lean2/src/library/rewriter/fo_match.cpp
Leonardo de Moura 6477708d78 refactor(debug): improve lean_unreachable(), now we can avoid 'fake' return statements
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2013-09-25 21:27:20 -07:00

188 lines
6.5 KiB
C++

/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Soonho Kong
*/
#include <utility>
#include "util/trace.h"
#include "kernel/expr.h"
#include "kernel/context.h"
#include "library/all/all.h"
#include "library/arith/nat.h"
#include "library/arith/arith.h"
#include "library/rewriter/fo_match.h"
#include "library/rewriter/rewriter.h"
#include "library/printer.h"
using std::cout;
using std::endl;
namespace lean {
std::ostream & operator<<(std::ostream & out, subst_map & s) {
out << "{";
for (auto it = s.begin(); it != s.end(); it++) {
out << it->first << " => ";
out << it->second << "; ";
}
out << "}";
return out;
}
bool fo_match::match_var(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_var : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
unsigned idx = var_idx(p);
if (idx < o) {
// Current variable is the one created by lambda inside of pattern
// and it is *not* a target of pattern matching.
return p == t;
} else {
auto it = s.find(idx);
if (it != s.end()) {
// This variable already has an entry in the substitution
// map. We need to make sure that 't' and s[idx] are the
// same
lean_trace("fo_match", tout << "match_var exist:" << idx << " |-> " << it->second << endl;);
return it->second == t;
}
// This variable has no entry in the substituition map. Let's
// add one.
s.insert(std::make_pair(idx, t));
lean_trace("fo_match", tout << "match_var MATCHED : " << s << endl;);
return true;
}
}
bool fo_match::match_constant(expr const & p, expr const & t, unsigned, subst_map &) {
lean_trace("fo_match", tout << "match_constant : (" << p << ", " << t << ")" << endl;);
return p == t;
}
bool fo_match::match_value(expr const & p, expr const & t, unsigned, subst_map &) {
lean_trace("fo_match", tout << "match_value : (" << p << ", " << t << ")" << endl;);
return p == t;
}
bool fo_match::match_app(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_app : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
if (!is_app(t))
return false;
unsigned num_p = num_args(p);
unsigned num_t = num_args(t);
if (num_p != num_t) {
return false;
}
for (unsigned i = 0; i < num_p; i++) {
if (!match(arg(p, i), arg(t, i), o, s))
return false;
}
return true;
}
bool fo_match::match_lambda(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_lambda : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
lean_trace("fo_match", tout << "fun (" << abst_name(p) << " : " << abst_domain(p) << "), " << abst_body(p) << endl;);
if (!is_lambda(t)) {
return false;
} else {
// First match the domain part
auto p_domain = abst_domain(p);
auto t_domain = abst_domain(t);
if (!match(p_domain, t_domain, o, s))
return false;
// Then match the body part, increase offset by 1.
auto p_body = abst_body(p);
auto t_body = abst_body(t);
return match(p_domain, t_domain, o + 1, s);
}
}
bool fo_match::match_pi(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_pi : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
lean_trace("fo_match", tout << "Pi (" << abst_name(p) << " : " << abst_domain(p) << "), " << abst_body(p) << endl;);
if (!is_pi(t)) {
return false;
} else {
// First match the domain part
auto p_domain = abst_domain(p);
auto t_domain = abst_domain(t);
if (!match(p_domain, t_domain, o, s))
return false;
// Then match the body part, increase offset by 1.
auto p_body = abst_body(p);
auto t_body = abst_body(t);
return match(p_domain, t_domain, o + 1, s);
}
}
bool fo_match::match_type(expr const & p, expr const & t, unsigned, subst_map &) {
lean_trace("fo_match", tout << "match_type : (" << p << ", " << t << ")" << endl;);
return p == t;
}
bool fo_match::match_eq(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_eq : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
if (!is_eq(t))
return false;
return match(eq_lhs(p), eq_lhs(t), o, s) && match(eq_rhs(p), eq_rhs(t), o, s);
}
bool fo_match::match_let(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match_let : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
if (!is_let(t)) {
return false;
} else {
// First match the type part
auto p_type = let_type(p);
auto t_type = let_type(t);
if (!match(p_type, t_type, o, s))
return false;
// then match the value part
auto p_value = let_value(p);
auto t_value = let_value(t);
if (!match(p_value, t_value, o, s))
return false;
// then match the value part
auto p_body = let_body(p);
auto t_body = let_body(t);
return match(p_body, t_body, o + 1, s);
}
}
bool fo_match::match_metavar(expr const & p, expr const & t, unsigned, subst_map &) {
lean_trace("fo_match", tout << "match_meta : (" << p << ", " << t << ")" << endl;);
return p == t;
}
bool fo_match::match(expr const & p, expr const & t, unsigned o, subst_map & s) {
lean_trace("fo_match", tout << "match : (" << p << ", " << t << ", " << o << ", " << s << ")" << endl;);
switch (p.kind()) {
case expr_kind::Var:
return match_var(p, t, o, s);
case expr_kind::Constant:
return match_constant(p, t, o, s);
case expr_kind::Value:
return match_value(p, t, o, s);
case expr_kind::App:
return match_app(p, t, o, s);
case expr_kind::Lambda:
return match_lambda(p, t, o, s);
case expr_kind::Pi:
return match_pi(p, t, o, s);
case expr_kind::Type:
return match_type(p, t, o, s);
case expr_kind::Eq:
return match_eq(p, t, o, s);
case expr_kind::Let:
return match_let(p, t, o, s);
case expr_kind::MetaVar:
return match_metavar(p, t, o, s);
}
lean_unreachable();
}
}