#include #include #include #include #include #include #include #include "string_utils.h" #include "fields_data_model.h" const wxString FIELDS_EDITOR_GRID_DATA_MODEL::QUANTITY_VARIABLE = wxS( "${QUANTITY}" ); const wxString FIELDS_EDITOR_GRID_DATA_MODEL::ITEM_NUMBER_VARIABLE = wxS( "${ITEM_NUMBER}" ); void FIELDS_EDITOR_GRID_DATA_MODEL::AddColumn( const wxString& aFieldName, const wxString& aLabel, bool aAddedByUser ) { // Don't add a field twice if( GetFieldNameCol( aFieldName ) != -1 ) return; m_cols.push_back( { aFieldName, aLabel, aAddedByUser, false, false } ); for( unsigned i = 0; i < m_symbolsList.GetCount(); ++i ) if( SCH_SYMBOL* symbol = m_symbolsList[i].GetSymbol() ) updateDataStoreSymbolField( *symbol, aFieldName ); } void FIELDS_EDITOR_GRID_DATA_MODEL::updateDataStoreSymbolField( const SCH_SYMBOL& aSymbol, const wxString& aFieldName ) { if( const SCH_FIELD* field = aSymbol.GetFieldByName( aFieldName ) ) m_dataStore[aSymbol.m_Uuid][aFieldName] = field->GetText(); else if( isAttribute( aFieldName ) ) m_dataStore[aSymbol.m_Uuid][aFieldName] = getAttributeValue( aSymbol, aFieldName ); // Handle fields with variables as names that are not present in the symbol // by giving them the correct value else if( IsTextVar( aFieldName ) ) m_dataStore[aSymbol.m_Uuid][aFieldName] = aFieldName; else m_dataStore[aSymbol.m_Uuid][aFieldName] = wxEmptyString; } void FIELDS_EDITOR_GRID_DATA_MODEL::RemoveColumn( int aCol ) { for( unsigned i = 0; i < m_symbolsList.GetCount(); ++i ) { if( SCH_SYMBOL* symbol = m_symbolsList[i].GetSymbol() ) m_dataStore[symbol->m_Uuid].erase( m_cols[aCol].m_fieldName ); } m_cols.erase( m_cols.begin() + aCol ); } void FIELDS_EDITOR_GRID_DATA_MODEL::RenameColumn( int aCol, const wxString& newName ) { for( unsigned i = 0; i < m_symbolsList.GetCount(); ++i ) { SCH_SYMBOL* symbol = m_symbolsList[i].GetSymbol(); auto node = m_dataStore[symbol->m_Uuid].extract( m_cols[aCol].m_fieldName ); node.key() = newName; m_dataStore[symbol->m_Uuid].insert( std::move( node ) ); } m_cols[aCol].m_fieldName = newName; } int FIELDS_EDITOR_GRID_DATA_MODEL::GetFieldNameCol( wxString aFieldName ) { for( size_t i = 0; i < m_cols.size(); i++ ) { if( m_cols[i].m_fieldName == aFieldName ) return (int) i; } return -1; } const std::vector FIELDS_EDITOR_GRID_DATA_MODEL::GetFieldsOrdered() { std::vector fields; for( const DATA_MODEL_COL& col : m_cols ) fields.push_back( { col.m_fieldName, col.m_label, col.m_show, col.m_group } ); return fields; } void FIELDS_EDITOR_GRID_DATA_MODEL::SetFieldsOrder( const std::vector& aNewOrder ) { size_t foundCount = 0; for( const wxString& newField : aNewOrder ) { for( size_t i = 0; i < m_cols.size(); i++ ) { if( m_cols[i].m_fieldName == newField ) { std::swap( m_cols[foundCount], m_cols[i] ); foundCount++; } } } } wxString FIELDS_EDITOR_GRID_DATA_MODEL::GetValue( int aRow, int aCol ) { if( ColIsReference( aCol ) ) { // Poor-man's tree controls if( m_rows[aRow].m_Flag == GROUP_COLLAPSED ) return wxT( "> " ) + GetValue( m_rows[aRow], aCol ); else if( m_rows[aRow].m_Flag == GROUP_EXPANDED ) return wxT( "v " ) + GetValue( m_rows[aRow], aCol ); else if( m_rows[aRow].m_Flag == CHILD_ITEM ) return wxT( " " ) + GetValue( m_rows[aRow], aCol ); else return wxT( " " ) + GetValue( m_rows[aRow], aCol ); } else { return GetValue( m_rows[aRow], aCol ); } } wxString FIELDS_EDITOR_GRID_DATA_MODEL::GetValue( const DATA_MODEL_ROW& group, int aCol, const wxString& refDelimiter, const wxString& refRangeDelimiter, bool resolveVars ) { std::vector references; wxString fieldValue; for( const SCH_REFERENCE& ref : group.m_Refs ) { if( ColIsReference( aCol ) || ColIsQuantity( aCol ) || ColIsItemNumber( aCol ) ) { references.push_back( ref ); } else // Other columns are either a single value or ROW_MULTI_ITEMS { const KIID& symbolID = ref.GetSymbol()->m_Uuid; if( !m_dataStore.count( symbolID ) || !m_dataStore[symbolID].count( m_cols[aCol].m_fieldName ) ) { return INDETERMINATE_STATE; } wxString refFieldValue; if( resolveVars ) refFieldValue = getFieldShownText( ref, m_cols[aCol].m_fieldName ); else refFieldValue = m_dataStore[symbolID][m_cols[aCol].m_fieldName]; if( &ref == &group.m_Refs.front() ) fieldValue = refFieldValue; else if( fieldValue != refFieldValue ) return INDETERMINATE_STATE; } } if( ColIsReference( aCol ) || ColIsQuantity( aCol ) || ColIsItemNumber( aCol ) ) { // Remove duplicates (other units of multi-unit parts) std::sort( references.begin(), references.end(), []( const SCH_REFERENCE& l, const SCH_REFERENCE& r ) -> bool { wxString l_ref( l.GetRef() << l.GetRefNumber() ); wxString r_ref( r.GetRef() << r.GetRefNumber() ); return StrNumCmp( l_ref, r_ref, true ) < 0; } ); auto logicalEnd = std::unique( references.begin(), references.end(), []( const SCH_REFERENCE& l, const SCH_REFERENCE& r ) -> bool { // If unannotated then we can't tell what units belong together // so we have to leave them all if( l.GetRefNumber() == wxT( "?" ) ) return false; wxString l_ref( l.GetRef() << l.GetRefNumber() ); wxString r_ref( r.GetRef() << r.GetRefNumber() ); return l_ref == r_ref; } ); references.erase( logicalEnd, references.end() ); } if( ColIsReference( aCol ) ) fieldValue = SCH_REFERENCE_LIST::Shorthand( references, refDelimiter, refRangeDelimiter ); else if( ColIsQuantity( aCol ) ) fieldValue = wxString::Format( wxT( "%d" ), (int) references.size() ); else if( ColIsItemNumber( aCol ) && group.m_Flag != CHILD_ITEM ) fieldValue = wxString::Format( wxT( "%d" ), group.m_ItemNumber ); return fieldValue; } void FIELDS_EDITOR_GRID_DATA_MODEL::SetValue( int aRow, int aCol, const wxString& aValue ) { wxCHECK_RET( aCol >= 0 && aCol < (int) m_cols.size(), wxS( "Invalid column number" ) ); // Can't modify references or text variables column, e.g. ${QUANTITY} if( ColIsReference( aCol ) || ( IsTextVar( m_cols[aCol].m_fieldName ) && !ColIsAttribute( aCol ) ) ) { return; } DATA_MODEL_ROW& rowGroup = m_rows[aRow]; for( const SCH_REFERENCE& ref : rowGroup.m_Refs ) m_dataStore[ref.GetSymbol()->m_Uuid][m_cols[aCol].m_fieldName] = aValue; m_edited = true; } bool FIELDS_EDITOR_GRID_DATA_MODEL::ColIsReference( int aCol ) { wxCHECK( aCol >= 0 && aCol < (int) m_cols.size(), false ); return m_cols[aCol].m_fieldName == GetCanonicalFieldName( REFERENCE_FIELD ); } bool FIELDS_EDITOR_GRID_DATA_MODEL::ColIsValue( int aCol ) { wxCHECK( aCol >= 0 && aCol < (int) m_cols.size(), false ); return m_cols[aCol].m_fieldName == GetCanonicalFieldName( VALUE_FIELD ); } bool FIELDS_EDITOR_GRID_DATA_MODEL::ColIsQuantity( int aCol ) { wxCHECK( aCol >= 0 && aCol < (int) m_cols.size(), false ); return m_cols[aCol].m_fieldName == QUANTITY_VARIABLE; } bool FIELDS_EDITOR_GRID_DATA_MODEL::ColIsItemNumber( int aCol ) { wxCHECK( aCol >= 0 && aCol < (int) m_cols.size(), false ); return m_cols[aCol].m_fieldName == ITEM_NUMBER_VARIABLE; } bool FIELDS_EDITOR_GRID_DATA_MODEL::ColIsAttribute( int aCol ) { wxCHECK( aCol >= 0 && aCol < (int) m_cols.size(), false ); return isAttribute( m_cols[aCol].m_fieldName ); } bool FIELDS_EDITOR_GRID_DATA_MODEL::cmp( const DATA_MODEL_ROW& lhGroup, const DATA_MODEL_ROW& rhGroup, FIELDS_EDITOR_GRID_DATA_MODEL* dataModel, int sortCol, bool ascending ) { // Empty rows always go to the bottom, whether ascending or descending if( lhGroup.m_Refs.size() == 0 ) return true; else if( rhGroup.m_Refs.size() == 0 ) return false; // N.B. To meet the iterator sort conditions, we cannot simply invert the truth // to get the opposite sort. i.e. ~(ab) auto local_cmp = [ ascending ]( const auto a, const auto b ) { if( ascending ) return a < b; else return a > b; }; // Primary sort key is sortCol; secondary is always REFERENCE (column 0) wxString lhs = dataModel->GetValue( (DATA_MODEL_ROW&) lhGroup, sortCol ); wxString rhs = dataModel->GetValue( (DATA_MODEL_ROW&) rhGroup, sortCol ); if( lhs == rhs || sortCol == REFERENCE_FIELD ) { wxString lhRef = lhGroup.m_Refs[0].GetRef() + lhGroup.m_Refs[0].GetRefNumber(); wxString rhRef = rhGroup.m_Refs[0].GetRef() + rhGroup.m_Refs[0].GetRefNumber(); return local_cmp( StrNumCmp( lhRef, rhRef, true ), 0 ); } else { return local_cmp( ValueStringCompare( lhs, rhs ), 0 ); } } void FIELDS_EDITOR_GRID_DATA_MODEL::Sort() { CollapseForSort(); // We're going to sort the rows based on their first reference, so the first reference // had better be the lowest one. for( DATA_MODEL_ROW& row : m_rows ) { std::sort( row.m_Refs.begin(), row.m_Refs.end(), []( const SCH_REFERENCE& lhs, const SCH_REFERENCE& rhs ) { wxString lhs_ref( lhs.GetRef() << lhs.GetRefNumber() ); wxString rhs_ref( rhs.GetRef() << rhs.GetRefNumber() ); return StrNumCmp( lhs_ref, rhs_ref, true ) < 0; } ); } std::sort( m_rows.begin(), m_rows.end(), [this]( const DATA_MODEL_ROW& lhs, const DATA_MODEL_ROW& rhs ) -> bool { return cmp( lhs, rhs, this, m_sortColumn, m_sortAscending ); } ); // Time to renumber the item numbers int itemNumber = 1; for( DATA_MODEL_ROW& row : m_rows ) { row.m_ItemNumber = itemNumber++; } ExpandAfterSort(); } bool FIELDS_EDITOR_GRID_DATA_MODEL::unitMatch( const SCH_REFERENCE& lhRef, const SCH_REFERENCE& rhRef ) { // If items are unannotated then we can't tell if they're units of the same symbol or not if( lhRef.GetRefNumber() == wxT( "?" ) ) return false; return ( lhRef.GetRef() == rhRef.GetRef() && lhRef.GetRefNumber() == rhRef.GetRefNumber() ); } bool FIELDS_EDITOR_GRID_DATA_MODEL::groupMatch( const SCH_REFERENCE& lhRef, const SCH_REFERENCE& rhRef ) { int refCol = GetFieldNameCol( GetCanonicalFieldName( REFERENCE_FIELD ) ); bool matchFound = false; if( refCol == -1 ) return false; // First check the reference column. This can be done directly out of the // SCH_REFERENCEs as the references can't be edited in the grid. if( m_cols[refCol].m_group ) { // if we're grouping by reference, then only the prefix must match if( lhRef.GetRef() != rhRef.GetRef() ) return false; matchFound = true; } // Now check all the other columns. This must be done out of the dataStore // for the refresh button to work after editing. for( size_t i = 0; i < m_cols.size(); ++i ) { //Handled already if( (int) i == refCol ) continue; if( !m_cols[i].m_group ) continue; if( getFieldShownText( lhRef, m_cols[i].m_fieldName ) != getFieldShownText( rhRef, m_cols[i].m_fieldName ) ) { return false; } matchFound = true; } return matchFound; } wxString FIELDS_EDITOR_GRID_DATA_MODEL::getFieldShownText( const SCH_REFERENCE& aRef, const wxString& aFieldName ) { SCH_FIELD* field = aRef.GetSymbol()->GetFieldByName( aFieldName ); if( field ) return field->GetShownText( &aRef.GetSheetPath(), false ); // Handle fields with variables as names that are not present in the symbol // by giving them the correct value by resolving against the symbol if( IsTextVar( aFieldName ) ) { int depth = 0; const SCH_SHEET_PATH& path = aRef.GetSheetPath(); std::function symbolResolver = [&]( wxString* token ) -> bool { return aRef.GetSymbol()->ResolveTextVar( &path, token, depth + 1 ); }; return ExpandTextVars( aFieldName, &symbolResolver ); } return wxEmptyString; } bool FIELDS_EDITOR_GRID_DATA_MODEL::isAttribute( const wxString& aFieldName ) { return aFieldName == wxS( "${DNP}" ) || aFieldName == wxS( "${EXCLUDE_FROM_BOARD}" ) || aFieldName == wxS( "${EXCLUDE_FROM_BOM}" ) || aFieldName == wxS( "${EXCLUDE_FROM_SIM}" ); } wxString FIELDS_EDITOR_GRID_DATA_MODEL::getAttributeValue( const SCH_SYMBOL& aSymbol, const wxString& aAttributeName ) { if( aAttributeName == wxS( "${DNP}" ) ) return aSymbol.GetDNP() ? wxS( "1" ) : wxS( "0" ); if( aAttributeName == wxS( "${EXCLUDE_FROM_BOARD}" ) ) return aSymbol.GetExcludedFromBoard() ? wxS( "1" ) : wxS( "0" ); if( aAttributeName == wxS( "${EXCLUDE_FROM_BOM}" ) ) return aSymbol.GetExcludedFromBOM() ? wxS( "1" ) : wxS( "0" ); if( aAttributeName == wxS( "${EXCLUDE_FROM_SIM}" ) ) return aSymbol.GetExcludedFromSim() ? wxS( "1" ) : wxS( "0" ); return wxS( "0" ); } void FIELDS_EDITOR_GRID_DATA_MODEL::setAttributeValue( SCH_SYMBOL& aSymbol, const wxString& aAttributeName, const wxString& aValue ) { if( aAttributeName == wxS( "${DNP}" ) ) aSymbol.SetDNP( aValue == wxS( "1" ) ); else if( aAttributeName == wxS( "${EXCLUDE_FROM_BOARD}" ) ) aSymbol.SetExcludedFromBoard( aValue == wxS( "1" ) ); else if( aAttributeName == wxS( "${EXCLUDE_FROM_BOM}" ) ) aSymbol.SetExcludedFromBOM( aValue == wxS( "1" ) ); else if( aAttributeName == wxS( "${EXCLUDE_FROM_SIM}" ) ) aSymbol.SetExcludedFromSim( aValue == wxS( "1" ) ); } void FIELDS_EDITOR_GRID_DATA_MODEL::EnableRebuilds() { m_rebuildsEnabled = true; } void FIELDS_EDITOR_GRID_DATA_MODEL::DisableRebuilds() { m_rebuildsEnabled = false; } void FIELDS_EDITOR_GRID_DATA_MODEL::RebuildRows() { if( !m_rebuildsEnabled ) return; if( GetView() ) { // Commit any pending in-place edits before the row gets moved out from under // the editor. static_cast( GetView() )->CommitPendingChanges( true ); wxGridTableMessage msg( this, wxGRIDTABLE_NOTIFY_ROWS_DELETED, 0, m_rows.size() ); GetView()->ProcessTableMessage( msg ); } m_rows.clear(); for( unsigned i = 0; i < m_symbolsList.GetCount(); ++i ) { SCH_REFERENCE ref = m_symbolsList[i]; if( !m_filter.IsEmpty() && !WildCompareString( m_filter, ref.GetFullRef(), false ) ) continue; if( m_excludeDNP && ref.GetSymbol()->GetDNP() ) continue; if( !m_includeExcluded && ref.GetSymbol()->GetExcludedFromBOM() ) continue; // Check if the symbol if on the current sheet or, in the sheet path somewhere // depending on scope if( ( m_scope == SCOPE::SCOPE_SHEET && ref.GetSheetPath() != m_path ) || ( m_scope == SCOPE::SCOPE_SHEET_RECURSIVE && !ref.GetSheetPath().IsContainedWithin( m_path ) ) ) { continue; } bool matchFound = false; // Performance optimization for ungrouped case to skip the N^2 for loop if( !m_groupingEnabled && !ref.IsMultiUnit() ) { m_rows.emplace_back( DATA_MODEL_ROW( ref, GROUP_SINGLETON ) ); continue; } // See if we already have a row which this symbol fits into for( DATA_MODEL_ROW& row : m_rows ) { // all group members must have identical refs so just use the first one SCH_REFERENCE rowRef = row.m_Refs[0]; if( unitMatch( ref, rowRef ) ) { matchFound = true; row.m_Refs.push_back( ref ); break; } else if( m_groupingEnabled && groupMatch( ref, rowRef ) ) { matchFound = true; row.m_Refs.push_back( ref ); row.m_Flag = GROUP_COLLAPSED; break; } } if( !matchFound ) m_rows.emplace_back( DATA_MODEL_ROW( ref, GROUP_SINGLETON ) ); } if( GetView() ) { wxGridTableMessage msg( this, wxGRIDTABLE_NOTIFY_ROWS_APPENDED, m_rows.size() ); GetView()->ProcessTableMessage( msg ); } Sort(); } void FIELDS_EDITOR_GRID_DATA_MODEL::ExpandRow( int aRow ) { std::vector children; for( SCH_REFERENCE& ref : m_rows[aRow].m_Refs ) { bool matchFound = false; // See if we already have a child group which this symbol fits into for( DATA_MODEL_ROW& child : children ) { // group members are by definition all matching, so just check // against the first member if( unitMatch( ref, child.m_Refs[0] ) ) { matchFound = true; child.m_Refs.push_back( ref ); break; } } if( !matchFound ) children.emplace_back( DATA_MODEL_ROW( ref, CHILD_ITEM ) ); } if( children.size() < 2 ) return; std::sort( children.begin(), children.end(), [this]( const DATA_MODEL_ROW& lhs, const DATA_MODEL_ROW& rhs ) -> bool { return cmp( lhs, rhs, this, m_sortColumn, m_sortAscending ); } ); m_rows[aRow].m_Flag = GROUP_EXPANDED; m_rows.insert( m_rows.begin() + aRow + 1, children.begin(), children.end() ); wxGridTableMessage msg( this, wxGRIDTABLE_NOTIFY_ROWS_INSERTED, aRow, children.size() ); GetView()->ProcessTableMessage( msg ); } void FIELDS_EDITOR_GRID_DATA_MODEL::CollapseRow( int aRow ) { auto firstChild = m_rows.begin() + aRow + 1; auto afterLastChild = firstChild; int deleted = 0; while( afterLastChild != m_rows.end() && afterLastChild->m_Flag == CHILD_ITEM ) { deleted++; afterLastChild++; } m_rows[aRow].m_Flag = GROUP_COLLAPSED; m_rows.erase( firstChild, afterLastChild ); wxGridTableMessage msg( this, wxGRIDTABLE_NOTIFY_ROWS_DELETED, aRow + 1, deleted ); GetView()->ProcessTableMessage( msg ); } void FIELDS_EDITOR_GRID_DATA_MODEL::ExpandCollapseRow( int aRow ) { DATA_MODEL_ROW& group = m_rows[aRow]; if( group.m_Flag == GROUP_COLLAPSED ) ExpandRow( aRow ); else if( group.m_Flag == GROUP_EXPANDED ) CollapseRow( aRow ); } void FIELDS_EDITOR_GRID_DATA_MODEL::CollapseForSort() { for( size_t i = 0; i < m_rows.size(); ++i ) { if( m_rows[i].m_Flag == GROUP_EXPANDED ) { CollapseRow( i ); m_rows[i].m_Flag = GROUP_COLLAPSED_DURING_SORT; } } } void FIELDS_EDITOR_GRID_DATA_MODEL::ExpandAfterSort() { for( size_t i = 0; i < m_rows.size(); ++i ) { if( m_rows[i].m_Flag == GROUP_COLLAPSED_DURING_SORT ) ExpandRow( i ); } } void FIELDS_EDITOR_GRID_DATA_MODEL::ApplyData( std::function symbolChangeHandler ) { for( unsigned i = 0; i < m_symbolsList.GetCount(); ++i ) { SCH_SYMBOL& symbol = *m_symbolsList[i].GetSymbol(); symbolChangeHandler( symbol, m_symbolsList[i].GetSheetPath() ); const std::map& fieldStore = m_dataStore[symbol.m_Uuid]; for( const std::pair srcData : fieldStore ) { const wxString& srcName = srcData.first; const wxString& srcValue = srcData.second; // Attributes bypass the field logic, so handle them first if( isAttribute( srcName ) ) { setAttributeValue( *m_symbolsList[i].GetSymbol(), srcName, srcValue ); continue; } // Skip special fields with variables as names (e.g. ${QUANTITY}), // they can't be edited if( IsTextVar( srcName ) ) continue; SCH_FIELD* destField = symbol.FindField( srcName ); int col = GetFieldNameCol( srcName ); bool userAdded = ( col != -1 && m_cols[col].m_userAdded ); // Add a not existing field if it has a value for this symbol bool createField = !destField && ( !srcValue.IsEmpty() || userAdded ); if( createField ) { const VECTOR2I symbolPos = symbol.GetPosition(); destField = symbol.AddField( SCH_FIELD( symbolPos, -1, &symbol, srcName ) ); } if( !destField ) continue; if( destField->GetId() == REFERENCE_FIELD ) { // Reference is not editable from this dialog } else if( destField->GetId() == VALUE_FIELD ) { // Value field cannot be empty if( !srcValue.IsEmpty() ) symbol.SetValueFieldText( srcValue ); } else if( destField->GetId() == FOOTPRINT_FIELD ) { symbol.SetFootprintFieldText( srcValue ); } else { destField->SetText( srcValue ); } } for( int ii = symbol.GetFields().size() - 1; ii >= MANDATORY_FIELDS; ii-- ) { if( fieldStore.count( symbol.GetFields()[ii].GetName() ) == 0 ) symbol.GetFields().erase( symbol.GetFields().begin() + ii ); } } m_edited = false; } int FIELDS_EDITOR_GRID_DATA_MODEL::GetDataWidth( int aCol ) { int width = 0; if( ColIsReference( aCol ) ) { for( int row = 0; row < GetNumberRows(); ++row ) width = std::max( width, KIUI::GetTextSize( GetValue( row, aCol ), GetView() ).x ); } else { wxString fieldName = GetColFieldName( aCol ); // symbol fieldName or Qty string for( unsigned symbolRef = 0; symbolRef < m_symbolsList.GetCount(); ++symbolRef ) { const KIID& symbolID = m_symbolsList[symbolRef].GetSymbol()->m_Uuid; wxString text = m_dataStore[symbolID][fieldName]; width = std::max( width, KIUI::GetTextSize( text, GetView() ).x ); } } return width; } void FIELDS_EDITOR_GRID_DATA_MODEL::ApplyBomPreset( const BOM_PRESET& aPreset ) { // Hide and un-group everything by default for( size_t i = 0; i < m_cols.size(); i++ ) { SetShowColumn( i, false ); SetGroupColumn( i, false ); } std::vector order; // Set columns that are present and shown for( BOM_FIELD field : aPreset.fieldsOrdered ) { order.emplace_back( field.name ); int col = GetFieldNameCol( field.name ); // Add any missing fields, if the user doesn't add any data // they won't be saved to the symbols anyway if( col == -1 ) { AddColumn( field.name, field.label, true ); col = GetFieldNameCol( field.name ); } else SetColLabelValue( col, field.label ); SetGroupColumn( col, field.groupBy ); SetShowColumn( col, field.show ); } // Set grouping columns SetGroupingEnabled( aPreset.groupSymbols ); SetFieldsOrder( order ); // Set our sorting int sortCol = GetFieldNameCol( aPreset.sortField ); if( sortCol != -1 ) SetSorting( sortCol, aPreset.sortAsc ); else SetSorting( GetFieldNameCol( GetCanonicalFieldName( REFERENCE_FIELD ) ), aPreset.sortAsc ); SetFilter( aPreset.filterString ); SetExcludeDNP( aPreset.excludeDNP ); RebuildRows(); } BOM_PRESET FIELDS_EDITOR_GRID_DATA_MODEL::GetBomSettings() { BOM_PRESET current; current.readOnly = false; current.fieldsOrdered = GetFieldsOrdered(); current.sortField = GetColFieldName( GetSortCol() ); current.sortAsc = GetSortAsc(); current.filterString = GetFilter(); current.groupSymbols = GetGroupingEnabled(); current.excludeDNP = GetExcludeDNP(); return current; } wxString FIELDS_EDITOR_GRID_DATA_MODEL::Export( const BOM_FMT_PRESET& settings ) { wxString out; if( m_cols.empty() ) return out; int last_col = -1; // Find the location for the line terminator for( size_t col = 0; col < m_cols.size(); col++ ) { if( m_cols[col].m_show ) last_col = (int) col; } // No shown columns if( last_col == -1 ) return out; auto formatField = [&]( wxString field, bool last ) -> wxString { if( !settings.keepLineBreaks ) { field.Replace( wxS( "\r" ), wxS( "" ) ); field.Replace( wxS( "\n" ), wxS( "" ) ); } if( !settings.keepTabs ) { field.Replace( wxS( "\t" ), wxS( "" ) ); } if( !settings.stringDelimiter.IsEmpty() ) field.Replace( settings.stringDelimiter, settings.stringDelimiter + settings.stringDelimiter ); return settings.stringDelimiter + field + settings.stringDelimiter + ( last ? wxString( wxS( "\n" ) ) : settings.fieldDelimiter ); }; // Column names for( size_t col = 0; col < m_cols.size(); col++ ) { if( !m_cols[col].m_show ) continue; out.Append( formatField( m_cols[col].m_label, col == (size_t) last_col ) ); } // Data rows for( size_t row = 0; row < m_rows.size(); row++ ) { // Don't output child rows if( GetRowFlags( (int) row ) == CHILD_ITEM ) continue; for( size_t col = 0; col < m_cols.size(); col++ ) { if( !m_cols[col].m_show ) continue; // Get the unanottated version of the field, e.g. no "> " or "v " by out.Append( formatField( GetExportValue( (int) row, (int) col, settings.refDelimiter, settings.refRangeDelimiter ), col == (size_t) last_col ) ); } } return out; } void FIELDS_EDITOR_GRID_DATA_MODEL::AddReferences( const SCH_REFERENCE_LIST& aRefs ) { for( const SCH_REFERENCE& ref : aRefs ) { if( !m_symbolsList.Contains( ref ) ) { m_symbolsList.AddItem( ref ); // Update the fields of every reference for( const SCH_FIELD& field : ref.GetSymbol()->GetFields() ) m_dataStore[ref.GetSymbol()->m_Uuid][field.GetCanonicalName()] = field.GetText(); } } } void FIELDS_EDITOR_GRID_DATA_MODEL::RemoveSymbol( const SCH_SYMBOL& aSymbol ) { // The schematic event listener passes us the symbol after it has been removed, // so we can't just work with a SCH_REFERENCE_LIST like the other handlers as the // references are already gone. Instead we need to prune our list. m_dataStore[aSymbol.m_Uuid].clear(); // Remove all refs that match this symbol using remove_if m_symbolsList.erase( std::remove_if( m_symbolsList.begin(), m_symbolsList.end(), [aSymbol]( const SCH_REFERENCE& ref ) -> bool { return ref.GetSymbol()->m_Uuid == aSymbol.m_Uuid; } ), m_symbolsList.end() ); } void FIELDS_EDITOR_GRID_DATA_MODEL::RemoveReferences( const SCH_REFERENCE_LIST& aRefs ) { for( const SCH_REFERENCE& ref : aRefs ) { int index = m_symbolsList.FindRefByFullPath( ref.GetFullPath() ); if( index != -1 ) { m_symbolsList.RemoveItem( index ); // If we're out of instances then remove the symbol, too if( ref.GetSymbol()->GetInstanceReferences().empty() ) m_dataStore.erase( ref.GetSymbol()->m_Uuid ); } } } void FIELDS_EDITOR_GRID_DATA_MODEL::UpdateReferences( const SCH_REFERENCE_LIST& aRefs ) { for( const SCH_REFERENCE& ref : aRefs ) { // Update the fields of every reference. Do this by iterating through the data model // colums; we must have all fields in the symbol added to the data model at this point, // and some of the data model columns may be variables that are not present in the symbol for( const DATA_MODEL_COL& col : m_cols ) updateDataStoreSymbolField( *ref.GetSymbol(), col.m_fieldName ); if( !m_symbolsList.Contains( ref ) ) m_symbolsList.AddItem( ref ); } }