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https://github.com/Z3Prover/z3
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199 lines
5.9 KiB
C++
199 lines
5.9 KiB
C++
/*++
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Copyright (c) 2011 Microsoft Corporation
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Module Name:
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elim_term_ite_tactic.cpp
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Abstract:
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Eliminate term if-then-else by adding
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new fresh auxiliary variables.
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Author:
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Leonardo (leonardo) 2011-12-29
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Notes:
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--*/
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#include"tactical.h"
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#include"defined_names.h"
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#include"rewriter_def.h"
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#include"filter_model_converter.h"
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#include"cooperate.h"
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class elim_term_ite_tactic : public tactic {
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struct rw_cfg : public default_rewriter_cfg {
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ast_manager & m;
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defined_names m_defined_names;
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ref<filter_model_converter> m_mc;
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goal * m_goal;
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unsigned long long m_max_memory; // in bytes
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bool m_produce_models;
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unsigned m_num_fresh;
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bool max_steps_exceeded(unsigned num_steps) const {
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cooperate("elim term ite");
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if (memory::get_allocation_size() > m_max_memory)
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throw tactic_exception(TACTIC_MAX_MEMORY_MSG);
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return false;
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}
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br_status reduce_app(func_decl * f, unsigned num, expr * const * args, expr_ref & result, proof_ref & result_pr) {
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if (!m.is_term_ite(f))
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return BR_FAILED;
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expr_ref new_ite(m);
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new_ite = m.mk_app(f, num, args);
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expr_ref new_def(m);
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proof_ref new_def_pr(m);
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app_ref _result(m);
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if (m_defined_names.mk_name(new_ite, new_def, new_def_pr, _result, result_pr)) {
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m_goal->assert_expr(new_def, new_def_pr, 0);
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m_num_fresh++;
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if (m_produce_models) {
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if (!m_mc)
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m_mc = alloc(filter_model_converter, m);
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m_mc->insert(_result->get_decl());
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}
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}
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result = _result.get();
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return BR_DONE;
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}
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rw_cfg(ast_manager & _m, params_ref const & p):
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m(_m),
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m_defined_names(m, 0 /* don't use prefix */) {
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updt_params(p);
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m_goal = 0;
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m_num_fresh = 0;
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}
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void updt_params(params_ref const & p) {
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m_max_memory = megabytes_to_bytes(p.get_uint(":max-memory", UINT_MAX));
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}
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};
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struct rw : public rewriter_tpl<rw_cfg> {
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rw_cfg m_cfg;
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rw(ast_manager & m, params_ref const & p):
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rewriter_tpl<rw_cfg>(m, m.proofs_enabled(), m_cfg),
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m_cfg(m, p) {
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}
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};
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struct imp {
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ast_manager & m;
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rw m_rw;
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imp(ast_manager & _m, params_ref const & p):
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m(_m),
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m_rw(m, p) {
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}
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void set_cancel(bool f) {
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m_rw.set_cancel(f);
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}
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void updt_params(params_ref const & p) {
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m_rw.cfg().updt_params(p);
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}
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void operator()(goal_ref const & g,
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goal_ref_buffer & result,
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model_converter_ref & mc,
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proof_converter_ref & pc,
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expr_dependency_ref & core) {
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SASSERT(g->is_well_sorted());
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mc = 0; pc = 0; core = 0;
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tactic_report report("elim-term-ite", *g);
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bool produce_proofs = g->proofs_enabled();
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m_rw.cfg().m_produce_models = g->models_enabled();
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m_rw.m_cfg.m_num_fresh = 0;
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m_rw.m_cfg.m_goal = g.get();
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expr_ref new_curr(m);
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proof_ref new_pr(m);
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unsigned size = g->size();
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for (unsigned idx = 0; idx < size; idx++) {
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expr * curr = g->form(idx);
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m_rw(curr, new_curr, new_pr);
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if (produce_proofs) {
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proof * pr = g->pr(idx);
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new_pr = m.mk_modus_ponens(pr, new_pr);
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}
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g->update(idx, new_curr, new_pr, g->dep(idx));
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}
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mc = m_rw.m_cfg.m_mc.get();
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report_tactic_progress(":elim-term-ite-consts", m_rw.m_cfg.m_num_fresh);
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g->inc_depth();
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result.push_back(g.get());
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TRACE("elim_term_ite", g->display(tout););
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SASSERT(g->is_well_sorted());
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}
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};
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imp * m_imp;
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params_ref m_params;
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public:
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elim_term_ite_tactic(ast_manager & m, params_ref const & p):
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m_params(p) {
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m_imp = alloc(imp, m, p);
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}
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virtual tactic * translate(ast_manager & m) {
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return alloc(elim_term_ite_tactic, m, m_params);
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}
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virtual ~elim_term_ite_tactic() {
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dealloc(m_imp);
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}
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virtual void updt_params(params_ref const & p) {
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m_params = p;
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m_imp->m_rw.cfg().updt_params(p);
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}
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virtual void collect_param_descrs(param_descrs & r) {
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insert_max_memory(r);
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insert_max_steps(r);
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r.insert(":max-args", CPK_UINT,
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"(default: 128) maximum number of arguments (per application) that will be considered by the greedy (quadratic) heuristic.");
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}
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virtual void operator()(goal_ref const & in,
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goal_ref_buffer & result,
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model_converter_ref & mc,
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proof_converter_ref & pc,
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expr_dependency_ref & core) {
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(*m_imp)(in, result, mc, pc, core);
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}
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virtual void cleanup() {
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ast_manager & m = m_imp->m;
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imp * d = m_imp;
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#pragma omp critical (tactic_cancel)
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{
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m_imp = 0;
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}
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dealloc(d);
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d = alloc(imp, m, m_params);
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#pragma omp critical (tactic_cancel)
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{
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m_imp = d;
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}
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}
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virtual void set_cancel(bool f) {
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if (m_imp)
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m_imp->set_cancel(f);
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}
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};
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tactic * mk_elim_term_ite_tactic(ast_manager & m, params_ref const & p) {
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return clean(alloc(elim_term_ite_tactic, m, p));
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}
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