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llvm-project/clang/test/SemaCXX/exceptions.cpp
David Blaikie aee4925507 Recommit: Compress formatting of array type names (int [4] -> int[4]) 
Based on post-commit review discussion on
2bd84938470bf2e337801faafb8a67710f46429d with Richard Smith.

Other uses of forcing HasEmptyPlaceHolder to false seem OK to me -
they're all around pointer/reference types where the pointer/reference
token will appear at the rightmost side of the left side of the type
name, so they make nested types (eg: the "int" in "int *") behave as
though there is a non-empty placeholder (because the "*" is essentially
the placeholder as far as the "int" is concerned).

This was originally committed in 277623f4d5a672d707390e2c3eaf30a9eb4b075c

Reverted in f9ad1d1c775a8e264bebc15d75e0c6e5c20eefc7 due to breakages
outside of clang - lldb seems to have some strange/strong dependence on
"char [N]" versus "char[N]" when printing strings (not due to that name
appearing in DWARF, but probably due to using clang to stringify type
names) that'll need to be addressed, plus a few other odds and ends in
other subprojects (clang-tools-extra, compiler-rt, etc).
2021-10-21 11:34:43 -07:00

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// RUN: %clang_cc1 -fcxx-exceptions -fexceptions -fsyntax-only -verify %s
// RUN: %clang_cc1 -fcxx-exceptions -fexceptions -fsyntax-only -verify -std=c++98 %s
// RUN: %clang_cc1 -fcxx-exceptions -fexceptions -fsyntax-only -verify -std=c++11 %s
struct A; // expected-note 4 {{forward declaration of 'A'}}
struct Abstract { virtual void f() = 0; }; // expected-note {{unimplemented pure virtual method 'f'}}
void trys() {
int k = 42;
try {
} catch(int i) { // expected-note {{previous definition}}
int j = i;
int i; // expected-error {{redefinition of 'i'}}
} catch(float i) {
} catch(void v) { // expected-error {{cannot catch incomplete type 'void'}}
} catch(A a) { // expected-error {{cannot catch incomplete type 'A'}}
} catch(A *a) { // expected-error {{cannot catch pointer to incomplete type 'A'}}
} catch(A &a) { // expected-error {{cannot catch reference to incomplete type 'A'}}
} catch(Abstract) { // expected-error {{variable type 'Abstract' is an abstract class}}
} catch(...) {
int ref = k;
{
int ref = k;
}
int j = i; // expected-error {{use of undeclared identifier 'i'}}
}
try {
} catch(...) { // expected-error {{catch-all handler must come last}}
} catch(int) {
}
}
void throws() {
throw;
throw 0;
throw throw; // expected-error {{cannot throw object of incomplete type 'void'}}
throw (A*)0; // expected-error {{cannot throw pointer to object of incomplete type 'A'}}
}
void jumps() {
l1:
goto l5;
goto l4; // expected-error {{cannot jump}}
goto l3; // expected-error {{cannot jump}}
goto l2; // expected-error {{cannot jump}}
goto l1;
try { // expected-note 4 {{jump bypasses initialization of try block}}
l2:
goto l5;
goto l4; // expected-error {{cannot jump}}
goto l3; // expected-error {{cannot jump}}
goto l2;
goto l1;
} catch(int) { // expected-note 4 {{jump bypasses initialization of catch block}}
l3:
goto l5;
goto l4; // expected-error {{cannot jump}}
goto l3;
goto l2; // expected-error {{cannot jump}}
goto l1;
} catch(...) { // expected-note 4 {{jump bypasses initialization of catch block}}
l4:
goto l5;
goto l4;
goto l3; // expected-error {{cannot jump}}
goto l2; // expected-error {{cannot jump}}
goto l1;
}
l5:
goto l5;
goto l4; // expected-error {{cannot jump}}
goto l3; // expected-error {{cannot jump}}
goto l2; // expected-error {{cannot jump}}
goto l1;
}
struct BadReturn {
BadReturn() try {
} catch(...) {
// Try to hide
try {
} catch(...) {
{
if (0)
return; // expected-error {{return in the catch of a function try block of a constructor is illegal}}
}
}
}
BadReturn(int);
};
BadReturn::BadReturn(int) try {
} catch(...) {
// Try to hide
try {
} catch(int) {
return; // expected-error {{return in the catch of a function try block of a constructor is illegal}}
} catch(...) {
{
if (0)
return; // expected-error {{return in the catch of a function try block of a constructor is illegal}}
}
}
}
// Cannot throw an abstract type.
class foo {
public:
foo() {}
void bar () {
throw *this; // expected-error{{cannot throw an object of abstract type 'foo'}}
}
virtual void test () = 0; // expected-note{{unimplemented pure virtual method 'test'}}
};
namespace PR6831 {
namespace NA { struct S; }
namespace NB { struct S; }
void f() {
using namespace NA;
using namespace NB;
try {
} catch (int S) {
}
}
}
namespace Decay {
struct A {
void f() throw (A[10]);
};
template<typename T> struct B {
void f() throw (B[10]);
};
template struct B<int>;
void f() throw (int[10], int(*)());
void f() throw (int*, int());
template<typename T> struct C {
void f() throw (T);
#if __cplusplus <= 199711L
// expected-error@-2 {{pointer to incomplete type 'Decay::E' is not allowed in exception specification}}
#endif
};
struct D {
C<D[10]> c;
};
struct E;
#if __cplusplus <= 199711L
// expected-note@-2 {{forward declaration of 'Decay::E'}}
#endif
C<E[10]> e;
#if __cplusplus <= 199711L
// expected-note@-2 {{in instantiation of template class 'Decay::C<Decay::E[10]>' requested here}}
#endif
}
void rval_ref() throw (int &&); // expected-error {{rvalue reference type 'int &&' is not allowed in exception specification}}
#if __cplusplus <= 199711L
// expected-warning@-2 {{rvalue references are a C++11 extension}}
#endif
namespace HandlerInversion {
struct B {};
struct D : B {};
struct D2 : D {};
void f1() {
try {
} catch (B &b) { // expected-note {{for type 'HandlerInversion::B &'}}
} catch (D &d) { // expected-warning {{exception of type 'HandlerInversion::D &' will be caught by earlier handler}}
}
}
void f2() {
try {
} catch (B *b) { // expected-note {{for type 'HandlerInversion::B *'}}
} catch (D *d) { // expected-warning {{exception of type 'HandlerInversion::D *' will be caught by earlier handler}}
}
}
void f3() {
try {
} catch (D &d) { // Ok
} catch (B &b) {
}
}
void f4() {
try {
} catch (B &b) { // Ok
}
}
void f5() {
try {
} catch (int) {
} catch (float) {
}
}
void f6() {
try {
} catch (B &b) { // expected-note {{for type 'HandlerInversion::B &'}}
} catch (D2 &d) { // expected-warning {{exception of type 'HandlerInversion::D2 &' will be caught by earlier handler}}
}
}
void f7() {
try {
} catch (B *b) { // Ok
} catch (D &d) { // Ok
}
try {
} catch (B b) { // Ok
} catch (D *d) { // Ok
}
}
void f8() {
try {
} catch (const B &b) { // expected-note {{for type 'const HandlerInversion::B &'}}
} catch (D2 &d) { // expected-warning {{exception of type 'HandlerInversion::D2 &' will be caught by earlier handler}}
}
try {
} catch (B &b) { // expected-note {{for type 'HandlerInversion::B &'}}
} catch (const D2 &d) { // expected-warning {{exception of type 'const HandlerInversion::D2 &' will be caught by earlier handler}}
}
try {
} catch (B b) { // expected-note {{for type 'HandlerInversion::B'}}
} catch (D &d) { // expected-warning {{exception of type 'HandlerInversion::D &' will be caught by earlier handler}}
}
}
}
namespace ConstVolatileThrow {
struct S {
S() {} // expected-note{{candidate constructor not viable}}
S(const S &s); // expected-note{{candidate constructor not viable}}
};
typedef const volatile S CVS;
void f() {
throw CVS(); // expected-error{{no matching constructor for initialization}}
}
}
namespace ConstVolatileCatch {
struct S {
S() {}
S(const volatile S &s);
private:
S(const S &s); // expected-note {{declared private here}}
};
void f();
void g() {
try {
f();
} catch (volatile S s) { // expected-error {{calling a private constructor}}
}
}
}
namespace PR28047 {
void test1(int i) {
try {
} catch (int(*)[i]) { // expected-error{{cannot catch variably modified type}}
}
}
void test2() {
int i;
try {
} catch (int(*)[i]) { // expected-error{{cannot catch variably modified type}}
}
}
}
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