forked from OSchip/llvm-project
601 lines
17 KiB
C++
601 lines
17 KiB
C++
// RUN: %clang_analyze_cc1 -analyzer-checker=debug.DumpCFG -triple x86_64-apple-darwin12 -fheinous-gnu-extensions -std=c++11 -analyzer-config cfg-rich-constructors=false %s > %t 2>&1
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// RUN: FileCheck --input-file=%t -check-prefixes=CHECK,WARNINGS %s
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// RUN: %clang_analyze_cc1 -analyzer-checker=debug.DumpCFG -triple x86_64-apple-darwin12 -fheinous-gnu-extensions -std=c++11 -analyzer-config cfg-rich-constructors=true %s > %t 2>&1
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// RUN: FileCheck --input-file=%t -check-prefixes=CHECK,ANALYZER %s
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// This file tests how we construct two different flavors of the Clang CFG -
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// the CFG used by the Sema analysis-based warnings and the CFG used by the
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// static analyzer. The difference in the behavior is checked via FileCheck
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// prefixes (WARNINGS and ANALYZER respectively). When introducing new analyzer
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// flags, no new run lines should be added - just these flags would go to the
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// respective line depending on where is it turned on and where is it turned
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// off. Feel free to add tests that test only one of the CFG flavors if you're
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// not sure how the other flavor is supposed to work in your case.
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// CHECK-LABEL: void checkDeclStmts()
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// CHECK: ENTRY
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: int i;
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// CHECK-NEXT: 2: int j;
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// CHECK-NEXT: 3: 1
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// CHECK-NEXT: 4: int k = 1;
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// CHECK-NEXT: 5: int l;
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// CHECK-NEXT: 6: 2
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// CHECK-NEXT: 7: int m = 2;
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// WARNINGS-NEXT: (CXXConstructExpr, struct standalone)
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// ANALYZER-NEXT: (CXXConstructExpr, [B1.9], struct standalone)
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// CHECK-NEXT: 9: struct standalone myStandalone;
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// WARNINGS-NEXT: (CXXConstructExpr, struct (anonymous struct at {{.*}}))
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// ANALYZER-NEXT: (CXXConstructExpr, [B1.11], struct (anonymous struct at {{.*}}))
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// CHECK-NEXT: 11: struct (anonymous struct at {{.*}}) myAnon;
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// WARNINGS-NEXT: (CXXConstructExpr, struct named)
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// ANALYZER-NEXT: (CXXConstructExpr, [B1.13], struct named)
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// CHECK-NEXT: 13: struct named myNamed;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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void checkDeclStmts() {
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int i, j;
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int k = 1, l, m = 2;
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struct standalone { int x, y; };
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struct standalone myStandalone;
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struct { int x, y; } myAnon;
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struct named { int x, y; } myNamed;
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static_assert(1, "abc");
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}
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// CHECK-LABEL: void F(EmptyE e)
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// CHECK: ENTRY
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: e
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// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, enum EmptyE)
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// CHECK-NEXT: 3: [B1.2] (ImplicitCastExpr, IntegralCast, int)
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// CHECK-NEXT: T: switch [B1.3]
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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enum EmptyE {};
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void F(EmptyE e) {
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switch (e) {}
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}
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// CHECK-LABEL: void testBuiltinSize()
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// CHECK: ENTRY
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: __builtin_object_size
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// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, BuiltinFnToFnPtr, unsigned long (*)(const void *, int) noexcept)
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// CHECK-NEXT: 3: [B1.2](dummy(), 0)
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// CHECK-NEXT: 4: (void)[B1.3] (CStyleCastExpr, ToVoid, void)
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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void testBuiltinSize() {
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extern int *dummy();
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(void)__builtin_object_size(dummy(), 0);
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}
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class A {
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public:
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A() {}
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~A() {}
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};
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// CHECK-LABEL: void test_deletedtor()
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// CHECK: [B2 (ENTRY)]
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: CFGNewAllocator(A *)
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// WARNINGS-NEXT: 2: (CXXConstructExpr, class A)
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// ANALYZER-NEXT: 2: (CXXConstructExpr, [B1.3], class A)
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// CHECK-NEXT: 3: new A([B1.2])
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// CHECK-NEXT: 4: A *a = new A();
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// CHECK-NEXT: 5: a
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// CHECK-NEXT: 6: [B1.5] (ImplicitCastExpr, LValueToRValue, class A *)
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// CHECK-NEXT: 7: [B1.6]->~A() (Implicit destructor)
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// CHECK-NEXT: 8: delete [B1.6]
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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void test_deletedtor() {
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A *a = new A();
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delete a;
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}
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// CHECK-LABEL: void test_deleteArraydtor()
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// CHECK: [B2 (ENTRY)]
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: 5
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// CHECK-NEXT: 2: CFGNewAllocator(A *)
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// WARNINGS-NEXT: 3: (CXXConstructExpr, class A [5])
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// ANALYZER-NEXT: 3: (CXXConstructExpr, [B1.4], class A [5])
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// CHECK-NEXT: 4: new A {{\[\[}}B1.1]]
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// CHECK-NEXT: 5: A *a = new A [5];
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// CHECK-NEXT: 6: a
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// CHECK-NEXT: 7: [B1.6] (ImplicitCastExpr, LValueToRValue, class A *)
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// CHECK-NEXT: 8: [B1.7]->~A() (Implicit destructor)
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// CHECK-NEXT: 9: delete [] [B1.7]
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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void test_deleteArraydtor() {
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A *a = new A[5];
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delete[] a;
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}
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namespace NoReturnSingleSuccessor {
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struct A {
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A();
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~A();
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};
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struct B : public A {
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B();
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~B() __attribute__((noreturn));
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};
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// CHECK-LABEL: int test1(int *x)
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// CHECK: 1: 1
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// CHECK-NEXT: 2: return
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// CHECK-NEXT: ~NoReturnSingleSuccessor::B() (Implicit destructor)
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// CHECK-NEXT: Preds (1)
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// CHECK-NEXT: Succs (1): B0
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int test1(int *x) {
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B b;
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if (x)
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return 1;
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}
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// CHECK-LABEL: int test2(int *x)
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// CHECK: 1: 1
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// CHECK-NEXT: 2: return
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// CHECK-NEXT: destructor
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// CHECK-NEXT: Preds (1)
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// CHECK-NEXT: Succs (1): B0
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int test2(int *x) {
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const A& a = B();
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if (x)
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return 1;
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}
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}
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// Test CFG support for "extending" an enum.
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// CHECK-LABEL: int test_enum_with_extension(enum MyEnum value)
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// CHECK: [B7 (ENTRY)]
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// CHECK-NEXT: Succs (1): B2
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// CHECK: [B1]
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// CHECK-NEXT: 1: x
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// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
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// CHECK-NEXT: 3: return [B1.2];
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// CHECK-NEXT: Preds (5): B3 B4 B5 B6 B2(Unreachable)
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B2]
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// CHECK-NEXT: 1: 0
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// CHECK-NEXT: 2: int x = 0;
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// CHECK-NEXT: 3: value
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// CHECK-NEXT: 4: [B2.3] (ImplicitCastExpr, LValueToRValue, enum MyEnum)
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// CHECK-NEXT: 5: [B2.4] (ImplicitCastExpr, IntegralCast, int)
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// CHECK-NEXT: T: switch [B2.5]
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// CHECK-NEXT: Preds (1): B7
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// CHECK-NEXT: Succs (5): B3 B4 B5 B6 B1(Unreachable)
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// CHECK: [B3]
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// CHECK-NEXT: case D:
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// CHECK-NEXT: 1: 4
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B3.2] = [B3.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B4]
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// CHECK-NEXT: case C:
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// CHECK-NEXT: 1: 3
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B4.2] = [B4.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B5]
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// CHECK-NEXT: case B:
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// CHECK-NEXT: 1: 2
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B5.2] = [B5.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B6]
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// CHECK-NEXT: case A:
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// CHECK-NEXT: 1: 1
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B6.2] = [B6.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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enum MyEnum { A, B, C };
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static const enum MyEnum D = (enum MyEnum) 32;
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int test_enum_with_extension(enum MyEnum value) {
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int x = 0;
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switch (value) {
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case A: x = 1; break;
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case B: x = 2; break;
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case C: x = 3; break;
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case D: x = 4; break;
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}
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return x;
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}
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// CHECK-LABEL: int test_enum_with_extension_default(enum MyEnum value)
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// CHECK: [B7 (ENTRY)]
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// CHECK-NEXT: Succs (1): B2
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// CHECK: [B1]
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// CHECK-NEXT: 1: x
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// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
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// CHECK-NEXT: 3: return [B1.2];
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// CHECK-NEXT: Preds (4): B3 B4 B5 B6
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B2]
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// CHECK-NEXT: 1: 0
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// CHECK-NEXT: 2: int x = 0;
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// CHECK-NEXT: 3: value
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// CHECK-NEXT: 4: [B2.3] (ImplicitCastExpr, LValueToRValue, enum MyEnum)
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// CHECK-NEXT: 5: [B2.4] (ImplicitCastExpr, IntegralCast, int)
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// CHECK-NEXT: T: switch [B2.5]
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// CHECK-NEXT: Preds (1): B7
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// CHECK-NEXT: Succs (4): B4 B5 B6 B3(Unreachable)
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// CHECK: [B3]
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// CHECK-NEXT: default:
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// CHECK-NEXT: 1: 4
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B3.2] = [B3.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2(Unreachable)
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B4]
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// CHECK-NEXT: case C:
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// CHECK-NEXT: 1: 3
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B4.2] = [B4.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B5]
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// CHECK-NEXT: case B:
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// CHECK-NEXT: 1: 2
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B5.2] = [B5.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B6]
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// CHECK-NEXT: case A:
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// CHECK-NEXT: 1: 1
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// CHECK-NEXT: 2: x
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// CHECK-NEXT: 3: [B6.2] = [B6.1]
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// CHECK-NEXT: T: break;
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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int test_enum_with_extension_default(enum MyEnum value) {
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int x = 0;
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switch (value) {
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case A: x = 1; break;
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case B: x = 2; break;
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case C: x = 3; break;
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default: x = 4; break;
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}
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return x;
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}
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// CHECK-LABEL: void test_placement_new()
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// CHECK: [B2 (ENTRY)]
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: int buffer[16];
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// CHECK-NEXT: 2: buffer
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// CHECK-NEXT: 3: [B1.2] (ImplicitCastExpr, ArrayToPointerDecay, int *)
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// CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, BitCast, void *)
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// CHECK-NEXT: 5: CFGNewAllocator(MyClass *)
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// WARNINGS-NEXT: 6: (CXXConstructExpr, class MyClass)
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// ANALYZER-NEXT: 6: (CXXConstructExpr, [B1.7], class MyClass)
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// CHECK-NEXT: 7: new ([B1.4]) MyClass([B1.6])
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// CHECK-NEXT: 8: MyClass *obj = new (buffer) MyClass();
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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extern void* operator new (unsigned long sz, void* v);
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extern void* operator new[] (unsigned long sz, void* ptr);
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class MyClass {
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public:
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MyClass() {}
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~MyClass() {}
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};
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void test_placement_new() {
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int buffer[16];
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MyClass* obj = new (buffer) MyClass();
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}
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// CHECK-LABEL: void test_placement_new_array()
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// CHECK: [B2 (ENTRY)]
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// CHECK-NEXT: 1: int buffer[16];
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// CHECK-NEXT: 2: buffer
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// CHECK-NEXT: 3: [B1.2] (ImplicitCastExpr, ArrayToPointerDecay, int *)
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// CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, BitCast, void *)
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// CHECK-NEXT: 5: 5
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// CHECK-NEXT: 6: CFGNewAllocator(MyClass *)
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// WARNINGS-NEXT: 7: (CXXConstructExpr, class MyClass [5])
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// ANALYZER-NEXT: 7: (CXXConstructExpr, [B1.8], class MyClass [5])
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// CHECK-NEXT: 8: new ([B1.4]) MyClass {{\[\[}}B1.5]]
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// CHECK-NEXT: 9: MyClass *obj = new (buffer) MyClass [5];
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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void test_placement_new_array() {
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int buffer[16];
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MyClass* obj = new (buffer) MyClass[5];
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}
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// CHECK-LABEL: void test_lifetime_extended_temporaries()
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// CHECK: [B1]
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struct LifetimeExtend { LifetimeExtend(int); ~LifetimeExtend(); };
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struct Aggregate { const LifetimeExtend a; const LifetimeExtend b; };
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struct AggregateRef { const LifetimeExtend &a; const LifetimeExtend &b; };
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void test_lifetime_extended_temporaries() {
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// CHECK: LifetimeExtend(1);
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// CHECK-NEXT: : 1
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// CHECK-NEXT: ~LifetimeExtend()
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// CHECK-NOT: ~LifetimeExtend()
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{
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const LifetimeExtend &l = LifetimeExtend(1);
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1;
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}
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// CHECK: LifetimeExtend(2)
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// CHECK-NEXT: ~LifetimeExtend()
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// CHECK-NEXT: : 2
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// CHECK-NOT: ~LifetimeExtend()
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{
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// No life-time extension.
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const int &l = (LifetimeExtend(2), 2);
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2;
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}
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// CHECK: LifetimeExtend(3)
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// CHECK-NEXT: : 3
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// CHECK-NEXT: ~LifetimeExtend()
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// CHECK-NOT: ~LifetimeExtend()
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{
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// The last one is lifetime extended.
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const LifetimeExtend &l = (3, LifetimeExtend(3));
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3;
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}
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// CHECK: LifetimeExtend(4)
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// CHECK-NEXT: ~LifetimeExtend()
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// CHECK-NEXT: ~LifetimeExtend()
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// CHECK-NEXT: : 4
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// CHECK-NOT: ~LifetimeExtend()
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{
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Aggregate a{LifetimeExtend(4), LifetimeExtend(4)};
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4;
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}
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// CHECK: LifetimeExtend(5)
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// CHECK-NEXT: : 5
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// FIXME: We want to emit the destructors of the lifetime
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// extended variables here.
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// CHECK-NOT: ~LifetimeExtend()
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{
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AggregateRef a{LifetimeExtend(5), LifetimeExtend(5)};
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5;
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}
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// FIXME: Add tests for lifetime extension via subobject
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// references (LifetimeExtend().some_member).
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}
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// FIXME: The destructor for 'a' shouldn't be there because it's deleted
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// in the union.
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// CHECK-LABEL: void foo()
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// CHECK: [B2 (ENTRY)]
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// CHECK-NEXT: Succs (1): B1
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// CHECK: [B1]
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// WARNINGS-NEXT: 1: (CXXConstructExpr, struct pr37688_deleted_union_destructor::A)
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// ANALYZER-NEXT: 1: (CXXConstructExpr, [B1.2], struct pr37688_deleted_union_destructor::A)
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// CHECK-NEXT: 2: pr37688_deleted_union_destructor::A a;
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// CHECK-NEXT: 3: [B1.2].~pr37688_deleted_union_destructor::A() (Implicit destructor)
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// CHECK-NEXT: Preds (1): B2
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// CHECK-NEXT: Succs (1): B0
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// CHECK: [B0 (EXIT)]
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// CHECK-NEXT: Preds (1): B1
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namespace pr37688_deleted_union_destructor {
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struct S { ~S(); };
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struct A {
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~A() noexcept {}
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union {
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struct {
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S s;
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} ss;
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};
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};
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void foo() {
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|
A a;
|
|
}
|
|
} // end namespace pr37688_deleted_union_destructor
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|
|
|
|
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namespace return_statement_expression {
|
|
int unknown();
|
|
|
|
// CHECK-LABEL: int foo()
|
|
// CHECK: [B6 (ENTRY)]
|
|
// CHECK-NEXT: Succs (1): B5
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: 0
|
|
// CHECK-NEXT: 2: return [B1.1];
|
|
// CHECK-NEXT: Preds (1): B5
|
|
// CHECK-NEXT: Succs (1): B0
|
|
// CHECK: [B2]
|
|
// CHECK-NEXT: 1: 0
|
|
// CHECK-NEXT: 2: ({ ... ; [B2.1] })
|
|
// CHECK-NEXT: 3: return [B2.2];
|
|
// CHECK-NEXT: Preds (1): B4
|
|
// CHECK-NEXT: Succs (1): B0
|
|
// FIXME: Why do we have [B3] at all?
|
|
// CHECK: [B3]
|
|
// CHECK-NEXT: Succs (1): B4
|
|
// CHECK: [B4]
|
|
// CHECK-NEXT: 1: 0
|
|
// CHECK-NEXT: 2: [B4.1] (ImplicitCastExpr, IntegralToBoolean, _Bool)
|
|
// CHECK-NEXT: T: while [B4.2]
|
|
// CHECK-NEXT: Preds (2): B3 B5
|
|
// CHECK-NEXT: Succs (2): NULL B2
|
|
// CHECK: [B5]
|
|
// CHECK-NEXT: 1: unknown
|
|
// CHECK-NEXT: 2: [B5.1] (ImplicitCastExpr, FunctionToPointerDecay, int (*)(void))
|
|
// CHECK-NEXT: 3: [B5.2]()
|
|
// CHECK-NEXT: 4: [B5.3] (ImplicitCastExpr, IntegralToBoolean, _Bool)
|
|
// CHECK-NEXT: T: if [B5.4]
|
|
// CHECK-NEXT: Preds (1): B6
|
|
// CHECK-NEXT: Succs (2): B4 B1
|
|
// CHECK: [B0 (EXIT)]
|
|
// CHECK-NEXT: Preds (2): B1 B2
|
|
int foo() {
|
|
if (unknown())
|
|
return ({
|
|
while (0)
|
|
;
|
|
0;
|
|
});
|
|
else
|
|
return 0;
|
|
}
|
|
} // namespace statement_expression_in_return
|
|
|
|
// CHECK-LABEL: void vla_simple(int x)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: x
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 3: int vla[x];
|
|
void vla_simple(int x) {
|
|
int vla[x];
|
|
}
|
|
|
|
// CHECK-LABEL: void vla_typedef(int x)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: x
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 3: typedef int VLA[x];
|
|
void vla_typedef(int x) {
|
|
typedef int VLA[x];
|
|
}
|
|
|
|
// CHECK-LABEL: void vla_typealias(int x)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: x
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 3: using VLA = int [x];
|
|
void vla_typealias(int x) {
|
|
using VLA = int[x];
|
|
}
|
|
|
|
// CHECK-LABEL: void vla_typedef_multi(int x, int y)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: y
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 3: x
|
|
// CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 5: typedef int VLA[x][y];
|
|
void vla_typedef_multi(int x, int y) {
|
|
typedef int VLA[x][y];
|
|
}
|
|
|
|
// CHECK-LABEL: void vla_typedefname_multi(int x, int y)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: x
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 3: typedef int VLA[x];
|
|
// CHECK-NEXT: 4: y
|
|
// CHECK-NEXT: 5: [B1.4] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 6: typedef VLA VLA1[y];
|
|
// CHECK-NEXT: 7: 3
|
|
// CHECK-NEXT: 8: using VLA2 = VLA1 [3];
|
|
// CHECK-NEXT: 9: 4
|
|
// CHECK-NEXT: 10: VLA2 vla[4];
|
|
void vla_typedefname_multi(int x, int y) {
|
|
typedef int VLA[x];
|
|
typedef VLA VLA1[y];
|
|
using VLA2 = VLA1[3];
|
|
VLA2 vla[4];
|
|
}
|
|
|
|
// CHECK-LABEL: int vla_evaluate(int x)
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: x
|
|
// CHECK-NEXT: 2: ++[B1.1]
|
|
// CHECK-NEXT: 3: [B1.2] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 4: typedef int VLA[++x];
|
|
// CHECK-NEXT: 5: x
|
|
// CHECK-NEXT: 6: ++[B1.5]
|
|
// CHECK-NEXT: 7: [B1.6] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 8: sizeof(int [++x])
|
|
// CHECK-NEXT: 9: alignof(int [++x])
|
|
// CHECK-NEXT: 10: 0
|
|
// CHECK-NEXT: 11: x
|
|
// CHECK-NEXT: 12: [B1.11] (ImplicitCastExpr, LValueToRValue, int)
|
|
// CHECK-NEXT: 13: return [B1.12];
|
|
int vla_evaluate(int x) {
|
|
// Evaluates the ++x
|
|
typedef int VLA[++x];
|
|
sizeof(int[++x]);
|
|
|
|
// Do not evaluate the ++x
|
|
_Alignof(int[++x]);
|
|
_Generic((int(*)[++x])0, default : 0);
|
|
|
|
return x;
|
|
}
|
|
|
|
// CHECK-LABEL: template<> int *PR18472<int>()
|
|
// CHECK: [B2 (ENTRY)]
|
|
// CHECK-NEXT: Succs (1): B1
|
|
// CHECK: [B1]
|
|
// CHECK-NEXT: 1: 0
|
|
// CHECK-NEXT: 2: [B1.1] (ImplicitCastExpr, NullToPointer, PR18472_t)
|
|
// CHECK-NEXT: 3: (PR18472_t)[B1.2] (CStyleCastExpr, NoOp, PR18472_t)
|
|
// CHECK-NEXT: 4: CFGNewAllocator(int *)
|
|
// CHECK-NEXT: 5: new (([B1.3])) int
|
|
// CHECK-NEXT: 6: return [B1.5];
|
|
// CHECK-NEXT: Preds (1): B2
|
|
// CHECK-NEXT: Succs (1): B0
|
|
// CHECK: [B0 (EXIT)]
|
|
// CHECK-NEXT: Preds (1): B1
|
|
|
|
extern "C" typedef int *PR18472_t;
|
|
void *operator new (unsigned long, PR18472_t);
|
|
template <class T> T *PR18472() {
|
|
return new (((PR18472_t) 0)) T;
|
|
}
|
|
void PR18472_helper() {
|
|
PR18472<int>();
|
|
}
|