From b468bb361f8b98bcb6b9d0febab4f285a6a872b3 Mon Sep 17 00:00:00 2001 From: Tim King Date: Thu, 13 Oct 2016 00:22:24 -0700 Subject: Revert "Merge branch 'origin' of https://github.com/CVC4/CVC4.git" This reverts commit 3395c5c13cd61d98aec0d9806e3b9bc3d707968a, reversing changes made to 5f415d4585134612bc24e9a823289fee35541a01. --- src/theory/quantifiers/alpha_equivalence.cpp | 0 src/theory/quantifiers/alpha_equivalence.h | 0 src/theory/quantifiers/ambqi_builder.cpp | 0 src/theory/quantifiers/ambqi_builder.h | 0 src/theory/quantifiers/anti_skolem.cpp | 0 src/theory/quantifiers/anti_skolem.h | 0 src/theory/quantifiers/bounded_integers.cpp | 0 src/theory/quantifiers/bounded_integers.h | 0 src/theory/quantifiers/candidate_generator.cpp | 0 src/theory/quantifiers/candidate_generator.h | 0 src/theory/quantifiers/ce_guided_instantiation.cpp | 0 src/theory/quantifiers/ce_guided_instantiation.h | 0 src/theory/quantifiers/ce_guided_single_inv.cpp | 0 src/theory/quantifiers/ce_guided_single_inv.h | 0 src/theory/quantifiers/ce_guided_single_inv_ei.cpp | 0 src/theory/quantifiers/ce_guided_single_inv_ei.h | 0 .../quantifiers/ce_guided_single_inv_sol.cpp | 0 src/theory/quantifiers/ce_guided_single_inv_sol.h | 0 src/theory/quantifiers/ceg_instantiator.cpp | 0 src/theory/quantifiers/ceg_instantiator.h | 0 src/theory/quantifiers/conjecture_generator.cpp | 0 src/theory/quantifiers/conjecture_generator.h | 0 src/theory/quantifiers/equality_infer.cpp | 0 src/theory/quantifiers/equality_infer.h | 0 src/theory/quantifiers/first_order_model.cpp | 0 src/theory/quantifiers/first_order_model.h | 0 src/theory/quantifiers/full_model_check.cpp | 0 src/theory/quantifiers/full_model_check.h | 0 src/theory/quantifiers/fun_def_engine.cpp | 0 src/theory/quantifiers/fun_def_engine.h | 0 src/theory/quantifiers/fun_def_process.cpp | 0 src/theory/quantifiers/fun_def_process.h | 0 src/theory/quantifiers/inst_match.cpp | 0 src/theory/quantifiers/inst_match.h | 0 src/theory/quantifiers/inst_match_generator.cpp | 0 src/theory/quantifiers/inst_match_generator.h | 0 src/theory/quantifiers/inst_propagator.cpp | 0 src/theory/quantifiers/inst_propagator.h | 0 src/theory/quantifiers/inst_strategy_cbqi.cpp | 0 src/theory/quantifiers/inst_strategy_cbqi.h | 0 .../quantifiers/inst_strategy_e_matching.cpp | 0 src/theory/quantifiers/inst_strategy_e_matching.h | 0 src/theory/quantifiers/instantiation_engine.cpp | 0 src/theory/quantifiers/instantiation_engine.h | 0 src/theory/quantifiers/kinds | 0 src/theory/quantifiers/local_theory_ext.cpp | 0 src/theory/quantifiers/local_theory_ext.h | 0 src/theory/quantifiers/macros.cpp | 0 src/theory/quantifiers/macros.h | 0 src/theory/quantifiers/model_builder.cpp | 0 src/theory/quantifiers/model_builder.h | 0 src/theory/quantifiers/model_engine.cpp | 0 src/theory/quantifiers/model_engine.h | 0 src/theory/quantifiers/quant_conflict_find.cpp | 0 src/theory/quantifiers/quant_conflict_find.h | 0 src/theory/quantifiers/quant_equality_engine.cpp | 0 src/theory/quantifiers/quant_equality_engine.h | 0 src/theory/quantifiers/quant_split.cpp | 0 src/theory/quantifiers/quant_split.h | 0 src/theory/quantifiers/quant_util.cpp | 0 src/theory/quantifiers/quant_util.h | 0 src/theory/quantifiers/quantifiers_attributes.cpp | 0 src/theory/quantifiers/quantifiers_attributes.h | 0 src/theory/quantifiers/quantifiers_rewriter.cpp | 0 src/theory/quantifiers/quantifiers_rewriter.h | 0 src/theory/quantifiers/relevant_domain.cpp | 0 src/theory/quantifiers/relevant_domain.h | 0 src/theory/quantifiers/rewrite_engine.cpp | 0 src/theory/quantifiers/rewrite_engine.h | 0 src/theory/quantifiers/symmetry_breaking.cpp | 0 src/theory/quantifiers/symmetry_breaking.h | 0 src/theory/quantifiers/term_database.cpp | 0 src/theory/quantifiers/term_database.h | 0 src/theory/quantifiers/theory_quantifiers.cpp | 0 src/theory/quantifiers/theory_quantifiers.h | 0 .../quantifiers/theory_quantifiers_type_rules.h | 0 src/theory/quantifiers/trigger.cpp | 0 src/theory/quantifiers/trigger.h | 0 src/theory/sets/kinds | 16 - src/theory/sets/rels_utils.h | 96 - src/theory/sets/theory_sets.h | 1 - src/theory/sets/theory_sets_private.cpp | 134 +- src/theory/sets/theory_sets_private.h | 11 +- src/theory/sets/theory_sets_rels.cpp | 1950 -------------------- src/theory/sets/theory_sets_rels.h | 261 --- src/theory/sets/theory_sets_rewriter.cpp | 141 -- src/theory/sets/theory_sets_type_rules.h | 93 +- 87 files changed, 32 insertions(+), 2671 deletions(-) mode change 100755 => 100644 src/theory/quantifiers/alpha_equivalence.cpp mode change 100755 => 100644 src/theory/quantifiers/alpha_equivalence.h mode change 100755 => 100644 src/theory/quantifiers/ambqi_builder.cpp mode change 100755 => 100644 src/theory/quantifiers/ambqi_builder.h mode change 100755 => 100644 src/theory/quantifiers/anti_skolem.cpp mode change 100755 => 100644 src/theory/quantifiers/anti_skolem.h mode change 100755 => 100644 src/theory/quantifiers/bounded_integers.cpp mode change 100755 => 100644 src/theory/quantifiers/bounded_integers.h mode change 100755 => 100644 src/theory/quantifiers/candidate_generator.cpp mode change 100755 => 100644 src/theory/quantifiers/candidate_generator.h mode change 100755 => 100644 src/theory/quantifiers/ce_guided_instantiation.cpp mode change 100755 => 100644 src/theory/quantifiers/ce_guided_instantiation.h mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv.cpp mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv.h mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv_ei.cpp mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv_ei.h mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv_sol.cpp mode change 100755 => 100644 src/theory/quantifiers/ce_guided_single_inv_sol.h mode change 100755 => 100644 src/theory/quantifiers/ceg_instantiator.cpp mode change 100755 => 100644 src/theory/quantifiers/ceg_instantiator.h mode change 100755 => 100644 src/theory/quantifiers/conjecture_generator.cpp mode change 100755 => 100644 src/theory/quantifiers/conjecture_generator.h mode change 100755 => 100644 src/theory/quantifiers/equality_infer.cpp mode change 100755 => 100644 src/theory/quantifiers/equality_infer.h mode change 100755 => 100644 src/theory/quantifiers/first_order_model.cpp mode change 100755 => 100644 src/theory/quantifiers/first_order_model.h mode change 100755 => 100644 src/theory/quantifiers/full_model_check.cpp mode change 100755 => 100644 src/theory/quantifiers/full_model_check.h mode change 100755 => 100644 src/theory/quantifiers/fun_def_engine.cpp mode change 100755 => 100644 src/theory/quantifiers/fun_def_engine.h mode change 100755 => 100644 src/theory/quantifiers/fun_def_process.cpp mode change 100755 => 100644 src/theory/quantifiers/fun_def_process.h mode change 100755 => 100644 src/theory/quantifiers/inst_match.cpp mode change 100755 => 100644 src/theory/quantifiers/inst_match.h mode change 100755 => 100644 src/theory/quantifiers/inst_match_generator.cpp mode change 100755 => 100644 src/theory/quantifiers/inst_match_generator.h mode change 100755 => 100644 src/theory/quantifiers/inst_propagator.cpp mode change 100755 => 100644 src/theory/quantifiers/inst_propagator.h mode change 100755 => 100644 src/theory/quantifiers/inst_strategy_cbqi.cpp mode change 100755 => 100644 src/theory/quantifiers/inst_strategy_cbqi.h mode change 100755 => 100644 src/theory/quantifiers/inst_strategy_e_matching.cpp mode change 100755 => 100644 src/theory/quantifiers/inst_strategy_e_matching.h mode change 100755 => 100644 src/theory/quantifiers/instantiation_engine.cpp mode change 100755 => 100644 src/theory/quantifiers/instantiation_engine.h mode change 100755 => 100644 src/theory/quantifiers/kinds mode change 100755 => 100644 src/theory/quantifiers/local_theory_ext.cpp mode change 100755 => 100644 src/theory/quantifiers/local_theory_ext.h mode change 100755 => 100644 src/theory/quantifiers/macros.cpp mode change 100755 => 100644 src/theory/quantifiers/macros.h mode change 100755 => 100644 src/theory/quantifiers/model_builder.cpp mode change 100755 => 100644 src/theory/quantifiers/model_builder.h mode change 100755 => 100644 src/theory/quantifiers/model_engine.cpp mode change 100755 => 100644 src/theory/quantifiers/model_engine.h mode change 100755 => 100644 src/theory/quantifiers/quant_conflict_find.cpp mode change 100755 => 100644 src/theory/quantifiers/quant_conflict_find.h mode change 100755 => 100644 src/theory/quantifiers/quant_equality_engine.cpp mode change 100755 => 100644 src/theory/quantifiers/quant_equality_engine.h mode change 100755 => 100644 src/theory/quantifiers/quant_split.cpp mode change 100755 => 100644 src/theory/quantifiers/quant_split.h mode change 100755 => 100644 src/theory/quantifiers/quant_util.cpp mode change 100755 => 100644 src/theory/quantifiers/quant_util.h mode change 100755 => 100644 src/theory/quantifiers/quantifiers_attributes.cpp mode change 100755 => 100644 src/theory/quantifiers/quantifiers_attributes.h mode change 100755 => 100644 src/theory/quantifiers/quantifiers_rewriter.cpp mode change 100755 => 100644 src/theory/quantifiers/quantifiers_rewriter.h mode change 100755 => 100644 src/theory/quantifiers/relevant_domain.cpp mode change 100755 => 100644 src/theory/quantifiers/relevant_domain.h mode change 100755 => 100644 src/theory/quantifiers/rewrite_engine.cpp mode change 100755 => 100644 src/theory/quantifiers/rewrite_engine.h mode change 100755 => 100644 src/theory/quantifiers/symmetry_breaking.cpp mode change 100755 => 100644 src/theory/quantifiers/symmetry_breaking.h mode change 100755 => 100644 src/theory/quantifiers/term_database.cpp mode change 100755 => 100644 src/theory/quantifiers/term_database.h mode change 100755 => 100644 src/theory/quantifiers/theory_quantifiers.cpp mode change 100755 => 100644 src/theory/quantifiers/theory_quantifiers.h mode change 100755 => 100644 src/theory/quantifiers/theory_quantifiers_type_rules.h mode change 100755 => 100644 src/theory/quantifiers/trigger.cpp mode change 100755 => 100644 src/theory/quantifiers/trigger.h delete mode 100644 src/theory/sets/rels_utils.h delete mode 100644 src/theory/sets/theory_sets_rels.cpp delete mode 100644 src/theory/sets/theory_sets_rels.h (limited to 'src/theory') diff --git a/src/theory/quantifiers/alpha_equivalence.cpp b/src/theory/quantifiers/alpha_equivalence.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/alpha_equivalence.h b/src/theory/quantifiers/alpha_equivalence.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ambqi_builder.cpp b/src/theory/quantifiers/ambqi_builder.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ambqi_builder.h b/src/theory/quantifiers/ambqi_builder.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/anti_skolem.cpp b/src/theory/quantifiers/anti_skolem.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/anti_skolem.h b/src/theory/quantifiers/anti_skolem.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/bounded_integers.cpp b/src/theory/quantifiers/bounded_integers.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/bounded_integers.h b/src/theory/quantifiers/bounded_integers.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/candidate_generator.cpp b/src/theory/quantifiers/candidate_generator.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/candidate_generator.h b/src/theory/quantifiers/candidate_generator.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_instantiation.cpp b/src/theory/quantifiers/ce_guided_instantiation.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_instantiation.h b/src/theory/quantifiers/ce_guided_instantiation.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv.cpp b/src/theory/quantifiers/ce_guided_single_inv.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv.h b/src/theory/quantifiers/ce_guided_single_inv.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv_ei.cpp b/src/theory/quantifiers/ce_guided_single_inv_ei.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv_ei.h b/src/theory/quantifiers/ce_guided_single_inv_ei.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv_sol.cpp b/src/theory/quantifiers/ce_guided_single_inv_sol.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ce_guided_single_inv_sol.h b/src/theory/quantifiers/ce_guided_single_inv_sol.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ceg_instantiator.cpp b/src/theory/quantifiers/ceg_instantiator.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/ceg_instantiator.h b/src/theory/quantifiers/ceg_instantiator.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/conjecture_generator.cpp b/src/theory/quantifiers/conjecture_generator.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/conjecture_generator.h b/src/theory/quantifiers/conjecture_generator.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/equality_infer.cpp b/src/theory/quantifiers/equality_infer.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/equality_infer.h b/src/theory/quantifiers/equality_infer.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/first_order_model.cpp b/src/theory/quantifiers/first_order_model.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/first_order_model.h b/src/theory/quantifiers/first_order_model.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/full_model_check.cpp b/src/theory/quantifiers/full_model_check.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/full_model_check.h b/src/theory/quantifiers/full_model_check.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/fun_def_engine.cpp b/src/theory/quantifiers/fun_def_engine.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/fun_def_engine.h b/src/theory/quantifiers/fun_def_engine.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/fun_def_process.cpp b/src/theory/quantifiers/fun_def_process.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/fun_def_process.h b/src/theory/quantifiers/fun_def_process.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/inst_match.cpp b/src/theory/quantifiers/inst_match.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/inst_match.h 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b/src/theory/quantifiers/inst_strategy_e_matching.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/inst_strategy_e_matching.h b/src/theory/quantifiers/inst_strategy_e_matching.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/instantiation_engine.cpp b/src/theory/quantifiers/instantiation_engine.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/instantiation_engine.h b/src/theory/quantifiers/instantiation_engine.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/kinds b/src/theory/quantifiers/kinds old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/local_theory_ext.cpp b/src/theory/quantifiers/local_theory_ext.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/local_theory_ext.h b/src/theory/quantifiers/local_theory_ext.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/macros.cpp b/src/theory/quantifiers/macros.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/macros.h b/src/theory/quantifiers/macros.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/model_builder.cpp b/src/theory/quantifiers/model_builder.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/model_builder.h b/src/theory/quantifiers/model_builder.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/model_engine.cpp b/src/theory/quantifiers/model_engine.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/model_engine.h b/src/theory/quantifiers/model_engine.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_conflict_find.cpp b/src/theory/quantifiers/quant_conflict_find.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_conflict_find.h b/src/theory/quantifiers/quant_conflict_find.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_equality_engine.cpp b/src/theory/quantifiers/quant_equality_engine.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_equality_engine.h b/src/theory/quantifiers/quant_equality_engine.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_split.cpp b/src/theory/quantifiers/quant_split.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_split.h b/src/theory/quantifiers/quant_split.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_util.cpp b/src/theory/quantifiers/quant_util.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quant_util.h b/src/theory/quantifiers/quant_util.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quantifiers_attributes.cpp b/src/theory/quantifiers/quantifiers_attributes.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quantifiers_attributes.h b/src/theory/quantifiers/quantifiers_attributes.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quantifiers_rewriter.cpp b/src/theory/quantifiers/quantifiers_rewriter.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/quantifiers_rewriter.h b/src/theory/quantifiers/quantifiers_rewriter.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/relevant_domain.cpp b/src/theory/quantifiers/relevant_domain.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/relevant_domain.h b/src/theory/quantifiers/relevant_domain.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/rewrite_engine.cpp b/src/theory/quantifiers/rewrite_engine.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/rewrite_engine.h b/src/theory/quantifiers/rewrite_engine.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/symmetry_breaking.cpp b/src/theory/quantifiers/symmetry_breaking.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/symmetry_breaking.h b/src/theory/quantifiers/symmetry_breaking.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/term_database.cpp b/src/theory/quantifiers/term_database.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/term_database.h b/src/theory/quantifiers/term_database.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/theory_quantifiers.cpp b/src/theory/quantifiers/theory_quantifiers.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/theory_quantifiers.h b/src/theory/quantifiers/theory_quantifiers.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/theory_quantifiers_type_rules.h b/src/theory/quantifiers/theory_quantifiers_type_rules.h old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/trigger.cpp b/src/theory/quantifiers/trigger.cpp old mode 100755 new mode 100644 diff --git a/src/theory/quantifiers/trigger.h b/src/theory/quantifiers/trigger.h old mode 100755 new mode 100644 diff --git a/src/theory/sets/kinds b/src/theory/sets/kinds index c92eab4bd..14c87a947 100644 --- a/src/theory/sets/kinds +++ b/src/theory/sets/kinds @@ -44,11 +44,6 @@ operator SINGLETON 1 "the set of the single element given as a parameter" operator INSERT 2: "set obtained by inserting elements (first N-1 parameters) into a set (the last parameter)" operator CARD 1 "set cardinality operator" -operator JOIN 2 "set join" -operator PRODUCT 2 "set cartesian product" -operator TRANSPOSE 1 "set transpose" -operator TCLOSURE 1 "set transitive closure" - typerule UNION ::CVC4::theory::sets::SetsBinaryOperatorTypeRule typerule INTERSECTION ::CVC4::theory::sets::SetsBinaryOperatorTypeRule typerule SETMINUS ::CVC4::theory::sets::SetsBinaryOperatorTypeRule @@ -59,12 +54,6 @@ typerule EMPTYSET ::CVC4::theory::sets::EmptySetTypeRule typerule INSERT ::CVC4::theory::sets::InsertTypeRule typerule CARD ::CVC4::theory::sets::CardTypeRule -typerule JOIN ::CVC4::theory::sets::RelBinaryOperatorTypeRule -typerule PRODUCT ::CVC4::theory::sets::RelBinaryOperatorTypeRule -typerule TRANSPOSE ::CVC4::theory::sets::RelTransposeTypeRule -typerule TCLOSURE ::CVC4::theory::sets::RelTransClosureTypeRule - - construle UNION ::CVC4::theory::sets::SetsBinaryOperatorTypeRule construle INTERSECTION ::CVC4::theory::sets::SetsBinaryOperatorTypeRule construle SETMINUS ::CVC4::theory::sets::SetsBinaryOperatorTypeRule @@ -72,9 +61,4 @@ construle SINGLETON ::CVC4::theory::sets::SingletonTypeRule construle INSERT ::CVC4::theory::sets::InsertTypeRule construle CARD ::CVC4::theory::sets::CardTypeRule -construle JOIN ::CVC4::theory::sets::RelBinaryOperatorTypeRule -construle PRODUCT ::CVC4::theory::sets::RelBinaryOperatorTypeRule -construle TRANSPOSE ::CVC4::theory::sets::RelTransposeTypeRule -construle TCLOSURE ::CVC4::theory::sets::RelTransClosureTypeRule - endtheory diff --git a/src/theory/sets/rels_utils.h b/src/theory/sets/rels_utils.h deleted file mode 100644 index df14bf53b..000000000 --- a/src/theory/sets/rels_utils.h +++ /dev/null @@ -1,96 +0,0 @@ -/********************* */ -/*! \file rels_utils.h - ** \verbatim - ** Original author: Paul Meng - ** Major contributors: none - ** Minor contributors (to current version): none - ** This file is part of the CVC4 project. - ** Copyright (c) 2009-2014 New York University and The University of Iowa - ** See the file COPYING in the top-level source directory for licensing - ** information.\endverbatim - ** - ** \brief Sets theory implementation. - ** - ** Extension to Sets theory. - **/ - -#ifndef SRC_THEORY_SETS_RELS_UTILS_H_ -#define SRC_THEORY_SETS_RELS_UTILS_H_ - -namespace CVC4 { -namespace theory { -namespace sets { - -class RelsUtils { - -public: - - // Assumption: the input rel_mem contains all constant pairs - static std::set< Node > computeTC( std::set< Node > rel_mem, Node rel ) { - std::set< Node >::iterator mem_it = rel_mem.begin(); - std::map< Node, int > ele_num_map; - std::set< Node > tc_rel_mem; - - while( mem_it != rel_mem.end() ) { - Node fst = nthElementOfTuple( *mem_it, 0 ); - Node snd = nthElementOfTuple( *mem_it, 1 ); - std::set< Node > traversed; - traversed.insert(fst); - computeTC(rel, rel_mem, fst, snd, traversed, tc_rel_mem); - mem_it++; - } - return tc_rel_mem; - } - - static void computeTC( Node rel, std::set< Node >& rel_mem, Node fst, - Node snd, std::set< Node >& traversed, std::set< Node >& tc_rel_mem ) { - tc_rel_mem.insert(constructPair(rel, fst, snd)); - if( traversed.find(snd) == traversed.end() ) { - traversed.insert(snd); - } else { - return; - } - - std::set< Node >::iterator mem_it = rel_mem.begin(); - while( mem_it != rel_mem.end() ) { - Node new_fst = nthElementOfTuple( *mem_it, 0 ); - Node new_snd = nthElementOfTuple( *mem_it, 1 ); - if( snd == new_fst ) { - computeTC(rel, rel_mem, fst, new_snd, traversed, tc_rel_mem); - } - mem_it++; - } - } - - static Node nthElementOfTuple( Node tuple, int n_th ) { - if( tuple.getKind() == kind::APPLY_CONSTRUCTOR ) { - return tuple[n_th]; - } - Datatype dt = tuple.getType().getDatatype(); - return NodeManager::currentNM()->mkNode(kind::APPLY_SELECTOR_TOTAL, dt[0][n_th].getSelector(), tuple); - } - - static Node reverseTuple( Node tuple ) { - Assert( tuple.getType().isTuple() ); - std::vector elements; - std::vector tuple_types = tuple.getType().getTupleTypes(); - std::reverse( tuple_types.begin(), tuple_types.end() ); - TypeNode tn = NodeManager::currentNM()->mkTupleType( tuple_types ); - Datatype dt = tn.getDatatype(); - elements.push_back( Node::fromExpr(dt[0].getConstructor() ) ); - for(int i = tuple_types.size() - 1; i >= 0; --i) { - elements.push_back( nthElementOfTuple(tuple, i) ); - } - return NodeManager::currentNM()->mkNode( kind::APPLY_CONSTRUCTOR, elements ); - } - static Node constructPair(Node rel, Node a, Node b) { - Datatype dt = rel.getType().getSetElementType().getDatatype(); - return NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, Node::fromExpr(dt[0].getConstructor()), a, b); - } - -}; -}/* CVC4::theory::sets namespace */ -}/* CVC4::theory namespace */ -}/* CVC4 namespace */ - -#endif diff --git a/src/theory/sets/theory_sets.h b/src/theory/sets/theory_sets.h index 840135937..bbeaf4a4c 100644 --- a/src/theory/sets/theory_sets.h +++ b/src/theory/sets/theory_sets.h @@ -33,7 +33,6 @@ class TheorySets : public Theory { private: friend class TheorySetsPrivate; friend class TheorySetsScrutinize; - friend class TheorySetsRels; TheorySetsPrivate* d_internal; public: diff --git a/src/theory/sets/theory_sets_private.cpp b/src/theory/sets/theory_sets_private.cpp index e996cb215..6fb90fea3 100644 --- a/src/theory/sets/theory_sets_private.cpp +++ b/src/theory/sets/theory_sets_private.cpp @@ -97,12 +97,8 @@ void TheorySetsPrivate::check(Theory::Effort level) { // and that leads to conflict (externally). if(d_conflict) { return; } Debug("sets") << "[sets] is complete = " << isComplete() << std::endl; - } - // invoke the relational solver - d_rels->check(level); - if( (level == Theory::EFFORT_FULL || options::setsEagerLemmas() ) && !isComplete()) { lemma(getLemma(), SETS_LEMMA_OTHER); return; @@ -127,16 +123,19 @@ void TheorySetsPrivate::assertEquality(TNode fact, TNode reason, bool learnt) bool polarity = fact.getKind() != kind::NOT; TNode atom = polarity ? fact : fact[0]; + // fact already holds if( holds(atom, polarity) ) { Debug("sets-assert") << "[sets-assert] already present, skipping" << std::endl; return; } + // assert fact & check for conflict if(learnt) { registerReason(reason, /*save=*/ true); } d_equalityEngine.assertEquality(atom, polarity, reason); + if(!d_equalityEngine.consistent()) { Debug("sets-assert") << "[sets-assert] running into a conflict" << std::endl; d_conflict = true; @@ -708,11 +707,6 @@ const TheorySetsPrivate::Elements& TheorySetsPrivate::getElements std::inserter(cur, cur.begin()) ); break; } - case kind::JOIN: - case kind::TCLOSURE: - case kind::TRANSPOSE: - case kind::PRODUCT: - break; default: Assert(theory::kindToTheoryId(k) != theory::THEORY_SETS, (std::string("Kind belonging to set theory not explicitly handled: ") + kindToString(k)).c_str()); @@ -733,7 +727,6 @@ bool TheorySetsPrivate::checkModel(const SettermElementsMap& settermElementsMap, << std::endl; Assert(S.getType().isSet()); - std::set temp_nodes; const Elements emptySetOfElements; const Elements& saved = @@ -777,74 +770,6 @@ bool TheorySetsPrivate::checkModel(const SettermElementsMap& settermElementsMap, std::set_difference(left.begin(), left.end(), right.begin(), right.end(), std::inserter(cur, cur.begin()) ); break; - case kind::PRODUCT: { - std::set new_tuple_set; - Elements::const_iterator left_it = left.begin(); - int left_len = (*left_it).getType().getTupleLength(); - TypeNode tn = S.getType().getSetElementType(); - while(left_it != left.end()) { - Trace("rels-debug") << "Sets::postRewrite processing left_it = " << *left_it << std::endl; - std::vector left_tuple; - left_tuple.push_back(Node::fromExpr(tn.getDatatype()[0].getConstructor())); - for(int i = 0; i < left_len; i++) { - left_tuple.push_back(RelsUtils::nthElementOfTuple(*left_it,i)); - } - Elements::const_iterator right_it = right.begin(); - int right_len = (*right_it).getType().getTupleLength(); - while(right_it != right.end()) { - std::vector right_tuple; - for(int j = 0; j < right_len; j++) { - right_tuple.push_back(RelsUtils::nthElementOfTuple(*right_it,j)); - } - std::vector new_tuple; - new_tuple.insert(new_tuple.end(), left_tuple.begin(), left_tuple.end()); - new_tuple.insert(new_tuple.end(), right_tuple.begin(), right_tuple.end()); - Node composed_tuple = NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, new_tuple); - temp_nodes.insert(composed_tuple); - new_tuple_set.insert(composed_tuple); - right_it++; - } - left_it++; - } - cur.insert(new_tuple_set.begin(), new_tuple_set.end()); - Trace("rels-debug") << " ***** Done with check model for product operator" << std::endl; - break; - } - case kind::JOIN: { - std::set new_tuple_set; - Elements::const_iterator left_it = left.begin(); - int left_len = (*left_it).getType().getTupleLength(); - TypeNode tn = S.getType().getSetElementType(); - while(left_it != left.end()) { - std::vector left_tuple; - left_tuple.push_back(Node::fromExpr(tn.getDatatype()[0].getConstructor())); - for(int i = 0; i < left_len - 1; i++) { - left_tuple.push_back(RelsUtils::nthElementOfTuple(*left_it,i)); - } - Elements::const_iterator right_it = right.begin(); - int right_len = (*right_it).getType().getTupleLength(); - while(right_it != right.end()) { - if(RelsUtils::nthElementOfTuple(*left_it,left_len-1) == RelsUtils::nthElementOfTuple(*right_it,0)) { - std::vector right_tuple; - for(int j = 1; j < right_len; j++) { - right_tuple.push_back(RelsUtils::nthElementOfTuple(*right_it,j)); - } - std::vector new_tuple; - new_tuple.insert(new_tuple.end(), left_tuple.begin(), left_tuple.end()); - new_tuple.insert(new_tuple.end(), right_tuple.begin(), right_tuple.end()); - Node composed_tuple = NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, new_tuple); - new_tuple_set.insert(composed_tuple); - } - right_it++; - } - left_it++; - } - cur.insert(new_tuple_set.begin(), new_tuple_set.end()); - Trace("rels-debug") << " ***** Done with check model for JOIN operator" << std::endl; - break; - } - case kind::TCLOSURE: - break; default: Unhandled(); } @@ -1079,20 +1004,20 @@ void TheorySetsPrivate::collectModelInfo(TheoryModel* m, bool fullModel) m->assertRepresentative(shape); } -// #ifdef CVC4_ASSERTIONS -// bool checkPassed = true; -// BOOST_FOREACH(TNode term, terms) { -// if( term.getType().isSet() ) { -// checkPassed &= checkModel(settermElementsMap, term); -// } -// } -// if(Trace.isOn("sets-checkmodel-ignore")) { -// Trace("sets-checkmodel-ignore") << "[sets-checkmodel-ignore] checkPassed value was " << checkPassed << std::endl; -// } else { -// Assert( checkPassed, -// "THEORY_SETS check-model failed. Run with -d sets-model for details." ); -// } -// #endif +#ifdef CVC4_ASSERTIONS + bool checkPassed = true; + BOOST_FOREACH(TNode term, terms) { + if( term.getType().isSet() ) { + checkPassed &= checkModel(settermElementsMap, term); + } + } + if(Trace.isOn("sets-checkmodel-ignore")) { + Trace("sets-checkmodel-ignore") << "[sets-checkmodel-ignore] checkPassed value was " << checkPassed << std::endl; + } else { + Assert( checkPassed, + "THEORY_SETS check-model failed. Run with -d sets-model for details." ); + } +#endif } Node TheorySetsPrivate::getModelValue(TNode n) @@ -1371,7 +1296,6 @@ TheorySetsPrivate::TheorySetsPrivate(TheorySets& external, d_ccg_i(c), d_ccg_j(c), d_scrutinize(NULL), - d_rels(NULL), d_cardEnabled(false), d_cardTerms(c), d_typesAdded(), @@ -1391,7 +1315,6 @@ TheorySetsPrivate::TheorySetsPrivate(TheorySets& external, d_relTerms(u) { d_termInfoManager = new TermInfoManager(*this, c, &d_equalityEngine); - d_rels = new TheorySetsRels(c, u, &d_equalityEngine, &d_conflict, external); d_equalityEngine.addFunctionKind(kind::UNION); d_equalityEngine.addFunctionKind(kind::INTERSECTION); @@ -1412,7 +1335,6 @@ TheorySetsPrivate::TheorySetsPrivate(TheorySets& external, TheorySetsPrivate::~TheorySetsPrivate() { delete d_termInfoManager; - delete d_rels; if( Debug.isOn("sets-scrutinize") ) { Assert(d_scrutinize != NULL); delete d_scrutinize; @@ -1651,23 +1573,21 @@ void TheorySetsPrivate::NotifyClass::eqNotifyConstantTermMerge(TNode t1, TNode t Debug("sets-eq") << "[sets-eq] eqNotifyConstantTermMerge " << " t1 = " << t1 << " t2 = " << t2 << std::endl; d_theory.conflict(t1, t2); } -// - void TheorySetsPrivate::NotifyClass::eqNotifyNewClass(TNode t) - { - Debug("sets-eq") << "[sets-eq] eqNotifyNewClass:" << " t = " << t << std::endl; - d_theory.d_rels->eqNotifyNewClass(t); - } + +// void TheorySetsPrivate::NotifyClass::eqNotifyNewClass(TNode t) +// { +// Debug("sets-eq") << "[sets-eq] eqNotifyNewClass:" << " t = " << t << std::endl; +// } // void TheorySetsPrivate::NotifyClass::eqNotifyPreMerge(TNode t1, TNode t2) // { // Debug("sets-eq") << "[sets-eq] eqNotifyPreMerge:" << " t1 = " << t1 << " t2 = " << t2 << std::endl; // } -// - void TheorySetsPrivate::NotifyClass::eqNotifyPostMerge(TNode t1, TNode t2) - { - Debug("sets-eq") << "[sets-eq] eqNotifyPostMerge:" << " t1 = " << t1 << " t2 = " << t2 << std::endl; - d_theory.d_rels->eqNotifyPostMerge(t1, t2); - } + +// void TheorySetsPrivate::NotifyClass::eqNotifyPostMerge(TNode t1, TNode t2) +// { +// Debug("sets-eq") << "[sets-eq] eqNotifyPostMerge:" << " t1 = " << t1 << " t2 = " << t2 << std::endl; +// } // void TheorySetsPrivate::NotifyClass::eqNotifyDisequal(TNode t1, TNode t2, TNode reason) // { diff --git a/src/theory/sets/theory_sets_private.h b/src/theory/sets/theory_sets_private.h index 3ed608b90..049e95786 100644 --- a/src/theory/sets/theory_sets_private.h +++ b/src/theory/sets/theory_sets_private.h @@ -25,8 +25,6 @@ #include "theory/theory.h" #include "theory/uf/equality_engine.h" #include "theory/sets/term_info.h" -#include "theory/sets/theory_sets_rels.h" -#include "theory/sets/rels_utils.h" namespace CVC4 { namespace theory { @@ -98,14 +96,14 @@ private: TheorySetsPrivate& d_theory; public: - NotifyClass(TheorySetsPrivate& theory): d_theory(theory){} + NotifyClass(TheorySetsPrivate& theory): d_theory(theory) {} bool eqNotifyTriggerEquality(TNode equality, bool value); bool eqNotifyTriggerPredicate(TNode predicate, bool value); bool eqNotifyTriggerTermEquality(TheoryId tag, TNode t1, TNode t2, bool value); void eqNotifyConstantTermMerge(TNode t1, TNode t2); - void eqNotifyNewClass(TNode t); + void eqNotifyNewClass(TNode t) {} void eqNotifyPreMerge(TNode t1, TNode t2) {} - void eqNotifyPostMerge(TNode t1, TNode t2); + void eqNotifyPostMerge(TNode t1, TNode t2) {} void eqNotifyDisequal(TNode t1, TNode t2, TNode reason) {} } d_notify; @@ -246,8 +244,7 @@ private: TheorySetsScrutinize* d_scrutinize; void dumpAssertionsHumanified() const; /** do some formatting to make them more readable */ - // relational solver - TheorySetsRels* d_rels; + /***** Cardinality handling *****/ bool d_cardEnabled; diff --git a/src/theory/sets/theory_sets_rels.cpp b/src/theory/sets/theory_sets_rels.cpp deleted file mode 100644 index d8230d31b..000000000 --- a/src/theory/sets/theory_sets_rels.cpp +++ /dev/null @@ -1,1950 +0,0 @@ -/********************* */ -/*! \file theory_sets_rels.cpp - ** \verbatim - ** Original author: Paul Meng - ** Major contributors: none - ** Minor contributors (to current version): none - ** This file is part of the CVC4 project. - ** Copyright (c) 2009-2014 New York University and The University of Iowa - ** See the file COPYING in the top-level source directory for licensing - ** information.\endverbatim - ** - ** \brief Sets theory implementation. - ** - ** Extension to Sets theory. - **/ - -#include "theory/sets/theory_sets_rels.h" -#include "expr/datatype.h" -#include "theory/sets/expr_patterns.h" -#include "theory/sets/theory_sets_private.h" -#include "theory/sets/theory_sets.h" - -using namespace std; -using namespace CVC4::expr::pattern; - -namespace CVC4 { -namespace theory { -namespace sets { - -typedef std::map< Node, std::vector< Node > >::iterator MEM_IT; -typedef std::map< kind::Kind_t, std::vector< Node > >::iterator KIND_TERM_IT; -typedef std::map< Node, std::hash_set< Node, NodeHashFunction > >::iterator TC_PAIR_IT; -typedef std::map< Node, std::map< kind::Kind_t, std::vector< Node > > >::iterator TERM_IT; -typedef std::map< Node, std::map< Node, std::hash_set< Node, NodeHashFunction > > >::iterator TC_IT; - -int TheorySetsRels::EqcInfo::counter = 0; - - void TheorySetsRels::check(Theory::Effort level) { - Trace("rels") << "\n[sets-rels] ******************************* Start the relational solver *******************************\n" << std::endl; - if(Theory::fullEffort(level)) { - collectRelsInfo(); - check(); - doPendingLemmas(); - Assert(d_lemma_cache.empty()); - Assert(d_pending_facts.empty()); - } else { - doPendingMerge(); - doPendingLemmas(); - } - Trace("rels") << "\n[sets-rels] ******************************* Done with the relational solver *******************************\n" << std::endl; - } - - void TheorySetsRels::check() { - MEM_IT m_it = d_membership_constraints_cache.begin(); - - while(m_it != d_membership_constraints_cache.end()) { - Node rel_rep = m_it->first; - - for(unsigned int i = 0; i < m_it->second.size(); i++) { - Node exp = d_membership_exp_cache[rel_rep][i]; - std::map > kind_terms = d_terms_cache[rel_rep]; - - if( kind_terms.find(kind::TRANSPOSE) != kind_terms.end() ) { - std::vector tp_terms = kind_terms[kind::TRANSPOSE]; - // exp is a membership term and tp_terms contains all - // transposed terms that are equal to the right hand side of exp - for(unsigned int j = 0; j < tp_terms.size(); j++) { - applyTransposeRule( exp, tp_terms[j] ); - } - } - if( kind_terms.find(kind::JOIN) != kind_terms.end() ) { - std::vector join_terms = kind_terms[kind::JOIN]; - // exp is a membership term and join_terms contains all - // terms involving "join" operator that are in the same - // equivalence class with the right hand side of exp - for(unsigned int j = 0; j < join_terms.size(); j++) { - applyJoinRule( exp, join_terms[j] ); - } - } - if( kind_terms.find(kind::PRODUCT) != kind_terms.end() ) { - std::vector product_terms = kind_terms[kind::PRODUCT]; - for(unsigned int j = 0; j < product_terms.size(); j++) { - applyProductRule( exp, product_terms[j] ); - } - } - if( kind_terms.find(kind::TCLOSURE) != kind_terms.end() ) { - std::vector tc_terms = kind_terms[kind::TCLOSURE]; - for(unsigned int j = 0; j < tc_terms.size(); j++) { - applyTCRule( exp, tc_terms[j] ); - } - } - - MEM_IT tp_it = d_arg_rep_tp_terms.find( rel_rep ); - - if( tp_it != d_arg_rep_tp_terms.end() ) { - std::vector< Node >::iterator tp_ts_it = tp_it->second.begin(); - - while( tp_ts_it != tp_it->second.end() ) { - applyTransposeRule( exp, *tp_ts_it, (*tp_ts_it)[0] == rel_rep?Node::null():explain(EQUAL((*tp_ts_it)[0], rel_rep)), true ); - ++tp_ts_it; - } - ++tp_it; - } - } - m_it++; - } - - TERM_IT t_it = d_terms_cache.begin(); - while( t_it != d_terms_cache.end() ) { - if(d_membership_constraints_cache.find(t_it->first) == d_membership_constraints_cache.end()) { - Trace("rels-debug") << "[sets-rels-ee] A term that does not have membership constraints: " << t_it->first << std::endl; - KIND_TERM_IT k_t_it = t_it->second.begin(); - - while(k_t_it != t_it->second.end()) { - if(k_t_it->first == kind::JOIN || k_t_it->first == kind::PRODUCT) { - std::vector::iterator term_it = k_t_it->second.begin(); - while(term_it != k_t_it->second.end()) { - computeMembersForRel(*term_it); - term_it++; - } - } else if ( k_t_it->first == kind::TRANSPOSE ) { - std::vector::iterator term_it = k_t_it->second.begin(); - while(term_it != k_t_it->second.end()) { - computeMembersForTpRel(*term_it); - term_it++; - } - } - k_t_it++; - } - } - t_it++; - } - - finalizeTCInference(); - } - - /* - * Populate relational terms data structure - */ - - void TheorySetsRels::collectRelsInfo() { - Trace("rels") << "[sets-rels] Start collecting relational terms..." << std::endl; - eq::EqClassesIterator eqcs_i = eq::EqClassesIterator( d_eqEngine ); - while( !eqcs_i.isFinished() ){ - Node eqc_rep = (*eqcs_i); - eq::EqClassIterator eqc_i = eq::EqClassIterator( eqc_rep, d_eqEngine ); - - Trace("rels-ee") << "[sets-rels-ee] term representative: " << eqc_rep << std::endl; - - while( !eqc_i.isFinished() ){ - Node eqc_node = (*eqc_i); - - Trace("rels-ee") << " term : " << eqc_node << std::endl; - - if(getRepresentative(eqc_rep) == getRepresentative(d_trueNode) || - getRepresentative(eqc_rep) == getRepresentative(d_falseNode)) { - // collect membership info - if(eqc_node.getKind() == kind::MEMBER && eqc_node[1].getType().getSetElementType().isTuple()) { - Node tup_rep = getRepresentative(eqc_node[0]); - Node rel_rep = getRepresentative(eqc_node[1]); - - if(eqc_node[0].isVar()){ - reduceTupleVar(eqc_node); - } - if( safelyAddToMap(d_membership_constraints_cache, rel_rep, tup_rep) ) { - bool is_true_eq = areEqual(eqc_rep, d_trueNode); - Node reason = is_true_eq ? eqc_node : eqc_node.negate(); - addToMap(d_membership_exp_cache, rel_rep, reason); - if( is_true_eq ) { - // add tup_rep to membership database - // and store mapping between tuple and tuple's elements representatives - addToMembershipDB(rel_rep, tup_rep, reason); - } - } - } - // collect relational terms info - } else if( eqc_rep.getType().isSet() && eqc_rep.getType().getSetElementType().isTuple() ) { - if( eqc_node.getKind() == kind::TRANSPOSE || eqc_node.getKind() == kind::JOIN || - eqc_node.getKind() == kind::PRODUCT || eqc_node.getKind() == kind::TCLOSURE ) { - std::vector terms; - std::map > rel_terms; - TERM_IT terms_it = d_terms_cache.find(eqc_rep); - - if( eqc_node.getKind() == kind::TRANSPOSE ) { - Node eqc_node0_rep = getRepresentative( eqc_node[0] ); - MEM_IT mem_it = d_arg_rep_tp_terms.find( eqc_node0_rep ); - - if( mem_it != d_arg_rep_tp_terms.end() ) { - mem_it->second.push_back( eqc_node ); - } else { - std::vector< Node > tp_terms; - tp_terms.push_back( eqc_node ); - d_arg_rep_tp_terms[eqc_node0_rep] = tp_terms; - } - } - - if( terms_it == d_terms_cache.end() ) { - terms.push_back(eqc_node); - rel_terms[eqc_node.getKind()] = terms; - d_terms_cache[eqc_rep] = rel_terms; - } else { - KIND_TERM_IT kind_term_it = terms_it->second.find(eqc_node.getKind()); - - if( kind_term_it == terms_it->second.end() ) { - terms.push_back(eqc_node); - d_terms_cache[eqc_rep][eqc_node.getKind()] = terms; - } else { - kind_term_it->second.push_back(eqc_node); - } - } - } - // need to add all tuple elements as shared terms - } else if(eqc_node.getType().isTuple() && !eqc_node.isConst() && !eqc_node.isVar()) { - for(unsigned int i = 0; i < eqc_node.getType().getTupleLength(); i++) { - Node element = RelsUtils::nthElementOfTuple(eqc_node, i); - if(!element.isConst()) { - makeSharedTerm(element); - } - } - } - ++eqc_i; - } - ++eqcs_i; - } - Trace("rels-debug") << "[sets-rels] Done with collecting relational terms!" << std::endl; - } - - /* - * Construct transitive closure graph for tc_rep based on the members of tc_r_rep - */ - - std::map< Node, std::hash_set< Node, NodeHashFunction > > TheorySetsRels::constructTCGraph(Node tc_r_rep, Node tc_rep, Node tc_term) { - Trace("rels-tc") << "[sets-rels] Construct TC graph for transitive closure relation " << tc_rep << std::endl; - - std::map< Node, std::hash_set< Node, NodeHashFunction > > tc_graph; - std::map< Node, std::hash_set< Node, NodeHashFunction > > tc_r_graph; - MEM_IT mem_it = d_membership_db.find(tc_r_rep); - - if(mem_it != d_membership_db.end()) { - for(std::vector::iterator pair_it = mem_it->second.begin(); - pair_it != mem_it->second.end(); pair_it++) { - Node fst_rep = getRepresentative(RelsUtils::nthElementOfTuple(*pair_it, 0)); - Node snd_rep = getRepresentative(RelsUtils::nthElementOfTuple(*pair_it, 1)); - TC_PAIR_IT pair_set_it = tc_graph.find(fst_rep); - TC_PAIR_IT r_pair_set_it = tc_r_graph.find(fst_rep); - - Trace("rels-tc") << "[sets-rels] **** Member of r = (" << fst_rep << ", " << snd_rep << ")" << std::endl; - - if( pair_set_it != tc_graph.end() ) { - pair_set_it->second.insert(snd_rep); - r_pair_set_it->second.insert(snd_rep); - } else { - std::hash_set< Node, NodeHashFunction > snd_set; - snd_set.insert(snd_rep); - tc_r_graph[fst_rep] = snd_set; - tc_graph[fst_rep] = snd_set; - } - } - } - - Node reason = getReason(tc_rep, tc_term, tc_r_rep, tc_term[0]); - - if(!reason.isNull()) { - d_membership_tc_exp_cache[tc_rep] = reason; - } - d_tc_r_graph[tc_rep] = tc_r_graph; - - TC_PAIR_IT tc_mem_it = d_tc_membership_db.find(tc_term); - - if( tc_mem_it != d_tc_membership_db.end() ) { - for(std::hash_set::iterator pair_it = tc_mem_it->second.begin(); - pair_it != tc_mem_it->second.end(); pair_it++) { - Node fst_rep = getRepresentative(RelsUtils::nthElementOfTuple(*pair_it, 0)); - Node snd_rep = getRepresentative(RelsUtils::nthElementOfTuple(*pair_it, 1)); - TC_PAIR_IT pair_set_it = tc_graph.find(fst_rep); - Trace("rels-tc") << "[sets-rels] **** Member of TC(r) = (" << fst_rep << ", " << snd_rep << ")" << std::endl; - - if( pair_set_it != tc_graph.end() ) { - pair_set_it->second.insert(snd_rep); - } else { - std::hash_set< Node, NodeHashFunction > snd_set; - snd_set.insert(snd_rep); - tc_graph[fst_rep] = snd_set; - } - } - } - - return tc_graph; - } - - /* - * - * - * transitive closure rule 1: y = (TCLOSURE x) - * --------------------------------------------- - * y = x | x.x | x.x.x | ... (| is union) - * - * - * - * transitive closure rule 2: TCLOSURE(x) - * ----------------------------------------------------------- - * x <= TCLOSURE(x) && (x JOIN x) <= TCLOSURE(x) .... - * - * TC(x) = TC(y) => x = y ? - * - */ - - void TheorySetsRels::applyTCRule(Node exp, Node tc_term) { - Trace("rels-debug") << "\n[sets-rels] *********** Applying TRANSITIVE CLOSURE rule on " - << tc_term << " with explanation " << exp << std::endl; - - Node tc_rep = getRepresentative(tc_term); - bool polarity = exp.getKind() != kind::NOT; - - if( d_rel_nodes.find(tc_rep) == d_rel_nodes.end() ) { - d_tc_rep_term[tc_rep] = tc_term; - d_rel_nodes.insert(tc_rep); - } - if(polarity) { - TC_PAIR_IT mem_it = d_tc_membership_db.find(tc_term); - - if( mem_it == d_tc_membership_db.end() ) { - std::hash_set members; - members.insert(exp[0]); - d_tc_membership_db[tc_term] = members; - } else { - mem_it->second.insert(exp[0]); - } - } else { - Trace("rels-tc") << "TC non-member = " << exp << std::endl; - } - //todo: need to construct a tc_graph if transitive closure is used in the context -// // check if tup_rep already exists in TC graph for conflict -// } else { -// if( tc_graph_it != d_membership_tc_cache.end() ) { -// checkTCGraphForConflict(atom, tc_rep, d_trueNode, RelsUtils::nthElementOfTuple(tup_rep, 0), -// RelsUtils::nthElementOfTuple(tup_rep, 1), tc_graph_it->second); -// } -// } - } - - void TheorySetsRels::checkTCGraphForConflict (Node atom, Node tc_rep, Node exp, Node a, Node b, - std::map< Node, std::hash_set< Node, NodeHashFunction > >& pair_set) { - TC_PAIR_IT pair_set_it = pair_set.find(a); - - if(pair_set_it != pair_set.end()) { - if(pair_set_it->second.find(b) != pair_set_it->second.end()) { - Node reason = AND(exp, findMemExp(tc_rep, constructPair(tc_rep, a, b))); - - if(atom[1] != tc_rep) { - reason = AND(exp, explain(EQUAL(atom[1], tc_rep))); - } - Trace("rels-debug") << "[sets-rels] found a conflict and send out lemma : " - << NodeManager::currentNM()->mkNode(kind::IMPLIES, Rewriter::rewrite(reason), atom) << std::endl; - d_sets_theory.d_out->lemma(NodeManager::currentNM()->mkNode(kind::IMPLIES, Rewriter::rewrite(reason), atom)); -// Trace("rels-debug") << "[sets-rels] found a conflict and send out lemma : " -// << AND(reason.negate(), atom) << std::endl; -// d_sets_theory.d_out->conflict(AND(reason.negate(), atom)); - } else { - std::hash_set< Node, NodeHashFunction >::iterator set_it = pair_set_it->second.begin(); - - while(set_it != pair_set_it->second.end()) { - // need to check if *set_it has been looked already - if(!areEqual(*set_it, a)) { - checkTCGraphForConflict(atom, tc_rep, AND(exp, findMemExp(tc_rep, constructPair(tc_rep, a, *set_it))), - *set_it, b, pair_set); - } - set_it++; - } - } - } - } - - - /* product-split rule: (a, b) IS_IN (X PRODUCT Y) - * ---------------------------------- - * a IS_IN X && b IS_IN Y - * - * product-compose rule: (a, b) IS_IN X (c, d) IS_IN Y NOT (r, s, t, u) IS_IN (X PRODUCT Y) - * ---------------------------------------------------------------------- - * (a, b, c, d) IS_IN (X PRODUCT Y) - */ - - void TheorySetsRels::applyProductRule(Node exp, Node product_term) { - Trace("rels-debug") << "\n[sets-rels] *********** Applying PRODUCT rule " << std::endl; - - if(d_rel_nodes.find(product_term) == d_rel_nodes.end()) { - computeMembersForRel(product_term); - d_rel_nodes.insert(product_term); - } - bool polarity = exp.getKind() != kind::NOT; - Node atom = polarity ? exp : exp[0]; - Node r1_rep = getRepresentative(product_term[0]); - Node r2_rep = getRepresentative(product_term[1]); - - Trace("rels-debug") << "\n[sets-rels] Apply PRODUCT-SPLIT rule on term: " << product_term - << " with explanation: " << exp << std::endl; - std::vector r1_element; - std::vector r2_element; - NodeManager *nm = NodeManager::currentNM(); - Datatype dt = r1_rep.getType().getSetElementType().getDatatype(); - unsigned int i = 0; - unsigned int s1_len = r1_rep.getType().getSetElementType().getTupleLength(); - unsigned int tup_len = product_term.getType().getSetElementType().getTupleLength(); - - r1_element.push_back(Node::fromExpr(dt[0].getConstructor())); - for(; i < s1_len; ++i) { - r1_element.push_back(RelsUtils::nthElementOfTuple(atom[0], i)); - } - - dt = r2_rep.getType().getSetElementType().getDatatype(); - r2_element.push_back(Node::fromExpr(dt[0].getConstructor())); - for(; i < tup_len; ++i) { - r2_element.push_back(RelsUtils::nthElementOfTuple(atom[0], i)); - } - - Node fact_1; - Node fact_2; - Node reason_1 = exp; - Node reason_2 = exp; - Node t1 = nm->mkNode(kind::APPLY_CONSTRUCTOR, r1_element); - Node t1_rep = getRepresentative(t1); - Node t2 = nm->mkNode(kind::APPLY_CONSTRUCTOR, r2_element); - Node t2_rep = getRepresentative(t2); - - fact_1 = MEMBER( t1, r1_rep ); - fact_2 = MEMBER( t2, r2_rep ); - if(r1_rep != product_term[0]) { - reason_1 = AND(reason_1, explain(EQUAL(r1_rep, product_term[0]))); - } - if(t1 != t1_rep) { - reason_1 = Rewriter::rewrite(AND(reason_1, explain(EQUAL(t1, t1_rep)))); - } - if(r2_rep != product_term[1]) { - reason_2 = AND(reason_2, explain(EQUAL(r2_rep, product_term[1]))); - } - if(t2 != t2_rep) { - reason_2 = Rewriter::rewrite(AND(reason_2, explain(EQUAL(t2, t2_rep)))); - } - if(polarity) { - sendInfer(fact_1, reason_1, "product-split"); - sendInfer(fact_2, reason_2, "product-split"); - } else { - sendInfer(fact_1.negate(), reason_1, "product-split"); - sendInfer(fact_2.negate(), reason_2, "product-split"); - - // ONLY need to explicitly compute joins if there are negative literals involving PRODUCT - Trace("rels-debug") << "\n[sets-rels] Apply PRODUCT-COMPOSE rule on term: " << product_term - << " with explanation: " << exp << std::endl; - } - } - - /* join-split rule: (a, b) IS_IN (X JOIN Y) - * -------------------------------------------- - * exists z | (a, z) IS_IN X && (z, b) IS_IN Y - * - * - * join-compose rule: (a, b) IS_IN X (b, c) IS_IN Y NOT (t, u) IS_IN (X JOIN Y) - * ------------------------------------------------------------- - * (a, c) IS_IN (X JOIN Y) - */ - void TheorySetsRels::applyJoinRule(Node exp, Node join_term) { - Trace("rels-debug") << "\n[sets-rels] *********** Applying JOIN rule " << std::endl; - - if(d_rel_nodes.find(join_term) == d_rel_nodes.end()) { - Trace("rels-debug") << "\n[sets-rels] Apply JOIN-COMPOSE rule on term: " << join_term - << " with explanation: " << exp << std::endl; - - computeMembersForRel(join_term); - d_rel_nodes.insert(join_term); - } - - bool polarity = exp.getKind() != kind::NOT; - Node atom = polarity ? exp : exp[0]; - Node r1_rep = getRepresentative(join_term[0]); - Node r2_rep = getRepresentative(join_term[1]); - - if(polarity) { - Trace("rels-debug") << "\n[sets-rels] Apply JOIN-SPLIT rule on term: " << join_term - << " with explanation: " << exp << std::endl; - - std::vector r1_element; - std::vector r2_element; - NodeManager *nm = NodeManager::currentNM(); - TypeNode shared_type = r2_rep.getType().getSetElementType().getTupleTypes()[0]; - Node shared_x = nm->mkSkolem("sde_", shared_type); - Datatype dt = r1_rep.getType().getSetElementType().getDatatype(); - unsigned int i = 0; - unsigned int s1_len = r1_rep.getType().getSetElementType().getTupleLength(); - unsigned int tup_len = join_term.getType().getSetElementType().getTupleLength(); - - r1_element.push_back(Node::fromExpr(dt[0].getConstructor())); - for(; i < s1_len-1; ++i) { - r1_element.push_back(RelsUtils::nthElementOfTuple(atom[0], i)); - } - r1_element.push_back(shared_x); - dt = r2_rep.getType().getSetElementType().getDatatype(); - r2_element.push_back(Node::fromExpr(dt[0].getConstructor())); - r2_element.push_back(shared_x); - for(; i < tup_len; ++i) { - r2_element.push_back(RelsUtils::nthElementOfTuple(atom[0], i)); - } - - Node t1 = nm->mkNode(kind::APPLY_CONSTRUCTOR, r1_element); - Node t2 = nm->mkNode(kind::APPLY_CONSTRUCTOR, r2_element); - - computeTupleReps(t1); - computeTupleReps(t2); - - std::vector elements = d_membership_trie[r1_rep].findTerms(d_tuple_reps[t1]); - - for(unsigned int j = 0; j < elements.size(); j++) { - std::vector new_tup; - new_tup.push_back(elements[j]); - new_tup.insert(new_tup.end(), d_tuple_reps[t2].begin()+1, d_tuple_reps[t2].end()); - if(d_membership_trie[r2_rep].existsTerm(new_tup) != Node::null()) { - return; - } - } - - Node fact; - Node reason = atom[1] == join_term ? exp : AND(exp, explain(EQUAL(atom[1], join_term))); - Node reasons = reason; - - fact = MEMBER(t1, r1_rep); - if(r1_rep != join_term[0]) { - reasons = Rewriter::rewrite(AND(reason, explain(EQUAL(r1_rep, join_term[0])))); - } - Trace("rels-debug") << "\n[sets-rels] After applying JOIN-split rule, generate a fact : " << fact - << " with explanation: " << reasons << std::endl; - sendInfer(fact, reasons, "join-split"); - reasons = reason; - fact = MEMBER(t2, r2_rep); - if(r2_rep != join_term[1]) { - reasons = Rewriter::rewrite(AND(reason, explain(EQUAL(r2_rep, join_term[1])))); - } - Trace("rels-debug") << "[sets-rels] After applying JOIN-split rule, generate a fact : " << fact - << " with explanation: " << reasons << std::endl; - sendInfer(fact, reasons, "join-split"); - makeSharedTerm(shared_x); - } - } - - /* - * transpose-occur rule: [NOT] (a, b) IS_IN X (TRANSPOSE X) occurs - * ------------------------------------------------------- - * [NOT] (b, a) IS_IN (TRANSPOSE X) - * - * transpose-reverse rule: [NOT] (a, b) IS_IN (TRANSPOSE X) - * ------------------------------------------------ - * [NOT] (b, a) IS_IN X - * - * Not implemented yet! - * transpose-equal rule: [NOT] (TRANSPOSE X) = (TRANSPOSE Y) - * ----------------------------------------------- - * [NOT] (X = Y) - */ - void TheorySetsRels::applyTransposeRule(Node exp, Node tp_term, Node more_reason, bool tp_occur) { - Trace("rels-debug") << "\n[sets-rels] *********** Applying TRANSPOSE rule on term " << tp_term << std::endl; - - bool polarity = exp.getKind() != kind::NOT; - Node atom = polarity ? exp : exp[0]; - Node reversedTuple = getRepresentative(RelsUtils::reverseTuple(atom[0])); - - if(tp_occur) { - Trace("rels-debug") << "\n[sets-rels] Apply TRANSPOSE-OCCUR rule on term: " << tp_term - << " with explanation: " << exp << std::endl; - - Node fact = polarity ? MEMBER(reversedTuple, tp_term) : MEMBER(reversedTuple, tp_term).negate(); - sendInfer(fact, more_reason == Node::null()?exp:AND(exp, more_reason), "transpose-occur"); - return; - } - - Node tp_t0_rep = getRepresentative(tp_term[0]); - Node reason = atom[1] == tp_term ? exp : Rewriter::rewrite(AND(exp, EQUAL(atom[1], tp_term))); - Node fact = MEMBER(reversedTuple, tp_t0_rep); - - if(!polarity) { - fact = fact.negate(); - } - sendInfer(fact, reason, "transpose-rule"); - } - - - void TheorySetsRels::finalizeTCInference() { - Trace("rels-tc") << "[sets-rels] ****** Finalizing transitive closure inferences!" << std::endl; - std::map::iterator map_it = d_tc_rep_term.begin(); - - while( map_it != d_tc_rep_term.end() ) { - Trace("rels-tc") << "[sets-rels] Start building the TC graph for " << map_it->first << std::endl; - - std::map< Node, std::hash_set > d_tc_graph = constructTCGraph(getRepresentative(map_it->second[0]), map_it->first, map_it->second); - inferTC(map_it->first, d_tc_graph); - map_it++; - } - } - - void TheorySetsRels::inferTC(Node tc_rep, std::map< Node, std::hash_set< Node, NodeHashFunction > >& tc_graph) { - Trace("rels-tc") << "[sets-rels] Infer TC lemma from tc_graph of " << tc_rep << std::endl; - - for(TC_PAIR_IT pair_set_it = tc_graph.begin(); pair_set_it != tc_graph.end(); pair_set_it++) { - for(std::hash_set< Node, NodeHashFunction >::iterator set_it = pair_set_it->second.begin(); - set_it != pair_set_it->second.end(); set_it++) { - std::hash_set elements; - Node pair = constructPair(tc_rep, pair_set_it->first, *set_it); - Node exp = findMemExp(tc_rep, pair); - - if(d_membership_tc_exp_cache.find(tc_rep) != d_membership_tc_exp_cache.end()) { - exp = AND(d_membership_tc_exp_cache[tc_rep], exp); - } - Assert(!exp.isNull()); - elements.insert(pair_set_it->first); - inferTC( exp, tc_rep, tc_graph, pair_set_it->first, *set_it, elements ); - } - } - } - - void TheorySetsRels::inferTC( Node exp, Node tc_rep, std::map< Node, std::hash_set< Node, NodeHashFunction > >& tc_graph, - Node start_node, Node cur_node, std::hash_set< Node, NodeHashFunction >& traversed ) { - Node pair = constructPair(tc_rep, start_node, cur_node); - MEM_IT mem_it = d_membership_db.find(tc_rep); - - if(mem_it != d_membership_db.end()) { - if(std::find(mem_it->second.begin(), mem_it->second.end(), pair) == mem_it->second.end()) { - Trace("rels-tc") << "[sets-rels] Infered a TC lemma = " << MEMBER(pair, tc_rep) << " by Transitivity" - << " with explanation = " << Rewriter::rewrite(exp) << std::endl; - sendLemma( MEMBER(pair, tc_rep), Rewriter::rewrite(exp), "Transitivity" ); - } - } else { - Trace("rels-tc") << "[sets-rels] Infered a TC lemma = " << MEMBER(pair, tc_rep) << " by Transitivity" - << " with explanation = " << Rewriter::rewrite(exp) << std::endl; - sendLemma( MEMBER(pair, tc_rep), Rewriter::rewrite(exp), "Transitivity" ); - } - // check if cur_node has been traversed or not - if(traversed.find(cur_node) != traversed.end()) { - return; - } - traversed.insert(cur_node); - - Node reason = exp; - TC_PAIR_IT cur_set = tc_graph.find(cur_node); - - if(cur_set != tc_graph.end()) { - for(std::hash_set< Node, NodeHashFunction >::iterator set_it = cur_set->second.begin(); - set_it != cur_set->second.end(); set_it++) { - Node new_pair = constructPair( tc_rep, cur_node, *set_it ); - Assert(!reason.isNull()); - inferTC( AND( findMemExp(tc_rep, new_pair), reason ), tc_rep, tc_graph, start_node, *set_it, traversed ); - } - } - } - - // Bottom-up fashion to compute relations - void TheorySetsRels::computeMembersForRel(Node n) { - Trace("rels-debug") << "\n[sets-rels] computeJoinOrProductRelations for relation " << n << std::endl; - switch(n[0].getKind()) { - case kind::TRANSPOSE: - computeMembersForTpRel(n[0]); - break; - case kind::JOIN: - case kind::PRODUCT: - computeMembersForRel(n[0]); - break; - default: - break; - } - - switch(n[1].getKind()) { - case kind::TRANSPOSE: - computeMembersForTpRel(n[1]); - break; - case kind::JOIN: - case kind::PRODUCT: - computeMembersForRel(n[1]); - break; - default: - break; - } - - if(d_membership_db.find(getRepresentative(n[0])) == d_membership_db.end() || - d_membership_db.find(getRepresentative(n[1])) == d_membership_db.end()) - return; - composeTupleMemForRel(n); - } - - void TheorySetsRels::computeMembersForTpRel(Node n) { - switch(n[0].getKind()) { - case kind::TRANSPOSE: - computeMembersForTpRel(n[0]); - break; - case kind::JOIN: - case kind::PRODUCT: - computeMembersForRel(n[0]); - break; - default: - break; - } - - if(d_membership_db.find(getRepresentative(n[0])) == d_membership_db.end()) - return; - - Node n_rep = getRepresentative(n); - Node n0_rep = getRepresentative(n[0]); - std::vector tuples = d_membership_db[n0_rep]; - std::vector exps = d_membership_exp_db[n0_rep]; - Assert(tuples.size() == exps.size()); - for(unsigned int i = 0; i < tuples.size(); i++) { - Node reason = exps[i][1] == n0_rep ? exps[i] : AND(exps[i], EQUAL(exps[i][1], n0_rep)); - Node rev_tup = getRepresentative(RelsUtils::reverseTuple(tuples[i])); - Node fact = MEMBER(rev_tup, n_rep); - - if(holds(fact)) { - Trace("rels-debug") << "[sets-rels] New fact: " << fact << " already holds! Skip..." << std::endl; - } else { - sendInfer(fact, Rewriter::rewrite(reason), "transpose-rule"); - } - } - } - - /* - * Explicitly compose the join or product relations of r1 and r2 - * e.g. If (a, b) in X and (b, c) in Y, (a, c) in (X JOIN Y) - * - */ - void TheorySetsRels::composeTupleMemForRel( Node n ) { - Node r1 = n[0]; - Node r2 = n[1]; - Node r1_rep = getRepresentative(r1); - Node r2_rep = getRepresentative(r2); - NodeManager* nm = NodeManager::currentNM(); - - Trace("rels-debug") << "[sets-rels] start composing tuples in relations " - << r1 << " and " << r2 << std::endl; - - if(d_membership_db.find(r1_rep) == d_membership_db.end() || - d_membership_db.find(r2_rep) == d_membership_db.end()) - return; - - std::vector new_tups; - std::vector new_exps; - std::vector r1_elements = d_membership_db[r1_rep]; - std::vector r2_elements = d_membership_db[r2_rep]; - std::vector r1_exps = d_membership_exp_db[r1_rep]; - std::vector r2_exps = d_membership_exp_db[r2_rep]; - - Node new_rel = n.getKind() == kind::JOIN ? nm->mkNode(kind::JOIN, r1_rep, r2_rep) - : nm->mkNode(kind::PRODUCT, r1_rep, r2_rep); - Node new_rel_rep = getRepresentative(new_rel); - unsigned int t1_len = r1_elements.front().getType().getTupleLength(); - unsigned int t2_len = r2_elements.front().getType().getTupleLength(); - - for(unsigned int i = 0; i < r1_elements.size(); i++) { - for(unsigned int j = 0; j < r2_elements.size(); j++) { - std::vector composed_tuple; - TypeNode tn = n.getType().getSetElementType(); - Node r1_rmost = RelsUtils::nthElementOfTuple(r1_elements[i], t1_len-1); - Node r2_lmost = RelsUtils::nthElementOfTuple(r2_elements[j], 0); - composed_tuple.push_back(Node::fromExpr(tn.getDatatype()[0].getConstructor())); - - if((areEqual(r1_rmost, r2_lmost) && n.getKind() == kind::JOIN) || - n.getKind() == kind::PRODUCT) { - bool isProduct = n.getKind() == kind::PRODUCT; - unsigned int k = 0; - unsigned int l = 1; - - for(; k < t1_len - 1; ++k) { - composed_tuple.push_back(RelsUtils::nthElementOfTuple(r1_elements[i], k)); - } - if(isProduct) { - composed_tuple.push_back(RelsUtils::nthElementOfTuple(r1_elements[i], k)); - composed_tuple.push_back(RelsUtils::nthElementOfTuple(r2_elements[j], 0)); - } - for(; l < t2_len; ++l) { - composed_tuple.push_back(RelsUtils::nthElementOfTuple(r2_elements[j], l)); - } - Node composed_tuple_rep = getRepresentative(nm->mkNode(kind::APPLY_CONSTRUCTOR, composed_tuple)); - Node fact = MEMBER(composed_tuple_rep, new_rel_rep); - - if(holds(fact)) { - Trace("rels-debug") << "[sets-rels] New fact: " << fact << " already holds! Skip..." << std::endl; - } else { - std::vector reasons; - reasons.push_back(explain(r1_exps[i])); - reasons.push_back(explain(r2_exps[j])); - if(r1_exps[i].getKind() == kind::MEMBER && r1_exps[i][0] != r1_elements[i]) { - reasons.push_back(explain(EQUAL(r1_elements[i], r1_exps[i][0]))); - } - if(r2_exps[j].getKind() == kind::MEMBER && r2_exps[j][0] != r2_elements[j]) { - reasons.push_back(explain(EQUAL(r2_elements[j], r2_exps[j][0]))); - } - if(!isProduct) { - if(r1_rmost != r2_lmost) { - reasons.push_back(explain(EQUAL(r1_rmost, r2_lmost))); - } - } - if(r1 != r1_rep) { - reasons.push_back(explain(EQUAL(r1, r1_rep))); - } - if(r2 != r2_rep) { - reasons.push_back(explain(EQUAL(r2, r2_rep))); - } - - Node reason = Rewriter::rewrite(nm->mkNode(kind::AND, reasons)); - if(isProduct) { - sendInfer( fact, reason, "product-compose" ); - } else { - sendInfer( fact, reason, "join-compose" ); - } - - Trace("rels-debug") << "[sets-rels] Compose tuples: " << r1_elements[i] - << " and " << r2_elements[j] - << "\n Produce a new fact: " << fact - << "\n Reason: " << reason<< std::endl; - } - } - } - } - Trace("rels-debug") << "[sets-rels] Done with composing tuples !" << std::endl; - } - - void TheorySetsRels::doPendingLemmas() { - if( !(*d_conflict) ){ - if ( (!d_lemma_cache.empty() || !d_pending_facts.empty()) ) { - for( unsigned i=0; i < d_lemma_cache.size(); i++ ){ - Assert(d_lemma_cache[i].getKind() == kind::IMPLIES); - if(holds( d_lemma_cache[i][1] )) { - Trace("rels-lemma") << "[sets-rels-lemma-skip] Skip an already held lemma: " - << d_lemma_cache[i]<< std::endl; - continue; - } - Trace("rels-lemma") << "[sets-rels-lemma] Send out a lemma : " - << d_lemma_cache[i] << std::endl; - d_sets_theory.d_out->lemma( d_lemma_cache[i] ); - } - for( std::map::iterator child_it = d_pending_facts.begin(); - child_it != d_pending_facts.end(); child_it++ ) { - if(holds(child_it->first)) { - Trace("rels-lemma") << "[sets-rels-fact-lemma-skip] Skip an already held fact,: " - << child_it->first << std::endl; - continue; - } - Trace("rels-lemma") << "[sets-rels-fact-lemma] Send out a fact as lemma : " - << child_it->first << " with reason " << child_it->second << std::endl; - d_sets_theory.d_out->lemma(NodeManager::currentNM()->mkNode(kind::IMPLIES, child_it->second, child_it->first)); - } - } - doTCLemmas(); - } - - d_arg_rep_tp_terms.clear(); - d_tc_membership_db.clear(); - d_rel_nodes.clear(); - d_pending_facts.clear(); - d_membership_constraints_cache.clear(); - d_tc_r_graph.clear(); - d_membership_tc_exp_cache.clear(); - d_membership_exp_cache.clear(); - d_membership_db.clear(); - d_membership_exp_db.clear(); - d_terms_cache.clear(); - d_lemma_cache.clear(); - d_membership_trie.clear(); - d_tuple_reps.clear(); - d_id_node.clear(); - d_node_id.clear(); - d_tc_rep_term.clear(); - } - - void TheorySetsRels::doTCLemmas() { - Trace("rels-debug") << "[sets-rels] Start processing TC lemmas .......... " << std::endl; - std::map< Node, std::hash_set< Node, NodeHashFunction > >::iterator mem_it = d_tc_membership_db.begin(); - - while(mem_it != d_tc_membership_db.end()) { - Node tc_rep = getRepresentative(mem_it->first); - Node tc_r_rep = getRepresentative(mem_it->first[0]); - std::hash_set< Node, NodeHashFunction >::iterator set_it = mem_it->second.begin(); - - while(set_it != mem_it->second.end()) { - std::hash_set hasSeen; - bool isReachable = false; - Node fst = RelsUtils::nthElementOfTuple(*set_it, 0); - Node snd = RelsUtils::nthElementOfTuple(*set_it, 1); - Node fst_rep = getRepresentative(fst); - Node snd_rep = getRepresentative(snd); - TC_IT tc_graph_it = d_tc_r_graph.find(tc_rep); - - // the tc_graph of TC(r) is built based on the members of r and TC(r)???????? - isTCReachable(fst_rep, snd_rep, hasSeen, tc_graph_it->second, isReachable); - Trace("rels-tc") << "tuple = " << *set_it << " with rep = (" << fst_rep << ", " << snd_rep << ") " - << " isReachable? = " << isReachable << std::endl; - if((tc_graph_it != d_tc_r_graph.end() && !isReachable) || - (tc_graph_it == d_tc_r_graph.end())) { - Node reason = explain(MEMBER(*set_it, mem_it->first)); - Node sk_1 = NodeManager::currentNM()->mkSkolem("sde", fst_rep.getType()); - Node sk_2 = NodeManager::currentNM()->mkSkolem("sde", snd_rep.getType()); - Node mem_of_r = MEMBER(RelsUtils::constructPair(tc_r_rep, fst_rep, snd_rep), tc_r_rep); - Node sk_eq = EQUAL(sk_1, sk_2); - - if(fst_rep != fst) { - reason = AND(reason, explain(EQUAL(fst_rep, fst))); - } - if(snd_rep != snd) { - reason = AND(reason, explain(EQUAL(snd_rep, snd))); - } - if(tc_r_rep != mem_it->first[0]) { - reason = AND(reason, explain(EQUAL(tc_r_rep, mem_it->first[0]))); - } - if(tc_rep != mem_it->first) { - reason = AND(reason, explain(EQUAL(tc_rep, mem_it->first))); - } - - Node tc_lemma = NodeManager::currentNM()->mkNode(kind::IMPLIES, reason, - OR(mem_of_r, - (AND(MEMBER(RelsUtils::constructPair(tc_r_rep, fst_rep, sk_1), tc_r_rep), - (AND(MEMBER(RelsUtils::constructPair(tc_r_rep, sk_2, snd_rep), tc_r_rep), - (OR(sk_eq, MEMBER(RelsUtils::constructPair(tc_rep, sk_1, sk_2), tc_rep))))))))); - Trace("rels-lemma") << "[sets-rels-lemma] Send out a TC lemma : " - << tc_lemma << std::endl; - d_sets_theory.d_out->lemma(tc_lemma); - d_sets_theory.d_out->requirePhase(Rewriter::rewrite(mem_of_r), true); - d_sets_theory.d_out->requirePhase(Rewriter::rewrite(sk_eq), true); - } - set_it++; - } - mem_it++; - } - } - - void TheorySetsRels::isTCReachable(Node start, Node dest, std::hash_set& hasSeen, - std::map< Node, std::hash_set< Node, NodeHashFunction > >& tc_graph, bool& isReachable) { - if(hasSeen.find(start) == hasSeen.end()) { - hasSeen.insert(start); - } - - TC_PAIR_IT pair_set_it = tc_graph.find(start); - - if(pair_set_it != tc_graph.end()) { - if(pair_set_it->second.find(dest) != pair_set_it->second.end()) { - isReachable = true; - return; - } else { - std::hash_set< Node, NodeHashFunction >::iterator set_it = pair_set_it->second.begin(); - - while(set_it != pair_set_it->second.end()) { - // need to check if *set_it has been looked already - if(hasSeen.find(*set_it) == hasSeen.end()) { - isTCReachable(*set_it, dest, hasSeen, tc_graph, isReachable); - } - set_it++; - } - } - } - } - - void TheorySetsRels::sendLemma(Node conc, Node ant, const char * c) { - Node lemma = NodeManager::currentNM()->mkNode(kind::IMPLIES, ant, conc); - d_lemma_cache.push_back(lemma); - d_lemma.insert(lemma); - } - - void TheorySetsRels::sendInfer( Node fact, Node exp, const char * c ) { - d_pending_facts[fact] = exp; - d_infer.push_back( fact ); - d_infer_exp.push_back( exp ); - } - - void TheorySetsRels::assertMembership( Node fact, Node reason, bool polarity ) { - d_eqEngine->assertPredicate( fact, polarity, reason ); - } - - Node TheorySetsRels::getRepresentative( Node t ) { - if( d_eqEngine->hasTerm( t ) ){ - return d_eqEngine->getRepresentative( t ); - }else{ - return t; - } - } - - bool TheorySetsRels::hasTerm( Node a ){ - return d_eqEngine->hasTerm( a ); - } - - bool TheorySetsRels::areEqual( Node a, Node b ){ - Assert(a.getType() == b.getType()); - Trace("rels-eq") << "[sets-rels]**** checking equality between " << a << " and " << b << std::endl; - if(a == b) { - return true; - } else if( hasTerm( a ) && hasTerm( b ) ){ - return d_eqEngine->areEqual( a, b ); - } else if(a.getType().isTuple()) { - bool equal = true; - for(unsigned int i = 0; i < a.getType().getTupleLength(); i++) { - equal = equal && areEqual(RelsUtils::nthElementOfTuple(a, i), RelsUtils::nthElementOfTuple(b, i)); - } - return equal; - } else if(!a.getType().isBoolean()){ - makeSharedTerm(a); - makeSharedTerm(b); - } - return false; - } - - /* - * Make sure duplicate members are not added in map - */ - bool TheorySetsRels::safelyAddToMap(std::map< Node, std::vector >& map, Node rel_rep, Node member) { - std::map< Node, std::vector< Node > >::iterator mem_it = map.find(rel_rep); - if(mem_it == map.end()) { - std::vector members; - members.push_back(member); - map[rel_rep] = members; - return true; - } else { - std::vector::iterator mems = mem_it->second.begin(); - while(mems != mem_it->second.end()) { - if(areEqual(*mems, member)) { - return false; - } - mems++; - } - map[rel_rep].push_back(member); - return true; - } - return false; - } - - void TheorySetsRels::addToMap(std::map< Node, std::vector >& map, Node rel_rep, Node member) { - if(map.find(rel_rep) == map.end()) { - std::vector members; - members.push_back(member); - map[rel_rep] = members; - } else { - map[rel_rep].push_back(member); - } - } - - inline Node TheorySetsRels::getReason(Node tc_rep, Node tc_term, Node tc_r_rep, Node tc_r) { - if(tc_term != tc_rep) { - Node reason = explain(EQUAL(tc_term, tc_rep)); - if(tc_term[0] != tc_r_rep) { - return AND(reason, explain(EQUAL(tc_term[0], tc_r_rep))); - } - } - return Node::null(); - } - - // tuple might be a member of tc_rep; or it might be a member of rels or tc_terms such that - // tc_terms are transitive closure of rels and are modulo equal to tc_rep - Node TheorySetsRels::findMemExp(Node tc_rep, Node pair) { - Trace("rels-exp") << "TheorySetsRels::findMemExp ( tc_rep = " << tc_rep << ", pair = " << pair << ")" << std::endl; - Node fst = RelsUtils::nthElementOfTuple(pair, 0); - Node snd = RelsUtils::nthElementOfTuple(pair, 1); - std::vector tc_terms = d_terms_cache.find(tc_rep)->second[kind::TCLOSURE]; - - Assert(tc_terms.size() > 0); - for(unsigned int i = 0; i < tc_terms.size(); i++) { - Node tc_term = tc_terms[i]; - Node tc_r_rep = getRepresentative(tc_term[0]); - - Trace("rels-exp") << "TheorySetsRels::findMemExp ( r_rep = " << tc_r_rep << ", pair = " << pair << ")" << std::endl; - std::map< Node, std::vector< Node > >::iterator tc_r_mems = d_membership_db.find(tc_r_rep); - if(tc_r_mems != d_membership_db.end()) { - for(unsigned int i = 0; i < tc_r_mems->second.size(); i++) { - Node fst_mem = RelsUtils::nthElementOfTuple(tc_r_mems->second[i], 0); - Node snd_mem = RelsUtils::nthElementOfTuple(tc_r_mems->second[i], 1); - - if(areEqual(fst_mem, fst) && areEqual(snd_mem, snd)) { - Node exp = MEMBER(tc_r_mems->second[i], tc_r_mems->first); - - if(tc_r_rep != tc_term[0]) { - exp = explain(EQUAL(tc_r_rep, tc_term[0])); - } - if(tc_rep != tc_term) { - exp = AND(exp, explain(EQUAL(tc_rep, tc_term))); - } - if(tc_r_mems->second[i] != pair) { - if(fst_mem != fst) { - exp = AND(exp, explain(EQUAL(fst_mem, fst))); - } - if(snd_mem != snd) { - exp = AND(exp, explain(EQUAL(snd_mem, snd))); - } - exp = AND(exp, EQUAL(tc_r_mems->second[i], pair)); - } - return Rewriter::rewrite(AND(exp, explain(d_membership_exp_db[tc_r_rep][i]))); - } - } - } - - Node tc_term_rep = getRepresentative(tc_terms[i]); - std::map< Node, std::vector< Node > >::iterator tc_t_mems = d_membership_db.find(tc_term_rep); - - if(tc_t_mems != d_membership_db.end()) { - for(unsigned int j = 0; j < tc_t_mems->second.size(); j++) { - Node fst_mem = RelsUtils::nthElementOfTuple(tc_t_mems->second[j], 0); - Node snd_mem = RelsUtils::nthElementOfTuple(tc_t_mems->second[j], 1); - - if(areEqual(fst_mem, fst) && areEqual(snd_mem, snd)) { - Node exp = MEMBER(tc_t_mems->second[j], tc_t_mems->first); - if(tc_rep != tc_terms[i]) { - exp = AND(exp, explain(EQUAL(tc_rep, tc_terms[i]))); - } - if(tc_term_rep != tc_terms[i]) { - exp = AND(exp, explain(EQUAL(tc_term_rep, tc_terms[i]))); - } - if(tc_t_mems->second[j] != pair) { - if(fst_mem != fst) { - exp = AND(exp, explain(EQUAL(fst_mem, fst))); - } - if(snd_mem != snd) { - exp = AND(exp, explain(EQUAL(snd_mem, snd))); - } - exp = AND(exp, EQUAL(tc_t_mems->second[j], pair)); - } - return Rewriter::rewrite(AND(exp, explain(d_membership_exp_db[tc_term_rep][j]))); - } - } - } - } - return Node::null(); - } - - void TheorySetsRels::addSharedTerm( TNode n ) { - Trace("rels-debug") << "[sets-rels] Add a shared term: " << n << std::endl; - d_sets_theory.addSharedTerm(n); - d_eqEngine->addTriggerTerm(n, THEORY_SETS); - } - - void TheorySetsRels::makeSharedTerm( Node n ) { - Trace("rels-share") << " [sets-rels] making shared term " << n << std::endl; - if(d_shared_terms.find(n) == d_shared_terms.end()) { - Node skolem = NodeManager::currentNM()->mkSkolem( "sde", n.getType() ); - sendLemma(MEMBER(skolem, SINGLETON(n)), d_trueNode, "share-term"); - d_shared_terms.insert(n); - } - } - - bool TheorySetsRels::holds(Node node) { - Trace("rels-check") << " [sets-rels] Check if node = " << node << " already holds " << std::endl; - bool polarity = node.getKind() != kind::NOT; - Node atom = polarity ? node : node[0]; - Node polarity_atom = polarity ? d_trueNode : d_falseNode; - - if(d_eqEngine->hasTerm(atom)) { - Trace("rels-check") << " [sets-rels] node = " << node << " is in the EE " << std::endl; - return areEqual(atom, polarity_atom); - } else { - Node atom_mod = NodeManager::currentNM()->mkNode(atom.getKind(), - getRepresentative(atom[0]), - getRepresentative(atom[1])); - if(d_eqEngine->hasTerm(atom_mod)) { - return areEqual(atom_mod, polarity_atom); - } - } - return false; - } - - /* - * For each tuple n, we store a mapping between n and a list of its elements representatives - * in d_tuple_reps. This would later be used for applying JOIN operator. - */ - void TheorySetsRels::computeTupleReps( Node n ) { - if( d_tuple_reps.find( n ) == d_tuple_reps.end() ){ - for( unsigned i = 0; i < n.getType().getTupleLength(); i++ ){ - d_tuple_reps[n].push_back( getRepresentative( RelsUtils::nthElementOfTuple(n, i) ) ); - } - } - } - - inline void TheorySetsRels::addToMembershipDB(Node rel, Node member, Node reasons) { - addToMap(d_membership_db, rel, member); - addToMap(d_membership_exp_db, rel, reasons); - computeTupleReps(member); - d_membership_trie[rel].addTerm(member, d_tuple_reps[member]); - } - - inline Node TheorySetsRels::constructPair(Node tc_rep, Node a, Node b) { - Datatype dt = tc_rep.getType().getSetElementType().getDatatype(); - return NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, Node::fromExpr(dt[0].getConstructor()), a, b); - } - - /* - * Node n[0] is a tuple variable, reduce n[0] to a concrete representation, - * which is (e1, ..., en) where e1, ... ,en are concrete elements of tuple n[0]. - */ - void TheorySetsRels::reduceTupleVar(Node n) { - if(d_symbolic_tuples.find(n) == d_symbolic_tuples.end()) { - Trace("rels-debug") << "Reduce tuple var: " << n[0] << " to concrete one " << " node = " << n << std::endl; - std::vector tuple_elements; - tuple_elements.push_back(Node::fromExpr((n[0].getType().getDatatype())[0].getConstructor())); - for(unsigned int i = 0; i < n[0].getType().getTupleLength(); i++) { - Node element = RelsUtils::nthElementOfTuple(n[0], i); - makeSharedTerm(element); - tuple_elements.push_back(element); - } - Node tuple_reduct = NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, tuple_elements); - tuple_reduct = MEMBER(tuple_reduct, n[1]); - Node tuple_reduction_lemma = NodeManager::currentNM()->mkNode(kind::IFF, n, tuple_reduct); - sendLemma(tuple_reduction_lemma, d_trueNode, "tuple-reduction"); - d_symbolic_tuples.insert(n); - } - } - - TheorySetsRels::TheorySetsRels( context::Context* c, - context::UserContext* u, - eq::EqualityEngine* eq, - context::CDO* conflict, - TheorySets& d_set ): - d_vec_size(c), - d_eqEngine(eq), - d_conflict(conflict), - d_sets_theory(d_set), - d_trueNode(NodeManager::currentNM()->mkConst(true)), - d_falseNode(NodeManager::currentNM()->mkConst(false)), - d_pending_merge(c), - d_infer(c), - d_infer_exp(c), - d_lemma(u), - d_shared_terms(u) - { - d_eqEngine->addFunctionKind(kind::PRODUCT); - d_eqEngine->addFunctionKind(kind::JOIN); - d_eqEngine->addFunctionKind(kind::TRANSPOSE); - d_eqEngine->addFunctionKind(kind::TCLOSURE); - } - - TheorySetsRels::~TheorySetsRels() {} - - std::vector TupleTrie::findTerms( std::vector< Node >& reps, int argIndex ) { - std::vector nodes; - std::map< Node, TupleTrie >::iterator it; - - if( argIndex==(int)reps.size()-1 ){ - if(reps[argIndex].getKind() == kind::SKOLEM) { - it = d_data.begin(); - while(it != d_data.end()) { - nodes.push_back(it->first); - it++; - } - } - return nodes; - }else{ - it = d_data.find( reps[argIndex] ); - if( it==d_data.end() ){ - return nodes; - }else{ - return it->second.findTerms( reps, argIndex+1 ); - } - } - } - - Node TupleTrie::existsTerm( std::vector< Node >& reps, int argIndex ) { - if( argIndex==(int)reps.size() ){ - if( d_data.empty() ){ - return Node::null(); - }else{ - return d_data.begin()->first; - } - }else{ - std::map< Node, TupleTrie >::iterator it = d_data.find( reps[argIndex] ); - if( it==d_data.end() ){ - return Node::null(); - }else{ - return it->second.existsTerm( reps, argIndex+1 ); - } - } - } - - bool TupleTrie::addTerm( Node n, std::vector< Node >& reps, int argIndex ){ - if( argIndex==(int)reps.size() ){ - if( d_data.empty() ){ - //store n in d_data (this should be interpretted as the "data" and not as a reference to a child) - d_data[n].clear(); - return true; - }else{ - return false; - } - }else{ - return d_data[reps[argIndex]].addTerm( n, reps, argIndex+1 ); - } - } - - void TupleTrie::debugPrint( const char * c, Node n, unsigned depth ) { - for( std::map< Node, TupleTrie >::iterator it = d_data.begin(); it != d_data.end(); ++it ){ - for( unsigned i=0; ifirst << std::endl; - it->second.debugPrint( c, n, depth+1 ); - } - } - - Node TheorySetsRels::explain( Node literal ) - { - Trace("rels-exp") << "[sets-rels] TheorySetsRels::explain(" << literal << ")"<< std::endl; - std::vector assumptions; - bool polarity = literal.getKind() != kind::NOT; - TNode atom = polarity ? literal : literal[0]; - - if(atom.getKind() == kind::EQUAL || atom.getKind() == kind::IFF) { - d_eqEngine->explainEquality(atom[0], atom[1], polarity, assumptions); - } else if(atom.getKind() == kind::MEMBER) { - if( !d_eqEngine->hasTerm(atom)) { - d_eqEngine->addTerm(atom); - } - d_eqEngine->explainPredicate(atom, polarity, assumptions); - } else { - Trace("rels-exp") << "unhandled: " << literal << "; (" << atom << ", " - << polarity << "); kind" << atom.getKind() << std::endl; - Unhandled(); - } - Trace("rels-exp") << "[sets-rels] ****** done with TheorySetsRels::explain(" << literal << ")"<< std::endl; - return mkAnd(assumptions); - } - - TheorySetsRels::EqcInfo::EqcInfo( context::Context* c ) : - d_mem(c), d_not_mem(c), d_mem_exp(c), d_in(c), d_out(c), - d_tp(c), d_pt(c), d_join(c), d_tc(c) {} - - void TheorySetsRels::eqNotifyNewClass( Node n ) { - Trace("rels-std") << "[sets-rels] eqNotifyNewClass:" << " t = " << n << std::endl; - if(isRel(n) && (n.getKind() == kind::TRANSPOSE || - n.getKind() == kind::PRODUCT || - n.getKind() == kind::JOIN || - n.getKind() == kind::TCLOSURE)) { - getOrMakeEqcInfo( n, true ); - } - } - - // Create an integer id for tuple element - int TheorySetsRels::getOrMakeElementRepId(EqcInfo* ei, Node e_rep) { - Trace("rels-std") << "[sets-rels] getOrMakeElementRepId:" << " e_rep = " << e_rep << std::endl; - std::map< Node, int >::iterator nid_it = d_node_id.find(e_rep); - - if( nid_it == d_node_id.end() ) { - if( d_eqEngine->hasTerm(e_rep) ) { - // it is possible that e's rep changes at this moment, thus we need to know the previous rep id of eqc of e - eq::EqClassIterator rep_eqc_i = eq::EqClassIterator( e_rep, d_eqEngine ); - while( !rep_eqc_i.isFinished() ) { - std::map< Node, int >::iterator id_it = d_node_id.find(*rep_eqc_i); - - if( id_it != d_node_id.end() ) { - d_id_node[id_it->second] = e_rep; - d_node_id[e_rep] = id_it->second; - return id_it->second; - } - rep_eqc_i++; - } - } - d_id_node[ei->counter] = e_rep; - d_node_id[e_rep] = ei->counter; - ei->counter++; - return ei->counter-1; - } - Trace("rels-std") << "[sets-rels] finish getOrMakeElementRepId:" << " e_rep = " << e_rep << std::endl; - return nid_it->second; - } - - bool TheorySetsRels::insertIntoIdList(IdList& idList, int mem) { - IdList::const_iterator idListIt = idList.begin(); - while(idListIt != idList.end()) { - if(*idListIt == mem) { - return false; - } - idListIt++; - } - idList.push_back(mem); - return true; - } - - void TheorySetsRels::addTCMemAndSendInfer( EqcInfo* tc_ei, Node membership, Node exp, bool fromRel ) { - Trace("rels-std") << "[sets-rels] addTCMemAndSendInfer:" << " membership = " << membership << " from a relation? " << fromRel<< std::endl; - - Node fst = RelsUtils::nthElementOfTuple(membership[0], 0); - Node snd = RelsUtils::nthElementOfTuple(membership[0], 1); - Node fst_rep = getRepresentative(fst); - Node snd_rep = getRepresentative(snd); - Node mem_rep = RelsUtils::constructPair(membership[1], fst_rep, snd_rep); - - if(tc_ei->d_mem.find(mem_rep) != tc_ei->d_mem.end()) { - return; - } - - int fst_rep_id = getOrMakeElementRepId( tc_ei, fst_rep ); - int snd_rep_id = getOrMakeElementRepId( tc_ei, snd_rep ); - - std::hash_set in_reachable; - std::hash_set out_reachable; - collectReachableNodes(tc_ei->d_id_inIds, fst_rep_id, in_reachable); - collectReachableNodes(tc_ei->d_id_outIds, snd_rep_id, out_reachable); - - // If fst_rep is inserted into in_lst successfully, - // save rep pair's exp and send out TC inference lemmas. - // Otherwise, mem's rep is already in the TC and return. - if( addId(tc_ei->d_id_inIds, snd_rep_id, fst_rep_id) ) { - Node reason = exp == Node::null() ? explain(membership) : exp; - if(!fromRel && tc_ei->d_tc.get() != membership[1]) { - reason = AND(reason, explain(EQUAL(tc_ei->d_tc.get(), membership[1]))); - } - if(fst != fst_rep) { - reason = AND(reason, explain(EQUAL(fst, fst_rep))); - } - if(snd != snd_rep) { - reason = AND(reason, explain(EQUAL(snd, snd_rep))); - } - tc_ei->d_mem_exp[mem_rep] = reason; - Trace("rels-std") << "Added member " << mem_rep << " for " << tc_ei->d_tc.get()<< " with reason = " << reason << std::endl; - tc_ei->d_mem.insert(mem_rep); - Trace("rels-std") << "Added in membership arrow for " << snd_rep << " from: " << fst_rep << std::endl; - } else { - // Nothing inserted into the eqc - return; - } - Trace("rels-std") << "Add out membership arrow for " << fst_rep << " to : " << snd_rep << std::endl; - addId(tc_ei->d_id_inIds, fst_rep_id, snd_rep_id); - sendTCInference(tc_ei, in_reachable, out_reachable, mem_rep, fst_rep, snd_rep, fst_rep_id, snd_rep_id); - } - - Node TheorySetsRels::explainTCMem(EqcInfo* ei, Node pair, Node fst, Node snd) { - Trace("rels-tc") << "explainTCMem ############ pair = " << pair << std::endl; - if(ei->d_mem_exp.find(pair) != ei->d_mem_exp.end()) { - return (*ei->d_mem_exp.find(pair)).second; - } - NodeMap::iterator mem_exp_it = ei->d_mem_exp.begin(); - while(mem_exp_it != ei->d_mem_exp.end()) { - Node tuple = (*mem_exp_it).first; - Node fst_e = RelsUtils::nthElementOfTuple(tuple, 0); - Node snd_e = RelsUtils::nthElementOfTuple(tuple, 1); - if(areEqual(fst, fst_e) && areEqual(snd, snd_e)) { - return AND(explain(EQUAL(snd, snd_e)), AND(explain(EQUAL(fst, fst_e)), (*mem_exp_it).second)); - } - ++mem_exp_it; - } - if(!ei->d_tc.get().isNull()) { - Node rel_rep = getRepresentative(ei->d_tc.get()[0]); - EqcInfo* rel_ei = getOrMakeEqcInfo(rel_rep); - if(rel_ei != NULL) { - NodeMap::iterator rel_mem_exp_it = rel_ei->d_mem_exp.begin(); - while(rel_mem_exp_it != rel_ei->d_mem_exp.end()) { - Node exp = rel_rep == ei->d_tc.get()[0] ? d_trueNode : explain(EQUAL(rel_rep, ei->d_tc.get()[0])); - Node tuple = (*rel_mem_exp_it).first; - Node fst_e = RelsUtils::nthElementOfTuple(tuple, 0); - Node snd_e = RelsUtils::nthElementOfTuple(tuple, 1); - if(areEqual(fst, fst_e) && areEqual(snd, snd_e)) { - return AND(exp, AND(explain(EQUAL(snd, snd_e)), AND(explain(EQUAL(fst, fst_e)), (*rel_mem_exp_it).second))); - } - ++rel_mem_exp_it; - } - } - } - return Node::null(); - } - - void TheorySetsRels::sendTCInference(EqcInfo* tc_ei, std::hash_set in_reachable, std::hash_set out_reachable, Node mem_rep, Node fst_rep, Node snd_rep, int id1, int id2) { - Trace("rels-std") << "Start making TC inference after adding a member " << mem_rep << " to " << tc_ei->d_tc.get() << std::endl; - - Node exp = explainTCMem(tc_ei, mem_rep, fst_rep, snd_rep); - Assert(!exp.isNull()); - Node tc_lemma = NodeManager::currentNM()->mkNode(kind::IMPLIES, exp, MEMBER(mem_rep, tc_ei->d_tc.get())); - d_pending_merge.push_back(tc_lemma); - d_lemma.insert(tc_lemma); - std::hash_set::iterator in_reachable_it = in_reachable.begin(); - while(in_reachable_it != in_reachable.end()) { - Node in_node = d_id_node[*in_reachable_it]; - Node in_pair = RelsUtils::constructPair(tc_ei->d_tc.get(), in_node, fst_rep); - Node new_pair = RelsUtils::constructPair(tc_ei->d_tc.get(), in_node, snd_rep); - Node tc_exp = explainTCMem(tc_ei, in_pair, in_node, fst_rep); - Node reason = tc_exp.isNull() ? exp : AND(tc_exp, exp); - - tc_ei->d_mem_exp[new_pair] = reason; - tc_ei->d_mem.insert(new_pair); - Node tc_lemma = NodeManager::currentNM()->mkNode(kind::IMPLIES, reason, MEMBER(new_pair, tc_ei->d_tc.get())); - - d_pending_merge.push_back(tc_lemma); - d_lemma.insert(tc_lemma); - in_reachable_it++; - } - - std::hash_set::iterator out_reachable_it = out_reachable.begin(); - while(out_reachable_it != out_reachable.end()) { - Node out_node = d_id_node[*out_reachable_it]; - Node out_pair = RelsUtils::constructPair(tc_ei->d_tc.get(), snd_rep, out_node); - Node reason = explainTCMem(tc_ei, out_pair, snd_rep, out_node); - Assert(reason != Node::null()); - - std::hash_set::iterator in_reachable_it = in_reachable.begin(); - - while(in_reachable_it != in_reachable.end()) { - Node in_node = d_id_node[*in_reachable_it]; - Node in_pair = RelsUtils::constructPair(tc_ei->d_tc.get(), in_node, snd_rep); - Node new_pair = RelsUtils::constructPair(tc_ei->d_tc.get(), in_node, out_node); - Node in_pair_exp = explainTCMem(tc_ei, in_pair, in_node, snd_rep); - - Assert(in_pair_exp != Node::null()); - reason = AND(reason, in_pair_exp); - tc_ei->d_mem_exp[new_pair] = reason; - tc_ei->d_mem.insert(new_pair); - Node tc_lemma = NodeManager::currentNM()->mkNode(kind::IMPLIES, reason, MEMBER(new_pair, tc_ei->d_tc.get())); - d_pending_merge.push_back(tc_lemma); - d_lemma.insert(tc_lemma); - in_reachable_it++; - } - out_reachable_it++; - } - } - - void TheorySetsRels::collectReachableNodes(std::map< int, std::vector< int > >& id_map, int start_id, std::hash_set< int >& reachable_set, bool firstRound) { - Trace("rels-std") << "**** Collecting reachable nodes for node with id " << start_id << std::endl; - if(reachable_set.find(start_id) != reachable_set.end()) { - return; - } - if(!firstRound) { - reachable_set.insert(start_id); - } - - std::vector< int > id_list = getIdList(id_map, start_id); - std::vector< int >::iterator id_list_it = id_list.begin(); - - while( id_list_it != id_list.end() ) { - collectReachableNodes( id_map, *id_list_it, reachable_set, false ); - id_list_it++; - } - } - - // Merge t2 into t1, t1 will be the rep of the new eqc - void TheorySetsRels::eqNotifyPostMerge( Node t1, Node t2 ) { - Trace("rels-std") << "[sets-rels] eqNotifyPostMerge:" << " t1 = " << t1 << " t2 = " << t2 << std::endl; - - // Merge membership constraint with "true" or "false" eqc - if( (t1 == d_trueNode || t1 == d_falseNode) && t2.getKind() == kind::MEMBER && t2[0].getType().isTuple() ) { - - Assert(t1 == d_trueNode || t1 == d_falseNode); - bool polarity = t1 == d_trueNode; - Node t2_1rep = getRepresentative(t2[1]); - EqcInfo* ei = getOrMakeEqcInfo( t2_1rep, true ); - - if( polarity ) { - ei->d_mem.insert(t2[0]); - ei->d_mem_exp[t2[0]] = explain(t2); - } else { - ei->d_not_mem.insert(t2[0]); - } - // Process a membership constraint that a tuple is a member of transpose of rel - if( !ei->d_tp.get().isNull() ) { - Node exp = polarity ? explain(t2) : explain(t2.negate()); - if(ei->d_tp.get() != t2[1]) { - exp = AND( explain(EQUAL( ei->d_tp.get(), t2[1]) ), exp ); - } - sendInferTranspose( polarity, t2[0], ei->d_tp.get(), exp, true ); - } - // Process a membership constraint that a tuple is a member of product of rel - if( !ei->d_pt.get().isNull() ) { - Node exp = polarity ? explain(t2) : explain(t2.negate()); - if(ei->d_pt.get() != t2[1]) { - exp = AND( explain(EQUAL( ei->d_pt.get(), t2[1]) ), exp ); - } - sendInferProduct( polarity, t2[0], ei->d_pt.get(), exp ); - } - // Process a membership constraint that a tuple is a member of transitive closure of rel - if( polarity && !ei->d_tc.get().isNull() ) { - addTCMemAndSendInfer( ei, t2, Node::null() ); - } - - // Merge two relation eqcs - } else if( t1.getType().isSet() && t2.getType().isSet() && t1.getType().getSetElementType().isTuple() ) { - mergeTransposeEqcs(t1, t2); - mergeProductEqcs(t1, t2); - mergeTCEqcs(t1, t2); - } - - Trace("rels-std") << "[sets-rels] done with eqNotifyPostMerge:" << " t1 = " << t1 << " t2 = " << t2 << std::endl; - } - - void TheorySetsRels::mergeTCEqcs(Node t1, Node t2) { - Trace("rels-std") << "[sets-rels] Merge TC eqcs t1 = " << t1 << " and t2 = " << t2 << std::endl; - - EqcInfo* t1_ei = getOrMakeEqcInfo(t1); - EqcInfo* t2_ei = getOrMakeEqcInfo(t2); - - if(t1_ei != NULL && t2_ei != NULL) { - NodeSet::const_iterator non_mem_it = t2_ei->d_not_mem.begin(); - - while(non_mem_it != t2_ei->d_not_mem.end()) { - t1_ei->d_not_mem.insert(*non_mem_it); - non_mem_it++; - } - if(!t1_ei->d_tc.get().isNull()) { - NodeSet::const_iterator mem_it = t2_ei->d_mem.begin(); - - while(mem_it != t2_ei->d_mem.end()) { - addTCMemAndSendInfer(t1_ei, MEMBER(*mem_it, t2_ei->d_tc.get()), (*t2_ei->d_mem_exp.find(*mem_it)).second); - mem_it++; - } - } else if(!t2_ei->d_tc.get().isNull()) { - t1_ei->d_tc.set(t2_ei->d_tc); - NodeSet::const_iterator t1_mem_it = t1_ei->d_mem.begin(); - - while(t1_mem_it != t1_ei->d_mem.end()) { - NodeMap::const_iterator reason_it = t1_ei->d_mem_exp.find(*t1_mem_it); - Assert(reason_it != t1_ei->d_mem_exp.end()); - addTCMemAndSendInfer(t1_ei, MEMBER(*t1_mem_it, t1_ei->d_tc.get()), (*reason_it).second); - t1_mem_it++; - } - - NodeSet::const_iterator t2_mem_it = t2_ei->d_mem.begin(); - - while(t2_mem_it != t2_ei->d_mem.end()) { - addTCMemAndSendInfer(t1_ei, MEMBER(*t2_mem_it, t2_ei->d_tc.get()), (*t2_ei->d_mem_exp.find(*t2_mem_it)).second); - t2_mem_it++; - } - } - } - Trace("rels-std") << "[sets-rels] Done with merging TC eqcs t1 = " << t1 << " and t2 = " << t2 << std::endl; - } - - - - - void TheorySetsRels::mergeProductEqcs(Node t1, Node t2) { - Trace("rels-std") << "[sets-rels] Merge PRODUCT eqcs t1 = " << t1 << " and t2 = " << t2 << std::endl; - EqcInfo* t1_ei = getOrMakeEqcInfo(t1); - EqcInfo* t2_ei = getOrMakeEqcInfo(t2); - - if(t1_ei != NULL && t2_ei != NULL) { - // PT(t1) = PT(t2) -> t1 = t2; - if(!t1_ei->d_pt.get().isNull() && !t2_ei->d_pt.get().isNull()) { - sendInferProduct( true, t1_ei->d_pt.get(), t2_ei->d_pt.get(), explain(EQUAL(t1, t2)) ); - } - // Apply Product rule on (non)members of t2 and t1->pt - if(!t1_ei->d_pt.get().isNull()) { - for(NodeSet::key_iterator itr = t2_ei->d_mem.key_begin(); itr != t2_ei->d_mem.key_end(); itr++) { - if(!t1_ei->d_mem.contains(*itr)) { - sendInferProduct( true, *itr, t1_ei->d_pt.get(), AND(explain(EQUAL(t1_ei->d_pt.get(), t2)), explain(MEMBER(*itr, t2))) ); - } - } - for(NodeSet::key_iterator itr = t2_ei->d_not_mem.key_begin(); itr != t2_ei->d_not_mem.key_end(); itr++) { - if(!t1_ei->d_not_mem.contains(*itr)) { - sendInferProduct( false, *itr, t1_ei->d_pt.get(), AND(explain(EQUAL(t1_ei->d_pt.get(), t2)), explain(MEMBER(*itr, t2).negate())) ); - } - } - } else if(!t2_ei->d_pt.get().isNull()) { - t1_ei->d_pt.set(t2_ei->d_pt); - for(NodeSet::key_iterator itr = t1_ei->d_mem.key_begin(); itr != t1_ei->d_mem.key_end(); itr++) { - if(!t2_ei->d_mem.contains(*itr)) { - sendInferProduct( true, *itr, t2_ei->d_pt.get(), AND(explain(EQUAL(t1, t2_ei->d_pt.get())), explain(MEMBER(*itr, t1))) ); - } - } - for(NodeSet::key_iterator itr = t1_ei->d_not_mem.key_begin(); itr != t1_ei->d_not_mem.key_end(); itr++) { - if(!t2_ei->d_not_mem.contains(*itr)) { - sendInferProduct( false, *itr, t2_ei->d_pt.get(), AND(explain(EQUAL(t1, t2_ei->d_pt.get())), explain(MEMBER(*itr, t1).negate())) ); - } - } - } - // t1 was created already and t2 was not - } else if(t1_ei != NULL) { - if(t1_ei->d_pt.get().isNull() && t2.getKind() == kind::PRODUCT) { - t1_ei->d_pt.set( t2 ); - } - } else if(t2_ei != NULL){ - t1_ei = getOrMakeEqcInfo(t1, true); - if(t1_ei->d_pt.get().isNull() && !t2_ei->d_pt.get().isNull()) { - t1_ei->d_pt.set(t2_ei->d_pt); - for(NodeSet::key_iterator itr = t2_ei->d_mem.key_begin(); itr != t2_ei->d_mem.key_end(); itr++) { - t1_ei->d_mem.insert(*itr); - t1_ei->d_mem_exp.insert(*itr, t2_ei->d_mem_exp[*itr]); - } - for(NodeSet::key_iterator itr = t2_ei->d_not_mem.key_begin(); itr != t2_ei->d_not_mem.key_end(); itr++) { - t1_ei->d_not_mem.insert(*itr); - } - } - } - } - - void TheorySetsRels::mergeTransposeEqcs( Node t1, Node t2 ) { - Trace("rels-std") << "[sets-rels] Merge TRANSPOSE eqcs t1 = " << t1 << " and t2 = " << t2 << std::endl; - EqcInfo* t1_ei = getOrMakeEqcInfo( t1 ); - EqcInfo* t2_ei = getOrMakeEqcInfo( t2 ); - - if( t1_ei != NULL && t2_ei != NULL ) { - Trace("rels-std") << "[sets-rels] 0 Merge TRANSPOSE eqcs t1 = " << t1 << " and t2 = " << t2 << std::endl; - // TP(t1) = TP(t2) -> t1 = t2; - if( !t1_ei->d_tp.get().isNull() && !t2_ei->d_tp.get().isNull() ) { - sendInferTranspose( true, t1_ei->d_tp.get(), t2_ei->d_tp.get(), explain(EQUAL(t1, t2)) ); - } - // Apply transpose rule on (non)members of t2 and t1->tp - if( !t1_ei->d_tp.get().isNull() ) { - for( NodeSet::key_iterator itr = t2_ei->d_mem.key_begin(); itr != t2_ei->d_mem.key_end(); itr++ ) { - if( !t1_ei->d_mem.contains( *itr ) ) { - sendInferTranspose( true, *itr, t1_ei->d_tp.get(), AND(explain(EQUAL(t1_ei->d_tp.get(), t2)), explain(MEMBER(*itr, t2))) ); - } - } - for( NodeSet::key_iterator itr = t2_ei->d_not_mem.key_begin(); itr != t2_ei->d_not_mem.key_end(); itr++ ) { - if(!t1_ei->d_not_mem.contains(*itr)) { - sendInferTranspose( false, *itr, t1_ei->d_tp.get(), AND(explain(EQUAL(t1_ei->d_tp.get(), t2)), explain(MEMBER(*itr, t2).negate())) ); - } - } - // Apply transpose rule on (non)members of t1 and t2->tp - } else if( !t2_ei->d_tp.get().isNull() ) { - t1_ei->d_tp.set( t2_ei->d_tp ); - for( NodeSet::key_iterator itr = t1_ei->d_mem.key_begin(); itr != t1_ei->d_mem.key_end(); itr++ ) { - if( !t2_ei->d_mem.contains(*itr) ) { - sendInferTranspose( true, *itr, t2_ei->d_tp.get(), AND(explain(EQUAL(t1, t2_ei->d_tp.get())), explain(MEMBER(*itr, t1))) ); - } - } - for( NodeSet::key_iterator itr = t1_ei->d_not_mem.key_begin(); itr != t1_ei->d_not_mem.key_end(); itr++ ) { - if( !t2_ei->d_not_mem.contains(*itr) ) { - sendInferTranspose( false, *itr, t2_ei->d_tp.get(), AND( explain(EQUAL(t1, t2_ei->d_tp.get())), explain(MEMBER(*itr, t1).negate()) ) ); - } - } - } - // t1 was created already and t2 was not - } else if(t1_ei != NULL) { - if( t1_ei->d_tp.get().isNull() && t2.getKind() == kind::TRANSPOSE ) { - t1_ei->d_tp.set( t2 ); - } - } else if( t2_ei != NULL ){ - t1_ei = getOrMakeEqcInfo( t1, true ); - if( t1_ei->d_tp.get().isNull() && !t2_ei->d_tp.get().isNull() ) { - t1_ei->d_tp.set( t2_ei->d_tp ); - for( NodeSet::key_iterator itr = t2_ei->d_mem.key_begin(); itr != t2_ei->d_mem.key_end(); itr++ ) { - t1_ei->d_mem.insert( *itr ); - t1_ei->d_mem_exp.insert( *itr, t2_ei->d_mem_exp[*itr] ); - } - for( NodeSet::key_iterator itr = t2_ei->d_not_mem.key_begin(); itr != t2_ei->d_not_mem.key_end(); itr++ ) { - t1_ei->d_not_mem.insert( *itr ); - } - } - } - } - - void TheorySetsRels::doPendingMerge() { - for( NodeList::const_iterator itr = d_pending_merge.begin(); itr != d_pending_merge.end(); itr++ ) { - Trace("rels-std") << "[sets-rels-lemma] Process pending merge fact : " - << *itr << std::endl; - d_sets_theory.d_out->lemma( *itr ); - } - } - - void TheorySetsRels::sendInferTranspose( bool polarity, Node t1, Node t2, Node exp, bool reverseOnly ) { - Assert( t2.getKind() == kind::TRANSPOSE ); - if( polarity && isRel(t1) && isRel(t2) ) { - Assert(t1.getKind() == kind::TRANSPOSE); - Node n = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, EQUAL(t1[0], t2[0]) ); - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying transpose rule: " - << n << std::endl; - d_pending_merge.push_back( n ); - d_lemma.insert( n ); - return; - } - - Node n1; - if( reverseOnly ) { - if( polarity ) { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(RelsUtils::reverseTuple(t1), t2[0]) ); - } else { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(RelsUtils::reverseTuple(t1), t2[0]).negate() ); - } - } else { - Node n2; - if(polarity) { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(t1, t2) ); - n2 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(RelsUtils::reverseTuple(t1), t2[0]) ); - } else { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(t1, t2).negate() ); - n2 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER(RelsUtils::reverseTuple(t1), t2[0]).negate() ); - } - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying transpose rule: " - << n2 << std::endl; - d_pending_merge.push_back(n2); - d_lemma.insert(n2); - } - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying transpose rule: " - << n1 << std::endl; - d_pending_merge.push_back(n1); - d_lemma.insert(n1); - - } - - void TheorySetsRels::sendInferProduct( bool polarity, Node t1, Node t2, Node exp ) { - Assert( t2.getKind() == kind::PRODUCT ); - if( polarity && isRel(t1) && isRel(t2) ) { - //PRODUCT(x) = PRODUCT(y) => x = y; - Assert( t1.getKind() == kind::PRODUCT ); - Node n = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, EQUAL(t1[0], t2[0]) ); - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying product rule: " - << n << std::endl; - d_pending_merge.push_back( n ); - d_lemma.insert( n ); - return; - } - - std::vector r1_element; - std::vector r2_element; - Node r1 = t2[0]; - Node r2 = t2[1]; - NodeManager *nm = NodeManager::currentNM(); - Datatype dt = r1.getType().getSetElementType().getDatatype(); - unsigned int i = 0; - unsigned int s1_len = r1.getType().getSetElementType().getTupleLength(); - unsigned int tup_len = t2.getType().getSetElementType().getTupleLength(); - - r1_element.push_back(Node::fromExpr(dt[0].getConstructor())); - for( ; i < s1_len; ++i ) { - r1_element.push_back( RelsUtils::nthElementOfTuple( t1, i ) ); - } - - dt = r2.getType().getSetElementType().getDatatype(); - r2_element.push_back( Node::fromExpr( dt[0].getConstructor() ) ); - for( ; i < tup_len; ++i ) { - r2_element.push_back( RelsUtils::nthElementOfTuple(t1, i) ); - } - - Node n1; - Node n2; - Node tuple_1 = getRepresentative( nm->mkNode( kind::APPLY_CONSTRUCTOR, r1_element ) ); - Node tuple_2 = getRepresentative( nm->mkNode( kind::APPLY_CONSTRUCTOR, r2_element ) ); - - if( polarity ) { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER( tuple_1, r1 ) ); - n2 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER( tuple_2, r2 ) ); - } else { - n1 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER( tuple_1, r1 ).negate() ); - n2 = NodeManager::currentNM()->mkNode( kind::IMPLIES, exp, MEMBER( tuple_2, r2 ).negate() ); - } - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying product-split rule: " - << n1 << std::endl; - d_pending_merge.push_back( n1 ); - d_lemma.insert( n1 ); - Trace("rels-std") << "[sets-rels-lemma] Generate a lemma by applying product-split rule: " - << n2 << std::endl; - d_pending_merge.push_back( n2 ); - d_lemma.insert( n2 ); - - } - - TheorySetsRels::EqcInfo* TheorySetsRels::getOrMakeEqcInfo( Node n, bool doMake ){ - std::map< Node, EqcInfo* >::iterator eqc_i = d_eqc_info.find( n ); - if( eqc_i == d_eqc_info.end() ){ - if( doMake ){ - EqcInfo* ei; - if( eqc_i!=d_eqc_info.end() ){ - ei = eqc_i->second; - }else{ - ei = new EqcInfo(d_sets_theory.getSatContext()); - d_eqc_info[n] = ei; - } - if( n.getKind() == kind::TRANSPOSE ){ - ei->d_tp = n; - } else if( n.getKind() == kind::PRODUCT ) { - ei->d_pt = n; - } else if( n.getKind() == kind::TCLOSURE ) { - ei->d_tc = n; - } else if( n.getKind() == kind::JOIN ) { - ei->d_join = n; - } - return ei; - }else{ - return NULL; - } - }else{ - return (*eqc_i).second; - } - } - - - Node TheorySetsRels::mkAnd( std::vector& conjunctions ) { - Assert(conjunctions.size() > 0); - std::set all; - - for (unsigned i = 0; i < conjunctions.size(); ++i) { - TNode t = conjunctions[i]; - if (t.getKind() == kind::AND) { - for(TNode::iterator child_it = t.begin(); - child_it != t.end(); ++child_it) { - Assert((*child_it).getKind() != kind::AND); - all.insert(*child_it); - } - } - else { - all.insert(t); - } - } - Assert(all.size() > 0); - if (all.size() == 1) { - // All the same, or just one - return conjunctions[0]; - } - - NodeBuilder<> conjunction(kind::AND); - std::set::const_iterator it = all.begin(); - std::set::const_iterator it_end = all.end(); - while (it != it_end) { - conjunction << *it; - ++ it; - } - - return conjunction; - }/* mkAnd() */ - - void TheorySetsRels::printNodeMap(char* fst, char* snd, NodeMap map) { - NodeMap::iterator map_it = map.begin(); - while(map_it != map.end()) { - Trace("rels-debug") << fst << " "<< (*map_it).first << " " << snd << " " << (*map_it).second<< std::endl; - map_it++; - } - } - - bool TheorySetsRels::addId( std::map< int, std::vector< int > >& id_map, int key, int id ) { - int n_data = d_vec_size[key]; - int len = n_data < id_map[key].size() ? n_data : id_map[key].size(); - - for( int i = 0; i < len; i++ ) { - if( id_map[key][i] == id) { - return false; - } - } - if( n_data < id_map[key].size() ) { - id_map[key][n_data] = id; - } else { - id_map[key].push_back( id ); - } - d_vec_size[key] = n_data+1; - return true; - } - - std::vector< int > TheorySetsRels::getIdList( std::map< int, std::vector< int > >& id_map, int key ) { - std::vector< int > id_list; - int n_data = d_vec_size[key]; - int len = n_data < id_map[key].size() ? n_data : id_map[key].size(); - - for( int i = 0; i < len; i++ ) { - id_list.push_back(id_map[key][i]); - } - return id_list; - } - -} -} -} - - - - - - - - - - - - - diff --git a/src/theory/sets/theory_sets_rels.h b/src/theory/sets/theory_sets_rels.h deleted file mode 100644 index 83f9bf5d4..000000000 --- a/src/theory/sets/theory_sets_rels.h +++ /dev/null @@ -1,261 +0,0 @@ -/********************* */ -/*! \file theory_sets_rels.h - ** \verbatim - ** Original author: Paul Meng - ** Major contributors: none - ** Minor contributors (to current version): none - ** This file is part of the CVC4 project. - ** Copyright (c) 2009-2014 New York University and The University of Iowa - ** See the file COPYING in the top-level source directory for licensing - ** information.\endverbatim - ** - ** \brief Sets theory implementation. - ** - ** Extension to Sets theory. - **/ - -#ifndef SRC_THEORY_SETS_THEORY_SETS_RELS_H_ -#define SRC_THEORY_SETS_THEORY_SETS_RELS_H_ - -#include "theory/theory.h" -#include "theory/uf/equality_engine.h" -#include "context/cdhashset.h" -#include "context/cdchunk_list.h" -#include "theory/sets/rels_utils.h" - -namespace CVC4 { -namespace theory { -namespace sets { - -class TheorySets; - - -class TupleTrie { -public: - /** the data */ - std::map< Node, TupleTrie > d_data; -public: - std::vector findTerms( std::vector< Node >& reps, int argIndex = 0 ); - Node existsTerm( std::vector< Node >& reps, int argIndex = 0 ); - bool addTerm( Node n, std::vector< Node >& reps, int argIndex = 0 ); - void debugPrint( const char * c, Node n, unsigned depth = 0 ); - void clear() { d_data.clear(); } -};/* class TupleTrie */ - -class TheorySetsRels { - - typedef context::CDChunkList< Node > NodeList; - typedef context::CDChunkList< int > IdList; - typedef context::CDHashMap< int, IdList* > IdListMap; - typedef context::CDHashSet< Node, NodeHashFunction > NodeSet; - typedef context::CDHashMap< Node, bool, NodeHashFunction > NodeBoolMap; - typedef context::CDHashMap< Node, NodeList*, NodeHashFunction > NodeListMap; - typedef context::CDHashMap< Node, NodeSet*, NodeHashFunction > NodeSetMap; - typedef context::CDHashMap< Node, Node, NodeHashFunction > NodeMap; - -public: - TheorySetsRels(context::Context* c, - context::UserContext* u, - eq::EqualityEngine*, - context::CDO*, - TheorySets&); - - ~TheorySetsRels(); - void check(Theory::Effort); - void doPendingLemmas(); - -private: - /** equivalence class info - * d_mem tuples that are members of this equivalence class - * d_not_mem tuples that are not members of this equivalence class - * d_tp is a node of kind TRANSPOSE (if any) in this equivalence class, - * d_pt is a node of kind PRODUCT (if any) in this equivalence class, - * d_join is a node of kind JOIN (if any) in this equivalence class, - * d_tc is a node of kind TCLOSURE (if any) in this equivalence class, - */ - class EqcInfo - { - public: - EqcInfo( context::Context* c ); - ~EqcInfo(){} - static int counter; - NodeSet d_mem; - NodeSet d_not_mem; - NodeMap d_mem_exp; - NodeListMap d_in; - NodeListMap d_out; - context::CDO< Node > d_tp; - context::CDO< Node > d_pt; - context::CDO< Node > d_join; - context::CDO< Node > d_tc; - /** mapping from an element rep id to a list of rep ids that pointed by */ - /** Context dependent map Int -> IntList */ - std::map< int, std::vector< int > > d_id_inIds; - /** mapping from an element rep id to a list of rep ids that point to */ - /** Context dependent map Int -> IntList */ - std::map< int, std::vector< int > > d_id_outIds; - }; - -private: - /** Context */ - context::CDHashMap< int, int > d_vec_size; - - /** Mapping between integer id and tuple element rep */ - std::map< int, Node > d_id_node; - - /** Mapping between tuple element rep and integer id*/ - std::map< Node, int > d_node_id; - - /** has eqc info */ - bool hasEqcInfo( TNode n ) { return d_eqc_info.find( n )!=d_eqc_info.end(); } - - bool addId( std::map< int, std::vector< int > >& id_map, int key, int id ); - std::vector< int > getIdList( std::map< int, std::vector< int > >& id_map, int key ); - - void collectReachableNodes(std::map< int, std::vector< int > >& id_map, int start_id, std::hash_set& reachable_set, bool firstRound=true); - - -private: - eq::EqualityEngine *d_eqEngine; - context::CDO *d_conflict; - TheorySets& d_sets_theory; - - /** True and false constant nodes */ - Node d_trueNode; - Node d_falseNode; - - /** Facts and lemmas to be sent to EE */ - std::map< Node, Node > d_pending_facts; - std::map< Node, Node > d_pending_split_facts; - std::vector< Node > d_lemma_cache; - NodeList d_pending_merge; - - /** inferences: maintained to ensure ref count for internally introduced nodes */ - NodeList d_infer; - NodeList d_infer_exp; - NodeSet d_lemma; - NodeSet d_shared_terms; - - /** Relations that have been applied JOIN, PRODUCT, TC composition rules */ - std::hash_set< Node, NodeHashFunction > d_rel_nodes; - std::map< Node, std::vector > d_tuple_reps; - std::map< Node, TupleTrie > d_membership_trie; - - /** Symbolic tuple variables that has been reduced to concrete ones */ - std::hash_set< Node, NodeHashFunction > d_symbolic_tuples; - - /** Mapping between relation and its (non)members representatives */ - std::map< Node, std::vector > d_membership_constraints_cache; - - /** Mapping between relation and its (non)members' explanation */ - std::map< Node, std::vector > d_membership_exp_cache; - - /** Mapping between relation and its member representatives */ - std::map< Node, std::vector > d_membership_db; - - /** Mapping between relation and its members' explanation */ - std::map< Node, std::vector > d_membership_exp_db; - - /** Mapping between a relation representative and its equivalent relations involving relational operators */ - std::map< Node, std::map > > d_terms_cache; - - /** Mapping between relation and its member representatives */ - std::map< Node, std::vector > d_arg_rep_tp_terms; - - /** Mapping between TC(r) and one explanation when building TC graph*/ - std::map< Node, Node > d_membership_tc_exp_cache; - - /** Mapping between transitive closure relation TC(r) (is not necessary a representative) and members directly asserted members */ - std::map< Node, std::hash_set > d_tc_membership_db; - - /** Mapping between transitive closure relation TC(r) and its TC graph constructed based on the members of r*/ - std::map< Node, std::map< Node, std::hash_set > > d_tc_r_graph; - - /** Mapping between transitive closure TC(r)'s representative and TC(r) */ - std::map< Node, Node > d_tc_rep_term; - std::map< Node, EqcInfo* > d_eqc_info; - -public: - void eqNotifyNewClass(Node t); - void eqNotifyPostMerge(Node t1, Node t2); - -private: - - void doPendingMerge(); - Node findTCMemExp(EqcInfo*, Node); - void buildTCAndExp(Node, EqcInfo*); - void mergeTCEqcs(Node t1, Node t2); - void mergeTCEqcExp(EqcInfo*, EqcInfo*); - void mergeProductEqcs(Node t1, Node t2); - int getOrMakeElementRepId(EqcInfo*, Node); - void mergeTransposeEqcs(Node t1, Node t2); - Node explainTCMem(EqcInfo*, Node, Node, Node); - void sendInferProduct(bool, Node, Node, Node); - EqcInfo* getOrMakeEqcInfo( Node n, bool doMake = false ); - void sendInferTranspose(bool, Node, Node, Node, bool reverseOnly = false); - void addTCMemAndSendInfer(EqcInfo* tc_ei, Node mem, Node exp, bool fromRel = false); - void sendTCInference(EqcInfo* tc_ei, std::hash_set in_reachable, std::hash_set out_reachable, Node mem_rep, Node fst_rep, Node snd_rep, int id1, int id2); - - - - void check(); - Node explain(Node); - void collectRelsInfo(); - void applyTCRule( Node, Node ); - void applyJoinRule( Node, Node ); - void applyProductRule( Node, Node ); - void composeTupleMemForRel( Node ); - void assertMembership( Node fact, Node reason, bool polarity ); - void applyTransposeRule( Node, Node, Node more_reason = Node::null(), bool tp_occur_rule = false ); - - - - void computeMembersForRel( Node ); - void computeMembersForTpRel( Node ); - void finalizeTCInference(); - void inferTC( Node, std::map< Node, std::hash_set< Node, NodeHashFunction > >& ); - void inferTC( Node, Node, std::map< Node, std::hash_set< Node, NodeHashFunction > >&, - Node, Node, std::hash_set< Node, NodeHashFunction >&); - void isTCReachable(Node fst, Node snd, std::hash_set& hasSeen, - std::map< Node, std::hash_set< Node, NodeHashFunction > >& tc_graph, bool&); - std::map< Node, std::hash_set< Node, NodeHashFunction > > constructTCGraph( Node, Node, Node ); - - - void doTCLemmas(); - void addSharedTerm( TNode n ); - void sendInfer( Node fact, Node exp, const char * c ); - void sendLemma( Node fact, Node reason, const char * c ); - void checkTCGraphForConflict( Node, Node, Node, Node, Node, std::map< Node, std::hash_set< Node, NodeHashFunction > >& ); - - // Helper functions - bool holds( Node ); - bool hasTerm( Node a ); - void makeSharedTerm( Node ); - void reduceTupleVar( Node ); - bool hasMember( Node, Node ); - void computeTupleReps( Node ); - bool areEqual( Node a, Node b ); - Node getRepresentative( Node t ); - Node findMemExp(Node r, Node pair); - bool insertIntoIdList(IdList&, int); - bool exists( std::vector&, Node ); - Node mkAnd( std::vector< TNode >& assumptions ); - inline void addToMembershipDB( Node, Node, Node ); - void printNodeMap(char* fst, char* snd, NodeMap map); - inline Node constructPair(Node tc_rep, Node a, Node b); - void addToMap( std::map< Node, std::vector >&, Node, Node ); - bool safelyAddToMap( std::map< Node, std::vector >&, Node, Node ); - inline Node getReason(Node tc_rep, Node tc_term, Node tc_r_rep, Node tc_r); - bool isRel( Node n ) {return n.getType().isSet() && n.getType().getSetElementType().isTuple();} - - -}; - - -}/* CVC4::theory::sets namespace */ -}/* CVC4::theory namespace */ -}/* CVC4 namespace */ - - - -#endif /* SRC_THEORY_SETS_THEORY_SETS_RELS_H_ */ diff --git a/src/theory/sets/theory_sets_rewriter.cpp b/src/theory/sets/theory_sets_rewriter.cpp index 5204dcaed..8dbca1e73 100644 --- a/src/theory/sets/theory_sets_rewriter.cpp +++ b/src/theory/sets/theory_sets_rewriter.cpp @@ -16,8 +16,6 @@ #include "theory/sets/theory_sets_rewriter.h" #include "theory/sets/normal_form.h" -#include "theory/sets/theory_sets_rels.h" -#include "theory/sets/rels_utils.h" #include "expr/attribute.h" #include "options/sets_options.h" @@ -317,145 +315,6 @@ RewriteResponse TheorySetsRewriter::postRewrite(TNode node) { } } - case kind::TRANSPOSE: { - if(node[0].getKind() == kind::TRANSPOSE) { - return RewriteResponse(REWRITE_AGAIN, node[0][0]); - } - - if(node[0].getKind() == kind::EMPTYSET) { - return RewriteResponse(REWRITE_DONE, nm->mkConst(EmptySet(nm->toType(node.getType())))); - } else if(node[0].isConst()) { - std::set new_tuple_set; - std::set tuple_set = NormalForm::getElementsFromNormalConstant(node[0]); - std::set::iterator tuple_it = tuple_set.begin(); - - while(tuple_it != tuple_set.end()) { - new_tuple_set.insert(RelsUtils::reverseTuple(*tuple_it)); - tuple_it++; - } - Node new_node = NormalForm::elementsToSet(new_tuple_set, node.getType()); - Assert(new_node.isConst()); - Trace("sets-postrewrite") << "Sets::postRewrite returning " << new_node << std::endl; - return RewriteResponse(REWRITE_DONE, new_node); - - } - if(node[0].getKind() != kind::TRANSPOSE) { - Trace("sets-postrewrite") << "Sets::postRewrite returning " << node << std::endl; - return RewriteResponse(REWRITE_DONE, node); - } - break; - } - - case kind::PRODUCT: { - Trace("sets-rels-postrewrite") << "Sets::postRewrite processing " << node << std::endl; - if( node[0].getKind() == kind::EMPTYSET || - node[1].getKind() == kind::EMPTYSET) { - return RewriteResponse(REWRITE_DONE, nm->mkConst(EmptySet(nm->toType(node.getType())))); - } else if( node[0].isConst() && node[1].isConst() ) { - Trace("sets-rels-postrewrite") << "Sets::postRewrite processing **** " << node << std::endl; - std::set new_tuple_set; - std::set left = NormalForm::getElementsFromNormalConstant(node[0]); - std::set right = NormalForm::getElementsFromNormalConstant(node[1]); - std::set::iterator left_it = left.begin(); - int left_len = (*left_it).getType().getTupleLength(); - TypeNode tn = node.getType().getSetElementType(); - while(left_it != left.end()) { - Trace("rels-debug") << "Sets::postRewrite processing left_it = " << *left_it << std::endl; - std::vector left_tuple; - left_tuple.push_back(Node::fromExpr(tn.getDatatype()[0].getConstructor())); - for(int i = 0; i < left_len; i++) { - left_tuple.push_back(RelsUtils::nthElementOfTuple(*left_it,i)); - } - std::set::iterator right_it = right.begin(); - int right_len = (*right_it).getType().getTupleLength(); - while(right_it != right.end()) { - Trace("rels-debug") << "Sets::postRewrite processing left_it = " << *right_it << std::endl; - std::vector right_tuple; - for(int j = 0; j < right_len; j++) { - right_tuple.push_back(RelsUtils::nthElementOfTuple(*right_it,j)); - } - std::vector new_tuple; - new_tuple.insert(new_tuple.end(), left_tuple.begin(), left_tuple.end()); - new_tuple.insert(new_tuple.end(), right_tuple.begin(), right_tuple.end()); - Node composed_tuple = NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, new_tuple); - new_tuple_set.insert(composed_tuple); - right_it++; - } - left_it++; - } - Node new_node = NormalForm::elementsToSet(new_tuple_set, node.getType()); - Assert(new_node.isConst()); - Trace("sets-postrewrite") << "Sets::postRewrite returning " << new_node << std::endl; - return RewriteResponse(REWRITE_DONE, new_node); - } - break; - } - - case kind::JOIN: { - if( node[0].getKind() == kind::EMPTYSET || - node[1].getKind() == kind::EMPTYSET) { - return RewriteResponse(REWRITE_DONE, nm->mkConst(EmptySet(nm->toType(node.getType())))); - } else if( node[0].isConst() && node[1].isConst() ) { - Trace("sets-rels-postrewrite") << "Sets::postRewrite processing " << node << std::endl; - std::set new_tuple_set; - std::set left = NormalForm::getElementsFromNormalConstant(node[0]); - std::set right = NormalForm::getElementsFromNormalConstant(node[1]); - std::set::iterator left_it = left.begin(); - int left_len = (*left_it).getType().getTupleLength(); - TypeNode tn = node.getType().getSetElementType(); - while(left_it != left.end()) { - std::vector left_tuple; - left_tuple.push_back(Node::fromExpr(tn.getDatatype()[0].getConstructor())); - for(int i = 0; i < left_len - 1; i++) { - left_tuple.push_back(RelsUtils::nthElementOfTuple(*left_it,i)); - } - std::set::iterator right_it = right.begin(); - int right_len = (*right_it).getType().getTupleLength(); - while(right_it != right.end()) { - if(RelsUtils::nthElementOfTuple(*left_it,left_len-1) == RelsUtils::nthElementOfTuple(*right_it,0)) { - std::vector right_tuple; - for(int j = 1; j < right_len; j++) { - right_tuple.push_back(RelsUtils::nthElementOfTuple(*right_it,j)); - } - std::vector new_tuple; - new_tuple.insert(new_tuple.end(), left_tuple.begin(), left_tuple.end()); - new_tuple.insert(new_tuple.end(), right_tuple.begin(), right_tuple.end()); - Node composed_tuple = NodeManager::currentNM()->mkNode(kind::APPLY_CONSTRUCTOR, new_tuple); - new_tuple_set.insert(composed_tuple); - } - right_it++; - } - left_it++; - } - Node new_node = NormalForm::elementsToSet(new_tuple_set, node.getType()); - Assert(new_node.isConst()); - Trace("sets-postrewrite") << "Sets::postRewrite returning " << new_node << std::endl; - return RewriteResponse(REWRITE_DONE, new_node); - } - - break; - } - - case kind::TCLOSURE: { - if(node[0].getKind() == kind::EMPTYSET) { - return RewriteResponse(REWRITE_DONE, nm->mkConst(EmptySet(nm->toType(node.getType())))); - } else if (node[0].isConst()) { - std::set rel_mems = NormalForm::getElementsFromNormalConstant(node[0]); - std::set tc_rel_mems = RelsUtils::computeTC(rel_mems, node); - Node new_node = NormalForm::elementsToSet(tc_rel_mems, node.getType()); - Assert(new_node.isConst()); - Trace("sets-postrewrite") << "Sets::postRewrite returning " << new_node << std::endl; - return RewriteResponse(REWRITE_DONE, new_node); - - } else if(node[0].getKind() == kind::TCLOSURE) { - return RewriteResponse(REWRITE_AGAIN, node[0]); - } else if(node[0].getKind() != kind::TCLOSURE) { - Trace("sets-postrewrite") << "Sets::postRewrite returning " << node << std::endl; - return RewriteResponse(REWRITE_DONE, node); - } - break; - } - default: break; }//switch(node.getKind()) diff --git a/src/theory/sets/theory_sets_type_rules.h b/src/theory/sets/theory_sets_type_rules.h index 89d481746..7a8d7eed4 100644 --- a/src/theory/sets/theory_sets_type_rules.h +++ b/src/theory/sets/theory_sets_type_rules.h @@ -105,7 +105,7 @@ struct MemberTypeRule { throw TypeCheckingExceptionPrivate(n, "checking for membership in a non-set"); } TypeNode elementType = n[0].getType(check); - if(!setType.getSetElementType().isSubtypeOf(elementType)) { + if(elementType != setType.getSetElementType()) { throw TypeCheckingExceptionPrivate(n, "member operating on sets of different types"); } } @@ -183,97 +183,6 @@ struct InsertTypeRule { } };/* struct InsertTypeRule */ -struct RelBinaryOperatorTypeRule { - inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) - throw (TypeCheckingExceptionPrivate, AssertionException) { - Assert(n.getKind() == kind::PRODUCT || - n.getKind() == kind::JOIN); - - TypeNode firstRelType = n[0].getType(check); - TypeNode secondRelType = n[1].getType(check); - TypeNode resultType = firstRelType; - - if(!firstRelType.isSet() || !secondRelType.isSet()) { - throw TypeCheckingExceptionPrivate(n, " set operator operates on non-sets"); - } - if(!firstRelType[0].isTuple() || !secondRelType[0].isTuple()) { - throw TypeCheckingExceptionPrivate(n, " set operator operates on non-relations (sets of tuples)"); - } - - std::vector newTupleTypes; - std::vector firstTupleTypes = firstRelType[0].getTupleTypes(); - std::vector secondTupleTypes = secondRelType[0].getTupleTypes(); - - // JOIN is not allowed to apply on two unary sets - if( n.getKind() == kind::JOIN ) { - if((firstTupleTypes.size() == 1) && (secondTupleTypes.size() == 1)) { - throw TypeCheckingExceptionPrivate(n, " Join operates on two unary relations"); - } else if(firstTupleTypes.back() != secondTupleTypes.front()) { - throw TypeCheckingExceptionPrivate(n, " Join operates on two non-joinable relations"); - } - newTupleTypes.insert(newTupleTypes.end(), firstTupleTypes.begin(), firstTupleTypes.end()-1); - newTupleTypes.insert(newTupleTypes.end(), secondTupleTypes.begin()+1, secondTupleTypes.end()); - }else if( n.getKind() == kind::PRODUCT ) { - newTupleTypes.insert(newTupleTypes.end(), firstTupleTypes.begin(), firstTupleTypes.end()); - newTupleTypes.insert(newTupleTypes.end(), secondTupleTypes.begin(), secondTupleTypes.end()); - } - resultType = nodeManager->mkSetType(nodeManager->mkTupleType(newTupleTypes)); - - return resultType; - } - - inline static bool computeIsConst(NodeManager* nodeManager, TNode n) { - Assert(n.getKind() == kind::JOIN || - n.getKind() == kind::PRODUCT); - return false; - } -};/* struct RelBinaryOperatorTypeRule */ - -struct RelTransposeTypeRule { - inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) - throw (TypeCheckingExceptionPrivate, AssertionException) { - Assert(n.getKind() == kind::TRANSPOSE); - TypeNode setType = n[0].getType(check); - if(check && !setType.isSet() && !setType.getSetElementType().isTuple()) { - throw TypeCheckingExceptionPrivate(n, "relation transpose operats on non-relation"); - } - std::vector tupleTypes = setType[0].getTupleTypes(); - std::reverse(tupleTypes.begin(), tupleTypes.end()); - return nodeManager->mkSetType(nodeManager->mkTupleType(tupleTypes)); - } - - inline static bool computeIsConst(NodeManager* nodeManager, TNode n) { - return false; - } -};/* struct RelTransposeTypeRule */ - -struct RelTransClosureTypeRule { - inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) - throw (TypeCheckingExceptionPrivate, AssertionException) { - Assert(n.getKind() == kind::TCLOSURE); - TypeNode setType = n[0].getType(check); - if(check) { - if(!setType.isSet() && !setType.getSetElementType().isTuple()) { - throw TypeCheckingExceptionPrivate(n, " transitive closure operates on non-relation"); - } - std::vector tupleTypes = setType[0].getTupleTypes(); - if(tupleTypes.size() != 2) { - throw TypeCheckingExceptionPrivate(n, " transitive closure operates on non-binary relations"); - } - if(tupleTypes[0] != tupleTypes[1]) { - throw TypeCheckingExceptionPrivate(n, " transitive closure operates on non-homogeneous binary relations"); - } - } - return setType; - } - - inline static bool computeIsConst(NodeManager* nodeManager, TNode n) { - Assert(n.getKind() == kind::TCLOSURE); - return false; - } -};/* struct RelTransClosureTypeRule */ - - struct SetsProperties { inline static Cardinality computeCardinality(TypeNode type) { Assert(type.getKind() == kind::SET_TYPE); -- cgit v1.2.3