/* { dg-do assemble { target aarch64_asm_sve_ok } } */ /* { dg-options "-O -msve-vector-bits=2048 -mlittle-endian --save-temps" } */ /* { dg-final { check-function-bodies "**" "" } } */ typedef unsigned char v128qi __attribute__((vector_size(128))); typedef unsigned char v64qi __attribute__((vector_size(64))); typedef unsigned char v32qi __attribute__((vector_size(32))); typedef unsigned short v64hi __attribute__((vector_size(128))); typedef unsigned short v32hi __attribute__((vector_size(64))); typedef _Float16 v64hf __attribute__((vector_size(128))); typedef _Float16 v32hf __attribute__((vector_size(64))); typedef __bf16 v64bf __attribute__((vector_size(128))); typedef __bf16 v32bf __attribute__((vector_size(64))); typedef unsigned int v32si __attribute__((vector_size(128))); typedef float v32sf __attribute__((vector_size(128))); #define PERM0(B) B, B - 1 #define PERM1(B) PERM0 (B), PERM0 (B - 2) #define PERM2(B) PERM1 (B), PERM1 (B - 4) #define PERM3(B) PERM2 (B), PERM2 (B - 8) #define PERM4(B) PERM3 (B), PERM3 (B - 16) #define PERM5(B) PERM4 (B), PERM4 (B - 32) #define PERM6(B) PERM5 (B), PERM5 (B - 64) /* ** qi_rev_h: ** ptrue (p[0-7])\.b, vl256 ** ld1b (z[0-9]+)\.h, \1/z, \[x0\] ** rev (z[0-9]+)\.h, \2\.h ** st1b \3\.h, \1, \[x8\] ** ret */ v128qi qi_rev_h (v128qi x) { return __builtin_shuffle (x, x, (v128qi) { PERM6 (127) }); } /* ** qi_rev_s: ** ptrue (p[0-7])\.b, vl256 ** ld1b (z[0-9]+)\.s, \1/z, \[x0\] ** rev (z[0-9]+)\.s, \2\.s ** st1b \3\.s, \1, \[x8\] ** ret */ v64qi qi_rev_s (v64qi x) { return __builtin_shuffle (x, x, (v64qi) { PERM5 (63) }); } /* ** qi_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1b (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1b \3\.d, \1, \[x8\] ** ret */ v32qi qi_rev_d (v32qi x) { return __builtin_shuffle (x, x, (v32qi) { PERM4 (31) }); } /* ** hi_rev_s: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.s, \1/z, \[x0\] ** rev (z[0-9]+)\.s, \2\.s ** st1h \3\.s, \1, \[x8\] ** ret */ v64hi hi_rev_s (v64hi x) { return __builtin_shuffle (x, x, (v64hi) { PERM5 (63) }); } /* ** hf_rev_s: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.s, \1/z, \[x0\] ** rev (z[0-9]+)\.s, \2\.s ** st1h \3\.s, \1, \[x8\] ** ret */ v64hf hf_rev_s (v64hf x) { return __builtin_shuffle (x, x, (v64hi) { PERM5 (63) }); } /* ** bf_rev_s: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.s, \1/z, \[x0\] ** rev (z[0-9]+)\.s, \2\.s ** st1h \3\.s, \1, \[x8\] ** ret */ v64bf bf_rev_s (v64bf x) { return __builtin_shuffle (x, x, (v64hi) { PERM5 (63) }); } /* ** hi_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1h \3\.d, \1, \[x8\] ** ret */ v32hi hi_rev_d (v32hi x) { return __builtin_shuffle (x, x, (v32hi) { PERM4 (31) }); } /* ** hf_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1h \3\.d, \1, \[x8\] ** ret */ v32hf hf_rev_d (v32hf x) { return __builtin_shuffle (x, x, (v32hi) { PERM4 (31) }); } /* ** bf_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1h (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1h \3\.d, \1, \[x8\] ** ret */ v32bf bf_rev_d (v32bf x) { return __builtin_shuffle (x, x, (v32hi) { PERM4 (31) }); } /* ** si_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1w (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1w \3\.d, \1, \[x8\] ** ret */ v32si si_rev_d (v32si x) { return __builtin_shuffle (x, x, (v32si) { PERM4 (31) }); } /* ** sf_rev_d: ** ptrue (p[0-7])\.b, vl256 ** ld1w (z[0-9]+)\.d, \1/z, \[x0\] ** rev (z[0-9]+)\.d, \2\.d ** st1w \3\.d, \1, \[x8\] ** ret */ v32sf sf_rev_d (v32sf x) { return __builtin_shuffle (x, x, (v32si) { PERM4 (31) }); }