Blackbox device type 'file' (SITL) considered working when file handler is available
[inav.git] / src / main / common / typeconversion.c
blob98d21a9378db0861335e78e0d616f7b5833f25e7
1 /*
2 * This file is part of Cleanflight.
4 * Cleanflight is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * Cleanflight is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with Cleanflight. If not, see <http://www.gnu.org/licenses/>.
17 #include <stdint.h>
18 #include <string.h>
19 #include <math.h>
20 #include "build/build_config.h"
22 #include "maths.h"
23 #include "platform.h"
25 #ifdef REQUIRE_PRINTF_LONG_SUPPORT
27 void uli2a(unsigned long int num, unsigned int base, int uc, char *bf)
29 int n = 0;
30 unsigned int d = 1;
31 while (num / d >= base)
32 d *= base;
33 while (d != 0) {
34 int dgt = num / d;
35 num %= d;
36 d /= base;
37 if (n || dgt > 0 || d == 0) {
38 *bf++ = dgt + (dgt < 10 ? '0' : (uc ? 'A' : 'a') - 10);
39 ++n;
42 *bf = 0;
45 void li2a(long num, char *bf)
47 if (num < 0) {
48 num = -num;
49 *bf++ = '-';
51 uli2a(num, 10, 0, bf);
54 #endif
56 void ui2a(unsigned int num, unsigned int base, int uc, char *bf)
58 int n = 0;
59 unsigned int d = 1;
60 while (num / d >= base)
61 d *= base;
62 while (d != 0) {
63 int dgt = num / d;
64 num %= d;
65 d /= base;
66 if (n || dgt > 0 || d == 0) {
67 *bf++ = dgt + (dgt < 10 ? '0' : (uc ? 'A' : 'a') - 10);
68 ++n;
71 *bf = 0;
74 void i2a(int num, char *bf)
76 if (num < 0) {
77 num = -num;
78 *bf++ = '-';
80 ui2a(num, 10, 0, bf);
83 int a2d(char ch)
85 if (ch >= '0' && ch <= '9')
86 return ch - '0';
87 else if (ch >= 'a' && ch <= 'f')
88 return ch - 'a' + 10;
89 else if (ch >= 'A' && ch <= 'F')
90 return ch - 'A' + 10;
91 else
92 return -1;
95 char a2i(char ch, const char **src, int base, int *nump)
97 const char *p = *src;
98 int num = 0;
99 int digit;
100 while ((digit = a2d(ch)) >= 0) {
101 if (digit > base)
102 break;
103 num = num * base + digit;
104 ch = *p++;
106 *src = p;
107 *nump = num;
108 return ch;
111 #ifndef HAVE_ITOA_FUNCTION
114 ** The following two functions together make up an itoa()
115 ** implementation. Function i2a() is a 'private' function
116 ** called by the public itoa() function.
118 ** itoa() takes three arguments:
119 ** 1) the integer to be converted,
120 ** 2) a pointer to a character conversion buffer,
121 ** 3) the radix for the conversion
122 ** which can range between 2 and 36 inclusive
123 ** range errors on the radix default it to base10
124 ** Code from http://groups.google.com/group/comp.lang.c/msg/66552ef8b04fe1ab?pli=1
127 static char *_i2a(unsigned i, char *a, unsigned base)
129 if (i / base > 0)
130 a = _i2a(i / base, a, base);
131 *a = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"[i % base];
132 return a + 1;
135 char *itoa(int i, char *a, int base)
137 if ((base < 2) || (base > 36))
138 base = 10;
139 if (i < 0) {
140 *a = '-';
141 *_i2a(-(unsigned) i, a + 1, base) = 0;
142 } else
143 *_i2a(i, a, base) = 0;
144 return a;
147 #endif
149 char *ftoa(float x, char *floatString)
151 int32_t value;
152 char intString1[12];
153 char intString2[12] = { 0, };
154 char *decimalPoint = ".";
155 uint8_t dpLocation;
157 if (x > 0) // Rounding for x.xxx display format
158 x += 0.0005f;
159 else
160 x -= 0.0005f;
162 value = (int32_t)(x * 1000.0f); // Convert float * 1000 to an integer
164 itoa(ABS(value), intString1, 10); // Create string from abs of integer value
166 if (value >= 0)
167 intString2[0] = ' '; // Positive number, add a pad space
168 else
169 intString2[0] = '-'; // Negative number, add a negative sign
171 if (strlen(intString1) == 1) {
172 intString2[1] = '0';
173 intString2[2] = '0';
174 intString2[3] = '0';
175 strcat(intString2, intString1);
176 } else if (strlen(intString1) == 2) {
177 intString2[1] = '0';
178 intString2[2] = '0';
179 strcat(intString2, intString1);
180 } else if (strlen(intString1) == 3) {
181 intString2[1] = '0';
182 strcat(intString2, intString1);
183 } else {
184 strcat(intString2, intString1);
187 dpLocation = strlen(intString2) - 3;
189 memcpy(floatString, intString2, dpLocation);
190 floatString[dpLocation] = '\0';
191 strcat(floatString, decimalPoint);
192 strcat(floatString, intString2 + dpLocation);
194 return floatString;
197 // Simple and fast atof (ascii to float) function.
199 // - Executes about 5x faster than standard MSCRT library atof().
200 // - An attractive alternative if the number of calls is in the millions.
201 // - Assumes input is a proper integer, fraction, or scientific format.
202 // - Matches library atof() to 15 digits (except at extreme exponents).
203 // - Follows atof() precedent of essentially no error checking.
205 // 09-May-2009 Tom Van Baak (tvb) www.LeapSecond.com
206 #define white_space(c) ((c) == ' ' || (c) == '\t')
207 #define valid_digit(c) ((c) >= '0' && (c) <= '9')
208 float fastA2F(const char *p)
210 int frac = 0;
211 float sign, value, scale;
213 // Skip leading white space, if any.
214 while (white_space(*p)) {
215 p += 1;
218 // Get sign, if any.
219 sign = 1.0f;
220 if (*p == '-') {
221 sign = -1.0f;
222 p += 1;
224 } else if (*p == '+') {
225 p += 1;
228 // Get digits before decimal point or exponent, if any.
229 value = 0.0f;
230 while (valid_digit(*p)) {
231 value = value * 10.0f + (*p - '0');
232 p += 1;
235 // Get digits after decimal point, if any.
236 if (*p == '.') {
237 float pow10 = 10.0f;
238 p += 1;
240 while (valid_digit(*p)) {
241 value += (*p - '0') / pow10;
242 pow10 *= 10.0f;
243 p += 1;
247 // Handle exponent, if any.
248 scale = 1.0f;
249 if ((*p == 'e') || (*p == 'E')) {
250 unsigned int expon;
251 p += 1;
253 // Get sign of exponent, if any.
254 frac = 0;
255 if (*p == '-') {
256 frac = 1;
257 p += 1;
259 } else if (*p == '+') {
260 p += 1;
263 // Get digits of exponent, if any.
264 expon = 0;
265 while (valid_digit(*p)) {
266 expon = expon * 10 + (*p - '0');
267 p += 1;
269 if (expon > 308)
270 expon = 308;
272 // Calculate scaling factor.
273 // while (expon >= 50) { scale *= 1E50f; expon -= 50; }
274 while (expon >= 8) {
275 scale *= 1E8f;
276 expon -= 8;
278 while (expon > 0) {
279 scale *= 10.0f;
280 expon -= 1;
284 // Return signed and scaled floating point result.
285 return sign * (frac ? (value / scale) : (value * scale));
288 unsigned long int fastA2UL(const char *p)
290 unsigned long int result = 0;
291 unsigned char digit;
293 while (white_space(*p)) {
294 p += 1;
297 for ( ; ; p++) {
298 digit = *p - '0';
299 if (digit > 9) {
300 break;
302 result *= 10;
303 result += digit;
305 return result;
308 int fastA2I(const char *s)
310 int sign = 1;
311 int num = 0;
312 int digit;
314 while (white_space(*s)) {
315 s++;
318 if (*s == '-') {
319 sign = -1;
320 s++;
323 while ((digit = a2d(*s)) >= 0) {
324 if (digit > 9)
325 break;
326 num = num * 10 + digit;
327 s++;
330 return sign * num;