z3-z3-4.13.0.src.ast.special_relations_decl_plugin.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2015 Microsoft Corporation
Module Name:
special_relations_decl_plugin.cpp
Abstract:
Author:
Nikolaj Bjorner (nbjorner) 2015-15-9.
Revision History:
--*/
#include
#include "ast/ast.h"
#include "ast/special_relations_decl_plugin.h"
special_relations_decl_plugin::special_relations_decl_plugin():
m_lo("linear-order"),
m_po("partial-order"),
m_plo("piecewise-linear-order"),
m_to("tree-order"),
m_tc("transitive-closure"),
m_ac("ac-op")
{}
func_decl * special_relations_decl_plugin::mk_func_decl(
decl_kind k, unsigned num_parameters, parameter const * parameters,
unsigned arity, sort * const * domain, sort * range)
{
if (arity != 2) {
m_manager->raise_exception("special relations should have arity 2");
return nullptr;
}
if (domain[0] != domain[1]) {
m_manager->raise_exception("argument sort missmatch. The two arguments should have the same sort");
return nullptr;
}
if (!range && k == OP_SPECIAL_RELATION_AC)
range = domain[0];
if (!range) {
range = m_manager->mk_bool_sort();
}
auto check_bool_range = [&]() {
if (!m_manager->is_bool(range))
m_manager->raise_exception("range type is expected to be Boolean for special relations");
};
m_has_special_relation = true;
func_decl_info info(m_family_id, k, num_parameters, parameters);
symbol name;
switch(k) {
case OP_SPECIAL_RELATION_PO: check_bool_range(); name = m_po; break;
case OP_SPECIAL_RELATION_LO: check_bool_range(); name = m_lo; break;
case OP_SPECIAL_RELATION_PLO: check_bool_range(); name = m_plo; break;
case OP_SPECIAL_RELATION_TO: check_bool_range(); name = m_to; break;
case OP_SPECIAL_RELATION_AC: {
if (range != domain[0])
m_manager->raise_exception("AC operation should have the same range as domain type");
name = m_ac;
if (num_parameters != 1 || !parameters[0].is_ast() || !is_func_decl(parameters[0].get_ast()))
m_manager->raise_exception("parameter to transitive closure should be a function declaration");
func_decl* f = to_func_decl(parameters[0].get_ast());
if (f->get_arity() != 2)
m_manager->raise_exception("ac function should be binary");
if (f->get_domain(0) != f->get_domain(1))
m_manager->raise_exception("ac function should have same domain");
if (f->get_domain(0) != f->get_range())
m_manager->raise_exception("ac function should have same domain and range");
break;
}
case OP_SPECIAL_RELATION_TC:
check_bool_range();
name = m_tc;
if (num_parameters != 1 || !parameters[0].is_ast() || !is_func_decl(parameters[0].get_ast()))
m_manager->raise_exception("parameter to transitive closure should be a function declaration");
func_decl* f = to_func_decl(parameters[0].get_ast());
if (f->get_arity() != 2)
m_manager->raise_exception("tc relation should be binary");
if (f->get_domain(0) != f->get_domain(1))
m_manager->raise_exception("tc relation should have same domain");
if (!m_manager->is_bool(f->get_range()))
m_manager->raise_exception("tc relation should be Boolean");
break;
}
return m_manager->mk_func_decl(name, arity, domain, range, info);
}
void special_relations_decl_plugin::get_op_names(svector & op_names, symbol const & logic) {
if (logic == symbol::null) {
op_names.push_back(builtin_name(m_po.str(), OP_SPECIAL_RELATION_PO));
op_names.push_back(builtin_name(m_lo.str(), OP_SPECIAL_RELATION_LO));
op_names.push_back(builtin_name(m_plo.str(), OP_SPECIAL_RELATION_PLO));
op_names.push_back(builtin_name(m_to.str(), OP_SPECIAL_RELATION_TO));
op_names.push_back(builtin_name(m_tc.str(), OP_SPECIAL_RELATION_TC));
op_names.push_back(builtin_name(m_ac.str(), OP_SPECIAL_RELATION_AC));
}
}
sr_property special_relations_util::get_property(func_decl* f) const {
switch (f->get_decl_kind()) {
case OP_SPECIAL_RELATION_PO: return sr_po;
case OP_SPECIAL_RELATION_LO: return sr_lo;
case OP_SPECIAL_RELATION_PLO: return sr_plo;
case OP_SPECIAL_RELATION_TO: return sr_to;
case OP_SPECIAL_RELATION_TC: return sr_tc;
case OP_SPECIAL_RELATION_AC: return sr_none;
default:
UNREACHABLE();
return sr_po;
}
}