KiCad PCB EDA Suite
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netlist_exporter_xml.cpp
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1/*
2 * This program source code file is part of KiCad, a free EDA CAD application.
3 *
4 * Copyright (C) 1992-2013 jp.charras at wanadoo.fr
5 * Copyright (C) 2013-2017 SoftPLC Corporation, Dick Hollenbeck <[email protected]>
6 * Copyright (C) 1992-2023, 2024 KiCad Developers, see AUTHORS.txt for contributors.
7 *
8 * This program is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License
10 * as published by the Free Software Foundation; either version 2
11 * of the License, or (at your option) any later version.
12 *
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
17 *
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, you may find one here:
20 * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
21 * or you may search the http://www.gnu.org website for the version 2 license,
22 * or you may write to the Free Software Foundation, Inc.,
23 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
24 */
25
27
28#include <build_version.h>
29#include <common.h> // for ExpandTextVars
30#include <sch_base_frame.h>
31#include <symbol_library.h>
32#include <string_utils.h>
33#include <connection_graph.h>
34#include <core/kicad_algo.h>
35#include <wx/wfstream.h>
36#include <xnode.h> // also nests: <wx/xml/xml.h>
37#include <nlohmann/json.hpp>
38#include <project_sch.h>
39
40#include <symbol_lib_table.h>
41
42#include <set>
43
44static bool sortPinsByNumber( SCH_PIN* aPin1, SCH_PIN* aPin2 );
45
46bool NETLIST_EXPORTER_XML::WriteNetlist( const wxString& aOutFileName, unsigned aNetlistOptions,
47 REPORTER& aReporter )
48{
49 // output the XML format netlist.
50
51 // declare the stream ourselves to use the buffered FILE api
52 // instead of letting wx use the syscall variant
53 wxFFileOutputStream stream( aOutFileName );
54
55 if( !stream.IsOk() )
56 return false;
57
58 wxXmlDocument xdoc;
59 xdoc.SetRoot( makeRoot( GNL_ALL | aNetlistOptions ) );
60
61 return xdoc.Save( stream, 2 /* indent bug, today was ignored by wxXml lib */ );
62}
63
64
66{
67 XNODE* xroot = node( wxT( "export" ) );
68
69 xroot->AddAttribute( wxT( "version" ), wxT( "E" ) );
70
71 if( aCtl & GNL_HEADER )
72 // add the "design" header
73 xroot->AddChild( makeDesignHeader() );
74
75 if( aCtl & GNL_SYMBOLS )
76 xroot->AddChild( makeSymbols( aCtl ) );
77
78 if( aCtl & GNL_PARTS )
79 xroot->AddChild( makeLibParts() );
80
81 if( aCtl & GNL_LIBRARIES )
82 // must follow makeGenericLibParts()
83 xroot->AddChild( makeLibraries() );
84
85 if( aCtl & GNL_NETS )
86 xroot->AddChild( makeListOfNets( aCtl ) );
87
88 return xroot;
89}
90
91
93
94
96 const SCH_SHEET_PATH& aSheet,
97 const SCH_SHEET_LIST& aSheetList )
98{
99 wxString value;
100 wxString footprint;
101 wxString datasheet;
102 wxString description;
103 wxString candidate;
104 nlohmann::ordered_map<wxString, wxString> fields;
105
106 if( aSymbol->GetUnitCount() > 1 )
107 {
108 // Sadly, each unit of a symbol can have its own unique fields. This
109 // block finds the unit with the lowest number having a non blank field
110 // value and records it. Therefore user is best off setting fields
111 // into only the first unit. But this scavenger algorithm will find
112 // any non blank fields in all units and use the first non-blank field
113 // for each unique field name.
114
115 wxString ref = aSymbol->GetRef( &aSheet );
116
117 int minUnit = aSymbol->GetUnitSelection( &aSheet );
118
119 for( const SCH_SHEET_PATH& sheet : aSheetList )
120 {
121 for( SCH_ITEM* item : sheet.LastScreen()->Items().OfType( SCH_SYMBOL_T ) )
122 {
123 SCH_SYMBOL* symbol2 = static_cast<SCH_SYMBOL*>( item );
124
125 wxString ref2 = symbol2->GetRef( &sheet );
126
127 if( ref2.CmpNoCase( ref ) != 0 )
128 continue;
129
130 int unit = symbol2->GetUnitSelection( &aSheet );
131
132 // The lowest unit number wins. User should only set fields in any one unit.
133
134 // Value
135 candidate = symbol2->GetValue( m_resolveTextVars, &sheet, false );
136
137 if( !candidate.IsEmpty() && ( unit < minUnit || value.IsEmpty() ) )
138 value = candidate;
139
140 // Footprint
141 candidate = symbol2->GetFootprintFieldText( m_resolveTextVars, &sheet, false );
142
143 if( !candidate.IsEmpty() && ( unit < minUnit || footprint.IsEmpty() ) )
144 footprint = candidate;
145
146 // Datasheet
147 candidate = m_resolveTextVars
148 ? symbol2->GetField( DATASHEET_FIELD )->GetShownText( &sheet, false )
149 : symbol2->GetField( DATASHEET_FIELD )->GetText();
150
151 if( !candidate.IsEmpty() && ( unit < minUnit || datasheet.IsEmpty() ) )
152 datasheet = candidate;
153
154 // Description
155 candidate = m_resolveTextVars
156 ? symbol2->GetField( DESCRIPTION_FIELD )->GetShownText( &sheet, false )
157 : symbol2->GetField( DESCRIPTION_FIELD )->GetText();
158
159 if( !candidate.IsEmpty() && ( unit < minUnit || description.IsEmpty() ) )
160 description = candidate;
161
162 // All non-mandatory fields
163 for( int ii = MANDATORY_FIELDS; ii < symbol2->GetFieldCount(); ++ii )
164 {
165 const SCH_FIELD& f = symbol2->GetFields()[ ii ];
166
167 if( unit < minUnit || fields.count( f.GetName() ) == 0 )
168 {
170 fields[f.GetName()] = f.GetShownText( &aSheet, false );
171 else
172 fields[f.GetName()] = f.GetText();
173 }
174 }
175
176 minUnit = std::min( unit, minUnit );
177 }
178 }
179 }
180 else
181 {
182 value = aSymbol->GetValue( m_resolveTextVars, &aSheet, false );
183 footprint = aSymbol->GetFootprintFieldText( m_resolveTextVars, &aSheet, false );
184
185 SCH_FIELD* datasheetField = aSymbol->GetField( DATASHEET_FIELD );
186 SCH_FIELD* descriptionField = aSymbol->GetField( DESCRIPTION_FIELD );
187
188 // Datasheet
190 datasheet = datasheetField->GetShownText( &aSheet, false );
191 else
192 datasheet = datasheetField->GetText();
193
194 // Description
196 description = descriptionField->GetShownText( &aSheet, false );
197 else
198 description = descriptionField->GetText();
199
200 for( int ii = MANDATORY_FIELDS; ii < aSymbol->GetFieldCount(); ++ii )
201 {
202 const SCH_FIELD& f = aSymbol->GetFields()[ ii ];
203
205 fields[f.GetName()] = f.GetShownText( &aSheet, false );
206 else
207 fields[f.GetName()] = f.GetText();
208 }
209 }
210
211 fields[GetCanonicalFieldName( FOOTPRINT_FIELD )] = footprint;
213 fields[GetCanonicalFieldName( DESCRIPTION_FIELD )] = description;
214
215 // Do not output field values blank in netlist:
216 if( value.size() )
217 aNode->AddChild( node( wxT( "value" ), UnescapeString( value ) ) );
218 else // value field always written in netlist
219 aNode->AddChild( node( wxT( "value" ), wxT( "~" ) ) );
220
221 if( footprint.size() )
222 aNode->AddChild( node( wxT( "footprint" ), UnescapeString( footprint ) ) );
223
224 if( datasheet.size() )
225 aNode->AddChild( node( wxT( "datasheet" ), UnescapeString( datasheet ) ) );
226
227 if( description.size() )
228 aNode->AddChild( node( wxT( "description" ), UnescapeString( description ) ) );
229
230 XNODE* xfields;
231 aNode->AddChild( xfields = node( wxT( "fields" ) ) );
232
233 for( const auto& [ fieldName, fieldValue ] : fields )
234 {
235 XNODE* xfield = node( wxT( "field" ), UnescapeString( fieldValue ) );
236 xfield->AddAttribute( wxT( "name" ), UnescapeString( fieldName ) );
237 xfields->AddChild( xfield );
238 }
239}
240
241
243{
244 XNODE* xcomps = node( wxT( "components" ) );
245
247 m_libParts.clear();
248
249 SCH_SHEET_PATH currentSheet = m_schematic->CurrentSheet();
250 SCH_SHEET_LIST sheetList = m_schematic->Hierarchy();
251
252 // Output is xml, so there is no reason to remove spaces from the field values.
253 // And XML element names need not be translated to various languages.
254
255 for( const SCH_SHEET_PATH& sheet : sheetList )
256 {
257 // Change schematic CurrentSheet in each iteration to allow hierarchical
258 // resolution of text variables in sheet fields.
260
261 auto cmp =
262 [sheet]( SCH_SYMBOL* a, SCH_SYMBOL* b )
263 {
264 return ( StrNumCmp( a->GetRef( &sheet, false ),
265 b->GetRef( &sheet, false ), true ) < 0 );
266 };
267
268 std::set<SCH_SYMBOL*, decltype( cmp )> ordered_symbols( cmp );
269 std::multiset<SCH_SYMBOL*, decltype( cmp )> extra_units( cmp );
270
271 for( SCH_ITEM* item : sheet.LastScreen()->Items().OfType( SCH_SYMBOL_T ) )
272 {
273 SCH_SYMBOL* symbol = static_cast<SCH_SYMBOL*>( item );
274 auto test = ordered_symbols.insert( symbol );
275
276 if( !test.second )
277 {
278 if( ( *( test.first ) )->m_Uuid > symbol->m_Uuid )
279 {
280 extra_units.insert( *( test.first ) );
281 ordered_symbols.erase( test.first );
282 ordered_symbols.insert( symbol );
283 }
284 else
285 {
286 extra_units.insert( symbol );
287 }
288 }
289 }
290
291 for( EDA_ITEM* item : ordered_symbols )
292 {
293 SCH_SYMBOL* symbol = findNextSymbol( item, sheet );
294 bool forBOM = aCtl & GNL_OPT_BOM;
295 bool forBoard = aCtl & GNL_OPT_KICAD;
296
297 if( !symbol )
298 continue;
299
300 if( forBOM && ( sheet.GetExcludedFromBOM() || symbol->GetExcludedFromBOM() ) )
301 continue;
302
303 if( forBoard && ( sheet.GetExcludedFromBoard() || symbol->GetExcludedFromBoard() ) )
304 continue;
305
306 // Output the symbol's elements in order of expected access frequency. This may
307 // not always look best, but it will allow faster execution under XSL processing
308 // systems which do sequential searching within an element.
309
310 XNODE* xcomp; // current symbol being constructed
311 xcomps->AddChild( xcomp = node( wxT( "comp" ) ) );
312
313 xcomp->AddAttribute( wxT( "ref" ), symbol->GetRef( &sheet ) );
314 addSymbolFields( xcomp, symbol, sheet, sheetList );
315
316 XNODE* xlibsource;
317 xcomp->AddChild( xlibsource = node( wxT( "libsource" ) ) );
318
319 // "logical" library name, which is in anticipation of a better search algorithm
320 // for parts based on "logical_lib.part" and where logical_lib is merely the library
321 // name minus path and extension.
322 wxString libName;
323 wxString partName;
324
325 if( symbol->UseLibIdLookup() )
326 {
327 libName = symbol->GetLibId().GetUniStringLibNickname();
328 partName = symbol->GetLibId().GetUniStringLibItemName();
329 }
330 else
331 {
332 partName = symbol->GetSchSymbolLibraryName();
333 }
334
335 xlibsource->AddAttribute( wxT( "lib" ), libName );
336
337 // We only want the symbol name, not the full LIB_ID.
338 xlibsource->AddAttribute( wxT( "part" ), partName );
339
340 xlibsource->AddAttribute( wxT( "description" ), symbol->GetDescription() );
341
342 /* Add the symbol properties. */
343 XNODE* xproperty;
344
345 std::vector<SCH_FIELD>& fields = symbol->GetFields();
346
347 for( size_t jj = MANDATORY_FIELDS; jj < fields.size(); ++jj )
348 {
349 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
350 xproperty->AddAttribute( wxT( "name" ), fields[jj].GetCanonicalName() );
351
353 xproperty->AddAttribute( wxT( "value" ), fields[jj].GetShownText( &sheet, false ) );
354 else
355 xproperty->AddAttribute( wxT( "value" ), fields[jj].GetText() );
356 }
357
358 for( const SCH_FIELD& sheetField : sheet.Last()->GetFields() )
359 {
360 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
361 xproperty->AddAttribute( wxT( "name" ), sheetField.GetCanonicalName() );
362
364 // do not allow GetShownText() to add any prefix useful only when displaying
365 // the field on screen
366 xproperty->AddAttribute( wxT( "value" ), sheetField.GetShownText( &sheet, false ) );
367 else
368 xproperty->AddAttribute( wxT( "value" ), sheetField.GetText() );
369 }
370
371 if( symbol->GetExcludedFromBOM() )
372 {
373 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
374 xproperty->AddAttribute( wxT( "name" ), wxT( "exclude_from_bom" ) );
375 }
376
377 if( symbol->GetExcludedFromBoard() )
378 {
379 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
380 xproperty->AddAttribute( wxT( "name" ), wxT( "exclude_from_board" ) );
381 }
382
383 if( symbol->GetDNP() )
384 {
385 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
386 xproperty->AddAttribute( wxT( "name" ), wxT( "dnp" ) );
387 }
388
389 if( const std::unique_ptr<LIB_SYMBOL>& part = symbol->GetLibSymbolRef() )
390 {
391 if( part->GetKeyWords().size() )
392 {
393 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
394 xproperty->AddAttribute( wxT( "name" ), wxT( "ki_keywords" ) );
395 xproperty->AddAttribute( wxT( "value" ), part->GetKeyWords() );
396 }
397
398 if( !part->GetFPFilters().IsEmpty() )
399 {
400 wxString filters;
401
402 for( const wxString& filter : part->GetFPFilters() )
403 filters += ' ' + filter;
404
405 xcomp->AddChild( xproperty = node( wxT( "property" ) ) );
406 xproperty->AddAttribute( wxT( "name" ), wxT( "ki_fp_filters" ) );
407 xproperty->AddAttribute( wxT( "value" ), filters.Trim( false ) );
408 }
409 }
410
411 XNODE* xsheetpath;
412 xcomp->AddChild( xsheetpath = node( wxT( "sheetpath" ) ) );
413
414 xsheetpath->AddAttribute( wxT( "names" ), sheet.PathHumanReadable() );
415 xsheetpath->AddAttribute( wxT( "tstamps" ), sheet.PathAsString() );
416
417 // Node for component class
418 std::vector<wxString> compClassNames =
419 getComponentClassNamesForAllSymbolUnits( symbol, sheet, sheetList );
420
421 if( compClassNames.size() > 0 )
422 {
423 XNODE* xcompclasslist;
424 xcomp->AddChild( xcompclasslist = node( wxT( "component_classes" ) ) );
425
426 for( const wxString& compClass : compClassNames )
427 {
428 xcompclasslist->AddChild( node( wxT( "class" ), UnescapeString( compClass ) ) );
429 }
430 }
431
432 XNODE* xunits; // Node for extra units
433 xcomp->AddChild( xunits = node( wxT( "tstamps" ) ) );
434
435 auto range = extra_units.equal_range( symbol );
436 wxString uuid;
437
438 // Output a series of children with all UUIDs associated with the REFDES
439 for( auto it = range.first; it != range.second; ++it )
440 {
441 uuid = ( *it )->m_Uuid.AsString();
442
443 // Add a space between UUIDs, if not in KICAD mode (i.e.
444 // using wxXmlDocument::Save()). KICAD MODE has its own XNODE::Format function.
445 if( !( aCtl & GNL_OPT_KICAD ) ) // i.e. for .xml format
446 uuid += ' ';
447
448 xunits->AddChild( new XNODE( wxXML_TEXT_NODE, wxEmptyString, uuid ) );
449 }
450
451 // Output the primary UUID
452 uuid = symbol->m_Uuid.AsString();
453 xunits->AddChild( new XNODE( wxXML_TEXT_NODE, wxEmptyString, uuid ) );
454 }
455 }
456
457 m_schematic->SetCurrentSheet( currentSheet );
458
459 return xcomps;
460}
461
462
464 SCH_SYMBOL* aSymbol, const SCH_SHEET_PATH& aSymbolSheet, const SCH_SHEET_LIST& aSheetList )
465{
466 std::unordered_set<wxString> compClassNames = aSymbol->GetComponentClassNames( &aSymbolSheet );
467 int primaryUnit = aSymbol->GetUnitSelection( &aSymbolSheet );
468
469 if( aSymbol->GetUnitCount() > 1 )
470 {
471 wxString ref = aSymbol->GetRef( &aSymbolSheet );
472
473 for( const SCH_SHEET_PATH& sheet : aSheetList )
474 {
475 for( SCH_ITEM* item : sheet.LastScreen()->Items().OfType( SCH_SYMBOL_T ) )
476 {
477 SCH_SYMBOL* symbol2 = static_cast<SCH_SYMBOL*>( item );
478
479 wxString ref2 = symbol2->GetRef( &sheet );
480 int otherUnit = symbol2->GetUnitSelection( &sheet );
481
482 if( ref2.CmpNoCase( ref ) != 0 )
483 continue;
484
485 if( otherUnit == primaryUnit )
486 continue;
487
488 std::unordered_set<wxString> otherClassNames =
489 symbol2->GetComponentClassNames( &sheet );
490 compClassNames.insert( otherClassNames.begin(), otherClassNames.end() );
491 }
492 }
493 }
494
495 std::vector<wxString> sortedCompClassNames( compClassNames.begin(), compClassNames.end() );
496 std::sort( sortedCompClassNames.begin(), sortedCompClassNames.end(),
497 []( const wxString& str1, const wxString& str2 )
498 {
499 return str1.Cmp( str2 ) < 0;
500 } );
501
502 return sortedCompClassNames;
503}
504
505
507{
508 SCH_SCREEN* screen;
509 XNODE* xdesign = node( wxT( "design" ) );
510 XNODE* xtitleBlock;
511 XNODE* xsheet;
512 XNODE* xcomment;
513 XNODE* xtextvar;
514 wxString sheetTxt;
515 wxFileName sourceFileName;
516
517 // the root sheet is a special sheet, call it source
518 xdesign->AddChild( node( wxT( "source" ), m_schematic->GetFileName() ) );
519
520 xdesign->AddChild( node( wxT( "date" ), GetISO8601CurrentDateTime() ) );
521
522 // which Eeschema tool
523 xdesign->AddChild( node( wxT( "tool" ), wxT( "Eeschema " ) + GetBuildVersion() ) );
524
525 const std::map<wxString, wxString>& properties = m_schematic->Prj().GetTextVars();
526
527 for( const std::pair<const wxString, wxString>& prop : properties )
528 {
529 xdesign->AddChild( xtextvar = node( wxT( "textvar" ), prop.second ) );
530 xtextvar->AddAttribute( wxT( "name" ), prop.first );
531 }
532
533 /*
534 * Export the sheets information
535 */
536 unsigned sheetIndex = 1; // Human readable index
537
538 for( const SCH_SHEET_PATH& sheet : m_schematic->Hierarchy() )
539 {
540 screen = sheet.LastScreen();
541
542 xdesign->AddChild( xsheet = node( wxT( "sheet" ) ) );
543
544 // get the string representation of the sheet index number.
545 sheetTxt.Printf( wxT( "%u" ), sheetIndex++ );
546 xsheet->AddAttribute( wxT( "number" ), sheetTxt );
547 xsheet->AddAttribute( wxT( "name" ), sheet.PathHumanReadable() );
548 xsheet->AddAttribute( wxT( "tstamps" ), sheet.PathAsString() );
549
550 TITLE_BLOCK tb = screen->GetTitleBlock();
551 PROJECT* prj = &m_schematic->Prj();
552
553 xsheet->AddChild( xtitleBlock = node( wxT( "title_block" ) ) );
554
555 xtitleBlock->AddChild( node( wxT( "title" ), ExpandTextVars( tb.GetTitle(), prj ) ) );
556 xtitleBlock->AddChild( node( wxT( "company" ), ExpandTextVars( tb.GetCompany(), prj ) ) );
557 xtitleBlock->AddChild( node( wxT( "rev" ), ExpandTextVars( tb.GetRevision(), prj ) ) );
558 xtitleBlock->AddChild( node( wxT( "date" ), ExpandTextVars( tb.GetDate(), prj ) ) );
559
560 // We are going to remove the fileName directories.
561 sourceFileName = wxFileName( screen->GetFileName() );
562 xtitleBlock->AddChild( node( wxT( "source" ), sourceFileName.GetFullName() ) );
563
564 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
565 xcomment->AddAttribute( wxT( "number" ), wxT( "1" ) );
566 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 0 ), prj ) );
567
568 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
569 xcomment->AddAttribute( wxT( "number" ), wxT( "2" ) );
570 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 1 ), prj ) );
571
572 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
573 xcomment->AddAttribute( wxT( "number" ), wxT( "3" ) );
574 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 2 ), prj ) );
575
576 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
577 xcomment->AddAttribute( wxT( "number" ), wxT( "4" ) );
578 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 3 ), prj ) );
579
580 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
581 xcomment->AddAttribute( wxT( "number" ), wxT( "5" ) );
582 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 4 ), prj ) );
583
584 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
585 xcomment->AddAttribute( wxT( "number" ), wxT( "6" ) );
586 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 5 ), prj ) );
587
588 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
589 xcomment->AddAttribute( wxT( "number" ), wxT( "7" ) );
590 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 6 ), prj ) );
591
592 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
593 xcomment->AddAttribute( wxT( "number" ), wxT( "8" ) );
594 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 7 ), prj ) );
595
596 xtitleBlock->AddChild( xcomment = node( wxT( "comment" ) ) );
597 xcomment->AddAttribute( wxT( "number" ), wxT( "9" ) );
598 xcomment->AddAttribute( wxT( "value" ), ExpandTextVars( tb.GetComment( 8 ), prj ) );
599 }
600
601 return xdesign;
602}
603
604
606{
607 XNODE* xlibs = node( wxT( "libraries" ) ); // auto_ptr
609
610 for( std::set<wxString>::iterator it = m_libraries.begin(); it!=m_libraries.end(); ++it )
611 {
612 wxString libNickname = *it;
613 XNODE* xlibrary;
614
615 if( symbolLibTable->HasLibrary( libNickname ) )
616 {
617 xlibs->AddChild( xlibrary = node( wxT( "library" ) ) );
618 xlibrary->AddAttribute( wxT( "logical" ), libNickname );
619 xlibrary->AddChild( node( wxT( "uri" ), symbolLibTable->GetFullURI( libNickname ) ) );
620 }
621
622 // @todo: add more fun stuff here
623 }
624
625 return xlibs;
626}
627
628
630{
631 XNODE* xlibparts = node( wxT( "libparts" ) ); // auto_ptr
632 std::vector<SCH_FIELD*> fieldList;
633
634 m_libraries.clear();
635
636 for( LIB_SYMBOL* lcomp : m_libParts )
637 {
638 wxString libNickname = lcomp->GetLibId().GetLibNickname();;
639
640 // The library nickname will be empty if the cache library is used.
641 if( !libNickname.IsEmpty() )
642 m_libraries.insert( libNickname ); // inserts symbol's library if unique
643
644 XNODE* xlibpart;
645 xlibparts->AddChild( xlibpart = node( wxT( "libpart" ) ) );
646 xlibpart->AddAttribute( wxT( "lib" ), libNickname );
647 xlibpart->AddAttribute( wxT( "part" ), lcomp->GetName() );
648
649 //----- show the important properties -------------------------
650 if( !lcomp->GetDescription().IsEmpty() )
651 xlibpart->AddChild( node( wxT( "description" ), lcomp->GetDescription() ) );
652
653 if( !lcomp->GetDatasheetField().GetText().IsEmpty() )
654 xlibpart->AddChild( node( wxT( "docs" ), lcomp->GetDatasheetField().GetText() ) );
655
656 // Write the footprint list
657 if( lcomp->GetFPFilters().GetCount() )
658 {
659 XNODE* xfootprints;
660 xlibpart->AddChild( xfootprints = node( wxT( "footprints" ) ) );
661
662 for( unsigned i = 0; i < lcomp->GetFPFilters().GetCount(); ++i )
663 xfootprints->AddChild( node( wxT( "fp" ), lcomp->GetFPFilters()[i] ) );
664 }
665
666 //----- show the fields here ----------------------------------
667 fieldList.clear();
668 lcomp->GetFields( fieldList );
669
670 XNODE* xfields;
671 xlibpart->AddChild( xfields = node( "fields" ) );
672
673 for( const SCH_FIELD* field : fieldList )
674 {
675 XNODE* xfield;
676 xfields->AddChild( xfield = node( wxT( "field" ), field->GetText() ) );
677 xfield->AddAttribute( wxT( "name" ), field->GetCanonicalName() );
678 }
679
680 //----- show the pins here ------------------------------------
681 std::vector<SCH_PIN*> pinList = lcomp->GetPins( 0, 0 );
682
683 /*
684 * We must erase redundant Pins references in pinList
685 * These redundant pins exist because some pins are found more than one time when a
686 * symbol has multiple parts per package or has 2 representations (DeMorgan conversion).
687 * For instance, a 74ls00 has DeMorgan conversion, with different pin shapes, and
688 * therefore each pin appears 2 times in the list. Common pins (VCC, GND) can also be
689 * found more than once.
690 */
691 sort( pinList.begin(), pinList.end(), sortPinsByNumber );
692
693 for( int ii = 0; ii < (int)pinList.size()-1; ii++ )
694 {
695 if( pinList[ii]->GetNumber() == pinList[ii+1]->GetNumber() )
696 { // 2 pins have the same number, remove the redundant pin at index i+1
697 pinList.erase(pinList.begin() + ii + 1);
698 ii--;
699 }
700 }
701
702 if( pinList.size() )
703 {
704 XNODE* pins;
705
706 xlibpart->AddChild( pins = node( wxT( "pins" ) ) );
707
708 for( unsigned i=0; i<pinList.size(); ++i )
709 {
710 XNODE* pin;
711
712 pins->AddChild( pin = node( wxT( "pin" ) ) );
713 pin->AddAttribute( wxT( "num" ), pinList[i]->GetShownNumber() );
714 pin->AddAttribute( wxT( "name" ), pinList[i]->GetShownName() );
715 pin->AddAttribute( wxT( "type" ), pinList[i]->GetCanonicalElectricalTypeName() );
716
717 // caution: construction work site here, drive slowly
718 }
719 }
720 }
721
722 return xlibparts;
723}
724
725
727{
728 XNODE* xnets = node( wxT( "nets" ) ); // auto_ptr if exceptions ever get used.
729 wxString netCodeTxt;
730 wxString netName;
731 wxString ref;
732
733 XNODE* xnet = nullptr;
734
735 /* output:
736 <net code="123" name="/cfcard.sch/WAIT#">
737 <node ref="R23" pin="1"/>
738 <node ref="U18" pin="12"/>
739 </net>
740 */
741
742 struct NET_NODE
743 {
744 NET_NODE( SCH_PIN* aPin, const SCH_SHEET_PATH& aSheet ) :
745 m_Pin( aPin ),
746 m_Sheet( aSheet )
747 {}
748
749 SCH_PIN* m_Pin;
750 SCH_SHEET_PATH m_Sheet;
751 };
752
753 struct NET_RECORD
754 {
755 NET_RECORD( const wxString& aName ) :
756 m_Name( aName ),
757 m_HasNoConnect( false )
758 {};
759
760 wxString m_Name;
761 bool m_HasNoConnect;
762 std::vector<NET_NODE> m_Nodes;
763 };
764
765 std::vector<NET_RECORD*> nets;
766
767 for( const auto& [ key, subgraphs ] : m_schematic->ConnectionGraph()->GetNetMap() )
768 {
769 wxString net_name = key.Name;
770 NET_RECORD* net_record = nullptr;
771
772 if( subgraphs.empty() )
773 continue;
774
775 nets.emplace_back( new NET_RECORD( net_name ) );
776 net_record = nets.back();
777
778 for( CONNECTION_SUBGRAPH* subgraph : subgraphs )
779 {
780 bool nc = subgraph->GetNoConnect() && subgraph->GetNoConnect()->Type() == SCH_NO_CONNECT_T;
781 const SCH_SHEET_PATH& sheet = subgraph->GetSheet();
782
783 if( nc )
784 net_record->m_HasNoConnect = true;
785
786 for( SCH_ITEM* item : subgraph->GetItems() )
787 {
788 if( item->Type() == SCH_PIN_T )
789 {
790 SCH_PIN* pin = static_cast<SCH_PIN*>( item );
791 SCH_SYMBOL* symbol = dynamic_cast<SCH_SYMBOL*>( pin->GetParentSymbol() );
792 bool forBOM = aCtl & GNL_OPT_BOM;
793 bool forBoard = aCtl & GNL_OPT_KICAD;
794
795 if( !symbol )
796 continue;
797
798 if( forBOM && ( sheet.GetExcludedFromBOM() || symbol->GetExcludedFromBOM() ) )
799 continue;
800
801 if( forBoard && ( sheet.GetExcludedFromBoard() || symbol->GetExcludedFromBoard() ) )
802 continue;
803
804 net_record->m_Nodes.emplace_back( pin, sheet );
805 }
806 }
807 }
808 }
809
810 // Netlist ordering: Net name, then ref des, then pin name
811 std::sort( nets.begin(), nets.end(),
812 []( const NET_RECORD* a, const NET_RECORD*b )
813 {
814 return StrNumCmp( a->m_Name, b->m_Name ) < 0;
815 } );
816
817 for( int i = 0; i < (int) nets.size(); ++i )
818 {
819 NET_RECORD* net_record = nets[i];
820 bool added = false;
821 XNODE* xnode;
822
823 // Netlist ordering: Net name, then ref des, then pin name
824 std::sort( net_record->m_Nodes.begin(), net_record->m_Nodes.end(),
825 []( const NET_NODE& a, const NET_NODE& b )
826 {
827 wxString refA = a.m_Pin->GetParentSymbol()->GetRef( &a.m_Sheet );
828 wxString refB = b.m_Pin->GetParentSymbol()->GetRef( &b.m_Sheet );
829
830 if( refA == refB )
831 return a.m_Pin->GetShownNumber() < b.m_Pin->GetShownNumber();
832
833 return refA < refB;
834 } );
835
836 // Some duplicates can exist, for example on multi-unit parts with duplicated pins across
837 // units. If the user connects the pins on each unit, they will appear on separate
838 // subgraphs. Remove those here:
839 alg::remove_duplicates( net_record->m_Nodes,
840 []( const NET_NODE& a, const NET_NODE& b )
841 {
842 wxString refA = a.m_Pin->GetParentSymbol()->GetRef( &a.m_Sheet );
843 wxString refB = b.m_Pin->GetParentSymbol()->GetRef( &b.m_Sheet );
844
845 return refA == refB && a.m_Pin->GetShownNumber() == b.m_Pin->GetShownNumber();
846 } );
847
848 // Determine if all pins in the net are stacked (nets with only one pin are implicitly
849 // taken to be stacked)
850 bool allNetPinsStacked = true;
851
852 if( net_record->m_Nodes.size() > 1 )
853 {
854 SCH_PIN* firstPin = net_record->m_Nodes.begin()->m_Pin;
855 allNetPinsStacked =
856 std::all_of( net_record->m_Nodes.begin() + 1, net_record->m_Nodes.end(),
857 [=]( auto& node )
858 {
859 return firstPin->GetParent() == node.m_Pin->GetParent()
860 && firstPin->GetPosition() == node.m_Pin->GetPosition()
861 && firstPin->GetName() == node.m_Pin->GetName();
862 } );
863 }
864
865 for( const NET_NODE& netNode : net_record->m_Nodes )
866 {
867 wxString refText = netNode.m_Pin->GetParentSymbol()->GetRef( &netNode.m_Sheet );
868 wxString pinText = netNode.m_Pin->GetShownNumber();
869
870 // Skip power symbols and virtual symbols
871 if( refText[0] == wxChar( '#' ) )
872 continue;
873
874 if( !added )
875 {
876 netCodeTxt.Printf( wxT( "%d" ), i + 1 );
877
878 xnets->AddChild( xnet = node( wxT( "net" ) ) );
879 xnet->AddAttribute( wxT( "code" ), netCodeTxt );
880 xnet->AddAttribute( wxT( "name" ), net_record->m_Name );
881
882 added = true;
883 }
884
885 xnet->AddChild( xnode = node( wxT( "node" ) ) );
886 xnode->AddAttribute( wxT( "ref" ), refText );
887 xnode->AddAttribute( wxT( "pin" ), pinText );
888
889 wxString pinName = netNode.m_Pin->GetShownName();
890 wxString pinType = netNode.m_Pin->GetCanonicalElectricalTypeName();
891
892 if( !pinName.IsEmpty() )
893 xnode->AddAttribute( wxT( "pinfunction" ), pinName );
894
895 if( net_record->m_HasNoConnect
896 && ( net_record->m_Nodes.size() == 1 || allNetPinsStacked ) )
897 pinType += wxT( "+no_connect" );
898
899 xnode->AddAttribute( wxT( "pintype" ), pinType );
900 }
901 }
902
903 for( NET_RECORD* record : nets )
904 delete record;
905
906 return xnets;
907}
908
909
910XNODE* NETLIST_EXPORTER_XML::node( const wxString& aName,
911 const wxString& aTextualContent /* = wxEmptyString*/ )
912{
913 XNODE* n = new XNODE( wxXML_ELEMENT_NODE, aName );
914
915 if( aTextualContent.Len() > 0 ) // excludes wxEmptyString, the parameter's default value
916 n->AddChild( new XNODE( wxXML_TEXT_NODE, wxEmptyString, aTextualContent ) );
917
918 return n;
919}
920
921
922static bool sortPinsByNumber( SCH_PIN* aPin1, SCH_PIN* aPin2 )
923{
924 // return "lhs < rhs"
925 return StrNumCmp( aPin1->GetShownNumber(), aPin2->GetShownNumber(), true ) < 0;
926}
wxString GetBuildVersion()
Get the full KiCad version string.
const NET_MAP & GetNetMap() const
A subgraph is a set of items that are electrically connected on a single sheet.
A base class for most all the KiCad significant classes used in schematics and boards.
Definition: eda_item.h:89
const KIID m_Uuid
Definition: eda_item.h:489
virtual const wxString & GetText() const
Return the string associated with the text object.
Definition: eda_text.h:98
wxString AsString() const
Definition: kiid.cpp:238
const wxString GetUniStringLibItemName() const
Get strings for display messages in dialogs.
Definition: lib_id.h:112
const wxString GetUniStringLibNickname() const
Definition: lib_id.h:88
Define a library symbol object.
Definition: lib_symbol.h:78
bool HasLibrary(const wxString &aNickname, bool aCheckEnabled=false) const
Test for the existence of aNickname in the library table.
wxString GetFullURI(const wxString &aLibNickname, bool aExpandEnvVars=true) const
Return the full URI of the library mapped to aLibNickname.
SCH_SYMBOL * findNextSymbol(EDA_ITEM *aItem, const SCH_SHEET_PATH &aSheetPath)
Check if the given symbol should be processed for netlisting.
std::set< LIB_SYMBOL *, LIB_SYMBOL_LESS_THAN > m_libParts
unique library symbols used. LIB_SYMBOL items are sorted by names
UNIQUE_STRINGS m_referencesAlreadyFound
Used for "multiple symbols per package" symbols to avoid processing a lib symbol more than once.
SCHEMATIC_IFACE * m_schematic
The schematic we're generating a netlist for.
XNODE * makeDesignHeader()
Fill out a project "design" header into an XML node.
XNODE * makeLibraries()
Fill out an XML node with a list of used libraries and returns it.
bool WriteNetlist(const wxString &aOutFileName, unsigned aNetlistOptions, REPORTER &aReporter) override
Write generic netlist to aOutFileName.
XNODE * node(const wxString &aName, const wxString &aTextualContent=wxEmptyString)
A convenience function that creates a new XNODE with an optional textual child.
XNODE * makeListOfNets(unsigned aCtl)
Fill out an XML node with a list of nets and returns it.
void addSymbolFields(XNODE *aNode, SCH_SYMBOL *aSymbol, const SCH_SHEET_PATH &aSheet, const SCH_SHEET_LIST &aSheetList)
Holder for multi-unit symbol fields.
std::vector< wxString > getComponentClassNamesForAllSymbolUnits(SCH_SYMBOL *aSymbol, const SCH_SHEET_PATH &aSymbolSheet, const SCH_SHEET_LIST &aSheetList)
Finds all component class names attached to any sub-unit of a given symbol.
XNODE * makeSymbols(unsigned aCtl)
XNODE * makeRoot(unsigned aCtl=GNL_ALL)
Build the entire document tree for the generic export.
std::set< wxString > m_libraries
XNODE * makeLibParts()
Fill out an XML node with the unique library parts and returns it.
static SYMBOL_LIB_TABLE * SchSymbolLibTable(PROJECT *aProject)
Accessor for project symbol library table.
Container for project specific data.
Definition: project.h:64
virtual std::map< wxString, wxString > & GetTextVars() const
Definition: project.cpp:84
A pure virtual class used to derive REPORTER objects from.
Definition: reporter.h:72
virtual void SetCurrentSheet(const SCH_SHEET_PATH &aPath)=0
virtual wxString GetFileName() const =0
virtual CONNECTION_GRAPH * ConnectionGraph() const =0
virtual SCH_SHEET_PATH & CurrentSheet() const =0
virtual PROJECT & Prj() const =0
virtual SCH_SHEET_LIST Hierarchy() const =0
Instances are attached to a symbol or sheet and provide a place for the symbol's value,...
Definition: sch_field.h:51
wxString GetName(bool aUseDefaultName=true) const
Return the field name (not translated).
Definition: sch_field.cpp:1228
wxString GetShownText(const SCH_SHEET_PATH *aPath, bool aAllowExtraText, int aDepth=0) const
Definition: sch_field.cpp:211
Base class for any item which can be embedded within the SCHEMATIC container class,...
Definition: sch_item.h:166
wxString GetShownNumber() const
Definition: sch_pin.cpp:511
const wxString & GetFileName() const
Definition: sch_screen.h:143
const TITLE_BLOCK & GetTitleBlock() const
Definition: sch_screen.h:154
A container for handling SCH_SHEET_PATH objects in a flattened hierarchy.
Handle access to a stack of flattened SCH_SHEET objects by way of a path for creating a flattened sch...
bool GetExcludedFromBOM() const
const SCH_SHEET * GetSheet(unsigned aIndex) const
bool GetExcludedFromBoard() const
Schematic symbol object.
Definition: sch_symbol.h:104
wxString GetDescription() const override
Definition: sch_symbol.cpp:288
int GetFieldCount() const
Return the number of fields in this symbol.
Definition: sch_symbol.h:606
bool UseLibIdLookup() const
Definition: sch_symbol.h:210
wxString GetSchSymbolLibraryName() const
Definition: sch_symbol.cpp:270
SCH_FIELD * GetField(MANDATORY_FIELD_T aFieldType)
Return a mandatory field in this symbol.
Definition: sch_symbol.cpp:939
const wxString GetValue(bool aResolve, const SCH_SHEET_PATH *aPath, bool aAllowExtraText) const override
Definition: sch_symbol.cpp:907
const wxString GetFootprintFieldText(bool aResolve, const SCH_SHEET_PATH *aPath, bool aAllowExtraText) const
Definition: sch_symbol.cpp:923
const LIB_ID & GetLibId() const override
Definition: sch_symbol.h:193
int GetUnitSelection(const SCH_SHEET_PATH *aSheet) const
Return the instance-specific unit selection for the given sheet path.
Definition: sch_symbol.cpp:865
int GetUnitCount() const override
Return the number of units per package of the symbol.
Definition: sch_symbol.cpp:468
void GetFields(std::vector< SCH_FIELD * > &aVector, bool aVisibleOnly)
Populate a std::vector with SCH_FIELDs.
Definition: sch_symbol.cpp:987
std::unique_ptr< LIB_SYMBOL > & GetLibSymbolRef()
Definition: sch_symbol.h:212
std::unordered_set< wxString > GetComponentClassNames(const SCH_SHEET_PATH *aPath) const
Returns the component classes this symbol belongs in.
const wxString GetRef(const SCH_SHEET_PATH *aSheet, bool aIncludeUnit=false) const override
Definition: sch_symbol.cpp:737
bool GetExcludedFromBoard() const
Definition: symbol.h:148
bool GetExcludedFromBOM() const
Definition: symbol.h:142
bool GetDNP() const
Set or clear the 'Do Not Populate' flaga.
Definition: symbol.h:153
Hold the information shown in the lower right corner of a plot, printout, or editing view.
Definition: title_block.h:41
const wxString & GetCompany() const
Definition: title_block.h:96
const wxString & GetRevision() const
Definition: title_block.h:86
const wxString & GetDate() const
Definition: title_block.h:76
const wxString & GetComment(int aIdx) const
Definition: title_block.h:107
const wxString & GetTitle() const
Definition: title_block.h:63
void Clear()
Erase the record.
Hold an XML or S-expression element.
Definition: xnode.h:43
wxString ExpandTextVars(const wxString &aSource, const PROJECT *aProject, int aFlags)
Definition: common.cpp:59
The common library.
void remove_duplicates(_Container &__c)
Deletes all duplicate values from __c.
Definition: kicad_algo.h:183
static bool sortPinsByNumber(SCH_PIN *aPin1, SCH_PIN *aPin2)
#define GNL_ALL
@ GNL_PARTS
@ GNL_LIBRARIES
@ GNL_OPT_KICAD
@ GNL_SYMBOLS
@ GNL_HEADER
@ GNL_OPT_BOM
@ GNL_NETS
int StrNumCmp(const wxString &aString1, const wxString &aString2, bool aIgnoreCase)
Compare two strings with alphanumerical content.
wxString UnescapeString(const wxString &aSource)
wxString GetISO8601CurrentDateTime()
Definition for symbol library class.
wxString GetCanonicalFieldName(int idx)
@ DATASHEET_FIELD
name of datasheet
@ FOOTPRINT_FIELD
Field Name Module PCB, i.e. "16DIP300".
@ MANDATORY_FIELDS
The first 5 are mandatory, and must be instantiated in SCH_COMPONENT and LIB_PART constructors.
@ DESCRIPTION_FIELD
Field Description of part, i.e. "1/4W 1% Metal Film Resistor".
@ SCH_NO_CONNECT_T
Definition: typeinfo.h:160
@ SCH_SYMBOL_T
Definition: typeinfo.h:172
@ SCH_PIN_T
Definition: typeinfo.h:153