X-Git-Url: https://jxself.org/git/?p=open-adventure.git;a=blobdiff_plain;f=main.c;h=6cfc411fdd79651cc1aa3d49b0d8de4163f89fc7;hp=49acfa61625999806b3d4e51a455771f958a2ae5;hb=3a2c0ca199cba2efbce5849285c910f02b961441;hpb=01b2c05cbb7299241571f7f039a591e09088aeec diff --git a/main.c b/main.c index 49acfa6..6cfc411 100644 --- a/main.c +++ b/main.c @@ -6,6 +6,7 @@ #include #include #include +#include #include "main.h" #include "misc.h" @@ -39,16 +40,22 @@ long ABBNUM, ACTSPK[36], AMBER, ATTACK, AXE, BACK, BATTER, BEAR, BIRD, BLOOD, BO TRVSIZ = 885, TTEXT[6], TURNS, URN, V1, V2, VASE, VEND, VERB, VOLCAN, VRBSIZ = 35, VRSION = 25, WATER, WD1, WD1X, WD2, WD2X, WZDARK = false, ZZWORD; +FILE *logfp; +bool oldstyle = false; +lcg_state lcgstate; extern void initialise(); extern void score(long); -extern int action(long); +extern int action(FILE *, long); /* * MAIN PROGRAM */ +static bool do_command(FILE *); + int main(int argc, char *argv[]) { + int ch; /* Adventure (rev 2: 20 treasures) */ @@ -58,6 +65,23 @@ int main(int argc, char *argv[]) { * Errata fixed: 78/12/25 */ +/* Options. */ + + while ((ch = getopt(argc, argv, "l:o")) != EOF) { + switch (ch) { + case 'l': + logfp = fopen(optarg, "w"); + if (logfp == NULL) + fprintf(stderr, + "advent: can't open logfile %s for write\n", + optarg); + break; + case 'o': + oldstyle = true; + break; + } + } + /* Logical variables: * * CLOSED says whether we're all the way closed @@ -70,6 +94,13 @@ int main(int argc, char *argv[]) { #include "funcs.h" +/* Initialize our LCG PRNG with parameters tested against Knuth vol. 2. by the original authors */ + + lcgstate.a = 1093; + lcgstate.c = 221587; + lcgstate.m = 1048576; + set_seed_from_time(); + /* Read the database if we have not yet done so */ LINES = (long *)calloc(LINSIZ+1,sizeof(long)); @@ -90,29 +121,36 @@ int main(int argc, char *argv[]) { RSPEAK(201); exit(0); - - /* Start-up, dwarf stuff */ L1: SETUP= -1; - I=RAN(-1); + I=0; ZZWORD=RNDVOC(3,0)+MESH*2; - NOVICE=YES(65,1,0); + NOVICE=YES(stdin, 65,1,0); NEWLOC=1; LOC=1; LIMIT=330; if(NOVICE)LIMIT=1000; + for (;;) { + if (!do_command(stdin)) + break; + } + score(1); +} + +static bool do_command(FILE *cmdin) { + /* Can't leave cave once it's closing (except by main office). */ -L2: if(!OUTSID(NEWLOC) || NEWLOC == 0 || !CLOSNG) goto L71; + if(!OUTSID(NEWLOC) || NEWLOC == 0 || !CLOSNG) goto L71; RSPEAK(130); NEWLOC=LOC; if(!PANIC)CLOCK2=15; 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 + * the dwarf's blocking his way. If coming from place forbidden to pirate * (dwarves rooted in place) let him get out (and attacked). */ L71: if(NEWLOC == LOC || FORCED(LOC) || CNDBIT(LOC,3)) goto L74; @@ -146,19 +184,19 @@ L74: LOC=NEWLOC; L6000: if(DFLAG != 1) goto L6010; if(!INDEEP(LOC) || (PCT(95) && (!CNDBIT(LOC,4) || PCT(85)))) goto L2000; DFLAG=2; - /* 6001 */ for (I=1; I<=2; I++) { - J=1+RAN(5); -L6001: if(PCT(50))DLOC[J]=0; + for (I=1; I<=2; I++) { + J=1+randrange(5); + if(PCT(50))DLOC[J]=0; } /* end loop */ - /* 6002 */ for (I=1; I<=5; I++) { + for (I=1; I<=5; I++) { if(DLOC[I] == LOC)DLOC[I]=DALTLC; -L6002: ODLOC[I]=DLOC[I]; + ODLOC[I]=DLOC[I]; } /* end loop */ RSPEAK(3); DROP(AXE,LOC); goto L2000; -/* Things are in full swing. move each dwarf at random, except if he's seen us +/* 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. */ @@ -185,7 +223,7 @@ L6014: KK=KK+1; {long x = KK-1; if(TRAVEL[x] >= 0) goto L6012;} L6016: TK[J]=ODLOC[I]; if(J >= 2)J=J-1; - J=1+RAN(J); + J=1+randrange(J); ODLOC[I]=DLOC[I]; DLOC[I]=TK[J]; DSEEN[I]=(DSEEN[I] && INDEEP(LOC)) || (DLOC[I] == LOC || ODLOC[I] == LOC); @@ -238,7 +276,7 @@ L6027: DTOTAL=DTOTAL+1; if(ODLOC[I] != DLOC[I]) goto L6030; ATTACK=ATTACK+1; if(KNFLOC >= 0)KNFLOC=LOC; - if(RAN(1000) < 95*(DFLAG-2))STICK=STICK+1; + if(randrange(1000) < 95*(DFLAG-2))STICK=STICK+1; L6030: /*etc*/ ; } /* end loop */ @@ -347,13 +385,14 @@ L2602: /*etc*/ ; L2603: if(!CLOSED) goto L2605; if(PROP[OYSTER] < 0 && TOTING(OYSTER))PSPEAK(OYSTER,1); - /* 2604 */ for (I=1; I<=100; I++) { -L2604: if(TOTING(I) && PROP[I] < 0)PROP[I]= -1-PROP[I]; + for (I=1; I<=100; I++) { + if(TOTING(I) && PROP[I] < 0)PROP[I]= -1-PROP[I]; } /* end loop */ L2605: WZDARK=DARK(0); if(KNFLOC > 0 && KNFLOC != LOC)KNFLOC=0; - I=RAN(1); - GETIN(WD1,WD1X,WD2,WD2X); + I=0; + if (!GETIN(cmdin, WD1,WD1X,WD2,WD2X)) + return false; /* Every input, check "FOOBAR" flag. If zero, nothing's going on. If pos, * make neg. If neg, he skipped a word, so make it zero. */ @@ -421,8 +460,8 @@ L4000: I=4000; goto Laction; L4090: I=4090; goto Laction; L5000: I=5000; Laction: - switch (action(I)) { - case 2: goto L2; + switch (action(cmdin, I)) { + case 2: return true; case 8: goto L8; case 2000: goto L2000; case 2009: goto L2009; @@ -450,15 +489,15 @@ L8000: SETPRM(1,WD1,WD1X); /* Figure out the new location * * Given the current location in "LOC", and a motion verb number in "K", put - * the new location in "NEWLOC". the current loc is saved in "OLDLOC" in case - * he wants to retreat. the current OLDLOC is saved in OLDLC2, in case he + * the new location in "NEWLOC". The current loc is saved in "OLDLOC" in case + * he wants to retreat. The current OLDLOC is saved in OLDLC2, in case he * dies. (if he does, NEWLOC will be limbo, and OLDLOC will be what killed * him, so we need OLDLC2, which is the last place he was safe.) */ L8: KK=KEY[LOC]; NEWLOC=LOC; if(KK == 0)BUG(26); - if(K == NUL) goto L2; + if(K == NUL) return true; if(K == BACK) goto L20; if(K == LOOK) goto L30; if(K == CAVE) goto L40; @@ -489,13 +528,13 @@ L13: if(NEWLOC <= 100) goto L14; L14: if(NEWLOC != 0 && !PCT(NEWLOC)) goto L12; L16: NEWLOC=MOD(LL,1000); - if(NEWLOC <= 300) goto L2; + if(NEWLOC <= 300) return true; if(NEWLOC <= 500) goto L30000; RSPEAK(NEWLOC-500); NEWLOC=LOC; - goto L2; + return true; -/* Special motions come here. labelling convention: statement numbers NNNXX +/* Special motions come here. Labelling convention: statement numbers NNNXX * (XX=00-99) are used for special case number NNN (NNN=301-500). */ L30000: NEWLOC=NEWLOC-300; @@ -508,10 +547,10 @@ L30000: NEWLOC=NEWLOC-300; * be used for actual motion, but can be spotted by "go back". */ L30100: NEWLOC=99+100-LOC; - if(HOLDNG == 0 || (HOLDNG == 1 && TOTING(EMRALD))) goto L2; + if(HOLDNG == 0 || (HOLDNG == 1 && TOTING(EMRALD))) return true; NEWLOC=LOC; RSPEAK(117); - goto L2; + return true; /* 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 @@ -535,11 +574,11 @@ L30300: if(PROP[TROLL] != 1) goto L30310; MOVE(TROLL+100,FIXD[TROLL]); JUGGLE(CHASM); NEWLOC=LOC; - goto L2; + return true; L30310: NEWLOC=PLAC[TROLL]+FIXD[TROLL]-LOC; if(PROP[TROLL] == 0)PROP[TROLL]=1; - if(!TOTING(BEAR)) goto L2; + if(!TOTING(BEAR)) return true; RSPEAK(162); PROP[CHASM]=1; PROP[TROLL]=2; @@ -563,7 +602,7 @@ L20: K=OLDLOC; if(CNDBIT(LOC,4))K2=274; if(K2 == 0) goto L21; RSPEAK(K2); - goto L2; + return true; L21: LL=MOD((IABS(TRAVEL[KK])/1000),1000); if(LL == K) goto L25; @@ -577,7 +616,7 @@ L22: if(TRAVEL[KK] < 0) goto L23; L23: KK=K2; if(KK != 0) goto L25; RSPEAK(140); - goto L2; + return true; L25: K=MOD(IABS(TRAVEL[KK]),1000); KK=KEY[LOC]; @@ -590,14 +629,14 @@ L30: if(DETAIL < 3)RSPEAK(15); DETAIL=DETAIL+1; WZDARK=false; ABB[LOC]=0; - goto L2; + return true; /* Cave. Different messages depending on whether above ground. */ L40: K=58; if(OUTSID(LOC) && LOC != 8)K=57; RSPEAK(K); - goto L2; + return true; /* Non-applicable motion. Various messages depending on word given. */ @@ -610,16 +649,12 @@ L50: SPK=12; if(K == 62 || K == 65)SPK=42; if(K == 17)SPK=80; RSPEAK(SPK); - goto L2; - - - - + 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 + * 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 @@ -642,7 +677,7 @@ L90: RSPEAK(23); L99: if(CLOSNG) goto L95; NUMDIE=NUMDIE+1; - if(!YES(79+NUMDIE*2,80+NUMDIE*2,54)) score(0); + if(!YES(cmdin,79+NUMDIE*2,80+NUMDIE*2,54)) score(0); if(NUMDIE == MAXDIE) score(0); PLACE[WATER]=0; PLACE[OIL]=0; @@ -685,10 +720,10 @@ L40000: switch (HINT-1) { case 0: goto L40100; case 1: goto L40200; case 2: g BUG(27); L40010: HINTLC[HINT]=0; - if(!YES(HINTS[HINT][3],0,54)) goto L2602; + if(!YES(cmdin,HINTS[HINT][3],0,54)) goto L2602; SETPRM(1,HINTS[HINT][2],HINTS[HINT][2]); RSPEAK(261); - HINTED[HINT]=YES(175,HINTS[HINT][4],54); + HINTED[HINT]=YES(cmdin,175,HINTS[HINT][4],54); if(HINTED[HINT] && LIMIT > 30)LIMIT=LIMIT+30*HINTS[HINT][2]; L40020: HINTLC[HINT]=0; L40030: goto L2602; @@ -735,40 +770,40 @@ L41000: if(TALLY == 1 && PROP[JADE] < 0) goto L40010; /* Cave closing and scoring */ -/* These sections handle the closing of the cave. The cave closes "CLOCK1" +/* These sections 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 + * 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 + * 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 branch to + * turns to get frantic before we close. When clock2 hits zero, we branch to * 11000 to 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 + * 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. */ /* 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 + * 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 mt. king. Also, he's + * 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. */ L10000: PROP[GRATE]=0; PROP[FISSUR]=0; - /* 10010 */ for (I=1; I<=6; I++) { + for (I=1; I<=6; I++) { DSEEN[I]=false; -L10010: DLOC[I]=0; + DLOC[I]=0; } /* end loop */ MOVE(TROLL,0); MOVE(TROLL+100,0); @@ -785,17 +820,17 @@ L10010: DLOC[I]=0; CLOSNG=true; 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). - * 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. */ +/* 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). + * 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. */ L11000: PROP[BOTTLE]=PUT(BOTTLE,115,1); PROP[PLANT]=PUT(PLANT,115,0); @@ -808,7 +843,7 @@ L11000: PROP[BOTTLE]=PUT(BOTTLE,115,1); OLDLOC=115; NEWLOC=115; -/* Leave the grate with normal (non-negative) property. reuse sign. */ +/* Leave the grate with normal (non-negative) property. Reuse sign. */ I=PUT(GRATE,116,0); I=PUT(SIGN,116,0); @@ -822,13 +857,13 @@ L11000: PROP[BOTTLE]=PUT(BOTTLE,115,1); PROP[MIRROR]=PUT(MIRROR,115,0); FIXED[MIRROR]=116; - /* 11010 */ for (I=1; I<=100; I++) { -L11010: if(TOTING(I))DSTROY(I); + for (I=1; I<=100; I++) { + if(TOTING(I))DSTROY(I); } /* end loop */ RSPEAK(132); CLOSED=true; - goto L2; + return true; /* 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. We go to 12000 if the lamp