Do not use reserved identifiers in intrin_portable.h

Identifiers starting with an underscore followed by an uppercase
letter are reserved for the compiler.
This commit is contained in:
tevador 2021-11-29 21:33:42 +01:00
parent df6e15e130
commit 905ee34f8b

View File

@ -337,19 +337,19 @@ FORCE_INLINE int rx_vec_i128_w(rx_vec_i128 a) {
return _a.i32[3];
}
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int _I3, int _I2, int _I1, int _I0) {
return (rx_vec_i128)((__m128li){_I0,_I1,_I2,_I3});
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int i3, int i2, int i1, int i0) {
return (rx_vec_i128)((__m128li){i0,i1,i2,i3});
};
FORCE_INLINE rx_vec_i128 rx_xor_vec_i128(rx_vec_i128 _A, rx_vec_i128 _B) {
return (rx_vec_i128)vec_xor(_A,_B);
FORCE_INLINE rx_vec_i128 rx_xor_vec_i128(rx_vec_i128 a, rx_vec_i128 b) {
return (rx_vec_i128)vec_xor(a,b);
}
FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const *_P) {
FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const *p) {
#if defined(NATIVE_LITTLE_ENDIAN)
return *_P;
return *p;
#else
uint32_t* ptr = (uint32_t*)_P;
uint32_t* ptr = (uint32_t*)p;
vec_u c;
c.u32[0] = load32(ptr + 0);
c.u32[1] = load32(ptr + 1);
@ -359,13 +359,13 @@ FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const *_P) {
#endif
}
FORCE_INLINE void rx_store_vec_i128(rx_vec_i128 *_P, rx_vec_i128 _B) {
FORCE_INLINE void rx_store_vec_i128(rx_vec_i128 *p, rx_vec_i128 b) {
#if defined(NATIVE_LITTLE_ENDIAN)
*_P = _B;
*p = b;
#else
uint32_t* ptr = (uint32_t*)_P;
uint32_t* ptr = (uint32_t*)p;
vec_u B;
B.i = _B;
B.i = b;
store32(ptr + 0, B.u32[0]);
store32(ptr + 1, B.u32[1]);
store32(ptr + 2, B.u32[2]);
@ -487,12 +487,12 @@ FORCE_INLINE int rx_vec_i128_w(rx_vec_i128 a) {
return vgetq_lane_s32(vreinterpretq_s32_u8(a), 3);
}
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int _I3, int _I2, int _I1, int _I0) {
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int i3, int i2, int i1, int i0) {
int32_t data[4];
data[0] = _I0;
data[1] = _I1;
data[2] = _I2;
data[3] = _I3;
data[0] = i0;
data[1] = i1;
data[2] = i2;
data[3] = i3;
return vreinterpretq_u8_s32(vld1q_s32(data));
};
@ -662,29 +662,29 @@ FORCE_INLINE int rx_vec_i128_w(rx_vec_i128 a) {
return a.u32[3];
}
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int _I3, int _I2, int _I1, int _I0) {
FORCE_INLINE rx_vec_i128 rx_set_int_vec_i128(int i3, int i2, int i1, int i0) {
rx_vec_i128 v;
v.u32[0] = _I0;
v.u32[1] = _I1;
v.u32[2] = _I2;
v.u32[3] = _I3;
v.u32[0] = i0;
v.u32[1] = i1;
v.u32[2] = i2;
v.u32[3] = i3;
return v;
};
FORCE_INLINE rx_vec_i128 rx_xor_vec_i128(rx_vec_i128 _A, rx_vec_i128 _B) {
FORCE_INLINE rx_vec_i128 rx_xor_vec_i128(rx_vec_i128 a, rx_vec_i128 b) {
rx_vec_i128 c;
c.u32[0] = _A.u32[0] ^ _B.u32[0];
c.u32[1] = _A.u32[1] ^ _B.u32[1];
c.u32[2] = _A.u32[2] ^ _B.u32[2];
c.u32[3] = _A.u32[3] ^ _B.u32[3];
c.u32[0] = a.u32[0] ^ b.u32[0];
c.u32[1] = a.u32[1] ^ b.u32[1];
c.u32[2] = a.u32[2] ^ b.u32[2];
c.u32[3] = a.u32[3] ^ b.u32[3];
return c;
}
FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const*_P) {
FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const* p) {
#if defined(NATIVE_LITTLE_ENDIAN)
return *_P;
return *p;
#else
uint32_t* ptr = (uint32_t*)_P;
uint32_t* ptr = (uint32_t*)p;
rx_vec_i128 c;
c.u32[0] = load32(ptr + 0);
c.u32[1] = load32(ptr + 1);
@ -694,15 +694,15 @@ FORCE_INLINE rx_vec_i128 rx_load_vec_i128(rx_vec_i128 const*_P) {
#endif
}
FORCE_INLINE void rx_store_vec_i128(rx_vec_i128 *_P, rx_vec_i128 _B) {
FORCE_INLINE void rx_store_vec_i128(rx_vec_i128 *p, rx_vec_i128 b) {
#if defined(NATIVE_LITTLE_ENDIAN)
*_P = _B;
*p = b;
#else
uint32_t* ptr = (uint32_t*)_P;
store32(ptr + 0, _B.u32[0]);
store32(ptr + 1, _B.u32[1]);
store32(ptr + 2, _B.u32[2]);
store32(ptr + 3, _B.u32[3]);
uint32_t* ptr = (uint32_t*)p;
store32(ptr + 0, b.u32[0]);
store32(ptr + 1, b.u32[1]);
store32(ptr + 2, b.u32[2]);
store32(ptr + 3, b.u32[3]);
#endif
}