lean2/src/library/metavar.cpp
Leonardo de Moura 2aac94f2e6 Refactor elaborator using new metavar library.
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2013-08-30 01:25:06 -07:00

328 lines
8.9 KiB
C++

/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#include "metavar.h"
#include "replace.h"
#include "for_each.h"
#include "environment.h"
#include "printer.h"
namespace lean {
static name g_metavar_prefix(name(name(name(0u), "library"), "metavar"));
static name g_subst_prefix(name(name(name(0u), "library"), "subst"));
static name g_lift_prefix(name(name(name(0u), "library"), "lift"));
static name g_lower_prefix(name(name(name(0u), "library"), "lower"));
expr mk_metavar(unsigned idx) {
return mk_constant(name(g_metavar_prefix, idx));
}
bool is_metavar(expr const & n) {
return is_constant(n) && !const_name(n).is_atomic() && const_name(n).get_prefix() == g_metavar_prefix;
}
unsigned metavar_idx(expr const & n) {
lean_assert(is_metavar(n));
return const_name(n).get_numeral();
}
struct found_metavar {};
bool has_metavar(expr const & e) {
auto f = [](expr const & c, unsigned offset) {
if (is_metavar(c))
throw found_metavar();
};
try {
for_each_fn<decltype(f)> proc(f);
proc(e);
return false;
} catch (found_metavar) {
return true;
}
}
bool has_metavar(expr const & e, unsigned midx) {
auto f = [=](expr const & m, unsigned offset) {
if (is_metavar(m) && metavar_idx(m) == midx)
throw found_metavar();
};
try {
for_each_fn<decltype(f)> proc(f);
proc(e);
return false;
} catch (found_metavar) {
return true;
}
}
expr mk_subst_fn(unsigned idx) {
return mk_constant(name(g_subst_prefix, idx));
}
bool is_subst_fn(expr const & n) {
return is_constant(n) && !const_name(n).is_atomic() && const_name(n).get_prefix() == g_subst_prefix;
}
expr mk_subst(expr const & e, unsigned i, expr const & c) {
unsigned s, n;
expr a;
if (is_lift(e, a, s, n) && s <= i && i < s+n) {
return e;
} else {
return mk_eq(mk_subst_fn(i), mk_eq(e, c));
}
}
bool is_subst(expr const & e, expr & c, unsigned & i, expr & v) {
if (is_eq(e) && is_subst_fn(eq_lhs(e))) {
i = const_name(eq_lhs(e)).get_numeral();
c = eq_lhs(eq_rhs(e));
v = eq_rhs(eq_rhs(e));
return true;
} else {
return false;
}
}
bool is_subst(expr const & e) {
return is_eq(e) && is_subst_fn(eq_lhs(e));
}
expr mk_lift_fn(unsigned s, unsigned n) {
return mk_constant(name(name(g_lift_prefix, s), n));
}
bool is_lift_fn(expr const & n) {
return
is_constant(n) &&
!const_name(n).is_atomic() &&
!const_name(n).get_prefix().is_atomic() &&
const_name(n).get_prefix().get_prefix() == g_lift_prefix;
}
expr mk_lift(expr const & e, unsigned s, unsigned n) {
return mk_eq(mk_lift_fn(s, n), e);
}
bool is_lift(expr const & e, expr & c, unsigned & s, unsigned & n) {
if (is_eq(e) && is_lift_fn(eq_lhs(e))) {
name const & l = const_name(eq_lhs(e));
c = eq_rhs(e);
n = l.get_numeral();
s = l.get_prefix().get_numeral();
return true;
} else {
return false;
}
}
bool is_lift(expr const & e) {
return is_eq(e) && is_lift_fn(eq_lhs(e));
}
expr mk_lower_fn(unsigned s, unsigned n) {
return mk_constant(name(name(g_lower_prefix, s), n));
}
bool is_lower_fn(expr const & n) {
return
is_constant(n) &&
!const_name(n).is_atomic() &&
!const_name(n).get_prefix().is_atomic() &&
const_name(n).get_prefix().get_prefix() == g_lower_prefix;
}
expr mk_lower(expr const & e, unsigned s2, unsigned n2) {
unsigned s1, n1;
expr c;
if (is_lift(e, c, s1, n1) && s1 <= s2 - n2 && s2 <= s1 + n1) {
n1 -= n2;
if (n1 == 0)
return c;
else
return mk_lift(c, s1, n1);
} else {
return mk_eq(mk_lower_fn(s2, n2), e);
}
}
bool is_lower(expr const & e, expr & c, unsigned & s, unsigned & n) {
if (is_eq(e) && is_lower_fn(eq_lhs(e))) {
name const & l = const_name(eq_lhs(e));
c = eq_rhs(e);
n = l.get_numeral();
s = l.get_prefix().get_numeral();
return true;
} else {
return false;
}
}
bool is_lower(expr const & e) {
return is_eq(e) && is_lower_fn(eq_lhs(e));
}
bool is_meta(expr const & e) {
return is_metavar(e) || is_subst(e) || is_lift(e) || is_lower(e);
}
expr lower_free_vars_mmv(expr const & a, unsigned s, unsigned n) {
if (n == 0)
return a;
lean_assert(s >= n);
auto f = [=](expr const & e, unsigned offset) -> expr {
if (is_var(e) && var_idx(e) >= s + offset) {
return mk_var(var_idx(e) - n);
} else if (is_meta(e)) {
return mk_lower(e, s + offset, n);
} else {
return e;
}
};
return replace_fn<decltype(f)>(f)(a);
}
expr lift_free_vars_mmv(expr const & a, unsigned s, unsigned n) {
if (n == 0)
return a;
auto f = [=](expr const & e, unsigned offset) -> expr {
if (is_var(e) && var_idx(e) >= s + offset) {
return mk_var(var_idx(e) + n);
} else if (is_meta(e)) {
return mk_lift(e, s + offset, n);
} else {
return e;
}
};
return replace_fn<decltype(f)>(f)(a);
}
expr instantiate_free_var_mmv(expr const & a, unsigned i, expr const & c) {
auto f = [&](expr const & e, unsigned offset) -> expr {
if (is_var(e)) {
unsigned vidx = var_idx(e);
if (vidx == offset + i)
return lift_free_vars_mmv(c, 0, offset);
else if (vidx > offset + i)
return mk_var(vidx - 1);
else
return e;
} else if (is_meta(e)) {
return mk_lower(mk_subst(e, offset, lift_free_vars_mmv(c, 0, offset+1)), offset+1, 1);
} else {
return e;
}
};
return replace_fn<decltype(f)>(f)(a);
}
expr subst_mmv(expr const & a, unsigned i, expr const & c) {
auto f = [&](expr const & e, unsigned offset) -> expr {
if (is_var(e)) {
unsigned vidx = var_idx(e);
if (vidx == offset + i)
return lift_free_vars_mmv(c, 0, offset);
else
return e;
} else if (is_meta(e)) {
return mk_subst(e, offset, lift_free_vars_mmv(c, 0, offset));
} else {
return e;
}
};
return replace_fn<decltype(f)>(f)(a);
}
expr get_metavar(expr const & e) {
lean_assert(is_meta(e));
if (is_metavar(e)) {
return e;
} else {
unsigned i, s, n;
expr c, v;
if (is_lift(e, c, s, n)) {
return get_metavar(c);
} else if (is_lower(e, c, s, n)) {
return get_metavar(c);
} else if (is_subst(e, c, i, v)) {
return get_metavar(c);
} else {
lean_unreachable();
return e;
}
}
}
expr instantiate_metavar_core(expr const & e, expr const & v) {
lean_assert(is_meta(e));
unsigned i, s, n;
expr c, a;
if (is_metavar(e)) {
return v;
} else if (is_subst(e, c, i, a)) {
return subst_mmv(instantiate_metavar_core(c, v), i, a);
} else if (is_lift(e, c, s, n)) {
return lift_free_vars_mmv(instantiate_metavar_core(c, v), s, n);
} else if (is_lower(e, c, s, n)) {
return lower_free_vars_mmv(instantiate_metavar_core(c, v), s, n);
} else {
lean_unreachable();
return e;
}
}
expr instantiate_metavar(expr const & a, unsigned midx, expr const & v) {
auto f = [=](expr const & e, unsigned offset) -> expr {
if (is_meta(e)) {
expr m = get_metavar(e);
lean_assert(is_metavar(m));
if (metavar_idx(m) == midx) {
return instantiate_metavar_core(e, v);
} else {
return e;
}
} else {
return e;
}
};
return replace_fn<decltype(f)>(f)(a);
}
expr head_reduce_mmv(expr const & e, environment const & env, name_set const * defs) {
if (is_app(e) && is_lambda(arg(e, 0))) {
expr r = arg(e,0);
unsigned num = num_args(e);
unsigned i = 1;
while (i < num) {
r = instantiate_free_var_mmv(abst_body(r), 0, arg(e,i));
i = i + 1;
if (!is_lambda(r))
break;
}
if (i < num) {
buffer<expr> args;
args.push_back(r);
for (; i < num; i++)
args.push_back(arg(e,i));
r = mk_app(args.size(), args.data());
}
return r;
} else if (is_let(e)) {
return instantiate_free_var_mmv(let_body(e), 0, let_value(e));
} else if (is_constant(e)) {
name const & n = const_name(e);
if (defs == nullptr || defs->find(n) != defs->end()) {
object const & obj = env.find_object(n);
if (obj && obj.is_definition() && !obj.is_opaque())
return obj.get_value();
}
}
return e;
}
}