kicad/eeschema/sch_io/cadstar/cadstar_sch_archive_loader.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020-2021 Roberto Fernandez Bautista <roberto.fer.bau@gmail.com>
* Copyright (C) 2020-2023 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_sch_archive_loader.cpp
* @brief Loads a csa file into a KiCad SCHEMATIC object
*/
#include <sch_io/cadstar/cadstar_sch_archive_loader.h>
#include <io/cadstar/cadstar_parts_lib_parser.h>
#include <bus_alias.h>
#include <core/mirror.h>
#include <core/kicad_algo.h>
#include <eda_text.h>
#include <lib_shape.h>
#include <macros.h>
#include <progress_reporter.h>
#include <string_utils.h>
#include <sch_bus_entry.h>
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#include <sch_edit_frame.h> //SYMBOL_ORIENTATION_T
#include <sch_io/sch_io_mgr.h>
#include <sch_junction.h>
#include <sch_line.h>
#include <sch_screen.h>
#include <sch_shape.h>
#include <sch_sheet.h>
#include <sch_sheet_path.h>
#include <sch_sheet_pin.h>
#include <sch_label.h>
#include <schematic.h>
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#include <sim/sim_model.h>
#include <trigo.h>
#include <wildcards_and_files_ext.h>
const wxString PartNameFieldName = "Part Name";
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const wxString PartNumberFieldName = "Part Number";
const wxString PartVersionFieldName = "Part Version";
const wxString PartAcceptanceFieldName = "Part Acceptance";
std::vector<LIB_SYMBOL*> CADSTAR_SCH_ARCHIVE_LOADER::LoadPartsLib( const wxString& aFilename )
{
if( m_progressReporter )
m_progressReporter->SetNumPhases( 3 ); // (0) Read csa, (1) Parse csa, (3) Load lib
Parse();
CADSTAR_PARTS_LIB_PARSER p;
if( !p.CheckFileHeader( aFilename.utf8_string() ) )
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THROW_IO_ERROR(
_( "The selected file does not appear to be a CADSTAR parts Library file" ) );
// TODO: we could add progress reporting for reading .lib
CADSTAR_PARTS_LIB_MODEL csLib = p.ReadFile( aFilename.utf8_string() );
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if( m_progressReporter )
{
m_progressReporter->BeginPhase( 2 );
long numSteps = csLib.m_PartEntries.size();
m_progressReporter->SetMaxProgress( numSteps );
}
std::vector<LIB_SYMBOL*> retVal;
for( const CADSTAR_PART_ENTRY& part : csLib.m_PartEntries )
{
std::unique_ptr<LIB_SYMBOL> loadedPart = loadLibPart( part );
checkPoint();
if( loadedPart )
retVal.push_back( loadedPart.release() );
}
return retVal;
}
std::unique_ptr<LIB_SYMBOL>
CADSTAR_SCH_ARCHIVE_LOADER::loadLibPart( const CADSTAR_PART_ENTRY& aPart )
{
wxString escapedPartName = EscapeString( aPart.m_Name, CTX_LIBID );
std::unique_ptr<LIB_SYMBOL> retSym;
int unit = 0;
for( const CADSTAR_PART_SYMBOL_ENTRY& sym : aPart.m_Symbols )
{
++unit;
wxString alternateName = sym.m_SymbolAlternateName.value_or( "" );
SYMDEF_ID symbolID = getSymDefFromName( sym.m_SymbolName, alternateName );
if( !Library.SymbolDefinitions.count( symbolID ) )
{
m_reporter->Report(
wxString::Format( _( "Unable to find symbol %s, referenced by part %s. The "
"part was not loaded." ),
generateLibName( sym.m_SymbolName, alternateName ),
aPart.m_Name ),
RPT_SEVERITY_ERROR );
return nullptr;
}
// Load the graphical symbol for this gate
std::unique_ptr<LIB_SYMBOL> kiSymDef( loadSymdef( symbolID )->Duplicate() );
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if( (int)sym.m_Pins.size() != kiSymDef->GetPinCount() )
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{
m_reporter->Report(
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wxString::Format( _( "Inconsistent pin numbers in symbol %s compared to the one "
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"defined in part %s. The part was not loaded." ),
generateLibName( sym.m_SymbolName, alternateName ),
aPart.m_Name ),
RPT_SEVERITY_ERROR );
return nullptr;
}
wxASSERT( m_symDefTerminalsMap.count( symbolID ) ); //loadSymDef should have populated this
// Update the pin numbers to match those defined in the Cadstar part
for( auto& [storedPinNum, termID] : m_symDefTerminalsMap[symbolID] )
{
wxCHECK( termID > 0 && sym.m_Pins.size() >= size_t( termID ), nullptr );
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LIB_PIN* pin = kiSymDef->GetPin( storedPinNum );
size_t termIdx = size_t( termID ) - 1;
// For now leave numerical pin number. Otherwise, when loading the
// .cpa file we won't be able to link up to the footprint pads, but if
// we solve this, we could then load alphanumeric pin numbers as below:
//
// if( aPart.m_PinNamesMap.count( termID ) )
// partPinNum = wxString( aPart.m_PinNamesMap.at( termID ) );
//
wxString partPinNum = wxString::Format( "%ld", sym.m_Pins[termIdx].m_Identifier );
pin->SetNumber( partPinNum );
if( aPart.m_PinNamesMap.count( termID ) )
pin->SetName( HandleTextOverbar( aPart.m_PinNamesMap.at( termID ) ) );
else if( aPart.m_PinLabelsMap.count( termID ) )
pin->SetName( HandleTextOverbar( aPart.m_PinLabelsMap.at( termID ) ) );
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pin->SetType( getKiCadPinType( sym.m_Pins[termIdx].m_Type ) );
// @todo: Load pin/gate swapping information once kicad supports this
}
if( unit == 1 )
{
wxCHECK( kiSymDef->GetUnitCount() == 1, nullptr );
// The first unit can just be moved to the part symbol
retSym = std::move( kiSymDef );
retSym->SetUnitCount( aPart.m_Symbols.size(), true );
retSym->SetName( escapedPartName );
retSym->GetReferenceField().SetText( aPart.m_ComponentStem );
retSym->GetValueField().SetText( aPart.m_Value.value_or( "" ) );
addNewFieldToSymbol( PartNameFieldName, retSym )->SetText( aPart.m_Name );
retSym->SetDescription( aPart.m_Description.value_or( "" ) );
auto addFieldIfHasValue =
[&]( const wxString& aFieldName, const std::optional<std::string>& aFieldValue )
{
if( aFieldValue.has_value() )
addNewFieldToSymbol( aFieldName, retSym )->SetText( aFieldValue.value() );
};
addFieldIfHasValue( PartNumberFieldName, aPart.m_Number );
addFieldIfHasValue( PartVersionFieldName, aPart.m_Version );
addFieldIfHasValue( PartAcceptanceFieldName, aPart.m_AcceptancePartName );
setFootprintOnSymbol( retSym, aPart.m_Pcb_component,
aPart.m_Pcb_alternate.value_or( "" ) );
if(aPart.m_SpiceModel.has_value())
{
wxString modelVal = wxString::Format( "model=\"%s\"", aPart.m_SpiceModel.value() );
addNewFieldToSymbol( SIM_DEVICE_FIELD, retSym )->SetText( "SPICE" );
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addNewFieldToSymbol( SIM_PARAMS_FIELD, retSym )->SetText( modelVal );
}
// Load all part attributes, regardless of original cadstar type, to the symbol
// @todo some cadstar part attributes have a "read-only" flag. We should load this
// when KiCad supports read-only fields.
for( auto& [fieldName, value] : aPart.m_UserAttributes )
addNewFieldToSymbol( fieldName, retSym )->SetText( value );
for( auto& [fieldName, attrValue] : aPart.m_SchAttributes )
addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );
for( auto& [fieldName, attrValue] : aPart.m_PcbAttributes )
addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );
for( auto& [fieldName, attrValue] : aPart.m_SchAndPcbAttributes )
addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );
for( auto& [fieldName, attrValue] : aPart.m_PartAttributes )
addNewFieldToSymbol( fieldName, retSym )->SetText( attrValue.m_Value );
// Load all hidden pins onto the first unit of the symbol in KiCad
// We load them in a spiral sequence, starting at the center of the symbol BBOX
VECTOR2I symCenter = retSym->GetBodyBoundingBox( unit, 0, false, false ).GetCenter();
symCenter.y = -symCenter.y; // need to invert the y coord for lib symbols.
VECTOR2I delta( 0, 1 );
VECTOR2I direction( 0, -1 );
int spacing = schIUScale.MilsToIU( 50 ); // for now, place on a 50mil grid
for( auto& [signalName, csPinVector] : aPart.m_HiddenPins )
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{
for( const CADSTAR_PART_PIN& csPin : csPinVector )
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{
std::unique_ptr<LIB_PIN> pin = std::make_unique<LIB_PIN>( retSym.get() );
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long pinNum = csPin.m_Identifier;
pin->SetNumber( wxString::Format( "%ld", pinNum ) );
pin->SetName( signalName );
pin->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN );
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pin->SetVisible( false );
// Generate the coordinate for the pin. We don't want overlapping pins
// and ideally close to the center of the symbol, so we load pins
// in a spiral sequence around the center
if( delta.x == delta.y || ( delta.x < 0 && delta.x == -delta.y )
|| ( delta.x > 0 && delta.x == 1 - delta.y ) )
{
// change direction
direction = { -direction.y, direction.x };
}
delta += direction;
VECTOR2I offset = delta * spacing;
pin->SetPosition( symCenter + offset );
pin->SetLength( 0 ); //CADSTAR Pins are just a point (have no length)
pin->SetShape( GRAPHIC_PINSHAPE::LINE );
pin->SetUnit( unit );
retSym->AddDrawItem( pin.release() );
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}
}
}
else
{ // Source: Dest:
copySymbolItems( kiSymDef, retSym, unit, false /* aOverrideFields */ );
}
retSym->SetShowPinNames( aPart.m_PinsVisible );
retSym->SetShowPinNumbers( aPart.m_PinsVisible );
}
return retSym;
}
void CADSTAR_SCH_ARCHIVE_LOADER::copySymbolItems( std::unique_ptr<LIB_SYMBOL>& aSourceSym,
std::unique_ptr<LIB_SYMBOL>& aDestSym,
int aDestUnit, bool aOverrideFields )
{
// Ensure there are no items on the unit we want to load onto
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for( SCH_ITEM* item : aDestSym->GetUnitDrawItems( aDestUnit, 0 /*aConvert*/ ) )
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aDestSym->RemoveDrawItem( item );
// Copy all draw items
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for( SCH_ITEM* newItem : aSourceSym->GetUnitDrawItems( 1, 0 /*aConvert*/ ) )
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{
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SCH_ITEM* itemCopy = static_cast<SCH_ITEM*>( newItem->Clone() );
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itemCopy->SetParent( aDestSym.get() );
itemCopy->SetUnit( aDestUnit );
aDestSym->AddDrawItem( itemCopy );
}
//Copy / override all fields
if( aOverrideFields )
{
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std::vector<SCH_FIELD*> fieldsToCopy;
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aSourceSym->GetFields( fieldsToCopy );
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for( SCH_FIELD* templateField : fieldsToCopy )
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{
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SCH_FIELD* appliedField = addNewFieldToSymbol( templateField->GetName(), aDestSym );
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templateField->Copy( appliedField );
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::Load( SCHEMATIC* aSchematic, SCH_SHEET* aRootSheet )
{
wxCHECK( aSchematic, /* void */ );
if( m_progressReporter )
m_progressReporter->SetNumPhases( 3 ); // (0) Read file, (1) Parse file, (2) Load file
Parse();
checkDesignLimits(); // Throws if error found
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// Assume the center at 0,0 since we are going to be translating the design afterwards anyway
m_designCenter = { 0, 0 };
m_schematic = aSchematic;
m_rootSheet = aRootSheet;
if( m_progressReporter )
{
m_progressReporter->BeginPhase( 2 );
long numSteps = 11; // one step for each of below functions + one at the end of import
// Step 4 is by far the longest - add granularity in reporting
numSteps += Parts.PartDefinitions.size();
m_progressReporter->SetMaxProgress( numSteps );
}
loadTextVariables(); // Load text variables right at the start to ensure bounding box
// calculations work correctly for text items
checkPoint(); // Step 1
loadSheets();
checkPoint(); // Step 2
loadHierarchicalSheetPins();
checkPoint(); // Step 3
loadPartsLibrary();
checkPoint(); // Step 4, Subdivided into extra steps
loadSchematicSymbolInstances();
checkPoint(); // Step 5
loadBusses();
checkPoint(); // Step 6
loadNets();
checkPoint(); // Step 7
loadFigures();
checkPoint(); // Step 8
loadTexts();
checkPoint(); // Step 9
loadDocumentationSymbols();
checkPoint(); // Step 10
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if( Schematic.VariantHierarchy.Variants.size() > 0 )
{
m_reporter->Report( wxString::Format( _( "The CADSTAR design contains variants which has "
"no KiCad equivalent. Only the master variant "
"('%s') was loaded." ),
Schematic.VariantHierarchy.Variants.at( "V0" ).Name ),
RPT_SEVERITY_WARNING );
}
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if( Schematic.Groups.size() > 0 )
{
m_reporter->Report( _( "The CADSTAR design contains grouped items which has no KiCad "
"equivalent. Any grouped items have been ungrouped." ),
RPT_SEVERITY_WARNING );
}
if( Schematic.ReuseBlocks.size() > 0 )
{
m_reporter->Report( _( "The CADSTAR design contains re-use blocks which has no KiCad "
"equivalent. The re-use block information has been discarded during "
"the import." ),
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RPT_SEVERITY_WARNING );
}
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// For all sheets, center all elements and re calculate the page size:
for( std::pair<LAYER_ID, SCH_SHEET*> sheetPair : m_sheetMap )
{
SCH_SHEET* sheet = sheetPair.second;
// Calculate the new sheet size.
BOX2I sheetBoundingBox;
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for( SCH_ITEM* item : sheet->GetScreen()->Items() )
{
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BOX2I bbox;
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// Only use the visible fields of the symbols to calculate their bounding box
// (hidden fields could be very long and artificially enlarge the sheet bounding box)
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if( item->Type() == SCH_SYMBOL_T )
{
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SCH_SYMBOL* comp = static_cast<SCH_SYMBOL*>( item );
bbox = comp->GetBodyAndPinsBoundingBox();
for( const SCH_FIELD& field : comp->GetFields() )
{
if( field.IsVisible() )
bbox.Merge( field.GetBoundingBox() );
}
}
else if( item->Type() == SCH_TEXT_T )
{
SCH_TEXT* txtItem = static_cast<SCH_TEXT*>( item );
wxString txt = txtItem->GetText();
if( txt.Contains( "${" ) )
continue; // We can't calculate bounding box of text items with variables
else
bbox = txtItem->GetBoundingBox();
}
else
{
bbox = item->GetBoundingBox();
}
sheetBoundingBox.Merge( bbox );
}
// Find the screen grid of the original CADSTAR design
int grid = Assignments.Grids.ScreenGrid.Param1;
if( Assignments.Grids.ScreenGrid.Type == GRID_TYPE::FRACTIONALGRID )
grid = grid / Assignments.Grids.ScreenGrid.Param2;
else if( Assignments.Grids.ScreenGrid.Param2 > grid )
grid = Assignments.Grids.ScreenGrid.Param2;
grid = getKiCadLength( grid );
auto roundToNearestGrid =
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[&]( int aNumber ) -> int
{
int error = aNumber % grid;
int absError = sign( error ) * error;
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if( absError > ( grid / 2 ) )
return aNumber + ( sign( error ) * grid ) - error;
else
return aNumber - error;
};
// When exporting to pdf, CADSTAR applies a margin of 3% of the longest dimension (height
// or width) to all 4 sides (top, bottom, left right). For the import, we are also rounding
// the margin to the nearest grid, ensuring all items remain on the grid.
VECTOR2I targetSheetSize = sheetBoundingBox.GetSize();
int longestSide = std::max( targetSheetSize.x, targetSheetSize.y );
int margin = ( (double) longestSide * 0.03 );
margin = roundToNearestGrid( margin );
targetSheetSize += margin * 2;
// Update page size always
PAGE_INFO pageInfo = sheet->GetScreen()->GetPageSettings();
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pageInfo.SetWidthMils( schIUScale.IUToMils( targetSheetSize.x ) );
pageInfo.SetHeightMils( schIUScale.IUToMils( targetSheetSize.y ) );
// Set the new sheet size.
sheet->GetScreen()->SetPageSettings( pageInfo );
VECTOR2I pageSizeIU = sheet->GetScreen()->GetPageSettings().GetSizeIU( schIUScale.IU_PER_MILS );
VECTOR2I sheetcentre( pageSizeIU.x / 2, pageSizeIU.y / 2 );
VECTOR2I itemsCentre = sheetBoundingBox.Centre();
// round the translation to nearest point on the grid
VECTOR2I translation = sheetcentre - itemsCentre;
translation.x = roundToNearestGrid( translation.x );
translation.y = roundToNearestGrid( translation.y );
// Translate the items.
std::vector<SCH_ITEM*> allItems;
std::copy( sheet->GetScreen()->Items().begin(), sheet->GetScreen()->Items().end(),
std::back_inserter( allItems ) );
for( SCH_ITEM* item : allItems )
{
item->Move( translation );
item->ClearFlags();
sheet->GetScreen()->Update( item );
}
}
checkPoint();
m_reporter->Report( _( "CADSTAR fonts are different to the ones in KiCad. This will likely "
"result in alignment issues. Please review the imported text elements "
"carefully and correct manually if required." ),
RPT_SEVERITY_WARNING );
m_reporter->Report( _( "The CADSTAR design has been imported successfully.\n"
"Please review the import errors and warnings (if any)." ) );
}
void CADSTAR_SCH_ARCHIVE_LOADER::checkDesignLimits()
{
LONGPOINT designLimit = Assignments.Settings.DesignLimit;
//Note: can't use getKiCadPoint() due VECTOR2I being int - need long long to make the check
long long designSizeXkicad = (long long) designLimit.x / KiCadUnitDivider;
long long designSizeYkicad = (long long) designLimit.y / KiCadUnitDivider;
// Max size limited by the positive dimension of VECTOR2I (which is an int)
constexpr 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 / SCH_IU_PER_MM,
(double) designSizeYkicad / SCH_IU_PER_MM,
(double) maxDesignSizekicad / SCH_IU_PER_MM,
(double) maxDesignSizekicad / SCH_IU_PER_MM ) );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadSheets()
{
const std::vector<LAYER_ID>& orphanSheets = findOrphanSheets();
SCH_SHEET_PATH rootPath;
rootPath.push_back( m_rootSheet );
rootPath.SetPageNumber( wxT( "1" ) );
if( orphanSheets.size() > 1 )
{
int x = 1;
int y = 1;
for( LAYER_ID sheetID : orphanSheets )
{
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VECTOR2I pos( x * schIUScale.MilsToIU( 1000 ), y * schIUScale.MilsToIU( 1000 ) );
VECTOR2I siz( schIUScale.MilsToIU( 1000 ), schIUScale.MilsToIU( 1000 ) );
loadSheetAndChildSheets( sheetID, pos, siz, rootPath );
x += 2;
if( x > 10 ) // start next row
{
x = 1;
y += 2;
}
}
}
else if( orphanSheets.size() > 0 )
{
LAYER_ID rootSheetID = orphanSheets.at( 0 );
wxFileName loadedFilePath = wxFileName( Filename );
std::string filename = wxString::Format( "%s_%02d", loadedFilePath.GetName(),
getSheetNumber( rootSheetID ) )
.ToStdString();
ReplaceIllegalFileNameChars( &filename );
filename += wxT( "." ) + wxString( FILEEXT::KiCadSchematicFileExtension );
wxFileName fn( m_schematic->Prj().GetProjectPath() + filename );
m_rootSheet->GetScreen()->SetFileName( fn.GetFullPath() );
m_sheetMap.insert( { rootSheetID, m_rootSheet } );
loadChildSheets( rootSheetID, rootPath );
}
else if( Header.Format.Type == "SYMBOL" )
{
THROW_IO_ERROR( _( "The selected file is a CADSTAR symbol library. It does not contain a "
"schematic design so cannot be imported/opened in this way." ) );
}
else
{
THROW_IO_ERROR( _( "The CADSTAR schematic might be corrupt: there is no root sheet." ) );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadHierarchicalSheetPins()
{
for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )
{
BLOCK& block = blockPair.second;
LAYER_ID sheetID = "";
if( block.Type == BLOCK::TYPE::PARENT )
sheetID = block.LayerID;
else if( block.Type == BLOCK::TYPE::CHILD )
sheetID = block.AssocLayerID;
else
continue;
if( m_sheetMap.find( sheetID ) != m_sheetMap.end() )
{
SCH_SHEET* sheet = m_sheetMap.at( sheetID );
for( std::pair<TERMINAL_ID, TERMINAL> termPair : block.Terminals )
{
TERMINAL term = termPair.second;
wxString name = "YOU SHOULDN'T SEE THIS TEXT. THIS IS A BUG.";
SCH_HIERLABEL* sheetPin = nullptr;
if( block.Type == BLOCK::TYPE::PARENT )
sheetPin = new SCH_HIERLABEL();
else if( block.Type == BLOCK::TYPE::CHILD )
sheetPin = new SCH_SHEET_PIN( sheet );
sheetPin->SetText( name );
sheetPin->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED );
sheetPin->SetSpinStyle( getSpinStyle( term.OrientAngle, false ) );
sheetPin->SetPosition( getKiCadPoint( term.Position ) );
if( sheetPin->Type() == SCH_SHEET_PIN_T )
sheet->AddPin( (SCH_SHEET_PIN*) sheetPin );
else
sheet->GetScreen()->Append( sheetPin );
BLOCK_PIN_ID blockPinID = std::make_pair( block.ID, term.ID );
m_sheetPinMap.insert( { blockPinID, sheetPin } );
}
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadPartsLibrary()
{
for( std::pair<PART_ID, PART> partPair : Parts.PartDefinitions )
{
PART_ID partID = partPair.first;
PART part = partPair.second;
wxString escapedPartName = EscapeString( part.Name, CTX_LIBID );
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LIB_SYMBOL* kiSym = new LIB_SYMBOL( escapedPartName );
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kiSym->SetUnitCount( part.Definition.GateSymbols.size() );
bool ok = true;
for( std::pair<GATE_ID, PART::DEFINITION::GATE> gatePair : part.Definition.GateSymbols )
{
GATE_ID gateID = gatePair.first;
PART::DEFINITION::GATE gate = gatePair.second;
SYMDEF_ID symbolID = getSymDefFromName( gate.Name, gate.Alternate );
if( symbolID.IsEmpty() )
{
m_reporter->Report( wxString::Format( _( "Part definition '%s' references symbol "
"'%s' (alternate '%s') which could not be "
"found in the symbol library. The part has "
"not been loaded into the KiCad library." ),
part.Name,
gate.Name,
gate.Alternate ),
RPT_SEVERITY_WARNING);
ok = false;
break;
}
m_partSymbolsMap.insert( { { partID, gateID }, symbolID } );
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loadSymbolGateAndPartFields( symbolID, part, gateID, kiSym );
}
if( ok && part.Definition.GateSymbols.size() != 0 )
{
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m_loadedSymbols.push_back( kiSym );
}
else
{
if( part.Definition.GateSymbols.size() == 0 )
{
m_reporter->Report(
wxString::Format( _( "Part definition '%s' has an incomplete definition (no"
" symbol definitions are associated with it). The part"
" has not been loaded into the KiCad library." ),
part.Name ),
RPT_SEVERITY_WARNING );
}
// Don't save in the library, but still keep it cached as some of the units might have
// been loaded correctly (saving us time later on), plus the part definition contains
// the part name, which is important to load
}
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m_partMap.insert( { partID, kiSym } );
checkPoint();
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbolInstances()
{
for( std::pair<SYMBOL_ID, SYMBOL> symPair : Schematic.Symbols )
{
SYMBOL sym = symPair.second;
if( !sym.VariantID.empty() && sym.VariantParentSymbolID != sym.ID )
continue; // Only load master Variant
if( sym.IsComponent )
{
if( m_partMap.find( sym.PartRef.RefID ) == m_partMap.end() )
{
m_reporter->Report( wxString::Format( _( "Symbol '%s' references part '%s' which "
"could not be found in the library. The "
"symbol was not loaded" ),
sym.ComponentRef.Designator,
sym.PartRef.RefID ),
RPT_SEVERITY_ERROR );
continue;
}
if( sym.GateID.IsEmpty() )
sym.GateID = wxT( "A" ); // Assume Gate "A" if unspecified
PART_GATE_ID partSymbolID = { sym.PartRef.RefID, sym.GateID };
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LIB_SYMBOL* kiSym = m_partMap.at( sym.PartRef.RefID );
bool copy = false;
// The symbol definition in the part either does not exist for this gate number
// or is different to the symbol instance. We need to reload the gate for this
// symbol
if( m_partSymbolsMap.find( partSymbolID ) == m_partSymbolsMap.end()
|| m_partSymbolsMap.at( partSymbolID ) != sym.SymdefID )
{
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kiSym = new LIB_SYMBOL( *kiSym ); // Make a copy
copy = true;
const PART& part = Parts.PartDefinitions.at( sym.PartRef.RefID );
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loadSymbolGateAndPartFields( sym.SymdefID, part, sym.GateID, kiSym );
}
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LIB_SYMBOL* scaledPart = getScaledLibPart( kiSym, sym.ScaleRatioNumerator,
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sym.ScaleRatioDenominator );
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EDA_ANGLE symOrient = ANGLE_0;
SCH_SYMBOL* symbol = loadSchematicSymbol( sym, *scaledPart, symOrient );
delete scaledPart;
if( copy )
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delete kiSym;
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SCH_FIELD* refField = symbol->GetField( REFERENCE_FIELD );
sym.ComponentRef.Designator.Replace( wxT( "\n" ), wxT( "\\n" ) );
sym.ComponentRef.Designator.Replace( wxT( "\r" ), wxT( "\\r" ) );
sym.ComponentRef.Designator.Replace( wxT( "\t" ), wxT( "\\t" ) );
sym.ComponentRef.Designator.Replace( wxT( " " ), wxT( "_" ) );
refField->SetText( sym.ComponentRef.Designator );
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loadSymbolFieldAttribute( sym.ComponentRef.AttrLoc, symOrient, sym.Mirror, refField );
if( sym.HasPartRef )
{
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SCH_FIELD* partField = symbol->FindField( PartNameFieldName );
if( !partField )
{
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int fieldID = symbol->GetFieldCount();
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partField = symbol->AddField( SCH_FIELD( VECTOR2I(), fieldID, symbol,
PartNameFieldName ) );
}
wxASSERT( partField->GetName() == PartNameFieldName );
wxString partname = getPart( sym.PartRef.RefID ).Name;
partname.Replace( wxT( "\n" ), wxT( "\\n" ) );
partname.Replace( wxT( "\r" ), wxT( "\\r" ) );
partname.Replace( wxT( "\t" ), wxT( "\\t" ) );
partField->SetText( partname );
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loadSymbolFieldAttribute( sym.PartRef.AttrLoc, symOrient, sym.Mirror, partField );
partField->SetVisible( SymbolPartNameColor.IsVisible );
}
for( auto& attr : sym.AttributeValues )
{
ATTRIBUTE_VALUE attrVal = attr.second;
if( attrVal.HasLocation )
{
wxString attrName = getAttributeName( attrVal.AttributeID );
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SCH_FIELD* attrField = symbol->FindField( attrName );
if( !attrField )
{
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int fieldID = symbol->GetFieldCount();
attrField = symbol->AddField(
SCH_FIELD( VECTOR2I(), fieldID, symbol, attrName ) );
}
wxASSERT( attrField->GetName() == attrName );
attrVal.Value.Replace( wxT( "\n" ), wxT( "\\n" ) );
attrVal.Value.Replace( wxT( "\r" ), wxT( "\\r" ) );
attrVal.Value.Replace( wxT( "\t" ), wxT( "\\t" ) );
attrField->SetText( attrVal.Value );
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loadSymbolFieldAttribute( attrVal.AttributeLocation, symOrient, sym.Mirror,
attrField );
attrField->SetVisible( isAttributeVisible( attrVal.AttributeID ) );
}
}
}
else if( sym.IsSymbolVariant )
{
if( Library.SymbolDefinitions.find( sym.SymdefID ) == Library.SymbolDefinitions.end() )
{
THROW_IO_ERROR( wxString::Format(
_( "Symbol ID '%s' references library symbol '%s' which could not be "
"found in the library. Did you export all items of the design?" ),
sym.ID, sym.PartRef.RefID ) );
}
SYMDEF_SCM libSymDef = Library.SymbolDefinitions.at( sym.SymdefID );
if( libSymDef.Terminals.size() != 1 )
{
THROW_IO_ERROR( wxString::Format(
_( "Symbol ID '%s' is a signal reference or global signal but it has too "
"many pins. The expected number of pins is 1 but %d were found." ),
sym.ID, libSymDef.Terminals.size() ) );
}
if( sym.SymbolVariant.Type == SYMBOLVARIANT::TYPE::GLOBALSIGNAL )
{
SYMDEF_ID symID = sym.SymdefID;
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LIB_SYMBOL* kiPart = nullptr;
// In CADSTAR "GlobalSignal" is a special type of symbol which defines
// a Power Symbol. The "Alternate" name defines the default net name of
// the power symbol but this can be overridden in the design itself.
wxString libraryNetName = Library.SymbolDefinitions.at( symID ).Alternate;
// Name of the net that the symbol instance in CADSTAR refers to:
wxString symbolInstanceNetName = sym.SymbolVariant.Reference;
symbolInstanceNetName = EscapeString( symbolInstanceNetName, CTX_LIBID );
// Name of the symbol we will use for saving the part in KiCad
// Note: In CADSTAR all power symbols will start have the reference name be
// "GLOBALSIGNAL" followed by the default net name, so it makes sense to save
// the symbol in KiCad as the default net name as well.
wxString libPartName = libraryNetName;
// In CADSTAR power symbol instances can refer to a different net to that defined
// in the library. This causes problems in KiCad v6 as it breaks connectivity when
// the user decides to update all symbols from library. We handle this by creating
// individual versions of the power symbol for each net name.
if( libPartName != symbolInstanceNetName )
{
libPartName += wxT( " (" ) + symbolInstanceNetName + wxT( ")" );
}
if( m_powerSymLibMap.find( libPartName ) == m_powerSymLibMap.end() )
{
const LIB_SYMBOL* templatePart = loadSymdef( symID );
wxCHECK( templatePart, /*void*/ );
kiPart = new LIB_SYMBOL( *templatePart );
kiPart->SetPower();
kiPart->SetName( libPartName );
kiPart->GetValueField().SetText( symbolInstanceNetName );
kiPart->SetShowPinNames( false );
kiPart->SetShowPinNumbers( false );
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std::vector<LIB_PIN*> pins = kiPart->GetAllLibPins();
wxCHECK( pins.size() == 1, /*void*/ );
pins.at( 0 )->SetType( ELECTRICAL_PINTYPE::PT_POWER_IN );
pins.at( 0 )->SetName( symbolInstanceNetName );
if( libSymDef.TextLocations.find( SIGNALNAME_ORIGIN_ATTRID )
!= libSymDef.TextLocations.end() )
{
TEXT_LOCATION& txtLoc =
libSymDef.TextLocations.at( SIGNALNAME_ORIGIN_ATTRID );
VECTOR2I valPos = getKiCadLibraryPoint( txtLoc.Position, libSymDef.Origin );
kiPart->GetValueField().SetPosition( valPos );
kiPart->GetValueField().SetVisible( true );
}
else
{
kiPart->GetValueField().SetVisible( false );
}
kiPart->GetReferenceField().SetText( "#PWR" );
kiPart->GetReferenceField().SetVisible( false );
m_loadedSymbols.push_back( kiPart );
m_powerSymLibMap.insert( { libPartName, kiPart } );
}
else
{
kiPart = m_powerSymLibMap.at( libPartName );
wxASSERT( kiPart->GetValueField().GetText() == symbolInstanceNetName );
}
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LIB_SYMBOL* scaledPart = getScaledLibPart( kiPart, sym.ScaleRatioNumerator,
sym.ScaleRatioDenominator );
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EDA_ANGLE returnedOrient = ANGLE_0;
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SCH_SYMBOL* symbol = loadSchematicSymbol( sym, *scaledPart, returnedOrient );
m_powerSymMap.insert( { sym.ID, symbol } );
delete scaledPart;
}
else if( sym.SymbolVariant.Type == SYMBOLVARIANT::TYPE::SIGNALREF )
{
// There should only be one pin and we'll use that to set the position
TERMINAL& symbolTerminal = libSymDef.Terminals.begin()->second;
VECTOR2I terminalPosOffset = symbolTerminal.Position - libSymDef.Origin;
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EDA_ANGLE rotate = getAngle( sym.OrientAngle );
if( sym.Mirror )
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rotate += ANGLE_180;
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RotatePoint( terminalPosOffset, -rotate );
SCH_GLOBALLABEL* netLabel = new SCH_GLOBALLABEL;
netLabel->SetPosition( getKiCadPoint( (VECTOR2I)sym.Origin + terminalPosOffset ) );
netLabel->SetText( "***UNKNOWN NET****" ); // This should be later updated when we load the netlist
netLabel->SetTextSize( VECTOR2I( schIUScale.MilsToIU( 50 ), schIUScale.MilsToIU( 50 ) ) );
SYMDEF_SCM symbolDef = Library.SymbolDefinitions.at( sym.SymdefID );
if( symbolDef.TextLocations.count( LINK_ORIGIN_ATTRID ) )
{
TEXT_LOCATION linkOrigin = symbolDef.TextLocations.at( LINK_ORIGIN_ATTRID );
applyTextSettings( netLabel, linkOrigin.TextCodeID, linkOrigin.Alignment,
linkOrigin.Justification );
}
netLabel->SetSpinStyle( getSpinStyle( sym.OrientAngle, sym.Mirror ) );
if( libSymDef.Alternate.Lower().Contains( "in" ) )
netLabel->SetShape( LABEL_FLAG_SHAPE::L_INPUT );
else if( libSymDef.Alternate.Lower().Contains( "bi" ) )
netLabel->SetShape( LABEL_FLAG_SHAPE::L_BIDI );
else if( libSymDef.Alternate.Lower().Contains( "out" ) )
netLabel->SetShape( LABEL_FLAG_SHAPE::L_OUTPUT );
else
netLabel->SetShape( LABEL_FLAG_SHAPE::L_UNSPECIFIED );
SCH_SCREEN* screen = m_sheetMap.at( sym.LayerID )->GetScreen();
// autoplace intersheet refs
netLabel->AutoplaceFields( screen, false );
screen->Append( netLabel );
m_globalLabelsMap.insert( { sym.ID, netLabel } );
}
else
{
wxASSERT_MSG( false, "Unknown Symbol Variant." );
}
}
else
{
m_reporter->Report( wxString::Format( _( "Symbol ID '%s' is of an unknown type. It is "
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"neither a symbol or a net power / symbol. "
"The symbol was not loaded." ),
sym.ID ),
RPT_SEVERITY_ERROR );
}
if( sym.ScaleRatioDenominator != 1 || sym.ScaleRatioNumerator != 1 )
{
wxString symbolName = sym.ComponentRef.Designator;
if( symbolName.empty() )
symbolName = wxString::Format( "ID: %s", sym.ID );
else
symbolName += sym.GateID;
m_reporter->Report( wxString::Format( _( "Symbol '%s' is scaled in the original "
"CADSTAR schematic but this is not supported "
"in KiCad. When the symbol is reloaded from "
"the library, it will revert to the original "
"1:1 scale." ),
symbolName,
sym.PartRef.RefID ),
RPT_SEVERITY_ERROR );
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadBusses()
{
for( std::pair<BUS_ID, BUS> busPair : Schematic.Buses )
{
BUS bus = busPair.second;
bool firstPt = true;
VERTEX last;
if( bus.LayerID != wxT( "NO_SHEET" ) )
{
SCH_SCREEN* screen = m_sheetMap.at( bus.LayerID )->GetScreen();
std::shared_ptr<BUS_ALIAS> kiBusAlias = std::make_shared<BUS_ALIAS>();
kiBusAlias->SetName( bus.Name );
kiBusAlias->SetParent( screen );
screen->AddBusAlias( kiBusAlias );
m_busesMap.insert( { bus.ID, kiBusAlias } );
SCH_LABEL* label = new SCH_LABEL();
wxString busname = HandleTextOverbar( bus.Name );
label->SetText( wxT( "{" ) + busname + wxT( "}" ) );
label->SetVisible( true );
screen->Append( label );
SHAPE_LINE_CHAIN busLineChain; // to compute nearest segment to bus label
for( const VERTEX& cur : bus.Shape.Vertices )
{
busLineChain.Append( getKiCadPoint( cur.End ) );
if( firstPt )
{
last = cur;
firstPt = false;
if( !bus.HasBusLabel )
{
// Add a bus label on the starting point if the original CADSTAR design
// does not have an explicit label
label->SetPosition( getKiCadPoint( last.End ) );
}
continue;
}
SCH_LINE* kiBus = new SCH_LINE();
kiBus->SetStartPoint( getKiCadPoint( last.End ) );
kiBus->SetEndPoint( getKiCadPoint( cur.End ) );
kiBus->SetLayer( LAYER_BUS );
kiBus->SetLineWidth( getLineThickness( bus.LineCodeID ) );
screen->Append( kiBus );
last = cur;
}
if( bus.HasBusLabel )
{
//lets find the closest point in the busline to the label
VECTOR2I busLabelLoc = getKiCadPoint( bus.BusLabel.Position );
VECTOR2I nearestPt = busLineChain.NearestPoint( busLabelLoc );
label->SetPosition( nearestPt );
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applyTextSettings( label, bus.BusLabel.TextCodeID, bus.BusLabel.Alignment,
bus.BusLabel.Justification );
// Re-set bus name as it might have been "double-escaped" after applyTextSettings
label->SetText( wxT( "{" ) + busname + wxT( "}" ) );
// Note orientation of the bus label will be determined in loadNets
// (the position of the wire will determine how best to place the bus label)
}
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadNets()
{
for( std::pair<NET_ID, NET_SCH> netPair : Schematic.Nets )
{
NET_SCH net = netPair.second;
wxString netName = net.Name;
std::map<NETELEMENT_ID, SCH_LABEL*> netlabels;
if( netName.IsEmpty() )
netName = wxString::Format( "$%ld", net.SignalNum );
netName = HandleTextOverbar( netName );
for( std::pair<NETELEMENT_ID, NET_SCH::SYM_TERM> terminalPair : net.Terminals )
{
NET_SCH::SYM_TERM netTerm = terminalPair.second;
if( m_powerSymMap.find( netTerm.SymbolID ) != m_powerSymMap.end() )
{
SCH_FIELD* val = m_powerSymMap.at( netTerm.SymbolID )->GetField( VALUE_FIELD );
val->SetText( netName );
val->SetBold( false );
val->SetVisible( false );
if( netTerm.HasNetLabel )
{
val->SetVisible( true );
val->SetPosition( getKiCadPoint( netTerm.NetLabel.Position ) );
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applyTextSettings( val, netTerm.NetLabel.TextCodeID, netTerm.NetLabel.Alignment,
netTerm.NetLabel.Justification, netTerm.NetLabel.OrientAngle,
netTerm.NetLabel.Mirror );
}
}
else if( m_globalLabelsMap.find( netTerm.SymbolID ) != m_globalLabelsMap.end() )
{
m_globalLabelsMap.at( netTerm.SymbolID )->SetText( netName );
LAYER_ID sheet = Schematic.Symbols.at( netTerm.SymbolID ).LayerID;
if( m_sheetMap.count( sheet ) )
{
SCH_SCREEN* screen = m_sheetMap.at( sheet )->GetScreen();
// autoplace intersheet refs again since we've changed the name
m_globalLabelsMap.at( netTerm.SymbolID )->AutoplaceFields( screen, false );
}
}
else if( !net.Name.IsEmpty() && Schematic.Symbols.count( netTerm.SymbolID )
&& netTerm.HasNetLabel )
{
// This is a named net that connects to a schematic symbol pin - we need to put a label
SCH_LABEL* label = new SCH_LABEL();
label->SetText( netName );
POINT pinLocation = getLocationOfNetElement( net, netTerm.ID );
label->SetPosition( getKiCadPoint( pinLocation ) );
label->SetVisible( true );
applyTextSettings( label, netTerm.NetLabel.TextCodeID, netTerm.NetLabel.Alignment,
netTerm.NetLabel.Justification );
netlabels.insert( { netTerm.ID, label } );
LAYER_ID sheet = Schematic.Symbols.at( netTerm.SymbolID ).LayerID;
m_sheetMap.at( sheet )->GetScreen()->Append( label );
}
}
auto getHierarchicalLabel =
[&]( NETELEMENT_ID aNode ) -> SCH_HIERLABEL*
{
if( aNode.Contains( "BLKT" ) )
{
NET_SCH::BLOCK_TERM blockTerm = net.BlockTerminals.at( aNode );
BLOCK_PIN_ID blockPinID = std::make_pair( blockTerm.BlockID,
blockTerm.TerminalID );
if( m_sheetPinMap.find( blockPinID ) != m_sheetPinMap.end() )
return m_sheetPinMap.at( blockPinID );
}
return nullptr;
};
//Add net name to all hierarchical pins (block terminals in CADSTAR)
for( std::pair<NETELEMENT_ID, NET_SCH::BLOCK_TERM> blockPair : net.BlockTerminals )
{
SCH_HIERLABEL* label = getHierarchicalLabel( blockPair.first );
if( label )
label->SetText( netName );
}
// Load all bus entries and add net label if required
for( std::pair<NETELEMENT_ID, NET_SCH::BUS_TERM> busPair : net.BusTerminals )
{
NET_SCH::BUS_TERM busTerm = busPair.second;
BUS bus = Schematic.Buses.at( busTerm.BusID );
if( !alg::contains( m_busesMap.at( bus.ID )->Members(), netName ) )
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m_busesMap.at( bus.ID )->Members().emplace_back( netName );
SCH_BUS_WIRE_ENTRY* busEntry =
new SCH_BUS_WIRE_ENTRY( getKiCadPoint( busTerm.FirstPoint ), false );
VECTOR2I size =
getKiCadPoint( busTerm.SecondPoint ) - getKiCadPoint( busTerm.FirstPoint );
busEntry->SetSize( VECTOR2I( size.x, size.y ) );
m_sheetMap.at( bus.LayerID )->GetScreen()->Append( busEntry );
// Always add a label at bus terminals to ensure connectivity.
// If the original design does not have a label, just make it very small
// to keep connectivity but make the design look visually similar to
// the original.
SCH_LABEL* label = new SCH_LABEL();
label->SetText( netName );
label->SetPosition( getKiCadPoint( busTerm.SecondPoint ) );
label->SetVisible( true );
if( busTerm.HasNetLabel )
{
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applyTextSettings( label, busTerm.NetLabel.TextCodeID, busTerm.NetLabel.Alignment,
busTerm.NetLabel.Justification );
}
else
{
label->SetTextSize( VECTOR2I( SMALL_LABEL_SIZE, SMALL_LABEL_SIZE ) );
}
netlabels.insert( { busTerm.ID, label } );
m_sheetMap.at( bus.LayerID )->GetScreen()->Append( label );
}
for( std::pair<NETELEMENT_ID, NET_SCH::DANGLER> danglerPair : net.Danglers )
{
NET_SCH::DANGLER dangler = danglerPair.second;
SCH_LABEL* label = new SCH_LABEL();
label->SetPosition( getKiCadPoint( dangler.Position ) );
label->SetVisible( true );
if( dangler.HasNetLabel )
{
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applyTextSettings( label, dangler.NetLabel.TextCodeID, dangler.NetLabel.Alignment,
dangler.NetLabel.Justification );
}
label->SetText( netName ); // set text after applying settings to avoid double-escaping
netlabels.insert( { dangler.ID, label } );
m_sheetMap.at( dangler.LayerID )->GetScreen()->Append( label );
}
for( NET_SCH::CONNECTION_SCH conn : net.Connections )
{
if( conn.LayerID == wxT( "NO_SHEET" ) )
continue; // No point loading virtual connections. KiCad handles that internally
POINT start = getLocationOfNetElement( net, conn.StartNode );
POINT end = getLocationOfNetElement( net, conn.EndNode );
if( start.x == UNDEFINED_VALUE || end.x == UNDEFINED_VALUE )
continue;
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// Connections in CADSTAR are always implied between symbols even if the route
// doesn't start and end exactly at the connection points
if( conn.Path.size() < 1 || conn.Path.front() != start )
conn.Path.insert( conn.Path.begin(), start );
if( conn.Path.size() < 2 || conn.Path.back() != end )
conn.Path.push_back( end );
bool firstPt = true;
bool secondPt = false;
VECTOR2I last;
SCH_LINE* wire = nullptr;
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SHAPE_LINE_CHAIN wireChain; // Create a temp. line chain representing the connection
for( POINT pt : conn.Path )
{
wireChain.Append( getKiCadPoint( pt ) );
}
// AUTO-FIX SHEET PINS
//--------------------
// KiCad constrains the sheet pin on the edge of the sheet object whereas in
// CADSTAR it can be anywhere. Let's find the intersection of the wires with the sheet
// and place the hierarchical
std::vector<NETELEMENT_ID> nodes;
nodes.push_back( conn.StartNode );
nodes.push_back( conn.EndNode );
for( NETELEMENT_ID node : nodes )
{
SCH_HIERLABEL* sheetPin = getHierarchicalLabel( node );
if( sheetPin )
{
if( sheetPin->Type() == SCH_SHEET_PIN_T
&& SCH_SHEET::ClassOf( sheetPin->GetParent() ) )
{
SCH_SHEET* parentSheet = static_cast<SCH_SHEET*>( sheetPin->GetParent() );
VECTOR2I sheetSize = parentSheet->GetSize();
VECTOR2I sheetPosition = parentSheet->GetPosition();
int leftSide = sheetPosition.x;
int rightSide = sheetPosition.x + sheetSize.x;
int topSide = sheetPosition.y;
int botSide = sheetPosition.y + sheetSize.y;
SHAPE_LINE_CHAIN sheetEdge;
sheetEdge.Append( leftSide, topSide );
sheetEdge.Append( rightSide, topSide );
sheetEdge.Append( rightSide, botSide );
sheetEdge.Append( leftSide, botSide );
sheetEdge.Append( leftSide, topSide );
SHAPE_LINE_CHAIN::INTERSECTIONS wireToSheetIntersects;
if( !wireChain.Intersect( sheetEdge, wireToSheetIntersects ) )
{
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// The block terminal is outside the block shape in the original
// CADSTAR design. Since KiCad's Sheet Pin will already be constrained
// on the edge, we will simply join to it with a straight line.
if( node == conn.StartNode )
wireChain = wireChain.Reverse();
wireChain.Append( sheetPin->GetPosition() );
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if( node == conn.StartNode )
wireChain = wireChain.Reverse();
}
else
{
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// The block terminal is either inside or on the shape edge. Lets use
// the first intersection point.
VECTOR2I intsctPt = wireToSheetIntersects.at( 0 ).p;
int intsctIndx = wireChain.FindSegment( intsctPt );
wxASSERT_MSG( intsctIndx != -1, "Can't find intersecting segment" );
if( node == conn.StartNode )
wireChain.Replace( 0, intsctIndx, intsctPt );
else
wireChain.Replace( intsctIndx + 1, /*end index*/ -1, intsctPt );
sheetPin->SetPosition( intsctPt );
}
}
}
}
auto fixNetLabelsAndSheetPins =
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[&]( const EDA_ANGLE& aWireAngle, NETELEMENT_ID& aNetEleID )
{
SPIN_STYLE spin = getSpinStyle( aWireAngle );
if( netlabels.find( aNetEleID ) != netlabels.end() )
netlabels.at( aNetEleID )->SetSpinStyle( spin.MirrorY() );
SCH_HIERLABEL* sheetPin = getHierarchicalLabel( aNetEleID );
if( sheetPin )
sheetPin->SetSpinStyle( spin.MirrorX() );
};
// Now we can load the wires and fix the label orientations
for( const VECTOR2I& pt : wireChain.CPoints() )
{
if( firstPt )
{
last = pt;
firstPt = false;
secondPt = true;
continue;
}
if( secondPt )
{
secondPt = false;
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EDA_ANGLE wireAngle( last - pt );
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fixNetLabelsAndSheetPins( wireAngle, conn.StartNode );
}
wire = new SCH_LINE();
wire->SetStartPoint( last );
wire->SetEndPoint( pt );
wire->SetLayer( LAYER_WIRE );
if( !conn.ConnectionLineCode.IsEmpty() )
wire->SetLineWidth( getLineThickness( conn.ConnectionLineCode ) );
last = pt;
m_sheetMap.at( conn.LayerID )->GetScreen()->Append( wire );
}
//Fix labels on the end wire
if( wire )
{
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EDA_ANGLE wireAngle( wire->GetEndPoint() - wire->GetStartPoint() );
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fixNetLabelsAndSheetPins( wireAngle, conn.EndNode );
}
}
for( std::pair<NETELEMENT_ID, NET_SCH::JUNCTION_SCH> juncPair : net.Junctions )
{
NET_SCH::JUNCTION_SCH junc = juncPair.second;
SCH_JUNCTION* kiJunc = new SCH_JUNCTION();
kiJunc->SetPosition( getKiCadPoint( junc.Location ) );
m_sheetMap.at( junc.LayerID )->GetScreen()->Append( kiJunc );
if( junc.HasNetLabel )
{
// In CADSTAR the label can be placed anywhere, but in KiCad it has to be placed
// in the same location as the junction for it to be connected to it.
SCH_LABEL* label = new SCH_LABEL();
label->SetText( netName );
label->SetPosition( getKiCadPoint( junc.Location ) );
label->SetVisible( true );
EDA_ANGLE labelAngle = getAngle( junc.NetLabel.OrientAngle );
SPIN_STYLE spin = getSpinStyle( labelAngle );
label->SetSpinStyle( spin );
m_sheetMap.at( junc.LayerID )->GetScreen()->Append( label );
}
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadFigures()
{
for( std::pair<FIGURE_ID, FIGURE> figPair : Schematic.Figures )
{
FIGURE fig = figPair.second;
loadFigure( fig, fig.LayerID, LAYER_NOTES );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadTexts()
{
for( std::pair<TEXT_ID, TEXT> textPair : Schematic.Texts )
{
TEXT txt = textPair.second;
SCH_TEXT* kiTxt = getKiCadSchText( txt );
loadItemOntoKiCadSheet( txt.LayerID, kiTxt );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadDocumentationSymbols()
{
for( std::pair<DOCUMENTATION_SYMBOL_ID, DOCUMENTATION_SYMBOL> docSymPair :
Schematic.DocumentationSymbols )
{
DOCUMENTATION_SYMBOL docSym = docSymPair.second;
if( Library.SymbolDefinitions.find( docSym.SymdefID ) == Library.SymbolDefinitions.end() )
{
m_reporter->Report( wxString::Format( _( "Documentation Symbol '%s' refers to symbol "
"definition ID '%s' which does not exist in "
"the library. The symbol was not loaded." ),
docSym.ID,
docSym.SymdefID ),
RPT_SEVERITY_ERROR );
continue;
}
SYMDEF_SCM docSymDef = Library.SymbolDefinitions.at( docSym.SymdefID );
VECTOR2I moveVector = getKiCadPoint( docSym.Origin ) - getKiCadPoint( docSymDef.Origin );
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EDA_ANGLE rotationAngle = getAngle( docSym.OrientAngle );
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double scalingFactor = (double) docSym.ScaleRatioNumerator
/ (double) docSym.ScaleRatioDenominator;
VECTOR2I centreOfTransform = getKiCadPoint( docSymDef.Origin );
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bool mirrorInvert = docSym.Mirror;
for( std::pair<FIGURE_ID, FIGURE> figPair : docSymDef.Figures )
{
FIGURE fig = figPair.second;
loadFigure( fig, docSym.LayerID, LAYER_NOTES, moveVector, rotationAngle, scalingFactor,
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centreOfTransform, mirrorInvert );
}
for( std::pair<TEXT_ID, TEXT> textPair : docSymDef.Texts )
{
TEXT txt = textPair.second;
txt.Mirror = ( txt.Mirror ) ? !mirrorInvert : mirrorInvert;
txt.OrientAngle = docSym.OrientAngle - txt.OrientAngle;
SCH_TEXT* kiTxt = getKiCadSchText( txt );
VECTOR2I newPosition = applyTransform( kiTxt->GetPosition(), moveVector, rotationAngle,
scalingFactor, centreOfTransform, mirrorInvert );
int newTxtWidth = KiROUND( kiTxt->GetTextWidth() * scalingFactor );
int newTxtHeight = KiROUND( kiTxt->GetTextHeight() * scalingFactor );
int newTxtThickness = KiROUND( kiTxt->GetTextThickness() * scalingFactor );
kiTxt->SetPosition( newPosition );
kiTxt->SetTextWidth( newTxtWidth );
kiTxt->SetTextHeight( newTxtHeight );
kiTxt->SetTextThickness( newTxtThickness );
loadItemOntoKiCadSheet( docSym.LayerID, kiTxt );
}
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadTextVariables()
{
auto findAndReplaceTextField =
[&]( TEXT_FIELD_NAME aField, wxString aValue )
{
if( m_context.TextFieldToValuesMap.find( aField ) != m_context.TextFieldToValuesMap.end() )
{
if( m_context.TextFieldToValuesMap.at( aField ) != aValue )
{
m_context.TextFieldToValuesMap.at( aField ) = aValue;
m_context.InconsistentTextFields.insert( aField );
return false;
}
}
else
{
m_context.TextFieldToValuesMap.insert( { aField, aValue } );
}
return true;
};
PROJECT* pj = &m_schematic->Prj();
if( pj )
{
std::map<wxString, wxString>& txtVars = pj->GetTextVars();
// Most of the design text fields can be derived from other elements
if( Schematic.VariantHierarchy.Variants.size() > 0 )
{
VARIANT loadedVar = Schematic.VariantHierarchy.Variants.begin()->second;
findAndReplaceTextField( TEXT_FIELD_NAME::VARIANT_NAME, loadedVar.Name );
findAndReplaceTextField( TEXT_FIELD_NAME::VARIANT_DESCRIPTION, loadedVar.Description );
}
findAndReplaceTextField( TEXT_FIELD_NAME::DESIGN_TITLE, Header.JobTitle );
for( std::pair<TEXT_FIELD_NAME, wxString> txtvalue : m_context.TextFieldToValuesMap )
{
wxString varName = CADSTAR_TO_KICAD_FIELDS.at( txtvalue.first );
wxString varValue = txtvalue.second;
txtVars.insert( { varName, varValue } );
}
for( std::pair<wxString, wxString> txtvalue : m_context.FilenamesToTextMap )
{
wxString varName = txtvalue.first;
wxString varValue = txtvalue.second;
txtVars.insert( { varName, varValue } );
}
}
else
{
m_reporter->Report( _( "Text Variables could not be set as there is no project attached." ),
RPT_SEVERITY_ERROR );
}
}
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SCH_FIELD*
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CADSTAR_SCH_ARCHIVE_LOADER::addNewFieldToSymbol( const wxString& aFieldName,
std::unique_ptr<LIB_SYMBOL>& aKiCadSymbol )
{
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// First Check if field already exists
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SCH_FIELD* existingField = aKiCadSymbol->FindField( aFieldName );
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if( existingField != nullptr )
return existingField;
int newfieldID = aKiCadSymbol->GetFieldCount();
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SCH_FIELD* newfield = new SCH_FIELD( aKiCadSymbol.get(), newfieldID );
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newfield->SetName( aFieldName );
newfield->SetVisible( false );
aKiCadSymbol->AddField( newfield );
/*
@todo we should load that a field is a URL by checking if it starts with "Link"
e.g.:
if( aFieldName.Lower().StartsWith( "link" ) )
newfield->SetAsURL*/
return newfield;
}
const LIB_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::loadSymdef( const SYMDEF_ID& aSymdefID )
{
wxCHECK( Library.SymbolDefinitions.find( aSymdefID ) != Library.SymbolDefinitions.end(), nullptr );
if( m_symDefMap.count( aSymdefID ) )
return m_symDefMap.at( aSymdefID ).get(); // return a non-owning ptr
SYMDEF_SCM csSym = Library.SymbolDefinitions.at( aSymdefID );
std::unique_ptr<LIB_SYMBOL> kiSym = std::make_unique<LIB_SYMBOL>( csSym.BuildLibName() );
const int gateNumber = 1; // Always load to gate "A" - we will change the unit later
// Load Graphical Figures
for( std::pair<FIGURE_ID, FIGURE> figPair : csSym.Figures )
{
FIGURE fig = figPair.second;
int lineThickness = getLineThickness( fig.LineCodeID );
LINE_STYLE linestyle = getLineStyle( fig.LineCodeID );
if( fig.Shape.Type == SHAPE_TYPE::OPENSHAPE )
{
loadLibrarySymbolShapeVertices( fig.Shape.Vertices, csSym.Origin, kiSym.get(),
gateNumber,
lineThickness );
}
else
{
LIB_SHAPE* shape = new LIB_SHAPE( kiSym.get(), SHAPE_T::POLY );
shape->SetPolyShape( fig.Shape.ConvertToPolySet(
[&]( const VECTOR2I& aPt )
{
return getKiCadLibraryPoint( aPt, csSym.Origin );
},
ARC_ACCURACY ) );
shape->SetUnit( gateNumber );
shape->SetStroke( STROKE_PARAMS( lineThickness, linestyle ) );
if( fig.Shape.Type == SHAPE_TYPE::SOLID )
shape->SetFillMode( FILL_T::FILLED_SHAPE );
else if( fig.Shape.Type == SHAPE_TYPE::OUTLINE )
shape->SetFillMode( FILL_T::NO_FILL );
else if( fig.Shape.Type == SHAPE_TYPE::HATCHED ) // We don't have an equivalent
shape->SetFillMode( FILL_T::FILLED_WITH_BG_BODYCOLOR );
kiSym->AddDrawItem( shape );
}
}
PINNUM_TO_TERMINAL_MAP pinNumToTerminals;
// Load Pins
for( std::pair<TERMINAL_ID, TERMINAL> termPair : csSym.Terminals )
{
TERMINAL term = termPair.second;
wxString pinNum = wxString::Format( "%ld", term.ID );
wxString pinName = wxEmptyString;
std::unique_ptr<LIB_PIN> pin = std::make_unique<LIB_PIN>( kiSym.get() );
// Assume passive pin for now (we will set it later once we load the parts)
pin->SetType( ELECTRICAL_PINTYPE::PT_PASSIVE );
pin->SetPosition( getKiCadLibraryPoint( term.Position, csSym.Origin ) );
pin->SetLength( 0 ); //CADSTAR Pins are just a point (have no length)
pin->SetShape( GRAPHIC_PINSHAPE::LINE );
pin->SetUnit( gateNumber );
pin->SetNumber( pinNum );
pin->SetName( pinName );
// TC0 is the default CADSTAR text size for name/number if none specified
int pinNumberHeight = getTextHeightFromTextCode( wxT( "TC0" ) );
int pinNameHeight = getTextHeightFromTextCode( wxT( "TC0" ) );
if( csSym.PinNumberLocations.count( term.ID ) )
{
PIN_NUM_LABEL_LOC pinNumLocation = csSym.PinNumberLocations.at( term.ID );
pinNumberHeight = getTextHeightFromTextCode( pinNumLocation.TextCodeID );
}
if( csSym.PinLabelLocations.count( term.ID ) )
{
PIN_NUM_LABEL_LOC pinNameLocation = csSym.PinLabelLocations.at( term.ID );
pinNameHeight = getTextHeightFromTextCode( pinNameLocation.TextCodeID );
}
pin->SetNumberTextSize( pinNumberHeight );
pin->SetNameTextSize( pinNameHeight );
pinNumToTerminals.insert( { pin->GetNumber(), term.ID } );
kiSym->AddDrawItem( pin.release() );
}
m_symDefTerminalsMap.insert( { aSymdefID, pinNumToTerminals } );
fixUpLibraryPins( kiSym.get(), gateNumber );
// Load Text items
for( std::pair<TEXT_ID, TEXT> textPair : csSym.Texts )
{
TEXT csText = textPair.second;
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VECTOR2I pos = getKiCadLibraryPoint( csText.Position, csSym.Origin );
auto libtext = std::make_unique<SCH_TEXT>( pos, csText.Text, LAYER_DEVICE );
libtext->SetUnit( gateNumber );
libtext->SetPosition( getKiCadLibraryPoint( csText.Position, csSym.Origin ) );
libtext->SetMultilineAllowed( true ); // temporarily so that we calculate bbox correctly
applyTextSettings( libtext.get(), csText.TextCodeID, csText.Alignment, csText.Justification,
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csText.OrientAngle, csText.Mirror, true );
// Split out multi line text items into individual text elements
if( csText.Text.Contains( "\n" ) )
{
wxArrayString strings;
wxStringSplit( csText.Text, strings, '\n' );
wxPoint firstLinePos;
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for( size_t ii = 0; ii < strings.size(); ++ii )
{
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BOX2I bbox = libtext->GetTextBox( ii, true );
VECTOR2I linePos = { bbox.GetLeft(), -bbox.GetBottom() };
RotatePoint( linePos, libtext->GetTextPos(), -libtext->GetTextAngle() );
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SCH_TEXT* textLine = static_cast<SCH_TEXT*>( libtext->Duplicate() );
textLine->SetText( strings[ii] );
textLine->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
textLine->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
textLine->SetTextPos( linePos );
// Multiline text not allowed in LIB_TEXT
textLine->SetMultilineAllowed( false );
kiSym->AddDrawItem( textLine );
}
}
else
{
// Multiline text not allowed in LIB_TEXT
libtext->SetMultilineAllowed( false );
kiSym->AddDrawItem( libtext.release() );
}
}
// CADSTAR uses TC1 when fields don't have explicit text/attribute location
static const TEXTCODE_ID defaultTextCode = "TC1";
// Load field locations (Attributes in CADSTAR)
// Symbol name (e.g. R1)
if( csSym.TextLocations.count( SYMBOL_NAME_ATTRID ) )
{
TEXT_LOCATION& textLoc = csSym.TextLocations.at( SYMBOL_NAME_ATTRID );
applyToLibraryFieldAttribute( textLoc, csSym.Origin, &kiSym->GetReferenceField() );
}
else
{
applyTextCodeIfExists( &kiSym->GetReferenceField(), defaultTextCode );
}
// Always add the part name field (even if it doesn't have a specific location defined)
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SCH_FIELD* partField = addNewFieldToSymbol( PartNameFieldName, kiSym );
wxCHECK( partField, nullptr );
wxASSERT( partField->GetName() == PartNameFieldName );
if( csSym.TextLocations.count( PART_NAME_ATTRID ) )
{
TEXT_LOCATION& textLoc = csSym.TextLocations.at( PART_NAME_ATTRID );
applyToLibraryFieldAttribute( textLoc, csSym.Origin, partField );
}
else
{
applyTextCodeIfExists( partField, defaultTextCode );
}
partField->SetVisible( SymbolPartNameColor.IsVisible );
for( auto& [attributeId, textLocation] : csSym.TextLocations )
{
if( attributeId == PART_NAME_ATTRID || attributeId == SYMBOL_NAME_ATTRID
|| attributeId == SIGNALNAME_ORIGIN_ATTRID || attributeId == LINK_ORIGIN_ATTRID )
{
continue;
}
wxString attributeName = getAttributeName( attributeId );
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SCH_FIELD* field = addNewFieldToSymbol( attributeName, kiSym );
applyToLibraryFieldAttribute( textLocation, csSym.Origin, field );
}
for( auto& [attributeId, attrValue] : csSym.AttributeValues )
{
if( attributeId == PART_NAME_ATTRID || attributeId == SYMBOL_NAME_ATTRID
|| attributeId == SIGNALNAME_ORIGIN_ATTRID || attributeId == LINK_ORIGIN_ATTRID )
{
continue;
}
wxString attributeName = getAttributeName( attributeId );
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SCH_FIELD* field = addNewFieldToSymbol( attributeName, kiSym );
if( attrValue.HasLocation )
applyToLibraryFieldAttribute( attrValue.AttributeLocation, csSym.Origin, field );
else
applyTextCodeIfExists( field, defaultTextCode );
}
m_symDefMap.insert( { aSymdefID, std::move( kiSym ) } );
return m_symDefMap.at( aSymdefID ).get(); // return a non-owning ptr
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolGateAndPartFields( const SYMDEF_ID& aSymdefID,
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const PART& aCadstarPart,
const GATE_ID& aGateID,
LIB_SYMBOL* aSymbol )
{
wxCHECK( Library.SymbolDefinitions.find( aSymdefID ) != Library.SymbolDefinitions.end(), /*void*/ );
std::unique_ptr<LIB_SYMBOL> kiSymDef( loadSymdef( aSymdefID )->Duplicate() );
wxCHECK( kiSymDef, /*void*/ );
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//todo: need to use unique_ptr more. For now just create it here and release at end of function
std::unique_ptr<LIB_SYMBOL> tempSymbol( aSymbol );
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// Update the pin numbers to match those defined in the Cadstar part
TERMINAL_TO_PINNUM_MAP pinNumMap;
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for( auto&& [storedPinNum, termID] : m_symDefTerminalsMap[aSymdefID] )
{
PART::DEFINITION::PIN csPin = getPartDefinitionPin( aCadstarPart, aGateID, termID );
LIB_PIN* pin = kiSymDef->GetPin( storedPinNum );
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wxString pinName = HandleTextOverbar( csPin.Label );
wxString pinNum = HandleTextOverbar( csPin.Name );
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if( pinNum.IsEmpty() )
{
if( !csPin.Identifier.IsEmpty() )
pinNum = csPin.Identifier;
else if( csPin.ID == UNDEFINED_VALUE )
pinNum = wxString::Format( "%ld", termID );
else
pinNum = wxString::Format( "%ld", csPin.ID );
}
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pin->SetType( getKiCadPinType( csPin.Type ) );
pin->SetNumber( pinNum );
pin->SetName( pinName );
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pinNumMap.insert( { termID, pinNum } );
}
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m_pinNumsMap.insert( { aCadstarPart.ID + aGateID, pinNumMap } );
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// COPY ITEMS
int gateNumber = getKiCadUnitNumberFromGate( aGateID );
copySymbolItems( kiSymDef, tempSymbol, gateNumber );
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// Hide the value field for now (it might get unhidden if an attribute exists in the cadstar
// design with the text "Value"
tempSymbol->GetValueField().SetVisible( false );
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SCH_FIELD* partNameField = tempSymbol->FindField( PartNameFieldName );
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if( partNameField )
partNameField->SetText( EscapeFieldText( aCadstarPart.Name ) );
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const POINT& symDefOrigin = Library.SymbolDefinitions.at( aSymdefID ).Origin;
wxString footprintRefName = wxEmptyString;
wxString footprintAlternateName = wxEmptyString;
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auto loadLibraryField = [&]( const ATTRIBUTE_VALUE& aAttributeVal )
{
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wxString attrName = getAttributeName( aAttributeVal.AttributeID );
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// Remove invalid field characters
wxString attributeValue = aAttributeVal.Value;
attributeValue.Replace( wxT( "\n" ), wxT( "\\n" ) );
attributeValue.Replace( wxT( "\r" ), wxT( "\\r" ) );
attributeValue.Replace( wxT( "\t" ), wxT( "\\t" ) );
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//TODO: Handle "links": In cadstar a field can be a "link" if its name starts
// with the characters "Link ". Need to figure out how to convert them to
// equivalent in KiCad.
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if( attrName == wxT( "(PartDefinitionNameStem)" ) )
{
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//Space not allowed in Reference field
attributeValue.Replace( wxT( " " ), "_" );
tempSymbol->GetReferenceField().SetText( attributeValue );
return;
}
else if( attrName == wxT( "(PartDescription)" ) )
{
tempSymbol->SetDescription( attributeValue );
return;
}
else if( attrName == wxT( "(PartDefinitionReferenceName)" ) )
{
footprintRefName = attributeValue;
return;
}
else if( attrName == wxT( "(PartDefinitionAlternateName)" ) )
{
footprintAlternateName = attributeValue;
return;
}
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bool attrIsNew = tempSymbol->FindField( attrName ) == nullptr;
SCH_FIELD* attrField = addNewFieldToSymbol( attrName, tempSymbol );
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wxASSERT( attrField->GetName() == attrName );
attrField->SetText( aAttributeVal.Value );
attrField->SetUnit( gateNumber );
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const ATTRIBUTE_ID& attrid = aAttributeVal.AttributeID;
attrField->SetVisible( isAttributeVisible( attrid ) );
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if( aAttributeVal.HasLocation )
{
// Check if the part itself defined a location for the field
applyToLibraryFieldAttribute( aAttributeVal.AttributeLocation, symDefOrigin,
attrField );
}
else if( attrIsNew )
{
attrField->SetVisible( false );
applyTextSettings( attrField, wxT( "TC1" ), ALIGNMENT::NO_ALIGNMENT,
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JUSTIFICATION::LEFT, false, true );
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}
};
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// Load all attributes in the Part Definition
for( auto& [attrId, attrVal] : aCadstarPart.Definition.AttributeValues )
loadLibraryField( attrVal );
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// Load all attributes in the Part itself.
for( auto& [attrId, attrVal] : aCadstarPart.AttributeValues )
loadLibraryField( attrVal );
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setFootprintOnSymbol( tempSymbol, footprintRefName, footprintAlternateName );
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if( aCadstarPart.Definition.HidePinNames )
{
tempSymbol->SetShowPinNames( false );
tempSymbol->SetShowPinNumbers( false );
}
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aSymbol = tempSymbol.release();
}
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void CADSTAR_SCH_ARCHIVE_LOADER::setFootprintOnSymbol( std::unique_ptr<LIB_SYMBOL>& aKiCadSymbol,
const wxString& aFootprintName,
const wxString& aFootprintAlternate )
{
wxString fpNameInLibrary = generateLibName( aFootprintName, aFootprintAlternate );
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if( !fpNameInLibrary.IsEmpty() )
{
wxArrayString fpFilters;
fpFilters.Add( aFootprintName ); // In cadstar one footprint has several "alternates"
if( !aFootprintAlternate.IsEmpty() )
fpFilters.Add( fpNameInLibrary );
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aKiCadSymbol->SetFPFilters( fpFilters );
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LIB_ID libID( m_footprintLibName, fpNameInLibrary );
aKiCadSymbol->GetFootprintField().SetText( libID.Format() );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadLibrarySymbolShapeVertices( const std::vector<VERTEX>& aCadstarVertices,
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const VECTOR2I& aSymbolOrigin,
LIB_SYMBOL* aSymbol,
int aGateNumber,
int aLineThickness )
{
const VERTEX* prev = &aCadstarVertices.at( 0 );
const VERTEX* cur;
wxASSERT_MSG( prev->Type == VERTEX_TYPE::POINT, "First vertex should always be a point." );
for( size_t i = 1; i < aCadstarVertices.size(); i++ )
{
cur = &aCadstarVertices.at( i );
LIB_SHAPE* shape = nullptr;
bool cw = false;
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VECTOR2I startPoint = getKiCadLibraryPoint( prev->End, aSymbolOrigin );
VECTOR2I endPoint = getKiCadLibraryPoint( cur->End, aSymbolOrigin );
VECTOR2I centerPoint;
if( cur->Type == VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE
|| cur->Type == VERTEX_TYPE::CLOCKWISE_SEMICIRCLE )
{
centerPoint = ( startPoint + endPoint ) / 2;
}
else
{
centerPoint = getKiCadLibraryPoint( cur->Center, aSymbolOrigin );
}
switch( cur->Type )
{
case VERTEX_TYPE::POINT:
shape = new LIB_SHAPE( aSymbol, SHAPE_T::POLY );
shape->AddPoint( startPoint );
shape->AddPoint( 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:
shape = new LIB_SHAPE( aSymbol, SHAPE_T::ARC );
shape->SetPosition( centerPoint );
if( cw )
{
shape->SetStart( endPoint );
shape->SetEnd( startPoint );
}
else
{
shape->SetStart( startPoint );
shape->SetEnd( endPoint );
}
break;
}
shape->SetUnit( aGateNumber );
shape->SetStroke( STROKE_PARAMS( aLineThickness, LINE_STYLE::SOLID ) );
aSymbol->AddDrawItem( shape, false );
prev = cur;
}
aSymbol->GetDrawItems().sort();
}
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void CADSTAR_SCH_ARCHIVE_LOADER::applyToLibraryFieldAttribute( const ATTRIBUTE_LOCATION& aCadstarAttrLoc,
const VECTOR2I& aSymbolOrigin,
SCH_FIELD* aKiCadField )
{
aKiCadField->SetTextPos( getKiCadLibraryPoint( aCadstarAttrLoc.Position, aSymbolOrigin ) );
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applyTextSettings( aKiCadField, aCadstarAttrLoc.TextCodeID, aCadstarAttrLoc.Alignment,
aCadstarAttrLoc.Justification, aCadstarAttrLoc.OrientAngle,
aCadstarAttrLoc.Mirror, true );
}
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SCH_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::loadSchematicSymbol( const SYMBOL& aCadstarSymbol,
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const LIB_SYMBOL& aKiCadPart,
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EDA_ANGLE& aComponentOrientation )
{
LIB_ID libId;
libId.SetLibItemName( aKiCadPart.GetName() );
int unit = getKiCadUnitNumberFromGate( aCadstarSymbol.GateID );
SCH_SHEET_PATH sheetpath;
SCH_SHEET* kiSheet = m_sheetMap.at( aCadstarSymbol.LayerID );
m_rootSheet->LocatePathOfScreen( kiSheet->GetScreen(), &sheetpath );
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SCH_SYMBOL* symbol = new SCH_SYMBOL( aKiCadPart, libId, &sheetpath, unit );
if( aCadstarSymbol.IsComponent )
{
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symbol->SetRef( &sheetpath, aCadstarSymbol.ComponentRef.Designator );
}
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symbol->SetPosition( getKiCadPoint( aCadstarSymbol.Origin ) );
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EDA_ANGLE compAngle = getAngle( aCadstarSymbol.OrientAngle );
int compOrientation = 0;
if( aCadstarSymbol.Mirror )
{
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compAngle = -compAngle;
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compOrientation += SYMBOL_ORIENTATION_T::SYM_MIRROR_Y;
}
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compOrientation += getComponentOrientation( compAngle, aComponentOrientation );
EDA_ANGLE test1( compAngle );
EDA_ANGLE test2( aComponentOrientation );
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if( test1.Normalize180() != test2.Normalize180() )
{
m_reporter->Report( wxString::Format( _( "Symbol '%s' is rotated by an angle of %.1f "
"degrees in the original CADSTAR design but "
"KiCad only supports rotation angles multiples "
"of 90 degrees. The connecting wires will need "
"manual fixing." ),
aCadstarSymbol.ComponentRef.Designator,
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compAngle.AsDegrees() ),
RPT_SEVERITY_ERROR );
}
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symbol->SetOrientation( compOrientation );
if( m_sheetMap.find( aCadstarSymbol.LayerID ) == m_sheetMap.end() )
{
m_reporter->Report( wxString::Format( _( "Symbol '%s' references sheet ID '%s' which does "
"not exist in the design. The symbol was not "
"loaded." ),
aCadstarSymbol.ComponentRef.Designator,
aCadstarSymbol.LayerID ),
RPT_SEVERITY_ERROR );
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delete symbol;
return nullptr;
}
wxString gate = ( aCadstarSymbol.GateID.IsEmpty() ) ? wxString( wxT( "A" ) ) : aCadstarSymbol.GateID;
wxString partGateIndex = aCadstarSymbol.PartRef.RefID + gate;
//Handle pin swaps
if( m_pinNumsMap.find( partGateIndex ) != m_pinNumsMap.end() )
{
TERMINAL_TO_PINNUM_MAP termNumMap = m_pinNumsMap.at( partGateIndex );
std::map<wxString, LIB_PIN*> pinNumToLibPinMap;
for( auto& term : termNumMap )
{
wxString pinNum = term.second;
pinNumToLibPinMap.insert( { pinNum,
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symbol->GetLibSymbolRef()->GetPin( term.second ) } );
}
auto replacePinNumber =
[&]( wxString aOldPinNum, wxString aNewPinNum )
{
if( aOldPinNum == aNewPinNum )
return;
LIB_PIN* libpin = pinNumToLibPinMap.at( aOldPinNum );
libpin->SetNumber( HandleTextOverbar( aNewPinNum ) );
};
//Older versions of Cadstar used pin numbers
for( auto& pinPair : aCadstarSymbol.PinNumbers )
{
SYMBOL::PIN_NUM pin = pinPair.second;
replacePinNumber( termNumMap.at( pin.TerminalID ),
wxString::Format( "%ld", pin.PinNum ) );
}
//Newer versions of Cadstar use pin names
for( auto& pinPair : aCadstarSymbol.PinNames )
{
SYMPINNAME_LABEL pin = pinPair.second;
replacePinNumber( termNumMap.at( pin.TerminalID ), pin.NameOrLabel );
}
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symbol->UpdatePins();
}
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kiSheet->GetScreen()->Append( symbol );
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return symbol;
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadSymbolFieldAttribute( const ATTRIBUTE_LOCATION& aCadstarAttrLoc,
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const EDA_ANGLE& aComponentOrientation,
bool aIsMirrored,
SCH_FIELD* aKiCadField )
{
aKiCadField->SetPosition( getKiCadPoint( aCadstarAttrLoc.Position ) );
aKiCadField->SetVisible( true );
ALIGNMENT alignment = aCadstarAttrLoc.Alignment;
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EDA_ANGLE textAngle = getAngle( aCadstarAttrLoc.OrientAngle );
if( aIsMirrored )
{
// We need to change the aligment when the symbol is mirrored based on the text orientation
// To ensure the anchor point is the same in KiCad.
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int textIsVertical = KiROUND( textAngle.AsDegrees() / 90.0 ) % 2;
if( textIsVertical )
alignment = rotate180( alignment );
alignment = mirrorX( alignment );
}
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applyTextSettings( aKiCadField, aCadstarAttrLoc.TextCodeID, alignment,
aCadstarAttrLoc.Justification,
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getCadstarAngle( textAngle - aComponentOrientation ),
aCadstarAttrLoc.Mirror );
}
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int CADSTAR_SCH_ARCHIVE_LOADER::getComponentOrientation( const EDA_ANGLE& aOrientAngle,
EDA_ANGLE& aReturnedOrientation )
{
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int compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_0;
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EDA_ANGLE oDeg = aOrientAngle;
oDeg.Normalize180();
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if( oDeg >= -ANGLE_45 && oDeg <= ANGLE_45 )
{
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compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_0;
aReturnedOrientation = ANGLE_0;
}
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else if( oDeg >= ANGLE_45 && oDeg <= ANGLE_135 )
{
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compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_90;
aReturnedOrientation = ANGLE_90;
}
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else if( oDeg >= ANGLE_135 || oDeg <= -ANGLE_135 )
{
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compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_180;
aReturnedOrientation = ANGLE_180;
}
else
{
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compOrientation = SYMBOL_ORIENTATION_T::SYM_ORIENT_270;
aReturnedOrientation = ANGLE_270;
}
return compOrientation;
}
CADSTAR_SCH_ARCHIVE_LOADER::POINT
CADSTAR_SCH_ARCHIVE_LOADER::getLocationOfNetElement( const NET_SCH& aNet,
const NETELEMENT_ID& aNetElementID )
{
// clang-format off
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auto logUnknownNetElementError =
[&]()
{
m_reporter->Report( wxString::Format( _( "Net %s references unknown net element %s. "
"The net was not properly loaded and may "
"require manual fixing." ),
getNetName( aNet ),
aNetElementID ),
RPT_SEVERITY_ERROR );
return POINT();
};
// clang-format on
if( aNetElementID.Contains( "J" ) ) // Junction
{
if( aNet.Junctions.find( aNetElementID ) == aNet.Junctions.end() )
return logUnknownNetElementError();
return aNet.Junctions.at( aNetElementID ).Location;
}
else if( aNetElementID.Contains( "P" ) ) // Terminal/Pin of a symbol
{
if( aNet.Terminals.find( aNetElementID ) == aNet.Terminals.end() )
return logUnknownNetElementError();
SYMBOL_ID symid = aNet.Terminals.at( aNetElementID ).SymbolID;
TERMINAL_ID termid = aNet.Terminals.at( aNetElementID ).TerminalID;
if( Schematic.Symbols.find( symid ) == Schematic.Symbols.end() )
return logUnknownNetElementError();
SYMBOL sym = Schematic.Symbols.at( symid );
SYMDEF_ID symdefid = sym.SymdefID;
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VECTOR2I symbolOrigin = sym.Origin;
if( Library.SymbolDefinitions.find( symdefid ) == Library.SymbolDefinitions.end() )
return logUnknownNetElementError();
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VECTOR2I libpinPosition =
Library.SymbolDefinitions.at( symdefid ).Terminals.at( termid ).Position;
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VECTOR2I libOrigin = Library.SymbolDefinitions.at( symdefid ).Origin;
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VECTOR2I pinOffset = libpinPosition - libOrigin;
pinOffset.x = ( pinOffset.x * sym.ScaleRatioNumerator ) / sym.ScaleRatioDenominator;
pinOffset.y = ( pinOffset.y * sym.ScaleRatioNumerator ) / sym.ScaleRatioDenominator;
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VECTOR2I pinPosition = symbolOrigin + pinOffset;
EDA_ANGLE compAngle = getAngle( sym.OrientAngle );
if( sym.Mirror )
pinPosition.x = ( 2 * symbolOrigin.x ) - pinPosition.x;
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EDA_ANGLE adjustedOrientation;
getComponentOrientation( compAngle, adjustedOrientation );
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RotatePoint( pinPosition, symbolOrigin, -adjustedOrientation );
POINT retval;
retval.x = pinPosition.x;
retval.y = pinPosition.y;
return retval;
}
else if( aNetElementID.Contains( "BT" ) ) // Bus Terminal
{
if( aNet.BusTerminals.find( aNetElementID ) == aNet.BusTerminals.end() )
return logUnknownNetElementError();
return aNet.BusTerminals.at( aNetElementID ).SecondPoint;
}
else if( aNetElementID.Contains( "BLKT" ) ) // Block Terminal (sheet hierarchy connection)
{
if( aNet.BlockTerminals.find( aNetElementID ) == aNet.BlockTerminals.end() )
return logUnknownNetElementError();
BLOCK_ID blockid = aNet.BlockTerminals.at( aNetElementID ).BlockID;
TERMINAL_ID termid = aNet.BlockTerminals.at( aNetElementID ).TerminalID;
if( Schematic.Blocks.find( blockid ) == Schematic.Blocks.end() )
return logUnknownNetElementError();
return Schematic.Blocks.at( blockid ).Terminals.at( termid ).Position;
}
else if( aNetElementID.Contains( "D" ) ) // Dangler
{
if( aNet.Danglers.find( aNetElementID ) == aNet.Danglers.end() )
return logUnknownNetElementError();
return aNet.Danglers.at( aNetElementID ).Position;
}
else
{
return logUnknownNetElementError();
}
}
wxString CADSTAR_SCH_ARCHIVE_LOADER::getNetName( const NET_SCH& aNet )
{
wxString netname = aNet.Name;
if( netname.IsEmpty() )
netname = wxString::Format( "$%ld", aNet.SignalNum );
return netname;
}
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void CADSTAR_SCH_ARCHIVE_LOADER::loadShapeVertices( const std::vector<VERTEX>& aCadstarVertices,
LINECODE_ID aCadstarLineCodeID,
LAYER_ID aCadstarSheetID,
SCH_LAYER_ID aKiCadSchLayerID,
const VECTOR2I& aMoveVector,
const EDA_ANGLE& aRotation,
const double& aScalingFactor,
const VECTOR2I& aTransformCentre,
const bool& aMirrorInvert )
{
int lineWidth = KiROUND( getLineThickness( aCadstarLineCodeID ) * aScalingFactor );
LINE_STYLE lineStyle = getLineStyle( aCadstarLineCodeID );
const VERTEX* prev = &aCadstarVertices.at( 0 );
const VERTEX* cur;
wxASSERT_MSG( prev->Type == VERTEX_TYPE::POINT,
"First vertex should always be a point vertex" );
auto pointTransform =
[&]( const VECTOR2I& aV )
{
return applyTransform( getKiCadPoint( aV ), aMoveVector, aRotation,
aScalingFactor, aTransformCentre, aMirrorInvert );
};
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for( size_t ii = 1; ii < aCadstarVertices.size(); ii++ )
{
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cur = &aCadstarVertices.at( ii );
VECTOR2I transformedStartPoint = pointTransform( prev->End );
VECTOR2I transformedEndPoint = pointTransform( cur->End );
switch( cur->Type )
{
case VERTEX_TYPE::CLOCKWISE_SEMICIRCLE:
case VERTEX_TYPE::CLOCKWISE_ARC:
case VERTEX_TYPE::ANTICLOCKWISE_SEMICIRCLE:
case VERTEX_TYPE::ANTICLOCKWISE_ARC:
{
SHAPE_ARC tempArc = cur->BuildArc( transformedStartPoint, pointTransform );
SCH_SHAPE* arcShape = new SCH_SHAPE( SHAPE_T::ARC, lineWidth );
arcShape->SetArcGeometry( tempArc.GetP0(), tempArc.GetArcMid(), tempArc.GetP1() );
loadItemOntoKiCadSheet( aCadstarSheetID, arcShape );
}
break;
case VERTEX_TYPE::POINT:
{
SCH_LINE* segment = new SCH_LINE();
segment->SetLayer( aKiCadSchLayerID );
segment->SetLineWidth( lineWidth );
segment->SetLineStyle( lineStyle );
segment->SetStartPoint( transformedStartPoint );
segment->SetEndPoint( transformedEndPoint );
loadItemOntoKiCadSheet( aCadstarSheetID, segment );
}
break;
default:
wxFAIL_MSG( "Unknown CADSTAR Vertex type" );
}
prev = cur;
}
}
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void CADSTAR_SCH_ARCHIVE_LOADER::loadFigure( const FIGURE& aCadstarFigure,
const LAYER_ID& aCadstarSheetIDOverride,
SCH_LAYER_ID aKiCadSchLayerID,
const VECTOR2I& aMoveVector,
const EDA_ANGLE& aRotation,
const double& aScalingFactor,
const VECTOR2I& aTransformCentre,
const bool& aMirrorInvert )
{
loadShapeVertices( aCadstarFigure.Shape.Vertices, aCadstarFigure.LineCodeID,
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aCadstarSheetIDOverride, aKiCadSchLayerID, aMoveVector, aRotation,
aScalingFactor, aTransformCentre, aMirrorInvert );
for( CUTOUT cutout : aCadstarFigure.Shape.Cutouts )
{
loadShapeVertices( cutout.Vertices, aCadstarFigure.LineCodeID, aCadstarSheetIDOverride,
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aKiCadSchLayerID, aMoveVector, aRotation, aScalingFactor,
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aTransformCentre, aMirrorInvert );
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadSheetAndChildSheets( LAYER_ID aCadstarSheetID,
const VECTOR2I& aPosition,
VECTOR2I aSheetSize,
const SCH_SHEET_PATH& aParentSheet )
{
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wxCHECK_MSG( m_sheetMap.find( aCadstarSheetID ) == m_sheetMap.end(), ,
"Sheet already loaded!" );
SCH_SHEET* sheet = new SCH_SHEET(
/* aParent */ aParentSheet.Last(),
/* aPosition */ aPosition,
/* aSize */ VECTOR2I( aSheetSize ) );
SCH_SCREEN* screen = new SCH_SCREEN( m_schematic );
SCH_SHEET_PATH instance( aParentSheet );
sheet->SetScreen( screen );
wxString name = Sheets.SheetNames.at( aCadstarSheetID );
SCH_FIELD& sheetNameField = sheet->GetFields()[SHEETNAME];
SCH_FIELD& filenameField = sheet->GetFields()[SHEETFILENAME];
sheetNameField.SetText( name );
int sheetNum = getSheetNumber( aCadstarSheetID );
wxString loadedFilename = wxFileName( Filename ).GetName();
std::string filename = wxString::Format( "%s_%02d", loadedFilename, sheetNum ).ToStdString();
ReplaceIllegalFileNameChars( &filename );
filename += wxT( "." ) + wxString( FILEEXT::KiCadSchematicFileExtension );
filenameField.SetText( filename );
wxFileName fn( m_schematic->Prj().GetProjectPath() + filename );
sheet->GetScreen()->SetFileName( fn.GetFullPath() );
aParentSheet.Last()->GetScreen()->Append( sheet );
instance.push_back( sheet );
wxString pageNumStr = wxString::Format( "%d", getSheetNumber( aCadstarSheetID ) );
instance.SetPageNumber( pageNumStr );
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sheet->AutoplaceFields( /* aScreen */ nullptr, /* aManual */ false );
m_sheetMap.insert( { aCadstarSheetID, sheet } );
loadChildSheets( aCadstarSheetID, instance );
}
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void CADSTAR_SCH_ARCHIVE_LOADER::loadChildSheets( LAYER_ID aCadstarSheetID,
const SCH_SHEET_PATH& aSheet )
{
wxCHECK_MSG( m_sheetMap.find( aCadstarSheetID ) != m_sheetMap.end(), ,
"FIXME! Parent sheet should be loaded before attempting to load subsheets" );
for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )
{
BLOCK& block = blockPair.second;
if( block.LayerID == aCadstarSheetID && block.Type == BLOCK::TYPE::CHILD )
{
if( block.AssocLayerID == wxT( "NO_LINK" ) )
{
if( block.Figures.size() > 0 )
{
m_reporter->Report( wxString::Format( _( "The block ID %s (Block name: '%s') "
"is drawn on sheet '%s' but is not "
"linked to another sheet in the "
"design. KiCad requires all sheet "
"symbols to be associated to a sheet, "
"so the block was not loaded." ),
block.ID, block.Name,
Sheets.SheetNames.at( aCadstarSheetID ) ),
RPT_SEVERITY_ERROR );
}
continue;
}
// In KiCad you can only draw rectangular shapes whereas in Cadstar arbitrary shapes
// are allowed. We will calculate the extents of the Cadstar shape and draw a rectangle
std::pair<VECTOR2I, VECTOR2I> blockExtents;
if( block.Figures.size() > 0 )
{
blockExtents = getFigureExtentsKiCad( block.Figures.begin()->second );
}
else
{
THROW_IO_ERROR( wxString::Format( _( "The CADSTAR schematic might be corrupt: "
"Block %s references a child sheet but has no "
"Figure defined." ),
block.ID ) );
}
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loadSheetAndChildSheets( block.AssocLayerID, blockExtents.first, blockExtents.second,
aSheet );
// Hide all KiCad sheet properties (sheet name/filename is not applicable in CADSTAR)
SCH_SHEET* loadedSheet = m_sheetMap.at( block.AssocLayerID );
SCH_FIELDS fields = loadedSheet->GetFields();
for( SCH_FIELD& field : fields )
{
field.SetVisible( false );
}
if( block.HasBlockLabel )
{
//@todo use below code when KiCad supports multi-line fields
/*
// Add the block label as a separate field
SCH_FIELD blockNameField( getKiCadPoint( block.BlockLabel.Position ), 2,
loadedSheet, wxString( "Block name" ) );
blockNameField.SetText( block.Name );
blockNameField.SetVisible( true );
applyTextSettings( &blockNameField,
block.BlockLabel.TextCodeID,
block.BlockLabel.Alignment,
block.BlockLabel.Justification,
block.BlockLabel.OrientAngle,
block.BlockLabel.Mirror );
fields.push_back( blockNameField );*/
// For now as as a text item (supports multi-line properly)
SCH_TEXT* kiTxt = new SCH_TEXT();
kiTxt->SetParent( m_schematic );
kiTxt->SetPosition( getKiCadPoint( block.BlockLabel.Position ) );
kiTxt->SetText( block.Name );
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applyTextSettings( kiTxt, block.BlockLabel.TextCodeID, block.BlockLabel.Alignment,
block.BlockLabel.Justification, block.BlockLabel.OrientAngle,
block.BlockLabel.Mirror );
loadItemOntoKiCadSheet( aCadstarSheetID, kiTxt );
}
loadedSheet->SetFields( fields );
}
}
}
std::vector<CADSTAR_SCH_ARCHIVE_LOADER::LAYER_ID> CADSTAR_SCH_ARCHIVE_LOADER::findOrphanSheets()
{
std::vector<LAYER_ID> childSheets, orphanSheets;
//Find all sheets that are child of another
for( std::pair<BLOCK_ID, BLOCK> blockPair : Schematic.Blocks )
{
BLOCK& block = blockPair.second;
LAYER_ID& assocSheetID = block.AssocLayerID;
if( block.Type == BLOCK::TYPE::CHILD )
childSheets.push_back( assocSheetID );
}
//Add sheets that do not have a parent
for( LAYER_ID sheetID : Sheets.SheetOrder )
{
if( std::find( childSheets.begin(), childSheets.end(), sheetID ) == childSheets.end() )
orphanSheets.push_back( sheetID );
}
return orphanSheets;
}
int CADSTAR_SCH_ARCHIVE_LOADER::getSheetNumber( LAYER_ID aCadstarSheetID )
{
int i = 1;
for( LAYER_ID sheetID : Sheets.SheetOrder )
{
if( sheetID == aCadstarSheetID )
return i;
++i;
}
return -1;
}
void CADSTAR_SCH_ARCHIVE_LOADER::loadItemOntoKiCadSheet( LAYER_ID aCadstarSheetID, SCH_ITEM* aItem )
{
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wxCHECK_MSG( aItem, /*void*/, wxT( "aItem is null" ) );
if( aCadstarSheetID == "ALL_SHEETS" )
{
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SCH_ITEM* duplicateItem = nullptr;
for( std::pair<LAYER_ID, SHEET_NAME> sheetPair : Sheets.SheetNames )
{
LAYER_ID sheetID = sheetPair.first;
duplicateItem = aItem->Duplicate();
m_sheetMap.at( sheetID )->GetScreen()->Append( aItem->Duplicate() );
}
//Get rid of the extra copy:
delete aItem;
aItem = duplicateItem;
}
else if( aCadstarSheetID == "NO_SHEET" )
{
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wxFAIL_MSG( wxT( "Trying to add an item to NO_SHEET? This might be a documentation symbol." ) );
}
else
{
if( m_sheetMap.find( aCadstarSheetID ) != m_sheetMap.end() )
{
m_sheetMap.at( aCadstarSheetID )->GetScreen()->Append( aItem );
}
else
{
delete aItem;
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wxFAIL_MSG( wxT( "Unknown Sheet ID." ) );
}
}
}
CADSTAR_SCH_ARCHIVE_LOADER::SYMDEF_ID
CADSTAR_SCH_ARCHIVE_LOADER::getSymDefFromName( const wxString& aSymdefName,
const wxString& aSymDefAlternate )
{
if( m_SymDefNamesCache.size() != Library.SymbolDefinitions.size() )
{
// Re-initialise
m_SymDefNamesCache.clear();
m_DefaultSymDefNamesCache.clear();
// Create a lower case cache to avoid searching each time
for( auto& [id, symdef] : Library.SymbolDefinitions )
{
wxString refKey = symdef.ReferenceName.Lower();
wxString altKey = symdef.Alternate.Lower();
m_SymDefNamesCache[{ refKey, altKey }] = id;
// Secondary cache to find symbols just by the Name (e.g. if the alternate
// does not exist, we still want to return a symbo - the same behaviour
// as CADSTAR
if( !m_DefaultSymDefNamesCache.count( refKey ) )
{
m_DefaultSymDefNamesCache.insert( { refKey, id } );
}
else if( altKey.IsEmpty() )
{
// Always use the empty alternate if it exists
m_DefaultSymDefNamesCache[refKey] = id;
}
}
}
wxString refKeyToFind = aSymdefName.Lower();
wxString altKeyToFind = aSymDefAlternate.Lower();
if( m_SymDefNamesCache.count( { refKeyToFind, altKeyToFind } ) )
{
return m_SymDefNamesCache[{ refKeyToFind, altKeyToFind }];
}
else if( m_DefaultSymDefNamesCache.count( refKeyToFind ) )
{
return m_DefaultSymDefNamesCache[refKeyToFind];
}
return SYMDEF_ID();
}
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bool CADSTAR_SCH_ARCHIVE_LOADER::isAttributeVisible( const ATTRIBUTE_ID& aCadstarAttributeID )
{
// Use CADSTAR visibility settings to determine if an attribute is visible
if( AttrColors.AttributeColors.find( aCadstarAttributeID ) != AttrColors.AttributeColors.end() )
{
return AttrColors.AttributeColors.at( aCadstarAttributeID ).IsVisible;
}
return false; // If there is no visibility setting, assume not displayed
}
int CADSTAR_SCH_ARCHIVE_LOADER::getLineThickness( const LINECODE_ID& aCadstarLineCodeID )
{
wxCHECK( Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID )
!= Assignments.Codedefs.LineCodes.end(),
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schIUScale.MilsToIU( DEFAULT_WIRE_WIDTH_MILS ) );
return getKiCadLength( Assignments.Codedefs.LineCodes.at( aCadstarLineCodeID ).Width );
}
LINE_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getLineStyle( const LINECODE_ID& aCadstarLineCodeID )
{
wxCHECK( Assignments.Codedefs.LineCodes.find( aCadstarLineCodeID )
!= Assignments.Codedefs.LineCodes.end(),
LINE_STYLE::SOLID );
// clang-format off
switch( Assignments.Codedefs.LineCodes.at( aCadstarLineCodeID ).Style )
{
case LINESTYLE::DASH: return LINE_STYLE::DASH;
case LINESTYLE::DASHDOT: return LINE_STYLE::DASHDOT;
case LINESTYLE::DASHDOTDOT: return LINE_STYLE::DASHDOT; //TODO: update in future
case LINESTYLE::DOT: return LINE_STYLE::DOT;
case LINESTYLE::SOLID: return LINE_STYLE::SOLID;
default: return LINE_STYLE::DEFAULT;
}
// clang-format on
}
CADSTAR_SCH_ARCHIVE_LOADER::TEXTCODE
CADSTAR_SCH_ARCHIVE_LOADER::getTextCode( const TEXTCODE_ID& aCadstarTextCodeID )
{
wxCHECK( Assignments.Codedefs.TextCodes.find( aCadstarTextCodeID )
!= Assignments.Codedefs.TextCodes.end(),
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TEXTCODE() );
return Assignments.Codedefs.TextCodes.at( aCadstarTextCodeID );
}
int CADSTAR_SCH_ARCHIVE_LOADER::getTextHeightFromTextCode( const TEXTCODE_ID& aCadstarTextCodeID )
{
TEXTCODE txtCode = getTextCode( aCadstarTextCodeID );
return KiROUND( (double) getKiCadLength( txtCode.Height ) * TXT_HEIGHT_RATIO );
}
wxString CADSTAR_SCH_ARCHIVE_LOADER::getAttributeName( const ATTRIBUTE_ID& aCadstarAttributeID )
{
wxCHECK( Assignments.Codedefs.AttributeNames.find( aCadstarAttributeID )
!= Assignments.Codedefs.AttributeNames.end(),
aCadstarAttributeID );
return Assignments.Codedefs.AttributeNames.at( aCadstarAttributeID ).Name;
}
CADSTAR_SCH_ARCHIVE_LOADER::PART
CADSTAR_SCH_ARCHIVE_LOADER::getPart( const PART_ID& aCadstarPartID )
{
wxCHECK( Parts.PartDefinitions.find( aCadstarPartID ) != Parts.PartDefinitions.end(), PART() );
return Parts.PartDefinitions.at( aCadstarPartID );
}
CADSTAR_SCH_ARCHIVE_LOADER::ROUTECODE
CADSTAR_SCH_ARCHIVE_LOADER::getRouteCode( const ROUTECODE_ID& aCadstarRouteCodeID )
{
wxCHECK( Assignments.Codedefs.RouteCodes.find( aCadstarRouteCodeID )
!= Assignments.Codedefs.RouteCodes.end(),
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ROUTECODE() );
return Assignments.Codedefs.RouteCodes.at( aCadstarRouteCodeID );
}
CADSTAR_SCH_ARCHIVE_LOADER::PART::DEFINITION::PIN
CADSTAR_SCH_ARCHIVE_LOADER::getPartDefinitionPin( const PART& aCadstarPart, const GATE_ID& aGateID,
const TERMINAL_ID& aTerminalID )
{
for( std::pair<PART_DEFINITION_PIN_ID, PART::DEFINITION::PIN> pinPair :
aCadstarPart.Definition.Pins )
{
PART::DEFINITION::PIN partPin = pinPair.second;
if( partPin.TerminalGate == aGateID && partPin.TerminalPin == aTerminalID )
return partPin;
}
return PART::DEFINITION::PIN();
}
ELECTRICAL_PINTYPE CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPinType( const CADSTAR_PIN_TYPE& aPinType )
{
switch( aPinType )
{
case CADSTAR_PIN_TYPE::UNCOMMITTED: return ELECTRICAL_PINTYPE::PT_PASSIVE;
case CADSTAR_PIN_TYPE::INPUT: return ELECTRICAL_PINTYPE::PT_INPUT;
case CADSTAR_PIN_TYPE::OUTPUT_OR: return ELECTRICAL_PINTYPE::PT_OPENCOLLECTOR;
case CADSTAR_PIN_TYPE::OUTPUT_NOT_OR: return ELECTRICAL_PINTYPE::PT_OUTPUT;
case CADSTAR_PIN_TYPE::OUTPUT_NOT_NORM_OR: return ELECTRICAL_PINTYPE::PT_OUTPUT;
case CADSTAR_PIN_TYPE::POWER: return ELECTRICAL_PINTYPE::PT_POWER_IN;
case CADSTAR_PIN_TYPE::GROUND: return ELECTRICAL_PINTYPE::PT_POWER_IN;
case CADSTAR_PIN_TYPE::TRISTATE_BIDIR: return ELECTRICAL_PINTYPE::PT_BIDI;
case CADSTAR_PIN_TYPE::TRISTATE_INPUT: return ELECTRICAL_PINTYPE::PT_INPUT;
case CADSTAR_PIN_TYPE::TRISTATE_DRIVER: return ELECTRICAL_PINTYPE::PT_OUTPUT;
}
return ELECTRICAL_PINTYPE::PT_UNSPECIFIED;
}
int CADSTAR_SCH_ARCHIVE_LOADER::getKiCadUnitNumberFromGate( const GATE_ID& aCadstarGateID )
{
if( aCadstarGateID.IsEmpty() )
return 1;
return (int) aCadstarGateID.Upper().GetChar( 0 ) - (int) wxUniChar( 'A' ) + 1;
}
SPIN_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getSpinStyle( const long long& aCadstarOrientation,
bool aMirror )
{
EDA_ANGLE orientation = getAngle( aCadstarOrientation );
SPIN_STYLE spinStyle = getSpinStyle( orientation );
if( aMirror )
{
spinStyle = spinStyle.RotateCCW();
spinStyle = spinStyle.RotateCCW();
}
return spinStyle;
}
SPIN_STYLE CADSTAR_SCH_ARCHIVE_LOADER::getSpinStyle( const EDA_ANGLE& aOrientation )
{
SPIN_STYLE spinStyle = SPIN_STYLE::LEFT;
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EDA_ANGLE oDeg = aOrientation;
oDeg.Normalize180();
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if( oDeg >= -ANGLE_45 && oDeg <= ANGLE_45 )
spinStyle = SPIN_STYLE::RIGHT; // 0deg
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else if( oDeg >= ANGLE_45 && oDeg <= ANGLE_135 )
spinStyle = SPIN_STYLE::UP; // 90deg
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else if( oDeg >= ANGLE_135 || oDeg <= -ANGLE_135 )
spinStyle = SPIN_STYLE::LEFT; // 180deg
else
spinStyle = SPIN_STYLE::BOTTOM; // 270deg
return spinStyle;
}
CADSTAR_SCH_ARCHIVE_LOADER::ALIGNMENT
CADSTAR_SCH_ARCHIVE_LOADER::mirrorX( const ALIGNMENT& aCadstarAlignment )
{
switch( aCadstarAlignment )
{
// Change left to right:
case ALIGNMENT::NO_ALIGNMENT:
case ALIGNMENT::BOTTOMLEFT: return ALIGNMENT::BOTTOMRIGHT;
case ALIGNMENT::CENTERLEFT: return ALIGNMENT::CENTERRIGHT;
case ALIGNMENT::TOPLEFT: return ALIGNMENT::TOPRIGHT;
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//Change right to left:
case ALIGNMENT::BOTTOMRIGHT: return ALIGNMENT::BOTTOMLEFT;
case ALIGNMENT::CENTERRIGHT: return ALIGNMENT::CENTERLEFT;
case ALIGNMENT::TOPRIGHT: return ALIGNMENT::TOPLEFT;
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// Center alignment does not mirror:
case ALIGNMENT::BOTTOMCENTER:
case ALIGNMENT::CENTERCENTER:
case ALIGNMENT::TOPCENTER: return aCadstarAlignment;
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// Shouldn't be here
default: wxFAIL_MSG( "Unknown Cadstar Alignment" ); return aCadstarAlignment;
}
}
CADSTAR_SCH_ARCHIVE_LOADER::ALIGNMENT
CADSTAR_SCH_ARCHIVE_LOADER::rotate180( const ALIGNMENT& aCadstarAlignment )
{
switch( aCadstarAlignment )
{
case ALIGNMENT::NO_ALIGNMENT:
case ALIGNMENT::BOTTOMLEFT: return ALIGNMENT::TOPRIGHT;
case ALIGNMENT::BOTTOMCENTER: return ALIGNMENT::TOPCENTER;
case ALIGNMENT::BOTTOMRIGHT: return ALIGNMENT::TOPLEFT;
case ALIGNMENT::TOPLEFT: return ALIGNMENT::BOTTOMRIGHT;
case ALIGNMENT::TOPCENTER: return ALIGNMENT::BOTTOMCENTER;
case ALIGNMENT::TOPRIGHT: return ALIGNMENT::BOTTOMLEFT;
case ALIGNMENT::CENTERLEFT: return ALIGNMENT::CENTERRIGHT;
case ALIGNMENT::CENTERCENTER: return ALIGNMENT::CENTERCENTER;
case ALIGNMENT::CENTERRIGHT: return ALIGNMENT::CENTERLEFT;
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// Shouldn't be here
default: wxFAIL_MSG( "Unknown Cadstar Alignment" ); return aCadstarAlignment;
}
}
void CADSTAR_SCH_ARCHIVE_LOADER::applyTextCodeIfExists( EDA_TEXT* aKiCadTextItem,
const TEXTCODE_ID& aCadstarTextCodeID )
{
// Ensure we have no Cadstar overbar characters
wxString escapedText = HandleTextOverbar( aKiCadTextItem->GetText() );
aKiCadTextItem->SetText( escapedText );
if( !Assignments.Codedefs.TextCodes.count( aCadstarTextCodeID ) )
return;
TEXTCODE textCode = getTextCode( aCadstarTextCodeID );
int textHeight = KiROUND( (double) getKiCadLength( textCode.Height ) * TXT_HEIGHT_RATIO );
int textWidth = getKiCadLength( textCode.Width );
// The width is zero for all non-cadstar fonts. Using a width equal to 2/3 the height seems
// to work well for most fonts.
if( textWidth == 0 )
textWidth = getKiCadLength( 2LL * textCode.Height / 3LL );
aKiCadTextItem->SetTextWidth( textWidth );
aKiCadTextItem->SetTextHeight( textHeight );
#if 0
// EEschema currently supports only normal vs bold for text thickness.
aKiCadTextItem->SetTextThickness( getKiCadLength( textCode.LineWidth ) );
#endif
// Must come after SetTextSize()
aKiCadTextItem->SetBold( textCode.Font.Modifier1 == FONT_BOLD );
aKiCadTextItem->SetItalic( textCode.Font.Italic );
}
void CADSTAR_SCH_ARCHIVE_LOADER::applyTextSettings( EDA_TEXT* aKiCadTextItem,
const TEXTCODE_ID& aCadstarTextCodeID,
const ALIGNMENT& aCadstarAlignment,
const JUSTIFICATION& aCadstarJustification,
const long long aCadstarOrientAngle,
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bool aMirrored,
bool aInvertY )
{
applyTextCodeIfExists( aKiCadTextItem, aCadstarTextCodeID );
aKiCadTextItem->SetTextAngle( getAngle( aCadstarOrientAngle ) );
// Justification ignored for now as not supported in Eeschema, but leaving this code in
// place for future upgrades.
// TODO update this when Eeschema supports justification independent of anchor position.
ALIGNMENT textAlignment = aCadstarAlignment;
// KiCad mirrors the justification and alignment when the symbol is mirrored but CADSTAR
// specifies it post-mirroring. In contrast, if the text item itself is mirrored (not
// supported in KiCad), CADSTAR specifies the alignment and justification pre-mirroring
if( aMirrored )
textAlignment = mirrorX( aCadstarAlignment );
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auto setAlignment =
[&]( EDA_TEXT* aText, ALIGNMENT aAlignment )
{
switch( aAlignment )
{
case ALIGNMENT::NO_ALIGNMENT: // Bottom left of the first line
//No exact KiCad equivalent, so lets move the position of the text
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FixTextPositionNoAlignment( aText, aInvertY );
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KI_FALLTHROUGH;
case ALIGNMENT::BOTTOMLEFT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
break;
case ALIGNMENT::BOTTOMCENTER:
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
break;
case ALIGNMENT::BOTTOMRIGHT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
break;
case ALIGNMENT::CENTERLEFT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
break;
case ALIGNMENT::CENTERCENTER:
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
break;
case ALIGNMENT::CENTERRIGHT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
break;
case ALIGNMENT::TOPLEFT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
break;
case ALIGNMENT::TOPCENTER:
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
break;
case ALIGNMENT::TOPRIGHT:
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
break;
}
};
SPIN_STYLE spin = getSpinStyle( aCadstarOrientAngle, aMirrored );
EDA_ITEM* textEdaItem = dynamic_cast<EDA_ITEM*>( aKiCadTextItem );
wxCHECK( textEdaItem, /* void */ ); // ensure this is a EDA_ITEM
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if( textEdaItem->Type() == SCH_FIELD_T || aInvertY )
{
// Spin style not used. All text justifications are permitted. However, only orientations
// of 0 deg or 90 deg are supported
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EDA_ANGLE angle = aKiCadTextItem->GetTextAngle();
angle.Normalize();
int quadrant = KiROUND( angle.AsDegrees() / 90.0 );
quadrant %= 4;
switch( quadrant )
{
case 0:
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angle = ANGLE_HORIZONTAL;
break;
case 1:
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angle = ANGLE_VERTICAL;
break;
case 2:
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angle = ANGLE_HORIZONTAL;
textAlignment = rotate180( textAlignment );
break;
case 3:
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angle = ANGLE_VERTICAL;
textAlignment = rotate180( textAlignment );
break;
default:
wxFAIL_MSG( "Unknown Quadrant" );
}
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aKiCadTextItem->SetTextAngle( angle );
setAlignment( aKiCadTextItem, textAlignment );
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}
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else if( textEdaItem->Type() == SCH_TEXT_T )
{
// Note spin style in a SCH_TEXT results in a vertical alignment GR_TEXT_V_ALIGN_BOTTOM
// so need to adjust the location of the text element based on Cadstar's original text
// alignment (anchor position).
setAlignment( aKiCadTextItem, textAlignment );
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BOX2I bb = textEdaItem->GetBoundingBox();
int off = static_cast<SCH_TEXT*>( aKiCadTextItem )->GetTextOffset();
VECTOR2I pos;
// Change the anchor point of the text item to make it match the same bounding box
// And correct the error introduced by the text offsetting in KiCad
switch( spin )
{
case SPIN_STYLE::BOTTOM: pos = { bb.GetRight() - off, bb.GetTop() }; break;
case SPIN_STYLE::UP: pos = { bb.GetRight() - off, bb.GetBottom() }; break;
case SPIN_STYLE::LEFT: pos = { bb.GetRight() , bb.GetBottom() + off }; break;
case SPIN_STYLE::RIGHT: pos = { bb.GetLeft() , bb.GetBottom() + off }; break;
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default: wxFAIL_MSG( "Unexpected Spin Style" ); break;
}
aKiCadTextItem->SetTextPos( pos );
switch( spin )
{
case SPIN_STYLE::RIGHT: // Horiz Normal Orientation
aKiCadTextItem->SetTextAngle( ANGLE_HORIZONTAL );
aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
break;
case SPIN_STYLE::UP: // Vert Orientation UP
aKiCadTextItem->SetTextAngle( ANGLE_VERTICAL );
aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
break;
case SPIN_STYLE::LEFT: // Horiz Orientation - Right justified
aKiCadTextItem->SetTextAngle( ANGLE_HORIZONTAL );
aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
break;
case SPIN_STYLE::BOTTOM: // Vert Orientation BOTTOM
aKiCadTextItem->SetTextAngle( ANGLE_VERTICAL );
aKiCadTextItem->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
break;
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default:
wxFAIL_MSG( "Unexpected Spin Style" );
break;
}
aKiCadTextItem->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
}
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else if( SCH_LABEL_BASE* label = dynamic_cast<SCH_LABEL_BASE*>( aKiCadTextItem ) )
{
// We don't want to change position of net labels as that would break connectivity
label->SetSpinStyle( spin );
}
else
{
wxFAIL_MSG( "Unexpected item type" );
}
}
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SCH_TEXT* CADSTAR_SCH_ARCHIVE_LOADER::getKiCadSchText( const TEXT& aCadstarTextElement )
{
SCH_TEXT* kiTxt = new SCH_TEXT();
kiTxt->SetParent( m_schematic ); // set to the schematic for now to avoid asserts
kiTxt->SetPosition( getKiCadPoint( aCadstarTextElement.Position ) );
kiTxt->SetText( aCadstarTextElement.Text );
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applyTextSettings( kiTxt, aCadstarTextElement.TextCodeID, aCadstarTextElement.Alignment,
aCadstarTextElement.Justification, aCadstarTextElement.OrientAngle,
aCadstarTextElement.Mirror );
return kiTxt;
}
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LIB_SYMBOL* CADSTAR_SCH_ARCHIVE_LOADER::getScaledLibPart( const LIB_SYMBOL* aSymbol,
long long aScalingFactorNumerator,
long long aScalingFactorDenominator )
{
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LIB_SYMBOL* retval = new LIB_SYMBOL( *aSymbol );
if( aScalingFactorNumerator == aScalingFactorDenominator )
return retval; // 1:1 scale, nothing to do
auto scaleLen =
[&]( int aLength ) -> int
{
return( aLength * aScalingFactorNumerator ) / aScalingFactorDenominator;
};
auto scalePt =
[&]( VECTOR2I aCoord ) -> VECTOR2I
{
return VECTOR2I( scaleLen( aCoord.x ), scaleLen( aCoord.y ) );
};
auto scaleSize =
[&]( VECTOR2I aSize ) -> VECTOR2I
{
return VECTOR2I( scaleLen( aSize.x ), scaleLen( aSize.y ) );
};
LIB_ITEMS_CONTAINER& items = retval->GetDrawItems();
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for( SCH_ITEM& item : items )
{
switch( item.Type() )
{
case KICAD_T::LIB_SHAPE_T:
{
LIB_SHAPE& shape = static_cast<LIB_SHAPE&>( item );
if( shape.GetShape() == SHAPE_T::ARC )
{
shape.SetPosition( scalePt( shape.GetPosition() ) );
shape.SetStart( scalePt( shape.GetStart() ) );
shape.SetEnd( scalePt( shape.GetEnd() ) );
}
else if( shape.GetShape() == SHAPE_T::POLY )
{
SHAPE_LINE_CHAIN& poly = shape.GetPolyShape().Outline( 0 );
for( size_t ii = 0; ii < poly.GetPointCount(); ++ii )
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poly.SetPoint( ii, scalePt( poly.CPoint( ii ) ) );
}
break;
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}
case KICAD_T::LIB_PIN_T:
{
LIB_PIN& pin = static_cast<LIB_PIN&>( item );
pin.SetPosition( scalePt( pin.GetPosition() ) );
pin.SetLength( scaleLen( pin.GetLength() ) );
break;
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}
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case KICAD_T::SCH_TEXT_T:
{
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SCH_TEXT& txt = static_cast<SCH_TEXT&>( item );
txt.SetPosition( scalePt( txt.GetPosition() ) );
txt.SetTextSize( scaleSize( txt.GetTextSize() ) );
break;
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}
default:
break;
}
}
return retval;
}
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void CADSTAR_SCH_ARCHIVE_LOADER::fixUpLibraryPins( LIB_SYMBOL* aSymbolToFix, int aGateNumber )
{
auto compLambda = []( const VECTOR2I& aA, const VECTOR2I& aB )
{
return LexicographicalCompare( aA, aB ) < 0;
};
// Store a list of vertical or horizontal segments in the symbol
// Note: Need the custom comparison function to ensure the map is sorted correctly
std::map<VECTOR2I, SHAPE_LINE_CHAIN, decltype( compLambda )> uniqueSegments( compLambda );
LIB_ITEMS_CONTAINER::ITERATOR shapeIt = aSymbolToFix->GetDrawItems().begin( LIB_SHAPE_T );
for( ; shapeIt != aSymbolToFix->GetDrawItems().end( LIB_SHAPE_T ); ++shapeIt )
{
LIB_SHAPE& shape = static_cast<LIB_SHAPE&>( *shapeIt );
if( aGateNumber > 0 && shape.GetUnit() != aGateNumber )
continue;
if( shape.GetShape() != SHAPE_T::POLY )
continue;
SHAPE_LINE_CHAIN poly = shape.GetPolyShape().Outline( 0 );
if( poly.GetPointCount() == 2 )
{
VECTOR2I pt0 = poly.CPoint( 0 );
VECTOR2I pt1 = poly.CPoint( 1 );
if( pt0 != pt1 && uniqueSegments.count( pt0 ) == 0 && uniqueSegments.count( pt1 ) == 0 )
{
// we are only interested in vertical or horizontal segments
if( pt0.x == pt1.x || pt0.y == pt1.y )
{
uniqueSegments.insert( { pt0, poly } );
uniqueSegments.insert( { pt1, poly } );
}
}
}
}
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std::vector<LIB_PIN*> pins;
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aSymbolToFix->GetPins( pins, aGateNumber );
for( auto& pin : pins )
{
auto setPinOrientation =
[&]( const EDA_ANGLE& aAngle )
{
EDA_ANGLE angle( aAngle );
angle.Normalize180();
if( angle >= -ANGLE_45 && angle <= ANGLE_45 )
pin->SetOrientation( PIN_ORIENTATION::PIN_RIGHT ); // 0 degrees
else if( angle >= ANGLE_45 && angle <= ANGLE_135 )
pin->SetOrientation( PIN_ORIENTATION::PIN_UP ); // 90 degrees
else if( angle >= ANGLE_135 || angle <= -ANGLE_135 )
pin->SetOrientation( PIN_ORIENTATION::PIN_LEFT ); // 180 degrees
else
pin->SetOrientation( PIN_ORIENTATION::PIN_DOWN ); // -90 degrees
};
if( uniqueSegments.count( pin->GetPosition() ) )
{
SHAPE_LINE_CHAIN& poly = uniqueSegments.at( pin->GetPosition() );
VECTOR2I otherPt = poly.CPoint( 0 );
if( otherPt == pin->GetPosition() )
otherPt = poly.CPoint( 1 );
VECTOR2I vec( otherPt - pin->GetPosition() );
pin->SetLength( vec.EuclideanNorm() );
setPinOrientation( EDA_ANGLE( vec ) );
}
}
}
std::pair<VECTOR2I, VECTOR2I>
CADSTAR_SCH_ARCHIVE_LOADER::getFigureExtentsKiCad( const FIGURE& aCadstarFigure )
{
VECTOR2I upperLeft( Assignments.Settings.DesignLimit.x, 0 );
VECTOR2I lowerRight( 0, Assignments.Settings.DesignLimit.y );
for( const VERTEX& v : aCadstarFigure.Shape.Vertices )
{
if( upperLeft.x > v.End.x )
upperLeft.x = v.End.x;
if( upperLeft.y < v.End.y )
upperLeft.y = v.End.y;
if( lowerRight.x < v.End.x )
lowerRight.x = v.End.x;
if( lowerRight.y > v.End.y )
lowerRight.y = v.End.y;
}
for( CUTOUT cutout : aCadstarFigure.Shape.Cutouts )
{
for( const VERTEX& v : aCadstarFigure.Shape.Vertices )
{
if( upperLeft.x > v.End.x )
upperLeft.x = v.End.x;
if( upperLeft.y < v.End.y )
upperLeft.y = v.End.y;
if( lowerRight.x < v.End.x )
lowerRight.x = v.End.x;
if( lowerRight.y > v.End.y )
lowerRight.y = v.End.y;
}
}
VECTOR2I upperLeftKiCad = getKiCadPoint( upperLeft );
VECTOR2I lowerRightKiCad = getKiCadPoint( lowerRight );
VECTOR2I size = lowerRightKiCad - upperLeftKiCad;
return { upperLeftKiCad, VECTOR2I( abs( size.x ), abs( size.y ) ) };
}
VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::getKiCadPoint( const VECTOR2I& aCadstarPoint )
{
VECTOR2I retval;
retval.x = getKiCadLength( aCadstarPoint.x - m_designCenter.x );
retval.y = -getKiCadLength( aCadstarPoint.y - m_designCenter.y );
return retval;
}
VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::getKiCadLibraryPoint( const VECTOR2I& aCadstarPoint,
const VECTOR2I& aCadstarCentre )
{
VECTOR2I retval;
retval.x = getKiCadLength( aCadstarPoint.x - aCadstarCentre.x );
retval.y = getKiCadLength( aCadstarPoint.y - aCadstarCentre.y );
return retval;
}
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VECTOR2I CADSTAR_SCH_ARCHIVE_LOADER::applyTransform( const VECTOR2I& aPoint,
const VECTOR2I& aMoveVector,
const EDA_ANGLE& aRotation,
const double& aScalingFactor,
const VECTOR2I& aTransformCentre,
const bool& aMirrorInvert )
{
VECTOR2I retVal = aPoint;
if( aScalingFactor != 1.0 )
{
//scale point
retVal -= aTransformCentre;
retVal.x = KiROUND( retVal.x * aScalingFactor );
retVal.y = KiROUND( retVal.y * aScalingFactor );
retVal += aTransformCentre;
}
if( aMirrorInvert )
MIRROR( retVal.x, aTransformCentre.x );
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if( !aRotation.IsZero() )
RotatePoint( retVal, aTransformCentre, aRotation );
if( aMoveVector != VECTOR2I{ 0, 0 } )
retVal += aMoveVector;
return retVal;
}
double CADSTAR_SCH_ARCHIVE_LOADER::getPolarRadius( const VECTOR2I& aPoint )
{
return sqrt( ( (double) aPoint.x * (double) aPoint.x )
+ ( (double) aPoint.y * (double) aPoint.y ) );
}