mirrors/z3
3
0
Fork 0
mirror of https://github.com/Z3Prover/z3 synced 2025-04-11 03:33:35 +00:00
Code Activity
z3/lib/dl_product_relation.h
Leonardo de Moura e9eab22e5c Z3 sources 
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2012-10-02 11:35:25 -07:00

177 lines
6.5 KiB
C++
Raw Blame History

/*++
Copyright (c) 2010 Microsoft Corporation
Module Name:
dl_product_relation.h
Abstract:
A Relation relation combinator.
Author:
Nikolaj Bjorner (nbjorner) 2010-4-11
Revision History:
--*/
#ifndef _DL_PRODUCT_RELATION_H_
#define _DL_PRODUCT_RELATION_H_
#include "dl_context.h"
namespace datalog {
class product_relation;
class product_relation_plugin : public relation_plugin {
friend class product_relation;
public:
typedef svector<family_id> rel_spec;
private:
class join_fn;
class transform_fn;
class mutator_fn;
class aligned_union_fn;
class unaligned_union_fn;
class single_non_transparent_src_union_fn;
class filter_equal_fn;
class filter_identical_fn;
class filter_interpreted_fn;
rel_spec_store<rel_spec> m_spec_store;
family_id get_relation_kind(const product_relation & r);
bool is_product_relation(relation_base * r) { return r->get_plugin().is_product_relation(); }
public:
static product_relation_plugin& get_plugin(relation_manager & rmgr);
product_relation_plugin(relation_manager& m);
virtual void initialize(family_id fid);
virtual bool can_handle_signature(const relation_signature & s);
virtual bool can_handle_signature(const relation_signature & s, family_id kind);
static symbol get_name() { return symbol("product_relation"); }
family_id get_relation_kind(const relation_signature & sig, const rel_spec & spec);
virtual relation_base * mk_empty(const relation_signature & s);
virtual relation_base * mk_empty(const relation_signature & s, family_id kind);
virtual relation_base * mk_full(func_decl* p, const relation_signature & s);
virtual relation_base * mk_full(func_decl* p, const relation_signature & s, family_id kind);
protected:
virtual relation_join_fn * mk_join_fn(const relation_base & t1, const relation_base & t2,
unsigned col_cnt, const unsigned * cols1, const unsigned * cols2);
virtual relation_transformer_fn * mk_project_fn(const relation_base & t, unsigned col_cnt,
const unsigned * removed_cols);
virtual relation_transformer_fn * mk_rename_fn(const relation_base & t, unsigned permutation_cycle_len,
const unsigned * permutation_cycle);
virtual relation_union_fn * mk_union_fn(const relation_base & tgt, const relation_base & src,
const relation_base * delta);
virtual relation_union_fn * mk_widen_fn(const relation_base & tgt, const relation_base & src,
const relation_base * delta);
virtual relation_mutator_fn * mk_filter_identical_fn(const relation_base & t, unsigned col_cnt,
const unsigned * identical_cols);
virtual relation_mutator_fn * mk_filter_equal_fn(const relation_base & t, const relation_element & value,
unsigned col);
virtual relation_mutator_fn * mk_filter_interpreted_fn(const relation_base & t, app * condition);
static bool is_product_relation(relation_base const& r);
private:
static product_relation& get(relation_base& r);
static product_relation const & get(relation_base const& r);
static product_relation* get(relation_base* r);
static product_relation const* get(relation_base const* r);
relation_union_fn * mk_union_w_fn(const relation_base & tgt, const relation_base & src,
const relation_base * delta, bool is_widen);
bool are_aligned(const product_relation& r1, const product_relation& r2);
static void get_common_spec(const ptr_vector<const product_relation> & rels, rel_spec & res);
};
class product_relation : public relation_base {
friend class product_relation_plugin;
friend class product_relation_plugin::join_fn;
friend class product_relation_plugin::transform_fn;
friend class product_relation_plugin::mutator_fn;
friend class product_relation_plugin::aligned_union_fn;
friend class product_relation_plugin::unaligned_union_fn;
friend class product_relation_plugin::single_non_transparent_src_union_fn;
friend class product_relation_plugin::filter_equal_fn;
friend class product_relation_plugin::filter_identical_fn;
friend class product_relation_plugin::filter_interpreted_fn;
typedef product_relation_plugin::rel_spec rel_spec;
/**
If m_relations is empty, value of this determines whether the relation is empty or full.
*/
bool m_default_empty;
/**
There must not be two relations of the same kind
*/
ptr_vector<relation_base> m_relations;
/**
Array of kinds of inner relations.
If two product relations have equal signature and specification, their
m_relations arrays contain corresponding relations at the same indexes.
The value returned by get_kind() depends uniquely on the specification.
*/
rel_spec m_spec;
/**
\brief Ensure the kind assigned to this relation reflects the types of inner relations.
*/
void ensure_correct_kind();
/**
The current specification must be a subset of the new one.
*/
void convert_spec(const rel_spec & spec);
public:
product_relation(product_relation_plugin& p, relation_signature const& s);
product_relation(product_relation_plugin& p, relation_signature const& s, unsigned num_relations, relation_base** relations);
~product_relation();
virtual bool empty() const;
virtual void add_fact(const relation_fact & f);
virtual bool contains_fact(const relation_fact & f) const;
virtual product_relation * clone() const;
virtual product_relation * complement(func_decl* p) const;
virtual void display(std::ostream & out) const;
virtual void to_formula(expr_ref& fml) const;
product_relation_plugin& get_plugin() const;
unsigned size() const { return m_relations.size(); }
relation_base& operator[](unsigned i) const { return *m_relations[i]; }
/**
If all relations except one are sieve_relations with no inner columns,
return true and into \c idx assign index of that relation. Otherwise return
false.
*/
bool try_get_single_non_transparent(unsigned & idx) const;
};
};
#endif
View git blame Copy permalink