/* vi: set sw=4 ts=4: */ /* * SuS3 compliant sort implementation for busybox * * Copyright (C) 2004 by Rob Landley * * MAINTAINER: Rob Landley * * Licensed under GPLv2 or later, see file LICENSE in this source tree. * * See SuS3 sort standard at: * http://www.opengroup.org/onlinepubs/007904975/utilities/sort.html */ //config:config SORT //config: bool "sort (7.7 kb)" //config: default y //config: help //config: sort is used to sort lines of text in specified files. //config: //config:config FEATURE_SORT_BIG //config: bool "Full SuSv3 compliant sort (support -ktcbdfiogM)" //config: default y //config: depends on SORT //config: help //config: Without this, sort only supports -rusz, and an integer version //config: of -n. Selecting this adds sort keys, floating point support, and //config: more. This adds a little over 3k to a nonstatic build on x86. //config: //config: The SuSv3 sort standard is available at: //config: http://www.opengroup.org/onlinepubs/007904975/utilities/sort.html //config: //config:config FEATURE_SORT_OPTIMIZE_MEMORY //config: bool "Use less memory (but might be slower)" //config: default n # defaults to N since we are size-paranoid tribe //config: depends on SORT //config: help //config: Attempt to use less memory (by storing only one copy //config: of duplicated lines, and such). Useful if you work on huge files. //applet:IF_SORT(APPLET_NOEXEC(sort, sort, BB_DIR_USR_BIN, BB_SUID_DROP, sort)) //kbuild:lib-$(CONFIG_SORT) += sort.o //usage:#define sort_trivial_usage //usage: "[-nru" //usage: IF_FEATURE_SORT_BIG("gMcszbdfiokt] [-o FILE] [-k START[.OFS][OPTS][,END[.OFS][OPTS]] [-t CHAR") //usage: "] [FILE]..." //usage:#define sort_full_usage "\n\n" //usage: "Sort lines of text\n" //usage: IF_FEATURE_SORT_BIG( //usage: "\n -o FILE Output to FILE" //usage: "\n -c Check whether input is sorted" //usage: "\n -b Ignore leading blanks" //usage: "\n -f Ignore case" //usage: "\n -i Ignore unprintable characters" //usage: "\n -d Dictionary order (blank or alphanumeric only)" //usage: ) //-h, --human-numeric-sort: compare human readable numbers (e.g., 2K 1G) //usage: "\n -n Sort numbers" //usage: IF_FEATURE_SORT_BIG( //usage: "\n -g General numerical sort" //usage: "\n -M Sort month" //usage: "\n -V Sort version" //usage: "\n -t CHAR Field separator" //usage: "\n -k N[,M] Sort by Nth field" //usage: ) //usage: "\n -r Reverse sort order" //usage: "\n -s Stable (don't sort ties alphabetically)" //usage: "\n -u Suppress duplicate lines" //usage: "\n -z Lines are terminated by NUL, not newline" ///////: "\n -m Ignored for GNU compatibility" ///////: "\n -S BUFSZ Ignored for GNU compatibility" ///////: "\n -T TMPDIR Ignored for GNU compatibility" //usage: //usage:#define sort_example_usage //usage: "$ echo -e \"e\\nf\\nb\\nd\\nc\\na\" | sort\n" //usage: "a\n" //usage: "b\n" //usage: "c\n" //usage: "d\n" //usage: "e\n" //usage: "f\n" //usage: IF_FEATURE_SORT_BIG( //usage: "$ echo -e \"c 3\\nb 2\\nd 2\" | $SORT -k 2,2n -k 1,1r\n" //usage: "d 2\n" //usage: "b 2\n" //usage: "c 3\n" //usage: ) //usage: "" #include "libbb.h" /* These are sort types */ enum { FLAG_n = 1 << 0, /* Numeric sort */ FLAG_g = 1 << 1, /* Sort using strtod() */ FLAG_M = 1 << 2, /* Sort date */ FLAG_V = 1 << 3, /* Sort version */ /* ucsz apply to root level only, not keys. b at root level implies bb */ FLAG_u = 1 << 4, /* Unique */ FLAG_c = 1 << 5, /* Check: no output, exit(!ordered) */ FLAG_s = 1 << 6, /* Stable sort, no ascii fallback at end */ FLAG_z = 1 << 7, /* Input and output is NUL terminated, not \n */ /* These can be applied to search keys, the previous four can't */ FLAG_b = 1 << 8, /* Ignore leading blanks */ FLAG_r = 1 << 9, /* Reverse */ FLAG_d = 1 << 10, /* Ignore !(isalnum()|isspace()) */ FLAG_f = 1 << 11, /* Force uppercase */ FLAG_i = 1 << 12, /* Ignore !isprint() */ FLAG_m = 1 << 13, /* ignored: merge already sorted files; do not sort */ FLAG_S = 1 << 14, /* ignored: -S, --buffer-size=SIZE */ FLAG_T = 1 << 15, /* ignored: -T, --temporary-directory=DIR */ FLAG_o = 1 << 16, FLAG_k = 1 << 17, FLAG_t = 1 << 18, FLAG_bb = 0x80000000, /* Ignore trailing blanks */ FLAG_no_tie_break = 0x40000000, }; static const char sort_opt_str[] ALIGN1 = "^" "ngMVucszbrdfimS:T:o:k:*t:" "\0" "o--o:t--t"/*-t, -o: at most one of each*/; /* * OPT_STR must not be string literal, needs to have stable address: * code uses "strchr(OPT_STR,c) - OPT_STR" idiom. */ #define OPT_STR (sort_opt_str + 1) #if ENABLE_FEATURE_SORT_BIG static char key_separator; static struct sort_key { struct sort_key *next_key; /* linked list */ unsigned range[4]; /* start word, start char, end word, end char */ unsigned flags; } *key_list; /* This is a NOEXEC applet. Be very careful! */ static char *get_key(char *str, struct sort_key *key, int flags) { int start = start; /* for compiler */ int end; int len, j; unsigned i; /* 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_f | 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 { unsigned char ch = 0; end = 0; for (i = 1; i < key->range[2*j] + j; i++) { if (key_separator) { /* Skip body of key and separator */ while ((ch = str[end]) != '\0') { end++; if (ch == key_separator) break; } } else { /* Skip leading blanks */ while (isspace(str[end])) end++; /* Skip body of key */ while (str[end] != '\0') { if (isspace(str[end])) break; end++; } } } /* Remove last delim: "abc:def:" => "abc:def" */ if (j && ch) { //if (str[end-1] != key_separator) // bb_error_msg(_and_die("BUG! " // "str[start:%d,end:%d]:'%.*s'", // start, end, (int)(end-start), &str[start]); end--; } } if (!j) start = end; } /* Strip leading whitespace if necessary */ if (flags & FLAG_b) /* not using skip_whitespace() for speed */ while (isspace(str[start])) start++; /* Strip trailing whitespace if necessary */ if (flags & FLAG_bb) while (end > start && isspace(str[end-1])) end--; /* -kSTART,N.ENDCHAR: honor ENDCHAR (1-based) */ if (key->range[3]) { end = key->range[3]; if (end > len) end = len; } /* -kN.STARTCHAR[,...]: honor STARTCHAR (1-based) */ if (key->range[1]) { start += key->range[1] - 1; if (start > len) start = len; } /* Make the copy */ if (end < start) end = start; str = xstrndup(str+start, end-start); /* Handle -d */ if (flags & FLAG_d) { for (start = end = 0; str[end]; end++) if (isspace(str[end]) || isalnum(str[end])) str[start++] = str[end]; str[start] = '\0'; } /* Handle -i */ if (flags & FLAG_i) { for (start = end = 0; str[end]; end++) if (isprint_asciionly(str[end])) str[start++] = str[end]; str[start] = '\0'; } /* Handle -f */ if (flags & FLAG_f) for (i = 0; str[i]; i++) str[i] = toupper(str[i]); return str; } static struct sort_key *add_key(void) { struct sort_key **pkey = &key_list; while (*pkey) pkey = &((*pkey)->next_key); return *pkey = xzalloc(sizeof(struct sort_key)); } #define GET_LINE(fp) \ ((option_mask32 & FLAG_z) \ ? bb_get_chunk_from_file(fp, NULL) \ : xmalloc_fgetline(fp)) #else #define GET_LINE(fp) xmalloc_fgetline(fp) #endif /* Iterate through keys list and perform comparisons */ static int compare_keys(const void *xarg, const void *yarg) { int flags = option_mask32, retval = 0; char *x, *y; #if ENABLE_FEATURE_SORT_BIG struct sort_key *key; for (key = key_list; !retval && key; key = key->next_key) { flags = key->flags ? key->flags : option_mask32; /* Chop out and modify key chunks, handling -dfib */ x = get_key(*(char **)xarg, key, flags); y = get_key(*(char **)yarg, key, flags); #else /* This curly bracket serves no purpose but to match the nesting * level of the for () loop we're not using */ { x = *(char **)xarg; y = *(char **)yarg; #endif /* Perform actual comparison */ switch (flags & (FLAG_n | FLAG_g | FLAG_M | FLAG_V)) { default: bb_simple_error_msg_and_die("unknown sort type"); break; #if defined(HAVE_STRVERSCMP) && HAVE_STRVERSCMP == 1 case FLAG_V: retval = strverscmp(x, y); break; #endif /* Ascii sort */ case 0: #if ENABLE_LOCALE_SUPPORT retval = strcoll(x, y); #else retval = strcmp(x, y); #endif break; #if ENABLE_FEATURE_SORT_BIG case FLAG_g: { char *xx, *yy; double dx = strtod(x, &xx); double dy = strtod(y, &yy); /* not numbers < NaN < -infinity < numbers < +infinity) */ if (x == xx) retval = (y == yy ? 0 : -1); else if (y == yy) retval = 1; /* Check for isnan */ else if (dx != dx) retval = (dy != dy) ? 0 : -1; else if (dy != dy) retval = 1; /* Check for infinity. Could underflow, but it avoids libm. */ else if (1.0 / dx == 0.0) { if (dx < 0) retval = (1.0 / dy == 0.0 && dy < 0) ? 0 : -1; else retval = (1.0 / dy == 0.0 && dy > 0) ? 0 : 1; } else if (1.0 / dy == 0.0) retval = (dy < 0) ? 1 : -1; else retval = (dx > dy) ? 1 : ((dx < dy) ? -1 : 0); break; } case FLAG_M: { struct tm thyme; int dx; char *xx, *yy; xx = strptime(x, "%b", &thyme); dx = thyme.tm_mon; yy = strptime(y, "%b", &thyme); if (!xx) retval = (!yy) ? 0 : -1; else if (!yy) retval = 1; else retval = dx - thyme.tm_mon; break; } /* Full floating point version of -n */ case FLAG_n: { double dx = atof(x); double dy = atof(y); retval = (dx > dy) ? 1 : ((dx < dy) ? -1 : 0); break; } } /* switch */ /* Free key copies. */ if (x != *(char **)xarg) free(x); if (y != *(char **)yarg) free(y); /* if (retval) break; - done by for () anyway */ #else /* Integer version of -n for tiny systems */ case FLAG_n: retval = atoi(x) - atoi(y); break; } /* switch */ #endif } /* for */ if (retval == 0) { /* So far lines are "the same" */ if (option_mask32 & FLAG_s) { /* "Stable sort": later line is "greater than", * IOW: do not allow qsort() to swap equal lines. */ uint32_t *p32; uint32_t x32, y32; char *line; unsigned len; line = *(char**)xarg; len = (strlen(line) + 4) & (~3u); p32 = (void*)(line + len); x32 = *p32; line = *(char**)yarg; len = (strlen(line) + 4) & (~3u); p32 = (void*)(line + len); y32 = *p32; /* If x > y, 1, else -1 */ retval = (x32 > y32) * 2 - 1; } else if (!(option_mask32 & FLAG_no_tie_break)) { /* fallback sort */ flags = option_mask32; retval = strcmp(*(char **)xarg, *(char **)yarg); } } if (flags & FLAG_r) return -retval; return retval; } #if ENABLE_FEATURE_SORT_BIG static unsigned str2u(char **str) { unsigned long lu; if (!isdigit((*str)[0])) bb_simple_error_msg_and_die("bad field specification"); lu = strtoul(*str, str, 10); if ((sizeof(long) > sizeof(int) && lu > INT_MAX) || !lu) bb_simple_error_msg_and_die("bad field specification"); return lu; } #endif int sort_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int sort_main(int argc UNUSED_PARAM, char **argv) { char **lines; char *str_ignored, *str_o, *str_t; llist_t *lst_k = NULL; int i; int linecount; unsigned opts; #if ENABLE_FEATURE_SORT_OPTIMIZE_MEMORY bool can_drop_dups; size_t prev_len = 0; char *prev_line = (char*) ""; /* Postpone optimizing if the input is small, < 16k lines: * even just free()ing duplicate lines takes time. */ size_t count_to_optimize_dups = 0x3fff; #endif xfunc_error_retval = 2; /* Parse command line options */ opts = getopt32(argv, sort_opt_str, &str_ignored, &str_ignored, &str_o, &lst_k, &str_t ); #if ENABLE_FEATURE_SORT_OPTIMIZE_MEMORY /* Can drop dups only if -u but no "complicating" options, * IOW: if we do a full line compares. Safe options: * -o FILE Output to FILE * -z Lines are terminated by NUL, not newline * -r Reverse sort order * -s Stable (don't sort ties alphabetically) * Not sure about these: * -b Ignore leading blanks * -f Ignore case * -i Ignore unprintable characters * -d Dictionary order (blank or alphanumeric only) * -n Sort numbers * -g General numerical sort * -M Sort month */ can_drop_dups = ((opts & ~(FLAG_o|FLAG_z|FLAG_r|FLAG_s)) == FLAG_u); /* Stable sort needs every line to be uniquely allocated, * disable optimization to reuse strings: */ if (opts & FLAG_s) count_to_optimize_dups = (size_t)-1L; #endif /* global b strips leading and trailing spaces */ if (opts & FLAG_b) option_mask32 |= FLAG_bb; #if ENABLE_FEATURE_SORT_BIG if (opts & FLAG_t) { if (!str_t[0] || str_t[1]) bb_simple_error_msg_and_die("bad -t parameter"); key_separator = str_t[0]; } /* note: below this point we use option_mask32, not opts, * since that reduces register pressure and makes code smaller */ /* Parse sort key */ while (lst_k) { enum { FLAG_allowed_for_k = FLAG_n | /* Numeric sort */ FLAG_g | /* Sort using strtod() */ FLAG_M | /* Sort date */ FLAG_b | /* Ignore leading blanks */ FLAG_r | /* Reverse */ FLAG_d | /* Ignore !(isalnum()|isspace()) */ FLAG_f | /* Force uppercase */ FLAG_i | /* Ignore !isprint() */ 0 }; struct sort_key *key = add_key(); char *str_k = llist_pop(&lst_k); i = 0; /* i==0 before comma, 1 after (-k3,6) */ while (*str_k) { /* Start of range */ /* Cannot use bb_strtou - suffix can be a letter */ key->range[2*i] = str2u(&str_k); if (*str_k == '.') { str_k++; key->range[2*i+1] = str2u(&str_k); } while (*str_k) { int flag; const char *idx; if (*str_k == ',' && !i++) { str_k++; break; } /* no else needed: fall through to syntax error because comma isn't in OPT_STR */ idx = strchr(OPT_STR, *str_k); if (!idx) bb_simple_error_msg_and_die("unknown key option"); flag = 1 << (idx - OPT_STR); if (flag & ~FLAG_allowed_for_k) bb_simple_error_msg_and_die("unknown sort type"); /* b after ',' means strip _trailing_ space */ if (i && flag == FLAG_b) flag = FLAG_bb; key->flags |= flag; str_k++; } } } #endif /* Open input files and read data */ argv += optind; if (!*argv) *--argv = (char*)"-"; linecount = 0; lines = NULL; do { /* coreutils 6.9 compat: abort on first open error, * do not continue to next file: */ FILE *fp = xfopen_stdin(*argv); for (;;) { char *line = GET_LINE(fp); if (!line) break; #if ENABLE_FEATURE_SORT_OPTIMIZE_MEMORY if (count_to_optimize_dups != 0) count_to_optimize_dups--; if (count_to_optimize_dups == 0) { size_t len; char *new_line; /* On kernel/linux/arch/ *.[ch] files, * this reduces memory usage by 6%. * yes | head -99999999 | sort * goes down from 1900Mb to 380 Mb. */ len = strlen(line); if (len <= prev_len) { new_line = prev_line + (prev_len - len); if (strcmp(line, new_line) == 0) { /* it's a tail of the prev line */ if (can_drop_dups && prev_len == len) { /* it's identical to prev line */ free(line); continue; } free(line); line = new_line; /* continue using longer prev_line * for future tail tests. */ goto skip; } } prev_len = len; prev_line = line; skip: ; } #else //TODO: lighter version which only drops total dups if can_drop_dups == true #endif lines = xrealloc_vector(lines, 6, linecount); lines[linecount++] = line; } fclose_if_not_stdin(fp); } while (*++argv); #if ENABLE_FEATURE_SORT_BIG /* If no key, perform alphabetic sort */ if (!key_list) add_key()->range[0] = 1; /* Handle -c */ if (option_mask32 & FLAG_c) { int j = (option_mask32 & FLAG_u) ? -1 : 0; for (i = 1; i < linecount; i++) { if (compare_keys(&lines[i-1], &lines[i]) > j) { fprintf(stderr, "Check line %u\n", i); return EXIT_FAILURE; } } return EXIT_SUCCESS; } #endif /* For stable sort, store original line position beyond terminating NUL */ if (option_mask32 & FLAG_s) { for (i = 0; i < linecount; i++) { uint32_t *p32; char *line; unsigned len; line = lines[i]; len = (strlen(line) + 4) & (~3u); lines[i] = line = xrealloc(line, len + 4); p32 = (void*)(line + len); *p32 = i; } /*option_mask32 |= FLAG_no_tie_break;*/ /* ^^^redundant: if FLAG_s, compare_keys() does no tie break */ } /* Perform the actual sort */ qsort(lines, linecount, sizeof(lines[0]), compare_keys); /* Handle -u */ if (option_mask32 & FLAG_u) { int j = 0; /* coreutils 6.3 drop lines for which only key is the same * -- disabling last-resort compare, or else compare_keys() * will be the same only for completely identical lines. */ option_mask32 |= FLAG_no_tie_break; for (i = 1; i < linecount; i++) { if (compare_keys(&lines[j], &lines[i]) == 0) free(lines[i]); else lines[++j] = lines[i]; } if (linecount) linecount = j+1; } /* Print it */ #if ENABLE_FEATURE_SORT_BIG /* Open output file _after_ we read all input ones */ if (option_mask32 & FLAG_o) xmove_fd(xopen(str_o, O_WRONLY|O_CREAT|O_TRUNC), STDOUT_FILENO); #endif { int ch = (option_mask32 & FLAG_z) ? '\0' : '\n'; for (i = 0; i < linecount; i++) printf("%s%c", lines[i], ch); } fflush_stdout_and_exit(EXIT_SUCCESS); }