/* $OpenBSD: history.c,v 1.9 2003/05/01 21:11:21 avsm Exp $ */ /* $NetBSD: history.c,v 1.5 1997/04/11 17:52:46 christos Exp $ */ /*- * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Christos Zoulas of Cornell University. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #if !defined(lint) && !defined(SCCSID) #if 0 static char sccsid[] = "@(#)history.c 8.1 (Berkeley) 6/4/93"; #else static const char rcsid[] = "$OpenBSD: history.c,v 1.9 2003/05/01 21:11:21 avsm Exp $"; #endif #endif /* not lint && not SCCSID */ /* * hist.c: History access functions */ #include "sys.h" #include #include #include static const char hist_cookie[] = "_HiStOrY_V1_\n"; #include "histedit.h" typedef const HistEvent * (*history_gfun_t)(ptr_t); typedef const HistEvent * (*history_efun_t)(ptr_t, const char *); typedef void (*history_vfun_t)(ptr_t); struct history { ptr_t h_ref; /* Argument for history fcns */ history_gfun_t h_first; /* Get the first element */ history_gfun_t h_next; /* Get the next element */ history_gfun_t h_last; /* Get the last element */ history_gfun_t h_prev; /* Get the previous element */ history_gfun_t h_curr; /* Get the current element */ history_vfun_t h_clear; /* Clear the history list */ history_efun_t h_enter; /* Add an element */ history_efun_t h_add; /* Append to an element */ }; #define HNEXT(h) (*(h)->h_next)((h)->h_ref) #define HFIRST(h) (*(h)->h_first)((h)->h_ref) #define HPREV(h) (*(h)->h_prev)((h)->h_ref) #define HLAST(h) (*(h)->h_last)((h)->h_ref) #define HCURR(h) (*(h)->h_curr)((h)->h_ref) #define HCLEAR(h) (*(h)->h_clear)((h)->h_ref) #define HENTER(h, str) (*(h)->h_enter)((h)->h_ref, str) #define HADD(h, str) (*(h)->h_add)((h)->h_ref, str) #define h_malloc(a) malloc(a) #define h_free(a) free(a) private int history_set_num(History *, int); private int history_set_fun(History *, History *); private int history_load(History *, const char *); private int history_save(History *, const char *); private const HistEvent *history_prev_event(History *, int); private const HistEvent *history_next_event(History *, int); private const HistEvent *history_next_string(History *, const char *); private const HistEvent *history_prev_string(History *, const char *); /***********************************************************************/ /* * Builtin- history implementation */ typedef struct hentry_t { HistEvent ev; /* What we return */ struct hentry_t *next; /* Next entry */ struct hentry_t *prev; /* Previous entry */ } hentry_t; typedef struct history_t { hentry_t list; /* Fake list header element */ hentry_t *cursor; /* Current element in the list */ int max; /* Maximum number of events */ int cur; /* Current number of events */ int eventno; /* Current event number */ } history_t; private const HistEvent *history_def_first(ptr_t); private const HistEvent *history_def_last(ptr_t); private const HistEvent *history_def_next(ptr_t); private const HistEvent *history_def_prev(ptr_t); private const HistEvent *history_def_curr(ptr_t); private const HistEvent *history_def_enter(ptr_t, const char *); private const HistEvent *history_def_add(ptr_t, const char *); private void history_def_init(ptr_t *, int); private void history_def_clear(ptr_t); private const HistEvent *history_def_insert(history_t *, const char *); private void history_def_delete(history_t *, hentry_t *); #define history_def_set(p, num) (void)(((history_t *) p)->max = (num)) /* history_def_first(): * Default function to return the first event in the history. */ private const HistEvent * history_def_first(p) ptr_t p; { history_t *h = (history_t *) p; h->cursor = h->list.next; if (h->cursor != &h->list) return &h->cursor->ev; else return NULL; } /* history_def_last(): * Default function to return the last event in the history. */ private const HistEvent * history_def_last(p) ptr_t p; { history_t *h = (history_t *) p; h->cursor = h->list.prev; if (h->cursor != &h->list) return &h->cursor->ev; else return NULL; } /* history_def_next(): * Default function to return the next event in the history. */ private const HistEvent * history_def_next(p) ptr_t p; { history_t *h = (history_t *) p; if (h->cursor != &h->list) h->cursor = h->cursor->next; else return NULL; if (h->cursor != &h->list) return &h->cursor->ev; else return NULL; } /* history_def_prev(): * Default function to return the previous event in the history. */ private const HistEvent * history_def_prev(p) ptr_t p; { history_t *h = (history_t *) p; if (h->cursor != &h->list) h->cursor = h->cursor->prev; else return NULL; if (h->cursor != &h->list) return &h->cursor->ev; else return NULL; } /* history_def_curr(): * Default function to return the current event in the history. */ private const HistEvent * history_def_curr(p) ptr_t p; { history_t *h = (history_t *) p; if (h->cursor != &h->list) return &h->cursor->ev; else return NULL; } /* history_def_add(): * Append string to element */ private const HistEvent * history_def_add(p, str) ptr_t p; const char *str; { history_t *h = (history_t *) p; size_t len; char *s; if (h->cursor == &h->list) return (history_def_enter(p, str)); len = strlen(h->cursor->ev.str) + strlen(str) + 1; s = (char *) h_malloc(len); (void)strlcpy(s, h->cursor->ev.str, len); (void)strlcat(s, str, len); h_free((ptr_t) h->cursor->ev.str); h->cursor->ev.str = s; return &h->cursor->ev; } /* history_def_delete(): * Delete element hp of the h list */ private void history_def_delete(h, hp) history_t *h; hentry_t *hp; { if (hp == &h->list) abort(); hp->prev->next = hp->next; hp->next->prev = hp->prev; h_free((ptr_t) hp->ev.str); h_free(hp); h->cur--; } /* history_def_insert(): * Insert element with string str in the h list */ private const HistEvent * history_def_insert(h, str) history_t *h; const char *str; { h->cursor = (hentry_t *) h_malloc(sizeof(hentry_t)); h->cursor->ev.str = strdup(str); h->cursor->next = h->list.next; h->cursor->prev = &h->list; h->list.next->prev = h->cursor; h->list.next = h->cursor; h->cur++; return &h->cursor->ev; } /* history_def_enter(): * Default function to enter an item in the history */ private const HistEvent * history_def_enter(p, str) ptr_t p; const char *str; { history_t *h = (history_t *) p; const HistEvent *ev; ev = history_def_insert(h, str); ((HistEvent*) ev)->num = ++h->eventno; /* * Always keep at least one entry. * This way we don't have to check for the empty list. */ while (h->cur > h->max + 1) history_def_delete(h, h->list.prev); return ev; } /* history_def_init(): * Default history initialization function */ private void history_def_init(p, n) ptr_t *p; int n; { history_t *h = (history_t *) h_malloc(sizeof(history_t)); if (n <= 0) n = 0; h->eventno = 0; h->cur = 0; h->max = n; h->list.next = h->list.prev = &h->list; h->list.ev.str = NULL; h->list.ev.num = 0; h->cursor = &h->list; *p = (ptr_t) h; } /* history_def_clear(): * Default history cleanup function */ private void history_def_clear(p) ptr_t p; { history_t *h = (history_t *) p; while (h->list.prev != &h->list) history_def_delete(h, h->list.prev); h->eventno = 0; h->cur = 0; } /************************************************************************/ /* history_init(): * Initialization function. */ public History * history_init() { History *h = (History *) h_malloc(sizeof(History)); history_def_init(&h->h_ref, 0); h->h_next = history_def_next; h->h_first = history_def_first; h->h_last = history_def_last; h->h_prev = history_def_prev; h->h_curr = history_def_curr; h->h_clear = history_def_clear; h->h_enter = history_def_enter; h->h_add = history_def_add; return h; } /* history_end(): * clean up history; */ public void history_end(h) History *h; { if (h->h_next == history_def_next) history_def_clear(h->h_ref); } /* history_set_num(): * Set history number of events */ private int history_set_num(h, num) History *h; int num; { if (h->h_next != history_def_next || num < 0) return -1; history_def_set(h->h_ref, num); return 0; } /* history_set_fun(): * Set history functions */ private int history_set_fun(h, nh) History *h, *nh; { if (nh->h_first == NULL || nh->h_next == NULL || nh->h_last == NULL || nh->h_prev == NULL || nh->h_curr == NULL || nh->h_enter == NULL || nh->h_add == NULL || nh->h_clear == NULL || nh->h_ref == NULL) { if (h->h_next != history_def_next) { history_def_init(&h->h_ref, 0); h->h_first = history_def_first; h->h_next = history_def_next; h->h_last = history_def_last; h->h_prev = history_def_prev; h->h_curr = history_def_curr; h->h_clear = history_def_clear; h->h_enter = history_def_enter; h->h_add = history_def_add; } return -1; } if (h->h_next == history_def_next) history_def_clear(h->h_ref); h->h_first = nh->h_first; h->h_next = nh->h_next; h->h_last = nh->h_last; h->h_prev = nh->h_prev; h->h_curr = nh->h_curr; h->h_clear = nh->h_clear; h->h_enter = nh->h_enter; h->h_add = nh->h_add; return 0; } /* history_load(): * History load function */ private int history_load(h, fname) History *h; const char *fname; { FILE *fp; char *line; size_t sz; int i = -1; if ((fp = fopen(fname, "r")) == NULL) return i; if ((line = fgetln(fp, &sz)) == NULL) goto done; if (strncmp(line, hist_cookie, sz) != 0) goto done; for (i = 0; (line = fgetln(fp, &sz)) != NULL; i++) { char c = line[sz]; line[sz] = '\0'; HENTER(h, line); line[sz] = c; } done: (void)fclose(fp); return i; } /* history_save(): * History save function */ private int history_save(h, fname) History *h; const char *fname; { FILE *fp; const HistEvent *ev; int i = 0; if ((fp = fopen(fname, "w")) == NULL) return -1; (void)fputs(hist_cookie, fp); for (ev = HLAST(h); ev != NULL; ev = HPREV(h), i++) (void)fprintf(fp, "%s", ev->str); (void)fclose(fp); return i; } /* history_prev_event(): * Find the previous event, with number given */ private const HistEvent * history_prev_event(h, num) History *h; int num; { const HistEvent *ev; for (ev = HCURR(h); ev != NULL; ev = HPREV(h)) if (ev->num == num) return ev; return NULL; } /* history_next_event(): * Find the next event, with number given */ private const HistEvent * history_next_event(h, num) History *h; int num; { const HistEvent *ev; for (ev = HCURR(h); ev != NULL; ev = HNEXT(h)) if (ev->num == num) return ev; return NULL; } /* history_prev_string(): * Find the previous event beginning with string */ private const HistEvent * history_prev_string(h, str) History *h; const char* str; { const HistEvent *ev; size_t len = strlen(str); for (ev = HCURR(h); ev != NULL; ev = HNEXT(h)) if (strncmp(str, ev->str, len) == 0) return ev; return NULL; } /* history_next_string(): * Find the next event beginning with string */ private const HistEvent * history_next_string(h, str) History *h; const char* str; { const HistEvent *ev; size_t len = strlen(str); for (ev = HCURR(h); ev != NULL; ev = HPREV(h)) if (strncmp(str, ev->str, len) == 0) return ev; return NULL; } /* history(): * User interface to history functions. */ const HistEvent * history(History *h, int fun, ...) { va_list va; const HistEvent *ev = NULL; const char *str; static HistEvent sev = { 0, "" }; va_start(va, fun); switch (fun) { case H_ADD: str = va_arg(va, const char *); ev = HADD(h, str); break; case H_ENTER: str = va_arg(va, const char *); ev = HENTER(h, str); break; case H_FIRST: ev = HFIRST(h); break; case H_NEXT: ev = HNEXT(h); break; case H_LAST: ev = HLAST(h); break; case H_PREV: ev = HPREV(h); break; case H_CURR: ev = HCURR(h); break; case H_CLEAR: HCLEAR(h); break; case H_LOAD: sev.num = history_load(h, va_arg(va, const char *)); ev = &sev; break; case H_SAVE: sev.num = history_save(h, va_arg(va, const char *)); ev = &sev; break; case H_PREV_EVENT: ev = history_prev_event(h, va_arg(va, int)); break; case H_NEXT_EVENT: ev = history_next_event(h, va_arg(va, int)); break; case H_PREV_STR: ev = history_prev_string(h, va_arg(va, const char*)); break; case H_NEXT_STR: ev = history_next_string(h, va_arg(va, const char*)); break; case H_EVENT: if (history_set_num(h, va_arg(va, int)) == 0) { sev.num = -1; ev = &sev; } break; case H_FUNC: { History hf; hf.h_ref = va_arg(va, ptr_t); hf.h_first = va_arg(va, history_gfun_t); hf.h_next = va_arg(va, history_gfun_t); hf.h_last = va_arg(va, history_gfun_t); hf.h_prev = va_arg(va, history_gfun_t); hf.h_curr = va_arg(va, history_gfun_t); hf.h_clear = va_arg(va, history_vfun_t); hf.h_enter = va_arg(va, history_efun_t); hf.h_add = va_arg(va, history_efun_t); if (history_set_fun(h, &hf) == 0) { sev.num = -1; ev = &sev; } } break; case H_END: history_end(h); break; default: break; } va_end(va); return ev; }