"Per feature PSQT values cannot be processed at granularity lower than 8 at a time.");
#ifdef USE_AVX512
- typedef __m512i vec_t;
- typedef __m256i psqt_vec_t;
+ using vec_t = __m512i;
+ using psqt_vec_t = __m256i;
#define vec_load(a) _mm512_load_si512(a)
#define vec_store(a,b) _mm512_store_si512(a,b)
#define vec_add_16(a,b) _mm512_add_epi16(a,b)
#define MaxChunkSize 64
#elif USE_AVX2
- typedef __m256i vec_t;
- typedef __m256i psqt_vec_t;
+ using vec_t = __m256i;
+ using psqt_vec_t = __m256i;
#define vec_load(a) _mm256_load_si256(a)
#define vec_store(a,b) _mm256_store_si256(a,b)
#define vec_add_16(a,b) _mm256_add_epi16(a,b)
#define MaxChunkSize 32
#elif USE_SSE2
- typedef __m128i vec_t;
- typedef __m128i psqt_vec_t;
+ using vec_t = __m128i;
+ using psqt_vec_t = __m128i;
#define vec_load(a) (*(a))
#define vec_store(a,b) *(a)=(b)
#define vec_add_16(a,b) _mm_add_epi16(a,b)
#define MaxChunkSize 16
#elif USE_MMX
- typedef __m64 vec_t;
- typedef __m64 psqt_vec_t;
+ using vec_t = __m64;
+ using psqt_vec_t = __m64;
#define vec_load(a) (*(a))
#define vec_store(a,b) *(a)=(b)
#define vec_add_16(a,b) _mm_add_pi16(a,b)
#define MaxChunkSize 8
#elif USE_NEON
- typedef int16x8_t vec_t;
- typedef int32x4_t psqt_vec_t;
+ using vec_t = int16x8_t;
+ using psqt_vec_t = int32x4_t;
#define vec_load(a) (*(a))
#define vec_store(a,b) *(a)=(b)
#define vec_add_16(a,b) vaddq_s16(a,b)
// NOTE: The parameter states_to_update is an array of position states, ending with nullptr.
// All states must be sequential, that is states_to_update[i] must either be reachable
// by repeatedly applying ->previous from states_to_update[i+1] or states_to_update[i] == nullptr.
- // computed_st must be reachable by repeatadly applying ->previous on states_to_update[0], if not nullptr.
+ // computed_st must be reachable by repeatedly applying ->previous on states_to_update[0], if not nullptr.
template<Color Perspective, size_t N>
- void update_accumulator_incremetal(const Position& pos, StateInfo* computed_st, StateInfo* states_to_update[N]) const {
+ void update_accumulator_incremental(const Position& pos, StateInfo* computed_st, StateInfo* states_to_update[N]) const {
static_assert(N > 0);
assert(states_to_update[N-1] == nullptr);
{
// Only update current position accumulator to minimize work.
StateInfo* states_to_update[2] = { pos.state(), nullptr };
- update_accumulator_incremetal<Perspective, 2>(pos, oldest_st, states_to_update);
+ update_accumulator_increme
ntal<Perspective, 2>(pos, oldest_st, states_to_update);
}
else
{
StateInfo *states_to_update[3] =
{ next, next == pos.state() ? nullptr : pos.state(), nullptr };
- update_accumulator_incremetal<Perspective, 3>(pos, oldest_st, states_to_update);
+ update_accumulator_increme
ntal<Perspective, 3>(pos, oldest_st, states_to_update);
}
else
{
projects / stockfish / blobdiff