if( ( ( pad->GetLayerSet() & layerMask ) == 0 && !pad->GetDrillSize().x ) || ( ( aRefPad->GetLayerSet() & layerMask ) == 0 && !aRefPad->GetDrillSize().x ) ) { continue; } if( !checkClearancePadToPad( aRefPad, pad ) ) { // here we have a drc error! m_currentMarker = m_markerFactory.NewMarker( aRefPad, pad, DRCE_PAD_NEAR_PAD1 ); return false; } } return true; } void DRC::doOverlappingCourtyardsDrc() { DRC_COURTYARD_OVERLAP drc_overlap( m_markerFactory, [&]( MARKER_PCB* aMarker ) { addMarkerToPcb( aMarker ); } ); drc_overlap.RunDRC( *m_pcb ); } void DRC::TestFootprints( NETLIST& aNetlist, BOARD* aPCB, EDA_UNITS aUnits, DRC_LIST& aDRCList ) { // Search for duplicate footprints on the board auto comp = []( const MODULE* x, const MODULE* y ) { return x->GetReference().CmpNoCase( y->GetReference() ) < 0; }; auto mods = std::set( comp ); for( auto mod : aPCB->Modules() ) { auto ins = mods.insert( mod ); if( !ins.second ) { aDRCList.emplace_back( new DRC_ITEM( aUnits, DRCE_DUPLICATE_FOOTPRINT, mod, mod->GetPosition(), *ins.first, ( *ins.first )->GetPosition() ) ); } } // Search for component footprints in the netlist but not on the board. for( unsigned ii = 0; ii < aNetlist.GetCount(); ii++ ) { COMPONENT* component = aNetlist.GetComponent( ii ); auto module = aPCB->FindModuleByReference( component->GetReference() ); if( module == NULL ) { wxString msg = wxString::Format( wxT( "%s (%s)" ), component->GetReference(), component->GetValue() ); aDRCList.emplace_back( new DRC_ITEM( DRCE_MISSING_FOOTPRINT, msg ) ); } } // Search for component footprints found on board but not in netlist. for( auto module : mods ) { COMPONENT* component = aNetlist.GetComponentByReference( module->GetReference() ); if( component == NULL ) { aDRCList.emplace_back( new DRC_ITEM( aUnits, DRCE_EXTRA_FOOTPRINT, module, module->GetPosition(), nullptr, wxPoint() ) ); } } } void DRC::setTransitions() { Go( &DRC::ShowDRCDialog, PCB_ACTIONS::runDRC.MakeEvent() ); }