/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2018 CERN * @author Jon Evans * * 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, see . */ #include #include #include #include #include #include #include #include /** * * Buses can be defined in multiple ways. A bus vector consists of a prefix and * a numeric range of suffixes: * * BUS_NAME[M..N] * * For example, the bus A[3..0] will contain nets A3, A2, A1, and A0. * The BUS_NAME is required. M and N must be integers but do not need to be in * any particular order -- A[0..3] produces the same result. * * Like net names, bus names cannot contain whitespace. * * A bus group is just a grouping of signals, separated by spaces, some * of which may be bus vectors. Bus groups can have names, but do not need to. * * MEMORY{A[15..0] D[7..0] RW CE OE} * * In named bus groups, the net names are expanded as . * In the above example, the nets would be named like MEMORY.A15, MEMORY.D0, etc. * * {USB_DP USB_DN} * * In the above example, the bus is unnamed and so the underlying net names are * just USB_DP and USB_DN. * */ static std::regex bus_label_re( "^([^[:space:]]+)(\\[[\\d]+\\.+[\\d]+\\])(~?)$" ); static std::regex bus_group_label_re( "^([^[:space:]]+)?\\{((?:[^[:space:]]+(?:\\[[\\d]+\\.+[\\d]+\\])? ?)+)\\}$" ); SCH_CONNECTION::SCH_CONNECTION( SCH_ITEM* aParent, SCH_SHEET_PATH aPath ) : m_sheet( aPath ), m_parent( aParent ) { Reset(); } bool SCH_CONNECTION::operator==( const SCH_CONNECTION& aOther ) const { // NOTE: Not comparing m_dirty or net/bus/subgraph codes if( ( aOther.m_driver == m_driver ) && ( aOther.m_type == m_type ) && ( aOther.m_name == m_name ) && ( aOther.m_sheet == m_sheet ) ) { return true; } return false; } void SCH_CONNECTION::SetDriver( SCH_ITEM* aItem ) { m_driver = aItem; for( auto member : m_members ) member->SetDriver( aItem ); } void SCH_CONNECTION::SetSheet( SCH_SHEET_PATH aSheet ) { m_sheet = aSheet; for( auto member : m_members ) member->SetSheet( aSheet ); } bool SCH_CONNECTION::operator!=( const SCH_CONNECTION& aOther ) const { return !( aOther == *this ); } void SCH_CONNECTION::ConfigureFromLabel( wxString aLabel ) { m_members.clear(); if( IsBusVectorLabel( aLabel ) ) { m_name = aLabel; m_type = CONNECTION_BUS; std::vector members; ParseBusVector( aLabel, &m_vector_prefix, members ); long i = 0; for( const auto& vector_member : members ) { auto member = std::make_shared< SCH_CONNECTION >( m_parent, m_sheet ); member->m_type = CONNECTION_NET; member->m_prefix = m_prefix; member->m_name = vector_member; member->m_vector_index = i++; m_members.push_back( member ); } } else if( IsBusGroupLabel( aLabel ) ) { m_type = CONNECTION_BUS_GROUP; m_name = aLabel; std::vector members; wxString group_name; if( ParseBusGroup( aLabel, &group_name, members ) ) { // Named bus groups generate a net prefix, unnamed ones don't wxString prefix = group_name != wxT( "" ) ? ( group_name + wxT( "." ) ) : wxT( "" ); for( const auto& group_member : members ) { // Handle alias inside bus group member list if( auto alias = g_ConnectionGraph->GetBusAlias( group_member ) ) { for( const auto& alias_member : alias->Members() ) { auto member = std::make_shared< SCH_CONNECTION >( m_parent, m_sheet ); member->SetPrefix( prefix ); member->ConfigureFromLabel( alias_member ); m_members.push_back( member ); } } else { auto member = std::make_shared< SCH_CONNECTION >( m_parent, m_sheet ); member->SetPrefix( prefix ); member->ConfigureFromLabel( group_member ); m_members.push_back( member ); } } } } else { m_name = aLabel; m_type = CONNECTION_NET; } } void SCH_CONNECTION::Reset() { m_type = CONNECTION_NONE; m_name.Empty(); m_prefix.Empty(); m_suffix .Empty(); m_driver = nullptr; m_members.clear(); m_dirty = true; m_net_code = 0; m_bus_code = 0; m_subgraph_code = 0; m_vector_start = 0; m_vector_end = 0; m_vector_index = 0; m_vector_prefix.Empty(); } void SCH_CONNECTION::Clone( SCH_CONNECTION& aOther ) { m_type = aOther.Type(); m_driver = aOther.Driver(); m_sheet = aOther.Sheet(); m_name = aOther.m_name; m_prefix = aOther.Prefix(); m_suffix = aOther.Suffix(); m_members = aOther.Members(); m_net_code = aOther.NetCode(); m_bus_code = aOther.BusCode(); m_vector_start = aOther.VectorStart(); m_vector_end = aOther.VectorEnd(); m_vector_index = aOther.VectorIndex(); m_vector_prefix = aOther.VectorPrefix(); // Note: subgraph code isn't cloned, it should remain with the original object } bool SCH_CONNECTION::IsDriver() const { wxASSERT( Parent() ); switch( Parent()->Type() ) { case SCH_LABEL_T: case SCH_GLOBAL_LABEL_T: case SCH_HIER_LABEL_T: case SCH_SHEET_PIN_T: case SCH_SHEET_T: case LIB_PIN_T: return true; case SCH_PIN_T: { auto pin = static_cast( Parent() ); // Only annotated components should drive nets return pin->GetParentComponent()->IsAnnotated( &m_sheet ); } default: return false; } } wxString SCH_CONNECTION::Name( bool aIgnoreSheet ) const { wxString ret = m_prefix + m_name + m_suffix; if( m_name.IsEmpty() ) ret = ""; if( !Parent() || m_type == CONNECTION_NONE ) return ret; if( !aIgnoreSheet ) { bool prepend_path = true; if( m_driver ) { switch( m_driver->Type() ) { case SCH_PIN_T: // Pins are either power connections or belong to a uniquely-annotated // component, so they don't need a path if they are driving the subgraph prepend_path = false; break; case SCH_GLOBAL_LABEL_T: prepend_path = false; break; default: break; } } if( prepend_path ) ret = m_sheet.PathHumanReadable() + ret; } return ret; } void SCH_CONNECTION::SetPrefix( const wxString& aPrefix ) { m_prefix = aPrefix; for( auto m : Members() ) m->SetPrefix( aPrefix ); } void SCH_CONNECTION::SetSuffix( const wxString& aSuffix ) { m_suffix = aSuffix; for( auto m : Members() ) m->SetSuffix( aSuffix ); } void SCH_CONNECTION::AppendInfoToMsgPanel( MSG_PANEL_ITEMS& aList ) const { if( !ADVANCED_CFG::GetCfg().m_realTimeConnectivity || !CONNECTION_GRAPH::m_allowRealTime ) return; wxString msg, group_name; std::vector group_members; aList.push_back( MSG_PANEL_ITEM( _( "Connection Name" ), Name(), BROWN ) ); if( !IsBus() ) { msg.Printf( "%d", m_net_code ); aList.push_back( MSG_PANEL_ITEM( _( "Net Code" ), msg, BROWN ) ); } if( auto alias = g_ConnectionGraph->GetBusAlias( m_name ) ) { msg.Printf( _( "Bus Alias %s Members" ), m_name ); wxString members; for( auto member : alias->Members() ) members << member << " "; aList.push_back( MSG_PANEL_ITEM( msg, members, RED ) ); } else if( ParseBusGroup( m_name, &group_name, group_members ) ) { for( auto group_member : group_members ) { if( auto group_alias = g_ConnectionGraph->GetBusAlias( group_member ) ) { msg.Printf( _( "Bus Alias %s Members" ), group_alias->GetName() ); wxString members; for( auto member : group_alias->Members() ) members << member << " "; aList.push_back( MSG_PANEL_ITEM( msg, members, RED ) ); } } } } void SCH_CONNECTION::AppendDebugInfoToMsgPanel( MSG_PANEL_ITEMS& aList ) const { if( !ADVANCED_CFG::GetCfg().m_realTimeConnectivity || !CONNECTION_GRAPH::m_allowRealTime ) return; // These messages are not flagged as translatable, because they are only debug messges wxString msg; AppendInfoToMsgPanel( aList ); if( IsBus() ) { msg.Printf( "%d", m_bus_code ); aList.push_back( MSG_PANEL_ITEM( "Bus Code", msg, BROWN ) ); } msg.Printf( "%d", m_subgraph_code ); aList.push_back( MSG_PANEL_ITEM( "Subgraph Code", msg, BROWN ) ); if( auto driver = Driver() ) { msg.Printf( "%s at %p", driver->GetSelectMenuText( MILLIMETRES ), driver ); aList.push_back( MSG_PANEL_ITEM( "Connection Source", msg, RED ) ); } } bool SCH_CONNECTION::IsBusLabel( const wxString& aLabel ) { return IsBusVectorLabel( aLabel ) || IsBusGroupLabel( aLabel ); } bool SCH_CONNECTION::IsBusVectorLabel( const wxString& aLabel ) { try { return std::regex_match( std::string( aLabel.mb_str() ), bus_label_re ); } catch( ... ) { return false; } } bool SCH_CONNECTION::IsBusGroupLabel( const wxString& aLabel ) { try { return std::regex_match( std::string( aLabel.mb_str() ), bus_group_label_re ); } catch( ... ) { return false; } } bool SCH_CONNECTION::ParseBusVector( wxString aBus, wxString* aName, std::vector& aMemberList ) const { auto ss_vector = std::string( aBus.mb_str() ); std::smatch matches; try { if( !std::regex_match( ss_vector, matches, bus_label_re ) ) return false; } catch( ... ) { return false; } long begin = 0, end = 0; *aName = wxString( matches[1] ); wxString numberString( matches[2] ); // If we have three match groups, it means there was a tilde at the end of the vector bool append_tilde = wxString( matches[3] ).IsSameAs( wxT( "~" ) ); // numberString will include the brackets, e.g. [5..0] so skip the first one size_t i = 1, len = numberString.Len(); wxString tmp; while( i < len && numberString[i] != '.' ) { tmp.Append( numberString[i] ); i++; } tmp.ToLong( &begin ); while( i < len && numberString[i] == '.' ) i++; tmp.Empty(); while( i < len && numberString[i] != ']' ) { tmp.Append( numberString[i] ); i++; } tmp.ToLong( &end ); if( begin < 0 ) begin = 0; if( end < 0 ) end = 0; if( begin > end ) std::swap( begin, end ); for( long idx = begin; idx <= end; ++idx ) { wxString str = *aName; str << idx; if( append_tilde ) str << '~'; aMemberList.emplace_back( str ); } return true; } bool SCH_CONNECTION::ParseBusGroup( wxString aGroup, wxString* aName, std::vector& aMemberList ) const { auto ss_group = std::string( aGroup.mb_str() ); std::smatch matches; try { if( !std::regex_match( ss_group, matches, bus_group_label_re ) ) { return false; } } catch( ... ) { return false; } *aName = wxString( matches[1] ); wxStringTokenizer tokenizer( wxString( matches[2] ), " " ); while( tokenizer.HasMoreTokens() ) { aMemberList.push_back( tokenizer.GetNextToken() ); } return true; } bool SCH_CONNECTION::IsSubsetOf( SCH_CONNECTION* aOther ) const { if( aOther->IsNet() ) return IsNet() ? ( aOther->Name( true ) == Name( true ) ) : false; if( !IsBus() ) return false; std::vector mine, theirs; for( auto m : Members() ) mine.push_back( m->Name( true ) ); for( auto m : aOther->Members() ) theirs.push_back( m->Name( true ) ); std::set subset; std::set_intersection( mine.begin(), mine.end(), theirs.begin(), theirs.end(), std::inserter(subset, subset.begin() ) ); return ( !subset.empty() ); } bool SCH_CONNECTION::IsMemberOfBus( SCH_CONNECTION* aOther ) const { if( !aOther->IsBus() ) return false; auto me = Name( true ); for( auto m : aOther->Members() ) if( m->Name( true ) == me ) return true; return false; }