lean2/src/tests/kernel/metavar.cpp

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/*
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 <iostream>
#include <algorithm>
#include <vector>
#include <utility>
#include "util/test.h"
#include "kernel/metavar.h"
#include "kernel/instantiate.h"
#include "kernel/abstract.h"
#include "kernel/free_vars.h"
#include "kernel/normalizer.h"
#include "kernel/environment.h"
#include "kernel/type_checker.h"
#include "library/printer.h"
#include "library/placeholder.h"
using namespace lean;
class unification_constraints_dbg : public unification_constraints {
typedef std::tuple<context, expr, expr> constraint;
typedef std::vector<constraint> constraints;
constraints m_eqs;
constraints m_type_of_eqs;
public:
unification_constraints_dbg() {}
virtual ~unification_constraints_dbg() {}
virtual void add(context const & ctx, expr const & lhs, expr const & rhs) { m_eqs.push_back(constraint(ctx, lhs, rhs)); }
virtual void add_type_of(context const & ctx, expr const & n, expr const & t) { m_type_of_eqs.push_back(constraint(ctx, n, t)); }
constraints const & eqs() const { return m_eqs; }
constraints const & type_of_eqs() const { return m_type_of_eqs; }
friend std::ostream & operator<<(std::ostream & out, unification_constraints_dbg const & uc) {
for (auto c : uc.m_eqs)
std::cout << std::get<0>(c) << " |- " << std::get<1>(c) << " == " << std::get<2>(c) << "\n";
for (auto c : uc.m_type_of_eqs)
std::cout << std::get<0>(c) << " |- " << std::get<1>(c) << " : " << std::get<2>(c) << "\n";
return out;
}
};
std::ostream & operator<<(std::ostream & out, substitution const & env) {
bool first = true;
env.for_each([&](name const & n, expr const & v) {
if (first) first = false; else out << "\n";
out << "?M" << n << " <- " << v;
});
return out;
}
static void tst1() {
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
lean_assert(!subst.is_assigned(m1));
expr t1 = metavar_type(m1);
lean_assert(is_metavar(t1));
lean_assert(is_eqp(metavar_type(m1), t1));
lean_assert(is_eqp(metavar_type(m1), t1));
lean_assert(!subst.is_assigned(m1));
expr m2 = gen.mk();
lean_assert(!subst.is_assigned(m1));
expr t2 = metavar_type(m2);
lean_assert(is_metavar(m2));
lean_assert(!is_eqp(t1, t2));
lean_assert(t1 != t2);
expr f = Const("f");
expr a = Const("a");
subst.assign(m1, f(a));
lean_assert(subst.is_assigned(m1));
lean_assert(!subst.is_assigned(m2));
lean_assert(subst.get_subst(m1) == f(a));
}
static void tst2() {
substitution subst;
metavar_generator gen;
expr f = Const("f");
expr g = Const("g");
expr h = Const("h");
expr a = Const("a");
expr m1 = gen.mk();
expr m2 = gen.mk();
// move m1 to a different context, and store new metavariable + context in m11
std::cout << "---------------------\n";
expr m11 = add_inst(m1, 0, f(a, m2));
std::cout << m11 << "\n";
subst.assign(m1, f(Var(0)));
std::cout << instantiate_metavars(m11, subst) << "\n";
subst.assign(m2, g(a, Var(1)));
std::cout << instantiate_metavars(h(m11), subst) << "\n";
lean_assert(instantiate_metavars(h(m11), subst) == h(f(f(a, g(a, Var(1))))));
}
static void tst3() {
substitution subst;
metavar_generator gen;
expr f = Const("f");
expr g = Const("g");
expr h = Const("h");
expr a = Const("a");
expr x = Const("x");
expr T = Const("T");
expr m1 = gen.mk();
expr F = Fun({x, T}, f(m1, x));
subst.assign(m1, h(Var(0), Var(2)));
std::cout << instantiate(abst_body(F), g(a)) << "\n";
std::cout << instantiate_metavars(instantiate(abst_body(F), g(a)), subst) << "\n";
lean_assert(instantiate_metavars(instantiate(abst_body(F), g(a)), subst) == f(h(g(a), Var(1)), g(a)));
std::cout << instantiate(instantiate_metavars(abst_body(F), subst), g(a)) << "\n";
lean_assert(instantiate(instantiate_metavars(abst_body(F), subst), g(a)) ==
instantiate_metavars(instantiate(abst_body(F), g(a)), subst));
}
static void tst4() {
substitution subst;
metavar_generator gen;
expr f = Const("f");
expr g = Const("g");
expr h = Const("h");
expr a = Const("a");
expr m1 = gen.mk();
expr F = f(m1, Var(2));
subst.assign(m1, h(Var(1)));
std::cout << instantiate(F, {g(Var(0)), h(a)}) << "\n";
std::cout << instantiate_metavars(instantiate(F, {g(Var(0)), h(a)}), subst) << "\n";
}
static void tst5() {
return;
}
static void tst6() {
expr N = Const("N");
expr f = Const("f");
expr x = Const("x");
expr y = Const("y");
expr a = Const("a");
expr g = Const("g");
expr h = Const("h");
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr m2 = gen.mk();
expr t = f(Var(0), Fun({x, N}, f(Var(1), x, Fun({y, N}, f(Var(2), x, y)))));
expr r = instantiate(t, g(m1, m2));
std::cout << r << std::endl;
subst.assign(m2, Var(2));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
subst.assign(m1, h(Var(3)));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
lean_assert(r == f(g(h(Var(3)), Var(2)), Fun({x, N}, f(g(h(Var(4)), Var(3)), x, Fun({y, N}, f(g(h(Var(5)), Var(4)), x, y))))));
}
static void tst7() {
expr f = Const("f");
expr g = Const("g");
expr a = Const("a");
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr t = f(m1, Var(0));
expr r = instantiate(t, a);
subst.assign(m1, g(Var(0)));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
lean_assert(r == f(g(a), a));
}
static void tst8() {
expr f = Const("f");
expr g = Const("g");
expr a = Const("a");
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr t = f(m1, Var(0), Var(2));
expr r = instantiate(t, a);
subst.assign(m1, g(Var(0), Var(1)));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
lean_assert(r == f(g(a, Var(0)), a, Var(1)));
}
static void tst9() {
expr f = Const("f");
expr g = Const("g");
expr a = Const("a");
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr t = f(m1, Var(1), Var(2));
expr r = lift_free_vars(t, 1, 2);
std::cout << r << std::endl;
r = instantiate(r, a);
std::cout << r << std::endl;
subst.assign(m1, g(Var(0), Var(1)));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
lean_assert(r == f(g(a, Var(2)), Var(2), Var(3)));
}
static void tst10() {
expr N = Const("N");
expr f = Const("f");
expr x = Const("x");
expr y = Const("y");
expr a = Const("a");
expr g = Const("g");
expr h = Const("h");
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr m2 = gen.mk();
expr t = f(Var(0), Fun({x, N}, f(Var(1), Var(2), x, Fun({y, N}, f(Var(2), x, y)))));
expr r = instantiate(t, g(m1));
std::cout << r << std::endl;
r = instantiate(r, h(m2));
std::cout << r << std::endl;
subst.assign(m1, f(Var(0)));
subst.assign(m2, Var(2));
r = instantiate_metavars(r, subst);
std::cout << r << std::endl;
lean_assert(r == f(g(f(h(Var(2)))), Fun({x, N}, f(g(f(h(Var(3)))), h(Var(3)), x, Fun({y, N}, f(g(f(h(Var(4)))), x, y))))));
}
static void tst11() {
substitution subst;
unsigned t1 = subst.get_timestamp();
metavar_generator gen;
expr m = gen.mk();
unsigned t2 = subst.get_timestamp();
lean_assert(t2 == t1);
lean_assert(!subst.is_assigned(m));
lean_assert(subst.get_timestamp() == t2);
subst.assign(m, Const("a"));
lean_assert(subst.get_timestamp() > t2);
}
static void tst12() {
substitution subst;
metavar_generator gen;
expr m = gen.mk();
expr f = Const("f");
std::cout << instantiate(f(m), {Var(0), Var(1)}) << "\n";
std::cout << instantiate(f(m), {Var(1), Var(0)}) << "\n";
}
static void tst13() {
environment env;
substitution subst;
metavar_generator gen;
expr m = gen.mk();
env.add_var("N", Type());
expr N = Const("N");
env.add_var("f", N >> N);
expr f = Const("f");
env.add_var("a", N);
expr a = Const("a");
expr x = Const("x");
expr F = Fun({x, N}, f(m))(a);
normalizer norm(env);
std::cout << norm(F) << "\n";
subst.assign(m, Var(0));
std::cout << norm(instantiate_metavars(F, subst)) << "\n";
lean_assert(norm(instantiate_metavars(F, subst)) ==
instantiate_metavars(norm(F), subst));
}
static void tst14() {
environment env;
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr m2 = gen.mk();
expr N = Const("N");
expr f = Const("f");
expr h = Const("h");
expr a = Const("a");
expr b = Const("b");
expr x = Const("x");
expr y = Const("y");
env.add_var("h", Pi({N, Type()}, N >> (N >> N)));
expr F1 = Fun({{N, Type()}, {a, N}, {f, N >> N}},
(Fun({{x, N}, {y, N}}, Eq(f(m1), y)))(a));
substitution subst2 = subst;
subst2.assign(m1, h(Var(4), Var(1), Var(3)));
normalizer norm(env);
env.add_var("M", Type());
expr M = Const("M");
std::cout << norm(F1) << "\n";
std::cout << instantiate_metavars(norm(F1), subst2) << "\n";
std::cout << instantiate_metavars(F1, subst2) << "\n";
std::cout << norm(instantiate_metavars(F1, subst2)) << "\n";
lean_assert(instantiate_metavars(norm(F1), subst2) ==
norm(instantiate_metavars(F1, subst2)));
expr F2 = (Fun({{N, Type()}, {f, N >> N}, {a, N}, {b, N}},
(Fun({{x, N}, {y, N}}, Eq(f(m1), y)))(a, m2)))(M);
std::cout << norm(F2) << "\n";
expr F3 = (Fun({{N, Type()}, {f, N >> N}, {a, N}, {b, N}},
(Fun({{x, N}, {y, N}}, Eq(f(m1), y)))(b, m2)))(M);
std::cout << norm(F3) << "\n";
}
static void tst15() {
environment env;
substitution subst;
normalizer norm(env);
metavar_generator gen;
expr m1 = gen.mk();
expr f = Const("f");
expr x = Const("x");
expr y = Const("y");
expr z = Const("z");
expr N = Const("N");
env.add_var("N", Type());
env.add_var("f", Type() >> Type());
expr F = Fun({z, Type()}, Fun({{x, Type()}, {y, Type()}}, f(m1))(N, N));
subst.assign(m1, Var(2));
std::cout << norm(F) << "\n";
std::cout << instantiate_metavars(norm(F), subst) << "\n";
std::cout << norm(instantiate_metavars(F, subst)) << "\n";
lean_assert(instantiate_metavars(norm(F), subst) ==
norm(instantiate_metavars(F, subst)));
}
static void tst16() {
environment env;
substitution subst;
normalizer norm(env);
context ctx;
ctx = extend(ctx, "w", Type());
metavar_generator gen;
expr m1 = gen.mk();
expr f = Const("f");
expr x = Const("x");
expr y = Const("y");
expr z = Const("z");
expr N = Const("N");
env.add_var("N", Type());
expr F = Fun({z, Type()}, Fun({{x, Type()}, {y, Type()}}, m1)(N, N));
subst.assign(m1, Var(3));
std::cout << norm(F, ctx) << "\n";
std::cout << instantiate_metavars(norm(F, ctx), subst) << "\n";
std::cout << norm(instantiate_metavars(F, subst), ctx) << "\n";
}
static void tst17() {
environment env;
substitution subst;
normalizer norm(env);
context ctx;
ctx = extend(ctx, "w1", Type());
ctx = extend(ctx, "w2", Type());
ctx = extend(ctx, "w3", Type());
ctx = extend(ctx, "w4", Type());
metavar_generator gen;
expr m1 = gen.mk();
expr f = Const("f");
expr x = Const("x");
expr y = Const("y");
expr z = Const("z");
expr N = Const("N");
env.add_var("N", Type());
expr F = Fun({z, Type()}, Fun({{x, Type()}, {y, Type()}}, m1)(N, N));
substitution subst2 = subst;
subst.assign(m1, Var(3));
std::cout << norm(F, ctx) << "\n";
std::cout << instantiate_metavars(norm(F, ctx), subst) << "\n";
std::cout << norm(instantiate_metavars(F, subst), ctx) << "\n";
F = Fun({z, Type()}, Fun({{x, Type()}, {y, Type()}, {x, Type()}, {y, Type()}, {x, Type()}}, m1)(N, N, N, N, N));
lean_assert(instantiate_metavars(norm(F, ctx), subst) ==
norm(instantiate_metavars(F, subst), ctx));
std::cout << "----------------------\n";
subst2.assign(m1, Var(8));
std::cout << norm(F, ctx) << "\n";
std::cout << instantiate_metavars(norm(F, ctx), subst2) << "\n";
std::cout << norm(instantiate_metavars(F, subst2), ctx) << "\n";
lean_assert(instantiate_metavars(norm(F, ctx), subst2) ==
norm(instantiate_metavars(F, subst2), ctx));
}
static void tst18() {
environment env;
substitution subst;
normalizer norm(env);
context ctx;
ctx = extend(ctx, "w1", Type());
ctx = extend(ctx, "w2", Type());
metavar_generator gen;
expr m1 = gen.mk();
expr m2 = gen.mk();
expr f = Const("f");
expr g = Const("g");
expr h = Const("h");
expr x = Const("x");
expr y = Const("y");
expr z = Const("z");
expr N = Const("N");
expr a = Const("a");
env.add_var("N", Type());
env.add_var("a", N);
env.add_var("g", N >> N);
env.add_var("h", N >> (N >> N));
expr F = Fun({z, Type()}, Fun({{f, N >> N}, {y, Type()}}, m1)(Fun({x, N}, g(z, x, m2)), N));
std::cout << norm(F, ctx) << "\n";
substitution subst2 = subst;
subst2.assign(m1, Var(1));
subst2.assign(m2, h(Var(2), Var(1)));
std::cout << instantiate_metavars(norm(F, ctx), subst2) << "\n";
std::cout << instantiate_metavars(F, subst2) << "\n";
lean_assert(instantiate_metavars(norm(F, ctx), subst2) ==
norm(instantiate_metavars(F, subst2), ctx));
lean_assert(instantiate_metavars(norm(F, ctx), subst2) ==
Fun({{z, Type()}, {x, N}}, g(z, x, h(Var(2), z))));
}
static void tst19() {
environment env;
substitution subst;
normalizer norm(env);
context ctx;
ctx = extend(ctx, "w1", Type());
ctx = extend(ctx, "w2", Type());
metavar_generator gen;
expr m1 = gen.mk();
expr x = Const("x");
expr y = Const("y");
expr N = Const("N");
expr F = Fun({{N, Type()}, {x, N}, {y, N}}, m1);
std::cout << norm(F) << "\n";
std::cout << norm(F, ctx) << "\n";
lean_assert(norm(F) == F);
lean_assert(norm(F, ctx) == F);
}
static void tst20() {
environment env;
substitution subst;
normalizer norm(env);
context ctx;
ctx = extend(ctx, "w1", Type());
ctx = extend(ctx, "w2", Type());
metavar_generator gen;
expr m1 = gen.mk();
expr x = Const("x");
expr y = Const("y");
expr z = Const("z");
expr N = Const("N");
expr a = Const("a");
expr b = Const("b");
env.add_var("N", Type());
env.add_var("a", N);
env.add_var("b", N);
expr F = Fun({{x, N}, {y, N}, {z, N}}, Fun({{x, N}, {y, N}}, m1)(a, b));
std::cout << norm(F) << "\n";
std::cout << norm(F, ctx) << "\n";
}
static void tst21() {
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr l = add_lift(add_lift(m1, 0, 1), 1, 1);
expr r = add_lift(m1, 0, 2);
std::cout << metavar_type(l) << " " << metavar_type(r) << "\n";
lean_assert_eq(l, r);
lean_assert_eq(add_lift(add_lift(m1, 1, 2), 3, 4),
add_lift(m1, 1, 6));
lean_assert_ne(add_lift(add_lift(m1, 1, 3), 3, 4),
add_lift(m1, 1, 7));
}
#define _ mk_placholder()
static void tst22() {
substitution subst;
metavar_generator mgen;
expr f = Const("f");
expr x = Const("x");
expr N = Const("N");
expr F = f(Fun({x, N}, f(_, x)), _);
std::cout << F << "\n";
std::cout << replace_placeholders_with_metavars(F, mgen) << "\n";
}
static void tst23() {
environment env;
substitution subst;
unification_constraints_dbg up;
metavar_generator mgen;
type_checker checker(env);
expr N = Const("N");
expr f = Const("f");
expr a = Const("a");
env.add_var("N", Type());
env.add_var("f", N >> (N >> N));
env.add_var("a", N);
expr x = Const("x");
expr F0 = f(Fun({x, N}, f(_, x))(a), _);
expr F1 = replace_placeholders_with_metavars(F0, mgen);
std::cout << F1 << "\n";
std::cout << checker.infer_type(F1, context(), &subst, &mgen, &up) << "\n";
std::cout << up << "\n";
}
static void tst24() {
substitution subst;
metavar_generator gen;
expr m1 = gen.mk();
expr m2 = gen.mk();
expr f = Const("f");
expr a = Const("a");
subst.assign(m1, f(m2));
subst.assign(m2, a);
lean_assert(instantiate_metavars(f(m1), subst) == f(f(a)));
std::cout << instantiate_metavars(f(m1), subst) << "\n";
}
static void tst25() {
environment env;
substitution subst;
unification_constraints_dbg up;
metavar_generator gen;
type_checker checker(env);
expr N = Const("N");
expr a = Const("a");
expr b = Const("b");
env.add_var("N", Type());
env.add_var("a", N);
env.add_var("b", N);
expr m = gen.mk();
expr F = m(a, b);
std::cout << checker.infer_type(F, context(), &subst, &gen, &up) << "\n";
std::cout << subst << "\n";
std::cout << up << "\n";
}
int main() {
tst1();
tst2();
tst3();
tst4();
tst5();
tst6();
tst7();
tst8();
tst9();
tst10();
tst11();
tst12();
tst13();
tst14();
tst15();
tst16();
tst17();
tst18();
tst19();
tst20();
tst21();
tst22();
tst23();
tst24();
tst25();
return has_violations() ? 1 : 0;
}