X-Git-Url: https://jxself.org/git/?p=open-adventure.git;a=blobdiff_plain;f=actions.c;h=6936fa279035c61437b6a74fea6b2515d60da047;hp=d5579159870b7575253a7d6910204fc3f72b9b69;hb=c5d2d9ddb54647bdb3ca03a0163a5da103dc8946;hpb=7485a8a1e1b8fefbc1125afbe855d8a1377d1fb4 diff --git a/actions.c b/actions.c index d557915..6936fa2 100644 --- a/actions.c +++ b/actions.c @@ -4,22 +4,23 @@ #include "database.h" /* Limit visibility of ugly globals. Eventually these should go away. */ -extern long K, SPK, WD1, WD1X, WD2, WD2X; +extern long WD1, WD1X, WD2, WD2X; /* * Action handlers. Eventually we'll do lookup through a method table - * that calls these. Absolutely nothing like the original FORTRAN. + * that calls these. */ -static int fill(long); +static int fill(token_t verb, token_t); -static int attack(FILE *input, long verb, long obj) +static int attack(FILE *input, long verb, token_t obj) /* Attack. Assume target if unambiguous. "Throw" also links here. * Attackable objects fall into two categories: enemies (snake, * dwarf, etc.) and others (bird, clam, machine). Ambiguous if 2 * enemies, or no enemies but 2 others. */ { - int i =ATDWRF(game.loc); + int spk = ACTSPK[verb]; + int i = ATDWRF(game.loc); if (obj == 0) { if (i > 0) obj=DWARF; @@ -40,32 +41,32 @@ static int attack(FILE *input, long verb, long obj) } } if (obj == BIRD) { - SPK=137; + spk=137; if (game.closed) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } DSTROY(BIRD); game.prop[BIRD]=0; - SPK=45; + spk=45; } if (obj == VEND) { PSPEAK(VEND,game.prop[VEND]+2); game.prop[VEND]=3-game.prop[VEND]; - return(2012); + return GO_CLEAROBJ; } - if (obj == 0)SPK=44; - if (obj == CLAM || obj == OYSTER)SPK=150; - if (obj == SNAKE)SPK=46; - if (obj == DWARF)SPK=49; + if (obj == 0)spk=44; + if (obj == CLAM || obj == OYSTER)spk=150; + if (obj == SNAKE)spk=46; + if (obj == DWARF)spk=49; if (obj == DWARF && game.closed) return(19000); - if (obj == DRAGON)SPK=167; - if (obj == TROLL)SPK=157; - if (obj == OGRE)SPK=203; + if (obj == DRAGON)spk=167; + if (obj == TROLL)spk=157; + if (obj == OGRE)spk=203; if (obj == OGRE && i > 0) { - RSPEAK(SPK); + RSPEAK(spk); RSPEAK(6); DSTROY(OGRE); int k=0; @@ -76,12 +77,12 @@ static int attack(FILE *input, long verb, long obj) game.dseen[i]=false; } } - SPK=SPK+1+1/k; - RSPEAK(SPK); - return 2012; + spk=spk+1+1/k; + RSPEAK(spk); + return GO_CLEAROBJ; } - if (obj == BEAR)SPK=165+(game.prop[BEAR]+1)/2; - if (obj != DRAGON || game.prop[DRAGON] != 0) {RSPEAK(SPK); return 2012;} + if (obj == BEAR)spk=165+(game.prop[BEAR]+1)/2; + if (obj != DRAGON || game.prop[DRAGON] != 0) {RSPEAK(spk); return GO_CLEAROBJ;} /* Fun stuff for dragon. If he insists on attacking it, win! * Set game.prop to dead, move dragon to central loc (still * fixed), move rug there (not fixed), and move him there, @@ -104,8 +105,7 @@ static int attack(FILE *input, long verb, long obj) MOVE(obj,k); } game.loc=k; - K=NUL; /* FIXME: error if removed */ - return(8); + return GO_MOVE; } static int bigwords(long foo) @@ -114,98 +114,107 @@ static int bigwords(long foo) * word zips the eggs back to the giant room (unless already there). */ { int k=VOCAB(foo,3); - SPK=42; + int spk=42; if (game.foobar != 1-k) { - if (game.foobar != 0)SPK=151; - RSPEAK(SPK); - return 2012; + if (game.foobar != 0)spk=151; + RSPEAK(spk); + return GO_CLEAROBJ; } else { game.foobar=k; if (k != 4) { RSPEAK(54); - return 2012; + return GO_CLEAROBJ; } game.foobar=0; if (game.place[EGGS]==PLAC[EGGS] || (TOTING(EGGS) && game.loc==PLAC[EGGS])) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; + } else { + /* Bring back troll if we steal the eggs back from him before + * crossing. */ + if (game.place[EGGS]==0 && game.place[TROLL]==0 && game.prop[TROLL]==0) + game.prop[TROLL]=1; + k=2; + if (HERE(EGGS))k=1; + if (game.loc == PLAC[EGGS])k=0; + MOVE(EGGS,PLAC[EGGS]); + PSPEAK(EGGS,k); + return GO_CLEAROBJ; } - /* Bring back troll if we steal the eggs back from him before - * crossing. */ - if (game.place[EGGS]==0 && game.place[TROLL]==0 && game.prop[TROLL]==0) - game.prop[TROLL]=1; - k=2; - if (HERE(EGGS))k=1; - if (game.loc == PLAC[EGGS])k=0; - MOVE(EGGS,PLAC[EGGS]); - PSPEAK(EGGS,k); - return(2012); } } static int bivalve(token_t verb, token_t obj) /* Clam/oyster actions */ { - int k=0; + int spk, k=0; if (obj == OYSTER)k=1; - SPK=124+k; - if (TOTING(obj))SPK=120+k; - if (!TOTING(TRIDNT))SPK=122+k; - if (verb == LOCK)SPK=61; - if (SPK == 124) { + spk=124+k; + if (TOTING(obj))spk=120+k; + if (!TOTING(TRIDNT))spk=122+k; + if (verb == LOCK)spk=61; + if (spk == 124) { DSTROY(CLAM); DROP(OYSTER,game.loc); DROP(PEARL,105); } - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } static int blast(void) /* Blast. No effect unless you've got dynamite, which is a neat trick! */ { - if (game.prop[ROD2] < 0 || !game.closed) {RSPEAK(SPK); return 2012;} + if (game.prop[ROD2] < 0 || !game.closed) + { + RSPEAK(67); + return GO_CLEAROBJ; + } game.bonus=133; - if (game.loc == 115)game.bonus=134; - if (HERE(ROD2))game.bonus=135; + if (game.loc == 115) + game.bonus=134; + if (HERE(ROD2)) + game.bonus=135; RSPEAK(game.bonus); score(0); + return GO_CLEAROBJ; /* pacify compiler - we never get here */ } -static int vbreak(token_t obj) +static int vbreak(token_t verb, token_t obj) /* Break. Only works for mirror in repository and, of course, the vase. */ { - if (obj == MIRROR)SPK=148; + int spk = ACTSPK[verb]; + if (obj == MIRROR)spk=148; if (obj == VASE && game.prop[VASE] == 0) { - SPK=198; if (TOTING(VASE))DROP(VASE,game.loc); game.prop[VASE]=2; game.fixed[VASE]= -1; + spk=198; } else { if (obj == MIRROR && game.closed) { RSPEAK(197); return(190000); } } - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } static int brief(void) /* Brief. Intransitive only. Suppress long descriptions after first time. */ { - SPK=156; game.abbnum=10000; game.detail=3; - RSPEAK(SPK); - return 2012; + RSPEAK(156); + return GO_CLEAROBJ; } -static int carry(long obj) +static int carry(token_t verb, token_t obj) /* Carry an object. Special cases for bird and cage (if bird in cage, can't * take one without the other). Liquids also special, since they depend on * status of bottle. Also various side effects, etc. */ { + int spk; if (obj == INTRANSITIVE) { /* Carry, no object given yet. OK if only one object present. */ if(game.atloc[game.loc] == 0 || @@ -215,52 +224,53 @@ static int carry(long obj) obj=game.atloc[game.loc]; } - if (TOTING(obj)) {RSPEAK(SPK); return 2012;} - SPK=25; - if (obj == PLANT && game.prop[PLANT] <= 0)SPK=115; - if (obj == BEAR && game.prop[BEAR] == 1)SPK=169; - if (obj == CHAIN && game.prop[BEAR] != 0)SPK=170; - if (obj == URN)SPK=215; - if (obj == CAVITY)SPK=217; - if (obj == BLOOD)SPK=239; - if (obj == RUG && game.prop[RUG] == 2)SPK=222; - if (obj == SIGN)SPK=196; + if (TOTING(obj)) {RSPEAK(24); return GO_CLEAROBJ;} + spk=25; + if (obj == PLANT && game.prop[PLANT] <= 0)spk=115; + if (obj == BEAR && game.prop[BEAR] == 1)spk=169; + if (obj == CHAIN && game.prop[BEAR] != 0)spk=170; + if (obj == URN)spk=215; + if (obj == CAVITY)spk=217; + if (obj == BLOOD)spk=239; + if (obj == RUG && game.prop[RUG] == 2)spk=222; + if (obj == SIGN)spk=196; if (obj == MESSAG) { - SPK=190; + RSPEAK(190); DSTROY(MESSAG); + return GO_CLEAROBJ; } if (game.fixed[obj] != 0) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } if (obj == WATER || obj == OIL) { if (!HERE(BOTTLE) || LIQUID() != obj) { if (TOTING(BOTTLE) && game.prop[BOTTLE] == 1) - return(fill(BOTTLE)); - if (game.prop[BOTTLE] != 1)SPK=105; - if (!TOTING(BOTTLE))SPK=104; - RSPEAK(SPK); - return 2012; + return(fill(verb, BOTTLE)); + if (game.prop[BOTTLE] != 1)spk=105; + if (!TOTING(BOTTLE))spk=104; + RSPEAK(spk); + return GO_CLEAROBJ; } obj = BOTTLE; } - SPK=92; + spk=92; if (game.holdng >= INVLIMIT) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } else if (obj == BIRD && game.prop[BIRD] != 1 && -1-game.prop[BIRD] != 1) { if (game.prop[BIRD] == 2) { DSTROY(BIRD); RSPEAK(238); - return 2012; + return GO_CLEAROBJ; } - if (!TOTING(CAGE))SPK=27; - if (TOTING(ROD))SPK=26; - if (SPK/2 == 13) { - RSPEAK(SPK); - return 2012; + if (!TOTING(CAGE))spk=27; + if (TOTING(ROD))spk=26; + if (spk/2 == 13) { + RSPEAK(spk); + return GO_CLEAROBJ; } game.prop[BIRD]=1; } @@ -274,42 +284,44 @@ static int carry(long obj) game.prop[CAVITY]=1; } RSPEAK(54); - return(2012); + return GO_CLEAROBJ; } static int chain(token_t verb) /* Do something to the bear's chain */ { + int spk; if (verb != LOCK) { - SPK=171; - if (game.prop[BEAR] == 0)SPK=41; - if (game.prop[CHAIN] == 0)SPK=37; - if (SPK != 171) {RSPEAK(SPK); return 2012;} + spk=171; + if (game.prop[BEAR] == 0)spk=41; + if (game.prop[CHAIN] == 0)spk=37; + if (spk != 171) {RSPEAK(spk); return GO_CLEAROBJ;} game.prop[CHAIN]=0; game.fixed[CHAIN]=0; if (game.prop[BEAR] != 3)game.prop[BEAR]=2; game.fixed[BEAR]=2-game.prop[BEAR]; } else { - SPK=172; - if (game.prop[CHAIN] != 0)SPK=34; - if (game.loc != PLAC[CHAIN])SPK=173; - if (SPK != 172) {RSPEAK(SPK); return 2012;} + spk=172; + if (game.prop[CHAIN] != 0)spk=34; + if (game.loc != PLAC[CHAIN])spk=173; + if (spk != 172) {RSPEAK(spk); return GO_CLEAROBJ;} game.prop[CHAIN]=2; if (TOTING(CHAIN))DROP(CHAIN,game.loc); game.fixed[CHAIN]= -1; } - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int discard(long obj, bool just_do_it) +static int discard(token_t verb, token_t obj, bool just_do_it) /* Discard object. "Throw" also comes here for most objects. Special cases for * bird (might attack snake or dragon) and cage (might contain bird) and vase. * Drop coins at vending machine for extra batteries. */ { + int spk = ACTSPK[verb]; if (!just_do_it) { if (TOTING(ROD2) && obj == ROD && !TOTING(ROD))obj=ROD2; - if (!TOTING(obj)) {RSPEAK(SPK); return 2012;} + if (!TOTING(obj)) {RSPEAK(spk); return GO_CLEAROBJ;} if (obj == BIRD && HERE(SNAKE)) { RSPEAK(30); if (game.closed) return(19000); @@ -323,27 +335,27 @@ static int discard(long obj, bool just_do_it) game.prop[CAVITY]=0; if (HERE(RUG) && ((obj == EMRALD && game.prop[RUG] != 2) || (obj == RUBY && game.prop[RUG] == 2))) { - SPK=219; - if (TOTING(RUG))SPK=220; - if (obj == RUBY)SPK=221; - RSPEAK(SPK); - if (SPK != 220) { - K=2-game.prop[RUG]; - game.prop[RUG]=K; - if (K == 2)K=PLAC[SAPPH]; - MOVE(RUG+NOBJECTS,K); + spk=219; + if (TOTING(RUG))spk=220; + if (obj == RUBY)spk=221; + RSPEAK(spk); + if (spk != 220) { + int k = 2-game.prop[RUG]; + game.prop[RUG] = k; + if (k == 2) k = PLAC[SAPPH]; + MOVE(RUG+NOBJECTS, k); } } } else if (obj == COINS && HERE(VEND)) { DSTROY(COINS); DROP(BATTER,game.loc); PSPEAK(BATTER,0); - return(2012); + return GO_CLEAROBJ; } else if (obj == BIRD && AT(DRAGON) && game.prop[DRAGON] == 0) { RSPEAK(154); DSTROY(BIRD); game.prop[BIRD]=0; - return(2012); + return GO_CLEAROBJ; } else if (obj == BEAR && AT(TROLL)) { RSPEAK(163); MOVE(TROLL,0); @@ -361,66 +373,69 @@ static int discard(long obj, bool just_do_it) if (game.prop[VASE] != 0)game.fixed[VASE]= -1; } } - K=LIQUID(); - if (K == obj)obj=BOTTLE; - if (obj == BOTTLE && K != 0)game.place[K]=0; + int k = LIQUID(); + if (k == obj)obj=BOTTLE; + if (obj == BOTTLE && k != 0) + game.place[k]=0; if (obj == CAGE && game.prop[BIRD] == 1)DROP(BIRD,game.loc); DROP(obj,game.loc); - if (obj != BIRD) return(2012); + if (obj != BIRD) return GO_CLEAROBJ; game.prop[BIRD]=0; if (FOREST(game.loc))game.prop[BIRD]=2; - return(2012); + return GO_CLEAROBJ; } -static int drink(token_t obj) +static int drink(token_t verb, token_t obj) /* Drink. If no object, assume water and look for it here. If water is in * the bottle, drink that, else must be at a water loc, so drink stream. */ { + int spk = ACTSPK[verb]; if (obj == 0 && LIQLOC(game.loc) != WATER && (LIQUID() != WATER || !HERE(BOTTLE))) return(8000); if (obj != BLOOD) { - if (obj != 0 && obj != WATER)SPK=110; - if (SPK == 110 || LIQUID() != WATER || !HERE(BOTTLE)) {RSPEAK(SPK); return 2012;} - game.prop[BOTTLE]=1; - game.place[WATER]=0; - SPK=74; - RSPEAK(SPK); - return 2012; + if (obj != 0 && obj != WATER)spk=110; + if (spk != 110 && LIQUID() == WATER && HERE(BOTTLE)) { + game.prop[BOTTLE]=1; + game.place[WATER]=0; + spk=74; + } } else { DSTROY(BLOOD); game.prop[DRAGON]=2; OBJSND[BIRD]=OBJSND[BIRD]+3; - SPK=240; - RSPEAK(SPK); - return 2012; + spk=240; } + RSPEAK(spk); + return GO_CLEAROBJ; } -static int eat(token_t obj) +static int eat(token_t verb, token_t obj) /* Eat. Intransitive: assume food if present, else ask what. Transitive: food * ok, some things lose appetite, rest are ridiculous. */ { + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { if (!HERE(FOOD)) return(8000); DSTROY(FOOD); - SPK=72; + spk=72; } else { if (obj == FOOD) { DSTROY(FOOD); - SPK=72; + spk=72; } if (obj == BIRD || obj == SNAKE || obj == CLAM || obj == OYSTER || obj == DWARF || obj == DRAGON || obj == TROLL || obj == BEAR || obj == - OGRE)SPK=71; + OGRE)spk=71; } - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int extinguish(int obj) +static int extinguish(token_t verb, int obj) /* Extinguish. Lamp, urn, dragon/volcano (nice try). */ { + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { if (HERE(LAMP) && game.prop[LAMP] == 1)obj=LAMP; if (HERE(URN) && game.prop[URN] == 2)obj=obj*NOBJECTS+URN; @@ -429,205 +444,196 @@ static int extinguish(int obj) if (obj == URN) { game.prop[URN]=game.prop[URN]/2; - SPK=210; - RSPEAK(SPK); - return 2012; + spk=210; + RSPEAK(spk); + return GO_CLEAROBJ; } else if (obj == LAMP) { game.prop[LAMP]=0; RSPEAK(40); if (DARK(game.loc)) RSPEAK(16); - return(2012); + return GO_CLEAROBJ; } else if (obj == DRAGON || obj == VOLCAN) - SPK=146; - RSPEAK(SPK); - return 2012; + spk=146; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int feed(long obj) +static int feed(token_t verb, token_t obj) /* Feed. If bird, no seed. Snake, dragon, troll: quip. If dwarf, make him * mad. Bear, special. */ { + int spk = ACTSPK[verb]; if (obj == BIRD) { - SPK=100; - RSPEAK(SPK); - return 2012; + RSPEAK(100); + return GO_CLEAROBJ; } - - if (!(obj != SNAKE && obj != DRAGON && obj != TROLL)) { - SPK=102; - if (obj == DRAGON && game.prop[DRAGON] != 0)SPK=110; - if (obj == TROLL)SPK=182; - if (obj != SNAKE || game.closed || !HERE(BIRD)) - {RSPEAK(SPK); return 2012;} - SPK=101; - DSTROY(BIRD); - game.prop[BIRD]=0; - RSPEAK(SPK); - return 2012; + else if (obj == SNAKE || obj == DRAGON || obj == TROLL) { + spk=102; + if (obj == DRAGON && game.prop[DRAGON] != 0)spk=110; + if (obj == TROLL)spk=182; + if (obj == SNAKE && !game.closed && HERE(BIRD)) { + DSTROY(BIRD); + game.prop[BIRD]=0; + spk = 101; + } } - - if (obj == DWARF) { - if (!HERE(FOOD)) - {RSPEAK(SPK); return 2012;} - SPK=103; - game.dflag=game.dflag+2; - RSPEAK(SPK); - return 2012; + else if (obj == DWARF) { + if (HERE(FOOD)) { + game.dflag += 2; + spk = 103; + } } - - if (obj == BEAR) { - if (game.prop[BEAR] == 0)SPK=102; - if (game.prop[BEAR] == 3)SPK=110; - if (!HERE(FOOD)) { - RSPEAK(SPK); - return 2012; + else if (obj == BEAR) { + if (game.prop[BEAR] == 0)spk=102; + if (game.prop[BEAR] == 3)spk=110; + if (HERE(FOOD)) { + DSTROY(FOOD); + game.prop[BEAR]=1; + game.fixed[AXE]=0; + game.prop[AXE]=0; + spk=168; } - DSTROY(FOOD); - game.prop[BEAR]=1; - game.fixed[AXE]=0; - game.prop[AXE]=0; - SPK=168; - RSPEAK(SPK); - return 2012; } - - if (obj == OGRE) { + else if (obj == OGRE) { if (HERE(FOOD)) - SPK=202; - RSPEAK(SPK); - return 2012; + spk=202; + } else { + spk=14; } - - SPK=14; - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } -int fill(long obj) +int fill(token_t verb, token_t obj) /* Fill. Bottle or urn must be empty, and liquid available. (Vase * is nasty.) */ { int k; + int spk = ACTSPK[verb]; if (obj == VASE) { - SPK=29; - if (LIQLOC(game.loc) == 0)SPK=144; + spk=29; + if (LIQLOC(game.loc) == 0)spk=144; if (LIQLOC(game.loc) == 0 || !TOTING(VASE)) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } RSPEAK(145); game.prop[VASE]=2; game.fixed[VASE]= -1; - return(discard(obj, true)); + return(discard(verb, obj, true)); } if (obj == URN){ - SPK=213; - if (game.prop[URN] != 0) {RSPEAK(SPK); return 2012;} - SPK=144; + spk=213; + if (game.prop[URN] != 0) {RSPEAK(spk); return GO_CLEAROBJ;} + spk=144; k=LIQUID(); - if (k == 0 || !HERE(BOTTLE)) {RSPEAK(SPK); return 2012;} + if (k == 0 || !HERE(BOTTLE)) {RSPEAK(spk); return GO_CLEAROBJ;} game.place[k]=0; game.prop[BOTTLE]=1; if (k == OIL)game.prop[URN]=1; - SPK=211+game.prop[URN]; - RSPEAK(SPK); - return 2012; + spk=211+game.prop[URN]; + RSPEAK(spk); + return GO_CLEAROBJ; } if (obj != 0 && obj != BOTTLE) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } if (obj == 0 && !HERE(BOTTLE)) return(8000); - SPK=107; + spk=107; if (LIQLOC(game.loc) == 0) - SPK=106; + spk=106; if (HERE(URN) && game.prop[URN] != 0) - SPK=214; + spk=214; if (LIQUID() != 0) - SPK=105; - if (SPK != 107) - {RSPEAK(SPK); return 2012;} + spk=105; + if (spk != 107) + {RSPEAK(spk); return GO_CLEAROBJ;} game.prop[BOTTLE]=MOD(COND[game.loc],4)/2*2; k=LIQUID(); if (TOTING(BOTTLE)) game.place[k]= -1; if (k == OIL) - SPK=108; - RSPEAK(SPK); - return 2012; + spk=108; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int find(token_t obj) +static int find(token_t verb, token_t obj) /* Find. Might be carrying it, or it might be here. Else give caveat. */ { + int spk = ACTSPK[verb]; if (AT(obj) || (LIQUID() == obj && AT(BOTTLE)) || obj == LIQLOC(game.loc) || (obj == DWARF && ATDWRF(game.loc) > 0)) - SPK=94; - if (game.closed)SPK=138; - if (TOTING(obj))SPK=24; - RSPEAK(SPK); - return 2012; + spk=94; + if (game.closed)spk=138; + if (TOTING(obj))spk=24; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int fly(token_t obj) +static int fly(token_t verb, token_t obj) /* Fly. Snide remarks unless hovering rug is here. */ { + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { - if (game.prop[RUG] != 2)SPK=224; - if (!HERE(RUG))SPK=225; - if (SPK/2 == 112) { - RSPEAK(SPK); - return 2012; + if (game.prop[RUG] != 2)spk=224; + if (!HERE(RUG))spk=225; + if (spk/2 == 112) { + RSPEAK(spk); + return GO_CLEAROBJ; } obj=RUG; } if (obj != RUG) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } - SPK=223; - if (game.prop[RUG] != 2) {RSPEAK(SPK); return 2012;} + spk=223; + if (game.prop[RUG] != 2) {RSPEAK(spk); return GO_CLEAROBJ;} game.oldlc2=game.oldloc; game.oldloc=game.loc; game.newloc=game.place[RUG]+game.fixed[RUG]-game.loc; - SPK=226; - if (game.prop[SAPPH] >= 0)SPK=227; - RSPEAK(SPK); - return(2); + spk=226; + if (game.prop[SAPPH] >= 0)spk=227; + RSPEAK(spk); + return GO_TERMINATE; } static int inven(token_t obj) /* Inventory. If object, treat same as find. Else report on current burden. */ { int i; - SPK=98; + int spk=98; for (i=1; i<=NOBJECTS; i++) { if (i == BEAR || !TOTING(i)) continue; - if (SPK == 98)RSPEAK(99); + if (spk == 98) + RSPEAK(99); game.blklin=false; PSPEAK(i,-1); game.blklin=true; - SPK=0; + spk=0; } if (TOTING(BEAR)) - SPK=141; - RSPEAK(SPK); - return 2012; + spk=141; + RSPEAK(spk); + return GO_CLEAROBJ; } -int light(token_t obj) +int light(token_t verb, token_t obj) /* Light. Applicable only to lamp and urn. */ { + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { if (HERE(LAMP) && game.prop[LAMP] == 0 && game.limit >= 0)obj=LAMP; if (HERE(URN) && game.prop[URN] == 1)obj=obj*NOBJECTS+URN; @@ -635,29 +641,30 @@ int light(token_t obj) } if (obj == URN) { - SPK=38; + spk=38; if (game.prop[URN] == 0) - {RSPEAK(SPK); return 2012;} - SPK=209; + {RSPEAK(spk); return GO_CLEAROBJ;} + spk=209; game.prop[URN]=2; - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } else { if (obj != LAMP) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } - SPK=184; + spk=184; if (game.limit < 0) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } game.prop[LAMP]=1; RSPEAK(39); if (game.wzdark) - return(2000); - return(2012); + return GO_TOP; + else + return GO_CLEAROBJ; } } @@ -665,101 +672,101 @@ static int listen(void) /* Listen. Intransitive only. Print stuff based on objsnd/locsnd. */ { int i, k; - SPK=228; + int spk=228; k=LOCSND[game.loc]; if (k != 0) { RSPEAK(labs(k)); - if (k < 0) return(2012); - SPK=0; + if (k < 0) return GO_CLEAROBJ; + spk=0; } SETPRM(1,game.zzword,0); for (i=1; i<=NOBJECTS; i++) { if (!HERE(i) || OBJSND[i] == 0 || game.prop[i] < 0) continue; PSPEAK(i,OBJSND[i]+game.prop[i]); - SPK=0; + spk=0; if (i == BIRD && OBJSND[i]+game.prop[i] == 8) DSTROY(BIRD); } - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } static int lock(token_t verb, token_t obj) /* Lock, unlock, no object given. Assume various things if present. */ { - int k; + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { - SPK=28; + spk=28; if (HERE(CLAM))obj=CLAM; if (HERE(OYSTER))obj=OYSTER; if (AT(DOOR))obj=DOOR; if (AT(GRATE))obj=GRATE; if (obj != 0 && HERE(CHAIN)) return(8000); if (HERE(CHAIN))obj=CHAIN; - if (obj == 0) {RSPEAK(SPK); return 2012;} + if (obj == 0) {RSPEAK(spk); return GO_CLEAROBJ;} } /* Lock, unlock object. Special stuff for opening clam/oyster * and for chain. */ if (obj == CLAM || obj == OYSTER) return bivalve(verb, obj); - if (obj == DOOR)SPK=111; - if (obj == DOOR && game.prop[DOOR] == 1)SPK=54; - if (obj == CAGE)SPK=32; - if (obj == KEYS)SPK=55; - if (obj == GRATE || obj == CHAIN)SPK=31; - if (SPK != 31 || !HERE(KEYS)) { - RSPEAK(SPK); - return 2012; + if (obj == DOOR)spk=111; + if (obj == DOOR && game.prop[DOOR] == 1)spk=54; + if (obj == CAGE)spk=32; + if (obj == KEYS)spk=55; + if (obj == GRATE || obj == CHAIN)spk=31; + if (spk != 31 || !HERE(KEYS)) { + RSPEAK(spk); + return GO_CLEAROBJ; } if (obj == CHAIN) return chain(verb); if (game.closng) { - SPK=130; + spk=130; if (!game.panic)game.clock2=15; game.panic=true; - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } - SPK=34+game.prop[GRATE]; + spk=34+game.prop[GRATE]; game.prop[GRATE]=1; if (verb == LOCK)game.prop[GRATE]=0; - SPK=SPK+2*game.prop[GRATE]; - RSPEAK(SPK); - return 2012; + spk=spk+2*game.prop[GRATE]; + RSPEAK(spk); + return GO_CLEAROBJ; } -static int pour(token_t obj) +static int pour(token_t verb, token_t obj) /* Pour. If no object, or object is bottle, assume contents of bottle. * special tests for pouring water or oil on plant or rusty door. */ { + int spk = ACTSPK[verb]; if (obj == BOTTLE || obj == 0)obj=LIQUID(); if (obj == 0) return(8000); - if (!TOTING(obj)) {RSPEAK(SPK); return 2012;} - SPK=78; - if (obj != OIL && obj != WATER) {RSPEAK(SPK); return 2012;} + if (!TOTING(obj)) {RSPEAK(spk); return GO_CLEAROBJ;} + spk=78; + if (obj != OIL && obj != WATER) {RSPEAK(spk); return GO_CLEAROBJ;} if (HERE(URN) && game.prop[URN] == 0) - return fill(URN); + return fill(verb, URN); game.prop[BOTTLE]=1; game.place[obj]=0; - SPK=77; + spk=77; if (!(AT(PLANT) || AT(DOOR))) - {RSPEAK(SPK); return 2012;} + {RSPEAK(spk); return GO_CLEAROBJ;} if (!AT(DOOR)) { - SPK=112; - if (obj != WATER) {RSPEAK(SPK); return 2012;} + spk=112; + if (obj != WATER) {RSPEAK(spk); return GO_CLEAROBJ;} PSPEAK(PLANT,game.prop[PLANT]+3); game.prop[PLANT]=MOD(game.prop[PLANT]+1,3); game.prop[PLANT2]=game.prop[PLANT]; - K=NUL; - return(8); + return GO_MOVE; } else { game.prop[DOOR]=0; if (obj == OIL)game.prop[DOOR]=1; - SPK=113+game.prop[DOOR]; - RSPEAK(SPK); - return 2012; + spk=113+game.prop[DOOR]; + RSPEAK(spk); + return GO_CLEAROBJ; } } @@ -768,13 +775,14 @@ static int quit(FILE *input) { if (YES(input,22,54,54)) score(1); - return(2012); + return GO_CLEAROBJ; } -static int read(FILE *input, token_t obj) +static int read(FILE *input, token_t verb, token_t obj) /* Read. Print stuff based on objtxt. Oyster (?) is special case. */ { int i; + int spk = ACTSPK[verb]; if (obj == INTRANSITIVE) { obj = 0; for (i=1; i<=NOBJECTS; i++) { @@ -787,59 +795,68 @@ static int read(FILE *input, token_t obj) if (DARK(game.loc)) { SETPRM(1,WD1,WD1X); RSPEAK(256); - return(2012); + return GO_CLEAROBJ; + } + if (OBJTXT[obj] == 0 || game.prop[obj] < 0) { + RSPEAK(spk); + return GO_CLEAROBJ; } - if (OBJTXT[obj] == 0 || game.prop[obj] < 0) - {RSPEAK(SPK); return 2012;} if (obj == OYSTER && !game.clshnt) { game.clshnt=YES(input,192,193,54); - return(2012); + return GO_CLEAROBJ; } PSPEAK(obj,OBJTXT[obj]+game.prop[obj]); - return(2012); + return GO_CLEAROBJ; } static int reservoir(void) /* Z'ZZZ (word gets recomputed at startup; different each game). */ { - if (!AT(RESER) && game.loc != game.fixed[RESER]-1) {RSPEAK(SPK); return 2012;} + if (!AT(RESER) && game.loc != game.fixed[RESER]-1) { + RSPEAK(75); + return GO_CLEAROBJ; + } PSPEAK(RESER,game.prop[RESER]+1); game.prop[RESER]=1-game.prop[RESER]; - if (AT(RESER)) return(2012); + if (AT(RESER)) return GO_CLEAROBJ; game.oldlc2=game.loc; game.newloc=0; RSPEAK(241); - return(2); + return GO_TERMINATE; } -static int rub(token_t obj) +static int rub(token_t verb, token_t obj) /* Rub. Yields various snide remarks except for lit urn. */ { - if (obj != LAMP)SPK=76; - if (obj != URN || game.prop[URN] != 2) {RSPEAK(SPK); return 2012;} + int spk = ACTSPK[verb]; + if (obj != LAMP)spk=76; + if (obj != URN || game.prop[URN] != 2) {RSPEAK(spk); return GO_CLEAROBJ;} DSTROY(URN); DROP(AMBER,game.loc); game.prop[AMBER]=1; --game.tally; DROP(CAVITY,game.loc); - SPK=216; - RSPEAK(SPK); - return 2012; + spk=216; + RSPEAK(spk); + return GO_CLEAROBJ; } static int say(void) -/* SAY. Echo WD2 (or WD1 if no WD2 (SAY WHAT?, etc.).) Magic words override. */ +/* Say. Echo WD2 (or WD1 if no WD2 (SAY WHAT?, etc.).) Magic words override. */ { /* FIXME: ugly use of globals */ - SETPRM(1,WD2,WD2X); if (WD2 <= 0)SETPRM(1,WD1,WD1X); - if (WD2 > 0)WD1=WD2; + SETPRM(1,WD2,WD2X); + if (WD2 <= 0) + SETPRM(1,WD1,WD1X); + if (WD2 > 0) + WD1=WD2; int wd=VOCAB(WD1,-1); if (wd == 62 || wd == 65 || wd == 71 || wd == 2025 || wd == 2034) { WD2=0; return(2630); } RSPEAK(258); - return 2012; + return GO_CLEAROBJ; } @@ -847,21 +864,23 @@ static int throw_support(long spk) { RSPEAK(spk); DROP(AXE,game.loc); - K=NUL; - return(8); + return GO_MOVE; } -static int throw(FILE *cmdin, long verb, long obj) +static int throw(FILE *cmdin, long verb, token_t obj) /* Throw. Same as discard unless axe. Then same as attack except * ignore bird, and if dwarf is present then one might be killed. * (Only way to do so!) Axe also special for dragon, bear, and * troll. Treasures special for troll. */ { + int spk = ACTSPK[verb]; if (TOTING(ROD2) && obj == ROD && !TOTING(ROD))obj=ROD2; - if (!TOTING(obj)) - {RSPEAK(SPK); return 2012;} + if (!TOTING(obj)) { + RSPEAK(spk); + return GO_CLEAROBJ; + } if (obj >= 50 && obj <= MAXTRS && AT(TROLL)) { - SPK=159; + spk=159; /* Snarf a treasure for the troll. */ DROP(obj,0); MOVE(TROLL,0); @@ -869,107 +888,108 @@ static int throw(FILE *cmdin, long verb, long obj) DROP(TROLL2,PLAC[TROLL]); DROP(TROLL2+NOBJECTS,FIXD[TROLL]); JUGGLE(CHASM); - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } if (obj == FOOD && HERE(BEAR)) { /* But throwing food is another story. */ obj=BEAR; - return(feed(obj)); + return(feed(verb, obj)); } if (obj != AXE) - return(discard(obj, false)); + return(discard(verb, obj, false)); int i=ATDWRF(game.loc); if (i <= 0) { if (AT(DRAGON) && game.prop[DRAGON] == 0) { - SPK=152; - return throw_support(SPK); + spk=152; + return throw_support(spk); } if (AT(TROLL)) { - SPK=158; - return throw_support(SPK); + spk=158; + return throw_support(spk); } if (AT(OGRE)) { - SPK=203; - return throw_support(SPK); + spk=203; + return throw_support(spk); } if (HERE(BEAR) && game.prop[BEAR] == 0) { /* This'll teach him to throw the axe at the bear! */ - SPK=164; + spk=164; DROP(AXE,game.loc); game.fixed[AXE]= -1; game.prop[AXE]=1; JUGGLE(BEAR); - {RSPEAK(SPK); return 2012;} + {RSPEAK(spk); return GO_CLEAROBJ;} } return(attack(cmdin, verb, 0)); } if (randrange(NDWARVES+1) < game.dflag) { - SPK=48; - return throw_support(SPK); + spk=48; + return throw_support(spk); } game.dseen[i]=false; game.dloc[i]=0; - SPK=47; + spk=47; ++game.dkill; - if (game.dkill == 1)SPK=149; + if (game.dkill == 1)spk=149; - return throw_support(SPK); + return throw_support(spk); } static int vscore(void) /* Score. Call scoring routine but tell it to return. */ { score(-1); - return 2012; + return GO_CLEAROBJ; } -static int wake(token_t obj) +static int wake(token_t verb, token_t obj) /* Wake. Only use is to disturb the dwarves. */ { - if (obj != DWARF || !game.closed) {RSPEAK(SPK); return 2012;} + if (obj != DWARF || !game.closed) {RSPEAK(ACTSPK[verb]); return GO_CLEAROBJ;} RSPEAK(199); return(19000); } -static int wave(token_t obj) +static int wave(token_t verb, token_t obj) /* Wave. No effect unless waving rod at fissure or at bird. */ { - if ((!TOTING(obj)) && (obj != ROD || !TOTING(ROD2)))SPK=29; + int spk = ACTSPK[verb]; + if ((!TOTING(obj)) && (obj != ROD || !TOTING(ROD2)))spk=29; if (obj != ROD || !TOTING(obj) || (!HERE(BIRD) && (game.closng || !AT(FISSUR)))) { - RSPEAK(SPK); - return 2012; + RSPEAK(spk); + return GO_CLEAROBJ; } - if (HERE(BIRD))SPK=206+MOD(game.prop[BIRD],2); - if (SPK == 206 && game.loc == game.place[STEPS] && game.prop[JADE] < 0) { + if (HERE(BIRD))spk=206+MOD(game.prop[BIRD],2); + if (spk == 206 && game.loc == game.place[STEPS] && game.prop[JADE] < 0) { DROP(JADE,game.loc); game.prop[JADE]=0; --game.tally; - SPK=208; - RSPEAK(SPK); - return 2012; + spk=208; + RSPEAK(spk); + return GO_CLEAROBJ; } else { if (game.closed) { - RSPEAK(SPK); /* FIXME: How is SPK set here? */ + RSPEAK(spk); return(19000); } - if (game.closng || !AT(FISSUR)) {RSPEAK(SPK); return 2012;} - if (HERE(BIRD))RSPEAK(SPK); + if (game.closng || !AT(FISSUR)) {RSPEAK(spk); return GO_CLEAROBJ;} + if (HERE(BIRD))RSPEAK(spk); game.prop[FISSUR]=1-game.prop[FISSUR]; PSPEAK(FISSUR,2-game.prop[FISSUR]); - return 2012; + return GO_CLEAROBJ; } } -int action(FILE *input, enum speechpart part, long verb, long obj) +int action(FILE *input, enum speechpart part, long verb, token_t obj) /* Analyse a verb. Remember what it was, go back for object if second word * unless verb is "say", which snarfs arbitrary second word. */ { - int kk; + token_t spk=ACTSPK[verb]; if (part == unknown) { @@ -988,7 +1008,7 @@ int action(FILE *input, enum speechpart part, long verb, long obj) if (game.loc > 9 && game.loc < 15) obj=ENTRNC; if (obj != GRATE) - return(8); + return GO_MOVE; } else if (obj == DWARF && ATDWRF(game.loc) > 0) /* FALL THROUGH */; @@ -1004,8 +1024,9 @@ int action(FILE *input, enum speechpart part, long verb, long obj) } else if (obj == KNIFE && game.knfloc == game.loc) { game.knfloc= -1; - SPK=116; - {RSPEAK(SPK); return 2012;} + spk=116; + RSPEAK(spk); + return GO_CLEAROBJ; } else if (obj == ROD && HERE(ROD2)) { obj=ROD2; @@ -1016,7 +1037,7 @@ int action(FILE *input, enum speechpart part, long verb, long obj) else { SETPRM(1,WD1,WD1X); RSPEAK(256); - return(2012); + return GO_CLEAROBJ; } if (WD2 > 0) @@ -1028,44 +1049,43 @@ int action(FILE *input, enum speechpart part, long verb, long obj) switch(part) { case intransitive: - SPK=ACTSPK[verb]; if (WD2 > 0 && verb != SAY) return(2800); if (verb == SAY)obj=WD2; if (obj == 0) { /* Analyse an intransitive verb (ie, no object given yet). */ switch (verb-1) { - case 0: /* CARRY */ return carry(INTRANSITIVE); + case 0: /* CARRY */ return carry(verb, INTRANSITIVE); case 1: /* DROP */ return(8000); case 2: /* SAY */ return(8000); case 3: /* UNLOC */ return lock(verb, INTRANSITIVE); case 4: /* NOTHI */ {RSPEAK(54); return(20012);} case 5: /* LOCK */ return lock(verb, INTRANSITIVE); - case 6: /* LIGHT */ return light(INTRANSITIVE); - case 7: /* EXTIN */ return extinguish(INTRANSITIVE); + case 6: /* LIGHT */ return light(verb, INTRANSITIVE); + case 7: /* EXTIN */ return extinguish(verb, INTRANSITIVE); case 8: /* WAVE */ return(8000); case 9: /* CALM */ return(8000); - case 10: /* WALK */ {RSPEAK(SPK); return 2012;} + case 10: /* WALK */ {RSPEAK(spk); return GO_CLEAROBJ;} case 11: /* ATTAC */ return attack(input, verb, obj); - case 12: /* POUR */ return pour(obj); - case 13: /* EAT */ return eat(INTRANSITIVE); - case 14: /* DRINK */ return drink(obj); + case 12: /* POUR */ return pour(verb, obj); + case 13: /* EAT */ return eat(verb, INTRANSITIVE); + case 14: /* DRINK */ return drink(verb, obj); case 15: /* RUB */ return(8000); case 16: /* TOSS */ return(8000); case 17: /* QUIT */ return quit(input); case 18: /* FIND */ return(8000); case 19: /* INVEN */ return inven(obj); case 20: /* FEED */ return(8000); - case 21: /* FILL */ return fill(obj); + case 21: /* FILL */ return fill(verb, obj); case 22: /* BLAST */ return blast(); case 23: /* SCOR */ return vscore(); case 24: /* FOO */ return bigwords(WD1); case 25: /* BRIEF */ return brief(); - case 26: /* READ */ return read(input, INTRANSITIVE); + case 26: /* READ */ return read(input, verb, INTRANSITIVE); case 27: /* BREAK */ return(8000); case 28: /* WAKE */ return(8000); case 29: /* SUSP */ return saveresume(input, false); case 30: /* RESU */ return saveresume(input, true); - case 31: /* FLY */ return fly(INTRANSITIVE); + case 31: /* FLY */ return fly(verb, INTRANSITIVE); case 32: /* LISTE */ return listen(); case 33: /* ZZZZ */ return reservoir(); } @@ -1075,39 +1095,39 @@ int action(FILE *input, enum speechpart part, long verb, long obj) case transitive: /* Analyse a transitive verb. */ switch (verb-1) { - case 0: /* CARRY */ return carry(obj); - case 1: /* DROP */ return discard(obj, false); + case 0: /* CARRY */ return carry(verb, obj); + case 1: /* DROP */ return discard(verb, obj, false); case 2: /* SAY */ return say(); case 3: /* UNLOC */ return lock(verb, obj); case 4: /* NOTHI */ {RSPEAK(54); return(20012);} case 5: /* LOCK */ return lock(verb, obj); - case 6: /* LIGHT */ return light(obj); - case 7: /* EXTI */ return extinguish(obj); - case 8: /* WAVE */ return wave(obj); - case 9: /* CALM */ {RSPEAK(SPK); return 2012;} - case 10: /* WALK */ {RSPEAK(SPK); return 2012;} + case 6: /* LIGHT */ return light(verb, obj); + case 7: /* EXTI */ return extinguish(verb, obj); + case 8: /* WAVE */ return wave(verb, obj); + case 9: /* CALM */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 10: /* WALK */ {RSPEAK(spk); return GO_CLEAROBJ;} case 11: /* ATTAC */ return attack(input, verb, obj); - case 12: /* POUR */ return pour(obj); - case 13: /* EAT */ return eat(obj); - case 14: /* DRINK */ return drink(obj); - case 15: /* RUB */ return rub(obj); + case 12: /* POUR */ return pour(verb, obj); + case 13: /* EAT */ return eat(verb, obj); + case 14: /* DRINK */ return drink(verb, obj); + case 15: /* RUB */ return rub(verb, obj); case 16: /* TOSS */ return throw(input, verb, obj); - case 17: /* QUIT */ {RSPEAK(SPK); return 2012;} - case 18: /* FIND */ return find(obj); - case 19: /* INVEN */ return find(obj); - case 20: /* FEED */ return feed(obj); - case 21: /* FILL */ return fill(obj); + case 17: /* QUIT */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 18: /* FIND */ return find(verb, obj); + case 19: /* INVEN */ return find(verb, obj); + case 20: /* FEED */ return feed(verb, obj); + case 21: /* FILL */ return fill(verb, obj); case 22: /* BLAST */ return blast(); - case 23: /* SCOR */ {RSPEAK(SPK); return 2012;} - case 24: /* FOO */ {RSPEAK(SPK); return 2012;} - case 25: /* BRIEF */ {RSPEAK(SPK); return 2012;} - case 26: /* READ */ return read(input, obj); - case 27: /* BREAK */ return vbreak(obj); - case 28: /* WAKE */ return wake(obj); - case 29: /* SUSP */ {RSPEAK(SPK); return 2012;} - case 30: /* RESU */ {RSPEAK(SPK); return 2012;} - case 31: /* FLY */ return fly(obj); - case 32: /* LISTE */ {RSPEAK(SPK); return 2012;} + case 23: /* SCOR */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 24: /* FOO */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 25: /* BRIEF */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 26: /* READ */ return read(input, verb, obj); + case 27: /* BREAK */ return vbreak(verb, obj); + case 28: /* WAKE */ return wake(verb, obj); + case 29: /* SUSP */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 30: /* RESU */ {RSPEAK(spk); return GO_CLEAROBJ;} + case 31: /* FLY */ return fly(verb, obj); + case 32: /* LISTE */ {RSPEAK(spk); return GO_CLEAROBJ;} case 33: /* ZZZZ */ return reservoir(); } BUG(24); @@ -1115,7 +1135,7 @@ int action(FILE *input, enum speechpart part, long verb, long obj) /* Unknown verb, couldn't deduce object - might need hint */ SETPRM(1,WD1,WD1X); RSPEAK(255); - return(2600); + return GO_CHECKHINT; default: BUG(99); }