#include <stdlib.h>
#include <stdio.h>
#include <stdbool.h>
+#include <time.h>
-#include "misc.h"
-#include "main.h"
-#include "share.h"
-#include "funcs.h"
+#include "advent.h"
/*
* Initialisation
*/
-/* Current limits:
- * 12500 words of message text (LINES, LINSIZ).
- * 885 travel options (TRAVEL, TRVSIZ).
- * 330 vocabulary words (KTAB, ATAB, TABSIZ).
- * 185 locations (LTEXT, STEXT, KEY, COND, ABB, ATLOC, LOCSND, LOCSIZ).
- * 100 objects (PLAC, PLACE, FIXD, FIXED, LINK (TWICE), PTEXT, PROP,
- * OBJSND, OBJTXT).
- * 35 "action" verbs (ACTVERB, VRBSIZ).
- * 277 random messages (RTEXT, RTXSIZ).
- * 12 different player classifications (CTEXT, CVAL, CLSMAX).
- * 20 hints (HINTLC, HINTED, HINTS, HNTSIZ).
- * 5 "# of turns" threshholds (TTEXT, TRNVAL, TRNSIZ).
- * There are also limits which cannot be exceeded due to the structure of
- * the database. (E.G., The vocabulary uses n/1000 to determine word type,
- * so there can't be more than 1000 words.) These upper limits are:
- * 1000 non-synonymous vocabulary words
- * 300 locations
- * 100 objects */
-
-
-/* Description of the database format
- *
- *
- * The data file contains several sections. Each begins with a line containing
- * a number identifying the section, and ends with a line containing "-1".
- *
- * Section 1: Long form descriptions. Each line contains a location number,
- * a tab, and a line of text. The set of (necessarily adjacent) lines
- * whose numbers are X form the long description of location X.
- * Section 2: Short form descriptions. Same format as long form. Not all
- * places have short descriptions.
- * Section 3: Travel table. Each line contains a location number (X), a second
- * location number (Y), and a list of motion numbers (see section 4).
- * each motion represents a verb which will go to Y if currently at X.
- * Y, in turn, is interpreted as follows. Let M=Y/1000, N=Y mod 1000.
- * If N<=300 it is the location to go to.
- * If 300<N<=500 N-300 is used in a computed goto to
- * a section of special code.
- * If N>500 message N-500 from section 6 is printed,
- * and he stays wherever he is.
- * Meanwhile, M specifies the conditions on the motion.
- * If M=0 it's unconditional.
- * If 0<M<100 it is done with M% probability.
- * If M=100 unconditional, but forbidden to dwarves.
- * If 100<M<=200 he must be carrying object M-100.
- * If 200<M<=300 must be carrying or in same room as M-200.
- * If 300<M<=400 PROP(M % 100) must *not* be 0.
- * If 400<M<=500 PROP(M % 100) must *not* be 1.
- * If 500<M<=600 PROP(M % 100) must *not* be 2, etc.
- * If the condition (if any) is not met, then the next *different*
- * "destination" value is used (unless it fails to meet *its* conditions,
- * in which case the next is found, etc.). Typically, the next dest will
- * be for one of the same verbs, so that its only use is as the alternate
- * destination for those verbs. For instance:
- * 15 110022 29 31 34 35 23 43
- * 15 14 29
- * This says that, from loc 15, any of the verbs 29, 31, etc., will take
- * him to 22 if he's carrying object 10, and otherwise will go to 14.
- * 11 303008 49
- * 11 9 50
- * This says that, from 11, 49 takes him to 8 unless PROP(3)=0, in which
- * case he goes to 9. Verb 50 takes him to 9 regardless of PROP(3).
- * Section 4: Vocabulary. Each line contains a number (n), a tab, and a
- * five-letter word. Call M=N/1000. If M=0, then the word is a motion
- * verb for use in travelling (see section 3). Else, if M=1, the word is
- * an object. Else, if M=2, the word is an action verb (such as "carry"
- * or "attack"). Else, if M=3, the word is a special case verb (such as
- * "dig") and N % 1000 is an index into section 6. Objects from 50 to
- * (currently, anyway) 79 are considered treasures (for pirate, closeout).
- * Section 5: Object descriptions. Each line contains a number (N), a tab,
- * and a message. If N is from 1 to 100, the message is the "inventory"
- * message for object n. Otherwise, N should be 000, 100, 200, etc., and
- * the message should be the description of the preceding object when its
- * prop value is N/100. The N/100 is used only to distinguish multiple
- * messages from multi-line messages; the prop info actually requires all
- * messages for an object to be present and consecutive. Properties which
- * produce no message should be given the message ">$<".
- * Section 6: Arbitrary messages. Same format as sections 1, 2, and 5, except
- * the numbers bear no relation to anything (except for special verbs
- * in section 4).
- * Section 7: Object locations. Each line contains an object number and its
- * initial location (zero (or omitted) if none). If the object is
- * immovable, the location is followed by a "-1". If it has two locations
- * (e.g. the grate) the first location is followed with the second, and
- * the object is assumed to be immovable.
- * Section 8: Action defaults. Each line contains an "action-verb" number and
- * the index (in section 6) of the default message for the verb.
- * Section 9: Location attributes. Each line contains a number (n) and up to
- * 20 location numbers. Bit N (where 0 is the units bit) is set in
- * COND(LOC) for each loc given. The cond bits currently assigned are:
- * 0 Light
- * 1 If bit 2 is on: on for oil, off for water
- * 2 Liquid asset, see bit 1
- * 3 Pirate doesn't go here unless following player
- * 4 Cannot use "back" to move away
- * Bits past 10 indicate areas of interest to "hint" routines:
- * 11 Trying to get into cave
- * 12 Trying to catch bird
- * 13 Trying to deal with snake
- * 14 Lost in maze
- * 15 Pondering dark room
- * 16 At witt's end
- * 17 Cliff with urn
- * 18 Lost in forest
- * 19 Trying to deal with ogre
- * 20 Found all treasures except jade
- * COND(LOC) is set to 2, overriding all other bits, if loc has forced
- * motion.
- * Section 10: Class messages. Each line contains a number (n), a tab, and a
- * message describing a classification of player. The scoring section
- * selects the appropriate message, where each message is considered to
- * apply to players whose scores are higher than the previous N but not
- * higher than this N. Note that these scores probably change with every
- * modification (and particularly expansion) of the program.
- * SECTION 11: Hints. Each line contains a hint number (add 10 to get cond
- * bit; see section 9), the number of turns he must be at the right loc(s)
- * before triggering the hint, the points deducted for taking the hint,
- * the message number (section 6) of the question, and the message number
- * of the hint. These values are stashed in the "hints" array. HNTMAX is
- * set to the max hint number (<= HNTSIZ).
- * Section 12: Unused in this version.
- * Section 13: Sounds and text. Each line contains either 2 or 3 numbers. If
- * 2 (call them N and S), N is a location and message ABS(S) from section
- * 6 is the sound heard there. If S<0, the sound there drowns out all
- * other noises. If 3 numbers (call them N, S, and T), N is an object
- * number and S+PROP(N) is the property message (from section 5) if he
- * listens to the object, and T+PROP(N) is the text if he reads it. If
- * S or T is -1, the object has no sound or text, respectively. Neither
- * S nor T is allowed to be 0.
- * Section 14: Turn threshholds. Each line contains a number (N), a tab, and
- * a message berating the player for taking so many turns. The messages
- * must be in the proper (ascending) order. The message gets printed if
- * the player exceeds N % 100000 turns, at which time N/100000 points
- * get deducted from his score.
- * Section 0: End of database. */
-
-/* The various messages (sections 1, 2, 5, 6, etc.) may include certain
- * special character sequences to denote that the program must provide
- * parameters to insert into a message when the message is printed. These
- * sequences are:
- * %S = The letter 'S' or nothing (if a given value is exactly 1)
- * %W = A word (up to 10 characters)
- * %L = A word mapped to lower-case letters
- * %U = A word mapped to upper-case letters
- * %C = A word mapped to lower-case, first letter capitalised
- * %T = Several words of text, ending with a word of -1
- * %1 = A 1-digit number
- * %2 = A 2-digit number
- * ...
- * %9 = A 9-digit number
- * %B = Variable number of blanks
- * %! = The entire message should be suppressed */
-
-static bool quick_init(void);
-static int raw_init(void);
-static void report(void);
-static void quick_save(void);
-static int finish_init(void);
-static void quick_io(void);
-
-void initialise(void) {
- if (oldstyle)
- printf("Initialising...\n");
- if(!quick_init()){raw_init(); report(); quick_save();}
- finish_init();
-}
-
-static int raw_init(void) {
- printf("Couldn't find adventure.data, using adventure.text...\n");
-
- FILE *OPENED=fopen("adventure.text","r" /* NOT binary */);
- if(!OPENED){printf("Can't read adventure.text!\n"); exit(0);}
-
-/* Clear out the various text-pointer arrays. All text is stored in array
- * lines; each line is preceded by a word pointing to the next pointer (i.e.
- * the word following the end of the line). The pointer is negative if this is
- * first line of a message. The text-pointer arrays contain indices of
- * pointer-words in lines. STEXT(N) is short description of location N.
- * LTEXT(N) is long description. PTEXT(N) points to message for PROP(N)=0.
- * Successive prop messages are found by chasing pointers. RTEXT contains
- * section 6's stuff. CTEXT(N) points to a player-class message. TTEXT is for
- * section 14. We also clear COND (see description of section 9 for details). */
-
- /* 1001 */ for (I=1; I<=300; I++) {
- if(I <= 100)PTEXT[I]=0;
- if(I <= RTXSIZ)RTEXT[I]=0;
- if(I <= CLSMAX)CTEXT[I]=0;
- if(I <= 100)OBJSND[I]=0;
- if(I <= 100)OBJTXT[I]=0;
- if(I > LOCSIZ) goto L1001;
- STEXT[I]=0;
- LTEXT[I]=0;
- COND[I]=0;
- KEY[I]=0;
- LOCSND[I]=0;
-L1001: /*etc*/ ;
- } /* end loop */
-
- LINUSE=1;
- TRVS=1;
- CLSSES=0;
- TRNVLS=0;
-
-/* Start new data section. Sect is the section number. */
-
-L1002: SECT=GETNUM(OPENED);
- game.oldloc= -1;
- switch (SECT) { case 0: return(0); case 1: goto L1004; case 2: goto
- L1004; case 3: goto L1030; case 4: goto L1040; case 5: goto L1004;
- case 6: goto L1004; case 7: goto L1050; case 8: goto L1060; case
- 9: goto L1070; case 10: goto L1004; case 11: goto L1080; case 12:
- break; case 13: goto L1090; case 14: goto L1004; }
-/* (0) (1) (2) (3) (4) (5) (6) (7) (8) (9)
- * (10) (11) (12) (13) (14) */
- BUG(9);
-
-/* Sections 1, 2, 5, 6, 10, 14. Read messages and set up pointers. */
-
-L1004: KK=LINUSE;
-L1005: LINUSE=KK;
- LOC=GETNUM(OPENED);
- if(LNLENG >= LNPOSN+70)BUG(0);
- if(LOC == -1) goto L1002;
- if(LNLENG < LNPOSN)BUG(1);
-L1006: KK=KK+1;
- if(KK >= LINSIZ)BUG(2);
- LINES[KK]=GETTXT(false,false,false,KK);
- if(LINES[KK] != -1) goto L1006;
- LINES[LINUSE]=KK;
- if(LOC == game.oldloc) goto L1005;
- game.oldloc=LOC;
- LINES[LINUSE]= -KK;
- if(SECT == 14) goto L1014;
- if(SECT == 10) goto L1012;
- if(SECT == 6) goto L1011;
- if(SECT == 5) goto L1010;
- if(LOC > LOCSIZ)BUG(10);
- if(SECT == 1) goto L1008;
-
- STEXT[LOC]=LINUSE;
- goto L1005;
-
-L1008: LTEXT[LOC]=LINUSE;
- goto L1005;
-
-L1010: if(LOC > 0 && LOC <= 100)PTEXT[LOC]=LINUSE;
- goto L1005;
-
-L1011: if(LOC > RTXSIZ)BUG(6);
- RTEXT[LOC]=LINUSE;
- goto L1005;
-
-L1012: CLSSES=CLSSES+1;
- if(CLSSES > CLSMAX)BUG(11);
- CTEXT[CLSSES]=LINUSE;
- CVAL[CLSSES]=LOC;
- goto L1005;
-
-L1014: TRNVLS=TRNVLS+1;
- if(TRNVLS > TRNSIZ)BUG(11);
- TTEXT[TRNVLS]=LINUSE;
- TRNVAL[TRNVLS]=LOC;
- goto L1005;
-
-/* The stuff for section 3 is encoded here. Each "from-location" gets a
- * contiguous section of the "TRAVEL" array. Each entry in travel is
- * game.newloc*1000 + KEYWORD (from section 4, motion verbs), and is negated if
- * this is the last entry for this location. KEY(N) is the index in travel
- * of the first option at location N. */
-
-L1030: LOC=GETNUM(OPENED);
- if(LOC == -1) goto L1002;
- game.newloc=GETNUM(NULL);
- if(KEY[LOC] != 0) goto L1033;
- KEY[LOC]=TRVS;
- goto L1035;
-L1033: TRVS--; TRAVEL[TRVS]= -TRAVEL[TRVS]; TRVS++;
-L1035: L=GETNUM(NULL);
- if(L == 0) goto L1039;
- TRAVEL[TRVS]=game.newloc*1000+L;
- TRVS=TRVS+1;
- if(TRVS == TRVSIZ)BUG(3);
- goto L1035;
-L1039: TRVS--; TRAVEL[TRVS]= -TRAVEL[TRVS]; TRVS++;
- goto L1030;
-
-/* Here we read in the vocabulary. KTAB(N) is the word number, ATAB(N) is
- * the corresponding word. The -1 at the end of section 4 is left in KTAB
- * as an end-marker. The words are given a minimal hash to make deciphering
- * the core-image harder. (We don't use gettxt's hash since that would force
- * us to hash each input line to make comparisons work, and that in turn
- * would make it harder to detect particular input words.) */
-
-L1040: J=10000;
- for (TABNDX=1; TABNDX<=TABSIZ; TABNDX++) {
- KTAB[TABNDX]=GETNUM(OPENED);
- if(KTAB[TABNDX] == -1) goto L1002;
- J=J+7;
- ATAB[TABNDX]=GETTXT(true,true,true,0)+J*J;
- } /* end loop */
- BUG(4);
-
-/* Read in the initial locations for each object. Also the immovability info.
- * plac contains initial locations of objects. FIXD is -1 for immovable
- * objects (including the snake), or = second loc for two-placed objects. */
-
-L1050: OBJ=GETNUM(OPENED);
- if(OBJ == -1) goto L1002;
- PLAC[OBJ]=GETNUM(NULL);
- FIXD[OBJ]=GETNUM(NULL);
- goto L1050;
-
-/* Read default message numbers for action verbs, store in ACTVERB. */
-
-L1060: VERB=GETNUM(OPENED);
- if(VERB == -1) goto L1002;
- ACTVERB[VERB]=GETNUM(NULL);
- goto L1060;
-
-/* Read info about available liquids and other conditions, store in COND. */
-
-L1070: K=GETNUM(OPENED);
- if(K == -1) goto L1002;
-L1071: LOC=GETNUM(NULL);
- if(LOC == 0) goto L1070;
- if(CNDBIT(LOC,K)) BUG(8);
- COND[LOC]=COND[LOC]+SETBIT(K);
- goto L1071;
-
-/* Read data for hints. */
-
-L1080: HNTMAX=0;
-L1081: K=GETNUM(OPENED);
- if(K == -1) goto L1002;
- if(K <= 0 || K > HNTSIZ)BUG(7);
- for (I=1; I<=4; I++) {
- HINTS[K][I] =GETNUM(NULL);
- } /* end loop */
- HNTMAX=(HNTMAX>K ? HNTMAX : K);
- goto L1081;
-
-/* Read the sound/text info, store in OBJSND, OBJTXT, LOCSND. */
-
-L1090: K=GETNUM(OPENED);
- if(K == -1) goto L1002;
- KK=GETNUM(NULL);
- I=GETNUM(NULL);
- if(I == 0) goto L1092;
- OBJSND[K]=(KK>0 ? KK : 0);
- OBJTXT[K]=(I>0 ? I : 0);
- goto L1090;
-
-L1092: LOCSND[K]=KK;
- goto L1090;
-}
-
-/* Finish constructing internal data format */
-
-/* Having read in the database, certain things are now constructed. PROPS are
- * set to zero. We finish setting up COND by checking for forced-motion travel
- * entries. The PLAC and FIXD arrays are used to set up ATLOC(N) as the first
- * object at location N, and LINK(OBJ) as the next object at the same location
- * as OBJ. (OBJ>100 indicates that FIXED(OBJ-100)=LOC; LINK(OBJ) is still the
- * correct link to use.) ABB is zeroed; it controls whether the abbreviated
- * description is printed. Counts modulo 5 unless "LOOK" is used. */
-
-static int finish_init(void) {
- for (I=1; I<=100; I++) {
- PLACE[I]=0;
- PROP[I]=0;
- LINK[I]=0;
- {long x = I+100; LINK[x]=0;}
- } /* end loop */
-
- /* 1102 */ for (I=1; I<=LOCSIZ; I++) {
- ABB[I]=0;
- if(LTEXT[I] == 0 || KEY[I] == 0) goto L1102;
- K=KEY[I];
- if(MOD(IABS(TRAVEL[K]),1000) == 1)COND[I]=2;
-L1102: ATLOC[I]=0;
- } /* end loop */
-
-/* Set up the ATLOC and LINK arrays as described above. We'll use the DROP
- * subroutine, which prefaces new objects on the lists. Since we want things
- * in the other order, we'll run the loop backwards. If the object is in two
- * locs, we drop it twice. This also sets up "PLACE" and "fixed" as copies of
- * "PLAC" and "FIXD". Also, since two-placed objects are typically best
- * described last, we'll drop them first. */
-
- /* 1106 */ for (I=1; I<=100; I++) {
- K=101-I;
- if(FIXD[K] <= 0) goto L1106;
- DROP(K+100,FIXD[K]);
- DROP(K,PLAC[K]);
-L1106: /*etc*/ ;
- } /* end loop */
-
- for (I=1; I<=100; I++) {
- K=101-I;
- FIXED[K]=FIXD[K];
- if(PLAC[K] != 0 && FIXD[K] <= 0)DROP(K,PLAC[K]);
- } /* end loop */
-
-/* Treasures, as noted earlier, are objects 50 through MAXTRS (CURRENTLY 79).
- * Their props are initially -1, and are set to 0 the first time they are
- * described. game.tally keeps track of how many are not yet found, so we know
- * when to close the cave. */
-
- MAXTRS=79;
- game.tally=0;
- for (I=50; I<=MAXTRS; I++) {
- if(PTEXT[I] != 0)PROP[I]= -1;
- game.tally=game.tally-PROP[I];
- } /* end loop */
-
-/* Clear the hint stuff. HINTLC(I) is how long he's been at LOC with cond bit
- * I. HINTED(I) is true iff hint I has been used. */
-
- for (I=1; I<=HNTMAX; I++) {
- HINTED[I]=false;
- HINTLC[I]=0;
- } /* end loop */
-
-/* Define some handy mnemonics. These correspond to object numbers. */
-
- AXE=VOCWRD(12405,1);
- BATTER=VOCWRD(201202005,1);
- BEAR=VOCWRD(2050118,1);
- BIRD=VOCWRD(2091804,1);
- BLOOD=VOCWRD(212151504,1);
- BOTTLE=VOCWRD(215202012,1);
- CAGE=VOCWRD(3010705,1);
- CAVITY=VOCWRD(301220920,1);
- CHASM=VOCWRD(308011913,1);
- CLAM=VOCWRD(3120113,1);
- DOOR=VOCWRD(4151518,1);
- DRAGON=VOCWRD(418010715,1);
- DWARF=VOCWRD(423011806,1);
- FISSUR=VOCWRD(609191921,1);
- FOOD=VOCWRD(6151504,1);
- GRATE=VOCWRD(718012005,1);
- KEYS=VOCWRD(11052519,1);
- KNIFE=VOCWRD(1114090605,1);
- LAMP=VOCWRD(12011316,1);
- MAGZIN=VOCWRD(1301070126,1);
- MESSAG=VOCWRD(1305191901,1);
- MIRROR=VOCWRD(1309181815,1);
- OGRE=VOCWRD(15071805,1);
- OIL=VOCWRD(150912,1);
- OYSTER=VOCWRD(1525192005,1);
- PILLOW=VOCWRD(1609121215,1);
- PLANT=VOCWRD(1612011420,1);
- PLANT2=PLANT+1;
- RESER=VOCWRD(1805190518,1);
- ROD=VOCWRD(181504,1);
- ROD2=ROD+1;
- SIGN=VOCWRD(19090714,1);
- SNAKE=VOCWRD(1914011105,1);
- STEPS=VOCWRD(1920051619,1);
- TROLL=VOCWRD(2018151212,1);
- TROLL2=TROLL+1;
- URN=VOCWRD(211814,1);
- VEND=VOCWRD(1755140409,1);
- VOLCAN=VOCWRD(1765120301,1);
- WATER=VOCWRD(1851200518,1);
-
-/* Objects from 50 through whatever are treasures. Here are a few. */
-
- AMBER=VOCWRD(113020518,1);
- CHAIN=VOCWRD(308010914,1);
- CHEST=VOCWRD(308051920,1);
- COINS=VOCWRD(315091419,1);
- EGGS=VOCWRD(5070719,1);
- EMRALD=VOCWRD(513051801,1);
- JADE=VOCWRD(10010405,1);
- NUGGET=VOCWRD(7151204,1);
- PEARL=VOCWRD(1605011812,1);
- PYRAM=VOCWRD(1625180113,1);
- RUBY=VOCWRD(18210225,1);
- RUG=VOCWRD(182107,1);
- SAPPH=VOCWRD(1901161608,1);
- TRIDNT=VOCWRD(2018090405,1);
- VASE=VOCWRD(22011905,1);
-
-/* These are motion-verb numbers. */
-
- BACK=VOCWRD(2010311,0);
- CAVE=VOCWRD(3012205,0);
- DPRSSN=VOCWRD(405161805,0);
- ENTER=VOCWRD(514200518,0);
- ENTRNC=VOCWRD(514201801,0);
- LOOK=VOCWRD(12151511,0);
- NUL=VOCWRD(14211212,0);
- STREAM=VOCWRD(1920180501,0);
-
-/* And some action verbs. */
-
- FIND=VOCWRD(6091404,2);
- INVENT=VOCWRD(914220514,2);
- LOCK=VOCWRD(12150311,2);
- SAY=VOCWRD(190125,2);
- THROW=VOCWRD(2008181523,2);
-
-/* Initialise the dwarves. DLOC is loc of dwarves, hard-wired in. ODLOC is
- * prior loc of each dwarf, initially garbage. DALTLC is alternate initial loc
- * for dwarf, in case one of them starts out on top of the adventurer. (No 2
- * of the 5 initial locs are adjacent.) DSEEN is true if dwarf has seen him.
- * game.dflag controls the level of activation of all this:
- * 0 No dwarf stuff yet (wait until reaches Hall Of Mists)
- * 1 Reached Hall Of Mists, but hasn't met first dwarf
- * 2 Met first dwarf, others start moving, no knives thrown yet
- * 3 A knife has been thrown (first set always misses)
- * 3+ Dwarves are mad (increases their accuracy)
- * Sixth dwarf is special (the pirate). He always starts at his chest's
- * eventual location inside the maze. This loc is saved in CHLOC for ref.
- * the dead end in the other maze has its loc stored in CHLOC2. */
-
- CHLOC=114;
- CHLOC2=140;
- for (I=1; I<=6; I++) {
- game.dseen[I]=false;
- } /* end loop */
- game.dflag=0;
- DLOC[1]=19;
- DLOC[2]=27;
- DLOC[3]=33;
- DLOC[4]=44;
- DLOC[5]=64;
- DLOC[6]=CHLOC;
- DALTLC=18;
-
-/* Other random flags and counters, as follows:
- * game.abbnum How often we should print non-abbreviated descriptions
- * game.bonus Used to determine amount of bonus if he reaches closing
- * game.clock1 Number of turns from finding last treasure till closing
- * game.clock2 Number of turns from first warning till blinding flash
- * CONDS Min value for cond(loc) if loc has any hints
- * game.detail How often we've said "not allowed to give more detail"
- * game.dkill Number of dwarves killed (unused in scoring, needed for msg)
- * game.foobar Current progress in saying "FEE FIE FOE FOO".
- * game.holdng Number of objects being carried
- * IGO How many times he's said "go XXX" instead of "XXX"
- * game.iwest How many times he's said "west" instead of "w"
- * game.knfloc 0 if no knife here, loc if knife here, -1 after caveat
- * game.limit Lifetime of lamp (not set here)
- * MAXDIE Number of reincarnation messages available (up to 5)
- * game.numdie Number of times killed so far
- * game.thresh Next #turns threshhold (-1 if none)
- * game.trndex Index in TRNVAL of next threshhold (section 14 of database)
- * game.trnluz # points lost so far due to number of turns used
- * game.turns Tallies how many commands he's given (ignores yes/no)
- * Logicals were explained earlier */
-
- game.turns=0;
- game.trndex=1;
- game.thresh= -1;
- if(TRNVLS > 0)game.thresh=MOD(TRNVAL[1],100000)+1;
- game.trnluz=0;
- game.lmwarn=false;
- IGO=0;
- game.iwest=0;
- game.knfloc=0;
- game.detail=0;
- game.abbnum=5;
- for (I=0; I<=4; I++) {
- {long x = 2*I+81; if(RTEXT[x] != 0)MAXDIE=I+1;}
- } /* end loop */
- game.numdie=0;
- game.holdng=0;
- game.dkill=0;
- game.foobar=0;
- game.bonus=0;
- game.clock1=30;
- game.clock2=50;
- CONDS=SETBIT(11);
- game.saved=0;
- game.closng=false;
- game.panic=false;
- game.closed=false;
- game.clshint=false;
- game.novice=false;
- game.setup=1;
-
- /* if we can ever think of how, we should save it at this point */
-
- return(0); /* then we won't actually return from initialisation */
-}
-
-/* Report on amount of arrays actually used, to permit reductions. */
-
-static void report(void) {
- for (K=1; K<=LOCSIZ; K++) {
- KK=LOCSIZ+1-K;
- if(LTEXT[KK] != 0) goto L1997;
- /*etc*/ ;
- } /* end loop */
-
- OBJ=0;
-L1997: for (K=1; K<=100; K++) {
- if(PTEXT[K] != 0)OBJ=OBJ+1;
- } /* end loop */
-
- for (K=1; K<=TABNDX; K++) {
- if(KTAB[K]/1000 == 2)VERB=KTAB[K]-2000;
- } /* end loop */
-
- for (K=1; K<=RTXSIZ; K++) {
- J=RTXSIZ+1-K;
- if(RTEXT[J] != 0) goto L1993;
- /*etc*/ ;
- } /* end loop */
-
-L1993: SETPRM(1,LINUSE,LINSIZ);
- SETPRM(3,TRVS,TRVSIZ);
- SETPRM(5,TABNDX,TABSIZ);
- SETPRM(7,KK,LOCSIZ);
- SETPRM(9,OBJ,100);
- SETPRM(11,VERB,VRBSIZ);
- SETPRM(13,J,RTXSIZ);
- SETPRM(15,CLSSES,CLSMAX);
- SETPRM(17,HNTMAX,HNTSIZ);
- SETPRM(19,TRNVLS,TRNSIZ);
- RSPEAK(267);
- TYPE0();
-}
-
-static long init_reading, init_cksum;
-static FILE *f;
-
-static void quick_item(long*);
-static void quick_array(long*, long);
-
-static bool quick_init(void) {
- extern char *getenv();
- char *adv = getenv("ADVENTURE");
- f = NULL;
- if(adv)f = fopen(adv,READ_MODE);
- if(f == NULL)f = fopen("adventure.data",READ_MODE);
- if(f == NULL)return(false);
- init_reading = true;
- init_cksum = 1;
- quick_io();
- if(fread(&K,sizeof(long),1,f) == 1) init_cksum -= K; else init_cksum = 1;
- fclose(f);
- if(init_cksum != 0)printf("Checksum error!\n");
- return(init_cksum == 0);
-}
-
-static void quick_save(void) {
- printf("Writing adventure.data...\n");
- f = fopen("adventure.data",WRITE_MODE);
- if(f == NULL){printf("Can't open file!\n"); return;}
- init_reading = false;
- init_cksum = 1;
- quick_io();
- fwrite(&init_cksum,sizeof(long),1,f);
- fclose(f);
-}
-
-static void quick_io(void) {
- quick_item(&LINUSE);
- quick_item(&TRVS);
- quick_item(&CLSSES);
- quick_item(&TRNVLS);
- quick_item(&TABNDX);
- quick_item(&HNTMAX);
- quick_array(PTEXT,100);
- quick_array(RTEXT,RTXSIZ);
- quick_array(CTEXT,CLSMAX);
- quick_array(OBJSND,100);
- quick_array(OBJTXT,100);
- quick_array(STEXT,LOCSIZ);
- quick_array(LTEXT,LOCSIZ);
- quick_array(COND,LOCSIZ);
- quick_array(KEY,LOCSIZ);
- quick_array(LOCSND,LOCSIZ);
- quick_array(LINES,LINSIZ);
- quick_array(CVAL,CLSMAX);
- quick_array(TTEXT,TRNSIZ);
- quick_array(TRNVAL,TRNSIZ);
- quick_array(TRAVEL,TRVSIZ);
- quick_array(KTAB,TABSIZ);
- quick_array(ATAB,TABSIZ);
- quick_array(PLAC,100);
- quick_array(FIXD,100);
- quick_array(ACTVERB,VRBSIZ);
- quick_array((long *)HINTS,(HNTMAX+1)*5-1);
-}
-
-static void quick_item(W)long *W; {
- if(init_reading && fread(W,sizeof(long),1,f) != 1)return;
- init_cksum = MOD(init_cksum*13+(*W),60000000);
- if(!init_reading)fwrite(W,sizeof(long),1,f);
-}
-
-static void quick_array(A,N)long *A, N; { long I;
- if(init_reading && fread(A,sizeof(long),N+1,f) != N+1)printf("Read error!\n");
- for(I=1;I<=N;I++)init_cksum = MOD(init_cksum*13+A[I],60000000);
- if(!init_reading && fwrite(A,sizeof(long),N+1,f)!=N+1)printf("Write error!\n");
+struct settings_t settings = {
+ .logfp = NULL,
+ .oldstyle = false,
+ .prompt = true
+};
+
+struct game_t game = {
+ .dloc[1] = LOC_KINGHALL,
+ .dloc[2] = LOC_WESTBANK,
+ .dloc[3] = LOC_Y2,
+ .dloc[4] = LOC_ALIKE3,
+ .dloc[5] = LOC_COMPLEX,
+
+ /* Sixth dwarf is special (the pirate). He always starts at his
+ * chest's eventual location inside the maze. This loc is saved
+ * in chloc for ref. The dead end in the other maze has its
+ * loc stored in chloc2. */
+ .dloc[6] = LOC_DEADEND12,
+ .chloc = LOC_DEADEND12,
+ .chloc2 = LOC_DEADEND13,
+ .abbnum = 5,
+ .clock1 = WARNTIME,
+ .clock2 = FLASHTIME,
+ .newloc = LOC_START,
+ .loc = LOC_START,
+ .limit = GAMELIMIT,
+
+ /* Initialize our LCG PRNG with parameters tested against
+ * Knuth vol. 2. by the original authors */
+ .lcg_a = 1093,
+ .lcg_c = 221587,
+ .lcg_m = 1048576,
+};
+
+long initialise(void)
+{
+ if (settings.oldstyle)
+ printf("Initialising...\n");
+
+ srand(time(NULL));
+ long seedval = (long)rand();
+ set_seed(seedval);
+
+ for (int i = 1; i <= NOBJECTS; i++) {
+ game.place[i] = LOC_NOWHERE;
+ }
+
+ for (int i = 1; i <= NLOCATIONS; i++) {
+ if (!(locations[i].description.big == 0 ||
+ tkey[i] == 0)) {
+ int k = tkey[i];
+ if (T_TERMINATE(travel[k]))
+ conditions[i] |= (1 << COND_FORCED);
+ }
+ }
+
+ /* Set up the game.atloc and game.link arrays.
+ * We'll use the DROP subroutine, which prefaces new objects on the
+ * lists. Since we want things in the other order, we'll run the
+ * loop backwards. If the object is in two locs, we drop it twice.
+ * Also, since two-placed objects are typically best described
+ * last, we'll drop them first. */
+ for (int i = NOBJECTS; i >= 1; i--) {
+ if (objects[i].fixd > 0) {
+ drop(i + NOBJECTS, objects[i].fixd);
+ drop(i, objects[i].plac);
+ }
+ }
+
+ for (int i = 1; i <= NOBJECTS; i++) {
+ int k = NOBJECTS + 1 - i;
+ game.fixed[k] = objects[k].fixd;
+ if (objects[k].plac != 0 && objects[k].fixd <= 0)
+ drop(k, objects[k].plac);
+ }
+
+ /* Treasure props are initially -1, and are set to 0 the first time
+ * they are described. game.tally keeps track of how many are
+ * not yet found, so we know when to close the cave. */
+ for (int treasure = 1; treasure <= NOBJECTS; treasure++) {
+ if (objects[treasure].is_treasure) {
+ if (objects[treasure].inventory != 0)
+ game.prop[treasure] = STATE_NOTFOUND;
+ game.tally = game.tally - game.prop[treasure];
+ }
+ }
+ game.conds = setbit(11);
+
+ return seedval;
}