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00039 #ifndef _cvc3__expr_h_
00040 #include "expr.h"
00041 #endif
00042
00043 #ifndef _cvc3__expr_value_h_
00044 #define _cvc3__expr_value_h_
00045
00046 #include "theorem.h"
00047 #include "type.h"
00048
00049
00050 #define PRIME 131
00051
00052 namespace CVC3 {
00053
00054
00055
00056
00057
00058
00059
00060
00061
00062
00063
00064
00065
00066
00067
00068
00069 class CVC_DLL ExprValue {
00070 friend class Expr;
00071 friend class Expr::iterator;
00072 friend class ExprManager;
00073 friend class ::CInterface;
00074 friend class ExprApply;
00075 friend class Theorem;
00076 friend class ExprClosure;
00077
00078
00079 ExprIndex d_index;
00080
00081
00082 unsigned d_refcount;
00083
00084
00085 size_t d_hash;
00086
00087
00088 CDO<Theorem>* d_find;
00089
00090
00091 CDO<Theorem>* d_eqNext;
00092
00093
00094 Type d_type;
00095
00096
00097
00098
00099
00100
00101
00102
00103 NotifyList* d_notifyList;
00104
00105
00106 Theorem d_simpCache;
00107
00108
00109 unsigned d_simpCacheTag;
00110
00111
00112 CDFlags d_dynamicFlags;
00113
00114
00115 Unsigned d_size;
00116
00117
00118
00119
00120
00121
00122
00123
00124 unsigned d_flag;
00125
00126 protected:
00127
00128
00129 int d_kind;
00130
00131
00132 ExprManager* d_em;
00133
00134
00135
00136 private:
00137
00138
00139 void setIndex(ExprIndex idx) { d_index = idx; }
00140
00141
00142 void incRefcount() { ++d_refcount; }
00143
00144
00145 void decRefcount() {
00146
00147
00148 IF_DEBUG(FatalAssert(d_refcount > 0, "Mis-handled the ref. counting");)
00149 if((--d_refcount) == 0) d_em->gc(this);
00150 }
00151
00152
00153
00154
00155 size_t hash() const {
00156 if (d_hash == 0)
00157 const_cast<ExprValue*>(this)->d_hash = computeHash();
00158 return d_hash;
00159 }
00160
00161
00162 Unsigned getSize() const {
00163 if (d_flag == d_em->getFlag()) return 0;
00164 const_cast<ExprValue*>(this)->d_flag = d_em->getFlag();
00165 return computeSize();
00166 }
00167
00168
00169
00170
00171
00172
00173
00174
00175
00176
00177 protected:
00178
00179
00180
00181
00182 static std::hash<char*> s_charHash;
00183 static std::hash<long int> s_intHash;
00184
00185 static size_t pointerHash(void* p) { return s_intHash((long int)p); }
00186
00187 static size_t hash(const int kind, const std::vector<Expr>& kids);
00188
00189 static size_t hash(const int n) { return s_intHash((long int)n); }
00190
00191
00192 static Unsigned sizeWithChildren(const std::vector<Expr>& kids);
00193
00194
00195 MemoryManager* getMM(size_t MMIndex) {
00196 DebugAssert(d_em!=NULL, "ExprValue::getMM()");
00197 return d_em->getMM(MMIndex);
00198 }
00199
00200
00201 ExprValue* rebuild(ExprManager* em) const
00202 { return copy(em, 0); }
00203
00204
00205 Expr rebuild(Expr e, ExprManager* em) const
00206 { return em->rebuildRec(e); }
00207
00208
00209
00210
00211
00212 virtual size_t computeHash() const { return hash(d_kind); }
00213
00214
00215
00216 virtual Unsigned computeSize() const { return 1; }
00217
00218
00219 virtual ExprValue* copy(ExprManager* em, ExprIndex idx) const;
00220
00221 public:
00222
00223 ExprValue(ExprManager* em, int kind, ExprIndex idx = 0)
00224 : d_index(idx), d_refcount(0),
00225 d_hash(0), d_find(NULL), d_eqNext(NULL), d_notifyList(NULL),
00226 d_simpCacheTag(0),
00227 d_dynamicFlags(em->getCurrentContext()),
00228 d_size(0),
00229
00230 d_flag(0), d_kind(kind), d_em(em)
00231 {
00232 DebugAssert(em != NULL, "NULL ExprManager is given to ExprValue()");
00233 DebugAssert(em->isKindRegistered(kind),
00234 ("ExprValue(kind = " + int2string(kind)
00235 + ")): kind is not registered").c_str());
00236 DebugAssert(kind != APPLY, "Only ExprApply should have APPLY kind");
00237
00238
00239
00240
00241
00242
00243
00244
00245 }
00246
00247 virtual ~ExprValue();
00248
00249
00250 int getKind() const { return d_kind; }
00251
00252
00253 void* operator new(size_t size, MemoryManager* mm)
00254 { return mm->newData(size); }
00255 void operator delete(void* pMem, MemoryManager* mm) {
00256 mm->deleteData(pMem);
00257 }
00258
00259
00260 void operator delete(void*) { }
00261
00262
00263 virtual size_t getMMIndex() const { return EXPR_VALUE; }
00264
00265
00266 virtual bool operator==(const ExprValue& ev2) const;
00267
00268
00269
00270
00271
00272
00273
00274
00275 virtual const ExprValue* getExprValue() const
00276 { throw Exception("Illegal call to getExprValue()"); }
00277
00278 virtual bool isString() const { return false; }
00279
00280 virtual bool isRational() const { return false; }
00281
00282 virtual bool isVar() const { return false; }
00283
00284 virtual bool isApply() const { return false; }
00285
00286 virtual bool isSymbol() const { return false; }
00287
00288 virtual bool isClosure() const { return false; }
00289
00290 virtual bool isTheorem() const { return false; }
00291
00292
00293 virtual const std::vector<Expr>& getKids() const
00294 { return d_em->getEmptyVector(); }
00295
00296
00297
00298
00299 virtual unsigned arity() const { return 0; }
00300
00301
00302 virtual CDO<Theorem>* getSig() const {
00303 DebugAssert(false, "getSig() is called on ExprValue");
00304 return NULL;
00305 }
00306
00307 virtual CDO<Theorem>* getRep() const {
00308 DebugAssert(false, "getRep() is called on ExprValue");
00309 return NULL;
00310 }
00311
00312 virtual void setSig(CDO<Theorem>* sig) {
00313 DebugAssert(false, "setSig() is called on ExprValue");
00314 }
00315
00316 virtual void setRep(CDO<Theorem>* rep) {
00317 DebugAssert(false, "setRep() is called on ExprValue");
00318 }
00319
00320 virtual const std::string& getUid() const {
00321 static std::string null;
00322 DebugAssert(false, "ExprValue::getUid() called in base class");
00323 return null;
00324 }
00325
00326 virtual const std::string& getString() const {
00327 DebugAssert(false, "getString() is called on ExprValue");
00328 static std::string s("");
00329 return s;
00330 }
00331
00332 virtual const Rational& getRational() const {
00333 DebugAssert(false, "getRational() is called on ExprValue");
00334 static Rational r(0);
00335 return r;
00336 }
00337
00338
00339 virtual const std::string& getName() const {
00340 static std::string ret = "";
00341 DebugAssert(false, "getName() is called on ExprValue");
00342 return ret;
00343 }
00344
00345
00346 virtual const Expr& getVar() const {
00347 DebugAssert(false, "getVar() is called on ExprValue");
00348 static Expr null;
00349 return null;
00350 }
00351
00352
00353 virtual Op getOp() const {
00354 DebugAssert(false, "getOp() is called on ExprValue");
00355 return Op(NULL_KIND);
00356 }
00357
00358 virtual const std::vector<Expr>& getVars() const {
00359 DebugAssert(false, "getVars() is called on ExprValue");
00360 static std::vector<Expr> null;
00361 return null;
00362 }
00363
00364 virtual const Expr& getBody() const {
00365 DebugAssert(false, "getBody() is called on ExprValue");
00366 static Expr null;
00367 return null;
00368 }
00369
00370 virtual void setTriggers(const std::vector<std::vector<Expr> >& triggers) {
00371 DebugAssert(false, "setTriggers() is called on ExprValue");
00372 }
00373
00374 virtual const std::vector<std::vector<Expr> >& getTrigs() const {
00375 DebugAssert(false, "getTrigs() is called on ExprValue");
00376 static std::vector<std::vector<Expr> > null;
00377 return null;
00378 }
00379
00380
00381 virtual const Expr& getExistential() const {
00382 DebugAssert(false, "getExistential() is called on ExprValue");
00383 static Expr null;
00384 return null;
00385 }
00386 virtual int getBoundIndex() const {
00387 DebugAssert(false, "getIndex() is called on ExprValue");
00388 return 0;
00389 }
00390
00391 virtual const std::vector<std::string>& getFields() const {
00392 DebugAssert(false, "getFields() is called on ExprValue");
00393 static std::vector<std::string> null;
00394 return null;
00395 }
00396 virtual const std::string& getField() const {
00397 DebugAssert(false, "getField() is called on ExprValue");
00398 static std::string null;
00399 return null;
00400 }
00401 virtual int getTupleIndex() const {
00402 DebugAssert(false, "getTupleIndex() is called on ExprValue");
00403 return 0;
00404 }
00405 virtual const Theorem& getTheorem() const {
00406 static Theorem null;
00407 DebugAssert(false, "getTheorem() is called on ExprValue");
00408 return null;
00409 }
00410
00411 };
00412
00413
00414 class CVC_DLL ExprNode: public ExprValue {
00415 friend class Expr;
00416 friend class ExprManager;
00417
00418 protected:
00419
00420 std::vector<Expr> d_children;
00421
00422
00423 CDO<Theorem>* d_sig;
00424 CDO<Theorem>* d_rep;
00425
00426 private:
00427
00428
00429 size_t getMMIndex() const { return EXPR_NODE; }
00430
00431 protected:
00432
00433 unsigned arity() const { return d_children.size(); }
00434
00435
00436 std::vector<Expr>& getKids1() { return d_children; }
00437
00438
00439 const std::vector<Expr>& getKids() const { return d_children; }
00440
00441
00442 size_t computeHash() const {
00443 return ExprValue::hash(d_kind, d_children);
00444 }
00445
00446
00447 Unsigned computeSize() const {
00448 return ExprValue::sizeWithChildren(d_children);
00449 }
00450
00451
00452 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00453
00454 public:
00455
00456 ExprNode(ExprManager* em, int kind, ExprIndex idx = 0)
00457 : ExprValue(em, kind, idx), d_sig(NULL), d_rep(NULL) { }
00458
00459 ExprNode(ExprManager* em, int kind, const std::vector<Expr>& kids,
00460 ExprIndex idx = 0)
00461 : ExprValue(em, kind, idx), d_children(kids), d_sig(NULL), d_rep(NULL) { }
00462
00463 virtual ~ExprNode();
00464
00465
00466 void* operator new(size_t size, MemoryManager* mm)
00467 { return mm->newData(size); }
00468 void operator delete(void* pMem, MemoryManager* mm) {
00469 mm->deleteData(pMem);
00470 }
00471
00472
00473 void operator delete(void*) { }
00474
00475
00476 virtual bool operator==(const ExprValue& ev2) const;
00477
00478 virtual CDO<Theorem>* getSig() const { return d_sig; }
00479 virtual CDO<Theorem>* getRep() const { return d_rep; }
00480
00481 virtual void setRep(CDO<Theorem>* rep) { d_rep = rep; }
00482 virtual void setSig(CDO<Theorem>* sig) { d_sig = sig; }
00483
00484 };
00485
00486
00487 class ExprNodeTmp: public ExprValue {
00488 friend class Expr;
00489 friend class ExprManager;
00490
00491 protected:
00492
00493 const std::vector<Expr>& d_children;
00494
00495 private:
00496
00497
00498 size_t getMMIndex() const { return EXPR_NODE; }
00499
00500 protected:
00501
00502 unsigned arity() const { return d_children.size(); }
00503
00504
00505 const std::vector<Expr>& getKids() const { return d_children; }
00506
00507
00508 size_t computeHash() const {
00509 return ExprValue::hash(d_kind, d_children);
00510 }
00511
00512
00513 Unsigned computeSize() const {
00514 return ExprValue::sizeWithChildren(d_children);
00515 }
00516
00517
00518 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00519
00520 public:
00521
00522 ExprNodeTmp(ExprManager* em, int kind, const std::vector<Expr>& kids)
00523 : ExprValue(em, kind, 0), d_children(kids) { }
00524
00525
00526 virtual ~ExprNodeTmp() {}
00527
00528
00529 virtual bool operator==(const ExprValue& ev2) const;
00530
00531 };
00532
00533
00534 class ExprApplyTmp: public ExprNodeTmp {
00535 friend class Expr;
00536 friend class ExprManager;
00537 private:
00538 Expr d_opExpr;
00539 protected:
00540 size_t getMMIndex() const { return EXPR_APPLY; }
00541 size_t computeHash() const {
00542 return PRIME*ExprNodeTmp::computeHash() + d_opExpr.hash();
00543 }
00544 Op getOp() const { return Op(d_opExpr); }
00545 bool isApply() const { return true; }
00546
00547 ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00548 public:
00549
00550 ExprApplyTmp(ExprManager* em, const Op& op,
00551 const std::vector<Expr>& kids)
00552 : ExprNodeTmp(em, NULL_KIND, kids), d_opExpr(op.getExpr())
00553 { DebugAssert(!op.getExpr().isNull(), "Expected non-null Op");
00554 d_kind = APPLY; }
00555 virtual ~ExprApplyTmp() { }
00556
00557 bool operator==(const ExprValue& ev2) const;
00558 };
00559
00560 class CVC_DLL ExprApply: public ExprNode {
00561 friend class Expr;
00562 friend class ExprManager;
00563 private:
00564 Expr d_opExpr;
00565 protected:
00566 size_t getMMIndex() const { return EXPR_APPLY; }
00567 size_t computeHash() const {
00568 return PRIME*ExprNode::computeHash() + d_opExpr.hash();
00569 }
00570 Op getOp() const { return Op(d_opExpr); }
00571 bool isApply() const { return true; }
00572
00573 ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00574 public:
00575
00576 ExprApply(ExprManager* em, const Op& op, ExprIndex idx = 0)
00577 : ExprNode(em, NULL_KIND, idx), d_opExpr(op.getExpr())
00578 { DebugAssert(!op.getExpr().isNull(), "Expected non-null Op");
00579 d_kind = APPLY; }
00580 ExprApply(ExprManager* em, const Op& op,
00581 const std::vector<Expr>& kids, ExprIndex idx = 0)
00582 : ExprNode(em, NULL_KIND, kids, idx), d_opExpr(op.getExpr())
00583 { DebugAssert(!op.getExpr().isNull(), "Expected non-null Op");
00584 d_kind = APPLY; }
00585 virtual ~ExprApply() { }
00586
00587 bool operator==(const ExprValue& ev2) const;
00588
00589 void* operator new(size_t size, MemoryManager* mm) {
00590 return mm->newData(size);
00591 }
00592 void operator delete(void* pMem, MemoryManager* mm) {
00593 mm->deleteData(pMem);
00594 }
00595 void operator delete(void*) { }
00596 };
00597
00598
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00657
00658
00659 class ExprString: public ExprValue {
00660 friend class Expr;
00661 friend class ExprManager;
00662 private:
00663 std::string d_str;
00664
00665
00666 static size_t hash(const std::string& str) {
00667 return s_charHash(str.c_str());
00668 }
00669
00670
00671 virtual size_t getMMIndex() const { return EXPR_STRING; }
00672
00673 protected:
00674
00675 virtual size_t computeHash() const { return hash(d_str); }
00676
00677 virtual bool isString() const { return true; }
00678 virtual const std::string& getString() const { return d_str; }
00679
00680
00681 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00682 public:
00683
00684 ExprString(ExprManager* em, const std::string& s, ExprIndex idx = 0)
00685 : ExprValue(em, STRING_EXPR, idx), d_str(s) { }
00686
00687 virtual ~ExprString() { }
00688
00689 virtual bool operator==(const ExprValue& ev2) const;
00690
00691 void* operator new(size_t size, MemoryManager* mm) {
00692 return mm->newData(size);
00693 }
00694 void operator delete(void* pMem, MemoryManager* mm) {
00695 mm->deleteData(pMem);
00696 }
00697 void operator delete(void*) { }
00698 };
00699
00700 class ExprSkolem: public ExprValue {
00701 friend class Expr;
00702 friend class ExprManager;
00703 private:
00704 Expr d_quant;
00705 int d_idx;
00706 const Expr& getExistential() const {return d_quant;}
00707 int getBoundIndex() const {return d_idx;}
00708
00709
00710 size_t getMMIndex() const { return EXPR_SKOLEM;}
00711
00712 protected:
00713 size_t computeHash() const {
00714 size_t res = getExistential().getBody().hash();
00715 res = PRIME*res + getBoundIndex();
00716 return res;
00717 }
00718
00719 bool operator==(const ExprValue& ev2) const;
00720
00721
00722 ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00723 bool isVar() const { return true; }
00724
00725 public:
00726
00727 ExprSkolem(ExprManager* em, int index, const Expr& exist, ExprIndex idx = 0)
00728 : ExprValue(em, SKOLEM_VAR, idx), d_quant(exist), d_idx(index) { }
00729
00730 virtual ~ExprSkolem() { }
00731
00732 void* operator new(size_t size, MemoryManager* mm) {
00733 return mm->newData(size);
00734 }
00735 void operator delete(void* pMem, MemoryManager* mm) {
00736 mm->deleteData(pMem);
00737 }
00738 void operator delete(void*) { }
00739 };
00740
00741 class ExprRational: public ExprValue {
00742 friend class Expr;
00743 friend class ExprManager;
00744 private:
00745 Rational d_r;
00746
00747 virtual const Rational& getRational() const { return d_r; }
00748
00749
00750 static size_t hash(const Rational& r) {
00751 return s_charHash(r.toString().c_str());
00752 }
00753
00754
00755 virtual size_t getMMIndex() const { return EXPR_RATIONAL; }
00756
00757 protected:
00758
00759 virtual size_t computeHash() const { return hash(d_r); }
00760 virtual bool operator==(const ExprValue& ev2) const;
00761
00762 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00763 virtual bool isRational() const { return true; }
00764
00765 public:
00766
00767 ExprRational(ExprManager* em, const Rational& r, ExprIndex idx = 0)
00768 : ExprValue(em, RATIONAL_EXPR, idx), d_r(r) { }
00769
00770 virtual ~ExprRational() { }
00771
00772 void* operator new(size_t size, MemoryManager* mm) {
00773 return mm->newData(size);
00774 }
00775 void operator delete(void* pMem, MemoryManager* mm) {
00776 mm->deleteData(pMem);
00777 }
00778 void operator delete(void*) { }
00779 };
00780
00781
00782 class ExprVar: public ExprValue {
00783 friend class Expr;
00784 friend class ExprManager;
00785 private:
00786 std::string d_name;
00787
00788 virtual const std::string& getName() const { return d_name; }
00789
00790
00791 virtual size_t getMMIndex() const { return EXPR_UCONST; }
00792 protected:
00793
00794 virtual size_t computeHash() const {
00795 return s_charHash(d_name.c_str());
00796 }
00797 virtual bool isVar() const { return true; }
00798
00799
00800 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00801
00802 public:
00803
00804 ExprVar(ExprManager *em, const std::string& name, ExprIndex idx = 0)
00805 : ExprValue(em, UCONST, idx), d_name(name) { }
00806
00807 virtual ~ExprVar() { }
00808
00809 virtual bool operator==(const ExprValue& ev2) const;
00810
00811 void* operator new(size_t size, MemoryManager* mm) {
00812 return mm->newData(size);
00813 }
00814 void operator delete(void* pMem, MemoryManager* mm) {
00815 mm->deleteData(pMem);
00816 }
00817 void operator delete(void*) { }
00818 };
00819
00820
00821 class ExprSymbol: public ExprValue {
00822 friend class Expr;
00823 friend class ExprManager;
00824 private:
00825 std::string d_name;
00826
00827 virtual const std::string& getName() const { return d_name; }
00828
00829
00830 virtual size_t getMMIndex() const { return EXPR_SYMBOL; }
00831 protected:
00832
00833 virtual size_t computeHash() const {
00834 return s_charHash(d_name.c_str())*PRIME + s_intHash(d_kind);
00835 }
00836
00837 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00838 bool isSymbol() const { return true; }
00839
00840 public:
00841
00842 ExprSymbol(ExprManager *em, int kind, const std::string& name,
00843 ExprIndex idx = 0)
00844 : ExprValue(em, kind, idx), d_name(name) { }
00845
00846 virtual ~ExprSymbol() { }
00847
00848 virtual bool operator==(const ExprValue& ev2) const;
00849
00850 void* operator new(size_t size, MemoryManager* mm) {
00851 return mm->newData(size);
00852 }
00853 void operator delete(void* pMem, MemoryManager* mm) {
00854 mm->deleteData(pMem);
00855 }
00856 void operator delete(void*) { }
00857 };
00858
00859 class ExprBoundVar: public ExprValue {
00860 friend class Expr;
00861 friend class ExprManager;
00862 private:
00863 std::string d_name;
00864 std::string d_uid;
00865
00866 virtual const std::string& getName() const { return d_name; }
00867 virtual const std::string& getUid() const { return d_uid; }
00868
00869
00870 virtual size_t getMMIndex() const { return EXPR_BOUND_VAR; }
00871 protected:
00872
00873 virtual size_t computeHash() const {
00874 return s_charHash(d_name.c_str())*PRIME + s_charHash(d_uid.c_str());
00875 }
00876 virtual bool isVar() const { return true; }
00877
00878 virtual ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00879
00880 public:
00881
00882 ExprBoundVar(ExprManager *em, const std::string& name,
00883 const std::string& uid, ExprIndex idx = 0)
00884 : ExprValue(em, BOUND_VAR, idx), d_name(name), d_uid(uid) { }
00885
00886 virtual ~ExprBoundVar() { }
00887
00888 virtual bool operator==(const ExprValue& ev2) const;
00889
00890 void* operator new(size_t size, MemoryManager* mm) {
00891 return mm->newData(size);
00892 }
00893 void operator delete(void* pMem, MemoryManager* mm) {
00894 mm->deleteData(pMem);
00895 }
00896 void operator delete(void*) { }
00897 };
00898
00899
00900
00901 class ExprClosure: public ExprValue {
00902 friend class Expr;
00903 friend class ExprManager;
00904 private:
00905
00906 std::vector<Expr> d_vars;
00907
00908 Expr d_body;
00909
00910
00911 std::vector<std::vector<Expr> > d_manual_triggers;
00912
00913 virtual size_t getMMIndex() const { return EXPR_CLOSURE; }
00914
00915 virtual const std::vector<Expr>& getVars() const { return d_vars; }
00916 virtual const Expr& getBody() const { return d_body; }
00917 virtual void setTriggers(const std::vector<std::vector<Expr> >& triggers) { d_manual_triggers = triggers; }
00918 virtual const std::vector<std::vector<Expr> >& getTrigs() const { return d_manual_triggers; }
00919
00920 protected:
00921
00922 size_t computeHash() const;
00923 Unsigned computeSize() const { return d_body.d_expr->getSize() + 1; }
00924
00925 ExprValue* copy(ExprManager* em, ExprIndex idx = 0) const;
00926
00927 public:
00928
00929 ExprClosure(ExprManager *em, int kind, const Expr& var,
00930 const Expr& body, ExprIndex idx = 0)
00931 : ExprValue(em, kind, idx), d_body(body) { d_vars.push_back(var); }
00932
00933 ExprClosure(ExprManager *em, int kind, const std::vector<Expr>& vars,
00934 const Expr& body, ExprIndex idx = 0)
00935 : ExprValue(em, kind, idx), d_vars(vars), d_body(body) { }
00936
00937 ExprClosure(ExprManager *em, int kind, const std::vector<Expr>& vars,
00938 const Expr& body, const std::vector<std::vector<Expr> >& trigs, ExprIndex idx = 0)
00939 : ExprValue(em, kind, idx), d_vars(vars), d_body(body), d_manual_triggers(trigs) { }
00940
00941
00942 virtual ~ExprClosure() { }
00943
00944 bool operator==(const ExprValue& ev2) const;
00945
00946 void* operator new(size_t size, MemoryManager* mm) {
00947 return mm->newData(size);
00948 }
00949 void operator delete(void* pMem, MemoryManager* mm) {
00950 mm->deleteData(pMem);
00951 }
00952 void operator delete(void*) { }
00953 virtual bool isClosure() const { return true; }
00954 };
00955
00956
00957 }
00958
00959 #endif