kicad/pcbnew/plugins/cadstar/cadstar_pcb_archive_loader.cpp

2577 lines
94 KiB
C++

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020 Roberto Fernandez Bautista <roberto.fer.bau@gmail.com>
* Copyright (C) 2020 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or (at your
* option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file cadstar_pcb_archive_loader.cpp
* @brief Loads a cpa file into a KiCad BOARD object
*/
#include <cadstar_pcb_archive_loader.h>
#include <board_stackup_manager/stackup_predefined_prms.h> // KEY_COPPER, KEY_CORE, KEY_PREPREG
#include <class_board.h>
#include <class_dimension.h>
#include <class_drawsegment.h> // DRAWSEGMENT
#include <class_edge_mod.h>
#include <class_module.h>
#include <class_pcb_text.h>
#include <class_track.h>
#include <class_zone.h>
#include <convert_basic_shapes_to_polygon.h>
#include <trigo.h>
#include <limits> // std::numeric_limits
void CADSTAR_PCB_ARCHIVE_LOADER::Load( ::BOARD* aBoard )
{
mBoard = aBoard;
Parse();
LONGPOINT designLimit = Assignments.Technology.DesignLimit;
//Note: can't use getKiCadPoint() due wxPoint being int - need long long to make the check
long long designSizeXkicad = (long long) designLimit.x * KiCadUnitMultiplier;
long long designSizeYkicad = (long long) designLimit.y * KiCadUnitMultiplier;
// Max size limited by the positive dimension of wxPoint (which is an int)
long long maxDesignSizekicad = std::numeric_limits<int>::max();
if( designSizeXkicad > maxDesignSizekicad || designSizeYkicad > maxDesignSizekicad )
{
THROW_IO_ERROR( wxString::Format(
_( "The design is too large and cannot be imported into KiCad. \n"
"Please reduce the maximum design size in CADSTAR by navigating to: \n"
"Design Tab -> Properties -> Design Options -> Maximum Design Size. \n"
"Current Design size: %.2f, %.2f millimeters. \n"
"Maximum permitted design size: %.2f, %.2f millimeters.\n" ),
(double) designSizeXkicad / PCB_IU_PER_MM,
(double) designSizeYkicad / PCB_IU_PER_MM,
(double) maxDesignSizekicad / PCB_IU_PER_MM,
(double) maxDesignSizekicad / PCB_IU_PER_MM ) );
}
mDesignCenter =
( Assignments.Technology.DesignArea.first + Assignments.Technology.DesignArea.second )
/ 2;
if( Layout.NetSynch == NETSYNCH::WARNING )
{
wxLogWarning(
_( "The selected file indicates that nets might be out of synchronisation "
"with the schematic. It is recommended that you carry out an 'Align Nets' "
"procedure in CADSTAR and re-import, to avoid inconsistencies between the "
"PCB and the schematic. " ) );
}
loadBoardStackup();
loadDesignRules();
loadComponentLibrary();
loadGroups();
loadBoards();
loadFigures();
loadTexts();
loadDimensions();
loadAreas();
loadComponents();
loadDocumentationSymbols();
loadTemplates();
loadCoppers();
loadNets();
if( Layout.VariantHierarchy.Variants.size() > 0 )
{
wxLogWarning(
_( "The CADSTAR design contains variants which has no KiCad equivalent. All "
"components have been loaded on top of each other. " ) );
}
if( Layout.ReuseBlocks.size() > 0 )
{
wxLogWarning(
_( "The CADSTAR design contains re-use blocks which has no KiCad equivalent. The "
"re-use block information has been discarded during the import." ) );
}
wxLogMessage(
_( "The CADSTAR design has been imported successfully.\n"
"Please review the import errors and warnings (if any)." ) );
}
void CADSTAR_PCB_ARCHIVE_LOADER::logBoardStackupWarning(
const wxString& aCadstarLayerName, const PCB_LAYER_ID& aKiCadLayer )
{
wxLogWarning( wxString::Format(
_( "The CADSTAR layer '%s' has no KiCad equivalent. All elements on this "
"layer have been mapped to KiCad layer '%s' instead." ),
aCadstarLayerName, LSET::Name( aKiCadLayer ) ) );
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadBoardStackup()
{
std::map<LAYER_ID, LAYER>& cpaLayers = Assignments.Layerdefs.Layers;
std::map<MATERIAL_ID, MATERIAL>& cpaMaterials = Assignments.Layerdefs.Materials;
std::vector<LAYER_ID>& cpaLayerStack = Assignments.Layerdefs.LayerStack;
unsigned numElecAndPowerLayers = 0;
BOARD_DESIGN_SETTINGS& designSettings = mBoard->GetDesignSettings();
BOARD_STACKUP& stackup = designSettings.GetStackupDescriptor();
int noOfKiCadStackupLayers = 0;
int lastElectricalLayerIndex = 0;
int dielectricSublayer = 0;
int numDielectricLayers = 0;
bool prevWasDielectric = false;
BOARD_STACKUP_ITEM* tempKiCadLayer = nullptr;
std::vector<PCB_LAYER_ID> layerIDs;
//Remove all layers except required ones
stackup.RemoveAll();
layerIDs.push_back( PCB_LAYER_ID::F_CrtYd );
layerIDs.push_back( PCB_LAYER_ID::B_CrtYd );
layerIDs.push_back( PCB_LAYER_ID::Margin );
layerIDs.push_back( PCB_LAYER_ID::Edge_Cuts );
designSettings.SetEnabledLayers( LSET( &layerIDs[0], layerIDs.size() ) );
for( auto it = cpaLayerStack.begin(); it != cpaLayerStack.end(); ++it )
{
LAYER curLayer = cpaLayers[*it];
BOARD_STACKUP_ITEM_TYPE kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_UNDEFINED;
LAYER_T copperType = LAYER_T::LT_UNDEFINED;
PCB_LAYER_ID kicadLayerID = PCB_LAYER_ID::UNDEFINED_LAYER;
wxString layerTypeName = wxEmptyString;
if( cpaLayers.count( *it ) == 0 )
wxASSERT_MSG( true, wxT( "Unable to find layer index" ) );
if( prevWasDielectric && ( curLayer.Type != LAYER_TYPE::CONSTRUCTION ) )
{
stackup.Add( tempKiCadLayer ); //only add dielectric layers here after all are done
dielectricSublayer = 0;
prevWasDielectric = false;
noOfKiCadStackupLayers++;
}
switch( curLayer.Type )
{
case LAYER_TYPE::ALLDOC:
case LAYER_TYPE::ALLELEC:
case LAYER_TYPE::ALLLAYER:
case LAYER_TYPE::ASSCOMPCOPP:
case LAYER_TYPE::NOLAYER:
//Shouldn't be here if CPA file is correctly parsed and not corrupt
THROW_IO_ERROR( wxString::Format(
_( "Unexpected layer '%s' in layer stack." ), curLayer.Name ) );
case LAYER_TYPE::JUMPERLAYER:
copperType = LAYER_T::LT_JUMPER;
kicadLayerID = getKiCadCopperLayerID( ++numElecAndPowerLayers );
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_COPPER;
layerTypeName = KEY_COPPER;
break;
case LAYER_TYPE::ELEC:
copperType = LAYER_T::LT_SIGNAL;
kicadLayerID = getKiCadCopperLayerID( ++numElecAndPowerLayers );
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_COPPER;
layerTypeName = KEY_COPPER;
break;
case LAYER_TYPE::POWER:
copperType = LAYER_T::LT_POWER;
kicadLayerID = getKiCadCopperLayerID( ++numElecAndPowerLayers );
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_COPPER;
layerTypeName = KEY_COPPER;
mPowerPlaneLayers.push_back( curLayer.ID ); //we will need to add a Copper zone
break;
case LAYER_TYPE::CONSTRUCTION:
kicadLayerID = PCB_LAYER_ID::UNDEFINED_LAYER;
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_DIELECTRIC;
prevWasDielectric = true;
layerTypeName = KEY_PREPREG;
//TODO handle KEY_CORE and KEY_PREPREG
//will need to look at CADSTAR layer embedding (see LAYER->Embedding) to
//check electrical layers above and below to decide if current layer is prepreg
// or core
break;
case LAYER_TYPE::DOC:
if( numElecAndPowerLayers > 0 )
kicadLayerID = PCB_LAYER_ID::Dwgs_User;
else
kicadLayerID = PCB_LAYER_ID::Cmts_User;
logBoardStackupWarning( curLayer.Name, kicadLayerID );
//TODO: allow user to decide which layer this should be mapped onto.
break;
case LAYER_TYPE::NONELEC:
switch( curLayer.SubType )
{
case LAYER_SUBTYPE::LAYERSUBTYPE_ASSEMBLY:
if( numElecAndPowerLayers > 0 )
kicadLayerID = PCB_LAYER_ID::B_Fab;
else
kicadLayerID = PCB_LAYER_ID::F_Fab;
break;
case LAYER_SUBTYPE::LAYERSUBTYPE_PLACEMENT:
if( numElecAndPowerLayers > 0 )
kicadLayerID = PCB_LAYER_ID::B_CrtYd;
else
kicadLayerID = PCB_LAYER_ID::F_CrtYd;
break;
case LAYER_SUBTYPE::LAYERSUBTYPE_NONE:
if( curLayer.Name.Lower().Contains( "glue" )
|| curLayer.Name.Lower().Contains( "adhesive" ) )
{
if( numElecAndPowerLayers > 0 )
kicadLayerID = PCB_LAYER_ID::B_Adhes;
else
kicadLayerID = PCB_LAYER_ID::F_Adhes;
wxLogMessage( wxString::Format(
_( "The CADSTAR layer '%s' has been assumed to be an adhesive layer. "
"All elements on this layer have been mapped to KiCad layer '%s'." ),
curLayer.Name, LSET::Name( kicadLayerID ) ) );
//TODO: allow user to decide if this is actually an adhesive layer or not.
}
else
{
if( numElecAndPowerLayers > 0 )
kicadLayerID = PCB_LAYER_ID::Eco2_User;
else
kicadLayerID = PCB_LAYER_ID::Eco1_User;
logBoardStackupWarning( curLayer.Name, kicadLayerID );
//TODO: allow user to decide which layer this should be mapped onto.
}
break;
case LAYER_SUBTYPE::LAYERSUBTYPE_PASTE:
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_SOLDERPASTE;
if( numElecAndPowerLayers > 0 )
{
kicadLayerID = PCB_LAYER_ID::B_Paste;
layerTypeName = _HKI( "Bottom Solder Paste" );
}
else
{
kicadLayerID = PCB_LAYER_ID::F_Paste;
layerTypeName = _HKI( "Top Solder Paste" );
}
break;
case LAYER_SUBTYPE::LAYERSUBTYPE_SILKSCREEN:
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_SILKSCREEN;
if( numElecAndPowerLayers > 0 )
{
kicadLayerID = PCB_LAYER_ID::B_SilkS;
layerTypeName = _HKI( "Bottom Silk Screen" );
}
else
{
kicadLayerID = PCB_LAYER_ID::F_SilkS;
layerTypeName = _HKI( "Top Silk Screen" );
}
break;
case LAYER_SUBTYPE::LAYERSUBTYPE_SOLDERRESIST:
kicadLayerType = BOARD_STACKUP_ITEM_TYPE::BS_ITEM_TYPE_SOLDERMASK;
if( numElecAndPowerLayers > 0 )
{
kicadLayerID = PCB_LAYER_ID::B_Mask;
layerTypeName = _HKI( "Bottom Solder Mask" );
}
else
{
kicadLayerID = PCB_LAYER_ID::F_Mask;
layerTypeName = _HKI( "Top Solder Mask" );
}
break;
default:
wxASSERT_MSG( true, wxT( "Unknown CADSTAR Layer Sub-type" ) );
break;
}
break;
default:
wxASSERT_MSG( true, wxT( "Unknown CADSTAR Layer Type" ) );
break;
}
mLayermap.insert( std::make_pair( curLayer.ID, kicadLayerID ) );
if( dielectricSublayer == 0 )
tempKiCadLayer = new BOARD_STACKUP_ITEM( kicadLayerType );
tempKiCadLayer->SetLayerName( curLayer.Name );
tempKiCadLayer->SetBrdLayerId( kicadLayerID );
if( prevWasDielectric )
{
wxASSERT_MSG( kicadLayerID == PCB_LAYER_ID::UNDEFINED_LAYER,
wxT( "Error Processing Dielectric Layer. "
"Expected to have undefined layer type" ) );
if( dielectricSublayer == 0 )
tempKiCadLayer->SetDielectricLayerId( ++numDielectricLayers );
else
tempKiCadLayer->AddDielectricPrms( dielectricSublayer );
}
if( curLayer.MaterialId != UNDEFINED_MATERIAL_ID )
{
tempKiCadLayer->SetMaterial(
cpaMaterials[curLayer.MaterialId].Name, dielectricSublayer );
tempKiCadLayer->SetEpsilonR( cpaMaterials[curLayer.MaterialId].Permittivity.GetDouble(),
dielectricSublayer );
tempKiCadLayer->SetLossTangent(
cpaMaterials[curLayer.MaterialId].LossTangent.GetDouble(), dielectricSublayer );
//TODO add Resistivity when KiCad supports it
}
tempKiCadLayer->SetThickness(
curLayer.Thickness * KiCadUnitMultiplier, dielectricSublayer );
if( layerTypeName != wxEmptyString )
tempKiCadLayer->SetTypeName( layerTypeName );
if( !prevWasDielectric )
{
stackup.Add( tempKiCadLayer ); //only add non-dielectric layers here
++noOfKiCadStackupLayers;
layerIDs.push_back( tempKiCadLayer->GetBrdLayerId() );
designSettings.SetEnabledLayers( LSET( &layerIDs[0], layerIDs.size() ) );
}
else
++dielectricSublayer;
if( copperType != LAYER_T::LT_UNDEFINED )
{
wxASSERT( mBoard->SetLayerType( tempKiCadLayer->GetBrdLayerId(),
copperType ) ); //move to outside, need to enable layer in board first
lastElectricalLayerIndex = noOfKiCadStackupLayers - 1;
wxASSERT( mBoard->SetLayerName(
tempKiCadLayer->GetBrdLayerId(), tempKiCadLayer->GetLayerName() ) );
//TODO set layer names for other CADSTAR layers when KiCad supports custom
//layer names on non-copper layers
mCopperLayers.insert( std::make_pair( curLayer.PhysicalLayer, curLayer.ID ) );
}
}
//change last copper layer to be B_Cu instead of an inner layer
LAYER_ID cadstarlastElecLayer = mCopperLayers.rbegin()->second;
PCB_LAYER_ID lastElecBrdId =
stackup.GetStackupLayer( lastElectricalLayerIndex )->GetBrdLayerId();
std::remove( layerIDs.begin(), layerIDs.end(), lastElecBrdId );
layerIDs.push_back( PCB_LAYER_ID::B_Cu );
tempKiCadLayer = stackup.GetStackupLayer( lastElectricalLayerIndex );
tempKiCadLayer->SetBrdLayerId( PCB_LAYER_ID::B_Cu );
wxASSERT( mBoard->SetLayerName(
tempKiCadLayer->GetBrdLayerId(), tempKiCadLayer->GetLayerName() ) );
mLayermap.at( cadstarlastElecLayer ) = PCB_LAYER_ID::B_Cu;
//make all layers enabled and visible
mBoard->SetEnabledLayers( LSET( &layerIDs[0], layerIDs.size() ) );
mBoard->SetVisibleLayers( LSET( &layerIDs[0], layerIDs.size() ) );
mBoard->SetCopperLayerCount( numElecAndPowerLayers );
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadDesignRules()
{
BOARD_DESIGN_SETTINGS& ds = mBoard->GetDesignSettings();
std::map<SPACINGCODE_ID, SPACINGCODE>& spacingCodes = Assignments.Codedefs.SpacingCodes;
auto applyRule = [&]( wxString aID, int* aVal ) {
if( spacingCodes.find( aID ) == spacingCodes.end() )
wxLogWarning( _( "Design rule %s was not found. This was ignored." ) );
else
*aVal = getKiCadLength( spacingCodes.at( aID ).Spacing );
};
//Note: for details on the different spacing codes see SPACINGCODE::ID
applyRule( "T_T", &ds.m_MinClearance );
applyRule( "C_B", &ds.m_CopperEdgeClearance );
applyRule( "H_H", &ds.m_HoleToHoleMin );
ds.m_TrackMinWidth = Assignments.Technology.MinRouteWidth;
auto applyNetClassRule = [&]( wxString aID, ::NETCLASS* aNetClassPtr,
void ( ::NETCLASS::*aFunc )( int ) ) {
int value = -1;
applyRule( aID, &value );
if( value != -1 )
( aNetClassPtr->*aFunc )( value );
};
applyNetClassRule( "T_T", ds.GetDefault(), &::NETCLASS::SetClearance );
wxLogWarning(
_( "KiCad design rules are different from CADSTAR ones. Only the compatible "
"design rules were imported. It is recommended that you review the design "
"rules that have been applied." ) );
wxLogWarning(
_( "KiCad design rules are different from CADSTAR ones. Only the compatible "
"design rules were imported. It is recommended that you review the design "
"rules that have been applied." ) );
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadComponentLibrary()
{
for( std::pair<SYMDEF_ID, SYMDEF_PCB> symPair : Library.ComponentDefinitions )
{
SYMDEF_ID key = symPair.first;
SYMDEF_PCB component = symPair.second;
wxString moduleName = component.ReferenceName
+ ( ( component.Alternate.size() > 0 ) ?
( wxT( " (" ) + component.Alternate + wxT( ")" ) ) :
wxT( "" ) );
MODULE* m = new MODULE( mBoard );
m->SetPosition( getKiCadPoint( component.Origin ) );
LIB_ID libID;
libID.Parse( moduleName, LIB_ID::LIB_ID_TYPE::ID_PCB, true );
m->SetFPID( libID );
loadLibraryFigures( component, m );
loadLibraryCoppers( component, m );
loadLibraryAreas( component, m );
loadLibraryPads( component, m );
mLibraryMap.insert( std::make_pair( key, m ) );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadLibraryFigures( const SYMDEF_PCB& aComponent, MODULE* aModule )
{
for( std::pair<FIGURE_ID, FIGURE> figPair : aComponent.Figures )
{
FIGURE& fig = figPair.second;
drawCadstarShape( fig.Shape, getKiCadLayer( fig.LayerID ),
getLineThickness( fig.LineCodeID ),
wxString::Format( "Component %s:%s -> Figure %s", aComponent.ReferenceName,
aComponent.Alternate, fig.ID ),
aModule );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadLibraryCoppers( const SYMDEF_PCB& aComponent, MODULE* aModule )
{
for( COMPONENT_COPPER compCopper : aComponent.ComponentCoppers )
{
int lineThickness = getKiCadLength( getCopperCode( compCopper.CopperCodeID ).CopperWidth );
drawCadstarShape( compCopper.Shape, getKiCadLayer( compCopper.LayerID ), lineThickness,
wxString::Format( "Component %s:%s -> Copper element", aComponent.ReferenceName,
aComponent.Alternate ),
aModule );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadLibraryAreas( const SYMDEF_PCB& aComponent, MODULE* aModule )
{
for( std::pair<COMP_AREA_ID, COMPONENT_AREA> areaPair : aComponent.ComponentAreas )
{
COMPONENT_AREA& area = areaPair.second;
if( area.NoVias || area.NoTracks )
{
ZONE_CONTAINER* zone = getZoneFromCadstarShape(
area.Shape, getLineThickness( area.LineCodeID ), aModule );
aModule->Add( zone, ADD_MODE::APPEND );
if( isLayerSet( area.LayerID ) )
zone->SetLayerSet( getKiCadLayerSet( area.LayerID ) );
else
zone->SetLayer( getKiCadLayer( area.LayerID ) );
zone->SetIsRuleArea( true ); //import all CADSTAR areas as Keepout zones
zone->SetDoNotAllowPads( false ); //no CADSTAR equivalent
zone->SetZoneName( area.ID );
//There is no distinction between tracks and copper pours in CADSTAR Keepout zones
zone->SetDoNotAllowTracks( area.NoTracks );
zone->SetDoNotAllowCopperPour( area.NoTracks );
zone->SetDoNotAllowVias( area.NoVias );
}
else
{
wxString libName = aComponent.ReferenceName;
if( !aComponent.Alternate.IsEmpty() )
libName << wxT( " (" ) << aComponent.Alternate << wxT( ")" );
wxLogError(
wxString::Format( _( "The CADSTAR area '%s' in library component '%s' does not "
"have a KiCad equivalent. The area is neither a via or"
"route keepout area. The area was not imported. " ),
area.ID, libName ) );
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadLibraryPads( const SYMDEF_PCB& aComponent, MODULE* aModule )
{
for( std::pair<PAD_ID, PAD> padPair : aComponent.Pads )
{
PAD& csPad = padPair.second; //Cadstar pad
PADCODE csPadcode = getPadCode( csPad.PadCodeID );
D_PAD* pad = new D_PAD( aModule );
aModule->Add( pad,
ADD_MODE::INSERT ); // insert so that we get correct behaviour when finding pads
// in the module by PAD_ID - see loadNets()
switch( csPad.Side )
{
case PAD_SIDE::MAXIMUM: //Bottom side
pad->SetAttribute( PAD_ATTR_T::PAD_ATTRIB_SMD );
pad->SetLayerSet( LSET( 3, B_Cu, B_Paste, B_Mask ) );
break;
case PAD_SIDE::MINIMUM: //TOP side
pad->SetAttribute( PAD_ATTR_T::PAD_ATTRIB_SMD );
pad->SetLayerSet( LSET( 3, F_Cu, F_Paste, F_Mask ) );
break;
case PAD_SIDE::THROUGH_HOLE:
if( csPadcode.Plated )
pad->SetAttribute( PAD_ATTR_T::PAD_ATTRIB_PTH );
else
pad->SetAttribute( PAD_ATTR_T::PAD_ATTRIB_NPTH );
pad->SetLayerSet( pad->PTHMask() ); // for now we will assume no paste layers
//TODO: We need to read the csPad->Reassigns vector to make sure no paste
break;
default:
wxASSERT_MSG( true, "Unknown Pad type" );
}
pad->SetName( csPad.Identifier.IsEmpty() ? wxString::Format( wxT( "%i" ), csPad.ID ) :
csPad.Identifier );
pad->SetPos0( getKiCadPoint( csPad.Position ) - aModule->GetPosition() );
pad->SetOrientation( getAngleTenthDegree( csPad.OrientAngle ) );
if( csPadcode.Shape.Size == 0 )
// zero sized pads seems to break KiCad so lets make it very small instead
csPadcode.Shape.Size = 1;
switch( csPadcode.Shape.ShapeType )
{
case PAD_SHAPE_TYPE::ANNULUS:
//todo fix: use custom shape instead (Donught shape, i.e. a circle with a hole)
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_CIRCLE );
pad->SetSize( { getKiCadLength( csPadcode.Shape.Size ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::BULLET:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_CHAMFERED_RECT );
pad->SetSize( { getKiCadLength( (long long) csPadcode.Shape.Size
+ (long long) csPadcode.Shape.LeftLength
+ (long long) csPadcode.Shape.RightLength ),
getKiCadLength( csPadcode.Shape.Size ) } );
pad->SetChamferPositions( RECT_CHAMFER_POSITIONS::RECT_CHAMFER_BOTTOM_LEFT
| RECT_CHAMFER_POSITIONS::RECT_CHAMFER_TOP_LEFT );
pad->SetRoundRectRadiusRatio( 0.5 );
pad->SetChamferRectRatio( 0.0 );
break;
case PAD_SHAPE_TYPE::CIRCLE:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_CIRCLE );
pad->SetSize( { getKiCadLength( csPadcode.Shape.Size ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::DIAMOND:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_RECT );
pad->SetOrientation( pad->GetOrientation() + 450.0 ); // rotate 45deg anticlockwise
pad->SetSize( { getKiCadLength( csPadcode.Shape.Size ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::FINGER:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_OVAL );
pad->SetSize( { getKiCadLength( (long long) csPadcode.Shape.Size
+ (long long) csPadcode.Shape.LeftLength
+ (long long) csPadcode.Shape.RightLength ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::OCTAGON:
pad->SetShape( PAD_SHAPE_CHAMFERED_RECT );
pad->SetChamferPositions( RECT_CHAMFER_POSITIONS::RECT_CHAMFER_ALL );
pad->SetChamferRectRatio( 0.25 );
pad->SetSize( { getKiCadLength( csPadcode.Shape.Size ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::RECTANGLE:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_RECT );
pad->SetSize( { getKiCadLength( (long long) csPadcode.Shape.Size
+ (long long) csPadcode.Shape.LeftLength
+ (long long) csPadcode.Shape.RightLength ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::ROUNDED_RECT:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_RECT );
pad->SetRoundRectCornerRadius( getKiCadLength( csPadcode.Shape.InternalFeature ) );
pad->SetSize( { getKiCadLength( (long long) csPadcode.Shape.Size
+ (long long) csPadcode.Shape.LeftLength
+ (long long) csPadcode.Shape.RightLength ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
case PAD_SHAPE_TYPE::SQUARE:
pad->SetShape( PAD_SHAPE_T::PAD_SHAPE_RECT );
pad->SetSize( { getKiCadLength( csPadcode.Shape.Size ),
getKiCadLength( csPadcode.Shape.Size ) } );
break;
default:
wxASSERT_MSG( true, "Unknown Pad Shape" );
}
if( csPadcode.ReliefClearance != UNDEFINED_VALUE )
pad->SetThermalGap( getKiCadLength( csPadcode.ReliefClearance ) );
if( csPadcode.ReliefWidth != UNDEFINED_VALUE )
pad->SetThermalSpokeWidth( getKiCadLength( csPadcode.ReliefWidth ) );
pad->SetOrientation(
pad->GetOrientation() + getAngleTenthDegree( csPadcode.Shape.OrientAngle ) );
if( csPadcode.DrillDiameter != UNDEFINED_VALUE )
{
if( csPadcode.SlotLength != UNDEFINED_VALUE )
{
pad->SetDrillSize( { getKiCadLength( csPadcode.DrillDiameter ),
getKiCadLength( (long long) csPadcode.DrillOversize
+ (long long) csPadcode.DrillDiameter ) } );
}
else
{
pad->SetDrillSize( { getKiCadLength( csPadcode.DrillDiameter ),
getKiCadLength( csPadcode.DrillDiameter ) } );
}
}
//TODO handle csPadcode.Reassigns when KiCad supports full padstacks
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadGroups()
{
for( std::pair<GROUP_ID, GROUP> groupPair : Layout.Groups )
{
GROUP& csGroup = groupPair.second;
PCB_GROUP* kiGroup = new PCB_GROUP( mBoard );
mBoard->Add( kiGroup );
kiGroup->SetName( csGroup.Name );
kiGroup->SetLocked( csGroup.Fixed );
mGroupMap.insert( { csGroup.ID, kiGroup } );
}
//now add any groups to their parent group
for( std::pair<GROUP_ID, GROUP> groupPair : Layout.Groups )
{
GROUP& csGroup = groupPair.second;
if( !csGroup.GroupID.IsEmpty() )
{
if( mGroupMap.find( csGroup.ID ) == mGroupMap.end() )
{
THROW_IO_ERROR( wxString::Format(
_( "The file appears to be corrupt. Unable to find group ID %s "
"in the group definitions." ),
csGroup.ID ) );
}
else if( mGroupMap.find( csGroup.ID ) == mGroupMap.end() )
{
THROW_IO_ERROR( wxString::Format(
_( "The file appears to be corrupt. Unable to find sub group %s "
"in the group map (parent group ID=%s, Name=%s)." ),
csGroup.GroupID, csGroup.ID, csGroup.Name ) );
}
else
{
PCB_GROUP* kiCadGroup = mGroupMap.at( csGroup.ID );
PCB_GROUP* parentGroup = mGroupMap.at( csGroup.GroupID );
parentGroup->AddItem( kiCadGroup );
}
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadBoards()
{
for( std::pair<BOARD_ID, BOARD> boardPair : Layout.Boards )
{
BOARD& board = boardPair.second;
GROUP_ID boardGroup = createUniqueGroupID( wxT( "Board" ) );
drawCadstarShape( board.Shape, PCB_LAYER_ID::Edge_Cuts,
getLineThickness( board.LineCodeID ), wxString::Format( "BOARD %s", board.ID ),
mBoard, boardGroup );
if( !board.GroupID.IsEmpty() )
{
addToGroup( board.GroupID, getKiCadGroup( boardGroup ) );
}
//TODO process board attributes when KiCad supports them
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadFigures()
{
for( std::pair<FIGURE_ID, FIGURE> figPair : Layout.Figures )
{
FIGURE& fig = figPair.second;
drawCadstarShape( fig.Shape, getKiCadLayer( fig.LayerID ),
getLineThickness( fig.LineCodeID ), wxString::Format( "FIGURE %s", fig.ID ), mBoard,
fig.GroupID );
//TODO process "swaprule" (doesn't seem to apply to Layout Figures?)
//TODO process re-use block when KiCad Supports it
//TODO process attributes when KiCad Supports attributes in figures
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadTexts()
{
for( std::pair<TEXT_ID, TEXT> txtPair : Layout.Texts )
{
TEXT& csTxt = txtPair.second;
drawCadstarText( csTxt, mBoard );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadDimensions()
{
for( std::pair<DIMENSION_ID, DIMENSION> dimPair : Layout.Dimensions )
{
DIMENSION& csDim = dimPair.second;
switch( csDim.Type )
{
case DIMENSION::TYPE::LINEARDIM:
switch( csDim.Subtype )
{
case DIMENSION::SUBTYPE::DIRECT:
case DIMENSION::SUBTYPE::ORTHOGONAL:
{
::ALIGNED_DIMENSION* dimension = new ::ALIGNED_DIMENSION( mBoard );
TEXTCODE dimText = getTextCode( csDim.Text.TextCodeID );
mBoard->Add( dimension, ADD_MODE::APPEND );
dimension->SetLayer( getKiCadLayer( csDim.LayerID ) );
dimension->SetPrecision( csDim.Precision );
dimension->SetStart( getKiCadPoint( csDim.Line.Start ) );
dimension->SetEnd( getKiCadPoint( csDim.Line.End ) );
dimension->Text().SetTextThickness( getKiCadLength( dimText.LineWidth ) );
dimension->Text().SetTextSize( wxSize(
getKiCadLength( dimText.Width ), getKiCadLength( dimText.Height ) ) );
switch( csDim.LinearUnits )
{
case UNITS::METER:
case UNITS::CENTIMETER:
case UNITS::MM:
case UNITS::MICROMETRE:
dimension->SetUnits( EDA_UNITS::MILLIMETRES, false );
break;
case UNITS::INCH:
dimension->SetUnits( EDA_UNITS::INCHES, false );
break;
case UNITS::THOU:
dimension->SetUnits( EDA_UNITS::INCHES, true );
break;
}
}
continue;
default: //all others
wxLogError( wxString::Format(
_( "Dimension ID %s has no KiCad equivalent. This was not imported" ),
csDim.ID ) );
break;
}
break;
case DIMENSION::TYPE::ANGLEDIM:
case DIMENSION::TYPE::LEADERDIM:
default:
wxLogError( wxString::Format(
_( "Dimension ID %s has no KiCad equivalent. This was not imported" ),
csDim.ID ) );
break;
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadAreas()
{
for( std::pair<AREA_ID, AREA> areaPair : Layout.Areas )
{
AREA& area = areaPair.second;
if( area.NoVias || area.NoTracks || area.Keepout )
{
ZONE_CONTAINER* zone = getZoneFromCadstarShape(
area.Shape, getLineThickness( area.LineCodeID ), mBoard );
mBoard->Add( zone, ADD_MODE::APPEND );
if( isLayerSet( area.LayerID ) )
zone->SetLayerSet( getKiCadLayerSet( area.LayerID ) );
else
zone->SetLayer( getKiCadLayer( area.LayerID ) );
zone->SetIsRuleArea( true ); //import all CADSTAR areas as Keepout zones
zone->SetDoNotAllowPads( false ); //no CADSTAR equivalent
zone->SetZoneName( area.Name );
zone->SetDoNotAllowFootprints( area.Keepout );
zone->SetDoNotAllowTracks( area.NoTracks );
zone->SetDoNotAllowCopperPour( area.NoTracks );
zone->SetDoNotAllowVias( area.NoVias );
if( area.Placement || area.Routing )
wxLogWarning( wxString::Format(
_( "The CADSTAR area '%s' is defined as a placement and/or routing area "
"in CADSTAR, in addition to Keepout. Placement or Routing areas are "
"not supported in KiCad. Only the supported elements were imported." ),
area.Name ) );
}
else
{
wxLogError(
wxString::Format( _( "The CADSTAR area '%s' does not have a KiCad equivalent. "
"Pure Placement or Routing areas are not supported." ),
area.Name ) );
}
//todo Process area.AreaHeight when KiCad supports 3D design rules
//TODO process attributes
//TODO process addition to a group
//TODO process "swaprule"
//TODO process re-use block
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadComponents()
{
for( std::pair<COMPONENT_ID, COMPONENT> compPair : Layout.Components )
{
COMPONENT& comp = compPair.second;
auto moduleIter = mLibraryMap.find( comp.SymdefID );
if( moduleIter == mLibraryMap.end() )
{
THROW_IO_ERROR( wxString::Format( _( "Unable to find component '%s' in the library"
"(Symdef ID: '%s')" ),
comp.Name, comp.SymdefID ) );
}
// copy constructor to clone the module from the library
MODULE* m = new MODULE( *moduleIter->second );
const_cast<KIID&>( m->m_Uuid ) = KIID();
mBoard->Add( m, ADD_MODE::APPEND );
//set to empty string to avoid duplication when loading attributes:
m->SetValue( wxEmptyString );
m->SetPosition( getKiCadPoint( comp.Origin ) );
m->SetOrientation( getAngleTenthDegree( comp.OrientAngle ) );
m->SetReference( comp.Name );
if( comp.Mirror )
{
m->Flip( getKiCadPoint( comp.Origin ), false );
m->SetOrientation( m->GetOrientation() + 1800.0 );
}
loadComponentAttributes( comp, m );
if( !comp.PartID.IsEmpty() && comp.PartID != wxT( "NO_PART" ) )
m->SetDescription( getPart( comp.PartID ).Definition.Name );
mComponentMap.insert( { comp.ID, m } );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadDocumentationSymbols()
{
//No KiCad equivalent. Loaded as graphic and text elements instead
for( std::pair<DOCUMENTATION_SYMBOL_ID, DOCUMENTATION_SYMBOL> docPair :
Layout.DocumentationSymbols )
{
DOCUMENTATION_SYMBOL& docSymInstance = docPair.second;
auto docSymIter = Library.ComponentDefinitions.find( docSymInstance.SymdefID );
if( docSymIter == Library.ComponentDefinitions.end() )
{
THROW_IO_ERROR( wxString::Format( _( "Unable to find documentation symbol in the "
"library (Symdef ID: '%s')" ),
docSymInstance.SymdefID ) );
}
SYMDEF_PCB& docSymDefinition = ( *docSymIter ).second;
wxPoint moveVector =
getKiCadPoint( docSymInstance.Origin ) - getKiCadPoint( docSymDefinition.Origin );
double rotationAngle = getAngleTenthDegree( docSymInstance.OrientAngle );
double scalingFactor = (double) docSymInstance.ScaleRatioNumerator
/ (double) docSymInstance.ScaleRatioDenominator;
wxPoint centreOfTransform = getKiCadPoint( docSymDefinition.Origin );
bool mirrorInvert = docSymInstance.Mirror;
//create a group to store the items in
wxString groupName = docSymDefinition.ReferenceName;
if( !docSymDefinition.Alternate.IsEmpty() )
groupName += wxT( " (" ) + docSymDefinition.Alternate + wxT( ")" );
GROUP_ID groupID = createUniqueGroupID( groupName );
LSEQ layers = getKiCadLayerSet( docSymInstance.LayerID ).Seq();
for( PCB_LAYER_ID layer : layers )
{
for( std::pair<FIGURE_ID, FIGURE> figPair : docSymDefinition.Figures )
{
FIGURE fig = figPair.second;
drawCadstarShape( fig.Shape, layer, getLineThickness( fig.LineCodeID ),
wxString::Format( "DOCUMENTATION SYMBOL %s, FIGURE %s",
docSymDefinition.ReferenceName, fig.ID ),
mBoard, groupID, moveVector, rotationAngle, scalingFactor,
centreOfTransform, mirrorInvert );
}
}
for( std::pair<TEXT_ID, TEXT> textPair : docSymDefinition.Texts )
{
TEXT txt = textPair.second;
drawCadstarText( txt, mBoard, groupID, docSymInstance.LayerID, moveVector,
rotationAngle, scalingFactor, centreOfTransform, mirrorInvert );
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadTemplates()
{
for( std::pair<TEMPLATE_ID, TEMPLATE> tempPair : Layout.Templates )
{
TEMPLATE& csTemplate = tempPair.second;
ZONE_CONTAINER* zone = getZoneFromCadstarShape(
csTemplate.Shape, getLineThickness( csTemplate.LineCodeID ), mBoard );
mBoard->Add( zone, ADD_MODE::APPEND );
zone->SetZoneName( csTemplate.Name );
zone->SetLayer( getKiCadLayer( csTemplate.LayerID ) );
if( !( csTemplate.NetID.IsEmpty() || csTemplate.NetID == wxT( "NONE" ) ) )
zone->SetNet( getKiCadNet( csTemplate.NetID ) );
if( csTemplate.Pouring.AllowInNoRouting )
wxLogError( wxString::Format(
_( "The CADSTAR template '%s' has the setting 'Allow in No Routing Areas' "
"enabled. This setting has no KiCad equivalent, so it has been ignored." ),
csTemplate.Name ) );
if( csTemplate.Pouring.BoxIsolatedPins )
wxLogError( wxString::Format(
_( "The CADSTAR template '%s' has the setting 'Box Isolated Pins'"
"enabled. This setting has no KiCad equivalent, so it has been ignored." ),
csTemplate.Name ) );
if( csTemplate.Pouring.AutomaticRepour )
wxLogWarning( wxString::Format(
_( "The CADSTAR template '%s' has the setting 'Automatic Repour'"
"enabled. This setting has no KiCad equivalent, so it has been ignored." ),
csTemplate.Name ) );
// Sliver width has different behaviour to KiCad Zone's minimum thickness
// In Cadstar 'Sliver width' has to be greater than the Copper thickness, whereas in
// Kicad it is the opposite.
if( csTemplate.Pouring.SliverWidth != 0 )
wxLogError( wxString::Format(
_( "The CADSTAR template '%s' has a non-zero value defined for the "
"'Sliver Width' setting. There is no KiCad equivalent for "
"this, so this setting was ignored." ),
csTemplate.Name ) );
if( csTemplate.Pouring.MinIsolatedCopper != csTemplate.Pouring.MinDisjointCopper )
wxLogError( wxString::Format(
_( "The CADSTAR template '%s' has different settings for 'Retain Poured Copper "
"- Disjoint' and 'Retain Poured Copper - Isolated'. KiCad does not "
"distinguish between these two settings. The setting for disjoint copper "
"has been applied as the minimum island area of the KiCad Zone." ),
csTemplate.Name ) );
if( csTemplate.Pouring.MinDisjointCopper < 0 )
zone->SetMinIslandArea( -1 );
else
zone->SetMinIslandArea(
(long long) getKiCadLength( csTemplate.Pouring.MinDisjointCopper )
* (long long) getKiCadLength( csTemplate.Pouring.MinDisjointCopper ) );
zone->SetLocalClearance( getKiCadLength( csTemplate.Pouring.AdditionalIsolation ) );
if( csTemplate.Pouring.FillType == TEMPLATE::POURING::COPPER_FILL_TYPE::HATCHED )
{
zone->SetFillMode( ZONE_FILL_MODE::HATCH_PATTERN );
zone->SetHatchGap( getKiCadHatchCodeGap( csTemplate.Pouring.HatchCodeID ) );
zone->SetHatchThickness( getKiCadHatchCodeThickness( csTemplate.Pouring.HatchCodeID ) );
zone->SetHatchOrientation( getHatchCodeAngleDegrees( csTemplate.Pouring.HatchCodeID ) );
}
else
{
zone->SetFillMode( ZONE_FILL_MODE::POLYGONS );
}
if( csTemplate.Pouring.ThermalReliefOnPads != csTemplate.Pouring.ThermalReliefOnVias
|| csTemplate.Pouring.ThermalReliefPadsAngle
!= csTemplate.Pouring.ThermalReliefViasAngle )
wxLogWarning( wxString::Format(
_( "The CADSTAR template '%s' has different settings for thermal relief "
"in pads and vias. KiCad only supports one single setting for both. The "
"setting for pads has been applied." ),
csTemplate.Name ) );
if( csTemplate.Pouring.ThermalReliefOnPads )
{
zone->SetThermalReliefGap( getKiCadLength( csTemplate.Pouring.ClearanceWidth ) );
zone->SetThermalReliefSpokeWidth( getKiCadLength(
getCopperCode( csTemplate.Pouring.ReliefCopperCodeID ).CopperWidth ) );
zone->SetPadConnection( ZONE_CONNECTION::THERMAL );
}
else
zone->SetPadConnection( ZONE_CONNECTION::FULL );
}
//Now create power plane layers:
for( LAYER_ID layer : mPowerPlaneLayers )
{
wxASSERT(
Assignments.Layerdefs.Layers.find( layer ) != Assignments.Layerdefs.Layers.end() );
//The net name will equal the layer name
wxString powerPlaneLayerName = Assignments.Layerdefs.Layers.at( layer ).Name;
NET_ID netid = wxEmptyString;
for( std::pair<NET_ID, NET_PCB> netPair : Layout.Nets )
{
NET_PCB net = netPair.second;
if( net.Name == powerPlaneLayerName )
{
netid = net.ID;
break;
}
}
if( netid.IsEmpty() )
{
wxLogError( wxString::Format(
_( "The CADSTAR layer '%s' is defined as a power plane layer. However no "
"net with such name exists. The layer has been loaded but no copper zone "
"was created." ),
powerPlaneLayerName ) );
}
else
{
for( std::pair<BOARD_ID, BOARD> boardPair : Layout.Boards )
{
//create a zone in each board shape
BOARD& board = boardPair.second;
int defaultLineThicknesss =
mBoard->GetDesignSettings().GetLineThickness( PCB_LAYER_ID::Edge_Cuts );
ZONE_CONTAINER* zone =
getZoneFromCadstarShape( board.Shape, defaultLineThicknesss, mBoard );
mBoard->Add( zone, ADD_MODE::APPEND );
zone->SetZoneName( powerPlaneLayerName );
zone->SetLayer( getKiCadLayer( layer ) );
zone->SetFillMode( ZONE_FILL_MODE::POLYGONS );
zone->SetPadConnection( ZONE_CONNECTION::FULL );
zone->SetMinIslandArea( -1 );
zone->SetNet( getKiCadNet( netid ) );
}
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadCoppers()
{
for( std::pair<COPPER_ID, COPPER> copPair : Layout.Coppers )
{
COPPER& csCopper = copPair.second;
if( !csCopper.PouredTemplateID.IsEmpty() )
continue; //ignore copper related to a template as we've already loaded it!
// For now we are going to load coppers to a KiCad zone however this isn't perfect
//TODO: Load onto a graphical polygon with a net (when KiCad has this feature)
if( !mDoneCopperWarning )
{
wxLogWarning(
_( "The CADSTAR design contains COPPER elements, which have no direct KiCad "
"equivalent. These have been imported as a KiCad Zone if solid or hatch "
"filled, or as a KiCad Track if the shape was an unfilled outline (open or "
"closed)." ) );
mDoneCopperWarning = true;
}
if( csCopper.Shape.Type == SHAPE_TYPE::OPENSHAPE
|| csCopper.Shape.Type == SHAPE_TYPE::OUTLINE )
{
std::vector<DRAWSEGMENT*> outlineSegments =
getDrawSegmentsFromVertices( csCopper.Shape.Vertices );
std::vector<TRACK*> outlineTracks = makeTracksFromDrawsegments( outlineSegments, mBoard,
getKiCadNet( csCopper.NetRef.NetID ), getKiCadLayer( csCopper.LayerID ),
getKiCadLength( getCopperCode( csCopper.CopperCodeID ).CopperWidth ) );
//cleanup
for( DRAWSEGMENT* ds : outlineSegments )
{
if( ds )
delete ds;
}
for( CUTOUT cutout : csCopper.Shape.Cutouts )
{
std::vector<DRAWSEGMENT*> cutoutSeg =
getDrawSegmentsFromVertices( cutout.Vertices );
std::vector<TRACK*> cutoutTracks = makeTracksFromDrawsegments( cutoutSeg, mBoard,
getKiCadNet( csCopper.NetRef.NetID ), getKiCadLayer( csCopper.LayerID ),
getKiCadLength( getCopperCode( csCopper.CopperCodeID ).CopperWidth ) );
//cleanup
for( DRAWSEGMENT* ds : cutoutSeg )
{
if( ds )
delete ds;
}
}
}
else
{
ZONE_CONTAINER* zone = getZoneFromCadstarShape( csCopper.Shape,
getKiCadLength( getCopperCode( csCopper.CopperCodeID ).CopperWidth ), mBoard );
mBoard->Add( zone, ADD_MODE::APPEND );
zone->SetZoneName( csCopper.ID );
zone->SetLayer( getKiCadLayer( csCopper.LayerID ) );
if( csCopper.Shape.Type == SHAPE_TYPE::HATCHED )
{
zone->SetFillMode( ZONE_FILL_MODE::HATCH_PATTERN );
zone->SetHatchGap( getKiCadHatchCodeGap( csCopper.Shape.HatchCodeID ) );
zone->SetHatchThickness( getKiCadHatchCodeThickness( csCopper.Shape.HatchCodeID ) );
zone->SetHatchOrientation( getHatchCodeAngleDegrees( csCopper.Shape.HatchCodeID ) );
}
else
{
zone->SetFillMode( ZONE_FILL_MODE::POLYGONS );
}
zone->SetPadConnection( ZONE_CONNECTION::FULL );
zone->SetNet( getKiCadNet( csCopper.NetRef.NetID ) );
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadNets()
{
for( std::pair<NET_ID, NET_PCB> netPair : Layout.Nets )
{
NET_PCB net = netPair.second;
wxString netnameForErrorReporting = net.Name;
if( netnameForErrorReporting.IsEmpty() )
netnameForErrorReporting = wxString::Format( "$%ld", net.SignalNum );
for( NET_PCB::CONNECTION_PCB connection : net.Connections )
{
if( !connection.Unrouted )
loadNetTracks( net.ID, connection.Route );
//TODO: all other elements
}
for( std::pair<NETELEMENT_ID, NET_PCB::VIA> viaPair : net.Vias )
{
NET_PCB::VIA via = viaPair.second;
loadNetVia( net.ID, via );
}
for( std::pair<NETELEMENT_ID, NET_PCB::PIN> pinPair : net.Pins )
{
NET_PCB::PIN pin = pinPair.second;
MODULE* m = getModuleFromCadstarID( pin.ComponentID );
if( m == nullptr )
{
wxLogWarning( wxString::Format(
_( "The net '%s' references component ID '%s' which does not exist. "
"This has been ignored," ),
netnameForErrorReporting, pin.ComponentID ) );
}
else if( ( pin.PadID - (long) 1 ) > m->Pads().size() )
{
wxLogWarning( wxString::Format(
_( "The net '%s' references non-existent pad index '%d' in component '%s'. "
"This has been ignored." ),
netnameForErrorReporting, pin.PadID, m->GetReference() ) );
}
else
{
// The below works because we have added the pads in the correct order to the module and
// it so happens that PAD_ID in Cadstar is a sequential, numerical ID
m->Pads().at( pin.PadID - (long) 1 )->SetNet( getKiCadNet( net.ID ) );
}
}
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadComponentAttributes(
const COMPONENT& aComponent, MODULE* aModule )
{
for( std::pair<ATTRIBUTE_ID, ATTRIBUTE_VALUE> attrPair : aComponent.AttributeValues )
{
ATTRIBUTE_VALUE& attrval = attrPair.second;
if( attrval.HasLocation ) //only import attributes with location. Ignore the rest
addAttribute( attrval.AttributeLocation, attrval.AttributeID, aModule, attrval.Value );
}
for( std::pair<ATTRIBUTE_ID, TEXT_LOCATION> textlocPair : aComponent.TextLocations )
{
TEXT_LOCATION& textloc = textlocPair.second;
wxString attrval;
if( textloc.AttributeID == COMPONENT_NAME_ATTRID )
{
attrval = wxEmptyString; // Designator is loaded separately
}
else if( textloc.AttributeID == COMPONENT_NAME_2_ATTRID )
{
attrval = wxT( "${REFERENCE}" );
}
else if( textloc.AttributeID == PART_NAME_ATTRID )
{
attrval = getPart( aComponent.PartID ).Name;
}
else
attrval = getAttributeValue( textloc.AttributeID, aComponent.AttributeValues );
addAttribute( textloc, textloc.AttributeID, aModule, attrval );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadNetTracks(
const NET_ID& aCadstarNetID, const NET_PCB::ROUTE& aCadstarRoute )
{
std::vector<DRAWSEGMENT*> dsVector;
POINT prevEnd = aCadstarRoute.StartPoint;
for( const NET_PCB::ROUTE_VERTEX& v : aCadstarRoute.RouteVertices )
{
DRAWSEGMENT* ds = getDrawSegmentFromVertex( prevEnd, v.Vertex );
ds->SetLayer( getKiCadLayer( aCadstarRoute.LayerID ) );
ds->SetWidth( getKiCadLength( v.RouteWidth ) );
dsVector.push_back( ds );
prevEnd = v.Vertex.End;
}
//Todo add real netcode to the tracks
std::vector<TRACK*> tracks =
makeTracksFromDrawsegments( dsVector, mBoard, getKiCadNet( aCadstarNetID ) );
//cleanup
for( DRAWSEGMENT* ds : dsVector )
{
if( ds )
delete ds;
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::loadNetVia(
const NET_ID& aCadstarNetID, const NET_PCB::VIA& aCadstarVia )
{
VIA* via = new VIA( mBoard );
mBoard->Add( via, ADD_MODE::APPEND );
VIACODE csViaCode = getViaCode( aCadstarVia.ViaCodeID );
LAYERPAIR csLayerPair = getLayerPair( aCadstarVia.LayerPairID );
via->SetPosition( getKiCadPoint( aCadstarVia.Location ) );
via->SetDrill( getKiCadLength( csViaCode.DrillDiameter ) );
via->SetLocked( aCadstarVia.Fixed );
if( csViaCode.Shape.ShapeType != PAD_SHAPE_TYPE::CIRCLE )
wxLogError( wxString::Format(
_( "The CADSTAR via code '%s' has different shape from a circle defined. "
"KiCad only supports circular vias so this via type has been changed to "
"be a via with circular shape of %.2f mm diameter." ),
csViaCode.Name,
(double) ( (double) getKiCadLength( csViaCode.Shape.Size ) / 1E6 ) ) );
via->SetWidth( getKiCadLength( csViaCode.Shape.Size ) );
bool start_layer_outside =
csLayerPair.PhysicalLayerStart == 1
|| csLayerPair.PhysicalLayerStart == Assignments.Technology.MaxPhysicalLayer;
bool end_layer_outside =
csLayerPair.PhysicalLayerEnd == 1
|| csLayerPair.PhysicalLayerEnd == Assignments.Technology.MaxPhysicalLayer;
if( start_layer_outside && end_layer_outside )
{
via->SetViaType( VIATYPE::THROUGH );
}
else if( ( !start_layer_outside ) && ( !end_layer_outside ) )
{
via->SetViaType( VIATYPE::BLIND_BURIED );
}
else
{
via->SetViaType( VIATYPE::MICROVIA );
}
via->SetLayerPair( getKiCadCopperLayerID( csLayerPair.PhysicalLayerStart ),
getKiCadCopperLayerID( csLayerPair.PhysicalLayerEnd ) );
via->SetNet( getKiCadNet( aCadstarNetID ) );
///todo add netcode to the via
}
void CADSTAR_PCB_ARCHIVE_LOADER::drawCadstarText( const TEXT& aCadstarText,
BOARD_ITEM_CONTAINER* aContainer, const GROUP_ID& aCadstarGroupID,
const LAYER_ID& aCadstarLayerOverride, const wxPoint& aMoveVector,
const double& aRotationAngle, const double& aScalingFactor, const wxPoint& aTransformCentre,
const bool& aMirrorInvert )
{
TEXTE_PCB* txt = new TEXTE_PCB( aContainer );
aContainer->Add( txt );
txt->SetText( aCadstarText.Text );
wxPoint rotatedTextPos = getKiCadPoint( aCadstarText.Position );
RotatePoint( &rotatedTextPos, aTransformCentre, aRotationAngle );
rotatedTextPos.x =
KiROUND( (double) ( rotatedTextPos.x - aTransformCentre.x ) * aScalingFactor );
rotatedTextPos.y =
KiROUND( (double) ( rotatedTextPos.y - aTransformCentre.y ) * aScalingFactor );
rotatedTextPos += aTransformCentre;
txt->SetTextPos( rotatedTextPos );
txt->SetPosition( rotatedTextPos );
txt->SetTextAngle( getAngleTenthDegree( aCadstarText.OrientAngle ) + aRotationAngle );
txt->SetMirrored( aCadstarText.Mirror );
TEXTCODE tc = getTextCode( aCadstarText.TextCodeID );
txt->SetTextThickness( getKiCadLength( tc.LineWidth ) );
wxSize unscaledTextSize;
unscaledTextSize.x = getKiCadLength( tc.Width );
unscaledTextSize.y = getKiCadLength( tc.Height );
txt->SetTextSize( unscaledTextSize );
switch( aCadstarText.Alignment )
{
case ALIGNMENT::NO_ALIGNMENT: // Default for Single line text is Bottom Left
case ALIGNMENT::BOTTOMLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::BOTTOMCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::BOTTOMRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ALIGNMENT::CENTERLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::CENTERCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::CENTERRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ALIGNMENT::TOPLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::TOPCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::TOPRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
default:
wxASSERT_MSG( true, "Unknown Aligment - needs review!" );
}
if( aMirrorInvert )
{
txt->Flip( aTransformCentre, true );
}
//scale it after flipping:
if( aScalingFactor != 1.0 )
{
wxSize scaledTextSize;
scaledTextSize.x = KiROUND( (double) getKiCadLength( tc.Width ) * aScalingFactor );
scaledTextSize.y = KiROUND( (double) getKiCadLength( tc.Height ) * aScalingFactor );
txt->SetTextSize( scaledTextSize );
txt->SetTextThickness(
KiROUND( (double) getKiCadLength( tc.LineWidth ) * aScalingFactor ) );
}
txt->Move( aMoveVector );
LAYER_ID layersToDrawOn = aCadstarLayerOverride;
if( layersToDrawOn.IsEmpty() )
layersToDrawOn = aCadstarText.LayerID;
if( isLayerSet( layersToDrawOn ) )
{
//Make a copy on each layer
LSEQ layers = getKiCadLayerSet( layersToDrawOn ).Seq();
TEXTE_PCB* newtxt;
for( PCB_LAYER_ID layer : layers )
{
txt->SetLayer( layer );
newtxt = new TEXTE_PCB( *txt );
mBoard->Add( newtxt, ADD_MODE::APPEND );
if( !aCadstarGroupID.IsEmpty() )
addToGroup( aCadstarGroupID, newtxt );
}
mBoard->Remove( txt );
delete txt;
}
else
{
txt->SetLayer( getKiCadLayer( layersToDrawOn ) );
if( !aCadstarGroupID.IsEmpty() )
addToGroup( aCadstarGroupID, txt );
}
//TODO Handle different font types when KiCad can support it.
}
void CADSTAR_PCB_ARCHIVE_LOADER::drawCadstarShape( const SHAPE& aCadstarShape,
const PCB_LAYER_ID& aKiCadLayer, const int& aLineThickness, const wxString& aShapeName,
BOARD_ITEM_CONTAINER* aContainer, const GROUP_ID& aCadstarGroupID,
const wxPoint& aMoveVector, const double& aRotationAngle, const double& aScalingFactor,
const wxPoint& aTransformCentre, const bool& aMirrorInvert )
{
switch( aCadstarShape.Type )
{
case SHAPE_TYPE::OPENSHAPE:
case SHAPE_TYPE::OUTLINE:
///TODO update this when Polygons in KiCad can be defined with no fill
drawCadstarVerticesAsSegments( aCadstarShape.Vertices, aKiCadLayer, aLineThickness,
aContainer, aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor,
aTransformCentre, aMirrorInvert );
drawCadstarCutoutsAsSegments( aCadstarShape.Cutouts, aKiCadLayer, aLineThickness,
aContainer, aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor,
aTransformCentre, aMirrorInvert );
break;
case SHAPE_TYPE::HATCHED:
///TODO update this when Polygons in KiCad can be defined with hatch fill
wxLogWarning( wxString::Format(
_( "The shape for '%s' is Hatch filled in CADSTAR, which has no KiCad equivalent. "
"Using solid fill instead." ),
aShapeName ) );
case SHAPE_TYPE::SOLID:
{
DRAWSEGMENT* ds;
if( isModule( aContainer ) )
ds = new EDGE_MODULE( (MODULE*) aContainer, STROKE_T::S_POLYGON );
else
{
ds = new DRAWSEGMENT( aContainer );
ds->SetShape( STROKE_T::S_POLYGON );
}
ds->SetPolyShape( getPolySetFromCadstarShape( aCadstarShape, -1, aContainer, aMoveVector,
aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert ) );
ds->SetWidth( aLineThickness );
ds->SetLayer( aKiCadLayer );
aContainer->Add( ds, ADD_MODE::APPEND );
if( !aCadstarGroupID.IsEmpty() )
addToGroup( aCadstarGroupID, ds );
}
break;
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::drawCadstarCutoutsAsSegments( const std::vector<CUTOUT>& aCutouts,
const PCB_LAYER_ID& aKiCadLayer, const int& aLineThickness,
BOARD_ITEM_CONTAINER* aContainer, const GROUP_ID& aCadstarGroupID,
const wxPoint& aMoveVector, const double& aRotationAngle, const double& aScalingFactor,
const wxPoint& aTransformCentre, const bool& aMirrorInvert )
{
for( CUTOUT cutout : aCutouts )
{
drawCadstarVerticesAsSegments( cutout.Vertices, aKiCadLayer, aLineThickness, aContainer,
aCadstarGroupID, aMoveVector, aRotationAngle, aScalingFactor, aTransformCentre,
aMirrorInvert );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::drawCadstarVerticesAsSegments(
const std::vector<VERTEX>& aCadstarVertices, const PCB_LAYER_ID& aKiCadLayer,
const int& aLineThickness, BOARD_ITEM_CONTAINER* aContainer,
const GROUP_ID& aCadstarGroupID, const wxPoint& aMoveVector, const double& aRotationAngle,
const double& aScalingFactor, const wxPoint& aTransformCentre, const bool& aMirrorInvert )
{
std::vector<DRAWSEGMENT*> drawSegments =
getDrawSegmentsFromVertices( aCadstarVertices, aContainer, aCadstarGroupID, aMoveVector,
aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert );
for( DRAWSEGMENT* ds : drawSegments )
{
ds->SetWidth( aLineThickness );
ds->SetLayer( aKiCadLayer );
ds->SetParent( aContainer );
aContainer->Add( ds, ADD_MODE::APPEND );
}
}
std::vector<DRAWSEGMENT*> CADSTAR_PCB_ARCHIVE_LOADER::getDrawSegmentsFromVertices(
const std::vector<VERTEX>& aCadstarVertices, BOARD_ITEM_CONTAINER* aContainer,
const GROUP_ID& aCadstarGroupID, const wxPoint& aMoveVector, const double& aRotationAngle,
const double& aScalingFactor, const wxPoint& aTransformCentre, const bool& aMirrorInvert )
{
std::vector<DRAWSEGMENT*> drawSegments;
if( aCadstarVertices.size() < 2 )
//need at least two points to draw a segment! (unlikely but possible to have only one)
return drawSegments;
const VERTEX* prev = &aCadstarVertices.at( 0 ); // first one should always be a point vertex
const VERTEX* cur;
for( size_t i = 1; i < aCadstarVertices.size(); i++ )
{
cur = &aCadstarVertices.at( i );
drawSegments.push_back(
getDrawSegmentFromVertex( prev->End, *cur, aContainer, aCadstarGroupID, aMoveVector,
aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert ) );
prev = cur;
}
return drawSegments;
}
DRAWSEGMENT* CADSTAR_PCB_ARCHIVE_LOADER::getDrawSegmentFromVertex( const POINT& aCadstarStartPoint,
const VERTEX& aCadstarVertex, BOARD_ITEM_CONTAINER* aContainer,
const GROUP_ID& aCadstarGroupID, const wxPoint& aMoveVector, const double& aRotationAngle,
const double& aScalingFactor, const wxPoint& aTransformCentre, const bool& aMirrorInvert )
{
DRAWSEGMENT* ds = nullptr;
bool cw = false;
double arcStartAngle, arcEndAngle, arcAngle;
wxPoint startPoint = getKiCadPoint( aCadstarStartPoint );
wxPoint endPoint = getKiCadPoint( aCadstarVertex.End );
wxPoint centerPoint;
if( aCadstarVertex.Type == VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE
|| aCadstarVertex.Type == VERTEX_TYPE::CLOCKWISE_SEMICIRCLE )
centerPoint = ( startPoint + endPoint ) / 2;
else
centerPoint = getKiCadPoint( aCadstarVertex.Center );
switch( aCadstarVertex.Type )
{
case VERTEX_TYPE::POINT:
if( isModule( aContainer ) )
{
ds = new EDGE_MODULE( static_cast<MODULE*>( aContainer ), STROKE_T::S_SEGMENT );
}
else
{
ds = new DRAWSEGMENT( aContainer );
ds->SetShape( STROKE_T::S_SEGMENT );
}
ds->SetStart( startPoint );
ds->SetEnd( endPoint );
break;
case VERTEX_TYPE::CLOCKWISE_SEMICIRCLE:
case VERTEX_TYPE::CLOCKWISE_ARC:
cw = true;
KI_FALLTHROUGH;
case VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE:
case VERTEX_TYPE::ANTICLOCKWISE_ARC:
if( isModule( aContainer ) )
{
ds = new EDGE_MODULE( (MODULE*) aContainer, STROKE_T::S_ARC );
}
else
{
ds = new DRAWSEGMENT( aContainer );
ds->SetShape( STROKE_T::S_ARC );
}
ds->SetArcStart( startPoint );
ds->SetCenter( centerPoint );
arcStartAngle = getPolarAngle( startPoint - centerPoint );
arcEndAngle = getPolarAngle( endPoint - centerPoint );
arcAngle = arcEndAngle - arcStartAngle;
//TODO: detect if we are supposed to draw a circle instead (i.e. two SEMICIRCLEs
// with opposite start/end points and same centre point)
if( cw )
ds->SetAngle( NormalizeAnglePos( arcAngle ) );
else
ds->SetAngle( NormalizeAngleNeg( arcAngle ) );
break;
}
//Apply transforms
if( aMirrorInvert )
ds->Flip( aTransformCentre, true );
if( aScalingFactor != 1.0 )
{
ds->Move( -aTransformCentre );
ds->Scale( aScalingFactor );
ds->Move( aTransformCentre );
}
if( aRotationAngle != 0.0 )
ds->Rotate( aTransformCentre, aRotationAngle );
if( aMoveVector != wxPoint{ 0, 0 } )
ds->Move( aMoveVector );
if( isModule( aContainer ) && ds != nullptr )
static_cast<EDGE_MODULE*>( ds )->SetLocalCoord();
if( !aCadstarGroupID.IsEmpty() )
addToGroup( aCadstarGroupID, ds );
return ds;
}
ZONE_CONTAINER* CADSTAR_PCB_ARCHIVE_LOADER::getZoneFromCadstarShape( const SHAPE& aCadstarShape,
const int& aLineThickness, BOARD_ITEM_CONTAINER* aParentContainer )
{
ZONE_CONTAINER* zone = new ZONE_CONTAINER( aParentContainer, isModule( aParentContainer ) );
if( aCadstarShape.Type == SHAPE_TYPE::HATCHED )
{
zone->SetFillMode( ZONE_FILL_MODE::HATCH_PATTERN );
zone->SetHatchStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_FULL );
}
else
{
zone->SetHatchStyle( ZONE_BORDER_DISPLAY_STYLE::NO_HATCH );
}
SHAPE_POLY_SET polygon = getPolySetFromCadstarShape( aCadstarShape, aLineThickness );
zone->AddPolygon( polygon.COutline( 0 ) );
for( int i = 0; i < polygon.HoleCount( 0 ); i++ )
zone->AddPolygon( polygon.CHole( 0, i ) );
return zone;
}
SHAPE_POLY_SET CADSTAR_PCB_ARCHIVE_LOADER::getPolySetFromCadstarShape( const SHAPE& aCadstarShape,
const int& aLineThickness, BOARD_ITEM_CONTAINER* aContainer, const wxPoint& aMoveVector,
const double& aRotationAngle, const double& aScalingFactor, const wxPoint& aTransformCentre,
const bool& aMirrorInvert )
{
GROUP_ID noGroup = wxEmptyString;
std::vector<DRAWSEGMENT*> outlineSegments =
getDrawSegmentsFromVertices( aCadstarShape.Vertices, aContainer, noGroup, aMoveVector,
aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert );
SHAPE_POLY_SET polySet( getLineChainFromDrawsegments( outlineSegments ) );
//cleanup
for( DRAWSEGMENT* ds : outlineSegments )
{
if( ds )
delete ds;
}
for( CUTOUT cutout : aCadstarShape.Cutouts )
{
std::vector<DRAWSEGMENT*> cutoutSeg =
getDrawSegmentsFromVertices( cutout.Vertices, aContainer, noGroup, aMoveVector,
aRotationAngle, aScalingFactor, aTransformCentre, aMirrorInvert );
polySet.AddHole( getLineChainFromDrawsegments( cutoutSeg ) );
//cleanup
for( DRAWSEGMENT* ds : cutoutSeg )
{
if( ds )
delete ds;
}
}
if( aLineThickness > 0 )
polySet.Inflate(
aLineThickness / 2, 32, SHAPE_POLY_SET::CORNER_STRATEGY::ROUND_ALL_CORNERS );
//Make a new polyset with no holes
//TODO: Using strictly simple to be safe, but need to find out if PM_FAST works okay
polySet.Fracture( SHAPE_POLY_SET::POLYGON_MODE::PM_STRICTLY_SIMPLE );
#ifdef DEBUG
for( int i = 0; i < polySet.OutlineCount(); ++i )
{
wxASSERT( polySet.Outline( i ).PointCount() > 2 );
for( int j = 0; j < polySet.HoleCount( i ); ++j )
{
wxASSERT( polySet.Hole( i, j ).PointCount() > 2 );
}
}
#endif
return polySet;
}
SHAPE_LINE_CHAIN CADSTAR_PCB_ARCHIVE_LOADER::getLineChainFromDrawsegments(
const std::vector<DRAWSEGMENT*> aDrawsegments )
{
SHAPE_LINE_CHAIN lineChain;
for( DRAWSEGMENT* ds : aDrawsegments )
{
switch( ds->GetShape() )
{
case STROKE_T::S_ARC:
{
if( ds->GetClass() == wxT( "MGRAPHIC" ) )
{
EDGE_MODULE* em = (EDGE_MODULE*) ds;
SHAPE_ARC arc( em->GetStart0(), em->GetEnd0(), (double) em->GetAngle() / 10.0 );
lineChain.Append( arc );
}
else
{
SHAPE_ARC arc( ds->GetCenter(), ds->GetArcStart(), (double) ds->GetAngle() / 10.0 );
lineChain.Append( arc );
}
}
break;
case STROKE_T::S_SEGMENT:
if( ds->GetClass() == wxT( "MGRAPHIC" ) )
{
EDGE_MODULE* em = (EDGE_MODULE*) ds;
lineChain.Append( em->GetStart0().x, em->GetStart0().y );
lineChain.Append( em->GetEnd0().x, em->GetEnd0().y );
}
else
{
lineChain.Append( ds->GetStartX(), ds->GetStartY() );
lineChain.Append( ds->GetEndX(), ds->GetEndY() );
}
break;
default:
wxASSERT_MSG( true, "Drawsegment type is unexpected. Ignored." );
}
}
lineChain.SetClosed( true ); //todo check if it is closed
wxASSERT( lineChain.PointCount() > 2 );
return lineChain;
}
std::vector<TRACK*> CADSTAR_PCB_ARCHIVE_LOADER::makeTracksFromDrawsegments(
const std::vector<DRAWSEGMENT*> aDrawsegments, BOARD_ITEM_CONTAINER* aParentContainer,
NETINFO_ITEM* aNet, const PCB_LAYER_ID& aLayerOverride, int aWidthOverride )
{
std::vector<TRACK*> tracks;
for( DRAWSEGMENT* ds : aDrawsegments )
{
TRACK* track;
switch( ds->GetShape() )
{
case STROKE_T::S_ARC:
if( ds->GetClass() == wxT( "MGRAPHIC" ) )
{
EDGE_MODULE* em = (EDGE_MODULE*) ds;
SHAPE_ARC arc( em->GetStart0(), em->GetEnd0(), (double) em->GetAngle() / 10.0 );
track = new ARC( aParentContainer, &arc );
}
else
{
SHAPE_ARC arc( ds->GetCenter(), ds->GetArcStart(), (double) ds->GetAngle() / 10.0 );
track = new ARC( aParentContainer, &arc );
}
break;
case STROKE_T::S_SEGMENT:
if( ds->GetClass() == wxT( "MGRAPHIC" ) )
{
EDGE_MODULE* em = (EDGE_MODULE*) ds;
track = new TRACK( aParentContainer );
track->SetStart( em->GetStart0() );
track->SetEnd( em->GetEnd0() );
}
else
{
track = new TRACK( aParentContainer );
track->SetStart( ds->GetStart() );
track->SetEnd( ds->GetEnd() );
}
break;
default:
wxASSERT_MSG( true, "Drawsegment type is unexpected. Ignored." );
continue;
}
if( aWidthOverride == -1 )
track->SetWidth( ds->GetWidth() );
else
track->SetWidth( aWidthOverride );
if( aLayerOverride == PCB_LAYER_ID::UNDEFINED_LAYER )
track->SetLayer( ds->GetLayer() );
else
track->SetLayer( aLayerOverride );
if( aNet != nullptr )
track->SetNet( aNet );
tracks.push_back( track );
aParentContainer->Add( track, ADD_MODE::APPEND );
}
return tracks;
}
void CADSTAR_PCB_ARCHIVE_LOADER::addAttribute( const ATTRIBUTE_LOCATION& aCadstarAttrLoc,
const ATTRIBUTE_ID& aCadstarAttributeID, MODULE* aModule, const wxString& aAttributeValue )
{
TEXTE_MODULE* txt;
if( aCadstarAttributeID == COMPONENT_NAME_ATTRID )
txt = &aModule->Reference(); //text should be set outside this function
else if( aCadstarAttributeID == PART_NAME_ATTRID )
{
if( aModule->Value().GetText().IsEmpty() )
{
// Use PART_NAME_ATTRID as the value is value field is blank
aModule->SetValue( aAttributeValue );
txt = &aModule->Value();
}
else
{
txt = new TEXTE_MODULE( aModule );
aModule->Add( txt );
txt->SetText( aAttributeValue );
}
txt->SetVisible( false ); //make invisible to avoid clutter.
}
else if( aCadstarAttributeID != COMPONENT_NAME_2_ATTRID
&& getAttributeName( aCadstarAttributeID ) == wxT( "Value" ) )
{
if( !aModule->Value().GetText().IsEmpty() )
{
//copy the object
aModule->Add( new TEXTE_MODULE( aModule->Value() ) );
}
aModule->SetValue( aAttributeValue );
txt = &aModule->Value();
txt->SetVisible( false ); //make invisible to avoid clutter.
}
else
{
txt = new TEXTE_MODULE( aModule );
aModule->Add( txt );
txt->SetText( aAttributeValue );
txt->SetVisible( false ); //make all user attributes invisible to avoid clutter.
//TODO: Future improvement - allow user to decide what to do with attributes
}
wxPoint rotatedTextPos = getKiCadPoint( aCadstarAttrLoc.Position ) - aModule->GetPosition();
RotatePoint( &rotatedTextPos, -aModule->GetOrientation() );
txt->SetTextPos( getKiCadPoint( aCadstarAttrLoc.Position ) );
txt->SetPos0( rotatedTextPos );
txt->SetLayer( getKiCadLayer( aCadstarAttrLoc.LayerID ) );
txt->SetMirrored( aCadstarAttrLoc.Mirror );
txt->SetTextAngle(
getAngleTenthDegree( aCadstarAttrLoc.OrientAngle ) - aModule->GetOrientation() );
TEXTCODE tc = getTextCode( aCadstarAttrLoc.TextCodeID );
txt->SetTextThickness( getKiCadLength( tc.LineWidth ) );
txt->SetTextSize( { getKiCadLength( tc.Width ), getKiCadLength( tc.Height ) } );
switch( aCadstarAttrLoc.Alignment )
{
case ALIGNMENT::NO_ALIGNMENT: // Default for Single line text is Bottom Left
case ALIGNMENT::BOTTOMLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::BOTTOMCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::BOTTOMRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ALIGNMENT::CENTERLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::CENTERCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::CENTERRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_CENTER );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ALIGNMENT::TOPLEFT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ALIGNMENT::TOPCENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_CENTER );
break;
case ALIGNMENT::TOPRIGHT:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
default:
wxASSERT_MSG( true, "Unknown Aligment - needs review!" );
}
//TODO Handle different font types when KiCad can support it.
}
int CADSTAR_PCB_ARCHIVE_LOADER::getLineThickness( const LINECODE_ID& aCadstarLineCodeID )
{
wxCHECK( Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID )
!= Assignments.Codedefs.LineCodes.end(),
mBoard->GetDesignSettings().GetLineThickness( PCB_LAYER_ID::Edge_Cuts ) );
return getKiCadLength( Assignments.Codedefs.LineCodes.at( aCadstarLineCodeID ).Width );
}
CADSTAR_PCB_ARCHIVE_LOADER::COPPERCODE CADSTAR_PCB_ARCHIVE_LOADER::getCopperCode(
const COPPERCODE_ID& aCadstaCopperCodeID )
{
wxCHECK( Assignments.Codedefs.CopperCodes.find( aCadstaCopperCodeID )
!= Assignments.Codedefs.CopperCodes.end(),
COPPERCODE() );
return Assignments.Codedefs.CopperCodes.at( aCadstaCopperCodeID );
}
CADSTAR_PCB_ARCHIVE_LOADER::TEXTCODE CADSTAR_PCB_ARCHIVE_LOADER::getTextCode(
const TEXTCODE_ID& aCadstarTextCodeID )
{
wxCHECK( Assignments.Codedefs.TextCodes.find( aCadstarTextCodeID )
!= Assignments.Codedefs.TextCodes.end(),
TEXTCODE() );
return Assignments.Codedefs.TextCodes.at( aCadstarTextCodeID );
}
CADSTAR_PCB_ARCHIVE_LOADER::PADCODE CADSTAR_PCB_ARCHIVE_LOADER::getPadCode(
const PADCODE_ID& aCadstarPadCodeID )
{
wxCHECK( Assignments.Codedefs.PadCodes.find( aCadstarPadCodeID )
!= Assignments.Codedefs.PadCodes.end(),
PADCODE() );
return Assignments.Codedefs.PadCodes.at( aCadstarPadCodeID );
}
CADSTAR_PCB_ARCHIVE_LOADER::VIACODE CADSTAR_PCB_ARCHIVE_LOADER::getViaCode(
const VIACODE_ID& aCadstarViaCodeID )
{
wxCHECK( Assignments.Codedefs.ViaCodes.find( aCadstarViaCodeID )
!= Assignments.Codedefs.ViaCodes.end(),
VIACODE() );
return Assignments.Codedefs.ViaCodes.at( aCadstarViaCodeID );
}
CADSTAR_PCB_ARCHIVE_LOADER::LAYERPAIR CADSTAR_PCB_ARCHIVE_LOADER::getLayerPair(
const LAYERPAIR_ID& aCadstarLayerPairID )
{
wxCHECK( Assignments.Codedefs.LayerPairs.find( aCadstarLayerPairID )
!= Assignments.Codedefs.LayerPairs.end(),
LAYERPAIR() );
return Assignments.Codedefs.LayerPairs.at( aCadstarLayerPairID );
}
wxString CADSTAR_PCB_ARCHIVE_LOADER::getAttributeName( const ATTRIBUTE_ID& aCadstarAttributeID )
{
wxCHECK( Assignments.Codedefs.AttributeNames.find( aCadstarAttributeID )
!= Assignments.Codedefs.AttributeNames.end(),
wxEmptyString );
return Assignments.Codedefs.AttributeNames.at( aCadstarAttributeID ).Name;
}
wxString CADSTAR_PCB_ARCHIVE_LOADER::getAttributeValue( const ATTRIBUTE_ID& aCadstarAttributeID,
const std::map<ATTRIBUTE_ID, ATTRIBUTE_VALUE>& aCadstarAttributeMap )
{
wxCHECK( aCadstarAttributeMap.find( aCadstarAttributeID ) != aCadstarAttributeMap.end(),
wxEmptyString );
return aCadstarAttributeMap.at( aCadstarAttributeID ).Value;
}
CADSTAR_PCB_ARCHIVE_LOADER::PART CADSTAR_PCB_ARCHIVE_LOADER::getPart(
const PART_ID& aCadstarPartID )
{
wxCHECK( Parts.PartDefinitions.find( aCadstarPartID ) != Parts.PartDefinitions.end(), PART() );
return Parts.PartDefinitions.at( aCadstarPartID );
}
CADSTAR_PCB_ARCHIVE_LOADER::ROUTECODE CADSTAR_PCB_ARCHIVE_LOADER::getRouteCode(
const ROUTECODE_ID& aCadstarRouteCodeID )
{
wxCHECK( Assignments.Codedefs.RouteCodes.find( aCadstarRouteCodeID )
!= Assignments.Codedefs.RouteCodes.end(),
ROUTECODE() );
return Assignments.Codedefs.RouteCodes.at( aCadstarRouteCodeID );
}
CADSTAR_PCB_ARCHIVE_LOADER::HATCHCODE CADSTAR_PCB_ARCHIVE_LOADER::getHatchCode(
const HATCHCODE_ID& aCadstarHatchcodeID )
{
wxCHECK( Assignments.Codedefs.HatchCodes.find( aCadstarHatchcodeID )
!= Assignments.Codedefs.HatchCodes.end(),
HATCHCODE() );
return Assignments.Codedefs.HatchCodes.at( aCadstarHatchcodeID );
}
double CADSTAR_PCB_ARCHIVE_LOADER::getHatchCodeAngleDegrees(
const HATCHCODE_ID& aCadstarHatchcodeID )
{
checkAndLogHatchCode( aCadstarHatchcodeID );
HATCHCODE hcode = getHatchCode( aCadstarHatchcodeID );
if( hcode.Hatches.size() < 1 )
return mBoard->GetDesignSettings().GetDefaultZoneSettings().m_HatchOrientation;
else
return getAngleDegrees( hcode.Hatches.at( 0 ).OrientAngle );
}
int CADSTAR_PCB_ARCHIVE_LOADER::getKiCadHatchCodeThickness(
const HATCHCODE_ID& aCadstarHatchcodeID )
{
checkAndLogHatchCode( aCadstarHatchcodeID );
HATCHCODE hcode = getHatchCode( aCadstarHatchcodeID );
if( hcode.Hatches.size() < 1 )
return mBoard->GetDesignSettings().GetDefaultZoneSettings().m_HatchThickness;
else
return getKiCadLength( hcode.Hatches.at( 0 ).LineWidth );
}
int CADSTAR_PCB_ARCHIVE_LOADER::getKiCadHatchCodeGap( const HATCHCODE_ID& aCadstarHatchcodeID )
{
checkAndLogHatchCode( aCadstarHatchcodeID );
HATCHCODE hcode = getHatchCode( aCadstarHatchcodeID );
if( hcode.Hatches.size() < 1 )
return mBoard->GetDesignSettings().GetDefaultZoneSettings().m_HatchGap;
else
return getKiCadLength( hcode.Hatches.at( 0 ).Step );
}
PCB_GROUP* CADSTAR_PCB_ARCHIVE_LOADER::getKiCadGroup( const GROUP_ID& aCadstarGroupID )
{
wxCHECK( mGroupMap.find( aCadstarGroupID ) != mGroupMap.end(), nullptr );
return mGroupMap.at( aCadstarGroupID );
}
void CADSTAR_PCB_ARCHIVE_LOADER::checkAndLogHatchCode( const HATCHCODE_ID& aCadstarHatchcodeID )
{
if( mHatchcodesTested.find( aCadstarHatchcodeID ) != mHatchcodesTested.end() )
{
return; //already checked
}
else
{
HATCHCODE hcode = getHatchCode( aCadstarHatchcodeID );
if( hcode.Hatches.size() != 2 )
{
wxLogWarning( wxString::Format(
_( "The CADSTAR Hatching code '%s' has %d hatches defined. "
"KiCad only supports 2 hatches (crosshatching) 90 degrees apart. "
"The imported hatching is crosshatched." ),
hcode.Name, (int) hcode.Hatches.size() ) );
}
else
{
if( hcode.Hatches.at( 0 ).LineWidth != hcode.Hatches.at( 1 ).LineWidth )
{
wxLogWarning( wxString::Format(
_( "The CADSTAR Hatching code '%s' has different line widths for each "
"hatch. KiCad only supports one width for the haching. The imported "
"hatching uses the width defined in the first hatch definition, i.e. "
"%.2f mm." ),
hcode.Name,
(double) ( (double) getKiCadLength( hcode.Hatches.at( 0 ).LineWidth ) )
/ 1E6 ) );
}
if( hcode.Hatches.at( 0 ).Step != hcode.Hatches.at( 1 ).Step )
{
wxLogWarning( wxString::Format(
_( "The CADSTAR Hatching code '%s' has different step sizes for each "
"hatch. KiCad only supports one step size for the haching. The imported "
"hatching uses the step size defined in the first hatching definition, "
"i.e. %.2f mm." ),
hcode.Name,
(double) ( (double) getKiCadLength( hcode.Hatches.at( 0 ).Step ) )
/ 1E6 ) );
}
if( abs( hcode.Hatches.at( 0 ).OrientAngle - hcode.Hatches.at( 1 ).OrientAngle )
!= 90000 )
{
wxLogWarning( wxString::Format(
_( "The hatches in CADSTAR Hatching code '%s' have an angle "
"difference of %.1f degrees. KiCad only supports hatching 90 "
"degrees apart. The imported hatching has two hatches 90 "
"degrees apart, oriented %.1f degrees from horizontal." ),
hcode.Name,
getAngleDegrees( abs( hcode.Hatches.at( 0 ).OrientAngle
- hcode.Hatches.at( 1 ).OrientAngle ) ),
getAngleDegrees( hcode.Hatches.at( 0 ).OrientAngle ) ) );
}
}
mHatchcodesTested.insert( aCadstarHatchcodeID );
}
}
MODULE* CADSTAR_PCB_ARCHIVE_LOADER::getModuleFromCadstarID(
const COMPONENT_ID& aCadstarComponentID )
{
if( mComponentMap.find( aCadstarComponentID ) == mComponentMap.end() )
return nullptr;
else
return mComponentMap.at( aCadstarComponentID );
}
wxPoint CADSTAR_PCB_ARCHIVE_LOADER::getKiCadPoint( wxPoint aCadstarPoint )
{
wxPoint retval;
retval.x = ( aCadstarPoint.x - mDesignCenter.x ) * KiCadUnitMultiplier;
retval.y = -( aCadstarPoint.y - mDesignCenter.y ) * KiCadUnitMultiplier;
return retval;
}
double CADSTAR_PCB_ARCHIVE_LOADER::getPolarAngle( wxPoint aPoint )
{
return NormalizeAnglePos( ArcTangente( aPoint.y, aPoint.x ) );
}
NETINFO_ITEM* CADSTAR_PCB_ARCHIVE_LOADER::getKiCadNet( const NET_ID& aCadstarNetID )
{
if( aCadstarNetID.IsEmpty() )
return nullptr;
else if( mNetMap.find( aCadstarNetID ) != mNetMap.end() )
{
return mNetMap.at( aCadstarNetID );
}
else
{
wxCHECK( Layout.Nets.find( aCadstarNetID ) != Layout.Nets.end(), nullptr );
NET_PCB csNet = Layout.Nets.at( aCadstarNetID );
wxString newName = csNet.Name;
if( csNet.Name.IsEmpty() )
{
if( csNet.Pins.size() > 0 )
{
// Create default KiCad net naming:
NET_PCB::PIN firstPin = ( *csNet.Pins.begin() ).second;
//we should have already loaded the component with loadComponents() :
MODULE* m = getModuleFromCadstarID( firstPin.ComponentID );
newName = wxT( "Net-(" );
newName << m->Reference().GetText();
newName << "-Pad" << wxString::Format( "%i", firstPin.PadID ) << ")";
}
else
{
wxASSERT_MSG( false, "A net with no pins associated?" );
newName = wxT( "csNet-" );
newName << wxString::Format( "%i", csNet.SignalNum );
}
}
if( !mDoneNetClassWarning && !csNet.NetClassID.IsEmpty()
&& csNet.NetClassID != wxT( "NONE" ) )
{
wxLogMessage(
_( "The CADSTAR design contains nets with a 'Net Class' assigned. KiCad does "
"not have an equivalent to CADSTAR's Net Class so these elements were not "
"imported. Note: KiCad's version of 'Net Class' is closer to CADSTAR's "
"'Net Route Code' (which has been imported for all nets)." ) );
mDoneNetClassWarning = true;
}
if( !mDoneSpacingClassWarning && !csNet.SpacingClassID.IsEmpty()
&& csNet.SpacingClassID != wxT( "NONE" ) )
{
wxLogWarning( _(
"The CADSTAR design contains nets with a 'Spacing Class' assigned. KiCad does "
"not have an equivalent to CADSTAR's Spacing Class so these elements were not "
"imported. Please review the design rules as copper pours will affected by "
"this." ) );
mDoneSpacingClassWarning = true;
}
NETINFO_ITEM* netInfo = new NETINFO_ITEM( mBoard, newName, ++mNumNets );
mBoard->Add( netInfo, ADD_MODE::APPEND );
if( mNetClassMap.find( csNet.RouteCodeID ) != mNetClassMap.end() )
{
NETCLASSPTR netclass = mNetClassMap.at( csNet.RouteCodeID );
netInfo->SetClass( netclass );
}
else
{
ROUTECODE rc = getRouteCode( csNet.RouteCodeID );
NETCLASSPTR netclass( new ::NETCLASS( rc.Name ) );
netclass->SetTrackWidth( getKiCadLength( rc.OptimalWidth ) );
netInfo->SetClass( netclass );
mNetClassMap.insert( { csNet.RouteCodeID, netclass } );
}
mNetMap.insert( { aCadstarNetID, netInfo } );
return netInfo;
}
return nullptr;
}
PCB_LAYER_ID CADSTAR_PCB_ARCHIVE_LOADER::getKiCadCopperLayerID( unsigned int aLayerNum )
{
if( aLayerNum == Assignments.Technology.MaxPhysicalLayer )
return PCB_LAYER_ID::B_Cu;
switch( aLayerNum )
{
case 1: return PCB_LAYER_ID::F_Cu;
case 2: return PCB_LAYER_ID::In1_Cu;
case 3: return PCB_LAYER_ID::In2_Cu;
case 4: return PCB_LAYER_ID::In3_Cu;
case 5: return PCB_LAYER_ID::In4_Cu;
case 6: return PCB_LAYER_ID::In5_Cu;
case 7: return PCB_LAYER_ID::In6_Cu;
case 8: return PCB_LAYER_ID::In7_Cu;
case 9: return PCB_LAYER_ID::In8_Cu;
case 10: return PCB_LAYER_ID::In9_Cu;
case 11: return PCB_LAYER_ID::In10_Cu;
case 12: return PCB_LAYER_ID::In11_Cu;
case 13: return PCB_LAYER_ID::In12_Cu;
case 14: return PCB_LAYER_ID::In13_Cu;
case 15: return PCB_LAYER_ID::In14_Cu;
case 16: return PCB_LAYER_ID::In15_Cu;
case 17: return PCB_LAYER_ID::In16_Cu;
case 18: return PCB_LAYER_ID::In17_Cu;
case 19: return PCB_LAYER_ID::In18_Cu;
case 20: return PCB_LAYER_ID::In19_Cu;
case 21: return PCB_LAYER_ID::In20_Cu;
case 22: return PCB_LAYER_ID::In21_Cu;
case 23: return PCB_LAYER_ID::In22_Cu;
case 24: return PCB_LAYER_ID::In23_Cu;
case 25: return PCB_LAYER_ID::In24_Cu;
case 26: return PCB_LAYER_ID::In25_Cu;
case 27: return PCB_LAYER_ID::In26_Cu;
case 28: return PCB_LAYER_ID::In27_Cu;
case 29: return PCB_LAYER_ID::In28_Cu;
case 30: return PCB_LAYER_ID::In29_Cu;
case 31: return PCB_LAYER_ID::In30_Cu;
case 32: return PCB_LAYER_ID::B_Cu;
}
return PCB_LAYER_ID::UNDEFINED_LAYER;
}
bool CADSTAR_PCB_ARCHIVE_LOADER::isLayerSet( const LAYER_ID& aCadstarLayerID )
{
wxCHECK( Assignments.Layerdefs.Layers.find( aCadstarLayerID )
!= Assignments.Layerdefs.Layers.end(),
false );
LAYER& layer = Assignments.Layerdefs.Layers.at( aCadstarLayerID );
switch( layer.Type )
{
case LAYER_TYPE::ALLDOC:
case LAYER_TYPE::ALLELEC:
case LAYER_TYPE::ALLLAYER:
return true;
default:
return false;
}
return false;
}
PCB_LAYER_ID CADSTAR_PCB_ARCHIVE_LOADER::getKiCadLayer( const LAYER_ID& aCadstarLayerID )
{
if( Assignments.Layerdefs.Layers.find( aCadstarLayerID ) != Assignments.Layerdefs.Layers.end() )
{
if( Assignments.Layerdefs.Layers.at( aCadstarLayerID ).Type == LAYER_TYPE::NOLAYER )
//The "no layer" is common for CADSTAR documentation symbols
//map it to undefined layer for later processing
return PCB_LAYER_ID::UNDEFINED_LAYER;
}
wxCHECK( mLayermap.find( aCadstarLayerID ) != mLayermap.end(), PCB_LAYER_ID::UNDEFINED_LAYER );
return mLayermap.at( aCadstarLayerID );
}
LSET CADSTAR_PCB_ARCHIVE_LOADER::getKiCadLayerSet( const LAYER_ID& aCadstarLayerID )
{
LAYER& layer = Assignments.Layerdefs.Layers.at( aCadstarLayerID );
switch( layer.Type )
{
case LAYER_TYPE::ALLDOC:
return LSET( 4, PCB_LAYER_ID::Dwgs_User, PCB_LAYER_ID::Cmts_User, PCB_LAYER_ID::Eco1_User,
PCB_LAYER_ID::Eco2_User );
case LAYER_TYPE::ALLELEC:
return LSET::AllCuMask();
case LAYER_TYPE::ALLLAYER:
return LSET::AllLayersMask();
default:
return LSET( getKiCadLayer( aCadstarLayerID ) );
}
}
void CADSTAR_PCB_ARCHIVE_LOADER::addToGroup(
const GROUP_ID& aCadstarGroupID, BOARD_ITEM* aKiCadItem )
{
wxCHECK( mGroupMap.find( aCadstarGroupID ) != mGroupMap.end(), );
PCB_GROUP* parentGroup = mGroupMap.at( aCadstarGroupID );
parentGroup->AddItem( aKiCadItem );
}
CADSTAR_PCB_ARCHIVE_LOADER::GROUP_ID CADSTAR_PCB_ARCHIVE_LOADER::createUniqueGroupID(
const wxString& aName )
{
wxString groupName = aName;
int num = 0;
while( mGroupMap.find( groupName ) != mGroupMap.end() )
{
groupName = aName + wxT( "_" ) + wxString::Format( "%i", ++num );
}
PCB_GROUP* docSymGroup = new PCB_GROUP( mBoard );
mBoard->Add( docSymGroup );
docSymGroup->SetName( groupName );
GROUP_ID groupID( groupName );
mGroupMap.insert( { groupID, docSymGroup } );
return groupID;
}