forked from OSchip/llvm-project
207 lines
7.6 KiB
C++
207 lines
7.6 KiB
C++
// Check that delete exprs call aligned (de)allocation functions if
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// -faligned-allocation is passed in both C++11 and C++14.
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// RUN: %clang_cc1 -std=c++11 -fexceptions -fsized-deallocation -faligned-allocation %s -emit-llvm -triple x86_64-linux-gnu -o - | FileCheck %s
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// RUN: %clang_cc1 -std=c++14 -fexceptions -fsized-deallocation -faligned-allocation %s -emit-llvm -triple x86_64-linux-gnu -o - | FileCheck %s
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// RUN: %clang_cc1 -std=c++1z -fexceptions -fsized-deallocation %s -emit-llvm -triple x86_64-linux-gnu -o - | FileCheck %s
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// Check that we don't used aligned (de)allocation without -faligned-allocation or C++1z.
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// RUN: %clang_cc1 -std=c++14 -DUNALIGNED -fexceptions %s -emit-llvm -triple x86_64-linux-gnu -o - | FileCheck %s --check-prefix=CHECK-UNALIGNED
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// RUN: %clang_cc1 -std=c++1z -DUNALIGNED -fexceptions -fno-aligned-allocation %s -emit-llvm -triple x86_64-linux-gnu -o - | FileCheck %s --check-prefix=CHECK-UNALIGNED
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// CHECK-UNALIGNED-NOT: _Znwm_St11align_val_t
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// CHECK-UNALIGNED-NOT: _Znam_St11align_val_t
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// CHECK-UNALIGNED-NOT: _ZdlPv_St11align_val_t
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// CHECK-UNALIGNED-NOT: _ZdaPv_St11align_val_t
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// CHECK-UNALIGNED-NOT: _ZdlPvm_St11align_val_t
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// CHECK-UNALIGNED-NOT: _ZdaPvm_St11align_val_t
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typedef decltype(sizeof(0)) size_t;
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namespace std { enum class align_val_t : size_t {}; }
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#define OVERALIGNED alignas(__STDCPP_DEFAULT_NEW_ALIGNMENT__ * 2)
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// Global new and delete.
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// ======================
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struct OVERALIGNED A { A(); int n[128]; };
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// CHECK-LABEL: define {{.*}} @_Z2a0v()
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZnwmSt11align_val_t(i64 512, i64 32)
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// CHECK: call void @_ZdlPvSt11align_val_t(i8* %[[ALLOC]], i64 32)
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void *a0() { return new A; }
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// CHECK-LABEL: define {{.*}} @_Z2a1l(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZnamSt11align_val_t(i64 %{{.*}}, i64 32)
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// No array cookie.
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// CHECK-NOT: store
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// CHECK: invoke void @_ZN1AC1Ev(
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// CHECK: call void @_ZdaPvSt11align_val_t(i8* %[[ALLOC]], i64 32)
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void *a1(long n) { return new A[n]; }
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// CHECK-LABEL: define {{.*}} @_Z2a2P1A(
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// CHECK: call void @_ZdlPvmSt11align_val_t(i8* %{{.*}}, i64 512, i64 32) #9
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void a2(A *p) { delete p; }
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// CHECK-LABEL: define {{.*}} @_Z2a3P1A(
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// CHECK: call void @_ZdaPvSt11align_val_t(i8* %{{.*}}, i64 32) #9
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void a3(A *p) { delete[] p; }
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// Class-specific usual new and delete.
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// ====================================
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struct OVERALIGNED B {
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B();
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// These are just a distraction. We should ignore them.
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void *operator new(size_t);
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void operator delete(void*, size_t);
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void operator delete[](void*, size_t);
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void *operator new(size_t, std::align_val_t);
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void operator delete(void*, std::align_val_t);
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void operator delete[](void*, std::align_val_t);
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int n[128];
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};
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// CHECK-LABEL: define {{.*}} @_Z2b0v()
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZN1BnwEmSt11align_val_t(i64 512, i64 32)
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// CHECK: call void @_ZN1BdlEPvSt11align_val_t(i8* %[[ALLOC]], i64 32)
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void *b0() { return new B; }
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// CHECK-LABEL: define {{.*}} @_Z2b1l(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZnamSt11align_val_t(i64 %{{.*}}, i64 32)
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// No array cookie.
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// CHECK-NOT: store
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// CHECK: invoke void @_ZN1BC1Ev(
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// CHECK: call void @_ZN1BdaEPvSt11align_val_t(i8* %[[ALLOC]], i64 32)
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void *b1(long n) { return new B[n]; }
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// CHECK-LABEL: define {{.*}} @_Z2b2P1B(
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// CHECK: call void @_ZN1BdlEPvSt11align_val_t(i8* %{{.*}}, i64 32)
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void b2(B *p) { delete p; }
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// CHECK-LABEL: define {{.*}} @_Z2b3P1B(
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// CHECK: call void @_ZN1BdaEPvSt11align_val_t(i8* %{{.*}}, i64 32)
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void b3(B *p) { delete[] p; }
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struct OVERALIGNED C {
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C();
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void *operator new[](size_t, std::align_val_t);
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void operator delete[](void*, size_t, std::align_val_t);
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// It doesn't matter that we have an unaligned operator delete[] that doesn't
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// want the size. What matters is that the aligned one does.
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void operator delete[](void*);
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};
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// This one has an array cookie.
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// CHECK-LABEL: define {{.*}} @_Z2b4l(
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// CHECK: call {{.*}} @llvm.umul.with.overflow{{.*}}i64 32
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// CHECK: call {{.*}} @llvm.uadd.with.overflow{{.*}}i64 32
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZN1CnaEmSt11align_val_t(i64 %{{.*}}, i64 32)
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// CHECK: store
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// CHECK: call void @_ZN1CC1Ev(
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//
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// Note, we're still calling a placement allocation function, and there is no
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// matching placement operator delete. =(
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// FIXME: This seems broken.
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// CHECK-NOT: call void @_ZN1CdaEPvmSt11align_val_t(
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#ifndef UNALIGNED
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void *b4(long n) { return new C[n]; }
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#endif
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// CHECK-LABEL: define {{.*}} @_Z2b5P1C(
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// CHECK: mul i64{{.*}} 32
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// CHECK: add i64{{.*}} 32
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// CHECK: call void @_ZN1CdaEPvmSt11align_val_t(
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void b5(C *p) { delete[] p; }
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// Global placement new.
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// =====================
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struct Q { int n; } q;
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void *operator new(size_t, Q);
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void *operator new(size_t, std::align_val_t, Q);
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void operator delete(void*, Q);
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void operator delete(void*, std::align_val_t, Q);
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// CHECK-LABEL: define {{.*}} @_Z2c0v(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZnwmSt11align_val_t1Q(i64 512, i64 32, i32 %
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// CHECK: call void @_ZdlPvSt11align_val_t1Q(i8* %[[ALLOC]], i64 32, i32 %
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void *c0() { return new (q) A; }
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// Class-specific placement new.
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// =============================
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struct OVERALIGNED D {
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D();
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void *operator new(size_t, Q);
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void *operator new(size_t, std::align_val_t, Q);
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void operator delete(void*, Q);
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void operator delete(void*, std::align_val_t, Q);
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};
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// CHECK-LABEL: define {{.*}} @_Z2d0v(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZN1DnwEmSt11align_val_t1Q(i64 32, i64 32, i32 %
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// CHECK: call void @_ZN1DdlEPvSt11align_val_t1Q(i8* %[[ALLOC]], i64 32, i32 %
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void *d0() { return new (q) D; }
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// Calling aligned new with placement syntax.
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// ==========================================
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#ifndef UNALIGNED
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// CHECK-LABEL: define {{.*}} @_Z2e0v(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZnwmSt11align_val_t(i64 512, i64 5)
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// CHECK: call void @_ZdlPvSt11align_val_t(i8* %[[ALLOC]], i64 5)
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void *e0() { return new (std::align_val_t(5)) A; }
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// CHECK-LABEL: define {{.*}} @_Z2e1v(
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// CHECK: %[[ALLOC:.*]] = call i8* @_ZN1BnwEmSt11align_val_t(i64 512, i64 5)
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// CHECK: call void @_ZN1BdlEPvSt11align_val_t(i8* %[[ALLOC]], i64 5)
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void *e1() { return new (std::align_val_t(5)) B; }
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#endif
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// Variadic placement/non-placement allocation functions.
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// ======================================================
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struct OVERALIGNED F {
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F();
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void *operator new(size_t, ...);
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void operator delete(void*, ...);
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int n[128];
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};
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// CHECK-LABEL: define {{.*}} @_Z2f0v(
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// CHECK: %[[ALLOC:.*]] = call i8* (i64, ...) @_ZN1FnwEmz(i64 512, i64 32)
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// Non-placement allocation function, uses normal deallocation lookup which
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// cares about whether a parameter has type std::align_val_t.
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// CHECK: call void (i8*, ...) @_ZN1FdlEPvz(i8* %[[ALLOC]])
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void *f0() { return new F; }
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// CHECK-LABEL: define {{.*}} @_Z2f1v(
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// CHECK: %[[ALLOC:.*]] = call i8* (i64, ...) @_ZN1FnwEmz(i64 512, i64 32, i32 %
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// Placement allocation function, uses placement deallocation matching, which
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// passes same arguments and therefore includes alignment.
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// CHECK: call void (i8*, ...) @_ZN1FdlEPvz(i8* %[[ALLOC]], i64 32, i32 %
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void *f1() { return new (q) F; }
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struct OVERALIGNED G {
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G();
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void *operator new(size_t, std::align_val_t, ...);
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void operator delete(void*, std::align_val_t, ...);
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int n[128];
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};
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#ifndef UNALIGNED
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// CHECK-LABEL: define {{.*}} @_Z2g0v
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// CHECK: %[[ALLOC:.*]] = call i8* (i64, i64, ...) @_ZN1GnwEmSt11align_val_tz(i64 512, i64 32)
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// CHECK: call void (i8*, i64, ...) @_ZN1GdlEPvSt11align_val_tz(i8* %[[ALLOC]], i64 32)
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void *g0() { return new G; }
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// CHECK-LABEL: define {{.*}} @_Z2g1v
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// CHECK: %[[ALLOC:.*]] = call i8* (i64, i64, ...) @_ZN1GnwEmSt11align_val_tz(i64 512, i64 32, i32 %
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// CHECK: call void (i8*, i64, ...) @_ZN1GdlEPvSt11align_val_tz(i8* %[[ALLOC]], i64 32, i32 %
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void *g1() { return new (q) G; }
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#endif
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