/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2004-2015 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2008 Wayne Stambaugh * Copyright (C) 2004-2021 KiCad Developers, see AUTHORS.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 #include #include #include #include #include #include #include // the separator char between the subpart id and the reference // 0 (no separator) or '.' or some other character int LIB_SYMBOL::m_subpartIdSeparator = 0; // the ascii char value to calculate the subpart symbol id from the part number: // 'A' or '1' usually. (to print U1.A or U1.1) // if this a digit, a number is used as id symbol int LIB_SYMBOL::m_subpartFirstId = 'A'; wxString LIB_SYMBOL::GetSearchText() { // Matches are scored by offset from front of string, so inclusion of this spacer // discounts matches found after it. static const wxString discount( wxT( " " ) ); wxString text = GetKeyWords() + discount + GetDescription(); wxString footprint = GetFootprintField().GetText(); if( !footprint.IsEmpty() ) { text += discount + footprint; } return text; } bool operator<( const LIB_SYMBOL& aItem1, const LIB_SYMBOL& aItem2 ) { return aItem1.GetName() < aItem2.GetName(); } /// http://www.boost.org/doc/libs/1_55_0/libs/smart_ptr/sp_techniques.html#weak_without_shared struct null_deleter { void operator()(void const *) const { } }; LIB_SYMBOL::LIB_SYMBOL( const wxString& aName, LIB_SYMBOL* aParent, SYMBOL_LIB* aLibrary ) : EDA_ITEM( LIB_SYMBOL_T ), m_me( this, null_deleter() ), m_includeInBom( true ), m_includeOnBoard( true ) { m_lastModDate = 0; m_unitCount = 1; m_pinNameOffset = Mils2iu( DEFAULT_PIN_NAME_OFFSET ); m_options = ENTRY_NORMAL; m_unitsLocked = false; m_showPinNumbers = true; m_showPinNames = true; // Add the MANDATORY_FIELDS in RAM only. These are assumed to be present // when the field editors are invoked. m_drawings[LIB_FIELD_T].reserve( 4 ); m_drawings[LIB_FIELD_T].push_back( new LIB_FIELD( this, VALUE_FIELD ) ); m_drawings[LIB_FIELD_T].push_back( new LIB_FIELD( this, REFERENCE_FIELD ) ); m_drawings[LIB_FIELD_T].push_back( new LIB_FIELD( this, FOOTPRINT_FIELD ) ); m_drawings[LIB_FIELD_T].push_back( new LIB_FIELD( this, DATASHEET_FIELD ) ); SetName( aName ); if( aParent ) SetParent( aParent ); SetLib( aLibrary ); } LIB_SYMBOL::LIB_SYMBOL( const LIB_SYMBOL& aSymbol, SYMBOL_LIB* aLibrary ) : EDA_ITEM( aSymbol ), m_me( this, null_deleter() ) { LIB_ITEM* newItem; m_library = aLibrary; m_name = aSymbol.m_name; m_fpFilters = wxArrayString( aSymbol.m_fpFilters ); m_unitCount = aSymbol.m_unitCount; m_unitsLocked = aSymbol.m_unitsLocked; m_pinNameOffset = aSymbol.m_pinNameOffset; m_showPinNumbers = aSymbol.m_showPinNumbers; m_includeInBom = aSymbol.m_includeInBom; m_includeOnBoard = aSymbol.m_includeOnBoard; m_showPinNames = aSymbol.m_showPinNames; m_lastModDate = aSymbol.m_lastModDate; m_options = aSymbol.m_options; m_libId = aSymbol.m_libId; m_description = aSymbol.m_description; m_keyWords = aSymbol.m_keyWords; ClearSelected(); for( const LIB_ITEM& oldItem : aSymbol.m_drawings ) { if( ( oldItem.GetFlags() & ( IS_NEW | STRUCT_DELETED ) ) != 0 ) continue; try { newItem = (LIB_ITEM*) oldItem.Clone(); newItem->ClearSelected(); newItem->SetParent( this ); m_drawings.push_back( newItem ); } catch( ... ) { wxFAIL_MSG( wxT( "Failed to clone LIB_ITEM." ) ); } } LIB_SYMBOL_SPTR parent = aSymbol.m_parent.lock(); if( parent ) SetParent( parent.get() ); } LIB_SYMBOL::~LIB_SYMBOL() { } const LIB_SYMBOL& LIB_SYMBOL::operator=( const LIB_SYMBOL& aSymbol ) { if( &aSymbol == this ) return aSymbol; LIB_ITEM* newItem; m_library = aSymbol.m_library; m_name = aSymbol.m_name; m_fpFilters = wxArrayString( aSymbol.m_fpFilters ); m_unitCount = aSymbol.m_unitCount; m_unitsLocked = aSymbol.m_unitsLocked; m_pinNameOffset = aSymbol.m_pinNameOffset; m_showPinNumbers = aSymbol.m_showPinNumbers; m_showPinNames = aSymbol.m_showPinNames; m_includeInBom = aSymbol.m_includeInBom; m_includeOnBoard = aSymbol.m_includeOnBoard; m_lastModDate = aSymbol.m_lastModDate; m_options = aSymbol.m_options; m_libId = aSymbol.m_libId; m_description = aSymbol.m_description; m_keyWords = aSymbol.m_keyWords; m_drawings.clear(); for( const LIB_ITEM& oldItem : aSymbol.m_drawings ) { if( ( oldItem.GetFlags() & ( IS_NEW | STRUCT_DELETED ) ) != 0 ) continue; newItem = (LIB_ITEM*) oldItem.Clone(); newItem->SetParent( this ); m_drawings.push_back( newItem ); } m_drawings.sort(); LIB_SYMBOL_SPTR parent = aSymbol.m_parent.lock(); if( parent ) SetParent( parent.get() ); return *this; } int LIB_SYMBOL::Compare( const LIB_SYMBOL& aRhs, LIB_ITEM::COMPARE_FLAGS aCompareFlags ) const { if( m_me == aRhs.m_me ) return 0; int retv = m_name.Cmp( aRhs.m_name ); if( retv ) return retv; retv = m_libId.compare( aRhs.m_libId ); if( retv ) return retv; if( m_parent.lock() < aRhs.m_parent.lock() ) return -1; if( m_parent.lock() > aRhs.m_parent.lock() ) return 1; if( m_options != aRhs.m_options ) return ( m_options == ENTRY_NORMAL ) ? -1 : 1; if( m_unitCount != aRhs.m_unitCount ) return m_unitCount - aRhs.m_unitCount; if( m_drawings.size() != aRhs.m_drawings.size() ) return m_drawings.size() - aRhs.m_drawings.size(); LIB_ITEMS_CONTAINER::CONST_ITERATOR lhsItemIt = m_drawings.begin(); LIB_ITEMS_CONTAINER::CONST_ITERATOR rhsItemIt = aRhs.m_drawings.begin(); while( lhsItemIt != m_drawings.end() ) { const LIB_ITEM* lhsItem = static_cast( &(*lhsItemIt) ); const LIB_ITEM* rhsItem = static_cast( &(*rhsItemIt) ); wxCHECK( lhsItem && rhsItem, lhsItem - rhsItem ); if( lhsItem->Type() != rhsItem->Type() ) return lhsItem->Type() - rhsItem->Type(); // Non-mandatory fields are a special case. They can have different ordinal numbers // and are compared separately below. if( lhsItem->Type() == LIB_FIELD_T ) { const LIB_FIELD* lhsField = static_cast( lhsItem ); if( lhsField->IsMandatory() ) retv = lhsItem->compare( *rhsItem, aCompareFlags ); } else { retv = lhsItem->compare( *rhsItem, aCompareFlags ); } if( retv ) return retv; ++lhsItemIt; ++rhsItemIt; } // Compare the optional fields. for( const LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { const LIB_FIELD* field = dynamic_cast( &item ); wxCHECK2( field, continue ); // Mandatory fields were already compared above. if( field->IsMandatory() ) continue; const LIB_FIELD* foundField = aRhs.FindField( field->GetName() ); if( foundField == nullptr ) return 1; retv = item.compare( static_cast( *foundField ), aCompareFlags ); if( retv ) return retv; } if( m_fpFilters.GetCount() != aRhs.m_fpFilters.GetCount() ) return m_fpFilters.GetCount() - aRhs.m_fpFilters.GetCount(); for( size_t i = 0; i < m_fpFilters.GetCount(); i++ ) { retv = m_fpFilters[i].Cmp( aRhs.m_fpFilters[i] ); if( retv ) return retv; } retv = m_description.Cmp( aRhs.m_description ); if( retv ) return retv; retv = m_keyWords.Cmp( aRhs.m_keyWords ); if( retv ) return retv; if( m_pinNameOffset != aRhs.m_pinNameOffset ) return m_pinNameOffset - aRhs.m_pinNameOffset; if( m_unitsLocked != aRhs.m_unitsLocked ) return ( m_unitsLocked ) ? 1 : -1; if( m_showPinNames != aRhs.m_showPinNames ) return ( m_showPinNames ) ? 1 : -1; if( m_showPinNumbers != aRhs.m_showPinNumbers ) return ( m_showPinNumbers ) ? 1 : -1; if( m_includeInBom != aRhs.m_includeInBom ) return ( m_includeInBom ) ? 1 : -1; if( m_includeOnBoard != aRhs.m_includeOnBoard ) return ( m_includeOnBoard ) ? 1 : -1; return 0; } wxString LIB_SYMBOL::GetUnitReference( int aUnit ) { return LIB_SYMBOL::SubReference( aUnit, false ); } void LIB_SYMBOL::SetName( const wxString& aName ) { m_name = aName; m_libId.SetLibItemName( aName ); GetValueField().SetText( aName ); } void LIB_SYMBOL::SetParent( LIB_SYMBOL* aParent ) { if( aParent ) m_parent = aParent->SharedPtr(); else m_parent.reset(); } std::unique_ptr< LIB_SYMBOL > LIB_SYMBOL::Flatten() const { std::unique_ptr< LIB_SYMBOL > retv; if( IsAlias() ) { LIB_SYMBOL_SPTR parent = m_parent.lock(); wxCHECK_MSG( parent, retv, wxString::Format( wxT( "Parent of derived symbol '%s' undefined" ), m_name ) ); // Copy the parent. retv.reset( new LIB_SYMBOL( *parent.get() ) ); retv->m_name = m_name; retv->SetLibId( m_libId ); // Now add the inherited part mandatory field (this) information. for( int i = 0; i < MANDATORY_FIELDS; i++ ) { wxString tmp = GetFieldById( i )->GetText(); // If the field isn't defined then inherit the parent field value. if( tmp.IsEmpty() ) retv->GetFieldById( i )->SetText( parent->GetFieldById( i )->GetText() ); else *retv->GetFieldById( i ) = *GetFieldById( i ); } // Grab all the rest of derived symbol fields. for( const LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { const LIB_FIELD* aliasField = dynamic_cast( &item ); wxCHECK2( aliasField, continue ); // Mandatory fields were already resolved. if( aliasField->IsMandatory() ) continue; LIB_FIELD* newField = new LIB_FIELD( *aliasField ); newField->SetParent( retv.get() ); LIB_FIELD* parentField = retv->FindField( aliasField->GetName() ); if( !parentField ) // Derived symbol field does not exist in parent symbol. { retv->AddDrawItem( newField ); } else // Derived symbol field overrides the parent symbol field. { retv->RemoveDrawItem( parentField ); retv->AddDrawItem( newField ); } } retv->SetKeyWords( m_keyWords.IsEmpty() ? parent->GetKeyWords() : m_keyWords ); retv->SetDescription( m_description.IsEmpty() ? parent->GetDescription() : m_description ); retv->SetFPFilters( m_fpFilters.IsEmpty() ? parent->GetFPFilters() : m_fpFilters ); retv->UpdateFieldOrdinals(); } else { retv.reset( new LIB_SYMBOL( *this ) ); } return retv; } const wxString LIB_SYMBOL::GetLibraryName() const { if( m_library ) return m_library->GetName(); return m_libId.GetLibNickname(); } bool LIB_SYMBOL::IsPower() const { if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) return parent->m_options == ENTRY_POWER; return m_options == ENTRY_POWER; } void LIB_SYMBOL::SetPower() { if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) parent->m_options = ENTRY_POWER; m_options = ENTRY_POWER; } bool LIB_SYMBOL::IsNormal() const { if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) return parent->m_options == ENTRY_NORMAL; return m_options == ENTRY_NORMAL; } void LIB_SYMBOL::SetNormal() { if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) parent->m_options = ENTRY_NORMAL; m_options = ENTRY_NORMAL; } wxString LIB_SYMBOL::SubReference( int aUnit, bool aAddSeparator ) { wxString subRef; if( m_subpartIdSeparator != 0 && aAddSeparator ) subRef << wxChar( m_subpartIdSeparator ); if( m_subpartFirstId >= '0' && m_subpartFirstId <= '9' ) subRef << aUnit; else { // use letters as notation. To allow more than 26 units, the sub ref // use one letter if letter = A .. Z or a ... z, and 2 letters otherwise // first letter is expected to be 'A' or 'a' (i.e. 26 letters are available) int u; aUnit -= 1; // Unit number starts to 1. now to 0. while( aUnit >= 26 ) // more than one letter are needed { u = aUnit / 26; subRef << wxChar( m_subpartFirstId + u -1 ); aUnit %= 26; } u = m_subpartFirstId + aUnit; subRef << wxChar( u ); } return subRef; } void LIB_SYMBOL::Print( const RENDER_SETTINGS* aSettings, const wxPoint& aOffset, int aUnit, int aConvert, const LIB_SYMBOL_OPTIONS& aOpts ) { /* draw background for filled items using background option * Solid lines will be drawn after the background * Note also, background is not drawn when printing in black and white */ if( !GetGRForceBlackPenState() ) { for( LIB_ITEM& item : m_drawings ) { if( item.Type() == LIB_SHAPE_T ) { LIB_SHAPE& shape = static_cast( item ); // Do not draw items not attached to the current part if( aUnit && shape.m_unit && ( shape.m_unit != aUnit ) ) continue; if( aConvert && shape.m_convert && ( shape.m_convert != aConvert ) ) continue; if( shape.GetFillType() == FILL_T::FILLED_WITH_BG_BODYCOLOR ) shape.Print( aSettings, aOffset, (void*) false, aOpts.transform ); } } } for( LIB_ITEM& item : m_drawings ) { // Do not draw items not attached to the current part if( aUnit && item.m_unit && ( item.m_unit != aUnit ) ) continue; if( aConvert && item.m_convert && ( item.m_convert != aConvert ) ) continue; if( item.Type() == LIB_FIELD_T ) { LIB_FIELD& field = static_cast( item ); if( field.IsVisible() && !aOpts.draw_visible_fields ) continue; if( !field.IsVisible() && !aOpts.draw_hidden_fields ) continue; } if( item.Type() == LIB_PIN_T ) { item.Print( aSettings, aOffset, (void*) &aOpts, aOpts.transform ); } else if( item.Type() == LIB_FIELD_T ) { item.Print( aSettings, aOffset, (void*) NULL, aOpts.transform ); } else if( item.Type() == LIB_SHAPE_T ) { LIB_SHAPE& shape = static_cast( item ); bool forceNoFill = shape.GetFillType() == FILL_T::FILLED_WITH_BG_BODYCOLOR; shape.Print( aSettings, aOffset, (void*) forceNoFill, aOpts.transform ); } else { item.Print( aSettings, aOffset, (void*) false, aOpts.transform ); } } } void LIB_SYMBOL::Plot( PLOTTER* aPlotter, int aUnit, int aConvert, const wxPoint& aOffset, const TRANSFORM& aTransform ) const { wxASSERT( aPlotter != nullptr ); aPlotter->SetColor( aPlotter->RenderSettings()->GetLayerColor( LAYER_DEVICE ) ); // draw background for filled items using background option // Solid lines will be drawn after the background for( const LIB_ITEM& item : m_drawings ) { if( item.Type() != LIB_SHAPE_T ) continue; const LIB_SHAPE& shape = static_cast( item ); // Do not draw items not attached to the current part if( aUnit && shape.m_unit && ( shape.m_unit != aUnit ) ) continue; if( aConvert && shape.m_convert && ( shape.m_convert != aConvert ) ) continue; if( shape.GetFillType() == FILL_T::FILLED_WITH_BG_BODYCOLOR && aPlotter->GetColorMode() ) shape.Plot( aPlotter, aOffset, true, aTransform ); } // Not filled items and filled shapes are now plotted // Items that have BG fills only get re-stroked to ensure the edges are in the foreground for( const LIB_ITEM& item : m_drawings ) { // Lib Fields are not plotted here, because this plot function // is used to plot schematic items, which have they own fields if( item.Type() == LIB_FIELD_T ) continue; if( aUnit && item.m_unit && ( item.m_unit != aUnit ) ) continue; if( aConvert && item.m_convert && ( item.m_convert != aConvert ) ) continue; bool forceNoFill = false; if( item.Type() == LIB_SHAPE_T ) { const LIB_SHAPE& shape = static_cast( item ); forceNoFill = shape.GetFillType() == FILL_T::FILLED_WITH_BG_BODYCOLOR; } item.Plot( aPlotter, aOffset, !forceNoFill, aTransform ); } } void LIB_SYMBOL::PlotLibFields( PLOTTER* aPlotter, int aUnit, int aConvert, const wxPoint& aOffset, const TRANSFORM& aTransform ) { wxASSERT( aPlotter != nullptr ); aPlotter->SetColor( aPlotter->RenderSettings()->GetLayerColor( LAYER_FIELDS ) ); bool fill = aPlotter->GetColorMode(); for( LIB_ITEM& item : m_drawings ) { if( item.Type() != LIB_FIELD_T ) continue; if( aUnit && item.m_unit && ( item.m_unit != aUnit ) ) continue; if( aConvert && item.m_convert && ( item.m_convert != aConvert ) ) continue; LIB_FIELD& field = (LIB_FIELD&) item; // The reference is a special case: we should change the basic text // to add '?' and the part id wxString tmp = field.GetShownText(); if( field.GetId() == REFERENCE_FIELD ) { wxString text = field.GetFullText( aUnit ); field.SetText( text ); } item.Plot( aPlotter, aOffset, fill, aTransform ); field.SetText( tmp ); } } void LIB_SYMBOL::RemoveDrawItem( LIB_ITEM* aItem ) { wxASSERT( aItem != nullptr ); // none of the MANDATORY_FIELDS may be removed in RAM, but they may be // omitted when saving to disk. if( aItem->Type() == LIB_FIELD_T ) { if( static_cast( aItem )->IsMandatory() ) return; } LIB_ITEMS& items = m_drawings[ aItem->Type() ]; for( LIB_ITEMS::iterator i = items.begin(); i != items.end(); i++ ) { if( &*i == aItem ) { items.erase( i ); SetModified(); break; } } } void LIB_SYMBOL::AddDrawItem( LIB_ITEM* aItem, bool aSort ) { wxCHECK( aItem, /* void */ ); m_drawings.push_back( aItem ); if( aSort ) m_drawings.sort(); } LIB_ITEM* LIB_SYMBOL::GetNextDrawItem( const LIB_ITEM* aItem, KICAD_T aType ) { if( aItem == nullptr ) { LIB_ITEMS_CONTAINER::ITERATOR it1 = m_drawings.begin( aType ); return (it1 != m_drawings.end( aType ) ) ? &( *( m_drawings.begin( aType ) ) ) : nullptr; } // Search for the last item, assume aItem is of type aType wxASSERT( ( aType == TYPE_NOT_INIT ) || ( aType == aItem->Type() ) ); LIB_ITEMS_CONTAINER::ITERATOR it = m_drawings.begin( aType ); while( ( it != m_drawings.end( aType ) ) && ( aItem != &( *it ) ) ) ++it; // Search the next item if( it != m_drawings.end( aType ) ) { ++it; if( it != m_drawings.end( aType ) ) return &( *it ); } return nullptr; } void LIB_SYMBOL::GetPins( LIB_PINS& aList, int aUnit, int aConvert ) const { /* Notes: * when aUnit == 0: no unit filtering * when aConvert == 0: no convert (shape selection) filtering * when m_unit == 0, the body item is common to units * when m_convert == 0, the body item is common to shapes */ LIB_SYMBOL_SPTR parent = m_parent.lock(); const LIB_ITEMS_CONTAINER& drawItems = parent ? parent->m_drawings : m_drawings; for( const LIB_ITEM& item : drawItems[LIB_PIN_T] ) { // Unit filtering: if( aUnit && item.m_unit && ( item.m_unit != aUnit ) ) continue; // Shape filtering: if( aConvert && item.m_convert && ( item.m_convert != aConvert ) ) continue; aList.push_back( (LIB_PIN*) &item ); } } LIB_PIN* LIB_SYMBOL::GetPin( const wxString& aNumber, int aUnit, int aConvert ) const { LIB_PINS pinList; GetPins( pinList, aUnit, aConvert ); for( size_t i = 0; i < pinList.size(); i++ ) { wxASSERT( pinList[i]->Type() == LIB_PIN_T ); if( aNumber == pinList[i]->GetNumber() ) return pinList[i]; } return nullptr; } bool LIB_SYMBOL::PinsConflictWith( const LIB_SYMBOL& aOtherPart, bool aTestNums, bool aTestNames, bool aTestType, bool aTestOrientation, bool aTestLength ) const { LIB_PINS thisPinList; GetPins( thisPinList, /* aUnit */ 0, /* aConvert */ 0 ); for( const LIB_PIN* eachThisPin : thisPinList ) { wxASSERT( eachThisPin ); LIB_PINS otherPinList; aOtherPart.GetPins( otherPinList, /* aUnit */ 0, /* aConvert */ 0 ); bool foundMatch = false; for( const LIB_PIN* eachOtherPin : otherPinList ) { wxASSERT( eachOtherPin ); // Same unit? if( eachThisPin->GetUnit() != eachOtherPin->GetUnit() ) continue; // Same body stype? if( eachThisPin->GetConvert() != eachOtherPin->GetConvert() ) continue; // Same position? if( eachThisPin->GetPosition() != eachOtherPin->GetPosition() ) continue; // Same number? if( aTestNums && ( eachThisPin->GetNumber() != eachOtherPin->GetNumber() ) ) continue; // Same name? if( aTestNames && ( eachThisPin->GetName() != eachOtherPin->GetName() ) ) continue; // Same electrical type? if( aTestType && ( eachThisPin->GetType() != eachOtherPin->GetType() ) ) continue; // Same orientation? if( aTestOrientation && ( eachThisPin->GetOrientation() != eachOtherPin->GetOrientation() ) ) continue; // Same length? if( aTestLength && ( eachThisPin->GetLength() != eachOtherPin->GetLength() ) ) continue; foundMatch = true; break; // Match found so search is complete. } if( !foundMatch ) { // This means there was not an identical (according to the arguments) // pin at the same position in the other symbol. return true; } } // The loop never gave up, so no conflicts were found. return false; } const EDA_RECT LIB_SYMBOL::GetUnitBoundingBox( int aUnit, int aConvert ) const { EDA_RECT bBox; bool initialized = false; for( const LIB_ITEM& item : m_drawings ) { if( item.m_unit > 0 && m_unitCount > 1 && aUnit > 0 && aUnit != item.m_unit ) { continue; } if( item.m_convert > 0 && aConvert > 0 && aConvert != item.m_convert ) continue; if ( ( item.Type() == LIB_FIELD_T ) && !( ( LIB_FIELD& ) item ).IsVisible() ) continue; if( initialized ) { bBox.Merge( item.GetBoundingBox() ); } else { bBox = item.GetBoundingBox(); initialized = true; } } return bBox; } void LIB_SYMBOL::ViewGetLayers( int aLayers[], int& aCount ) const { aCount = 6; aLayers[0] = LAYER_DEVICE; aLayers[1] = LAYER_DEVICE_BACKGROUND; aLayers[2] = LAYER_REFERENCEPART; aLayers[3] = LAYER_VALUEPART; aLayers[4] = LAYER_FIELDS; aLayers[5] = LAYER_SELECTION_SHADOWS; } const EDA_RECT LIB_SYMBOL::GetBodyBoundingBox( int aUnit, int aConvert, bool aIncludePins ) const { EDA_RECT bbox; for( const LIB_ITEM& item : m_drawings ) { if( item.m_unit > 0 && aUnit > 0 && aUnit != item.m_unit ) continue; if( item.m_convert > 0 && aConvert > 0 && aConvert != item.m_convert ) continue; if( item.Type() == LIB_FIELD_T ) continue; if( item.Type() == LIB_PIN_T ) { const LIB_PIN& pin = static_cast( item ); // Note: the roots of the pins are always inlcuded for symbols that don't have a // well-defined body. if( aIncludePins ) bbox.Merge( pin.GetBoundingBox( false, true ) ); else bbox.Merge( pin.GetPinRoot() ); } else { bbox.Merge( item.GetBoundingBox() ); } } return bbox; } void LIB_SYMBOL::deleteAllFields() { m_drawings[ LIB_FIELD_T ].clear(); } void LIB_SYMBOL::AddField( LIB_FIELD* aField ) { AddDrawItem( aField ); } void LIB_SYMBOL::SetFields( const std::vector & aFields ) { deleteAllFields(); for( unsigned i=0; iSetParent( this ); m_drawings.push_back( field ); } m_drawings.sort(); } void LIB_SYMBOL::GetFields( std::vector& aList ) { // Grab the MANDATORY_FIELDS first, in expected order given by enum MANDATORY_FIELD_T for( int id = 0; id < MANDATORY_FIELDS; ++id ) aList.push_back( GetFieldById( id ) ); // Now grab all the rest of fields. for( LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { LIB_FIELD* field = static_cast( &item ); if( !field->IsMandatory() ) aList.push_back( field ); } } void LIB_SYMBOL::GetFields( std::vector& aList ) { // Grab the MANDATORY_FIELDS first, in expected order given by enum MANDATORY_FIELD_T for( int id = 0; id < MANDATORY_FIELDS; ++id ) aList.push_back( *GetFieldById( id ) ); // Now grab all the rest of fields. for( LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { LIB_FIELD* field = static_cast( &item ); if( !field->IsMandatory() ) aList.push_back( *field ); } } LIB_FIELD* LIB_SYMBOL::GetFieldById( int aId ) const { for( const LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { LIB_FIELD* field = ( LIB_FIELD* ) &item; if( field->GetId() == aId ) return field; } return nullptr; } LIB_FIELD* LIB_SYMBOL::FindField( const wxString& aFieldName ) { for( LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { if( static_cast( &item )->GetCanonicalName() == aFieldName ) return static_cast( &item ); } return nullptr; } const LIB_FIELD* LIB_SYMBOL::FindField( const wxString& aFieldName ) const { for( const LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { if( static_cast( &item )->GetCanonicalName() == aFieldName ) return static_cast( &item ); } return nullptr; } LIB_FIELD& LIB_SYMBOL::GetValueField() { LIB_FIELD* field = GetFieldById( VALUE_FIELD ); wxASSERT( field != nullptr ); return *field; } LIB_FIELD& LIB_SYMBOL::GetReferenceField() { LIB_FIELD* field = GetFieldById( REFERENCE_FIELD ); wxASSERT( field != nullptr ); return *field; } LIB_FIELD& LIB_SYMBOL::GetFootprintField() { LIB_FIELD* field = GetFieldById( FOOTPRINT_FIELD ); wxASSERT( field != nullptr ); return *field; } LIB_FIELD& LIB_SYMBOL::GetDatasheetField() { LIB_FIELD* field = GetFieldById( DATASHEET_FIELD ); wxASSERT( field != nullptr ); return *field; } int LIB_SYMBOL::UpdateFieldOrdinals() { int retv = 0; int lastOrdinal = MANDATORY_FIELDS; for( LIB_ITEM& item : m_drawings[ LIB_FIELD_T ] ) { LIB_FIELD* field = dynamic_cast( &item ); wxCHECK2( field, continue ); // Mandatory fields were already resolved always have the same ordinal values. if( field->IsMandatory() ) continue; if( field->GetId() != lastOrdinal ) { field->SetId( lastOrdinal ); retv += 1; } lastOrdinal += 1; } return retv; } int LIB_SYMBOL::GetNextAvailableFieldId() const { int retv = MANDATORY_FIELDS; while( GetFieldById( retv ) ) retv += 1; return retv; } void LIB_SYMBOL::SetOffset( const wxPoint& aOffset ) { for( LIB_ITEM& item : m_drawings ) item.Offset( aOffset ); } void LIB_SYMBOL::RemoveDuplicateDrawItems() { m_drawings.unique(); } bool LIB_SYMBOL::HasConversion() const { for( const LIB_ITEM& item : m_drawings ) { if( item.m_convert > LIB_ITEM::LIB_CONVERT::BASE ) return true; } if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) { for( const LIB_ITEM& item : parent->GetDrawItems() ) { if( item.m_convert > LIB_ITEM::LIB_CONVERT::BASE ) return true; } } return false; } void LIB_SYMBOL::ClearTempFlags() { for( LIB_ITEM& item : m_drawings ) item.ClearTempFlags(); } void LIB_SYMBOL::ClearEditFlags() { for( LIB_ITEM& item : m_drawings ) item.ClearEditFlags(); } LIB_ITEM* LIB_SYMBOL::LocateDrawItem( int aUnit, int aConvert, KICAD_T aType, const wxPoint& aPoint ) { for( LIB_ITEM& item : m_drawings ) { if( ( aUnit && item.m_unit && aUnit != item.m_unit ) || ( aConvert && item.m_convert && aConvert != item.m_convert ) || ( item.Type() != aType && aType != TYPE_NOT_INIT ) ) { continue; } if( item.HitTest( aPoint ) ) return &item; } return nullptr; } LIB_ITEM* LIB_SYMBOL::LocateDrawItem( int aUnit, int aConvert, KICAD_T aType, const wxPoint& aPoint, const TRANSFORM& aTransform ) { /* we use LocateDrawItem( int aUnit, int convert, KICAD_T type, const * wxPoint& pt ) to search items. * because this function uses DefaultTransform as orient/mirror matrix * we temporary copy aTransform in DefaultTransform */ LIB_ITEM* item; TRANSFORM transform = DefaultTransform; DefaultTransform = aTransform; item = LocateDrawItem( aUnit, aConvert, aType, aPoint ); // Restore matrix DefaultTransform = transform; return item; } SEARCH_RESULT LIB_SYMBOL::Visit( INSPECTOR aInspector, void* aTestData, const KICAD_T aFilterTypes[] ) { // The part itself is never inspected, only its children for( LIB_ITEM& item : m_drawings ) { if( item.IsType( aFilterTypes ) ) { if( aInspector( &item, aTestData ) == SEARCH_RESULT::QUIT ) return SEARCH_RESULT::QUIT; } } return SEARCH_RESULT::CONTINUE; } void LIB_SYMBOL::SetUnitCount( int aCount, bool aDuplicateDrawItems ) { if( m_unitCount == aCount ) return; if( aCount < m_unitCount ) { LIB_ITEMS_CONTAINER::ITERATOR i = m_drawings.begin(); while( i != m_drawings.end() ) { if( i->m_unit > aCount ) i = m_drawings.erase( i ); else ++i; } } else if( aDuplicateDrawItems ) { int prevCount = m_unitCount; // Temporary storage for new items, as adding new items directly to // m_drawings may cause the buffer reallocation which invalidates the // iterators std::vector< LIB_ITEM* > tmp; for( LIB_ITEM& item : m_drawings ) { if( item.m_unit != 1 ) continue; for( int j = prevCount + 1; j <= aCount; j++ ) { LIB_ITEM* newItem = (LIB_ITEM*) item.Clone(); newItem->m_unit = j; tmp.push_back( newItem ); } } for( LIB_ITEM* item : tmp ) m_drawings.push_back( item ); } m_drawings.sort(); m_unitCount = aCount; } int LIB_SYMBOL::GetUnitCount() const { if( LIB_SYMBOL_SPTR parent = m_parent.lock() ) return parent->GetUnitCount(); return m_unitCount; } void LIB_SYMBOL::SetConversion( bool aSetConvert, bool aDuplicatePins ) { if( aSetConvert == HasConversion() ) return; // Duplicate items to create the converted shape if( aSetConvert ) { if( aDuplicatePins ) { std::vector< LIB_ITEM* > tmp; // Temporarily store the duplicated pins here. for( LIB_ITEM& item : m_drawings ) { // Only pins are duplicated. if( item.Type() != LIB_PIN_T ) continue; if( item.m_convert == 1 ) { LIB_ITEM* newItem = (LIB_ITEM*) item.Clone(); newItem->m_convert = 2; tmp.push_back( newItem ); } } // Transfer the new pins to the LIB_SYMBOL. for( unsigned i = 0; i < tmp.size(); i++ ) m_drawings.push_back( tmp[i] ); } } else { // Delete converted shape items because the converted shape does // not exist LIB_ITEMS_CONTAINER::ITERATOR i = m_drawings.begin(); while( i != m_drawings.end() ) { if( i->m_convert > 1 ) i = m_drawings.erase( i ); else ++i; } } m_drawings.sort(); } void LIB_SYMBOL::SetSubpartIdNotation( int aSep, int aFirstId ) { m_subpartFirstId = 'A'; m_subpartIdSeparator = 0; if( aSep == '.' || aSep == '-' || aSep == '_' ) m_subpartIdSeparator = aSep; if( aFirstId == '1' && aSep != 0 ) m_subpartFirstId = aFirstId; } std::vector LIB_SYMBOL::GetUnitDrawItems( int aUnit, int aConvert ) { std::vector unitItems; for( LIB_ITEM& item : m_drawings ) { if( item.Type() == LIB_FIELD_T ) continue; if( ( aConvert == -1 && item.GetUnit() == aUnit ) || ( aUnit == -1 && item.GetConvert() == aConvert ) || ( aUnit == item.GetUnit() && aConvert == item.GetConvert() ) ) { unitItems.push_back( &item ); } } return unitItems; } std::vector LIB_SYMBOL::GetUnitDrawItems() { std::vector units; for( LIB_ITEM& item : m_drawings ) { if( item.Type() == LIB_FIELD_T ) continue; int unit = item.GetUnit(); int convert = item.GetConvert(); auto it = std::find_if( units.begin(), units.end(), [unit, convert]( const LIB_SYMBOL_UNIT& a ) { return a.m_unit == unit && a.m_convert == convert; } ); if( it == units.end() ) { struct LIB_SYMBOL_UNIT newUnit; newUnit.m_unit = item.GetUnit(); newUnit.m_convert = item.GetConvert(); newUnit.m_items.push_back( &item ); units.emplace_back( newUnit ); } else { it->m_items.push_back( &item ); } } return units; } std::vector LIB_SYMBOL::GetUniqueUnits() { int unitNum; size_t i; struct LIB_SYMBOL_UNIT unit; std::vector compareDrawItems; std::vector currentDrawItems; std::vector uniqueUnits; // The first unit is guaranteed to be unique so always include it. unit.m_unit = 1; unit.m_convert = 1; unit.m_items = GetUnitDrawItems( 1, 1 ); // There are no unique units if there are no draw items other than fields. if( unit.m_items.size() == 0 ) return uniqueUnits; uniqueUnits.emplace_back( unit ); if( ( GetUnitCount() == 1 || UnitsLocked() ) && !HasConversion() ) return uniqueUnits; currentDrawItems = unit.m_items; for( unitNum = 2; unitNum <= GetUnitCount(); unitNum++ ) { compareDrawItems = GetUnitDrawItems( unitNum, 1 ); wxCHECK2_MSG( compareDrawItems.size() != 0, continue, wxT( "Multiple unit symbol defined with empty units." ) ); if( currentDrawItems.size() != compareDrawItems.size() ) { unit.m_unit = unitNum; unit.m_convert = 1; unit.m_items = compareDrawItems; uniqueUnits.emplace_back( unit ); } else { for( i = 0; i < currentDrawItems.size(); i++ ) { if( currentDrawItems[i]->compare( *compareDrawItems[i], LIB_ITEM::COMPARE_FLAGS::UNIT ) != 0 ) { unit.m_unit = unitNum; unit.m_convert = 1; unit.m_items = compareDrawItems; uniqueUnits.emplace_back( unit ); } } } } if( HasConversion() ) { currentDrawItems = GetUnitDrawItems( 1, 2 ); if( ( GetUnitCount() == 1 || UnitsLocked() ) ) { unit.m_unit = 1; unit.m_convert = 2; unit.m_items = currentDrawItems; uniqueUnits.emplace_back( unit ); return uniqueUnits; } for( unitNum = 2; unitNum <= GetUnitCount(); unitNum++ ) { compareDrawItems = GetUnitDrawItems( unitNum, 2 ); wxCHECK2_MSG( compareDrawItems.size() != 0, continue, wxT( "Multiple unit symbol defined with empty units." ) ); if( currentDrawItems.size() != compareDrawItems.size() ) { unit.m_unit = unitNum; unit.m_convert = 2; unit.m_items = compareDrawItems; uniqueUnits.emplace_back( unit ); } else { for( i = 0; i < currentDrawItems.size(); i++ ) { if( currentDrawItems[i]->compare( *compareDrawItems[i], LIB_ITEM::COMPARE_FLAGS::UNIT ) != 0 ) { unit.m_unit = unitNum; unit.m_convert = 2; unit.m_items = compareDrawItems; uniqueUnits.emplace_back( unit ); } } } } } return uniqueUnits; }