struct game_t game;
long LNLENG, LNPOSN, PARMS[MAXPARMS+1];
-char rawbuf[LINESIZE], INLINE[LINESIZE+1], MAP1[129], MAP2[129];
+char rawbuf[LINESIZE], INLINE[LINESIZE+1];
long AMBER, AXE, BACK, BATTER, BEAR, BIRD, BLOOD,
BOTTLE, CAGE, CAVE, CAVITY, CHAIN, CHASM, CHEST,
CLAM, COINS, DOOR, DPRSSN, DRAGON, DWARF, EGGS,
EMRALD, ENTER, ENTRNC, FIND, FISSUR, FOOD,
- GRATE, HINT, I, INVENT, JADE, K, KEYS,
+ GRATE, HINT, INVENT, JADE, KEYS,
KNIFE, LAMP, LOCK, LOOK, MAGZIN,
MESSAG, MIRROR, NUGGET, NUL, OGRE, OIL, OYSTER,
PEARL, PILLOW, PLANT, PLANT2, PYRAM, RESER, ROD, ROD2,
- RUBY, RUG, SAPPH, SAY, SECT, SIGN, SNAKE, SPK,
+ RUBY, RUG, SAPPH, SAY, SIGN, SNAKE,
STEPS, STREAM, THROW, TRIDNT, TROLL, TROLL2,
- URN, VASE, VEND,
- VOLCAN, WATER, WD1, WD1X, WD2, WD2X;
+ URN, VASE, VEND, VOLCAN, WATER;
+long K, SPK, WD1, WD1X, WD2, WD2X;
+
FILE *logfp;
bool oldstyle = false;
lcg_state lcgstate;
while ((ch = getopt(argc, argv, "l:o")) != EOF) {
switch (ch) {
- case 'l':
+case 'l':
logfp = fopen(optarg, "w");
if (logfp == NULL)
fprintf(stderr,
set_seed(seedval);
/* Initialize game variables */
- MAP2[1] = 0;
if (!game.setup)
initialise();
if(!INDEEP(game.loc) || (PCT(95) && (!CNDBIT(game.loc,4) || PCT(85))))
return true;
game.dflag=2;
- for (I=1; I<=2; I++) {
+ for (int i=1; i<=2; i++) {
int j=1+randrange(NDWARVES-1);
if(PCT(50))
game.dloc[j]=0;
}
- for (I=1; I<=NDWARVES-1; I++) {
- if(game.dloc[I] == game.loc)
- game.dloc[I]=DALTLC;
- game.odloc[I]=game.dloc[I];
+ 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(3);
DROP(AXE,game.loc);
game.dtotal=0;
attack=0;
stick=0;
- for (I=1; I<=NDWARVES; I++) {
- if(game.dloc[I] == 0)
+ for (int i=1; i<=NDWARVES; i++) {
+ int k;
+ if(game.dloc[i] == 0)
continue;
/* Fill TK array with all the places this dwarf might go. */
int j=1;
- kk=KEY[game.dloc[I]];
+ kk=KEY[game.dloc[i]];
if(kk != 0)
do {
game.newloc=MOD(labs(TRAVEL[kk])/1000,1000);
/* Have we avoided a dwarf enciounter? */
bool avoided = (game.newloc > 300 ||
!INDEEP(game.newloc) ||
- game.newloc == game.odloc[I] ||
+ game.newloc == game.odloc[i] ||
(j > 1 && game.newloc == TK[j-1]) ||
j >= 20 ||
- game.newloc == game.dloc[I] ||
+ game.newloc == game.dloc[i] ||
FORCED(game.newloc) ||
- (I == PIRATE && CNDBIT(game.newloc,3)) ||
+ (i == PIRATE && CNDBIT(game.newloc,3)) ||
labs(TRAVEL[kk])/1000000 == 100);
if (!avoided) {
TK[j++] = game.newloc;
++kk;
} while
(TRAVEL[kk-1] >= 0);
- TK[j]=game.odloc[I];
+ 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(I == PIRATE) {
+ 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(i == PIRATE) {
/* 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.
* (game.prop=0). */
if(game.loc == game.chloc || game.prop[CHEST] >= 0)
continue;
- K=0;
+ k=0;
for (int j=MINTRS; j<=MAXTRS; j++) {
- /* Pirate won't take pyramid from plover room or dark
- * room (too easy!). */
- if(j == PYRAM && (game.loc == PLAC[PYRAM] || game.loc == PLAC[EMRALD]))
- goto L6020;
+ /* Pirate won't take pyramid from plover room or dark
+ * room (too easy!). */
+ if(j == PYRAM && (game.loc == PLAC[PYRAM] || game.loc == PLAC[EMRALD])) {
+ if(HERE(j))
+ k=1;
+ continue;
+ }
if(TOTING(j)) {
- goto L6021;
+ if(game.place[CHEST] == 0) {
+ /* Install chest only once, to insure it is
+ * the last treasure in the list. */
+ MOVE(CHEST,game.chloc);
+ MOVE(MESSAG,game.chloc2);
+ }
+ RSPEAK(128);
+ for (int j=MINTRS; j<=MAXTRS; j++) {
+ if (!(j == PYRAM && (game.loc == PLAC[PYRAM] || game.loc == PLAC[EMRALD]))) {
+ if(AT(j) && game.fixed[j] == 0)
+ CARRY(j,game.loc);
+ if(TOTING(j))
+ DROP(j,game.chloc);
+ }
+ }
+ game.dloc[PIRATE]=game.chloc;
+ game.odloc[PIRATE]=game.chloc;
+ game.dseen[PIRATE]=false;
+ goto jumpout;
}
- L6020:
if(HERE(j))
- K=1;
+ k=1;
}
/* Force chest placement before player finds last treasure */
- if(game.tally == 1 && K == 0 && game.place[CHEST] == 0 && HERE(LAMP) && game.prop[LAMP] == 1) {
+ if(game.tally == 1 && k == 0 && game.place[CHEST] == 0 && HERE(LAMP) && game.prop[LAMP] == 1) {
RSPEAK(186);
MOVE(CHEST,game.chloc);
MOVE(MESSAG,game.chloc2);
if(game.odloc[PIRATE] != game.dloc[PIRATE] && PCT(20))
RSPEAK(127);
continue;
-
- L6021:
- if(game.place[CHEST] == 0) {
- /* Install chest only once, to insure it is the last treasure in
- * the list. */
- MOVE(CHEST,game.chloc);
- MOVE(MESSAG,game.chloc2);
- }
- RSPEAK(128);
- for (int j=MINTRS; j<=MAXTRS; j++) {
- if (!(j == PYRAM && (game.loc == PLAC[PYRAM] || game.loc == PLAC[EMRALD]))) {
- if(AT(j) && game.fixed[j] == 0)
- CARRY(j,game.loc);
- if(TOTING(j))
- DROP(j,game.chloc);
- }
- }
- game.dloc[PIRATE]=game.chloc;
- game.odloc[PIRATE]=game.chloc;
- game.dseen[PIRATE]=false;
- continue;
}
/* This threatening little dwarf is in the room with him! */
++game.dtotal;
- if(game.odloc[I] == game.dloc[I]) {
+ if(game.odloc[i] == game.dloc[i]) {
++attack;
if(game.knfloc >= 0)
game.knfloc=game.loc;
if(randrange(1000) < 95*(game.dflag-2))
++stick;
}
+ jumpout:;
}
/* Now we know what's happening. Let's tell the poor sucker about it.
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. MAXDIE is automatically set based
+ * on the number of snide messages available. Each death results in
+ * a message (81, 83, etc.) which offers reincarnation; if accepted,
+ * this results in message 82, 84, 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(FILE *cmdin)
/* Okay, he's dead. Let's get on with it. */
{
if (!dwarfmove())
croak(cmdin);
-/* Describe the current location and (maybe) get next command. */
+ /* Describe the current location and (maybe) get next command. */
-/* Print text for current loc. */
+ /* Print text for current loc. */
L2000: if(game.loc == 0)
croak(cmdin);
KK=STEXT[game.loc];
- if(MOD(game.abbrev[game.loc],game.abbnum) == 0 || KK == 0)KK=LTEXT[game.loc];
- if(FORCED(game.loc) || !DARK(0)) goto L2001;
- if(game.wzdark && PCT(35)) goto L90;
- KK=RTEXT[16];
-L2001: if(TOTING(BEAR))RSPEAK(141);
+ if(MOD(game.abbrev[game.loc],game.abbnum) == 0 || KK == 0)
+ KK=LTEXT[game.loc];
+ if(!FORCED(game.loc) && DARK(0)) {
+ /* The easiest way to get killed is to fall into a pit in
+ * pitch darkness. */
+ if(game.wzdark && PCT(35)) {
+ RSPEAK(23);
+ game.oldlc2 = game.loc;
+ croak(cmdin);
+ goto L2000;
+ }
+ KK=RTEXT[16];
+ }
+ if(TOTING(BEAR))RSPEAK(141);
SPEAK(KK);
K=1;
- if(FORCED(game.loc)) goto L8;
+ if(FORCED(game.loc))
+ goto L8;
if(game.loc == 33 && PCT(25) && !game.closng)RSPEAK(7);
-/* 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 1 (dragon on it) till dragon is killed.
- * Similarly for chain; game.prop is initially 1 (locked to bear). These hacks
- * are because game.prop=0 is needed to get full score. */
+ /* 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 1 (dragon on it) till dragon is killed.
+ * Similarly for chain; game.prop is initially 1 (locked to
+ * bear). These hacks are because game.prop=0 is needed to
+ * get full score. */
if(DARK(0)) goto L2012;
game.abbrev[game.loc]=game.abbrev[game.loc]+1;
- I=game.atloc[game.loc];
-L2004: if(I == 0) goto L2012;
- obj=I;
+ i=game.atloc[game.loc];
+L2004: if(i == 0) goto L2012;
+ obj=i;
if(obj > NOBJECTS)obj=obj-NOBJECTS;
if(obj == STEPS && TOTING(NUGGET)) goto L2008;
if(game.prop[obj] >= 0) goto L2006;
L2006: KK=game.prop[obj];
if(obj == STEPS && game.loc == game.fixed[STEPS])KK=1;
PSPEAK(obj,KK);
-L2008: I=game.link[I];
+L2008: i=game.link[i];
goto L2004;
L2009: K=54;
game.knfloc=0;
/* This is where we get a new command from the user */
- if (!GETIN(cmdin, WD1,WD1X,WD2,WD2X))
+ if (!GETIN(cmdin, &WD1,&WD1X,&WD2,&WD2X))
return false;
/* Every input, check "game.foobar" flag. If zero, nothing's
if(game.clock1 < 0)game.clock2=game.clock2-1;
if(game.clock2 == 0) goto L11000;
if(game.prop[LAMP] == 1)game.limit=game.limit-1;
- if(game.limit <= 30 && HERE(BATTER) && game.prop[BATTER] == 0 && HERE(LAMP)) goto
- L12000;
+ if(game.limit <= 30 && HERE(BATTER) && game.prop[BATTER] == 0 && HERE(LAMP))
+ goto L12000;
if(game.limit == 0) goto L12400;
if(game.limit <= 30) goto L12200;
L19999: K=43;
RSPEAK(276);
}
L2630:
- I=VOCAB(WD1,-1);
- if(I == -1)
+ i=VOCAB(WD1,-1);
+ if(i == -1)
goto L3000;
- K=MOD(I,1000);
- KQ=I/1000+1;
+ K=MOD(i,1000);
+ KQ=i/1000+1;
switch (KQ-1) { case 0: goto L8; case 1: goto L5000; case 2: goto L4000;
case 3: goto L2010; }
BUG(22);
/* Verb and object analysis moved to separate module. */
-L4000: I=4000; VERB=K; goto Laction;
-L4090: I=4090; goto Laction;
-L5000: I=5000; obj = K;
+L4000: i=4000; VERB=K; goto Laction;
+L4090: i=4090; goto Laction;
+L5000: i=5000; obj = K;
Laction:
- switch (action(cmdin, I, VERB, obj)) {
+ switch (action(cmdin, i, VERB, obj)) {
case 2: return true;
case 8: goto L8;
case 2000: goto L2000;
RSPEAK(SPK);
return true;
-/* "You're dead, Jim."
- *
- * If the current loc is zero, it means the clown got himself killed. We'll
- * allow this maxdie times. MAXDIE is automatically set based on the number of
- * snide messages available. Each death results in a message (81, 83, etc.)
- * which offers reincarnation; if accepted, this results in message 82, 84,
- * 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". */
-
-/* The easiest way to get killed is to fall into a pit in pitch darkness. */
-
-L90: RSPEAK(23);
- game.oldlc2=game.loc;
- croak(cmdin);
- goto L2000;
-
/* Cave closing and scoring */
L10000: game.prop[GRATE]=0;
game.prop[FISSUR]=0;
- for (I=1; I<=NDWARVES; I++) {
- game.dseen[I]=false;
- game.dloc[I]=0;
- } /* end loop */
+ for (i=1; i<=NDWARVES; i++) {
+ game.dseen[i]=false;
+ game.dloc[i]=0;
+ }
MOVE(TROLL,0);
MOVE(TROLL+NOBJECTS,0);
MOVE(TROLL2,PLAC[TROLL]);
RSPEAK(129);
game.clock1= -1;
game.closng=true;
- goto L19999;
+ goto L19999;
/* 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 115 (ne) and 116 (sw).
/* Leave the grate with normal (non-negative) property. Reuse sign. */
- I=PUT(GRATE,116,0);
- I=PUT(SIGN,116,0);
+ PUT(GRATE,116,0);
+ PUT(SIGN,116,0);
OBJTXT[SIGN]=OBJTXT[SIGN]+1;
game.prop[SNAKE]=PUT(SNAKE,116,1);
game.prop[BIRD]=PUT(BIRD,116,1);
game.prop[MIRROR]=PUT(MIRROR,115,0);
game.fixed[MIRROR]=116;
- for (I=1; I<=NOBJECTS; I++) {
- if(TOTING(I))
- DSTROY(I);
+ for (int i=1; i<=NOBJECTS; i++) {
+ if(TOTING(i))
+ DSTROY(i);
} /* end loop */
RSPEAK(132);