int SCH_EDIT_FRAME::CheckAnnotate( wxArrayString* aMessageList, bool aOneSheetOnly )
{
// build the screen list
SCH_REFERENCE_LIST ComponentsList;
// Build the list of components
if( !aOneSheetOnly )
g_RootSheet->GetComponents( Prj().SchLibs(), ComponentsList );
else
m_CurrentSheet->Last()->GetComponents( Prj().SchLibs(), ComponentsList, true, false );
return ComponentsList.CheckAnnotation( aMessageList );
}
int SCH_EDIT_FRAME::CheckAnnotate( wxArrayString* aMessageList, bool aOneSheetOnly )
{
/* build the screen list */
SCH_SHEET_LIST SheetList;
SCH_REFERENCE_LIST ComponentsList;
/* Build the list of components */
if( !aOneSheetOnly )
SheetList.GetComponents( ComponentsList );
else
m_CurrentSheet->GetComponents( ComponentsList );
return ComponentsList.CheckAnnotation( aMessageList );
}
int SCH_EDIT_FRAME::CheckAnnotate( REPORTER& aReporter, bool aOneSheetOnly )
{
// build the screen list
SCH_SHEET_LIST sheetList( g_RootSheet );
SCH_REFERENCE_LIST componentsList;
// Build the list of components
if( !aOneSheetOnly )
sheetList.GetComponents( componentsList );
else
m_CurrentSheet->GetComponents( componentsList );
return componentsList.CheckAnnotation( aReporter );
}
void mapExistingAnnotation( std::map<timestamp_t, wxString>& aMap )
{
SCH_SHEET_LIST sheets( g_RootSheet );
SCH_REFERENCE_LIST references;
sheets.GetComponents( references );
for( size_t i = 0; i < references.GetCount(); i++ )
{
SCH_COMPONENT* comp = references[ i ].GetComp();
wxString ref = comp->GetField( REFERENCE )->GetFullyQualifiedText();
if( !ref.Contains( wxT( "?" ) ) )
aMap[ comp->GetTimeStamp() ] = ref;
}
}
void SCH_SHEET_PATH::GetComponents( PART_LIBS* aLibs, SCH_REFERENCE_LIST& aReferences, bool aIncludePowerSymbols )
{
// Search to sheet path number:
int sheetnumber = 1; // 1 = root
SCH_SHEET_LIST sheetList;
for( SCH_SHEET_PATH* path = sheetList.GetFirst(); path; path = sheetList.GetNext(), sheetnumber++ )
{
if( Cmp( *path ) == 0 )
break;
}
for( SCH_ITEM* item = LastDrawList(); item; item = item->Next() )
{
if( item->Type() == SCH_COMPONENT_T )
{
SCH_COMPONENT* component = (SCH_COMPONENT*) item;
// Skip pseudo components, which have a reference starting with #. This mainly
// affects power symbols.
if( !aIncludePowerSymbols && component->GetRef( this )[0] == wxT( '#' ) )
continue;
LIB_PART* part = aLibs->FindLibPart( component->GetPartName() );
if( part )
{
SCH_REFERENCE reference = SCH_REFERENCE( component, part, *this );
reference.SetSheetNumber( sheetnumber );
aReferences.AddItem( reference );
}
}
}
}
bool SCH_EDIT_FRAME::ProcessCmpToFootprintLinkFile( wxString& aFullFilename,
bool aForceFieldsVisibleAttribute,
bool aFieldsVisibleAttributeState )
{
// Build a flat list of components in schematic:
SCH_REFERENCE_LIST referencesList;
SCH_SHEET_LIST SheetList;
SheetList.GetComponents( referencesList, false );
FILE* cmpFile = wxFopen( aFullFilename, wxT( "rt" ) );
if( cmpFile == NULL )
return false;
// cmpFileReader dtor will close cmpFile
FILE_LINE_READER cmpFileReader( cmpFile, aFullFilename );
// Now, for each component found in file,
// replace footprint field value by the new value:
wxString reference;
wxString footprint;
wxString buffer;
wxString value;
while( cmpFileReader.ReadLine() )
{
buffer = FROM_UTF8( cmpFileReader.Line() );
if( ! buffer.StartsWith( wxT("BeginCmp") ) )
continue;
// Begin component description.
reference.Empty();
footprint.Empty();
while( cmpFileReader.ReadLine() )
{
buffer = FROM_UTF8( cmpFileReader.Line() );
if( buffer.StartsWith( wxT("EndCmp") ) )
break;
// store string value, stored between '=' and ';' delimiters.
value = buffer.AfterFirst( '=' );
value = value.BeforeLast( ';');
value.Trim(true);
value.Trim(false);
if( buffer.StartsWith( wxT("Reference") ) )
{
reference = value;
continue;
}
if( buffer.StartsWith( wxT("IdModule =" ) ) )
{
footprint = value;
continue;
}
}
// A block is read: initialize the footprint field of the correponding component
// if the footprint name is not empty
if( reference.IsEmpty() )
continue;
// Search the component in the flat list
for( unsigned ii = 0; ii < referencesList.GetCount(); ii++ )
{
if( reference.CmpNoCase( referencesList[ii].GetRef() ) == 0 )
{
// We have found a candidate.
// Note: it can be not unique (multiple parts per package)
// So we *do not* stop the search here
SCH_COMPONENT* component = referencesList[ii].GetComponent();
SCH_FIELD * fpfield = component->GetField( FOOTPRINT );
fpfield->SetText( footprint );
if( aForceFieldsVisibleAttribute )
{
component->GetField( FOOTPRINT )
->SetVisible( aFieldsVisibleAttributeState );
}
}
}
}
return true;
}
void SCH_EDIT_FRAME::backAnnotateFootprints( const std::string& aChangedSetOfReferences )
throw( IO_ERROR, boost::bad_pointer )
{
// Build a flat list of components in schematic:
SCH_REFERENCE_LIST refs;
SCH_SHEET_LIST sheets( g_RootSheet );
bool isChanged = false;
sheets.GetComponents( Prj().SchLibs(), refs, false );
DSNLEXER lexer( aChangedSetOfReferences, FROM_UTF8( __func__ ) );
PTREE doc;
try
{
Scan( &doc, &lexer );
#if defined(DEBUG) && 0
STRING_FORMATTER sf;
Format( &sf, 0, 0, doc );
printf( "%s: '%s'\n", __func__, sf.GetString().c_str() );
#endif
CPTREE& back_anno = doc.get_child( "back_annotation" );
wxString footprint;
for( PTREE::const_iterator ref = back_anno.begin(); ref != back_anno.end(); ++ref )
{
wxASSERT( ref->first == "ref" );
wxString reference = (UTF8&) ref->second.front().first;
// Ensure the "fpid" node contains a footprint name,
// and get it if exists
if( ref->second.get_child( "fpid" ).size() )
{
wxString tmp = (UTF8&) ref->second.get_child( "fpid" ).front().first;
footprint = tmp;
}
else
footprint.Empty();
// DBG( printf( "%s: ref:%s fpid:%s\n", __func__, TO_UTF8( reference ), TO_UTF8( footprint ) ); )
// Search the component in the flat list
for( unsigned ii = 0; ii < refs.GetCount(); ++ii )
{
if( reference == refs[ii].GetRef() )
{
// We have found a candidate.
// Note: it can be not unique (multiple parts per package)
// So we *do not* stop the search here
SCH_COMPONENT* component = refs[ii].GetComp();
SCH_FIELD* fpfield = component->GetField( FOOTPRINT );
const wxString& oldfp = fpfield->GetText();
if( !oldfp && fpfield->IsVisible() )
{
fpfield->SetVisible( false );
}
// DBG( printf("%s: ref:%s fpid:%s\n", __func__, TO_UTF8( refs[ii].GetRef() ), TO_UTF8( footprint ) );)
if( oldfp != footprint )
isChanged = true;
fpfield->SetText( footprint );
}
}
}
}
catch( const PTREE_ERROR& ex )
{
// remap the exception to something the caller is likely to understand.
THROW_IO_ERROR( ex.what() );
}
if( isChanged )
OnModify();
}
void SCH_REFERENCE_LIST::Annotate( bool aUseSheetNum, int aSheetIntervalId, int aStartNumber,
SCH_MULTI_UNIT_REFERENCE_MAP aLockedUnitMap )
{
if ( componentFlatList.size() == 0 )
return;
int LastReferenceNumber = 0;
int NumberOfUnits, Unit;
/* calculate index of the first component with the same reference prefix
* than the current component. All components having the same reference
* prefix will receive a reference number with consecutive values:
* IC .. will be set to IC4, IC4, IC5 ...
*/
unsigned first = 0;
// calculate the last used number for this reference prefix:
#ifdef USE_OLD_ALGO
int minRefId = 0;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[first].m_SheetNum * aSheetIntervalId;
LastReferenceNumber = GetLastReference( first, minRefId );
#else
int minRefId;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[first].m_SheetNum * aSheetIntervalId + 1;
else
minRefId = aStartNumber + 1;
// For multi units components, when "keep order of multi unit" option is selected,
// store the list of already used full references.
// The algorithm try to allocate the new reference to components having the same
// old reference.
// This algo works fine as long as the previous annotation has no duplicates.
// But when a hierarchy is reannotated with this option, the previous anotation can
// have duplicate references, and obviously we must fix these duplicate.
// therefore do not try to allocate a full reference more than once when trying
// to keep this order of multi units.
// inUseRefs keep trace of previously allocated references
std::unordered_set<wxString> inUseRefs;
// This is the list of all Id already in use for a given reference prefix.
// Will be refilled for each new reference prefix.
std::vector<int>idList;
GetRefsInUse( first, idList, minRefId );
#endif
for( unsigned ii = 0; ii < componentFlatList.size(); ii++ )
{
if( componentFlatList[ii].m_Flag )
continue;
// Check whether this component is in aLockedUnitMap.
SCH_REFERENCE_LIST* lockedList = NULL;
for( SCH_MULTI_UNIT_REFERENCE_MAP::value_type& pair : aLockedUnitMap )
{
unsigned n_refs = pair.second.GetCount();
for( unsigned thisRefI = 0; thisRefI < n_refs; ++thisRefI )
{
SCH_REFERENCE &thisRef = pair.second[thisRefI];
if( thisRef.IsSameInstance( componentFlatList[ii] ) )
{
lockedList = &pair.second;
break;
}
}
if( lockedList != NULL ) break;
}
if( ( componentFlatList[first].CompareRef( componentFlatList[ii] ) != 0 )
|| ( aUseSheetNum && ( componentFlatList[first].m_SheetNum != componentFlatList[ii].m_SheetNum ) ) )
{
// New reference found: we need a new ref number for this reference
first = ii;
#ifdef USE_OLD_ALGO
minRefId = 0;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[ii].m_SheetNum * aSheetIntervalId;
LastReferenceNumber = GetLastReference( ii, minRefId );
#else
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[ii].m_SheetNum * aSheetIntervalId + 1;
else
minRefId = aStartNumber + 1;
GetRefsInUse( first, idList, minRefId );
#endif
}
// Annotation of one part per package components (trivial case).
if( componentFlatList[ii].GetLibPart()->GetUnitCount() <= 1 )
{
if( componentFlatList[ii].m_IsNew )
{
#ifdef USE_OLD_ALGO
LastReferenceNumber++;
#else
LastReferenceNumber = CreateFirstFreeRefId( idList, minRefId );
#endif
componentFlatList[ii].m_NumRef = LastReferenceNumber;
}
componentFlatList[ii].m_Unit = 1;
componentFlatList[ii].m_Flag = 1;
componentFlatList[ii].m_IsNew = false;
continue;
}
// Annotation of multi-unit parts ( n units per part ) (complex case)
NumberOfUnits = componentFlatList[ii].GetLibPart()->GetUnitCount();
if( componentFlatList[ii].m_IsNew )
{
#ifdef USE_OLD_ALGO
LastReferenceNumber++;
#else
LastReferenceNumber = CreateFirstFreeRefId( idList, minRefId );
#endif
componentFlatList[ii].m_NumRef = LastReferenceNumber;
if( !componentFlatList[ii].IsUnitsLocked() )
componentFlatList[ii].m_Unit = 1;
componentFlatList[ii].m_Flag = 1;
}
// If this component is in aLockedUnitMap, copy the annotation to all
// components that are not it
if( lockedList != NULL )
{
unsigned n_refs = lockedList->GetCount();
for( unsigned thisRefI = 0; thisRefI < n_refs; ++thisRefI )
{
SCH_REFERENCE &thisRef = (*lockedList)[thisRefI];
if( thisRef.IsSameInstance( componentFlatList[ii] ) )
{
// This is the component we're currently annotating. Hold the unit!
componentFlatList[ii].m_Unit = thisRef.m_Unit;
}
if( thisRef.CompareValue( componentFlatList[ii] ) != 0 )
continue;
if( thisRef.CompareLibName( componentFlatList[ii] ) != 0 )
continue;
// Find the matching component
for( unsigned jj = ii + 1; jj < componentFlatList.size(); jj++ )
{
if( ! thisRef.IsSameInstance( componentFlatList[jj] ) )
continue;
wxString ref_candidate = buildFullReference( componentFlatList[ii] );
// propagate the new reference and unit selection to the "old" component,
// if this new full reference is not already used (can happens when initial
// multiunits components have duplicate references)
if( inUseRefs.find( ref_candidate ) == inUseRefs.end() )
{
componentFlatList[jj].m_NumRef = componentFlatList[ii].m_NumRef;
componentFlatList[jj].m_Unit = thisRef.m_Unit;
componentFlatList[jj].m_IsNew = false;
componentFlatList[jj].m_Flag = 1;
// lock this new full reference
inUseRefs.insert( ref_candidate );
break;
}
}
}
}
else
{
/* search for others units of this component.
* we search for others parts that have the same value and the same
* reference prefix (ref without ref number)
*/
for( Unit = 1; Unit <= NumberOfUnits; Unit++ )
{
if( componentFlatList[ii].m_Unit == Unit )
continue;
int found = FindUnit( ii, Unit );
if( found >= 0 )
continue; // this unit exists for this reference (unit already annotated)
// Search a component to annotate ( same prefix, same value, not annotated)
for( unsigned jj = ii + 1; jj < componentFlatList.size(); jj++ )
{
if( componentFlatList[jj].m_Flag ) // already tested
continue;
if( componentFlatList[ii].CompareRef( componentFlatList[jj] ) != 0 )
continue;
if( componentFlatList[jj].CompareValue( componentFlatList[ii] ) != 0 )
continue;
if( componentFlatList[jj].CompareLibName( componentFlatList[ii] ) != 0 )
continue;
if( !componentFlatList[jj].m_IsNew )
continue;
// Component without reference number found, annotate it if possible
if( !componentFlatList[jj].IsUnitsLocked()
|| ( componentFlatList[jj].m_Unit == Unit ) )
{
componentFlatList[jj].m_NumRef = componentFlatList[ii].m_NumRef;
componentFlatList[jj].m_Unit = Unit;
componentFlatList[jj].m_Flag = 1;
componentFlatList[jj].m_IsNew = false;
break;
}
}
}
}
}
}
void SCH_EDIT_FRAME::AnnotateComponents( bool aAnnotateSchematic,
ANNOTATE_ORDER_T aSortOption,
ANNOTATE_OPTION_T aAlgoOption,
bool aResetAnnotation,
bool aRepairTimestamps,
bool aLockUnits )
{
SCH_REFERENCE_LIST references;
SCH_SCREENS screens;
// Build the sheet list.
SCH_SHEET_LIST sheets;
// Map of locked components
SCH_MULTI_UNIT_REFERENCE_MAP lockedComponents;
// Test for and replace duplicate time stamps in components and sheets. Duplicate
// time stamps can happen with old schematics, schematic conversions, or manual
// editing of files.
if( aRepairTimestamps )
{
int count = screens.ReplaceDuplicateTimeStamps();
if( count )
{
wxString msg;
msg.Printf( _( "%d duplicate time stamps were found and replaced." ), count );
DisplayInfoMessage( NULL, msg, 2 );
}
}
// If units must be locked, collect all the sets that must be annotated together.
if( aLockUnits )
{
if( aAnnotateSchematic )
{
sheets.GetMultiUnitComponents( Prj().SchLibs(), lockedComponents );
}
else
{
m_CurrentSheet->GetMultiUnitComponents( Prj().SchLibs(), lockedComponents );
}
}
// If it is an annotation for all the components, reset previous annotation.
if( aResetAnnotation )
DeleteAnnotation( !aAnnotateSchematic );
// Set sheet number and number of sheets.
SetSheetNumberAndCount();
// Build component list
if( aAnnotateSchematic )
{
sheets.GetComponents( Prj().SchLibs(), references );
}
else
{
m_CurrentSheet->GetComponents( Prj().SchLibs(), references );
}
// Break full components reference in name (prefix) and number:
// example: IC1 become IC, and 1
references.SplitReferences();
switch( aSortOption )
{
default:
case SORT_BY_X_POSITION:
references.SortByXCoordinate();
break;
case SORT_BY_Y_POSITION:
references.SortByYCoordinate();
break;
}
bool useSheetNum = false;
int idStep = 100;
switch( aAlgoOption )
{
default:
case INCREMENTAL_BY_REF:
break;
case SHEET_NUMBER_X_100:
useSheetNum = true;
break;
case SHEET_NUMBER_X_1000:
useSheetNum = true;
idStep = 1000;
break;
}
// Recalculate and update reference numbers in schematic
references.Annotate( useSheetNum, idStep, lockedComponents );
references.UpdateAnnotation();
wxArrayString errors;
// Final control (just in case ... ).
if( CheckAnnotate( &errors, !aAnnotateSchematic ) )
{
wxString msg;
for( size_t i = 0; i < errors.GetCount(); i++ )
msg += errors[i];
// wxLogWarning is a cheap and dirty way to dump a potentially long list of
// strings to a dialog that can be saved to a file. This should be replaced
// by a more elegant solution.
wxLogWarning( msg );
}
OnModify();
// Update on screen references, that can be modified by previous calculations:
m_CurrentSheet->UpdateAllScreenReferences();
SetSheetNumberAndCount();
m_canvas->Refresh( true );
}
void SCH_REFERENCE_LIST::Annotate( bool aUseSheetNum, int aSheetIntervalId,
SCH_MULTI_UNIT_REFERENCE_MAP aLockedUnitMap )
{
if ( componentFlatList.size() == 0 )
return;
int LastReferenceNumber = 0;
int NumberOfUnits, Unit;
/* calculate index of the first component with the same reference prefix
* than the current component. All components having the same reference
* prefix will receive a reference number with consecutive values:
* IC .. will be set to IC4, IC4, IC5 ...
*/
unsigned first = 0;
// calculate the last used number for this reference prefix:
#ifdef USE_OLD_ALGO
int minRefId = 0;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[first].m_SheetNum * aSheetIntervalId;
LastReferenceNumber = GetLastReference( first, minRefId );
#else
int minRefId = 1;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[first].m_SheetNum * aSheetIntervalId + 1;
// This is the list of all Id already in use for a given reference prefix.
// Will be refilled for each new reference prefix.
std::vector<int>idList;
GetRefsInUse( first, idList, minRefId );
#endif
for( unsigned ii = 0; ii < componentFlatList.size(); ii++ )
{
if( componentFlatList[ii].m_Flag )
continue;
// Check whether this component is in aLockedUnitMap.
SCH_REFERENCE_LIST* lockedList = NULL;
for( SCH_MULTI_UNIT_REFERENCE_MAP::value_type& pair : aLockedUnitMap )
{
unsigned n_refs = pair.second.GetCount();
for( unsigned thisRefI = 0; thisRefI < n_refs; ++thisRefI )
{
SCH_REFERENCE &thisRef = pair.second[thisRefI];
if( thisRef.IsSameInstance( componentFlatList[ii] ) )
{
lockedList = &pair.second;
break;
}
}
if( lockedList != NULL ) break;
}
if( ( componentFlatList[first].CompareRef( componentFlatList[ii] ) != 0 )
|| ( aUseSheetNum && ( componentFlatList[first].m_SheetNum != componentFlatList[ii].m_SheetNum ) ) )
{
// New reference found: we need a new ref number for this reference
first = ii;
#ifdef USE_OLD_ALGO
minRefId = 0;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[ii].m_SheetNum * aSheetIntervalId;
LastReferenceNumber = componentFlatList.GetLastReference( ii, minRefId );
#else
minRefId = 1;
// when using sheet number, ensure ref number >= sheet number* aSheetIntervalId
if( aUseSheetNum )
minRefId = componentFlatList[ii].m_SheetNum * aSheetIntervalId + 1;
GetRefsInUse( first, idList, minRefId );
#endif
}
// Annotation of one part per package components (trivial case).
if( componentFlatList[ii].GetLibPart()->GetUnitCount() <= 1 )
{
if( componentFlatList[ii].m_IsNew )
{
#ifdef USE_OLD_ALGO
LastReferenceNumber++;
#else
LastReferenceNumber = CreateFirstFreeRefId( idList, minRefId );
#endif
componentFlatList[ii].m_NumRef = LastReferenceNumber;
}
componentFlatList[ii].m_Unit = 1;
componentFlatList[ii].m_Flag = 1;
componentFlatList[ii].m_IsNew = false;
continue;
}
// Annotation of multi-unit parts ( n units per part ) (complex case)
NumberOfUnits = componentFlatList[ii].GetLibPart()->GetUnitCount();
if( componentFlatList[ii].m_IsNew )
{
#ifdef USE_OLD_ALGO
LastReferenceNumber++;
#else
LastReferenceNumber = CreateFirstFreeRefId( idList, minRefId );
#endif
componentFlatList[ii].m_NumRef = LastReferenceNumber;
if( !componentFlatList[ii].IsUnitsLocked() )
componentFlatList[ii].m_Unit = 1;
componentFlatList[ii].m_Flag = 1;
}
// If this component is in aLockedUnitMap, copy the annotation to all
// components that are not it
if( lockedList != NULL )
{
unsigned n_refs = lockedList->GetCount();
for( unsigned thisRefI = 0; thisRefI < n_refs; ++thisRefI )
{
SCH_REFERENCE &thisRef = (*lockedList)[thisRefI];
if( thisRef.IsSameInstance( componentFlatList[ii] ) )
{
// This is the component we're currently annotating. Hold the unit!
componentFlatList[ii].m_Unit = thisRef.m_Unit;
}
if( thisRef.CompareValue( componentFlatList[ii] ) != 0 ) continue;
if( thisRef.CompareLibName( componentFlatList[ii] ) != 0 ) continue;
// Find the matching component
for( unsigned jj = ii + 1; jj < componentFlatList.size(); jj++ )
{
if( ! thisRef.IsSameInstance( componentFlatList[jj] ) ) continue;
componentFlatList[jj].m_NumRef = componentFlatList[ii].m_NumRef;
componentFlatList[jj].m_Unit = thisRef.m_Unit;
componentFlatList[jj].m_IsNew = false;
componentFlatList[jj].m_Flag = 1;
break;
}
}
}
else
{
/* search for others units of this component.
* we search for others parts that have the same value and the same
* reference prefix (ref without ref number)
*/
for( Unit = 1; Unit <= NumberOfUnits; Unit++ )
{
if( componentFlatList[ii].m_Unit == Unit )
continue;
int found = FindUnit( ii, Unit );
if( found >= 0 )
continue; // this unit exists for this reference (unit already annotated)
// Search a component to annotate ( same prefix, same value, not annotated)
for( unsigned jj = ii + 1; jj < componentFlatList.size(); jj++ )
{
if( componentFlatList[jj].m_Flag ) // already tested
continue;
if( componentFlatList[ii].CompareRef( componentFlatList[jj] ) != 0 )
continue;
if( componentFlatList[jj].CompareValue( componentFlatList[ii] ) != 0 )
continue;
if( componentFlatList[jj].CompareLibName( componentFlatList[ii] ) != 0 )
continue;
if( !componentFlatList[jj].m_IsNew )
continue;
// Component without reference number found, annotate it if possible
if( !componentFlatList[jj].IsUnitsLocked()
|| ( componentFlatList[jj].m_Unit == Unit ) )
{
componentFlatList[jj].m_NumRef = componentFlatList[ii].m_NumRef;
componentFlatList[jj].m_Unit = Unit;
componentFlatList[jj].m_Flag = 1;
componentFlatList[jj].m_IsNew = false;
break;
}
}
}
}
}
}
void SCH_EDIT_FRAME::AnnotateComponents( bool aAnnotateSchematic,
ANNOTATE_ORDER_T aSortOption,
ANNOTATE_OPTION_T aAlgoOption,
int aStartNumber,
bool aResetAnnotation,
bool aRepairTimestamps,
bool aLockUnits,
REPORTER& aReporter )
{
SCH_REFERENCE_LIST references;
SCH_SCREENS screens;
// Build the sheet list.
SCH_SHEET_LIST sheets( g_RootSheet );
// Map of locked components
SCH_MULTI_UNIT_REFERENCE_MAP lockedComponents;
// Map of previous annotation for building info messages
std::map<timestamp_t, wxString> previousAnnotation;
// Test for and replace duplicate time stamps in components and sheets. Duplicate
// time stamps can happen with old schematics, schematic conversions, or manual
// editing of files.
if( aRepairTimestamps )
{
int count = screens.ReplaceDuplicateTimeStamps();
if( count )
{
wxString msg;
msg.Printf( _( "%d duplicate time stamps were found and replaced." ), count );
aReporter.ReportTail( msg, REPORTER::RPT_WARNING );
}
}
// If units must be locked, collect all the sets that must be annotated together.
if( aLockUnits )
{
if( aAnnotateSchematic )
{
sheets.GetMultiUnitComponents( lockedComponents );
}
else
{
m_CurrentSheet->GetMultiUnitComponents( lockedComponents );
}
}
// Store previous annotations for building info messages
mapExistingAnnotation( previousAnnotation );
// If it is an annotation for all the components, reset previous annotation.
if( aResetAnnotation )
DeleteAnnotation( !aAnnotateSchematic );
// Set sheet number and number of sheets.
SetSheetNumberAndCount();
// Build component list
if( aAnnotateSchematic )
{
sheets.GetComponents( references );
}
else
{
m_CurrentSheet->GetComponents( references );
}
// Break full components reference in name (prefix) and number:
// example: IC1 become IC, and 1
references.SplitReferences();
switch( aSortOption )
{
default:
case SORT_BY_X_POSITION:
references.SortByXCoordinate();
break;
case SORT_BY_Y_POSITION:
references.SortByYCoordinate();
break;
}
bool useSheetNum = false;
int idStep = 100;
switch( aAlgoOption )
{
default:
case INCREMENTAL_BY_REF:
break;
case SHEET_NUMBER_X_100:
useSheetNum = true;
break;
case SHEET_NUMBER_X_1000:
useSheetNum = true;
idStep = 1000;
break;
}
// Recalculate and update reference numbers in schematic
references.Annotate( useSheetNum, idStep, aStartNumber, lockedComponents );
references.UpdateAnnotation();
for( size_t i = 0; i < references.GetCount(); i++ )
{
SCH_COMPONENT* comp = references[ i ].GetComp();
wxString prevRef = previousAnnotation[ comp->GetTimeStamp() ];
wxString newRef = comp->GetField( REFERENCE )->GetFullyQualifiedText();
wxString msg;
if( prevRef.Length() )
{
if( newRef == prevRef )
continue;
if( comp->GetUnitCount() > 1 )
msg.Printf( _( "Updated %s (unit %s) from %s to %s" ),
GetChars( comp->GetField( VALUE )->GetShownText() ),
LIB_PART::SubReference( comp->GetUnit(), false ),
GetChars( prevRef ),
GetChars( newRef ) );
else
msg.Printf( _( "Updated %s from %s to %s" ),
GetChars( comp->GetField( VALUE )->GetShownText() ),
GetChars( prevRef ),
GetChars( newRef ) );
}
else
{
if( comp->GetUnitCount() > 1 )
msg.Printf( _( "Annotated %s (unit %s) as %s" ),
GetChars( comp->GetField( VALUE )->GetShownText() ),
LIB_PART::SubReference( comp->GetUnit(), false ),
GetChars( newRef ) );
else
msg.Printf( _( "Annotated %s as %s" ),
GetChars( comp->GetField( VALUE )->GetShownText() ),
GetChars( newRef ) );
}
aReporter.Report( msg, REPORTER::RPT_ACTION );
}
// Final control (just in case ... ).
if( !CheckAnnotate( aReporter, !aAnnotateSchematic ) )
aReporter.ReportTail( _( "Annotation complete." ), REPORTER::RPT_ACTION );
// Update on screen references, that can be modified by previous calculations:
m_CurrentSheet->UpdateAllScreenReferences();
SetSheetNumberAndCount();
SyncView();
GetCanvas()->Refresh();
OnModify();
}
/**
* Add a list of component items to the BOM manager
* Creates consolidated groups of components as required
*/
void BOM_TABLE_MODEL::SetComponents( SCH_REFERENCE_LIST aRefs, const TEMPLATE_FIELDNAMES& aTemplateFields )
{
// Add default columns
AddDefaultColumns();
// Extract all component fields
for( unsigned int ii=0; ii<aRefs.GetCount(); ii++ )
{
auto ref = aRefs.GetItem( ii );
auto cmp = ref.GetComp();
if( cmp )
{
AddComponentFields( cmp );
}
}
// Add template fields if they are not already added
for( auto field : aTemplateFields )
{
BOM_COLUMN* col;
col = ColumnList.GetColumnByTitle( field.m_Name );
if( !col )
{
col = new BOM_COLUMN( ColumnList.NextFieldId(),
BOM_COL_TYPE_USER,
field.m_Name,
true, false );
ColumnList.AddColumn( col );
}
// Add template value for that field
m_fieldTemplates[col->Id()] = field.m_Value;
}
// Group multi-unit components together
m_components.clear();
m_fieldValues.clear();
// Iterate through each unique component
for( unsigned int ii=0; ii<aRefs.GetCount(); ii++ )
{
auto ref = aRefs.GetItem( ii );
bool found = false;
for( auto& cmp : m_components )
{
if( cmp->AddUnit( ref ) )
{
found = true;
break;
}
}
if( !found )
{
// Find the field:value map associated with this component
wxString refDes = ref.GetComp()->GetField( REFERENCE )->GetText();
bool dataFound = false;
BOM_FIELD_VALUES* values;
for( auto& data : m_fieldValues )
{
// Look for a match based on RefDes
if( data->GetReference().Cmp( refDes ) == 0 )
{
dataFound = true;
values = &*data;
}
}
if( !dataFound )
{
values = new BOM_FIELD_VALUES( refDes, &m_fieldTemplates );
m_fieldValues.push_back( std::unique_ptr<BOM_FIELD_VALUES>( values ) );
}
auto* newComponent = new BOM_TABLE_COMPONENT( nullptr, &ColumnList, values );
newComponent->AddUnit( ref );
m_components.push_back( std::unique_ptr<BOM_TABLE_COMPONENT>( newComponent ) );
}
}
SetBackupPoint();
}
