/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2012 CERN * Copyright (C) 1992-2011 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 // LEGACY_BOARD_FILE_VERSION #include #include <3d_struct.h> #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define FMTIU BOARD_ITEM::FormatInternalUnits void PCB_IO::Save( const wxString& aFileName, BOARD* aBoard, PROPERTIES* aProperties ) { LOCALE_IO toggle; // toggles on, then off, the C locale. m_board = aBoard; wxFileOutputStream fs( aFileName ); if( !fs.IsOk() ) { m_error.Printf( _( "cannot open file '%s'" ), aFileName.GetData() ); THROW_IO_ERROR( m_error ); } STREAM_OUTPUTFORMATTER formatter( fs ); m_out = &formatter; // no ownership m_out->Print( 0, "(kicad_pcb (version %d) (host pcbnew %s)\n", SEXPR_BOARD_FILE_VERSION, formatter.Quotew( GetBuildVersion() ).c_str() ); Format( aBoard, 1 ); m_out->Print( 0, ")\n" ); } void PCB_IO::Format( BOARD_ITEM* aItem, int aNestLevel ) const throw( IO_ERROR ) { switch( aItem->Type() ) { case PCB_T: format( (BOARD*) aItem, aNestLevel ); break; case PCB_DIMENSION_T: format( ( DIMENSION*) aItem, aNestLevel ); break; case PCB_LINE_T: format( (DRAWSEGMENT*) aItem, aNestLevel ); break; case PCB_MODULE_EDGE_T: format( (EDGE_MODULE*) aItem, aNestLevel ); break; case PCB_TARGET_T: format( (PCB_TARGET*) aItem, aNestLevel ); break; case PCB_MODULE_T: format( (MODULE*) aItem, aNestLevel ); break; case PCB_PAD_T: format( (D_PAD*) aItem, aNestLevel ); break; case PCB_TEXT_T: format( (TEXTE_PCB*) aItem, aNestLevel ); break; case PCB_MODULE_TEXT_T: format( (TEXTE_MODULE*) aItem, aNestLevel ); break; case PCB_TRACE_T: case PCB_VIA_T: format( (TRACK*) aItem, aNestLevel ); break; case PCB_ZONE_AREA_T: format( (ZONE_CONTAINER*) aItem, aNestLevel ); break; default: wxFAIL_MSG( wxT( "Cannot format item " ) + aItem->GetClass() ); } } void PCB_IO::formatLayer( const BOARD_ITEM* aItem ) const { m_out->Print( 0, " (layer %s)", m_out->Quotew( aItem->GetLayerName() ).c_str() ); } void PCB_IO::format( BOARD* aBoard, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( 0, "\n" ); m_out->Print( aNestLevel, "(general\n" ); m_out->Print( aNestLevel+1, "(links %d)\n", aBoard->GetRatsnestsCount() ); m_out->Print( aNestLevel+1, "(no_connects %d)\n", aBoard->m_NbNoconnect ); // Write Bounding box info m_out->Print( aNestLevel+1, "(area %s %s %s %s)\n", FMTIU( aBoard->GetBoundingBox().GetX() ).c_str(), FMTIU( aBoard->GetBoundingBox().GetY() ).c_str(), FMTIU( aBoard->GetBoundingBox().GetRight() ).c_str(), FMTIU( aBoard->GetBoundingBox().GetBottom() ).c_str() ); m_out->Print( aNestLevel+1, "(thickness %s)\n", FMTIU( aBoard->GetDesignSettings().GetBoardThickness() ).c_str() ); m_out->Print( aNestLevel+1, "(drawings %d)\n", aBoard->m_Drawings.GetCount() ); m_out->Print( aNestLevel+1, "(tracks %d)\n", aBoard->GetNumSegmTrack() ); m_out->Print( aNestLevel+1, "(zones %d)\n", aBoard->GetNumSegmZone() ); m_out->Print( aNestLevel+1, "(modules %d)\n", aBoard->m_Modules.GetCount() ); m_out->Print( aNestLevel+1, "(nets %d)\n", aBoard->GetNetCount() ); m_out->Print( aNestLevel, ")\n\n" ); aBoard->GetPageSettings().Format( m_out, aNestLevel, m_ctl ); aBoard->GetTitleBlock().Format( m_out, aNestLevel, m_ctl ); // Layers. m_out->Print( aNestLevel, "(layers\n" ); unsigned mask = LAYER_FRONT; unsigned layer = LAYER_N_FRONT; // Save only the used copper layers from front to back. while( mask != 0 ) { if( mask & aBoard->GetEnabledLayers() ) { m_out->Print( aNestLevel+1, "(%d %s %s", layer, m_out->Quotew( aBoard->GetLayerName( layer ) ).c_str(), LAYER::ShowType( aBoard->GetLayerType( layer ) ) ); if( !( aBoard->GetVisibleLayers() & mask ) ) m_out->Print( 0, " hide" ); m_out->Print( 0, ")\n" ); } mask >>= 1; layer--; } mask = ADHESIVE_LAYER_BACK; layer = ADHESIVE_N_BACK; // Save used non-copper layers in the order they are defined. while( layer < LAYER_COUNT ) { if( mask & aBoard->GetEnabledLayers() ) { m_out->Print( aNestLevel+1, "(%d %s user", layer, m_out->Quotew( aBoard->GetLayerName( layer ) ).c_str() ); if( !( aBoard->GetVisibleLayers() & mask ) ) m_out->Print( 0, " hide" ); m_out->Print( 0, ")\n" ); } mask <<= 1; layer++; } m_out->Print( aNestLevel, ")\n\n" ); // Setup m_out->Print( aNestLevel, "(setup\n" ); // Save current default track width, for compatibility with older Pcbnew version; m_out->Print( aNestLevel+1, "(last_trace_width %s)\n", FMTIU( aBoard->GetCurrentTrackWidth() ).c_str() ); // Save custom tracks width list (the first is not saved here: this is the netclass value for( unsigned ii = 1; ii < aBoard->m_TrackWidthList.size(); ii++ ) m_out->Print( aNestLevel+1, "(user_trace_width %s)\n", FMTIU( aBoard->m_TrackWidthList[ii] ).c_str() ); m_out->Print( aNestLevel+1, "(trace_clearance %s)\n", FMTIU( aBoard->m_NetClasses.GetDefault()->GetClearance() ).c_str() ); // ZONE_SETTINGS m_out->Print( aNestLevel+1, "(zone_clearance %s)\n", FMTIU( aBoard->GetZoneSettings().m_ZoneClearance ).c_str() ); m_out->Print( aNestLevel+1, "(zone_45_only %s)\n", aBoard->GetZoneSettings().m_Zone_45_Only ? "yes" : "no" ); m_out->Print( aNestLevel+1, "(trace_min %s)\n", FMTIU( aBoard->GetDesignSettings().m_TrackMinWidth ).c_str() ); m_out->Print( aNestLevel+1, "(segment_width %s)\n", FMTIU( aBoard->GetDesignSettings().m_DrawSegmentWidth ).c_str() ); m_out->Print( aNestLevel+1, "(edge_width %s)\n", FMTIU( aBoard->GetDesignSettings().m_EdgeSegmentWidth ).c_str() ); // Save current default via size, for compatibility with older Pcbnew version; m_out->Print( aNestLevel+1, "(via_size %s)\n", FMTIU( aBoard->m_NetClasses.GetDefault()->GetViaDiameter() ).c_str() ); m_out->Print( aNestLevel+1, "(via_drill %s)\n", FMTIU( aBoard->m_NetClasses.GetDefault()->GetViaDrill() ).c_str() ); m_out->Print( aNestLevel+1, "(via_min_size %s)\n", FMTIU( aBoard->GetDesignSettings().m_ViasMinSize ).c_str() ); m_out->Print( aNestLevel+1, "(via_min_drill %s)\n", FMTIU( aBoard->GetDesignSettings().m_ViasMinDrill ).c_str() ); // Save custom vias diameters list (the first is not saved here: this is // the netclass value for( unsigned ii = 1; ii < aBoard->m_ViasDimensionsList.size(); ii++ ) m_out->Print( aNestLevel+1, "(user_via %s %s)\n", FMTIU( aBoard->m_ViasDimensionsList[ii].m_Diameter ).c_str(), FMTIU( aBoard->m_ViasDimensionsList[ii].m_Drill ).c_str() ); // for old versions compatibility: m_out->Print( aNestLevel+1, "(uvia_size %s)\n", FMTIU( aBoard->m_NetClasses.GetDefault()->GetuViaDiameter() ).c_str() ); m_out->Print( aNestLevel+1, "(uvia_drill %s)\n", FMTIU( aBoard->m_NetClasses.GetDefault()->GetuViaDrill() ).c_str() ); m_out->Print( aNestLevel+1, "(uvias_allowed %s)\n", ( aBoard->GetDesignSettings().m_MicroViasAllowed ) ? "yes" : "no" ); m_out->Print( aNestLevel+1, "(uvia_min_size %s)\n", FMTIU( aBoard->GetDesignSettings().m_MicroViasMinSize ).c_str() ); m_out->Print( aNestLevel+1, "(uvia_min_drill %s)\n", FMTIU( aBoard->GetDesignSettings().m_MicroViasMinDrill ).c_str() ); m_out->Print( aNestLevel+1, "(pcb_text_width %s)\n", FMTIU( aBoard->GetDesignSettings().m_PcbTextWidth ).c_str() ); m_out->Print( aNestLevel+1, "(pcb_text_size %s %s)\n", FMTIU( aBoard->GetDesignSettings().m_PcbTextSize.x ).c_str(), FMTIU( aBoard->GetDesignSettings().m_PcbTextSize.y ).c_str() ); m_out->Print( aNestLevel+1, "(mod_edge_width %s)\n", FMTIU( aBoard->GetDesignSettings().m_ModuleSegmentWidth ).c_str() ); m_out->Print( aNestLevel+1, "(mod_text_size %s %s)\n", FMTIU( aBoard->GetDesignSettings().m_ModuleTextSize.x ).c_str(), FMTIU( aBoard->GetDesignSettings().m_ModuleTextSize.y ).c_str() ); m_out->Print( aNestLevel+1, "(mod_text_width %s)\n", FMTIU( aBoard->GetDesignSettings().m_ModuleTextWidth ).c_str() ); m_out->Print( aNestLevel+1, "(pad_size %s %s)\n", FMTIU( aBoard->GetDesignSettings().m_Pad_Master.GetSize().x ).c_str(), FMTIU( aBoard->GetDesignSettings().m_Pad_Master.GetSize().y ).c_str() ); m_out->Print( aNestLevel+1, "(pad_drill %s)\n", FMTIU( aBoard->GetDesignSettings().m_Pad_Master.GetDrillSize().x ).c_str() ); m_out->Print( aNestLevel+1, "(pad_to_mask_clearance %s)\n", FMTIU( aBoard->GetDesignSettings().m_SolderMaskMargin ).c_str() ); if( aBoard->GetDesignSettings().m_SolderPasteMargin != 0 ) m_out->Print( aNestLevel+1, "(pad_to_paste_clearance %s)\n", FMTIU( aBoard->GetDesignSettings().m_SolderPasteMargin ).c_str() ); if( aBoard->GetDesignSettings().m_SolderPasteMarginRatio != 0 ) m_out->Print( aNestLevel+1, "(pad_to_paste_clearance_ratio %g)\n", aBoard->GetDesignSettings().m_SolderPasteMarginRatio ); m_out->Print( aNestLevel+1, "(aux_axis_origin %s %s)\n", FMTIU( aBoard->GetOriginAxisPosition().x ).c_str(), FMTIU( aBoard->GetOriginAxisPosition().y ).c_str() ); m_out->Print( aNestLevel+1, "(visible_elements %X)\n", aBoard->GetDesignSettings().GetVisibleElements() ); aBoard->GetPlotOptions().Format( m_out, aNestLevel+1 ); m_out->Print( aNestLevel, ")\n\n" ); int netcount = aBoard->GetNetCount(); for( int i = 0; i < netcount; ++i ) m_out->Print( aNestLevel, "(net %d %s)\n", aBoard->FindNet( i )->GetNet(), m_out->Quotew( aBoard->FindNet( i )->GetNetname() ).c_str() ); m_out->Print( 0, "\n" ); // Save the default net class first. aBoard->m_NetClasses.GetDefault()->Format( m_out, aNestLevel, m_ctl ); // Save the rest of the net classes alphabetically. for( NETCLASSES::const_iterator it = aBoard->m_NetClasses.begin(); it != aBoard->m_NetClasses.end(); ++it ) { NETCLASS* netclass = it->second; netclass->Format( m_out, aNestLevel, m_ctl ); } // Save the modules. for( MODULE* module = aBoard->m_Modules; module; module = (MODULE*) module->Next() ) { Format( module, aNestLevel ); m_out->Print( 0, "\n" ); } // Save the graphical items on the board (not owned by a module) for( BOARD_ITEM* item = aBoard->m_Drawings; item; item = item->Next() ) Format( item, aNestLevel ); m_out->Print( 0, "\n" ); m_out->Print( 0, "\n" ); // Do not save MARKER_PCBs, they can be regenerated easily. // Save the tracks and vias. for( TRACK* track = aBoard->m_Track; track; track = track->Next() ) Format( track, aNestLevel ); /// @todo Add warning here that the old segment filed zones are no longer supported and /// will not be saved. m_out->Print( 0, "\n" ); // Save the polygon (which are the newer technology) zones. for( int i=0; i < aBoard->GetAreaCount(); ++i ) Format( aBoard->GetArea( i ), aNestLevel ); } void PCB_IO::format( DIMENSION* aDimension, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( aNestLevel, "(dimension %s (width %s)", FMT_IU( aDimension->m_Value ).c_str(), FMT_IU( aDimension->m_Width ).c_str() ); formatLayer( aDimension ); if( aDimension->GetTimeStamp() ) m_out->Print( 0, " (tstamp %lX)", aDimension->GetTimeStamp() ); m_out->Print( 0, "\n" ); Format( (TEXTE_PCB*) &aDimension->m_Text, aNestLevel+1 ); m_out->Print( aNestLevel+1, "(feature1 (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_featureLineDOx ).c_str(), FMT_IU( aDimension->m_featureLineDOy ).c_str(), FMT_IU( aDimension->m_featureLineDFx ).c_str(), FMT_IU( aDimension->m_featureLineDFy ).c_str() ); m_out->Print( aNestLevel+1, "(feature2 (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_featureLineGOx ).c_str(), FMT_IU( aDimension->m_featureLineGOy ).c_str(), FMT_IU( aDimension->m_featureLineGFx ).c_str(), FMT_IU( aDimension->m_featureLineGFy ).c_str() ); m_out->Print( aNestLevel+1, "(crossbar (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_crossBarOx ).c_str(), FMT_IU( aDimension->m_crossBarOy ).c_str(), FMT_IU( aDimension->m_crossBarFx ).c_str(), FMT_IU( aDimension->m_crossBarFy ).c_str() ); m_out->Print( aNestLevel+1, "(arrow1a (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_arrowD1Ox ).c_str(), FMT_IU( aDimension->m_arrowD1Oy ).c_str(), FMT_IU( aDimension->m_arrowD1Fx ).c_str(), FMT_IU( aDimension->m_arrowD1Fy ).c_str() ); m_out->Print( aNestLevel+1, "(arrow1b (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_arrowD2Ox ).c_str(), FMT_IU( aDimension->m_arrowD2Oy ).c_str(), FMT_IU( aDimension->m_arrowD2Fx ).c_str(), FMT_IU( aDimension->m_arrowD2Fy ).c_str() ); m_out->Print( aNestLevel+1, "(arrow2a (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_arrowG1Ox ).c_str(), FMT_IU( aDimension->m_arrowG1Oy ).c_str(), FMT_IU( aDimension->m_arrowG1Fx ).c_str(), FMT_IU( aDimension->m_arrowG1Fy ).c_str() ); m_out->Print( aNestLevel+1, "(arrow2b (pts (xy %s %s) (xy %s %s)))\n", FMT_IU( aDimension->m_arrowG2Ox ).c_str(), FMT_IU( aDimension->m_arrowG2Oy ).c_str(), FMT_IU( aDimension->m_arrowG2Fx ).c_str(), FMT_IU( aDimension->m_arrowG2Fy ).c_str() ); m_out->Print( aNestLevel, ")\n" ); } void PCB_IO::format( DRAWSEGMENT* aSegment, int aNestLevel ) const throw( IO_ERROR ) { unsigned i; switch( aSegment->GetShape() ) { case S_SEGMENT: // Line m_out->Print( aNestLevel, "(gr_line (start %s) (end %s)", FMT_IU( aSegment->GetStart() ).c_str(), FMT_IU( aSegment->GetEnd() ).c_str() ); if( aSegment->GetAngle() != 0.0 ) m_out->Print( 0, " (angle %s)", FMT_ANGLE( aSegment->GetAngle() ).c_str() ); break; case S_CIRCLE: // Circle m_out->Print( aNestLevel, "(gr_circle (center %s) (end %s)", FMT_IU( aSegment->GetStart() ).c_str(), FMT_IU( aSegment->GetEnd() ).c_str() ); break; case S_ARC: // Arc m_out->Print( aNestLevel, "(gr_arc (start %s) (end %s) (angle %s)", FMT_IU( aSegment->GetStart() ).c_str(), FMT_IU( aSegment->GetEnd() ).c_str(), FMT_ANGLE( aSegment->GetAngle() ).c_str() ); break; case S_POLYGON: // Polygon m_out->Print( aNestLevel, "(gr_poly (pts" ); for( i = 0; i < aSegment->GetPolyPoints().size(); ++i ) m_out->Print( 0, " (xy %s)", FMT_IU( aSegment->GetPolyPoints()[i] ).c_str() ); m_out->Print( 0, ")" ); break; case S_CURVE: // Bezier curve m_out->Print( aNestLevel, "(gr_curve (pts (xy %s) (xy %s) (xy %s) (xy %s))", FMT_IU( aSegment->GetStart() ).c_str(), FMT_IU( aSegment->GetBezControl1() ).c_str(), FMT_IU( aSegment->GetBezControl2() ).c_str(), FMT_IU( aSegment->GetEnd() ).c_str() ); break; default: wxFAIL_MSG( wxT( "Cannot format invalid DRAWSEGMENT type." ) ); }; formatLayer( aSegment ); if( aSegment->GetWidth() != 0 ) m_out->Print( 0, " (width %s)", FMT_IU( aSegment->GetWidth() ).c_str() ); if( aSegment->GetTimeStamp() ) m_out->Print( 0, " (tstamp %lX)", aSegment->GetTimeStamp() ); if( aSegment->GetStatus() ) m_out->Print( 0, " (status %X)", aSegment->GetStatus() ); m_out->Print( 0, ")\n" ); } void PCB_IO::format( EDGE_MODULE* aModuleDrawing, int aNestLevel ) const throw( IO_ERROR ) { switch( aModuleDrawing->GetShape() ) { case S_SEGMENT: // Line m_out->Print( aNestLevel, "(fp_line (start %s) (end %s)", FMT_IU( aModuleDrawing->GetStart0() ).c_str(), FMT_IU( aModuleDrawing->GetEnd0() ).c_str() ); break; case S_CIRCLE: // Circle m_out->Print( aNestLevel, "(fp_circle (center %s) (end %s)", FMT_IU( aModuleDrawing->GetStart0() ).c_str(), FMT_IU( aModuleDrawing->GetEnd0() ).c_str() ); break; case S_ARC: // Arc m_out->Print( aNestLevel, "(fp_arc (start %s) (end %s) (angle %s)", FMT_IU( aModuleDrawing->GetStart0() ).c_str(), FMT_IU( aModuleDrawing->GetEnd0() ).c_str(), FMT_ANGLE( aModuleDrawing->GetAngle() ).c_str() ); break; case S_POLYGON: // Polygon m_out->Print( aNestLevel, "(fp_poly (pts" ); for( unsigned i = 0; i < aModuleDrawing->GetPolyPoints().size(); ++i ) { int nestLevel = 0; if( i && !(i%4) ) // newline every 4(pts) { nestLevel = aNestLevel + 1; m_out->Print( 0, "\n" ); } m_out->Print( nestLevel, "%s(xy %s)", nestLevel ? "" : " ", FMT_IU( aModuleDrawing->GetPolyPoints()[i] ).c_str() ); } m_out->Print( 0, ")" ); break; case S_CURVE: // Bezier curve m_out->Print( aNestLevel, "(fp_curve (pts (xy %s) (xy %s) (xy %s) (xy %s))", FMT_IU( aModuleDrawing->GetStart0() ).c_str(), FMT_IU( aModuleDrawing->GetBezControl1() ).c_str(), FMT_IU( aModuleDrawing->GetBezControl2() ).c_str(), FMT_IU( aModuleDrawing->GetEnd0() ).c_str() ); break; default: wxFAIL_MSG( wxT( "Cannot format invalid DRAWSEGMENT type." ) ); }; formatLayer( aModuleDrawing ); if( aModuleDrawing->GetWidth() != 0 ) m_out->Print( 0, " (width %s)", FMT_IU( aModuleDrawing->GetWidth() ).c_str() ); if( aModuleDrawing->GetTimeStamp() ) m_out->Print( 0, " (tstamp %lX)", aModuleDrawing->GetTimeStamp() ); if( aModuleDrawing->GetStatus() ) m_out->Print( 0, " (status %X)", aModuleDrawing->GetStatus() ); m_out->Print( 0, ")\n" ); } void PCB_IO::format( PCB_TARGET* aTarget, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( aNestLevel, "(target %s (at %s) (size %s)", ( aTarget->GetShape() ) ? "x" : "plus", FMT_IU( aTarget->GetPosition() ).c_str(), FMT_IU( aTarget->GetSize() ).c_str() ); if( aTarget->GetWidth() != 0 ) m_out->Print( 0, " (width %s)", FMT_IU( aTarget->GetWidth() ).c_str() ); formatLayer( aTarget ); if( aTarget->GetTimeStamp() ) m_out->Print( 0, " (tstamp %lX)", aTarget->GetTimeStamp() ); m_out->Print( 0, ")\n" ); } void PCB_IO::format( MODULE* aModule, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( aNestLevel, "(module %s", m_out->Quotew( aModule->m_LibRef ).c_str() ); if( aModule->IsLocked() ) m_out->Print( aNestLevel, " locked" ); if( aModule->IsPlaced() ) m_out->Print( aNestLevel, " placed" ); formatLayer( aModule ); m_out->Print( 0, " (tedit %lX) (tstamp %lX)\n", aModule->GetLastEditTime(), aModule->GetTimeStamp() ); m_out->Print( aNestLevel+1, "(at %s", FMT_IU( aModule->m_Pos ).c_str() ); if( aModule->m_Orient != 0.0 ) m_out->Print( 0, " %s", FMT_ANGLE( aModule->m_Orient ).c_str() ); m_out->Print( 0, ")\n" ); if( !aModule->m_Doc.IsEmpty() ) m_out->Print( aNestLevel+1, "(descr %s)\n", m_out->Quotew( aModule->m_Doc ).c_str() ); if( !aModule->m_KeyWord.IsEmpty() ) m_out->Print( aNestLevel+1, "(tags %s)\n", m_out->Quotew( aModule->m_KeyWord ).c_str() ); if( !aModule->m_Path.IsEmpty() ) m_out->Print( aNestLevel+1, "(path %s)\n", m_out->Quotew( aModule->m_Path ).c_str() ); if( aModule->m_CntRot90 != 0 ) m_out->Print( aNestLevel+1, "(autoplace_cost90 %d)\n", aModule->m_CntRot90 ); if( aModule->m_CntRot180 != 0 ) m_out->Print( aNestLevel+1, "(autoplace_cost180 %d)\n", aModule->m_CntRot180 ); if( aModule->GetLocalSolderMaskMargin() != 0 ) m_out->Print( aNestLevel+1, "(solder_mask_margin %s)\n", FMT_IU( aModule->GetLocalSolderMaskMargin() ).c_str() ); if( aModule->GetLocalSolderPasteMargin() != 0 ) m_out->Print( aNestLevel+1, "(solder_paste_margin %s)\n", FMT_IU( aModule->GetLocalSolderPasteMargin() ).c_str() ); if( aModule->GetLocalSolderPasteMarginRatio() != 0 ) m_out->Print( aNestLevel+1, "(solder_paste_ratio %g)\n", aModule->GetLocalSolderPasteMarginRatio() ); if( aModule->GetLocalClearance() != 0 ) m_out->Print( aNestLevel+1, "(clearance %s)\n", FMT_IU( aModule->GetLocalClearance() ).c_str() ); if( aModule->m_ZoneConnection != UNDEFINED_CONNECTION ) m_out->Print( aNestLevel+1, "(zone_connect %d)\n", aModule->m_ZoneConnection ); if( aModule->m_ThermalWidth != 0 ) m_out->Print( aNestLevel+1, "(thermal_width %s)\n", FMT_IU( aModule->m_ThermalWidth ).c_str() ); if( aModule->m_ThermalGap != 0 ) m_out->Print( aNestLevel+1, "(thermal_gap %s)\n", FMT_IU( aModule->m_ThermalGap ).c_str() ); // Attributes if( aModule->m_Attributs != MOD_DEFAULT ) { m_out->Print( aNestLevel+1, "(attr" ); if( aModule->m_Attributs & MOD_CMS ) m_out->Print( 0, " smd" ); if( aModule->m_Attributs & MOD_VIRTUAL ) m_out->Print( 0, " virtual" ); m_out->Print( 0, ")\n" ); } Format( (BOARD_ITEM*) aModule->m_Reference, aNestLevel+1 ); Format( (BOARD_ITEM*) aModule->m_Value, aNestLevel+1 ); // Save drawing elements. for( BOARD_ITEM* gr = aModule->m_Drawings; gr; gr = gr->Next() ) Format( gr, aNestLevel+1 ); // Save pads. for( D_PAD* pad = aModule->m_Pads; pad; pad = pad->Next() ) Format( pad, aNestLevel+1 ); // Save 3D info. for( S3D_MASTER* t3D = aModule->m_3D_Drawings; t3D; t3D = t3D->Next() ) { if( !t3D->m_Shape3DName.IsEmpty() ) { m_out->Print( aNestLevel+1, "(model %s\n", m_out->Quotew( t3D->m_Shape3DName ).c_str() ); m_out->Print( aNestLevel+2, "(at (xyz %.16g %.16g %.16g))\n", t3D->m_MatPosition.x, t3D->m_MatPosition.y, t3D->m_MatPosition.z ); m_out->Print( aNestLevel+2, "(scale (xyz %.16g %.16g %.16g))\n", t3D->m_MatScale.x, t3D->m_MatScale.y, t3D->m_MatScale.z ); m_out->Print( aNestLevel+2, "(rotate (xyz %.16g %.16g %.16g))\n", t3D->m_MatRotation.x, t3D->m_MatRotation.y, t3D->m_MatRotation.z ); m_out->Print( aNestLevel+1, ")\n" ); } } m_out->Print( aNestLevel, ")\n" ); } void PCB_IO::format( D_PAD* aPad, int aNestLevel ) const throw( IO_ERROR ) { std::string shape; switch( aPad->GetShape() ) { case PAD_CIRCLE: shape = "circle"; break; case PAD_RECT: shape = "rect"; break; case PAD_OVAL: shape = "oval"; break; case PAD_TRAPEZOID: shape = "trapezoid"; break; default: THROW_IO_ERROR( wxString::Format( _( "unknown pad type: %d"), aPad->GetShape() ) ); } std::string type; switch( aPad->GetAttribute() ) { case PAD_STANDARD: type = "thru_hole"; break; case PAD_SMD: type = "smd"; break; case PAD_CONN: type = "connect"; break; case PAD_HOLE_NOT_PLATED: type = "np_thru_hole"; break; default: THROW_IO_ERROR( wxString::Format( _( "unknown pad attribute: %d" ), aPad->GetAttribute() ) ); } m_out->Print( aNestLevel, "(pad %s %s %s", m_out->Quotew( aPad->GetPadName() ).c_str(), type.c_str(), shape.c_str() ); m_out->Print( 0, " (at %s", FMT_IU( aPad->GetPos0() ).c_str() ); if( aPad->GetOrientation() != 0.0 ) m_out->Print( 0, " %s", FMT_ANGLE( aPad->GetOrientation() ).c_str() ); m_out->Print( 0, ")" ); m_out->Print( 0, " (size %s)", FMT_IU( aPad->GetSize() ).c_str() ); if( (aPad->GetDelta().GetWidth()) != 0 || (aPad->GetDelta().GetHeight() != 0 ) ) m_out->Print( 0, " (rect_delta %s )", FMT_IU( aPad->GetDelta() ).c_str() ); wxSize sz = aPad->GetDrillSize(); if( (sz.GetWidth() > 0) || (sz.GetHeight() > 0) ) { m_out->Print( 0, " (drill" ); if( aPad->GetDrillShape() == PAD_OVAL ) m_out->Print( 0, " oval" ); if( sz.GetWidth() > 0 ) m_out->Print( 0, " %s", FMT_IU( sz.GetWidth() ).c_str() ); if( sz.GetHeight() > 0 && sz.GetWidth() != sz.GetHeight() ) m_out->Print( 0, " %s", FMT_IU( sz.GetHeight() ).c_str() ); if( (aPad->GetOffset().x != 0) || (aPad->GetOffset().y != 0) ) m_out->Print( 0, " (offset %s)", FMT_IU( aPad->GetOffset() ).c_str() ); m_out->Print( 0, ")" ); } m_out->Print( 0, "\n" ); m_out->Print( aNestLevel+1, "(layers" ); unsigned layerMask = aPad->GetLayerMask() & m_board->GetEnabledLayers(); for( int layer = 0; layerMask; ++layer, layerMask >>= 1 ) { if( layerMask & 1 ) { m_out->Print( 0, " %s", m_out->Quotew( m_board->GetLayerName( layer ) ).c_str() ); } } m_out->Print( 0, ")\n" ); // Unconnected pad is default net so don't save it. if( aPad->GetNet() != 0 ) { m_out->Print( aNestLevel+1, "(net %d %s)\n", aPad->GetNet(), m_out->Quotew( aPad->GetNetname() ).c_str() ); } if( aPad->GetDieLength() != 0 ) m_out->Print( aNestLevel+1, "(die_length %s)\n", FMT_IU( aPad->GetDieLength() ).c_str() ); if( aPad->GetLocalSolderMaskMargin() != 0 ) m_out->Print( aNestLevel+1, "(solder_mask_margin %s)\n", FMT_IU( aPad->GetLocalSolderMaskMargin() ).c_str() ); if( aPad->GetLocalSolderPasteMargin() != 0 ) m_out->Print( aNestLevel+1, "(solder_paste_margin %s)\n", FMT_IU( aPad->GetLocalSolderPasteMargin() ).c_str() ); if( aPad->GetLocalSolderPasteMarginRatio() != 0 ) m_out->Print( aNestLevel+1, "(solder_paste_margin_ratio %g)\n", aPad->GetLocalSolderPasteMarginRatio() ); if( aPad->GetLocalClearance() != 0 ) m_out->Print( aNestLevel+1, "(clearance %s)\n", FMT_IU( aPad->GetLocalClearance() ).c_str() ); if( aPad->GetZoneConnection() != UNDEFINED_CONNECTION ) m_out->Print( aNestLevel+1, "(zone_connect %d)\n", aPad->GetZoneConnection() ); if( aPad->GetThermalWidth() != 0 ) m_out->Print( aNestLevel+1, "(thermal_width %s)\n", FMT_IU( aPad->GetThermalWidth() ).c_str() ); if( aPad->GetThermalGap() != 0 ) m_out->Print( aNestLevel+1, "(thermal_gap %s)\n", FMT_IU( aPad->GetThermalGap() ).c_str() ); m_out->Print( aNestLevel, ")\n" ); } void PCB_IO::format( TEXTE_PCB* aText, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( aNestLevel, "(gr_text %s (at %s", m_out->Quotew( aText->GetText() ).c_str(), FMT_IU( aText->GetPosition() ).c_str() ); if( aText->GetOrientation() != 0.0 ) m_out->Print( 0, " %s", FMT_ANGLE( aText->GetOrientation() ).c_str() ); m_out->Print( 0, ")" ); formatLayer( aText ); if( aText->GetTimeStamp() ) m_out->Print( 0, " (tstamp %lX)", aText->GetTimeStamp() ); m_out->Print( 0, "\n" ); aText->EDA_TEXT::Format( m_out, aNestLevel, m_ctl ); m_out->Print( aNestLevel, ")\n" ); } void PCB_IO::format( TEXTE_MODULE* aText, int aNestLevel ) const throw( IO_ERROR ) { MODULE* parent = (MODULE*) aText->GetParent(); double orient = aText->GetOrientation(); wxString type; switch( aText->GetType() ) { case 0: type = wxT( "reference" ); break; case 1: type = wxT( "value" ); break; default: type = wxT( "user" ); } // Due to the Pcbnew history, m_Orient is saved in screen value // but it is handled as relative to its parent footprint if( parent ) orient += parent->GetOrientation(); m_out->Print( aNestLevel, "(fp_text %s %s (at %s", m_out->Quotew( type ).c_str(), m_out->Quotew( aText->GetText() ).c_str(), FMT_IU( aText->GetPos0() ).c_str() ); if( orient != 0.0 ) m_out->Print( 0, " %s", FMT_ANGLE( orient ).c_str() ); m_out->Print( 0, ")" ); formatLayer( aText ); if( !aText->IsVisible() ) m_out->Print( 0, " hide" ); m_out->Print( 0, "\n" ); aText->EDA_TEXT::Format( m_out, aNestLevel, m_ctl ); m_out->Print( aNestLevel, ")\n" ); } void PCB_IO::format( TRACK* aTrack, int aNestLevel ) const throw( IO_ERROR ) { if( aTrack->Type() == PCB_VIA_T ) { int layer1, layer2; SEGVIA* via = (SEGVIA*) aTrack; BOARD* board = (BOARD*) via->GetParent(); wxCHECK_RET( board != 0, wxT( "Via " ) + via->GetSelectMenuText() + wxT( " has no parent." ) ); m_out->Print( aNestLevel, "(via" ); via->ReturnLayerPair( &layer1, &layer2 ); switch( aTrack->GetShape() ) { case VIA_THROUGH: // Default shape not saved. break; case VIA_BLIND_BURIED: m_out->Print( 0, " blind" ); break; case VIA_MICROVIA: m_out->Print( 0, " micro" ); break; default: THROW_IO_ERROR( wxString::Format( _( "unknown via type %d" ), aTrack->GetShape() ) ); } m_out->Print( 0, " (at %s) (size %s)", FMT_IU( aTrack->GetStart() ).c_str(), FMT_IU( aTrack->GetWidth() ).c_str() ); if( aTrack->GetDrill() != UNDEFINED_DRILL_DIAMETER ) m_out->Print( 0, " (drill %s)", FMT_IU( aTrack->GetDrill() ).c_str() ); m_out->Print( 0, " (layers %s %s)", m_out->Quotew( m_board->GetLayerName( layer1 ) ).c_str(), m_out->Quotew( m_board->GetLayerName( layer2 ) ).c_str() ); } else { m_out->Print( aNestLevel, "(segment (start %s) (end %s) (width %s)", FMT_IU( aTrack->GetStart() ).c_str(), FMT_IU( aTrack->GetEnd() ).c_str(), FMT_IU( aTrack->GetWidth() ).c_str() ); m_out->Print( 0, " (layer %s)", m_out->Quotew( aTrack->GetLayerName() ).c_str() ); } m_out->Print( 0, " (net %d)", aTrack->GetNet() ); if( aTrack->GetTimeStamp() != 0 ) m_out->Print( 0, " (tstamp %lX)", aTrack->GetTimeStamp() ); if( aTrack->GetStatus() != 0 ) m_out->Print( 0, " (status %X)", aTrack->GetStatus() ); m_out->Print( 0, ")\n" ); } void PCB_IO::format( ZONE_CONTAINER* aZone, int aNestLevel ) const throw( IO_ERROR ) { m_out->Print( aNestLevel, "(zone (net %d) (net_name %s)", aZone->GetNet(), m_out->Quotew( aZone->GetNetName() ).c_str() ); formatLayer( aZone ); m_out->Print( 0, " (tstamp %lX)", aZone->GetTimeStamp() ); // Save the outline aux info std::string hatch; switch( aZone->GetHatchStyle() ) { default: case CPolyLine::NO_HATCH: hatch = "none"; break; case CPolyLine::DIAGONAL_EDGE: hatch = "edge"; break; case CPolyLine::DIAGONAL_FULL: hatch = "full"; break; } m_out->Print( 0, " (hatch %s %s)\n", hatch.c_str(), FMT_IU( aZone->m_Poly->GetHatchPitch() ).c_str() ); if( aZone->GetPriority() > 0 ) m_out->Print( aNestLevel+1, "(priority %d)\n", aZone->GetPriority() ); m_out->Print( aNestLevel+1, "(connect_pads" ); switch( aZone->GetPadConnection() ) { default: case THERMAL_PAD: // Default option not saved or loaded. break; case THT_THERMAL: m_out->Print( 0, " thru_hole_only" ); break; case PAD_IN_ZONE: m_out->Print( 0, " yes" ); break; case PAD_NOT_IN_ZONE: m_out->Print( 0, " no" ); break; } m_out->Print( 0, " (clearance %s))\n", FMT_IU( aZone->GetZoneClearance() ).c_str() ); m_out->Print( aNestLevel+1, "(min_thickness %s)\n", FMT_IU( aZone->GetMinThickness() ).c_str() ); if( aZone->GetIsKeepout() ) { m_out->Print( aNestLevel+1, "(keepout (tracks %s) (vias %s) (copperpour %s))\n", aZone->GetDoNotAllowTracks() ? "not_allowed" : "allowed", aZone->GetDoNotAllowVias() ? "not_allowed" : "allowed", aZone->GetDoNotAllowCopperPour() ? "not_allowed" : "allowed" ); } m_out->Print( aNestLevel+1, "(fill" ); // Default is not filled. if( aZone->IsFilled() ) m_out->Print( 0, " yes" ); // Default is polygon filled. if( aZone->GetFillMode() ) m_out->Print( 0, " (mode segment)" ); m_out->Print( 0, " (arc_segments %d) (thermal_gap %s) (thermal_bridge_width %s)", aZone->GetArcSegCount(), FMT_IU( aZone->GetThermalReliefGap() ).c_str(), FMT_IU( aZone->GetThermalReliefCopperBridge() ).c_str() ); if( aZone->GetCornerSmoothingType() != ZONE_SETTINGS::SMOOTHING_NONE ) { m_out->Print( 0, " (smoothing" ); switch( aZone->GetCornerSmoothingType() ) { case ZONE_SETTINGS::SMOOTHING_CHAMFER: m_out->Print( 0, " chamfer" ); break; case ZONE_SETTINGS::SMOOTHING_FILLET: m_out->Print( 0, " fillet" ); break; default: THROW_IO_ERROR( wxString::Format( _( "unknown zone corner smoothing type %d" ), aZone->GetCornerSmoothingType() ) ); } m_out->Print( 0, ")" ); if( aZone->GetCornerRadius() != 0 ) m_out->Print( 0, " (radius %s)", FMT_IU( aZone->GetCornerRadius() ).c_str() ); } m_out->Print( 0, ")\n" ); const std::vector< CPolyPt >& cv = aZone->m_Poly->m_CornersList; int newLine = 0; if( cv.size() ) { m_out->Print( aNestLevel+1, "(polygon\n"); m_out->Print( aNestLevel+2, "(pts\n" ); for( std::vector< CPolyPt >::const_iterator it = cv.begin(); it != cv.end(); ++it ) { if( newLine == 0 ) m_out->Print( aNestLevel+3, "(xy %s %s)", FMT_IU( it->x ).c_str(), FMT_IU( it->y ).c_str() ); else m_out->Print( 0, " (xy %s %s)", FMT_IU( it->x ).c_str(), FMT_IU( it->y ).c_str() ); if( newLine < 4 ) { newLine += 1; } else { newLine = 0; m_out->Print( 0, "\n" ); } if( it->end_contour ) { if( newLine != 0 ) m_out->Print( 0, "\n" ); m_out->Print( aNestLevel+2, ")\n" ); if( it+1 != cv.end() ) { newLine = 0; m_out->Print( aNestLevel+1, ")\n" ); m_out->Print( aNestLevel+1, "(polygon\n" ); m_out->Print( aNestLevel+2, "(pts" ); } } } m_out->Print( aNestLevel+1, ")\n" ); } // Save the PolysList const std::vector< CPolyPt >& fv = aZone->GetFilledPolysList(); newLine = 0; if( fv.size() ) { m_out->Print( aNestLevel+1, "(filled_polygon\n" ); m_out->Print( aNestLevel+2, "(pts\n" ); for( std::vector< CPolyPt >::const_iterator it = fv.begin(); it != fv.end(); ++it ) { if( newLine == 0 ) m_out->Print( aNestLevel+3, "(xy %s %s)", FMT_IU( it->x ).c_str(), FMT_IU( it->y ).c_str() ); else m_out->Print( 0, " (xy %s %s)", FMT_IU( it->x ).c_str(), FMT_IU( it->y ).c_str() ); if( newLine < 4 ) { newLine += 1; } else { newLine = 0; m_out->Print( 0, "\n" ); } if( it->end_contour ) { if( newLine != 0 ) m_out->Print( 0, "\n" ); m_out->Print( aNestLevel+2, ")\n" ); if( it+1 != fv.end() ) { newLine = 0; m_out->Print( aNestLevel+1, ")\n" ); m_out->Print( aNestLevel+1, "(filled_polygon\n" ); m_out->Print( aNestLevel+2, "(pts\n" ); } } } m_out->Print( aNestLevel+1, ")\n" ); } // Save the filling segments list const std::vector< SEGMENT >& segs = aZone->m_FillSegmList; if( segs.size() ) { m_out->Print( aNestLevel+1, "(fill_segments\n" ); for( std::vector< SEGMENT >::const_iterator it = segs.begin(); it != segs.end(); ++it ) { m_out->Print( aNestLevel+2, "(pts (xy %s) (xy %s))\n", FMT_IU( it->m_Start ).c_str(), FMT_IU( it->m_End ).c_str() ); } m_out->Print( aNestLevel+1, ")\n" ); } m_out->Print( aNestLevel, ")\n" ); } PCB_IO::PCB_IO() { m_out = &m_sf; } BOARD* PCB_IO::Load( const wxString& aFileName, BOARD* aAppendToMe, PROPERTIES* aProperties ) { wxFFile file( aFileName, wxT("r") ); if( !file.IsOpened() ) { wxString msg; msg.Printf( _( "Unable to read file \"%s\"" ), GetChars( aFileName ) ); THROW_IO_ERROR( msg ); } PCB_PARSER parser( new FILE_LINE_READER( file.fp(), aFileName ), aAppendToMe ); return (BOARD*) parser.Parse(); }