/*****************/ /* netlist.cpp */ /*****************/ #include "fctsys.h" #include "common.h" #include "program.h" #include "general.h" #include "netlist.h" #include "protos.h" #include "class_library.h" #include "lib_pin.h" #include "algorithm" // Buffer to build the list of items used in netlist and erc calculations NETLIST_OBJECT_LIST g_NetObjectslist; //#define NETLIST_DEBUG static void PropageNetCode( int OldNetCode, int NewNetCode, int IsBus ); static void SheetLabelConnect( NETLIST_OBJECT* SheetLabel ); static void AddConnectedObjects( SCH_SHEET_PATH* sheetlist, NETLIST_OBJECT_LIST& aNetItemBuffer ); static int ConvertBusToMembers( NETLIST_OBJECT_LIST& aNetItemBuffer, NETLIST_OBJECT& ObjNet ); static void PointToPointConnect( NETLIST_OBJECT* Ref, int IsBus, int start ); static void SegmentToPointConnect( NETLIST_OBJECT* Jonction, int IsBus, int start ); static void LabelConnect( NETLIST_OBJECT* Label ); static void ConnectBusLabels( NETLIST_OBJECT_LIST& aNetItemBuffer ); static void SetUnconnectedFlag( NETLIST_OBJECT_LIST& aNetItemBuffer ); static void FindBestNetNameForEachNet( NETLIST_OBJECT_LIST& aNetItemBuffer ); static NETLIST_OBJECT* FindBestNetName( NETLIST_OBJECT_LIST& aLabelItemBuffer ); // Sort functions used here: static bool SortItemsbyNetcode( const NETLIST_OBJECT* Objet1, const NETLIST_OBJECT* Objet2 ); static bool SortItemsBySheet( const NETLIST_OBJECT* Objet1, const NETLIST_OBJECT* Objet2 ); // Local variables static int FirstNumWireBus, LastNumWireBus, RootBusNameLength; static int LastNetCode, LastBusNetCode; #if defined(DEBUG) void dumpNetTable() { for( unsigned idx = 0; idx < g_NetObjectslist.size(); ++idx ) { g_NetObjectslist[idx]->Show( std::cout, idx ); } } #endif /* * Routine to free memory used to calculate the netlist TabNetItems = pointer * to the main table (list items) */ void FreeNetObjectsList( NETLIST_OBJECT_LIST& aNetObjectsBuffer ) { for( unsigned i = 0; i < aNetObjectsBuffer.size(); i++ ) delete aNetObjectsBuffer[i]; aNetObjectsBuffer.clear(); } /* * Build net list connection table. * * Updates: * g_NetObjectslist */ void WinEDA_SchematicFrame::BuildNetListBase() { int NetNumber; int NetCode; SCH_SHEET_PATH* sheet; wxString msg, activity; wxBusyCursor Busy; NetNumber = 1; activity = _( "Building net list:" ); SetStatusText( activity ); FreeNetObjectsList( g_NetObjectslist ); /* Build the sheet (not screen) list (flattened)*/ SCH_SHEET_LIST SheetListList; /* Fill g_NetObjectslist with items used in connectivity calculation */ sheet = SheetListList.GetFirst(); for( ; sheet != NULL; sheet = SheetListList.GetNext() ) AddConnectedObjects( sheet, g_NetObjectslist ); if( g_NetObjectslist.size() == 0 ) return; // no objects activity << wxT( " " ) << _( "net count =" ) << wxT( " " ) << g_NetObjectslist.size(); SetStatusText( activity ); /* Sort objects by Sheet */ sort( g_NetObjectslist.begin(), g_NetObjectslist.end(), SortItemsBySheet ); activity << wxT( ", " ) << _( "connections" ) << wxT( "..." ); SetStatusText( activity ); sheet = &(g_NetObjectslist[0]->m_SheetList); LastNetCode = LastBusNetCode = 1; for( unsigned ii = 0, istart = 0; ii < g_NetObjectslist.size(); ii++ ) { NETLIST_OBJECT* net_item = g_NetObjectslist[ii]; if( net_item->m_SheetList != *sheet ) // Sheet change { sheet = &(net_item->m_SheetList); istart = ii; } switch( net_item->m_Type ) { case NET_ITEM_UNSPECIFIED: wxMessageBox( wxT( "BuildNetListBase() error" ) ); break; case NET_PIN: case NET_PINLABEL: case NET_SHEETLABEL: case NET_NOCONNECT: if( net_item->GetNet() != 0 ) break; case NET_SEGMENT: /* Control connections point to point type without bus. */ if( net_item->GetNet() == 0 ) { net_item->SetNet( LastNetCode ); LastNetCode++; } PointToPointConnect( net_item, 0, istart ); break; case NET_JONCTION: /* Control of the junction outside BUS. */ if( net_item->GetNet() == 0 ) { net_item->SetNet( LastNetCode ); LastNetCode++; } SegmentToPointConnect( net_item, 0, istart ); /* Control of the junction, on BUS. */ if( net_item->m_BusNetCode == 0 ) { net_item->m_BusNetCode = LastBusNetCode; LastBusNetCode++; } SegmentToPointConnect( net_item, ISBUS, istart ); break; case NET_LABEL: case NET_HIERLABEL: case NET_GLOBLABEL: /* Control connections type junction without bus. */ if( net_item->GetNet() == 0 ) { net_item->SetNet( LastNetCode ); LastNetCode++; } SegmentToPointConnect( net_item, 0, istart ); break; case NET_SHEETBUSLABELMEMBER: if( net_item->m_BusNetCode != 0 ) break; case NET_BUS: /* Control type connections point to point mode bus */ if( net_item->m_BusNetCode == 0 ) { net_item->m_BusNetCode = LastBusNetCode; LastBusNetCode++; } PointToPointConnect( net_item, ISBUS, istart ); break; case NET_BUSLABELMEMBER: case NET_HIERBUSLABELMEMBER: case NET_GLOBBUSLABELMEMBER: /* Control connections similar has on BUS */ if( net_item->GetNet() == 0 ) { net_item->m_BusNetCode = LastBusNetCode; LastBusNetCode++; } SegmentToPointConnect( net_item, ISBUS, istart ); break; } } #if defined(NETLIST_DEBUG) && defined(DEBUG) std::cout << "\n\nafter sheet local\n\n"; dumpNetTable(); #endif activity << _( "done" ); SetStatusText( activity ); /* Updating the Bus Labels Netcode connected by Bus */ ConnectBusLabels( g_NetObjectslist ); activity << wxT( ", " ) << _( "bus labels" ) << wxT( "..." );; SetStatusText( activity ); /* Group objects by label. */ for( unsigned ii = 0; ii < g_NetObjectslist.size(); ii++ ) { switch( g_NetObjectslist[ii]->m_Type ) { case NET_PIN: case NET_SHEETLABEL: case NET_SEGMENT: case NET_JONCTION: case NET_BUS: case NET_NOCONNECT: break; case NET_LABEL: case NET_GLOBLABEL: case NET_PINLABEL: case NET_BUSLABELMEMBER: case NET_GLOBBUSLABELMEMBER: LabelConnect( g_NetObjectslist[ii] ); break; case NET_SHEETBUSLABELMEMBER: case NET_HIERLABEL: case NET_HIERBUSLABELMEMBER: break; case NET_ITEM_UNSPECIFIED: break; } } #if defined(NETLIST_DEBUG) && defined(DEBUG) std::cout << "\n\nafter sheet global\n\n"; dumpNetTable(); #endif activity << _( "done" ); SetStatusText( activity ); /* Connection hierarchy. */ activity << wxT( ", " ) << _( "hierarchy..." ); SetStatusText( activity ); for( unsigned ii = 0; ii < g_NetObjectslist.size(); ii++ ) { if( g_NetObjectslist[ii]->m_Type == NET_SHEETLABEL || g_NetObjectslist[ii]->m_Type == NET_SHEETBUSLABELMEMBER ) SheetLabelConnect( g_NetObjectslist[ii] ); } /* Sort objects by NetCode */ sort( g_NetObjectslist.begin(), g_NetObjectslist.end(), SortItemsbyNetcode ); #if defined(NETLIST_DEBUG) && defined(DEBUG) std::cout << "\n\nafter qsort()\n"; dumpNetTable(); #endif activity << _( "done" ); SetStatusText( activity ); /* Compress numbers of Netcode having consecutive values. */ LastNetCode = NetCode = 0; for( unsigned ii = 0; ii < g_NetObjectslist.size(); ii++ ) { if( g_NetObjectslist[ii]->GetNet() != LastNetCode ) { NetCode++; LastNetCode = g_NetObjectslist[ii]->GetNet(); } g_NetObjectslist[ii]->SetNet( NetCode ); } /* Assignment of m_FlagOfConnection based connection or not. */ SetUnconnectedFlag( g_NetObjectslist ); /* find the best label object to give the best net name to each net */ FindBestNetNameForEachNet( g_NetObjectslist ); } /** function FindBestNetNameForEachNet * fill the .m_NetNameCandidate member of each item of aNetItemBuffer * with a reference to the "best" NETLIST_OBJECT usable to give a name to the net * If no suitable object found, .m_NetNameCandidate is filled with 0. * The "best" NETLIST_OBJECT is a NETLIST_OBJECT that have the type label * and by priority order: * the label is global or local * the label is in the first sheet in a hierarchy (the root sheet has the most priority) * alphabetic order. */ void FindBestNetNameForEachNet( NETLIST_OBJECT_LIST& aNetItemBuffer ) { NETLIST_OBJECT_LIST candidates; int netcode = 0; // current netcode for tested items unsigned idxstart = 0; // index of the first item of this net for( unsigned ii = 0; ii <= aNetItemBuffer.size(); ii++ ) { NETLIST_OBJECT* item; if( ii == aNetItemBuffer.size() ) // last item already found netcode = -2; else item = aNetItemBuffer[ii]; if( netcode != item->GetNet() ) // End of net found { if( candidates.size() ) // One or more labels exists, find the best { NETLIST_OBJECT* bestlabel = FindBestNetName( candidates ); for (unsigned jj = idxstart; jj < ii; jj++ ) aNetItemBuffer[jj]->m_NetNameCandidate = bestlabel; } if( netcode == -2 ) break; netcode = item->GetNet(); candidates.clear(); idxstart = ii; } switch( item->m_Type ) { case NET_HIERLABEL: case NET_LABEL: case NET_PINLABEL: case NET_GLOBLABEL: candidates.push_back( item ); break; default: break; } } } /** Function FindBestNetName * @return a reference to the "best" label that can be used to give a name * to a net. * @param aLabelItemBuffer = list of NETLIST_OBJECT type labels candidates. * labels are local labels, hierarchical labels or pin labels * labels in included sheets have a lower priority than labels in the current sheet. * so labels inside the root sheet have the highter priority. * pin labels are global labels and have the highter priority * local labels have the lower priority * labels having the same priority are sorted by alphabetic order. * */ static NETLIST_OBJECT* FindBestNetName( NETLIST_OBJECT_LIST& aLabelItemBuffer ) { if( aLabelItemBuffer.size() == 0 ) return NULL; int priority_order[4] = { NET_LABEL, NET_HIERLABEL, NET_PINLABEL, NET_GLOBLABEL }; NETLIST_OBJECT*item = aLabelItemBuffer[0]; // Calculate item priority int item_priority = 0; for( unsigned ii = 0; ii < 4; ii++ ) { if ( item->m_Type == priority_order[ii] ) { item_priority = ii; break; } } for( unsigned ii = 1; ii < aLabelItemBuffer.size(); ii++ ) { NETLIST_OBJECT* candidate = aLabelItemBuffer[ii]; if( candidate->m_SheetList.Path().Length() < item->m_SheetList.Path().Length() ) { item = candidate; continue; } // Calculate candidate priority int candidate_priority = 0; for( unsigned ii = 0; ii < 4; ii++ ) { if ( candidate->m_Type == priority_order[ii] ) { candidate_priority = ii; break; } } if( candidate_priority > item_priority ) item = candidate; else if( candidate_priority == item_priority ) { if( candidate->m_Label.Cmp( item->m_Label ) < 0 ) item = candidate; } } return item; } /* * Connect sheets by sheetLabels */ static void SheetLabelConnect( NETLIST_OBJECT* SheetLabel ) { if( SheetLabel->GetNet() == 0 ) return; /* Calculate the number of nodes in the corresponding sheetlabel */ /* Comparison with SheetLabel GLABELS sub sheet to group Netcode */ for( unsigned ii = 0; ii < g_NetObjectslist.size(); ii++ ) { NETLIST_OBJECT* ObjetNet = g_NetObjectslist[ii]; if( ObjetNet->m_SheetList != SheetLabel->m_SheetListInclude ) continue; //use SheetInclude, not the sheet!! if( (ObjetNet->m_Type != NET_HIERLABEL ) && (ObjetNet->m_Type != NET_HIERBUSLABELMEMBER ) ) continue; if( ObjetNet->GetNet() == SheetLabel->GetNet() ) continue; //already connected. if( ObjetNet->m_Label.CmpNoCase( SheetLabel->m_Label ) != 0 ) continue; //different names. /* Propagate Netcode having all the objects of the same Netcode. */ if( ObjetNet->GetNet() ) PropageNetCode( ObjetNet->GetNet(), SheetLabel->GetNet(), 0 ); else ObjetNet->SetNet( SheetLabel->GetNet() ); } } /** Function AddConnectedObjects * Creates the list of objects related to connections (pins of components, * wires, labels, junctions ...) * * @param sheetlist: pointer to a sheetlist. * @param aNetItemBuffer: a std::vector to store pointer on NETLIST_OBJECT * created */ static void AddConnectedObjects( SCH_SHEET_PATH* sheetlist, std::vector& aNetItemBuffer ) { int ii; SCH_ITEM* DrawList; NETLIST_OBJECT* new_item; SCH_COMPONENT* DrawLibItem; LIB_COMPONENT* Entry; SCH_SHEET_PATH list; DrawList = sheetlist->LastScreen()->EEDrawList; for( ; DrawList; DrawList = DrawList->Next() ) { switch( DrawList->Type() ) { case DRAW_SEGMENT_STRUCT_TYPE: #undef STRUCT #define STRUCT ( (SCH_LINE*) DrawList ) if( (STRUCT->GetLayer() != LAYER_BUS) && (STRUCT->GetLayer() != LAYER_WIRE) ) break; new_item = new NETLIST_OBJECT(); new_item->m_SheetList = *sheetlist; new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = STRUCT; new_item->m_Start = STRUCT->m_Start; new_item->m_End = STRUCT->m_End; if( STRUCT->GetLayer() == LAYER_BUS ) { new_item->m_Type = NET_BUS; } else /* WIRE */ { new_item->m_Type = NET_SEGMENT; } aNetItemBuffer.push_back( new_item ); break; case DRAW_JUNCTION_STRUCT_TYPE: #undef STRUCT #define STRUCT ( (SCH_JUNCTION*) DrawList ) new_item = new NETLIST_OBJECT(); new_item->m_SheetList = *sheetlist; new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = STRUCT; new_item->m_Type = NET_JONCTION; new_item->m_Start = new_item->m_End = STRUCT->m_Pos; aNetItemBuffer.push_back( new_item ); break; case DRAW_NOCONNECT_STRUCT_TYPE: #undef STRUCT #define STRUCT ( (SCH_NO_CONNECT*) DrawList ) new_item = new NETLIST_OBJECT(); new_item->m_SheetList = *sheetlist; new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = STRUCT; new_item->m_Type = NET_NOCONNECT; new_item->m_Start = new_item->m_End = STRUCT->m_Pos; aNetItemBuffer.push_back( new_item ); break; case TYPE_SCH_LABEL: #undef STRUCT #define STRUCT ( (SCH_LABEL*) DrawList ) ii = IsBusLabel( STRUCT->m_Text ); new_item = new NETLIST_OBJECT(); new_item->m_SheetList = *sheetlist; new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = STRUCT; new_item->m_Type = NET_LABEL; if( STRUCT->m_Layer == LAYER_GLOBLABEL ) new_item->m_Type = NET_GLOBLABEL; if( STRUCT->m_Layer == LAYER_HIERLABEL ) new_item->m_Type = NET_HIERLABEL; new_item->m_Label = STRUCT->m_Text; new_item->m_Start = new_item->m_End = STRUCT->m_Pos; aNetItemBuffer.push_back( new_item ); /* If a bus connects to label */ if( ii ) ConvertBusToMembers( aNetItemBuffer, *new_item ); break; case TYPE_SCH_GLOBALLABEL: case TYPE_SCH_HIERLABEL: #undef STRUCT #define STRUCT ( (SCH_LABEL*) DrawList ) ii = IsBusLabel( STRUCT->m_Text ); new_item = new NETLIST_OBJECT(); new_item->m_SheetList = *sheetlist; new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = STRUCT; new_item->m_Type = NET_LABEL; // this is not the simplest way of doing it // (look at the case statement above). if( STRUCT->m_Layer == LAYER_GLOBLABEL ) new_item->m_Type = NET_GLOBLABEL; if( STRUCT->m_Layer == LAYER_HIERLABEL ) new_item->m_Type = NET_HIERLABEL; new_item->m_Label = STRUCT->m_Text; new_item->m_Start = new_item->m_End = STRUCT->m_Pos; aNetItemBuffer.push_back( new_item ); /* If a bus connects to label */ if( ii ) ConvertBusToMembers( aNetItemBuffer, *new_item ); break; case TYPE_SCH_COMPONENT: DrawLibItem = (SCH_COMPONENT*) DrawList; Entry = CMP_LIBRARY::FindLibraryComponent( DrawLibItem->m_ChipName ); if( Entry == NULL ) break; for( LIB_PIN* pin = Entry->GetNextPin(); pin; pin = Entry->GetNextPin( pin ) ) { wxASSERT( pin->Type() == COMPONENT_PIN_DRAW_TYPE ); if( pin->GetUnit() && ( pin->GetUnit() != DrawLibItem->GetUnitSelection( sheetlist ) ) ) continue; if( pin->GetConvert() && ( pin->GetConvert() != DrawLibItem->m_Convert ) ) continue; wxPoint pos2 = DrawLibItem->m_Transform.TransformCoordinate( pin->m_Pos ) + DrawLibItem->m_Pos; new_item = new NETLIST_OBJECT(); new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = pin; new_item->m_SheetList = *sheetlist; new_item->m_Type = NET_PIN; new_item->m_Link = DrawLibItem; new_item->m_ElectricalType = pin->m_PinType; new_item->m_PinNum = pin->m_PinNum; new_item->m_Label = pin->m_PinName; new_item->m_Start = new_item->m_End = pos2; aNetItemBuffer.push_back( new_item ); if( ( (int) pin->m_PinType == (int) PIN_POWER_IN ) && ( pin->m_Attributs & PINNOTDRAW ) ) { /* There is an associated PIN_LABEL. */ new_item = new NETLIST_OBJECT(); new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = NULL; new_item->m_SheetList = *sheetlist; new_item->m_Type = NET_PINLABEL; new_item->m_Label = pin->m_PinName; new_item->m_Start = pos2; new_item->m_End = new_item->m_Start; aNetItemBuffer.push_back( new_item ); } } break; case DRAW_POLYLINE_STRUCT_TYPE: case DRAW_BUSENTRY_STRUCT_TYPE: case TYPE_SCH_MARKER: case TYPE_SCH_TEXT: break; case DRAW_SHEET_STRUCT_TYPE: { #undef STRUCT #define STRUCT ( (SCH_SHEET*) DrawList ) list = *sheetlist; list.Push( STRUCT ); SCH_SHEET* sheet = (SCH_SHEET*) DrawList; BOOST_FOREACH( SCH_SHEET_PIN label, sheet->GetSheetPins() ) { ii = IsBusLabel( label.m_Text ); new_item = new NETLIST_OBJECT(); new_item->m_SheetListInclude = *sheetlist; new_item->m_Comp = &label; new_item->m_SheetList = *sheetlist; new_item->m_Link = DrawList; new_item->m_Type = NET_SHEETLABEL; new_item->m_ElectricalType = label.m_Shape; new_item->m_Label = label.m_Text; new_item->m_SheetListInclude = list; new_item->m_Start = new_item->m_End = label.m_Pos; aNetItemBuffer.push_back( new_item ); if( ii ) ConvertBusToMembers( aNetItemBuffer, *new_item ); } break; } case DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE: default: { wxString msg; msg.Printf( wxT( "Netlist: unexpected struct type %d" ), DrawList->Type() ); wxMessageBox( msg ); break; } } } } /* * Routine that analyzes the type labels xxBUSLABELMEMBER * Propagate Netcode between the corresponding labels (ie when * Their member number is the same) when they are connected * Generally by their BusNetCode * Uses and updates the variable LastNetCode */ static void ConnectBusLabels( NETLIST_OBJECT_LIST& aNetItemBuffer ) { for( unsigned ii = 0; ii < aNetItemBuffer.size(); ii++ ) { NETLIST_OBJECT* Label = aNetItemBuffer[ii]; if( (Label->m_Type == NET_SHEETBUSLABELMEMBER) || (Label->m_Type == NET_BUSLABELMEMBER) || (Label->m_Type == NET_HIERBUSLABELMEMBER) ) { if( Label->GetNet() == 0 ) { Label->SetNet( LastNetCode ); LastNetCode++; } for( unsigned jj = ii + 1; jj < aNetItemBuffer.size(); jj++ ) { NETLIST_OBJECT* LabelInTst = aNetItemBuffer[jj]; if( (LabelInTst->m_Type == NET_SHEETBUSLABELMEMBER) || (LabelInTst->m_Type == NET_BUSLABELMEMBER) || (LabelInTst->m_Type == NET_HIERBUSLABELMEMBER) ) { if( LabelInTst->m_BusNetCode != Label->m_BusNetCode ) continue; if( LabelInTst->m_Member != Label->m_Member ) continue; if( LabelInTst->GetNet() == 0 ) LabelInTst->SetNet( Label->GetNet() ); else PropageNetCode( LabelInTst->GetNet(), Label->GetNet(), 0 ); } } } } } /* Check if the Label has a bus notation. * Returns 0 if not * Number of members if yes * Updates FirstNumWireBus, LastNumWireBus and RootBusNameLength */ int IsBusLabel( const wxString& LabelDrawList ) { unsigned Num; int ii; wxString BufLine; long tmp; bool error = FALSE; /* Search for '[' because a bus label is like "busname[nn..mm]" */ ii = LabelDrawList.Find( '[' ); if( ii < 0 ) return 0; Num = (unsigned) ii; FirstNumWireBus = LastNumWireBus = 9; RootBusNameLength = Num; Num++; while( LabelDrawList[Num] != '.' && Num < LabelDrawList.Len() ) { BufLine.Append( LabelDrawList[Num] ); Num++; } if( !BufLine.ToLong( &tmp ) ) error = TRUE; FirstNumWireBus = tmp; while( LabelDrawList[Num] == '.' && Num < LabelDrawList.Len() ) Num++; BufLine.Empty(); while( LabelDrawList[Num] != ']' && Num < LabelDrawList.Len() ) { BufLine.Append( LabelDrawList[Num] ); Num++; } if( !BufLine.ToLong( &tmp ) ) error = TRUE;; LastNumWireBus = tmp; if( FirstNumWireBus < 0 ) FirstNumWireBus = 0; if( LastNumWireBus < 0 ) LastNumWireBus = 0; if( FirstNumWireBus > LastNumWireBus ) { EXCHG( FirstNumWireBus, LastNumWireBus ); } return LastNumWireBus - FirstNumWireBus + 1; } /* * Routine which breaks a seal Bus type Label in as many members it contains, * And creates structures with type NET_GLOBBUSLABELMEMBER, NET_BUSLABELMEMBER * Or NET_SHEETBUSLABELMEMBER * Entry = pointer to NETLIST_OBJECT initializes the corresp buslabel * Assumes that FirstNumWireBus, LastNumWireBus and RootBusNameLength are up * to date * Amends NETLIST_OBJECT base and meets the following * M_Label is a pointer to a new wxString * M_Label must be deallocated by the user (only for a NET_GLOBBUSLABELMEMBER, * NET_BUSLABELMEMBER gold NET_SHEETBUSLABELMEMBER object type) */ static int ConvertBusToMembers( NETLIST_OBJECT_LIST& aNetItemBuffer, NETLIST_OBJECT& BusLabel ) { int NumItem, BusMember; wxString BufLine; if( BusLabel.m_Type == NET_HIERLABEL ) BusLabel.m_Type = NET_HIERBUSLABELMEMBER; else if( BusLabel.m_Type == NET_GLOBLABEL ) BusLabel.m_Type = NET_GLOBBUSLABELMEMBER; else if( BusLabel.m_Type == NET_SHEETLABEL ) BusLabel.m_Type = NET_SHEETBUSLABELMEMBER; else BusLabel.m_Type = NET_BUSLABELMEMBER; /* Conversion of BusLabel to the root Label name + the member id like mybus0, mybus1 ... */ BufLine = BusLabel.m_Label.Left( RootBusNameLength ); BusMember = FirstNumWireBus; BufLine << BusMember; BusLabel.m_Label = BufLine; BusLabel.m_Member = BusMember; NumItem = 1; for( BusMember++; BusMember <= LastNumWireBus; BusMember++ ) { NETLIST_OBJECT* new_label = new NETLIST_OBJECT( BusLabel ); NumItem++; /* Conversion of BusLabel to the root name + the current member id.*/ BufLine = BusLabel.m_Label.Left( RootBusNameLength ); BufLine << BusMember; new_label->m_Label = BufLine; new_label->m_Member = BusMember; aNetItemBuffer.push_back( new_label ); } return NumItem; } /* * PropageNetCode propagates Netcode NewNetCode on all elements * belonging to the former Netcode OldNetCode * If IsBus == 0; Netcode is the member who is spreading * If IsBus != 0; is the member who is spreading BusNetCode */ static void PropageNetCode( int OldNetCode, int NewNetCode, int IsBus ) { if( OldNetCode == NewNetCode ) return; if( IsBus == 0 ) /* Propagate NetCode */ { for( unsigned jj = 0; jj < g_NetObjectslist.size(); jj++ ) { NETLIST_OBJECT* Objet = g_NetObjectslist[jj]; if( Objet->GetNet() == OldNetCode ) { Objet->SetNet( NewNetCode ); } } } else /* Propagate BusNetCode */ { for( unsigned jj = 0; jj < g_NetObjectslist.size(); jj++ ) { NETLIST_OBJECT* Objet = g_NetObjectslist[jj]; if( Objet->m_BusNetCode == OldNetCode ) { Objet->m_BusNetCode = NewNetCode; } } } } /* * Check if Ref element is connected to other elements of the list of objects * in the schematic, by mode point * A point (end superimposed) * * If IsBus: * The connection involves elements such as bus * (Or BUS or BUSLABEL JUNCTION) * Otherwise * The connection involves elements such as non-bus * (Other than BUS or BUSLABEL) * * The Ref object must have a valid Netcode. * * The list of objects is SUPPOSED class by SheetPath Croissants, * And research is done from the start element, 1st element * Leaf schema * (There can be no physical connection between elements of different sheets) */ static void PointToPointConnect( NETLIST_OBJECT* Ref, int IsBus, int start ) { int netCode; if( IsBus == 0 ) /* Objects other than BUS and BUSLABELS. */ { netCode = Ref->GetNet(); for( unsigned i = start; i < g_NetObjectslist.size(); i++ ) { NETLIST_OBJECT* item = g_NetObjectslist[i]; if( item->m_SheetList != Ref->m_SheetList ) //used to be > (why?) continue; switch( item->m_Type ) { case NET_SEGMENT: case NET_PIN: case NET_LABEL: case NET_HIERLABEL: case NET_GLOBLABEL: case NET_SHEETLABEL: case NET_PINLABEL: case NET_JONCTION: case NET_NOCONNECT: if( Ref->m_Start == item->m_Start || Ref->m_Start == item->m_End || Ref->m_End == item->m_Start || Ref->m_End == item->m_End ) { if( item->GetNet() == 0 ) item->SetNet( netCode ); else PropageNetCode( item->GetNet(), netCode, 0 ); } break; case NET_BUS: case NET_BUSLABELMEMBER: case NET_SHEETBUSLABELMEMBER: case NET_HIERBUSLABELMEMBER: case NET_GLOBBUSLABELMEMBER: case NET_ITEM_UNSPECIFIED: break; } } } else /* Object type BUS, BUSLABELS, and junctions. */ { netCode = Ref->m_BusNetCode; for( unsigned i = start; im_SheetList != Ref->m_SheetList ) continue; switch( item->m_Type ) { case NET_ITEM_UNSPECIFIED: case NET_SEGMENT: case NET_PIN: case NET_LABEL: case NET_HIERLABEL: case NET_GLOBLABEL: case NET_SHEETLABEL: case NET_PINLABEL: case NET_NOCONNECT: break; case NET_BUS: case NET_BUSLABELMEMBER: case NET_SHEETBUSLABELMEMBER: case NET_HIERBUSLABELMEMBER: case NET_GLOBBUSLABELMEMBER: case NET_JONCTION: if( Ref->m_Start == item->m_Start || Ref->m_Start == item->m_End || Ref->m_End == item->m_Start || Ref->m_End == item->m_End ) { if( item->m_BusNetCode == 0 ) item->m_BusNetCode = netCode; else PropageNetCode( item->m_BusNetCode, netCode, 1 ); } break; } } } } /* * Search if a junction is connected to segments and include the Netcode * objects connect to the junction. * The junction must have a valid Netcode * The list of objects is SUPPOSED class by NumSheet ??? Croissants, * And research is done from the start element, 1st element * Leaf schema * (There can be no physical connection between elements of different sheets) */ static void SegmentToPointConnect( NETLIST_OBJECT* Jonction, int IsBus, int start ) { for( unsigned i = start; i < g_NetObjectslist.size(); i++ ) { NETLIST_OBJECT* Segment = g_NetObjectslist[i]; if( Segment->m_SheetList != Jonction->m_SheetList ) continue; if( IsBus == 0 ) { if( Segment->m_Type != NET_SEGMENT ) continue; } else { if( Segment->m_Type != NET_BUS ) continue; } if( SegmentIntersect( Segment->m_Start, Segment->m_End, Jonction->m_Start ) ) { /* Propagation Netcode has all the objects of the same Netcode. */ if( IsBus == 0 ) { if( Segment->GetNet() ) PropageNetCode( Segment->GetNet(), Jonction->GetNet(), IsBus ); else Segment->SetNet( Jonction->GetNet() ); } else { if( Segment->m_BusNetCode ) PropageNetCode( Segment->m_BusNetCode, Jonction->m_BusNetCode, IsBus ); else Segment->m_BusNetCode = Jonction->m_BusNetCode; } } } } /***************************************************************** * Function which connects the groups of object which have the same label *******************************************************************/ void LabelConnect( NETLIST_OBJECT* LabelRef ) { if( LabelRef->GetNet() == 0 ) return; for( unsigned i = 0; i < g_NetObjectslist.size(); i++ ) { if( g_NetObjectslist[i]->GetNet() == LabelRef->GetNet() ) continue; if( g_NetObjectslist[i]->m_SheetList != LabelRef->m_SheetList ) { if( (g_NetObjectslist[i]->m_Type != NET_PINLABEL && g_NetObjectslist[i]->m_Type != NET_GLOBLABEL && g_NetObjectslist[i]->m_Type != NET_GLOBBUSLABELMEMBER) ) continue; if( (g_NetObjectslist[i]->m_Type == NET_GLOBLABEL || g_NetObjectslist[i]->m_Type == NET_GLOBBUSLABELMEMBER) && g_NetObjectslist[i]->m_Type != LabelRef->m_Type ) //global labels only connect other global labels. continue; } //regular labels are sheet-local; //NET_HIERLABEL are used to connect sheets. //NET_LABEL is sheet-local (***) //NET_GLOBLABEL is global. NetObjetType ntype = g_NetObjectslist[i]->m_Type; if( ntype == NET_LABEL || ntype == NET_GLOBLABEL || ntype == NET_HIERLABEL || ntype == NET_BUSLABELMEMBER || ntype == NET_GLOBBUSLABELMEMBER || ntype == NET_HIERBUSLABELMEMBER || ntype == NET_PINLABEL ) { if( g_NetObjectslist[i]->m_Label.CmpNoCase( LabelRef->m_Label ) != 0 ) continue; if( g_NetObjectslist[i]->GetNet() ) PropageNetCode( g_NetObjectslist[i]->GetNet(), LabelRef->GetNet(), 0 ); else g_NetObjectslist[i]->SetNet( LabelRef->GetNet() ); } } } /* Comparison routine for sorting by increasing Netcode * table of elements connected (TabPinSort) by qsort () */ bool SortItemsbyNetcode( const NETLIST_OBJECT* Objet1, const NETLIST_OBJECT* Objet2 ) { return Objet1->GetNet() < Objet2->GetNet(); } /* Comparison routine for sorting by NumSheet table of elements * connected (TabPinSort) by qsort () */ bool SortItemsBySheet( const NETLIST_OBJECT* Objet1, const NETLIST_OBJECT* Objet2 ) { return Objet1->m_SheetList.Cmp( Objet2->m_SheetList ) < 0; } /* Routine positioning member. FlagNoConnect ELEMENTS * List of objects NetList, sorted by order of Netcode */ static void SetUnconnectedFlag( NETLIST_OBJECT_LIST& aNetItemBuffer ) { NETLIST_OBJECT* NetItemRef; unsigned NetStart, NetEnd; ConnectType StateFlag; NetStart = NetEnd = 0; StateFlag = UNCONNECTED; for( unsigned ii = 0; ii < aNetItemBuffer.size(); ii++ ) { NetItemRef = aNetItemBuffer[ii]; if( NetItemRef->m_Type == NET_NOCONNECT && StateFlag != PAD_CONNECT ) StateFlag = NOCONNECT_SYMBOL_PRESENT; /* Analysis of current net. */ unsigned idxtoTest = ii + 1; if( ( idxtoTest >= aNetItemBuffer.size() ) || ( NetItemRef->GetNet() != aNetItemBuffer[idxtoTest]->GetNet() ) ) { /* Net analysis to update m_FlagOfConnection */ NetEnd = idxtoTest; /* set m_FlagOfConnection member to StateFlag for all items of * this net: */ for( unsigned kk = NetStart; kk < NetEnd; kk++ ) aNetItemBuffer[kk]->m_FlagOfConnection = StateFlag; if( idxtoTest >= aNetItemBuffer.size() ) return; /* Start Analysis next Net */ StateFlag = UNCONNECTED; NetStart = idxtoTest; continue; } /* test the current item: if this is a pin and if the reference item * is also a pin, then 2 pins are connected, so set StateFlag to * PAD_CONNECT (can be already done) Of course, if the current * item is a no connect symbol, set StateFlag to * NOCONNECT_SYMBOL_PRESENT to inhibit error diags. However if * StateFlag is already set to PAD_CONNECT this state is kept (the * no connect symbol was surely an error and an ERC will report this) */ for( ; ; idxtoTest++ ) { if( ( idxtoTest >= aNetItemBuffer.size() ) || ( NetItemRef->GetNet() != aNetItemBuffer[idxtoTest]->GetNet() ) ) break; switch( aNetItemBuffer[idxtoTest]->m_Type ) { case NET_ITEM_UNSPECIFIED: wxMessageBox( wxT( "BuildNetListBase() error" ) ); break; case NET_SEGMENT: case NET_LABEL: case NET_HIERLABEL: case NET_GLOBLABEL: case NET_SHEETLABEL: case NET_PINLABEL: case NET_BUS: case NET_BUSLABELMEMBER: case NET_SHEETBUSLABELMEMBER: case NET_HIERBUSLABELMEMBER: case NET_GLOBBUSLABELMEMBER: case NET_JONCTION: break; case NET_PIN: if( NetItemRef->m_Type == NET_PIN ) StateFlag = PAD_CONNECT; break; case NET_NOCONNECT: if( StateFlag != PAD_CONNECT ) StateFlag = NOCONNECT_SYMBOL_PRESENT; break; } } } }