// RUN: %clang_cc1 %s -fblocks -pedantic -verify -triple=x86_64-apple-darwin9 // RUN: %clang_cc1 %s -fblocks -pedantic -verify -triple=mips64-linux-gnu // RUN: %clang_cc1 %s -fblocks -pedantic -verify -triple=x86_64-unknown-linux // RUN: %clang_cc1 %s -fblocks -pedantic -verify -triple=x86_64-unknown-linux-gnux32 // RUN: %clang_cc1 %s -fblocks -pedantic -pedantic -verify -triple=arm64_32-apple-ios7.0 // RUN: %clang_cc1 %s -fblocks -pedantic -verify -triple=powerpc64-ibm-aix-xcoff typedef int (*T)[2]; restrict T x; typedef int *S[2]; restrict S y; // expected-error {{restrict requires a pointer or reference ('S' (aka 'int *[2]') is invalid)}} // int128_t is available. int a(void) { __int128_t s; __uint128_t t; } // but not a keyword int b(void) { int __int128_t; int __uint128_t; } // __int128 is a keyword int c(void) { __int128 i; unsigned __int128 j; long unsigned __int128 k; // expected-error {{'long __int128' is invalid}} int __int128; // expected-error {{cannot combine with previous}} expected-warning {{does not declare anything}} } // __int128_t is __int128; __uint128_t is unsigned __int128. typedef __int128 check_int_128; typedef __int128_t check_int_128; // expected-note {{here}} typedef int check_int_128; // expected-error {{different types ('int' vs '__int128_t' (aka '__int128'))}} typedef unsigned __int128 check_uint_128; typedef __uint128_t check_uint_128; // expected-note {{here}} typedef int check_uint_128; // expected-error {{different types ('int' vs '__uint128_t' (aka 'unsigned __int128'))}} // Array type merging should convert array size to whatever matches the target // pointer size. extern int i[1LL]; int i[(short)1]; enum e { e_1 }; extern int j[sizeof(enum e)]; // expected-note {{previous declaration}} int j[42]; // expected-error {{redefinition of 'j' with a different type: 'int[42]' vs 'int[4]'}} _Decimal32 x; // expected-error {{GNU decimal type extension not supported}} int __attribute__ ((vector_size (8), vector_size (8))) v; // expected-error {{invalid vector element type}} void test(int i) { char c = (char __attribute__((aligned(8)))) i; // expected-warning {{'aligned' attribute ignored when parsing type}} } // http://llvm.org/PR11082 // // FIXME: This may or may not be the correct approach (no warning or error), // but large amounts of Linux and FreeBSD code need this attribute to not be // a hard error in order to work correctly. void test2(int i) { char c = (char __attribute__((may_alias))) i; } // vector size int __attribute__((vector_size(123456))) v1; int __attribute__((vector_size(0x1000000000))) v2; // expected-error {{vector size too large}} int __attribute__((vector_size((__int128_t)1 << 100))) v3; // expected-error {{vector size too large}} int __attribute__((vector_size(0))) v4; // expected-error {{zero vector size}} typedef int __attribute__((ext_vector_type(123456))) e1; typedef int __attribute__((ext_vector_type(0x100000000))) e2; // expected-error {{vector size too large}} typedef int __attribute__((vector_size((__int128_t)1 << 100))) e3; // expected-error {{vector size too large}} typedef int __attribute__((ext_vector_type(0))) e4; // expected-error {{zero vector size}} // no support for vector enum type enum { e_2 } x3 __attribute__((vector_size(64))); // expected-error {{invalid vector element type}} int x4 __attribute__((ext_vector_type(64))); // expected-error {{'ext_vector_type' attribute only applies to typedefs}} typedef __attribute__ ((ext_vector_type(32),__aligned__(32))) unsigned char uchar32; void convert(void) { uchar32 r = 0; r.s[ 1234 ] = 1; // expected-error {{illegal vector component name 's'}} } int &*_Atomic null_type_0; // expected-error {{expected identifier or '('}} int &*__restrict__ null_type_1; // expected-error {{expected identifier or '('}} int ^_Atomic null_type_2; // expected-error {{block pointer to non-function type is invalid}}