1 /* sort.c - put input lines into order
2 *
3 * Copyright 2004, 2008 Rob Landley <rob@landley.net>
4 *
5 * See http://opengroup.org/onlinepubs/007904975/utilities/sort.html
6 *
7 * Deviations from POSIX: Lots.
8 * We invented -x
9
10 USE_SORT(NEWTOY(sort, USE_SORT_FLOAT("g")"S:T:m" "o:k*t:" "xVbMcszdfirun", TOYFLAG_USR|TOYFLAG_BIN|TOYFLAG_ARGFAIL(2)))
11
12 config SORT
13 bool "sort"
14 default y
15 help
16 usage: sort [-runbcdfiMsz] [FILE...] [-k#[,#[x]] [-t X]] [-o FILE]
17
18 Sort all lines of text from input files (or stdin) to stdout.
19
20 -r Reverse
21 -u Unique lines only
22 -n Numeric order (instead of alphabetical)
23 -b Ignore leading blanks (or trailing blanks in second part of key)
24 -c Check whether input is sorted
25 -d Dictionary order (use alphanumeric and whitespace chars only)
26 -f Force uppercase (case insensitive sort)
27 -i Ignore nonprinting characters
28 -M Month sort (jan, feb, etc)
29 -x Hexadecimal numerical sort
30 -s Skip fallback sort (only sort with keys)
31 -z Zero (null) terminated lines
32 -k Sort by "key" (see below)
33 -t Use a key separator other than whitespace
34 -o Output to FILE instead of stdout
35 -V Version numbers (name-1.234-rc6.5b.tgz)
36
37 Sorting by key looks at a subset of the words on each line. -k2 uses the
38 second word to the end of the line, -k2,2 looks at only the second word,
39 -k2,4 looks from the start of the second to the end of the fourth word.
40 -k2.4,5 starts from the fourth character of the second word, to the end
41 of the fifth word. Specifying multiple keys uses the later keys as tie
42 breakers, in order. A type specifier appended to a sort key (such as -2,2n)
43 applies only to sorting that key.
44
45 config SORT_FLOAT
46 bool
47 default y
48 depends on TOYBOX_FLOAT
49 help
50 usage: sort [-g]
51
52 -g General numeric sort (double precision with nan and inf)
53 */
54
55 #define FOR_sort
56 #include "toys.h"
57
58 GLOBALS(
59 char *t;
60 struct arg_list *k;
61 char *o, *T, S;
62
63 void *key_list;
64 int linecount;
65 char **lines, *name;
66 )
67
68 // The sort types are n, g, and M.
69 // u, c, s, and z apply to top level only, not to keys.
70 // b at top level implies bb.
71 // The remaining options can be applied to search keys.
72
73 #define FLAG_bb (1<<31) // Ignore trailing blanks
74
75 struct sort_key
76 {
77 struct sort_key *next_key; // linked list
78 unsigned range[4]; // start word, start char, end word, end char
79 int flags;
80 };
81
82 // Copy of the part of this string corresponding to a key/flags.
83
get_key_data(char * str,struct sort_key * key,int flags)84 static char *get_key_data(char *str, struct sort_key *key, int flags)
85 {
86 int start = 0, end, len, i, j;
87
88 // Special case whole string, so we don't have to make a copy
89
90 if(key->range[0]==1 && !key->range[1] && !key->range[2] && !key->range[3]
91 && !(flags&(FLAG_b|FLAG_d|FLAG_i|FLAG_bb))) return str;
92
93 // Find start of key on first pass, end on second pass
94
95 len = strlen(str);
96 for (j=0; j<2; j++) {
97 if (!key->range[2*j]) end=len;
98
99 // Loop through fields
100 else {
101 end = 0;
102 for (i = 1; i < key->range[2*j]+j; i++) {
103
104 // Skip leading blanks
105 if (str[end] && !TT.t) while (isspace(str[end])) end++;
106
107 // Skip body of key
108 for (; str[end]; end++) {
109 if (TT.t) {
110 if (str[end]==*TT.t) {
111 end++;
112 break;
113 }
114 } else if (isspace(str[end])) break;
115 }
116 }
117 }
118 if (!j) start=end;
119 }
120
121 // Key with explicit separator starts after the separator
122 if (TT.t && str[start]==*TT.t) start++;
123
124 // Strip leading and trailing whitespace if necessary
125 if ((flags&FLAG_b) || (!TT.t && !key->range[3]))
126 while (isspace(str[start])) start++;
127 if (flags&FLAG_bb) while (end>start && isspace(str[end-1])) end--;
128
129 // Handle offsets on start and end
130 if (key->range[3]) {
131 end += key->range[3]-1;
132 if (end>len) end=len;
133 }
134 if (key->range[1]) {
135 start += key->range[1]-1;
136 if (start>len) start=len;
137 }
138
139 // Make the copy
140 if (end<start) end = start;
141 str = xstrndup(str+start, end-start);
142
143 // Handle -d
144 if (flags&FLAG_d) {
145 for (start = end = 0; str[end]; end++)
146 if (isspace(str[end]) || isalnum(str[end])) str[start++] = str[end];
147 str[start] = 0;
148 }
149
150 // Handle -i
151 if (flags&FLAG_i) {
152 for (start = end = 0; str[end]; end++)
153 if (isprint(str[end])) str[start++] = str[end];
154 str[start] = 0;
155 }
156
157 return str;
158 }
159
160 // append a sort_key to key_list.
161
add_key(void)162 static struct sort_key *add_key(void)
163 {
164 void **stupid_compiler = &TT.key_list;
165 struct sort_key **pkey = (struct sort_key **)stupid_compiler;
166
167 while (*pkey) pkey = &((*pkey)->next_key);
168 return *pkey = xzalloc(sizeof(struct sort_key));
169 }
170
171 // Perform actual comparison
compare_values(int flags,char * x,char * y)172 static int compare_values(int flags, char *x, char *y)
173 {
174 if (CFG_SORT_FLOAT && (flags & FLAG_g)) {
175 char *xx,*yy;
176 double dx = strtod(x,&xx), dy = strtod(y,&yy);
177 int xinf, yinf;
178
179 // not numbers < NaN < -infinity < numbers < +infinity
180
181 if (x==xx) return y==yy ? 0 : -1;
182 if (y==yy) return 1;
183
184 // Check for isnan
185 if (dx!=dx) return (dy!=dy) ? 0 : -1;
186 if (dy!=dy) return 1;
187
188 // Check for infinity. (Could underflow, but avoids needing libm.)
189 xinf = (1.0/dx == 0.0);
190 yinf = (1.0/dy == 0.0);
191 if (xinf) {
192 if(dx<0) return (yinf && dy<0) ? 0 : -1;
193 return (yinf && dy>0) ? 0 : 1;
194 }
195 if (yinf) return dy<0 ? 1 : -1;
196
197 return dx>dy ? 1 : (dx<dy ? -1 : 0);
198 } else if (flags & FLAG_M) {
199 struct tm thyme;
200 int dx;
201 char *xx,*yy;
202
203 xx = strptime(x,"%b",&thyme);
204 dx = thyme.tm_mon;
205 yy = strptime(y,"%b",&thyme);
206 if (!xx) return !yy ? 0 : -1;
207 else if (!yy) return 1;
208 else return dx==thyme.tm_mon ? 0 : dx-thyme.tm_mon;
209
210 } else if (flags & FLAG_x) return strtol(x, NULL, 16)-strtol(y, NULL, 16);
211 else if (flags & FLAG_V) {
212 while (*x && *y) {
213 while (*x && *x == *y) x++, y++;
214 if (isdigit(*x) && isdigit(*y)) {
215 long long xx = strtoll(x, &x, 10), yy = strtoll(y, &y, 10);
216
217 if (xx<yy) return -1;
218 if (xx>yy) return 1;
219 } else {
220 char xx = *x ? *x : x[-1], yy = *y ? *y : y[-1];
221
222 // -rc/-pre hack so abc-123 > abc-123-rc1 (other way already - < 0-9)
223 if (xx != yy) {
224 if (xx<yy && !strstart(&y, "-rc") && !strstart(&y, "-pre")) return -1;
225 else return 1;
226 }
227 }
228 }
229 return *x ? !!*y : -1;
230 } else if (flags & FLAG_n) {
231 // Full floating point version of -n
232 if (CFG_SORT_FLOAT) {
233 double dx = atof(x), dy = atof(y);
234
235 return dx>dy ? 1 : (dx<dy ? -1 : 0);
236 // Integer version of -n for tiny systems
237 } else return atoi(x)-atoi(y);
238
239 // Ascii sort
240 } else return ((flags&FLAG_f) ? strcasecmp : strcmp)(x, y);
241 }
242
243 // Callback from qsort(): Iterate through key_list and perform comparisons.
compare_keys(const void * xarg,const void * yarg)244 static int compare_keys(const void *xarg, const void *yarg)
245 {
246 int flags = toys.optflags, retval = 0;
247 char *x, *y, *xx = *(char **)xarg, *yy = *(char **)yarg;
248 struct sort_key *key;
249
250 for (key=(struct sort_key *)TT.key_list; !retval && key; key = key->next_key){
251 flags = key->flags ? key->flags : toys.optflags;
252
253 // Chop out and modify key chunks, handling -dfib
254
255 x = get_key_data(xx, key, flags);
256 y = get_key_data(yy, key, flags);
257
258 retval = compare_values(flags, x, y);
259
260 // Free the copies get_key_data() made.
261
262 if (x != xx) free(x);
263 if (y != yy) free(y);
264
265 if (retval) break;
266 }
267
268 // Perform fallback sort if necessary (always case insensitive, no -f,
269 // the point is to get a stable order even for -f sorts)
270 if (!retval && !FLAG(s)) {
271 flags = toys.optflags;
272 retval = strcmp(xx, yy);
273 }
274
275 return retval * ((flags&FLAG_r) ? -1 : 1);
276 }
277
278 // Read each line from file, appending to a big array.
sort_lines(char ** pline,long len)279 static void sort_lines(char **pline, long len)
280 {
281 char *line;
282
283 if (!pline) return;
284 line = *pline;
285 if (!FLAG(z) && len && line[len-1]=='\n') line[--len] = 0;
286 *pline = 0;
287
288 // handle -c here so we don't allocate more memory than necessary.
289 if (FLAG(c)) {
290 int j = FLAG(u) ? -1 : 0;
291
292 if (TT.lines && compare_keys((void *)&TT.lines, &line)>j)
293 error_exit("%s: Check line %d\n", TT.name, TT.linecount);
294 free(TT.lines);
295 TT.lines = (void *)line;
296 } else {
297 if (!(TT.linecount&63))
298 TT.lines = xrealloc(TT.lines, sizeof(char *)*(TT.linecount+64));
299 TT.lines[TT.linecount] = line;
300 }
301 TT.linecount++;
302 }
303
304 // Callback from loopfiles to handle input files.
sort_read(int fd,char * name)305 static void sort_read(int fd, char *name)
306 {
307 TT.name = name;
308 do_lines(fd, FLAG(z) ? '\0' : '\n', sort_lines);
309 }
310
sort_main(void)311 void sort_main(void)
312 {
313 int idx, fd = 1;
314
315 // Parse -k sort keys.
316 if (TT.k) {
317 struct arg_list *arg;
318
319 for (arg = TT.k; arg; arg = arg->next) {
320 struct sort_key *key = add_key();
321 char *temp;
322 int flag;
323
324 idx = 0;
325 temp = arg->arg;
326 while (*temp) {
327 // Start of range
328 key->range[2*idx] = (unsigned)strtol(temp, &temp, 10);
329 if (*temp=='.')
330 key->range[(2*idx)+1] = (unsigned)strtol(temp+1, &temp, 10);
331
332 // Handle flags appended to a key type.
333 for (;*temp;temp++) {
334 char *temp2, *optlist;
335
336 // Note that a second comma becomes an "Unknown key" error.
337
338 if (*temp==',' && !idx++) {
339 temp++;
340 break;
341 }
342
343 // Which flag is this?
344
345 optlist = toys.which->options;
346 temp2 = strchr(optlist, *temp);
347 flag = (1<<(optlist-temp2+strlen(optlist)-1));
348
349 // Was it a flag that can apply to a key?
350
351 if (!temp2 || flag>FLAG_x
352 || (flag&(FLAG_u|FLAG_c|FLAG_s|FLAG_z)))
353 {
354 toys.exitval = 2;
355 error_exit("Unknown key option.");
356 }
357 // b after , means strip _trailing_ space, not leading.
358 if (idx && flag==FLAG_b) flag = FLAG_bb;
359 key->flags |= flag;
360 }
361 }
362 }
363 }
364
365 // global b flag strips both leading and trailing spaces
366 if (FLAG(b)) toys.optflags |= FLAG_bb;
367
368 // If no keys, perform alphabetic sort over the whole line.
369 if (!TT.key_list) add_key()->range[0] = 1;
370
371 // Open input files and read data, populating TT.lines[TT.linecount]
372 loopfiles(toys.optargs, sort_read);
373
374 // The compare (-c) logic was handled in sort_read(),
375 // so if we got here, we're done.
376 if (FLAG(c)) goto exit_now;
377
378 // Perform the actual sort
379 qsort(TT.lines, TT.linecount, sizeof(char *), compare_keys);
380
381 // handle unique (-u)
382 if (FLAG(u)) {
383 int jdx;
384
385 for (jdx=0, idx=1; idx<TT.linecount; idx++) {
386 if (!compare_keys(&TT.lines[jdx], &TT.lines[idx]))
387 free(TT.lines[idx]);
388 else TT.lines[++jdx] = TT.lines[idx];
389 }
390 if (TT.linecount) TT.linecount = jdx+1;
391 }
392
393 // Open output file if necessary. We can't do this until we've finished
394 // reading in case the output file is one of the input files.
395 if (TT.o) fd = xcreate(TT.o, O_CREAT|O_TRUNC|O_WRONLY, 0666);
396
397 // Output result
398 for (idx = 0; idx<TT.linecount; idx++) {
399 char *s = TT.lines[idx];
400 unsigned i = strlen(s);
401
402 if (!FLAG(z)) s[i] = '\n';
403 xwrite(fd, s, i+1);
404 if (CFG_TOYBOX_FREE) free(s);
405 }
406
407 exit_now:
408 if (CFG_TOYBOX_FREE) {
409 if (fd != 1) close(fd);
410 free(TT.lines);
411 }
412 }
413