lean2/src/tests/util/name.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 <cstring>
#include <sstream>
#include "util/test.h"
#include "util/name.h"
#include "util/name_generator.h"
#include "util/name_set.h"
#include "util/init_module.h"
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using namespace lean;
static void tst1() {
name n("foo");
lean_assert(n == name("foo"));
lean_assert(name(n, 1) != name(n, 2));
lean_assert(name(n, 1) == name(n, 1));
lean_assert(name(name(n, 1), 2) != name(name(n, 1), 1));
lean_assert(name(name(n, 1), 1) == name(name(n, 1), 1));
lean_assert(name(name(n, 2), 1) != name(name(n, 1), 1));
lean_assert(name(name(n, "bla"), 1) == name(name(n, "bla"), 1));
lean_assert(name(name(n, "foo"), 1) != name(name(n, "bla"), 1));
lean_assert(name(name(name("f"), "bla"), 1) != name(name(n, "bla"), 1));
lean_assert(n != name());
lean_assert(name().kind() == name_kind::ANONYMOUS);
lean_assert(name(name(), "foo") == name("foo"));
lean_assert(name(n, 1) < name(n, 2));
std::cout << "cmp(" << name(n, 1) << ", " << name(n, 2) << ") = " << cmp(name(n, 1), name(n, 2)) << "\n";
lean_assert(!(name(n, 1) >= name(n, 2)));
lean_assert(name(n, 1) < name(name(n, 1), 1));
lean_assert(n < name(n, 1));
lean_assert(name(n, 2) > name(name(n, 1), 1));
lean_assert(name(name("aa"), 2) < name(name(n, 1), 1));
lean_assert(name(n, "aaa") < name(n, "xxx"));
lean_assert(name(n, 1) < name(n, "xxx"));
lean_assert(name(n, 1) < name(name(n, "xxx"), 1));
lean_assert(name() < name(name(n, "xxx"), 1));
}
static name mk_big_name(unsigned num) {
name n("foo");
for (unsigned i = 0; i < num; i++) {
n = name(n, "bla");
}
return n;
}
static void tst2() {
name n1 = mk_big_name(2000);
name n2 = mk_big_name(2000);
lean_assert(n1.hash() == n2.hash());
for (unsigned i = 0; i < 10000; i++)
n1.hash();
std::cout << "n1.hash(): " << n1.hash() << "\n";
}
static void tst3() {
name n{"foo", "bla", "tst"};
std::cout << n << "\n";
lean_assert(n == name(name(name("foo"), "bla"), "tst"));
}
static void tst4() {
lean_assert(is_prefix_of(name{"foo", "bla"}, name{"foo", "bla"}));
lean_assert(is_prefix_of(name{"foo", "bla"}, name{"foo", "bla", "foo"}));
lean_assert(is_prefix_of(name{"foo"}, name{"foo", "bla", "foo"}));
lean_assert(!is_prefix_of(name{"foo"}, name{"fo", "bla", "foo"}));
lean_assert(!is_prefix_of(name{"foo", "bla", "foo"}, name{"foo", "bla"}));
lean_assert(is_prefix_of(name{"foo", "bla"}, name(name{"foo", "bla"}, 0u)));
lean_assert(is_prefix_of(name("aaa"), name("aaa")));
lean_assert(!is_prefix_of(name("aaa"), name("aaab")));
lean_assert(!is_prefix_of(name("aaab"), name("aaa")));
lean_assert(!is_prefix_of(name{"foo", "bla"}, name{"foo"}));
lean_assert(is_prefix_of(name{"foo"}, name{"foo", "bla"}));
}
static void tst5() {
lean_assert(name().size() > 0);
lean_assert(name({"foo", "bla", "boing"}).get_prefix() == name({"foo", "bla"}));
lean_assert(!name({"foo", "bla", "boing"}).is_atomic());
lean_assert(name({"foo"}).is_atomic());
lean_assert(strcmp(name({"foo", "bla", "boing"}).get_string(), "boing") == 0);
lean_assert(name(name("foo"), 1u).get_numeral() == 1u);
lean_assert(name::anonymous().is_anonymous());
name n1("foo");
name n2 = n1;
lean_assert(n2 == n1);
std::cout << name::anonymous() << "\n";
std::cout << name({"foo", "bla", "boing"}).get_prefix() << "\n";
lean_assert(name("foo").is_string());
lean_assert(name(name("boo"), "foo").is_string());
lean_assert(name(name("foo"), 0u).is_numeral());
lean_assert(name(name("foo"), 0u).get_prefix().is_string());
}
static void tst6() {
lean_assert(name({"foo", "bla"}).is_safe_ascii());
lean_assert(!name({"foo", "b\u2200aaa"}).is_safe_ascii());
lean_assert(!name({"\u2200", "boo"}).is_safe_ascii());
lean_assert(!name(name(name("baa"), "bla\u2200"), "foo").is_safe_ascii());
}
static void tst7() {
lean_assert(name("foo") + name("bla") == name({"foo", "bla"}));
lean_assert(name("foo") + name({"bla", "test"}) == name({"foo", "bla", "test"}));
lean_assert(name({"foo", "hello"}) + name({"bla", "test"}) == name({"foo", "hello", "bla", "test"}));
lean_assert(name("foo") + (name("bla") + name({"bla", "test"})) == name(name(name(name("foo"), "bla"), "bla"), "test"));
lean_assert(name() + name({"bla", "test"}) == name({"bla", "test"}));
lean_assert(name({"bla", "test"}) + name() == name({"bla", "test"}));
}
static void tst8() {
name u1 = name::mk_internal_unique_name();
name u2 = name::mk_internal_unique_name();
lean_assert(u1 != u2);
std::cout << u1 << " " << u2 << "\n";
}
static void tst9() {
name_generator g("a");
lean_assert(g.prefix() == "a");
name n0 = g.next();
name n1 = g.next();
name a0(name("a"), 0u);
name a1(name("a"), 1u);
lean_assert(n0 == a0);
lean_assert(n1 == a1);
}
static void tst10() {
name_generator g1("a");
name_generator g2("b");
name a0 = g1.next();
name b0 = g2.next();
lean_assert_eq(a0, name(name("a"), 0u));
lean_assert_eq(b0, name(name("b"), 0u));
swap(g1, g2);
name a1 = g2.next();
name b1 = g1.next();
lean_assert_eq(a1, name(name("a"), 1u));
lean_assert_eq(b1, name(name("b"), 1u));
}
static void tst11() {
name n1("a");
name n2("b");
swap(n1, n2);
lean_assert(n1 == name("b"));
lean_assert(n2 == name("a"));
}
static void tst12() {
name_set s;
s.insert(name("foo"));
s.insert(name(name("foo"), 1));
s.insert(name("bla"));
lean_assert(mk_unique(s, name("boo")) == name("boo"));
lean_assert(mk_unique(s, name("bla")) == name(name("bla"), 1));
lean_assert(mk_unique(s, name("foo")) == name(name("foo"), 2));
}
static void tst13() {
name_generator g1("a");
name_generator c1 = g1.mk_child();
name_generator c2 = g1.mk_child();
lean_assert(c1.next() != c2.next());
std::cout << c1.next() << "\n";
std::cout << c2.next() << "\n";
}
int main() {
save_stack_info();
initialize_util_module();
tst1();
tst2();
tst3();
tst4();
tst5();
tst6();
tst7();
tst8();
tst9();
tst10();
tst11();
tst12();
tst13();
finalize_util_module();
return has_violations() ? 1 : 0;
}