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d7686ef31c
teak-llvm/clang/test/SemaCXX/constructor-initializer.cpp
Eli Friedman d7686ef31c Unify the codepaths used to verify base and member initializers for explicitly 
and implicitly defined constructors.  This has a number of benefits:

1. Less code.

2. Explicit and implicit constructors get the same diagnostics.

3. The AST explicitly contains constructor calls from implicit default
constructors.  This allows handing some cases that previously weren't handled
correctly in IRGen without any additional code. Specifically, implicit default
constructors containing calls to constructors with default arguments are now
handled correctly.

llvm-svn: 86500
2009-11-09 01:05:47 +00:00

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// RUN: clang-cc -Wreorder -fsyntax-only -verify %s
class A {
int m;
A() : A::m(17) { } // expected-error {{member initializer 'm' does not name a non-static data member or base class}}
A(int);
};
class B : public A {
public:
B() : A(), m(1), n(3.14) { }
private:
int m;
float n;
};
class C : public virtual B {
public:
C() : B() { }
};
class D : public C {
public:
D() : B(), C() { }
};
class E : public D, public B {
public:
E() : B(), D() { } // expected-error{{base class initializer 'class B' names both a direct base class and an inherited virtual base class}}
};
typedef int INT;
class F : public B {
public:
int B;
F() : B(17),
m(17), // expected-error{{member initializer 'm' does not name a non-static data member or base class}}
INT(17) // expected-error{{constructor initializer 'INT' (aka 'int') does not name a class}}
{
}
};
class G : A {
G() : A(10); // expected-error{{expected '{'}}
};
void f() : a(242) { } // expected-error{{only constructors take base initializers}}
class H : A {
H();
};
H::H() : A(10) { }
class X {};
class Y {};
struct S : Y, virtual X {
S ();
};
struct Z : S {
Z() : X(), S(), E() {} // expected-error {{type 'class E' is not a direct or virtual base of 'Z'}}
};
class U {
union { int a; char* p; };
union { int b; double d; };
U() : a(1), p(0), d(1.0) {} // expected-error {{multiple initializations given for non-static member 'p'}} \
// expected-note {{previous initialization is here}}
};
struct V {};
struct Base {};
struct Base1 {};
struct Derived : Base, Base1, virtual V {
Derived ();
};
struct Current : Derived {
int Derived;
Current() : Derived(1), ::Derived(), // expected-warning {{member 'Derived' will be initialized after}} \
// expected-note {{base '::Derived'}} \
// expected-warning {{base class '::Derived' will be initialized after}}
::Derived::Base(), // expected-error {{type '::Derived::Base' is not a direct or virtual base of 'Current'}}
Derived::Base1(), // expected-error {{type 'Derived::Base1' is not a direct or virtual base of 'Current'}}
Derived::V(), // expected-note {{base 'Derived::V'}}
::NonExisting(), // expected-error {{member initializer 'NonExisting' does not name a non-static data member or}}
INT::NonExisting() {} // expected-error {{expected a class or namespace}} \
// expected-error {{member initializer 'NonExisting' does not name a non-static data member or}}
};
// FIXME. This is bad message!
struct M { // expected-note {{candidate function}} \
// expected-note {{candidate function}} \
// expected-note {{declared here}} \
// expected-note {{declared here}}
M(int i, int j); // expected-note {{candidate function}} \
// // expected-note {{candidate function}}
};
struct N : M {
N() : M(1), // expected-error {{no matching constructor for initialization of 'M'}}
m1(100) { } // expected-error {{no matching constructor for initialization of 'm1'}}
M m1;
};
struct P : M {
P() { } // expected-error {{base class 'struct M'}} \
// expected-error {{member 'm'}}
M m; // expected-note {{member is declared here}}
};
struct Q {
Q() : f1(1,2), // expected-error {{Too many arguments for member initializer 'f1'}}
pf(0.0) { } // expected-error {{incompatible type passing 'double', expected 'float *'}}
float f1;
float *pf;
};
// A silly class used to demonstrate field-is-uninitialized in constructors with
// multiple params.
class TwoInOne { TwoInOne(TwoInOne a, TwoInOne b) {} };
class InitializeUsingSelfTest {
bool A;
char* B;
int C;
TwoInOne D;
InitializeUsingSelfTest(int E)
: A(A), // expected-warning {{field is uninitialized when used here}}
B((((B)))), // expected-warning {{field is uninitialized when used here}}
C(A && InitializeUsingSelfTest::C), // expected-warning {{field is uninitialized when used here}}
D(D, // expected-warning {{field is uninitialized when used here}}
D) {} // expected-warning {{field is uninitialized when used here}}
};
int IntWrapper(int i) { return 0; };
class InitializeUsingSelfExceptions {
int A;
int B;
InitializeUsingSelfExceptions(int B)
: A(IntWrapper(A)), // Due to a conservative implementation, we do not report warnings inside function/ctor calls even though it is possible to do so.
B(B) {} // Not a warning; B is a local variable.
};
class CopyConstructorTest {
bool A, B, C;
CopyConstructorTest(const CopyConstructorTest& rhs)
: A(rhs.A),
B(B), // expected-warning {{field is uninitialized when used here}}
C(rhs.C || C) { } // expected-warning {{field is uninitialized when used here}}
};
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