// RUN: not %clang_cc1 -verify -triple x86_64-apple-darwin -emit-llvm -o - %s -std=c++11 | FileCheck %s // FIXME: The padding in all these objects should be zero-initialized. namespace StructUnion { struct A { int n; double d; union U { constexpr U(int x) : x(x) {} constexpr U(const char *y) : y(y) {} int x; const char *y; } u; constexpr A(int n, double d, int x) : n(n), d(d), u(x) {} constexpr A(int n, double d, const char *y) : n(n), d(d), u(y) {} }; // CHECK: @_ZN11StructUnion1aE = constant {{.*}} { i32 1, double 2.000000e+00, {{.*}} { i32 3, [4 x i8] undef } } extern constexpr A a(1, 2.0, 3); // CHECK: @_ZN11StructUnion1bE = constant {{.*}} { i32 4, double 5.000000e+00, {{.*}} { i8* getelementptr inbounds ([6 x i8]* @{{.*}}, i32 0, i32 0) } } extern constexpr A b(4, 5, "hello"); struct B { int n; }; // CHECK: @_ZN11StructUnion1cE = global {{.*}} zeroinitializer // CHECK: @_ZN11StructUnion2c2E = global {{.*}} zeroinitializer B c; B c2 = B(); // CHECK: @_ZN11StructUnion1dE = global {{.*}} zeroinitializer B d[10]; struct C { constexpr C() : c(0) {} int c; }; // CHECK: @_ZN11StructUnion1eE = global {{.*}} zeroinitializer C e[10]; struct D { constexpr D() : d(5) {} int d; }; // CHECK: @_ZN11StructUnion1fE = global {{.*}} { i32 5 } D f; union E { int a; void *b = &f; }; // CHECK: @_ZN11StructUnion1gE = global {{.*}} @_ZN11StructUnion1fE E g; // CHECK: @_ZN11StructUnion1hE = global {{.*}} @_ZN11StructUnion1fE E h = E(); } namespace BaseClass { template struct X : T {}; struct C { char c = 1; }; template struct Cs : X... {}; struct N { int n = 3; }; struct D { double d = 4.0; }; template struct Test : Ts... { constexpr Test() : Ts()..., n(5) {} int n; }; using Test1 = Test, D, X>; // CHECK: @_ZN9BaseClass2t1E = constant {{.*}} { i32 3, i8 1, i8 1, i8 1, double 4.000000e+00, i8 1, i32 5 }, align 8 extern constexpr Test1 t1 = Test1(); struct DN : D, N {}; struct DND : DN, X {}; struct DNN : DN, X {}; // CHECK: @_ZN9BaseClass3dndE = constant {{.*}} { double 4.000000e+00, i32 3, double 4.000000e+00 } extern constexpr DND dnd = DND(); // Note, N subobject is laid out in DN subobject's tail padding. // CHECK: @_ZN9BaseClass3dnnE = constant {{.*}} { double 4.000000e+00, i32 3, i32 3 } extern constexpr DNN dnn = DNN(); struct E {}; struct Test2 : X, X, X, X {}; // CHECK: @_ZN9BaseClass2t2E = constant {{.*}} undef extern constexpr Test2 t2 = Test2(); struct __attribute((packed)) PackedD { double y = 2; }; struct Test3 : C, PackedD { constexpr Test3() {} }; // CHECK: @_ZN9BaseClass2t3E = constant <{ i8, double }> <{ i8 1, double 2.000000e+00 }> extern constexpr Test3 t3 = Test3(); } namespace Array { // CHECK: @_ZN5Array3arrE = constant [2 x i32] [i32 4, i32 0] extern constexpr int arr[2] = { 4 }; // CHECK: @_ZN5Array1cE = constant [6 x [4 x i8]] [{{.*}} c"foo\00", [4 x i8] c"a\00\00\00", [4 x i8] c"bar\00", [4 x i8] c"xyz\00", [4 x i8] c"b\00\00\00", [4 x i8] c"123\00"] extern constexpr char c[6][4] = { "foo", "a", { "bar" }, { 'x', 'y', 'z' }, { "b" }, '1', '2', '3' }; // CHECK: @_ZN5Array2ucE = constant [4 x i8] c"foo\00" extern constexpr unsigned char uc[] = { "foo" }; struct C { constexpr C() : n(5) {} int n, m = 3 * n + 1; }; // CHECK: @_ZN5Array5ctorsE = constant [3 x {{.*}}] [{{.*}} { i32 5, i32 16 }, {{.*}} { i32 5, i32 16 }, {{.*}} { i32 5, i32 16 }] extern const C ctors[3]; constexpr C ctors[3]; // CHECK: @_ZN5Array1dE = constant {{.*}} { [2 x i32] [i32 1, i32 2], [3 x i32] [i32 3, i32 4, i32 5] } struct D { int n[2]; int m[3]; } extern constexpr d = { 1, 2, 3, 4, 5 }; struct E { char c[4]; char d[4]; constexpr E() : c("foo"), d("x") {} }; // CHECK: @_ZN5Array1eE = constant {{.*}} { [4 x i8] c"foo\00", [4 x i8] c"x\00\00\00" } extern constexpr E e = E(); // PR13290 struct F { constexpr F() : n(4) {} int n; }; // CHECK: @_ZN5Array2f1E = global {{.*}} zeroinitializer F f1[1][1][0] = { }; // CHECK: @_ZN5Array2f2E = global {{.* i32 4 .* i32 4 .* i32 4 .* i32 4 .* i32 4 .* i32 4 .* i32 4 .* i32 4}} F f2[2][2][2] = { }; } namespace MemberPtr { struct B1 { int a, b; virtual void f(); void g(); }; struct B2 { int c, d; virtual void h(); void i(); }; struct C : B1 { int e; virtual void j(); void k(); }; struct D : C, B2 { int z; virtual void l(); void m(); }; // CHECK: @_ZN9MemberPtr2daE = constant i64 8 // CHECK: @_ZN9MemberPtr2dbE = constant i64 12 // CHECK: @_ZN9MemberPtr2dcE = constant i64 32 // CHECK: @_ZN9MemberPtr2ddE = constant i64 36 // CHECK: @_ZN9MemberPtr2deE = constant i64 16 // CHECK: @_ZN9MemberPtr2dzE = constant i64 40 extern constexpr int (D::*da) = &B1::a; extern constexpr int (D::*db) = &C::b; extern constexpr int (D::*dc) = &B2::c; extern constexpr int (D::*dd) = &D::d; extern constexpr int (D::*de) = &C::e; extern constexpr int (D::*dz) = &D::z; // CHECK: @_ZN9MemberPtr2baE = constant i64 8 // CHECK: @_ZN9MemberPtr2bbE = constant i64 12 // CHECK: @_ZN9MemberPtr2bcE = constant i64 8 // CHECK: @_ZN9MemberPtr2bdE = constant i64 12 // CHECK: @_ZN9MemberPtr2beE = constant i64 16 // CHECK: @_ZN9MemberPtr3b1zE = constant i64 40 // CHECK: @_ZN9MemberPtr3b2zE = constant i64 16 extern constexpr int (B1::*ba) = (int(B1::*))&B1::a; extern constexpr int (B1::*bb) = (int(B1::*))&C::b; extern constexpr int (B2::*bc) = (int(B2::*))&B2::c; extern constexpr int (B2::*bd) = (int(B2::*))&D::d; extern constexpr int (B1::*be) = (int(B1::*))&C::e; extern constexpr int (B1::*b1z) = (int(B1::*))&D::z; extern constexpr int (B2::*b2z) = (int(B2::*))&D::z; // CHECK: @_ZN9MemberPtr2dfE = constant {{.*}} { i64 1, i64 0 } // CHECK: @_ZN9MemberPtr2dgE = constant {{.*}} { i64 {{.*}}2B11gEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr2dhE = constant {{.*}} { i64 1, i64 24 } // CHECK: @_ZN9MemberPtr2diE = constant {{.*}} { i64 {{.*}}2B21iEv{{.*}}, i64 24 } // CHECK: @_ZN9MemberPtr2djE = constant {{.*}} { i64 9, i64 0 } // CHECK: @_ZN9MemberPtr2dkE = constant {{.*}} { i64 {{.*}}1C1kEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr2dlE = constant {{.*}} { i64 17, i64 0 } // CHECK: @_ZN9MemberPtr2dmE = constant {{.*}} { i64 {{.*}}1D1mEv{{.*}}, i64 0 } extern constexpr void (D::*df)() = &C::f; extern constexpr void (D::*dg)() = &B1::g; extern constexpr void (D::*dh)() = &B2::h; extern constexpr void (D::*di)() = &D::i; extern constexpr void (D::*dj)() = &C::j; extern constexpr void (D::*dk)() = &C::k; extern constexpr void (D::*dl)() = &D::l; extern constexpr void (D::*dm)() = &D::m; // CHECK: @_ZN9MemberPtr2bfE = constant {{.*}} { i64 1, i64 0 } // CHECK: @_ZN9MemberPtr2bgE = constant {{.*}} { i64 {{.*}}2B11gEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr2bhE = constant {{.*}} { i64 1, i64 0 } // CHECK: @_ZN9MemberPtr2biE = constant {{.*}} { i64 {{.*}}2B21iEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr2bjE = constant {{.*}} { i64 9, i64 0 } // CHECK: @_ZN9MemberPtr2bkE = constant {{.*}} { i64 {{.*}}1C1kEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr3b1lE = constant {{.*}} { i64 17, i64 0 } // CHECK: @_ZN9MemberPtr3b1mE = constant {{.*}} { i64 {{.*}}1D1mEv{{.*}}, i64 0 } // CHECK: @_ZN9MemberPtr3b2lE = constant {{.*}} { i64 17, i64 -24 } // CHECK: @_ZN9MemberPtr3b2mE = constant {{.*}} { i64 {{.*}}1D1mEv{{.*}}, i64 -24 } extern constexpr void (B1::*bf)() = (void(B1::*)())&C::f; extern constexpr void (B1::*bg)() = (void(B1::*)())&B1::g; extern constexpr void (B2::*bh)() = (void(B2::*)())&B2::h; extern constexpr void (B2::*bi)() = (void(B2::*)())&D::i; extern constexpr void (B1::*bj)() = (void(B1::*)())&C::j; extern constexpr void (B1::*bk)() = (void(B1::*)())&C::k; extern constexpr void (B1::*b1l)() = (void(B1::*)())&D::l; extern constexpr void (B1::*b1m)() = (void(B1::*)())&D::m; extern constexpr void (B2::*b2l)() = (void(B2::*)())&D::l; extern constexpr void (B2::*b2m)() = (void(B2::*)())&D::m; } namespace LiteralReference { struct Lit { constexpr Lit() : n(5) {} int n; }; // This creates a non-const temporary and binds a reference to it. // CHECK: @[[TEMP:.*]] = private global {{.*}} { i32 5 }, align 4 // CHECK: @_ZN16LiteralReference3litE = constant {{.*}} @[[TEMP]], align 8 const Lit &lit = Lit(); // This creates a const temporary as part of the reference initialization. // CHECK: @[[TEMP:.*]] = private constant {{.*}} { i32 5 }, align 4 // CHECK: @_ZN16LiteralReference4lit2E = constant {{.*}} @[[TEMP]], align 8 const Lit &lit2 = {}; struct A { int &&r1; const int &&r2; }; struct B { A &&a1; const A &&a2; }; B b = { { 0, 1 }, { 2, 3 } }; // CHECK: @[[TEMP0:.*]] = private global i32 0, align 4 // CHECK: @[[TEMP1:.*]] = private constant i32 1, align 4 // CHECK: @[[TEMPA1:.*]] = private global {{.*}} { i32* @[[TEMP0]], i32* @[[TEMP1]] }, align 8 // CHECK: @[[TEMP2:.*]] = private global i32 2, align 4 // CHECK: @[[TEMP3:.*]] = private constant i32 3, align 4 // CHECK: @[[TEMPA2:.*]] = private constant {{.*}} { i32* @[[TEMP2]], i32* @[[TEMP3]] }, align 8 // CHECK: @_ZN16LiteralReference1bE = global {{.*}} { {{.*}}* @[[TEMPA1]], {{.*}}* @[[TEMPA2]] }, align 8 struct Subobj { int a, b, c; }; // CHECK: @[[TEMP:.*]] = private global {{.*}} { i32 1, i32 2, i32 3 }, align 4 // CHECK: @_ZN16LiteralReference2soE = constant {{.*}} (i8* getelementptr {{.*}} @[[TEMP]]{{.*}}, i64 4) constexpr int &&so = Subobj{ 1, 2, 3 }.b; struct Dummy { int padding; }; struct Derived : Dummy, Subobj { constexpr Derived() : Dummy{200}, Subobj{4, 5, 6} {} }; using ConstDerived = const Derived; // CHECK: @[[TEMPCOMMA:.*]] = private constant {{.*}} { i32 200, i32 4, i32 5, i32 6 } // CHECK: @_ZN16LiteralReference5commaE = constant {{.*}} getelementptr {{.*}} @[[TEMPCOMMA]]{{.*}}, i64 8) constexpr const int &comma = (1, (2, ConstDerived{}).b); // CHECK: @[[TEMPDERIVED:.*]] = private global {{.*}} { i32 200, i32 4, i32 5, i32 6 } // CHECK: @_ZN16LiteralReference4baseE = constant {{.*}} getelementptr {{.*}} @[[TEMPDERIVED]]{{.*}}, i64 4) constexpr Subobj &&base = Derived{}; // CHECK: @_ZN16LiteralReference7derivedE = constant {{.*}} @[[TEMPDERIVED]] constexpr Derived &derived = static_cast(base); } namespace NonLiteralConstexpr { constexpr int factorial(int n) { return n ? factorial(n-1) * n : 1; } extern void f(int *p); struct NonTrivialDtor { constexpr NonTrivialDtor() : n(factorial(5)), p(&n) {} ~NonTrivialDtor() { f(p); } int n; int *p; }; static_assert(!__is_literal(NonTrivialDtor), ""); // CHECK: @_ZN19NonLiteralConstexpr3ntdE = global {{.*}} { i32 120, i32* getelementptr NonTrivialDtor ntd; struct VolatileMember { constexpr VolatileMember() : n(5) {} volatile int n; }; static_assert(!__is_literal(VolatileMember), ""); // CHECK: @_ZN19NonLiteralConstexpr2vmE = global {{.*}} { i32 5 } VolatileMember vm; struct Both { constexpr Both() : n(10) {} ~Both(); volatile int n; }; // CHECK: @_ZN19NonLiteralConstexpr1bE = global {{.*}} { i32 10 } Both b; void StaticVars() { // CHECK: @_ZZN19NonLiteralConstexpr10StaticVarsEvE3ntd = {{.*}} { i32 120, i32* getelementptr {{.*}} // CHECK: @_ZGVZN19NonLiteralConstexpr10StaticVarsEvE3ntd = static NonTrivialDtor ntd; // CHECK: @_ZZN19NonLiteralConstexpr10StaticVarsEvE2vm = {{.*}} { i32 5 } // CHECK-NOT: @_ZGVZN19NonLiteralConstexpr10StaticVarsEvE2vm = static VolatileMember vm; // CHECK: @_ZZN19NonLiteralConstexpr10StaticVarsEvE1b = {{.*}} { i32 10 } // CHECK: @_ZGVZN19NonLiteralConstexpr10StaticVarsEvE1b = static Both b; } } // PR12067 namespace VirtualMembers { struct A { constexpr A(double d) : d(d) {} virtual void f(); double d; }; struct B : A { constexpr B() : A(2.0), c{'h', 'e', 'l', 'l', 'o'} {} constexpr B(int n) : A(n), c{'w', 'o', 'r', 'l', 'd'} {} virtual void g(); char c[5]; }; struct C { constexpr C() : n(64) {} int n; }; struct D : C, A, B { constexpr D() : A(1.0), B(), s(5) {} short s; }; struct E : D, B { constexpr E() : B(3), c{'b','y','e'} {} char c[3]; }; // CHECK: @_ZN14VirtualMembers1eE = global { i8**, double, i32, i8**, double, [5 x i8], i16, i8**, double, [5 x i8], [3 x i8] } { i8** getelementptr inbounds ([11 x i8*]* @_ZTVN14VirtualMembers1EE, i64 0, i64 2), double 1.000000e+00, i32 64, i8** getelementptr inbounds ([11 x i8*]* @_ZTVN14VirtualMembers1EE, i64 0, i64 5), double 2.000000e+00, [5 x i8] c"hello", i16 5, i8** getelementptr inbounds ([11 x i8*]* @_ZTVN14VirtualMembers1EE, i64 0, i64 9), double 3.000000e+00, [5 x i8] c"world", [3 x i8] c"bye" } E e; struct nsMemoryImpl { virtual void f(); }; // CHECK: @_ZN14VirtualMembersL13sGlobalMemoryE = internal global { i8** } { i8** getelementptr inbounds ([3 x i8*]* @_ZTVN14VirtualMembers12nsMemoryImplE, i64 0, i64 2) } static nsMemoryImpl sGlobalMemory; } namespace PR13273 { struct U { int t; U() = default; }; struct S : U { S() = default; }; // CHECK: @_ZN7PR132731sE = {{.*}} zeroinitializer extern const S s {}; } namespace ArrayTemporary { struct A { const int (&x)[3]; }; struct B { const A (&x)[2]; }; // CHECK: @[[A1:_ZGRN14ArrayTemporary1bE.*]] = private constant [3 x i32] [i32 1, i32 2, i32 3] // CHECK: @[[A2:_ZGRN14ArrayTemporary1bE.*]] = private constant [3 x i32] [i32 4, i32 5, i32 6] // CHECK: @[[ARR:_ZGRN14ArrayTemporary1bE.*]] = private constant [2 x {{.*}}] [{{.*}} { [3 x i32]* @[[A1]] }, {{.*}} { [3 x i32]* @[[A2]] }] // CHECK: @[[B:_ZGRN14ArrayTemporary1bE.*]] = private global {{.*}} { [2 x {{.*}}]* @[[ARR]] } // CHECK: @_ZN14ArrayTemporary1bE = constant {{.*}}* @[[B]] B &&b = { { { { 1, 2, 3 } }, { { 4, 5, 6 } } } }; } namespace UnemittedTemporaryDecl { constexpr int &&ref = 0; extern constexpr int &ref2 = ref; // CHECK: @_ZGRN22UnemittedTemporaryDecl3refE = private global i32 0 // FIXME: This declaration should not be emitted -- it isn't odr-used. // CHECK: @_ZN22UnemittedTemporaryDecl3refE // CHECK: @_ZN22UnemittedTemporaryDecl4ref2E = constant i32* @_ZGRN22UnemittedTemporaryDecl3refE } // CHECK: @_ZZN12LocalVarInit3aggEvE1a = internal constant {{.*}} i32 101 // CHECK: @_ZZN12LocalVarInit4ctorEvE1a = internal constant {{.*}} i32 102 // CHECK: @_ZZN12LocalVarInit8mutable_EvE1a = private unnamed_addr constant {{.*}} i32 103 // Constant initialization tests go before this point, // dynamic initialization tests go after. // We must emit a constant initializer for NonLiteralConstexpr::ntd, but also // emit an initializer to register its destructor. // CHECK: define {{.*}}cxx_global_var_init{{.*}} // CHECK-NOT: NonLiteralConstexpr // CHECK: call {{.*}}cxa_atexit{{.*}} @_ZN19NonLiteralConstexpr14NonTrivialDtorD1Ev {{.*}} @_ZN19NonLiteralConstexpr3ntdE // CHECK-NEXT: ret void // We don't need to emit any dynamic initialization for NonLiteralConstexpr::vm. // CHECK-NOT: NonLiteralConstexpr2vm // We must emit a constant initializer for NonLiteralConstexpr::b, but also // emit an initializer to register its destructor. // CHECK: define {{.*}}cxx_global_var_init{{.*}} // CHECK-NOT: NonLiteralConstexpr // CHECK: call {{.*}}cxa_atexit{{.*}} @_ZN19NonLiteralConstexpr4BothD1Ev {{.*}} @_ZN19NonLiteralConstexpr1bE // CHECK-NEXT: ret void // CHECK: define {{.*}}NonLiteralConstexpr10StaticVars // CHECK-NOT: } // CHECK: call {{.*}}cxa_atexit{{.*}}@_ZN19NonLiteralConstexpr14NonTrivialDtorD1Ev // CHECK-NOT: } // CHECK: call {{.*}}cxa_atexit{{.*}}@_ZN19NonLiteralConstexpr4BothD1Ev // PR12848: Don't emit dynamic initializers for local constexpr variables. namespace LocalVarInit { constexpr int f(int n) { return n; } struct Agg { int k; }; struct Ctor { constexpr Ctor(int n) : k(n) {} int k; }; struct Mutable { constexpr Mutable(int n) : k(n) {} mutable int k; }; // CHECK: define {{.*}} @_ZN12LocalVarInit6scalarEv // CHECK-NOT: call // CHECK: store i32 100, // CHECK-NOT: call // CHECK: ret i32 100 int scalar() { constexpr int a = { f(100) }; return a; } // CHECK: define {{.*}} @_ZN12LocalVarInit3aggEv // CHECK-NOT: call // CHECK: ret i32 101 int agg() { constexpr Agg a = { f(101) }; return a.k; } // CHECK: define {{.*}} @_ZN12LocalVarInit4ctorEv // CHECK-NOT: call // CHECK: ret i32 102 int ctor() { constexpr Ctor a = { f(102) }; return a.k; } // CHECK: define {{.*}} @_ZN12LocalVarInit8mutable_Ev // CHECK-NOT: call // CHECK: call {{.*}}memcpy{{.*}} @_ZZN12LocalVarInit8mutable_EvE1a // CHECK-NOT: call // Can't fold return value due to 'mutable'. // CHECK-NOT: ret i32 103 // CHECK: } int mutable_() { constexpr Mutable a = { f(103) }; return a.k; } } namespace CrossFuncLabelDiff { // Make sure we refuse to constant-fold the variable b. constexpr long a(bool x) { return x ? 0 : (long)&&lbl + (0 && ({lbl: 0;})); } void test() { static long b = (long)&&lbl - a(false); lbl: return; } // CHECK: sub nsw i64 ptrtoint (i8* blockaddress(@_ZN18CrossFuncLabelDiff4testEv, {{.*}}) to i64), // CHECK: store i64 {{.*}}, i64* @_ZZN18CrossFuncLabelDiff4testEvE1b, align 8 } // PR12012 namespace VirtualBase { struct B {}; struct D : virtual B {}; D d; // CHECK: call {{.*}}@_ZN11VirtualBase1DC1Ev template struct X : T { constexpr X() : T() {} }; X x; // CHECK: call {{.*}}@_ZN11VirtualBase1XINS_1DEEC1Ev } // PR12145 namespace Unreferenced { int n; constexpr int *p = &n; // We must not emit a load of 'p' here, since it's not odr-used. int q = *p; // CHECK-NOT: _ZN12Unreferenced1pE // CHECK: = load i32* @_ZN12Unreferenced1nE // CHECK-NEXT: store i32 {{.*}}, i32* @_ZN12Unreferenced1qE // CHECK-NOT: _ZN12Unreferenced1pE // Technically, we are not required to substitute variables of reference types // initialized by constant expressions, because the special case for odr-use // of variables in [basic.def.odr]p2 only applies to objects. But we do so // anyway. constexpr int &r = n; // CHECK-NOT: _ZN12Unreferenced1rE int s = r; const int t = 1; const int &rt = t; int f(int); int u = f(rt); // CHECK: call i32 @_ZN12Unreferenced1fEi(i32 1) } namespace InitFromConst { template void consume(T); const bool b = true; const int n = 5; constexpr double d = 4.3; struct S { int n = 7; S *p = 0; }; constexpr S s = S(); const S &r = s; constexpr const S *p = &r; constexpr int S::*mp = &S::n; constexpr int a[3] = { 1, 4, 9 }; void test() { // CHECK: call void @_ZN13InitFromConst7consumeIbEEvT_(i1 zeroext true) consume(b); // CHECK: call void @_ZN13InitFromConst7consumeIiEEvT_(i32 5) consume(n); // CHECK: call void @_ZN13InitFromConst7consumeIdEEvT_(double 4.300000e+00) consume(d); // CHECK: call void @_ZN13InitFromConst7consumeIRKNS_1SEEEvT_(%"struct.InitFromConst::S"* @_ZN13InitFromConstL1sE) consume(s); // CHECK: call void @_ZN13InitFromConst7consumeIRKNS_1SEEEvT_(%"struct.InitFromConst::S"* @_ZN13InitFromConstL1sE) consume(r); // CHECK: call void @_ZN13InitFromConst7consumeIPKNS_1SEEEvT_(%"struct.InitFromConst::S"* @_ZN13InitFromConstL1sE) consume(p); // CHECK: call void @_ZN13InitFromConst7consumeIMNS_1SEiEEvT_(i64 0) consume(mp); // CHECK: call void @_ZN13InitFromConst7consumeIPKiEEvT_(i32* getelementptr inbounds ([3 x i32]* @_ZN13InitFromConstL1aE, i32 0, i32 0)) consume(a); } } namespace Null { decltype(nullptr) null(); // CHECK: call {{.*}} @_ZN4Null4nullEv( int *p = null(); struct S {}; // CHECK: call {{.*}} @_ZN4Null4nullEv( int S::*q = null(); }