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llvm-project/clang/test/Analysis/cxx-uninitialized-object-inheritance.cpp
Matheus Izvekov bdc6974f92
[clang] Implement ElaboratedType sugaring for types written bare 
Without this patch, clang will not wrap in an ElaboratedType node types written
without a keyword and nested name qualifier, which goes against the intent that
we should produce an AST which retains enough details to recover how things are
written.

The lack of this sugar is incompatible with the intent of the type printer
default policy, which is to print types as written, but to fall back and print
them fully qualified when they are desugared.

An ElaboratedTypeLoc without keyword / NNS uses no storage by itself, but still
requires pointer alignment due to pre-existing bug in the TypeLoc buffer
handling.

Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>

Differential Revision: https://reviews.llvm.org/D112374
2022-07-13 02:10:09 +02:00

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// RUN: %clang_analyze_cc1 -analyzer-checker=core,optin.cplusplus.UninitializedObject \
// RUN: -analyzer-config optin.cplusplus.UninitializedObject:Pedantic=true -DPEDANTIC \
// RUN: -analyzer-config optin.cplusplus.UninitializedObject:CheckPointeeInitialization=true \
// RUN: -std=c++11 -verify %s
//===----------------------------------------------------------------------===//
// Non-polymorphic inheritance tests
//===----------------------------------------------------------------------===//
class NonPolymorphicLeft1 {
int x;
protected:
int y;
public:
NonPolymorphicLeft1() = default;
NonPolymorphicLeft1(int) : x(1) {}
};
class NonPolymorphicInheritanceTest1 : public NonPolymorphicLeft1 {
int z;
public:
NonPolymorphicInheritanceTest1()
: NonPolymorphicLeft1(int{}) {
y = 2;
z = 3;
// All good!
}
};
void fNonPolymorphicInheritanceTest1() {
NonPolymorphicInheritanceTest1();
}
class NonPolymorphicBaseClass2 {
int x; // expected-note{{uninitialized field 'this->NonPolymorphicBaseClass2::x'}}
protected:
int y;
public:
NonPolymorphicBaseClass2() = default;
NonPolymorphicBaseClass2(int) : x(4) {}
};
class NonPolymorphicInheritanceTest2 : public NonPolymorphicBaseClass2 {
int z;
public:
NonPolymorphicInheritanceTest2() {
y = 5;
z = 6; // expected-warning{{1 uninitialized field}}
}
};
void fNonPolymorphicInheritanceTest2() {
NonPolymorphicInheritanceTest2();
}
class NonPolymorphicBaseClass3 {
int x;
protected:
int y; // expected-note{{uninitialized field 'this->NonPolymorphicBaseClass3::y'}}
public:
NonPolymorphicBaseClass3() = default;
NonPolymorphicBaseClass3(int) : x(7) {}
};
class NonPolymorphicInheritanceTest3 : public NonPolymorphicBaseClass3 {
int z;
public:
NonPolymorphicInheritanceTest3()
: NonPolymorphicBaseClass3(int{}) {
z = 8; // expected-warning{{1 uninitialized field}}
}
};
void fNonPolymorphicInheritanceTest3() {
NonPolymorphicInheritanceTest3();
}
class NonPolymorphicBaseClass4 {
int x;
protected:
int y;
public:
NonPolymorphicBaseClass4() = default;
NonPolymorphicBaseClass4(int) : x(9) {}
};
class NonPolymorphicInheritanceTest4 : public NonPolymorphicBaseClass4 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
NonPolymorphicInheritanceTest4()
: NonPolymorphicBaseClass4(int{}) {
y = 10; // expected-warning{{1 uninitialized field}}
}
};
void fNonPolymorphicInheritanceTest4() {
NonPolymorphicInheritanceTest4();
}
//===----------------------------------------------------------------------===//
// Polymorphic inheritance tests
//===----------------------------------------------------------------------===//
class PolymorphicLeft1 {
int x;
protected:
int y;
public:
virtual ~PolymorphicLeft1() = default;
PolymorphicLeft1() = default;
PolymorphicLeft1(int) : x(11) {}
};
class PolymorphicInheritanceTest1 : public PolymorphicLeft1 {
int z;
public:
PolymorphicInheritanceTest1()
: PolymorphicLeft1(int{}) {
y = 12;
z = 13;
// All good!
}
};
void fPolymorphicInheritanceTest1() {
PolymorphicInheritanceTest1();
}
class PolymorphicRight1 {
int x; // expected-note{{uninitialized field 'this->PolymorphicRight1::x'}}
protected:
int y;
public:
virtual ~PolymorphicRight1() = default;
PolymorphicRight1() = default;
PolymorphicRight1(int) : x(14) {}
};
class PolymorphicInheritanceTest2 : public PolymorphicRight1 {
int z;
public:
PolymorphicInheritanceTest2() {
y = 15;
z = 16; // expected-warning{{1 uninitialized field}}
}
};
void fPolymorphicInheritanceTest2() {
PolymorphicInheritanceTest2();
}
class PolymorphicBaseClass3 {
int x;
protected:
int y; // expected-note{{uninitialized field 'this->PolymorphicBaseClass3::y'}}
public:
virtual ~PolymorphicBaseClass3() = default;
PolymorphicBaseClass3() = default;
PolymorphicBaseClass3(int) : x(17) {}
};
class PolymorphicInheritanceTest3 : public PolymorphicBaseClass3 {
int z;
public:
PolymorphicInheritanceTest3()
: PolymorphicBaseClass3(int{}) {
z = 18; // expected-warning{{1 uninitialized field}}
}
};
void fPolymorphicInheritanceTest3() {
PolymorphicInheritanceTest3();
}
class PolymorphicBaseClass4 {
int x;
protected:
int y;
public:
virtual ~PolymorphicBaseClass4() = default;
PolymorphicBaseClass4() = default;
PolymorphicBaseClass4(int) : x(19) {}
};
class PolymorphicInheritanceTest4 : public PolymorphicBaseClass4 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
PolymorphicInheritanceTest4()
: PolymorphicBaseClass4(int{}) {
y = 20; // expected-warning{{1 uninitialized field}}
}
};
void fPolymorphicInheritanceTest4() {
PolymorphicInheritanceTest4();
}
//===----------------------------------------------------------------------===//
// Virtual inheritance tests
//===----------------------------------------------------------------------===//
class VirtualPolymorphicLeft1 {
int x;
protected:
int y;
public:
virtual ~VirtualPolymorphicLeft1() = default;
VirtualPolymorphicLeft1() = default;
VirtualPolymorphicLeft1(int) : x(21) {}
};
class VirtualInheritanceTest1 : virtual public VirtualPolymorphicLeft1 {
int z;
public:
VirtualInheritanceTest1()
: VirtualPolymorphicLeft1(int()) {
y = 22;
z = 23;
// All good!
}
};
void fVirtualInheritanceTest1() {
VirtualInheritanceTest1();
}
class VirtualPolymorphicRight1 {
int x; // expected-note{{uninitialized field 'this->VirtualPolymorphicRight1::x'}}
protected:
int y;
public:
virtual ~VirtualPolymorphicRight1() = default;
VirtualPolymorphicRight1() = default;
VirtualPolymorphicRight1(int) : x(24) {}
};
class VirtualInheritanceTest2 : virtual public VirtualPolymorphicRight1 {
int z;
public:
VirtualInheritanceTest2() {
y = 25;
z = 26; // expected-warning{{1 uninitialized field}}
}
};
void fVirtualInheritanceTest2() {
VirtualInheritanceTest2();
}
class VirtualPolymorphicBaseClass3 {
int x;
protected:
int y; // expected-note{{uninitialized field 'this->VirtualPolymorphicBaseClass3::y'}}
public:
virtual ~VirtualPolymorphicBaseClass3() = default;
VirtualPolymorphicBaseClass3() = default;
VirtualPolymorphicBaseClass3(int) : x(27) {}
};
class VirtualInheritanceTest3 : virtual public VirtualPolymorphicBaseClass3 {
int z;
public:
VirtualInheritanceTest3()
: VirtualPolymorphicBaseClass3(int{}) {
z = 28; // expected-warning{{1 uninitialized field}}
}
};
void fVirtualInheritanceTest3() {
VirtualInheritanceTest3();
}
//===----------------------------------------------------------------------===//
// Multiple inheritance tests
//===----------------------------------------------------------------------===//
/*
Left Right
\ /
\ /
\ /
MultipleInheritanceTest
*/
struct Left1 {
int x;
Left1() = default;
Left1(int) : x(29) {}
};
struct Right1 {
int y;
Right1() = default;
Right1(int) : y(30) {}
};
class MultipleInheritanceTest1 : public Left1, public Right1 {
int z;
public:
MultipleInheritanceTest1()
: Left1(int{}),
Right1(char{}) {
z = 31;
// All good!
}
MultipleInheritanceTest1(int)
: Left1(int{}) {
y = 32;
z = 33;
// All good!
}
MultipleInheritanceTest1(int, int)
: Right1(char{}) {
x = 34;
z = 35;
// All good!
}
};
void fMultipleInheritanceTest1() {
MultipleInheritanceTest1();
MultipleInheritanceTest1(int());
MultipleInheritanceTest1(int(), int());
}
struct Left2 {
int x;
Left2() = default;
Left2(int) : x(36) {}
};
struct Right2 {
int y; // expected-note{{uninitialized field 'this->Right2::y'}}
Right2() = default;
Right2(int) : y(37) {}
};
class MultipleInheritanceTest2 : public Left2, public Right2 {
int z;
public:
MultipleInheritanceTest2()
: Left2(int{}) {
z = 38; // expected-warning{{1 uninitialized field}}
}
};
void fMultipleInheritanceTest2() {
MultipleInheritanceTest2();
}
struct Left3 {
int x; // expected-note{{uninitialized field 'this->Left3::x'}}
Left3() = default;
Left3(int) : x(39) {}
};
struct Right3 {
int y;
Right3() = default;
Right3(int) : y(40) {}
};
class MultipleInheritanceTest3 : public Left3, public Right3 {
int z;
public:
MultipleInheritanceTest3()
: Right3(char{}) {
z = 41; // expected-warning{{1 uninitialized field}}
}
};
void fMultipleInheritanceTest3() {
MultipleInheritanceTest3();
}
struct Left4 {
int x;
Left4() = default;
Left4(int) : x(42) {}
};
struct Right4 {
int y;
Right4() = default;
Right4(int) : y(43) {}
};
class MultipleInheritanceTest4 : public Left4, public Right4 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
MultipleInheritanceTest4()
: Left4(int{}),
Right4(char{}) { // expected-warning{{1 uninitialized field}}
}
};
void fMultipleInheritanceTest4() {
MultipleInheritanceTest4();
}
struct Left5 {
int x;
Left5() = default;
Left5(int) : x(44) {}
};
struct Right5 {
int y; // expected-note{{uninitialized field 'this->Right5::y'}}
Right5() = default;
Right5(int) : y(45) {}
};
class MultipleInheritanceTest5 : public Left5, public Right5 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
MultipleInheritanceTest5() // expected-warning{{2 uninitialized fields}}
: Left5(int{}) {
}
};
void fMultipleInheritanceTest5() {
MultipleInheritanceTest5();
}
//===----------------------------------------------------------------------===//
// Non-virtual diamond inheritance tests
//===----------------------------------------------------------------------===//
/*
NonVirtualBase NonVirtualBase
| |
| |
| |
First Second
\ /
\ /
\ /
NonVirtualDiamondInheritanceTest
*/
struct NonVirtualBase1 {
int x;
NonVirtualBase1() = default;
NonVirtualBase1(int) : x(46) {}
};
struct First1 : public NonVirtualBase1 {
First1() = default;
First1(int) : NonVirtualBase1(int{}) {}
};
struct Second1 : public NonVirtualBase1 {
Second1() = default;
Second1(int) : NonVirtualBase1(int{}) {}
};
class NonVirtualDiamondInheritanceTest1 : public First1, public Second1 {
int z;
public:
NonVirtualDiamondInheritanceTest1()
: First1(int{}),
Second1(int{}) {
z = 47;
// All good!
}
NonVirtualDiamondInheritanceTest1(int)
: First1(int{}) {
Second1::x = 48;
z = 49;
// All good!
}
NonVirtualDiamondInheritanceTest1(int, int)
: Second1(int{}) {
First1::x = 50;
z = 51;
// All good!
}
};
void fNonVirtualDiamondInheritanceTest1() {
NonVirtualDiamondInheritanceTest1();
NonVirtualDiamondInheritanceTest1(int());
NonVirtualDiamondInheritanceTest1(int(), int());
}
struct NonVirtualBase2 {
int x; // expected-note{{uninitialized field 'this->NonVirtualBase2::x'}}
NonVirtualBase2() = default;
NonVirtualBase2(int) : x(52) {}
};
struct First2 : public NonVirtualBase2 {
First2() = default;
First2(int) : NonVirtualBase2(int{}) {}
};
struct Second2 : public NonVirtualBase2 {
Second2() = default;
Second2(int) : NonVirtualBase2(int{}) {}
};
class NonVirtualDiamondInheritanceTest2 : public First2, public Second2 {
int z;
public:
NonVirtualDiamondInheritanceTest2()
: First2(int{}) {
z = 53; // expected-warning{{1 uninitialized field}}
}
};
void fNonVirtualDiamondInheritanceTest2() {
NonVirtualDiamondInheritanceTest2();
}
struct NonVirtualBase3 {
int x; // expected-note{{uninitialized field 'this->NonVirtualBase3::x'}}
NonVirtualBase3() = default;
NonVirtualBase3(int) : x(54) {}
};
struct First3 : public NonVirtualBase3 {
First3() = default;
First3(int) : NonVirtualBase3(int{}) {}
};
struct Second3 : public NonVirtualBase3 {
Second3() = default;
Second3(int) : NonVirtualBase3(int{}) {}
};
class NonVirtualDiamondInheritanceTest3 : public First3, public Second3 {
int z;
public:
NonVirtualDiamondInheritanceTest3()
: Second3(int{}) {
z = 55; // expected-warning{{1 uninitialized field}}
}
};
void fNonVirtualDiamondInheritanceTest3() {
NonVirtualDiamondInheritanceTest3();
}
struct NonVirtualBase4 {
int x; // expected-note{{uninitialized field 'this->NonVirtualBase4::x'}}
// expected-note@-1{{uninitialized field 'this->NonVirtualBase4::x'}}
NonVirtualBase4() = default;
NonVirtualBase4(int) : x(56) {}
};
struct First4 : public NonVirtualBase4 {
First4() = default;
First4(int) : NonVirtualBase4(int{}) {}
};
struct Second4 : public NonVirtualBase4 {
Second4() = default;
Second4(int) : NonVirtualBase4(int{}) {}
};
class NonVirtualDiamondInheritanceTest4 : public First4, public Second4 {
int z;
public:
NonVirtualDiamondInheritanceTest4() {
z = 57; // expected-warning{{2 uninitialized fields}}
}
};
void fNonVirtualDiamondInheritanceTest4() {
NonVirtualDiamondInheritanceTest4();
}
struct NonVirtualBase5 {
int x;
NonVirtualBase5() = default;
NonVirtualBase5(int) : x(58) {}
};
struct First5 : public NonVirtualBase5 {
First5() = default;
First5(int) : NonVirtualBase5(int{}) {}
};
struct Second5 : public NonVirtualBase5 {
Second5() = default;
Second5(int) : NonVirtualBase5(int{}) {}
};
class NonVirtualDiamondInheritanceTest5 : public First5, public Second5 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
NonVirtualDiamondInheritanceTest5()
: First5(int{}),
Second5(int{}) { // expected-warning{{1 uninitialized field}}
}
};
void fNonVirtualDiamondInheritanceTest5() {
NonVirtualDiamondInheritanceTest5();
}
struct NonVirtualBase6 {
int x; // expected-note{{uninitialized field 'this->NonVirtualBase6::x'}}
NonVirtualBase6() = default;
NonVirtualBase6(int) : x(59) {}
};
struct First6 : public NonVirtualBase6 {
First6() = default;
First6(int) : NonVirtualBase6(int{}) {}
};
struct Second6 : public NonVirtualBase6 {
Second6() = default;
Second6(int) : NonVirtualBase6(int{}) {}
};
class NonVirtualDiamondInheritanceTest6 : public First6, public Second6 {
int z; // expected-note{{uninitialized field 'this->z'}}
public:
NonVirtualDiamondInheritanceTest6() // expected-warning{{2 uninitialized fields}}
: First6(int{}) {
// 'z' and 'Second::x' unintialized
}
};
void fNonVirtualDiamondInheritanceTest6() {
NonVirtualDiamondInheritanceTest6();
}
//===----------------------------------------------------------------------===//
// Virtual diamond inheritance tests
//===----------------------------------------------------------------------===//
/*
VirtualBase
/ \
/ \
/ \
VirtualFirst VirtualSecond
\ /
\ /
\ /
VirtualDiamondInheritanceTest
*/
struct VirtualBase1 {
int x;
VirtualBase1() = default;
VirtualBase1(int) : x(60) {}
};
struct VirtualFirst1 : virtual public VirtualBase1 {
VirtualFirst1() = default;
VirtualFirst1(int) : VirtualBase1(int{}) {}
VirtualFirst1(int, int) { x = 61; }
};
struct VirtualSecond1 : virtual public VirtualBase1 {
VirtualSecond1() = default;
VirtualSecond1(int) : VirtualBase1(int{}) {}
VirtualSecond1(int, int) { x = 62; }
};
class VirtualDiamondInheritanceTest1 : public VirtualFirst1, public VirtualSecond1 {
public:
VirtualDiamondInheritanceTest1() {
x = 0;
// All good!
}
VirtualDiamondInheritanceTest1(int)
: VirtualFirst1(int{}, int{}),
VirtualSecond1(int{}, int{}) {
// All good!
}
VirtualDiamondInheritanceTest1(int, int)
: VirtualFirst1(int{}, int{}) {
// All good!
}
};
void fVirtualDiamondInheritanceTest1() {
VirtualDiamondInheritanceTest1();
VirtualDiamondInheritanceTest1(int());
VirtualDiamondInheritanceTest1(int(), int());
}
struct VirtualBase2 {
int x; // expected-note{{uninitialized field 'this->VirtualBase2::x'}}
VirtualBase2() = default;
VirtualBase2(int) : x(63) {}
};
struct VirtualFirst2 : virtual public VirtualBase2 {
VirtualFirst2() = default;
VirtualFirst2(int) : VirtualBase2(int{}) {}
VirtualFirst2(int, int) { x = 64; }
};
struct VirtualSecond2 : virtual public VirtualBase2 {
VirtualSecond2() = default;
VirtualSecond2(int) : VirtualBase2(int{}) {}
VirtualSecond2(int, int) { x = 65; }
};
class VirtualDiamondInheritanceTest2 : public VirtualFirst2, public VirtualSecond2 {
public:
VirtualDiamondInheritanceTest2() // expected-warning{{1 uninitialized field}}
: VirtualFirst2(int{}) {
// From the N4659 C++ Standard Working Draft:
//
// (15.6.2.7)
// [...] A 'mem-initializer' where the 'mem-initializer-id' denotes a
// virtual base class is ignored during execution of a constructor of any
// class that is not the most derived class.
//
// This means that Left1::x will not be initialized, because in both
// VirtualFirst::VirtualFirst(int) and VirtualSecond::VirtualSecond(int)
// the constructor delegation to Left1::Left1(int) will be
// ignored.
}
};
void fVirtualDiamondInheritanceTest2() {
VirtualDiamondInheritanceTest2();
}
struct VirtualBase3 {
int x; // expected-note{{uninitialized field 'this->VirtualBase3::x'}}
VirtualBase3() = default;
VirtualBase3(int) : x(66) {}
};
struct VirtualFirst3 : virtual public VirtualBase3 {
VirtualFirst3() = default;
VirtualFirst3(int) : VirtualBase3(int{}) {}
VirtualFirst3(int, int) { x = 67; }
};
struct VirtualSecond3 : virtual public VirtualBase3 {
VirtualSecond3() = default;
VirtualSecond3(int) : VirtualBase3(int{}) {}
VirtualSecond3(int, int) { x = 68; }
};
class VirtualDiamondInheritanceTest3 : public VirtualFirst3, public VirtualSecond3 {
public:
VirtualDiamondInheritanceTest3() // expected-warning{{1 uninitialized field}}
: VirtualFirst3(int{}) {}
};
void fVirtualDiamondInheritanceTest3() {
VirtualDiamondInheritanceTest3();
}
//===----------------------------------------------------------------------===//
// Dynamic type test.
//===----------------------------------------------------------------------===//
struct DynTBase1 {};
struct DynTDerived1 : DynTBase1 {
int y; // expected-note{{uninitialized field 'static_cast<DynTDerived1 *>(this->bptr)->y'}}
};
struct DynamicTypeTest1 {
DynTBase1 *bptr;
int i = 0;
DynamicTypeTest1(DynTBase1 *bptr) : bptr(bptr) {} // expected-warning{{1 uninitialized field}}
};
void fDynamicTypeTest1() {
DynTDerived1 d;
DynamicTypeTest1 t(&d);
};
struct DynTBase2 {
int x; // expected-note{{uninitialized field 'static_cast<DynTDerived2 *>(this->bptr)->DynTBase2::x'}}
};
struct DynTDerived2 : DynTBase2 {
int y; // expected-note{{uninitialized field 'static_cast<DynTDerived2 *>(this->bptr)->y'}}
};
struct DynamicTypeTest2 {
DynTBase2 *bptr;
int i = 0;
DynamicTypeTest2(DynTBase2 *bptr) : bptr(bptr) {} // expected-warning{{2 uninitialized fields}}
};
void fDynamicTypeTest2() {
DynTDerived2 d;
DynamicTypeTest2 t(&d);
}
struct SymbolicSuperRegionBase {
SymbolicSuperRegionBase() {}
};
struct SymbolicSuperRegionDerived : SymbolicSuperRegionBase {
SymbolicSuperRegionBase *bptr; // no-crash
SymbolicSuperRegionDerived(SymbolicSuperRegionBase *bptr) : bptr(bptr) {}
};
SymbolicSuperRegionDerived *getSymbolicRegion();
void fSymbolicSuperRegionTest() {
SymbolicSuperRegionDerived test(getSymbolicRegion());
}
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