Copyright (c) 2006 Microsoft Corporation
Module Name:
array_decl_plugin.h
Abstract:
<abstract>
Author:
Leonardo de Moura (leonardo) 2008-01-09.
Revision History:
--*/
#pragma once
#include "ast/ast.h"
inline sort* get_array_range(sort const * s) {
return to_sort(s->get_parameter(s->get_num_parameters() - 1).get_ast());
}
inline unsigned get_array_arity(sort const * s) {
return s->get_num_parameters() -1;
}
inline sort* get_array_domain(sort const * s, unsigned idx) {
return to_sort(s->get_parameter(idx).get_ast());
}
enum array_sort_kind {
ARRAY_SORT,
_SET_SORT
};
enum array_op_kind {
OP_STORE,
OP_SELECT,
OP_CONST_ARRAY,
OP_ARRAY_EXT,
OP_ARRAY_DEFAULT,
OP_ARRAY_MAP,
OP_SET_UNION,
OP_SET_INTERSECT,
OP_SET_DIFFERENCE,
OP_SET_COMPLEMENT,
OP_SET_SUBSET,
OP_SET_HAS_SIZE,
OP_SET_CARD,
OP_AS_ARRAY,
LAST_ARRAY_OP
};
class array_decl_plugin : public decl_plugin {
symbol m_store_sym;
symbol m_select_sym;
symbol m_const_sym;
symbol m_default_sym;
symbol m_map_sym;
symbol m_set_union_sym;
symbol m_set_intersect_sym;
symbol m_set_difference_sym;
symbol m_set_complement_sym;
symbol m_set_subset_sym;
symbol m_array_ext_sym;
symbol m_as_array_sym;
symbol m_set_has_size_sym;
symbol m_set_card_sym;
bool check_set_arguments(unsigned arity, sort * const * domain);
func_decl * mk_const(sort* ty, unsigned arity, sort * const * domain);
func_decl * mk_map(func_decl* f, unsigned arity, sort* const* domain);
func_decl * mk_default(unsigned arity, sort* const* domain);
func_decl * mk_select(unsigned arity, sort * const * domain);
func_decl * mk_store(unsigned arity, sort * const * domain);
func_decl * mk_array_ext(unsigned arity, sort * const * domain, unsigned i);
func_decl * mk_set_union(unsigned arity, sort * const * domain);
func_decl * mk_set_intersect(unsigned arity, sort * const * domain);
func_decl * mk_set_difference(unsigned arity, sort * const * domain);
func_decl * mk_set_complement(unsigned arity, sort * const * domain);
func_decl * mk_set_subset(unsigned arity, sort * const * domain);
func_decl * mk_as_array(func_decl * f);
func_decl* mk_set_has_size(unsigned arity, sort * const* domain);
func_decl* mk_set_card(unsigned arity, sort * const* domain);
bool is_array_sort(sort* s) const;
public:
array_decl_plugin();
~array_decl_plugin() override {}
decl_plugin * mk_fresh() override {
return alloc(array_decl_plugin);
}
sort * mk_sort(decl_kind k, unsigned num_parameters, parameter const * parameters) override;
func_decl * mk_func_decl(decl_kind k, unsigned num_parameters, parameter const * parameters,
unsigned arity, sort * const * domain, sort * range) override;
void get_op_names(svector<builtin_name> & op_names, symbol const & logic) override;
void get_sort_names(svector<builtin_name> & sort_names, symbol const & logic) override;
expr * get_some_value(sort * s) override;
bool is_fully_interp(sort * s) const override;
};
class array_recognizers {
protected:
family_id m_fid;
public:
array_recognizers(family_id fid):m_fid(fid) {}
family_id get_family_id() const { return m_fid; }
bool is_array(sort* s) const { return is_sort_of(s, m_fid, ARRAY_SORT);}
bool is_array(expr* n) const { return is_array(n->get_sort()); }
bool is_select(expr* n) const { return is_app_of(n, m_fid, OP_SELECT); }
bool is_store(expr* n) const { return is_app_of(n, m_fid, OP_STORE); }
bool is_const(expr* n) const { return is_app_of(n, m_fid, OP_CONST_ARRAY); }
bool is_ext(expr* n) const { return is_app_of(n, m_fid, OP_ARRAY_EXT); }
bool is_map(expr* n) const { return is_app_of(n, m_fid, OP_ARRAY_MAP); }
bool is_as_array(expr * n) const { return is_app_of(n, m_fid, OP_AS_ARRAY); }
bool is_as_array(expr * n, func_decl*& f) const { return is_as_array(n) && (f = get_as_array_func_decl(n), true); }
bool is_set_has_size(expr* e) const { return is_app_of(e, m_fid, OP_SET_HAS_SIZE); }
bool is_set_card(expr* e) const { return is_app_of(e, m_fid, OP_SET_CARD); }
bool is_select(func_decl* f) const { return is_decl_of(f, m_fid, OP_SELECT); }
bool is_store(func_decl* f) const { return is_decl_of(f, m_fid, OP_STORE); }
bool is_const(func_decl* f) const { return is_decl_of(f, m_fid, OP_CONST_ARRAY); }
bool is_map(func_decl* f) const { return is_decl_of(f, m_fid, OP_ARRAY_MAP); }
bool is_as_array(func_decl* f) const { return is_decl_of(f, m_fid, OP_AS_ARRAY); }
bool is_set_has_size(func_decl* f) const { return is_decl_of(f, m_fid, OP_SET_HAS_SIZE); }
bool is_set_card(func_decl* f) const { return is_decl_of(f, m_fid, OP_SET_CARD); }
bool is_default(func_decl* f) const { return is_decl_of(f, m_fid, OP_ARRAY_DEFAULT); }
bool is_default(expr* n) const { return is_app_of(n, m_fid, OP_ARRAY_DEFAULT); }
bool is_as_array(func_decl* f, func_decl*& g) const { return is_decl_of(f, m_fid, OP_AS_ARRAY) && (g = get_as_array_func_decl(f), true); }
func_decl * get_as_array_func_decl(expr * n) const;
func_decl * get_as_array_func_decl(func_decl* f) const;
func_decl * get_map_func_decl(func_decl* f) const;
func_decl * get_map_func_decl(expr* e) const { return get_map_func_decl(to_app(e)->get_decl()); }
bool is_const(expr* e, expr*& v) const;
bool is_store_ext(expr* e, expr_ref& a, expr_ref_vector& args, expr_ref& value);
};
class array_util : public array_recognizers {
ast_manager & m_manager;
public:
array_util(ast_manager& m);
ast_manager & get_manager() const { return m_manager; }
bool is_as_array_tree(expr * n);
app * mk_store(unsigned num_args, expr * const * args) const {
return m_manager.mk_app(m_fid, OP_STORE, 0, nullptr, num_args, args);
}
app * mk_store(expr_ref_vector const& args) const {
return mk_store(args.size(), args.data());
}
app * mk_store(ptr_vector<expr> const& args) const {
return mk_store(args.size(), args.data());
}
app * mk_select(unsigned num_args, expr * const * args) const {
return m_manager.mk_app(m_fid, OP_SELECT, 0, nullptr, num_args, args);
}
app * mk_select(ptr_vector<expr> const& args) const {
return mk_select(args.size(), args.data());
}
app * mk_select(ptr_buffer<expr> const& args) const {
return mk_select(args.size(), args.data());
}
app * mk_select(expr_ref_vector const& args) const {
return mk_select(args.size(), args.data());
}
app * mk_map(func_decl * f, unsigned num_args, expr * const * args) {
parameter p(f);
return m_manager.mk_app(m_fid, OP_ARRAY_MAP, 1, &p, num_args, args);
}
expr * mk_map_assoc(func_decl * f, unsigned num_args, expr * const * args) {
expr* r = args[0];
for (unsigned i = 1; i < num_args; ++i) {
expr* es[2] = { r, args[i] };
r = mk_map(f, 2, es);
}
return r;
}
app * mk_default(expr * a) {
return m_manager.mk_app(m_fid, OP_ARRAY_DEFAULT, 0, nullptr, 1, &a);
}
app * mk_const_array(sort * s, expr * v) {
parameter param(s);
return m_manager.mk_app(m_fid, OP_CONST_ARRAY, 1, ¶m, 1, &v);
}
app * mk_empty_set(sort * s) {
return mk_const_array(s, m_manager.mk_false());
}
app * mk_full_set(sort * s) {
return mk_const_array(s, m_manager.mk_true());
}
app * mk_setminus(expr* s1, expr* s2) {
return m_manager.mk_app(m_fid, OP_SET_DIFFERENCE, s1, s2);
}
app * mk_intersection(expr* s1, expr* s2) {
return m_manager.mk_app(m_fid, OP_SET_INTERSECT, s1, s2);
}
app * mk_union(expr* s1, expr* s2) {
return m_manager.mk_app(m_fid, OP_SET_UNION, s1, s2);
}
app* mk_has_size(expr* set, expr* n) {
return m_manager.mk_app(m_fid, OP_SET_HAS_SIZE, set, n);
}
app* mk_card(expr* set) {
return m_manager.mk_app(m_fid, OP_SET_CARD, set);
}
func_decl * mk_array_ext(sort* domain, unsigned i);
sort * mk_array_sort(sort* dom, sort* range) { return mk_array_sort(1, &dom, range); }
sort * mk_array_sort(unsigned arity, sort* const* domain, sort* range);
app * mk_as_array(func_decl * f) {
parameter param(f);
return m_manager.mk_app(m_fid, OP_AS_ARRAY, 1, ¶m, 0, nullptr, nullptr);
}
sort* get_array_range_rec(sort* s) {
while (is_array(s)) {
s = get_array_range(s);
}
return s;
}
};