kicad/eeschema/sch_io/kicad_sexpr/sch_io_kicad_sexpr.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020 CERN
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* Copyright (C) 2021-2024 KiCad Developers, see AUTHORS.txt for contributors.
*
* @author Wayne Stambaugh <stambaughw@gmail.com>
*
* 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 2
* 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/>.
*/
#include <algorithm>
// For some reason wxWidgets is built with wxUSE_BASE64 unset so expose the wxWidgets
// base64 code.
#define wxUSE_BASE64 1
#include <wx/base64.h>
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#include <wx/log.h>
#include <wx/mstream.h>
#include <advanced_config.h>
#include <base_units.h>
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#include <build_version.h>
#include <trace_helpers.h>
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#include <locale_io.h>
#include <sch_bitmap.h>
#include <sch_bus_entry.h>
#include <sch_symbol.h>
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#include <sch_edit_frame.h> // SYMBOL_ORIENTATION_T
#include <sch_junction.h>
#include <sch_line.h>
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#include <sch_pin.h>
#include <sch_shape.h>
#include <sch_no_connect.h>
#include <sch_rule_area.h>
#include <sch_text.h>
#include <sch_textbox.h>
#include <sch_table.h>
#include <sch_tablecell.h>
#include <sch_sheet.h>
#include <sch_sheet_pin.h>
#include <schematic.h>
#include <sch_screen.h>
#include <io/kicad/kicad_io_utils.h>
#include <schematic_lexer.h>
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#include <sch_io/kicad_sexpr/sch_io_kicad_sexpr.h>
#include <sch_io/kicad_sexpr/sch_io_kicad_sexpr_parser.h>
#include <sch_io/kicad_sexpr/sch_io_kicad_sexpr_lib_cache.h>
#include <sch_io/kicad_sexpr/sch_io_kicad_sexpr_common.h>
#include <symbol_lib_table.h> // for PropPowerSymsOnly definition.
#include <ee_selection.h>
#include <string_utils.h>
#include <wx_filename.h> // for ::ResolvePossibleSymlinks()
#include <progress_reporter.h>
#include <boost/algorithm/string/join.hpp>
using namespace TSCHEMATIC_T;
#define SCH_PARSE_ERROR( text, reader, pos ) \
THROW_PARSE_ERROR( text, reader.GetSource(), reader.Line(), \
reader.LineNumber(), pos - reader.Line() )
SCH_IO_KICAD_SEXPR::SCH_IO_KICAD_SEXPR() : SCH_IO( wxS( "Eeschema s-expression" ) )
{
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init( nullptr );
}
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SCH_IO_KICAD_SEXPR::~SCH_IO_KICAD_SEXPR()
{
delete m_cache;
}
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void SCH_IO_KICAD_SEXPR::init( SCHEMATIC* aSchematic, const STRING_UTF8_MAP* aProperties )
{
m_version = 0;
m_appending = false;
m_rootSheet = nullptr;
m_schematic = aSchematic;
m_cache = nullptr;
m_out = nullptr;
m_nextFreeFieldId = 100; // number arbitrarily > MANDATORY_FIELDS or SHEET_MANDATORY_FIELDS
}
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SCH_SHEET* SCH_IO_KICAD_SEXPR::LoadSchematicFile( const wxString& aFileName, SCHEMATIC* aSchematic,
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SCH_SHEET* aAppendToMe,
const STRING_UTF8_MAP* aProperties )
{
wxASSERT( !aFileName || aSchematic != nullptr );
LOCALE_IO toggle; // toggles on, then off, the C locale.
SCH_SHEET* sheet;
wxFileName fn = aFileName;
// Unfortunately child sheet file names the legacy schematic file format are not fully
// qualified and are always appended to the project path. The aFileName attribute must
// always be an absolute path so the project path can be used for load child sheet files.
wxASSERT( fn.IsAbsolute() );
if( aAppendToMe )
{
m_appending = true;
wxLogTrace( traceSchPlugin, "Append \"%s\" to sheet \"%s\".",
aFileName, aAppendToMe->GetFileName() );
wxFileName normedFn = aAppendToMe->GetFileName();
if( !normedFn.IsAbsolute() )
{
if( aFileName.Right( normedFn.GetFullPath().Length() ) == normedFn.GetFullPath() )
m_path = aFileName.Left( aFileName.Length() - normedFn.GetFullPath().Length() );
}
if( m_path.IsEmpty() )
m_path = aSchematic->Prj().GetProjectPath();
wxLogTrace( traceSchPlugin, "Normalized append path \"%s\".", m_path );
}
else
{
m_path = aSchematic->Prj().GetProjectPath();
}
m_currentPath.push( m_path );
init( aSchematic, aProperties );
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if( aAppendToMe == nullptr )
{
// Clean up any allocated memory if an exception occurs loading the schematic.
std::unique_ptr<SCH_SHEET> newSheet = std::make_unique<SCH_SHEET>( aSchematic );
wxFileName relPath( aFileName );
// Do not use wxPATH_UNIX as option in MakeRelativeTo(). It can create incorrect
// relative paths on Windows, because paths have a disk identifier (C:, D: ...)
relPath.MakeRelativeTo( aSchematic->Prj().GetProjectPath() );
newSheet->SetFileName( relPath.GetFullPath() );
m_rootSheet = newSheet.get();
loadHierarchy( SCH_SHEET_PATH(), newSheet.get() );
// If we got here, the schematic loaded successfully.
sheet = newSheet.release();
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m_rootSheet = nullptr; // Quiet Coverity warning.
}
else
{
wxCHECK_MSG( aSchematic->IsValid(), nullptr, "Can't append to a schematic with no root!" );
m_rootSheet = &aSchematic->Root();
sheet = aAppendToMe;
loadHierarchy( SCH_SHEET_PATH(), sheet );
}
wxASSERT( m_currentPath.size() == 1 ); // only the project path should remain
m_currentPath.pop(); // Clear the path stack for next call to Load
return sheet;
}
// Everything below this comment is recursive. Modify with care.
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void SCH_IO_KICAD_SEXPR::loadHierarchy( const SCH_SHEET_PATH& aParentSheetPath, SCH_SHEET* aSheet )
{
m_currentSheetPath.push_back( aSheet );
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SCH_SCREEN* screen = nullptr;
if( !aSheet->GetScreen() )
{
// SCH_SCREEN objects store the full path and file name where the SCH_SHEET object only
// stores the file name and extension. Add the project path to the file name and
// extension to compare when calling SCH_SHEET::SearchHierarchy().
wxFileName fileName = aSheet->GetFileName();
if( !fileName.IsAbsolute() )
fileName.MakeAbsolute( m_currentPath.top() );
// Save the current path so that it gets restored when descending and ascending the
// sheet hierarchy which allows for sheet schematic files to be nested in folders
// relative to the last path a schematic was loaded from.
wxLogTrace( traceSchPlugin, "Saving path '%s'", m_currentPath.top() );
m_currentPath.push( fileName.GetPath() );
wxLogTrace( traceSchPlugin, "Current path '%s'", m_currentPath.top() );
wxLogTrace( traceSchPlugin, "Loading '%s'", fileName.GetFullPath() );
SCH_SHEET_PATH ancestorSheetPath = aParentSheetPath;
while( !ancestorSheetPath.empty() )
{
if( ancestorSheetPath.LastScreen()->GetFileName() == fileName.GetFullPath() )
{
if( !m_error.IsEmpty() )
m_error += "\n";
m_error += wxString::Format( _( "Could not load sheet '%s' because it already "
"appears as a direct ancestor in the schematic "
"hierarchy." ),
fileName.GetFullPath() );
fileName = wxEmptyString;
break;
}
ancestorSheetPath.pop_back();
}
if( ancestorSheetPath.empty() )
{
// Existing schematics could be either in the root sheet path or the current sheet
// load path so we have to check both.
if( !m_rootSheet->SearchHierarchy( fileName.GetFullPath(), &screen ) )
m_currentSheetPath.at( 0 )->SearchHierarchy( fileName.GetFullPath(), &screen );
}
if( screen )
{
aSheet->SetScreen( screen );
aSheet->GetScreen()->SetParent( m_schematic );
// Do not need to load the sub-sheets - this has already been done.
}
else
{
aSheet->SetScreen( new SCH_SCREEN( m_schematic ) );
aSheet->GetScreen()->SetFileName( fileName.GetFullPath() );
try
{
loadFile( fileName.GetFullPath(), aSheet );
}
catch( const IO_ERROR& ioe )
{
// If there is a problem loading the root sheet, there is no recovery.
if( aSheet == m_rootSheet )
throw;
// For all subsheets, queue up the error message for the caller.
if( !m_error.IsEmpty() )
m_error += "\n";
m_error += ioe.What();
}
if( fileName.FileExists() )
{
aSheet->GetScreen()->SetFileReadOnly( !fileName.IsFileWritable() );
aSheet->GetScreen()->SetFileExists( true );
}
else
{
aSheet->GetScreen()->SetFileReadOnly( !fileName.IsDirWritable() );
aSheet->GetScreen()->SetFileExists( false );
}
SCH_SHEET_PATH currentSheetPath = aParentSheetPath;
currentSheetPath.push_back( aSheet );
// This was moved out of the try{} block so that any sheet definitions that
// the plugin fully parsed before the exception was raised will be loaded.
for( SCH_ITEM* aItem : aSheet->GetScreen()->Items().OfType( SCH_SHEET_T ) )
{
wxCHECK2( aItem->Type() == SCH_SHEET_T, /* do nothing */ );
SCH_SHEET* sheet = static_cast<SCH_SHEET*>( aItem );
// Recursion starts here.
loadHierarchy( currentSheetPath, sheet );
}
}
m_currentPath.pop();
wxLogTrace( traceSchPlugin, "Restoring path \"%s\"", m_currentPath.top() );
}
m_currentSheetPath.pop_back();
}
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void SCH_IO_KICAD_SEXPR::loadFile( const wxString& aFileName, SCH_SHEET* aSheet )
{
FILE_LINE_READER reader( aFileName );
size_t lineCount = 0;
if( m_progressReporter )
{
m_progressReporter->Report( wxString::Format( _( "Loading %s..." ), aFileName ) );
if( !m_progressReporter->KeepRefreshing() )
THROW_IO_ERROR( _( "Open cancelled by user." ) );
while( reader.ReadLine() )
lineCount++;
reader.Rewind();
}
SCH_IO_KICAD_SEXPR_PARSER parser( &reader, m_progressReporter, lineCount, m_rootSheet,
m_appending );
parser.ParseSchematic( aSheet );
}
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void SCH_IO_KICAD_SEXPR::LoadContent( LINE_READER& aReader, SCH_SHEET* aSheet, int aFileVersion )
{
wxCHECK( aSheet, /* void */ );
LOCALE_IO toggle;
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SCH_IO_KICAD_SEXPR_PARSER parser( &aReader );
parser.ParseSchematic( aSheet, true, aFileVersion );
}
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void SCH_IO_KICAD_SEXPR::SaveSchematicFile( const wxString& aFileName, SCH_SHEET* aSheet,
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SCHEMATIC* aSchematic,
const STRING_UTF8_MAP* aProperties )
{
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wxCHECK_RET( aSheet != nullptr, "NULL SCH_SHEET object." );
wxCHECK_RET( !aFileName.IsEmpty(), "No schematic file name defined." );
LOCALE_IO toggle; // toggles on, then off, the C locale, to write floating point values.
init( aSchematic, aProperties );
wxFileName fn = aFileName;
// File names should be absolute. Don't assume everything relative to the project path
// works properly.
wxASSERT( fn.IsAbsolute() );
PRETTIFIED_FILE_OUTPUTFORMATTER formatter( fn.GetFullPath() );
m_out = &formatter; // no ownership
Format( aSheet );
if( aSheet->GetScreen() )
aSheet->GetScreen()->SetFileExists( true );
}
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void SCH_IO_KICAD_SEXPR::Format( SCH_SHEET* aSheet )
{
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wxCHECK_RET( aSheet != nullptr, "NULL SCH_SHEET* object." );
wxCHECK_RET( m_schematic != nullptr, "NULL SCHEMATIC* object." );
SCH_SCREEN* screen = aSheet->GetScreen();
wxCHECK( screen, /* void */ );
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m_out->Print( 0, "(kicad_sch (version %d) (generator \"eeschema\") (generator_version \"%s\")\n\n",
SEXPR_SCHEMATIC_FILE_VERSION, GetMajorMinorVersion().c_str().AsChar() );
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KICAD_FORMAT::FormatUuid( m_out, screen->m_uuid );
screen->GetPageSettings().Format( m_out, 1, 0 );
m_out->Print( 0, "\n" );
screen->GetTitleBlock().Format( m_out, 1, 0 );
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
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// Save cache library.
m_out->Print( 1, "(lib_symbols\n" );
for( const auto& [ libItemName, libSymbol ] : screen->GetLibSymbols() )
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SCH_IO_KICAD_SEXPR_LIB_CACHE::SaveSymbol( libSymbol, *m_out, 2, libItemName );
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
2020-04-16 16:43:50 +00:00
m_out->Print( 1, ")\n\n" );
for( const std::shared_ptr<BUS_ALIAS>& alias : screen->GetBusAliases() )
saveBusAlias( alias, 1 );
// Enforce item ordering
auto cmp =
[]( const SCH_ITEM* a, const SCH_ITEM* b )
{
if( a->Type() != b->Type() )
return a->Type() < b->Type();
return a->m_Uuid < b->m_Uuid;
};
std::multiset<SCH_ITEM*, decltype( cmp )> save_map( cmp );
for( SCH_ITEM* item : screen->Items() )
{
// Markers are not saved, so keep them from being considered below
if( item->Type() != SCH_MARKER_T )
save_map.insert( item );
}
KICAD_T itemType = TYPE_NOT_INIT;
SCH_LAYER_ID layer = SCH_LAYER_ID_START;
for( SCH_ITEM* item : save_map )
{
if( itemType != item->Type() )
{
itemType = item->Type();
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if( itemType != SCH_SYMBOL_T
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&& itemType != SCH_JUNCTION_T
&& itemType != SCH_SHEET_T )
{
m_out->Print( 0, "\n" );
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}
}
switch( item->Type() )
{
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case SCH_SYMBOL_T:
m_out->Print( 0, "\n" );
saveSymbol( static_cast<SCH_SYMBOL*>( item ), *m_schematic, 1, false );
break;
case SCH_BITMAP_T:
saveBitmap( static_cast<SCH_BITMAP*>( item ), 1 );
break;
case SCH_SHEET_T:
m_out->Print( 0, "\n" );
saveSheet( static_cast<SCH_SHEET*>( item ), 1 );
break;
case SCH_JUNCTION_T:
saveJunction( static_cast<SCH_JUNCTION*>( item ), 1 );
break;
case SCH_NO_CONNECT_T:
saveNoConnect( static_cast<SCH_NO_CONNECT*>( item ), 1 );
break;
case SCH_BUS_WIRE_ENTRY_T:
case SCH_BUS_BUS_ENTRY_T:
saveBusEntry( static_cast<SCH_BUS_ENTRY_BASE*>( item ), 1 );
break;
case SCH_LINE_T:
if( layer != item->GetLayer() )
{
if( layer == SCH_LAYER_ID_START )
{
layer = item->GetLayer();
}
else
{
layer = item->GetLayer();
m_out->Print( 0, "\n" );
}
}
saveLine( static_cast<SCH_LINE*>( item ), 1 );
break;
case SCH_SHAPE_T:
saveShape( static_cast<SCH_SHAPE*>( item ), 1 );
break;
case SCH_RULE_AREA_T:
saveRuleArea( static_cast<SCH_RULE_AREA*>( item ), 1 );
break;
case SCH_TEXT_T:
case SCH_LABEL_T:
case SCH_GLOBAL_LABEL_T:
case SCH_HIER_LABEL_T:
case SCH_DIRECTIVE_LABEL_T:
saveText( static_cast<SCH_TEXT*>( item ), 1 );
break;
case SCH_TEXTBOX_T:
saveTextBox( static_cast<SCH_TEXTBOX*>( item ), 1 );
break;
case SCH_TABLE_T:
saveTable( static_cast<SCH_TABLE*>( item ), 1 );
break;
default:
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wxASSERT( "Unexpected schematic object type in SCH_IO_KICAD_SEXPR::Format()" );
}
}
if( aSheet->HasRootInstance() )
{
std::vector< SCH_SHEET_INSTANCE> instances;
instances.emplace_back( aSheet->GetRootInstance() );
saveInstances( instances, 1 );
}
m_out->Print( 0, ")\n" );
}
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void SCH_IO_KICAD_SEXPR::Format( EE_SELECTION* aSelection, SCH_SHEET_PATH* aSelectionPath,
SCHEMATIC& aSchematic, OUTPUTFORMATTER* aFormatter,
bool aForClipboard )
{
wxCHECK( aSelection && aSelectionPath && aFormatter, /* void */ );
LOCALE_IO toggle;
SCH_SHEET_LIST fullHierarchy = aSchematic.GetSheets();
m_schematic = &aSchematic;
m_out = aFormatter;
size_t i;
SCH_ITEM* item;
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std::map<wxString, LIB_SYMBOL*> libSymbols;
SCH_SCREEN* screen = aSelection->GetScreen();
std::set<SCH_TABLE*> promotedTables;
for( i = 0; i < aSelection->GetSize(); ++i )
{
item = dynamic_cast<SCH_ITEM*>( aSelection->GetItem( i ) );
wxCHECK2( item, continue );
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if( item->Type() != SCH_SYMBOL_T )
continue;
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SCH_SYMBOL* symbol = dynamic_cast<SCH_SYMBOL*>( item );
wxCHECK2( symbol, continue );
wxString libSymbolLookup = symbol->GetLibId().Format().wx_str();
if( !symbol->UseLibIdLookup() )
libSymbolLookup = symbol->GetSchSymbolLibraryName();
auto it = screen->GetLibSymbols().find( libSymbolLookup );
if( it != screen->GetLibSymbols().end() )
libSymbols[ libSymbolLookup ] = it->second;
}
if( !libSymbols.empty() )
{
m_out->Print( 0, "(lib_symbols\n" );
for( const std::pair<const wxString, LIB_SYMBOL*>& libSymbol : libSymbols )
{
SCH_IO_KICAD_SEXPR_LIB_CACHE::SaveSymbol( libSymbol.second, *m_out, 1,
libSymbol.first );
}
m_out->Print( 0, ")\n\n" );
}
for( i = 0; i < aSelection->GetSize(); ++i )
{
item = (SCH_ITEM*) aSelection->GetItem( i );
switch( item->Type() )
{
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case SCH_SYMBOL_T:
saveSymbol( static_cast<SCH_SYMBOL*>( item ), aSchematic, 0, aForClipboard,
aSelectionPath );
break;
case SCH_BITMAP_T:
saveBitmap( static_cast< SCH_BITMAP* >( item ), 0 );
break;
case SCH_SHEET_T:
saveSheet( static_cast< SCH_SHEET* >( item ), 0 );
break;
case SCH_JUNCTION_T:
saveJunction( static_cast< SCH_JUNCTION* >( item ), 0 );
break;
case SCH_NO_CONNECT_T:
saveNoConnect( static_cast< SCH_NO_CONNECT* >( item ), 0 );
break;
case SCH_BUS_WIRE_ENTRY_T:
case SCH_BUS_BUS_ENTRY_T:
saveBusEntry( static_cast< SCH_BUS_ENTRY_BASE* >( item ), 0 );
break;
case SCH_LINE_T:
saveLine( static_cast< SCH_LINE* >( item ), 0 );
break;
case SCH_SHAPE_T:
saveShape( static_cast<SCH_SHAPE*>( item ), 0 );
break;
case SCH_RULE_AREA_T:
saveRuleArea( static_cast<SCH_RULE_AREA*>( item ), 0 );
break;
case SCH_TEXT_T:
case SCH_LABEL_T:
case SCH_GLOBAL_LABEL_T:
case SCH_HIER_LABEL_T:
case SCH_DIRECTIVE_LABEL_T:
saveText( static_cast<SCH_TEXT*>( item ), 0 );
break;
case SCH_TEXTBOX_T:
saveTextBox( static_cast<SCH_TEXTBOX*>( item ), 0 );
break;
case SCH_TABLECELL_T:
{
SCH_TABLE* table = static_cast<SCH_TABLE*>( item->GetParent() );
if( promotedTables.count( table ) )
break;
table->SetFlags( SKIP_STRUCT );
saveTable( table, 0 );
table->ClearFlags( SKIP_STRUCT );
promotedTables.insert( table );
break;
}
case SCH_TABLE_T:
item->ClearFlags( SKIP_STRUCT );
saveTable( static_cast<SCH_TABLE*>( item ), 0 );
break;
default:
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wxASSERT( "Unexpected schematic object type in SCH_IO_KICAD_SEXPR::Format()" );
}
}
}
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void SCH_IO_KICAD_SEXPR::saveSymbol( SCH_SYMBOL* aSymbol, const SCHEMATIC& aSchematic,
int aNestLevel, bool aForClipboard,
const SCH_SHEET_PATH* aRelativePath )
{
wxCHECK_RET( aSymbol != nullptr && m_out != nullptr, "" );
std::string libName;
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wxString symbol_name = aSymbol->GetLibId().Format();
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if( symbol_name.size() )
{
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libName = toUTFTildaText( symbol_name );
}
else
{
libName = "_NONAME_";
}
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EDA_ANGLE angle;
int orientation = aSymbol->GetOrientation() & ~( SYM_MIRROR_X | SYM_MIRROR_Y );
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if( orientation == SYM_ORIENT_90 )
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angle = ANGLE_90;
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else if( orientation == SYM_ORIENT_180 )
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angle = ANGLE_180;
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else if( orientation == SYM_ORIENT_270 )
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angle = ANGLE_270;
else
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angle = ANGLE_0;
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
2020-04-16 16:43:50 +00:00
m_out->Print( aNestLevel, "(symbol" );
if( !aSymbol->UseLibIdLookup() )
{
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
2020-04-16 16:43:50 +00:00
m_out->Print( 0, " (lib_name %s)",
m_out->Quotew( aSymbol->GetSchSymbolLibraryName() ).c_str() );
}
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
2020-04-16 16:43:50 +00:00
m_out->Print( 0, " (lib_id %s) (at %s %s %s)",
m_out->Quotew( aSymbol->GetLibId().Format().wx_str() ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSymbol->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSymbol->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( angle ).c_str() );
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bool mirrorX = aSymbol->GetOrientation() & SYM_MIRROR_X;
bool mirrorY = aSymbol->GetOrientation() & SYM_MIRROR_Y;
if( mirrorX || mirrorY )
{
m_out->Print( 0, " (mirror" );
if( mirrorX )
m_out->Print( 0, " x" );
if( mirrorY )
m_out->Print( 0, " y" );
m_out->Print( 0, ")" );
}
// The symbol unit is always set to the first instance regardless of the current sheet
// instance to prevent file churn.
int unit = ( aSymbol->GetInstances().size() == 0 ) ?
aSymbol->GetUnit() :
aSymbol->GetInstances()[0].m_Unit;
if( aForClipboard && aRelativePath )
{
SCH_SYMBOL_INSTANCE unitInstance;
if( aSymbol->GetInstance( unitInstance, aRelativePath->Path() ) )
unit = unitInstance.m_Unit;
}
m_out->Print( 0, " (unit %d)", unit );
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if( aSymbol->GetBodyStyle() == BODY_STYLE::DEMORGAN )
m_out->Print( 0, " (convert %d)", aSymbol->GetBodyStyle() );
m_out->Print( 0, "\n" );
m_out->Print( aNestLevel + 1, "(exclude_from_sim %s)",
( aSymbol->GetExcludedFromSim() ) ? "yes" : "no" );
m_out->Print( 0, " (in_bom %s)", ( aSymbol->GetExcludedFromBOM() ) ? "no" : "yes" );
m_out->Print( 0, " (on_board %s)", ( aSymbol->GetExcludedFromBoard() ) ? "no" : "yes" );
m_out->Print( 0, " (dnp %s)", ( aSymbol->GetDNP() ) ? "yes" : "no" );
if( aSymbol->GetFieldsAutoplaced() != FIELDS_AUTOPLACED_NO )
m_out->Print( 0, " (fields_autoplaced yes)" );
m_out->Print( 0, "\n" );
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KICAD_FORMAT::FormatUuid( m_out, aSymbol->m_Uuid );
m_nextFreeFieldId = MANDATORY_FIELDS;
for( SCH_FIELD& field : aSymbol->GetFields() )
{
int id = field.GetId();
wxString value = field.GetText();
if( !aForClipboard && aSymbol->GetInstances().size() )
{
// The instance fields are always set to the default instance regardless of the
// sheet instance to prevent file churn.
if( id == REFERENCE_FIELD )
{
field.SetText( aSymbol->GetInstances()[0].m_Reference );
}
else if( id == VALUE_FIELD )
{
field.SetText( aSymbol->GetField( VALUE_FIELD )->GetText() );
}
else if( id == FOOTPRINT_FIELD )
{
field.SetText( aSymbol->GetField( FOOTPRINT_FIELD )->GetText() );
}
}
else if( aForClipboard && aSymbol->GetInstances().size() && aRelativePath
&& ( id == REFERENCE_FIELD ) )
{
SCH_SYMBOL_INSTANCE instance;
if( aSymbol->GetInstance( instance, aRelativePath->Path() ) )
field.SetText( instance.m_Reference );
}
try
{
saveField( &field, aNestLevel + 1 );
}
catch( ... )
{
// Restore the changed field text on write error.
if( id == REFERENCE_FIELD || id == VALUE_FIELD || id == FOOTPRINT_FIELD )
field.SetText( value );
throw;
}
if( id == REFERENCE_FIELD || id == VALUE_FIELD || id == FOOTPRINT_FIELD )
field.SetText( value );
}
for( const std::unique_ptr<SCH_PIN>& pin : aSymbol->GetRawPins() )
{
if( pin->GetAlt().IsEmpty() )
{
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m_out->Print( aNestLevel + 1, "(pin %s ", m_out->Quotew( pin->GetNumber() ).c_str() );
KICAD_FORMAT::FormatUuid( m_out, pin->m_Uuid );
m_out->Print( aNestLevel + 1, ")\n" );
}
else
{
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m_out->Print( aNestLevel + 1, "(pin %s ", m_out->Quotew( pin->GetNumber() ).c_str() );
KICAD_FORMAT::FormatUuid( m_out, pin->m_Uuid );
m_out->Print( aNestLevel + 1, " (alternate %s))\n",
m_out->Quotew( pin->GetAlt() ).c_str() );
}
}
if( !aSymbol->GetInstances().empty() )
{
std::map<KIID, std::vector<SCH_SYMBOL_INSTANCE>> projectInstances;
m_out->Print( aNestLevel + 1, "(instances\n" );
wxString projectName;
KIID lastProjectUuid;
KIID rootSheetUuid = aSchematic.Root().m_Uuid;
SCH_SHEET_LIST fullHierarchy = aSchematic.GetSheets();
for( const SCH_SYMBOL_INSTANCE& inst : aSymbol->GetInstances() )
{
// Zero length KIID_PATH objects are not valid and will cause a crash below.
wxCHECK2( inst.m_Path.size(), continue );
// If the instance data is part of this design but no longer has an associated sheet
// path, don't save it. This prevents large amounts of orphaned instance data for the
// current project from accumulating in the schematic files.
bool isOrphaned = ( inst.m_Path[0] == rootSheetUuid )
&& !fullHierarchy.GetSheetPathByKIIDPath( inst.m_Path );
// Keep all instance data when copying to the clipboard. They may be needed on paste.
if( !aForClipboard && isOrphaned )
continue;
auto it = projectInstances.find( inst.m_Path[0] );
if( it == projectInstances.end() )
{
projectInstances[ inst.m_Path[0] ] = { inst };
}
else
{
it->second.emplace_back( inst );
}
}
for( auto& [uuid, instances] : projectInstances )
{
wxCHECK2( instances.size(), continue );
// Sort project instances by KIID_PATH.
std::sort( instances.begin(), instances.end(),
[]( SCH_SYMBOL_INSTANCE& aLhs, SCH_SYMBOL_INSTANCE& aRhs )
{
return aLhs.m_Path < aRhs.m_Path;
} );
projectName = instances[0].m_ProjectName;
m_out->Print( aNestLevel + 2, "(project %s\n",
m_out->Quotew( projectName ).c_str() );
for( const SCH_SYMBOL_INSTANCE& instance : instances )
{
wxString path;
KIID_PATH tmp = instance.m_Path;
if( aForClipboard && aRelativePath )
tmp.MakeRelativeTo( aRelativePath->Path() );
path = tmp.AsString();
m_out->Print( aNestLevel + 3, "(path %s\n",
m_out->Quotew( path ).c_str() );
m_out->Print( aNestLevel + 4, "(reference %s) (unit %d)\n",
m_out->Quotew( instance.m_Reference ).c_str(),
instance.m_Unit );
m_out->Print( aNestLevel + 3, ")\n" );
}
m_out->Print( aNestLevel + 2, ")\n" ); // Closes `project`.
}
m_out->Print( aNestLevel + 1, ")\n" ); // Closes `instances`.
}
m_out->Print( aNestLevel, ")\n" ); // Closes `symbol`.
}
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void SCH_IO_KICAD_SEXPR::saveField( SCH_FIELD* aField, int aNestLevel )
{
wxCHECK_RET( aField != nullptr && m_out != nullptr, "" );
wxString fieldName = aField->GetCanonicalName();
// For some reason (bug in legacy parser?) the field ID for non-mandatory fields is -1 so
// check for this in order to correctly use the field name.
if( aField->GetId() == -1 /* undefined ID */ )
{
// Replace the default name built by GetCanonicalName() by
// the field name if exists
if( !aField->GetName().IsEmpty() )
fieldName = aField->GetName();
aField->SetId( m_nextFreeFieldId );
m_nextFreeFieldId += 1;
}
else if( aField->GetId() >= m_nextFreeFieldId )
{
m_nextFreeFieldId = aField->GetId() + 1;
}
m_out->Print( aNestLevel, "(property %s %s (at %s %s %s)",
m_out->Quotew( fieldName ).c_str(),
m_out->Quotew( aField->GetText() ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aField->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aField->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( aField->GetTextAngle() ).c_str() );
if( aField->IsNameShown() )
m_out->Print( 0, " (show_name yes)" );
if( !aField->CanAutoplace() )
m_out->Print( 0, " (do_not_autoplace yes)" );
if( !aField->IsDefaultFormatting()
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|| ( aField->GetTextHeight() != schIUScale.MilsToIU( DEFAULT_SIZE_TEXT ) ) )
{
m_out->Print( 0, "\n" );
aField->Format( m_out, aNestLevel, 0 );
m_out->Print( aNestLevel, ")\n" ); // Closes property token with font effects.
}
else
{
m_out->Print( 0, ")\n" ); // Closes property token without font effects.
}
}
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void SCH_IO_KICAD_SEXPR::saveBitmap( SCH_BITMAP* aBitmap, int aNestLevel )
{
wxCHECK_RET( aBitmap != nullptr && m_out != nullptr, "" );
const wxImage* image = aBitmap->GetImage()->GetImageData();
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wxCHECK_RET( image != nullptr, "wxImage* is NULL" );
m_out->Print( aNestLevel, "(image (at %s %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBitmap->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBitmap->GetPosition().y ).c_str() );
double scale = aBitmap->GetImage()->GetScale();
// 20230121 or older file format versions assumed 300 image PPI at load/save.
// Let's keep compatibility by changing image scale.
if( SEXPR_SCHEMATIC_FILE_VERSION <= 20230121 )
{
BITMAP_BASE* bm_image = aBitmap->GetImage();
scale = scale * 300.0 / bm_image->GetPPI();
}
if( scale != 1.0 )
m_out->Print( 0, " (scale %g)", scale );
m_out->Print( 0, "\n" );
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KICAD_FORMAT::FormatUuid( m_out, aBitmap->m_Uuid );
m_out->Print( aNestLevel + 1, "(data" );
wxString out = wxBase64Encode( aBitmap->GetImage()->GetImageDataBuffer() );
// Apparently the MIME standard character width for base64 encoding is 76 (unconfirmed)
// so use it in a vein attempt to be standard like.
#define MIME_BASE64_LENGTH 76
size_t first = 0;
while( first < out.Length() )
{
m_out->Print( 0, "\n" );
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m_out->Print( aNestLevel + 2, "\"%s\"", TO_UTF8( out( first, MIME_BASE64_LENGTH ) ) );
first += MIME_BASE64_LENGTH;
}
m_out->Print( 0, "\n" );
m_out->Print( aNestLevel + 1, ")\n" ); // Closes data token.
m_out->Print( aNestLevel, ")\n" ); // Closes image token.
}
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void SCH_IO_KICAD_SEXPR::saveSheet( SCH_SHEET* aSheet, int aNestLevel )
{
wxCHECK_RET( aSheet != nullptr && m_out != nullptr, "" );
m_out->Print( aNestLevel, "(sheet (at %s %s) (size %s %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSheet->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSheet->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSheet->GetSize().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aSheet->GetSize().y ).c_str() );
if( aSheet->GetFieldsAutoplaced() != FIELDS_AUTOPLACED_NO )
m_out->Print( 0, " (fields_autoplaced yes)" );
m_out->Print( 0, "\n" );
STROKE_PARAMS stroke( aSheet->GetBorderWidth(), LINE_STYLE::SOLID, aSheet->GetBorderColor() );
stroke.SetWidth( aSheet->GetBorderWidth() );
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stroke.Format( m_out, schIUScale, aNestLevel + 1 );
m_out->Print( 0, "\n" );
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m_out->Print( aNestLevel + 1, "(fill (color %d %d %d %0.4f))\n",
KiROUND( aSheet->GetBackgroundColor().r * 255.0 ),
KiROUND( aSheet->GetBackgroundColor().g * 255.0 ),
KiROUND( aSheet->GetBackgroundColor().b * 255.0 ),
aSheet->GetBackgroundColor().a );
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KICAD_FORMAT::FormatUuid( m_out, aSheet->m_Uuid );
m_nextFreeFieldId = SHEET_MANDATORY_FIELDS;
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for( SCH_FIELD& field : aSheet->GetFields() )
{
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saveField( &field, aNestLevel + 1 );
}
for( const SCH_SHEET_PIN* pin : aSheet->GetPins() )
{
m_out->Print( aNestLevel + 1, "(pin %s %s (at %s %s %s)\n",
EscapedUTF8( pin->GetText() ).c_str(),
getSheetPinShapeToken( pin->GetShape() ),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
pin->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
pin->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( getSheetPinAngle( pin->GetSide() ) ).c_str() );
pin->Format( m_out, aNestLevel + 1, 0 );
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KICAD_FORMAT::FormatUuid( m_out, pin->m_Uuid );
m_out->Print( aNestLevel + 1, ")\n" ); // Closes pin token.
}
2022-12-25 16:04:45 +00:00
// Save all sheet instances here except the root sheet instance.
std::vector< SCH_SHEET_INSTANCE > sheetInstances = aSheet->GetInstances();
auto it = sheetInstances.begin();
while( it != sheetInstances.end() )
{
if( it->m_Path.size() == 0 )
it = sheetInstances.erase( it );
else
it++;
}
if( !sheetInstances.empty() )
{
m_out->Print( aNestLevel + 1, "(instances\n" );
KIID lastProjectUuid;
KIID rootSheetUuid = m_schematic->Root().m_Uuid;
SCH_SHEET_LIST fullHierarchy = m_schematic->GetSheets();
bool project_open = false;
for( size_t i = 0; i < sheetInstances.size(); i++ )
{
// If the instance data is part of this design but no longer has an associated sheet
// path, don't save it. This prevents large amounts of orphaned instance data for the
// current project from accumulating in the schematic files.
//
// Keep all instance data when copying to the clipboard. It may be needed on paste.
if( ( sheetInstances[i].m_Path[0] == rootSheetUuid )
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&& !fullHierarchy.GetSheetPathByKIIDPath( sheetInstances[i].m_Path, false ) )
{
if( project_open && ( ( i + 1 == sheetInstances.size() )
|| lastProjectUuid != sheetInstances[i+1].m_Path[0] ) )
{
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m_out->Print( aNestLevel + 2, ")\n" ); // Closes `project` token.
project_open = false;
}
continue;
}
if( lastProjectUuid != sheetInstances[i].m_Path[0] )
{
wxString projectName;
if( sheetInstances[i].m_Path[0] == rootSheetUuid )
projectName = m_schematic->Prj().GetProjectName();
else
projectName = sheetInstances[i].m_ProjectName;
lastProjectUuid = sheetInstances[i].m_Path[0];
m_out->Print( aNestLevel + 2, "(project %s\n",
m_out->Quotew( projectName ).c_str() );
project_open = true;
}
wxString path = sheetInstances[i].m_Path.AsString();
m_out->Print( aNestLevel + 3, "(path %s (page %s))\n",
m_out->Quotew( path ).c_str(),
m_out->Quotew( sheetInstances[i].m_PageNumber ).c_str() );
if( project_open && ( ( i + 1 == sheetInstances.size() )
|| lastProjectUuid != sheetInstances[i+1].m_Path[0] ) )
{
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m_out->Print( aNestLevel + 2, ")\n" ); // Closes `project` token.
project_open = false;
}
}
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m_out->Print( aNestLevel + 1, ")\n" ); // Closes `instances` token.
}
m_out->Print( aNestLevel, ")\n" ); // Closes sheet token.
}
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void SCH_IO_KICAD_SEXPR::saveJunction( SCH_JUNCTION* aJunction, int aNestLevel )
{
wxCHECK_RET( aJunction != nullptr && m_out != nullptr, "" );
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m_out->Print( aNestLevel, "(junction (at %s %s) (diameter %s) (color %d %d %d %s)\n",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aJunction->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aJunction->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aJunction->GetDiameter() ).c_str(),
KiROUND( aJunction->GetColor().r * 255.0 ),
KiROUND( aJunction->GetColor().g * 255.0 ),
KiROUND( aJunction->GetColor().b * 255.0 ),
FormatDouble2Str( aJunction->GetColor().a ).c_str() );
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KICAD_FORMAT::FormatUuid( m_out, aJunction->m_Uuid );
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m_out->Print( aNestLevel, ")\n" );
}
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void SCH_IO_KICAD_SEXPR::saveNoConnect( SCH_NO_CONNECT* aNoConnect, int aNestLevel )
{
wxCHECK_RET( aNoConnect != nullptr && m_out != nullptr, "" );
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m_out->Print( aNestLevel, "(no_connect (at %s %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aNoConnect->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
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aNoConnect->GetPosition().y ).c_str() );
KICAD_FORMAT::FormatUuid( m_out, aNoConnect->m_Uuid );
m_out->Print( aNestLevel, ")\n" );
}
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void SCH_IO_KICAD_SEXPR::saveBusEntry( SCH_BUS_ENTRY_BASE* aBusEntry, int aNestLevel )
{
wxCHECK_RET( aBusEntry != nullptr && m_out != nullptr, "" );
// Bus to bus entries are converted to bus line segments.
if( aBusEntry->GetClass() == "SCH_BUS_BUS_ENTRY" )
{
SCH_LINE busEntryLine( aBusEntry->GetPosition(), LAYER_BUS );
busEntryLine.SetEndPoint( aBusEntry->GetEnd() );
saveLine( &busEntryLine, aNestLevel );
}
else
{
m_out->Print( aNestLevel, "(bus_entry (at %s %s) (size %s %s)\n",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBusEntry->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBusEntry->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBusEntry->GetSize().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aBusEntry->GetSize().y ).c_str() );
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aBusEntry->GetStroke().Format( m_out, schIUScale, aNestLevel + 1 );
m_out->Print( 0, "\n" );
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KICAD_FORMAT::FormatUuid( m_out, aBusEntry->m_Uuid );
m_out->Print( aNestLevel, ")\n" );
}
}
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void SCH_IO_KICAD_SEXPR::saveShape( SCH_SHAPE* aShape, int aNestLevel )
{
wxCHECK_RET( aShape != nullptr && m_out != nullptr, "" );
switch( aShape->GetShape() )
{
case SHAPE_T::ARC:
formatArc( m_out, aNestLevel, aShape, false, aShape->GetStroke(), aShape->GetFillMode(),
aShape->GetFillColor(), false, aShape->m_Uuid );
break;
case SHAPE_T::CIRCLE:
formatCircle( m_out, aNestLevel, aShape, false, aShape->GetStroke(), aShape->GetFillMode(),
aShape->GetFillColor(), false, aShape->m_Uuid );
break;
case SHAPE_T::RECTANGLE:
formatRect( m_out, aNestLevel, aShape, false, aShape->GetStroke(), aShape->GetFillMode(),
aShape->GetFillColor(), false, aShape->m_Uuid );
break;
case SHAPE_T::BEZIER:
formatBezier( m_out, aNestLevel, aShape, false, aShape->GetStroke(), aShape->GetFillMode(),
aShape->GetFillColor(), false, aShape->m_Uuid );
break;
case SHAPE_T::POLY:
formatPoly( m_out, aNestLevel, aShape, false, aShape->GetStroke(), aShape->GetFillMode(),
aShape->GetFillColor(), false, aShape->m_Uuid );
break;
default:
UNIMPLEMENTED_FOR( aShape->SHAPE_T_asString() );
}
}
void SCH_IO_KICAD_SEXPR::saveRuleArea( SCH_RULE_AREA* aRuleArea, int aNestLevel )
{
wxCHECK_RET( aRuleArea != nullptr && m_out != nullptr, "" );
m_out->Print( aNestLevel, "(rule_area " );
saveShape( aRuleArea, aNestLevel + 1 );
m_out->Print( aNestLevel, ")\n" );
}
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void SCH_IO_KICAD_SEXPR::saveLine( SCH_LINE* aLine, int aNestLevel )
{
wxCHECK_RET( aLine != nullptr && m_out != nullptr, "" );
wxString lineType;
STROKE_PARAMS line_stroke = aLine->GetStroke();
switch( aLine->GetLayer() )
{
case LAYER_BUS: lineType = "bus"; break;
case LAYER_WIRE: lineType = "wire"; break;
case LAYER_NOTES: lineType = "polyline"; break;
default:
UNIMPLEMENTED_FOR( LayerName( aLine->GetLayer() ) );
}
m_out->Print( aNestLevel, "(%s (pts (xy %s %s) (xy %s %s))\n",
TO_UTF8( lineType ),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aLine->GetStartPoint().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aLine->GetStartPoint().y ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aLine->GetEndPoint().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aLine->GetEndPoint().y ).c_str() );
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line_stroke.Format( m_out, schIUScale, aNestLevel + 1 );
m_out->Print( 0, "\n" );
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KICAD_FORMAT::FormatUuid( m_out, aLine->m_Uuid );
m_out->Print( aNestLevel, ")\n" );
}
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void SCH_IO_KICAD_SEXPR::saveText( SCH_TEXT* aText, int aNestLevel )
{
wxCHECK_RET( aText != nullptr && m_out != nullptr, "" );
// Note: label is nullptr SCH_TEXT, but not for SCH_LABEL_XXX,
SCH_LABEL_BASE* label = dynamic_cast<SCH_LABEL_BASE*>( aText );
m_out->Print( aNestLevel, "(%s %s",
getTextTypeToken( aText->Type() ),
m_out->Quotew( aText->GetText() ).c_str() );
if( aText->Type() == SCH_TEXT_T )
{
m_out->Print( 0, " (exclude_from_sim %s)\n", aText->GetExcludedFromSim() ? "yes" : "no" );
}
else if( aText->Type() == SCH_DIRECTIVE_LABEL_T )
{
SCH_DIRECTIVE_LABEL* flag = static_cast<SCH_DIRECTIVE_LABEL*>( aText );
m_out->Print( 0, " (length %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
flag->GetPinLength() ).c_str() );
}
EDA_ANGLE angle = aText->GetTextAngle();
if( label )
{
if( label->Type() == SCH_GLOBAL_LABEL_T
|| label->Type() == SCH_HIER_LABEL_T
|| label->Type() == SCH_DIRECTIVE_LABEL_T )
{
m_out->Print( 0, " (shape %s)", getSheetPinShapeToken( label->GetShape() ) );
}
// The angle of the text is always 0 or 90 degrees for readibility reasons,
// but the item itself can have more rotation (-90 and 180 deg)
switch( label->GetSpinStyle() )
{
default:
case SPIN_STYLE::LEFT: angle += ANGLE_180; break;
case SPIN_STYLE::UP: break;
case SPIN_STYLE::RIGHT: break;
case SPIN_STYLE::BOTTOM: angle += ANGLE_180; break;
}
}
if( aText->GetText().Length() < 50 )
{
m_out->Print( 0, " (at %s %s %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aText->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aText->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( angle ).c_str() );
}
else
{
m_out->Print( 0, "\n" );
m_out->Print( aNestLevel + 1, "(at %s %s %s)",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aText->GetPosition().x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aText->GetPosition().y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( angle ).c_str() );
}
if( aText->GetFieldsAutoplaced() != FIELDS_AUTOPLACED_NO )
m_out->Print( 0, " (fields_autoplaced yes)" );
m_out->Print( 0, "\n" );
aText->EDA_TEXT::Format( m_out, aNestLevel, 0 );
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KICAD_FORMAT::FormatUuid( m_out, aText->m_Uuid );
if( label )
{
for( SCH_FIELD& field : label->GetFields() )
saveField( &field, aNestLevel + 1 );
}
m_out->Print( aNestLevel, ")\n" ); // Closes text token.
}
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void SCH_IO_KICAD_SEXPR::saveTextBox( SCH_TEXTBOX* aTextBox, int aNestLevel )
{
wxCHECK_RET( aTextBox != nullptr && m_out != nullptr, "" );
m_out->Print( aNestLevel, "(%s %s\n",
aTextBox->Type() == SCH_TABLECELL_T ? "table_cell" : "text_box",
m_out->Quotew( aTextBox->GetText() ).c_str() );
VECTOR2I pos = aTextBox->GetStart();
VECTOR2I size = aTextBox->GetEnd() - pos;
m_out->Print( aNestLevel + 1, "(exclude_from_sim %s) (at %s %s %s) (size %s %s) (margins %s %s %s %s)",
aTextBox->GetExcludedFromSim() ? "yes" : "no",
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EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, pos.x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, pos.y ).c_str(),
EDA_UNIT_UTILS::FormatAngle( aTextBox->GetTextAngle() ).c_str(),
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EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, size.x ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, size.y ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, aTextBox->GetMarginLeft() ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, aTextBox->GetMarginTop() ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, aTextBox->GetMarginRight() ).c_str(),
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale, aTextBox->GetMarginBottom() ).c_str() );
if( SCH_TABLECELL* cell = dynamic_cast<SCH_TABLECELL*>( aTextBox ) )
m_out->Print( 0, " (span %d %d)", cell->GetColSpan(), cell->GetRowSpan() );
m_out->Print( 0, "\n" );
if( aTextBox->Type() != SCH_TABLECELL_T )
{
aTextBox->GetStroke().Format( m_out, schIUScale, aNestLevel + 1 );
m_out->Print( 0, "\n" );
}
formatFill( m_out, aNestLevel + 1, aTextBox->GetFillMode(), aTextBox->GetFillColor() );
m_out->Print( 0, "\n" );
aTextBox->EDA_TEXT::Format( m_out, aNestLevel, 0 );
if( aTextBox->m_Uuid != niluuid )
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KICAD_FORMAT::FormatUuid( m_out, aTextBox->m_Uuid );
m_out->Print( aNestLevel, ")\n" );
}
void SCH_IO_KICAD_SEXPR::saveTable( SCH_TABLE* aTable, int aNestLevel )
{
if( aTable->GetFlags() & SKIP_STRUCT )
{
aTable = static_cast<SCH_TABLE*>( aTable->Clone() );
int minCol = aTable->GetColCount();
int maxCol = -1;
int minRow = aTable->GetRowCount();
int maxRow = -1;
for( int row = 0; row < aTable->GetRowCount(); ++row )
{
for( int col = 0; col < aTable->GetColCount(); ++col )
{
SCH_TABLECELL* cell = aTable->GetCell( row, col );
if( cell->IsSelected() )
{
minRow = std::min( minRow, row );
maxRow = std::max( maxRow, row );
minCol = std::min( minCol, col );
maxCol = std::max( maxCol, col );
}
else
{
cell->SetFlags( STRUCT_DELETED );
}
}
}
wxCHECK_MSG( maxCol >= minCol && maxRow >= minRow, /*void*/, wxT( "No selected cells!" ) );
int destRow = 0;
for( int row = minRow; row <= maxRow; row++ )
aTable->SetRowHeight( destRow++, aTable->GetRowHeight( row ) );
int destCol = 0;
for( int col = minCol; col <= maxCol; col++ )
aTable->SetColWidth( destCol++, aTable->GetColWidth( col ) );
aTable->DeleteMarkedCells();
aTable->SetColCount( ( maxCol - minCol ) + 1 );
}
wxCHECK_RET( aTable != nullptr && m_out != nullptr, "" );
m_out->Print( aNestLevel, "(table (column_count %d)\n",
aTable->GetColCount() );
m_out->Print( aNestLevel + 1, "(border (external %s) (header %s)",
aTable->StrokeExternal() ? "yes" : "no",
aTable->StrokeHeader() ? "yes" : "no" );
if( aTable->StrokeExternal() || aTable->StrokeHeader() )
{
m_out->Print( 0, " " );
aTable->GetBorderStroke().Format( m_out, schIUScale, 0 );
}
m_out->Print( 0, ")\n" );
m_out->Print( aNestLevel + 1, "(separators (rows %s) (cols %s)",
aTable->StrokeRows() ? "yes" : "no",
aTable->StrokeColumns() ? "yes" : "no" );
if( aTable->StrokeRows() || aTable->StrokeColumns() )
{
m_out->Print( 0, " " );
aTable->GetSeparatorsStroke().Format( m_out, schIUScale, 0 );
}
m_out->Print( 0, ")\n" ); // Close `separators` token.
m_out->Print( aNestLevel + 1, "(column_widths" );
for( int col = 0; col < aTable->GetColCount(); ++col )
{
m_out->Print( 0, " %s",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aTable->GetColWidth( col ) ).c_str() );
}
m_out->Print( 0, ")\n" );
m_out->Print( aNestLevel + 1, "(row_heights" );
for( int row = 0; row < aTable->GetRowCount(); ++row )
{
m_out->Print( 0, " %s",
EDA_UNIT_UTILS::FormatInternalUnits( schIUScale,
aTable->GetRowHeight( row ) ).c_str() );
}
m_out->Print( 0, ")\n" );
m_out->Print( aNestLevel + 1, "(cells\n" );
for( SCH_TABLECELL* cell : aTable->GetCells() )
saveTextBox( cell, aNestLevel + 2 );
m_out->Print( aNestLevel + 1, ")\n" ); // Close `cells` token.
m_out->Print( aNestLevel, ")\n" ); // Close `table` token.
if( aTable->GetFlags() & SKIP_STRUCT )
delete aTable;
}
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void SCH_IO_KICAD_SEXPR::saveBusAlias( std::shared_ptr<BUS_ALIAS> aAlias, int aNestLevel )
{
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wxCHECK_RET( aAlias != nullptr, "BUS_ALIAS* is NULL" );
wxString members;
for( const wxString& member : aAlias->Members() )
{
if( !members.IsEmpty() )
members += wxS( " " );
members += m_out->Quotew( member );
}
m_out->Print( aNestLevel, "(bus_alias %s (members %s))\n",
m_out->Quotew( aAlias->GetName() ).c_str(),
TO_UTF8( members ) );
}
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void SCH_IO_KICAD_SEXPR::saveInstances( const std::vector<SCH_SHEET_INSTANCE>& aInstances,
int aNestLevel )
{
if( aInstances.size() )
{
m_out->Print( 0, "\n" );
m_out->Print( aNestLevel, "(sheet_instances\n" );
for( const SCH_SHEET_INSTANCE& instance : aInstances )
{
wxString path = instance.m_Path.AsString();
if( path.IsEmpty() )
path = wxT( "/" ); // Root path
m_out->Print( aNestLevel + 1, "(path %s (page %s))\n",
m_out->Quotew( path ).c_str(),
m_out->Quotew( instance.m_PageNumber ).c_str() );
}
m_out->Print( aNestLevel, ")\n" ); // Close sheet instances token.
}
}
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void SCH_IO_KICAD_SEXPR::cacheLib( const wxString& aLibraryFileName,
const STRING_UTF8_MAP* aProperties )
{
if( !m_cache || !m_cache->IsFile( aLibraryFileName ) || m_cache->IsFileChanged() )
{
// a spectacular episode in memory management:
delete m_cache;
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m_cache = new SCH_IO_KICAD_SEXPR_LIB_CACHE( aLibraryFileName );
if( !isBuffering( aProperties ) )
m_cache->Load();
}
}
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bool SCH_IO_KICAD_SEXPR::isBuffering( const STRING_UTF8_MAP* aProperties )
{
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return ( aProperties && aProperties->Exists( SCH_IO_KICAD_SEXPR::PropBuffering ) );
}
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int SCH_IO_KICAD_SEXPR::GetModifyHash() const
{
if( m_cache )
return m_cache->GetModifyHash();
// If the cache hasn't been loaded, it hasn't been modified.
return 0;
}
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void SCH_IO_KICAD_SEXPR::EnumerateSymbolLib( wxArrayString& aSymbolNameList,
const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
bool powerSymbolsOnly = ( aProperties &&
aProperties->find( SYMBOL_LIB_TABLE::PropPowerSymsOnly ) != aProperties->end() );
cacheLib( aLibraryPath, aProperties );
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const LIB_SYMBOL_MAP& symbols = m_cache->m_symbols;
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for( LIB_SYMBOL_MAP::const_iterator it = symbols.begin(); it != symbols.end(); ++it )
{
if( !powerSymbolsOnly || it->second->IsPower() )
aSymbolNameList.Add( it->first );
}
}
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void SCH_IO_KICAD_SEXPR::EnumerateSymbolLib( std::vector<LIB_SYMBOL*>& aSymbolList,
const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
bool powerSymbolsOnly = ( aProperties &&
aProperties->find( SYMBOL_LIB_TABLE::PropPowerSymsOnly ) != aProperties->end() );
cacheLib( aLibraryPath, aProperties );
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const LIB_SYMBOL_MAP& symbols = m_cache->m_symbols;
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for( LIB_SYMBOL_MAP::const_iterator it = symbols.begin(); it != symbols.end(); ++it )
{
if( !powerSymbolsOnly || it->second->IsPower() )
aSymbolList.push_back( it->second );
}
}
LIB_SYMBOL* SCH_IO_KICAD_SEXPR::LoadSymbol( const wxString& aLibraryPath,
const wxString& aSymbolName,
const STRING_UTF8_MAP* aProperties )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
cacheLib( aLibraryPath, aProperties );
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LIB_SYMBOL_MAP::const_iterator it = m_cache->m_symbols.find( aSymbolName );
// We no longer escape '/' in symbol names, but we used to.
if( it == m_cache->m_symbols.end() && aSymbolName.Contains( '/' ) )
it = m_cache->m_symbols.find( EscapeString( aSymbolName, CTX_LEGACY_LIBID ) );
if( it == m_cache->m_symbols.end() && aSymbolName.Contains( wxT( "{slash}" ) ) )
{
wxString unescaped = aSymbolName;
unescaped.Replace( wxT( "{slash}" ), wxT( "/" ) );
it = m_cache->m_symbols.find( unescaped );
}
if( it == m_cache->m_symbols.end() )
return nullptr;
return it->second;
}
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void SCH_IO_KICAD_SEXPR::SaveSymbol( const wxString& aLibraryPath, const LIB_SYMBOL* aSymbol,
const STRING_UTF8_MAP* aProperties )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
cacheLib( aLibraryPath, aProperties );
m_cache->AddSymbol( aSymbol );
if( !isBuffering( aProperties ) )
m_cache->Save();
}
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void SCH_IO_KICAD_SEXPR::DeleteSymbol( const wxString& aLibraryPath, const wxString& aSymbolName,
const STRING_UTF8_MAP* aProperties )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
cacheLib( aLibraryPath, aProperties );
m_cache->DeleteSymbol( aSymbolName );
if( !isBuffering( aProperties ) )
m_cache->Save();
}
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void SCH_IO_KICAD_SEXPR::CreateLibrary( const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
if( wxFileExists( aLibraryPath ) )
{
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THROW_IO_ERROR( wxString::Format( _( "Symbol library '%s' already exists." ),
aLibraryPath.GetData() ) );
}
LOCALE_IO toggle;
delete m_cache;
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m_cache = new SCH_IO_KICAD_SEXPR_LIB_CACHE( aLibraryPath );
m_cache->SetModified();
m_cache->Save();
m_cache->Load(); // update m_writable and m_mod_time
}
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bool SCH_IO_KICAD_SEXPR::DeleteLibrary( const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
wxFileName fn = aLibraryPath;
if( !fn.FileExists() )
return false;
// Some of the more elaborate wxRemoveFile() crap puts up its own wxLog dialog
// we don't want that. we want bare metal portability with no UI here.
if( wxRemove( aLibraryPath ) )
{
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THROW_IO_ERROR( wxString::Format( _( "Symbol library '%s' cannot be deleted." ),
aLibraryPath.GetData() ) );
}
if( m_cache && m_cache->IsFile( aLibraryPath ) )
{
delete m_cache;
m_cache = nullptr;
}
return true;
}
void SCH_IO_KICAD_SEXPR::SaveLibrary( const wxString& aLibraryPath,
const STRING_UTF8_MAP* aProperties )
{
if( !m_cache )
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m_cache = new SCH_IO_KICAD_SEXPR_LIB_CACHE( aLibraryPath );
wxString oldFileName = m_cache->GetFileName();
if( !m_cache->IsFile( aLibraryPath ) )
{
m_cache->SetFileName( aLibraryPath );
}
// This is a forced save.
m_cache->SetModified();
m_cache->Save();
m_cache->SetFileName( oldFileName );
}
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bool SCH_IO_KICAD_SEXPR::IsLibraryWritable( const wxString& aLibraryPath )
{
wxFileName fn( aLibraryPath );
return ( fn.FileExists() && fn.IsFileWritable() ) || fn.IsDirWritable();
}
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void SCH_IO_KICAD_SEXPR::GetAvailableSymbolFields( std::vector<wxString>& aNames )
{
if( !m_cache )
return;
const LIB_SYMBOL_MAP& symbols = m_cache->m_symbols;
std::set<wxString> fieldNames;
for( LIB_SYMBOL_MAP::const_iterator it = symbols.begin(); it != symbols.end(); ++it )
{
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std::vector<SCH_FIELD*> fields;
it->second->GetFields( fields );
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for( SCH_FIELD* field : fields )
{
if( field->IsMandatory() )
continue;
// TODO(JE): enable configurability of this outside database libraries?
// if( field->ShowInChooser() )
fieldNames.insert( field->GetName() );
}
}
std::copy( fieldNames.begin(), fieldNames.end(), std::back_inserter( aNames ) );
}
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void SCH_IO_KICAD_SEXPR::GetDefaultSymbolFields( std::vector<wxString>& aNames )
{
GetAvailableSymbolFields( aNames );
}
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std::vector<LIB_SYMBOL*> SCH_IO_KICAD_SEXPR::ParseLibSymbols( std::string& aSymbolText,
std::string aSource,
int aFileVersion )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
LIB_SYMBOL* newSymbol = nullptr;
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LIB_SYMBOL_MAP map;
std::vector<LIB_SYMBOL*> newSymbols;
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std::unique_ptr<STRING_LINE_READER> reader = std::make_unique<STRING_LINE_READER>( aSymbolText,
aSource );
do
{
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SCH_IO_KICAD_SEXPR_PARSER parser( reader.get() );
newSymbol = parser.ParseSymbol( map, aFileVersion );
if( newSymbol )
newSymbols.emplace_back( newSymbol );
reader.reset( new STRING_LINE_READER( *reader ) );
}
while( newSymbol );
return newSymbols;
}
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void SCH_IO_KICAD_SEXPR::FormatLibSymbol( LIB_SYMBOL* symbol, OUTPUTFORMATTER & formatter )
{
LOCALE_IO toggle; // toggles on, then off, the C locale.
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SCH_IO_KICAD_SEXPR_LIB_CACHE::SaveSymbol( symbol, formatter );
}
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const char* SCH_IO_KICAD_SEXPR::PropBuffering = "buffering";