#ifndef PCB_NETLIST_H #define PCB_NETLIST_H /** * @file pcb_netlist.h */ /* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2012 Jean-Pierre Charras. * Copyright (C) 2013 Wayne Stambaugh . * Copyright (C) 2012-2015 KiCad Developers, see CHANGELOG.TXT for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include class REPORTER; /** * Class COMPONENT_NET * is used to store the component pin name to net name associations stored in a netlist. */ class COMPONENT_NET { wxString m_pinName; wxString m_netName; public: COMPONENT_NET() {} COMPONENT_NET( const wxString& aPinName, const wxString& aNetName ) : m_pinName( aPinName ), m_netName( aNetName ) { } const wxString& GetPinName() const { return m_pinName; } const wxString& GetNetName() const { return m_netName; } bool IsValid() const { return !m_pinName.IsEmpty(); } bool operator <( const COMPONENT_NET& aNet ) const { return m_pinName < aNet.m_pinName; } int Format( OUTPUTFORMATTER* aOut, int aNestLevel, int aCtl ); }; typedef std::vector< COMPONENT_NET > COMPONENT_NETS; /** * Class COMPONENT * is used to store components and all of their related information found in a netlist. */ class COMPONENT { COMPONENT_NETS m_nets; wxArrayString m_footprintFilters; ///< Footprint filters found in netlist. wxString m_reference; ///< The component reference designator found in netlist. wxString m_value; ///< The component value found in netlist. // ZZZ This timestamp is string, not time_t wxString m_timeStamp; ///< The component full time stamp found in netlist. /// The name of the component in #m_library used when it was placed on the schematic.. wxString m_name; /// The name of the component library where #m_name was found. wxString m_library; /// The #FPID of the footprint assigned to the component. FPID m_fpid; /// The alt FPID of the footprint, when there are 2 different assigned footprints, /// One from the netlist, the other from the .cmp file. /// this one is a copy of the netlist footprint assignment FPID m_altFpid; /// The #MODULE loaded for #m_fpid. std::unique_ptr< MODULE > m_footprint; /// Set to true if #m_fpid was changed when the footprint link file was read. bool m_footprintChanged; static COMPONENT_NET m_emptyNet; public: COMPONENT( const FPID& aFPID, const wxString& aReference, const wxString& aValue, const wxString& aTimeStamp ) { m_fpid = aFPID; m_reference = aReference; m_value = aValue; m_timeStamp = aTimeStamp; m_footprintChanged = false; } virtual ~COMPONENT() { }; void AddNet( const wxString& aPinName, const wxString& aNetName ) { m_nets.push_back( COMPONENT_NET( aPinName, aNetName ) ); } unsigned GetNetCount() const { return m_nets.size(); } const COMPONENT_NET& GetNet( unsigned aIndex ) const { return m_nets[aIndex]; } const COMPONENT_NET& GetNet( const wxString& aPinName ); void SortPins() { sort( m_nets.begin(), m_nets.end() ); } void SetName( const wxString& aName ) { m_name = aName;} const wxString& GetName() const { return m_name; } void SetLibrary( const wxString& aLibrary ) { m_library = aLibrary; } const wxString& GetLibrary() const { return m_library; } const wxString& GetReference() const { return m_reference; } const wxString& GetValue() const { return m_value; } void SetFPID( const FPID& aFPID ) { m_footprintChanged = !m_fpid.empty() && (m_fpid != aFPID); m_fpid = aFPID; } void SetAltFPID( const FPID& aFPID ) { m_altFpid = aFPID; } const FPID& GetFPID() const { return m_fpid; } const FPID& GetAltFPID() const { return m_altFpid; } const wxString& GetTimeStamp() const { return m_timeStamp; } void SetFootprintFilters( const wxArrayString& aFilterList ) { m_footprintFilters = aFilterList; } const wxArrayString& GetFootprintFilters() const { return m_footprintFilters; } /** * Function MatchesFootprintFilters * * @return true if \a aFootprintName matches any of the footprint filters or no footprint * filters are defined. */ bool MatchesFootprintFilters( const wxString& aFootprintName ) const; MODULE* GetModule( bool aRelease = false ) { return ( aRelease ) ? m_footprint.release() : m_footprint.get(); } void SetModule( MODULE* aModule ); bool IsLibSource( const wxString& aLibrary, const wxString& aName ) const { return aLibrary == m_library && aName == m_name; } bool FootprintChanged() const { return m_footprintChanged; } void Format( OUTPUTFORMATTER* aOut, int aNestLevel, int aCtl ); }; typedef boost::ptr_vector< COMPONENT > COMPONENTS; typedef COMPONENTS::iterator COMPONENTS_ITER; typedef COMPONENTS::const_iterator COMPONENTS_CITER; /** * Class NETLIST * stores all of information read from a netlist along with the flags used to update * the NETLIST in the #BOARD. */ class NETLIST { COMPONENTS m_components; ///< Components found in the netlist. /// Remove footprints from #BOARD not found in netlist when true. bool m_deleteExtraFootprints; /// Do not actually make any changes. Only report changes to #BOARD from netlist /// when true. bool m_isDryRun; /// Find component by time stamp if true or reference designator if false. bool m_findByTimeStamp; /// Replace component footprints when they differ from the netlist if true. bool m_replaceFootprints; public: NETLIST() : m_deleteExtraFootprints( false ), m_isDryRun( false ), m_findByTimeStamp( false ), m_replaceFootprints( false ) { } /** * Function IsEmpty() * @return true if there are no components in the netlist. */ bool IsEmpty() const { return m_components.empty(); } /** * Function Clear * removes all components from the netlist. */ void Clear() { m_components.clear(); } /** * Function GetCount * @return the number of components in the netlist. */ unsigned GetCount() const { return m_components.size(); } /** * Function GetComponent * returns the #COMPONENT at \a aIndex. * * @param aIndex the index in #m_components to fetch. * @return a pointer to the #COMPONENT at \a Index. */ COMPONENT* GetComponent( unsigned aIndex ) { return &m_components[ aIndex ]; } /** * Function AddComponent * adds \a aComponent to the NETLIST. * * @note If \a aComponent already exists in the NETLIST, \a aComponent is deleted * to prevent memory leaks. An assertion is raised in debug builds. * * @param aComponent is the COMPONENT to save to the NETLIST. */ void AddComponent( COMPONENT* aComponent ); /** * Function GetComponentByReference * returns a #COMPONENT by \a aReference. * * @param aReference is the reference designator the #COMPONENT. * @return a pointer to the #COMPONENT that matches \a aReference if found. Otherwise NULL. */ COMPONENT* GetComponentByReference( const wxString& aReference ); /** * Function GetComponentByTimeStamp * returns a #COMPONENT by \a aTimeStamp. * * @param aTimeStamp is the time stamp the #COMPONENT. * @return a pointer to the #COMPONENT that matches \a aTimeStamp if found. Otherwise NULL. */ COMPONENT* GetComponentByTimeStamp( const wxString& aTimeStamp ); void SortByFPID(); void SortByReference(); void SetDeleteExtraFootprints( bool aDeleteExtraFootprints ) { m_deleteExtraFootprints = aDeleteExtraFootprints; } bool GetDeleteExtraFootprints() const { return m_deleteExtraFootprints; } void SetIsDryRun( bool aIsDryRun ) { m_isDryRun = aIsDryRun; } bool IsDryRun() const { return m_isDryRun; } void SetFindByTimeStamp( bool aFindByTimeStamp ) { m_findByTimeStamp = aFindByTimeStamp; } bool IsFindByTimeStamp() const { return m_findByTimeStamp; } void SetReplaceFootprints( bool aReplaceFootprints ) { m_replaceFootprints = aReplaceFootprints; } bool GetReplaceFootprints() const { return m_replaceFootprints; } /** * Function AnyFootprintsLinked * @return true if any component with a footprint link is found. */ bool AnyFootprintsLinked() const; /** * Function AllFootprintsLinked * @return true if all components have a footprint link. */ bool AllFootprintsLinked() const; /** * Function NoFootprintsLinked * @return true if none of the components have a footprint link. */ bool NoFootprintsLinked() const { return !AnyFootprintsLinked(); } /** * Function AnyFootprintsChanged * @return true if any components footprints were changed when the footprint link file * (*.cmp) was loaded. */ bool AnyFootprintsChanged() const; void Format( const char* aDocName, OUTPUTFORMATTER* aOut, int aNestLevel, int aCtl = 0 ); #define CTL_OMIT_EXTRA (1<<0) #define CTL_OMIT_NETS (1<<1) #define CTL_OMIT_FILTERS (1<<2) #define CTL_FOR_BACKANNO (CTL_OMIT_NETS | CTL_OMIT_FILTERS | CTL_OMIT_EXTRA) void FormatBackAnnotation( OUTPUTFORMATTER* aOut ) { Format( "back_annotation", aOut, 0, CTL_FOR_BACKANNO ); } }; #endif // PCB_NETLIST_H