#define LINESIZE 1024
#define TOKLEN 5 // # outputting characters in a token */
-#define NDWARVES 6 // number of dwarves
#define PIRATE NDWARVES // must be NDWARVES-1 when zero-origin
#define DALTLC LOC_NUGGET // alternate dwarf location
#define INVLIMIT 7 // inventory limit (# of objects)
#define IS_FIXED -1
#define IS_FREE 0
-/* Map a state property value to a negative range, where the object cannot be
- * picked up but the value can be recovered later. Avoid colliding with -1,
- * which has its own meaning as STATE_NOTFOUND. */
-#define STASHED(obj) (-1 - game.prop[obj])
+#ifndef FOUNDBOOL
+/* (ESR) It is fitting that translation of the original ADVENT should
+ * have left us a maze of twisty little conditionals that resists all
+ * understanding. Setting and use of what is now the per-object state
+ * member (which used to be an array of its own) is our mystery. This
+ * state tangles together information about whether the object is a
+ * treasure, whether the player has seen it yet, and its activation
+ * state.
+ *
+ * Things we think we know:
+ *
+ * STATE_NOTFOUND is only set on treasures. Non-treasures start the
+ * game in STATE_FOUND.
+ *
+ * PROP_STASHED is supposed to map a state property value to a
+ * negative range, where the object cannot be picked up but the value
+ * can be recovered later. Various objects get this property when
+ * the cave starts to close. Only seems to be significant for the bird
+ * and readable objects, notably the clam/oyster - but the code around
+ * those test is difficult to read.
+ */
+#define PROP_STASHIFY(n) (-1 - (n))
+#define PROP_IS_STASHED(obj) (game.objects[obj].prop < STATE_NOTFOUND)
+#define PROP_IS_NOTFOUND(obj) (game.objects[obj].prop == STATE_NOTFOUND)
+#define PROP_IS_FOUND(obj) (game.objects[obj].prop == STATE_FOUND)
+#define PROP_IS_STASHED_OR_UNSEEN(obj) (game.objects[obj].prop < 0)
+#define PROP_SET_FOUND(obj) (game.objects[obj].prop = STATE_FOUND)
+#define PROP_SET_NOT_FOUND(obj) (game.objects[obj].prop = STATE_NOTFOUND)
+#define PROP_IS_NOTFOUND2(g, o) (g.objects[o].prop == STATE_NOTFOUND)
+#define PROP_IS_INVALID(val) (val < -MAX_STATE - 1 || val > MAX_STATE)
+#else
+/* (ESR) Only the boldest of adventurers will explore here. This
+ * alternate set of definitions for the macros above was an attempt to
+ * break from out of the state encoding a per-object "found" member
+ * telling whether or not the player has seen the object.
+ *
+ * What's broken when you try to use thus is
+ * PROP_IS_STASHED_OR_UNSEEN. The symptom is game.tally getting
+ * decremented on non-treasures.
+ */
+#define PROP_STASHIFY(n) (-(n))
+#define PROP_IS_STASHED(obj) (game.objects[obj].prop < 0)
+#define PROP_IS_NOTFOUND(obj) (!game.objects[obj].found)
+#define PROP_IS_FOUND(obj) (game.objects[obj].found && game.objects[obj].prop == 0)
+#define PROP_IS_STASHED_OR_UNSEEN(obj) (!game.objects[obj].found || game.objects[obj].prop < 0)
+#define PROP_SET_FOUND(obj) do {game.objects[obj].found = true; game.objects[obj].prop = STATE_FOUND;} while(0)
+#define PROP_SET_NOT_FOUND(obj) game.objects[obj].found = false
+#define PROP_IS_NOTFOUND2(g, o) (!g.objects[o].found)
+#define PROP_IS_INVALID(val) (val < -MAX_STATE || val > MAX_STATE)
+#define PROP_SET_SEEN(obj) game.objects[object].found = true
+#endif
+#define PROP_STASHED(obj) PROP_STASHIFY(game.objects[obj].prop)
#define PROMPT "> "
*/
#define DESTROY(N) move(N, LOC_NOWHERE)
#define MOD(N,M) ((N) % (M))
-#define TOTING(OBJ) (game.place[OBJ] == CARRIED)
-#define AT(OBJ) (game.place[OBJ] == game.loc || game.fixed[OBJ] == game.loc)
+#define TOTING(OBJ) (game.objects[OBJ].place == CARRIED)
+#define AT(OBJ) (game.objects[OBJ].place == game.loc || game.objects[OBJ].fixed == game.loc)
#define HERE(OBJ) (AT(OBJ) || TOTING(OBJ))
#define CNDBIT(L,N) (tstbit(conditions[L],N))
-#define LIQUID() (game.prop[BOTTLE] == WATER_BOTTLE? WATER : game.prop[BOTTLE] == OIL_BOTTLE ? OIL : NO_OBJECT )
+#define LIQUID() (game.objects[BOTTLE].prop == WATER_BOTTLE? WATER : game.objects[BOTTLE].prop == OIL_BOTTLE ? OIL : NO_OBJECT )
#define LIQLOC(LOC) (CNDBIT((LOC),COND_FLUID)? CNDBIT((LOC),COND_OILY) ? OIL : WATER : NO_OBJECT)
#define FORCED(LOC) CNDBIT(LOC, COND_FORCED)
-#define DARK(DUMMY) (!CNDBIT(game.loc,COND_LIT) && (game.prop[LAMP] == LAMP_DARK || !HERE(LAMP)))
+#define DARK(DUMMY) (!CNDBIT(game.loc,COND_LIT) && (game.objects[LAMP].prop == LAMP_DARK || !HERE(LAMP)))
#define PCT(N) (randrange(100) < (N))
#define GSTONE(OBJ) ((OBJ) == EMERALD || (OBJ) == RUBY || (OBJ) == AMBER || (OBJ) == SAPPH)
#define FOREST(LOC) CNDBIT(LOC, COND_FOREST)
GO_DWARFWAKE,
} phase_codes_t;
-typedef int vocab_t; // index into a vocabulary array */
-typedef int verb_t; // index into an actions array */
-typedef int obj_t; // index into the object array */
-typedef int loc_t; // index into the locations array */
-typedef int turn_t; // turn counter or threshold */
+/* Use fixed-lwength types to make the save format moore portable */
+typedef int32_t vocab_t; // index into a vocabulary array */
+typedef int32_t verb_t; // index into an actions array */
+typedef int32_t obj_t; // index into the object array */
+typedef int32_t loc_t; // index into the locations array */
+typedef int32_t turn_t; // turn counter or threshold */
+typedef int32_t bool32_t; // turn counter or threshold */
struct game_t {
int32_t lcg_x;
- int abbnum; // How often to print int descriptions
+ int32_t abbnum; // How often to print int descriptions
score_t bonus; // What kind of finishing bonus we are getting
loc_t chloc; // pirate chest location
loc_t chloc2; // pirate chest alternate location
turn_t clock1; // # turns from finding last treasure to close
turn_t clock2; // # turns from warning till blinding flash
- bool clshnt; // has player read the clue in the endgame?
- bool closed; // whether we're all the way closed
- bool closng; // whether it's closing time yet
- bool lmwarn; // has player been warned about lamp going dim?
- bool novice; // asked for instructions at start-up?
- bool panic; // has player found out he's trapped?
- bool wzdark; // whether the loc he's leaving was dark
- bool blooded; // has player drunk of dragon's blood?
- int conds; // min value for cond[loc] if loc has any hints
- int detail; // level of detail in descriptions
+ bool32_t clshnt; // has player read the clue in the endgame?
+ bool32_t closed; // whether we're all the way closed
+ bool32_t closng; // whether it's closing time yet
+ bool32_t lmwarn; // has player been warned about lamp going dim?
+ bool32_t novice; // asked for instructions at start-up?
+ bool32_t panic; // has player found out he's trapped?
+ bool32_t wzdark; // whether the loc he's leaving was dark
+ bool32_t blooded; // has player drunk of dragon's blood?
+ int32_t conds; // min value for cond[loc] if loc has any hints
+ int32_t detail; // level of detail in descriptions
/* dflag controls the level of activation of dwarves:
* 0 No dwarf stuff yet (wait until reaches Hall Of Mists)
* 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) */
- int dflag;
+ int32_t dflag;
- int dkill; // dwarves killed
- int dtotal; // total dwarves (including pirate) in loc
- int foobar; // progress in saying "FEE FIE FOE FOO".
- int holdng; // number of objects being carried
- int igo; // # uses of "go" instead of a direction
- int iwest; // # times he's said "west" instead of "w"
- int knfloc; // knife location; 0 if none, -1 after caveat
+ int32_t dkill; // dwarves killed
+ int32_t dtotal; // total dwarves (including pirate) in loc
+ int32_t foobar; // progress in saying "FEE FIE FOE FOO".
+ int32_t holdng; // number of objects being carried
+ int32_t igo; // # uses of "go" instead of a direction
+ int32_t iwest; // # times he's said "west" instead of "w"
+ loc_t knfloc; // knife location; LOC_NOWERE if none, -1 after caveat
turn_t limit; // lifetime of lamp
loc_t loc; // where player is now
loc_t newloc; // where player is going
loc_t oldloc; // where player was
loc_t oldlc2; // where player was two moves ago
obj_t oldobj; // last object player handled
- int saved; // point penalty for saves
- int tally; // count of treasures gained
- int thresh; // current threshold for endgame scoring tier
- bool seenbigwords; // have we red the grafitti in the Giant's Room?
+ int32_t saved; // point penalty for saves
+ int32_t tally; // count of treasures gained
+ int32_t thresh; // current threshold for endgame scoring tier
+ bool32_t seenbigwords; // have we red the graffiti in the Giant's Room?
turn_t trnluz; // # points lost so far due to turns used
turn_t turns; // counts commands given (ignores yes/no)
char zzword[TOKLEN + 1]; // randomly generated magic word from bird
- int abbrev[NLOCATIONS + 1]; // has location been seen?
- int atloc[NLOCATIONS + 1]; // head of object linked list per location
- int dseen[NDWARVES + 1]; // true if dwarf has seen him
- loc_t dloc[NDWARVES + 1]; // location of dwarves, initially hard-wired in
- loc_t odloc[NDWARVES + 1]; // prior loc of each dwarf, initially garbage
- loc_t fixed[NOBJECTS + 1]; // fixed location of object (if not IS_FREE)
+ struct {
+ int32_t abbrev; // has location been seen?
+ int32_t atloc; // head of object linked list per location
+ } locs[NLOCATIONS + 1];
+ struct {
+ int32_t seen; // true if dwarf has seen him
+ loc_t loc; // location of dwarves, initially hard-wired in
+ loc_t oldloc; // prior loc of each dwarf, initially garbage
+ } dwarves[NDWARVES + 1];
+ struct {
+#ifdef FOUNDBOOL
+ bool32_t found; // has the location of this object been found?
+#endif
+ loc_t fixed; // fixed location of object (if not IS_FREE)
+ int32_t prop; // object state */
+ loc_t place; // location of object
+ } objects[NOBJECTS + 1];
+ struct {
+ bool32_t used; // hints[i].used = true iff hint i has been used.
+ int32_t lc; // hints[i].lc = show int at LOC with cond bit i
+ } hints[NHINTS];
obj_t link[NOBJECTS * 2 + 1];// object-list links
- loc_t place[NOBJECTS + 1]; // location of object
- int hinted[NHINTS]; // hinted[i] = true iff hint i has been used.
- int hintlc[NHINTS]; // hintlc[i] = how int at LOC with cond bit i
- int prop[NOBJECTS + 1]; // object state array */
};
/*
* files afterwards. Otherwise you will get a spurious failure due to the old version
* having been generated into a check file.
*/
-#define SAVE_VERSION 30
+#define SAVE_VERSION 31
/*
- * Goes at start of gile so sabes can be identified by file(1) and the like.
+ * Goes at start of file so saves can be identified by file(1) and the like.
*/
#define ADVENT_MAGIC "open-adventure\n"
struct save_t {
char magic[sizeof(ADVENT_MAGIC)];
int32_t version;
+ int32_t canary;
struct game_t game;
};
extern bool yes_or_no(const char*, const char*, const char*);
extern void juggle(obj_t);
extern void move(obj_t, loc_t);
-extern loc_t put(obj_t, loc_t, int);
+extern void put(obj_t, loc_t, int);
extern void carry(obj_t, loc_t);
extern void drop(obj_t, loc_t);
extern int atdwrf(loc_t);
extern int32_t randrange(int32_t);
extern int score(enum termination);
extern void terminate(enum termination) __attribute__((noreturn));
-extern int savefile(FILE *, int32_t);
+extern int savefile(FILE *);
#if defined ADVENT_AUTOSAVE
extern void autosave(void);
#endif