1 files changed, 174 insertions, 0 deletions

diff --git a/gcc-4.9/gcc/testsuite/gcc.dg/c11-atomic-3.c b/gcc-4.9/gcc/testsuite/gcc.dg/c11-atomic-3.c
new file mode 100644
index 000000000..4b314e88a
--- /dev/null
+++ b/gcc-4.9/gcc/testsuite/gcc.dg/c11-atomic-3.c
@@ -0,0 +1,174 @@
+/* Test for _Atomic in C11.  Test of invalid code.  */
+/* { dg-do compile } */
+/* { dg-options "-std=c11 -pedantic-errors" } */
+
+/* Increment and decrement are invalid for atomic complex types and
+   atomic pointers to incomplete types, just as for the corresponding
+   non-atomic types.  Likewise for types on which arithmetic is
+   invalid.  */
+_Atomic _Complex float acf;
+void *_Atomic apv;
+struct s *_Atomic aps;
+_Atomic struct t { char c; } as;
+
+void
+func (void)
+{
+  acf++; /* { dg-error "complex types" } */
+  acf--; /* { dg-error "complex types" } */
+  ++acf; /* { dg-error "complex types" } */
+  --acf; /* { dg-error "complex types" } */
+  apv++; /* { dg-error "wrong type|pointer of type" } */
+  apv--; /* { dg-error "wrong type|pointer of type" } */
+  ++apv; /* { dg-error "wrong type|pointer of type" } */
+  --apv; /* { dg-error "wrong type|pointer of type" } */
+  aps++; /* { dg-error "pointer to|invalid use of undefined type" } */
+  aps--; /* { dg-error "pointer to|invalid use of undefined type" } */
+  ++aps; /* { dg-error "pointer to|invalid use of undefined type" } */
+  --aps; /* { dg-error "pointer to|invalid use of undefined type" } */
+  as++; /* { dg-error "wrong type" } */
+  as--; /* { dg-error "wrong type" } */
+  ++as; /* { dg-error "wrong type" } */
+  --as; /* { dg-error "wrong type" } */
+}
+
+/* Pointer subtraction and comparisons differing in _Atomic are
+   invalid where such subtraction and comparisons differing in
+   qualifiers are valid.  There is no special allowance for equality
+   comparisons of pointers to atomic void to pointers to object
+   types.  Likewise for conditional expressions.  */
+int *pi;
+_Atomic int *pai;
+_Atomic void *pav;
+int r;
+
+void
+func2 (void)
+{
+  r = pai - pi; /* { dg-error "invalid operands" } */
+  r = pi - pai; /* { dg-error "invalid operands" } */
+  r = pi < pai; /* { dg-error "distinct pointer types" } */
+  r = pi > pai; /* { dg-error "distinct pointer types" } */
+  r = pi <= pai; /* { dg-error "distinct pointer types" } */
+  r = pi >= pai; /* { dg-error "distinct pointer types" } */
+  r = pai < pi; /* { dg-error "distinct pointer types" } */
+  r = pai > pi; /* { dg-error "distinct pointer types" } */
+  r = pai <= pi; /* { dg-error "distinct pointer types" } */
+  r = pai >= pi; /* { dg-error "distinct pointer types" } */
+  r = pav == pi; /* { dg-error "distinct pointer types" } */
+  r = pav != pi; /* { dg-error "distinct pointer types" } */
+  r = pi == pav; /* { dg-error "distinct pointer types" } */
+  r = pi != pav; /* { dg-error "distinct pointer types" } */
+  (void) (r ? pai : pi); /* { dg-error "pointer type mismatch" } */
+  (void) (r ? pi : pai); /* { dg-error "pointer type mismatch" } */
+  (void) (r ? pai : pav); /* { dg-error "pointer type mismatch" } */
+  (void) (r ? pav : pai); /* { dg-error "pointer type mismatch" } */
+}
+
+/* Likewise for pointer assignment.  */
+void
+func3 (void)
+{
+  pai = pi; /* { dg-error "incompatible pointer type" } */
+  pi = pai; /* { dg-error "incompatible pointer type" } */
+  pav = pai; /* { dg-error "incompatible pointer type" } */
+  pai = pav; /* { dg-error "incompatible pointer type" } */
+}
+
+/* Cases that are invalid for normal assignments are just as invalid
+   (and should not ICE) when the LHS is atomic.  */
+void
+func4 (void)
+{
+  as = acf; /* { dg-error "incompatible types" } */
+  apv = as; /* { dg-error "incompatible types" } */
+  as += 1; /* { dg-error "invalid operands" } */
+  apv -= 1; /* { dg-error "pointer of type" } */
+  apv *= 1; /* { dg-error "invalid operands" } */
+  apv /= 1; /* { dg-error "invalid operands" } */
+  apv %= 1; /* { dg-error "invalid operands" } */
+  apv <<= 1; /* { dg-error "invalid operands" } */
+  apv >>= 1; /* { dg-error "invalid operands" } */
+  apv &= 1; /* { dg-error "invalid operands" } */
+  apv ^= 1; /* { dg-error "invalid operands" } */
+  apv |= 1; /* { dg-error "invalid operands" } */
+}
+
+/* We don't allow atomic bit-fields in GCC (implementation-defined
+   whether they are permitted).  */
+struct abf
+{
+  _Atomic int i : 1; /* { dg-error "atomic type" } */
+  _Atomic int : 0; /* { dg-error "atomic type" } */
+};
+
+/* _Atomic (type-name) may not use a name for an array, function,
+   qualified or atomic type.  */
+_Atomic (int [2]) v0; /* { dg-error "array type" } */
+_Atomic (void (void)) v1; /* { dg-error "function type" } */
+_Atomic (_Atomic int) v2; /* { dg-error "applied to a qualified type" } */
+_Atomic (const int) v3; /* { dg-error "applied to a qualified type" } */
+_Atomic (volatile int) v4; /* { dg-error "applied to a qualified type" } */
+_Atomic (int *restrict) v5; /* { dg-error "applied to a qualified type" } */
+
+/* _Atomic, used as a qualifier, may not be applied to a function or
+   array type.  */
+typedef int arraytype[2];
+typedef void functiontype (void);
+_Atomic arraytype v6; /* { dg-error "array type" } */
+_Atomic arraytype *v7; /* { dg-error "array type" } */
+typedef _Atomic arraytype v8; /* { dg-error "array type" } */
+int v9 = sizeof (_Atomic arraytype); /* { dg-error "array type" } */
+void v10 (_Atomic arraytype parm); /* { dg-error "array type" } */
+struct v11 { _Atomic arraytype f; }; /* { dg-error "array type" } */
+_Atomic functiontype v12; /* { dg-error "function type" } */
+_Atomic functiontype *v13; /* { dg-error "function type" } */
+typedef _Atomic functiontype *v14; /* { dg-error "function type" } */
+void v15 (_Atomic functiontype parm); /* { dg-error "function type" } */
+
+/* Function parameters, when function types are required to be
+   compatible, may not differ in the presence of _Atomic.  See
+   c11-atomic-1.c for corresponding tests where _Atomic matches.  */
+void fc0 (int _Atomic); /* { dg-message "previous declaration" } */
+void fc0 (int); /* { dg-error "conflicting types" } */
+void fc1 (int); /* { dg-message "prototype declaration" } */
+void
+fc1 (x)
+     _Atomic int x; /* { dg-error "match prototype" } */
+{
+}
+void
+fc2 (x) /* { dg-message "previous definition" } */
+     _Atomic int x;
+{
+}
+void fc2 (int); /* { dg-error "incompatible type" } */
+void fc3 (int); /* { dg-message "prototype declaration" } */
+void
+fc3 (x)
+     _Atomic short x; /* { dg-error "match prototype" } */
+{
+}
+void
+fc4 (x) /* { dg-message "previous definition" } */
+     _Atomic short x;
+{
+}
+void fc4 (int); /* { dg-error "incompatible type" } */
+
+/* Arrays of atomic elements cannot be initialized with string
+   literals.  */
+_Atomic char si0[] = ""; /* { dg-error "inappropriate type" } */
+_Atomic char si1[] = u8""; /* { dg-error "inappropriate type" } */
+_Atomic signed char si2[] = ""; /* { dg-error "inappropriate type" } */
+_Atomic signed char si3[] = u8""; /* { dg-error "inappropriate type" } */
+_Atomic unsigned char si4[] = ""; /* { dg-error "inappropriate type" } */
+_Atomic unsigned char si5[] = u8""; /* { dg-error "inappropriate type" } */
+_Atomic __WCHAR_TYPE__ si6[] = L""; /* { dg-error "inappropriate type" } */
+_Atomic __CHAR16_TYPE__ si7[] = u""; /* { dg-error "inappropriate type" } */
+_Atomic __CHAR32_TYPE__ si8[] = U""; /* { dg-error "inappropriate type" } */
+
+/* Anything that is syntactically a qualifier applied to the (void)
+   parameter list results in undefined behavior, which we
+   diagnose.  */
+void fv (_Atomic void); /* { dg-error "may not be qualified" } */