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llvm-project/clang/test/SemaCXX/blocks.cpp
John Brawn 6c906f7785 [Sema] Diagnose more cases of static data members in local or unnamed classes 
We currently diagnose static data members directly contained in unnamed classes,
but we should also diagnose when they're in a class that is nested (directly or
indirectly) in an unnamed class. Do this by iterating up the list of parent
DeclContexts and checking if any is an unnamed class.

Similarly also check for function or method DeclContexts (which includes things
like blocks and openmp captured statements) as then the class is considered to
be a local class, which means static data members aren't allowed.

Differential Revision: https://reviews.llvm.org/D80295
2020-05-26 13:29:59 +01:00

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// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s -fblocks
void tovoid(void*);
void tovoid_test(int (^f)(int, int)) {
tovoid(f);
}
void reference_lvalue_test(int& (^f)()) {
f() = 10;
}
// PR 7165
namespace test1 {
void g(void (^)());
struct Foo {
void foo();
void test() {
(void) ^{ foo(); };
}
};
}
namespace test2 {
int repeat(int value, int (^block)(int), unsigned n) {
while (n--) value = block(value);
return value;
}
class Power {
int base;
public:
Power(int base) : base(base) {}
int calculate(unsigned n) {
return repeat(1, ^(int v) { return v * base; }, n);
}
};
int test() {
return Power(2).calculate(10);
}
}
// rdar: // 8382559
namespace radar8382559 {
void func(bool& outHasProperty);
int test3() {
__attribute__((__blocks__(byref))) bool hasProperty = false;
bool has = true;
bool (^b)() = ^ {
func(hasProperty);
if (hasProperty)
hasProperty = 0;
if (has)
hasProperty = 1;
return hasProperty;
};
func(hasProperty);
func(has);
b();
if (hasProperty)
hasProperty = 1;
if (has)
has = 2;
return hasProperty = 1;
}
}
// Move __block variables to the heap when possible.
class MoveOnly {
public:
MoveOnly();
MoveOnly(const MoveOnly&) = delete;
MoveOnly(MoveOnly&&);
};
void move_block() {
__block MoveOnly mo;
}
// Don't crash after failing to build a block due to a capture of an
// invalid declaration.
namespace test5 {
struct B { // expected-note 2 {{candidate constructor}}
void *p;
B(int); // expected-note {{candidate constructor}}
};
void use_block(void (^)());
void use_block_2(void (^)(), const B &a);
void test() {
B x; // expected-error {{no matching constructor for initialization}}
use_block(^{
int y;
use_block_2(^{ (void) y; }, x);
});
}
}
// rdar://16356628
//
// Ensure that we can end function bodies while parsing an
// expression that requires an explicitly-tracked cleanup object
// (i.e. a block literal).
// The nested function body in this test case is a template
// instantiation. The template function has to be constexpr because
// we'll otherwise delay its instantiation to the end of the
// translation unit.
namespace test6a {
template <class T> constexpr int func() { return 0; }
void run(void (^)(), int);
void test() {
int aCapturedVar = 0;
run(^{ (void) aCapturedVar; }, func<int>());
}
}
// The nested function body in this test case is a method of a local
// class.
namespace test6b {
void run(void (^)(), void (^)());
void test() {
int aCapturedVar = 0;
run(^{ (void) aCapturedVar; },
^{ struct A { static void foo() {} };
A::foo(); });
}
}
// The nested function body in this test case is a lambda invocation
// function.
namespace test6c {
void run(void (^)(), void (^)());
void test() {
int aCapturedVar = 0;
run(^{ (void) aCapturedVar; },
^{ struct A { static void foo() {} };
A::foo(); });
}
}
namespace test7 {
struct S {};
void f() {
constexpr S s;
auto some_block = ^{ (void)s; };
}
}
void static_data_member() {
auto block = ^{
class X {
static int x; // expected-error {{static data member 'x' not allowed in local class 'X'}}
};
class Y {
struct Z {
static int z; // expected-error {{static data member 'z' not allowed in local struct 'Z'}}
};
};
};
}
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