5 * @brief ダンジョンの生成処理の基幹部分ヘッダーファイル
8 * Purpose: header file for grid.c, used only in dungeon generation
9 * files (generate.c, rooms.c)
11 * Copyright (c) 1989 James E. Wilson, Robert A. Koeneke
12 * This software may be copied and distributed for educational, research, and
13 * not for profit purposes provided that this copyright and statement are
14 * included in all such copies.
19 * A single "grid" in a Cave
21 * Note that several aspects of the code restrict the actual grid
22 * to a max size of 256 by 256. In partcular, locations are often
23 * saved as bytes, limiting each coordinate to the 0-255 range.
25 * The "o_idx" and "m_idx" fields are very interesting. There are
26 * many places in the code where we need quick access to the actual
27 * monster or object(s) in a given grid. The easiest way to
28 * do this is to simply keep the index of the monster and object
29 * (if any) with the grid, but this takes 198*66*4 bytes of memory.
30 * Several other methods come to mind, which require only half this
31 * amound of memory, but they all seem rather complicated, and would
32 * probably add enough code that the savings would be lost. So for
33 * these reasons, we simply store an index into the "o_list" and
34 * ">m_list" arrays, using "zero" when no monster/object is present.
36 * Note that "o_idx" is the index of the top object in a stack of
37 * objects, using the "next_o_idx" field of objects (see below) to
38 * create the singly linked list of objects. If "o_idx" is zero
39 * then there are no objects in the grid.
41 * Note the special fields for the "MONSTER_FLOW" code.
44 typedef struct player_type player_type; // TODO: Delete Finally.
46 typedef struct grid_type grid_type;
50 BIT_FLAGS info; /* Hack -- grid flags */
52 FEAT_IDX feat; /* Hack -- feature type */
53 OBJECT_IDX o_idx; /* Object in this grid */
54 MONSTER_IDX m_idx; /* Monster in this grid */
56 /*! 地形の特別な情報を保存する / Special grid info
57 * 具体的な使用一覧はクエスト行き階段の移行先クエストID、
58 * 各ダンジョン入口の移行先ダンジョンID、
63 FEAT_IDX mimic; /* Feature to mimic */
65 byte cost; /* Hack -- cost of flowing */
66 byte dist; /* Hack -- distance from player */
67 byte when; /* Hack -- when cost was computed */
71 * A structure type for terrain template of saving dungeon floor
82 #define feat_locked_door_random(DOOR_TYPE) \
83 (feat_door[(DOOR_TYPE)].num_locked ? \
84 feat_door[(DOOR_TYPE)].locked[randint0(feat_door[(DOOR_TYPE)].num_locked)] : feat_none)
86 #define feat_jammed_door_random(DOOR_TYPE) \
87 (feat_door[(DOOR_TYPE)].num_jammed ? \
88 feat_door[(DOOR_TYPE)].jammed[randint0(feat_door[(DOOR_TYPE)].num_jammed)] : feat_none)
91 #define set_cave_feat(FL,Y,X,F) ((FL)->grid_array[(Y)][(X)].feat = (F))
92 #define add_cave_info(FL,Y,X,I) ((FL)->grid_array[(Y)][(X)].info |= (I))
99 #define place_rubble(F,Y,X) set_cave_feat(F,Y,X,feat_rubble)
102 * @brief 指定座標がFLOOR属性を持ったマスかどうかを返す
105 * @return FLOOR属性を持っているならばTRUE
107 #define is_floor_bold(F,Y,X) (F->grid_array[Y][X].info & CAVE_FLOOR)
108 #define is_extra_bold(F,Y,X) (F->grid_array[Y][X].info & CAVE_EXTRA)
110 #define is_inner_bold(F,Y,X) (F->grid_array[Y][X].info & CAVE_INNER)
111 #define is_outer_bold(F,Y,X) (F->grid_array[Y][X].info & CAVE_OUTER)
112 #define is_solid_bold(F,Y,X) (F->grid_array[Y][X].info & CAVE_SOLID)
114 #define is_floor_grid(C) ((C)->info & CAVE_FLOOR)
115 #define is_extra_grid(C) ((C)->info & CAVE_EXTRA)
116 #define is_inner_grid(C) ((C)->info & CAVE_INNER)
117 #define is_outer_grid(C) ((C)->info & CAVE_OUTER)
118 #define is_solid_grid(C) ((C)->info & CAVE_SOLID)
121 * 特殊なマス状態フラグ / Special grid flags
123 #define CAVE_MARK 0x0001 /*!< 現在プレイヤーの記憶に収まっている / memorized feature */
124 #define CAVE_GLOW 0x0002 /*!< マス自体が光源を持っている / self-illuminating */
125 #define CAVE_ICKY 0x0004 /*!< 生成されたVaultの一部である / part of a vault */
126 #define CAVE_ROOM 0x0008 /*!< 生成された部屋の一部である / part of a room */
127 #define CAVE_LITE 0x0010 /*!< 現在光に照らされている / lite flag */
128 #define CAVE_VIEW 0x0020 /*!< 現在プレイヤーの視界に収まっている / view flag */
129 #define CAVE_TEMP 0x0040 /*!< 光源に関する処理のアルゴリズム用記録フラグ / temp flag */
130 #define CAVE_XTRA 0x0080 /*!< 視界に関する処理のアルゴリズム用記録フラグ(update_view()等参照) / misc flag */
131 #define CAVE_MNLT 0x0100 /*!< モンスターの光源によって照らされている / Illuminated by monster */
132 #define CAVE_MNDK 0x8000 /*!< モンスターの暗源によって暗闇になっている / Darken by monster */
134 /* Used only while floor generation */
135 #define CAVE_FLOOR 0x0200 /*!< フロア属性のあるマス */
136 #define CAVE_EXTRA 0x0400
137 #define CAVE_INNER 0x0800
138 #define CAVE_OUTER 0x1000
139 #define CAVE_SOLID 0x2000
140 #define CAVE_VAULT 0x4000
141 #define CAVE_MASK (CAVE_FLOOR | CAVE_EXTRA | CAVE_INNER | CAVE_OUTER | CAVE_SOLID | CAVE_VAULT)
143 /* Used only after floor generation */
144 #define CAVE_KNOWN 0x0200 /* Directly viewed or map detected flag */
145 #define CAVE_NOTE 0x0400 /* Flag for delayed visual update (needs note_spot()) */
146 #define CAVE_REDRAW 0x0800 /* Flag for delayed visual update (needs lite_spot()) */
147 #define CAVE_OBJECT 0x1000 /* Mirror, glyph, etc. */
148 #define CAVE_UNSAFE 0x2000 /* Might have trap */
149 #define CAVE_IN_DETECT 0x4000 /* trap detected area (inner circle only) */
151 /* Types of conversions */
152 #define CONVERT_TYPE_FLOOR 0
153 #define CONVERT_TYPE_WALL 1
154 #define CONVERT_TYPE_INNER 2
155 #define CONVERT_TYPE_OUTER 3
156 #define CONVERT_TYPE_SOLID 4
157 #define CONVERT_TYPE_STREAM1 5
158 #define CONVERT_TYPE_STREAM2 6
162 extern bool new_player_spot(player_type *creature_ptr);
165 #define DOOR_DEFAULT -1
167 #define DOOR_GLASS_DOOR 1
168 #define DOOR_CURTAIN 2
170 #define MAX_DOOR_TYPES 3
172 extern void place_bound_perm_wall(player_type *player_ptr, grid_type *g_ptr);
174 extern bool is_known_trap(grid_type *g_ptr);
175 extern bool is_hidden_door(grid_type *g_ptr);
176 extern bool is_mirror_grid(grid_type *g_ptr);
177 extern bool is_glyph_grid(grid_type *g_ptr);
178 extern bool is_explosive_rune_grid(grid_type *g_ptr);
180 extern bool player_can_enter(player_type *creature_ptr, FEAT_IDX feature, BIT_FLAGS16 mode);
183 * マス構造体のspecial要素を利用する地形かどうかを判定するマクロ / Is this feature has special meaning (except floor_id) with g_ptr->special?
185 #define feat_uses_special(F) (have_flag(f_info[(F)].flags, FF_SPECIAL))
188 extern POSITION distance(POSITION y1, POSITION x1, POSITION y2, POSITION x2);
189 extern void update_local_illumination(player_type *creature_ptr, POSITION y, POSITION x);
190 extern bool no_lite(player_type *creature_ptr);
191 extern void print_rel(player_type *subject_ptr, SYMBOL_CODE c, TERM_COLOR a, TERM_LEN y, TERM_LEN x);
192 extern void note_spot(POSITION y, POSITION x);
193 extern void lite_spot(POSITION y, POSITION x);
194 extern void update_flow(player_type *subject_ptr);
195 extern FEAT_IDX feat_state(FEAT_IDX feat, int action);
196 extern void cave_alter_feat(player_type *player_ptr, POSITION y, POSITION x, int action);
197 extern void remove_mirror(player_type *caster_ptr, POSITION y, POSITION x);
198 extern bool is_open(FEAT_IDX feat);
199 extern bool check_local_illumination(player_type *creature_ptr, POSITION y, POSITION x);
201 extern bool cave_monster_teleportable_bold(MONSTER_IDX m_idx, POSITION y, POSITION x, BIT_FLAGS mode);
202 extern bool cave_player_teleportable_bold(POSITION y, POSITION x, BIT_FLAGS mode);
204 typedef enum grid_bold_type
217 extern void place_grid(player_type *player_ptr, grid_type *g_ptr, grid_bold_type pg_type);
218 extern bool darkened_grid(player_type *player_ptr, grid_type *g_ptr);
219 extern void delete_monster(player_type *player_ptr, POSITION y, POSITION x);
220 extern void place_bold(player_type *player_ptr, POSITION y, POSITION x, grid_bold_type gh_type);
221 void place_inner_bold(player_type *player_ptr, POSITION y, POSITION x);
222 void place_inner_perm_bold(player_type *player_ptr, POSITION y, POSITION x);
223 void place_outer_bold(player_type *player_ptr, POSITION y, POSITION x);
224 void place_outer_noperm_bold(player_type *player_ptr, POSITION y, POSITION x);
225 void place_solid_bold(player_type *player_ptr, POSITION y, POSITION x);
226 void place_solid_perm_bold(player_type *player_ptr, POSITION y, POSITION x);
227 void place_solid_noperm_bold(player_type *player_ptr, POSITION y, POSITION x);
230 * Get feature mimic from f_info[] (applying "mimic" field)
232 #define get_feat_mimic(C) \
233 (f_info[(C)->mimic ? (C)->mimic : (C)->feat].mimic)
236 * This macro allows us to efficiently add a grid to the "lite" array,
237 * note that we are never called for illegal grids, or for grids which
238 * have already been placed into the "lite" array, and we are never
239 * called when the "lite" array is full.
241 #define cave_lite_hack(F,Y,X) \
243 if (!((F)->grid_array[Y][X].info & (CAVE_LITE))) \
245 (F)->grid_array[Y][X].info |= (CAVE_LITE); \
246 (F)->lite_y[(F)->lite_n] = (Y); \
247 (F)->lite_x[(F)->lite_n++] = (X); \
252 * For delayed visual update
254 #define cave_note_and_redraw_later(F,C,Y,X) \
256 (C)->info |= CAVE_NOTE; \
257 cave_redraw_later((F), (C), (Y), (X)); \
261 * For delayed visual update
263 #define cave_redraw_later(F,G,Y,X) \
265 if (!((G)->info & CAVE_REDRAW)) \
267 (G)->info |= CAVE_REDRAW; \
268 (F)->redraw_y[(F)->redraw_n] = (Y); \
269 (F)->redraw_x[(F)->redraw_n++] = (X); \
274 * This macro allows us to efficiently add a grid to the "view" array,
275 * note that we are never called for illegal grids, or for grids which
276 * have already been placed into the "view" array, and we are never
277 * called when the "view" array is full.
279 #define cave_view_hack(F,C,Y,X) \
281 if (!((C)->info & (CAVE_VIEW))){\
282 (C)->info |= (CAVE_VIEW); \
283 (F)->view_y[(F)->view_n] = (Y); \
284 (F)->view_x[(F)->view_n] = (X); \