// RUN: %clang_cc1 -emit-llvm -o - %s | FileCheck %s namespace test1 { int x; template class T { }; // CHECK: void @_ZN5test12f0ENS_1TILZNS_1xEEEE( void f0(T a0) {} } namespace test1 { // CHECK: void @_ZN5test12f0Ef void f0(float) {} template struct t1 {}; // CHECK: void @_ZN5test12f1ENS_2t1ILZNS_2f0EfEEE( void f1(t1 a0) {} } namespace test2 { // CHECK: void @_ZN5test22f0Ef void f0(float) {} template struct t1 {}; // FIXME: Fails because we don't treat as an expression. // CHECK-FIXME: void @_ZN5test22f1ENS_2t1IXadL_ZNS_2f0EfEEEE( void f1(t1 a0) {} } namespace test3 { // CHECK: void @test3_f0 extern "C" void test3_f0(float) {} template struct t1 {}; // FIXME: Fails because we tack on a namespace. // CHECK-FIXME: void @_ZN5test32f1ENS_2t1ILZ8test3_f0EEE( void f1(t1 a0) {} } namespace test4 { // CHECK: void @test4_f0 extern "C" void test4_f0(float) {} template struct t1 {}; // FIXME: Fails because we don't treat as an expression. // CHECK-FIXME: void @_ZN5test42f1ENS_2t1IXadL_Z8test4_f0EEEE( void f1(t1 a0) {} } // CHECK: void @test5_f0 extern "C" void test5_f0(float) {} int main(int) {} namespace test5 { template struct t1 {}; // CHECK: void @_ZN5test52f1ENS_2t1ILZ8test5_f0EEE( void f1(t1 a0) {} template struct t2 {}; // CHECK: void @_ZN5test52f2ENS_2t2ILZ4mainEEE void f2(t2
a0) {} } // FIXME: This fails. namespace test6 { struct A { void im0(float); }; // CHECK: void @_ZN5test61A3im0Ef void A::im0(float) {} template class T { }; // FIXME: Fails because we don't treat as an expression. // CHECK-FAIL: void @_ZN5test62f0ENS_1TIXadL_ZNS_1A3im0EfEEEE( void f0(T<&A::im0> a0) {} } namespace test7 { template struct meta { static const unsigned value = sizeof(T); }; template struct int_c { typedef float type; }; template struct X { template X(U*, typename int_c<(meta::value + meta::value)>::type *) { } }; // CHECK: define weak_odr {{.*}} @_ZN5test71XIiEC1IdEEPT_PNS_5int_cIXplL_ZNS_4metaIiE5valueEEsr4metaIS3_EE5valueEE4typeE( template X::X(double*, float*); } namespace test8 { template struct meta { struct type { static const unsigned value = sizeof(T); }; }; template struct int_c { typedef float type; }; template void f(int_c::type::value>) { } // CHECK-LABEL: define weak_odr void @_ZN5test81fIiEEvNS_5int_cIXsr4metaIT_E4typeE5valueEEE( template void f(int_c); } namespace test9 { template struct supermeta { template struct apply { typedef T U::*type; }; }; struct X { }; template typename supermeta::template apply::type f(); void test_f() { // CHECK: @_ZN5test91fIiNS_1XEEENS_9supermetaIT_E5applyIT0_E4typeEv() // Note: GCC incorrectly mangles this as // _ZN5test91fIiNS_1XEEENS_9supermetaIT_E5apply4typeEv, while EDG // gets it right. f(); } } namespace test10 { template struct X { template struct definition { }; }; // CHECK: _ZN6test101fIidEENS_1XIT_E10definitionIT0_EES2_S5_ template typename X::template definition f(T, U) { } void g(int i, double d) { f(i, d); } } // Report from Jason Merrill on cxx-abi-dev, 2012.01.04. namespace test11 { int cmp(char a, char b); template struct A {}; template void f(A &) {} template void f(A &); // CHECK: @_ZN6test111fIcEEvRNS_1AIT_L_ZNS_3cmpEccEEE( } namespace test12 { // Make sure we can mangle non-type template args with internal linkage. static int f(); const int n = 10; template void test() {} void use() { // CHECK-LABEL: define internal void @_ZN6test124testIFivEXadL_ZNS_L1fEvEEEEvv( test(); // CHECK-LABEL: define internal void @_ZN6test124testIRFivELZNS_L1fEvEEEvv( test(); // CHECK-LABEL: define internal void @_ZN6test124testIPKiXadL_ZNS_L1nEEEEEvv( test(); // CHECK-LABEL: define internal void @_ZN6test124testIRKiLZNS_L1nEEEEvv( test(); } } // rdar://problem/12072531 // Test the boundary condition of minimal signed integers. namespace test13 { template char returnChar() { return c; } template char returnChar<-128>(); // CHECK: @_ZN6test1310returnCharILcn128EEEcv() template short returnShort() { return s; } template short returnShort<-32768>(); // CHECK: @_ZN6test1311returnShortILsn32768EEEsv() }