/************************************************/ /* export_gencad.cpp - export GenCAD 1.4 format */ /************************************************/ #include "fctsys.h" #include "class_drawpanel.h" #include "confirm.h" #include "gestfich.h" #include "appl_wxstruct.h" #include "pcbnew.h" #include "wxPcbStruct.h" #include "trigo.h" #include "build_version.h" bool CreateHeaderInfoData( FILE* file, PCB_EDIT_FRAME* frame ); static void CreateTracksInfoData( FILE* file, BOARD* pcb ); static void CreateBoardSection( FILE* file, BOARD* pcb ); static void CreateComponentsSection( FILE* file, BOARD* pcb ); static void CreateDevicesSection( FILE* file, BOARD* pcb ); static void CreateRoutesSection( FILE* file, BOARD* pcb ); static void CreateSignalsSection( FILE* file, BOARD* pcb ); static void CreateShapesSection( FILE* file, BOARD* pcb ); static void CreatePadsShapesSection( FILE* file, BOARD* pcb ); static void CreatePadsStacksSection( FILE* file, BOARD* pcb ); static void FootprintWriteShape( FILE* File, MODULE* module ); // layer name for Gencad export static const wxString GenCAD_Layer_Name[32] = { wxT( "BOTTOM" ), wxT( "INNER1" ), wxT( "INNER2" ), wxT( "INNER3" ), wxT( "INNER4" ), wxT( "INNER5" ), wxT( "INNER6" ), wxT( "INNER7" ), wxT( "INNER8" ), wxT( "INNER9" ), wxT( "INNER10" ), wxT( "INNER11" ), wxT( "INNER12" ), wxT( "INNER13" ), wxT( "INNER14" ), wxT( "TOP" ), wxT( "adhecu" ), wxT( "adhecmp" ), wxT( "SOLDERPASTE_BOTTOM" ), wxT( "SOLDERPASTE_TOP" ), wxT( "SILKSCREEN_BOTTOM" ), wxT( "SILKSCREEN_TOP" ), wxT( "SOLDERMASK_BOTTOM" ), wxT( "SOLDERMASK_TOP" ), wxT( "drawings" ), wxT( "comments" ), wxT( "eco1" ), wxT( "eco2" ), wxT( "edges" ), wxT( "--" ), wxT( "--" ), wxT( "--" ) }; int offsetX, offsetY; D_PAD* PadList; /* 2 helper functions to calculate coordinates of modules in gencad values ( * GenCAD Y axis from bottom to top) */ static int mapXto( int x ) { return x - offsetX; } static int mapYto( int y ) { return offsetY - y; } /* * Creates an Export file (format GenCAD 1.4) from the current board. */ void PCB_EDIT_FRAME::ExportToGenCAD( wxCommandEvent& event ) { wxFileName fn = GetScreen()->GetFileName(); wxString msg, ext, wildcard; FILE* file; ext = wxT( "cad" ); wildcard = _( "GenCAD 1.4 board files (.cad)|*.cad" ); fn.SetExt( ext ); wxFileDialog dlg( this, _( "Save GenCAD Board File" ), wxGetCwd(), fn.GetFullName(), wildcard, wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); if( dlg.ShowModal() == wxID_CANCEL ) return; if( ( file = wxFopen( dlg.GetPath(), wxT( "wt" ) ) ) == NULL ) { msg = _( "Unable to create " ) + dlg.GetPath(); DisplayError( this, msg ); return; } /* Update some board data, to ensure a reliable gencad export: */ GetBoard()->ComputeBoundingBox(); offsetX = m_Auxiliary_Axis_Position.x; offsetY = m_Auxiliary_Axis_Position.y; Compile_Ratsnest( NULL, TRUE ); /* Temporary modification of footprints that are flipped (i.e. on bottom * layer) to convert them to non flipped footprints. * This is necessary to easily export shapes to GenCAD, * that are given as normal orientation (non flipped, rotation = 0)) * these changes will be undone later */ MODULE* module; for( module = GetBoard()->m_Modules; module != NULL; module = module->Next() ) { module->flag = 0; if( module->GetLayer() == LAYER_N_BACK ) { module->Flip( module->m_Pos ); module->flag = 1; } } // Create file header: CreateHeaderInfoData( file, this ); CreateBoardSection( file, GetBoard() ); /* Create TRACKS list * This is the section $TRACK) (track width sizes) */ CreateTracksInfoData( file, GetBoard() ); /* Create the shapes list * (shapes of pads and footprints */ CreatePadsShapesSection( file, GetBoard() ); /* Must be called * before * CreatePadsStacksSection * and * CreateShapesSection() */ CreatePadsStacksSection( file, GetBoard() ); CreateShapesSection( file, GetBoard() ); CreateDevicesSection( file, GetBoard() ); CreateComponentsSection( file, GetBoard() ); /* Create the list of Nets: */ CreateSignalsSection( file, GetBoard() ); // Creates the Routes section (i.e. the list of board tracks) CreateRoutesSection( file, GetBoard() ); fclose( file ); /* Undo the footprints modifications (flipped footprints) */ for( module = GetBoard()->m_Modules; module != NULL; module = module->Next() ) { if( module->flag ) { module->Flip( module->m_Pos ); module->flag = 0; } } } static int Pad_list_Sort_by_Shapes( const void* refptr, const void* objptr ) { const D_PAD* padref = *(D_PAD**) refptr; const D_PAD* padcmp = *(D_PAD**) objptr; return D_PAD::Compare( padref, padcmp ); } /* Creates the pads shapes list ( 1 shape per pad ) * Uses .GetSubRatsnest member of class D_PAD, to handle the shape id (value 1 * ..n) for pads shapes PAD1 to PADn * * The PADS section is used to describe the shape of all the pads used on the * printed circuit board. The PADS section must be included, even if only a * default pad is described and used for all pads. * The keywords used in the PADS section are: * $PADS * PAD * LINE * ARC * CIRCLE * RECTANGLE * ATTRIBUTE * $ENDPADS * $PADS and $ENDPADS mark the PADS section of the GenCAD file. Each pad * description must start with a PAD keyword. * The layer in which a pad lies is defined in the SHAPE section of the GenCAD * specification. * The pad is always placed on a shape at the pad origin, or in a pad stack at * the pad stack origin. */ void CreatePadsShapesSection( FILE* file, BOARD* pcb ) { std::vector pads; const char* pad_type; fputs( "$PADS\n", file ); if( pcb->GetPadsCount() > 0 ) { pads.insert( pads.end(), pcb->m_NetInfo->m_PadsFullList.begin(), pcb->m_NetInfo->m_PadsFullList.end() ); qsort( &pads[0], pcb->GetPadsCount(), sizeof( D_PAD* ), Pad_list_Sort_by_Shapes ); } D_PAD* old_pad = NULL; int pad_name_number = 0; for( unsigned i = 0; iSetSubRatsnest( pad_name_number ); if( old_pad && 0==D_PAD::Compare( old_pad, pad ) ) continue; // already created old_pad = pad; pad_name_number++; pad->SetSubRatsnest( pad_name_number ); fprintf( file, "PAD PAD%d", pad->GetSubRatsnest() ); int dx = pad->m_Size.x / 2; int dy = pad->m_Size.y / 2; switch( pad->m_PadShape ) { default: case PAD_CIRCLE: pad_type = "ROUND"; fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x ); fprintf( file, "CIRCLE %d %d %d\n", pad->m_Offset.x, -pad->m_Offset.y, dx ); break; case PAD_RECT: pad_type = "RECTANGULAR"; fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x ); fprintf( file, "RECTANGLE %d %d %d %d\n", pad->m_Offset.x - dx, -pad->m_Offset.y - dy, pad->m_Size.x, pad->m_Size.y ); break; case PAD_OVAL: /* Create outline by 2 lines and 2 arcs */ { pad_type = "FINGER"; fprintf( file, " %s %d\n", pad_type, pad->m_Drill.x ); int dr = dx - dy; if( dr >= 0 ) // Horizontal oval { int rayon = dy; fprintf( file, "LINE %d %d %d %d\n", -dr + pad->m_Offset.x, -pad->m_Offset.y - rayon, dr + pad->m_Offset.x, -pad->m_Offset.y - rayon ); fprintf( file, "ARC %d %d %d %d %d %d\n", dr + pad->m_Offset.x, -pad->m_Offset.y - rayon, dr + pad->m_Offset.x, -pad->m_Offset.y + rayon, dr + pad->m_Offset.x, -pad->m_Offset.y ); fprintf( file, "LINE %d %d %d %d\n", dr + pad->m_Offset.x, -pad->m_Offset.y + rayon, -dr + pad->m_Offset.x, -pad->m_Offset.y + rayon ); fprintf( file, "ARC %d %d %d %d %d %d\n", -dr + pad->m_Offset.x, -pad->m_Offset.y + rayon, -dr + pad->m_Offset.x, -pad->m_Offset.y - rayon, -dr + pad->m_Offset.x, -pad->m_Offset.y ); } else // Vertical oval { dr = -dr; int rayon = dx; fprintf( file, "LINE %d %d %d %d\n", -rayon + pad->m_Offset.x, -pad->m_Offset.y - dr, -rayon + pad->m_Offset.x, -pad->m_Offset.y + dr ); fprintf( file, "ARC %d %d %d %d %d %d\n", -rayon + pad->m_Offset.x, -pad->m_Offset.y + dr, rayon + pad->m_Offset.x, -pad->m_Offset.y + dr, pad->m_Offset.x, -pad->m_Offset.y + dr ); fprintf( file, "LINE %d %d %d %d\n", rayon + pad->m_Offset.x, -pad->m_Offset.y + dr, rayon + pad->m_Offset.x, -pad->m_Offset.y - dr ); fprintf( file, "ARC %d %d %d %d %d %d\n", rayon + pad->m_Offset.x, -pad->m_Offset.y - dr, -rayon + pad->m_Offset.x, -pad->m_Offset.y - dr, pad->m_Offset.x, -pad->m_Offset.y - dr ); } break; } case PAD_TRAPEZOID: pad_type = "POLYGON"; break; } } fputs( "$ENDPADS\n\n", file ); } /*The PADSTACKS section is optional, and is used to describe how a group of * pads are * arranged. The keywords used in the PADSTACKS section are: * $PADSTACKS * PADSTACK * PAD * ATTRIBUTE * $ENDPADSTACKS * $PADSTACKS and $ENDPADSTACKS mark the PADSTACKS section of the GenCAD file. */ void CreatePadsStacksSection( FILE* file, BOARD* pcb ) { fputs( "$PADSTACKS\n", file ); fputs( "$ENDPADSTACKS\n\n", file ); } /* Creates the footprint shape list. * We must use one shape for identical footprint (i.e. come from the same * footprint in lib) * But because pads shapes and positions can be easily modified on board, * a shape is created by footprint found. * (todo : compare footprints shapes and creates only one shape for all * footprints found having the same shape) * The shape is always given in orientation 0, position 0 not flipped * * Syntax: * $SHAPES * SHAPE * INSERT here = "TH" * shape_descr (line, arc ..) * PIN * * SHAPE * .. * $ENDSHAPES */ void CreateShapesSection( FILE* file, BOARD* pcb ) { MODULE* module; D_PAD* pad; const char* layer; int orient; wxString pinname; const char* mirror = "0"; fputs( "$SHAPES\n", file ); for( module = pcb->m_Modules; module != NULL; module = module->Next() ) { FootprintWriteShape( file, module ); for( pad = module->m_Pads; pad != NULL; pad = pad->Next() ) { layer = "ALL"; if( ( pad->m_Masque_Layer & ALL_CU_LAYERS ) == LAYER_BACK ) { if( module->GetLayer() == LAYER_N_FRONT ) layer = "BOTTOM"; else layer = "TOP"; } else if( ( pad->m_Masque_Layer & ALL_CU_LAYERS ) == LAYER_FRONT ) { if( module->GetLayer() == LAYER_N_FRONT ) layer = "TOP"; else layer = "BOTTOM"; } pad->ReturnStringPadName( pinname ); if( pinname.IsEmpty() ) pinname = wxT( "noname" ); orient = pad->m_Orient - module->m_Orient; NORMALIZE_ANGLE_POS( orient ); fprintf( file, "PIN %s PAD%d %d %d %s %d %s", TO_UTF8( pinname ), pad->GetSubRatsnest(), pad->m_Pos0.x, -pad->m_Pos0.y, layer, orient / 10, mirror ); if( orient % 10 ) fprintf( file, " .%d", orient % 10 ); fprintf( file, "\n" ); } } fputs( "$ENDSHAPES\n\n", file ); } /* Creates the section $COMPONENTS (Footprints placement) * When a footprint is on bottom side of the board:: * shapes are given with option "FLIP" and "MIRRORX". * - But shapes remain given like component not mirrored and not flipped * - orientation is given like if where not mirrored and not flipped. */ void CreateComponentsSection( FILE* file, BOARD* pcb ) { MODULE* module = pcb->m_Modules; TEXTE_MODULE* PtTexte; const char* mirror; const char* flip; int ii; fputs( "$COMPONENTS\n", file ); for( ; module != NULL; module = module->Next() ) { int orient = module->m_Orient; if( module->flag ) { mirror = "MIRRORX"; // Mirrored relative to X axis flip = "FLIP"; // Normal shape description ( gencad // viewer must show it flipped and // mirrored) NEGATE_AND_NORMALIZE_ANGLE_POS( orient ); } else { mirror = "0"; flip = "0"; } fprintf( file, "COMPONENT %s\n", TO_UTF8( module->m_Reference->m_Text ) ); fprintf( file, "DEVICE %s\n", TO_UTF8( module->m_Reference->m_Text ) ); fprintf( file, "PLACE %d %d\n", mapXto( module->m_Pos.x ), mapYto( module->m_Pos.y ) ); fprintf( file, "LAYER %s\n", (module->flag) ? "BOTTOM" : "TOP" ); fprintf( file, "ROTATION %d", orient / 10 ); if( orient % 10 ) fprintf( file, ".%d", orient % 10 ); fputs( "\n", file ); fprintf( file, "SHAPE %s %s %s\n", TO_UTF8( module->m_Reference->m_Text ), mirror, flip ); /* creates texts (ref and value) */ PtTexte = module->m_Reference; for( ii = 0; ii < 2; ii++ ) { int orient = PtTexte->m_Orient; wxString layer = GenCAD_Layer_Name[SILKSCREEN_N_FRONT]; fprintf( file, "TEXT %d %d %d %d.%d %s %s \"%s\"", PtTexte->m_Pos0.x, -PtTexte->m_Pos0.y, PtTexte->m_Size.x, orient / 10, orient % 10, mirror, TO_UTF8( layer ), TO_UTF8( PtTexte->m_Text ) ); fprintf( file, " 0 0 %d %d\n", (int) ( PtTexte->m_Size.x * PtTexte->m_Text.Len() ), (int) PtTexte->m_Size.y ); PtTexte = module->m_Value; } //put a comment: fprintf( file, "SHEET Part %s %s\n", TO_UTF8( module->m_Reference->m_Text ), TO_UTF8( module->m_Value->m_Text ) ); } fputs( "$ENDCOMPONENTS\n\n", file ); } /* Creates the list of Nets: * $SIGNALS * SIGNAL * NODE * ... * NODE * $ENDSIGNALS */ void CreateSignalsSection( FILE* file, BOARD* pcb ) { wxString msg; NETINFO_ITEM* net; D_PAD* pad; MODULE* module; int NbNoConn = 1; fputs( "$SIGNALS\n", file ); for( unsigned ii = 0; ii < pcb->m_NetInfo->GetCount(); ii++ ) { net = pcb->m_NetInfo->GetNetItem( ii ); if( net->GetNetname() == wxEmptyString ) // dummy netlist (no // connection) { wxString msg; msg << wxT( "NoConnection" ) << NbNoConn++; net->SetNetname( msg ); } if( net->GetNet() <= 0 ) // dummy netlist (no connection) continue; msg = wxT( "SIGNAL " ) + net->GetNetname(); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); for( module = pcb->m_Modules; module != NULL; module = module->Next() ) { for( pad = module->m_Pads; pad != NULL; pad = pad->Next() ) { wxString padname; if( pad->GetNet() != net->GetNet() ) continue; pad->ReturnStringPadName( padname ); msg.Printf( wxT( "NODE %s %.4s" ), GetChars( module->m_Reference->m_Text ), GetChars( padname ) ); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); } } } fputs( "$ENDSIGNALS\n\n", file ); } /* Creates the section $HEADER ... $ENDHEADER */ bool CreateHeaderInfoData( FILE* file, PCB_EDIT_FRAME* frame ) { wxString msg; PCB_SCREEN* screen = (PCB_SCREEN*) ( frame->GetScreen() ); fputs( "$HEADER\n", file ); fputs( "GENCAD 1.4\n", file ); msg = wxT( "USER " ) + wxGetApp().GetAppName() + wxT( " " ) + GetBuildVersion(); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); msg = wxT( "DRAWING " ) + screen->GetFileName(); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); msg = wxT( "REVISION " ) + screen->m_Revision + wxT( " " ) + screen->m_Date; fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); msg.Printf( wxT( "UNITS USER %d" ), PCB_INTERNAL_UNIT ); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); msg.Printf( wxT( "ORIGIN %d %d" ), mapXto( frame->m_Auxiliary_Axis_Position.x ), mapYto( frame->m_Auxiliary_Axis_Position.y ) ); fputs( TO_UTF8( msg ), file ); fputs( "\n", file ); fputs( "INTERTRACK 0\n", file ); fputs( "$ENDHEADER\n\n", file ); return TRUE; } /* * Sort function used to sort tracks segments: * items are sorted by netcode, then by width then by layer */ static int Track_list_Sort_by_Netcode( const void* refptr, const void* objptr ) { const TRACK* ref, * cmp; int diff; ref = *( (TRACK**) refptr ); cmp = *( (TRACK**) objptr ); if( ( diff = ref->GetNet() - cmp->GetNet() ) ) return diff; if( ( diff = ref->m_Width - cmp->m_Width ) ) return diff; if( ( diff = ref->GetLayer() - cmp->GetLayer() ) ) return diff; return 0; } /* Creates the section ROUTES * that handles tracks, vias * TODO: add zones * section: * $ROUTE * ... * $ENROUTE * Track segments must be sorted by nets */ void CreateRoutesSection( FILE* file, BOARD* pcb ) { TRACK* track, ** tracklist; int vianum = 1; int old_netcode, old_width, old_layer; int nbitems, ii; // Count items nbitems = 0; for( track = pcb->m_Track; track != NULL; track = track->Next() ) nbitems++; for( track = pcb->m_Zone; track != NULL; track = track->Next() ) { if( track->Type() == TYPE_ZONE ) nbitems++; } tracklist = (TRACK**) MyMalloc( (nbitems + 1) * sizeof(TRACK*) ); nbitems = 0; for( track = pcb->m_Track; track != NULL; track = track->Next() ) tracklist[nbitems++] = track; for( track = pcb->m_Zone; track != NULL; track = track->Next() ) { if( track->Type() == TYPE_ZONE ) tracklist[nbitems++] = track; } tracklist[nbitems] = NULL; qsort( tracklist, nbitems, sizeof(TRACK*), Track_list_Sort_by_Netcode ); fputs( "$ROUTES\n", file ); old_netcode = -1; old_width = -1; old_layer = -1; for( ii = 0; ii < nbitems; ii++ ) { track = tracklist[ii]; if( old_netcode != track->GetNet() ) { old_netcode = track->GetNet(); NETINFO_ITEM* net = pcb->FindNet( track->GetNet() ); wxString netname; if( net && (net->GetNetname() != wxEmptyString) ) netname = net->GetNetname(); else netname = wxT( "_noname_" ); fprintf( file, "ROUTE %s\n", TO_UTF8( netname ) ); } if( old_width != track->m_Width ) { old_width = track->m_Width; fprintf( file, "TRACK TRACK%d\n", track->m_Width ); } if( (track->Type() == TYPE_TRACK) || (track->Type() == TYPE_ZONE) ) { if( old_layer != track->GetLayer() ) { old_layer = track->GetLayer(); fprintf( file, "LAYER %s\n", TO_UTF8( GenCAD_Layer_Name[track->GetLayer() & 0x1F] ) ); } fprintf( file, "LINE %d %d %d %d\n", mapXto( track->m_Start.x ), mapYto( track->m_Start.y ), mapXto( track->m_End.x ), mapYto( track->m_End.y ) ); } if( track->Type() == TYPE_VIA ) { fprintf( file, "VIA viapad%d %d %d ALL %d via%d\n", track->m_Width, mapXto( track->m_Start.x ), mapYto( track->m_Start.y ), track->GetDrillValue(), vianum++ ); } } fputs( "$ENDROUTES\n\n", file ); free( tracklist ); } /* Creates the section $DEVICES * This is a list of footprints properties * ( Shapes are in section $SHAPE ) */ void CreateDevicesSection( FILE* file, BOARD* pcb ) { MODULE* module; D_PAD* pad; fputs( "$DEVICES\n", file ); for( module = pcb->m_Modules; module != NULL; module = module->Next() ) { fprintf( file, "DEVICE %s\n", TO_UTF8( module->m_Reference->m_Text ) ); fprintf( file, "PART %s\n", TO_UTF8( module->m_LibRef ) ); fprintf( file, "TYPE %s\n", "UNKNOWN" ); for( pad = module->m_Pads; pad != NULL; pad = pad->Next() ) { fprintf( file, "PINDESCR %.4s", pad->m_Padname ); if( pad->GetNetname() == wxEmptyString ) fputs( " NoConn\n", file ); else fprintf( file, " %.4s\n", pad->m_Padname ); } fprintf( file, "ATTRIBUTE %s\n", TO_UTF8( module->m_Value->m_Text ) ); } fputs( "$ENDDEVICES\n\n", file ); } /* Creates the section $BOARD. * We output here only the board boundary box */ void CreateBoardSection( FILE* file, BOARD* pcb ) { fputs( "$BOARD\n", file ); fprintf( file, "LINE %d %d %d %d\n", mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.m_Pos.y ), mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.m_Pos.y ) ); fprintf( file, "LINE %d %d %d %d\n", mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.m_Pos.y ), mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.GetBottom() ) ); fprintf( file, "LINE %d %d %d %d\n", mapXto( pcb->m_BoundaryBox.GetRight() ), mapYto( pcb->m_BoundaryBox.GetBottom() ), mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.GetBottom() ) ); fprintf( file, "LINE %d %d %d %d\n", mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.GetBottom() ), mapXto( pcb->m_BoundaryBox.m_Pos.x ), mapYto( pcb->m_BoundaryBox.m_Pos.y ) ); fputs( "$ENDBOARD\n\n", file ); } /* Creates the section "$TRACKS" * This sections give the list of widths (tools) used in tracks and vias * format: * $TRACK * TRACK * $ENDTRACK * * Each tool name is build like this: "TRACK" + track width. * For instance for a width = 120 : name = "TRACK120". */ void CreateTracksInfoData( FILE* file, BOARD* pcb ) { TRACK* track; int last_width = -1; /* Find thickness used for traces. */ std::vector trackinfo; unsigned ii; for( track = pcb->m_Track; track != NULL; track = track->Next() ) { if( last_width != track->m_Width ) // Find a thickness already used. { for( ii = 0; ii < trackinfo.size(); ii++ ) { if( trackinfo[ii] == track->m_Width ) break; } if( ii == trackinfo.size() ) // not found trackinfo.push_back( track->m_Width ); last_width = track->m_Width; } } for( track = pcb->m_Zone; track != NULL; track = track->Next() ) { if( last_width != track->m_Width ) // Find a thickness already used. { for( ii = 0; ii < trackinfo.size(); ii++ ) { if( trackinfo[ii] == track->m_Width ) break; } if( ii == trackinfo.size() ) // not found trackinfo.push_back( track->m_Width ); last_width = track->m_Width; } } // Write data fputs( "$TRACKS\n", file ); for( ii = 0; ii < trackinfo.size(); ii++ ) { fprintf( file, "TRACK TRACK%d %d\n", trackinfo[ii], trackinfo[ii] ); } fputs( "$ENDTRACKS\n\n", file ); } /* Creates the shape of a footprint (section SHAPE) * The shape is always given "normal" (Orient 0, not mirrored) * Syntax: * SHAPE * INSERT here = "TH" * shape_descr (line, arc ..): * LINE startX startY endX endY * ARC startX startY endX endY centreX centreY * PAD_CIRCLE centreX scentreY radius */ void FootprintWriteShape( FILE* file, MODULE* module ) { EDGE_MODULE* edge; EDA_ITEM* item; int y_axis_sign = -1; // Control Y axis change sign (as normal // module / mirror axis and conventions) /* creates header: */ fprintf( file, "SHAPE %s\n", TO_UTF8( module->m_Reference->m_Text ) ); fprintf( file, "INSERT %s\n", (module->m_Attributs & MOD_CMS) ? "SMD" : "TH" ); /* creates Attributes */ if( module->m_Attributs != MOD_DEFAULT ) { fprintf( file, "ATTRIBUTE" ); if( module->m_Attributs & MOD_CMS ) fprintf( file, " PAD_SMD" ); if( module->m_Attributs & MOD_VIRTUAL ) fprintf( file, " VIRTUAL" ); fprintf( file, "\n" ); } /* creates Drawing */ item = module->m_Drawings; for( ; item != NULL; item = item->Next() ) { switch( item->Type() ) { case TYPE_TEXTE_MODULE: break; case TYPE_EDGE_MODULE: edge = (EDGE_MODULE*) item; switch( edge->m_Shape ) { case S_SEGMENT: fprintf( file, "LINE %d %d %d %d\n", edge->m_Start0.x, y_axis_sign * edge->m_Start0.y, edge->m_End0.x, y_axis_sign * edge->m_End0.y ); break; case S_CIRCLE: { int rayon = (int) hypot( (double) ( edge->m_End0.x - edge->m_Start0.x ), (double) ( edge->m_End0.y - edge->m_Start0.y ) ); fprintf( file, "CIRCLE %d %d %d\n", edge->m_Start0.x, y_axis_sign * edge->m_Start0.y, rayon ); break; } case S_ARC: /* print ARC x,y start x,y end x,y center */ { // Arcs are defined counter clockwise (positive trigonometric) // from the start point to the end point (0 to 360 degrees) wxPoint arcStart, arcEnd; // edge->m_Start0 is the arc center relative to the shape position // edge->m_End0 is the arc start point relative to the shape position arcStart = edge->m_End0; // calculate arcEnd arc end point relative to the shape position, in pcbnew coordinates arcEnd = arcStart; RotatePoint( &arcEnd, edge->m_Start0, -edge->m_Angle ); // due to difference between pcbnew and gencad, swap arc start and arc end EXCHG(arcEnd, arcStart); // print arc shape: fprintf( file, "ARC %d %d %d %d %d %d\n", arcStart.x, y_axis_sign * arcStart.y, // Start point arcEnd.x, y_axis_sign * arcEnd.y, // End point edge->m_Start0.x, y_axis_sign * edge->m_Start0.y ); break; } default: DisplayError( NULL, wxT( "Type Edge Module invalid." ) ); break; } /* end switch PtEdge->m_Shape */ break; default: break; } /* End switch Items type */ } }