1*412f47f9SXin Li /*
2*412f47f9SXin Li * strlen benchmark.
3*412f47f9SXin Li *
4*412f47f9SXin Li * Copyright (c) 2020-2021, Arm Limited.
5*412f47f9SXin Li * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception
6*412f47f9SXin Li */
7*412f47f9SXin Li
8*412f47f9SXin Li #define _GNU_SOURCE
9*412f47f9SXin Li #include <stdint.h>
10*412f47f9SXin Li #include <stdio.h>
11*412f47f9SXin Li #include <string.h>
12*412f47f9SXin Li #include <assert.h>
13*412f47f9SXin Li #include "stringlib.h"
14*412f47f9SXin Li #include "benchlib.h"
15*412f47f9SXin Li
16*412f47f9SXin Li #define ITERS 5000
17*412f47f9SXin Li #define ITERS2 20000000
18*412f47f9SXin Li #define ITERS3 2000000
19*412f47f9SXin Li #define NUM_TESTS 16384
20*412f47f9SXin Li
21*412f47f9SXin Li #define MAX_ALIGN 32
22*412f47f9SXin Li #define MAX_STRLEN 256
23*412f47f9SXin Li
24*412f47f9SXin Li static char a[(MAX_STRLEN + 1) * MAX_ALIGN] __attribute__((__aligned__(4096)));
25*412f47f9SXin Li
26*412f47f9SXin Li #define F(x, mte) {#x, x, mte},
27*412f47f9SXin Li
28*412f47f9SXin Li static const struct fun
29*412f47f9SXin Li {
30*412f47f9SXin Li const char *name;
31*412f47f9SXin Li size_t (*fun) (const char *s);
32*412f47f9SXin Li int test_mte;
33*412f47f9SXin Li } funtab[] = {
34*412f47f9SXin Li // clang-format off
35*412f47f9SXin Li F(strlen, 0)
36*412f47f9SXin Li #if __aarch64__
37*412f47f9SXin Li F(__strlen_aarch64, 0)
38*412f47f9SXin Li F(__strlen_aarch64_mte, 1)
39*412f47f9SXin Li # if __ARM_FEATURE_SVE
40*412f47f9SXin Li F(__strlen_aarch64_sve, 1)
41*412f47f9SXin Li # endif
42*412f47f9SXin Li #elif __arm__
43*412f47f9SXin Li # if __ARM_ARCH >= 6 && __ARM_ARCH_ISA_THUMB == 2
44*412f47f9SXin Li F(__strlen_armv6t2, 0)
45*412f47f9SXin Li # endif
46*412f47f9SXin Li #endif
47*412f47f9SXin Li {0, 0, 0}
48*412f47f9SXin Li // clang-format on
49*412f47f9SXin Li };
50*412f47f9SXin Li #undef F
51*412f47f9SXin Li
52*412f47f9SXin Li static uint16_t strlen_tests[NUM_TESTS];
53*412f47f9SXin Li
54*412f47f9SXin Li typedef struct { uint16_t size; uint16_t freq; } freq_data_t;
55*412f47f9SXin Li typedef struct { uint8_t align; uint16_t freq; } align_data_t;
56*412f47f9SXin Li
57*412f47f9SXin Li #define SIZE_NUM 65536
58*412f47f9SXin Li #define SIZE_MASK (SIZE_NUM - 1)
59*412f47f9SXin Li static uint8_t strlen_len_arr[SIZE_NUM];
60*412f47f9SXin Li
61*412f47f9SXin Li /* Frequency data for strlen sizes up to 128 based on SPEC2017. */
62*412f47f9SXin Li static freq_data_t strlen_len_freq[] =
63*412f47f9SXin Li {
64*412f47f9SXin Li { 12,22671}, { 18,12834}, { 13, 9555}, { 6, 6348}, { 17, 6095}, { 11, 2115},
65*412f47f9SXin Li { 10, 1335}, { 7, 814}, { 2, 646}, { 9, 483}, { 8, 471}, { 16, 418},
66*412f47f9SXin Li { 4, 390}, { 1, 388}, { 5, 233}, { 3, 204}, { 0, 79}, { 14, 79},
67*412f47f9SXin Li { 15, 69}, { 26, 36}, { 22, 35}, { 31, 24}, { 32, 24}, { 19, 21},
68*412f47f9SXin Li { 25, 17}, { 28, 15}, { 21, 14}, { 33, 14}, { 20, 13}, { 24, 9},
69*412f47f9SXin Li { 29, 9}, { 30, 9}, { 23, 7}, { 34, 7}, { 27, 6}, { 44, 5},
70*412f47f9SXin Li { 42, 4}, { 45, 3}, { 47, 3}, { 40, 2}, { 41, 2}, { 43, 2},
71*412f47f9SXin Li { 58, 2}, { 78, 2}, { 36, 2}, { 48, 1}, { 52, 1}, { 60, 1},
72*412f47f9SXin Li { 64, 1}, { 56, 1}, { 76, 1}, { 68, 1}, { 80, 1}, { 84, 1},
73*412f47f9SXin Li { 72, 1}, { 86, 1}, { 35, 1}, { 39, 1}, { 50, 1}, { 38, 1},
74*412f47f9SXin Li { 37, 1}, { 46, 1}, { 98, 1}, {102, 1}, {128, 1}, { 51, 1},
75*412f47f9SXin Li {107, 1}, { 0, 0}
76*412f47f9SXin Li };
77*412f47f9SXin Li
78*412f47f9SXin Li #define ALIGN_NUM 1024
79*412f47f9SXin Li #define ALIGN_MASK (ALIGN_NUM - 1)
80*412f47f9SXin Li static uint8_t strlen_align_arr[ALIGN_NUM];
81*412f47f9SXin Li
82*412f47f9SXin Li /* Alignment data for strlen based on SPEC2017. */
83*412f47f9SXin Li static align_data_t string_align_freq[] =
84*412f47f9SXin Li {
85*412f47f9SXin Li {8, 470}, {32, 427}, {16, 99}, {1, 19}, {2, 6}, {4, 3}, {0, 0}
86*412f47f9SXin Li };
87*412f47f9SXin Li
88*412f47f9SXin Li static void
init_strlen_distribution(void)89*412f47f9SXin Li init_strlen_distribution (void)
90*412f47f9SXin Li {
91*412f47f9SXin Li int i, j, freq, size, n;
92*412f47f9SXin Li
93*412f47f9SXin Li for (n = i = 0; (freq = strlen_len_freq[i].freq) != 0; i++)
94*412f47f9SXin Li for (j = 0, size = strlen_len_freq[i].size; j < freq; j++)
95*412f47f9SXin Li strlen_len_arr[n++] = size;
96*412f47f9SXin Li assert (n == SIZE_NUM);
97*412f47f9SXin Li
98*412f47f9SXin Li for (n = i = 0; (freq = string_align_freq[i].freq) != 0; i++)
99*412f47f9SXin Li for (j = 0, size = string_align_freq[i].align; j < freq; j++)
100*412f47f9SXin Li strlen_align_arr[n++] = size;
101*412f47f9SXin Li assert (n == ALIGN_NUM);
102*412f47f9SXin Li }
103*412f47f9SXin Li
104*412f47f9SXin Li static void
init_strlen_tests(void)105*412f47f9SXin Li init_strlen_tests (void)
106*412f47f9SXin Li {
107*412f47f9SXin Li uint16_t index[MAX_ALIGN];
108*412f47f9SXin Li
109*412f47f9SXin Li memset (a, 'x', sizeof (a));
110*412f47f9SXin Li
111*412f47f9SXin Li /* Create indices for strings at all alignments. */
112*412f47f9SXin Li for (int i = 0; i < MAX_ALIGN; i++)
113*412f47f9SXin Li {
114*412f47f9SXin Li index[i] = i * (MAX_STRLEN + 1);
115*412f47f9SXin Li a[index[i] + MAX_STRLEN] = 0;
116*412f47f9SXin Li }
117*412f47f9SXin Li
118*412f47f9SXin Li /* Create a random set of strlen input strings using the string length
119*412f47f9SXin Li and alignment distributions. */
120*412f47f9SXin Li for (int n = 0; n < NUM_TESTS; n++)
121*412f47f9SXin Li {
122*412f47f9SXin Li int align = strlen_align_arr[rand32 (0) & ALIGN_MASK];
123*412f47f9SXin Li int exp_len = strlen_len_arr[rand32 (0) & SIZE_MASK];
124*412f47f9SXin Li
125*412f47f9SXin Li strlen_tests[n] =
126*412f47f9SXin Li index[(align + exp_len) & (MAX_ALIGN - 1)] + MAX_STRLEN - exp_len;
127*412f47f9SXin Li }
128*412f47f9SXin Li }
129*412f47f9SXin Li
130*412f47f9SXin Li static volatile size_t maskv = 0;
131*412f47f9SXin Li
main(void)132*412f47f9SXin Li int main (void)
133*412f47f9SXin Li {
134*412f47f9SXin Li rand32 (0x12345678);
135*412f47f9SXin Li init_strlen_distribution ();
136*412f47f9SXin Li init_strlen_tests ();
137*412f47f9SXin Li
138*412f47f9SXin Li printf ("\nRandom strlen (bytes/ns):\n");
139*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
140*412f47f9SXin Li {
141*412f47f9SXin Li size_t res = 0, strlen_size = 0, mask = maskv;
142*412f47f9SXin Li printf ("%22s ", funtab[f].name);
143*412f47f9SXin Li
144*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
145*412f47f9SXin Li strlen_size += funtab[f].fun (a + strlen_tests[c]);
146*412f47f9SXin Li strlen_size *= ITERS;
147*412f47f9SXin Li
148*412f47f9SXin Li /* Measure latency of strlen result with (res & mask). */
149*412f47f9SXin Li uint64_t t = clock_get_ns ();
150*412f47f9SXin Li for (int i = 0; i < ITERS; i++)
151*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
152*412f47f9SXin Li res = funtab[f].fun (a + strlen_tests[c] + (res & mask));
153*412f47f9SXin Li t = clock_get_ns () - t;
154*412f47f9SXin Li printf ("%.2f\n", (double)strlen_size / t);
155*412f47f9SXin Li }
156*412f47f9SXin Li
157*412f47f9SXin Li printf ("\nSmall aligned strlen (bytes/ns):\n");
158*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
159*412f47f9SXin Li {
160*412f47f9SXin Li printf ("%22s ", funtab[f].name);
161*412f47f9SXin Li
162*412f47f9SXin Li for (int size = 1; size <= 64; size *= 2)
163*412f47f9SXin Li {
164*412f47f9SXin Li memset (a, 'x', size);
165*412f47f9SXin Li a[size - 1] = 0;
166*412f47f9SXin Li
167*412f47f9SXin Li uint64_t t = clock_get_ns ();
168*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
169*412f47f9SXin Li funtab[f].fun (a);
170*412f47f9SXin Li t = clock_get_ns () - t;
171*412f47f9SXin Li printf ("%d%c: %.2f ", size < 1024 ? size : size / 1024,
172*412f47f9SXin Li size < 1024 ? 'B' : 'K', (double)size * ITERS2 / t);
173*412f47f9SXin Li }
174*412f47f9SXin Li printf ("\n");
175*412f47f9SXin Li }
176*412f47f9SXin Li
177*412f47f9SXin Li printf ("\nSmall unaligned strlen (bytes/ns):\n");
178*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
179*412f47f9SXin Li {
180*412f47f9SXin Li printf ("%22s ", funtab[f].name);
181*412f47f9SXin Li
182*412f47f9SXin Li int align = 9;
183*412f47f9SXin Li for (int size = 1; size <= 64; size *= 2)
184*412f47f9SXin Li {
185*412f47f9SXin Li memset (a + align, 'x', size);
186*412f47f9SXin Li a[align + size - 1] = 0;
187*412f47f9SXin Li
188*412f47f9SXin Li uint64_t t = clock_get_ns ();
189*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
190*412f47f9SXin Li funtab[f].fun (a + align);
191*412f47f9SXin Li t = clock_get_ns () - t;
192*412f47f9SXin Li printf ("%d%c: %.2f ", size < 1024 ? size : size / 1024,
193*412f47f9SXin Li size < 1024 ? 'B' : 'K', (double)size * ITERS2 / t);
194*412f47f9SXin Li }
195*412f47f9SXin Li printf ("\n");
196*412f47f9SXin Li }
197*412f47f9SXin Li
198*412f47f9SXin Li printf ("\nMedium strlen (bytes/ns):\n");
199*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
200*412f47f9SXin Li {
201*412f47f9SXin Li printf ("%22s ", funtab[f].name);
202*412f47f9SXin Li
203*412f47f9SXin Li for (int size = 128; size <= 4096; size *= 2)
204*412f47f9SXin Li {
205*412f47f9SXin Li memset (a, 'x', size);
206*412f47f9SXin Li a[size - 1] = 0;
207*412f47f9SXin Li
208*412f47f9SXin Li uint64_t t = clock_get_ns ();
209*412f47f9SXin Li for (int i = 0; i < ITERS3; i++)
210*412f47f9SXin Li funtab[f].fun (a);
211*412f47f9SXin Li t = clock_get_ns () - t;
212*412f47f9SXin Li printf ("%d%c: %.2f ", size < 1024 ? size : size / 1024,
213*412f47f9SXin Li size < 1024 ? 'B' : 'K', (double)size * ITERS3 / t);
214*412f47f9SXin Li }
215*412f47f9SXin Li printf ("\n");
216*412f47f9SXin Li }
217*412f47f9SXin Li
218*412f47f9SXin Li printf ("\n");
219*412f47f9SXin Li
220*412f47f9SXin Li return 0;
221*412f47f9SXin Li }
222