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nethack/src/o_init.c
nhmall 99a93fe50b some C99 changes 
Instead of using index() macro defined to strchr, use C99 strchr.
Instead of using rindex() macro defined to strrchr, use C99 strrchr.

If you want to try building on a platform that doesn't offer those
two functions, these are available:
    define NOT_C99       /* to make some non-C99 code available */
    define NEED_INDEX    /* to define a macro for index()  */
    define NEED_RINDX    /* to define a macro for rindex() */
2022-10-29 10:54:25 -04:00

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/* NetHack 3.7 o_init.c $NHDT-Date: 1646950588 2022/03/10 22:16:28 $ $NHDT-Branch: NetHack-3.7 $:$NHDT-Revision: 1.56 $ */
/* Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */
/*-Copyright (c) Robert Patrick Rankin, 2011. */
/* NetHack may be freely redistributed. See license for details. */
#include "hack.h"
static void setgemprobs(d_level *);
static void shuffle(int, int, boolean);
static void shuffle_all(void);
static boolean interesting_to_discover(int);
static int QSORTCALLBACK discovered_cmp(const genericptr, const genericptr);
static char *oclass_to_name(char, char *);
#ifdef USE_TILES
extern glyph_map glyphmap[MAX_GLYPH];
static void shuffle_tiles(void);
/* Shuffle tile assignments to match descriptions, so a red potion isn't
* displayed with a blue tile and so on.
*
* Tile assignments are not saved, and shouldn't be so that a game can
* be resumed on an otherwise identical non-tile-using binary, so we have
* to reshuffle the assignments from oc_descr_idx information when a game
* is restored. So might as well do that the first time instead of writing
* another routine.
*/
static void
shuffle_tiles(void)
{
int i;
short tmp_tilemap[2][NUM_OBJECTS];
for (i = 0; i < NUM_OBJECTS; i++) {
tmp_tilemap[0][i] = glyphmap[objects[i].oc_descr_idx + GLYPH_OBJ_OFF].tileidx;
tmp_tilemap[1][i] = glyphmap[objects[i].oc_descr_idx + GLYPH_OBJ_PILETOP_OFF].tileidx;
}
for (i = 0; i < NUM_OBJECTS; i++) {
glyphmap[i + GLYPH_OBJ_OFF].tileidx = tmp_tilemap[0][i];
glyphmap[i + GLYPH_OBJ_PILETOP_OFF].tileidx = tmp_tilemap[1][i];
}
}
#endif /* USE_TILES */
static void
setgemprobs(d_level* dlev)
{
int j, first, lev, sum = 0;
if (dlev)
lev = (ledger_no(dlev) > maxledgerno()) ? maxledgerno()
: ledger_no(dlev);
else
lev = 0;
first = g.bases[GEM_CLASS];
for (j = 0; j < 9 - lev / 3; j++)
objects[first + j].oc_prob = 0;
first += j;
if (first > LAST_GEM || objects[first].oc_class != GEM_CLASS
|| OBJ_NAME(objects[first]) == (char *) 0) {
raw_printf("Not enough gems? - first=%d j=%d LAST_GEM=%d", first, j,
LAST_GEM);
wait_synch();
}
for (j = first; j <= LAST_GEM; j++)
objects[j].oc_prob = (171 + j - first) / (LAST_GEM + 1 - first);
/* recompute GEM_CLASS total oc_prob - including rocks/stones */
for (j = g.bases[GEM_CLASS]; j < g.bases[GEM_CLASS + 1]; j++)
sum += objects[j].oc_prob;
g.oclass_prob_totals[GEM_CLASS] = sum;
}
/* shuffle descriptions on objects o_low to o_high */
static void
shuffle(int o_low, int o_high, boolean domaterial)
{
int i, j, num_to_shuffle;
short sw;
int color;
for (num_to_shuffle = 0, j = o_low; j <= o_high; j++)
if (!objects[j].oc_name_known)
num_to_shuffle++;
if (num_to_shuffle < 2)
return;
for (j = o_low; j <= o_high; j++) {
if (objects[j].oc_name_known)
continue;
do
i = j + rn2(o_high - j + 1);
while (objects[i].oc_name_known);
sw = objects[j].oc_descr_idx;
objects[j].oc_descr_idx = objects[i].oc_descr_idx;
objects[i].oc_descr_idx = sw;
sw = objects[j].oc_tough;
objects[j].oc_tough = objects[i].oc_tough;
objects[i].oc_tough = sw;
color = objects[j].oc_color;
objects[j].oc_color = objects[i].oc_color;
objects[i].oc_color = color;
/* shuffle material */
if (domaterial) {
sw = objects[j].oc_material;
objects[j].oc_material = objects[i].oc_material;
objects[i].oc_material = sw;
}
}
}
void
init_objects(void)
{
int i, first, last, prevoclass;
char oclass;
#ifdef TEXTCOLOR
#define COPY_OBJ_DESCR(o_dst, o_src) \
o_dst.oc_descr_idx = o_src.oc_descr_idx, o_dst.oc_color = o_src.oc_color
#else
#define COPY_OBJ_DESCR(o_dst, o_src) o_dst.oc_descr_idx = o_src.oc_descr_idx
#endif
/* bug fix to prevent "initialization error" abort on Intel Xenix.
* reported by mikew@semike
*/
for (i = 0; i <= MAXOCLASSES; i++)
g.bases[i] = 0;
/* initialize object descriptions */
for (i = 0; i < NUM_OBJECTS; i++)
objects[i].oc_name_idx = objects[i].oc_descr_idx = i;
/* init base; if probs given check that they add up to 1000,
otherwise compute probs */
first = 0;
prevoclass = -1;
while (first < NUM_OBJECTS) {
oclass = objects[first].oc_class;
/*
* objects[] sanity check: must be in ascending oc_class order to
* be able to use bases[class+1]-1 for the end of a class's range.
* Also catches a non-contiguous class because reverting to any
* earlier class would involve switching back to a lower class
* number after having moved on to one or more other classes.
*/
if ((int) oclass < prevoclass)
panic("objects[%d] class #%d not in order!", first, oclass);
last = first + 1;
while (last < NUM_OBJECTS && objects[last].oc_class == oclass)
last++;
g.bases[(int) oclass] = first;
if (oclass == GEM_CLASS) {
setgemprobs((d_level *) 0);
if (rn2(2)) { /* change turquoise from green to blue? */
COPY_OBJ_DESCR(objects[TURQUOISE], objects[SAPPHIRE]);
}
if (rn2(2)) { /* change aquamarine from green to blue? */
COPY_OBJ_DESCR(objects[AQUAMARINE], objects[SAPPHIRE]);
}
switch (rn2(4)) { /* change fluorite from violet? */
case 0:
break;
case 1: /* blue */
COPY_OBJ_DESCR(objects[FLUORITE], objects[SAPPHIRE]);
break;
case 2: /* white */
COPY_OBJ_DESCR(objects[FLUORITE], objects[DIAMOND]);
break;
case 3: /* green */
COPY_OBJ_DESCR(objects[FLUORITE], objects[EMERALD]);
break;
}
}
first = last;
prevoclass = (int) oclass;
}
/* extra entry allows deriving the range of a class via
bases[class] through bases[class+1]-1 for all classes */
g.bases[MAXOCLASSES] = NUM_OBJECTS;
/* hypothetically someone might remove all objects of some class,
or be adding a new class and not populated it yet, leaving gaps
in bases[]; guarantee that there are no such gaps */
for (last = MAXOCLASSES - 1; last >= 0; --last)
if (!g.bases[last])
g.bases[last] = g.bases[last + 1];
/* check objects[].oc_name_known */
for (i = 0; i < NUM_OBJECTS; ++i) {
int nmkn = objects[i].oc_name_known != 0;
if (!OBJ_DESCR(objects[i]) ^ nmkn) {
if (iflags.sanity_check) {
impossible(
"obj #%d (%s) name is %s despite%s alternate description",
i, OBJ_NAME(objects[i]),
nmkn ? "pre-known" : "not known",
nmkn ? "" : " no");
}
/* repair the mistake and keep going */
objects[i].oc_name_known = nmkn ? 0 : 1;
}
}
/* compute oclass_prob_totals */
init_oclass_probs();
/* shuffle descriptions */
shuffle_all();
#ifdef USE_TILES
shuffle_tiles();
#endif
objects[WAN_NOTHING].oc_dir = rn2(2) ? NODIR : IMMEDIATE;
}
/* Compute the total probability of each object class.
* Assumes g.bases[] has already been set. */
void
init_oclass_probs(void)
{
int i;
short sum;
int oclass;
for (oclass = 0; oclass < MAXOCLASSES; ++oclass) {
sum = 0;
for (i = g.bases[oclass]; i < g.bases[oclass + 1]; ++i) {
sum += objects[i].oc_prob;
}
if (sum <= 0 && oclass != ILLOBJ_CLASS
&& g.bases[oclass] != g.bases[oclass + 1]) {
impossible("zero or negative probability total for oclass %d",
oclass);
/* gracefully fail by setting all members of this class to 1 */
for (i = g.bases[oclass]; i < g.bases[oclass + 1]; ++i) {
objects[i].oc_prob = 1;
sum++;
}
}
g.oclass_prob_totals[oclass] = sum;
}
}
/* retrieve the range of objects that otyp shares descriptions with */
void
obj_shuffle_range(
int otyp, /* input: representative item */
int *lo_p, int *hi_p) /* output: range that item belongs among */
{
int i, ocls = objects[otyp].oc_class;
/* default is just the object itself */
*lo_p = *hi_p = otyp;
switch (ocls) {
case ARMOR_CLASS:
if (otyp >= HELMET && otyp <= HELM_OF_TELEPATHY)
*lo_p = HELMET, *hi_p = HELM_OF_TELEPATHY;
else if (otyp >= LEATHER_GLOVES && otyp <= GAUNTLETS_OF_DEXTERITY)
*lo_p = LEATHER_GLOVES, *hi_p = GAUNTLETS_OF_DEXTERITY;
else if (otyp >= CLOAK_OF_PROTECTION && otyp <= CLOAK_OF_DISPLACEMENT)
*lo_p = CLOAK_OF_PROTECTION, *hi_p = CLOAK_OF_DISPLACEMENT;
else if (otyp >= SPEED_BOOTS && otyp <= LEVITATION_BOOTS)
*lo_p = SPEED_BOOTS, *hi_p = LEVITATION_BOOTS;
break;
case POTION_CLASS:
/* potion of water has the only fixed description */
*lo_p = g.bases[POTION_CLASS];
*hi_p = POT_WATER - 1;
break;
case AMULET_CLASS:
case SCROLL_CLASS:
case SPBOOK_CLASS:
/* exclude non-magic types and also unique ones */
*lo_p = g.bases[ocls];
for (i = *lo_p; objects[i].oc_class == ocls; i++)
if (objects[i].oc_unique || !objects[i].oc_magic)
break;
*hi_p = i - 1;
break;
case RING_CLASS:
case WAND_CLASS:
case VENOM_CLASS:
/* entire class */
*lo_p = g.bases[ocls];
*hi_p = g.bases[ocls + 1] - 1;
break;
}
/* artifact checking might ask about item which isn't part of any range
but fell within the classes that do have ranges specified above */
if (otyp < *lo_p || otyp > *hi_p)
*lo_p = *hi_p = otyp;
return;
}
/* randomize object descriptions */
static void
shuffle_all(void)
{
/* entire classes; obj_shuffle_range() handles their exceptions */
static char shuffle_classes[] = {
AMULET_CLASS, POTION_CLASS, RING_CLASS, SCROLL_CLASS,
SPBOOK_CLASS, WAND_CLASS, VENOM_CLASS,
};
/* sub-class type ranges (one item from each group) */
static short shuffle_types[] = {
HELMET, LEATHER_GLOVES, CLOAK_OF_PROTECTION, SPEED_BOOTS,
};
int first, last, idx;
/* do whole classes (amulets, &c) */
for (idx = 0; idx < SIZE(shuffle_classes); idx++) {
obj_shuffle_range(g.bases[(int) shuffle_classes[idx]], &first, &last);
shuffle(first, last, TRUE);
}
/* do type ranges (helms, &c) */
for (idx = 0; idx < SIZE(shuffle_types); idx++) {
obj_shuffle_range(shuffle_types[idx], &first, &last);
shuffle(first, last, FALSE);
}
return;
}
/* Return TRUE if the provided string matches the unidentified description of
* the provided object. */
boolean
objdescr_is(struct obj* obj, const char * descr)
{
const char *objdescr;
if (!obj) {
impossible("objdescr_is: null obj");
return FALSE;
}
objdescr = OBJ_DESCR(objects[obj->otyp]);
if (!objdescr)
return FALSE; /* no obj description, no match */
return !strcmp(objdescr, descr);
}
/* level dependent initialization */
void
oinit(void)
{
setgemprobs(&u.uz);
}
void
savenames(NHFILE* nhfp)
{
int i;
unsigned int len;
if (perform_bwrite(nhfp)) {
if (nhfp->structlevel) {
bwrite(nhfp->fd, (genericptr_t)g.bases, sizeof g.bases);
bwrite(nhfp->fd, (genericptr_t)g.disco, sizeof g.disco);
bwrite(nhfp->fd, (genericptr_t)objects,
sizeof(struct objclass) * NUM_OBJECTS);
}
}
/* as long as we use only one version of Hack we
need not save oc_name and oc_descr, but we must save
oc_uname for all objects */
for (i = 0; i < NUM_OBJECTS; i++)
if (objects[i].oc_uname) {
if (perform_bwrite(nhfp)) {
len = Strlen(objects[i].oc_uname) + 1;
if (nhfp->structlevel) {
bwrite(nhfp->fd, (genericptr_t)&len, sizeof len);
bwrite(nhfp->fd, (genericptr_t)objects[i].oc_uname, len);
}
}
if (release_data(nhfp)) {
free((genericptr_t) objects[i].oc_uname);
objects[i].oc_uname = 0;
}
}
}
void
restnames(NHFILE* nhfp)
{
int i;
unsigned int len = 0;
if (nhfp->structlevel) {
mread(nhfp->fd, (genericptr_t) g.bases, sizeof g.bases);
mread(nhfp->fd, (genericptr_t) g.disco, sizeof g.disco);
mread(nhfp->fd, (genericptr_t) objects,
sizeof(struct objclass) * NUM_OBJECTS);
}
for (i = 0; i < NUM_OBJECTS; i++) {
if (objects[i].oc_uname) {
if (nhfp->structlevel) {
mread(nhfp->fd, (genericptr_t) &len, sizeof len);
}
objects[i].oc_uname = (char *) alloc(len);
if (nhfp->structlevel) {
mread(nhfp->fd, (genericptr_t)objects[i].oc_uname, len);
}
}
}
#ifdef USE_TILES
shuffle_tiles();
#endif
}
void
discover_object(int oindx, boolean mark_as_known, boolean credit_hero)
{
if (!objects[oindx].oc_name_known) {
register int dindx, acls = objects[oindx].oc_class;
/* Loop thru disco[] 'til we find the target (which may have been
uname'd) or the next open slot; one or the other will be found
before we reach the next class...
*/
for (dindx = g.bases[acls]; g.disco[dindx] != 0; dindx++)
if (g.disco[dindx] == oindx)
break;
g.disco[dindx] = oindx;
if (mark_as_known) {
objects[oindx].oc_name_known = 1;
if (credit_hero)
exercise(A_WIS, TRUE);
}
/* !in_moveloop => initial inventory, gameover => final disclosure */
if (g.program_state.in_moveloop && !g.program_state.gameover) {
if (objects[oindx].oc_class == GEM_CLASS)
gem_learned(oindx); /* could affect price of unpaid gems */
update_inventory();
}
}
}
/* if a class name has been cleared, we may need to purge it from disco[] */
void
undiscover_object(int oindx)
{
if (!objects[oindx].oc_name_known) {
register int dindx, acls = objects[oindx].oc_class;
register boolean found = FALSE;
/* find the object; shift those behind it forward one slot */
for (dindx = g.bases[acls]; dindx < NUM_OBJECTS && g.disco[dindx] != 0
&& objects[dindx].oc_class == acls;
dindx++)
if (found)
g.disco[dindx - 1] = g.disco[dindx];
else if (g.disco[dindx] == oindx)
found = TRUE;
/* clear last slot */
if (found)
g.disco[dindx - 1] = 0;
else
impossible("named object not in disco");
if (objects[oindx].oc_class == GEM_CLASS)
gem_learned(oindx); /* ok, it's actually been unlearned */
update_inventory();
}
}
static boolean
interesting_to_discover(int i)
{
/* Pre-discovered objects are now printed with a '*' */
return (boolean) (objects[i].oc_uname != (char *) 0
|| (objects[i].oc_name_known
&& OBJ_DESCR(objects[i]) != (char *) 0));
}
/* items that should stand out once they're known */
static const short uniq_objs[] = {
AMULET_OF_YENDOR, SPE_BOOK_OF_THE_DEAD, CANDELABRUM_OF_INVOCATION,
BELL_OF_OPENING,
};
/* discoveries qsort comparison function */
static int QSORTCALLBACK
discovered_cmp(const genericptr v1, const genericptr v2)
{
const char *s1 = *(const char **) v1;
const char *s2 = *(const char **) v2;
/* each element starts with "* " or " " but we don't sort by those */
int res = strcmpi(s1 + 2, s2 + 2);
if (res == 0) {
; /* no tie-breaker needed */
}
return res;
}
static char *
sortloot_descr(int otyp,char * outbuf)
{
Loot sl_cookie;
struct obj o;
o = cg.zeroobj;
o.otyp = otyp;
o.oclass = objects[otyp].oc_class;
o.dknown = 1;
o.known = (objects[otyp].oc_name_known || !objects[otyp].oc_uses_known)
? 1 : 0;
o.corpsenm = NON_PM; /* suppress statue and figurine details */
/* but suppressing fruit details leads to "bad fruit #0" */
if (otyp == SLIME_MOLD)
o.spe = g.context.current_fruit;
(void) memset((genericptr_t) &sl_cookie, 0, sizeof sl_cookie);
sl_cookie.obj = (struct obj *) 0;
sl_cookie.str = (char *) 0;
loot_classify(&sl_cookie, &o);
Sprintf(outbuf, "%02d%02d%1d ",
sl_cookie.orderclass, sl_cookie.subclass, sl_cookie.disco);
return outbuf;
}
#define DISCO_BYCLASS 0 /* by discovery order within each class */
#define DISCO_SORTLOOT 1 /* by discovery order within each subclass */
#define DISCO_ALPHABYCLASS 2 /* alphabetized within each class */
#define DISCO_ALPHABETIZED 3 /* alphabetized across all classes */
/* also used in options.c (optfn_sortdiscoveries) */
const char disco_order_let[] = "osca";
const char *const disco_orders_descr[] = {
"by order of discovery within each class",
"sortloot order (by class with some sub-class groupings)",
"alphabetical within each class",
"alphabetical across all classes",
(char *) 0
};
int
choose_disco_sort(
int mode) /* 0 => 'O' cmd, 1 => full discoveries; 2 => class discoveries */
{
winid tmpwin;
menu_item *selected;
anything any;
int i, n, choice;
int clr = 0;
tmpwin = create_nhwindow(NHW_MENU);
start_menu(tmpwin, MENU_BEHAVE_STANDARD);
any = cg.zeroany; /* zero out all bits */
for (i = 0; disco_orders_descr[i]; ++i) {
any.a_int = disco_order_let[i];
add_menu(tmpwin, &nul_glyphinfo, &any, (char) any.a_int,
0, ATR_NONE, clr,
disco_orders_descr[i],
(disco_order_let[i] == flags.discosort)
? MENU_ITEMFLAGS_SELECTED
: MENU_ITEMFLAGS_NONE);
}
if (mode == 2) {
/* called via 'm `' where full alphabetize doesn't make sense
(only showing one class so can't span all classes) but the
chosen sort will stick and also apply to '\' usage */
any = cg.zeroany;
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0, ATR_NONE, clr,
"", MENU_ITEMFLAGS_NONE);
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0, ATR_NONE, clr,
"Note: full alphabetical and alphabetical within class",
MENU_ITEMFLAGS_NONE);
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0, ATR_NONE, clr,
" are equivalent for single class discovery, but",
MENU_ITEMFLAGS_NONE);
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0, ATR_NONE, clr,
" will matter for future use of total discoveries.",
MENU_ITEMFLAGS_NONE);
}
end_menu(tmpwin, "Ordering of discoveries");
n = select_menu(tmpwin, PICK_ONE, &selected);
destroy_nhwindow(tmpwin);
if (n > 0) {
choice = selected[0].item.a_int;
/* skip preselected entry if we have more than one item chosen */
if (n > 1 && choice == (int) flags.discosort)
choice = selected[1].item.a_int;
free((genericptr_t) selected);
flags.discosort = choice;
}
return n;
}
/* the #known command - show discovered object types */
int
dodiscovered(void) /* free after Robert Viduya */
{
winid tmpwin;
char *s, *p, oclass, prev_class,
classes[MAXOCLASSES], buf[BUFSZ],
*sorted_lines[NUM_OBJECTS]; /* overkill */
int i, j, dis, ct, uniq_ct, arti_ct, sorted_ct;
long sortindx; // should be ptrdiff_t, but we don't require that exists
boolean alphabetized, alphabyclass, lootsort;
if (!flags.discosort || !(p = strchr(disco_order_let, flags.discosort)))
flags.discosort = 'o';
if (iflags.menu_requested) {
if (choose_disco_sort(1) < 0)
return ECMD_OK;
}
alphabyclass = (flags.discosort == 'c');
alphabetized = (flags.discosort == 'a' || alphabyclass);
lootsort = (flags.discosort == 's');
sortindx = strchr(disco_order_let, flags.discosort) - disco_order_let;
tmpwin = create_nhwindow(NHW_MENU);
Sprintf(buf, "Discoveries, %s", disco_orders_descr[sortindx]);
putstr(tmpwin, 0, buf);
putstr(tmpwin, 0, "");
/* gather "unique objects" into a pseudo-class; note that they'll
also be displayed individually within their regular class */
uniq_ct = 0;
for (i = dis = 0; i < SIZE(uniq_objs); i++)
if (objects[uniq_objs[i]].oc_name_known) {
if (!dis++)
putstr(tmpwin, iflags.menu_headings, "Unique items");
++uniq_ct;
Sprintf(buf, " %s", OBJ_NAME(objects[uniq_objs[i]]));
putstr(tmpwin, 0, buf);
}
/* display any known artifacts as another pseudo-class */
arti_ct = disp_artifact_discoveries(tmpwin);
/* several classes are omitted from packorder; one is of interest here */
Strcpy(classes, flags.inv_order);
if (!strchr(classes, VENOM_CLASS))
(void) strkitten(classes, VENOM_CLASS); /* append char to string */
ct = uniq_ct + arti_ct;
sorted_ct = 0;
for (s = classes; *s; s++) {
oclass = *s;
prev_class = oclass + 1; /* forced different from oclass */
for (i = g.bases[(int) oclass];
i < NUM_OBJECTS && objects[i].oc_class == oclass; i++) {
if ((dis = g.disco[i]) != 0 && interesting_to_discover(dis)) {
ct++;
if (oclass != prev_class) {
if ((alphabyclass || lootsort) && sorted_ct) {
/* output previous class */
qsort(sorted_lines, sorted_ct, sizeof (char *),
discovered_cmp);
for (j = 0; j < sorted_ct; ++j) {
p = sorted_lines[j];
if (lootsort) {
p[6] = p[0]; /* '*' or ' ' */
p += 6;
}
putstr(tmpwin, 0, p);
free(sorted_lines[j]), sorted_lines[j] = 0;
}
sorted_ct = 0;
}
if (!alphabetized || alphabyclass) {
/* header for new class */
putstr(tmpwin, iflags.menu_headings,
let_to_name(oclass, FALSE, FALSE));
prev_class = oclass;
}
}
Strcpy(buf, objects[dis].oc_pre_discovered ? "* " : " ");
if (lootsort)
(void) sortloot_descr(dis, &buf[2]);
Strcat(buf, obj_typename(dis));
if (!alphabetized && !lootsort)
putstr(tmpwin, 0, buf);
else
sorted_lines[sorted_ct++] = dupstr(buf);
}
}
}
if (ct == 0) {
You("haven't discovered anything yet...");
} else {
if (sorted_ct) {
/* if we're alphabetizing by class, we've already shown the
relevant header above; if we're alphabetizing across all
classes, we normally don't need a header; but it we showed
any unique items or any artifacts then we do need one */
if ((uniq_ct || arti_ct) && alphabetized && !alphabyclass)
putstr(tmpwin, iflags.menu_headings, "Discovered items");
qsort(sorted_lines, sorted_ct, sizeof (char *), discovered_cmp);
for (j = 0; j < sorted_ct; ++j) {
p = sorted_lines[j];
if (lootsort) {
p[6] = p[0]; /* '*' or ' ' */
p += 6;
}
putstr(tmpwin, 0, p);
free(sorted_lines[j]), sorted_lines[j] = 0;
}
}
display_nhwindow(tmpwin, TRUE);
}
destroy_nhwindow(tmpwin);
return ECMD_OK;
}
/* lower case let_to_name() output, which differs from def_oc_syms[].name */
static char *
oclass_to_name(char oclass, char *buf)
{
char *s;
Strcpy(buf, let_to_name(oclass, FALSE, FALSE));
for (s = buf; *s; ++s)
*s = lowc(*s);
return buf;
}
/* the #knownclass command - show discovered object types for one class */
int
doclassdisco(void)
{
static NEARDATA const char
prompt[] = "View discoveries for which sort of objects?",
havent_discovered_any[] = "haven't discovered any %s yet.",
unique_items[] = "unique items",
artifact_items[] = "artifacts";
winid tmpwin = WIN_ERR;
menu_item *pick_list = 0;
anything any;
char *p, *s, c, oclass, menulet, allclasses[MAXOCLASSES],
discosyms[2 + MAXOCLASSES + 1], buf[BUFSZ],
*sorted_lines[NUM_OBJECTS]; /* overkill */
int i, ct, dis, xtras, sorted_ct;
boolean traditional, alphabetized, lootsort;
int clr = 0;
if (!flags.discosort || !(p = strchr(disco_order_let, flags.discosort)))
flags.discosort = 'o';
if (iflags.menu_requested) {
if (choose_disco_sort(2) < 0)
return ECMD_OK;
}
alphabetized = (flags.discosort == 'a' || flags.discosort == 'c');
lootsort = (flags.discosort == 's');
discosyms[0] = '\0';
traditional = (flags.menu_style == MENU_TRADITIONAL
|| flags.menu_style == MENU_COMBINATION);
if (!traditional) {
tmpwin = create_nhwindow(NHW_MENU);
start_menu(tmpwin, MENU_BEHAVE_STANDARD);
}
any = cg.zeroany;
menulet = 'a';
/* check whether we've discovered any unique objects */
for (i = 0; i < SIZE(uniq_objs); i++)
if (objects[uniq_objs[i]].oc_name_known) {
Strcat(discosyms, "u");
if (!traditional) {
any.a_int = 'u';
add_menu(tmpwin, &nul_glyphinfo, &any, menulet++,
0, ATR_NONE, clr, unique_items, MENU_ITEMFLAGS_NONE);
}
break;
}
/* check whether we've discovered any artifacts */
if (disp_artifact_discoveries(WIN_ERR) > 0) {
Strcat(discosyms, "a");
if (!traditional) {
any.a_int = 'a';
add_menu(tmpwin, &nul_glyphinfo, &any, menulet++,
0, ATR_NONE, clr, artifact_items, MENU_ITEMFLAGS_NONE);
}
}
/* collect classes with discoveries, in packorder ordering; several
classes are omitted from packorder and one is of interest here */
Strcpy(allclasses, flags.inv_order);
if (!strchr(allclasses, VENOM_CLASS))
(void) strkitten(allclasses, VENOM_CLASS); /* append char to string */
/* construct discosyms[] */
for (s = allclasses; *s; ++s) {
oclass = *s;
c = def_oc_syms[(int) oclass].sym;
for (i = g.bases[(int) oclass];
i < NUM_OBJECTS && objects[i].oc_class == oclass; ++i)
if ((dis = g.disco[i]) != 0 && interesting_to_discover(dis)) {
if (!strchr(discosyms, c)) {
Sprintf(eos(discosyms), "%c", c);
if (!traditional) {
any.a_int = c;
add_menu(tmpwin, &nul_glyphinfo, &any,
menulet++, c, ATR_NONE, clr,
oclass_to_name(oclass, buf),
MENU_ITEMFLAGS_NONE);
}
}
}
}
/* there might not be anything for us to do... */
if (!discosyms[0]) {
You(havent_discovered_any, "items");
if (tmpwin != WIN_ERR)
destroy_nhwindow(tmpwin);
return ECMD_OK;
}
/* have player choose a class */
c = '\0'; /* class not chosen yet */
if (traditional) {
char allclasses_plustwo[sizeof allclasses + 2];
/* we'll prompt even if there's only one viable class; we add all
nonviable classes as unseen acceptable choices so player can ask
for discoveries of any class whether it has discoveries or not */
Sprintf(allclasses_plustwo, "%s%c%c", allclasses, 'u', 'a');
for (s = allclasses_plustwo, xtras = 0; *s; ++s) {
c = (*s == 'u' || *s == 'a') ? *s : def_oc_syms[(int) *s].sym;
if (!strchr(discosyms, c)) {
if (!xtras++)
(void) strkitten(discosyms, '\033');
(void) strkitten(discosyms, c);
}
}
/* get the class (via its symbol character) */
c = yn_function(prompt, discosyms, '\0', TRUE);
if (!c)
clear_nhwindow(WIN_MESSAGE);
} else {
/* menustyle:full or menustyle:partial */
if (!discosyms[1] && flags.menu_style == MENU_PARTIAL) {
/* only one class; menustyle:partial normally jumps past class
filtering straight to final menu so skip class filter here */
c = discosyms[0];
} else {
/* more than one choice, or menustyle:full which normally has
an intermediate class selection menu before the final menu */
end_menu(tmpwin, prompt);
i = select_menu(tmpwin, PICK_ONE, &pick_list);
if (i > 0) {
c = pick_list[0].item.a_int;
free((genericptr_t) pick_list);
} /* else c stays 0 */
}
destroy_nhwindow(tmpwin);
}
if (!c)
return ECMD_OK; /* player declined to make a selection */
/*
* show discoveries for object class c
*/
tmpwin = create_nhwindow(NHW_MENU);
ct = 0;
switch (c) {
case 'u':
putstr(tmpwin, iflags.menu_headings,
upstart(strcpy(buf, unique_items)));
for (i = 0; i < SIZE(uniq_objs); i++)
if (objects[uniq_objs[i]].oc_name_known) {
++ct;
Sprintf(buf, " %s", OBJ_NAME(objects[uniq_objs[i]]));
putstr(tmpwin, 0, buf);
}
if (!ct)
You(havent_discovered_any, unique_items);
break;
case 'a':
/* note: this will work all the time for menustyle traditional
but requires at least one artifact discovery for other styles
[could fix that by forcing the 'a' choice into the pick-class
menu when running in wizard mode] */
if (wizard && yn("Dump information about all artifacts?") == 'y') {
dump_artifact_info(tmpwin);
ct = NROFARTIFACTS; /* non-zero vs zero is what matters below */
break;
}
/* disp_artifact_discoveries() includes a header */
ct = disp_artifact_discoveries(tmpwin);
if (!ct)
You(havent_discovered_any, artifact_items);
break;
default:
oclass = def_char_to_objclass(c);
Sprintf(buf, "Discovered %s in %s", let_to_name(oclass, FALSE, FALSE),
(flags.discosort == 'o') ? "order of discovery"
: (flags.discosort == 's') ? "'sortloot' order"
: "alphabetical order");
putstr(tmpwin, 0, buf); /* skip iflags.menu_headings */
sorted_ct = 0;
for (i = g.bases[(int) oclass]; i <= g.bases[oclass + 1] - 1; ++i) {
if ((dis = g.disco[i]) != 0 && interesting_to_discover(dis)) {
++ct;
Strcpy(buf, objects[dis].oc_pre_discovered ? "* " : " ");
if (lootsort)
(void) sortloot_descr(dis, &buf[2]);
Strcat(buf, obj_typename(dis));
if (!alphabetized && !lootsort)
putstr(tmpwin, 0, buf);
else
sorted_lines[sorted_ct++] = dupstr(buf);
}
}
if (!ct) {
You(havent_discovered_any, oclass_to_name(oclass, buf));
} else if (sorted_ct) {
qsort(sorted_lines, sorted_ct, sizeof (char *), discovered_cmp);
for (i = 0; i < sorted_ct; ++i) {
p = sorted_lines[i];
if (lootsort) {
p[6] = p[0]; /* '*' or ' ' */
p += 6;
}
putstr(tmpwin, 0, p);
free(sorted_lines[i]), sorted_lines[i] = 0;
}
}
break;
}
if (ct)
display_nhwindow(tmpwin, TRUE);
destroy_nhwindow(tmpwin);
return ECMD_OK;
}
/* put up nameable subset of discoveries list as a menu */
void
rename_disco(void)
{
register int i, dis;
int ct = 0, mn = 0, sl;
char *s, oclass, prev_class;
winid tmpwin;
anything any;
menu_item *selected = 0;
int clr = 0;
any = cg.zeroany;
tmpwin = create_nhwindow(NHW_MENU);
start_menu(tmpwin, MENU_BEHAVE_STANDARD);
/*
* Skip the "unique objects" section (each will appear within its
* regular class if it is nameable) and the artifacts section.
* We assume that classes omitted from packorder aren't nameable
* so we skip venom too.
*/
/* for each class, show discoveries in that class */
for (s = flags.inv_order; *s; s++) {
oclass = *s;
prev_class = oclass + 1; /* forced different from oclass */
for (i = g.bases[(int) oclass];
i < NUM_OBJECTS && objects[i].oc_class == oclass; i++) {
dis = g.disco[i];
if (!dis || !interesting_to_discover(dis))
continue;
ct++;
if (!objtyp_is_callable(dis))
continue;
mn++;
if (oclass != prev_class) {
any.a_int = 0;
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0,
iflags.menu_headings, clr,
let_to_name(oclass, FALSE, FALSE),
MENU_ITEMFLAGS_NONE);
prev_class = oclass;
}
any.a_int = dis;
add_menu(tmpwin, &nul_glyphinfo, &any, 0, 0,
ATR_NONE, clr,
obj_typename(dis), MENU_ITEMFLAGS_NONE);
}
}
if (ct == 0) {
You("haven't discovered anything yet...");
} else if (mn == 0) {
pline("None of your discoveries can be assigned names...");
} else {
end_menu(tmpwin, "Pick an object type to name");
dis = STRANGE_OBJECT;
sl = select_menu(tmpwin, PICK_ONE, &selected);
if (sl > 0) {
dis = selected[0].item.a_int;
free((genericptr_t) selected);
}
if (dis != STRANGE_OBJECT) {
struct obj odummy;
odummy = cg.zeroobj;
odummy.otyp = dis;
odummy.oclass = objects[dis].oc_class;
odummy.quan = 1L;
odummy.known = !objects[dis].oc_uses_known;
odummy.dknown = 1;
docall(&odummy);
}
}
destroy_nhwindow(tmpwin);
return;
}
/*o_init.c*/
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