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Z3 sources
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
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360
lib/func_interp.cpp
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360
lib/func_interp.cpp
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/*++
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Copyright (c) 2006 Microsoft Corporation
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Module Name:
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func_interp.cpp
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Abstract:
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See func_interp.h
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Author:
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Leonardo de Moura (leonardo) 2010-12-30.
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Revision History:
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--*/
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#include"func_interp.h"
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#include"simplifier.h"
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#include"basic_simplifier_plugin.h"
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#include"var_subst.h"
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#include"obj_hashtable.h"
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#include"ast_pp.h"
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#include"ast_smt2_pp.h"
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func_entry::func_entry(ast_manager & m, unsigned arity, expr * const * args, expr * result):
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m_args_are_values(true),
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m_result(result) {
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SASSERT(is_ground(result));
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m.inc_ref(result);
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for (unsigned i = 0; i < arity; i++) {
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expr * arg = args[i];
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SASSERT(is_ground(arg));
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if (!m.is_value(arg))
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m_args_are_values = false;
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m.inc_ref(arg);
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m_args[i] = arg;
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}
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}
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func_entry * func_entry::mk(ast_manager & m, unsigned arity, expr * const * args, expr * result) {
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small_object_allocator & allocator = m.get_allocator();
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unsigned sz = get_obj_size(arity);
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void * mem = allocator.allocate(sz);
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return new (mem) func_entry(m, arity, args, result);
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}
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void func_entry::set_result(ast_manager & m, expr * r) {
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m.inc_ref(r);
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m.dec_ref(m_result);
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m_result = r;
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}
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bool func_entry::eq_args(unsigned arity, expr * const * args) const {
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unsigned i = 0;
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for (; i < arity; i++) {
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if (m_args[i] != args[i])
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return false;
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}
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return true;
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}
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void func_entry::deallocate(ast_manager & m, unsigned arity) {
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for (unsigned i = 0; i < arity; i++) {
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m.dec_ref(m_args[i]);
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}
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m.dec_ref(m_result);
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small_object_allocator & allocator = m.get_allocator();
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unsigned sz = get_obj_size(arity);
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allocator.deallocate(sz, this);
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}
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func_interp::func_interp(ast_manager & m, unsigned arity):
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m_manager(m),
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m_arity(arity),
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m_else(0),
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m_args_are_values(true),
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m_interp(0) {
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}
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func_interp::~func_interp() {
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ptr_vector<func_entry>::iterator it = m_entries.begin();
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ptr_vector<func_entry>::iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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curr->deallocate(m_manager, m_arity);
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}
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m_manager.dec_ref(m_else);
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m_manager.dec_ref(m_interp);
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}
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func_interp * func_interp::copy() const {
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func_interp * new_fi = alloc(func_interp, m_manager, m_arity);
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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new_fi->insert_new_entry(curr->get_args(), curr->get_result());
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}
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new_fi->set_else(m_else);
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return new_fi;
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}
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void func_interp::reset_interp_cache() {
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m_manager.dec_ref(m_interp);
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m_interp = 0;
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}
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void func_interp::set_else(expr * e) {
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reset_interp_cache();
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m_manager.inc_ref(e);
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m_manager.dec_ref(m_else);
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m_else = e;
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}
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/**
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\brief Return true if the interpretation represents the constant function.
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*/
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bool func_interp::is_constant() const {
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if (is_partial())
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return false;
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if (!is_ground(m_else))
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return false;
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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if (curr->get_result() != m_else)
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return false;
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}
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return true;
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}
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/**
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\brief Return a func_entry e such that e.m_args[i] == args[i] for all i in [0, m_arity).
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If such entry does not exist then return 0, and store set
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args_are_values to true if for all entries e e.args_are_values() is true.
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*/
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func_entry * func_interp::get_entry(expr * const * args) const {
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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if (curr->eq_args(m_arity, args))
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return curr;
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}
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return 0;
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}
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void func_interp::insert_entry(expr * const * args, expr * r) {
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reset_interp_cache();
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func_entry * entry = get_entry(args);
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if (entry != 0) {
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entry->set_result(m_manager, r);
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return;
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}
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insert_new_entry(args, r);
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}
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void func_interp::insert_new_entry(expr * const * args, expr * r) {
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reset_interp_cache();
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CTRACE("func_interp_bug", get_entry(args) != 0,
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for (unsigned i = 0; i < m_arity; i++) {
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tout << mk_ismt2_pp(args[i], m_manager) << "\n";
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}
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tout << "Old: " << mk_ismt2_pp(get_entry(args)->m_result, m_manager) << "\n";
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tout << "New: " << mk_ismt2_pp(r, m_manager) << "\n";);
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SASSERT(get_entry(args) == 0);
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func_entry * new_entry = func_entry::mk(m_manager, m_arity, args, r);
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if (!new_entry->args_are_values())
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m_args_are_values = false;
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m_entries.push_back(new_entry);
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}
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bool func_interp::eval_else(expr * const * args, expr_ref & result) const {
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if (m_else == 0)
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return false;
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var_subst s(m_manager, false);
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SASSERT(!s.std_order()); // (VAR 0) <- args[0], (VAR 1) <- args[1], ...
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s(m_else, m_arity, args, result);
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return true;
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}
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/**
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\brief Store in r the result of applying args to this function.
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Return true in case of success.
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The function may fail if m_else == 0.
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*/
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bool func_interp::eval(simplifier & s, expr * const * args, expr_ref & result) {
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bool actuals_are_values = true;
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if (!m_entries.empty()) {
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for (unsigned i = 0; actuals_are_values && i < m_arity; i++) {
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actuals_are_values = m_manager.is_value(args[i]);
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}
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}
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func_entry * entry = get_entry(args);
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if (entry != 0) {
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result = entry->get_result();
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TRACE("func_interp", tout << "found entry for: ";
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for(unsigned i = 0; i < m_arity; i++)
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tout << mk_pp(args[i], m_manager) << " ";
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tout << "\nresult: " << mk_pp(result, m_manager) << "\n";);
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return true;
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}
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TRACE("func_interp", tout << "failed to find entry for: ";
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for(unsigned i = 0; i < m_arity; i++)
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tout << mk_pp(args[i], m_manager) << " ";
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tout << "\nis partial: " << is_partial() << "\n";);
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if (!eval_else(args, result)) {
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TRACE("func_interp", tout << "function is partial, failed to evaluate\n";);
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return false;
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}
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if (actuals_are_values && m_args_are_values) {
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// cheap case... we are done
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return true;
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}
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// build symbolic result... the actuals may be equal to the args of one of the entries.
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basic_simplifier_plugin * bs = static_cast<basic_simplifier_plugin*>(s.get_plugin(m_manager.get_basic_family_id()));
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ptr_vector<func_entry>::iterator it = m_entries.begin();
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ptr_vector<func_entry>::iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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SASSERT(!curr->eq_args(m_arity, args));
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if (!actuals_are_values || !curr->args_are_values()) {
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expr_ref_buffer eqs(m_manager);
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unsigned i = m_arity;
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while (i > 0) {
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--i;
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expr_ref new_eq(m_manager);
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bs->mk_eq(curr->get_arg(i), args[i], new_eq);
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eqs.push_back(new_eq);
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}
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SASSERT(eqs.size() == m_arity);
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expr_ref new_cond(m_manager);
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bs->mk_and(eqs.size(), eqs.c_ptr(), new_cond);
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bs->mk_ite(new_cond, curr->get_result(), result, result);
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}
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}
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return true;
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}
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/**
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\brief Return the result with the maximal number of occurrencies in m_entries.
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*/
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expr * func_interp::get_max_occ_result() const {
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if (m_entries.empty())
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return 0;
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obj_map<expr, unsigned> num_occs;
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expr * r_max = 0;
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unsigned max = 0;
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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expr * r = curr->get_result();
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unsigned occs = 0;
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num_occs.find(r, occs);
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occs++;
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num_occs.insert(r, occs);
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if (occs > max) {
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max = occs;
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r_max = r;
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}
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}
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return r_max;
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}
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/**
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\brief Remove entries e such that e.get_result() == m_else.
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*/
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void func_interp::compress() {
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if (m_else == 0 || m_entries.empty())
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return; // nothing to be done
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if (!is_ground(m_else))
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return; // forall entries e in m_entries e.get_result() is ground
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unsigned i = 0;
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unsigned j = 0;
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unsigned sz = m_entries.size();
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m_args_are_values = true;
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for (; i < sz; i++) {
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func_entry * curr = m_entries[i];
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if (curr->get_result() != m_else) {
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m_entries[j] = curr;
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j++;
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if (!curr->args_are_values())
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m_args_are_values = false;
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}
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else {
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curr->deallocate(m_manager, m_arity);
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}
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}
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if (j < sz) {
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reset_interp_cache();
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m_entries.shrink(j);
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}
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}
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expr * func_interp::get_interp_core() const {
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if (m_else == 0)
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return 0;
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expr * r = m_else;
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ptr_buffer<expr> vars;
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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if (vars.empty()) {
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for (unsigned i = 0; i < m_arity; i++) {
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vars.push_back(m_manager.mk_var(i, m_manager.get_sort(curr->get_arg(i))));
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}
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}
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ptr_buffer<expr> eqs;
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for (unsigned i = 0; i < m_arity; i++) {
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eqs.push_back(m_manager.mk_eq(vars[i], curr->get_arg(i)));
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}
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SASSERT(eqs.size() == m_arity);
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expr * cond;
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if (m_arity == 1)
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cond = eqs.get(0);
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else
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cond = m_manager.mk_and(eqs.size(), eqs.c_ptr());
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r = m_manager.mk_ite(cond, curr->get_result(), r);
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}
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return r;
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}
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expr * func_interp::get_interp() const {
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if (m_interp != 0)
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return m_interp;
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expr * r = get_interp_core();
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if (r != 0) {
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const_cast<func_interp*>(this)->m_interp = r;
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m_manager.inc_ref(m_interp);
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}
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return r;
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}
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func_interp * func_interp::translate(ast_translation & translator) const {
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func_interp * new_fi = alloc(func_interp, m_manager, m_arity);
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ptr_vector<func_entry>::const_iterator it = m_entries.begin();
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ptr_vector<func_entry>::const_iterator end = m_entries.end();
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for (; it != end; ++it) {
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func_entry * curr = *it;
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ptr_buffer<expr> new_args;
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for (unsigned i=0; i<m_arity; i++)
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new_args.push_back(translator(curr->get_arg(i)));
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new_fi->insert_new_entry(new_args.c_ptr(), translator(curr->get_result()));
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}
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new_fi->set_else(translator(m_else));
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return new_fi;
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}
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