69 long long maxDesignSizekicad = std::numeric_limits<int>::max();
71 if( designSizeXkicad > maxDesignSizekicad || designSizeYkicad > maxDesignSizekicad )
76 _(
"The design is too large and cannot be imported into KiCad. \n"
77 "Please reduce the maximum design size in CADSTAR by navigating to: \n"
78 "Design Tab -> Properties -> Design Options -> Maximum Design Size. \n"
79 "Current Design size: %.2f, %.2f millimeters. \n"
80 "Maximum permitted design size: %.2f, %.2f millimeters.\n" ),
94 _(
"The selected file indicates that nets might be out of synchronisation "
95 "with the schematic. It is recommended that you carry out an 'Align Nets' "
96 "procedure in CADSTAR and re-import, to avoid inconsistencies between the "
97 "PCB and the schematic. " ) );
107 long numSteps =
Layout.Coppers.size();
110 numSteps += (
Layout.Templates.size() *
Layout.Templates.size() ) / 2;
134 wxLogError( wxString::Format(
_(
"Unable to determine zone fill priorities for layer "
135 "'%s'. A best attempt has been made but it is "
136 "possible that DRC errors exist and that manual "
137 "editing of the zone priorities is required." ),
138 m_board->GetLayerName(
id ) ) );
145 if(
Layout.Trunks.size() > 0 )
148 _(
"The CADSTAR design contains Trunk routing elements, which have no KiCad "
149 "equivalent. These elements were not loaded." ) );
152 if(
Layout.VariantHierarchy.Variants.size() > 0 )
154 wxLogWarning( wxString::Format(
155 _(
"The CADSTAR design contains variants which has no KiCad equivalent. Only "
156 "the variant '%s' was loaded." ),
157 Layout.VariantHierarchy.Variants.begin()->second.Name ) );
160 if(
Layout.ReuseBlocks.size() > 0 )
163 _(
"The CADSTAR design contains re-use blocks which has no KiCad equivalent. The "
164 "re-use block information has been discarded during the import." ) );
167 wxLogWarning(
_(
"CADSTAR fonts are different to the ones in KiCad. This will likely result "
168 "in alignment issues that may cause DRC errors. Please review the imported "
169 "text elements carefully and correct manually if required." ) );
172 _(
"The CADSTAR design has been imported successfully.\n"
173 "Please review the import errors and warnings (if any)." ) );
178 std::vector<FOOTPRINT*> retval;
180 for( std::pair<SYMDEF_ID, FOOTPRINT*> fpPair :
m_libraryMap )
182 retval.push_back(
static_cast<FOOTPRINT*
>( fpPair.second->Clone() ) );
198 for( std::pair<SYMDEF_ID, FOOTPRINT*> libItem :
m_libraryMap )
219 std::vector<std::unique_ptr<FOOTPRINT>> retval;
223 footprint->SetParent(
nullptr );
224 retval.emplace_back( footprint );
242 wxLogWarning( wxString::Format(
243 _(
"The CADSTAR layer '%s' has no KiCad equivalent. All elements on this "
244 "layer have been mapped to KiCad layer '%s' instead." ),
245 aCadstarLayerName,
LSET::Name( aKiCadLayer ) ) );
255 wxLogMessage( wxString::Format(
256 _(
"The CADSTAR layer '%s' has been assumed to be a technical layer. All "
257 "elements on this layer have been mapped to KiCad layer '%s'." ),
258 aCadstarLayerName,
LSET::Name( aKiCadLayer ) ) );
265 int aDielectricSublayer )
277 if( !aCadstarLayer.
Name.IsEmpty() )
291 LAYER_ID ElecLayerID = wxEmptyString;
294 std::vector<LAYER_ID> ConstructionLayers;
299 bool IsInitialised() {
return !ElecLayerID.IsEmpty() || ConstructionLayers.size() > 0; };
302 std::vector<LAYER_BLOCK> cadstarBoardStackup;
303 LAYER_BLOCK currentBlock;
315 if( currentBlock.IsInitialised() )
317 cadstarBoardStackup.push_back( currentBlock );
318 currentBlock = LAYER_BLOCK();
321 currentBlock.ElecLayerID = cadstarLayerID;
328 wxLogWarning( wxString::Format(
_(
"The CADSTAR construction layer '%s' is on "
329 "the outer surface of the board. It has been "
331 cadstarLayer.
Name ) );
335 currentBlock.ConstructionLayers.push_back( cadstarLayerID );
340 if( currentBlock.IsInitialised() )
341 cadstarBoardStackup.push_back( currentBlock );
346 if( cadstarBoardStackup.back().ConstructionLayers.size() > 0 )
348 for(
const LAYER_ID& layerID : cadstarBoardStackup.back().ConstructionLayers )
352 wxLogWarning( wxString::Format(
_(
"The CADSTAR construction layer '%s' is on "
353 "the outer surface of the board. It has been "
355 cadstarLayer.
Name ) );
358 cadstarBoardStackup.back().ConstructionLayers.clear();
364 LAYER_BLOCK bottomLayer = cadstarBoardStackup.back();
365 cadstarBoardStackup.pop_back();
367 LAYER_BLOCK secondToLastLayer = cadstarBoardStackup.back();
368 cadstarBoardStackup.pop_back();
370 LAYER_BLOCK dummyLayer;
372 if( secondToLastLayer.ConstructionLayers.size() > 0 )
374 LAYER_ID lastConstruction = secondToLastLayer.ConstructionLayers.back();
376 if( secondToLastLayer.ConstructionLayers.size() > 1 )
380 secondToLastLayer.ConstructionLayers.pop_back();
386 Assignments.Layerdefs.Layers.at( lastConstruction ).Thickness /= 2;
389 dummyLayer.ConstructionLayers.push_back( lastConstruction );
392 cadstarBoardStackup.push_back( secondToLastLayer );
393 cadstarBoardStackup.push_back( dummyLayer );
394 cadstarBoardStackup.push_back( bottomLayer );
399 wxASSERT( cadstarBoardStackup.back().ConstructionLayers.size() == 0 );
410 size_t stackIndex = 0;
416 LAYER_ID layerID = cadstarBoardStackup.at( stackIndex ).ElecLayerID;
418 if( layerID.IsEmpty() )
421 item->SetThickness( 0 );
429 switch( copperLayer.
Type )
445 wxFAIL_MSG( wxT(
"Unexpected Layer type. Was expecting an electrical type" ) );
449 m_board->SetLayerType( item->GetBrdLayerId(), copperType );
450 m_board->SetLayerName( item->GetBrdLayerId(), item->GetLayerName() );
451 m_layermap.insert( { copperLayer.
ID, item->GetBrdLayerId() } );
456 LAYER_BLOCK layerBlock = cadstarBoardStackup.at( stackIndex );
457 LAYER_BLOCK layerBlockBelow = cadstarBoardStackup.at( stackIndex + 1 );
459 if( layerBlock.ConstructionLayers.size() == 0 )
465 int dielectricId = stackIndex + 1;
466 item->SetDielectricLayerId( dielectricId );
471 if( layerBlock.ElecLayerID.IsEmpty() )
478 LAYER copperLayer =
Assignments.Layerdefs.Layers.at( layerBlock.ElecLayerID );
480 if( layerBlockBelow.ElecLayerID.IsEmpty() )
491 LAYER copperLayerBelow =
492 Assignments.Layerdefs.Layers.at( layerBlockBelow.ElecLayerID );
509 int dielectricSublayer = 0;
511 for(
LAYER_ID constructionLaID : layerBlock.ConstructionLayers )
513 LAYER dielectricLayer =
Assignments.Layerdefs.Layers.at( constructionLaID );
515 if( dielectricSublayer )
516 item->AddDielectricPrms( dielectricSublayer );
519 m_board->SetLayerName( item->GetBrdLayerId(), item->GetLayerName() );
520 m_layermap.insert( { dielectricLayer.
ID, item->GetBrdLayerId() } );
521 ++dielectricSublayer;
528 item->SetColor( wxT(
"White" ) );
532 item->SetColor( wxT(
"Green" ) );
540 int numElecLayersProcessed = 0;
543 int currentDocLayer = 0;
551 wxString layerName = curLayer.
Name.Lower();
564 kicadLayerID = aBack;
566 kicadLayerID = aFront;
570 case LOG_LEVEL::NONE:
577 case LOG_LEVEL::WARN:
583 switch( curLayer.
Type )
591 THROW_IO_ERROR( wxString::Format(
_(
"Unexpected layer '%s' in layer stack." ),
598 ++numElecLayersProcessed;
606 if( currentDocLayer >= (
int) docLayers.size() )
609 kicadLayerID = docLayers.at( currentDocLayer++ );
627 if( layerName.Contains( wxT(
"glue" ) ) || layerName.Contains( wxT(
"adhesive" ) ) )
631 else if( layerName.Contains( wxT(
"silk" ) ) || layerName.Contains( wxT(
"legend" ) ) )
635 else if( layerName.Contains( wxT(
"assembly" ) ) || layerName.Contains( wxT(
"fabrication" ) ) )
639 else if( layerName.Contains( wxT(
"resist" ) ) || layerName.Contains( wxT(
"mask" ) ) )
643 else if( layerName.Contains( wxT(
"paste" ) ) )
674 wxFAIL_MSG( wxT(
"Unknown CADSTAR Layer Sub-type" ) );
680 wxFAIL_MSG( wxT(
"Unknown CADSTAR Layer Type" ) );
695 std::vector<INPUT_LAYER_DESC> inputLayers;
696 std::map<wxString, LAYER_ID> cadstarLayerNameMap;
698 for( std::pair<LAYER_ID, PCB_LAYER_ID> layerPair :
m_layermap )
710 inputLayers.push_back( iLdesc );
711 cadstarLayerNameMap.insert( { curLayer->
Name, curLayer->
ID } );
715 if( inputLayers.size() == 0 )
721 for( std::pair<wxString, PCB_LAYER_ID> layerPair : reMappedLayers )
725 wxFAIL_MSG( wxT(
"Unexpected Layer ID" ) );
729 LAYER_ID cadstarLayerID = cadstarLayerNameMap.at( layerPair.first );
730 m_layermap.at( cadstarLayerID ) = layerPair.second;
731 enabledLayers |=
LSET( { layerPair.second } );
734 m_board->SetEnabledLayers( enabledLayers );
735 m_board->SetVisibleLayers( enabledLayers );
742 std::map<SPACINGCODE_ID, SPACINGCODE>& spacingCodes =
Assignments.Codedefs.SpacingCodes;
745 [&]( wxString aID,
int* aVal )
747 if( spacingCodes.find( aID ) == spacingCodes.end() )
748 wxLogWarning(
_(
"Design rule %s was not found. This was ignored." ) );
766 auto applyNetClassRule = [&]( wxString aID,
const std::shared_ptr<NETCLASS>& aNetClassPtr )
769 applyRule( aID, &value );
772 aNetClassPtr->SetClearance( value );
777 wxLogWarning(
_(
"KiCad design rules are different from CADSTAR ones. Only the compatible "
778 "design rules were imported. It is recommended that you review the design "
779 "rules that have been applied." ) );
785 for( std::pair<SYMDEF_ID, SYMDEF_PCB> symPair :
Library.ComponentDefinitions )
795 if( component.
Figures.size() > 0 )
798 componentLayer = firstFigure.
LayerID;
800 else if( component.
Texts.size() > 0 )
802 TEXT firstText = component.
Texts.begin()->second;
803 componentLayer = firstText.
LayerID;
826 m_libraryMap.insert( std::make_pair( key, footprint ) );
834 for( std::pair<FIGURE_ID, FIGURE> figPair : aComponent.
Figures )
836 FIGURE& fig = figPair.second;
843 wxString::Format( wxT(
"Component %s:%s -> Figure %s" ),
861 LSET remainingLayers = layers;
889 std::unique_ptr<PAD>
pad = std::make_unique<PAD>( aFootprint );
891 pad->SetLayerSet( copperLayers );
892 pad->SetNumber( anchorPad.
Identifier.IsEmpty() ? wxString::Format( wxT(
"%ld" ), anchorPad.
ID )
902 if( anchorSize <= 0 )
908 pad->SetPosition( anchorPos );
911 shapePolys.
Move( -anchorPos );
928 remainingLayers ^= copperLayers;
931 if( remainingLayers.any() )
936 wxString::Format( wxT(
"Component %s:%s -> Copper element" ),
948 for( std::pair<COMP_AREA_ID, COMPONENT_AREA> areaPair : aComponent.
ComponentAreas )
954 int lineThickness = 0;
979 libName << wxT(
" (" ) << aComponent.
Alternate << wxT(
")" );
981 wxLogError( wxString::Format(
_(
"The CADSTAR area '%s' in library component '%s' does not "
982 "have a KiCad equivalent. The area is neither a via nor "
983 "route keepout area. The area was not imported." ),
984 area.
ID, libName ) );
993 for( std::pair<PAD_ID, COMPONENT_PAD> padPair : aComponent.
ComponentPads )
1009 std::unique_ptr<PAD>
pad = std::make_unique<PAD>( aParent );
1012 switch( aCadstarPad.
Side )
1027 wxFAIL_MSG( wxT(
"Unknown Pad type" ) );
1031 pad->SetLocalSolderMaskMargin( 0 );
1032 pad->SetLocalSolderPasteMargin( 0 );
1033 pad->SetLocalSolderPasteMarginRatio( 0.0 );
1034 bool complexPadErrorLogged =
false;
1036 for(
auto& [layer, shape] : csPadcode.
Reassigns )
1040 if( shape.Size == 0 )
1043 padLayerSet.
reset( kiLayer );
1051 std::optional<int> localMargin =
pad->GetLocalSolderMaskMargin();
1053 if( !localMargin.has_value() )
1054 pad->SetLocalSolderMaskMargin( newMargin );
1056 pad->SetLocalSolderMaskMargin( newMargin );
1060 std::optional<int> localMargin =
pad->GetLocalSolderPasteMargin();
1062 if( !localMargin.has_value() )
1063 pad->SetLocalSolderPasteMargin( newMargin );
1065 pad->SetLocalSolderPasteMargin( newMargin );
1071 if( !complexPadErrorLogged )
1073 complexPadErrorLogged =
true;
1074 errorMSG += wxT(
"\n - " )
1075 + wxString::Format(
_(
"The CADSTAR pad definition '%s' is a complex pad stack, "
1076 "which is not supported in KiCad. Please review the "
1077 "imported pads as they may require manual correction." ),
1084 pad->SetLayerSet( padLayerSet );
1091 pad->SetNumber( wxT(
"" ) );
1095 pad->SetNumber( aCadstarPad.
Identifier.IsEmpty() ? wxString::Format( wxT(
"%ld" ), aCadstarPad.
ID )
1217 wxFAIL_MSG( wxT(
"Unknown Pad Shape" ) );
1252 pad->SetDrillSize( { 0, 0 } );
1257 LSET lset =
pad->GetLayerSet();
1260 if( lset.size() > 0 )
1264 int maxError =
m_board->GetDesignSettings().m_MaxError;
1266 pad->SetPosition( { 0, 0 } );
1267 pad->TransformShapeToPolygon( padOutline, layer, 0, maxError,
ERROR_INSIDE );
1274 padShape->
Move( padOffset - drillOffset );
1279 if( editedPadOutline.
Contains( { 0, 0 } ) )
1285 padOffset = { 0, 0 };
1292 drillOffset = { 0, 0 };
1294 errorMSG += wxT(
"\n - " )
1295 + wxString::Format(
_(
"The CADSTAR pad definition '%s' has the hole shape outside the "
1296 "pad shape. The hole has been moved to the center of the pad." ),
1302 wxFAIL_MSG( wxT(
"No copper layers defined in the pad?" ) );
1325 wxLogError(
_(
"The CADSTAR pad definition '%s' has import errors: %s" ),
1332 return pad.release();
1338 size_t index = aCadstarPadID - (long) 1;
1342 THROW_IO_ERROR( wxString::Format(
_(
"Unable to find pad index '%d' in footprint '%s'." ),
1343 (
long) aCadstarPadID,
1353 for( std::pair<GROUP_ID, GROUP> groupPair :
Layout.Groups )
1355 GROUP& csGroup = groupPair.second;
1367 for( std::pair<GROUP_ID, GROUP> groupPair :
Layout.Groups )
1369 GROUP& csGroup = groupPair.second;
1371 if( !csGroup.
GroupID.IsEmpty() )
1375 THROW_IO_ERROR( wxString::Format(
_(
"Unable to find group ID %s in the group definitions." ),
1380 THROW_IO_ERROR( wxString::Format(
_(
"Unable to find sub group %s in the group map (parent "
1381 "group ID=%s, Name=%s)." ),
1390 parentGroup->
AddItem( kiCadGroup );
1399 for( std::pair<BOARD_ID, CADSTAR_BOARD> boardPair :
Layout.Boards )
1405 wxString::Format( wxT(
"BOARD %s" ), board.
ID ),
m_board, boardGroup );
1407 if( !board.
GroupID.IsEmpty() )
1417 for( std::pair<FIGURE_ID, FIGURE> figPair :
Layout.Figures )
1419 FIGURE& fig = figPair.second;
1436 for( std::pair<TEXT_ID, TEXT> txtPair :
Layout.Texts )
1438 TEXT& csTxt = txtPair.second;
1446 for( std::pair<DIMENSION_ID, DIMENSION> dimPair :
Layout.Dimensions )
1450 switch( csDim.
Type )
1452 case DIMENSION::TYPE::LINEARDIM:
1455 case DIMENSION::SUBTYPE::ANGLED:
1456 wxLogWarning( wxString::Format(
_(
"Dimension ID %s is an angled dimension, which has no KiCad "
1457 "equivalent. An aligned dimension was loaded instead." ),
1460 case DIMENSION::SUBTYPE::DIRECT:
1461 case DIMENSION::SUBTYPE::ORTHOGONAL:
1463 if( csDim.
Line.
Style == DIMENSION::LINE::STYLE::EXTERNAL )
1465 wxLogWarning( wxString::Format(
_(
"Dimension ID %s has 'External' style in CADSTAR. External "
1466 "dimension styles are not yet supported in KiCad. The "
1467 "dimension object was imported with an internal dimension "
1474 if( csDim.
Subtype == DIMENSION::SUBTYPE::ORTHOGONAL )
1497 VECTOR2I crossbarVector = crossbarEnd - crossbarStart;
1499 double height = 0.0;
1501 if( csDim.
Subtype == DIMENSION::SUBTYPE::ORTHOGONAL )
1504 height = heightVector.
y;
1506 height = heightVector.
x;
1512 height = heightVector.
x * angle.
Cos() + heightVector.
y * angle.
Sin();
1522 wxLogError(
_(
"Unexpected Dimension type (ID %s). This was not imported." ), csDim.
ID );
1527 case DIMENSION::TYPE::LEADERDIM:
1530 if( csDim.
Line.
Style == DIMENSION::LINE::STYLE::INTERNAL )
1654 case DIMENSION::TYPE::ANGLEDIM:
1656 wxLogError(
_(
"Dimension %s is an angular dimension which has no KiCad equivalent. "
1657 "The object was not imported." ),
1667 for( std::pair<AREA_ID, AREA> areaPair :
Layout.Areas )
1669 AREA& area = areaPair.second;
1673 int lineThickness = 0;
1696 wxLogWarning( wxString::Format(
_(
"The CADSTAR area '%s' is marked as a placement area in "
1697 "CADSTAR. Placement areas are not supported in KiCad. Only "
1698 "the supported elements for the area were imported." ),
1704 wxLogError( wxString::Format(
_(
"The CADSTAR area '%s' does not have a KiCad equivalent. Pure "
1705 "Placement areas are not supported." ),
1720 for( std::pair<COMPONENT_ID, COMPONENT> compPair :
Layout.Components )
1724 if( !
comp.VariantID.empty() &&
comp.VariantParentComponentID !=
comp.ID )
1731 THROW_IO_ERROR( wxString::Format(
_(
"Unable to find component '%s' in the library (Symdef ID: '%s')" ),
1736 FOOTPRINT* libFootprint = fpIter->second;
1747 if(
Parts.PartDefinitions.find(
comp.PartID ) !=
Parts.PartDefinitions.end() )
1755 for( std::pair<PART_DEFINITION_PIN_ID, PART::DEFINITION::PIN> pinPair :
1758 PART::DEFINITION::PIN
pin = pinPair.second;
1759 wxString pinName =
pin.Name;
1761 if( pinName.empty() )
1762 pinName =
pin.Identifier;
1764 if( pinName.empty() )
1765 pinName = wxString::Format( wxT(
"%ld" ),
pin.ID );
1773 if(
comp.PadExceptions.size() > 0 )
1777 for( std::pair<PAD_ID, PADEXCEPTION> padPair :
comp.PadExceptions )
1786 if( !padEx.
PadCode.IsEmpty() )
1801 wxString padNumber = kiPad->
GetNumber();
1816 footprint->
SetValue( wxEmptyString );
1832 if( !
comp.PartID.IsEmpty() &&
comp.PartID != wxT(
"NO_PART" ) )
1844 for( std::pair<DOCUMENTATION_SYMBOL_ID, DOCUMENTATION_SYMBOL> docPair :
Layout.DocumentationSymbols )
1849 auto docSymIter =
Library.ComponentDefinitions.find( docSymInstance.
SymdefID );
1851 if( docSymIter ==
Library.ComponentDefinitions.end() )
1853 THROW_IO_ERROR( wxString::Format(
_(
"Unable to find documentation symbol in the "
1854 "library (Symdef ID: '%s')" ),
1858 SYMDEF_PCB& docSymDefinition = ( *docSymIter ).second;
1864 bool mirrorInvert = docSymInstance.
Mirror;
1869 if( !docSymDefinition.
Alternate.IsEmpty() )
1870 groupName += wxT(
" (" ) + docSymDefinition.
Alternate + wxT(
")" );
1878 for( std::pair<FIGURE_ID, FIGURE> figPair : docSymDefinition.
Figures )
1880 FIGURE fig = figPair.second;
1882 wxString::Format( wxT(
"DOCUMENTATION SYMBOL %s, FIGURE %s" ),
1884 m_board, groupID, moveVector, rotationAngle, scalingFactor,
1885 centreOfTransform, mirrorInvert );
1889 for( std::pair<TEXT_ID, TEXT> textPair : docSymDefinition.
Texts )
1891 TEXT txt = textPair.second;
1893 scalingFactor, centreOfTransform, mirrorInvert );
1901 for( std::pair<TEMPLATE_ID, TEMPLATE> tempPair :
Layout.Templates )
1903 TEMPLATE& csTemplate = tempPair.second;
1905 int zonelinethickness = 0;
1915 if( !( csTemplate.
NetID.IsEmpty() || csTemplate.
NetID == wxT(
"NONE" ) ) )
1920 wxLogWarning( wxString::Format(
_(
"The CADSTAR template '%s' has the setting 'Allow in No Routing "
1921 "Areas' enabled. This setting has no KiCad equivalent, so it has "
1923 csTemplate.
Name ) );
1928 wxLogWarning( wxString::Format(
_(
"The CADSTAR template '%s' has the setting 'Box Isolated Pins' "
1929 "enabled. This setting has no KiCad equivalent, so it has been "
1931 csTemplate.
Name ) );
1936 wxLogWarning( wxString::Format(
_(
"The CADSTAR template '%s' has the setting 'Automatic Repour' "
1937 "enabled. This setting has no KiCad equivalent, so it has been "
1939 csTemplate.
Name ) );
1947 wxLogWarning( wxString::Format(
1948 _(
"The CADSTAR template '%s' has a non-zero value defined for the "
1949 "'Sliver Width' setting. There is no KiCad equivalent for "
1950 "this, so this setting was ignored." ),
1951 csTemplate.
Name ) );
1957 wxLogWarning( wxString::Format(
1958 _(
"The CADSTAR template '%s' has different settings for 'Retain Poured Copper "
1959 "- Disjoint' and 'Retain Poured Copper - Isolated'. KiCad does not "
1960 "distinguish between these two settings. The setting for disjoint copper "
1961 "has been applied as the minimum island area of the KiCad Zone." ),
1962 csTemplate.
Name ) );
1965 long long minIslandArea = -1;
1992 if( csTemplate.
Pouring.
FillType == TEMPLATE::POURING::COPPER_FILL_TYPE::HATCHED )
2008 wxLogWarning( wxString::Format(
2009 _(
"The CADSTAR template '%s' has different settings for thermal relief "
2010 "in pads and vias. KiCad only supports one single setting for both. The "
2011 "setting for pads has been applied." ),
2012 csTemplate.
Name ) );
2023 if( spokeWidth < minThickness )
2025 wxLogWarning( wxString::Format(
2026 _(
"The CADSTAR template '%s' has thermal reliefs in the original design "
2027 "but the spoke width (%.2f mm) is thinner than the minimum thickness of "
2028 "the zone (%.2f mm). KiCad requires the minimum thickness of the zone "
2029 "to be preserved. Therefore the minimum thickness has been applied as "
2030 "the new spoke width and will be applied next time the zones are "
2035 spokeWidth = minThickness;
2056 wxString powerPlaneLayerName =
Assignments.Layerdefs.Layers.at( layer ).Name;
2057 NET_ID netid = wxEmptyString;
2059 for( std::pair<NET_ID, NET_PCB> netPair :
Layout.Nets )
2063 if( net.
Name == powerPlaneLayerName )
2070 if( netid.IsEmpty() )
2072 wxLogError(
_(
"The CADSTAR layer '%s' is defined as a power plane layer. However no net with "
2073 "such name exists. The layer has been loaded but no copper zone was created." ),
2074 powerPlaneLayerName );
2078 for( std::pair<BOARD_ID, CADSTAR_BOARD> boardPair :
Layout.Boards )
2103 for( std::pair<COPPER_ID, COPPER> copPair :
Layout.Coppers )
2105 COPPER& csCopper = copPair.second;
2167 wxLogWarning(
_(
"The CADSTAR design contains COPPER elements, which have no direct KiCad "
2168 "equivalent. These have been imported as a KiCad Zone if solid or hatch "
2169 "filled, or as a KiCad Track if the shape was an unfilled outline (open or "
2243 for( std::pair<NET_ID, NET_PCB> netPair :
Layout.Nets )
2246 wxString netnameForErrorReporting = net.
Name;
2248 std::map<NETELEMENT_ID, long> netelementSizes;
2250 if( netnameForErrorReporting.IsEmpty() )
2251 netnameForErrorReporting = wxString::Format( wxT(
"$%ld" ), net.
SignalNum );
2253 for( std::pair<NETELEMENT_ID, NET_PCB::VIA> viaPair : net.
Vias )
2255 NET_PCB::VIA
via = viaPair.second;
2259 netelementSizes.insert( { viaPair.first, viaSize } );
2262 for( std::pair<NETELEMENT_ID, NET_PCB::PIN> pinPair : net.
Pins )
2264 NET_PCB::PIN
pin = pinPair.second;
2267 if( footprint ==
nullptr )
2269 wxLogWarning( wxString::Format(
_(
"The net '%s' references component ID '%s' which does not exist. "
2270 "This has been ignored." ),
2271 netnameForErrorReporting,
pin.ComponentID ) );
2273 else if( (
pin.PadID - (
long) 1 ) > (
long) footprint->
Pads().size() )
2275 wxLogWarning( wxString::Format(
_(
"The net '%s' references non-existent pad index '%d' in "
2276 "component '%s'. This has been ignored." ),
2277 netnameForErrorReporting,
2296 if( assocPads.find(
pin.PadID ) != assocPads.end() )
2298 for(
PAD_ID copperPadID : assocPads.at(
pin.PadID ) )
2307 int padsize = std::min(
pad->GetSizeX(),
pad->GetSizeY() );
2308 netelementSizes.insert( { pinPair.first, padsize } );
2320 auto getRouteCodeWidth =
2323 auto rcIt =
Assignments.Codedefs.RouteCodes.find( aRouteCodeID );
2325 if( rcIt !=
Assignments.Codedefs.RouteCodes.end() && rcIt->second.OptimalWidth > 0 )
2326 return rcIt->second.OptimalWidth;
2329 m_board->GetDesignSettings().m_NetSettings->GetDefaultNetclass()->GetTrackWidth();
2336 auto getVertexWidth =
2337 [&](
const NET_PCB::ROUTE_VERTEX& aVertex,
const ROUTECODE_ID& aRouteCodeID ) ->
long
2339 if( aVertex.RouteWidthIsExplicit )
2340 return aVertex.RouteWidth;
2342 return getRouteCodeWidth( aRouteCodeID );
2345 auto getJunctionSize =
2346 [&](
const NETELEMENT_ID& aJptNetElemId,
const NET_PCB::CONNECTION_PCB& aConnectionToIgnore ) ->
int
2348 int jptsize = std::numeric_limits<int>::max();
2350 for( NET_PCB::CONNECTION_PCB connection : net.
Connections )
2352 if( connection.Route.RouteVertices.size() == 0 )
2355 if( connection.StartNode == aConnectionToIgnore.StartNode
2356 && connection.EndNode == aConnectionToIgnore.EndNode )
2361 if( connection.StartNode == aJptNetElemId )
2363 int s =
getKiCadLength( getVertexWidth( connection.Route.RouteVertices.front(),
2364 connection.RouteCodeID ) );
2365 jptsize = std::max( jptsize, s );
2367 else if( connection.EndNode == aJptNetElemId )
2369 int s =
getKiCadLength( getVertexWidth( connection.Route.RouteVertices.back(),
2370 connection.RouteCodeID ) );
2371 jptsize = std::max( jptsize, s );
2375 if( jptsize == std::numeric_limits<int>::max()
2376 && !aConnectionToIgnore.Route.RouteVertices.empty() )
2380 NET_PCB::ROUTE_VERTEX vertex = aConnectionToIgnore.Route.RouteVertices.front();
2382 if( aConnectionToIgnore.EndNode == aJptNetElemId )
2383 vertex = aConnectionToIgnore.Route.RouteVertices.back();
2385 jptsize =
getKiCadLength( getVertexWidth( vertex, aConnectionToIgnore.RouteCodeID ) );
2391 for(
const NET_PCB::CONNECTION_PCB& connection : net.
Connections )
2393 int startSize = std::numeric_limits<int>::max();
2394 int endSize = std::numeric_limits<int>::max();
2396 if( netelementSizes.find( connection.StartNode ) != netelementSizes.end() )
2397 startSize = netelementSizes.at( connection.StartNode );
2399 startSize = getJunctionSize( connection.StartNode, connection );
2401 if( netelementSizes.find( connection.EndNode ) != netelementSizes.end() )
2402 endSize = netelementSizes.at( connection.EndNode );
2404 endSize = getJunctionSize( connection.EndNode, connection );
2409 if( !connection.Unrouted )
2411 loadNetTracks( net.
ID, connection.Route, getRouteCodeWidth( connection.RouteCodeID ),
2412 startSize, endSize );
2421 auto findAndReplaceTextField =
2424 if(
m_context.TextFieldToValuesMap.find( aField ) !=
m_context.TextFieldToValuesMap.end() )
2426 if(
m_context.TextFieldToValuesMap.at( aField ) != aValue )
2428 m_context.TextFieldToValuesMap.at( aField ) = aValue;
2429 m_context.InconsistentTextFields.insert( aField );
2435 m_context.TextFieldToValuesMap.insert( { aField, aValue } );
2443 std::map<wxString, wxString>& txtVars =
m_project->GetTextVars();
2446 if(
Layout.VariantHierarchy.Variants.size() > 0 )
2448 VARIANT loadedVar =
Layout.VariantHierarchy.Variants.begin()->second;
2456 for( std::pair<TEXT_FIELD_NAME, wxString> txtvalue :
m_context.TextFieldToValuesMap )
2459 wxString varValue = txtvalue.second;
2461 txtVars.insert( { varName, varValue } );
2464 for( std::pair<wxString, wxString> txtvalue :
m_context.FilenamesToTextMap )
2466 wxString varName = txtvalue.first;
2467 wxString varValue = txtvalue.second;
2469 txtVars.insert( { varName, varValue } );
2474 wxLogError(
_(
"Text Variables could not be set as there is no project loaded." ) );
2482 for( std::pair<ATTRIBUTE_ID, ATTRIBUTE_VALUE> attrPair : aComponent.
AttributeValues )
2490 for( std::pair<ATTRIBUTE_ID, TEXT_LOCATION> textlocPair : aComponent.
TextLocations )
2496 attrval = wxEmptyString;
2498 attrval = wxT(
"${REFERENCE}" );
2510 const NET_PCB::ROUTE& aCadstarRoute,
2511 long aDefaultRouteWidth,
2512 long aStartWidth,
long aEndWidth )
2514 if( aCadstarRoute.RouteVertices.size() == 0 )
2517 std::vector<PCB_SHAPE*> shapes;
2518 std::vector<NET_PCB::ROUTE_VERTEX> routeVertices = aCadstarRoute.RouteVertices;
2521 for( NET_PCB::ROUTE_VERTEX& v : routeVertices )
2523 if( !v.RouteWidthIsExplicit )
2524 v.RouteWidth = aDefaultRouteWidth;
2528 if( aStartWidth < routeVertices.front().RouteWidth )
2530 NET_PCB::ROUTE_VERTEX newFrontVertex = aCadstarRoute.RouteVertices.front();
2531 newFrontVertex.RouteWidth = aStartWidth;
2532 newFrontVertex.Vertex.End = aCadstarRoute.StartPoint;
2533 routeVertices.insert( routeVertices.begin(), newFrontVertex );
2537 if( aEndWidth < routeVertices.back().RouteWidth )
2539 NET_PCB::ROUTE_VERTEX newBackVertex = aCadstarRoute.RouteVertices.back();
2540 newBackVertex.RouteWidth = aEndWidth;
2541 routeVertices.push_back( newBackVertex );
2544 POINT prevEnd = aCadstarRoute.StartPoint;
2546 for(
const NET_PCB::ROUTE_VERTEX& v : routeVertices )
2552 shapes.push_back( shape );
2553 prevEnd = v.Vertex.End;
2558 wxLogError(
_(
"The CADSTAR design contains teardrops. This importer does not yet "
2559 "support them, so the teardrops in the design have been ignored." ) );
2584 via->SetLocked( aCadstarVia.Fixed );
2588 wxLogError(
_(
"The CADSTAR via code '%s' has different shape from a circle defined. "
2589 "KiCad only supports circular vias so this via type has been changed to "
2590 "be a via with circular shape of %.2f mm diameter." ),
2602 if( start_layer_outside && end_layer_outside )
2604 else if( ( !start_layer_outside ) && ( !end_layer_outside ) )
2620 const LAYER_ID& aCadstarLayerOverride,
2622 double aRotationAngle,
double aScalingFactor,
2624 bool aMirrorInvert )
2627 aContainer->
Add( txt );
2632 RotatePoint( rotatedTextPos, aTransformCentre, rotationAngle );
2633 rotatedTextPos.
x =
KiROUND( ( rotatedTextPos.
x - aTransformCentre.
x ) * aScalingFactor );
2634 rotatedTextPos.
y =
KiROUND( ( rotatedTextPos.
y - aTransformCentre.
y ) * aScalingFactor );
2635 rotatedTextPos += aTransformCentre;
2694 wxFAIL_MSG( wxT(
"Unknown Alignment - needs review!" ) );
2701 if( aScalingFactor != 1.0 )
2707 scaledTextSize.
x =
KiROUND( (
double) unscaledTextSize.
x * aScalingFactor );
2708 scaledTextSize.
y =
KiROUND( (
double) unscaledTextSize.
y * aScalingFactor );
2714 txt->
Move( aMoveVector );
2719 LAYER_ID layersToDrawOn = aCadstarLayerOverride;
2721 if( layersToDrawOn.IsEmpty() )
2722 layersToDrawOn = aCadstarText.
LayerID;
2733 if( !aCadstarGroupID.IsEmpty() )
2744 if( !aCadstarGroupID.IsEmpty() )
2753 const wxString& aShapeName,
2757 double aRotationAngle,
double aScalingFactor,
2759 bool aMirrorInvert )
2761 auto drawAsOutline =
2765 aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor,
2766 aTransformCentre, aMirrorInvert );
2768 aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor,
2769 aTransformCentre, aMirrorInvert );
2779 if( aCadstarShape.
Vertices.size() < 3 )
2795 aRotationAngle, aScalingFactor, aTransformCentre,
2805 if( !aCadstarGroupID.IsEmpty() )
2816 double aRotationAngle,
2817 double aScalingFactor,
2819 bool aMirrorInvert )
2821 for(
const CUTOUT& cutout : aCutouts )
2824 aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor,
2825 aTransformCentre, aMirrorInvert );
2836 double aRotationAngle,
2837 double aScalingFactor,
2839 bool aMirrorInvert )
2841 std::vector<PCB_SHAPE*> shapes =
getShapesFromVertices( aCadstarVertices, aContainer, aCadstarGroupID,
2842 aMoveVector, aRotationAngle, aScalingFactor,
2843 aTransformCentre, aMirrorInvert );
2848 shape->SetLayer( aKiCadLayer );
2849 shape->SetParent( aContainer );
2855std::vector<PCB_SHAPE*>
2860 double aRotationAngle,
double aScalingFactor,
2862 bool aMirrorInvert )
2864 std::vector<PCB_SHAPE*> shapes;
2866 if( aCadstarVertices.size() < 2 )
2870 const VERTEX* prev = &aCadstarVertices.at( 0 );
2873 for(
size_t i = 1; i < aCadstarVertices.size(); i++ )
2875 cur = &aCadstarVertices.at( i );
2877 aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert ) );
2886 const VERTEX& aCadstarVertex,
2890 double aRotationAngle,
2891 double aScalingFactor,
2893 bool aMirrorInvert )
2905 centerPoint = ( startPoint + endPoint ) / 2;
2912 switch( aCadstarVertex.
Type )
2919 shape->
SetEnd( endPoint );
2935 EDA_ANGLE arcStartAngle( startPoint - centerPoint );
2936 EDA_ANGLE arcEndAngle( endPoint - centerPoint );
2937 EDA_ANGLE arcAngle = ( arcEndAngle - arcStartAngle ).Normalize();
2954 if( aScalingFactor != 1.0 )
2956 shape->
Move( -1*aTransformCentre );
2957 shape->
Scale( aScalingFactor );
2958 shape->
Move( aTransformCentre );
2961 if( aRotationAngle != 0.0 )
2964 if( aMoveVector !=
VECTOR2I{ 0, 0 } )
2965 shape->
Move( aMoveVector );
2967 if( !aCadstarGroupID.IsEmpty() )
2977 ZONE* zone =
new ZONE( aParentContainer );
2993 for(
int i = 0; i < polygon.
HoleCount( 0 ); i++ )
3004 double aRotationAngle,
3005 double aScalingFactor,
3007 bool aMirrorInvert )
3012 aContainer, noGroup, aMoveVector,
3013 aRotationAngle, aScalingFactor,
3014 aTransformCentre, aMirrorInvert );
3025 noGroup, aMoveVector,
3026 aRotationAngle, aScalingFactor,
3027 aTransformCentre, aMirrorInvert );
3038 if( aLineThickness > 0 )
3046 for(
int j = 0; j < polySet.
HoleCount( i ); ++j )
3061 switch( shape->GetShape() )
3065 SHAPE_ARC arc( shape->GetCenter(), shape->GetStart(), shape->GetArcAngle() );
3067 if( shape->EndsSwapped() )
3075 lineChain.
Append( shape->GetStartX(), shape->GetStartY() );
3076 lineChain.
Append( shape->GetEndX(), shape->GetEndY() );
3080 wxFAIL_MSG( wxT(
"Drawsegment type is unexpected. Ignored." ) );
3101 int aWidthOverride )
3103 std::vector<PCB_TRACK*> tracks;
3115 if( aTrack->GetLength() != 0 )
3117 tracks.push_back( aTrack );
3128 switch( shape->GetShape() )
3132 SHAPE_ARC arc( shape->GetStart(), shape->GetArcMid(), shape->GetEnd(), 0 );
3134 if( shape->EndsSwapped() )
3137 track =
new PCB_ARC( aParentContainer, &arc );
3142 track =
new PCB_TRACK( aParentContainer );
3143 track->
SetStart( shape->GetStart() );
3144 track->
SetEnd( shape->GetEnd() );
3148 wxFAIL_MSG( wxT(
"Drawsegment type is unexpected. Ignored." ) );
3152 if( aWidthOverride == -1 )
3153 track->
SetWidth( shape->GetWidth() );
3158 track->
SetLayer( shape->GetLayer() );
3162 if( aNet !=
nullptr )
3170 if( prevTrack !=
nullptr )
3172 int offsetAmount = ( track->
GetWidth() / 2 ) - ( prevTrack->
GetWidth() / 2 );
3174 if( offsetAmount > 0 )
3181 else if( offsetAmount < 0 )
3186 prevTrack->
SetEnd( newEnd );
3202 addTrack( synthTrack );
3207 addTrack( prevTrack );
3221 FOOTPRINT* aFootprint,
const wxString& aAttributeValue )
3234 aFootprint->
SetValue( aAttributeValue );
3235 field = &aFootprint->
Value();
3240 aFootprint->
Add( field );
3241 field->
SetText( aAttributeValue );
3254 aFootprint->
SetValue( aAttributeValue );
3255 field = &aFootprint->
Value();
3261 aFootprint->
Add( field );
3262 field->
SetText( aAttributeValue );
3271 if( aCadstarAttrLoc.
Mirror )
3329 wxFAIL_MSG( wxT(
"Unknown Alignment - needs review!" ) );
3336 const long& aOffsetAmount )
3338 VECTOR2I v( *aPointToOffset - aRefPoint );
3344 aPointToOffset->
x = offsetted.
x;
3345 aPointToOffset->
y = offsetted.
y;
3349 *aPointToOffset = aRefPoint;
3372 if( textSize.
x == 0 )
3377 if( textSize.
x == 0 || textSize.
y == 0 )
3396 wxCHECK(
Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID ) !=
Assignments.Codedefs.LineCodes.end(),
3406 wxCHECK(
Assignments.Codedefs.CopperCodes.find( aCadstaCopperCodeID ) !=
Assignments.Codedefs.CopperCodes.end(),
3409 return Assignments.Codedefs.CopperCodes.at( aCadstaCopperCodeID );
3415 wxCHECK(
Assignments.Codedefs.TextCodes.find( aCadstarTextCodeID ) !=
Assignments.Codedefs.TextCodes.end(),
3418 return Assignments.Codedefs.TextCodes.at( aCadstarTextCodeID );
3427 return Assignments.Codedefs.PadCodes.at( aCadstarPadCodeID );
3436 return Assignments.Codedefs.ViaCodes.at( aCadstarViaCodeID );
3442 wxCHECK(
Assignments.Codedefs.LayerPairs.find( aCadstarLayerPairID ) !=
Assignments.Codedefs.LayerPairs.end(),
3445 return Assignments.Codedefs.LayerPairs.at( aCadstarLayerPairID );
3451 wxCHECK(
Assignments.Codedefs.AttributeNames.find( aCadstarAttributeID )
3455 return Assignments.Codedefs.AttributeNames.at( aCadstarAttributeID ).Name;
3460 const std::map<ATTRIBUTE_ID, ATTRIBUTE_VALUE>& aCadstarAttrMap )
3462 wxCHECK( aCadstarAttrMap.find( aCadstarAttributeID ) != aCadstarAttrMap.end(), wxEmptyString );
3464 return aCadstarAttrMap.at( aCadstarAttributeID ).Value;
3472 return Assignments.Layerdefs.Layers.at( aCadstarLayerID ).Type;
3480 wxCHECK(
Parts.PartDefinitions.find( aCadstarPartID ) !=
Parts.PartDefinitions.end(),
PART() );
3482 return Parts.PartDefinitions.at( aCadstarPartID );
3489 wxCHECK(
Assignments.Codedefs.RouteCodes.find( aCadstarRouteCodeID ) !=
Assignments.Codedefs.RouteCodes.end(),
3492 return Assignments.Codedefs.RouteCodes.at( aCadstarRouteCodeID );
3499 wxCHECK(
Assignments.Codedefs.HatchCodes.find( aCadstarHatchcodeID ) !=
Assignments.Codedefs.HatchCodes.end(),
3502 return Assignments.Codedefs.HatchCodes.at( aCadstarHatchcodeID );
3511 if( hcode.
Hatches.size() < 1 )
3512 return m_board->GetDesignSettings().GetDefaultZoneSettings().m_HatchOrientation;
3523 if( hcode.
Hatches.size() < 1 )
3524 return m_board->GetDesignSettings().GetDefaultZoneSettings().m_HatchThickness;
3535 if( hcode.
Hatches.size() < 1 )
3536 return m_board->GetDesignSettings().GetDefaultZoneSettings().m_HatchGap;
3560 if( hcode.
Hatches.size() != 2 )
3562 wxLogWarning( wxString::Format(
3563 _(
"The CADSTAR Hatching code '%s' has %d hatches defined. "
3564 "KiCad only supports 2 hatches (crosshatching) 90 degrees apart. "
3565 "The imported hatching is crosshatched." ),
3570 if( hcode.
Hatches.at( 0 ).LineWidth != hcode.
Hatches.at( 1 ).LineWidth )
3572 wxLogWarning( wxString::Format(
3573 _(
"The CADSTAR Hatching code '%s' has different line widths for each "
3574 "hatch. KiCad only supports one width for the hatching. The imported "
3575 "hatching uses the width defined in the first hatch definition, i.e. "
3584 wxLogWarning( wxString::Format(
3585 _(
"The CADSTAR Hatching code '%s' has different step sizes for each "
3586 "hatch. KiCad only supports one step size for the hatching. The imported "
3587 "hatching uses the step size defined in the first hatching definition, "
3594 if( abs( hcode.
Hatches.at( 0 ).OrientAngle - hcode.
Hatches.at( 1 ).OrientAngle )
3597 wxLogWarning( wxString::Format(
3598 _(
"The hatches in CADSTAR Hatching code '%s' have an angle "
3599 "difference of %.1f degrees. KiCad only supports hatching 90 "
3600 "degrees apart. The imported hatching has two hatches 90 "
3601 "degrees apart, oriented %.1f degrees from horizontal." ),
3604 - hcode.
Hatches.at( 1 ).OrientAngle ) ).AsDegrees(),
3630 wxString prefix = wxEmptyString;
3631 wxString suffix = wxEmptyString;
3632 int startpos = aCadstarDim.
Text.
Text.Find( wxT(
"<@DISTANCE" ) );
3634 if( startpos != wxNOT_FOUND )
3637 wxString remainingStr = aCadstarDim.
Text.
Text.Mid( startpos );
3638 int endpos = remainingStr.Find(
"@>" );
3642 if( suffix.StartsWith( wxT(
"mm" ) ) )
3645 suffix = suffix.Mid( 2 );
3663 switch( dimensionUnits )
3668 wxLogWarning( wxString::Format(
_(
"Dimension ID %s uses a type of unit that "
3669 "is not supported in KiCad. Millimeters were "
3670 "applied instead." ),
3686 wxFAIL_MSG( wxT(
"We should have handled design units before coming here!" ) );
3694 std::map<TEMPLATE_ID, std::set<TEMPLATE_ID>> winningOverlaps;
3700 -
m_board->GetDesignSettings().m_MinClearance;
3702 int retval = std::max( aZoneA->
GetLocalClearance().value(), aZoneB->GetLocalClearance().value() );
3711 [&](
ZONE* aLowerZone,
ZONE* aHigherZone ) ->
double
3714 intersectShape.
Inflate( inflateValue( aLowerZone, aHigherZone ),
3724 double leftOverArea = lowerZoneFill.
Area();
3726 return leftOverArea;
3729 auto intersectionAreaOfZoneOutlines =
3730 [&](
ZONE* aZoneA,
ZONE* aZoneB ) ->
double
3740 return outLineA.
Area();
3744 auto isLowerPriority =
3747 return winningOverlaps[b].count( a ) > 0;
3750 for( std::map<TEMPLATE_ID, ZONE*>::iterator it1 =
m_zonesMap.begin(); it1 !=
m_zonesMap.end(); ++it1 )
3753 ZONE* thisZone = it1->second;
3758 for( std::map<TEMPLATE_ID, ZONE*>::iterator it2 = it1;
3762 ZONE* otherZone = it2->second;
3764 if( thisTemplate.
ID == otherTemplate.
ID )
3773 if( intersectionAreaOfZoneOutlines( thisZone, otherZone ) == 0 )
3782 if( thisZonePolyFill.
Area() > 0.0 && otherZonePolyFill.
Area() > 0.0 )
3785 double areaThis = errorArea( thisZone, otherZone );
3787 double areaOther = errorArea( otherZone, thisZone );
3789 if( areaThis > areaOther )
3792 winningOverlaps[thisTemplate.
ID].insert( otherTemplate.
ID );
3797 winningOverlaps[otherTemplate.
ID].insert( thisTemplate.
ID );
3800 else if( thisZonePolyFill.
Area() > 0.0 )
3803 winningOverlaps[thisTemplate.
ID].insert( otherTemplate.
ID );
3805 else if( otherZonePolyFill.
Area() > 0.0 )
3808 winningOverlaps[otherTemplate.
ID].insert( thisTemplate.
ID );
3814 if( intersectionAreaOfZoneOutlines( thisZone, otherZone ) != 0 )
3817 winningOverlaps[otherTemplate.
ID].insert( thisTemplate.
ID );
3819 winningOverlaps[thisTemplate.
ID].insert( otherTemplate.
ID );
3828 std::set<TEMPLATE_ID> intersectingIDs;
3830 for(
const auto& idPair : winningOverlaps )
3832 intersectingIDs.insert( idPair.first );
3833 intersectingIDs.insert( idPair.second.begin(), idPair.second.end() );
3837 std::vector<TEMPLATE_ID> sortedIDs;
3841 sortedIDs.push_back(
id );
3845 std::sort( sortedIDs.begin(), sortedIDs.end(), isLowerPriority );
3851 if( prevID.IsEmpty() )
3857 wxASSERT( !isLowerPriority(
id, prevID ) );
3859 int newPriority =
m_zonesMap.at( prevID )->GetAssignedPriority();
3862 if( isLowerPriority( prevID,
id ) )
3865 m_zonesMap.at(
id )->SetAssignedPriority( newPriority );
3870 for(
const auto& idPair : winningOverlaps )
3874 for(
const TEMPLATE_ID& losingID : idPair.second )
3876 if(
m_zonesMap.at( losingID )->GetAssignedPriority() >
m_zonesMap.at( winningID )->GetAssignedPriority() )
3907 if( aCadstarNetID.IsEmpty() )
3913 return m_netMap.at( aCadstarNetID );
3917 wxCHECK(
Layout.Nets.find( aCadstarNetID ) !=
Layout.Nets.end(),
nullptr );
3920 wxString newName = csNet.
Name;
3922 if( csNet.
Name.IsEmpty() )
3924 if( csNet.
Pins.size() > 0 )
3928 NET_PCB::PIN firstPin = ( *csNet.
Pins.begin() ).second;
3931 newName = wxT(
"Net-(" );
3933 newName << wxT(
"-Pad" ) << wxString::Format( wxT(
"%ld" ), firstPin.PadID );
3934 newName << wxT(
")" );
3938 wxFAIL_MSG( wxT(
"A net with no pins associated?" ) );
3939 newName = wxT(
"csNet-" );
3940 newName << wxString::Format( wxT(
"%i" ), csNet.
SignalNum );
3946 wxLogMessage(
_(
"The CADSTAR design contains nets with a 'Net Class' assigned. KiCad "
3947 "does not have an equivalent to CADSTAR's Net Class so these elements "
3948 "were not imported. Note: KiCad's version of 'Net Class' is closer to "
3949 "CADSTAR's 'Net Route Code' (which has been imported for all nets)." ) );
3955 wxLogWarning(
_(
"The CADSTAR design contains nets with a 'Spacing Class' assigned. "
3956 "KiCad does not have an equivalent to CADSTAR's Spacing Class so "
3957 "these elements were not imported. Please review the design rules as "
3958 "copper pours may be affected by this." ) );
3962 std::shared_ptr<NET_SETTINGS>& netSettings =
m_board->GetDesignSettings().m_NetSettings;
3964 std::shared_ptr<NETCLASS> netclass;
3966 std::tuple<ROUTECODE_ID, NETCLASS_ID, SPACING_CLASS_ID> key = { csNet.
RouteCodeID,
3976 && rcIt->second.OptimalWidth > 0 )
3978 wxString netClassName;
3981 netClassName += wxT(
"Route code: " ) + rc.
Name;
3986 netClassName += wxT(
" | Net class: " ) + nc.
Name;
3992 netClassName += wxT(
" | Spacing class: " ) + sp.
Name;
3995 netclass.reset(
new NETCLASS( netClassName ) );
3996 netSettings->SetNetclass( netClassName, netclass );
4004 netclass = netSettings->GetDefaultNetclass();
4007 m_board->GetDesignSettings().m_NetSettings->SetNetclassPatternAssignment( newName, netclass->GetName() );
4011 m_netMap.insert( { aCadstarNetID, netInfo } );
4064 wxCHECK(
Assignments.Layerdefs.Layers.find( aCadstarLayerID ) !=
Assignments.Layerdefs.Layers.end(),
false );
4068 switch( layer.
Type )
4132 parentGroup->
AddItem( aKiCadItem );
4138 wxString groupName = aName;
4142 groupName = aName + wxT(
"_" ) + wxString::Format( wxT(
"%i" ), ++num );
4146 docSymGroup->
SetName( groupName );
4148 m_groupMap.insert( { groupID, docSymGroup } );
constexpr int ARC_HIGH_DEF
constexpr double PCB_IU_PER_MM
Pcbnew IU is 1 nanometer.
constexpr EDA_IU_SCALE pcbIUScale
LAYER_T
The allowed types of layers, same as Specctra DSN spec.
@ BS_ITEM_TYPE_SILKSCREEN
@ BS_ITEM_TYPE_DIELECTRIC
@ BS_ITEM_TYPE_SOLDERMASK
constexpr BOX2I KiROUND(const BOX2D &aBoxD)
#define COMPONENT_NAME_2_ATTRID
Component Name 2 Attribute ID - typically used for indicating the placement of designators in placeme...
#define COMPONENT_NAME_ATTRID
Component Name Attribute ID - typically used for placement of designators on silk screen.
Loads a cpa file into a KiCad BOARD object.
BASE_SET & reset(size_t pos)
virtual bool SetNetCode(int aNetCode, bool aNoAssert)
Set net using a net code.
PCB_LAYER_ID GetLayer() const override
Return the primary layer this item is on.
virtual void SetNet(NETINFO_ITEM *aNetInfo)
Set a NET_INFO object for the item.
void SetLayer(PCB_LAYER_ID aLayer) override
Set the layer this item is on.
NETINFO_ITEM * GetNet() const
Return #NET_INFO object for a given item.
Container for design settings for a BOARD object.
std::shared_ptr< NET_SETTINGS > m_NetSettings
int m_CopperEdgeClearance
BOARD_STACKUP & GetStackupDescriptor()
void SetBoardThickness(int aThickness)
int GetLineThickness(PCB_LAYER_ID aLayer) const
Return the default graphic segment thickness from the layer class for the given layer.
int m_ViasMinAnnularWidth
Abstract interface for BOARD_ITEMs capable of storing other items inside.
virtual void Add(BOARD_ITEM *aItem, ADD_MODE aMode=ADD_MODE::INSERT, bool aSkipConnectivity=false)=0
Adds an item to the container.
A base class for any item which can be embedded within the BOARD container class, and therefore insta...
virtual BOARD_ITEM * Duplicate(bool addToParentGroup, BOARD_COMMIT *aCommit=nullptr) const
Create a copy of this BOARD_ITEM.
void SetLocked(bool aLocked) override
bool IsLocked() const override
virtual void SetLayer(PCB_LAYER_ID aLayer)
Set the layer this item is on.
Manage one layer needed to make a physical board.
void SetThickness(int aThickness, int aDielectricSubLayer=0)
void SetMaterial(const wxString &aName, int aDielectricSubLayer=0)
void SetLossTangent(double aTg, int aDielectricSubLayer=0)
void SetEpsilonR(double aEpsilon, int aDielectricSubLayer=0)
void SetLayerName(const wxString &aName)
Manage layers needed to make a physical board.
void RemoveAll()
Delete all items in list and clear the list.
const std::vector< BOARD_STACKUP_ITEM * > & GetList() const
int BuildBoardThicknessFromStackup() const
void BuildDefaultStackupList(const BOARD_DESIGN_SETTINGS *aSettings, int aActiveCopperLayersCount=0)
Create a default stackup, according to the current BOARD_DESIGN_SETTINGS settings.
@ ANTICLOCKWISE_SEMICIRCLE
static const long FONT_BOLD
static const std::map< TEXT_FIELD_NAME, wxString > CADSTAR_TO_KICAD_FIELDS
Map between CADSTAR fields and KiCad text variables.
TEXT_FIELD_NAME
These are special fields in text objects enclosed between the tokens '<@' and '>' such as <@[FIELD_NA...
@ NO_ALIGNMENT
NO_ALIGNMENT has different meaning depending on the object type.
static const long UNDEFINED_VALUE
static wxString ParseTextFields(const wxString &aTextString, PARSER_CONTEXT *aParserContext)
Replaces CADSTAR fields for the equivalent in KiCad and stores the field values in aParserContext.
wxString LAYER_ID
ID of a Sheet (if schematic) or board Layer (if PCB)
static void FixTextPositionNoAlignment(EDA_TEXT *aKiCadTextItem)
Correct the position of a text element that had NO_ALIGNMENT in CADSTAR.
@ OUTLINE
Unfilled closed shape.
@ OPENSHAPE
Unfilled open shape. Cannot have cutouts.
@ SOLID
Filled closed shape (solid fill).
@ HATCHED
Filled closed shape (hatch fill).
static const double TXT_HEIGHT_RATIO
CADSTAR fonts are drawn on a 24x24 integer matrix, where the each axis goes from 0 to 24.
void checkPoint()
Updates m_progressReporter or throws if user canceled.
@ DESIGN
Inherits from design units (assumed Assignments->Technology->Units)
PROGRESS_REPORTER * m_progressReporter
std::map< TEMPLATE_ID, ZONE * > m_zonesMap
Map between Cadstar and KiCad zones.
std::map< std::tuple< ROUTECODE_ID, NETCLASS_ID, SPACING_CLASS_ID >, std::shared_ptr< NETCLASS > > m_netClassMap
Map between Cadstar and KiCad classes.
bool m_doneCopperWarning
Used by loadCoppers() to avoid multiple duplicate warnings.
std::set< PADCODE_ID > m_padcodesTested
Used by getKiCadPad() to avoid multiple duplicate warnings.
int getKiCadLength(long long aCadstarLength)
void initStackupItem(const LAYER &aCadstarLayer, BOARD_STACKUP_ITEM *aKiCadItem, int aDielectricSublayer)
int m_numCopperLayers
Number of layers in the design.
std::vector< LAYER_ID > m_powerPlaneLayers
List of layers that are marked as power plane in CADSTAR.
void drawCadstarText(const TEXT &aCadstarText, BOARD_ITEM_CONTAINER *aContainer, const GROUP_ID &aCadstarGroupID=wxEmptyString, const LAYER_ID &aCadstarLayerOverride=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
bool isLayerSet(const LAYER_ID &aCadstarLayerID)
LAYERPAIR getLayerPair(const LAYERPAIR_ID &aCadstarLayerPairID)
FOOTPRINT * getFootprintFromCadstarID(const COMPONENT_ID &aCadstarComponentID)
PADCODE getPadCode(const PADCODE_ID &aCadstarPadCodeID)
int loadNetVia(const NET_ID &aCadstarNetID, const NET_PCB::VIA &aCadstarVia)
Load via and return via size.
EDA_ANGLE getAngle(const long long &aCadstarAngle)
std::vector< PCB_SHAPE * > getShapesFromVertices(const std::vector< VERTEX > &aCadstarVertices, BOARD_ITEM_CONTAINER *aContainer=nullptr, const GROUP_ID &aCadstarGroupID=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
Returns a vector of pointers to PCB_SHAPE objects.
void applyTextCode(EDA_TEXT *aKiCadText, const TEXTCODE_ID &aCadstarTextCodeID)
Apply cadstar textcode parameters to a KiCad text object.
std::map< COMPONENT_ID, FOOTPRINT * > m_componentMap
Map between Cadstar and KiCad components on the board.
SHAPE_LINE_CHAIN getLineChainFromShapes(const std::vector< PCB_SHAPE * > &aShapes)
Returns a SHAPE_LINE_CHAIN object from a series of PCB_SHAPE objects.
std::map< PAD_ID, std::vector< PAD_ID > > ASSOCIATED_COPPER_PADS
Map of pad anchor points (first) to copper pads (second).
void applyDimensionSettings(const DIMENSION &aCadstarDim, PCB_DIMENSION_BASE *aKiCadDim)
ZONE * getZoneFromCadstarShape(const SHAPE &aCadstarShape, const int &aLineThickness, BOARD_ITEM_CONTAINER *aParentContainer)
PCB_LAYER_ID getKiCadCopperLayerID(unsigned int aLayerNum, bool aDetectMaxLayer=true)
std::vector< PCB_TRACK * > makeTracksFromShapes(const std::vector< PCB_SHAPE * > &aShapes, BOARD_ITEM_CONTAINER *aParentContainer, NETINFO_ITEM *aNet=nullptr, PCB_LAYER_ID aLayerOverride=UNDEFINED_LAYER, int aWidthOverride=-1)
Returns a vector of pointers to TRACK/ARC objects.
VIACODE getViaCode(const VIACODE_ID &aCadstarViaCodeID)
VECTOR2I m_designCenter
Used for calculating the required offset to apply to the Cadstar design so that it fits in KiCad canv...
void Load(BOARD *aBoard, PROJECT *aProject)
Loads a CADSTAR PCB Archive file into the KiCad BOARD object given.
void drawCadstarCutoutsAsShapes(const std::vector< CUTOUT > &aCutouts, const PCB_LAYER_ID &aKiCadLayer, int aLineThickness, BOARD_ITEM_CONTAINER *aContainer, const GROUP_ID &aCadstarGroupID=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
Uses PCB_SHAPEs to draw the cutouts on m_board object.
void logBoardStackupWarning(const wxString &aCadstarLayerName, const PCB_LAYER_ID &aKiCadLayer)
std::vector< FOOTPRINT * > GetLoadedLibraryFootpints() const
Return a copy of the loaded library footprints (caller owns the objects)
PCB_SHAPE * getShapeFromVertex(const POINT &aCadstarStartPoint, const VERTEX &aCadstarVertex, BOARD_ITEM_CONTAINER *aContainer=nullptr, const GROUP_ID &aCadstarGroupID=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
Returns a pointer to a PCB_SHAPE object.
void checkAndLogHatchCode(const HATCHCODE_ID &aCadstarHatchcodeID)
bool m_doneSpacingClassWarning
Used by getKiCadNet() to avoid multiple duplicate warnings.
int m_numNets
Number of nets loaded so far.
void loadDocumentationSymbols()
void loadLibraryPads(const SYMDEF_PCB &aComponent, FOOTPRINT *aFootprint)
void loadComponentLibrary()
PAD * getKiCadPad(const COMPONENT_PAD &aCadstarPad, FOOTPRINT *aParent)
void drawCadstarShape(const SHAPE &aCadstarShape, const PCB_LAYER_ID &aKiCadLayer, int aLineThickness, const wxString &aShapeName, BOARD_ITEM_CONTAINER *aContainer, const GROUP_ID &aCadstarGroupID=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
NETINFO_ITEM * getKiCadNet(const NET_ID &aCadstarNetID)
Searches m_netMap and returns the NETINFO_ITEM pointer if exists.
void logBoardStackupMessage(const wxString &aCadstarLayerName, const PCB_LAYER_ID &aKiCadLayer)
int getLineThickness(const LINECODE_ID &aCadstarLineCodeID)
bool m_doneTearDropWarning
std::map< NET_ID, NETINFO_ITEM * > m_netMap
Map between Cadstar and KiCad Nets.
void loadComponentAttributes(const COMPONENT &aComponent, FOOTPRINT *aFootprint)
void loadNetTracks(const NET_ID &aCadstarNetID, const NET_PCB::ROUTE &aCadstarRoute, long aDefaultRouteWidth, long aStartWidth=std::numeric_limits< long >::max(), long aEndWidth=std::numeric_limits< long >::max())
PCB_GROUP * getKiCadGroup(const GROUP_ID &aCadstarGroupID)
bool m_logLayerWarnings
Used in loadBoardStackup()
HATCHCODE getHatchCode(const HATCHCODE_ID &aCadstarHatchcodeID)
void loadLibraryCoppers(const SYMDEF_PCB &aComponent, FOOTPRINT *aFootprint)
LAYER_TYPE getLayerType(const LAYER_ID aCadstarLayerID)
void loadLibraryFigures(const SYMDEF_PCB &aComponent, FOOTPRINT *aFootprint)
TEXTCODE getTextCode(const TEXTCODE_ID &aCadstarTextCodeID)
wxString getAttributeName(const ATTRIBUTE_ID &aCadstarAttributeID)
wxString getAttributeValue(const ATTRIBUTE_ID &aCadstarAttributeID, const std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > &aCadstarAttributeMap)
void applyRouteOffset(VECTOR2I *aPointToOffset, const VECTOR2I &aRefPoint, const long &aOffsetAmount)
CADSTAR's Post Processor does an action called "Route Offset" which is applied when a route is wider ...
VECTOR2I getKiCadPoint(const VECTOR2I &aCadstarPoint)
Scales, offsets and inverts y axis to make the point usable directly in KiCad.
void remapUnsureLayers()
Callback m_layerMappingHandler for layers we aren't sure of.
double getAngleTenthDegree(const long long &aCadstarAngle)
LSET getKiCadLayerSet(const LAYER_ID &aCadstarLayerID)
void addToGroup(const GROUP_ID &aCadstarGroupID, BOARD_ITEM *aKiCadItem)
std::map< SYMDEF_ID, FOOTPRINT * > m_libraryMap
Map between Cadstar and KiCad components in the library.
COPPERCODE getCopperCode(const COPPERCODE_ID &aCadstaCopperCodeID)
SHAPE_POLY_SET getPolySetFromCadstarShape(const SHAPE &aCadstarShape, int aLineThickness=-1, BOARD_ITEM_CONTAINER *aContainer=nullptr, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
Returns a SHAPE_POLY_SET object from a Cadstar SHAPE.
EDA_ANGLE getHatchCodeAngle(const HATCHCODE_ID &aCadstarHatchcodeID)
int getKiCadHatchCodeThickness(const HATCHCODE_ID &aCadstarHatchcodeID)
PCB_LAYER_ID getKiCadLayer(const LAYER_ID &aCadstarLayerID)
std::set< HATCHCODE_ID > m_hatchcodesTested
Used by checkAndLogHatchCode() to avoid multiple duplicate warnings.
void loadLibraryAreas(const SYMDEF_PCB &aComponent, FOOTPRINT *aFootprint)
GROUP_ID createUniqueGroupID(const wxString &aName)
Adds a new PCB_GROUP* to m_groupMap.
int getKiCadHatchCodeGap(const HATCHCODE_ID &aCadstarHatchcodeID)
std::vector< std::unique_ptr< FOOTPRINT > > LoadLibrary()
Parse a CADSTAR PCB Archive and load the footprints contained within.
ROUTECODE getRouteCode(const ROUTECODE_ID &aCadstarRouteCodeID)
void drawCadstarVerticesAsShapes(const std::vector< VERTEX > &aCadstarVertices, const PCB_LAYER_ID &aKiCadLayer, int aLineThickness, BOARD_ITEM_CONTAINER *aContainer, const GROUP_ID &aCadstarGroupID=wxEmptyString, const VECTOR2I &aMoveVector={ 0, 0 }, double aRotationAngle=0.0, double aScalingFactor=1.0, const VECTOR2I &aTransformCentre={ 0, 0 }, bool aMirrorInvert=false)
Uses PCB_SHAPE to draw the vertices on m_board object.
void addAttribute(const ATTRIBUTE_LOCATION &aCadstarAttrLoc, const ATTRIBUTE_ID &aCadstarAttributeID, FOOTPRINT *aFootprint, const wxString &aAttributeValue)
Adds a CADSTAR Attribute to a KiCad footprint.
std::map< GROUP_ID, PCB_GROUP * > m_groupMap
Map between Cadstar and KiCad groups.
bool calculateZonePriorities(PCB_LAYER_ID &aLayer)
Tries to make a best guess as to the zone priorities based on the pour status.
std::map< LAYER_ID, PCB_LAYER_ID > m_layermap
Map between Cadstar and KiCad Layers.
PAD *& getPadReference(FOOTPRINT *aFootprint, const PAD_ID aCadstarPadID)
bool m_doneNetClassWarning
Used by getKiCadNet() to avoid multiple duplicate warnings.
double getAngleDegrees(const long long &aCadstarAngle)
PART getPart(const PART_ID &aCadstarPartID)
LAYER_MAPPING_HANDLER m_layerMappingHandler
Callback to get layer mapping.
std::map< SYMDEF_ID, ASSOCIATED_COPPER_PADS > m_librarycopperpads
Associated copper pads (if any) for each component library definition.
long PAD_ID
Pad identifier (pin) in the PCB.
@ LAYERSUBTYPE_SOLDERRESIST
@ LAYERSUBTYPE_SILKSCREEN
void Parse(bool aLibrary=false)
Parses the file.
int KiCadUnitMultiplier
Use this value to convert units in this CPA file to KiCad units.
@ UNDEFINED
Only used for error detection.
@ ALLELEC
Inbuilt layer type (cannot be assigned to user layers)
@ ALLDOC
Inbuilt layer type (cannot be assigned to user layers)
@ NONELEC
This type has subtypes.
@ NOLAYER
Inbuilt layer type (cannot be assigned to user layers)
@ JUMPERLAYER
Inbuilt layer type (cannot be assigned to user layers)
@ ALLLAYER
Inbuilt layer type (cannot be assigned to user layers)
@ ASSCOMPCOPP
Inbuilt layer type (cannot be assigned to user layers)
@ ROUNDED_RECT
Keyword "ROUNDED".
@ MAXIMUM
The highest PHYSICAL_LAYER_ID currently defined (i.e.
@ MINIMUM
PHYSICAL_LAYER_ID 1 (i.e.
@ THROUGH_HOLE
All physical layers currently defined.
EDA_ANGLE NormalizeNegative()
void AddItem(EDA_ITEM *aItem)
Add item to group.
void SetName(const wxString &aName)
void SetCenter(const VECTOR2I &aCenter)
SHAPE_POLY_SET & GetPolyShape()
virtual void SetFilled(bool aFlag)
void SetFillMode(FILL_T aFill)
A mix-in class (via multiple inheritance) that handles texts such as labels, parts,...
virtual void SetTextSize(VECTOR2I aNewSize, bool aEnforceMinTextSize=true)
virtual const wxString & GetText() const
Return the string associated with the text object.
virtual void SetTextPos(const VECTOR2I &aPoint)
void SetMirrored(bool isMirrored)
void SetVertJustify(GR_TEXT_V_ALIGN_T aType)
virtual void SetVisible(bool aVisible)
virtual void SetTextThickness(int aWidth)
The TextThickness is that set by the user.
void SetBold(bool aBold)
Set the text to be bold - this will also update the font if needed.
void SetKeepUpright(bool aKeepUpright)
virtual void SetText(const wxString &aText)
void SetItalic(bool aItalic)
Set the text to be italic - this will also update the font if needed.
void SetFont(KIFONT::FONT *aFont)
void SetHorizJustify(GR_TEXT_H_ALIGN_T aType)
FONT is an abstract base class for both outline and stroke fonts.
static FONT * GetFont(const wxString &aFontName=wxEmptyString, bool aBold=false, bool aItalic=false, const std::vector< wxString > *aEmbeddedFiles=nullptr, bool aForDrawingSheet=false)
A logical library item identifier and consists of various portions much like a URI.
int Parse(const UTF8 &aId, bool aFix=false)
Parse LIB_ID with the information from aId.
const UTF8 & GetLibItemName() const
LSEQ is a sequence (and therefore also a set) of PCB_LAYER_IDs.
LSET is a set of PCB_LAYER_IDs.
static const LSET & AllBoardTechMask()
Return a mask holding board technical layers (no CU layer) on both side.
static const LSET & AllCuMask()
return AllCuMask( MAX_CU_LAYERS );
static const LSET & UserMask()
LSEQ Seq(const LSEQ &aSequence) const
Return an LSEQ from the union of this LSET and a desired sequence.
static LSET AllCuMask(int aCuLayerCount)
Return a mask holding the requested number of Cu PCB_LAYER_IDs.
static const LSET & AllLayersMask()
static LSET UserDefinedLayersMask(int aUserDefinedLayerCount=MAX_USER_DEFINED_LAYERS)
Return a mask with the requested number of user defined layers.
static wxString Name(PCB_LAYER_ID aLayerId)
Return the fixed name association with aLayerId.
bool Contains(PCB_LAYER_ID aLayer) const
See if the layer set contains a PCB layer.
Handle the data for a net.
void SetNetClass(const std::shared_ptr< NETCLASS > &aNetClass)
std::shared_ptr< NETCLASS > GetDefaultNetclass() const
Gets the default netclass for the project.
static constexpr PCB_LAYER_ID ALL_LAYERS
! Temporary layer identifier to identify code that is not padstack-aware
const wxString & GetNumber() const
void SetNumber(const wxString &aNumber)
Set the pad number (note that it can be alphanumeric, such as the array reference "AA12").
virtual void SetEnd(const VECTOR2I &aPoint)
void SetUnitsFormat(const DIM_UNITS_FORMAT aFormat)
virtual void SetStart(const VECTOR2I &aPoint)
void SetPrefix(const wxString &aPrefix)
void SetExtensionOffset(int aOffset)
void SetSuffix(const wxString &aSuffix)
void SetLineThickness(int aWidth)
void SetPrecision(DIM_PRECISION aPrecision)
void SetOverrideText(const wxString &aValue)
virtual VECTOR2I GetStart() const
The dimension's origin is the first feature point for the dimension.
void SetUnitsMode(DIM_UNITS_MODE aMode)
For better understanding of the points that make a dimension:
void SetExtensionHeight(int aHeight)
void SetHeight(int aHeight)
Set the distance from the feature points to the crossbar line.
A leader is a dimension-like object pointing to a specific point.
An orthogonal dimension is like an aligned dimension, but the extension lines are locked to the X or ...
void SetOrientation(DIR aOrientation)
Set the orientation of the dimension line (so, perpendicular to the feature lines).
A set of BOARD_ITEMs (i.e., without duplicates).
void SetLocked(bool aLocked) override
void Rotate(const VECTOR2I &aRotCentre, const EDA_ANGLE &aAngle) override
Rotate this object.
void SetArcAngleAndEnd(const EDA_ANGLE &aAngle, bool aCheckNegativeAngle=false)
void SetShape(SHAPE_T aShape) override
void SetEnd(const VECTOR2I &aEnd) override
void Flip(const VECTOR2I &aCentre, FLIP_DIRECTION aFlipDirection) override
Flip this object, i.e.
void SetPolyShape(const SHAPE_POLY_SET &aShape) override
void SetLayer(PCB_LAYER_ID aLayer) override
Set the layer this item is on.
void Move(const VECTOR2I &aMoveVector) override
Move this object.
void SetStart(const VECTOR2I &aStart) override
void Scale(double aScale)
void SetStroke(const STROKE_PARAMS &aStroke) override
void SetTextThickness(int aWidth) override
The TextThickness is that set by the user.
void Flip(const VECTOR2I &aCentre, FLIP_DIRECTION aFlipDirection) override
Flip this object, i.e.
EDA_ANGLE GetTextAngle() const override
void SetTextSize(VECTOR2I aNewSize, bool aEnforceMinTextSize=true) override
virtual void SetPosition(const VECTOR2I &aPos) override
void Move(const VECTOR2I &aMoveVector) override
Move this object.
int GetTextThickness() const override
void SetTextAngle(const EDA_ANGLE &aAngle) override
VECTOR2I GetTextSize() const override
void SetEnd(const VECTOR2I &aEnd)
void SetStart(const VECTOR2I &aStart)
const VECTOR2I & GetStart() const
const VECTOR2I & GetEnd() const
virtual void SetWidth(int aWidth)
virtual int GetWidth() const
Container for project specific data.
Represent a polyline containing arcs as well as line segments: A chain of connected line and/or arc s...
virtual const VECTOR2I GetPoint(int aIndex) const override
void SetClosed(bool aClosed)
Mark the line chain as closed (i.e.
int PointCount() const
Return the number of points (vertices) in this line chain.
void Append(int aX, int aY, bool aAllowDuplication=false)
Append a new point at the end of the line chain.
Represent a set of closed polygons.
void BooleanAdd(const SHAPE_POLY_SET &b)
Perform boolean polyset union.
void ClearArcs()
Removes all arc references from all the outlines and holes in the polyset.
double Area()
Return the area of this poly set.
void Inflate(int aAmount, CORNER_STRATEGY aCornerStrategy, int aMaxError, bool aSimplify=false)
Perform outline inflation/deflation.
int HoleCount(int aOutline) const
Returns the number of holes in a given outline.
int AddHole(const SHAPE_LINE_CHAIN &aHole, int aOutline=-1)
Adds a new hole to the given outline (default: last) and returns its index.
SHAPE_LINE_CHAIN & Outline(int aIndex)
Return the reference to aIndex-th outline in the set.
SHAPE_LINE_CHAIN & Hole(int aOutline, int aHole)
Return the reference to aHole-th hole in the aIndex-th outline.
void BooleanIntersection(const SHAPE_POLY_SET &b)
Perform boolean polyset intersection.
const SHAPE_LINE_CHAIN & CHole(int aOutline, int aHole) const
int OutlineCount() const
Return the number of outlines in the set.
void Move(const VECTOR2I &aVector) override
void Fracture(bool aSimplify=true)
Convert a set of polygons with holes to a single outline with "slits"/"fractures" connecting the oute...
bool Contains(const VECTOR2I &aP, int aSubpolyIndex=-1, int aAccuracy=0, bool aUseBBoxCaches=false) const
Return true if a given subpolygon contains the point aP.
void BooleanSubtract(const SHAPE_POLY_SET &b)
Perform boolean polyset difference.
const SHAPE_LINE_CHAIN & COutline(int aIndex) const
virtual VECTOR2I GetStart() const
Simple container to manage line stroke parameters.
T EuclideanNorm() const
Compute the Euclidean norm of the vector, which is defined as sqrt(x ** 2 + y ** 2).
VECTOR2< T > Resize(T aNewLength) const
Return a vector of the same direction, but length specified in aNewLength.
Handle a list of polygons defining a copper zone.
void SetHatchThickness(int aThickness)
void SetNeedRefill(bool aNeedRefill)
void SetDoNotAllowPads(bool aEnable)
std::optional< int > GetLocalClearance() const override
void SetLocalClearance(std::optional< int > aClearance)
void AddPolygon(std::vector< VECTOR2I > &aPolygon)
Add a polygon to the zone outline.
std::shared_ptr< SHAPE_POLY_SET > GetFilledPolysList(PCB_LAYER_ID aLayer) const
void SetMinThickness(int aMinThickness)
void SetHatchOrientation(const EDA_ANGLE &aStep)
void SetThermalReliefSpokeWidth(int aThermalReliefSpokeWidth)
virtual void SetLayer(PCB_LAYER_ID aLayer) override
Set the layer this item is on.
SHAPE_POLY_SET * Outline()
void SetHatchStyle(ZONE_BORDER_DISPLAY_STYLE aStyle)
SHAPE_POLY_SET * GetFill(PCB_LAYER_ID aLayer)
void SetIsRuleArea(bool aEnable)
void SetDoNotAllowTracks(bool aEnable)
void SetFilledPolysList(PCB_LAYER_ID aLayer, const SHAPE_POLY_SET &aPolysList)
Set the list of filled polygons.
void SetIsFilled(bool isFilled)
void SetFillMode(ZONE_FILL_MODE aFillMode)
bool HasFilledPolysForLayer(PCB_LAYER_ID aLayer) const
void SetLayerSet(const LSET &aLayerSet) override
void SetDoNotAllowVias(bool aEnable)
void SetNet(NETINFO_ITEM *aNetInfo) override
Override that drops aNetInfo when this zone is in copper-thieving fill mode.
void SetThermalReliefGap(int aThermalReliefGap)
virtual LSET GetLayerSet() const override
Return a std::bitset of all layers on which the item physically resides.
void SetDoNotAllowFootprints(bool aEnable)
void SetDoNotAllowZoneFills(bool aEnable)
void SetAssignedPriority(unsigned aPriority)
void SetPadConnection(ZONE_CONNECTION aPadConnection)
void SetZoneName(const wxString &aName)
void SetIslandRemovalMode(ISLAND_REMOVAL_MODE aRemove)
void SetMinIslandArea(long long int aArea)
void SetHatchGap(int aStep)
void TransformArcToPolygon(SHAPE_POLY_SET &aBuffer, const VECTOR2I &aStart, const VECTOR2I &aMid, const VECTOR2I &aEnd, int aWidth, int aError, ERROR_LOC aErrorLoc)
Convert arc to multiple straight segments.
void TransformOvalToPolygon(SHAPE_POLY_SET &aBuffer, const VECTOR2I &aStart, const VECTOR2I &aEnd, int aWidth, int aError, ERROR_LOC aErrorLoc, int aMinSegCount=0)
Convert a oblong shape to a polygon, using multiple segments.
@ RECT_CHAMFER_BOTTOM_LEFT
@ ROUND_ALL_CORNERS
All angles are rounded.
static constexpr EDA_ANGLE ANGLE_90
static constexpr EDA_ANGLE ANGLE_180
#define IGNORE_PARENT_GROUP
@ FILLED_SHAPE
Fill with object color.
#define DEFAULT_SIZE_TEXT
This is the "default-of-the-default" hardcoded text size; individual application define their own def...
#define THROW_IO_ERROR(msg)
macro which captures the "call site" values of FILE_, __FUNCTION & LINE
PCB_LAYER_ID
A quick note on layer IDs:
This file contains miscellaneous commonly used macros and functions.
#define KI_FALLTHROUGH
The KI_FALLTHROUGH macro is to be used when switch statement cases should purposely fallthrough from ...
@ LEFT_RIGHT
Flip left to right (around the Y axis)
constexpr int Mils2IU(const EDA_IU_SCALE &aIuScale, int mils)
EDA_ANGLE abs(const EDA_ANGLE &aAngle)
@ NPTH
like PAD_PTH, but not plated mechanical use only, no connection allowed
@ SMD
Smd pad, appears on the solder paste layer (default)
@ PTH
Plated through hole pad.
Class to handle a set of BOARD_ITEMs.
ALIGNMENT Alignment
In CADSTAR The default alignment for a TEXT object (when "(No Alignment()" is selected) Bottom Left o...
ATTRIBUTE_LOCATION AttributeLocation
bool HasLocation
Flag to know if this ATTRIBUTE_VALUE has a location i.e.
Represent a cutout in a closed shape (e.g.
std::vector< VERTEX > Vertices
long ScaleRatioNumerator
Documentation symbols can be arbitrarily scaled when added to a design.
long ScaleRatioDenominator
Documentation symbols can be arbitrarily scaled when added to a design.
POINT Origin
Origin of the component (this is used as the reference point when placing the component in the design...
LAYER_ID LayerID
Move all objects in the Symdef to this layer.
SYMDEF_ID SymdefID
Normally documentation symbols only have TEXT, FIGURE and TEXT_LOCATION objects which are all drawn o...
long Modifier1
It seems this is related to weight. 400=Normal, 700=Bold.
GROUP_ID GroupID
If not empty, this GROUP is part of another GROUP.
std::vector< HATCH > Hatches
ROUTECODE_ID RouteCodeID
"NETCODE" subnode
wxString Name
This is undefined (wxEmptyString) if the net is unnamed.
NETCLASS_ID NetClassID
The net might not have a net class, in which case it will be wxEmptyString ("NETCLASSREF" subnode)
SPACING_CLASS_ID SpacingClassID
The net might not have a spacing class, in which case it will be wxEmptyString ("SPACINGCLASS" subnod...
long SignalNum
This is undefined if the net has been given a name.
wxString Name
This name can be different to the PART name.
std::map< PART_DEFINITION_PIN_ID, PIN > Pins
Represent a point in x,y coordinates.
std::vector< VERTEX > Vertices
wxString HatchCodeID
Only Applicable for HATCHED Type.
std::vector< CUTOUT > Cutouts
Not Applicable to OPENSHAPE Type.
std::map< FIGURE_ID, FIGURE > Figures
POINT Origin
Origin of the component (this is used as the reference point when placing the component in the design...
wxString Alternate
This is in addition to ReferenceName.
std::map< TEXT_ID, TEXT > Texts
wxString ReferenceName
This is the name which identifies the symbol in the library Multiple components may exist with the sa...
wxString BuildLibName() const
long Width
Defaults to 0 if using system fonts or, if using CADSTAR font, default to equal height (1:1 aspect ra...
Corresponds to CADSTAR "origin".
ALIGNMENT Alignment
In CADSTAR The default alignment for a TEXT object (when "(No Alignment)" is selected) Bottom Left of...
< Nodename = "VARIANT" or "VMASTER" (master variant
Represents a vertex in a shape.
From CADSTAR Help: "Area is for creating areas within which, and nowhere else, certain operations are...
bool Keepout
From CADSTAR Help: "Auto Placement cannot place components within this area.
bool Placement
From CADSTAR Help: "Auto Placement can place components within this area.
bool NoVias
From CADSTAR Help: "No vias will be placed within this area by the automatic router.
bool Routing
From CADSTAR Help: "Area can be used to place routes during Automatic Routing.
bool NoTracks
From CADSTAR Help: "Area cannot be used to place routes during automatic routing.
GROUP_ID GroupID
Normally CADSTAR_BOARD cannot be part of a reuseblock, but included for completeness.
long OrientAngle
1/1000 of a Degree
From CADSTAR Help: "Area is for creating areas within which, and nowhere else, certain operations are...
bool NoVias
From CADSTAR Help: "Check this button to specify that any area created by the Rectangle,...
bool NoTracks
From CADSTAR Help: "Check this button to specify that any area created by the Rectangle,...
A shape of copper in the component footprint.
std::vector< PAD_ID > AssociatedPadIDs
COPPERCODE_ID CopperCodeID
bool PCBonlyPad
From CADSTAR Help: "The PCB Only Pad property can be used to stop ECO Update, Back Annotation,...
PAD_EXITS Exits
See PAD_EXITS.
POINT Position
Pad position within the component's coordinate frame.
wxString Identifier
This is an identifier that is displayed to the user.
PAD_SIDE Side
See PAD_SIDE.
std::map< ATTRIBUTE_ID, ATTRIBUTE_VALUE > AttributeValues
std::map< ATTRIBUTE_ID, TEXT_LOCATION > TextLocations
This contains location of any attributes, including designator position.
COPPERCODE_ID CopperCodeID
TEMPLATE_ID PouredTemplateID
If not empty, it means this COPPER is part of a poured template.
long Offset
Offset from the measurement point.
long Overshoot
Overshoot of the extension line past the arrow line.
long LeaderLineExtensionLength
Only for TYPE=LEADERLINE Length of the horizontal part of the leader line [param6].
LINECODE_ID LineCodeID
param0
long LeaderLineLength
Only for TYPE=LEADERLINE Length of the angled part of the leader line [param5].
long LeaderAngle
Only for TYPE=LEADERLINE subnode "LEADERANG".
STYLE Style
Subnode="DIMLINETYPE".
Linear, leader (radius/diameter) or angular dimension.
LAYER_ID LayerID
ID on which to draw this [param1].
EXTENSION_LINE ExtensionLineParams
Not applicable to TYPE=LEADERDIM.
DIMENSION_ID ID
Some ID (doesn't seem to be used) subnode="DIMREF".
long Precision
Number of decimal points to display in the measurement [param3].
PHYSICAL_LAYER_ID PhysicalLayerStart
PHYSICAL_LAYER_ID PhysicalLayerEnd
long Thickness
Note: Units of length are defined in file header.
std::vector< CONNECTION_PCB > Connections
std::map< NETELEMENT_ID, VIA > Vias
std::map< NETELEMENT_ID, PIN > Pins
std::map< NETELEMENT_ID, JUNCTION_PCB > Junctions
long ReliefWidth
if undefined inherits from design
std::map< LAYER_ID, CADSTAR_PAD_SHAPE > Reassigns
long ReliefClearance
if undefined inherits from design
PADCODE_ID PadCode
If not empty, override padcode.
std::map< PAD_ID, COMPONENT_PAD > ComponentPads
std::vector< COMPONENT_COPPER > ComponentCoppers
std::map< COMP_AREA_ID, COMPONENT_AREA > ComponentAreas
long AdditionalIsolation
This is the gap to apply in routes and pads in addition to the existing pad-to-copper or route-to-cop...
bool ThermalReliefOnVias
false when subnode "NOVIARELIEF" is present
HATCHCODE_ID HatchCodeID
Only for FillType = HATCHED.
bool ThermalReliefOnPads
false when subnode "NOPINRELIEF" is present
long ThermalReliefPadsAngle
Orientation for the thermal reliefs.
long MinDisjointCopper
The value is the length of one side of a notional square.
bool AutomaticRepour
true when subnode "REGENERATE" is present
bool AllowInNoRouting
true when subnode "IGNORETRN" is present
bool BoxIsolatedPins
true when subnode "BOXPINS" is present
long ClearanceWidth
Specifies the space around pads when pouring (i.e.
COPPERCODE_ID ReliefCopperCodeID
From CADSTAR Help: "Relief Copper Code is forselecting the width of line used to draw thethermal reli...
COPPER_FILL_TYPE FillType
Assume solid fill.
COPPERCODE_ID CopperCodeID
From CADSTAR Help: "Copper Code is for selecting the width of the line used to draw the outline and f...
long ThermalReliefViasAngle
Disabled when !ThermalReliefOnVias (param6)
long MinIsolatedCopper
The value is the length of one side of a notional square.
long SliverWidth
Minimum width of copper that may be created.
Templates are CADSTAR's equivalent to a "filled zone".
POURING Pouring
Copper pour settings (e.g. relief / hatching /etc.)
@ USER
The field ID hasn't been set yet; field is invalid.
void RotatePoint(int *pX, int *pY, const EDA_ANGLE &aAngle)
Calculate the new point of coord coord pX, pY, for a rotation center 0, 0.
double DEG2RAD(double deg)
@ PCB_DIM_ALIGNED_T
class PCB_DIM_ALIGNED, a linear dimension (graphic item)
VECTOR2< int32_t > VECTOR2I
@ THERMAL
Use thermal relief for pads.
@ FULL
pads are covered by copper