/* * Vector math abstractions. * * Copyright (c) 2019-2023, Arm Limited. * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception */ #ifndef _V_MATH_H #define _V_MATH_H #ifndef WANT_VMATH /* Enable the build of vector math code. */ # define WANT_VMATH 1 #endif #if WANT_VMATH # if __aarch64__ # define VPCS_ATTR __attribute__ ((aarch64_vector_pcs)) # else # error "Cannot build without AArch64" # endif # include # include "math_config.h" # if __aarch64__ # include /* Shorthand helpers for declaring constants. */ # define V2(X) { X, X } # define V4(X) { X, X, X, X } # define V8(X) { X, X, X, X, X, X, X, X } static inline int v_any_u16h (uint16x4_t x) { return vget_lane_u64 (vreinterpret_u64_u16 (x), 0) != 0; } static inline float32x4_t v_f32 (float x) { return (float32x4_t) V4 (x); } static inline uint32x4_t v_u32 (uint32_t x) { return (uint32x4_t) V4 (x); } static inline int32x4_t v_s32 (int32_t x) { return (int32x4_t) V4 (x); } /* true if any elements of a vector compare result is non-zero. */ static inline int v_any_u32 (uint32x4_t x) { /* assume elements in x are either 0 or -1u. */ return vpaddd_u64 (vreinterpretq_u64_u32 (x)) != 0; } static inline int v_any_u32h (uint32x2_t x) { return vget_lane_u64 (vreinterpret_u64_u32 (x), 0) != 0; } static inline float32x4_t v_lookup_f32 (const float *tab, uint32x4_t idx) { return (float32x4_t){ tab[idx[0]], tab[idx[1]], tab[idx[2]], tab[idx[3]] }; } static inline uint32x4_t v_lookup_u32 (const uint32_t *tab, uint32x4_t idx) { return (uint32x4_t){ tab[idx[0]], tab[idx[1]], tab[idx[2]], tab[idx[3]] }; } static inline float32x4_t v_call_f32 (float (*f) (float), float32x4_t x, float32x4_t y, uint32x4_t p) { return (float32x4_t){ p[0] ? f (x[0]) : y[0], p[1] ? f (x[1]) : y[1], p[2] ? f (x[2]) : y[2], p[3] ? f (x[3]) : y[3] }; } static inline float32x4_t v_call2_f32 (float (*f) (float, float), float32x4_t x1, float32x4_t x2, float32x4_t y, uint32x4_t p) { return (float32x4_t){ p[0] ? f (x1[0], x2[0]) : y[0], p[1] ? f (x1[1], x2[1]) : y[1], p[2] ? f (x1[2], x2[2]) : y[2], p[3] ? f (x1[3], x2[3]) : y[3] }; } static inline float32x4_t v_zerofy_f32 (float32x4_t x, uint32x4_t mask) { return vreinterpretq_f32_u32 (vbicq_u32 (vreinterpretq_u32_f32 (x), mask)); } static inline float64x2_t v_f64 (double x) { return (float64x2_t) V2 (x); } static inline uint64x2_t v_u64 (uint64_t x) { return (uint64x2_t) V2 (x); } static inline int64x2_t v_s64 (int64_t x) { return (int64x2_t) V2 (x); } /* true if any elements of a vector compare result is non-zero. */ static inline int v_any_u64 (uint64x2_t x) { /* assume elements in x are either 0 or -1u. */ return vpaddd_u64 (x) != 0; } /* true if all elements of a vector compare result is 1. */ static inline int v_all_u64 (uint64x2_t x) { /* assume elements in x are either 0 or -1u. */ return vpaddd_s64 (vreinterpretq_s64_u64 (x)) == -2; } static inline float64x2_t v_lookup_f64 (const double *tab, uint64x2_t idx) { return (float64x2_t){ tab[idx[0]], tab[idx[1]] }; } static inline uint64x2_t v_lookup_u64 (const uint64_t *tab, uint64x2_t idx) { return (uint64x2_t){ tab[idx[0]], tab[idx[1]] }; } static inline float64x2_t v_call_f64 (double (*f) (double), float64x2_t x, float64x2_t y, uint64x2_t p) { double p1 = p[1]; double x1 = x[1]; if (likely (p[0])) y[0] = f (x[0]); if (likely (p1)) y[1] = f (x1); return y; } static inline float64x2_t v_call2_f64 (double (*f) (double, double), float64x2_t x1, float64x2_t x2, float64x2_t y, uint64x2_t p) { double p1 = p[1]; double x1h = x1[1]; double x2h = x2[1]; if (likely (p[0])) y[0] = f (x1[0], x2[0]); if (likely (p1)) y[1] = f (x1h, x2h); return y; } static inline float64x2_t v_zerofy_f64 (float64x2_t x, uint64x2_t mask) { return vreinterpretq_f64_u64 (vbicq_u64 (vreinterpretq_u64_f64 (x), mask)); } # endif #endif #endif