mirrors/z3
3
0
Fork 0
mirror of https://github.com/Z3Prover/z3 synced 2025-04-11 11:43:36 +00:00
Code Activity
z3/lib/preprocessor_params.h
Leonardo de Moura e9eab22e5c Z3 sources 
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2012-10-02 11:35:25 -07:00

141 lines
6 KiB
C++
Raw Blame History

/*++
Copyright (c) 2006 Microsoft Corporation
Module Name:
preprocessor_params.h
Abstract:
Preprocess AST before adding them to the logical context
Author:
Leonardo de Moura (leonardo) 2008-01-17.
Revision History:
--*/
#ifndef _PREPROCESSOR_PARAMS_H_
#define _PREPROCESSOR_PARAMS_H_
#include"nnf_params.h"
#include"cnf_params.h"
#include"pattern_inference_params.h"
#include"bit_blaster_params.h"
#include"bv_simplifier_params.h"
enum lift_ite_kind {
LI_NONE,
LI_CONSERVATIVE,
LI_FULL
};
enum q_arith_kind {
QA_NONE,
QA_COOPER,
QA_OMEGA,
QA_ALTERNATE
};
struct preprocessor_params : public nnf_params, public cnf_params, public pattern_inference_params,
public bit_blaster_params, public bv_simplifier_params {
lift_ite_kind m_lift_ite;
lift_ite_kind m_ng_lift_ite; // lift ite for non ground terms
bool m_pull_cheap_ite_trees;
bool m_pull_nested_quantifiers;
bool m_eliminate_term_ite;
bool m_eliminate_and; // represent (and a b) as (not (or (not a) (not b)))
bool m_reverse_implies; // translate (implies a b) into (or b (not a))
bool m_macro_finder;
bool m_solver;
bool m_propagate_values;
bool m_propagate_booleans;
bool m_context_simplifier;
bool m_strong_context_simplifier;
bool m_refine_inj_axiom;
bool m_eliminate_bounds;
bool m_quant_elim;
bool m_nlquant_elim;
bool m_der;
bool m_simplify_bit2int;
bool m_nnf_cnf;
bool m_distribute_forall;
bool m_reduce_args;
bool m_pre_demod;
bool m_quasi_macros;
bool m_restricted_quasi_macros;
bool m_max_bv_sharing;
bool m_pre_simplifier;
public:
preprocessor_params():
m_lift_ite(LI_NONE),
m_ng_lift_ite(LI_NONE),
m_pull_cheap_ite_trees(false),
m_pull_nested_quantifiers(false),
m_eliminate_term_ite(false),
m_eliminate_and(true),
m_macro_finder(false),
m_solver(false),
m_propagate_values(true),
m_propagate_booleans(false), // TODO << check peformance
m_context_simplifier(false),
m_strong_context_simplifier(false),
m_refine_inj_axiom(true),
m_eliminate_bounds(false),
m_quant_elim(false),
m_nlquant_elim(false),
m_der(false),
m_simplify_bit2int(false),
m_nnf_cnf(true),
m_distribute_forall(false),
m_reduce_args(false),
m_pre_demod(false),
m_quasi_macros(false),
m_restricted_quasi_macros(false),
m_max_bv_sharing(true),
m_pre_simplifier(true) {
}
void register_params(ini_params & p) {
nnf_params::register_params(p);
cnf_params::register_params(p);
pattern_inference_params::register_params(p);
bit_blaster_params::register_params(p);
bv_simplifier_params::register_params(p);
p.register_int_param("LIFT_ITE", 0, 2, reinterpret_cast<int&>(m_lift_ite), "ite term lifting: 0 - no lifting, 1 - conservative, 2 - full");
p.register_int_param("NG_LIFT_ITE", 0, 2, reinterpret_cast<int&>(m_ng_lift_ite), "ite (non-ground) term lifting: 0 - no lifting, 1 - conservative, 2 - full");
p.register_bool_param("ELIM_TERM_ITE", m_eliminate_term_ite, "eliminate term if-then-else in the preprocessor");
p.register_bool_param("ELIM_AND", m_eliminate_and, "represent (and a b) as (not (or (not a) (not b)))");
p.register_bool_param("MACRO_FINDER", m_macro_finder, "try to find universally quantified formulas that can be viewed as macros");
p.register_bool_param("SOLVER", m_solver, "enable solver during preprocessing step", true);
p.register_bool_param("PROPAGATE_VALUES", m_propagate_values, "propagate values during preprocessing step");
p.register_bool_param("PROPAGATE_BOOLEANS", m_propagate_booleans, "propagate boolean values during preprocessing step");
p.register_bool_param("PULL_CHEAP_ITE_TREES", m_pull_cheap_ite_trees);
p.register_bool_param("PULL_NESTED_QUANTIFIERS", m_pull_nested_quantifiers, "eliminate nested quantifiers by moving nested quantified variables to the outermost quantifier, it is unnecessary if the formula is converted into CNF");
p.register_bool_param("CONTEXT_SIMPLIFIER", m_context_simplifier,
"Simplify Boolean sub-expressions if they already appear in context", true);
p.register_bool_param("STRONG_CONTEXT_SIMPLIFIER", m_strong_context_simplifier,
"Simplify Boolean sub-expressions by using full satisfiability queries", true);
p.register_bool_param("REFINE_INJ_AXIOM", m_refine_inj_axiom);
p.register_bool_param("ELIM_BOUNDS", m_eliminate_bounds, "cheap Fourier-Motzkin");
p.register_bool_param("ELIM_QUANTIFIERS", m_quant_elim,
"Use quantifier elimination procedures on Boolean, Bit-vector, Arithmetic and Array variables", true);
p.register_bool_param("ELIM_NLARITH_QUANTIFIERS", m_nlquant_elim,
"Eliminate non-linear quantifiers", true);
p.register_bool_param("DER", m_der);
p.register_bool_param("BIT2INT", m_simplify_bit2int, "hoist bit2int conversions over arithmetical expressions");
p.register_bool_param("DISTRIBUTE_FORALL", m_distribute_forall);
p.register_bool_param("REDUCE_ARGS", m_reduce_args);
p.register_bool_param("PRE_DEMODULATOR", m_pre_demod, "apply demodulators during preprocessing step");
p.register_bool_param("QUASI_MACROS", m_quasi_macros);
p.register_bool_param("RESTRICTED_QUASI_MACROS", m_restricted_quasi_macros);
p.register_bool_param("BV_MAX_SHARING", m_max_bv_sharing);
p.register_bool_param("PRE_SIMPLIFIER", m_pre_simplifier);
}
};
#endif /* _PREPROCESSOR_PARAMS_H_ */
View git blame Copy permalink