/* sort.c - put input lines into order * * Copyright 2004, 2008 Rob Landley * * See http://opengroup.org/onlinepubs/007904975/utilities/sort.html * * Deviations from POSIX: Lots. * We invented -x USE_SORT(NEWTOY(sort, USE_SORT_FLOAT("g")"S:T:m" "o:k*t:" "xVbMcszdfirun", TOYFLAG_USR|TOYFLAG_BIN)) config SORT bool "sort" default y help usage: sort [-runbcdfiMsz] [FILE...] [-k#[,#[x]] [-t X]] [-o FILE] Sort all lines of text from input files (or stdin) to stdout. -r Reverse -u Unique lines only -n Numeric order (instead of alphabetical) -b Ignore leading blanks (or trailing blanks in second part of key) -c Check whether input is sorted -d Dictionary order (use alphanumeric and whitespace chars only) -f Force uppercase (case insensitive sort) -i Ignore nonprinting characters -M Month sort (jan, feb, etc) -x Hexadecimal numerical sort -s Skip fallback sort (only sort with keys) -z Zero (null) terminated lines -k Sort by "key" (see below) -t Use a key separator other than whitespace -o Output to FILE instead of stdout -V Version numbers (name-1.234-rc6.5b.tgz) Sorting by key looks at a subset of the words on each line. -k2 uses the second word to the end of the line, -k2,2 looks at only the second word, -k2,4 looks from the start of the second to the end of the fourth word. -k2.4,5 starts from the fourth character of the second word, to the end of the fifth word. Specifying multiple keys uses the later keys as tie breakers, in order. A type specifier appended to a sort key (such as -2,2n) applies only to sorting that key. config SORT_FLOAT bool default y depends on TOYBOX_FLOAT help usage: sort [-g] -g General numeric sort (double precision with nan and inf) */ #define FOR_sort #include "toys.h" GLOBALS( char *t; struct arg_list *k; char *o, *T, S; void *key_list; int linecount; char **lines; ) // The sort types are n, g, and M. // u, c, s, and z apply to top level only, not to keys. // b at top level implies bb. // The remaining options can be applied to search keys. #define FLAG_bb (1<<31) // Ignore trailing blanks struct sort_key { struct sort_key *next_key; // linked list unsigned range[4]; // start word, start char, end word, end char int flags; }; // Copy of the part of this string corresponding to a key/flags. static char *get_key_data(char *str, struct sort_key *key, int flags) { int start=0, end, len, i, j; // Special case whole string, so we don't have to make a copy if(key->range[0]==1 && !key->range[1] && !key->range[2] && !key->range[3] && !(flags&(FLAG_b|FLAG_d|FLAG_i|FLAG_bb))) return str; // Find start of key on first pass, end on second pass len = strlen(str); for (j=0; j<2; j++) { if (!key->range[2*j]) end=len; // Loop through fields else { end=0; for (i=1; i < key->range[2*j]+j; i++) { // Skip leading blanks if (str[end] && !TT.t) while (isspace(str[end])) end++; // Skip body of key for (; str[end]; end++) { if (TT.t) { if (str[end]==*TT.t) { end++; break; } } else if (isspace(str[end])) break; } } } if (!j) start=end; } // Key with explicit separator starts after the separator if (TT.t && str[start]==*TT.t) start++; // Strip leading and trailing whitespace if necessary if ((flags&FLAG_b) || (!TT.t && !key->range[3])) while (isspace(str[start])) start++; if (flags&FLAG_bb) while (end>start && isspace(str[end-1])) end--; // Handle offsets on start and end if (key->range[3]) { end += key->range[3]-1; if (end>len) end=len; } if (key->range[1]) { start += key->range[1]-1; if (start>len) start=len; } // Make the copy if (endnext_key); return *pkey = xzalloc(sizeof(struct sort_key)); } // Perform actual comparison static int compare_values(int flags, char *x, char *y) { if (CFG_SORT_FLOAT && (flags & FLAG_g)) { char *xx,*yy; double dx = strtod(x,&xx), dy = strtod(y,&yy); int xinf, yinf; // not numbers < NaN < -infinity < numbers < +infinity if (x==xx) return y==yy ? 0 : -1; if (y==yy) return 1; // Check for isnan if (dx!=dx) return (dy!=dy) ? 0 : -1; if (dy!=dy) return 1; // Check for infinity. (Could underflow, but avoids needing libm.) xinf = (1.0/dx == 0.0); yinf = (1.0/dy == 0.0); if (xinf) { if(dx<0) return (yinf && dy<0) ? 0 : -1; return (yinf && dy>0) ? 0 : 1; } if (yinf) return dy<0 ? 1 : -1; return dx>dy ? 1 : (dxyy) return 1; } else { char xx = *x ? *x : x[-1], yy = *y ? *y : y[-1]; // -rc/-pre hack so abc-123 > abc-123-rc1 (other way already - < 0-9) if (xx != yy) { if (xxdy ? 1 : (dxnext_key){ flags = key->flags ? key->flags : toys.optflags; // Chop out and modify key chunks, handling -dfib x = get_key_data(xx, key, flags); y = get_key_data(yy, key, flags); retval = compare_values(flags, x, y); // Free the copies get_key_data() made. if (x != xx) free(x); if (y != yy) free(y); if (retval) break; } // Perform fallback sort if necessary (always case insensitive, no -f, // the point is to get a stable order even for -f sorts) if (!retval && !FLAG(s)) { flags = toys.optflags; retval = strcmp(xx, yy); } return retval * ((flags&FLAG_r) ? -1 : 1); } // Callback from loopfiles to handle input files. static void sort_read(int fd, char *name) { // Read each line from file, appending to a big array. for (;;) { char * line = FLAG(z) ? get_rawline(fd, NULL, 0) : get_line(fd); if (!line) break; // handle -c here so we don't allocate more memory than necessary. if (FLAG(c)) { int j = FLAG(u) ? -1 : 0; if (TT.lines && compare_keys((void *)&TT.lines, &line)>j) error_exit("%s: Check line %d\n", name, TT.linecount); free(TT.lines); TT.lines = (char **)line; } else { if (!(TT.linecount&63)) TT.lines = xrealloc(TT.lines, sizeof(char *)*(TT.linecount+64)); TT.lines[TT.linecount] = line; } TT.linecount++; } } void sort_main(void) { int idx, fd = 1; // Parse -k sort keys. if (TT.k) { struct arg_list *arg; for (arg = TT.k; arg; arg = arg->next) { struct sort_key *key = add_key(); char *temp; int flag; idx = 0; temp = arg->arg; while (*temp) { // Start of range key->range[2*idx] = (unsigned)strtol(temp, &temp, 10); if (*temp=='.') key->range[(2*idx)+1] = (unsigned)strtol(temp+1, &temp, 10); // Handle flags appended to a key type. for (;*temp;temp++) { char *temp2, *optlist; // Note that a second comma becomes an "Unknown key" error. if (*temp==',' && !idx++) { temp++; break; } // Which flag is this? optlist = toys.which->options; temp2 = strchr(optlist, *temp); flag = (1<<(optlist-temp2+strlen(optlist)-1)); // Was it a flag that can apply to a key? if (!temp2 || flag>FLAG_x || (flag&(FLAG_u|FLAG_c|FLAG_s|FLAG_z))) { error_exit("Unknown key option."); } // b after , means strip _trailing_ space, not leading. if (idx && flag==FLAG_b) flag = FLAG_bb; key->flags |= flag; } } } } // global b flag strips both leading and trailing spaces if (FLAG(b)) toys.optflags |= FLAG_bb; // If no keys, perform alphabetic sort over the whole line. if (!TT.key_list) add_key()->range[0] = 1; // Open input files and read data, populating TT.lines[TT.linecount] loopfiles(toys.optargs, sort_read); // The compare (-c) logic was handled in sort_read(), // so if we got here, we're done. if (FLAG(c)) goto exit_now; // Perform the actual sort qsort(TT.lines, TT.linecount, sizeof(char *), compare_keys); // handle unique (-u) if (FLAG(u)) { int jdx; for (jdx=0, idx=1; idx