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TSchemaRule.cxx
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1// @(#)root/core:$Id$
2// author: Lukasz Janyst <ljanyst@cern.ch>
3
4#include "TSchemaRule.h"
5
7#include "TClassEdit.h"
9#include "TSchemaType.h"
10#include "TObjArray.h"
11#include "TObjString.h"
12#include "TROOT.h"
13
14#include <utility>
15#include <iostream>
16#include <vector>
17#include <list>
18#include <string>
19#include <cstdlib>
20#include <sstream>
21
23
24using namespace ROOT;
25
26namespace {
27 static Bool_t IsIrrelevantCharacter(char c)
28 {
29 return (c == ' ' || c == '\n' || c == '\t');
30 }
31
32 static void AdvanceOverIrrelevantCharacter(const char*& str)
33 {
34 while (IsIrrelevantCharacter(*str)) {
35 ++str;
36 }
37 }
38
39 // check if lhs matches rhs if we ignore irelevant white space differences
40
41 static Bool_t IsCodeEquivalent(const TString& lhs, const TString& rhs)
42 {
44
45 if (lhs != rhs) {
46 const char null = '\0';
47 const char* left = lhs.Data();
48 const char* right = rhs.Data();
49 Bool_t literal = false;
50 // skip initial white space
51 AdvanceOverIrrelevantCharacter(left);
52 AdvanceOverIrrelevantCharacter(right);
53
54 while (*left != null || *right != null) {
55 // If both chars are white space, skip consecutive white space
56 if (!literal && IsIrrelevantCharacter(*left) && IsIrrelevantCharacter(*right)) {
57 AdvanceOverIrrelevantCharacter(left);
58 AdvanceOverIrrelevantCharacter(right);
59 continue;
60 }
61 // Check if one string has trailing white space, and the other doesn't.
62 if (*left == null || *right == null) {
63 AdvanceOverIrrelevantCharacter(left);
64 AdvanceOverIrrelevantCharacter(right);
65 result = (*left == null && *right == null);
66 break;
67 }
68
69 if (*left != *right) {
70 result = kFALSE;
71 break;
72 }
73
74 if (*left == '"') {
75 literal = !literal;
76 }
77 ++left;
78 ++right;
79 }
80 }
81 return result;
82 }
83
84}
85
86////////////////////////////////////////////////////////////////////////////////
87/// Default Constructor.
88
89TSchemaRule::TSchemaRule(): fVersionVect( nullptr ), fChecksumVect( nullptr ),
90 fTargetVect( nullptr ), fSourceVect( nullptr ),
91 fIncludeVect( nullptr ), fEmbed( kTRUE ),
92 fReadFuncPtr( nullptr ), fReadRawFuncPtr( nullptr ),
93 fRuleType( kNone )
94{
95}
96
97////////////////////////////////////////////////////////////////////////////////
98/// Destructor.
99
101{
102 delete fVersionVect;
103 delete fChecksumVect;
104 delete fTargetVect;
105 delete fSourceVect;
106 delete fIncludeVect;
107}
108
109////////////////////////////////////////////////////////////////////////////////
110/// Copy Constructor.
111
113 fVersionVect( nullptr ), fChecksumVect( nullptr ),
114 fTargetVect( nullptr ), fSourceVect( nullptr ),
115 fIncludeVect( nullptr ), fEmbed( kTRUE ),
116 fReadFuncPtr( nullptr ), fReadRawFuncPtr( nullptr ),
117 fRuleType( kNone )
118{
119 *this = rhs;
120}
121
122////////////////////////////////////////////////////////////////////////////////
123/// Copy operator.
124
126{
127 if( this != &rhs ) {
128 fVersion = rhs.fVersion;
129 fChecksum = rhs.fChecksum;
131 fTarget = rhs.fTarget;
132 fSource = rhs.fSource;
133 fInclude = rhs.fInclude;
134 fCode = rhs.fCode;
135 fEmbed = rhs.fEmbed;
138 fRuleType = rhs.fRuleType;
140 }
141 return *this;
142}
143
144////////////////////////////////////////////////////////////////////////////////
145/// Return true if the rule have the same effects.
146
148{
149 if( this != &rhs ) {
150 Bool_t result = ( fVersion == rhs.fVersion
151 && fChecksum == rhs.fChecksum
152 && fSourceClass == rhs.fSourceClass
153 && fTargetClass == rhs.fTargetClass
154 && fSource == rhs.fSource
155 && fTarget == rhs.fTarget
156 && fInclude == rhs.fInclude
157 && IsCodeEquivalent(fCode, rhs.fCode)
158 && fEmbed == rhs.fEmbed
159 && fRuleType == rhs.fRuleType
160 && fAttributes == rhs.fAttributes );
161 if (result &&
162 ( (fReadRawFuncPtr != rhs.fReadRawFuncPtr && fReadRawFuncPtr != nullptr && rhs.fReadRawFuncPtr != nullptr)
163 || (fReadFuncPtr != rhs.fReadFuncPtr && fReadFuncPtr != nullptr && rhs.fReadFuncPtr != nullptr) ) )
164 {
165 result = kFALSE;
166 }
167
168 return result;
169 }
170 return kTRUE;
171}
172
173////////////////////////////////////////////////////////////////////////////////
174/// The ls function lists the contents of a class on stdout. Ls output
175/// is typically much less verbose then Dump().
176
177void TSchemaRule::ls(Option_t *targetname) const
178{
180 std::cout << "Schema Evolution Rule: ";
181 if (fRuleType==kReadRule) std::cout << "read ";
182 else if (fRuleType==kReadRawRule) std::cout << "readraw ";
183 std::cout << "\n";
186 std::cout << "sourceClass=\"" << fSourceClass << "\" ";
187 if (fVersion.Length()) std::cout << "version=\"" << fVersion << "\" ";
188 if (fChecksum.Length()) std::cout << "checksum=\"" << fChecksum << "\" ";
189 if (targetname && targetname[0]) std::cout << "targetClass=\"" << targetname << "\" ";
190 else std::cout << "targetClass\"" << fTargetClass << "\" ";
191 std::cout << "\n";
193 std::cout << "source=\"" << fSource << "\" ";
194 std::cout << "target=\"" << fTarget << "\" ";
195 std::cout << "\n";
196 if (fInclude.Length()) {
198 std::cout << "include=\"" << fInclude << "\" " << "\n";
199 }
200 if (fAttributes.Length()) {
202 std::cout << "attributes=\"" << fAttributes << "\"" << "\n";
203 }
204 if (fCode.Length()) {
206 std::cout << "code=\"{" << fCode << "}\" "
207 << "\n";
208 }
210}
211
212////////////////////////////////////////////////////////////////////////////////
213/// Add to the string 'out' the string representation of the rule.
214/// if options contains:
215/// 's' : add the short form of the rule is possible
216/// 'x' : add the xml form of the rule
217
218void TSchemaRule::AsString(TString &out, const char *options) const
219{
220 TString opt(options);
221 opt.ToLower();
222 Bool_t shortform = opt.Contains('s');
223 Bool_t xmlform = opt.Contains('x');
224
225 TString end;
226 if (xmlform) {
227 /*
228 <read sourceClass="ClassA" version="[2]" targetClass="ClassA" source="int m_unit;" target="m_unit" >
229 <![CDATA[ { m_unit = 10*onfile.m_unit; } ]]>
230 </read>
231 */
232 shortform = kFALSE;
233 out += "<";
234 if (fRuleType==kReadRule) { out += "read "; end = "</read>"; }
235 else if (fRuleType==kReadRawRule) { out += "readraw "; end = "</readraw>"; }
236 else { out += "-- "; end = "-->"; }
237
238 } else {
239 if (!shortform || fRuleType!=kReadRule) {
240 out += "type=";
241 if (fRuleType==kReadRule) out += "read ";
242 else if (fRuleType==kReadRawRule) out += "readraw ";
243 else out += " ";
244 }
245 }
246 if (!shortform || (fSourceClass != fTargetClass) ) {
247 out += "sourceClass=\"" + fSourceClass + "\" ";
248 out += "targetClass=\"" + fTargetClass + "\" ";
249 } else {
250 out += fSourceClass + " ";
251 }
252 if (shortform && fTarget == fSource) {
253 out += fSource + " ";
254 }
255 if (!shortform || (fVersion != "[1-]")) {
256 if (fVersion.Length()) out += "version=\"" + fVersion + "\" ";
257 }
258 if (fChecksum.Length()) out += "checksum=\"" + fChecksum + "\" ";
259 if (!shortform || fTarget != fSource) {
260 out += "source=\"" + fSource + "\" ";
261 out += "target=\"" + fTarget + "\" ";
262 }
263 if (fInclude.Length()) out += "include=\"" + fInclude + "\" ";
264 if (fAttributes.Length()) out += "attributes=\"" + fAttributes + "\" ";
265 if (xmlform) {
266 out += "> ";
267 }
268 if (xmlform) {
269 if (fCode.Length()) {
270 out += "\n<![CDATA[ { " + fCode + " ]]>\n ";
271 } else if (fReadFuncPtr) {
272 // Can we guess?
273 // out += "code=\" + nameof(fReadFuncPtr) + "\" ";
274 } else if (fReadRawFuncPtr) {
275 // Can we guess?
276 // out += "code=\" + nameof(fReadRawFuncPtr) + "\" ";
277 }
278 } else {
279 if (fCode.Length()) {
280 out += "code=\"{" + fCode + "}\" ";
281 } else if (fReadFuncPtr) {
282 // Can we guess?
283 // out += "code=\" + nameof(fReadFuncPtr) + "\" ";
284 } else if (fReadRawFuncPtr) {
285 // Can we guess?
286 // out += "code=\" + nameof(fReadRawFuncPtr) + "\" ";
287 }
288 }
289 if (xmlform) {
290 out += end;
291 }
292}
293
294////////////////////////////////////////////////////////////////////////////////
295/// Zero out this rule object.
296
297void TSchemaRule::Clear( const char * /* option */)
298{
299 fVersion.Clear();
302 fTarget.Clear();
303 fSource.Clear();
304 fInclude.Clear();
305 fCode.Clear();
307 fReadRawFuncPtr = nullptr;
308 fReadFuncPtr = nullptr;
310 delete fVersionVect; fVersionVect = nullptr;
311 delete fChecksumVect; fChecksumVect = nullptr;
312 delete fTargetVect; fTargetVect = nullptr;
313 delete fSourceVect; fSourceVect = nullptr;
314 delete fIncludeVect; fIncludeVect = nullptr;
315}
316
317////////////////////////////////////////////////////////////////////////////////
318/// Set the content fot this object from the rule
319/// See TClass::AddRule for details on the syntax.
320
322{
323 //-----------------------------------------------------------------------
324 // Parse the rule and check it's validity
325 /////////////////////////////////////////////////////////////////////////////
326
328
329 std::string error_string;
330 if( !ROOT::ParseRule(rule, rule_values, error_string) ) {
331 Error("SetFromRule","The rule (%s) is invalid: %s",rule,error_string.c_str());
332 return kFALSE;
333 }
334 ROOT::Internal::MembersMap_t::const_iterator it1;
335
336 it1 = rule_values.find( "type" );
337 if( it1 != rule_values.end() ) {
338 if (it1->second == "read" || it1->second == "Read") {
340 } else if (it1->second == "readraw" || it1->second == "ReadRaw") {
342 } else {
344 }
345 } else {
346 // Default to read.
348 }
349 it1 = rule_values.find( "targetClass" );
350 if( it1 != rule_values.end() ) SetTargetClass( it1->second );
351 it1 = rule_values.find( "sourceClass" );
352 if( it1 != rule_values.end() ) SetSourceClass( it1->second );
353 it1 = rule_values.find( "target" );
354 if( it1 != rule_values.end() ) SetTarget( it1->second );
355 it1 = rule_values.find( "source" );
356 if( it1 != rule_values.end() ) SetSource( it1->second );
357 it1 = rule_values.find( "version" );
358 if( it1 != rule_values.end() ) SetVersion( it1->second );
359 it1 = rule_values.find( "checksum" );
360 if( it1 != rule_values.end() ) SetChecksum( it1->second );
361 it1 = rule_values.find( "embed" );
362 if( it1 != rule_values.end() ) SetEmbed( it1->second == "false" ? false : true );
363 it1 = rule_values.find( "include" );
364 if( it1 != rule_values.end() ) SetInclude( it1->second );
365 it1 = rule_values.find( "attributes" );
366 if( it1 != rule_values.end() ) SetAttributes( it1->second );
367 it1 = rule_values.find( "code" );
368 if( it1 != rule_values.end() ) SetCode( it1->second );
369 // if (code is functioname) {
370 // switch (ruleobj->GetRuleType() ) {
371 // case kRead: SetReadFunctionPointer( )
372 // case kReadRewa: SetReadRawFunctionPointer( )
373 // }
374
375 return kTRUE;
376}
377
378////////////////////////////////////////////////////////////////////////////////
379/// Set the version string - returns kFALSE if the format is incorrect
380
382{
383 fVersion = "";
384 Bool_t ret = ProcessVersion( version );
385 if( ret )
386 fVersion = version;
387 return ret;
388}
389
390////////////////////////////////////////////////////////////////////////////////
391/// Get the version string.
392
393const char *TSchemaRule::GetVersion() const
394{
395 return fVersion;
396}
397
398
399////////////////////////////////////////////////////////////////////////////////
400/// Check if given version number is defined in this rule
401
403{
404 if( fVersion.IsNull() )
405 return kFALSE;
406
407 if( !fVersionVect )
408 ProcessVersion( fVersion ); // At this point the version string should always be correct
409
410 if (version == -1) {
411 version = 1;
412 }
413
414 if (fVersionVect)
415 for (auto &it : *fVersionVect)
416 if( version >= it.first && version <= it.second )
417 return kTRUE;
418
419 return kFALSE;
420}
421
422////////////////////////////////////////////////////////////////////////////////
423/// Set the checksum string - returns kFALSE if the format is incorrect
424
426{
427 fChecksum = "";
428 Bool_t ret = ProcessChecksum( checksum );
429 if( ret )
430 fChecksum = checksum;
431 return ret;
432}
433
434////////////////////////////////////////////////////////////////////////////////
435/// Check if given checksum is defined in this rule
436
438{
439 if( fChecksum.IsNull() )
440 return kFALSE;
441
442 if( !fChecksumVect )
443 ProcessChecksum( fChecksum ); // At this point the checksum string should always be correct
444
445 if (fChecksumVect)
446 for (auto &it : *fChecksumVect)
447 if( checksum == it )
448 return kTRUE;
449
450 return kFALSE;
451}
452
453////////////////////////////////////////////////////////////////////////////////
454/// Set the source class of this rule (i.e. the onfile class).
455
456void TSchemaRule::SetSourceClass( const TString& classname )
457{
458 std::string normalizedName;
459 TClassEdit::GetNormalizedName(normalizedName, classname);
460 fSourceClass = normalizedName;
461}
462
463////////////////////////////////////////////////////////////////////////////////
464/// Get the source class of this rule (i.e. the onfile class).
465
467{
468 return fSourceClass;
469}
470
471////////////////////////////////////////////////////////////////////////////////
472/// Set the target class of this rule (i.e. the in memory class).
473
474void TSchemaRule::SetTargetClass( const TString& classname )
475{
476 std::string normalizedName;
477 TClassEdit::GetNormalizedName(normalizedName, classname);
478 fTargetClass = normalizedName;
479}
480
481////////////////////////////////////////////////////////////////////////////////
482/// Get the targte class of this rule (i.e. the in memory class).
483
485{
486 return fTargetClass;
487}
488
489////////////////////////////////////////////////////////////////////////////////
490/// Set the target member of this rule (i.e. the in memory data member).
491
493{
494 fTarget = target;
495
496 if( target == "" ) {
497 delete fTargetVect;
498 fTargetVect = nullptr;
499 return;
500 }
501
502 if( !fTargetVect ) {
503 fTargetVect = new TObjArray();
505 }
507}
508
509////////////////////////////////////////////////////////////////////////////////
510/// Get the target data members of this rule as a simple string (i.e. the in memory data member).
511
513{
514 return fTarget;
515}
516
517////////////////////////////////////////////////////////////////////////////////
518/// Get the target data members of this rule (i.e. the in memory data member).
519
521{
522 if( fTarget == "" )
523 return nullptr;
524
525 if( !fTargetVect ) {
526 fTargetVect = new TObjArray();
529 }
530
531 return fTargetVect;
532}
533
534////////////////////////////////////////////////////////////////////////////////
535/// Set the list of source members. This should be in the form of a declaration:
536/// Int_t fOldMember; TNamed fName;
537
538void TSchemaRule::SetSource( const TString& source )
539{
540 fSource = source;
541
542 if( source == "" ) {
543 delete fSourceVect;
544 fSourceVect = nullptr;
545 return;
546 }
547
548 if( !fSourceVect ) {
549 fSourceVect = new TObjArray();
551 }
552
554}
555
556////////////////////////////////////////////////////////////////////////////////
557/// Get the list of source members as a TObjArray of TNamed object,
558/// with the name being the member name and the title being its type.
559
561{
562 if( fSource == "" )
563 return nullptr;
564
565 if( !fSourceVect ) {
566 fSourceVect = new TObjArray();
569 }
570 return fSourceVect;
571}
572
573////////////////////////////////////////////////////////////////////////////////
574/// Set the comma separated list of header files to include to be able
575/// to compile this rule.
576
578{
579 fInclude = incl;
580
581 if( incl == "" ) {
582 delete fIncludeVect;
583 fIncludeVect = nullptr;
584 return;
585 }
586
587 if( !fIncludeVect ) {
588 fIncludeVect = new TObjArray();
590 }
591
592 ProcessList( fIncludeVect, incl );
593}
594
595////////////////////////////////////////////////////////////////////////////////
596/// Return the list of header files to include to be able to
597/// compile this rule as a TObjArray of TObjString
598
600{
601 if( fInclude == "" )
602 return nullptr;
603
604 if( !fIncludeVect ) {
605 fIncludeVect = new TObjArray();
608 }
609
610 return fIncludeVect;
611}
612
613////////////////////////////////////////////////////////////////////////////////
614/// Set whether this rule should be save in the ROOT file (if true)
615
617{
618 fEmbed = embed;
619}
620
621////////////////////////////////////////////////////////////////////////////////
622/// Return true if this rule should be saved in the ROOT File.
623
625{
626 return fEmbed;
627}
628
629////////////////////////////////////////////////////////////////////////////////
630/// Return kTRUE if this rule is valid.
631
633{
634 return (fVersionVect || fChecksumVect) && (fSourceClass.Length() != 0);
635}
636
637////////////////////////////////////////////////////////////////////////////////
638/// Set the source code of this rule.
639
640void TSchemaRule::SetCode( const TString& code )
641{
642 fCode = code;
643}
644
645////////////////////////////////////////////////////////////////////////////////
646/// Get the source code of this rule.
647
648const char *TSchemaRule::GetCode() const
649{
650 return fCode;
651}
652
653////////////////////////////////////////////////////////////////////////////////
654/// Set the attributes code of this rule.
655
656void TSchemaRule::SetAttributes( const TString& attributes )
657{
658 fAttributes = attributes;
659}
660
661////////////////////////////////////////////////////////////////////////////////
662/// Get the attributes code of this rule.
663
664const char *TSchemaRule::GetAttributes() const
665{
666 return fAttributes;
667}
668
669////////////////////////////////////////////////////////////////////////////////
670/// Return true if one of the rule's data member target is 'target'.
671
673{
674 if( !fTargetVect )
675 return kFALSE;
676
677 TObject* obj;
679 while( (obj = it.Next()) ) {
680 TObjString* str = (TObjString*)obj;
681 if( str->GetString() == target )
682 return kTRUE;
683 }
684 return kFALSE;
685}
686
687////////////////////////////////////////////////////////////////////////////////
688/// Return true if one of the rule's data member source is 'source'
689
691{
692 if( !fSourceVect )
693 return kFALSE;
694
695 TObject* obj;
697 while( (obj = it.Next()) ) {
698 TSources* var = (TSources*)obj;
699 if( var->GetName() == source )
700 return kTRUE;
701 }
702 return kFALSE;
703}
704
705////////////////////////////////////////////////////////////////////////////////
706/// Set the pointer to the function to be run for the rule (if it is a read rule).
707
709{
710 fReadFuncPtr = ptr;
711}
712
713////////////////////////////////////////////////////////////////////////////////
714/// Get the pointer to the function to be run for the rule (if it is a read rule).
715
717{
718 return fReadFuncPtr;
719}
720
721////////////////////////////////////////////////////////////////////////////////
722/// Set the pointer to the function to be run for the rule (if it is a raw read rule).
723
725{
726 fReadRawFuncPtr = ptr;
727}
728
729////////////////////////////////////////////////////////////////////////////////
730/// Get the pointer to the function to be run for the rule (if it is a raw read rule).
731
733{
734 return fReadRawFuncPtr;
735}
736
737////////////////////////////////////////////////////////////////////////////////
738/// Set the type of the rule.
739
741{
742 fRuleType = type;
743}
744
745////////////////////////////////////////////////////////////////////////////////
746/// Return kTRUE if the rule is a strict renaming of one of the data member of the class.
747
749{
750 return fSourceClass != "" && (fVersion != "" || fChecksum != "") && fTarget == "" && fSource == "" && fInclude == "" && fCode == "" && fAttributes == "";
751}
752
753////////////////////////////////////////////////////////////////////////////////
754/// Return kTRUE if the rule is a strict renaming of the class to a new name.
755
757{
758 return fSourceClass != "" && (fVersion != "" || fChecksum != "") && fTarget != "" && fSource != "" && fInclude == "" && fCode == "" && fAttributes == "";
759}
760
761////////////////////////////////////////////////////////////////////////////////
762/// Return the type of the rule.
763
765{
766 return fRuleType;
767}
768
769////////////////////////////////////////////////////////////////////////////////
770/// Check if this rule conflicts with the given one.
771
773{
774 //---------------------------------------------------------------------------
775 // If the rules have different sources then the don't conflict
776 /////////////////////////////////////////////////////////////////////////////
777
778 if( fSourceClass != rule->fSourceClass )
779 return kFALSE;
780
781 //---------------------------------------------------------------------------
782 // Check if the rules have common target
783 /////////////////////////////////////////////////////////////////////////////
784
785 if( !rule->GetTarget() )
786 return kFALSE;
787
788 Bool_t haveCommonTargets = kFALSE;
789 TObjArrayIter titer( rule->GetTarget() );
790 TObjString *str;
791 TObject *obj;
792
793 while( (obj = titer.Next() ) ) {
794 str = (TObjString*)obj;
795 if( HasTarget( str->String() ) )
796 haveCommonTargets = kTRUE;
797 }
798
799 if( !haveCommonTargets )
800 return kFALSE;
801
802 //---------------------------------------------------------------------------
803 // Check if there are conflicting checksums
804 /////////////////////////////////////////////////////////////////////////////
805
806 if( fChecksumVect ) {
807 std::vector<UInt_t>::iterator it;
808 for( it = fChecksumVect->begin(); it != fChecksumVect->end(); ++it )
809 if( rule->TestChecksum( *it ) )
810 return kTRUE;
811 }
812
813 //---------------------------------------------------------------------------
814 // Check if there are conflicting versions
815 /////////////////////////////////////////////////////////////////////////////
816
817 if( fVersionVect && rule->fVersionVect )
818 {
819 std::vector<std::pair<Int_t, Int_t> >::iterator it1;
820 std::vector<std::pair<Int_t, Int_t> >::iterator it2;
821 for( it1 = fVersionVect->begin(); it1 != fVersionVect->end(); ++it1 ) {
822 for( it2 = rule->fVersionVect->begin();
823 it2 != rule->fVersionVect->end(); ++it2 ) {
824 //------------------------------------------------------------------
825 // the rules conflict it their version ranges intersect
826 ////////////////////////////////////////////////////////////////////
827
828 if( it1->first >= it2->first && it1->first <= it2->second )
829 return kTRUE;
830
831 if( it1->first < it2->first && it1->second >= it2->first )
832 return kTRUE;
833 }
834 }
835 }
836 return kFALSE;
837}
838
839////////////////////////////////////////////////////////////////////////////////
840/// Check if specified version string is correct and build version vector.
841
843{
844 //---------------------------------------------------------------------------
845 // Check if we have valid list
846 /////////////////////////////////////////////////////////////////////////////
847
848 if( version[0] != '[' || version[version.Length()-1] != ']' )
849 return kFALSE;
850 std::string ver = version.Data();
851
852 std::list<std::string> versions;
853 Internal::TSchemaRuleProcessor::SplitList( ver.substr( 1, ver.size()-2), versions );
854
855 if( versions.empty() )
856 {
857 delete fVersionVect;
858 fVersionVect = nullptr;
859 return kFALSE;
860 }
861
862 if( !fVersionVect )
863 fVersionVect = new std::vector<std::pair<Int_t, Int_t> >;
864 fVersionVect->clear();
865
866 //---------------------------------------------------------------------------
867 // Check the validity of each list element
868 /////////////////////////////////////////////////////////////////////////////
869
870 std::list<std::string>::iterator it;
871 for( it = versions.begin(); it != versions.end(); ++it ) {
872 std::pair<Int_t, Int_t> verpair;
874 {
875 delete fVersionVect;
876 fVersionVect = nullptr;
877 return kFALSE;
878 }
879 fVersionVect->push_back( verpair );
880 }
881 return kTRUE;
882}
883
884////////////////////////////////////////////////////////////////////////////////
885/// Check if specified checksum string is correct and build checksum vector.
886
888{
889 //---------------------------------------------------------------------------
890 // Check if we have valid list
891 /////////////////////////////////////////////////////////////////////////////
892
893 if (!checksum[0])
894 return kFALSE;
895 std::string chk = (const char*)checksum;
896 if( chk[0] != '[' || chk[chk.size()-1] != ']' )
897 return kFALSE;
898
899 std::list<std::string> checksums;
900 Internal::TSchemaRuleProcessor::SplitList( chk.substr( 1, chk.size()-2), checksums );
901
902 if( checksums.empty() ) {
903 delete fChecksumVect;
904 fChecksumVect = nullptr;
905 return kFALSE;
906 }
907
908 if( !fChecksumVect )
909 fChecksumVect = new std::vector<UInt_t>;
910 fChecksumVect->clear();
911
912 //---------------------------------------------------------------------------
913 // Check the validity of each list element
914 /////////////////////////////////////////////////////////////////////////////
915
916 for( const auto& checksumStr : checksums ) {
917 auto chksum = ParseChecksum( checksumStr.c_str() );
918 if (chksum == 0u) {
919 delete fChecksumVect;
920 fChecksumVect = nullptr;
921 return kFALSE;
922 }
923
924 fChecksumVect->push_back( chksum );
925 }
926 return kTRUE;
927}
928
929////////////////////////////////////////////////////////////////////////////////
930/// Parse the checksum in the given string. Returns either the checksum or zero
931/// if the string is not a hex or decimal number.
932
933UInt_t TSchemaRule::ParseChecksum(const char* checksum) const {
934 std::istringstream converter(checksum);
935 UInt_t chksum;
936 converter >> std::hex >> chksum;
937 if (converter.fail()) {
938 converter.clear();
939 converter.seekg(0);
940 converter >> std::dec >> chksum;
941 }
942
943 if( converter.fail() ) {
944 return 0u;
945 }
946
947 return chksum;
948}
949
950////////////////////////////////////////////////////////////////////////////////
951/// Split the list as a comma separated list into a TObjArray of TObjString.
952
953void TSchemaRule::ProcessList( TObjArray* array, const TString& list )
954{
955 std::list<std::string> elems;
956 std::list<std::string>::iterator it;
957 Internal::TSchemaRuleProcessor::SplitList( (const char*)list, elems );
958
959 array->Clear();
960
961 if( elems.empty() )
962 return;
963
964 for( it = elems.begin(); it != elems.end(); ++it ) {
965 TObjString *str = new TObjString;
966 *str = it->c_str();
967 array->Add( str );
968 }
969}
970
971////////////////////////////////////////////////////////////////////////////////
972/// Split the list as a declaration into as a TObjArray of TNamed(name,type).
973
975{
976 std::list<std::pair<ROOT::Internal::TSchemaType,std::string> > elems;
977 std::list<std::pair<ROOT::Internal::TSchemaType,std::string> >::iterator it;
978 Internal::TSchemaRuleProcessor::SplitDeclaration( (const char*)list, elems );
979
980 array->Clear();
981
982 if( elems.empty() )
983 return;
984
985 for( it = elems.begin(); it != elems.end(); ++it ) {
986 TSources *type = new TSources( it->second.c_str(), it->first.fType.c_str(), it->first.fDimensions.c_str() ) ;
987 array->Add( type );
988 }
989}
990
991#if 0
992////////////////////////////////////////////////////////////////////////////////
993/// Generate the actual function for the rule.
994
995Bool_t TSchemaRule::GenerateFor( TStreamerInfo *info )
996{
997 String funcname = fSourceClass + "_to_" + fTargetClass;
998 if (info) funcname += "_v" + info->GetClassVersion();
999 TString names = fSource + "_" + fTarget;
1000 name.ReplaceAll(',','_');
1001 name.ReplaceAll(':','_');
1002 funcname += "_" + name;
1003
1004 String filename = funcname + ".C";
1005 if (!false) {
1006 filename += '+';
1007 }
1008
1009 std::ofstream fileout(filename);
1010
1011
1012 ROOT::WriteReadRawRuleFunc( *rIt, 0, mappedname, nameTypeMap, fileout );
1013 ROOT::WriteReadRuleFunc( *rIt, 0, mappedname, nameTypeMap, fileout );
1014
1015 gROOT->LoadMacro(filename);
1016}
1017
1018#endif
const Handle_t kNone
Definition GuiTypes.h:88
#define c(i)
Definition RSha256.hxx:101
bool Bool_t
Definition RtypesCore.h:63
constexpr Bool_t kFALSE
Definition RtypesCore.h:94
constexpr Bool_t kTRUE
Definition RtypesCore.h:93
const char Option_t
Definition RtypesCore.h:66
#define ClassImp(name)
Definition Rtypes.h:382
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char filename
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h Atom_t Int_t ULong_t ULong_t unsigned char prop_list Atom_t Atom_t target
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t result
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h Atom_t Int_t ULong_t ULong_t unsigned char prop_list Atom_t Atom_t Atom_t Time_t type
char name[80]
Definition TGX11.cxx:110
#define gROOT
Definition TROOT.h:406
static void SplitDeclaration(const std::string &source, std::list< std::pair< ROOT::Internal::TSchemaType, std::string > > &result)
static bool ProcessVersion(const std::string &source, std::pair< Int_t, Int_t > &result)
static void SplitList(const std::string &source, std::list< std::string > &result, char delimiter=',')
void SetRuleType(RuleType_t type)
Set the type of the rule.
TObjArray * fSourceVect
void SetCode(const TString &code)
Set the source code of this rule.
TString fCode
Includes vector.
void SetTarget(const TString &target)
Set the target member of this rule (i.e. the in memory data member).
ReadFuncPtr_t fReadFuncPtr
TObjArray * fIncludeVect
void SetReadRawFunctionPointer(ReadRawFuncPtr_t ptr)
Set the pointer to the function to be run for the rule (if it is a raw read rule).
void SetInclude(const TString &include)
Set the comma separated list of header files to include to be able to compile this rule.
void AsString(TString &out, const char *options="") const
Add to the string 'out' the string representation of the rule.
const TObjArray * GetSource() const
Get the list of source members as a TObjArray of TNamed object, with the name being the member name a...
void SetReadFunctionPointer(ReadFuncPtr_t ptr)
Set the pointer to the function to be run for the rule (if it is a read rule).
void ls(Option_t *option="") const override
The ls function lists the contents of a class on stdout.
std::vector< UInt_t > * fChecksumVect
UInt_t ParseChecksum(const char *checksum) const
Parse the checksum in the given string.
static void ProcessList(TObjArray *array, const TString &list)
Split the list as a comma separated list into a TObjArray of TObjString.
Bool_t operator==(const TSchemaRule &rhs) const
Return true if the rule have the same effects.
Bool_t SetFromRule(const char *rule)
Set the content fot this object from the rule See TClass::AddRule for details on the syntax.
void Clear(Option_t *="") override
Zero out this rule object.
Bool_t TestVersion(Int_t version) const
Check if given version number is defined in this rule.
TString fSource
Target data member vector (for searching purposes)
Bool_t HasSource(const TString &source) const
Return true if one of the rule's data member source is 'source'.
ReadRawFuncPtr_t GetReadRawFunctionPointer() const
Get the pointer to the function to be run for the rule (if it is a raw read rule).
const TObjArray * GetTarget() const
Get the target data members of this rule (i.e. the in memory data member).
Bool_t ProcessChecksum(const TString &checksum) const
Check if specified checksum string is correct and build checksum vector.
void(* ReadFuncPtr_t)(char *, TVirtualObject *)
Definition TSchemaRule.h:40
void SetEmbed(Bool_t embed)
Set whether this rule should be save in the ROOT file (if true)
RuleType_t GetRuleType() const
Return the type of the rule.
Bool_t Conflicts(const TSchemaRule *rule) const
Check if this rule conflicts with the given one.
TSchemaRule & operator=(const TSchemaRule &rhs)
Copy operator.
void SetTargetClass(const TString &classname)
Set the target class of this rule (i.e. the in memory class).
void(* ReadRawFuncPtr_t)(char *, TBuffer &)
Definition TSchemaRule.h:41
const char * GetSourceClass() const
Get the source class of this rule (i.e. the onfile class).
virtual ~TSchemaRule()
Destructor.
Bool_t TestChecksum(UInt_t checksum) const
Check if given checksum is defined in this rule.
Bool_t SetVersion(const TString &version)
Set the version string - returns kFALSE if the format is incorrect.
TString fInclude
Source data member vector (for searching purposes)
TObjArray * fTargetVect
TString fChecksum
Source version vector (for searching purposes)
void SetSource(const TString &source)
Set the list of source members.
Bool_t IsRenameRule() const
Return kTRUE if the rule is a strict renaming of the class to a new name.
void SetAttributes(const TString &attributes)
Set the attributes code of this rule.
TString fSourceClass
Source checksum vector (for searching purposes)
Bool_t HasTarget(const TString &target) const
Return true if one of the rule's data member target is 'target'.
const char * GetTargetString() const
Get the target data members of this rule as a simple string (i.e. the in memory data member).
std::vector< std::pair< Int_t, Int_t > > * fVersionVect
ReadRawFuncPtr_t fReadRawFuncPtr
Conversion function pointer for read rule.
RuleType_t fRuleType
Conversion function pointer for readraw rule.
Bool_t IsValid() const
Return kTRUE if this rule is valid.
ReadFuncPtr_t GetReadFunctionPointer() const
Get the pointer to the function to be run for the rule (if it is a read rule).
const char * GetVersion() const
Get the version string.
const char * GetAttributes() const
Get the attributes code of this rule.
Bool_t GetEmbed() const
Return true if this rule should be saved in the ROOT File.
const char * GetCode() const
Get the source code of this rule.
void SetSourceClass(const TString &classname)
Set the source class of this rule (i.e. the onfile class).
TSchemaRule()
Default Constructor.
Bool_t SetChecksum(const TString &checksum)
Set the checksum string - returns kFALSE if the format is incorrect.
const TObjArray * GetInclude() const
Return the list of header files to include to be able to compile this rule as a TObjArray of TObjStri...
Bool_t IsAliasRule() const
Return kTRUE if the rule is a strict renaming of one of the data member of the class.
const char * GetTargetClass() const
Get the targte class of this rule (i.e. the in memory class).
static void ProcessDeclaration(TObjArray *array, const TString &list)
Split the list as a declaration into as a TObjArray of TNamed(name,type).
Bool_t ProcessVersion(const TString &version) const
Check if specified version string is correct and build version vector.
virtual void SetOwner(Bool_t enable=kTRUE)
Set whether this collection is the owner (enable==true) of its content.
const char * GetName() const override
Returns name of object.
Definition TNamed.h:47
Iterator of object array.
Definition TObjArray.h:117
TObject * Next() override
Return next object in array. Returns 0 when no more objects in array.
An array of TObjects.
Definition TObjArray.h:31
void Clear(Option_t *option="") override
Remove all objects from the array.
void Add(TObject *obj) override
Definition TObjArray.h:68
Collectable string class.
Definition TObjString.h:28
const TString & GetString() const
Definition TObjString.h:46
TString & String()
Definition TObjString.h:48
Mother of all ROOT objects.
Definition TObject.h:41
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
Definition TObject.cxx:993
static Int_t IncreaseDirLevel()
Increase the indentation level for ls().
Definition TROOT.cxx:2886
static void IndentLevel()
Functions used by ls() to indent an object hierarchy.
Definition TROOT.cxx:2894
static Int_t DecreaseDirLevel()
Decrease the indentation level for ls().
Definition TROOT.cxx:2746
Describes a persistent version of a class.
Int_t GetClassVersion() const override
Basic string class.
Definition TString.h:139
Ssiz_t Length() const
Definition TString.h:417
void ToLower()
Change string to lower-case.
Definition TString.cxx:1182
void Clear()
Clear string without changing its capacity.
Definition TString.cxx:1235
const char * Data() const
Definition TString.h:376
TString & ReplaceAll(const TString &s1, const TString &s2)
Definition TString.h:704
Bool_t IsNull() const
Definition TString.h:414
Bool_t Contains(const char *pat, ECaseCompare cmp=kExact) const
Definition TString.h:632
std::map< std::string, std::string > MembersMap_t
Definition TSchemaType.h:20
tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tb...
void WriteReadRuleFunc(SchemaRuleMap_t &rule, int index, std::string &mappedName, MembersTypeMap_t &members, std::ostream &output)
Write the conversion function for Read rule, the function name is being written to rule["funcname"].
void WriteReadRawRuleFunc(SchemaRuleMap_t &rule, int index, std::string &mappedName, MembersTypeMap_t &members, std::ostream &output)
Write the conversion function for ReadRaw rule, the function name is being written to rule["funcname"...
bool ParseRule(std::string rule, ROOT::Internal::MembersMap_t &result, std::string &error_string)
Parse the schema rule as specified in the LinkDef file.
void GetNormalizedName(std::string &norm_name, std::string_view name)
Return the normalized name.
null_t< F > null()