295 lines
9.9 KiB
C
295 lines
9.9 KiB
C
/*
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*
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* Copyright 1994 Charles Blake and Michael K. Johnson
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* This file is a part of procps, which is distributable
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* under the conditions of the GNU Library General Public License.
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* See the file COPYING for details.
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*
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* Copyright 2002 Albert Cahalan
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*/
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#include <string.h> /* for strcmp */
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#include <stdio.h> /* for parse error output */
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#include "readproc.h" /* for proc_t */
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#include "compare.h" /* for this code */
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/*
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This module was written by Charles Blake for procps.
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mult_lvl_cmp:
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slick general purpose multi-level compare function I invented.
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sort_depth:
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the number of levels of functions *to use*. This means many more levels
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can be defined than mult_lvl_cmp tres out. If this is 1 then mult_lvl_cmp
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is just a trivial wrapper around (*sort_function[0]).
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sort_direction:
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multiplicative factor for the output of cmp_whatever.
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1 ==> default order, -1 ==> reverse order, 0 ==> forced equality
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The 0 bit is the neat part. Since a value of zero is the code for equality
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multiplying the output of cmp_foo(a,b) forces a==b to be true. This is a
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convenient way to turn sorting off in middle levels of a multi-level sort.
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If time is a problem, reforming the whole sort_function array to not include
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these unsorted middle levels will be faster since then cmp_foo won't even
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be called. It might simplify some code depending upon how you organize it.
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sort_function[]:
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array of function pointers that points to our family of comparison functions
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(I have named them cmp_* but mult_lvl_cmp doesn't care what they're named).
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This may be declared and initialized like so:
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int (*sort_function[])(void* a, void* b)={&cmp_foo, &cmp_bar, &cmp_hiho};
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You could also use my command line '-O' parser below.
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Note that we only descend levels until the order is determined. If we descend
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all levels, that means that the items are equal at all levels, so we return 0.
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Otherwise we return whatever the level's cmp_foo function would have returned.
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This allows whatever default behavior you want for cmp_foo. sort_direction[]
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reverses this default behavior, but mult_lvl_cmp doesn't decide that ascending
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or descending is the default. That is the job of your cmp_foo's.
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*/
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/* the only reason these are global is because qsort(3) likes it that way.
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It's also a little more efficient if mult_lvl_cmp() is called many times.
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*/
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static int sort_depth = 0;
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static int sort_direction[10]; /* storage for 10 levels, but 4 would be plenty!*/
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static int (*sort_function[10])(void* a, void* b);
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int mult_lvl_cmp(void* a, void* b) {
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int i, cmp_val;
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for(i = 0; i < sort_depth; i++) {
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cmp_val = sort_direction[i] * (*sort_function[i])(a,b);
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if (cmp_val != 0)
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return cmp_val;
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}
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return 0;
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}
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/* qsort(3) compliant comparison functions for all members of the ps_proc
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structure (in the same order in which they appear in the proc_t declaration)
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return is {-1,0,1} as {a<b, a==b, a>b}
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default ordering is ascending for all members. (flip 1,-1 to reverse)
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*/
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/* pre-processor macros to cut down on source size (and typing!)
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Note the use of the string concatenation operator ##
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*/
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#define CMP_STR(NAME) \
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static int cmp_ ## NAME(proc_t** P, proc_t** Q) { \
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return strcmp((*P)->NAME, (*Q)->NAME); \
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}
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#define CMP_INT(NAME) \
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static int cmp_ ## NAME (proc_t** P, proc_t** Q) { \
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if ((*P)->NAME < (*Q)->NAME) return -1; \
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if ((*P)->NAME > (*Q)->NAME) return 1; \
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return 0; \
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}
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/* Define the (46!) cmp_ functions with the above macros for every element
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of proc_t. If the binary gets too big, we could nuke inessentials.
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*/
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/* CMP_STR(cmdline) */
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/* CMP_STR(ruser) */
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CMP_STR(euser)
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CMP_STR(cmd)
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/* CMP_INT(state) */
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/* CMP_STR(ttyc) */
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CMP_INT(euid)
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CMP_INT(pid)
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CMP_INT(ppid)
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CMP_INT(pgrp)
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CMP_INT(session)
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CMP_INT(tty)
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CMP_INT(tpgid)
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CMP_INT(utime)
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CMP_INT(stime)
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CMP_INT(cutime)
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CMP_INT(cstime)
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/* CMP_INT(priority) */
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CMP_INT(nice)
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CMP_INT(start_time)
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/* CMP_INT(signal) */
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/* CMP_INT(blocked) */
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/* CMP_INT(sigignore) */
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/* CMP_INT(sigcatch) */
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CMP_INT(flags)
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CMP_INT(min_flt)
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CMP_INT(cmin_flt)
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CMP_INT(maj_flt)
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CMP_INT(cmaj_flt)
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/* CMP_INT(timeout) */
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CMP_INT(vsize)
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CMP_INT(rss)
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/* CMP_INT(rss_rlim) */
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/* CMP_INT(start_code) */
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/* CMP_INT(end_code) */
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/* CMP_INT(start_stack) */
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/* CMP_INT(kstk_esp) */
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/* CMP_INT(kstk_eip) */
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/* CMP_INT(wchan) */
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CMP_INT(pcpu)
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CMP_INT(size)
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CMP_INT(resident)
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CMP_INT(share)
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/* CMP_INT(trs) */
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/* CMP_INT(lrs) */
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/* CMP_INT(drs) */
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/* CMP_INT(dt) */
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/* define user interface to sort keys. Fairly self-explanatory. */
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static struct cmp_fun_struct {
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char letter; /* single option-letter for key */
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char name[15]; /* long option name for key */
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int (*fun)(proc_t**, proc_t**); /* pointer to cmp_key */
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} cmp[] = {
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/* { '?', "cmdline", &cmp_cmdline }, */
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{ 'u', "user", &cmp_euser },
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/* { '?', "ruser", &cmp_ruser }, */
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{ 'c', "cmd", &cmp_cmd },
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/* { '?', "state", &cmp_state }, */
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/* { '?', "ttyc", &cmp_ttyc }, */
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{ 'U', "uid", &cmp_euid },
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{ 'p', "pid", &cmp_pid },
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{ 'P', "ppid", &cmp_ppid },
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{ 'g', "pgrp", &cmp_pgrp },
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{ 'o', "session", &cmp_session },
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{ 't', "tty", &cmp_tty },
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{ 'G', "tpgid", &cmp_tpgid },
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{ 'k', "utime", &cmp_utime },
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{ 'K', "stime", &cmp_stime },
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{ 'j', "cutime", &cmp_cutime },
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{ 'J', "cstime", &cmp_cstime },
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/* { '?', "counter", &cmp_counter }, */
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{ 'y', "priority", &cmp_nice },
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{ 'T', "start_time", &cmp_start_time },
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/* { '?', "signal", &cmp_signal }, */
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/* { '?', "blocked", &cmp_blocked }, */
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/* { '?', "sigignore", &cmp_sigignore }, */
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/* { '?', "sigcatch", &cmp_sigcatch }, */
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{ 'f', "flags", &cmp_flags },
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{ 'm', "min_flt", &cmp_min_flt },
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{ 'n', "cmin_flt", &cmp_cmin_flt },
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{ 'M', "maj_flt", &cmp_maj_flt },
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{ 'N', "cmaj_flt", &cmp_cmaj_flt },
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/* { 'C', "timeout", &cmp_timeout }, */
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{ 'v', "vsize", &cmp_vsize },
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{ 'r', "rss", &cmp_rss },
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/* { '?', "rss_rlim", &cmp_rss_rlim }, */
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/* { '?', "start_code", &cmp_start_code }, */
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/* { '?', "end_code", &cmp_end_code }, */
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/* { '?', "start_stack", &cmp_start_stack }, */
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/* { '?', "kstk_esp", &cmp_kstk_esp }, */
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/* { '?', "kstk_eip", &cmp_kstk_eip }, */
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/* { '?', "wchan", &cmp_wchan }, */
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{ 'C', "pcpu", &cmp_pcpu },
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{ 's', "size", &cmp_size },
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{ 'R', "resident", &cmp_resident },
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{ 'S', "share", &cmp_share },
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/* { '?', "trs", &cmp_trs }, */
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/* { '?', "lrs", &cmp_lrs }, */
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/* { '?', "drs", &cmp_drs }, */
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/* { '?', "dt", &cmp_dt }, */
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{ '\0',"terminator", NULL }
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};
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/* command line option parsing. Assign sort_{depth,direction[],function[]}
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based upon a string of the form:
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[+-]a[+-]b[+-]c...
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with a,b,c,... being letter flags corresponding to a particular sort
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key and the optional '-' specifying a reverse sort on that key. + doesn't
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mean anything, but it keeps things looking balanced...
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*/
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const char *parse_sort_opt(const char* opt) {
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int i, next_dir=1;
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for(; *opt ; ++opt) {
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if (*opt == '-' || *opt == '+') {
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if (*opt == '-')
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next_dir = -1;
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opt++;
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continue;
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}
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for (i = 0; cmp[i].letter; i++)
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if (*opt == cmp[i].letter)
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break;
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if (!cmp[i].letter) { /* failed, clear and return */
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sort_depth=0;
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for (i=0;i<10;i++){
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sort_direction[i]=0;
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sort_function[i]=(cmp_t)NULL;
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}
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return "Unknown sort key.";
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} else {
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#ifdef DEBUG
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fprintf(stderr,
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"sort level %d: key %s, direction % d\n",
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sort_depth, cmp[i].name, next_dir);
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#endif
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sort_function[sort_depth] = (cmp_t)cmp[i].fun;
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sort_direction[sort_depth++] = next_dir;
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next_dir = 1;
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}
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}
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return NULL;
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}
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const char *parse_long_sort(const char* opt) {
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char* comma;
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int i, more_keys, next_dir=1;
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do {
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if (*opt == '-' || *opt == '+') {
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if (*opt == '-')
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next_dir = -1;
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more_keys = 1;
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opt++;
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continue;
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}
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more_keys = ((comma=index(opt,',')) != NULL);
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/* keys are ',' delimited */
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if (more_keys)
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*comma='\0'; /* terminate for strcmp() */
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for(i = 0; cmp[i].letter; ++i)
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if (strcmp(opt, cmp[i].name) == 0)
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break;
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if (!cmp[i].letter) { /* failed, clear and return */
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sort_depth=0;
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for (i=0;i<10;i++){
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sort_direction[i]=0;
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sort_function[i]=(cmp_t)NULL;
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}
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return "Unknown sort key.";
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} else {
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#ifdef DEBUG
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fprintf(stderr,
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"sort level %d: key %s, direction % d\n",
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sort_depth, cmp[i].name, next_dir);
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#endif
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sort_function[sort_depth] = (cmp_t)cmp[i].fun;
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sort_direction[sort_depth++] = next_dir;
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next_dir = 1;
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}
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opt = comma + 1; /* do next loop on next key, if more keys, else done*/
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} while (more_keys);
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return NULL;
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}
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void reset_sort_options (void)
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{
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int i;
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sort_depth=0;
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for (i=0;i<10;i++){
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sort_direction[i]=0;
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sort_function[i]=(cmp_t)NULL;
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}
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}
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void register_sort_function (int dir, cmp_t func)
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{
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sort_function[sort_depth] = func;
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sort_direction[sort_depth++] = dir;
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}
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