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CVC3
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00001 /*****************************************************************************/ 00002 /*! 00003 * \file array_proof_rules.h 00004 * 00005 * Author: Clark Barrett 5/29/2003 00006 * 00007 * Created: May 29 19:16:33 GMT 2003 00008 * 00009 * <hr> 00010 * 00011 * License to use, copy, modify, sell and/or distribute this software 00012 * and its documentation for any purpose is hereby granted without 00013 * royalty, subject to the terms and conditions defined in the \ref 00014 * LICENSE file provided with this distribution. 00015 * 00016 * <hr> 00017 * 00018 * CLASS: ArrayProofRules 00019 * 00020 * 00021 * Description: Array proof rules. 00022 */ 00023 /*****************************************************************************/ 00024 00025 #ifndef _cvc3__theory_array__array_proof_rules_h_ 00026 #define _cvc3__theory_array__array_proof_rules_h_ 00027 00028 #include <vector> 00029 00030 namespace CVC3 { 00031 00032 class Theorem; 00033 class Expr; 00034 00035 class ArrayProofRules { 00036 public: 00037 // Destructor 00038 virtual ~ArrayProofRules() { } 00039 00040 //////////////////////////////////////////////////////////////////// 00041 // Proof rules 00042 //////////////////////////////////////////////////////////////////// 00043 00044 // ==> 00045 // write(store, index_0, v_0, index_1, v_1, ..., index_n, v_n) = store IFF 00046 // 00047 // read(store, index_n) = v_n & 00048 // index_{n-1} != index_n -> read(store, index_{n-1}) = v_{n-1} & 00049 // (index_{n-2} != index_{n-1} & index_{n-2} != index_n) -> read(store, index_{n-2}) = v_{n-2} & 00050 // ... 00051 // (index_1 != index_2 & ... & index_1 != index_n) -> read(store, index_1) = v_1 00052 // (index_0 != index_1 & index_0 != index_2 & ... & index_0 != index_n) -> read(store, index_0) = v_0 00053 virtual Theorem rewriteSameStore(const Expr& e, int n) = 0; 00054 00055 // ==> write(store, index, value) = write(...) IFF 00056 // store = write(write(...), index, read(store, index)) & 00057 // value = read(write(...), index) 00058 virtual Theorem rewriteWriteWrite(const Expr& e) = 0; 00059 00060 // ==> read(write(store, index1, value), index2) = 00061 // ite(index1 = index2, value, read(store, index2)) 00062 virtual Theorem rewriteReadWrite(const Expr& e) = 0; 00063 00064 // e = read(write(store, index1, value), index2): 00065 // ==> ite(index1 = index2, 00066 // read(write(store, index1, value), index2) = value, 00067 // read(write(store, index1, value), index2) = read(store, index2)) 00068 virtual Theorem rewriteReadWrite2(const Expr& e) = 0; 00069 00070 // value = read(store, index) ==> 00071 // write(store, index, value) = store 00072 virtual Theorem rewriteRedundantWrite1(const Theorem& v_eq_r, 00073 const Expr& write) = 0; 00074 00075 // ==> 00076 // write(write(store, index, v1), index, v2) = write(store, index, v2) 00077 virtual Theorem rewriteRedundantWrite2(const Expr& e) = 0; 00078 00079 // ==> 00080 // write(write(store, index1, v1), index2, v2) = 00081 // write(write(store, index2, v2), index1, ite(index1 = index2, v2, v1)) 00082 virtual Theorem interchangeIndices(const Expr& e) = 0; 00083 //! Beta reduction of array literal: |- (array x. f(x))[arg] = f(arg) 00084 virtual Theorem readArrayLiteral(const Expr& e) = 0; 00085 00086 //! Lift ite over read 00087 virtual Theorem liftReadIte(const Expr& e) = 0; 00088 00089 //! a /= b |- exists i. a[i] /= b[i] 00090 virtual Theorem arrayNotEq(const Theorem& e) = 0; 00091 00092 virtual Theorem splitOnConstants(const Expr& a, const std::vector<Expr>& consts) = 0; 00093 00094 virtual Theorem propagateIndexDiseq(const Theorem& read1eqread2isFalse) = 0; 00095 00096 }; // end of class ArrayProofRules 00097 00098 } // end of namespace CVC3 00099 00100 #endif
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