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1 #include <stdio.h>
2 #include <stdlib.h>
3 #include <string.h>
4 #include <langinfo.h>
5 #include <locale.h>
6 #include <time.h>
7 #include <limits.h>
8 #include "locale_impl.h"
9 #include "time_impl.h"
10 
is_leap(int y)11 static int is_leap(int y)
12 {
13 	/* Avoid overflow */
14 	if (y>INT_MAX-1900) y -= 2000;
15 	y += 1900;
16 	return !(y%4) && ((y%100) || !(y%400));
17 }
18 
week_num(const struct tm * tm)19 static int week_num(const struct tm *tm)
20 {
21 	int val = (tm->tm_yday + 7U - (tm->tm_wday+6U)%7) / 7;
22 	/* If 1 Jan is just 1-3 days past Monday,
23 	 * the previous week is also in this year. */
24 	if ((tm->tm_wday + 371U - tm->tm_yday - 2) % 7 <= 2)
25 		val++;
26 	if (!val) {
27 		val = 52;
28 		/* If 31 December of prev year a Thursday,
29 		 * or Friday of a leap year, then the
30 		 * prev year has 53 weeks. */
31 		int dec31 = (tm->tm_wday + 7U - tm->tm_yday - 1) % 7;
32 		if (dec31 == 4 || (dec31 == 5 && is_leap(tm->tm_year%400-1)))
33 			val++;
34 	} else if (val == 53) {
35 		/* If 1 January is not a Thursday, and not
36 		 * a Wednesday of a leap year, then this
37 		 * year has only 52 weeks. */
38 		int jan1 = (tm->tm_wday + 371U - tm->tm_yday) % 7;
39 		if (jan1 != 4 && (jan1 != 3 || !is_leap(tm->tm_year)))
40 			val = 1;
41 	}
42 	return val;
43 }
44 
__strftime_fmt_1(char (* s)[100],size_t * l,int f,const struct tm * tm,locale_t loc,int pad)45 const char *__strftime_fmt_1(char (*s)[100], size_t *l, int f, const struct tm *tm, locale_t loc, int pad)
46 {
47 	nl_item item;
48 	long long val;
49 	const char *fmt = "-";
50 	int width = 2, def_pad = '0';
51 
52 	switch (f) {
53 	case 'a':
54 		if (tm->tm_wday > 6U) goto string;
55 		item = ABDAY_1 + tm->tm_wday;
56 		goto nl_strcat;
57 	case 'A':
58 		if (tm->tm_wday > 6U) goto string;
59 		item = DAY_1 + tm->tm_wday;
60 		goto nl_strcat;
61 	case 'h':
62 	case 'b':
63 		if (tm->tm_mon > 11U) goto string;
64 		item = ABMON_1 + tm->tm_mon;
65 		goto nl_strcat;
66 	case 'B':
67 		if (tm->tm_mon > 11U) goto string;
68 		item = MON_1 + tm->tm_mon;
69 		goto nl_strcat;
70 	case 'c':
71 		item = D_T_FMT;
72 		goto nl_strftime;
73 	case 'C':
74 		val = (1900LL+tm->tm_year) / 100;
75 		goto number;
76 	case 'e':
77 		def_pad = '_';
78 	case 'd':
79 		val = tm->tm_mday;
80 		goto number;
81 	case 'D':
82 		fmt = "%m/%d/%y";
83 		goto recu_strftime;
84 	case 'F':
85 		fmt = "%Y-%m-%d";
86 		goto recu_strftime;
87 	case 'g':
88 	case 'G':
89 		val = tm->tm_year + 1900LL;
90 		if (tm->tm_yday < 3 && week_num(tm) != 1) val--;
91 		else if (tm->tm_yday > 360 && week_num(tm) == 1) val++;
92 		if (f=='g') val %= 100;
93 		else width = 4;
94 		goto number;
95 	case 'H':
96 		val = tm->tm_hour;
97 		goto number;
98 	case 'I':
99 		val = tm->tm_hour;
100 		if (!val) val = 12;
101 		else if (val > 12) val -= 12;
102 		goto number;
103 	case 'j':
104 		val = tm->tm_yday+1;
105 		width = 3;
106 		goto number;
107 	case 'm':
108 		val = tm->tm_mon+1;
109 		goto number;
110 	case 'M':
111 		val = tm->tm_min;
112 		goto number;
113 	case 'n':
114 		*l = 1;
115 		return "\n";
116 	case 'p':
117 		item = tm->tm_hour >= 12 ? PM_STR : AM_STR;
118 		goto nl_strcat;
119 	case 'r':
120 		item = T_FMT_AMPM;
121 		goto nl_strftime;
122 	case 'R':
123 		fmt = "%H:%M";
124 		goto recu_strftime;
125 	case 's':
126 		val = __tm_to_secs(tm) - tm->__tm_gmtoff;
127 		width = 1;
128 		goto number;
129 	case 'S':
130 		val = tm->tm_sec;
131 		goto number;
132 	case 't':
133 		*l = 1;
134 		return "\t";
135 	case 'T':
136 		fmt = "%H:%M:%S";
137 		goto recu_strftime;
138 	case 'u':
139 		val = tm->tm_wday ? tm->tm_wday : 7;
140 		width = 1;
141 		goto number;
142 	case 'U':
143 		val = (tm->tm_yday + 7U - tm->tm_wday) / 7;
144 		goto number;
145 	case 'W':
146 		val = (tm->tm_yday + 7U - (tm->tm_wday+6U)%7) / 7;
147 		goto number;
148 	case 'V':
149 		val = week_num(tm);
150 		goto number;
151 	case 'w':
152 		val = tm->tm_wday;
153 		width = 1;
154 		goto number;
155 	case 'x':
156 		item = D_FMT;
157 		goto nl_strftime;
158 	case 'X':
159 		item = T_FMT;
160 		goto nl_strftime;
161 	case 'y':
162 		val = (tm->tm_year + 1900LL) % 100;
163 		if (val < 0) val = -val;
164 		goto number;
165 	case 'Y':
166 		val = tm->tm_year + 1900LL;
167 		if (val >= 10000) {
168 			*l = snprintf(*s, sizeof *s, "+%lld", val);
169 			return *s;
170 		}
171 		width = 4;
172 		goto number;
173 	case 'z':
174 		if (tm->tm_isdst < 0) {
175 			*l = 0;
176 			return "";
177 		}
178 		*l = snprintf(*s, sizeof *s, "%+.4ld",
179 			tm->__tm_gmtoff/3600*100 + tm->__tm_gmtoff%3600/60);
180 		return *s;
181 	case 'Z':
182 		if (tm->tm_isdst < 0) {
183 			*l = 0;
184 			return "";
185 		}
186 		fmt = __tm_to_tzname(tm);
187 		goto string;
188 	case '%':
189 		*l = 1;
190 		return "%";
191 	default:
192 		return 0;
193 	}
194 number:
195 	switch (pad ? pad : def_pad) {
196 	case '-': *l = snprintf(*s, sizeof *s, "%lld", val); break;
197 	case '_': *l = snprintf(*s, sizeof *s, "%*lld", width, val); break;
198 	case '0':
199 	default:  *l = snprintf(*s, sizeof *s, "%0*lld", width, val); break;
200 	}
201 	return *s;
202 nl_strcat:
203 	fmt = __nl_langinfo_l(item, loc);
204 string:
205 	*l = strlen(fmt);
206 	return fmt;
207 nl_strftime:
208 	fmt = __nl_langinfo_l(item, loc);
209 recu_strftime:
210 	*l = __strftime_l(*s, sizeof *s, fmt, tm, loc);
211 	if (!*l) return 0;
212 	return *s;
213 }
214 
__strftime_l(char * restrict s,size_t n,const char * restrict f,const struct tm * restrict tm,locale_t loc)215 size_t __strftime_l(char *restrict s, size_t n, const char *restrict f, const struct tm *restrict tm, locale_t loc)
216 {
217 	size_t l, k;
218 	char buf[100];
219 	char *p;
220 	const char *t;
221 	int pad, plus;
222 	unsigned long width;
223 	for (l=0; l<n; f++) {
224 		if (!*f) {
225 			s[l] = 0;
226 			return l;
227 		}
228 		if (*f != '%') {
229 			s[l++] = *f;
230 			continue;
231 		}
232 		f++;
233 		pad = 0;
234 		if (*f == '-' || *f == '_' || *f == '0') pad = *f++;
235 		if ((plus = (*f == '+'))) f++;
236 		width = strtoul(f, &p, 10);
237 		if (*p == 'C' || *p == 'F' || *p == 'G' || *p == 'Y') {
238 			if (!width && p!=f) width = 1;
239 		} else {
240 			width = 0;
241 		}
242 		f = p;
243 		if (*f == 'E' || *f == 'O') f++;
244 		t = __strftime_fmt_1(&buf, &k, *f, tm, loc, pad);
245 		if (!t) break;
246 		if (width) {
247 			/* Trim off any sign and leading zeros, then
248 			 * count remaining digits to determine behavior
249 			 * for the + flag. */
250 			if (*t=='+' || *t=='-') t++, k--;
251 			for (; *t=='0' && t[1]-'0'<10U; t++, k--);
252 			if (width < k) width = k;
253 			size_t d;
254 			for (d=0; t[d]-'0'<10U; d++);
255 			if (tm->tm_year < -1900) {
256 				s[l++] = '-';
257 				width--;
258 			} else if (plus && d+(width-k) >= (*p=='C'?3:5)) {
259 				s[l++] = '+';
260 				width--;
261 			}
262 			for (; width > k && l < n; width--)
263 				s[l++] = '0';
264 		}
265 		if (k > n-l) k = n-l;
266 		memcpy(s+l, t, k);
267 		l += k;
268 	}
269 	if (n) {
270 		if (l==n) l=n-1;
271 		s[l] = 0;
272 	}
273 	return 0;
274 }
275 
strftime(char * restrict s,size_t n,const char * restrict f,const struct tm * restrict tm)276 size_t strftime(char *restrict s, size_t n, const char *restrict f, const struct tm *restrict tm)
277 {
278 	return __strftime_l(s, n, f, tm, CURRENT_LOCALE);
279 }
280 
281 weak_alias(__strftime_l, strftime_l);
282