81461a4350
There was linker problem, and it turns out that it is not always safe to refer to vtable. If the vtable is used, then we can refer to it without any problem, but because we don't know when it will be used or not, we can only check if vtable is external or it is safe to to emit it speculativly (when class it doesn't have any inline virtual functions). It should be fixed in the future. http://reviews.llvm.org/D12385 llvm-svn: 246214
205 lines
6.1 KiB
C++
205 lines
6.1 KiB
C++
// RUN: %clang_cc1 %s -O1 -disable-llvm-optzns -triple=x86_64-apple-darwin10 -emit-llvm -o - | FileCheck %s
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// CHECK: @_ZN7PR100011xE = global
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// CHECK-NOT: @_ZN7PR100014kBarE = external global i32
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//
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// CHECK-NOT: @_ZTVN5test118stdio_sync_filebufIwEE = constant
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// CHECK-NOT: _ZTVN5test315basic_fstreamXXIcEE
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// CHECK-NOT: @_ZTVN5test018stdio_sync_filebufIA1_iEE
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// CHECK-NOT: @_ZTVN5test018stdio_sync_filebufIA2_iEE
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// CHECK: @_ZTVN5test018stdio_sync_filebufIA3_iEE = weak_odr unnamed_addr constant
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// CHECK: @_ZN7PR100011SIiE3arrE = linkonce_odr global [3 x i32]
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// CHECK-NOT: @_ZN7PR100011SIiE3arr2E = linkonce_odr global [3 x i32]A
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// CHECK: @_ZTVN5test018stdio_sync_filebufIA4_iEE = linkonce_odr unnamed_addr constant
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// CHECK-NOT: _ZTVN5test31SIiEE
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// CHECK-NOT: _ZTSN5test31SIiEE
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// CHECK-LABEL: define linkonce_odr void @_ZN5test21CIiEC1Ev(%"class.test2::C"* %this) unnamed_addr
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// CHECK-LABEL: define linkonce_odr void @_ZN5test21CIiE6foobarIdEEvT_(
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// CHECK-LABEL: define available_externally void @_ZN5test21CIiE6zedbarEd(
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g1ENS_1SILi1EEE()
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g1ENS_1SILi2EEE()
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g1ENS_1SILi3EEE()
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g2ENS_1SILi1EEE()
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g2ENS_1SILi2EEE()
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// CHECK-LABEL: define linkonce_odr void @_ZN7PR106662g2ENS_1SILi3EEE()
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// CHECK: declare void @_ZN7PR106662h1ENS_1SILi1EEE()
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// CHECK: declare void @_ZN7PR106662h1ENS_1SILi2EEE()
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// CHECK: declare void @_ZN7PR106662h1ENS_1SILi3EEE()
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// CHECK: declare void @_ZN7PR106662h2ENS_1SILi1EEE()
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// CHECK: declare void @_ZN7PR106662h2ENS_1SILi2EEE()
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// CHECK: declare void @_ZN7PR106662h2ENS_1SILi3EEE()
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namespace test0 {
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struct basic_streambuf {
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virtual ~basic_streambuf();
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};
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template<typename _CharT >
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struct stdio_sync_filebuf : public basic_streambuf {
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virtual void xsgetn();
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};
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// This specialization is not a key function, so doesn't cause the vtable to
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// be instantiated unless we're instantiating a class definition anyway.
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template<> void stdio_sync_filebuf<int[1]>::xsgetn() {
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}
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template<> void stdio_sync_filebuf<int[2]>::xsgetn() {
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}
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template<> void stdio_sync_filebuf<int[3]>::xsgetn() {
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}
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template<> void stdio_sync_filebuf<int[4]>::xsgetn() {
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}
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extern template class stdio_sync_filebuf<int[2]>;
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// These two both cause vtables to be emitted.
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template class stdio_sync_filebuf<int[3]>;
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stdio_sync_filebuf<int[4]> implicit_instantiation;
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}
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namespace test1 {
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struct basic_streambuf {
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virtual ~basic_streambuf();
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};
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template<typename _CharT >
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struct stdio_sync_filebuf : public basic_streambuf {
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virtual void xsgetn();
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};
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// Just a declaration should not force the vtable to be emitted.
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template<> void stdio_sync_filebuf<wchar_t>::xsgetn();
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}
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namespace test2 {
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template<typename T1>
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class C {
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public:
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virtual ~C();
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void zedbar(double) {
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}
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template<typename T2>
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void foobar(T2 foo) {
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}
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};
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extern template class C<int>;
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void g() {
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// The extern template declaration should not prevent us from producing
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// the implicit constructor (test at the top).
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C<int> a;
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// or foobar(test at the top).
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a.foobar(0.0);
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// But it should prevent zebbar
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// (test at the top).
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a.zedbar(0.0);
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}
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}
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namespace test3 {
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template<typename T>
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class basic_fstreamXX {
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virtual void foo(){}
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virtual void is_open() const { }
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};
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extern template class basic_fstreamXX<char>;
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// This template instantiation should not cause us to produce a vtable.
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// (test at the top).
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template void basic_fstreamXX<char>::is_open() const;
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}
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namespace test3 {
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template <typename T>
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struct S {
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virtual void m();
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};
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template<typename T>
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void S<T>::m() { }
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// Should not cause us to produce vtable because template instantiations
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// don't have key functions.
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template void S<int>::m();
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}
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namespace test4 {
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template <class T> struct A { static void foo(); };
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class B {
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template <class T> friend void A<T>::foo();
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B();
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};
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template <class T> void A<T>::foo() {
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B b;
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}
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unsigned test() {
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A<int>::foo();
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}
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}
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namespace PR8505 {
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// Hits an assertion due to bogus instantiation of class B.
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template <int i> class A {
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class B* g;
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};
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class B {
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void f () {}
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};
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// Should not instantiate class B since it is introduced in namespace scope.
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// CHECK-NOT: _ZN6PR85051AILi0EE1B1fEv
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template class A<0>;
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}
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// Ensure that when instantiating initializers for static data members to
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// complete their type in an unevaluated context, we *do* emit initializers with
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// side-effects, but *don't* emit initializers and variables which are otherwise
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// unused in the program.
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namespace PR10001 {
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template <typename T> struct S {
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static const int arr[];
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static const int arr2[];
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static const int x, y;
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static int f();
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};
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extern int foo();
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extern int kBar;
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template <typename T> const int S<T>::arr[] = { 1, 2, foo() }; // possible side effects
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template <typename T> const int S<T>::arr2[] = { 1, 2, kBar }; // no side effects
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template <typename T> const int S<T>::x = sizeof(arr) / sizeof(arr[0]);
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template <typename T> const int S<T>::y = sizeof(arr2) / sizeof(arr2[0]);
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template <typename T> int S<T>::f() { return x + y; }
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int x = S<int>::f();
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}
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// Ensure that definitions are emitted for all friend functions defined within
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// class templates. Order of declaration is extremely important here. Different
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// instantiations of the class happen at different points during the deferred
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// method body parsing and afterward. Those different points of instantiation
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// change the exact form the class template appears to have.
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namespace PR10666 {
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template <int N> struct S {
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void f1() { S<1> s; }
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friend void g1(S s) {}
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friend void h1(S s);
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void f2() { S<2> s; }
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friend void g2(S s) {}
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friend void h2(S s);
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void f3() { S<3> s; }
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};
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void test(S<1> s1, S<2> s2, S<3> s3) {
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g1(s1); g1(s2); g1(s3);
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g2(s1); g2(s2); g2(s3);
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h1(s1); h1(s2); h1(s3);
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h2(s1); h2(s2); h2(s3);
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}
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}
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