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open-adventure/main.c
NHOrus 63152e6714 Broke all logical or into multiline statement to show lcov's lies 
Results are weird, some things that need to be checked aren't and
at least my local lcov doesn't show them as unchecked
2017-07-03 07:20:37 +03:00

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/*
* There used to be a note that said this:
*
* The author - Don Woods - apologises for the style of the code; it
* is a result of running the original Fortran IV source through a
* home-brew Fortran-to-C converter.
*
* Now that the code has been restructured into something much closer
* to idiomatic C, the following is more appropriate:
*
* ESR apologizes for the remaing gotos (now confined to one function
* in this file - there used to be over 350 of them, *everywhere*),
* and for the offensive globals. Applying the Structured Program
* Theorem can be hard.
*/
#include <stdlib.h>
#include <stdio.h>
#include <stdbool.h>
#include <getopt.h>
#include <signal.h>
#include <string.h>
#include "advent.h"
#include "dungeon.h"
#define DIM(a) (sizeof(a)/sizeof(a[0]))
// LCOV_EXCL_START
// exclude from coverage analysis because it requires interactivity to test
static void sig_handler(int signo)
{
if (signo == SIGINT) {
if (settings.logfp != NULL)
fflush(settings.logfp);
}
exit(EXIT_FAILURE);
}
// LCOV_EXCL_STOP
/*
* MAIN PROGRAM
*
* Adventure (rev 2: 20 treasures)
* History: Original idea & 5-treasure version (adventures) by Willie Crowther
* 15-treasure version (adventure) by Don Woods, April-June 1977
* 20-treasure version (rev 2) by Don Woods, August 1978
* Errata fixed: 78/12/25
* Revived 2017 as Open Adventure.
*/
static bool do_command(void);
int main(int argc, char *argv[])
{
int ch;
/* Options. */
#ifndef ADVENT_NOSAVE
const char* opts = "l:or:";
const char* usage = "Usage: %s [-l logfilename] [-o] [-r restorefilename]\n";
FILE *rfp = NULL;
#else
const char* opts = "l:o";
const char* usage = "Usage: %s [-l logfilename] [-o]\n";
#endif
while ((ch = getopt(argc, argv, opts)) != EOF) {
switch (ch) {
case 'l':
settings.logfp = fopen(optarg, "w");
if (settings.logfp == NULL)
fprintf(stderr,
"advent: can't open logfile %s for write\n",
optarg);
signal(SIGINT, sig_handler);
break;
case 'o':
settings.oldstyle = true;
settings.prompt = false;
break;
#ifndef ADVENT_NOSAVE
case 'r':
rfp = fopen(optarg, "r");
if (rfp == NULL)
fprintf(stderr,
"advent: can't open save file %s for read\n",
optarg);
signal(SIGINT, sig_handler);
break;
#endif
default:
fprintf(stderr,
usage, argv[0]);
fprintf(stderr,
" -l create a log file of your game named as specified'\n");
fprintf(stderr,
" -o 'oldstyle' (no prompt, no command editing, displays 'Initialising...')\n");
#ifndef ADVENT_NOSAVE
fprintf(stderr,
" -r restore from specified saved game file\n");
#endif
exit(EXIT_FAILURE);
break;
}
}
/* Initialize game variables */
long seedval = initialise();
#ifndef ADVENT_NOSAVE
if (!rfp) {
game.novice = yes(arbitrary_messages[WELCOME_YOU], arbitrary_messages[CAVE_NEARBY], arbitrary_messages[NO_MESSAGE]);
if (game.novice)
game.limit = NOVICELIMIT;
} else {
restore(rfp);
}
#endif
if (settings.logfp)
fprintf(settings.logfp, "seed %ld\n", seedval);
/* interpret commands until EOF or interrupt */
for (;;) {
if (!do_command())
break;
}
/* show score and exit */
terminate(quitgame);
}
static bool fallback_handler(char *buf)
/* fallback handler for commands not handled by FORTRANish parser */
{
long sv;
if (sscanf(buf, "seed %ld", &sv) == 1) {
set_seed(sv);
printf("Seed set to %ld\n", sv);
// autogenerated, so don't charge user time for it.
--game.turns;
return true;
}
return false;
}
/* Check if this loc is eligible for any hints. If been here long
* enough, display. Ignore "HINTS" < 4 (special stuff, see database
* notes). */
static void checkhints(void)
{
if (conditions[game.loc] >= game.conds) {
for (int hint = 0; hint < NHINTS; hint++) {
if (game.hinted[hint])
continue;
if (!CNDBIT(game.loc, hint + 1 + COND_HBASE))
game.hintlc[hint] = -1;
++game.hintlc[hint];
/* Come here if he's been long enough at required loc(s) for some
* unused hint. */
if (game.hintlc[hint] >= hints[hint].turns) {
int i;
switch (hint) {
case 0:
/* cave */
if (game.prop[GRATE] == GRATE_CLOSED && !HERE(KEYS))
break;
game.hintlc[hint] = 0;
return;
case 1: /* bird */
if (game.place[BIRD] == game.loc && TOTING(ROD) && game.oldobj == BIRD)
break;
return;
case 2: /* snake */
if (HERE(SNAKE) && !HERE(BIRD))
break;
game.hintlc[hint] = 0;
return;
case 3: /* maze */
if (game.atloc[game.loc] == 0 &&
game.atloc[game.oldloc] == 0 &&
game.atloc[game.oldlc2] == 0 &&
game.holdng > 1)
break;
game.hintlc[hint] = 0;
return;
case 4: /* dark */
if (game.prop[EMERALD] != STATE_NOTFOUND && game.prop[PYRAMID] == STATE_NOTFOUND)
break;
game.hintlc[hint] = 0;
return;
case 5: /* witt */
break;
case 6: /* urn */
if (game.dflag == 0)
break;
game.hintlc[hint] = 0;
return;
case 7: /* woods */
if (game.atloc[game.loc] == 0 &&
game.atloc[game.oldloc] == 0 &&
game.atloc[game.oldlc2] == 0)
break;
return;
case 8: /* ogre */
i = atdwrf(game.loc);
if (i < 0) {
game.hintlc[hint] = 0;
return;
}
if (HERE(OGRE) && i == 0)
break;
return;
case 9: /* jade */
if (game.tally == 1 && game.prop[JADE] < 0)
break;
game.hintlc[hint] = 0;
return;
default:
BUG(HINT_NUMBER_EXCEEDS_GOTO_LIST); // LCOV_EXCL_LINE
break;
}
/* Fall through to hint display */
game.hintlc[hint] = 0;
if (!yes(hints[hint].question, arbitrary_messages[NO_MESSAGE], arbitrary_messages[OK_MAN]))
return;
rspeak(HINT_COST, hints[hint].penalty, hints[hint].penalty);
game.hinted[hint] = yes(arbitrary_messages[WANT_HINT], hints[hint].hint, arbitrary_messages[OK_MAN]);
if (game.hinted[hint] && game.limit > WARNTIME)
game.limit += WARNTIME * hints[hint].penalty;
}
}
}
}
static bool spotted_by_pirate(int i)
{
if (i != PIRATE)
return false;
/* The pirate's spotted him. He leaves him alone once we've
* found chest. K counts if a treasure is here. If not, and
* tally=1 for an unseen chest, let the pirate be spotted. Note
* that game.place[CHEST] = LOC_NOWHERE might mean that he's thrown
* it to the troll, but in that case he's seen the chest
* (game.prop=0). */
if (game.loc == game.chloc ||
game.prop[CHEST] >= 0)
return true;
int snarfed = 0;
bool movechest = false, robplayer = false;
for (int treasure = 1; treasure <= NOBJECTS; treasure++) {
if (!objects[treasure].is_treasure)
continue;
/* Pirate won't take pyramid from plover room or dark
* room (too easy!). */
if (treasure == PYRAMID && (game.loc == objects[PYRAMID].plac ||
game.loc == objects[EMERALD].plac)) {
continue;
}
if (TOTING(treasure) ||
HERE(treasure))
++snarfed;
if (TOTING(treasure)) {
movechest = true;
robplayer = true;
}
}
/* Force chest placement before player finds last treasure */
if (game.tally == 1 && snarfed == 0 && game.place[CHEST] == LOC_NOWHERE && HERE(LAMP) && game.prop[LAMP] == LAMP_BRIGHT) {
rspeak(PIRATE_SPOTTED);
movechest = true;
}
/* Do things in this order (chest move before robbery) so chest is listed
* last at the maze location. */
if (movechest) {
move(CHEST, game.chloc);
move(MESSAG, game.chloc2);
game.dloc[PIRATE] = game.chloc;
game.odloc[PIRATE] = game.chloc;
game.dseen[PIRATE] = false;
} else {
/* You might get a hint of the pirate's presence even if the
* chest doesn't move... */
if (game.odloc[PIRATE] != game.dloc[PIRATE] && PCT(20))
rspeak(PIRATE_RUSTLES);
}
if (robplayer) {
rspeak(PIRATE_POUNCES);
for (int treasure = 1; treasure <= NOBJECTS; treasure++) {
if (!objects[treasure].is_treasure)
continue;
if (!(treasure == PYRAMID && (game.loc == objects[PYRAMID].plac ||
game.loc == objects[EMERALD].plac))) {
if (AT(treasure) && game.fixed[treasure] == 0)
carry(treasure, game.loc);
if (TOTING(treasure))
drop(treasure, game.chloc);
}
}
}
return true;
}
static bool dwarfmove(void)
/* Dwarves move. Return true if player survives, false if he dies. */
{
int kk, stick, attack;
long tk[21];
/* Dwarf stuff. See earlier comments for description of
* variables. Remember sixth dwarf is pirate and is thus
* very different except for motion rules. */
/* First off, don't let the dwarves follow him into a pit or
* a wall. Activate the whole mess the first time he gets as
* far as the hall of mists (loc 15). If game.newloc is
* forbidden to pirate (in particular, if it's beyond the
* troll bridge), bypass dwarf stuff. That way pirate can't
* steal return toll, and dwarves can't meet the bear. Also
* means dwarves won't follow him into dead end in maze, but
* c'est la vie. They'll wait for him outside the dead
* end. */
if (game.loc == 0 ||
FORCED(game.loc) ||
CNDBIT(game.newloc, COND_NOARRR))
return true;
/* Dwarf activity level ratchets up */
if (game.dflag == 0) {
if (INDEEP(game.loc))
game.dflag = 1;
return true;
}
/* When we encounter the first dwarf, we kill 0, 1, or 2 of
* the 5 dwarves. If any of the survivors is at loc,
* replace him with the alternate. */
if (game.dflag == 1) {
if (!INDEEP(game.loc) ||
(PCT(95) && (!CNDBIT(game.loc, COND_NOBACK) ||
PCT(85))))
return true;
game.dflag = 2;
for (int i = 1; i <= 2; i++) {
int j = 1 + randrange(NDWARVES - 1);
if (PCT(50))
game.dloc[j] = 0;
}
/* Alternate initial loc for dwarf, in case one of them
* starts out on top of the adventurer. */
for (int i = 1; i <= NDWARVES - 1; i++) {
if (game.dloc[i] == game.loc)
game.dloc[i] = DALTLC; //
game.odloc[i] = game.dloc[i];
}
rspeak(DWARF_RAN);
drop(AXE, game.loc);
return true;
}
/* Things are in full swing. Move each dwarf at random,
* except if he's seen us he sticks with us. Dwarves stay
* deep inside. If wandering at random, they don't back up
* unless there's no alternative. If they don't have to
* move, they attack. And, of course, dead dwarves don't do
* much of anything. */
game.dtotal = 0;
attack = 0;
stick = 0;
for (int i = 1; i <= NDWARVES; i++) {
if (game.dloc[i] == 0)
continue;
/* Fill tk array with all the places this dwarf might go. */
unsigned int j = 1;
kk = tkey[game.dloc[i]];
if (kk != 0)
do {
game.newloc = travel[kk].dest;
/* Have we avoided a dwarf encounter? */
if (SPECIAL(game.newloc))
continue;
else if (!INDEEP(game.newloc))
continue;
else if (game.newloc == game.odloc[i])
continue;
else if (j > 1 && game.newloc == tk[j - 1])
continue;
else if (j >= DIM(tk) - 1)
continue;
else if (game.newloc == game.dloc[i])
continue;
else if (FORCED(game.newloc))
continue;
else if (i == PIRATE && CNDBIT(game.newloc, COND_NOARRR))
continue;
else if (travel[kk].nodwarves)
continue;
tk[j++] = game.newloc;
} while
(!travel[kk++].stop);
tk[j] = game.odloc[i];
if (j >= 2)
--j;
j = 1 + randrange(j);
game.odloc[i] = game.dloc[i];
game.dloc[i] = tk[j];
game.dseen[i] = (game.dseen[i] && INDEEP(game.loc)) ||
(game.dloc[i] == game.loc ||
game.odloc[i] == game.loc);
if (!game.dseen[i])
continue;
game.dloc[i] = game.loc;
if (spotted_by_pirate(i))
continue;
/* This threatening little dwarf is in the room with him! */
++game.dtotal;
if (game.odloc[i] == game.dloc[i]) {
++attack;
if (game.knfloc >= 0)
game.knfloc = game.loc;
if (randrange(1000) < 95 * (game.dflag - 2))
++stick;
}
}
/* Now we know what's happening. Let's tell the poor sucker about it.
* Note that various of the "knife" messages must have specific relative
* positions in the rspeak database. */
if (game.dtotal == 0)
return true;
rspeak(game.dtotal == 1 ? DWARF_SINGLE : DWARF_PACK, game.dtotal);
if (attack == 0)
return true;
if (game.dflag == 2)
game.dflag = 3;
if (attack > 1) {
rspeak(THROWN_KNIVES, attack);
rspeak(stick > 1 ? MULTIPLE_HITS : (stick == 1 ? ONE_HIT : NONE_HIT), stick);
} else {
rspeak(KNIFE_THROWN);
rspeak(MISSES_YOU);
}
if (stick == 0)
return true;
game.oldlc2 = game.loc;
return false;
}
/* "You're dead, Jim."
*
* If the current loc is zero, it means the clown got himself killed.
* We'll allow this maxdie times. NDEATHS is automatically set based
* on the number of snide messages available. Each death results in
* a message (obituaries[n]) which offers reincarnation; if accepted,
* this results in message obituaries[0], obituaries[2], etc. The
* last time, if he wants another chance, he gets a snide remark as
* we exit. When reincarnated, all objects being carried get dropped
* at game.oldlc2 (presumably the last place prior to being killed)
* without change of props. The loop runs backwards to assure that
* the bird is dropped before the cage. (This kluge could be changed
* once we're sure all references to bird and cage are done by
* keywords.) The lamp is a special case (it wouldn't do to leave it
* in the cave). It is turned off and left outside the building (only
* if he was carrying it, of course). He himself is left inside the
* building (and heaven help him if he tries to xyzzy back into the
* cave without the lamp!). game.oldloc is zapped so he can't just
* "retreat". */
static void croak(void)
/* Okay, he's dead. Let's get on with it. */
{
const char* query = obituaries[game.numdie].query;
const char* yes_response = obituaries[game.numdie].yes_response;
++game.numdie;
if (game.closng) {
/* He died during closing time. No resurrection. Tally up a
* death and exit. */
rspeak(DEATH_CLOSING);
terminate(endgame);
} else if (game.numdie == NDEATHS ||
!yes(query, yes_response, arbitrary_messages[OK_MAN]))
terminate(endgame);
else {
game.place[WATER] = game.place[OIL] = LOC_NOWHERE;
if (TOTING(LAMP))
game.prop[LAMP] = LAMP_DARK;
for (int j = 1; j <= NOBJECTS; j++) {
int i = NOBJECTS + 1 - j;
if (TOTING(i)) {
/* Always leave lamp where it's accessible aboveground */
drop(i, (i == LAMP) ? LOC_START : game.oldlc2);
}
}
game.loc = LOC_BUILDING;
game.oldloc = game.loc;
}
}
static bool traveleq(long a, long b)
/* Are two travel entries equal for purposes of skip after failed condition? */
{
return (travel[a].cond == travel[b].cond)
&& (travel[a].dest == travel[b].dest);
}
/* Given the current location in "game.loc", and a motion verb number in
* "motion", put the new location in "game.newloc". The current loc is saved
* in "game.oldloc" in case he wants to retreat. The current
* game.oldloc is saved in game.oldlc2, in case he dies. (if he
* does, game.newloc will be limbo, and game.oldloc will be what killed
* him, so we need game.oldlc2, which is the last place he was
* safe.) */
static bool playermove( int motion)
{
int scratchloc, travel_entry = tkey[game.loc];
game.newloc = game.loc;
if (travel_entry == 0)
BUG(LOCATION_HAS_NO_TRAVEL_ENTRIES); // LCOV_EXCL_LINE
if (motion == NUL)
return true;
else if (motion == BACK) {
/* Handle "go back". Look for verb which goes from game.loc to
* game.oldloc, or to game.oldlc2 If game.oldloc has forced-motion.
* te_tmp saves entry -> forced loc -> previous loc. */
motion = game.oldloc;
if (FORCED(motion))
motion = game.oldlc2;
game.oldlc2 = game.oldloc;
game.oldloc = game.loc;
int spk = 0;
if (motion == game.loc)
spk = FORGOT_PATH;
if (CNDBIT(game.loc, COND_NOBACK))
spk = TWIST_TURN;
if (spk == 0) {
int te_tmp = 0;
for (;;) {
scratchloc = travel[travel_entry].dest;
if (scratchloc != motion) {
if (!SPECIAL(scratchloc)) {
if (FORCED(scratchloc) && travel[tkey[scratchloc]].dest == motion)
te_tmp = travel_entry;
}
if (!travel[travel_entry].stop) {
++travel_entry; /* go to next travel entry for this location */
continue;
}
/* we've reached the end of travel entries for game.loc */
travel_entry = te_tmp;
if (travel_entry == 0) {
rspeak(NOT_CONNECTED);
return true;
}
}
motion = travel[travel_entry].motion;
travel_entry = tkey[game.loc];
break; /* fall through to ordinary travel */
}
} else {
rspeak(spk);
return true;
}
} else if (motion == LOOK) {
/* Look. Can't give more detail. Pretend it wasn't dark
* (though it may now be dark) so he won't fall into a
* pit while staring into the gloom. */
if (game.detail < 3)
rspeak(NO_MORE_DETAIL);
++game.detail;
game.wzdark = false;
game.abbrev[game.loc] = 0;
return true;
} else if (motion == CAVE) {
/* Cave. Different messages depending on whether above ground. */
rspeak((OUTSID(game.loc) && game.loc != LOC_GRATE) ? FOLLOW_STREAM : NEED_DETAIL);
return true;
} else {
/* none of the specials */
game.oldlc2 = game.oldloc;
game.oldloc = game.loc;
}
/* Look for a way to fulfil the motion verb passed in - travel_entry indexes
* the beginning of the motion entries for here (game.loc). */
for (;;) {
if (T_TERMINATE(travel[travel_entry]) ||
travel[travel_entry].motion == motion)
break;
if (travel[travel_entry].stop) {
/* Couldn't find an entry matching the motion word passed
* in. Various messages depending on word given. */
int spk = CANT_APPLY;
if (motion >= EAST && motion <= NW)
spk = BAD_DIRECTION;
if (motion == UP ||
motion == DOWN)
spk = BAD_DIRECTION;
if (motion == FORWARD ||
motion == LEFT ||
motion == RIGHT)
spk = UNSURE_FACING;
if (motion == OUTSIDE ||
motion == INSIDE)
spk = NO_INOUT_HERE;
if (motion == XYZZY ||
motion == PLUGH)
spk = NOTHING_HAPPENS;
if (motion == CRAWL)
spk = WHICH_WAY;
rspeak(spk);
return true;
}
++travel_entry;
}
/* (ESR) We've found a destination that goes with the motion verb.
* Next we need to check any conditional(s) on this destination, and
* possibly on following entries. */
/* FIXME: Magic numbers related to move opcodes */
do {
for (;;) { /* L12 loop */
for (;;) {
long cond = travel[travel_entry].cond;
long arg = MOD(cond, 100);
if (!SPECIAL(cond)) {
/* YAML N and [pct N] conditionals */
if (cond <= 100) {
if (cond == 0 ||
PCT(cond))
break;
/* else fall through */
}
/* YAML [with OBJ] clause */
if (TOTING(arg) ||
(cond > 200 && AT(arg)))
break;
/* else fall through to check [not OBJ STATE] */
} else if (game.prop[arg] != cond / 100 - 3)
break;
/* We arrive here on conditional failure.
* Skip to next non-matching destination */
long te_tmp = travel_entry;
do {
if (travel[te_tmp].stop)
BUG(CONDITIONAL_TRAVEL_ENTRY_WITH_NO_ALTERATION); // LCOV_EXCL_LINE
++te_tmp;
} while
(traveleq(travel_entry, te_tmp));
travel_entry = te_tmp;
}
/* Found an eligible rule, now execute it */
game.newloc = travel[travel_entry].dest;
if (!SPECIAL(game.newloc))
return true;
if (game.newloc > 500) {
/* Execute a speak rule */
rspeak(L_SPEAK(game.newloc));
game.newloc = game.loc;
return true;
} else {
game.newloc -= SPECIALBASE;
switch (game.newloc) {
case 1:
/* Travel 301. Plover-alcove passage. Can carry only
* emerald. Note: travel table must include "useless"
* entries going through passage, which can never be used
* for actual motion, but can be spotted by "go back". */
/* FIXME: Arithmetic on location numbers */
game.newloc = 99 + 100 - game.loc;
if (game.holdng > 1 ||
(game.holdng == 1 && !TOTING(EMERALD))) {
game.newloc = game.loc;
rspeak(MUST_DROP);
}
return true;
case 2:
/* Travel 302. Plover transport. Drop the
* emerald (only use special travel if toting
* it), so he's forced to use the plover-passage
* to get it out. Having dropped it, go back and
* pretend he wasn't carrying it after all. */
drop(EMERALD, game.loc);
int te_tmp = travel_entry;
do {
if (travel[te_tmp].stop)
BUG(CONDITIONAL_TRAVEL_ENTRY_WITH_NO_ALTERATION); // LCOV_EXCL_LINE
++te_tmp;
} while
(traveleq(travel_entry, te_tmp));
travel_entry = te_tmp;
continue; /* goto L12 */
case 3:
/* Travel 303. Troll bridge. Must be done only
* as special motion so that dwarves won't wander
* across and encounter the bear. (They won't
* follow the player there because that region is
* forbidden to the pirate.) If
* game.prop(TROLL)=1, he's crossed since paying,
* so step out and block him. (standard travel
* entries check for game.prop(TROLL)=0.) Special
* stuff for bear. */
if (game.prop[TROLL] == TROLL_PAIDONCE) {
pspeak(TROLL, look, TROLL_PAIDONCE, true);
game.prop[TROLL] = TROLL_UNPAID;
move(TROLL2, 0);
move(TROLL2 + NOBJECTS, 0);
move(TROLL, objects[TROLL].plac);
move(TROLL + NOBJECTS, objects[TROLL].fixd);
juggle(CHASM);
game.newloc = game.loc;
return true;
} else {
game.newloc = objects[TROLL].plac + objects[TROLL].fixd - game.loc;
if (game.prop[TROLL] == TROLL_UNPAID)
game.prop[TROLL] = TROLL_PAIDONCE;
if (!TOTING(BEAR))
return true;
rspeak(BRIDGE_COLLAPSE);
game.prop[CHASM] = BRIDGE_WRECKED;
game.prop[TROLL] = TROLL_GONE;
drop(BEAR, game.newloc);
game.fixed[BEAR] = -1;
game.prop[BEAR] = BEAR_DEAD;
game.oldlc2 = game.newloc;
croak();
return true;
}
default:
BUG(SPECIAL_TRAVEL_500_GT_L_GT_300_EXCEEDS_GOTO_LIST); // LCOV_EXCL_LINE
}
}
break; /* Leave L12 loop */
}
} while
(false);
}
static bool closecheck(void)
/* Handle the closing of the cave. The cave closes "clock1" turns
* after the last treasure has been located (including the pirate's
* chest, which may of course never show up). Note that the
* treasures need not have been taken yet, just located. Hence
* clock1 must be large enough to get out of the cave (it only ticks
* while inside the cave). When it hits zero, we branch to 10000 to
* start closing the cave, and then sit back and wait for him to try
* to get out. If he doesn't within clock2 turns, we close the cave;
* if he does try, we assume he panics, and give him a few additional
* turns to get frantic before we close. When clock2 hits zero, we
* transport him into the final puzzle. Note that the puzzle depends
* upon all sorts of random things. For instance, there must be no
* water or oil, since there are beanstalks which we don't want to be
* able to water, since the code can't handle it. Also, we can have
* no keys, since there is a grate (having moved the fixed object!)
* there separating him from all the treasures. Most of these
* problems arise from the use of negative prop numbers to suppress
* the object descriptions until he's actually moved the objects. */
{
if (game.tally == 0 && INDEEP(game.loc) && game.loc != LOC_Y2)
--game.clock1;
/* When the first warning comes, we lock the grate, destroy
* the bridge, kill all the dwarves (and the pirate), remove
* the troll and bear (unless dead), and set "closng" to
* true. Leave the dragon; too much trouble to move it.
* from now until clock2 runs out, he cannot unlock the
* grate, move to any location outside the cave, or create
* the bridge. Nor can he be resurrected if he dies. Note
* that the snake is already gone, since he got to the
* treasure accessible only via the hall of the mountain
* king. Also, he's been in giant room (to get eggs), so we
* can refer to it. Also also, he's gotten the pearl, so we
* know the bivalve is an oyster. *And*, the dwarves must
* have been activated, since we've found chest. */
if (game.clock1 == 0) {
game.prop[GRATE] = GRATE_CLOSED;
game.prop[FISSURE] = UNBRIDGED;
for (int i = 1; i <= NDWARVES; i++) {
game.dseen[i] = false;
game.dloc[i] = 0;
}
move(TROLL, 0);
move(TROLL + NOBJECTS, 0);
move(TROLL2, objects[TROLL].plac);
move(TROLL2 + NOBJECTS, objects[TROLL].fixd);
juggle(CHASM);
if (game.prop[BEAR] != BEAR_DEAD)
DESTROY(BEAR);
game.prop[CHAIN] = CHAIN_HEAP;
game.fixed[CHAIN] = CHAIN_HEAP;
game.prop[AXE] = 0;
game.fixed[AXE] = 0;
rspeak(CAVE_CLOSING);
game.clock1 = -1;
game.closng = true;
return true;
} else if (game.clock1 < 0)
--game.clock2;
if (game.clock2 == 0) {
/* Once he's panicked, and clock2 has run out, we come here
* to set up the storage room. The room has two locs,
* hardwired as LOC_NE and LOC_SW. At the ne end, we
* place empty bottles, a nursery of plants, a bed of
* oysters, a pile of lamps, rods with stars, sleeping
* dwarves, and him. At the sw end we place grate over
* treasures, snake pit, covey of caged birds, more rods, and
* pillows. A mirror stretches across one wall. Many of the
* objects come from known locations and/or states (e.g. the
* snake is known to have been destroyed and needn't be
* carried away from its old "place"), making the various
* objects be handled differently. We also drop all other
* objects he might be carrying (lest he have some which
* could cause trouble, such as the keys). We describe the
* flash of light and trundle back. */
game.prop[BOTTLE] = put(BOTTLE, LOC_NE, EMPTY_BOTTLE);
game.prop[PLANT] = put(PLANT, LOC_NE, 0);
game.prop[OYSTER] = put(OYSTER, LOC_NE, 0);
game.prop[LAMP] = put(LAMP, LOC_NE, 0);
game.prop[ROD] = put(ROD, LOC_NE, 0);
game.prop[DWARF] = put(DWARF, LOC_NE, 0);
game.loc = LOC_NE;
game.oldloc = LOC_NE;
game.newloc = LOC_NE;
/* Leave the grate with normal (non-negative) property.
* Reuse sign. */
put(GRATE, LOC_SW, 0);
put(SIGN, LOC_SW, 0);
game.prop[SIGN] = ENDGAME_SIGN;
game.prop[SNAKE] = put(SNAKE, LOC_SW, 1);
game.prop[BIRD] = put(BIRD, LOC_SW, 1);
game.prop[CAGE] = put(CAGE, LOC_SW, 0);
game.prop[ROD2] = put(ROD2, LOC_SW, 0);
game.prop[PILLOW] = put(PILLOW, LOC_SW, 0);
game.prop[MIRROR] = put(MIRROR, LOC_NE, 0);
game.fixed[MIRROR] = LOC_SW;
for (int i = 1; i <= NOBJECTS; i++) {
if (TOTING(i))
DESTROY(i);
}
rspeak(CAVE_CLOSED);
game.closed = true;
return true;
}
return false;
}
static void lampcheck(void)
/* Check game limit and lamp timers */
{
if (game.prop[LAMP] == LAMP_BRIGHT)
--game.limit;
/* Another way we can force an end to things is by having the
* lamp give out. When it gets close, we come here to warn him.
* First following arm checks if the lamp and fresh batteries are
* here, in which case we replace the batteries and continue.
* Second is for other cases of lamp dying. Eve after it goes
* out, he can explore outside for a while if desired. */
if (game.limit <= WARNTIME && HERE(BATTERY) && game.prop[BATTERY] == FRESH_BATTERIES && HERE(LAMP)) {
rspeak(REPLACE_BATTERIES);
game.prop[BATTERY] = DEAD_BATTERIES;
if (TOTING(BATTERY))
drop(BATTERY, game.loc);
game.limit += BATTERYLIFE;
game.lmwarn = false;
} else if (game.limit == 0) {
game.limit = -1;
game.prop[LAMP] = LAMP_DARK;
if (HERE(LAMP))
rspeak(LAMP_OUT);
} else if (game.limit <= WARNTIME) {
if (!game.lmwarn && HERE(LAMP)) {
game.lmwarn = true;
int spk = GET_BATTERIES;
if (game.place[BATTERY] == LOC_NOWHERE)
spk = LAMP_DIM;
if (game.prop[BATTERY] == DEAD_BATTERIES)
spk = MISSING_BATTERIES;
rspeak(spk);
}
}
}
static void listobjects(void)
/* Print out descriptions of objects at this location. If
* not closing and property value is negative, tally off
* another treasure. Rug is special case; once seen, its
* game.prop is RUG_DRAGON (dragon on it) till dragon is killed.
* Similarly for chain; game.prop is initially CHAINING_BEAR (locked to
* bear). These hacks are because game.prop=0 is needed to
* get full score. */
{
if (!DARK(game.loc)) {
++game.abbrev[game.loc];
for (int i = game.atloc[game.loc]; i != 0; i = game.link[i]) {
long obj = i;
if (obj > NOBJECTS)
obj = obj - NOBJECTS;
if (obj == STEPS && TOTING(NUGGET))
continue;
if (game.prop[obj] < 0) {
if (game.closed)
continue;
game.prop[obj] = 0;
if (obj == RUG)
game.prop[RUG] = RUG_DRAGON;
if (obj == CHAIN)
game.prop[CHAIN] = CHAINING_BEAR;
--game.tally;
/* Note: There used to be a test here to see whether the
* player had blown it so badly that he could never ever see
* the remaining treasures, and if so the lamp was zapped to
* 35 turns. But the tests were too simple-minded; things
* like killing the bird before the snake was gone (can never
* see jewelry), and doing it "right" was hopeless. E.G.,
* could cross troll bridge several times, using up all
* available treasures, breaking vase, using coins to buy
* batteries, etc., and eventually never be able to get
* across again. If bottle were left on far side, could then
* never get eggs or trident, and the effects propagate. So
* the whole thing was flushed. anyone who makes such a
* gross blunder isn't likely to find everything else anyway
* (so goes the rationalisation). */
}
int kk = game.prop[obj];
if (obj == STEPS && game.loc == game.fixed[STEPS])
kk = 1;
pspeak(obj, look, kk, true);
}
}
}
static bool do_command()
/* Get and execute a command */
{
long V1, V2;
long kmod, defn;
static long igo = 0;
static struct command_t command;
command.verb = 0;
/* Can't leave cave once it's closing (except by main office). */
if (OUTSID(game.newloc) && game.newloc != 0 && game.closng) {
rspeak(EXIT_CLOSED);
game.newloc = game.loc;
if (!game.panic)
game.clock2 = PANICTIME;
game.panic = true;
}
/* See if a dwarf has seen him and has come from where he
* wants to go. If so, the dwarf's blocking his way. If
* coming from place forbidden to pirate (dwarves rooted in
* place) let him get out (and attacked). */
if (game.newloc != game.loc && !FORCED(game.loc) && !CNDBIT(game.loc, COND_NOARRR)) {
for (size_t i = 1; i <= NDWARVES - 1; i++) {
if (game.odloc[i] == game.newloc && game.dseen[i]) {
game.newloc = game.loc;
rspeak(DWARF_BLOCK);
break;
}
}
}
game.loc = game.newloc;
if (!dwarfmove())
croak();
/* Describe the current location and (maybe) get next command. */
for (;;) {
if (game.loc == 0)
croak();
const char* msg = locations[game.loc].description.small;
if (MOD(game.abbrev[game.loc], game.abbnum) == 0 ||
msg == 0)
msg = locations[game.loc].description.big;
if (!FORCED(game.loc) && DARK(game.loc)) {
/* The easiest way to get killed is to fall into a pit in
* pitch darkness. */
if (game.wzdark && PCT(35)) {
rspeak(PIT_FALL);
game.oldlc2 = game.loc;
croak();
continue; /* back to top of main interpreter loop */
}
msg = arbitrary_messages[PITCH_DARK];
}
if (TOTING(BEAR))
rspeak(TAME_BEAR);
speak(msg);
if (FORCED(game.loc)) {
if (playermove(HERE))
return true;
else
continue; /* back to top of main interpreter loop */
}
if (game.loc == LOC_Y2 && PCT(25) && !game.closng)
rspeak(SAYS_PLUGH);
listobjects();
L2012:
command.verb = 0;
game.oldobj = command.obj;
command.obj = 0;
L2600:
checkhints();
/* If closing time, check for any objects being toted with
* game.prop < 0 and set the prop to -1-game.prop. This way
* objects won't be described until they've been picked up
* and put down separate from their respective piles. Don't
* tick game.clock1 unless well into cave (and not at Y2). */
if (game.closed) {
if (game.prop[OYSTER] < 0 && TOTING(OYSTER))
pspeak(OYSTER, look, 1, true);
for (size_t i = 1; i <= NOBJECTS; i++) {
if (TOTING(i) && game.prop[i] < 0)
game.prop[i] = -1 - game.prop[i];
}
}
game.wzdark = DARK(game.loc);
if (game.knfloc > 0 && game.knfloc != game.loc)
game.knfloc = 0;
/* This is where we get a new command from the user */
char* input;
char inputbuf[LINESIZE];
for (;;) {
input = get_input();
if (input == NULL)
return (false);
if (word_count(input) > 2) {
rspeak(TWO_WORDS);
continue;
}
if (strcmp(input, "") != 0)
break;
}
strncpy(inputbuf, input, LINESIZE - 1);
free(input);
long tokens[4];
tokenize(inputbuf, tokens);
command.wd1 = tokens[0];
command.wd1x = tokens[1];
command.wd2 = tokens[2];
command.wd2x = tokens[3];
/* Every input, check "game.foobar" flag. If zero, nothing's
* going on. If pos, make neg. If neg, he skipped a word,
* so make it zero. */
L2607:
game.foobar = (game.foobar > 0 ? -game.foobar : 0);
++game.turns;
/* If a turn threshold has been met, apply penalties and tell
* the player about it. */
for (int i = 0; i < NTHRESHOLDS; ++i) {
if (game.turns == turn_thresholds[i].threshold + 1) {
game.trnluz += turn_thresholds[i].point_loss;
speak(turn_thresholds[i].message);
}
}
if (command.verb == SAY && command.wd2 > 0)
command.verb = 0;
if (command.verb == SAY) {
command.part = transitive;
goto Laction;
}
if (closecheck()) {
if (game.closed)
return true;
} else
lampcheck();
char word1[6];
char word2[6];
packed_to_token(command.wd1, word1);
packed_to_token(command.wd2, word2);
V1 = get_vocab_id(word1);
V2 = get_vocab_id(word2);
if (V1 == ENTER && (V2 == STREAM ||
V2 == PROMOTE_WORD(WATER))) {
if (LIQLOC(game.loc) == WATER) {
rspeak(FEET_WET);
} else {
rspeak(WHERE_QUERY);
}
goto L2012;
}
if (V1 == ENTER && command.wd2 > 0) {
command.wd1 = command.wd2;
command.wd1x = command.wd2x;
wordclear(&command.wd2);
} else {
/* FIXME: Magic numbers related to vocabulary */
if (!((V1 != PROMOTE_WORD(WATER) && V1 != PROMOTE_WORD(OIL)) ||
(V2 != PROMOTE_WORD(PLANT) && V2 != PROMOTE_WORD(DOOR)))) {
if (AT(DEMOTE_WORD(V2)))
command.wd2 = token_to_packed("POUR");
}
if (V1 == PROMOTE_WORD(CAGE) && V2 == PROMOTE_WORD(BIRD) && HERE(CAGE) && HERE(BIRD))
command.wd1 = token_to_packed("CATCH");
}
L2620:
if (wordeq(command.wd1, token_to_packed("WEST"))) {
++game.iwest;
if (game.iwest == 10)
rspeak(W_IS_WEST);
}
if (wordeq(command.wd1, token_to_packed("GO")) && !wordempty(command.wd2)) {
if (++igo == 10)
rspeak(GO_UNNEEDED);
}
Lookup:
packed_to_token(command.wd1, word1);
defn = get_vocab_id(word1);
if (defn == -1) {
/* Gee, I don't understand. */
if (fallback_handler(inputbuf))
continue;
rspeak(DONT_KNOW, command.wd1, command.wd1x);
goto L2600;
}
/* FIXME: magic numbers related to vocabulary */
kmod = MOD(defn, 1000);
switch (defn / 1000) {
case 0:
if (playermove(kmod))
return true;
else
continue; /* back to top of main interpreter loop */
case 1:
command.part = unknown;
command.obj = kmod;
break;
case 2:
command.part = intransitive;
command.verb = kmod;
break;
case 3:
speak(specials[kmod].message);
goto L2012;
default:
BUG(VOCABULARY_TYPE_N_OVER_1000_NOT_BETWEEN_0_AND_3); // LCOV_EXCL_LINE
}
Laction:
switch (action(&command)) {
case GO_TERMINATE:
return true;
case GO_MOVE:
playermove(NUL);
return true;
case GO_TOP:
continue; /* back to top of main interpreter loop */
case GO_CLEAROBJ:
goto L2012;
case GO_CHECKHINT:
goto L2600;
case GO_CHECKFOO:
goto L2607;
case GO_LOOKUP:
goto Lookup;
case GO_WORD2:
/* Get second word for analysis. */
command.wd1 = command.wd2;
command.wd1x = command.wd2x;
wordclear(&command.wd2);
goto L2620;
case GO_UNKNOWN:
/* Random intransitive verbs come here. Clear obj just in case
* (see attack()). */
rspeak(DO_WHAT, command.wd1, command.wd1x);
command.obj = 0;
goto L2600;
case GO_DWARFWAKE:
/* Oh dear, he's disturbed the dwarves. */
rspeak(DWARVES_AWAKEN);
terminate(endgame);
default:
BUG(ACTION_RETURNED_PHASE_CODE_BEYOND_END_OF_SWITCH); // LCOV_EXCL_LINE
}
}
}
/* end */
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