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https://github.com/luau-lang/luau.git
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59ae47db43
* Type mismatch errors now mention if unification failed in covariant or invariant context, to explain why sometimes derived class can't be converted to base class or why `T` can't be converted into `T?` and so on * Class type indexing is no longer an error in non-strict mode (still an error in strict mode) * Fixed cyclic type packs not being displayed in the type * Added an error when unrelated types are compared with `==`/`~=` * Fixed false positive errors involving sub-type tests an `never` type * Fixed miscompilation of multiple assignment statements (Fixes https://github.com/Roblox/luau/issues/754) * Type inference stability improvements
161 lines
3.0 KiB
C++
161 lines
3.0 KiB
C++
// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
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#include "Luau/NotNull.h"
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#include "doctest.h"
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#include <stdio.h>
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#include <unordered_map>
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#include <string>
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using Luau::NotNull;
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static_assert(!std::is_convertible<NotNull<int>, bool>::value, "NotNull<T> ought not to be convertible into bool");
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namespace
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{
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struct Test
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{
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int x;
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float y;
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static int count;
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Test()
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{
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++count;
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}
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~Test()
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{
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--count;
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}
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};
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int Test::count = 0;
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} // namespace
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int foo(NotNull<int> p)
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{
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return *p;
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}
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void bar(int* q) {}
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TEST_SUITE_BEGIN("NotNull");
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TEST_CASE("basic_stuff")
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{
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NotNull<int> a = NotNull{new int(55)}; // Does runtime test
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NotNull<int> b{new int(55)}; // As above
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// NotNull<int> c = new int(55); // Nope. Mildly regrettable, but implicit conversion from T* to NotNull<T> in the general case is not
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// good.
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// a = nullptr; // nope
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NotNull<int> d = a; // No runtime test. a is known not to be null.
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int e = *d;
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*d = 1;
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CHECK(e == 55);
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const NotNull<int> f = d;
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*f = 5; // valid: there is a difference between const NotNull<T> and NotNull<const T>
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// f = a; // nope
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CHECK_EQ(a, d);
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CHECK(a != b);
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NotNull<const int> g(a);
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CHECK(g == a);
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// *g = 123; // nope
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(void)f;
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NotNull<Test> t{new Test};
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t->x = 5;
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t->y = 3.14f;
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const NotNull<Test> u = t;
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u->x = 44;
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int v = u->x;
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CHECK(v == 44);
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bar(a);
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// a++; // nope
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// a[41]; // nope
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// a + 41; // nope
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// a - 41; // nope
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delete a;
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delete b;
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delete t;
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CHECK_EQ(0, Test::count);
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}
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TEST_CASE("hashable")
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{
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std::unordered_map<NotNull<int>, const char*> map;
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int a_ = 8;
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int b_ = 10;
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NotNull<int> a{&a_};
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NotNull<int> b{&b_};
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std::string hello = "hello";
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std::string world = "world";
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map[a] = hello.c_str();
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map[b] = world.c_str();
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CHECK_EQ(2, map.size());
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CHECK_EQ(hello.c_str(), map[a]);
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CHECK_EQ(world.c_str(), map[b]);
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}
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TEST_CASE("const")
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{
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int p = 0;
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int q = 0;
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NotNull<int> n{&p};
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*n = 123;
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NotNull<const int> m = n; // Conversion from NotNull<T> to NotNull<const T> is allowed
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CHECK(123 == *m); // readonly access of m is ok
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// *m = 321; // nope. m points at const data.
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// NotNull<int> o = m; // nope. Conversion from NotNull<const T> to NotNull<T> is forbidden
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NotNull<int> n2{&q};
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m = n2; // ok. m points to const data, but is not itself const
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const NotNull<int> m2 = n;
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// m2 = n2; // nope. m2 is const.
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*m2 = 321; // ok. m2 is const, but points to mutable data
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CHECK(321 == *n);
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}
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TEST_CASE("const_compatibility")
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{
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int* raw = new int(8);
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NotNull<int> a(raw);
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NotNull<const int> b(raw);
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NotNull<const int> c = a;
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// NotNull<int> d = c; // nope - no conversion from const to non-const
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CHECK_EQ(*c, 8);
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delete raw;
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}
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TEST_SUITE_END();
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