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source: soft/giet_vm/applications/rosenfeld/src/util.c @ 784

Last change on this file since 784 was 772, checked in by meunier, 9 years ago
Ajout de l'application rosenfeld Changement du nom du flag O_CREATE en O_CREAT
File size: 5.3 KB

Line
1	/* --------------- */
2	/* --- tools.c --- */
3	/* --------------- */
4
5	// Copyright (c) 2013-2014 Lionel Lacassagne, All Rights Reserved
6	// Laboratoire de Recherche en Informatique
7	// Universite Paris-Sud / CNRS
8
9	#include <stdio.h>
10	#include <stdlib.h>
11	#include <stddef.h>
12	#include <math.h>
13
14	#ifdef CLI
15	#include "nrc_os_config.h"
16	#include "nrc.h"
17	#endif
18
19	#include "ecc_features.h"
20
21	#ifndef FREQ
22	#define FREQ 1
23	#endif
24
25	/* ---------------- */
26	/* --- routines --- */
27	/* ---------------- */
28
29	// ---------------------
30	uint32 i32log2(uint32 x)
31	// ---------------------
32	{
33	int p = 0; // power of 2
34	while (x > 0) {
35	x = x >> 1;
36	p = p + 1;
37	}
38	return p - 1;
39	}
40
41	/* ------------- */
42	uint8 ui8rand(void)
43	/* ------------- */
44	{
45	static uint32 x = 0;
46	x = (11 * x + 13) % 17;
47	return x;
48	}
49	/* --------------- */
50	uint32 ui32rand(void)
51	/* --------------- */
52	{
53	static uint32 x = 0;
54	x = (11 * x + 13) % 17;
55	return x;
56	}
57	/* --------------- */
58	float32 f32rand(void)
59	/* --------------- */
60	{
61	static float32 x = 0;
62	x = (float32) fmod(11 * x + 13, 17);
63	return x ;
64	}
65	/* --------------------------------------- */
66	void rand_ui8vector(uint8 * X, int i0, int i1)
67	/* --------------------------------------- */
68	{
69	int i;
70
71	for(i = i0; i <= i1; i++) {
72	X[i] = ui8rand();
73	}
74	}
75	/* ----------------------------------------- */
76	void rand_ui32vector(uint32 *X, int i0, int i1)
77	/* ----------------------------------------- */
78	{
79	int i;
80
81	for (i = i0; i <= i1; i++) {
82	X[i] = ui32rand();
83	}
84	}
85	/* ----------------------------------------- */
86	void rand_f32vector(float32 *X, int i0, int i1)
87	/* ----------------------------------------- */
88	{
89	int i;
90
91	for(i = i0; i <= i1; i++) {
92	X[i] = f32rand();
93	}
94	}
95	/* --------------- */
96	int getIter(int size)
97	/* --------------- */
98	{
99	if (size < 32) return 1024;
100	if (size < 64) return 64 ;
101	if (size < 128) return 8;
102	if (size < 256) return 2;
103	if (size < 512) return 2;
104	if (size < 1024) return 2;
105	if (size < 2048) return 1;
106	return 2;
107	}
108	/* ----------------- */
109	int getIterAV(int size)
110	/* ----------------- */
111	{
112	return 3 * getIter(size);
113	}
114	/* --------------------------------- */
115	float32 gauss(float32 sigma, float32 x)
116	/* --------------------------------- */
117	{
118	float64 pi = 3.1415927;
119	float64 y;
120	y = 1.0 / (sqrt(2 * pi) * sigma) * exp(-(x * x) / (2 * sigma * sigma));
121	return (float32) y;
122	}
123
124	/* --------------------- */
125	double cpp(double t, int n)
126	/* --------------------- */
127	{
128	double c = n;
129	double cpp = t * FREQ / c;
130	return cpp;
131	}
132	// --------------------------
133	void printf_split12(double x)
134	// --------------------------
135	{
136	double x3, x2, x1, x0, t = x;
137
138	x0 = fmod(x, 1000);
139	x = floor(x / 1000);
140	x1 = fmod(x, 1000);
141	x = floor(x / 1000);
142	x2 = fmod(x, 1000);
143	x = floor(x / 1000);
144	x3 = fmod(x, 1000);
145	//printf("t = %14f\n", t);
146	if (t < 1e3) {
147	printf("%15.0f", x0);
148	return;
149	}
150	if (t < 1e6) {
151	printf("%11.0f,%03.0f", x1, x0);
152	return;
153	}
154	if (t < 1e9) {
155	printf("%7.0f,%03.0f,%03.0f", x2, x1, x0);
156	return;
157	}
158	if (t < 1e12) {
159	printf("%3.0f,%03.0f,%03.0f,%03.0f", x3, x2, x1, x0);
160	return;
161	}
162	printf("");
163	}
164
165	// --------------------------
166	void printf_split15(double x)
167	// --------------------------
168	{
169	double x4, x3, x2, x1, x0, t = x;
170
171	x0 = fmod(x, 1000);
172	x = floor(x / 1000);
173	x1 = fmod(x, 1000);
174	x = floor(x / 1000);
175	x2 = fmod(x, 1000);
176	x = floor(x / 1000);
177	x3 = fmod(x, 1000);
178	x = floor(x / 1000);
179	x4 = fmod(x, 1000);
180	//printf("t = %14f\n", t);
181	if (t < 1e3) {
182	printf("%19.0f", x0);
183	return;
184	}
185	if (t < 1e6) {
186	printf("%15.0f,%03.0f", x1, x0);
187	return;
188	}
189	if (t < 1e9) {
190	printf("%11.0f,%03.0f,%03.0f", x2, x1, x0);
191	return;
192	}
193	if (t < 1e12) {
194	printf("%7.0f,%03.0f,%03.0f,%03.0f", x3, x2, x1, x0);
195	return;
196	}
197	if (t < 1e15) {
198	printf("%3.0f,%3.0f,%03.0f,%03.0f,%03.0f", x4,x3, x2, x1, x0);
199	return;
200	}
201	printf("");
202	}
203	// --------------------------
204	void printf_split18(double x)
205	// --------------------------
206	{
207	double x5, x4, x3, x2, x1, x0, t = x;
208
209	x0 = fmod(x, 1000);
210	x = floor(x / 1000);
211	x1 = fmod(x, 1000);
212	x = floor(x / 1000);
213	x2 = fmod(x, 1000);
214	x = floor(x / 1000);
215	x3 = fmod(x, 1000);
216	x = floor(x / 1000);
217	x4 = fmod(x, 1000);
218	x = floor(x / 1000);
219	x5 = fmod(x, 1000);
220	//printf("t = %14f\n", t);
221	if (t < 1e3) {
222	printf("%23.0f", x0);
223	return;
224	}
225	if (t < 1e6) {
226	printf("%19.0f,%03.0f", x1, x0);
227	return;
228	}
229	if (t < 1e9) {
230	printf("%15.0f,%03.0f,%03.0f", x2, x1, x0);
231	return;
232	}
233	if (t < 1e12) {
234	printf("%11.0f,%03.0f,%03.0f,%03.0f", x3, x2, x1, x0);
235	return;
236	}
237	if (t < 1e15) {
238	printf("%7.0f,%3.0f,%03.0f,%03.0f,%03.0f", x4, x3, x2, x1, x0);
239	return;
240	}
241	if (t < 1e18) {
242	printf("%3.0f,%3.0f,%3.0f,%03.0f,%03.0f,%03.0f", x5, x4, x3, x2, x1, x0);
243	return;
244	}
245	printf("");
246	}
247	// ------------------------
248	void printf_split(double x)
249	// ------------------------
250	{
251	printf_split12(x);
252	//printf_split15(x);
253	//printf_split18(x);
254	}
255

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