/* * This program source code file is part of KICAD, a free EDA CAD application. * * Copyright (C) 2007-2008 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2007 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 */ /* This source is a complement to specctra.cpp and implements the export to specctra dsn file format. The specification for the grammar of the specctra dsn file used to develop this code is given here: http://www.autotraxeda.com/docs/SPECCTRA/SPECCTRA.pdf Also see the comments at the top of the specctra.cpp file itself. */ #include "specctra.h" #include "collectors.h" #include "wxPcbStruct.h" // Change_Side_Module() #include "pcbstruct.h" // HISTORY_NUMBER #include "autorout.h" // NET_CODES_OK #include "trigo.h" // RotatePoint() #include // std::set #include // std::map #include // boost::addressof() using namespace DSN; // see wxPcbStruct.h void WinEDA_PcbFrame::ExportToSpecctra( wxCommandEvent& event ) { wxString fullFileName = GetScreen()->m_FileName; wxString path; wxString name; wxString ext; wxString dsn_ext = wxT( ".dsn" ); wxString mask = wxT( "*" ) + dsn_ext; wxFileName::SplitPath( fullFileName, &path, &name, &ext ); name += dsn_ext; fullFileName = EDA_FileSelector( _( "Specctra DSN file:" ), path, name, // name.ext without path! dsn_ext, mask, this, wxFD_SAVE, FALSE ); if( fullFileName == wxEmptyString ) return; SPECCTRA_DB db; bool ok = true; wxString errorText; BASE_SCREEN* screen = GetScreen(); bool wasModified = screen->IsModify() && !screen->IsSave(); db.SetPCB( SPECCTRA_DB::MakePCB() ); setlocale( LC_NUMERIC, "C" ); // Switch the locale to standard C // DSN Images (=Kicad MODULES and pads) must be presented from the // top view. So we temporarily flip any modules which are on the back // side of the board to the front, and record this in the MODULE's flag field. db.FlipMODULEs( m_Pcb ); try { db.FromBOARD( m_Pcb ); db.ExportPCB( fullFileName, true ); // if an exception is thrown by FromBOARD or ExportPCB(), then // ~SPECCTRA_DB() will close the file. } catch( IOError ioe ) { ok = false; // copy the error string to safe place, ioe is in this scope only. errorText = ioe.errorText; } setlocale( LC_NUMERIC, "" ); // revert to the current locale // done assuredly, even if an exception was thrown and caught. db.RevertMODULEs( m_Pcb ); // The two calls below to BOARD::Change_Side_Module(), both set the // modified flag, yet their actions cancel each other out, so it should // be ok to clear the modify flag. if( !wasModified ) screen->ClrModify(); if( ok ) { Affiche_Message( wxString( _("BOARD exported OK.")) ); } else { errorText += '\n'; errorText += _("Unable to export, please fix and try again."); DisplayError( this, errorText ); } } namespace DSN { struct POINT_PAIR { POINT start; POINT end; BOARD_ITEM* item; ///< the item which has these points, TRACK or DRAWSEGMENT }; typedef std::vector POINT_PAIRS; const KICAD_T SPECCTRA_DB::scanPADs[] = { TYPEPAD, EOT }; static inline void swap( POINT_PAIR& pair ) { POINT temp = pair.start; pair.start = pair.end; pair.end = temp; } /** * Function scale * converts a distance from kicad units to our reported specctra dsn units: * 1/10000 inches (deci-mils) to mils. So the factor of 10 comes in. */ static inline double scale( int kicadDist ) { return kicadDist/10.0; } static inline double mapX( int x ) { return scale(x); } static inline double mapY( int y ) { return -scale(y); // make y negative, since it is increasing going down. } /** * Function mapPt * converts a Kicad point into a DSN file point. Kicad's BOARD coordinates * are in deci-mils (i.e. 1/10,000th of an inch) and we are exporting in units * of mils, so we have to divide by 10. */ static POINT mapPt( const wxPoint& pt ) { POINT ret; ret.x = mapX( pt.x ); ret.y = mapY( pt.y ); ret.FixNegativeZero(); return ret; } /** * Function findPOINT * searches the list of POINT_PAIRS for a matching end to the given POINT. * @return int - 0 if no match, or positive one based index of a POINT_PAIR with a matching ".start", * or a negated one based index of a POINT_PAIR with a matching ".end". */ static int findPOINT( const POINT& pt, const POINT_PAIR source[], int count ) { for( int i=0; istart, &source[1], source.size()-1 ) != 0 ) swap( *source.begin() ); // swap start and end of first PAIR while( source.size() ) { sorted.push_back( *source.begin() ); source.erase( source.begin() ); // keep looping through the source list looking for a match to the end of the last sorted. int result; while( (result = findPOINT( sorted.back().end, &source[0], source.size() ) ) != 0 ) { int ndx = ABS(result)-1; sorted.push_back( source[ ndx ] ); source.erase( source.begin()+ndx ); if( result < 0 ) swap( sorted.back() ); } } #if 0 && defined(DEBUG) printf( "swapEnds():\n" ); for( unsigned i=0; im_PadShape==PAD_CIRCLE ) { if( aPad->m_Drill.x >= aPad->m_Size.x ) return true; if( (aPad->m_Masque_Layer & ALL_CU_LAYERS) == 0 ) return true; } return false; } /** * Function makePath * creates a PATH element with a single straight line, a pair of vertices. */ static PATH* makePath( const POINT& aStart, const POINT& aEnd, const std::string& aLayerName ) { PATH* path = new PATH( 0, T_path ); path->AppendPoint( aStart ); path->AppendPoint( aEnd ); path->SetLayerId( aLayerName.c_str() ); return path; } /** * Struct wxString_less_than * is used by the std:set<> and std::map<> instantiations below. * See STRINGSET typedef and PINMAP typedef below. */ struct wxString_less_than { // a "less than" test on two wxStrings bool operator()( const wxString& s1, const wxString& s2) const { return s1.Cmp( s2 ) < 0; // case specific wxString compare } }; /** * Function makePADSTACK * creates a PADSTACK which matches the given pad. Only pads which do not * satisfy the function isKeepout() should be passed to this function. * @param aPad The D_PAD which needs to be made into a PADSTACK. * @return PADSTACK* - The created padstack, including its padstack_id. */ PADSTACK* SPECCTRA_DB::makePADSTACK( BOARD* aBoard, D_PAD* aPad ) { char name[80]; // padstack name builder std::string uniqifier; // caller must do these checks before calling here. wxASSERT( !isRoundKeepout( aPad ) ); PADSTACK* padstack = new PADSTACK(); int reportedLayers = 0; // how many in reported padstack const char* layerName[NB_COPPER_LAYERS]; if( aPad->m_Attribut==PAD_SMD || aPad->m_Attribut==PAD_CONN ) { // PAD_SMD and PAD_CONN are reported on each layer for which // they are present. uniqifier = '['; if( aPad->IsOnLayer( LAYER_CMP_N ) ) { layerName[reportedLayers++] = layerIds[0].c_str(); uniqifier += 'T'; // T for top, could have used a layer index here alternatively } if( aPad->IsOnLayer( COPPER_LAYER_N ) ) { int pcbLayerNdx = kicadLayer2pcb[COPPER_LAYER_N]; layerName[reportedLayers++] = layerIds[ pcbLayerNdx ].c_str(); uniqifier += 'B'; // B for bottom } uniqifier += ']'; } else // through hole pad { uniqifier = '['; bool onAllCopperLayers = false; if( (aPad->m_Masque_Layer & ALL_CU_LAYERS) == ALL_CU_LAYERS ) { onAllCopperLayers = true; uniqifier += 'A'; // A for all layers } const int copperCount = aBoard->GetCopperLayerCount(); for( int layer=0; layerIsOnLayer( kilayer ) ) { layerName[reportedLayers++] = layerIds[layer].c_str(); if( !onAllCopperLayers ) { if( layer == 0 ) uniqifier += 'T'; else if( layer == copperCount-1 ) uniqifier += 'B'; else uniqifier += char('0' + layer); // layer index char } } } uniqifier += ']'; } POINT dsnOffset; if( aPad->m_Offset.x || aPad->m_Offset.y ) { char offsetTxt[32]; wxPoint offset( aPad->m_Offset.x, aPad->m_Offset.y ); dsnOffset = mapPt( offset ); // using '(' or ')' would cause padstack name to be quote wrapped, // so use other brackets, and {} locks freerouter. sprintf( offsetTxt, "[%.6g,%.6g]", dsnOffset.x, dsnOffset.y ); uniqifier += offsetTxt; } switch( aPad->m_PadShape ) { default: case PAD_CIRCLE: { double diameter = scale(aPad->m_Size.x); for( int ndx=0; ndxAppend( shape ); CIRCLE* circle = new CIRCLE( shape ); shape->SetShape( circle ); circle->SetLayerId( layerName[ndx] ); circle->SetDiameter( diameter ); circle->SetVertex( dsnOffset ); } snprintf( name, sizeof(name), "Round%sPad_%.6g_mil", uniqifier.c_str(), scale(aPad->m_Size.x) ); name[ sizeof(name)-1 ] = 0; padstack->SetPadstackId( name ); } break; case PAD_RECT: { double dx = scale( aPad->m_Size.x ) / 2.0; double dy = scale( aPad->m_Size.y ) / 2.0; POINT lowerLeft( -dx, -dy ); POINT upperRight( dx, dy ); lowerLeft += dsnOffset; upperRight += dsnOffset; for( int ndx=0; ndxAppend( shape ); RECTANGLE* rect = new RECTANGLE( shape ); shape->SetShape( rect ); rect->SetLayerId( layerName[ndx] ); rect->SetCorners( lowerLeft, upperRight ); } snprintf( name, sizeof(name), "Rect%sPad_%.6gx%.6g_mil", uniqifier.c_str(), scale(aPad->m_Size.x), scale(aPad->m_Size.y) ); name[ sizeof(name)-1 ] = 0; padstack->SetPadstackId( name ); } break; case PAD_OVAL: { double dx = scale( aPad->m_Size.x ) / 2.0; double dy = scale( aPad->m_Size.y ) / 2.0; double dr = dx - dy; double radius; POINT start; POINT stop; if( dr >= 0 ) // oval is horizontal { radius = dy; start = POINT( -dr, 0.0 ); stop = POINT( dr, 0.0 ); } else // oval is vertical { radius = dx; dr = -dr; start = POINT( 0.0, -dr ); stop = POINT( 0.0, dr ); } start += dsnOffset; stop += dsnOffset; for( int ndx=0; ndxAppend( shape ); path = makePath( start, stop, layerName[ndx] ); shape->SetShape( path ); path->aperture_width = 2.0 * radius; } snprintf( name, sizeof(name), "Oval%sPad_%.6gx%.6g_mil", uniqifier.c_str(), scale(aPad->m_Size.x), scale(aPad->m_Size.y) ); name[ sizeof(name)-1 ] = 0; padstack->SetPadstackId( name ); } break; /* case PAD_TRAPEZOID: break; */ } return padstack; } /// data type used to ensure unique-ness of pin names, holding (wxString and int) typedef std::map PINMAP; IMAGE* SPECCTRA_DB::makeIMAGE( BOARD* aBoard, MODULE* aModule ) { PINMAP pinmap; TYPE_COLLECTOR moduleItems; wxString padName; // get all the MODULE's pads. moduleItems.Collect( aModule, scanPADs ); IMAGE* image = new IMAGE(0); image->image_id = CONV_TO_UTF8( aModule->m_LibRef ); // from the pads, and make an IMAGE using collated padstacks. for( int p=0; pm_Drill.x ); POINT vertex = mapPt( pad->m_Pos0 ); int layerCount = aBoard->GetCopperLayerCount(); for( int layer=0; layerkeepouts.push_back( keepout ); CIRCLE* circle = new CIRCLE( keepout ); keepout->SetShape( circle ); circle->SetDiameter( diameter ); circle->SetVertex( vertex ); circle->SetLayerId( layerIds[layer].c_str() ); } } // else if() could there be a square keepout here? else { PADSTACK* padstack = makePADSTACK( aBoard, pad ); PADSTACKSET::iterator iter = padstackset.find( *padstack ); if( iter != padstackset.end() ) { // padstack is a duplicate, delete it and use the original delete padstack; padstack = (PADSTACK*) *iter.base(); // folklore, be careful here } else { padstackset.insert( padstack ); } PIN* pin = new PIN(image); padName = pad->ReturnStringPadName(); pin->pin_id = CONV_TO_UTF8( padName ); if( padName!=wxEmptyString && pinmap.find( padName )==pinmap.end() ) { pinmap[ padName ] = 0; } else // pad name is a duplicate within this module { char buf[32]; int duplicates = ++pinmap[ padName ]; sprintf( buf, "@%d", duplicates ); pin->pin_id += buf; // append "@1" or "@2", etc. to pin name } pin->kiNetCode = pad->GetNet(); image->pins.push_back( pin ); pin->padstack_id = padstack->padstack_id; int angle = pad->m_Orient - aModule->m_Orient; // tenths of degrees if( angle ) { NORMALIZE_ANGLE_POS(angle); pin->SetRotation( angle / 10.0 ); } wxPoint pos( pad->m_Pos0 ); pin->SetVertex( mapPt( pos ) ); } } #if 1 // enable image (outline) scopes. static const KICAD_T scanEDGEs[] = { TYPEEDGEMODULE, EOT }; // get all the MODULE's EDGE_MODULEs and convert those to DSN outlines. moduleItems.Collect( aModule, scanEDGEs ); for( int i=0; im_Shape ) { case S_SEGMENT: outline = new SHAPE( image, T_outline ); image->Append( outline ); path = new PATH( outline ); outline->SetShape( path ); path->SetAperture( scale( graphic->m_Width ) ); path->SetLayerId( "signal" ); path->AppendPoint( mapPt( graphic->m_Start0 ) ); path->AppendPoint( mapPt( graphic->m_End0 ) ); break; case S_CIRCLE: { // this is best done by 4 QARC's but freerouter does not yet support QARCs. // for now, support by using line segments. outline = new SHAPE( image, T_outline ); image->Append( outline ); path = new PATH( outline ); outline->SetShape( path ); path->SetAperture( scale( graphic->m_Width ) ); path->SetLayerId( "signal" ); // Do the math using Kicad units, that way we stay out of the // scientific notation range of floating point numbers in the // DSN file. We do not parse scientific notation in our own // lexer/beautifier, and the spec is not clear that this is // required. Fixed point floats are all that should be needed. double radius = hypot( double( graphic->m_Start.x - graphic->m_End.x ), double( graphic->m_Start.y - graphic->m_End.y ) ); // better if evenly divisible into 360 const int DEGREE_INTERVAL = 18; // 18 means 20 line segments for( double radians = 0.0; radians < 2*M_PI; radians += DEGREE_INTERVAL * M_PI / 180.0 ) { wxPoint point( int( radius * cos( radians ) ), int( radius * sin( radians ) ) ); point += graphic->m_Start0; // an offset path->AppendPoint( mapPt(point) ); } } break; case S_RECT: case S_ARC: default: D( printf("makeIMAGE(): unsupported shape %s\n", EDGE_MODULE::ShowShape(graphic->m_Shape) );) continue; } } #endif return image; } PADSTACK* SPECCTRA_DB::makeVia( int aCopperDiameter, int aDrillDiameter, int aTopLayer, int aBotLayer ) { char name[48]; PADSTACK* padstack = new PADSTACK(); double dsnDiameter = scale(aCopperDiameter); for( int layer=aTopLayer; layer<=aBotLayer; ++layer ) { SHAPE* shape = new SHAPE( padstack ); padstack->Append( shape ); CIRCLE* circle = new CIRCLE( shape ); shape->SetShape( circle ); circle->SetDiameter( dsnDiameter ); circle->SetLayerId( layerIds[layer].c_str() ); } snprintf( name, sizeof(name), "Via[%d-%d]_%.6g:%.6g_mil", aTopLayer, aBotLayer, dsnDiameter, // encode the drill value into the name for later import scale( aDrillDiameter ) ); name[ sizeof(name)-1 ] = 0; padstack->SetPadstackId( name ); return padstack; } PADSTACK* SPECCTRA_DB::makeVia( const SEGVIA* aVia ) { int topLayer; int botLayer; aVia->ReturnLayerPair( &topLayer, &botLayer ); topLayer = kicadLayer2pcb[topLayer]; botLayer = kicadLayer2pcb[botLayer]; if( topLayer > botLayer ) EXCHG( topLayer, botLayer ); return makeVia( aVia->m_Width, aVia->GetDrillValue(), topLayer, botLayer ); } typedef std::set STRINGSET; typedef std::pair STRINGSET_PAIR; void SPECCTRA_DB::FromBOARD( BOARD* aBoard ) throw( IOError ) { TYPE_COLLECTOR items; POINT_PAIRS ppairs; POINT_PAIR pair; static const KICAD_T scanMODULEs[] = { TYPEMODULE, EOT }; // Not all boards are exportable. Check that all reference Ids are unique. // Unless they are unique, we cannot import the session file which comes // back to us later from the router. Also check that all pad names within // a part are unique, otherwise Electra and Freerouter will not draw the // pads properly. { TYPE_COLLECTOR padItems; items.Collect( aBoard, scanMODULEs ); STRINGSET refs; // holds module reference designators for( int i=0; iGetReference() == wxEmptyString ) { ThrowIOError( _("Component with value of \"%s\" has empty reference id."), module->GetValue().GetData() ); } // if we cannot insert OK, that means the reference has been seen before. STRINGSET_PAIR refpair = refs.insert( CONV_TO_UTF8( module->GetReference() ) ); if( !refpair.second ) // insert failed { ThrowIOError( _("Multiple components have identical reference IDs of \"%s\"."), module->GetReference().GetData() ); } } } if( !pcb ) pcb = SPECCTRA_DB::MakePCB(); //---------------------------------------------------- { // specctra wants top physical layer first, then going down to the // bottom most physical layer in physical sequence. // @question : why does Kicad not display layers in that order? buildLayerMaps( aBoard ); int layerCount = aBoard->GetCopperLayerCount(); for( int pcbNdx=0; pcbNdxstructure ); pcb->structure->layers.push_back( layer ); layer->name = layerIds[pcbNdx]; DSN_T layerType; switch( aBoard->GetLayerType( pcbLayer2kicad[pcbNdx] ) ) { default: case LT_SIGNAL: layerType = T_signal; break; case LT_POWER: layerType = T_power; break; case LT_MIXED: layerType = T_mixed; break; case LT_JUMPER: layerType = T_jumper; break; } layer->layer_type = layerType; layer->properties.push_back( PROPERTY() ); PROPERTY* property = &layer->properties.back(); property->name = "index"; char temp[32]; sprintf( temp, "%d", pcbNdx ); property->value = temp; // layer->type = @todo need this, the export would be better. } } // a space in a quoted token is NOT a terminator, true establishes this. pcb->parser->space_in_quoted_tokens = true; //----- & -------------------- { pcb->unit->units = T_mil; pcb->resolution->units = T_mil; pcb->resolution->value = 100; } //----------------------------------------------- { // get all the DRAWSEGMENTS into 'items', then look for layer == EDGE_N, // and those segments comprise the board's perimeter. static const KICAD_T scanDRAWSEGMENTS[] = { TYPEDRAWSEGMENT, EOT }; items.Collect( aBoard, scanDRAWSEGMENTS ); bool haveEdges = false; ppairs.clear(); for( int i=0; iType() == TYPEDRAWSEGMENT ); if( item->GetLayer() == EDGE_N ) { pair.start = mapPt( item->m_Start ); pair.end = mapPt( item->m_End ); pair.item = item; ppairs.push_back( pair ); haveEdges = true; } } if( haveEdges ) { swapEnds( ppairs ); #if 0 && defined(DEBUG) for( unsigned i=0; iitem->Show( 0, std::cout ); } #endif BOUNDARY* boundary = new BOUNDARY(0); if( isRectangle( ppairs ) ) { RECTANGLE* rect = new RECTANGLE( boundary ); rect->layer_id = "pcb"; // opposite corners rect->SetCorners( ppairs[0].start, ppairs[2].start ); boundary->rectangle = rect; } else { PATH* path = new PATH( boundary ); boundary->paths.push_back( path ); path->layer_id = "pcb"; for( unsigned i=0; ipoints.push_back( ppairs[i].start ); } } pcb->structure->SetBOUNDARY( boundary ); } else { aBoard->ComputeBoundaryBox(); BOUNDARY* boundary = new BOUNDARY(0); RECTANGLE* rect = new RECTANGLE( boundary ); rect->layer_id = "pcb"; // opposite corners wxPoint bottomRight; bottomRight.x = aBoard->m_BoundaryBox.GetRight(); bottomRight.y = aBoard->m_BoundaryBox.GetBottom(); rect->SetCorners( mapPt( aBoard->m_BoundaryBox.GetOrigin() ), mapPt( bottomRight ) ); boundary->rectangle = rect; pcb->structure->SetBOUNDARY( boundary ); } } //------------------------------------------------------------- { // put out these rules, the user can then edit them with a text editor char rule[80]; int curTrackWidth = aBoard->m_BoardSettings->m_CurrentTrackWidth; int curTrackClear = aBoard->m_BoardSettings->m_TrackClearence; // The +5 is to give freerouter a little extra room, this is 0.5 mils. // If we export without this, then on import freerouter violates our // DRC checks with track to via spacing, although this could be a // result of > testing vs. >= testing in PCBNEW's DRC. double clearance = scale(curTrackClear+5); STRINGS& rules = pcb->structure->rules->rules; sprintf( rule, "(width %.6g)", scale( curTrackWidth ) ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g)", clearance ); rules.push_back( rule ); /* see: http://www.freerouting.net/usren/viewtopic.php?f=5&t=339#p474 sprintf( rule, "(clearance %.6g (type pad_to_turn_gap))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type smd_to_turn_gap))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type via_via))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type via_smd))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type via_pin))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type pin_pin))", clearance ); rules.push_back( rule ); sprintf( rule, "(clearance %.6g (type smd_pin))", clearance ); rules.push_back( rule ); */ // well, the user is going to text edit these in the DSN file anyway, // at least until we have an export dialog. clearance = scale(curTrackClear)/4; sprintf( rule, "(clearance %.6g (type smd_smd))", clearance ); rules.push_back( rule ); } //------------------------------------- { static const KICAD_T scanZONEs[] = { TYPEZONE_CONTAINER, EOT }; items.Collect( aBoard, scanZONEs ); for( int i=0; istructure ); PATH* polygon = new PATH( plane, T_polygon ); plane->SetShape( polygon ); plane->name = CONV_TO_UTF8( item->m_Netname ); polygon->layer_id = layerIds[ kicadLayer2pcb[ item->GetLayer() ] ]; int count = item->m_Poly->corner.size(); for( int j=0; jm_Poly->corner[j].x, item->m_Poly->corner[j].y ); polygon->AppendPoint( mapPt(point) ); } pcb->structure->planes.push_back( plane ); } } // keepouts could go here, there are none in Kicad at this time. //---------------------------- { PIN_REF empty( pcb->network ); std::string componentId; // find the highest numbered netCode within the board. int highestNetCode = -1; for( EQUIPOT* equipot = aBoard->m_Equipots; equipot; equipot = equipot->Next() ) highestNetCode = MAX( highestNetCode, equipot->GetNet() ); deleteNETs(); // expand the net vector to highestNetCode+1, setting empty to NULL nets.resize( highestNetCode+1, NULL ); // skip netcode = 0 for( unsigned i=1; inetwork ); for( EQUIPOT* equipot = aBoard->m_Equipots; equipot; equipot = equipot->Next() ) { int netcode = equipot->GetNet(); if( netcode > 0 ) nets[ netcode ]->net_id = CONV_TO_UTF8( equipot->m_Netname ); } items.Collect( aBoard, scanMODULEs ); padstackset.clear(); for( int m=0; mGetReference() ); // create a net list entry for all the actual pins in the image // for the current module. location of this code is critical // because we fabricated some pin names to ensure unique-ness // of pin names within a module, do not move this code because // the life of this 'IMAGE* image' is not necessarily long. The // exported netlist will have some fabricated pin names in it. // If you don't like fabricated pin names, then make sure all pads // within your MODULEs are uniquely named! for( unsigned p=0; ppins.size(); ++p ) { PIN* pin = &image->pins[p]; int netcode = pin->kiNetCode; if( netcode > 0 ) { NET* net = nets[netcode]; net->pins.push_back( empty ); PIN_REF& pin_ref = net->pins.back(); pin_ref.component_id = componentId; pin_ref.pin_id = pin->pin_id; } } IMAGE* registered = pcb->library->LookupIMAGE( image ); if( registered != image ) { // If our new 'image' is not a unique IMAGE, delete it. // and use the registered one, known as 'image' after this. delete image; image = registered; } COMPONENT* comp = pcb->placement->LookupCOMPONENT( image->GetImageId() ); PLACE* place = new PLACE( comp ); comp->places.push_back( place ); place->SetRotation( module->m_Orient/10.0 ); place->SetVertex( mapPt( module->m_Pos ) ); place->component_id = componentId; place->part_number = CONV_TO_UTF8( module->GetValue() ); // module is flipped from bottom side, set side to T_back if( module->flag ) { int angle = 1800 - module->m_Orient; NORMALIZE_ANGLE_POS(angle); place->SetRotation( angle/10.0 ); place->side = T_back; } } // copy the SPECCTRA_DB::padstackset to the LIBRARY. Since we are // removing, do not increment the iterator for( PADSTACKSET::iterator i=padstackset.begin(); i!=padstackset.end(); i=padstackset.begin() ) { PADSTACKSET::auto_type ps = padstackset.release( i ); PADSTACK* padstack = ps.release(); pcb->library->AddPadstack( padstack ); } // copy our SPECCTRA_DB::nets to the pcb->network for( unsigned n=1; npins.size() ) { // give ownership to pcb->network pcb->network->nets.push_back( net ); nets[n] = 0; } } } //-----< output the vias >----------------------------------------------- { // ASSUME: unique pads are now in the padstack list! i.e. this code // must follow the initial padstack construction code. // Next we add the via's which may be used. int defaultViaSize = aBoard->m_BoardSettings->m_CurrentViaSize; /* I need at least one via for the (class...) scope below if( defaultViaSize ) */ { PADSTACK* padstack = makeVia( defaultViaSize, g_DesignSettings.m_ViaDrill, 0, aBoard->GetCopperLayerCount()-1 ); pcb->library->AddPadstack( padstack ); // remember this index, it is the default via and also the start of the // vias within the padstack list. Before this index are the pads. // At this index and later are the vias. pcb->library->SetViaStartIndex( pcb->library->padstacks.size()-1 ); } for( int i=0; im_BoardSettings->m_ViaSizeHistory[i]; if( !viaSize ) break; if( viaSize == defaultViaSize ) continue; PADSTACK* padstack = makeVia( viaSize, g_DesignSettings.m_ViaDrill, 0, aBoard->GetCopperLayerCount()-1 ); pcb->library->AddPadstack( padstack ); } } #if 1 // do existing wires and vias //---------------------------------------- { // export all of them for now, later we'll decide what controls we need // on this. static const KICAD_T scanTRACKs[] = { TYPETRACK, EOT }; items.Collect( aBoard, scanTRACKs ); std::string netname; WIRING* wiring = pcb->wiring; PATH* path = 0; int old_netcode = -1; int old_width = -1; int old_layer = -1; for( int i=0; iGetNet(); if( netcode == 0 ) continue; if( old_netcode != netcode || old_width != track->m_Width || old_layer != track->GetLayer() || (path && path->points.back() != mapPt(track->m_Start) ) ) { old_width = track->m_Width; old_layer = track->GetLayer(); if( old_netcode != netcode ) { old_netcode = netcode; EQUIPOT* equipot = aBoard->FindNet( netcode ); wxASSERT( equipot ); netname = CONV_TO_UTF8( equipot->m_Netname ); } WIRE* wire = new WIRE( wiring ); wiring->wires.push_back( wire ); wire->net_id = netname; wire->wire_type = T_protect; // @todo, this should be configurable int kiLayer = track->GetLayer(); int pcbLayer = kicadLayer2pcb[kiLayer]; path = new PATH( wire ); wire->SetShape( path ); path->layer_id = layerIds[pcbLayer]; path->aperture_width = scale( old_width ); path->AppendPoint( mapPt( track->m_Start ) ); } path->AppendPoint( mapPt( track->m_End ) ); } } //---------------------- { // export all of them for now, later we'll decide what controls we need // on this. static const KICAD_T scanVIAs[] = { TYPEVIA, EOT }; items.Collect( aBoard, scanVIAs ); for( int i=0; iType() == TYPEVIA ); int netcode = via->GetNet(); if( netcode == 0 ) continue; PADSTACK* padstack = makeVia( via ); PADSTACK* registered = pcb->library->LookupVia( padstack ); if( padstack != registered ) { delete padstack; } WIRE_VIA* dsnVia = new WIRE_VIA( pcb->wiring ); pcb->wiring->wire_vias.push_back( dsnVia ); dsnVia->padstack_id = registered->padstack_id; dsnVia->vertexes.push_back( mapPt( via->GetPosition() ) ); EQUIPOT* equipot = aBoard->FindNet( netcode ); wxASSERT( equipot ); dsnVia->net_id = CONV_TO_UTF8( equipot->m_Netname ); dsnVia->via_type = T_protect; // @todo, this should be configurable } } #endif // do existing wires and vias //------------------------------------------------------ { // Output the vias in the padstack list here, by name. This must // be done after exporting existing vias as WIRE_VIAs. VIA* vias = pcb->structure->via; PADSTACKS& padstacks = pcb->library->padstacks; int viaNdx = pcb->library->via_start_index; if( viaNdx != -1 ) { #if 1 for( ; viaNdx < (int)padstacks.size(); ++viaNdx ) { vias->AppendVia( padstacks[viaNdx].padstack_id.c_str() ); } #else // output only the default via. Then use class_descriptors to // override the default. No, this causes free router not to // output the unmentioned vias into the session file. vias->AppendVia( padstacks[viaNdx].padstack_id.c_str() ); #endif } } //------- { char text[80]; STRINGSET netIds; // sort the net names in here CLASS* clazz = new CLASS( pcb->network ); pcb->network->classes.push_back( clazz ); // freerouter creates a class named 'default' anyway, and if we // try and use that, we end up with two 'default' via rules so use // something else as the name of our default class. Someday we may support // additional classes. Until then the user can text edit the exported // DSN file and use this class as a template, copying it and giving the // copy a different class_id and splitting out some of the nets. clazz->class_id = "kicad_default"; // Insert all the net_ids into the set. They are unique, but even if // they were not the duplicated name is not our error, but the BOARD's. // A duplicate would be removed here. NETS& nets = pcb->network->nets; for( NETS::iterator i=nets.begin(); i!=nets.end(); ++i ) netIds.insert( i->net_id ); // netIds is now sorted, put them into clazz->net_ids for( STRINGSET::iterator i=netIds.begin(); i!=netIds.end(); ++i ) clazz->net_ids.push_back( *i ); // output the via and track dimensions, the whole reason for this scope. int curTrackWidth = aBoard->m_BoardSettings->m_CurrentTrackWidth; clazz->rules = new RULE( clazz, T_rule ); sprintf( text, "(width %.6g)", scale( curTrackWidth ) ); clazz->rules->rules.push_back( text ); int viaNdx = pcb->library->via_start_index; sprintf( text, "(use_via %s)", pcb->library->padstacks[viaNdx].padstack_id.c_str() ); clazz->circuit.push_back( text ); } } void SPECCTRA_DB::FlipMODULEs( BOARD* aBoard ) { for( MODULE* module = aBoard->m_Modules; module; module = module->Next() ) { module->flag = 0; if( module->GetLayer() == COPPER_LAYER_N ) { aBoard->Change_Side_Module( module, NULL ); module->flag = 1; } } modulesAreFlipped = true; } void SPECCTRA_DB::RevertMODULEs( BOARD* aBoard ) { if( !modulesAreFlipped ) return; // DSN Images (=Kicad MODULES and pads) must be presented from the // top view. Restore those that were flipped. for( MODULE* module = aBoard->m_Modules; module; module = module->Next() ) { if( module->flag ) { aBoard->Change_Side_Module( module, NULL ); module->flag = 0; } } modulesAreFlipped = false; } } // namespace DSN