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974a445bd9
subsequent changes are easier to review. About to fix some layering issues, and wanted to separate out the necessary churn. Also comment and sink the include of "Windows.h" in three .inc files to match the usage in Memory.inc. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@198685 91177308-0d34-0410-b5e6-96231b3b80d8
231 lines
5.7 KiB
C++
231 lines
5.7 KiB
C++
//===---------- llvm/unittest/Support/Casting.cpp - Casting tests ---------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Support/Casting.h"
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#include "llvm/IR/User.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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#include "gtest/gtest.h"
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#include <cstdlib>
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namespace llvm {
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// Used to test illegal cast. If a cast doesn't match any of the "real" ones,
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// it will match this one.
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struct IllegalCast;
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template <typename T> IllegalCast *cast(...) { return 0; }
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// set up two example classes
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// with conversion facility
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//
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struct bar {
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bar() {}
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struct foo *baz();
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struct foo *caz();
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struct foo *daz();
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struct foo *naz();
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private:
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bar(const bar &);
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};
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struct foo {
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void ext() const;
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/* static bool classof(const bar *X) {
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cerr << "Classof: " << X << "\n";
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return true;
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}*/
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};
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template <> struct isa_impl<foo, bar> {
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static inline bool doit(const bar &Val) {
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dbgs() << "Classof: " << &Val << "\n";
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return true;
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}
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};
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foo *bar::baz() {
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return cast<foo>(this);
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}
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foo *bar::caz() {
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return cast_or_null<foo>(this);
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}
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foo *bar::daz() {
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return dyn_cast<foo>(this);
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}
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foo *bar::naz() {
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return dyn_cast_or_null<foo>(this);
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}
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bar *fub();
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template <> struct simplify_type<foo> {
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typedef int SimpleType;
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static SimpleType getSimplifiedValue(foo &Val) { return 0; }
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};
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} // End llvm namespace
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using namespace llvm;
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// Test the peculiar behavior of Use in simplify_type.
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int Check1[is_same<simplify_type<Use>::SimpleType, Value *>::value ? 1 : -1];
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int Check2[is_same<simplify_type<Use *>::SimpleType, Value *>::value ? 1 : -1];
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// Test that a regular class behaves as expected.
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int Check3[is_same<simplify_type<foo>::SimpleType, int>::value ? 1 : -1];
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int Check4[is_same<simplify_type<foo *>::SimpleType, foo *>::value ? 1 : -1];
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namespace {
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const foo *null_foo = NULL;
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bar B;
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extern bar &B1;
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bar &B1 = B;
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extern const bar *B2;
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// test various configurations of const
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const bar &B3 = B1;
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const bar *const B4 = B2;
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TEST(CastingTest, isa) {
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EXPECT_TRUE(isa<foo>(B1));
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EXPECT_TRUE(isa<foo>(B2));
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EXPECT_TRUE(isa<foo>(B3));
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EXPECT_TRUE(isa<foo>(B4));
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}
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TEST(CastingTest, cast) {
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foo &F1 = cast<foo>(B1);
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EXPECT_NE(&F1, null_foo);
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const foo *F3 = cast<foo>(B2);
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EXPECT_NE(F3, null_foo);
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const foo *F4 = cast<foo>(B2);
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EXPECT_NE(F4, null_foo);
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const foo &F5 = cast<foo>(B3);
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EXPECT_NE(&F5, null_foo);
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const foo *F6 = cast<foo>(B4);
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EXPECT_NE(F6, null_foo);
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// Can't pass null pointer to cast<>.
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// foo *F7 = cast<foo>(fub());
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// EXPECT_EQ(F7, null_foo);
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foo *F8 = B1.baz();
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EXPECT_NE(F8, null_foo);
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}
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TEST(CastingTest, cast_or_null) {
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const foo *F11 = cast_or_null<foo>(B2);
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EXPECT_NE(F11, null_foo);
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const foo *F12 = cast_or_null<foo>(B2);
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EXPECT_NE(F12, null_foo);
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const foo *F13 = cast_or_null<foo>(B4);
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EXPECT_NE(F13, null_foo);
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const foo *F14 = cast_or_null<foo>(fub()); // Shouldn't print.
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EXPECT_EQ(F14, null_foo);
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foo *F15 = B1.caz();
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EXPECT_NE(F15, null_foo);
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}
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TEST(CastingTest, dyn_cast) {
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const foo *F1 = dyn_cast<foo>(B2);
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EXPECT_NE(F1, null_foo);
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const foo *F2 = dyn_cast<foo>(B2);
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EXPECT_NE(F2, null_foo);
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const foo *F3 = dyn_cast<foo>(B4);
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EXPECT_NE(F3, null_foo);
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// Can't pass null pointer to dyn_cast<>.
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// foo *F4 = dyn_cast<foo>(fub());
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// EXPECT_EQ(F4, null_foo);
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foo *F5 = B1.daz();
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EXPECT_NE(F5, null_foo);
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}
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TEST(CastingTest, dyn_cast_or_null) {
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const foo *F1 = dyn_cast_or_null<foo>(B2);
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EXPECT_NE(F1, null_foo);
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const foo *F2 = dyn_cast_or_null<foo>(B2);
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EXPECT_NE(F2, null_foo);
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const foo *F3 = dyn_cast_or_null<foo>(B4);
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EXPECT_NE(F3, null_foo);
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foo *F4 = dyn_cast_or_null<foo>(fub());
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EXPECT_EQ(F4, null_foo);
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foo *F5 = B1.naz();
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EXPECT_NE(F5, null_foo);
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}
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// These lines are errors...
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//foo *F20 = cast<foo>(B2); // Yields const foo*
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//foo &F21 = cast<foo>(B3); // Yields const foo&
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//foo *F22 = cast<foo>(B4); // Yields const foo*
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//foo &F23 = cast_or_null<foo>(B1);
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//const foo &F24 = cast_or_null<foo>(B3);
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const bar *B2 = &B;
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} // anonymous namespace
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bar *llvm::fub() { return 0; }
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namespace {
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namespace inferred_upcasting {
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// This test case verifies correct behavior of inferred upcasts when the
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// types are statically known to be OK to upcast. This is the case when,
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// for example, Derived inherits from Base, and we do `isa<Base>(Derived)`.
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// Note: This test will actually fail to compile without inferred
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// upcasting.
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class Base {
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public:
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// No classof. We are testing that the upcast is inferred.
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Base() {}
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};
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class Derived : public Base {
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public:
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Derived() {}
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};
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// Even with no explicit classof() in Base, we should still be able to cast
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// Derived to its base class.
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TEST(CastingTest, UpcastIsInferred) {
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Derived D;
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EXPECT_TRUE(isa<Base>(D));
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Base *BP = dyn_cast<Base>(&D);
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EXPECT_TRUE(BP != NULL);
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}
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// This test verifies that the inferred upcast takes precedence over an
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// explicitly written one. This is important because it verifies that the
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// dynamic check gets optimized away.
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class UseInferredUpcast {
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public:
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int Dummy;
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static bool classof(const UseInferredUpcast *) {
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return false;
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}
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};
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TEST(CastingTest, InferredUpcastTakesPrecedence) {
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UseInferredUpcast UIU;
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// Since the explicit classof() returns false, this will fail if the
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// explicit one is used.
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EXPECT_TRUE(isa<UseInferredUpcast>(&UIU));
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}
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} // end namespace inferred_upcasting
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} // end anonymous namespace
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// Test that we reject casts of temporaries (and so the illegal cast gets used).
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namespace TemporaryCast {
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struct pod {};
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IllegalCast *testIllegalCast() { return cast<foo>(pod()); }
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}
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