From: Andrew Reynolds Date: Mon, 1 Feb 2021 19:58:14 +0000 (-0600) Subject: Simplify alpha equivalence module (#5839) X-Git-Tag: cvc5-1.0.0~2334 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=eac7249ef4e35ad8c37f36098c228965f71a319b;p=cvc5.git Simplify alpha equivalence module (#5839) This class uses a discrimination tree which can compute subsumption as well as alpha-equivalence. This class was initially designed to also support subsumption. However, we were only using this class for alpha-equivalence and hence (canonized) Node comparison suffices and the class can be simplified. It also makes minor cosmetic updates to the module. If we plan to support subsumption checking later, we will write a new module, and use this class https://github.com/CVC4/CVC4/blob/master/src/expr/match_trie.h which is a more mature version of the class deleted by this PR. Note: I verified that the new and old implementation was equivalent using a temporary AlwaysAssert. --- diff --git a/src/theory/quantifiers/alpha_equivalence.cpp b/src/theory/quantifiers/alpha_equivalence.cpp index 643a652e7..4c0acd998 100644 --- a/src/theory/quantifiers/alpha_equivalence.cpp +++ b/src/theory/quantifiers/alpha_equivalence.cpp @@ -30,77 +30,31 @@ struct sortTypeOrder { } }; -Node AlphaEquivalenceNode::registerNode(Node q, Node t) -{ - AlphaEquivalenceNode* aen = this; - std::vector tt; - std::vector arg_index; - tt.push_back(t); - std::map< Node, bool > visited; - while( !tt.empty() ){ - if( tt.size()==arg_index.size()+1 ){ - Node tb = tt.back(); - Node op; - if (tb.hasOperator()) - { - if (visited.find(tb) == visited.end()) - { - visited[tb] = true; - op = tb.getOperator(); - arg_index.push_back( 0 ); - } - else - { - op = tb; - arg_index.push_back( -1 ); - } - } - else - { - op = tb; - arg_index.push_back( 0 ); - } - Trace("aeq-debug") << op << " "; - aen = &(aen->d_children[op][tb.getNumChildren()]); - }else{ - Node tb = tt.back(); - int i = arg_index.back(); - if (i == -1 || i == (int)tb.getNumChildren()) - { - tt.pop_back(); - arg_index.pop_back(); - } - else - { - tt.push_back(tb[i]); - arg_index[arg_index.size()-1]++; - } - } - } - Trace("aeq-debug") << std::endl; - if( aen->d_quant.isNull() ){ - aen->d_quant = q; - } - return aen->d_quant; -} - -Node AlphaEquivalenceTypeNode::registerNode(Node q, - Node t, - std::vector& typs, - std::map& typ_count) +Node AlphaEquivalenceTypeNode::registerNode( + Node q, + Node t, + std::vector& typs, + std::map& typCount) { AlphaEquivalenceTypeNode* aetn = this; - unsigned index = 0; + size_t index = 0; while (index < typs.size()) { TypeNode curr = typs[index]; - Assert(typ_count.find(curr) != typ_count.end()); - Trace("aeq-debug") << "[" << curr << " " << typ_count[curr] << "] "; - aetn = &(aetn->d_children[curr][typ_count[curr]]); + Assert(typCount.find(curr) != typCount.end()); + Trace("aeq-debug") << "[" << curr << " " << typCount[curr] << "] "; + std::pair key(curr, typCount[curr]); + aetn = &(aetn->d_children[key]); index = index + 1; } Trace("aeq-debug") << " : "; - return aetn->d_data.registerNode(q, t); + std::map::iterator it = aetn->d_quant.find(t); + if (it != aetn->d_quant.end()) + { + return it->second; + } + aetn->d_quant[t] = q; + return q; } Node AlphaEquivalenceDb::addTerm(Node q) @@ -111,11 +65,11 @@ Node AlphaEquivalenceDb::addTerm(Node q) Node t = d_tc->getCanonicalTerm(q[1], true); Trace("aeq") << " canonical form: " << t << std::endl; //compute variable type counts - std::map< TypeNode, int > typ_count; + std::map typCount; std::vector< TypeNode > typs; for( unsigned i=0; i > d_children; - /** the data at this node */ - Node d_quant; - /** Registers term q to this trie. The term t is the canonical form of q. */ - Node registerNode(Node q, Node t); -}; - /** * This trie stores a trie of the above form for each multi-set of types. For * each term t registered to this node, we store t in the appropriate @@ -59,18 +35,21 @@ public: class AlphaEquivalenceTypeNode { public: /** children of this node */ - std::map > d_children; - /** the database of terms at this node */ - AlphaEquivalenceNode d_data; + std::map, AlphaEquivalenceTypeNode> d_children; + /** + * map from canonized quantifier bodies to a quantified formula whose + * canonized body is that term. + */ + std::map d_quant; /** register node * * This registers term q to this trie. The term t is the canonical form of - * q, typs/typ_count represent a multi-set of types of free variables in t. + * q, typs/typCount represent a multi-set of types of free variables in t. */ Node registerNode(Node q, Node t, std::vector& typs, - std::map& typ_count); + std::map& typCount); }; /**