#include "zbuild.h"
#include "zmemory.h"
#if defined(LOONGARCH_LSX)
#include <lsxintrin.h>
#include "lsxintrin_ext.h"
#include "arch/generic/chunk_128bit_perm_idx_lut.h"
typedef __m128i chunk_t;
#define HAVE_CHUNKMEMSET_2
#define HAVE_CHUNKMEMSET_4
#define HAVE_CHUNKMEMSET_8
#define HAVE_CHUNK_MAG
static inline void chunkmemset_2(uint8_t *from, chunk_t *chunk) {
*chunk = __lsx_vreplgr2vr_h(zng_memread_2(from));
}
static inline void chunkmemset_4(uint8_t *from, chunk_t *chunk) {
*chunk = __lsx_vreplgr2vr_w(zng_memread_4(from));
}
static inline void chunkmemset_8(uint8_t *from, chunk_t *chunk) {
*chunk = __lsx_vreplgr2vr_d(zng_memread_8(from));
}
static inline void loadchunk(uint8_t const *s, chunk_t *chunk) {
*chunk = __lsx_vld(s, 0);
}
static inline void storechunk(uint8_t *out, chunk_t *chunk) {
__lsx_vst(*chunk, out, 0);
}
static inline chunk_t GET_CHUNK_MAG(uint8_t *buf, uint32_t *chunk_rem, uint32_t dist) {
lut_rem_pair lut_rem = perm_idx_lut[dist - 3];
__m128i perm_vec, ret_vec;
__msan_unpoison(buf + dist, 16 - dist);
ret_vec = __lsx_vld(buf, 0);
*chunk_rem = lut_rem.remval;
perm_vec = __lsx_vld(permute_table + lut_rem.idx, 0);
ret_vec = lsx_shuffle_b(ret_vec, perm_vec);
return ret_vec;
}
#define CHUNKSIZE chunksize_lsx
#define CHUNKMEMSET chunkmemset_lsx
#define CHUNKMEMSET_SAFE chunkmemset_safe_lsx
#define CHUNKCOPY chunkcopy_lsx
#define CHUNKUNROLL chunkunroll_lsx
#include "chunkset_tpl.h"
#define INFLATE_FAST inflate_fast_lsx
#include "inffast_tpl.h"
#endif