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GlobalLogicParser.cc
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1 
15 // this class header
17 
18 // system include files
19 #include <stack>
20 
21 #include <iostream>
22 #include <sstream>
23 
24 #include <boost/algorithm/string.hpp>
25 
26 // user include files
27 
30 
31 // forward declarations
32 
33 // constructor(s)
34 
35 // default constructor
37  // empty, default C++ initialization for string and vector are enough
38 }
39 
40 // from the RPN vector and the operand token vector
41 // no checks for consistency, empty logical and numerical expressions
42 // requires special care when used
43 GlobalLogicParser::GlobalLogicParser(const RpnVector& rpnVec, const std::vector<OperandToken>& opTokenVector) {
44  m_rpnVector = rpnVec;
45  m_operandTokenVector = opTokenVector;
46 }
47 
48 // from a constant logical expression
49 // numerical expression will be empty
50 GlobalLogicParser::GlobalLogicParser(const std::string& logicalExpressionVal) {
51  // checks also for syntactic correctness of the logical expression
52 
53  if (!setLogicalExpression(logicalExpressionVal)) {
54  // error(s) in logical expression - printed in the relevant place
55  throw cms::Exception("FailModule") << "\nError in parsing the logical expression = " << logicalExpressionVal
56  << std::endl;
57  }
58 }
59 
60 // from a non-constant logical expression - add/remove spaces if needed
61 // numerical expression will be empty
63  // checks also for syntactic correctness of the logical expression
64 
65  // add spaces around brackets
66  std::string logicalExpressionBS;
67  addBracketSpaces(logicalExpressionVal, logicalExpressionBS);
68 
69  // trim leading or trailing spaces
70  boost::trim(logicalExpressionBS);
71 
72  if (!buildRpnVector(logicalExpressionBS)) {
73  // error(s) in logical expression
74  throw cms::Exception("FailModule") << "\nError in parsing the logical expression = " << logicalExpressionVal
75  << std::endl;
76  }
77 
78  //LogDebug("L1TGlobal")
79  // << "\nInitial logical expression = '" << logicalExpressionVal << "'"
80  // << "\nFinal logical expression = '" << logicalExpressionBS << "'\n"
81  // << std::endl;
82 
83  logicalExpressionVal = logicalExpressionBS;
84  m_logicalExpression = logicalExpressionVal;
85 
86  // build operand token vector
87  // dummy tokenNumber; tokenResult false
89 }
90 
91 // from a logical and a numerical expression
92 GlobalLogicParser::GlobalLogicParser(const std::string logicalExpressionVal, const std::string numericalExpressionVal) {
93  // checks also for correctness
94 
95  if (!setLogicalExpression(logicalExpressionVal)) {
96  // error(s) in logical expression - printed in the relevant place
97  throw cms::Exception("FailModule") << "\nError in parsing the logical expression = " << logicalExpressionVal
98  << std::endl;
99  }
100 
101  if (!setNumericalExpression(numericalExpressionVal)) {
102  // error(s) in numerical expression - printed in the relevant place
103  throw cms::Exception("FileModule") << "\nError in parsing the numerical expression = " << numericalExpressionVal
104  << std::endl;
105  }
106 }
107 
108 // from a logical and a numerical expression
109 // no checks for correctness - use it only after the correctness was tested
111  const std::string& numericalExpressionVal,
112  const bool dummy) {
113  clearRpnVector();
114  if (!buildRpnVector(logicalExpressionVal)) {
115  throw cms::Exception("FileModule") << "\nError in building RPN vector for the logical expression = "
116  << logicalExpressionVal << std::endl;
117  }
118 
119  m_logicalExpression = logicalExpressionVal;
120  m_numericalExpression = numericalExpressionVal;
121 }
122 
123 // destructor
125  // empty now
126 }
127 
128 // public methods
129 
130 // check a logical expression for correctness - add/remove spaces if needed
132  // add spaces around brackets
133  std::string logicalExpressionBS;
134  addBracketSpaces(logicalExpressionVal, logicalExpressionBS);
135 
136  // trim leading or trailing spaces
137  boost::trim(logicalExpressionBS);
138 
139  clearRpnVector();
140 
141  if (!buildRpnVector(logicalExpressionBS)) {
142  return false;
143  }
144 
145  LogDebug("L1TGlobal") << "\nGtLogicParser::checkLogicalExpression - "
146  << "\nInitial logical expression = '" << logicalExpressionVal << "'"
147  << "\nFinal logical expression = '" << logicalExpressionBS << "'\n"
148  << std::endl;
149 
150  logicalExpressionVal = logicalExpressionBS;
151 
152  return true;
153 }
154 
164 bool GlobalLogicParser::buildRpnVector(const std::string& logicalExpressionVal) {
165  //LogDebug("L1TGlobal")
166  //<< "\nGtLogicParser::buildRpnVector - "
167  //<< "\nLogical expression = '" << logicalExpressionVal << "'\n"
168  //<< std::endl;
169 
170  OperationType actualOperation = OP_NULL;
171  OperationType lastOperation = OP_NULL;
172 
173  // token as string and as TokenRPN, stack to form the postfix notation
174  std::string tokenString;
175  TokenRPN rpnToken;
176  std::stack<TokenRPN> operatorStack;
177 
178  static const std::string whitespaces = " \r\v\n\t";
179 
180  // clear possible old rpn vector
181  clearRpnVector();
182 
183  // stringstream to separate all tokens
184  std::istringstream exprStringStream(logicalExpressionVal);
185 
186  while (!exprStringStream.eof()) {
187  exprStringStream >> std::skipws >> std::ws >> tokenString;
188 
189  // skip the end
190  if (tokenString.find_first_not_of(whitespaces) == std::string::npos || tokenString.length() == 0) {
191  //LogTrace("L1TGlobal")
192  //<< " Break for token string = " << tokenString
193  //<< std::endl;
194 
195  break;
196  }
197 
198  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
199 
200  //LogTrace("L1TGlobal")
201  //<< " Token string = '" << tokenString << "'"
202  //<< "\tActual Operation = " << actualOperation
203  //<< std::endl;
204 
205  // http://en.wikipedia.org/wiki/Postfix_notation#Converting_from_infix_notation
206 
207  switch (actualOperation) {
208  case OP_OPERAND: {
209  // operands get pushed to the postfix notation immediately
210  m_rpnVector.push_back(rpnToken);
211  }
212 
213  break;
214  case OP_INVALID: {
215  int errorPosition = exprStringStream.tellg();
216 
217  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
218  << "\n Syntax error during parsing: "
219  << "\n " << exprStringStream.str().substr(0, errorPosition) << "\n "
220  << exprStringStream.str().substr(errorPosition)
221  << "\n Returned empty RPN vector and result false." << std::endl;
222 
223  // clear the rpn vector before returning
224  clearRpnVector();
225 
226  return false;
227  }
228 
229  break;
230  case OP_NOT: {
231  operatorStack.push(rpnToken);
232  // there are no operators with higher precedence
233  }
234 
235  break;
236  case OP_XOR: {
237  // first pop operators with higher precedence (NOT)
238  while (!operatorStack.empty() && operatorStack.top().operation == OP_NOT) {
239  m_rpnVector.push_back(operatorStack.top());
240  operatorStack.pop();
241  }
242  operatorStack.push(rpnToken);
243  }
244 
245  break;
246  case OP_AND: {
247  // first pop operators with higher precedence (XOR, NOT)
248  while (!operatorStack.empty() &&
249  (operatorStack.top().operation == OP_NOT || operatorStack.top().operation == OP_AND)) {
250  m_rpnVector.push_back(operatorStack.top());
251  operatorStack.pop();
252  }
253  operatorStack.push(rpnToken);
254  }
255 
256  break;
257  case OP_OR: {
258  // pop operators with higher precedence (AND, XOR, NOT)
259  while (!operatorStack.empty() &&
260  (operatorStack.top().operation == OP_NOT || operatorStack.top().operation == OP_XOR ||
261  operatorStack.top().operation == OP_AND)) {
262  m_rpnVector.push_back(operatorStack.top());
263  operatorStack.pop();
264  }
265  // push operator on stack
266  operatorStack.push(rpnToken);
267  }
268 
269  break;
270  case OP_OPENBRACKET: {
271  // just push it on stack
272  operatorStack.push(rpnToken);
273  }
274 
275  break;
276  case OP_CLOSEBRACKET: {
277  // check if the operatorStack is empty
278  if (operatorStack.empty()) {
279  int errorPosition = exprStringStream.tellg();
280 
281  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
282  << "\n Syntax error during parsing - misplaced ')':"
283  << "\n " << exprStringStream.str().substr(0, errorPosition) << "\n "
284  << exprStringStream.str().substr(errorPosition)
285  << "\n Returned empty RPN vector and result false." << std::endl;
286 
287  // clear the rpn vector before returning
288  clearRpnVector();
289 
290  return false;
291  }
292 
293  // pop stack until a left parenthesis is found
294  do {
295  if (operatorStack.top().operation != OP_OPENBRACKET) {
296  m_rpnVector.push_back(operatorStack.top()); // pop
297  operatorStack.pop();
298  }
299  if (operatorStack.empty()) { // the operatorStack must not be empty
300 
301  int errorPosition = exprStringStream.tellg();
302 
303  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
304  << "\n Syntax error during parsing - misplaced ')':"
305  << "\n " << exprStringStream.str().substr(0, errorPosition) << "\n "
306  << exprStringStream.str().substr(errorPosition)
307  << "\n Returned empty RPN vector and result false." << std::endl;
308 
309  // clear the rpn vector before returning
310  clearRpnVector();
311  return false;
312  }
313  } while (operatorStack.top().operation != OP_OPENBRACKET);
314 
315  operatorStack.pop(); // pop the open bracket.
316  }
317 
318  break;
319  default: {
320  // empty
321  } break;
322  }
323 
324  lastOperation = actualOperation; // for the next turn
325  }
326 
327  // pop the rest of the operator stack
328  while (!operatorStack.empty()) {
329  if (operatorStack.top().operation == OP_OPENBRACKET) {
330  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
331  << "\n Syntax error during parsing - missing ')':"
332  << "\n Returned empty RPN vector and result false." << std::endl;
333 
334  // clear the rpn vector before returning
335  clearRpnVector();
336  return false;
337  }
338 
339  m_rpnVector.push_back(operatorStack.top());
340  operatorStack.pop();
341  }
342 
343  // count all operations and check if the result is 1
344  int counter = 0;
345  for (RpnVector::iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
346  if (it->operation == OP_OPERAND)
347  counter++;
348  if (it->operation == OP_OR || it->operation == OP_AND || it->operation == OP_XOR)
349  counter--;
350  if (counter < 1) {
351  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
352  << "\n Syntax error during parsing - too many operators"
353  << "\n Returned empty RPN vector and result false." << std::endl;
354 
355  // clear the rpn vector before returning
356  clearRpnVector();
357  return false;
358  }
359  }
360 
361  if (counter > 1) {
362  edm::LogError("L1TGlobal") << "\nLogical expression = '" << logicalExpressionVal << "'"
363  << "\n Syntax error during parsing - too many operands"
364  << "\n Returned empty RPN vector and result false." << std::endl;
365 
366  // clear the rpn vector before returning
367  clearRpnVector();
368  return false;
369  }
370  return true;
371 }
372 
373 // clear rpn vector
375 
376 // build from the RPN vector the operand token vector
377 // dummy tokenNumber and token result
379  //LogTrace("L1TGlobal")
380  //<< "\nGtLogicParser::buildOperandTokenVector - "
381  //<< std::endl;
382 
383  // reserve memory
384  size_t rpnVectorSize = m_rpnVector.size();
385  m_operandTokenVector.reserve(rpnVectorSize);
386 
387  int opNumber = 0;
388 
389  for (RpnVector::const_iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
390  //LogTrace("L1TGlobal")
391  //<< "\nit->operation = " << it->operation
392  //<< "\nit->operand = '" << it->operand << "'\n"
393  //<< std::endl;
394 
395  switch (it->operation) {
396  case OP_OPERAND: {
397  OperandToken opToken;
398  opToken.tokenName = it->operand;
399  opToken.tokenNumber = opNumber;
400  opToken.tokenResult = false;
401 
402  m_operandTokenVector.push_back(opToken);
403 
404  }
405 
406  break;
407  case OP_NOT: {
408  // do nothing
409  }
410 
411  break;
412  case OP_OR: {
413  // do nothing
414  }
415 
416  break;
417  case OP_AND: {
418  // do nothing
419  }
420  case OP_XOR: {
421  // do nothing
422  }
423 
424  break;
425  default: {
426  // should not arrive here
427  }
428 
429  break;
430  }
431 
432  opNumber++;
433  }
434 }
435 
436 // return the position index of the operand in the logical expression
437 int GlobalLogicParser::operandIndex(const std::string& operandNameVal) const {
438  int result = -1;
439 
440  OperationType actualOperation = OP_NULL;
441  OperationType lastOperation = OP_NULL;
442 
443  std::string tokenString;
444  TokenRPN rpnToken; // token to be used by getOperation
445 
446  // stringstream to separate all tokens
447  std::istringstream exprStringStream(m_logicalExpression);
448 
449  // temporary index for usage in the loop
450  int tmpIndex = -1;
451 
452  while (!exprStringStream.eof()) {
453  exprStringStream >> tokenString;
454 
455  //LogTrace("L1TGlobal")
456  //<< "Token string = " << tokenString
457  //<< std::endl;
458 
459  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
460  if (actualOperation == OP_INVALID) {
461  // it should never be invalid
462  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
463  << "\n Invalid operation/operand " << operandNameVal
464  << "\n Returned index is by default out of range (-1)." << std::endl;
465 
466  return result;
467  }
468 
469  if (actualOperation != OP_OPERAND) {
470  // do nothing
471 
472  } else {
473  tmpIndex++;
474  if (rpnToken.operand == operandNameVal) {
475  result = tmpIndex;
476 
477  //LogDebug("L1TGlobal")
478  //<< "\nGtLogicParser::operandIndex - "
479  //<< "\nLogical expression = '" << m_logicalExpression << "'"
480  //<< "\nIndex of operand " << operandNameVal << " = " << result
481  //<< std::endl;
482 
483  return result;
484  }
485  }
486  lastOperation = actualOperation;
487  }
488 
489  //
490  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
491  << "\n Operand " << operandNameVal << " not found in the logical expression"
492  << "\n Returned index is by default out of range (-1)." << std::endl;
493 
494  return result;
495 }
496 
497 // return the name of the (iOperand)th operand in the logical expression
498 std::string GlobalLogicParser::operandName(const int iOperand) const {
500 
501  OperationType actualOperation = OP_NULL;
502  OperationType lastOperation = OP_NULL;
503 
504  std::string tokenString;
505  TokenRPN rpnToken; // token to be used by getOperation
506 
507  // stringstream to separate all tokens
508  std::istringstream exprStringStream(m_logicalExpression);
509 
510  // temporary index for usage in the loop
511  int tmpIndex = -1;
512 
513  while (!exprStringStream.eof()) {
514  exprStringStream >> tokenString;
515 
516  //LogTrace("L1TGlobal")
517  //<< "Token string = " << tokenString
518  //<< std::endl;
519 
520  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
521  if (actualOperation == OP_INVALID) {
522  // it should never be invalid
523  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
524  << "\n Invalid operation/operand at position " << iOperand
525  << "\n Returned empty name by default." << std::endl;
526 
527  return result;
528  }
529 
530  if (actualOperation != OP_OPERAND) {
531  // do nothing
532 
533  } else {
534  tmpIndex++;
535  if (tmpIndex == iOperand) {
536  result = rpnToken.operand;
537 
538  //LogDebug("L1TGlobal")
539  //<< "\nGtLogicParser::operandName - "
540  //<< "\nLogical expression = '" << m_logicalExpression << "'"
541  //<< "\nOperand with index " << iOperand << " = " << result
542  //<< std::endl;
543 
544  return result;
545  }
546  }
547  lastOperation = actualOperation;
548  }
549 
550  //
551  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
552  << "\n No operand found at position " << iOperand << "\n Returned empty name by default."
553  << std::endl;
554 
555  return result;
556 }
557 
558 // return the result for an operand with name operandNameVal
559 // in the logical expression using the operand token vector
560 bool GlobalLogicParser::operandResult(const std::string& operandNameVal) const {
561  for (size_t i = 0; i < m_operandTokenVector.size(); ++i) {
562  if ((m_operandTokenVector[i]).tokenName == operandNameVal) {
563  return (m_operandTokenVector[i]).tokenResult;
564  }
565  }
566 
567  // return false - should not arrive here
568  edm::LogError("L1TGlobal") << "\n Operand " << operandNameVal << " not found in the operand token vector"
569  << "\n Returned false by default." << std::endl;
570 
571  return false;
572 }
573 
574 // return the result for an operand with tokenNumberVal
575 // using the operand token vector
576 bool GlobalLogicParser::operandResult(const int tokenNumberVal) const {
577  for (size_t i = 0; i < m_operandTokenVector.size(); ++i) {
578  if ((m_operandTokenVector[i]).tokenNumber == tokenNumberVal) {
579  return (m_operandTokenVector[i]).tokenResult;
580  }
581  }
582 
583  // return false - should not arrive here
584  edm::LogError("L1TGlobal") << "\n No operand with token number " << tokenNumberVal
585  << " found in the operand token vector"
586  << "\n Returned false by default." << std::endl;
587 
588  return false;
589 }
590 
591 // return the result for the logical expression
592 // require a proper operand token vector
594  //LogTrace("L1TGlobal")
595  //<< "\nGtLogicParser::expressionResult - "
596  //<< std::endl;
597 
598  // return false if there is no RPN vector built
599  if (m_rpnVector.empty()) {
600  edm::LogError("L1TGlobal") << "\n No built RPN vector exists."
601  << "\n Returned false by default." << std::endl;
602  return false;
603  }
604 
605  // stack containing temporary results
606  std::stack<bool> resultStack;
607  bool b1, b2;
608 
609  for (RpnVector::const_iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
610  //LogTrace("L1TGlobal")
611  //<< "\nit->operation = " << it->operation
612  //<< "\nit->operand = '" << it->operand << "'\n"
613  //<< std::endl;
614 
615  switch (it->operation) {
616  case OP_OPERAND: {
617  resultStack.push(operandResult(it->operand));
618  }
619 
620  break;
621  case OP_NOT: {
622  b1 = resultStack.top();
623  resultStack.pop(); // pop the top
624  resultStack.push(!b1); // and push the result
625  }
626 
627  break;
628  case OP_OR: {
629  b1 = resultStack.top();
630  resultStack.pop();
631  b2 = resultStack.top();
632  resultStack.pop();
633  resultStack.push(b1 || b2);
634  }
635 
636  break;
637  case OP_XOR: {
638  b1 = resultStack.top();
639  resultStack.pop();
640  b2 = resultStack.top();
641  resultStack.pop();
642  resultStack.push(b1 ^ b2);
643  }
644 
645  break;
646  case OP_AND: {
647  b1 = resultStack.top();
648  resultStack.pop();
649  b2 = resultStack.top();
650  resultStack.pop();
651  resultStack.push(b1 && b2);
652  }
653 
654  break;
655  default: {
656  // should not arrive here
657  }
658 
659  break;
660  }
661  }
662 
663  // get the result in the top of the stack
664 
665  //LogTrace("L1TGlobal")
666  //<< "\nGtLogicParser::expressionResult - "
667  //<< "\nResult = " << resultStack.top()
668  //<< std::endl;
669 
670  return resultStack.top();
671 }
672 
673 // return the result for an operand with name operandNameVal
674 // in the logical expression using a numerical expression
675 bool GlobalLogicParser::operandResultNumExp(const std::string& operandNameVal) const {
676  bool result = false;
677 
678  // get the position index of the operand in the logical string
679  const int iOperand = operandIndex(operandNameVal);
680 
681  result = operandResult(iOperand);
682 
683  return result;
684 }
685 
686 // return the result for an operand with index iOperand
687 // in the logical expression using a numerical expression
688 bool GlobalLogicParser::operandResultNumExp(const int iOperand) const {
689  bool result = false;
690 
691  // parse the numerical expression
692 
693  OperationType actualOperation = OP_NULL;
694  OperationType lastOperation = OP_NULL;
695 
696  std::string tokenString;
697  TokenRPN rpnToken; // token to be used by getOperation
698 
699  // stringstream to separate all tokens
700  std::istringstream exprStringStream(m_numericalExpression);
701 
702  // temporary index for usage in the loop
703  int tmpIndex = -1;
704 
705  while (!exprStringStream.eof()) {
706  exprStringStream >> tokenString;
707 
708  //LogTrace("L1TGlobal")
709  //<< "Token string = " << tokenString
710  //<< std::endl;
711 
712  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
713  if (actualOperation == OP_INVALID) {
714  // it should never be invalid
715  edm::LogError("L1TGlobal") << "\nNumerical expression = '" << m_numericalExpression << "'"
716  << "\n Invalid operation/operand at position " << iOperand
717  << "\n Returned false by default." << std::endl;
718 
719  result = false;
720  return result;
721  }
722 
723  if (actualOperation != OP_OPERAND) {
724  // do nothing
725 
726  } else {
727  tmpIndex++;
728  if (tmpIndex == iOperand) {
729  if (rpnToken.operand == "1") {
730  result = true;
731  } else {
732  if (rpnToken.operand == "0") {
733  result = false;
734  } else {
735  // something went wrong - break
736  //
737  edm::LogError("L1TGlobal") << "\nNumerical expression = '" << m_numericalExpression << "'"
738  << "\n Invalid result for operand at position " << iOperand << ": "
739  << rpnToken.operand << "\n It must be 0 or 1"
740  << "\n Returned false by default." << std::endl;
741 
742  result = false;
743  return result;
744  }
745  }
746 
747  //LogDebug("L1TGlobal")
748  //<< "\nGtLogicParser::operandResult - "
749  //<< "\nNumerical expression = '" << m_numericalExpression << "'"
750  //<< "\nResult for operand with index " << iOperand
751  //<< " = " << result << "'\n"
752  //<< std::endl;
753 
754  return result;
755  }
756  }
757  lastOperation = actualOperation;
758  }
759 
760  //
761  edm::LogError("L1TGlobal") << "\nNumerical expression = '" << m_numericalExpression << "'"
762  << "\n No operand found at position " << iOperand << "\n Returned false by default."
763  << std::endl;
764 
765  return result;
766 }
767 
768 // build from the RPN vector the operand token vector
769 // using a numerical expression
771  //LogTrace("L1TGlobal")
772  //<< "\nGtLogicParser::buildOperandTokenVector - "
773  //<< std::endl;
774 
775  // reserve memory
776  size_t rpnVectorSize = m_rpnVector.size();
777  m_operandTokenVector.reserve(rpnVectorSize);
778 
779  int opNumber = 0;
780 
781  for (RpnVector::const_iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
782  //LogTrace("L1TGlobal")
783  //<< "\nit->operation = " << it->operation
784  //<< "\nit->operand = '" << it->operand << "'\n"
785  //<< std::endl;
786 
787  switch (it->operation) {
788  case OP_OPERAND: {
789  OperandToken opToken;
790  opToken.tokenName = it->operand;
791  opToken.tokenNumber = opNumber;
792  opToken.tokenResult = operandResultNumExp(it->operand);
793 
794  m_operandTokenVector.push_back(opToken);
795 
796  }
797 
798  break;
799  case OP_NOT: {
800  // do nothing
801  }
802 
803  break;
804  case OP_OR: {
805  // do nothing
806  }
807 
808  break;
809  case OP_XOR: {
810  // do nothing
811  }
812 
813  break;
814  case OP_AND: {
815  // do nothing
816  }
817 
818  break;
819  default: {
820  // should not arrive here
821  }
822 
823  break;
824  }
825 
826  opNumber++;
827  }
828 }
829 
830 // return the result for the logical expression
832  //LogTrace("L1TGlobal")
833  //<< "\nGtLogicParser::expressionResult - "
834  //<< std::endl;
835 
836  // return false if there is no expression
837  if (m_rpnVector.empty()) {
838  edm::LogError("L1TGlobal") << "\n No built RPN vector exists."
839  << "\n Returned false by default." << std::endl;
840  return false;
841  }
842 
843  // stack containing temporary results
844  std::stack<bool> resultStack;
845  bool b1, b2;
846 
847  for (RpnVector::const_iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
848  //LogTrace("L1TGlobal")
849  //<< "\nit->operation = " << it->operation
850  //<< "\nit->operand = '" << it->operand << "'\n"
851  //<< std::endl;
852 
853  switch (it->operation) {
854  case OP_OPERAND: {
855  resultStack.push(operandResultNumExp(it->operand));
856  }
857 
858  break;
859  case OP_NOT: {
860  b1 = resultStack.top();
861  resultStack.pop(); // pop the top
862  resultStack.push(!b1); // and push the result
863  }
864 
865  break;
866  case OP_OR: {
867  b1 = resultStack.top();
868  resultStack.pop();
869  b2 = resultStack.top();
870  resultStack.pop();
871  resultStack.push(b1 || b2);
872  }
873 
874  break;
875  case OP_XOR: {
876  b1 = resultStack.top();
877  resultStack.pop();
878  b2 = resultStack.top();
879  resultStack.pop();
880  resultStack.push(b1 ^ b2);
881  }
882 
883  break;
884  case OP_AND: {
885  b1 = resultStack.top();
886  resultStack.pop();
887  b2 = resultStack.top();
888  resultStack.pop();
889  resultStack.push(b1 && b2);
890  }
891 
892  break;
893  default: {
894  // should not arrive here
895  }
896 
897  break;
898  }
899  }
900 
901  // get the result in the top of the stack
902 
903  //LogTrace("L1TGlobal")
904  //<< "\nGtLogicParser::expressionResult - "
905  //<< "\nLogical expression = '" << m_logicalExpression << "'"
906  //<< "\nNumerical expression = '" << m_numericalExpression << "'"
907  //<< "\nResult = " << resultStack.top()
908  //<< std::endl;
909 
910  return resultStack.top();
911 }
912 
913 // convert the logical expression composed with names to
914 // a logical expression composed with int numbers using
915 // a (string, int) map
916 
917 void GlobalLogicParser::convertNameToIntLogicalExpression(const std::map<std::string, int>& nameToIntMap) {
918  if (m_logicalExpression.empty()) {
919  return;
920  }
921 
922  // non-empty logical expression
923 
924  OperationType actualOperation = OP_NULL;
925  OperationType lastOperation = OP_NULL;
926 
927  std::string tokenString;
928  TokenRPN rpnToken; // token to be used by getOperation
929 
930  int intValue = -1;
931 
932  // stringstream to separate all tokens
933  std::istringstream exprStringStream(m_logicalExpression);
934  std::string convertedLogicalExpression;
935 
936  while (!exprStringStream.eof()) {
937  exprStringStream >> tokenString;
938 
939  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
940  if (actualOperation == OP_INVALID) {
941  // it should never be invalid
942  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
943  << "\n Invalid operation/operand in logical expression."
944  << "\n Return empty logical expression." << std::endl;
945 
946  m_logicalExpression.clear();
947  return;
948  }
949 
950  if (actualOperation != OP_OPERAND) {
951  convertedLogicalExpression.append(getRuleFromType(actualOperation)->opString);
952 
953  } else {
954  typedef std::map<std::string, int>::const_iterator CIter;
955 
956  CIter it = nameToIntMap.find(rpnToken.operand);
957  if (it != nameToIntMap.end()) {
958  intValue = it->second;
959  std::stringstream intStr;
960  intStr << intValue;
961  convertedLogicalExpression.append(intStr.str());
962 
963  } else {
964  // it should never be happen
965  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
966  << "\n Could not convert " << rpnToken.operand << " to integer!"
967  << "\n Return empty logical expression." << std::endl;
968 
969  m_logicalExpression.clear();
970  return;
971  }
972  }
973 
974  convertedLogicalExpression.append(" "); // one whitespace after each token
975  lastOperation = actualOperation;
976  }
977 
978  // remove the last space
979  //convertedLogicalExpression.erase(convertedLogicalExpression.size() - 1);
980  boost::trim(convertedLogicalExpression);
981 
982  LogDebug("L1TGlobal") << "\nGtLogicParser::convertNameToIntLogicalExpression - "
983  << "\nLogical expression (strings) = '" << m_logicalExpression << "'"
984  << "\nLogical expression (int) = '" << convertedLogicalExpression << "'\n"
985  << std::endl;
986 
987  // replace now the logical expression with strings with
988  // the converted logical expression
989 
990  m_logicalExpression = convertedLogicalExpression;
991 
992  return;
993 }
994 
995 // convert a logical expression composed with integer numbers to
996 // a logical expression composed with names using a map (int, string)
997 
998 void GlobalLogicParser::convertIntToNameLogicalExpression(const std::map<int, std::string>& intToNameMap) {
999  if (m_logicalExpression.empty()) {
1000  return;
1001  }
1002 
1003  // non-empty logical expression
1004 
1005  OperationType actualOperation = OP_NULL;
1006  OperationType lastOperation = OP_NULL;
1007 
1008  std::string tokenString;
1009  TokenRPN rpnToken; // token to be used by getOperation
1010 
1011  // stringstream to separate all tokens
1012  std::istringstream exprStringStream(m_logicalExpression);
1013  std::string convertedLogicalExpression;
1014 
1015  while (!exprStringStream.eof()) {
1016  exprStringStream >> tokenString;
1017 
1018  actualOperation = getOperation(tokenString, lastOperation, rpnToken);
1019  if (actualOperation == OP_INVALID) {
1020  // it should never be invalid
1021  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
1022  << "\n Invalid operation/operand in logical expression."
1023  << "\n Return empty logical expression." << std::endl;
1024 
1025  m_logicalExpression.clear();
1026  return;
1027  }
1028 
1029  if (actualOperation != OP_OPERAND) {
1030  convertedLogicalExpression.append(getRuleFromType(actualOperation)->opString);
1031 
1032  } else {
1033  typedef std::map<int, std::string>::const_iterator CIter;
1034 
1035  // convert string to int
1036  int indexInt;
1037  std::istringstream iss(rpnToken.operand);
1038  iss >> std::dec >> indexInt;
1039 
1040  CIter it = intToNameMap.find(indexInt);
1041  if (it != intToNameMap.end()) {
1042  convertedLogicalExpression.append(it->second);
1043 
1044  } else {
1045  // it should never be happen
1046  edm::LogError("L1TGlobal") << "\nLogical expression = '" << m_logicalExpression << "'"
1047  << "\n Could not convert " << rpnToken.operand << " to string!"
1048  << "\n Return empty logical expression." << std::endl;
1049 
1050  m_logicalExpression.clear();
1051  return;
1052  }
1053  }
1054 
1055  convertedLogicalExpression.append(" "); // one whitespace after each token
1056  lastOperation = actualOperation;
1057  }
1058 
1059  // remove the last space
1060  //convertedLogicalExpression.erase(convertedLogicalExpression.size() - 1);
1061  boost::trim(convertedLogicalExpression);
1062 
1063  //LogDebug("L1TGlobal")
1064  // << "\nGtLogicParser::convertIntToNameLogicalExpression - "
1065  // << "\nLogical expression (int) = '" << m_logicalExpression << "'"
1066  // << "\nLogical expression (string) = '" << convertedLogicalExpression << "'\n"
1067  // << std::endl;
1068 
1069  // replace now the logical expression with int with
1070  // the converted logical expression
1071 
1072  m_logicalExpression = convertedLogicalExpression;
1073 
1074  return;
1075 }
1076 
1077 // return the list of operand tokens for the logical expression
1078 // which are to be used as seeds
1079 std::vector<GlobalLogicParser::OperandToken> GlobalLogicParser::expressionSeedsOperandList() {
1080  //LogDebug("L1TGlobal")
1081  //<< "\nGtLogicParser::expressionSeedsOperandList - "
1082  //<< "\nLogical expression = '" << m_logicalExpression << "'"
1083  //<< "\nm_rpnVector.size() = " << m_rpnVector.size()
1084  //<< "\nm_operandTokenVector.size() = " << m_operandTokenVector.size()
1085  //<< std::endl;
1086 
1087  // seed list
1088  std::vector<OperandToken> opVector;
1089  opVector.reserve(m_operandTokenVector.size());
1090 
1091  // temporary results
1092  std::stack<OperandToken> tmpStack;
1093  std::vector<OperandToken> tmpVector;
1094  tmpVector.reserve(m_operandTokenVector.size());
1095 
1096  OperandToken b1, b2;
1097 
1098  bool newOperandBlock = true;
1099  bool oneBlockOnly = true;
1100  bool operandOnly = true;
1101 
1102  int iOperand = -1;
1103 
1104  OperandToken dummyToken;
1105  dummyToken.tokenName = "dummy";
1106  dummyToken.tokenNumber = -1;
1107  dummyToken.tokenResult = false;
1108 
1109  for (RpnVector::const_iterator it = m_rpnVector.begin(); it != m_rpnVector.end(); it++) {
1110  //LogTrace("L1TGlobal")
1111  //<< "\nit->operation = " << it->operation
1112  //<< "\nit->operand = '" << it->operand << "'\n"
1113  //<< std::endl;
1114 
1115  switch (it->operation) {
1116  // RPN always start a block with an operand
1117  case OP_OPERAND: {
1118  // more blocks with operations
1119  // push operands from previous block, if any in the tmpVector
1120  // (reverse order to compensate the stack push/top/pop)
1121  if ((!newOperandBlock)) {
1122  for (std::vector<OperandToken>::reverse_iterator itOp = tmpVector.rbegin(); itOp != tmpVector.rend();
1123  itOp++) {
1124  opVector.push_back(*itOp);
1125 
1126  //LogTrace("L1TGlobal")
1127  //<< " Push operand " << (*itOp).tokenName
1128  //<<" on the seed operand list"
1129  //<< std::endl;
1130  }
1131 
1132  tmpVector.clear();
1133 
1134  newOperandBlock = true;
1135  oneBlockOnly = false;
1136  }
1137 
1138  iOperand++;
1139 
1140  //LogTrace("L1TGlobal")
1141  //<< " Push operand " << (m_operandTokenVector.at(iOperand)).tokenName
1142  //<< " on the operand stack"
1143  //<< std::endl;
1144 
1145  tmpStack.push(m_operandTokenVector.at(iOperand));
1146  }
1147 
1148  break;
1149  case OP_NOT: {
1150  newOperandBlock = false;
1151  operandOnly = false;
1152 
1153  b1 = tmpStack.top();
1154  tmpStack.pop(); // pop the top
1155 
1156  tmpStack.push(dummyToken); // and push dummy result
1157 
1158  //LogTrace("L1TGlobal")
1159  //<< " Clear tmp operand list"
1160  //<< std::endl;
1161 
1162  tmpVector.clear();
1163 
1164  }
1165 
1166  break;
1167  case OP_OR: {
1168  newOperandBlock = false;
1169  operandOnly = false;
1170 
1171  b1 = tmpStack.top();
1172  tmpStack.pop();
1173  b2 = tmpStack.top();
1174  tmpStack.pop();
1175 
1176  tmpStack.push(dummyToken); // and push dummy result
1177 
1178  if (b1.tokenNumber >= 0) {
1179  tmpVector.push_back(b1);
1180 
1181  //LogTrace("L1TGlobal")
1182  //<< " Push operand " << b1.tokenName
1183  //<<" on the tmp list"
1184  //<< std::endl;
1185  }
1186 
1187  if (b2.tokenNumber >= 0) {
1188  tmpVector.push_back(b2);
1189 
1190  //LogTrace("L1TGlobal")
1191  //<< " Push operand " << b2.tokenName
1192  //<<" on the tmp list"
1193  //<< std::endl;
1194  }
1195 
1196  }
1197 
1198  break;
1199  case OP_XOR: {
1200  newOperandBlock = false;
1201  operandOnly = false;
1202 
1203  b1 = tmpStack.top();
1204  tmpStack.pop();
1205  b2 = tmpStack.top();
1206  tmpStack.pop();
1207 
1208  tmpStack.push(dummyToken); // and push dummy result
1209 
1210  if (b1.tokenNumber >= 0) {
1211  tmpVector.push_back(b1);
1212 
1213  //LogTrace("L1TGlobal")
1214  //<< " Push operand " << b1.tokenName
1215  //<<" on the tmp list"
1216  //<< std::endl;
1217  }
1218 
1219  if (b2.tokenNumber >= 0) {
1220  tmpVector.push_back(b2);
1221 
1222  //LogTrace("L1TGlobal")
1223  //<< " Push operand " << b2.tokenName
1224  //<<" on the tmp list"
1225  //<< std::endl;
1226  }
1227 
1228  }
1229 
1230  break;
1231  case OP_AND: {
1232  newOperandBlock = false;
1233  operandOnly = false;
1234 
1235  b1 = tmpStack.top();
1236  tmpStack.pop();
1237  b2 = tmpStack.top();
1238  tmpStack.pop();
1239 
1240  tmpStack.push(dummyToken);
1241 
1242  if (b1.tokenNumber >= 0) {
1243  tmpVector.push_back(b1);
1244 
1245  //LogTrace("L1TGlobal")
1246  //<< " Push operand " << b1.tokenName
1247  //<<" on the tmp list"
1248  //<< std::endl;
1249  }
1250 
1251  if (b2.tokenNumber >= 0) {
1252  tmpVector.push_back(b2);
1253 
1254  //LogTrace("L1TGlobal")
1255  //<< " Push operand " << b2.tokenName
1256  //<<" on the tmp list"
1257  //<< std::endl;
1258  }
1259 
1260  }
1261 
1262  break;
1263  default: {
1264  // should not arrive here
1265  }
1266 
1267  break;
1268  }
1269  }
1270 
1271  // one block only or one operand only
1272  if (oneBlockOnly || operandOnly) {
1273  // one operand only -
1274  // there can be only one operand, otherwise one needs an operation
1275  if (operandOnly) {
1276  b1 = tmpStack.top();
1277  tmpVector.push_back(b1);
1278  }
1279 
1280  //
1281  for (std::vector<OperandToken>::reverse_iterator itOp = tmpVector.rbegin(); itOp != tmpVector.rend(); itOp++) {
1282  opVector.push_back(*itOp);
1283 
1284  //LogTrace("L1TGlobal")
1285  //<< " One block or one operand only: push operand " << (*itOp).tokenName
1286  //<<" on the seed operand list"
1287  //<< std::endl;
1288  }
1289 
1290  } else {
1291  //LogTrace("L1TGlobal")
1292  // << " More blocks: push the last block on the seed operand list" << std::endl;
1293 
1294  for (std::vector<OperandToken>::reverse_iterator itOp = tmpVector.rbegin(); itOp != tmpVector.rend(); itOp++) {
1295  opVector.push_back(*itOp);
1296 
1297  //LogTrace("L1TGlobal")
1298  //<< " Push operand: " << (*itOp).tokenName
1299  //<<" on the seed operand list"
1300  //<< std::endl;
1301  }
1302  }
1303 
1304  // remove duplicates from the seed vector
1305  // slow...
1306  std::vector<OperandToken> opVectorU;
1307  opVectorU.reserve(opVector.size());
1308 
1309  for (std::vector<OperandToken>::const_iterator constIt = opVector.begin(); constIt != opVector.end(); constIt++) {
1310  bool tokenIncluded = false;
1311 
1312  for (std::vector<OperandToken>::iterator itOpU = opVectorU.begin(); itOpU != opVectorU.end(); itOpU++) {
1313  if ((*itOpU).tokenName == (*constIt).tokenName) {
1314  tokenIncluded = true;
1315  break;
1316  }
1317  }
1318 
1319  if (!tokenIncluded) {
1320  opVectorU.push_back(*constIt);
1321  }
1322  }
1323 
1324  return opVectorU;
1325 }
1326 
1327 // private methods
1328 
1341  OperationType lastOperation,
1342  TokenRPN& rpnToken) const {
1343  OperationType actualOperation = OP_OPERAND; // default value
1344 
1345  int i = 0;
1346 
1347  while (m_operationRules[i].opType != OP_OPERAND) {
1348  if (tokenString == m_operationRules[i].opString) {
1349  actualOperation = (OperationType)m_operationRules[i].opType;
1350  break;
1351  }
1352  i++;
1353  }
1354 
1355  // check if the operation is allowed
1356  if (m_operationRules[i].forbiddenLastOperation & lastOperation) {
1357  return OP_INVALID;
1358  }
1359 
1360  //
1361  if (actualOperation == OP_OPERAND) {
1362  rpnToken.operand = tokenString;
1363 
1364  } else {
1365  rpnToken.operand = "";
1366  }
1367 
1368  rpnToken.operation = actualOperation;
1369 
1370  // else we got a valid operation
1371  return actualOperation;
1372 }
1373 
1385  int i = 0;
1386 
1387  while ((m_operationRules[i].opType != oType) && (m_operationRules[i].opType != OP_NULL)) {
1388  i++;
1389  }
1390 
1391  if (m_operationRules[i].opType == OP_NULL) {
1392  return nullptr;
1393  }
1394 
1395  return &(m_operationRules[i]);
1396 }
1397 
1398 // add spaces before and after parentheses - make separation easier
1399 void GlobalLogicParser::addBracketSpaces(const std::string& srcExpression, std::string& dstExpression) {
1400  static const std::string brackets = "()"; // the brackets to be found
1401 
1402  dstExpression = srcExpression; // copy the string
1403 
1404  size_t position = 0;
1405  while ((position = dstExpression.find_first_of(brackets, position)) != std::string::npos) {
1406  // add space after if none is there
1407  if (((position + 1) != std::string::npos) && (dstExpression[position + 1] != ' ')) {
1408  dstExpression.insert(position + 1, " ");
1409  }
1410 
1411  // add space before if none is there
1412  if ((position != 0) && (dstExpression[position - 1] != ' ')) {
1413  dstExpression.insert(position, " ");
1414  position++;
1415  }
1416  position++;
1417  }
1418 }
1419 
1420 // set the logical expression - check for correctness the input string
1421 bool GlobalLogicParser::setLogicalExpression(const std::string& logicalExpressionVal) {
1422  // add spaces around brackets
1423  std::string logicalExpressionBS;
1424  addBracketSpaces(logicalExpressionVal, logicalExpressionBS);
1425 
1426  // trim leading or trailing spaces
1427  boost::trim(logicalExpressionBS);
1428 
1429  clearRpnVector();
1430 
1431  if (!buildRpnVector(logicalExpressionBS)) {
1432  m_logicalExpression = "";
1433  return false;
1434  }
1435 
1436  m_logicalExpression = logicalExpressionBS;
1437 
1438  //LogDebug("L1TGlobal")
1439  //<< "\nGtLogicParser::setLogicalExpression - "
1440  //<< "\nLogical expression = '" << m_logicalExpression << "'\n"
1441  //<< std::endl;
1442 
1443  return true;
1444 }
1445 
1446 // set the numerical expression (the logical expression with each operand
1447 // replaced with the value) from a string
1448 // check also for correctness the input string
1449 bool GlobalLogicParser::setNumericalExpression(const std::string& numericalExpressionVal) {
1450  // add spaces around brackets
1451  std::string numericalExpressionBS;
1452  addBracketSpaces(numericalExpressionVal, numericalExpressionBS);
1453 
1454  // check for consistency with the logical expression
1455  // TODO FIXME
1456 
1457  // trim leading or trailing spaces
1458  boost::trim(numericalExpressionBS);
1459 
1460  m_numericalExpression = numericalExpressionBS;
1461 
1462  //LogDebug("L1TGlobal")
1463  //<< "\nGtLogicParser::setNumericalExpression - "
1464  //<< "\nNumerical Expression = '" << m_numericalExpression << "'\n"
1465  //<< std::endl;
1466 
1467  return true;
1468 }
1469 
1470 // static members
1471 
1472 // rules for operations
1473 // 1st column: operation string
1474 // 2nd column: operation type
1475 // 3rd column: forbiddenLastOperation (what operation the operator/operand must not follow)
1477  {"AND", OP_AND, OP_AND | OP_OR | OP_XOR | OP_NOT | OP_OPENBRACKET | OP_NULL},
1478  {"OR", OP_OR, OP_AND | OP_OR | OP_XOR | OP_NOT | OP_OPENBRACKET | OP_NULL},
1479  {"XOR", OP_XOR, OP_AND | OP_OR | OP_XOR | OP_NOT | OP_OPENBRACKET | OP_NULL},
1480  {"NOT", OP_NOT, OP_OPERAND | OP_CLOSEBRACKET},
1483  {nullptr, OP_OPERAND, OP_OPERAND | OP_CLOSEBRACKET},
1484  {nullptr, OP_NULL, OP_NULL}};
GlobalLogicParser::OperationType
OperationType
Definition: GlobalLogicParser.h:25
counter
Definition: counter.py:1
GlobalLogicParser::m_numericalExpression
std::string m_numericalExpression
Definition: GlobalLogicParser.h:186
GlobalLogicParser::setLogicalExpression
bool setLogicalExpression(const std::string &)
set the logical expression - check for correctness the input string
Definition: GlobalLogicParser.cc:1421
mps_fire.i
i
Definition: mps_fire.py:428
GlobalLogicParser::expressionResult
virtual const bool expressionResult() const
Definition: GlobalLogicParser.cc:593
MessageLogger.h
GlobalLogicParser::OP_OPENBRACKET
Definition: GlobalLogicParser.h:32
GlobalLogicParser::clearRpnVector
void clearRpnVector()
clear possible old rpn vector
Definition: GlobalLogicParser.cc:374
GlobalLogicParser::buildRpnVector
bool buildRpnVector(const std::string &)
build the rpn vector
Definition: GlobalLogicParser.cc:164
GlobalLogicParser::m_logicalExpression
std::string m_logicalExpression
logical expression to be parsed
Definition: GlobalLogicParser.h:182
GlobalLogicParser::setNumericalExpression
bool setNumericalExpression(const std::string &)
Definition: GlobalLogicParser.cc:1449
GlobalLogicParser::m_operationRules
static const struct OperationRule m_operationRules[]
Definition: GlobalLogicParser.h:166
GlobalLogicParser::operandResult
bool operandResult(const std::string &operandNameVal) const
Definition: GlobalLogicParser.cc:560
GlobalLogicParser::expressionSeedsOperandList
std::vector< GlobalLogicParser::OperandToken > expressionSeedsOperandList()
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