// RUN: %clang_cc1 -triple=x86_64-unknown-linux -frandomize-layout-seed=1234567890abcded \
// RUN: -verify -fsyntax-only -Werror %s
// NOTE: The current seed (1234567890abcded) is specifically chosen because it
// uncovered a bug in diagnostics. With it the randomization of "t9" places the
// "a" element at the end of the record. When that happens, the clang complains
// about excessive initializers, which is confusing, because there aren't
// excessive initializers. It should instead complain about using a
// non-designated initializer on a raqndomized struct.
// Initializing a randomized structure requires a designated initializer,
// otherwise the element ordering will be off. The only exceptions to this rule
// are:
//
// - A structure with only one element, and
// - A structure initialized with "{0}".
//
// These are well-defined situations where the field ordering doesn't affect
// the result.
typedef void (*func_ptr)();
void foo(void);
void bar(void);
void baz(void);
void gaz(void);
struct test {
func_ptr a;
func_ptr b;
func_ptr c;
func_ptr d;
func_ptr e;
func_ptr f;
func_ptr g;
} __attribute__((randomize_layout));
struct test t1 = {}; // This should be fine per WG14 N2900 (in C23) + our extension handling of it in earlier modes
struct test t2 = { 0 }; // This should also be fine per C99 6.7.8p19
struct test t3 = { .f = baz, .b = bar, .g = gaz, .a = foo }; // Okay
struct test t4 = { .a = foo, bar, baz }; // expected-error {{a randomized struct can only be initialized with a designated initializer}}
struct other_test {
func_ptr a;
func_ptr b[3];
func_ptr c;
} __attribute__((randomize_layout));
struct other_test t5 = { .a = foo, .b[0] = foo }; // Okay
struct other_test t6 = { .a = foo, .b[0] = foo, bar, baz }; // Okay
struct other_test t7 = { .a = foo, .b = { foo, bar, baz } }; // Okay
struct other_test t8 = { baz, bar, gaz, foo }; // expected-error {{a randomized struct can only be initialized with a designated initializer}}
struct other_test t9 = { .a = foo, .b[0] = foo, bar, baz, gaz }; // expected-error {{a randomized struct can only be initialized with a designated initializer}}
struct empty_test {
} __attribute__((randomize_layout));
struct empty_test t10 = {}; // Okay
struct degen_test {
func_ptr a;
} __attribute__((randomize_layout));
struct degen_test t11 = { foo }; // Okay
struct static_assert_test {
int f;
_Static_assert(sizeof(int) == 4, "oh no!");
} __attribute__((randomize_layout));
struct static_assert_test t12 = { 42 }; // Okay
struct enum_decl_test {
enum e { BORK = 42, FORK = 9 } f;
} __attribute__((randomize_layout));
struct enum_decl_test t13 = { BORK }; // Okay