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// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
//
// This program tests interaction with generic Pointers.
//
// Notation used in following tables:
// * static_type//dynamic_type
// * P = Pointer
// * I = Int8
// * NT = NativeType
//
// Note #1: When NNBD is landed, implicit downcasts will be static errors.
//
// Note #2: When we switch to extension methods we will _only_ use the static
// type of the container.
//
// ===== a.value = b ======
// Does a.value = b, where a and b have specific static and dynamic types: run
// fine, fail at compile time, or fail at runtime?
// =======================
// b P<I>//P<I> P<NT>//P<I> P<NT>//P<NT>
// a
// P<P<I>>//P<P<I>> 1 ok 2 implicit downcast 3 implicit downcast
// of argument: of argument:
// static error static error
//
// P<P<NT>>//P<P<I>> 4 ok 5 ok 6 fail at runtime
//
// P<P<NT>>//P<P<NT>> 7 ok 8 ok 9 ok
//
// ====== final c = a.value ======
// What is the (inferred) static type and runtime type of `a.value`. Note that
// we assume extension method here: on Pointer<PointerT>> { Pointer<T> load(); }
// ================================
// a a.value
// inferred static type*//runtime type
// P<P<I>>//P<P<I>> P<I>//P<I>
//
// P<P<NT>>//P<P<I>> P<NT>//P<I>
//
// P<P<NT>>//P<P<NT>> P<NT>//P<NT>
//
// * The inferred static type when we get extension methods.
//
// ====== b = a.value ======
// What happens when we try to assign the result of a.value to variable b with
// a specific static type: runs fine, fails at compile time, or fails at runtime.
// ==========================
// b P<I> P<NT>
// a
// P<P<I>>//P<P<I>> 1 ok 2 ok
//
// P<P<NT>>//P<P<I>> 3 implicit downcast 4 ok
// of returnvalue: ok
//
// P<P<NT>>//P<P<NT>> 5 implicit downcast 6 ok
// of returnvalue: fail
// at runtime
//
// These are the normal Dart assignment rules.
import 'dart:ffi';
import "package:expect/expect.dart";
import "package:ffi/ffi.dart";
import 'calloc.dart';
// ===== a.value = b ======
// The tests follow table cells left to right, top to bottom.
void store1() {
final Pointer<Pointer<Int8>> a = calloc<Pointer<Int8>>();
final Pointer<Int8> b = calloc<Int8>();
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store2() {
final Pointer<Pointer<Int8>> a = calloc<Pointer<Int8>>();
final Pointer<NativeType> b =
calloc<Int8>(); // Reified Pointer<Int8> at runtime.
// Successful implicit downcast of argument at runtime.
// Should succeed now, should statically be rejected when NNBD lands.
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store3() {
final Pointer<Pointer<Int8>> a = calloc<Pointer<Int8>>();
final Pointer<NativeType> b = calloc<Int8>().cast<Pointer<NativeType>>();
// Failing implicit downcast of argument at runtime.
// Should fail now at runtime, should statically be rejected when NNBD lands.
Expect.throws(() {
a.value = b;
});
calloc.free(a);
calloc.free(b);
}
void store4() {
// Reified as Pointer<Pointer<Int8>> at runtime.
final Pointer<Pointer<NativeType>> a = calloc<Pointer<Int8>>();
final Pointer<Int8> b = calloc<Int8>();
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store5() {
// Reified as Pointer<Pointer<Int8>> at runtime.
final Pointer<Pointer<NativeType>> a = calloc<Pointer<Int8>>();
final Pointer<NativeType> b =
calloc<Int8>(); // Reified as Pointer<Int8> at runtime.
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store6() {
// Reified as Pointer<Pointer<Int8>> at runtime.
final Pointer<Pointer<NativeType>> a = calloc<Pointer<Int8>>();
final Pointer<NativeType> b = calloc<Int8>().cast<Pointer<NativeType>>();
// Fails on type check of argument.
Expect.throws(() {
a.value = b;
});
calloc.free(a);
calloc.free(b);
}
void store7() {
final Pointer<Pointer<NativeType>> a = calloc<Pointer<NativeType>>();
final Pointer<Int8> b = calloc<Int8>();
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store8() {
final Pointer<Pointer<NativeType>> a = calloc<Pointer<NativeType>>();
// Reified as Pointer<Int8> at runtime.
final Pointer<NativeType> b = calloc<Int8>();
a.value = b;
calloc.free(a);
calloc.free(b);
}
void store9() {
final Pointer<Pointer<NativeType>> a = calloc<Pointer<NativeType>>();
final Pointer<NativeType> b = calloc<Int8>().cast<Pointer<NativeType>>();
a.value = b;
calloc.free(a);
calloc.free(b);
}
// ====== b = a.value ======
// The tests follow table cells left to right, top to bottom.
void load1() {
final Pointer<Pointer<Int8>> a = calloc<Pointer<Int8>>();
Pointer<Int8> b = a.value;
Expect.type<Pointer<Int8>>(b);
calloc.free(a);
}
void load2() {
final Pointer<Pointer<Int8>> a = calloc<Pointer<Int8>>();
Pointer<NativeType> b = a.value;
Expect.type<Pointer<Int8>>(b);
calloc.free(a);
}
void load3() {
// Reified as Pointer<Pointer<Int8>> at runtime.
final Pointer<Pointer<NativeType>> a = calloc<Pointer<Int8>>();
Pointer<Int8> b = a.value;
Expect.type<Pointer<Int8>>(b);
calloc.free(a);
}
void load4() {
// Reified as Pointer<Pointer<Int8>> at runtime.
final Pointer<Pointer<NativeType>> a = calloc<Pointer<Int8>>();
// Return value runtime type is Pointer<Int8>.
Pointer<NativeType> b = a.value;
Expect.type<Pointer<Int8>>(b);
calloc.free(a);
}
void load5() {
final Pointer<Pointer<NativeType>> a = calloc<Pointer<NativeType>>();
// Failing implicit downcast of return value at runtime.
// Should fail now at runtime, should statically be rejected when NNBD lands.
Expect.throws(() {
Pointer<Int8> b = a.value;
});
calloc.free(a);
}
void load6() {
final Pointer<Pointer<NativeType>> a = calloc<Pointer<NativeType>>();
Pointer<NativeType> b = a.value;
Expect.type<Pointer<NativeType>>(b);
calloc.free(a);
}
void main() {
for (int i = 0; i < 100; i++) {
store1();
store2();
store3();
store4();
store5();
store6();
store7();
store8();
store9();
load1();
load2();
load3();
load4();
load5();
load6();
}
}