// RUN: %clang_cc1 -triple aarch64-none-linux-gnu -target-feature +sve -target-feature +bf16 -ffreestanding -fsyntax-only -verify -mvscale-min=1 -mvscale-max=1 %s
// RUN: %clang_cc1 -triple aarch64-none-linux-gnu -target-feature +sve -target-feature +bf16 -ffreestanding -fsyntax-only -verify -mvscale-min=2 -mvscale-max=2 %s
// RUN: %clang_cc1 -triple aarch64-none-linux-gnu -target-feature +sve -target-feature +bf16 -ffreestanding -fsyntax-only -verify -mvscale-min=4 -mvscale-max=4 %s
// RUN: %clang_cc1 -triple aarch64-none-linux-gnu -target-feature +sve -target-feature +bf16 -ffreestanding -fsyntax-only -verify -mvscale-min=8 -mvscale-max=8 %s
// RUN: %clang_cc1 -triple aarch64-none-linux-gnu -target-feature +sve -target-feature +bf16 -ffreestanding -fsyntax-only -verify -mvscale-min=16 -mvscale-max=16 %s
#include <stdint.h>
#define N __ARM_FEATURE_SVE_BITS
typedef __fp16 float16_t;
typedef float float32_t;
typedef double float64_t;
typedef __SVInt8_t svint8_t;
typedef __SVInt16_t svint16_t;
typedef __SVInt32_t svint32_t;
typedef __SVInt64_t svint64_t;
typedef __SVUint8_t svuint8_t;
typedef __SVUint16_t svuint16_t;
typedef __SVUint32_t svuint32_t;
typedef __SVUint64_t svuint64_t;
typedef __SVFloat16_t svfloat16_t;
typedef __SVFloat32_t svfloat32_t;
typedef __SVFloat64_t svfloat64_t;
#if defined(__ARM_FEATURE_SVE_BF16)
typedef __bf16 bfloat16_t;
typedef __SVBfloat16_t svbfloat16_t;
#endif
typedef __SVBool_t svbool_t;
// Define valid fixed-width SVE types
typedef svint8_t fixed_int8_t __attribute__((arm_sve_vector_bits(N)));
typedef svint16_t fixed_int16_t __attribute__((arm_sve_vector_bits(N)));
typedef svint32_t fixed_int32_t __attribute__((arm_sve_vector_bits(N)));
typedef svint64_t fixed_int64_t __attribute__((arm_sve_vector_bits(N)));
typedef svuint8_t fixed_uint8_t __attribute__((arm_sve_vector_bits(N)));
typedef svuint16_t fixed_uint16_t __attribute__((arm_sve_vector_bits(N)));
typedef svuint32_t fixed_uint32_t __attribute__((arm_sve_vector_bits(N)));
typedef svuint64_t fixed_uint64_t __attribute__((arm_sve_vector_bits(N)));
typedef svfloat16_t fixed_float16_t __attribute__((arm_sve_vector_bits(N)));
typedef svfloat32_t fixed_float32_t __attribute__((arm_sve_vector_bits(N)));
typedef svfloat64_t fixed_float64_t __attribute__((arm_sve_vector_bits(N)));
typedef svbfloat16_t fixed_bfloat16_t __attribute__((arm_sve_vector_bits(N)));
typedef svbool_t fixed_bool_t __attribute__((arm_sve_vector_bits(N)));
// GNU vector types
typedef int8_t gnu_int8_t __attribute__((vector_size(N / 8)));
typedef int16_t gnu_int16_t __attribute__((vector_size(N / 8)));
typedef int32_t gnu_int32_t __attribute__((vector_size(N / 8)));
typedef int64_t gnu_int64_t __attribute__((vector_size(N / 8)));
typedef uint8_t gnu_uint8_t __attribute__((vector_size(N / 8)));
typedef uint16_t gnu_uint16_t __attribute__((vector_size(N / 8)));
typedef uint32_t gnu_uint32_t __attribute__((vector_size(N / 8)));
typedef uint64_t gnu_uint64_t __attribute__((vector_size(N / 8)));
typedef float16_t gnu_float16_t __attribute__((vector_size(N / 8)));
typedef float32_t gnu_float32_t __attribute__((vector_size(N / 8)));
typedef float64_t gnu_float64_t __attribute__((vector_size(N / 8)));
typedef bfloat16_t gnu_bfloat16_t __attribute__((vector_size(N / 8)));
// Attribute must have a single argument
typedef svint8_t no_argument __attribute__((arm_sve_vector_bits)); // expected-error {{'arm_sve_vector_bits' attribute takes one argument}}
typedef svint8_t two_arguments __attribute__((arm_sve_vector_bits(2, 4))); // expected-error {{'arm_sve_vector_bits' attribute takes one argument}}
// The number of SVE vector bits must be an integer constant expression
typedef svint8_t non_int_size1 __attribute__((arm_sve_vector_bits(2.0))); // expected-error {{'arm_sve_vector_bits' attribute requires an integer constant}}
typedef svint8_t non_int_size2 __attribute__((arm_sve_vector_bits("256"))); // expected-error {{'arm_sve_vector_bits' attribute requires an integer constant}}
typedef __clang_svint8x2_t svint8x2_t;
typedef __clang_svfloat32x3_t svfloat32x3_t;
// Attribute must be attached to a single SVE vector or predicate type.
typedef void *badtype1 __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute applied to non-SVE type 'void *'}}
typedef int badtype2 __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute applied to non-SVE type 'int'}}
typedef float badtype3 __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute applied to non-SVE type 'float'}}
typedef svint8x2_t badtype4 __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute applied to non-SVE type 'svint8x2_t' (aka '__clang_svint8x2_t')}}
typedef svfloat32x3_t badtype5 __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute applied to non-SVE type 'svfloat32x3_t' (aka '__clang_svfloat32x3_t')}}
// Attribute only applies to typedefs.
svint8_t non_typedef_type __attribute__((arm_sve_vector_bits(N))); // expected-error {{'arm_sve_vector_bits' attribute only applies to typedefs}}
// Test that we can define non-local fixed-length SVE types (unsupported for
// sizeless types).
fixed_int8_t global_int8;
fixed_bfloat16_t global_bfloat16;
fixed_bool_t global_bool;
extern fixed_int8_t extern_int8;
extern fixed_bfloat16_t extern_bfloat16;
extern fixed_bool_t extern_bool;
static fixed_int8_t static_int8;
static fixed_bfloat16_t static_bfloat16;
static fixed_bool_t static_bool;
fixed_int8_t *global_int8_ptr;
extern fixed_int8_t *extern_int8_ptr;
static fixed_int8_t *static_int8_ptr;
__thread fixed_int8_t thread_int8;
typedef fixed_int8_t int8_typedef;
typedef fixed_int8_t *int8_ptr_typedef;
// Test sized expressions
int sizeof_int8 = sizeof(global_int8);
int sizeof_int8_var = sizeof(*global_int8_ptr);
int sizeof_int8_var_ptr = sizeof(global_int8_ptr);
extern fixed_int8_t *extern_int8_ptr;
int alignof_int8 = __alignof__(extern_int8);
int alignof_int8_var = __alignof__(*extern_int8_ptr);
int alignof_int8_var_ptr = __alignof__(extern_int8_ptr);
void f(int c) {
fixed_int8_t fs8;
svint8_t ss8;
gnu_int8_t gs8;
// Check conditional expressions where the result is ambiguous are
// ill-formed.
void *sel __attribute__((unused));
sel = c ? ss8 : fs8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
sel = c ? fs8 : ss8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
sel = c ? gs8 : ss8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
sel = c ? ss8 : gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
sel = c ? gs8 : fs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
sel = c ? fs8 : gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
// Check binary expressions where the result is ambiguous are ill-formed.
ss8 = ss8 + fs8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
ss8 = ss8 + gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
fs8 = fs8 + ss8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
fs8 = fs8 + gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 + ss8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 + fs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
ss8 += fs8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
ss8 += gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
fs8 += ss8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
fs8 += gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 += ss8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 += fs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
ss8 = ss8 == fs8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
ss8 = ss8 == gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
fs8 = fs8 == ss8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
fs8 = fs8 == gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 == ss8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 == fs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
ss8 = ss8 & fs8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
ss8 = ss8 & gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
fs8 = fs8 & ss8; // expected-error {{cannot combine fixed-length and sizeless SVE vectors in expression, result is ambiguous}}
fs8 = fs8 & gs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 & ss8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
gs8 = gs8 & fs8; // expected-error {{cannot combine GNU and SVE vectors in expression, result is ambiguous}}
}
// --------------------------------------------------------------------------//
// Sizeof
#define VECTOR_SIZE ((N / 8))
#define PRED_SIZE ((N / 64))
_Static_assert(sizeof(fixed_int8_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_int16_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_int32_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_int64_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_uint8_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_uint16_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_uint32_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_uint64_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_float16_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_float32_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_float64_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_bfloat16_t) == VECTOR_SIZE, "");
_Static_assert(sizeof(fixed_bool_t) == PRED_SIZE, "");
// --------------------------------------------------------------------------//
// Alignof
#define VECTOR_ALIGN 16
#define PRED_ALIGN 2
_Static_assert(__alignof__(fixed_int8_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_int16_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_int32_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_int64_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_uint8_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_uint16_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_uint32_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_uint64_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_float16_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_float32_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_float64_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_bfloat16_t) == VECTOR_ALIGN, "");
_Static_assert(__alignof__(fixed_bool_t) == PRED_ALIGN, "");
// --------------------------------------------------------------------------//
// Structs
struct struct_int64 { fixed_int64_t x, y[5]; };
struct struct_float64 { fixed_float64_t x, y[5]; };
struct struct_bfloat16 { fixed_bfloat16_t x, y[5]; };
struct struct_bool { fixed_bool_t x, y[5]; };
// --------------------------------------------------------------------------//
// Unions
union union_int64 { fixed_int64_t x, y[5]; };
union union_float64 { fixed_float64_t x, y[5]; };
union union_bfloat16 { fixed_bfloat16_t x, y[5]; };
union union_bool { fixed_bool_t x, y[5]; };
// --------------------------------------------------------------------------//
// Implicit casts
#define TEST_CAST_COMMON(TYPE) \
sv##TYPE##_t to_sv##TYPE##_t_from_fixed(fixed_##TYPE##_t x) { return x; } \
fixed_##TYPE##_t from_sv##TYPE##_t_to_fixed(sv##TYPE##_t x) { return x; }
#define TEST_CAST_GNU(PREFIX, TYPE) \
gnu_##TYPE##_t to_gnu_##TYPE##_t_from_##PREFIX##TYPE##_t(PREFIX##TYPE##_t x) { return x; } \
PREFIX##TYPE##_t from_gnu_##TYPE##_t_to_##PREFIX##TYPE##_t(gnu_##TYPE##_t x) { return x; }
#define TEST_CAST_VECTOR(TYPE) \
TEST_CAST_COMMON(TYPE) \
TEST_CAST_GNU(sv, TYPE) \
TEST_CAST_GNU(fixed_, TYPE)
TEST_CAST_VECTOR(int8)
TEST_CAST_VECTOR(int16)
TEST_CAST_VECTOR(int32)
TEST_CAST_VECTOR(int64)
TEST_CAST_VECTOR(uint8)
TEST_CAST_VECTOR(uint16)
TEST_CAST_VECTOR(uint32)
TEST_CAST_VECTOR(uint64)
TEST_CAST_VECTOR(float16)
TEST_CAST_VECTOR(float32)
TEST_CAST_VECTOR(float64)
TEST_CAST_VECTOR(bfloat16)
TEST_CAST_COMMON(bool)
// Test the implicit conversion only applies to valid types
fixed_bool_t to_fixed_bool_t__from_svint32_t(svint32_t x) { return x; } // expected-error-re {{returning 'svint32_t' (aka '__SVInt32_t') from a function with incompatible result type 'fixed_bool_t' (vector of {{[0-9]+}} 'unsigned char' values)}}
// Test implicit conversion between SVE and GNU vector is invalid when
// __ARM_FEATURE_SVE_BITS != N
#if defined(__ARM_FEATURE_SVE_BITS) && __ARM_FEATURE_SVE_BITS == 512
typedef int32_t int4 __attribute__((vector_size(16)));
svint32_t badcast(int4 x) { return x; } // expected-error {{returning 'int4' (vector of 4 'int32_t' values) from a function with incompatible result type 'svint32_t' (aka '__SVInt32_t')}}
#endif
// Test conversion between predicate and uint8 is invalid, both have the same
// memory representation.
fixed_bool_t to_fixed_bool_t__from_svuint8_t(svuint8_t x) { return x; } // expected-error-re {{returning 'svuint8_t' (aka '__SVUint8_t') from a function with incompatible result type 'fixed_bool_t' (vector of {{[0-9]+}} 'unsigned char' values)}}
// --------------------------------------------------------------------------//
// Test the scalable and fixed-length types can be used interchangeably
svint32_t __attribute__((overloadable)) svfunc(svint32_t op1, svint32_t op2);
svfloat64_t __attribute__((overloadable)) svfunc(svfloat64_t op1, svfloat64_t op2);
svbool_t __attribute__((overloadable)) svfunc(svbool_t op1, svbool_t op2);
#define TEST_CALL(TYPE) \
fixed_##TYPE##_t \
call_##TYPE##_ff(fixed_##TYPE##_t op1, fixed_##TYPE##_t op2) { \
return svfunc(op1, op2); \
} \
fixed_##TYPE##_t \
call_##TYPE##_fs(fixed_##TYPE##_t op1, sv##TYPE##_t op2) { \
return svfunc(op1, op2); \
} \
fixed_##TYPE##_t \
call_##TYPE##_sf(sv##TYPE##_t op1, fixed_##TYPE##_t op2) { \
return svfunc(op1, op2); \
}
TEST_CALL(int32)
TEST_CALL(float64)
TEST_CALL(bool)
// --------------------------------------------------------------------------//
// Vector initialization
#if __ARM_FEATURE_SVE_BITS == 256
typedef svint32_t int32x8 __attribute__((arm_sve_vector_bits(N)));
typedef svfloat64_t float64x4 __attribute__((arm_sve_vector_bits(N)));
int32x8 foo = {1, 2, 3, 4, 5, 6, 7, 8};
int32x8 foo2 = {1, 2, 3, 4, 5, 6, 7, 8, 9}; // expected-warning{{excess elements in vector initializer}}
float64x4 bar = {1.0, 2.0, 3.0, 4.0};
float64x4 bar2 = {1.0, 2.0, 3.0, 4.0, 5.0}; // expected-warning{{excess elements in vector initializer}}
#endif
// --------------------------------------------------------------------------//
// Vector ops
#define TEST_BINARY(TYPE, NAME, OP) \
TYPE NAME##_##TYPE(TYPE op1, TYPE op2) { \
return op1 OP op2; \
} \
TYPE compound##NAME##_##TYPE(TYPE op1, TYPE op2) { \
op1 OP##= op2; \
return op1; \
}
#define TEST_COMPARISON(TYPE, NAME, OP) \
TYPE NAME##_##TYPE(TYPE op1, TYPE op2) { \
return op1 OP op2; \
}
#define TEST_UNARY(TYPE, NAME, OP) \
TYPE NAME##_##TYPE(TYPE op1) { \
return OP op1; \
}
#define TEST_OPS(TYPE) \
TEST_BINARY(TYPE, add, +) \
TEST_BINARY(TYPE, sub, -) \
TEST_BINARY(TYPE, mul, *) \
TEST_BINARY(TYPE, div, /) \
TEST_COMPARISON(TYPE, eq, ==) \
TEST_COMPARISON(TYPE, ne, !=) \
TEST_COMPARISON(TYPE, lt, <) \
TEST_COMPARISON(TYPE, gt, >) \
TEST_COMPARISON(TYPE, lte, <=) \
TEST_COMPARISON(TYPE, gte, >=) \
TEST_UNARY(TYPE, nop, +) \
TEST_UNARY(TYPE, neg, -)
#define TEST_INT_OPS(TYPE) \
TEST_OPS(TYPE) \
TEST_BINARY(TYPE, mod, %) \
TEST_BINARY(TYPE, and, &) \
TEST_BINARY(TYPE, or, |) \
TEST_BINARY(TYPE, xor, ^) \
TEST_BINARY(TYPE, shl, <<) \
TEST_BINARY(TYPE, shr, <<) \
TEST_UNARY(TYPE, not, ~)
TEST_INT_OPS(fixed_int8_t)
TEST_INT_OPS(fixed_int16_t)
TEST_INT_OPS(fixed_int32_t)
TEST_INT_OPS(fixed_int64_t)
TEST_INT_OPS(fixed_uint8_t)
TEST_INT_OPS(fixed_uint16_t)
TEST_INT_OPS(fixed_uint32_t)
TEST_INT_OPS(fixed_uint64_t)
TEST_OPS(fixed_float16_t)
TEST_OPS(fixed_float32_t)
TEST_OPS(fixed_float64_t)