Copyright (c) 2013-2018, The OpenBLAS Project
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2. Redistributions in binary form must reproduce the above copyright
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its contributors may be used to endorse or promote products
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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*****************************************************************************/
#include "common.h"
#include <math.h>
#if defined(__VEC__) || defined(__ALTIVEC__)
#include <altivec.h>
#endif
#if defined(DOUBLE)
#define ABS fabs
#else
#define ABS fabsf
#endif
#if defined(__VEC__) || defined(__ALTIVEC__)
* Find maximum index
* Warning: requirements n>0 and n % 32 == 0
* @param n
* @param x pointer to the vector
* @param maxf (out) maximum absolute value .( only for output )
* @return index
*/
static BLASLONG diamax_kernel_32(BLASLONG n, FLOAT *x, FLOAT *maxf) {
BLASLONG index;
register __vector long long start = {1,0};
register __vector long long temp_add_index = {2, 2};
__asm__(
"lxvd2x 44, 0,%[ptr_tmp] \n\t"
"lxvd2x 45, %[i16],%[ptr_tmp] \n\t"
"lxvd2x 46, %[i32],%[ptr_tmp] \n\t"
"lxvd2x 47, %[i48],%[ptr_tmp] \n\t"
"lxvd2x 48, %[i64],%[ptr_tmp] \n\t"
"lxvd2x 49, %[i80],%[ptr_tmp] \n\t"
"lxvd2x 6, %[i96],%[ptr_tmp] \n\t"
"lxvd2x 7,%[i112],%[ptr_tmp] \n\t"
"xxlor 40,%x[start],%x[start] \n\t"
"vaddudm 9,8,%[adder] \n\t"
"xxlxor 37,37 ,37 \n\t"
"vaddudm 10,9,%[adder] \n\t"
"xxlxor 38 ,38 ,38 \n\t"
"vaddudm 11,10,%[adder] \n\t"
"xxlxor 39,39,39 \n\t"
"vaddudm 4,11, %[adder] \n\t"
XXSPLTD_S(36,36,0)
"xvabsdp 44, 44 \n\t"
"xvabsdp 45, 45 \n\t"
"xvabsdp 46, 46 \n\t"
"xvabsdp 47, 47 \n\t"
"xvabsdp 48, 48 \n\t"
"xvabsdp 49, 49 \n\t"
"xvabsdp 6, 6 \n\t"
"xvabsdp 7, 7 \n\t"
"b two%= \n\t"
".align 5 \n\t"
"one%=: \n\t"
"xvcmpgtdp 2,45,44 \n\t "
"xvcmpgtdp 3,47,46 \n\t "
"xvcmpgtdp 4,49,48 \n\t "
"xvcmpgtdp 5,7,6 \n\t"
"xxsel 32,40,41,2 \n\t"
"xxsel 0,44,45,2 \n\t"
"xxsel 33,42,43,3 \n\t"
"xxsel 1,46,47,3 \n\t"
"xxsel 34,40,41,4 \n\t"
"xxsel 45,48,49,4 \n\t"
"xxsel 35,42,43,5 \n\t"
"xxsel 47,6,7,5 \n\t"
"xvcmpgtdp 2, 1,0 \n\t"
"xvcmpgtdp 3,47, 45 \n\t"
"addi %[ptr_tmp] ,%[ptr_tmp] , 128 \n\t"
"xxsel 32,32,33,2 \n\t"
"xxsel 0 ,0,1,2 \n\t"
"xxsel 34,34,35,3 \n\t"
"xxsel 5,45,47,3 \n\t"
"lxvd2x 44, 0,%[ptr_tmp] \n\t"
"lxvd2x 45, %[i16],%[ptr_tmp] \n\t"
"vaddudm 2,2,4 \n\t"
"lxvd2x 46, %[i32],%[ptr_tmp] \n\t"
"lxvd2x 47, %[i48],%[ptr_tmp] \n\t"
"xvcmpgtdp 4,5 , 0 \n\t"
"xxsel 3, 0,5,4 \n\t"
"xxsel 33,32,34,4 \n\t"
"lxvd2x 48, %[i64],%[ptr_tmp] \n\t"
"lxvd2x 49, %[i80],%[ptr_tmp] \n\t"
"vaddudm 1,1,5 \n\t"
"lxvd2x 6, %[i96],%[ptr_tmp] \n\t"
"lxvd2x 7,%[i112],%[ptr_tmp] \n\t"
"xvcmpgtdp 2, 3,39 \n\t"
"xxsel 39,39,3,2 \n\t"
"xxsel 38,38,33,2 \n\t"
"vaddudm 5,5,4 \n\t"
"xvabsdp 44, 44 \n\t"
"xvabsdp 45, 45 \n\t"
"xvabsdp 46, 46 \n\t"
"xvabsdp 47, 47 \n\t"
"vaddudm 5,5,4 \n\t"
"xvabsdp 48, 48 \n\t"
"xvabsdp 49, 49 \n\t"
"xvabsdp 6, 6 \n\t"
"xvabsdp 7, 7 \n\t"
"two%=: \n\t"
"xvcmpgtdp 2,45,44 \n\t "
"xvcmpgtdp 3,47,46 \n\t "
"xvcmpgtdp 4,49,48 \n\t "
"xvcmpgtdp 5,7,6 \n\t"
"xxsel 32,40,41,2 \n\t"
"xxsel 0,44,45,2 \n\t"
"xxsel 33,42,43,3 \n\t"
"xxsel 1,46,47,3 \n\t"
"xxsel 34,40,41,4 \n\t"
"xxsel 45,48,49,4 \n\t"
"xxsel 35,42,43,5 \n\t"
"xxsel 47,6,7,5 \n\t"
"xvcmpgtdp 2, 1,0 \n\t"
"xvcmpgtdp 3,47, 45 \n\t"
"xxsel 32,32,33,2 \n\t"
"xxsel 0 ,0,1,2 \n\t"
"xxsel 34,34,35,3 \n\t"
"xxsel 5,45,47,3 \n\t"
"addi %[ptr_tmp] ,%[ptr_tmp] , 128 \n\t"
"vaddudm 2,2,4 \n\t"
"lxvd2x 44, 0,%[ptr_tmp] \n\t"
"lxvd2x 45, %[i16],%[ptr_tmp] \n\t"
"lxvd2x 46, %[i32],%[ptr_tmp] \n\t"
"lxvd2x 47, %[i48],%[ptr_tmp] \n\t"
"xvcmpgtdp 4,5 , 0 \n\t"
"xxsel 3, 0,5,4 \n\t"
"xxsel 33,32,34,4 \n\t"
"lxvd2x 48, %[i64],%[ptr_tmp] \n\t"
"lxvd2x 49, %[i80],%[ptr_tmp] \n\t"
"vaddudm 1,1,5 \n\t"
"lxvd2x 6, %[i96],%[ptr_tmp] \n\t"
"lxvd2x 7,%[i112],%[ptr_tmp] \n\t"
"xvcmpgtdp 2, 3,39 \n\t"
"xxsel 39,39,3,2 \n\t"
"xxsel 38,38,33,2 \n\t"
"vaddudm 5,5,4 \n\t"
"xvabsdp 44, 44 \n\t"
"xvabsdp 45, 45 \n\t"
"xvabsdp 46, 46 \n\t"
"xvabsdp 47, 47 \n\t"
"vaddudm 5,5,4 \n\t"
"xvabsdp 48, 48 \n\t"
"xvabsdp 49, 49 \n\t"
"xvabsdp 6, 6 \n\t"
"xvabsdp 7, 7 \n\t"
"addic. %[n], %[n], -32 \n\t"
"bgt+ one%= \n\t"
"xvcmpgtdp 2,45,44 \n\t "
"xvcmpgtdp 3,47,46 \n\t "
"xvcmpgtdp 4,49,48 \n\t "
"xvcmpgtdp 5,7,6 \n\t"
"xxsel 32,40,41,2 \n\t"
"xxsel 0,44,45,2 \n\t"
"xxsel 33,42,43,3 \n\t"
"xxsel 1,46,47,3 \n\t"
"xxsel 34,40,41,4 \n\t"
"xxsel 45,48,49,4 \n\t"
"xxsel 35,42,43,5 \n\t"
"xxsel 47,6,7,5 \n\t"
"xvcmpgtdp 2, 1,0 \n\t"
"xvcmpgtdp 3,47, 45 \n\t"
"xxsel 32,32,33,2 \n\t"
"xxsel 0 ,0,1,2 \n\t"
"xxsel 34,34,35,3 \n\t"
"xxsel 5,45,47,3 \n\t"
"vaddudm 2,2,4 \n\t"
"xvcmpgtdp 4,5 , 0 \n\t"
"xxsel 3, 0,5,4 \n\t"
"xxsel 33,32,34,4 \n\t"
"vaddudm 1,1,5 \n\t"
"xvcmpgtdp 2, 3,39 \n\t"
"xxsel 39,39,3,2 \n\t"
"xxsel 38,38,33,2 \n\t"
XXSPLTD_S(32,38,1)
XXSPLTD_S(40,39,1)
"xvcmpeqdp. 2, 40,39 \n\t"
"bc 14,24, three%= \n\t"
"xvcmpgtdp 4, 40,39 \n\t"
"xxsel 0,39,40,4 \n\t"
"xxsel 1,38,32,4 \n\t"
"stxsdx 0,0,%[ptr_maxf] \n\t"
"b four%= \n\t"
"three%=: \n\t"
XXSPLTD_S(0,40,0)
"vminud 0,0,6 \n\t"
"xxlor 1,32,32 \n\t"
"stxsdx 0,0,%[ptr_maxf] \n\t"
"four%=: \n\t"
"mfvsrd %[index],1 \n\t"
: [maxf] "=m"(*maxf),[ptr_tmp] "+&b"(x),[index] "=r"(index), [n] "+&r"(n)
: [mem] "m"(*(const double (*)[n])x), [ptr_x] "b"(x), [ptr_maxf] "b"(maxf) ,
[i16] "b"(16), [i32] "b"(32), [i48] "b"(48),
[i64] "b"(64), [i80] "b"(80), [i96] "b"(96), [i112] "b"(112),
[start] "v"(start), [adder] "v"(temp_add_index)
: "cc", "vs0", "vs1","vs2","vs3", "vs4","vs5","vs32", "vs33", "vs34", "vs35", "vs36",
"vs37", "vs38", "vs39", "vs40", "vs41", "vs42", "vs43", "vs44", "vs45", "vs46", "vs47", "vs48", "vs49", "vs6", "vs7"
);
return index;
}
#endif
BLASLONG CNAME(BLASLONG n, FLOAT *x, BLASLONG inc_x) {
BLASLONG i = 0;
BLASLONG j = 0;
FLOAT maxf = 0.0;
BLASLONG max = 0;
if (n <= 0 || inc_x <= 0) return (max);
if (inc_x == 1) {
#if defined(_CALL_ELF) && (_CALL_ELF == 2)
#if defined(__VEC__) || defined(__ALTIVEC__)
BLASLONG n1 = n & -32;
if (n1 > 0) {
max = diamax_kernel_32(n1, x, &maxf);
i = n1;
}
#endif
#endif
while (i < n) {
if (ABS(x[i]) > maxf) {
max = i;
maxf = ABS(x[i]);
}
i++;
}
return (max + 1);
} else {
BLASLONG n1 = n & -4;
while (j < n1) {
if (ABS(x[i]) > maxf) {
max = j;
maxf = ABS(x[i]);
}
if (ABS(x[i + inc_x]) > maxf) {
max = j + 1;
maxf = ABS(x[i + inc_x]);
}
if (ABS(x[i + 2 * inc_x]) > maxf) {
max = j + 2;
maxf = ABS(x[i + 2 * inc_x]);
}
if (ABS(x[i + 3 * inc_x]) > maxf) {
max = j + 3;
maxf = ABS(x[i + 3 * inc_x]);
}
i += inc_x * 4;
j += 4;
}
while (j < n) {
if (ABS(x[i]) > maxf) {
max = j;
maxf = ABS(x[i]);
}
i += inc_x;
j++;
}
return (max + 1);
}
}