1 // ============================================================================
2 // Rocks'n'Diamonds - McDuffin Strikes Back!
3 // ----------------------------------------------------------------------------
4 // (c) 1995-2014 by Artsoft Entertainment
7 // https://www.artsoft.org/
8 // ----------------------------------------------------------------------------
10 // ============================================================================
17 #include "libgame/libgame.h"
26 #define ENABLE_UNUSED_CODE 0 // currently unused functions
27 #define ENABLE_HISTORIC_CHUNKS 0 // only for historic reference
28 #define ENABLE_RESERVED_CODE 0 // reserved for later use
30 #define CHUNK_ID_LEN 4 // IFF style chunk id length
31 #define CHUNK_SIZE_UNDEFINED 0 // undefined chunk size == 0
32 #define CHUNK_SIZE_NONE -1 // do not write chunk size
34 #define LEVEL_CHUNK_NAME_SIZE MAX_LEVEL_NAME_LEN
35 #define LEVEL_CHUNK_AUTH_SIZE MAX_LEVEL_AUTHOR_LEN
37 #define LEVEL_CHUNK_VERS_SIZE 8 // size of file version chunk
38 #define LEVEL_CHUNK_DATE_SIZE 4 // size of file date chunk
39 #define LEVEL_CHUNK_HEAD_SIZE 80 // size of level file header
40 #define LEVEL_CHUNK_HEAD_UNUSED 0 // unused level header bytes
41 #define LEVEL_CHUNK_CNT2_SIZE 160 // size of level CNT2 chunk
42 #define LEVEL_CHUNK_CNT2_UNUSED 11 // unused CNT2 chunk bytes
43 #define LEVEL_CHUNK_CNT3_HEADER 16 // size of level CNT3 header
44 #define LEVEL_CHUNK_CNT3_UNUSED 10 // unused CNT3 chunk bytes
45 #define LEVEL_CPART_CUS3_SIZE 134 // size of CUS3 chunk part
46 #define LEVEL_CPART_CUS3_UNUSED 15 // unused CUS3 bytes / part
47 #define LEVEL_CHUNK_GRP1_SIZE 74 // size of level GRP1 chunk
49 // (element number, number of change pages, change page number)
50 #define LEVEL_CHUNK_CUSX_UNCHANGED (2 + (1 + 1) + (1 + 1))
52 // (element number only)
53 #define LEVEL_CHUNK_GRPX_UNCHANGED 2
54 #define LEVEL_CHUNK_NOTE_UNCHANGED 2
56 // (nothing at all if unchanged)
57 #define LEVEL_CHUNK_ELEM_UNCHANGED 0
59 #define TAPE_CHUNK_VERS_SIZE 8 // size of file version chunk
60 #define TAPE_CHUNK_HEAD_SIZE 20 // size of tape file header
61 #define TAPE_CHUNK_HEAD_UNUSED 1 // unused tape header bytes
62 #define TAPE_CHUNK_SCRN_SIZE 2 // size of screen size chunk
64 #define SCORE_CHUNK_VERS_SIZE 8 // size of file version chunk
66 #define LEVEL_CHUNK_CNT3_SIZE(x) (LEVEL_CHUNK_CNT3_HEADER + (x))
67 #define LEVEL_CHUNK_CUS3_SIZE(x) (2 + (x) * LEVEL_CPART_CUS3_SIZE)
68 #define LEVEL_CHUNK_CUS4_SIZE(x) (96 + (x) * 48)
70 // file identifier strings
71 #define LEVEL_COOKIE_TMPL "ROCKSNDIAMONDS_LEVEL_FILE_VERSION_x.x"
72 #define TAPE_COOKIE_TMPL "ROCKSNDIAMONDS_TAPE_FILE_VERSION_x.x"
73 #define SCORE_COOKIE_TMPL "ROCKSNDIAMONDS_SCORE_FILE_VERSION_x.x"
75 // values for deciding when (not) to save configuration data
76 #define SAVE_CONF_NEVER 0
77 #define SAVE_CONF_ALWAYS 1
78 #define SAVE_CONF_WHEN_CHANGED -1
80 // values for chunks using micro chunks
81 #define CONF_MASK_1_BYTE 0x00
82 #define CONF_MASK_2_BYTE 0x40
83 #define CONF_MASK_4_BYTE 0x80
84 #define CONF_MASK_MULTI_BYTES 0xc0
86 #define CONF_MASK_BYTES 0xc0
87 #define CONF_MASK_TOKEN 0x3f
89 #define CONF_VALUE_1_BYTE(x) (CONF_MASK_1_BYTE | (x))
90 #define CONF_VALUE_2_BYTE(x) (CONF_MASK_2_BYTE | (x))
91 #define CONF_VALUE_4_BYTE(x) (CONF_MASK_4_BYTE | (x))
92 #define CONF_VALUE_MULTI_BYTES(x) (CONF_MASK_MULTI_BYTES | (x))
94 // these definitions are just for convenience of use and readability
95 #define CONF_VALUE_8_BIT(x) CONF_VALUE_1_BYTE(x)
96 #define CONF_VALUE_16_BIT(x) CONF_VALUE_2_BYTE(x)
97 #define CONF_VALUE_32_BIT(x) CONF_VALUE_4_BYTE(x)
98 #define CONF_VALUE_BYTES(x) CONF_VALUE_MULTI_BYTES(x)
100 #define CONF_VALUE_NUM_BYTES(x) ((x) == CONF_MASK_1_BYTE ? 1 : \
101 (x) == CONF_MASK_2_BYTE ? 2 : \
102 (x) == CONF_MASK_4_BYTE ? 4 : 0)
104 #define CONF_CONTENT_NUM_ELEMENTS (3 * 3)
105 #define CONF_CONTENT_NUM_BYTES (CONF_CONTENT_NUM_ELEMENTS * 2)
106 #define CONF_ELEMENT_NUM_BYTES (2)
108 #define CONF_ENTITY_NUM_BYTES(t) ((t) == TYPE_ELEMENT || \
109 (t) == TYPE_ELEMENT_LIST ? \
110 CONF_ELEMENT_NUM_BYTES : \
111 (t) == TYPE_CONTENT || \
112 (t) == TYPE_CONTENT_LIST ? \
113 CONF_CONTENT_NUM_BYTES : 1)
115 #define CONF_ELEMENT_BYTE_POS(i) ((i) * CONF_ELEMENT_NUM_BYTES)
116 #define CONF_ELEMENTS_ELEMENT(b,i) ((b[CONF_ELEMENT_BYTE_POS(i)] << 8) | \
117 (b[CONF_ELEMENT_BYTE_POS(i) + 1]))
119 #define CONF_CONTENT_ELEMENT_POS(c,x,y) ((c) * CONF_CONTENT_NUM_ELEMENTS + \
121 #define CONF_CONTENT_BYTE_POS(c,x,y) (CONF_CONTENT_ELEMENT_POS(c,x,y) * \
122 CONF_ELEMENT_NUM_BYTES)
123 #define CONF_CONTENTS_ELEMENT(b,c,x,y) ((b[CONF_CONTENT_BYTE_POS(c,x,y)]<< 8)|\
124 (b[CONF_CONTENT_BYTE_POS(c,x,y) + 1]))
126 // temporary variables used to store pointers to structure members
127 static struct LevelInfo li;
128 static struct ElementInfo xx_ei, yy_ei;
129 static struct ElementChangeInfo xx_change;
130 static struct ElementGroupInfo xx_group;
131 static struct EnvelopeInfo xx_envelope;
132 static unsigned int xx_event_bits[NUM_CE_BITFIELDS];
133 static char xx_default_description[MAX_ELEMENT_NAME_LEN + 1];
134 static int xx_num_contents;
135 static int xx_current_change_page;
136 static char xx_default_string_empty[1] = "";
137 static int xx_string_length_unused;
139 struct LevelFileConfigInfo
141 int element; // element for which data is to be stored
142 int save_type; // save data always, never or when changed
143 int data_type; // data type (used internally, not stored)
144 int conf_type; // micro chunk identifier (stored in file)
147 void *value; // variable that holds the data to be stored
148 int default_value; // initial default value for this variable
151 void *value_copy; // variable that holds the data to be copied
152 void *num_entities; // number of entities for multi-byte data
153 int default_num_entities; // default number of entities for this data
154 int max_num_entities; // maximal number of entities for this data
155 char *default_string; // optional default string for string data
158 static struct LevelFileConfigInfo chunk_config_INFO[] =
160 // ---------- values not related to single elements -------------------------
163 -1, SAVE_CONF_ALWAYS,
164 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
165 &li.game_engine_type, GAME_ENGINE_TYPE_RND
169 -1, SAVE_CONF_ALWAYS,
170 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
171 &li.fieldx, STD_LEV_FIELDX
174 -1, SAVE_CONF_ALWAYS,
175 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
176 &li.fieldy, STD_LEV_FIELDY
180 -1, SAVE_CONF_ALWAYS,
181 TYPE_INTEGER, CONF_VALUE_16_BIT(3),
186 -1, SAVE_CONF_ALWAYS,
187 TYPE_INTEGER, CONF_VALUE_16_BIT(4),
193 TYPE_INTEGER, CONF_VALUE_32_BIT(2),
199 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
200 &li.use_step_counter, FALSE
205 TYPE_BITFIELD, CONF_VALUE_8_BIT(4),
206 &li.wind_direction_initial, MV_NONE
211 TYPE_BOOLEAN, CONF_VALUE_8_BIT(5),
212 &li.em_slippery_gems, FALSE
217 TYPE_BOOLEAN, CONF_VALUE_8_BIT(6),
218 &li.use_custom_template, FALSE
223 TYPE_BITFIELD, CONF_VALUE_32_BIT(1),
224 &li.can_move_into_acid_bits, ~0 // default: everything can
229 TYPE_BITFIELD, CONF_VALUE_8_BIT(7),
230 &li.dont_collide_with_bits, ~0 // default: always deadly
235 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
236 &li.em_explodes_by_fire, FALSE
241 TYPE_INTEGER, CONF_VALUE_16_BIT(5),
242 &li.score[SC_TIME_BONUS], 1
247 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
248 &li.auto_exit_sokoban, FALSE
253 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
254 &li.auto_count_gems, FALSE
259 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
260 &li.solved_by_one_player, FALSE
265 TYPE_INTEGER, CONF_VALUE_8_BIT(12),
266 &li.time_score_base, 1
271 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
272 &li.rate_time_over_score, FALSE
282 static struct LevelFileConfigInfo chunk_config_ELEM[] =
284 // (these values are the same for each player)
287 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
288 &li.block_last_field, FALSE // default case for EM levels
292 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
293 &li.sp_block_last_field, TRUE // default case for SP levels
297 TYPE_BOOLEAN, CONF_VALUE_8_BIT(3),
298 &li.instant_relocation, FALSE
302 TYPE_BOOLEAN, CONF_VALUE_8_BIT(4),
303 &li.can_pass_to_walkable, FALSE
307 TYPE_BOOLEAN, CONF_VALUE_8_BIT(5),
308 &li.block_snap_field, TRUE
312 TYPE_BOOLEAN, CONF_VALUE_8_BIT(6),
313 &li.continuous_snapping, TRUE
317 TYPE_BOOLEAN, CONF_VALUE_8_BIT(12),
318 &li.shifted_relocation, FALSE
322 TYPE_BOOLEAN, CONF_VALUE_8_BIT(15),
323 &li.lazy_relocation, FALSE
327 TYPE_BOOLEAN, CONF_VALUE_8_BIT(16),
328 &li.finish_dig_collect, TRUE
331 // (these values are different for each player)
334 TYPE_INTEGER, CONF_VALUE_8_BIT(7),
335 &li.initial_player_stepsize[0], STEPSIZE_NORMAL
339 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
340 &li.initial_player_gravity[0], FALSE
344 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
345 &li.use_start_element[0], FALSE
349 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
350 &li.start_element[0], EL_PLAYER_1
354 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
355 &li.use_artwork_element[0], FALSE
359 TYPE_ELEMENT, CONF_VALUE_16_BIT(2),
360 &li.artwork_element[0], EL_PLAYER_1
364 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
365 &li.use_explosion_element[0], FALSE
369 TYPE_ELEMENT, CONF_VALUE_16_BIT(3),
370 &li.explosion_element[0], EL_PLAYER_1
374 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
375 &li.use_initial_inventory[0], FALSE
379 TYPE_BOOLEAN, CONF_VALUE_8_BIT(14),
380 &li.initial_inventory_size[0], 1
384 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(1),
385 &li.initial_inventory_content[0][0],EL_EMPTY, NULL,
386 &li.initial_inventory_size[0], 1, MAX_INITIAL_INVENTORY_SIZE
391 TYPE_INTEGER, CONF_VALUE_8_BIT(7),
392 &li.initial_player_stepsize[1], STEPSIZE_NORMAL
396 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
397 &li.initial_player_gravity[1], FALSE
401 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
402 &li.use_start_element[1], FALSE
406 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
407 &li.start_element[1], EL_PLAYER_2
411 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
412 &li.use_artwork_element[1], FALSE
416 TYPE_ELEMENT, CONF_VALUE_16_BIT(2),
417 &li.artwork_element[1], EL_PLAYER_2
421 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
422 &li.use_explosion_element[1], FALSE
426 TYPE_ELEMENT, CONF_VALUE_16_BIT(3),
427 &li.explosion_element[1], EL_PLAYER_2
431 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
432 &li.use_initial_inventory[1], FALSE
436 TYPE_BOOLEAN, CONF_VALUE_8_BIT(14),
437 &li.initial_inventory_size[1], 1
441 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(1),
442 &li.initial_inventory_content[1][0],EL_EMPTY, NULL,
443 &li.initial_inventory_size[1], 1, MAX_INITIAL_INVENTORY_SIZE
448 TYPE_INTEGER, CONF_VALUE_8_BIT(7),
449 &li.initial_player_stepsize[2], STEPSIZE_NORMAL
453 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
454 &li.initial_player_gravity[2], FALSE
458 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
459 &li.use_start_element[2], FALSE
463 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
464 &li.start_element[2], EL_PLAYER_3
468 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
469 &li.use_artwork_element[2], FALSE
473 TYPE_ELEMENT, CONF_VALUE_16_BIT(2),
474 &li.artwork_element[2], EL_PLAYER_3
478 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
479 &li.use_explosion_element[2], FALSE
483 TYPE_ELEMENT, CONF_VALUE_16_BIT(3),
484 &li.explosion_element[2], EL_PLAYER_3
488 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
489 &li.use_initial_inventory[2], FALSE
493 TYPE_BOOLEAN, CONF_VALUE_8_BIT(14),
494 &li.initial_inventory_size[2], 1
498 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(1),
499 &li.initial_inventory_content[2][0],EL_EMPTY, NULL,
500 &li.initial_inventory_size[2], 1, MAX_INITIAL_INVENTORY_SIZE
505 TYPE_INTEGER, CONF_VALUE_8_BIT(7),
506 &li.initial_player_stepsize[3], STEPSIZE_NORMAL
510 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
511 &li.initial_player_gravity[3], FALSE
515 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
516 &li.use_start_element[3], FALSE
520 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
521 &li.start_element[3], EL_PLAYER_4
525 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
526 &li.use_artwork_element[3], FALSE
530 TYPE_ELEMENT, CONF_VALUE_16_BIT(2),
531 &li.artwork_element[3], EL_PLAYER_4
535 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
536 &li.use_explosion_element[3], FALSE
540 TYPE_ELEMENT, CONF_VALUE_16_BIT(3),
541 &li.explosion_element[3], EL_PLAYER_4
545 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
546 &li.use_initial_inventory[3], FALSE
550 TYPE_BOOLEAN, CONF_VALUE_8_BIT(14),
551 &li.initial_inventory_size[3], 1
555 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(1),
556 &li.initial_inventory_content[3][0],EL_EMPTY, NULL,
557 &li.initial_inventory_size[3], 1, MAX_INITIAL_INVENTORY_SIZE
562 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
563 &li.score[SC_EMERALD], 10
568 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
569 &li.score[SC_DIAMOND], 10
574 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
575 &li.score[SC_BUG], 10
580 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
581 &li.score[SC_SPACESHIP], 10
586 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
587 &li.score[SC_PACMAN], 10
592 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
593 &li.score[SC_NUT], 10
598 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
599 &li.score[SC_DYNAMITE], 10
604 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
605 &li.score[SC_KEY], 10
610 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
611 &li.score[SC_PEARL], 10
616 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
617 &li.score[SC_CRYSTAL], 10
622 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
623 &li.amoeba_content, EL_DIAMOND
627 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
632 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
633 &li.grow_into_diggable, TRUE
638 TYPE_CONTENT_LIST, CONF_VALUE_BYTES(1),
639 &li.yamyam_content, EL_ROCK, NULL,
640 &li.num_yamyam_contents, 4, MAX_ELEMENT_CONTENTS
644 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
645 &li.score[SC_YAMYAM], 10
650 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
651 &li.score[SC_ROBOT], 10
655 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
661 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
667 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
668 &li.time_magic_wall, 10
673 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
674 &li.game_of_life[0], 2
678 TYPE_INTEGER, CONF_VALUE_8_BIT(2),
679 &li.game_of_life[1], 3
683 TYPE_INTEGER, CONF_VALUE_8_BIT(3),
684 &li.game_of_life[2], 3
688 TYPE_INTEGER, CONF_VALUE_8_BIT(4),
689 &li.game_of_life[3], 3
693 TYPE_BOOLEAN, CONF_VALUE_8_BIT(5),
694 &li.use_life_bugs, FALSE
699 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
704 TYPE_INTEGER, CONF_VALUE_8_BIT(2),
709 TYPE_INTEGER, CONF_VALUE_8_BIT(3),
714 TYPE_INTEGER, CONF_VALUE_8_BIT(4),
719 EL_TIMEGATE_SWITCH, -1,
720 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
721 &li.time_timegate, 10
725 EL_LIGHT_SWITCH_ACTIVE, -1,
726 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
731 EL_SHIELD_NORMAL, -1,
732 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
733 &li.shield_normal_time, 10
736 EL_SHIELD_NORMAL, -1,
737 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
738 &li.score[SC_SHIELD], 10
742 EL_SHIELD_DEADLY, -1,
743 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
744 &li.shield_deadly_time, 10
747 EL_SHIELD_DEADLY, -1,
748 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
749 &li.score[SC_SHIELD], 10
754 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
759 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
760 &li.extra_time_score, 10
764 EL_TIME_ORB_FULL, -1,
765 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
766 &li.time_orb_time, 10
769 EL_TIME_ORB_FULL, -1,
770 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
771 &li.use_time_orb_bug, FALSE
776 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
777 &li.use_spring_bug, FALSE
782 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
783 &li.android_move_time, 10
787 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
788 &li.android_clone_time, 10
791 EL_EMC_ANDROID, SAVE_CONF_NEVER,
792 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(1),
793 &li.android_clone_element[0], EL_EMPTY, NULL,
794 &li.num_android_clone_elements, 1, MAX_ANDROID_ELEMENTS_OLD
798 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(2),
799 &li.android_clone_element[0], EL_EMPTY, NULL,
800 &li.num_android_clone_elements, 1, MAX_ANDROID_ELEMENTS
805 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
810 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
815 EL_EMC_MAGNIFIER, -1,
816 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
817 &li.magnify_score, 10
820 EL_EMC_MAGNIFIER, -1,
821 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
826 EL_EMC_MAGIC_BALL, -1,
827 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
831 EL_EMC_MAGIC_BALL, -1,
832 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
833 &li.ball_random, FALSE
836 EL_EMC_MAGIC_BALL, -1,
837 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
838 &li.ball_active_initial, FALSE
841 EL_EMC_MAGIC_BALL, -1,
842 TYPE_CONTENT_LIST, CONF_VALUE_BYTES(1),
843 &li.ball_content, EL_EMPTY, NULL,
844 &li.num_ball_contents, 4, MAX_ELEMENT_CONTENTS
848 EL_SOKOBAN_FIELD_EMPTY, -1,
849 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
850 &li.sb_fields_needed, TRUE
854 EL_SOKOBAN_OBJECT, -1,
855 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
856 &li.sb_objects_needed, TRUE
861 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
862 &li.mm_laser_red, FALSE
866 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
867 &li.mm_laser_green, FALSE
871 TYPE_BOOLEAN, CONF_VALUE_8_BIT(3),
872 &li.mm_laser_blue, TRUE
877 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
878 &li.df_laser_red, TRUE
882 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
883 &li.df_laser_green, TRUE
887 TYPE_BOOLEAN, CONF_VALUE_8_BIT(3),
888 &li.df_laser_blue, FALSE
892 EL_MM_FUSE_ACTIVE, -1,
893 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
898 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
903 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
907 EL_MM_STEEL_BLOCK, -1,
908 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
909 &li.mm_time_block, 75
913 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
914 &li.score[SC_ELEM_BONUS], 10
917 // ---------- unused values -------------------------------------------------
920 EL_UNKNOWN, SAVE_CONF_NEVER,
921 TYPE_INTEGER, CONF_VALUE_16_BIT(1),
922 &li.score[SC_UNKNOWN_15], 10
932 static struct LevelFileConfigInfo chunk_config_NOTE[] =
936 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
937 &xx_envelope.xsize, MAX_ENVELOPE_XSIZE,
941 TYPE_INTEGER, CONF_VALUE_8_BIT(2),
942 &xx_envelope.ysize, MAX_ENVELOPE_YSIZE,
947 TYPE_BOOLEAN, CONF_VALUE_8_BIT(3),
948 &xx_envelope.autowrap, FALSE
952 TYPE_BOOLEAN, CONF_VALUE_8_BIT(4),
953 &xx_envelope.centered, FALSE
958 TYPE_STRING, CONF_VALUE_BYTES(1),
959 &xx_envelope.text, -1, NULL,
960 &xx_string_length_unused, -1, MAX_ENVELOPE_TEXT_LEN,
961 &xx_default_string_empty[0]
971 static struct LevelFileConfigInfo chunk_config_CUSX_base[] =
975 TYPE_STRING, CONF_VALUE_BYTES(1),
976 &xx_ei.description[0], -1,
977 &yy_ei.description[0],
978 &xx_string_length_unused, -1, MAX_ELEMENT_NAME_LEN,
979 &xx_default_description[0]
984 TYPE_BITFIELD, CONF_VALUE_32_BIT(1),
985 &xx_ei.properties[EP_BITFIELD_BASE_NR], EP_BITMASK_BASE_DEFAULT,
986 &yy_ei.properties[EP_BITFIELD_BASE_NR]
988 #if ENABLE_RESERVED_CODE
989 // (reserved for later use)
992 TYPE_BITFIELD, CONF_VALUE_32_BIT(2),
993 &xx_ei.properties[EP_BITFIELD_BASE_NR + 1], EP_BITMASK_DEFAULT,
994 &yy_ei.properties[EP_BITFIELD_BASE_NR + 1]
1000 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
1001 &xx_ei.use_gfx_element, FALSE,
1002 &yy_ei.use_gfx_element
1006 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
1007 &xx_ei.gfx_element_initial, EL_EMPTY_SPACE,
1008 &yy_ei.gfx_element_initial
1013 TYPE_BITFIELD, CONF_VALUE_8_BIT(2),
1014 &xx_ei.access_direction, MV_ALL_DIRECTIONS,
1015 &yy_ei.access_direction
1020 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
1021 &xx_ei.collect_score_initial, 10,
1022 &yy_ei.collect_score_initial
1026 TYPE_INTEGER, CONF_VALUE_16_BIT(3),
1027 &xx_ei.collect_count_initial, 1,
1028 &yy_ei.collect_count_initial
1033 TYPE_INTEGER, CONF_VALUE_16_BIT(4),
1034 &xx_ei.ce_value_fixed_initial, 0,
1035 &yy_ei.ce_value_fixed_initial
1039 TYPE_INTEGER, CONF_VALUE_16_BIT(5),
1040 &xx_ei.ce_value_random_initial, 0,
1041 &yy_ei.ce_value_random_initial
1045 TYPE_BOOLEAN, CONF_VALUE_8_BIT(3),
1046 &xx_ei.use_last_ce_value, FALSE,
1047 &yy_ei.use_last_ce_value
1052 TYPE_INTEGER, CONF_VALUE_16_BIT(6),
1053 &xx_ei.push_delay_fixed, 8,
1054 &yy_ei.push_delay_fixed
1058 TYPE_INTEGER, CONF_VALUE_16_BIT(7),
1059 &xx_ei.push_delay_random, 8,
1060 &yy_ei.push_delay_random
1064 TYPE_INTEGER, CONF_VALUE_16_BIT(8),
1065 &xx_ei.drop_delay_fixed, 0,
1066 &yy_ei.drop_delay_fixed
1070 TYPE_INTEGER, CONF_VALUE_16_BIT(9),
1071 &xx_ei.drop_delay_random, 0,
1072 &yy_ei.drop_delay_random
1076 TYPE_INTEGER, CONF_VALUE_16_BIT(10),
1077 &xx_ei.move_delay_fixed, 0,
1078 &yy_ei.move_delay_fixed
1082 TYPE_INTEGER, CONF_VALUE_16_BIT(11),
1083 &xx_ei.move_delay_random, 0,
1084 &yy_ei.move_delay_random
1088 TYPE_INTEGER, CONF_VALUE_16_BIT(16),
1089 &xx_ei.step_delay_fixed, 0,
1090 &yy_ei.step_delay_fixed
1094 TYPE_INTEGER, CONF_VALUE_16_BIT(17),
1095 &xx_ei.step_delay_random, 0,
1096 &yy_ei.step_delay_random
1101 TYPE_BITFIELD, CONF_VALUE_32_BIT(3),
1102 &xx_ei.move_pattern, MV_ALL_DIRECTIONS,
1107 TYPE_BITFIELD, CONF_VALUE_8_BIT(4),
1108 &xx_ei.move_direction_initial, MV_START_AUTOMATIC,
1109 &yy_ei.move_direction_initial
1113 TYPE_INTEGER, CONF_VALUE_8_BIT(5),
1114 &xx_ei.move_stepsize, TILEX / 8,
1115 &yy_ei.move_stepsize
1120 TYPE_ELEMENT, CONF_VALUE_16_BIT(12),
1121 &xx_ei.move_enter_element, EL_EMPTY_SPACE,
1122 &yy_ei.move_enter_element
1126 TYPE_ELEMENT, CONF_VALUE_16_BIT(13),
1127 &xx_ei.move_leave_element, EL_EMPTY_SPACE,
1128 &yy_ei.move_leave_element
1132 TYPE_INTEGER, CONF_VALUE_8_BIT(6),
1133 &xx_ei.move_leave_type, LEAVE_TYPE_UNLIMITED,
1134 &yy_ei.move_leave_type
1139 TYPE_INTEGER, CONF_VALUE_8_BIT(7),
1140 &xx_ei.slippery_type, SLIPPERY_ANY_RANDOM,
1141 &yy_ei.slippery_type
1146 TYPE_INTEGER, CONF_VALUE_8_BIT(8),
1147 &xx_ei.explosion_type, EXPLODES_3X3,
1148 &yy_ei.explosion_type
1152 TYPE_INTEGER, CONF_VALUE_16_BIT(14),
1153 &xx_ei.explosion_delay, 16,
1154 &yy_ei.explosion_delay
1158 TYPE_INTEGER, CONF_VALUE_16_BIT(15),
1159 &xx_ei.ignition_delay, 8,
1160 &yy_ei.ignition_delay
1165 TYPE_CONTENT_LIST, CONF_VALUE_BYTES(2),
1166 &xx_ei.content, EL_EMPTY_SPACE,
1168 &xx_num_contents, 1, 1
1171 // ---------- "num_change_pages" must be the last entry ---------------------
1174 -1, SAVE_CONF_ALWAYS,
1175 TYPE_INTEGER, CONF_VALUE_8_BIT(9),
1176 &xx_ei.num_change_pages, 1,
1177 &yy_ei.num_change_pages
1188 static struct LevelFileConfigInfo chunk_config_CUSX_change[] =
1190 // ---------- "current_change_page" must be the first entry -----------------
1193 -1, SAVE_CONF_ALWAYS,
1194 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
1195 &xx_current_change_page, -1
1198 // ---------- (the remaining entries can be in any order) -------------------
1202 TYPE_BOOLEAN, CONF_VALUE_8_BIT(2),
1203 &xx_change.can_change, FALSE
1208 TYPE_BITFIELD, CONF_VALUE_32_BIT(1),
1209 &xx_event_bits[0], 0
1213 TYPE_BITFIELD, CONF_VALUE_32_BIT(2),
1214 &xx_event_bits[1], 0
1219 TYPE_BITFIELD, CONF_VALUE_8_BIT(3),
1220 &xx_change.trigger_player, CH_PLAYER_ANY
1224 TYPE_BITFIELD, CONF_VALUE_8_BIT(4),
1225 &xx_change.trigger_side, CH_SIDE_ANY
1229 TYPE_BITFIELD, CONF_VALUE_32_BIT(3),
1230 &xx_change.trigger_page, CH_PAGE_ANY
1235 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
1236 &xx_change.target_element, EL_EMPTY_SPACE
1241 TYPE_INTEGER, CONF_VALUE_16_BIT(2),
1242 &xx_change.delay_fixed, 0
1246 TYPE_INTEGER, CONF_VALUE_16_BIT(3),
1247 &xx_change.delay_random, 0
1251 TYPE_INTEGER, CONF_VALUE_16_BIT(4),
1252 &xx_change.delay_frames, FRAMES_PER_SECOND
1257 TYPE_ELEMENT, CONF_VALUE_16_BIT(5),
1258 &xx_change.initial_trigger_element, EL_EMPTY_SPACE
1263 TYPE_BOOLEAN, CONF_VALUE_8_BIT(6),
1264 &xx_change.explode, FALSE
1268 TYPE_BOOLEAN, CONF_VALUE_8_BIT(7),
1269 &xx_change.use_target_content, FALSE
1273 TYPE_BOOLEAN, CONF_VALUE_8_BIT(8),
1274 &xx_change.only_if_complete, FALSE
1278 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
1279 &xx_change.use_random_replace, FALSE
1283 TYPE_INTEGER, CONF_VALUE_8_BIT(10),
1284 &xx_change.random_percentage, 100
1288 TYPE_INTEGER, CONF_VALUE_8_BIT(11),
1289 &xx_change.replace_when, CP_WHEN_EMPTY
1294 TYPE_BOOLEAN, CONF_VALUE_8_BIT(12),
1295 &xx_change.has_action, FALSE
1299 TYPE_INTEGER, CONF_VALUE_8_BIT(13),
1300 &xx_change.action_type, CA_NO_ACTION
1304 TYPE_INTEGER, CONF_VALUE_8_BIT(14),
1305 &xx_change.action_mode, CA_MODE_UNDEFINED
1309 TYPE_INTEGER, CONF_VALUE_16_BIT(6),
1310 &xx_change.action_arg, CA_ARG_UNDEFINED
1315 TYPE_ELEMENT, CONF_VALUE_16_BIT(7),
1316 &xx_change.action_element, EL_EMPTY_SPACE
1321 TYPE_CONTENT_LIST, CONF_VALUE_BYTES(1),
1322 &xx_change.target_content, EL_EMPTY_SPACE, NULL,
1323 &xx_num_contents, 1, 1
1333 static struct LevelFileConfigInfo chunk_config_GRPX[] =
1337 TYPE_STRING, CONF_VALUE_BYTES(1),
1338 &xx_ei.description[0], -1, NULL,
1339 &xx_string_length_unused, -1, MAX_ELEMENT_NAME_LEN,
1340 &xx_default_description[0]
1345 TYPE_BOOLEAN, CONF_VALUE_8_BIT(1),
1346 &xx_ei.use_gfx_element, FALSE
1350 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
1351 &xx_ei.gfx_element_initial, EL_EMPTY_SPACE
1356 TYPE_INTEGER, CONF_VALUE_8_BIT(2),
1357 &xx_group.choice_mode, ANIM_RANDOM
1362 TYPE_ELEMENT_LIST, CONF_VALUE_BYTES(2),
1363 &xx_group.element[0], EL_EMPTY_SPACE, NULL,
1364 &xx_group.num_elements, 1, MAX_ELEMENTS_IN_GROUP
1374 static struct LevelFileConfigInfo chunk_config_CONF[] = // (OBSOLETE)
1378 TYPE_BOOLEAN, CONF_VALUE_8_BIT(9),
1379 &li.block_snap_field, TRUE
1383 TYPE_BOOLEAN, CONF_VALUE_8_BIT(13),
1384 &li.continuous_snapping, TRUE
1388 TYPE_INTEGER, CONF_VALUE_8_BIT(1),
1389 &li.initial_player_stepsize[0], STEPSIZE_NORMAL
1393 TYPE_BOOLEAN, CONF_VALUE_8_BIT(10),
1394 &li.use_start_element[0], FALSE
1398 TYPE_ELEMENT, CONF_VALUE_16_BIT(1),
1399 &li.start_element[0], EL_PLAYER_1
1403 TYPE_BOOLEAN, CONF_VALUE_8_BIT(11),
1404 &li.use_artwork_element[0], FALSE
1408 TYPE_ELEMENT, CONF_VALUE_16_BIT(2),
1409 &li.artwork_element[0], EL_PLAYER_1
1413 TYPE_BOOLEAN, CONF_VALUE_8_BIT(12),
1414 &li.use_explosion_element[0], FALSE
1418 TYPE_ELEMENT, CONF_VALUE_16_BIT(3),
1419 &li.explosion_element[0], EL_PLAYER_1
1434 filetype_id_list[] =
1436 { LEVEL_FILE_TYPE_RND, "RND" },
1437 { LEVEL_FILE_TYPE_BD, "BD" },
1438 { LEVEL_FILE_TYPE_EM, "EM" },
1439 { LEVEL_FILE_TYPE_SP, "SP" },
1440 { LEVEL_FILE_TYPE_DX, "DX" },
1441 { LEVEL_FILE_TYPE_SB, "SB" },
1442 { LEVEL_FILE_TYPE_DC, "DC" },
1443 { LEVEL_FILE_TYPE_MM, "MM" },
1444 { LEVEL_FILE_TYPE_MM, "DF" },
1449 // ============================================================================
1450 // level file functions
1451 // ============================================================================
1453 static boolean check_special_flags(char *flag)
1455 if (strEqual(options.special_flags, flag) ||
1456 strEqual(leveldir_current->special_flags, flag))
1462 static struct DateInfo getCurrentDate(void)
1464 time_t epoch_seconds = time(NULL);
1465 struct tm *now = localtime(&epoch_seconds);
1466 struct DateInfo date;
1468 date.year = now->tm_year + 1900;
1469 date.month = now->tm_mon + 1;
1470 date.day = now->tm_mday;
1472 date.src = DATE_SRC_CLOCK;
1477 static void resetEventFlags(struct ElementChangeInfo *change)
1481 for (i = 0; i < NUM_CHANGE_EVENTS; i++)
1482 change->has_event[i] = FALSE;
1485 static void resetEventBits(void)
1489 for (i = 0; i < NUM_CE_BITFIELDS; i++)
1490 xx_event_bits[i] = 0;
1493 static void setEventFlagsFromEventBits(struct ElementChangeInfo *change)
1497 /* important: only change event flag if corresponding event bit is set
1498 (this is because all xx_event_bits[] values are loaded separately,
1499 and all xx_event_bits[] values are set back to zero before loading
1500 another value xx_event_bits[x] (each value representing 32 flags)) */
1502 for (i = 0; i < NUM_CHANGE_EVENTS; i++)
1503 if (xx_event_bits[CH_EVENT_BITFIELD_NR(i)] & CH_EVENT_BIT(i))
1504 change->has_event[i] = TRUE;
1507 static void setEventBitsFromEventFlags(struct ElementChangeInfo *change)
1511 /* in contrast to the above function setEventFlagsFromEventBits(), it
1512 would also be possible to set all bits in xx_event_bits[] to 0 or 1
1513 depending on the corresponding change->has_event[i] values here, as
1514 all xx_event_bits[] values are reset in resetEventBits() before */
1516 for (i = 0; i < NUM_CHANGE_EVENTS; i++)
1517 if (change->has_event[i])
1518 xx_event_bits[CH_EVENT_BITFIELD_NR(i)] |= CH_EVENT_BIT(i);
1521 static char *getDefaultElementDescription(struct ElementInfo *ei)
1523 static char description[MAX_ELEMENT_NAME_LEN + 1];
1524 char *default_description = (ei->custom_description != NULL ?
1525 ei->custom_description :
1526 ei->editor_description);
1529 // always start with reliable default values
1530 for (i = 0; i < MAX_ELEMENT_NAME_LEN + 1; i++)
1531 description[i] = '\0';
1533 // truncate element description to MAX_ELEMENT_NAME_LEN bytes
1534 strncpy(description, default_description, MAX_ELEMENT_NAME_LEN);
1536 return &description[0];
1539 static void setElementDescriptionToDefault(struct ElementInfo *ei)
1541 char *default_description = getDefaultElementDescription(ei);
1544 for (i = 0; i < MAX_ELEMENT_NAME_LEN + 1; i++)
1545 ei->description[i] = default_description[i];
1548 static void setConfigToDefaultsFromConfigList(struct LevelFileConfigInfo *conf)
1552 for (i = 0; conf[i].data_type != -1; i++)
1554 int default_value = conf[i].default_value;
1555 int data_type = conf[i].data_type;
1556 int conf_type = conf[i].conf_type;
1557 int byte_mask = conf_type & CONF_MASK_BYTES;
1559 if (byte_mask == CONF_MASK_MULTI_BYTES)
1561 int default_num_entities = conf[i].default_num_entities;
1562 int max_num_entities = conf[i].max_num_entities;
1564 *(int *)(conf[i].num_entities) = default_num_entities;
1566 if (data_type == TYPE_STRING)
1568 char *default_string = conf[i].default_string;
1569 char *string = (char *)(conf[i].value);
1571 strncpy(string, default_string, max_num_entities);
1573 else if (data_type == TYPE_ELEMENT_LIST)
1575 int *element_array = (int *)(conf[i].value);
1578 for (j = 0; j < max_num_entities; j++)
1579 element_array[j] = default_value;
1581 else if (data_type == TYPE_CONTENT_LIST)
1583 struct Content *content = (struct Content *)(conf[i].value);
1586 for (c = 0; c < max_num_entities; c++)
1587 for (y = 0; y < 3; y++)
1588 for (x = 0; x < 3; x++)
1589 content[c].e[x][y] = default_value;
1592 else // constant size configuration data (1, 2 or 4 bytes)
1594 if (data_type == TYPE_BOOLEAN)
1595 *(boolean *)(conf[i].value) = default_value;
1597 *(int *) (conf[i].value) = default_value;
1602 static void copyConfigFromConfigList(struct LevelFileConfigInfo *conf)
1606 for (i = 0; conf[i].data_type != -1; i++)
1608 int data_type = conf[i].data_type;
1609 int conf_type = conf[i].conf_type;
1610 int byte_mask = conf_type & CONF_MASK_BYTES;
1612 if (byte_mask == CONF_MASK_MULTI_BYTES)
1614 int max_num_entities = conf[i].max_num_entities;
1616 if (data_type == TYPE_STRING)
1618 char *string = (char *)(conf[i].value);
1619 char *string_copy = (char *)(conf[i].value_copy);
1621 strncpy(string_copy, string, max_num_entities);
1623 else if (data_type == TYPE_ELEMENT_LIST)
1625 int *element_array = (int *)(conf[i].value);
1626 int *element_array_copy = (int *)(conf[i].value_copy);
1629 for (j = 0; j < max_num_entities; j++)
1630 element_array_copy[j] = element_array[j];
1632 else if (data_type == TYPE_CONTENT_LIST)
1634 struct Content *content = (struct Content *)(conf[i].value);
1635 struct Content *content_copy = (struct Content *)(conf[i].value_copy);
1638 for (c = 0; c < max_num_entities; c++)
1639 for (y = 0; y < 3; y++)
1640 for (x = 0; x < 3; x++)
1641 content_copy[c].e[x][y] = content[c].e[x][y];
1644 else // constant size configuration data (1, 2 or 4 bytes)
1646 if (data_type == TYPE_BOOLEAN)
1647 *(boolean *)(conf[i].value_copy) = *(boolean *)(conf[i].value);
1649 *(int *) (conf[i].value_copy) = *(int *) (conf[i].value);
1654 void copyElementInfo(struct ElementInfo *ei_from, struct ElementInfo *ei_to)
1658 xx_ei = *ei_from; // copy element data into temporary buffer
1659 yy_ei = *ei_to; // copy element data into temporary buffer
1661 copyConfigFromConfigList(chunk_config_CUSX_base);
1666 // ---------- reinitialize and copy change pages ----------
1668 ei_to->num_change_pages = ei_from->num_change_pages;
1669 ei_to->current_change_page = ei_from->current_change_page;
1671 setElementChangePages(ei_to, ei_to->num_change_pages);
1673 for (i = 0; i < ei_to->num_change_pages; i++)
1674 ei_to->change_page[i] = ei_from->change_page[i];
1676 // ---------- copy group element info ----------
1677 if (ei_from->group != NULL && ei_to->group != NULL) // group or internal
1678 *ei_to->group = *ei_from->group;
1680 // mark this custom element as modified
1681 ei_to->modified_settings = TRUE;
1684 void setElementChangePages(struct ElementInfo *ei, int change_pages)
1686 int change_page_size = sizeof(struct ElementChangeInfo);
1688 ei->num_change_pages = MAX(1, change_pages);
1691 checked_realloc(ei->change_page, ei->num_change_pages * change_page_size);
1693 if (ei->current_change_page >= ei->num_change_pages)
1694 ei->current_change_page = ei->num_change_pages - 1;
1696 ei->change = &ei->change_page[ei->current_change_page];
1699 void setElementChangeInfoToDefaults(struct ElementChangeInfo *change)
1701 xx_change = *change; // copy change data into temporary buffer
1703 setConfigToDefaultsFromConfigList(chunk_config_CUSX_change);
1705 *change = xx_change;
1707 resetEventFlags(change);
1709 change->direct_action = 0;
1710 change->other_action = 0;
1712 change->pre_change_function = NULL;
1713 change->change_function = NULL;
1714 change->post_change_function = NULL;
1717 static void setLevelInfoToDefaults_Level(struct LevelInfo *level)
1721 li = *level; // copy level data into temporary buffer
1722 setConfigToDefaultsFromConfigList(chunk_config_INFO);
1723 *level = li; // copy temporary buffer back to level data
1725 setLevelInfoToDefaults_EM();
1726 setLevelInfoToDefaults_SP();
1727 setLevelInfoToDefaults_MM();
1729 level->native_em_level = &native_em_level;
1730 level->native_sp_level = &native_sp_level;
1731 level->native_mm_level = &native_mm_level;
1733 level->file_version = FILE_VERSION_ACTUAL;
1734 level->game_version = GAME_VERSION_ACTUAL;
1736 level->creation_date = getCurrentDate();
1738 level->encoding_16bit_field = TRUE;
1739 level->encoding_16bit_yamyam = TRUE;
1740 level->encoding_16bit_amoeba = TRUE;
1742 // clear level name and level author string buffers
1743 for (i = 0; i < MAX_LEVEL_NAME_LEN; i++)
1744 level->name[i] = '\0';
1745 for (i = 0; i < MAX_LEVEL_AUTHOR_LEN; i++)
1746 level->author[i] = '\0';
1748 // set level name and level author to default values
1749 strcpy(level->name, NAMELESS_LEVEL_NAME);
1750 strcpy(level->author, ANONYMOUS_NAME);
1752 // set level playfield to playable default level with player and exit
1753 for (x = 0; x < MAX_LEV_FIELDX; x++)
1754 for (y = 0; y < MAX_LEV_FIELDY; y++)
1755 level->field[x][y] = EL_SAND;
1757 level->field[0][0] = EL_PLAYER_1;
1758 level->field[STD_LEV_FIELDX - 1][STD_LEV_FIELDY - 1] = EL_EXIT_CLOSED;
1760 BorderElement = EL_STEELWALL;
1762 // detect custom elements when loading them
1763 level->file_has_custom_elements = FALSE;
1765 // set all bug compatibility flags to "false" => do not emulate this bug
1766 level->use_action_after_change_bug = FALSE;
1768 if (leveldir_current)
1770 // try to determine better author name than 'anonymous'
1771 if (!strEqual(leveldir_current->author, ANONYMOUS_NAME))
1773 strncpy(level->author, leveldir_current->author, MAX_LEVEL_AUTHOR_LEN);
1774 level->author[MAX_LEVEL_AUTHOR_LEN] = '\0';
1778 switch (LEVELCLASS(leveldir_current))
1780 case LEVELCLASS_TUTORIAL:
1781 strcpy(level->author, PROGRAM_AUTHOR_STRING);
1784 case LEVELCLASS_CONTRIB:
1785 strncpy(level->author, leveldir_current->name, MAX_LEVEL_AUTHOR_LEN);
1786 level->author[MAX_LEVEL_AUTHOR_LEN] = '\0';
1789 case LEVELCLASS_PRIVATE:
1790 strncpy(level->author, getRealName(), MAX_LEVEL_AUTHOR_LEN);
1791 level->author[MAX_LEVEL_AUTHOR_LEN] = '\0';
1795 // keep default value
1802 static void setLevelInfoToDefaults_Elements(struct LevelInfo *level)
1804 static boolean clipboard_elements_initialized = FALSE;
1807 InitElementPropertiesStatic();
1809 li = *level; // copy level data into temporary buffer
1810 setConfigToDefaultsFromConfigList(chunk_config_ELEM);
1811 *level = li; // copy temporary buffer back to level data
1813 for (i = 0; i < MAX_NUM_ELEMENTS; i++)
1816 struct ElementInfo *ei = &element_info[element];
1818 // never initialize clipboard elements after the very first time
1819 // (to be able to use clipboard elements between several levels)
1820 if (IS_CLIPBOARD_ELEMENT(element) && clipboard_elements_initialized)
1823 if (IS_ENVELOPE(element))
1825 int envelope_nr = element - EL_ENVELOPE_1;
1827 setConfigToDefaultsFromConfigList(chunk_config_NOTE);
1829 level->envelope[envelope_nr] = xx_envelope;
1832 if (IS_CUSTOM_ELEMENT(element) ||
1833 IS_GROUP_ELEMENT(element) ||
1834 IS_INTERNAL_ELEMENT(element))
1836 xx_ei = *ei; // copy element data into temporary buffer
1838 setConfigToDefaultsFromConfigList(chunk_config_CUSX_base);
1843 setElementChangePages(ei, 1);
1844 setElementChangeInfoToDefaults(ei->change);
1846 if (IS_CUSTOM_ELEMENT(element) ||
1847 IS_GROUP_ELEMENT(element) ||
1848 IS_INTERNAL_ELEMENT(element))
1850 setElementDescriptionToDefault(ei);
1852 ei->modified_settings = FALSE;
1855 if (IS_CUSTOM_ELEMENT(element) ||
1856 IS_INTERNAL_ELEMENT(element))
1858 // internal values used in level editor
1860 ei->access_type = 0;
1861 ei->access_layer = 0;
1862 ei->access_protected = 0;
1863 ei->walk_to_action = 0;
1864 ei->smash_targets = 0;
1867 ei->can_explode_by_fire = FALSE;
1868 ei->can_explode_smashed = FALSE;
1869 ei->can_explode_impact = FALSE;
1871 ei->current_change_page = 0;
1874 if (IS_GROUP_ELEMENT(element) ||
1875 IS_INTERNAL_ELEMENT(element))
1877 struct ElementGroupInfo *group;
1879 // initialize memory for list of elements in group
1880 if (ei->group == NULL)
1881 ei->group = checked_malloc(sizeof(struct ElementGroupInfo));
1885 xx_group = *group; // copy group data into temporary buffer
1887 setConfigToDefaultsFromConfigList(chunk_config_GRPX);
1893 clipboard_elements_initialized = TRUE;
1896 static void setLevelInfoToDefaults(struct LevelInfo *level,
1897 boolean level_info_only,
1898 boolean reset_file_status)
1900 setLevelInfoToDefaults_Level(level);
1902 if (!level_info_only)
1903 setLevelInfoToDefaults_Elements(level);
1905 if (reset_file_status)
1907 level->no_valid_file = FALSE;
1908 level->no_level_file = FALSE;
1911 level->changed = FALSE;
1914 static void setFileInfoToDefaults(struct LevelFileInfo *level_file_info)
1916 level_file_info->nr = 0;
1917 level_file_info->type = LEVEL_FILE_TYPE_UNKNOWN;
1918 level_file_info->packed = FALSE;
1920 setString(&level_file_info->basename, NULL);
1921 setString(&level_file_info->filename, NULL);
1924 int getMappedElement_SB(int, boolean);
1926 static void ActivateLevelTemplate(void)
1930 if (check_special_flags("load_xsb_to_ces"))
1932 // fill smaller playfields with padding "beyond border wall" elements
1933 if (level.fieldx < level_template.fieldx ||
1934 level.fieldy < level_template.fieldy)
1936 short field[level.fieldx][level.fieldy];
1937 int new_fieldx = MAX(level.fieldx, level_template.fieldx);
1938 int new_fieldy = MAX(level.fieldy, level_template.fieldy);
1939 int pos_fieldx = (new_fieldx - level.fieldx) / 2;
1940 int pos_fieldy = (new_fieldy - level.fieldy) / 2;
1942 // copy old playfield (which is smaller than the visible area)
1943 for (y = 0; y < level.fieldy; y++) for (x = 0; x < level.fieldx; x++)
1944 field[x][y] = level.field[x][y];
1946 // fill new, larger playfield with "beyond border wall" elements
1947 for (y = 0; y < new_fieldy; y++) for (x = 0; x < new_fieldx; x++)
1948 level.field[x][y] = getMappedElement_SB('_', TRUE);
1950 // copy the old playfield to the middle of the new playfield
1951 for (y = 0; y < level.fieldy; y++) for (x = 0; x < level.fieldx; x++)
1952 level.field[pos_fieldx + x][pos_fieldy + y] = field[x][y];
1954 level.fieldx = new_fieldx;
1955 level.fieldy = new_fieldy;
1959 // Currently there is no special action needed to activate the template
1960 // data, because 'element_info' property settings overwrite the original
1961 // level data, while all other variables do not change.
1963 // Exception: 'from_level_template' elements in the original level playfield
1964 // are overwritten with the corresponding elements at the same position in
1965 // playfield from the level template.
1967 for (x = 0; x < level.fieldx; x++)
1968 for (y = 0; y < level.fieldy; y++)
1969 if (level.field[x][y] == EL_FROM_LEVEL_TEMPLATE)
1970 level.field[x][y] = level_template.field[x][y];
1972 if (check_special_flags("load_xsb_to_ces"))
1974 struct LevelInfo level_backup = level;
1976 // overwrite all individual level settings from template level settings
1977 level = level_template;
1979 // restore level file info
1980 level.file_info = level_backup.file_info;
1982 // restore playfield size
1983 level.fieldx = level_backup.fieldx;
1984 level.fieldy = level_backup.fieldy;
1986 // restore playfield content
1987 for (x = 0; x < level.fieldx; x++)
1988 for (y = 0; y < level.fieldy; y++)
1989 level.field[x][y] = level_backup.field[x][y];
1991 // restore name and author from individual level
1992 strcpy(level.name, level_backup.name);
1993 strcpy(level.author, level_backup.author);
1995 // restore flag "use_custom_template"
1996 level.use_custom_template = level_backup.use_custom_template;
2000 static char *getLevelFilenameFromBasename(char *basename)
2002 static char *filename = NULL;
2004 checked_free(filename);
2006 filename = getPath2(getCurrentLevelDir(), basename);
2011 static int getFileTypeFromBasename(char *basename)
2013 // !!! ALSO SEE COMMENT IN checkForPackageFromBasename() !!!
2015 static char *filename = NULL;
2016 struct stat file_status;
2018 // ---------- try to determine file type from filename ----------
2020 // check for typical filename of a Supaplex level package file
2021 if (strlen(basename) == 10 && strPrefixLower(basename, "levels.d"))
2022 return LEVEL_FILE_TYPE_SP;
2024 // check for typical filename of a Diamond Caves II level package file
2025 if (strSuffixLower(basename, ".dc") ||
2026 strSuffixLower(basename, ".dc2"))
2027 return LEVEL_FILE_TYPE_DC;
2029 // check for typical filename of a Sokoban level package file
2030 if (strSuffixLower(basename, ".xsb") &&
2031 strchr(basename, '%') == NULL)
2032 return LEVEL_FILE_TYPE_SB;
2034 // ---------- try to determine file type from filesize ----------
2036 checked_free(filename);
2037 filename = getPath2(getCurrentLevelDir(), basename);
2039 if (stat(filename, &file_status) == 0)
2041 // check for typical filesize of a Supaplex level package file
2042 if (file_status.st_size == 170496)
2043 return LEVEL_FILE_TYPE_SP;
2046 return LEVEL_FILE_TYPE_UNKNOWN;
2049 static int getFileTypeFromMagicBytes(char *filename, int type)
2053 if ((file = openFile(filename, MODE_READ)))
2055 char chunk_name[CHUNK_ID_LEN + 1];
2057 getFileChunkBE(file, chunk_name, NULL);
2059 if (strEqual(chunk_name, "MMII") ||
2060 strEqual(chunk_name, "MIRR"))
2061 type = LEVEL_FILE_TYPE_MM;
2069 static boolean checkForPackageFromBasename(char *basename)
2071 // !!! WON'T WORK ANYMORE IF getFileTypeFromBasename() ALSO DETECTS !!!
2072 // !!! SINGLE LEVELS (CURRENTLY ONLY DETECTS LEVEL PACKAGES !!!
2074 return (getFileTypeFromBasename(basename) != LEVEL_FILE_TYPE_UNKNOWN);
2077 static char *getSingleLevelBasenameExt(int nr, char *extension)
2079 static char basename[MAX_FILENAME_LEN];
2082 sprintf(basename, "%s", LEVELTEMPLATE_FILENAME);
2084 sprintf(basename, "%03d.%s", nr, extension);
2089 static char *getSingleLevelBasename(int nr)
2091 return getSingleLevelBasenameExt(nr, LEVELFILE_EXTENSION);
2094 static char *getPackedLevelBasename(int type)
2096 static char basename[MAX_FILENAME_LEN];
2097 char *directory = getCurrentLevelDir();
2099 DirectoryEntry *dir_entry;
2101 strcpy(basename, UNDEFINED_FILENAME); // default: undefined file
2103 if ((dir = openDirectory(directory)) == NULL)
2105 Warn("cannot read current level directory '%s'", directory);
2110 while ((dir_entry = readDirectory(dir)) != NULL) // loop all entries
2112 char *entry_basename = dir_entry->basename;
2113 int entry_type = getFileTypeFromBasename(entry_basename);
2115 if (entry_type != LEVEL_FILE_TYPE_UNKNOWN) // found valid level package
2117 if (type == LEVEL_FILE_TYPE_UNKNOWN ||
2120 strcpy(basename, entry_basename);
2127 closeDirectory(dir);
2132 static char *getSingleLevelFilename(int nr)
2134 return getLevelFilenameFromBasename(getSingleLevelBasename(nr));
2137 #if ENABLE_UNUSED_CODE
2138 static char *getPackedLevelFilename(int type)
2140 return getLevelFilenameFromBasename(getPackedLevelBasename(type));
2144 char *getDefaultLevelFilename(int nr)
2146 return getSingleLevelFilename(nr);
2149 #if ENABLE_UNUSED_CODE
2150 static void setLevelFileInfo_SingleLevelFilename(struct LevelFileInfo *lfi,
2154 lfi->packed = FALSE;
2156 setString(&lfi->basename, getSingleLevelBasename(lfi->nr, lfi->type));
2157 setString(&lfi->filename, getLevelFilenameFromBasename(lfi->basename));
2161 static void setLevelFileInfo_FormatLevelFilename(struct LevelFileInfo *lfi,
2162 int type, char *format, ...)
2164 static char basename[MAX_FILENAME_LEN];
2167 va_start(ap, format);
2168 vsprintf(basename, format, ap);
2172 lfi->packed = FALSE;
2174 setString(&lfi->basename, basename);
2175 setString(&lfi->filename, getLevelFilenameFromBasename(lfi->basename));
2178 static void setLevelFileInfo_PackedLevelFilename(struct LevelFileInfo *lfi,
2184 setString(&lfi->basename, getPackedLevelBasename(lfi->type));
2185 setString(&lfi->filename, getLevelFilenameFromBasename(lfi->basename));
2188 static int getFiletypeFromID(char *filetype_id)
2190 char *filetype_id_lower;
2191 int filetype = LEVEL_FILE_TYPE_UNKNOWN;
2194 if (filetype_id == NULL)
2195 return LEVEL_FILE_TYPE_UNKNOWN;
2197 filetype_id_lower = getStringToLower(filetype_id);
2199 for (i = 0; filetype_id_list[i].id != NULL; i++)
2201 char *id_lower = getStringToLower(filetype_id_list[i].id);
2203 if (strEqual(filetype_id_lower, id_lower))
2204 filetype = filetype_id_list[i].filetype;
2208 if (filetype != LEVEL_FILE_TYPE_UNKNOWN)
2212 free(filetype_id_lower);
2217 char *getLocalLevelTemplateFilename(void)
2219 return getDefaultLevelFilename(-1);
2222 char *getGlobalLevelTemplateFilename(void)
2224 // global variable "leveldir_current" must be modified in the loop below
2225 LevelDirTree *leveldir_current_last = leveldir_current;
2226 char *filename = NULL;
2228 // check for template level in path from current to topmost tree node
2230 while (leveldir_current != NULL)
2232 filename = getDefaultLevelFilename(-1);
2234 if (fileExists(filename))
2237 leveldir_current = leveldir_current->node_parent;
2240 // restore global variable "leveldir_current" modified in above loop
2241 leveldir_current = leveldir_current_last;
2246 static void determineLevelFileInfo_Filename(struct LevelFileInfo *lfi)
2250 // special case: level number is negative => check for level template file
2253 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_RND,
2254 getSingleLevelBasename(-1));
2256 // replace local level template filename with global template filename
2257 setString(&lfi->filename, getGlobalLevelTemplateFilename());
2259 // no fallback if template file not existing
2263 // special case: check for file name/pattern specified in "levelinfo.conf"
2264 if (leveldir_current->level_filename != NULL)
2266 int filetype = getFiletypeFromID(leveldir_current->level_filetype);
2268 setLevelFileInfo_FormatLevelFilename(lfi, filetype,
2269 leveldir_current->level_filename, nr);
2271 lfi->packed = checkForPackageFromBasename(leveldir_current->level_filename);
2273 if (fileExists(lfi->filename))
2276 else if (leveldir_current->level_filetype != NULL)
2278 int filetype = getFiletypeFromID(leveldir_current->level_filetype);
2280 // check for specified native level file with standard file name
2281 setLevelFileInfo_FormatLevelFilename(lfi, filetype,
2282 "%03d.%s", nr, LEVELFILE_EXTENSION);
2283 if (fileExists(lfi->filename))
2287 // check for native Rocks'n'Diamonds level file
2288 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_RND,
2289 "%03d.%s", nr, LEVELFILE_EXTENSION);
2290 if (fileExists(lfi->filename))
2293 // check for Emerald Mine level file (V1)
2294 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "a%c%c",
2295 'a' + (nr / 10) % 26, '0' + nr % 10);
2296 if (fileExists(lfi->filename))
2298 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "A%c%c",
2299 'A' + (nr / 10) % 26, '0' + nr % 10);
2300 if (fileExists(lfi->filename))
2303 // check for Emerald Mine level file (V2 to V5)
2304 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "%d", nr);
2305 if (fileExists(lfi->filename))
2308 // check for Emerald Mine level file (V6 / single mode)
2309 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "%02ds", nr);
2310 if (fileExists(lfi->filename))
2312 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "%02dS", nr);
2313 if (fileExists(lfi->filename))
2316 // check for Emerald Mine level file (V6 / teamwork mode)
2317 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "%02dt", nr);
2318 if (fileExists(lfi->filename))
2320 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_EM, "%02dT", nr);
2321 if (fileExists(lfi->filename))
2324 // check for various packed level file formats
2325 setLevelFileInfo_PackedLevelFilename(lfi, LEVEL_FILE_TYPE_UNKNOWN);
2326 if (fileExists(lfi->filename))
2329 // no known level file found -- use default values (and fail later)
2330 setLevelFileInfo_FormatLevelFilename(lfi, LEVEL_FILE_TYPE_RND,
2331 "%03d.%s", nr, LEVELFILE_EXTENSION);
2334 static void determineLevelFileInfo_Filetype(struct LevelFileInfo *lfi)
2336 if (lfi->type == LEVEL_FILE_TYPE_UNKNOWN)
2337 lfi->type = getFileTypeFromBasename(lfi->basename);
2339 if (lfi->type == LEVEL_FILE_TYPE_RND)
2340 lfi->type = getFileTypeFromMagicBytes(lfi->filename, lfi->type);
2343 static void setLevelFileInfo(struct LevelFileInfo *level_file_info, int nr)
2345 // always start with reliable default values
2346 setFileInfoToDefaults(level_file_info);
2348 level_file_info->nr = nr; // set requested level number
2350 determineLevelFileInfo_Filename(level_file_info);
2351 determineLevelFileInfo_Filetype(level_file_info);
2354 static void copyLevelFileInfo(struct LevelFileInfo *lfi_from,
2355 struct LevelFileInfo *lfi_to)
2357 lfi_to->nr = lfi_from->nr;
2358 lfi_to->type = lfi_from->type;
2359 lfi_to->packed = lfi_from->packed;
2361 setString(&lfi_to->basename, lfi_from->basename);
2362 setString(&lfi_to->filename, lfi_from->filename);
2365 // ----------------------------------------------------------------------------
2366 // functions for loading R'n'D level
2367 // ----------------------------------------------------------------------------
2369 int getMappedElement(int element)
2371 // remap some (historic, now obsolete) elements
2375 case EL_PLAYER_OBSOLETE:
2376 element = EL_PLAYER_1;
2379 case EL_KEY_OBSOLETE:
2383 case EL_EM_KEY_1_FILE_OBSOLETE:
2384 element = EL_EM_KEY_1;
2387 case EL_EM_KEY_2_FILE_OBSOLETE:
2388 element = EL_EM_KEY_2;
2391 case EL_EM_KEY_3_FILE_OBSOLETE:
2392 element = EL_EM_KEY_3;
2395 case EL_EM_KEY_4_FILE_OBSOLETE:
2396 element = EL_EM_KEY_4;
2399 case EL_ENVELOPE_OBSOLETE:
2400 element = EL_ENVELOPE_1;
2408 if (element >= NUM_FILE_ELEMENTS)
2410 Warn("invalid level element %d", element);
2412 element = EL_UNKNOWN;
2420 static int getMappedElementByVersion(int element, int game_version)
2422 // remap some elements due to certain game version
2424 if (game_version <= VERSION_IDENT(2,2,0,0))
2426 // map game font elements
2427 element = (element == EL_CHAR('[') ? EL_CHAR_AUMLAUT :
2428 element == EL_CHAR('\\') ? EL_CHAR_OUMLAUT :
2429 element == EL_CHAR(']') ? EL_CHAR_UUMLAUT :
2430 element == EL_CHAR('^') ? EL_CHAR_COPYRIGHT : element);
2433 if (game_version < VERSION_IDENT(3,0,0,0))
2435 // map Supaplex gravity tube elements
2436 element = (element == EL_SP_GRAVITY_PORT_LEFT ? EL_SP_PORT_LEFT :
2437 element == EL_SP_GRAVITY_PORT_RIGHT ? EL_SP_PORT_RIGHT :
2438 element == EL_SP_GRAVITY_PORT_UP ? EL_SP_PORT_UP :
2439 element == EL_SP_GRAVITY_PORT_DOWN ? EL_SP_PORT_DOWN :
2446 static int LoadLevel_VERS(File *file, int chunk_size, struct LevelInfo *level)
2448 level->file_version = getFileVersion(file);
2449 level->game_version = getFileVersion(file);
2454 static int LoadLevel_DATE(File *file, int chunk_size, struct LevelInfo *level)
2456 level->creation_date.year = getFile16BitBE(file);
2457 level->creation_date.month = getFile8Bit(file);
2458 level->creation_date.day = getFile8Bit(file);
2460 level->creation_date.src = DATE_SRC_LEVELFILE;
2465 static int LoadLevel_HEAD(File *file, int chunk_size, struct LevelInfo *level)
2467 int initial_player_stepsize;
2468 int initial_player_gravity;
2471 level->fieldx = getFile8Bit(file);
2472 level->fieldy = getFile8Bit(file);
2474 level->time = getFile16BitBE(file);
2475 level->gems_needed = getFile16BitBE(file);
2477 for (i = 0; i < MAX_LEVEL_NAME_LEN; i++)
2478 level->name[i] = getFile8Bit(file);
2479 level->name[MAX_LEVEL_NAME_LEN] = 0;
2481 for (i = 0; i < LEVEL_SCORE_ELEMENTS; i++)
2482 level->score[i] = getFile8Bit(file);
2484 level->num_yamyam_contents = STD_ELEMENT_CONTENTS;
2485 for (i = 0; i < STD_ELEMENT_CONTENTS; i++)
2486 for (y = 0; y < 3; y++)
2487 for (x = 0; x < 3; x++)
2488 level->yamyam_content[i].e[x][y] = getMappedElement(getFile8Bit(file));
2490 level->amoeba_speed = getFile8Bit(file);
2491 level->time_magic_wall = getFile8Bit(file);
2492 level->time_wheel = getFile8Bit(file);
2493 level->amoeba_content = getMappedElement(getFile8Bit(file));
2495 initial_player_stepsize = (getFile8Bit(file) == 1 ? STEPSIZE_FAST :
2498 for (i = 0; i < MAX_PLAYERS; i++)
2499 level->initial_player_stepsize[i] = initial_player_stepsize;
2501 initial_player_gravity = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2503 for (i = 0; i < MAX_PLAYERS; i++)
2504 level->initial_player_gravity[i] = initial_player_gravity;
2506 level->encoding_16bit_field = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2507 level->em_slippery_gems = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2509 level->use_custom_template = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2511 level->block_last_field = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2512 level->sp_block_last_field = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2513 level->can_move_into_acid_bits = getFile32BitBE(file);
2514 level->dont_collide_with_bits = getFile8Bit(file);
2516 level->use_spring_bug = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2517 level->use_step_counter = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2519 level->instant_relocation = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2520 level->can_pass_to_walkable = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2521 level->grow_into_diggable = (getFile8Bit(file) == 1 ? TRUE : FALSE);
2523 level->game_engine_type = getFile8Bit(file);
2525 ReadUnusedBytesFromFile(file, LEVEL_CHUNK_HEAD_UNUSED);
2530 static int LoadLevel_NAME(File *file, int chunk_size, struct LevelInfo *level)
2534 for (i = 0; i < MAX_LEVEL_NAME_LEN; i++)
2535 level->name[i] = getFile8Bit(file);
2536 level->name[MAX_LEVEL_NAME_LEN] = 0;
2541 static int LoadLevel_AUTH(File *file, int chunk_size, struct LevelInfo *level)
2545 for (i = 0; i < MAX_LEVEL_AUTHOR_LEN; i++)
2546 level->author[i] = getFile8Bit(file);
2547 level->author[MAX_LEVEL_AUTHOR_LEN] = 0;
2552 static int LoadLevel_BODY(File *file, int chunk_size, struct LevelInfo *level)
2555 int chunk_size_expected = level->fieldx * level->fieldy;
2557 /* Note: "chunk_size" was wrong before version 2.0 when elements are
2558 stored with 16-bit encoding (and should be twice as big then).
2559 Even worse, playfield data was stored 16-bit when only yamyam content
2560 contained 16-bit elements and vice versa. */
2562 if (level->encoding_16bit_field && level->file_version >= FILE_VERSION_2_0)
2563 chunk_size_expected *= 2;
2565 if (chunk_size_expected != chunk_size)
2567 ReadUnusedBytesFromFile(file, chunk_size);
2568 return chunk_size_expected;
2571 for (y = 0; y < level->fieldy; y++)
2572 for (x = 0; x < level->fieldx; x++)
2573 level->field[x][y] =
2574 getMappedElement(level->encoding_16bit_field ? getFile16BitBE(file) :
2579 static int LoadLevel_CONT(File *file, int chunk_size, struct LevelInfo *level)
2582 int header_size = 4;
2583 int content_size = MAX_ELEMENT_CONTENTS * 3 * 3;
2584 int chunk_size_expected = header_size + content_size;
2586 /* Note: "chunk_size" was wrong before version 2.0 when elements are
2587 stored with 16-bit encoding (and should be twice as big then).
2588 Even worse, playfield data was stored 16-bit when only yamyam content
2589 contained 16-bit elements and vice versa. */
2591 if (level->encoding_16bit_field && level->file_version >= FILE_VERSION_2_0)
2592 chunk_size_expected += content_size;
2594 if (chunk_size_expected != chunk_size)
2596 ReadUnusedBytesFromFile(file, chunk_size);
2597 return chunk_size_expected;
2601 level->num_yamyam_contents = getFile8Bit(file);
2605 // correct invalid number of content fields -- should never happen
2606 if (level->num_yamyam_contents < 1 ||
2607 level->num_yamyam_contents > MAX_ELEMENT_CONTENTS)
2608 level->num_yamyam_contents = STD_ELEMENT_CONTENTS;
2610 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
2611 for (y = 0; y < 3; y++)
2612 for (x = 0; x < 3; x++)
2613 level->yamyam_content[i].e[x][y] =
2614 getMappedElement(level->encoding_16bit_field ?
2615 getFile16BitBE(file) : getFile8Bit(file));
2619 static int LoadLevel_CNT2(File *file, int chunk_size, struct LevelInfo *level)
2624 int content_array[MAX_ELEMENT_CONTENTS][3][3];
2626 element = getMappedElement(getFile16BitBE(file));
2627 num_contents = getFile8Bit(file);
2629 getFile8Bit(file); // content x size (unused)
2630 getFile8Bit(file); // content y size (unused)
2632 ReadUnusedBytesFromFile(file, LEVEL_CHUNK_CNT2_UNUSED);
2634 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
2635 for (y = 0; y < 3; y++)
2636 for (x = 0; x < 3; x++)
2637 content_array[i][x][y] = getMappedElement(getFile16BitBE(file));
2639 // correct invalid number of content fields -- should never happen
2640 if (num_contents < 1 || num_contents > MAX_ELEMENT_CONTENTS)
2641 num_contents = STD_ELEMENT_CONTENTS;
2643 if (element == EL_YAMYAM)
2645 level->num_yamyam_contents = num_contents;
2647 for (i = 0; i < num_contents; i++)
2648 for (y = 0; y < 3; y++)
2649 for (x = 0; x < 3; x++)
2650 level->yamyam_content[i].e[x][y] = content_array[i][x][y];
2652 else if (element == EL_BD_AMOEBA)
2654 level->amoeba_content = content_array[0][0][0];
2658 Warn("cannot load content for element '%d'", element);
2664 static int LoadLevel_CNT3(File *file, int chunk_size, struct LevelInfo *level)
2670 int chunk_size_expected;
2672 element = getMappedElement(getFile16BitBE(file));
2673 if (!IS_ENVELOPE(element))
2674 element = EL_ENVELOPE_1;
2676 envelope_nr = element - EL_ENVELOPE_1;
2678 envelope_len = getFile16BitBE(file);
2680 level->envelope[envelope_nr].xsize = getFile8Bit(file);
2681 level->envelope[envelope_nr].ysize = getFile8Bit(file);
2683 ReadUnusedBytesFromFile(file, LEVEL_CHUNK_CNT3_UNUSED);
2685 chunk_size_expected = LEVEL_CHUNK_CNT3_SIZE(envelope_len);
2686 if (chunk_size_expected != chunk_size)
2688 ReadUnusedBytesFromFile(file, chunk_size - LEVEL_CHUNK_CNT3_HEADER);
2689 return chunk_size_expected;
2692 for (i = 0; i < envelope_len; i++)
2693 level->envelope[envelope_nr].text[i] = getFile8Bit(file);
2698 static int LoadLevel_CUS1(File *file, int chunk_size, struct LevelInfo *level)
2700 int num_changed_custom_elements = getFile16BitBE(file);
2701 int chunk_size_expected = 2 + num_changed_custom_elements * 6;
2704 if (chunk_size_expected != chunk_size)
2706 ReadUnusedBytesFromFile(file, chunk_size - 2);
2707 return chunk_size_expected;
2710 for (i = 0; i < num_changed_custom_elements; i++)
2712 int element = getMappedElement(getFile16BitBE(file));
2713 int properties = getFile32BitBE(file);
2715 if (IS_CUSTOM_ELEMENT(element))
2716 element_info[element].properties[EP_BITFIELD_BASE_NR] = properties;
2718 Warn("invalid custom element number %d", element);
2720 // older game versions that wrote level files with CUS1 chunks used
2721 // different default push delay values (not yet stored in level file)
2722 element_info[element].push_delay_fixed = 2;
2723 element_info[element].push_delay_random = 8;
2726 level->file_has_custom_elements = TRUE;
2731 static int LoadLevel_CUS2(File *file, int chunk_size, struct LevelInfo *level)
2733 int num_changed_custom_elements = getFile16BitBE(file);
2734 int chunk_size_expected = 2 + num_changed_custom_elements * 4;
2737 if (chunk_size_expected != chunk_size)
2739 ReadUnusedBytesFromFile(file, chunk_size - 2);
2740 return chunk_size_expected;
2743 for (i = 0; i < num_changed_custom_elements; i++)
2745 int element = getMappedElement(getFile16BitBE(file));
2746 int custom_target_element = getMappedElement(getFile16BitBE(file));
2748 if (IS_CUSTOM_ELEMENT(element))
2749 element_info[element].change->target_element = custom_target_element;
2751 Warn("invalid custom element number %d", element);
2754 level->file_has_custom_elements = TRUE;
2759 static int LoadLevel_CUS3(File *file, int chunk_size, struct LevelInfo *level)
2761 int num_changed_custom_elements = getFile16BitBE(file);
2762 int chunk_size_expected = LEVEL_CHUNK_CUS3_SIZE(num_changed_custom_elements);
2765 if (chunk_size_expected != chunk_size)
2767 ReadUnusedBytesFromFile(file, chunk_size - 2);
2768 return chunk_size_expected;
2771 for (i = 0; i < num_changed_custom_elements; i++)
2773 int element = getMappedElement(getFile16BitBE(file));
2774 struct ElementInfo *ei = &element_info[element];
2775 unsigned int event_bits;
2777 if (!IS_CUSTOM_ELEMENT(element))
2779 Warn("invalid custom element number %d", element);
2781 element = EL_INTERNAL_DUMMY;
2784 for (j = 0; j < MAX_ELEMENT_NAME_LEN; j++)
2785 ei->description[j] = getFile8Bit(file);
2786 ei->description[MAX_ELEMENT_NAME_LEN] = 0;
2788 ei->properties[EP_BITFIELD_BASE_NR] = getFile32BitBE(file);
2790 // some free bytes for future properties and padding
2791 ReadUnusedBytesFromFile(file, 7);
2793 ei->use_gfx_element = getFile8Bit(file);
2794 ei->gfx_element_initial = getMappedElement(getFile16BitBE(file));
2796 ei->collect_score_initial = getFile8Bit(file);
2797 ei->collect_count_initial = getFile8Bit(file);
2799 ei->push_delay_fixed = getFile16BitBE(file);
2800 ei->push_delay_random = getFile16BitBE(file);
2801 ei->move_delay_fixed = getFile16BitBE(file);
2802 ei->move_delay_random = getFile16BitBE(file);
2804 ei->move_pattern = getFile16BitBE(file);
2805 ei->move_direction_initial = getFile8Bit(file);
2806 ei->move_stepsize = getFile8Bit(file);
2808 for (y = 0; y < 3; y++)
2809 for (x = 0; x < 3; x++)
2810 ei->content.e[x][y] = getMappedElement(getFile16BitBE(file));
2812 event_bits = getFile32BitBE(file);
2813 for (j = 0; j < NUM_CHANGE_EVENTS; j++)
2814 if (event_bits & (1 << j))
2815 ei->change->has_event[j] = TRUE;
2817 ei->change->target_element = getMappedElement(getFile16BitBE(file));
2819 ei->change->delay_fixed = getFile16BitBE(file);
2820 ei->change->delay_random = getFile16BitBE(file);
2821 ei->change->delay_frames = getFile16BitBE(file);
2823 ei->change->initial_trigger_element= getMappedElement(getFile16BitBE(file));
2825 ei->change->explode = getFile8Bit(file);
2826 ei->change->use_target_content = getFile8Bit(file);
2827 ei->change->only_if_complete = getFile8Bit(file);
2828 ei->change->use_random_replace = getFile8Bit(file);
2830 ei->change->random_percentage = getFile8Bit(file);
2831 ei->change->replace_when = getFile8Bit(file);
2833 for (y = 0; y < 3; y++)
2834 for (x = 0; x < 3; x++)
2835 ei->change->target_content.e[x][y] =
2836 getMappedElement(getFile16BitBE(file));
2838 ei->slippery_type = getFile8Bit(file);
2840 // some free bytes for future properties and padding
2841 ReadUnusedBytesFromFile(file, LEVEL_CPART_CUS3_UNUSED);
2843 // mark that this custom element has been modified
2844 ei->modified_settings = TRUE;
2847 level->file_has_custom_elements = TRUE;
2852 static int LoadLevel_CUS4(File *file, int chunk_size, struct LevelInfo *level)
2854 struct ElementInfo *ei;
2855 int chunk_size_expected;
2859 // ---------- custom element base property values (96 bytes) ----------------
2861 element = getMappedElement(getFile16BitBE(file));
2863 if (!IS_CUSTOM_ELEMENT(element))
2865 Warn("invalid custom element number %d", element);
2867 ReadUnusedBytesFromFile(file, chunk_size - 2);
2872 ei = &element_info[element];
2874 for (i = 0; i < MAX_ELEMENT_NAME_LEN; i++)
2875 ei->description[i] = getFile8Bit(file);
2876 ei->description[MAX_ELEMENT_NAME_LEN] = 0;
2878 ei->properties[EP_BITFIELD_BASE_NR] = getFile32BitBE(file);
2880 ReadUnusedBytesFromFile(file, 4); // reserved for more base properties
2882 ei->num_change_pages = getFile8Bit(file);
2884 chunk_size_expected = LEVEL_CHUNK_CUS4_SIZE(ei->num_change_pages);
2885 if (chunk_size_expected != chunk_size)
2887 ReadUnusedBytesFromFile(file, chunk_size - 43);
2888 return chunk_size_expected;
2891 ei->ce_value_fixed_initial = getFile16BitBE(file);
2892 ei->ce_value_random_initial = getFile16BitBE(file);
2893 ei->use_last_ce_value = getFile8Bit(file);
2895 ei->use_gfx_element = getFile8Bit(file);
2896 ei->gfx_element_initial = getMappedElement(getFile16BitBE(file));
2898 ei->collect_score_initial = getFile8Bit(file);
2899 ei->collect_count_initial = getFile8Bit(file);
2901 ei->drop_delay_fixed = getFile8Bit(file);
2902 ei->push_delay_fixed = getFile8Bit(file);
2903 ei->drop_delay_random = getFile8Bit(file);
2904 ei->push_delay_random = getFile8Bit(file);
2905 ei->move_delay_fixed = getFile16BitBE(file);
2906 ei->move_delay_random = getFile16BitBE(file);
2908 // bits 0 - 15 of "move_pattern" ...
2909 ei->move_pattern = getFile16BitBE(file);
2910 ei->move_direction_initial = getFile8Bit(file);
2911 ei->move_stepsize = getFile8Bit(file);
2913 ei->slippery_type = getFile8Bit(file);
2915 for (y = 0; y < 3; y++)
2916 for (x = 0; x < 3; x++)
2917 ei->content.e[x][y] = getMappedElement(getFile16BitBE(file));
2919 ei->move_enter_element = getMappedElement(getFile16BitBE(file));
2920 ei->move_leave_element = getMappedElement(getFile16BitBE(file));
2921 ei->move_leave_type = getFile8Bit(file);
2923 // ... bits 16 - 31 of "move_pattern" (not nice, but downward compatible)
2924 ei->move_pattern |= (getFile16BitBE(file) << 16);
2926 ei->access_direction = getFile8Bit(file);
2928 ei->explosion_delay = getFile8Bit(file);
2929 ei->ignition_delay = getFile8Bit(file);
2930 ei->explosion_type = getFile8Bit(file);
2932 // some free bytes for future custom property values and padding
2933 ReadUnusedBytesFromFile(file, 1);
2935 // ---------- change page property values (48 bytes) ------------------------
2937 setElementChangePages(ei, ei->num_change_pages);
2939 for (i = 0; i < ei->num_change_pages; i++)
2941 struct ElementChangeInfo *change = &ei->change_page[i];
2942 unsigned int event_bits;
2944 // always start with reliable default values
2945 setElementChangeInfoToDefaults(change);
2947 // bits 0 - 31 of "has_event[]" ...
2948 event_bits = getFile32BitBE(file);
2949 for (j = 0; j < MIN(NUM_CHANGE_EVENTS, 32); j++)
2950 if (event_bits & (1 << j))
2951 change->has_event[j] = TRUE;
2953 change->target_element = getMappedElement(getFile16BitBE(file));
2955 change->delay_fixed = getFile16BitBE(file);
2956 change->delay_random = getFile16BitBE(file);
2957 change->delay_frames = getFile16BitBE(file);
2959 change->initial_trigger_element = getMappedElement(getFile16BitBE(file));
2961 change->explode = getFile8Bit(file);
2962 change->use_target_content = getFile8Bit(file);
2963 change->only_if_complete = getFile8Bit(file);
2964 change->use_random_replace = getFile8Bit(file);
2966 change->random_percentage = getFile8Bit(file);
2967 change->replace_when = getFile8Bit(file);
2969 for (y = 0; y < 3; y++)
2970 for (x = 0; x < 3; x++)
2971 change->target_content.e[x][y]= getMappedElement(getFile16BitBE(file));
2973 change->can_change = getFile8Bit(file);
2975 change->trigger_side = getFile8Bit(file);
2977 change->trigger_player = getFile8Bit(file);
2978 change->trigger_page = getFile8Bit(file);
2980 change->trigger_page = (change->trigger_page == CH_PAGE_ANY_FILE ?
2981 CH_PAGE_ANY : (1 << change->trigger_page));
2983 change->has_action = getFile8Bit(file);
2984 change->action_type = getFile8Bit(file);
2985 change->action_mode = getFile8Bit(file);
2986 change->action_arg = getFile16BitBE(file);
2988 // ... bits 32 - 39 of "has_event[]" (not nice, but downward compatible)
2989 event_bits = getFile8Bit(file);
2990 for (j = 32; j < NUM_CHANGE_EVENTS; j++)
2991 if (event_bits & (1 << (j - 32)))
2992 change->has_event[j] = TRUE;
2995 // mark this custom element as modified
2996 ei->modified_settings = TRUE;
2998 level->file_has_custom_elements = TRUE;
3003 static int LoadLevel_GRP1(File *file, int chunk_size, struct LevelInfo *level)
3005 struct ElementInfo *ei;
3006 struct ElementGroupInfo *group;
3010 element = getMappedElement(getFile16BitBE(file));
3012 if (!IS_GROUP_ELEMENT(element))
3014 Warn("invalid group element number %d", element);
3016 ReadUnusedBytesFromFile(file, chunk_size - 2);
3021 ei = &element_info[element];
3023 for (i = 0; i < MAX_ELEMENT_NAME_LEN; i++)
3024 ei->description[i] = getFile8Bit(file);
3025 ei->description[MAX_ELEMENT_NAME_LEN] = 0;
3027 group = element_info[element].group;
3029 group->num_elements = getFile8Bit(file);
3031 ei->use_gfx_element = getFile8Bit(file);
3032 ei->gfx_element_initial = getMappedElement(getFile16BitBE(file));
3034 group->choice_mode = getFile8Bit(file);
3036 // some free bytes for future values and padding
3037 ReadUnusedBytesFromFile(file, 3);
3039 for (i = 0; i < MAX_ELEMENTS_IN_GROUP; i++)
3040 group->element[i] = getMappedElement(getFile16BitBE(file));
3042 // mark this group element as modified
3043 element_info[element].modified_settings = TRUE;
3045 level->file_has_custom_elements = TRUE;
3050 static int LoadLevel_MicroChunk(File *file, struct LevelFileConfigInfo *conf,
3051 int element, int real_element)
3053 int micro_chunk_size = 0;
3054 int conf_type = getFile8Bit(file);
3055 int byte_mask = conf_type & CONF_MASK_BYTES;
3056 boolean element_found = FALSE;
3059 micro_chunk_size += 1;
3061 if (byte_mask == CONF_MASK_MULTI_BYTES)
3063 int num_bytes = getFile16BitBE(file);
3064 byte *buffer = checked_malloc(num_bytes);
3066 ReadBytesFromFile(file, buffer, num_bytes);
3068 for (i = 0; conf[i].data_type != -1; i++)
3070 if (conf[i].element == element &&
3071 conf[i].conf_type == conf_type)
3073 int data_type = conf[i].data_type;
3074 int num_entities = num_bytes / CONF_ENTITY_NUM_BYTES(data_type);
3075 int max_num_entities = conf[i].max_num_entities;
3077 if (num_entities > max_num_entities)
3079 Warn("truncating number of entities for element %d from %d to %d",
3080 element, num_entities, max_num_entities);
3082 num_entities = max_num_entities;
3085 if (num_entities == 0 && (data_type == TYPE_ELEMENT_LIST ||
3086 data_type == TYPE_CONTENT_LIST))
3088 // for element and content lists, zero entities are not allowed
3089 Warn("found empty list of entities for element %d", element);
3091 // do not set "num_entities" here to prevent reading behind buffer
3093 *(int *)(conf[i].num_entities) = 1; // at least one is required
3097 *(int *)(conf[i].num_entities) = num_entities;
3100 element_found = TRUE;
3102 if (data_type == TYPE_STRING)
3104 char *string = (char *)(conf[i].value);
3107 for (j = 0; j < max_num_entities; j++)
3108 string[j] = (j < num_entities ? buffer[j] : '\0');
3110 else if (data_type == TYPE_ELEMENT_LIST)
3112 int *element_array = (int *)(conf[i].value);
3115 for (j = 0; j < num_entities; j++)
3117 getMappedElement(CONF_ELEMENTS_ELEMENT(buffer, j));
3119 else if (data_type == TYPE_CONTENT_LIST)
3121 struct Content *content= (struct Content *)(conf[i].value);
3124 for (c = 0; c < num_entities; c++)
3125 for (y = 0; y < 3; y++)
3126 for (x = 0; x < 3; x++)
3127 content[c].e[x][y] =
3128 getMappedElement(CONF_CONTENTS_ELEMENT(buffer, c, x, y));
3131 element_found = FALSE;
3137 checked_free(buffer);
3139 micro_chunk_size += 2 + num_bytes;
3141 else // constant size configuration data (1, 2 or 4 bytes)
3143 int value = (byte_mask == CONF_MASK_1_BYTE ? getFile8Bit (file) :
3144 byte_mask == CONF_MASK_2_BYTE ? getFile16BitBE(file) :
3145 byte_mask == CONF_MASK_4_BYTE ? getFile32BitBE(file) : 0);
3147 for (i = 0; conf[i].data_type != -1; i++)
3149 if (conf[i].element == element &&
3150 conf[i].conf_type == conf_type)
3152 int data_type = conf[i].data_type;
3154 if (data_type == TYPE_ELEMENT)
3155 value = getMappedElement(value);
3157 if (data_type == TYPE_BOOLEAN)
3158 *(boolean *)(conf[i].value) = value;
3160 *(int *) (conf[i].value) = value;
3162 element_found = TRUE;
3168 micro_chunk_size += CONF_VALUE_NUM_BYTES(byte_mask);
3173 char *error_conf_chunk_bytes =
3174 (byte_mask == CONF_MASK_1_BYTE ? "CONF_VALUE_8_BIT" :
3175 byte_mask == CONF_MASK_2_BYTE ? "CONF_VALUE_16_BIT" :
3176 byte_mask == CONF_MASK_4_BYTE ? "CONF_VALUE_32_BIT" :"CONF_VALUE_BYTES");
3177 int error_conf_chunk_token = conf_type & CONF_MASK_TOKEN;
3178 int error_element = real_element;
3180 Warn("cannot load micro chunk '%s(%d)' value for element %d ['%s']",
3181 error_conf_chunk_bytes, error_conf_chunk_token,
3182 error_element, EL_NAME(error_element));
3185 return micro_chunk_size;
3188 static int LoadLevel_INFO(File *file, int chunk_size, struct LevelInfo *level)
3190 int real_chunk_size = 0;
3192 li = *level; // copy level data into temporary buffer
3194 while (!checkEndOfFile(file))
3196 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_INFO, -1, -1);
3198 if (real_chunk_size >= chunk_size)
3202 *level = li; // copy temporary buffer back to level data
3204 return real_chunk_size;
3207 static int LoadLevel_CONF(File *file, int chunk_size, struct LevelInfo *level)
3209 int real_chunk_size = 0;
3211 li = *level; // copy level data into temporary buffer
3213 while (!checkEndOfFile(file))
3215 int element = getMappedElement(getFile16BitBE(file));
3217 real_chunk_size += 2;
3218 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_CONF,
3220 if (real_chunk_size >= chunk_size)
3224 *level = li; // copy temporary buffer back to level data
3226 return real_chunk_size;
3229 static int LoadLevel_ELEM(File *file, int chunk_size, struct LevelInfo *level)
3231 int real_chunk_size = 0;
3233 li = *level; // copy level data into temporary buffer
3235 while (!checkEndOfFile(file))
3237 int element = getMappedElement(getFile16BitBE(file));
3239 real_chunk_size += 2;
3240 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_ELEM,
3242 if (real_chunk_size >= chunk_size)
3246 *level = li; // copy temporary buffer back to level data
3248 return real_chunk_size;
3251 static int LoadLevel_NOTE(File *file, int chunk_size, struct LevelInfo *level)
3253 int element = getMappedElement(getFile16BitBE(file));
3254 int envelope_nr = element - EL_ENVELOPE_1;
3255 int real_chunk_size = 2;
3257 xx_envelope = level->envelope[envelope_nr]; // copy into temporary buffer
3259 while (!checkEndOfFile(file))
3261 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_NOTE,
3264 if (real_chunk_size >= chunk_size)
3268 level->envelope[envelope_nr] = xx_envelope; // copy from temporary buffer
3270 return real_chunk_size;
3273 static int LoadLevel_CUSX(File *file, int chunk_size, struct LevelInfo *level)
3275 int element = getMappedElement(getFile16BitBE(file));
3276 int real_chunk_size = 2;
3277 struct ElementInfo *ei = &element_info[element];
3280 xx_ei = *ei; // copy element data into temporary buffer
3282 xx_ei.num_change_pages = -1;
3284 while (!checkEndOfFile(file))
3286 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_CUSX_base,
3288 if (xx_ei.num_change_pages != -1)
3291 if (real_chunk_size >= chunk_size)
3297 if (ei->num_change_pages == -1)
3299 Warn("LoadLevel_CUSX(): missing 'num_change_pages' for '%s'",
3302 ei->num_change_pages = 1;
3304 setElementChangePages(ei, 1);
3305 setElementChangeInfoToDefaults(ei->change);
3307 return real_chunk_size;
3310 // initialize number of change pages stored for this custom element
3311 setElementChangePages(ei, ei->num_change_pages);
3312 for (i = 0; i < ei->num_change_pages; i++)
3313 setElementChangeInfoToDefaults(&ei->change_page[i]);
3315 // start with reading properties for the first change page
3316 xx_current_change_page = 0;
3318 while (!checkEndOfFile(file))
3320 struct ElementChangeInfo *change = &ei->change_page[xx_current_change_page];
3322 xx_change = *change; // copy change data into temporary buffer
3324 resetEventBits(); // reset bits; change page might have changed
3326 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_CUSX_change,
3329 *change = xx_change;
3331 setEventFlagsFromEventBits(change);
3333 if (real_chunk_size >= chunk_size)
3337 level->file_has_custom_elements = TRUE;
3339 return real_chunk_size;
3342 static int LoadLevel_GRPX(File *file, int chunk_size, struct LevelInfo *level)
3344 int element = getMappedElement(getFile16BitBE(file));
3345 int real_chunk_size = 2;
3346 struct ElementInfo *ei = &element_info[element];
3347 struct ElementGroupInfo *group = ei->group;
3349 xx_ei = *ei; // copy element data into temporary buffer
3350 xx_group = *group; // copy group data into temporary buffer
3352 while (!checkEndOfFile(file))
3354 real_chunk_size += LoadLevel_MicroChunk(file, chunk_config_GRPX,
3357 if (real_chunk_size >= chunk_size)
3364 level->file_has_custom_elements = TRUE;
3366 return real_chunk_size;
3369 static void LoadLevelFromFileInfo_RND(struct LevelInfo *level,
3370 struct LevelFileInfo *level_file_info,
3371 boolean level_info_only)
3373 char *filename = level_file_info->filename;
3374 char cookie[MAX_LINE_LEN];
3375 char chunk_name[CHUNK_ID_LEN + 1];
3379 if (!(file = openFile(filename, MODE_READ)))
3381 level->no_valid_file = TRUE;
3382 level->no_level_file = TRUE;
3384 if (level_info_only)
3387 Warn("cannot read level '%s' -- using empty level", filename);
3389 if (!setup.editor.use_template_for_new_levels)
3392 // if level file not found, try to initialize level data from template
3393 filename = getGlobalLevelTemplateFilename();
3395 if (!(file = openFile(filename, MODE_READ)))
3398 // default: for empty levels, use level template for custom elements
3399 level->use_custom_template = TRUE;
3401 level->no_valid_file = FALSE;
3404 getFileChunkBE(file, chunk_name, NULL);
3405 if (strEqual(chunk_name, "RND1"))
3407 getFile32BitBE(file); // not used
3409 getFileChunkBE(file, chunk_name, NULL);
3410 if (!strEqual(chunk_name, "CAVE"))
3412 level->no_valid_file = TRUE;
3414 Warn("unknown format of level file '%s'", filename);
3421 else // check for pre-2.0 file format with cookie string
3423 strcpy(cookie, chunk_name);
3424 if (getStringFromFile(file, &cookie[4], MAX_LINE_LEN - 4) == NULL)
3426 if (strlen(cookie) > 0 && cookie[strlen(cookie) - 1] == '\n')
3427 cookie[strlen(cookie) - 1] = '\0';
3429 if (!checkCookieString(cookie, LEVEL_COOKIE_TMPL))
3431 level->no_valid_file = TRUE;
3433 Warn("unknown format of level file '%s'", filename);
3440 if ((level->file_version = getFileVersionFromCookieString(cookie)) == -1)
3442 level->no_valid_file = TRUE;
3444 Warn("unsupported version of level file '%s'", filename);
3451 // pre-2.0 level files have no game version, so use file version here
3452 level->game_version = level->file_version;
3455 if (level->file_version < FILE_VERSION_1_2)
3457 // level files from versions before 1.2.0 without chunk structure
3458 LoadLevel_HEAD(file, LEVEL_CHUNK_HEAD_SIZE, level);
3459 LoadLevel_BODY(file, level->fieldx * level->fieldy, level);
3467 int (*loader)(File *, int, struct LevelInfo *);
3471 { "VERS", LEVEL_CHUNK_VERS_SIZE, LoadLevel_VERS },
3472 { "DATE", LEVEL_CHUNK_DATE_SIZE, LoadLevel_DATE },
3473 { "HEAD", LEVEL_CHUNK_HEAD_SIZE, LoadLevel_HEAD },
3474 { "NAME", LEVEL_CHUNK_NAME_SIZE, LoadLevel_NAME },
3475 { "AUTH", LEVEL_CHUNK_AUTH_SIZE, LoadLevel_AUTH },
3476 { "INFO", -1, LoadLevel_INFO },
3477 { "BODY", -1, LoadLevel_BODY },
3478 { "CONT", -1, LoadLevel_CONT },
3479 { "CNT2", LEVEL_CHUNK_CNT2_SIZE, LoadLevel_CNT2 },
3480 { "CNT3", -1, LoadLevel_CNT3 },
3481 { "CUS1", -1, LoadLevel_CUS1 },
3482 { "CUS2", -1, LoadLevel_CUS2 },
3483 { "CUS3", -1, LoadLevel_CUS3 },
3484 { "CUS4", -1, LoadLevel_CUS4 },
3485 { "GRP1", -1, LoadLevel_GRP1 },
3486 { "CONF", -1, LoadLevel_CONF },
3487 { "ELEM", -1, LoadLevel_ELEM },
3488 { "NOTE", -1, LoadLevel_NOTE },
3489 { "CUSX", -1, LoadLevel_CUSX },
3490 { "GRPX", -1, LoadLevel_GRPX },
3495 while (getFileChunkBE(file, chunk_name, &chunk_size))
3499 while (chunk_info[i].name != NULL &&
3500 !strEqual(chunk_name, chunk_info[i].name))
3503 if (chunk_info[i].name == NULL)
3505 Warn("unknown chunk '%s' in level file '%s'",
3506 chunk_name, filename);
3508 ReadUnusedBytesFromFile(file, chunk_size);
3510 else if (chunk_info[i].size != -1 &&
3511 chunk_info[i].size != chunk_size)
3513 Warn("wrong size (%d) of chunk '%s' in level file '%s'",
3514 chunk_size, chunk_name, filename);
3516 ReadUnusedBytesFromFile(file, chunk_size);
3520 // call function to load this level chunk
3521 int chunk_size_expected =
3522 (chunk_info[i].loader)(file, chunk_size, level);
3524 // the size of some chunks cannot be checked before reading other
3525 // chunks first (like "HEAD" and "BODY") that contain some header
3526 // information, so check them here
3527 if (chunk_size_expected != chunk_size)
3529 Warn("wrong size (%d) of chunk '%s' in level file '%s'",
3530 chunk_size, chunk_name, filename);
3540 // ----------------------------------------------------------------------------
3541 // functions for loading EM level
3542 // ----------------------------------------------------------------------------
3544 static void CopyNativeLevel_RND_to_EM(struct LevelInfo *level)
3546 static int ball_xy[8][2] =
3557 struct LevelInfo_EM *level_em = level->native_em_level;
3558 struct CAVE *cav = level_em->cav;
3561 cav->width = MIN(level->fieldx, MAX_PLAYFIELD_WIDTH);
3562 cav->height = MIN(level->fieldy, MAX_PLAYFIELD_HEIGHT);
3564 cav->time_seconds = level->time;
3565 cav->gems_needed = level->gems_needed;
3567 cav->emerald_score = level->score[SC_EMERALD];
3568 cav->diamond_score = level->score[SC_DIAMOND];
3569 cav->alien_score = level->score[SC_ROBOT];
3570 cav->tank_score = level->score[SC_SPACESHIP];
3571 cav->bug_score = level->score[SC_BUG];
3572 cav->eater_score = level->score[SC_YAMYAM];
3573 cav->nut_score = level->score[SC_NUT];
3574 cav->dynamite_score = level->score[SC_DYNAMITE];
3575 cav->key_score = level->score[SC_KEY];
3576 cav->exit_score = level->score[SC_TIME_BONUS];
3578 cav->num_eater_arrays = level->num_yamyam_contents;
3580 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
3581 for (y = 0; y < 3; y++)
3582 for (x = 0; x < 3; x++)
3583 cav->eater_array[i][y * 3 + x] =
3584 map_element_RND_to_EM_cave(level->yamyam_content[i].e[x][y]);
3586 cav->amoeba_time = level->amoeba_speed;
3587 cav->wonderwall_time = level->time_magic_wall;
3588 cav->wheel_time = level->time_wheel;
3590 cav->android_move_time = level->android_move_time;
3591 cav->android_clone_time = level->android_clone_time;
3592 cav->ball_random = level->ball_random;
3593 cav->ball_active = level->ball_active_initial;
3594 cav->ball_time = level->ball_time;
3595 cav->num_ball_arrays = level->num_ball_contents;
3597 cav->lenses_score = level->lenses_score;
3598 cav->magnify_score = level->magnify_score;
3599 cav->slurp_score = level->slurp_score;
3601 cav->lenses_time = level->lenses_time;
3602 cav->magnify_time = level->magnify_time;
3604 cav->wind_direction =
3605 map_direction_RND_to_EM(level->wind_direction_initial);
3607 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
3608 for (j = 0; j < 8; j++)
3609 cav->ball_array[i][j] =
3610 map_element_RND_to_EM_cave(level->ball_content[i].
3611 e[ball_xy[j][0]][ball_xy[j][1]]);
3613 map_android_clone_elements_RND_to_EM(level);
3615 // first fill the complete playfield with the empty space element
3616 for (y = 0; y < EM_MAX_CAVE_HEIGHT; y++)
3617 for (x = 0; x < EM_MAX_CAVE_WIDTH; x++)
3618 cav->cave[x][y] = Cblank;
3620 // then copy the real level contents from level file into the playfield
3621 for (y = 0; y < cav->height; y++) for (x = 0; x < cav->width; x++)
3623 int new_element = map_element_RND_to_EM_cave(level->field[x][y]);
3625 if (level->field[x][y] == EL_AMOEBA_DEAD)
3626 new_element = map_element_RND_to_EM_cave(EL_AMOEBA_WET);
3628 cav->cave[x][y] = new_element;
3631 for (i = 0; i < MAX_PLAYERS; i++)
3633 cav->player_x[i] = -1;
3634 cav->player_y[i] = -1;
3637 // initialize player positions and delete players from the playfield
3638 for (y = 0; y < cav->height; y++) for (x = 0; x < cav->width; x++)
3640 if (ELEM_IS_PLAYER(level->field[x][y]))
3642 int player_nr = GET_PLAYER_NR(level->field[x][y]);
3644 cav->player_x[player_nr] = x;
3645 cav->player_y[player_nr] = y;
3647 cav->cave[x][y] = map_element_RND_to_EM_cave(EL_EMPTY);
3652 static void CopyNativeLevel_EM_to_RND(struct LevelInfo *level)
3654 static int ball_xy[8][2] =
3665 struct LevelInfo_EM *level_em = level->native_em_level;
3666 struct CAVE *cav = level_em->cav;
3669 level->fieldx = MIN(cav->width, MAX_LEV_FIELDX);
3670 level->fieldy = MIN(cav->height, MAX_LEV_FIELDY);
3672 level->time = cav->time_seconds;
3673 level->gems_needed = cav->gems_needed;
3675 sprintf(level->name, "Level %d", level->file_info.nr);
3677 level->score[SC_EMERALD] = cav->emerald_score;
3678 level->score[SC_DIAMOND] = cav->diamond_score;
3679 level->score[SC_ROBOT] = cav->alien_score;
3680 level->score[SC_SPACESHIP] = cav->tank_score;
3681 level->score[SC_BUG] = cav->bug_score;
3682 level->score[SC_YAMYAM] = cav->eater_score;
3683 level->score[SC_NUT] = cav->nut_score;
3684 level->score[SC_DYNAMITE] = cav->dynamite_score;
3685 level->score[SC_KEY] = cav->key_score;
3686 level->score[SC_TIME_BONUS] = cav->exit_score;
3688 level->num_yamyam_contents = cav->num_eater_arrays;
3690 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
3691 for (y = 0; y < 3; y++)
3692 for (x = 0; x < 3; x++)
3693 level->yamyam_content[i].e[x][y] =
3694 map_element_EM_to_RND_cave(cav->eater_array[i][y * 3 + x]);
3696 level->amoeba_speed = cav->amoeba_time;
3697 level->time_magic_wall = cav->wonderwall_time;
3698 level->time_wheel = cav->wheel_time;
3700 level->android_move_time = cav->android_move_time;
3701 level->android_clone_time = cav->android_clone_time;
3702 level->ball_random = cav->ball_random;
3703 level->ball_active_initial = cav->ball_active;
3704 level->ball_time = cav->ball_time;
3705 level->num_ball_contents = cav->num_ball_arrays;
3707 level->lenses_score = cav->lenses_score;
3708 level->magnify_score = cav->magnify_score;
3709 level->slurp_score = cav->slurp_score;
3711 level->lenses_time = cav->lenses_time;
3712 level->magnify_time = cav->magnify_time;
3714 level->wind_direction_initial =
3715 map_direction_EM_to_RND(cav->wind_direction);
3717 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
3718 for (j = 0; j < 8; j++)
3719 level->ball_content[i].e[ball_xy[j][0]][ball_xy[j][1]] =
3720 map_element_EM_to_RND_cave(cav->ball_array[i][j]);
3722 map_android_clone_elements_EM_to_RND(level);
3724 // convert the playfield (some elements need special treatment)
3725 for (y = 0; y < level->fieldy; y++) for (x = 0; x < level->fieldx; x++)
3727 int new_element = map_element_EM_to_RND_cave(cav->cave[x][y]);
3729 if (new_element == EL_AMOEBA_WET && level->amoeba_speed == 0)
3730 new_element = EL_AMOEBA_DEAD;
3732 level->field[x][y] = new_element;
3735 for (i = 0; i < MAX_PLAYERS; i++)
3737 // in case of all players set to the same field, use the first player
3738 int nr = MAX_PLAYERS - i - 1;
3739 int jx = cav->player_x[nr];
3740 int jy = cav->player_y[nr];
3742 if (jx != -1 && jy != -1)
3743 level->field[jx][jy] = EL_PLAYER_1 + nr;
3746 // time score is counted for each 10 seconds left in Emerald Mine levels
3747 level->time_score_base = 10;
3751 // ----------------------------------------------------------------------------
3752 // functions for loading SP level
3753 // ----------------------------------------------------------------------------
3755 static void CopyNativeLevel_RND_to_SP(struct LevelInfo *level)
3757 struct LevelInfo_SP *level_sp = level->native_sp_level;
3758 LevelInfoType *header = &level_sp->header;
3761 level_sp->width = level->fieldx;
3762 level_sp->height = level->fieldy;
3764 for (x = 0; x < level->fieldx; x++)
3765 for (y = 0; y < level->fieldy; y++)
3766 level_sp->playfield[x][y] = map_element_RND_to_SP(level->field[x][y]);
3768 header->InitialGravity = (level->initial_player_gravity[0] ? 1 : 0);
3770 for (i = 0; i < SP_LEVEL_NAME_LEN; i++)
3771 header->LevelTitle[i] = level->name[i];
3772 // !!! NO STRING TERMINATION IN SUPAPLEX VB CODE YET -- FIX THIS !!!
3774 header->InfotronsNeeded = level->gems_needed;
3776 header->SpecialPortCount = 0;
3778 for (x = 0; x < level->fieldx; x++) for (y = 0; y < level->fieldy; y++)
3780 boolean gravity_port_found = FALSE;
3781 boolean gravity_port_valid = FALSE;
3782 int gravity_port_flag;
3783 int gravity_port_base_element;
3784 int element = level->field[x][y];
3786 if (element >= EL_SP_GRAVITY_ON_PORT_RIGHT &&
3787 element <= EL_SP_GRAVITY_ON_PORT_UP)
3789 gravity_port_found = TRUE;
3790 gravity_port_valid = TRUE;
3791 gravity_port_flag = 1;
3792 gravity_port_base_element = EL_SP_GRAVITY_ON_PORT_RIGHT;
3794 else if (element >= EL_SP_GRAVITY_OFF_PORT_RIGHT &&
3795 element <= EL_SP_GRAVITY_OFF_PORT_UP)
3797 gravity_port_found = TRUE;
3798 gravity_port_valid = TRUE;
3799 gravity_port_flag = 0;
3800 gravity_port_base_element = EL_SP_GRAVITY_OFF_PORT_RIGHT;
3802 else if (element >= EL_SP_GRAVITY_PORT_RIGHT &&
3803 element <= EL_SP_GRAVITY_PORT_UP)
3805 // change R'n'D style gravity inverting special port to normal port
3806 // (there are no gravity inverting ports in native Supaplex engine)
3808 gravity_port_found = TRUE;
3809 gravity_port_valid = FALSE;
3810 gravity_port_base_element = EL_SP_GRAVITY_PORT_RIGHT;
3813 if (gravity_port_found)
3815 if (gravity_port_valid &&
3816 header->SpecialPortCount < SP_MAX_SPECIAL_PORTS)
3818 SpecialPortType *port = &header->SpecialPort[header->SpecialPortCount];
3820 port->PortLocation = (y * level->fieldx + x) * 2;
3821 port->Gravity = gravity_port_flag;
3823 element += EL_SP_GRAVITY_PORT_RIGHT - gravity_port_base_element;
3825 header->SpecialPortCount++;
3829 // change special gravity port to normal port
3831 element += EL_SP_PORT_RIGHT - gravity_port_base_element;
3834 level_sp->playfield[x][y] = element - EL_SP_START;
3839 static void CopyNativeLevel_SP_to_RND(struct LevelInfo *level)
3841 struct LevelInfo_SP *level_sp = level->native_sp_level;
3842 LevelInfoType *header = &level_sp->header;
3843 boolean num_invalid_elements = 0;
3846 level->fieldx = level_sp->width;
3847 level->fieldy = level_sp->height;
3849 for (x = 0; x < level->fieldx; x++)
3851 for (y = 0; y < level->fieldy; y++)
3853 int element_old = level_sp->playfield[x][y];
3854 int element_new = getMappedElement(map_element_SP_to_RND(element_old));
3856 if (element_new == EL_UNKNOWN)
3858 num_invalid_elements++;
3860 Debug("level:native:SP", "invalid element %d at position %d, %d",
3864 level->field[x][y] = element_new;
3868 if (num_invalid_elements > 0)
3869 Warn("found %d invalid elements%s", num_invalid_elements,
3870 (!options.debug ? " (use '--debug' for more details)" : ""));
3872 for (i = 0; i < MAX_PLAYERS; i++)
3873 level->initial_player_gravity[i] =
3874 (header->InitialGravity == 1 ? TRUE : FALSE);
3876 // skip leading spaces
3877 for (i = 0; i < SP_LEVEL_NAME_LEN; i++)
3878 if (header->LevelTitle[i] != ' ')
3882 for (j = 0; i < SP_LEVEL_NAME_LEN; i++, j++)
3883 level->name[j] = header->LevelTitle[i];
3884 level->name[j] = '\0';
3886 // cut trailing spaces
3888 if (level->name[j - 1] == ' ' && level->name[j] == '\0')
3889 level->name[j - 1] = '\0';
3891 level->gems_needed = header->InfotronsNeeded;
3893 for (i = 0; i < header->SpecialPortCount; i++)
3895 SpecialPortType *port = &header->SpecialPort[i];
3896 int port_location = port->PortLocation;
3897 int gravity = port->Gravity;
3898 int port_x, port_y, port_element;
3900 port_x = (port_location / 2) % level->fieldx;
3901 port_y = (port_location / 2) / level->fieldx;
3903 if (port_x < 0 || port_x >= level->fieldx ||
3904 port_y < 0 || port_y >= level->fieldy)
3906 Warn("special port position (%d, %d) out of bounds", port_x, port_y);
3911 port_element = level->field[port_x][port_y];
3913 if (port_element < EL_SP_GRAVITY_PORT_RIGHT ||
3914 port_element > EL_SP_GRAVITY_PORT_UP)
3916 Warn("no special port at position (%d, %d)", port_x, port_y);
3921 // change previous (wrong) gravity inverting special port to either
3922 // gravity enabling special port or gravity disabling special port
3923 level->field[port_x][port_y] +=
3924 (gravity == 1 ? EL_SP_GRAVITY_ON_PORT_RIGHT :
3925 EL_SP_GRAVITY_OFF_PORT_RIGHT) - EL_SP_GRAVITY_PORT_RIGHT;
3928 // change special gravity ports without database entries to normal ports
3929 for (x = 0; x < level->fieldx; x++)
3930 for (y = 0; y < level->fieldy; y++)
3931 if (level->field[x][y] >= EL_SP_GRAVITY_PORT_RIGHT &&
3932 level->field[x][y] <= EL_SP_GRAVITY_PORT_UP)
3933 level->field[x][y] += EL_SP_PORT_RIGHT - EL_SP_GRAVITY_PORT_RIGHT;
3935 level->time = 0; // no time limit
3936 level->amoeba_speed = 0;
3937 level->time_magic_wall = 0;
3938 level->time_wheel = 0;
3939 level->amoeba_content = EL_EMPTY;
3941 // original Supaplex does not use score values -- rate by playing time
3942 for (i = 0; i < LEVEL_SCORE_ELEMENTS; i++)
3943 level->score[i] = 0;
3945 level->rate_time_over_score = TRUE;
3947 // there are no yamyams in supaplex levels
3948 for (i = 0; i < level->num_yamyam_contents; i++)
3949 for (x = 0; x < 3; x++)
3950 for (y = 0; y < 3; y++)
3951 level->yamyam_content[i].e[x][y] = EL_EMPTY;
3954 static void CopyNativeTape_RND_to_SP(struct LevelInfo *level)
3956 struct LevelInfo_SP *level_sp = level->native_sp_level;
3957 struct DemoInfo_SP *demo = &level_sp->demo;
3960 // always start with reliable default values
3961 demo->is_available = FALSE;
3964 if (TAPE_IS_EMPTY(tape))
3967 demo->level_nr = tape.level_nr; // (currently not used)
3969 level_sp->header.DemoRandomSeed = tape.random_seed;
3973 for (i = 0; i < tape.length; i++)
3975 int demo_action = map_key_RND_to_SP(tape.pos[i].action[0]);
3976 int demo_repeat = tape.pos[i].delay;
3977 int demo_entries = (demo_repeat + 15) / 16;
3979 if (demo->length + demo_entries >= SP_MAX_TAPE_LEN)
3981 Warn("tape truncated: size exceeds maximum SP demo size %d",
3987 for (j = 0; j < demo_repeat / 16; j++)
3988 demo->data[demo->length++] = 0xf0 | demo_action;
3990 if (demo_repeat % 16)
3991 demo->data[demo->length++] = ((demo_repeat % 16 - 1) << 4) | demo_action;
3994 demo->is_available = TRUE;
3997 static void setTapeInfoToDefaults(void);
3999 static void CopyNativeTape_SP_to_RND(struct LevelInfo *level)
4001 struct LevelInfo_SP *level_sp = level->native_sp_level;
4002 struct DemoInfo_SP *demo = &level_sp->demo;
4003 char *filename = level->file_info.filename;
4006 // always start with reliable default values
4007 setTapeInfoToDefaults();
4009 if (!demo->is_available)
4012 tape.level_nr = demo->level_nr; // (currently not used)
4013 tape.random_seed = level_sp->header.DemoRandomSeed;
4015 TapeSetDateFromEpochSeconds(getFileTimestampEpochSeconds(filename));
4018 tape.pos[tape.counter].delay = 0;
4020 for (i = 0; i < demo->length; i++)
4022 int demo_action = demo->data[i] & 0x0f;
4023 int demo_repeat = (demo->data[i] & 0xf0) >> 4;
4024 int tape_action = map_key_SP_to_RND(demo_action);
4025 int tape_repeat = demo_repeat + 1;
4026 byte action[MAX_TAPE_ACTIONS] = { tape_action };
4027 boolean success = 0;
4030 for (j = 0; j < tape_repeat; j++)
4031 success = TapeAddAction(action);
4035 Warn("SP demo truncated: size exceeds maximum tape size %d",
4042 TapeHaltRecording();
4046 // ----------------------------------------------------------------------------
4047 // functions for loading MM level
4048 // ----------------------------------------------------------------------------
4050 static void CopyNativeLevel_RND_to_MM(struct LevelInfo *level)
4052 struct LevelInfo_MM *level_mm = level->native_mm_level;
4055 level_mm->fieldx = MIN(level->fieldx, MM_MAX_PLAYFIELD_WIDTH);
4056 level_mm->fieldy = MIN(level->fieldy, MM_MAX_PLAYFIELD_HEIGHT);
4058 level_mm->time = level->time;
4059 level_mm->kettles_needed = level->gems_needed;
4060 level_mm->auto_count_kettles = level->auto_count_gems;
4062 level_mm->laser_red = level->mm_laser_red;
4063 level_mm->laser_green = level->mm_laser_green;
4064 level_mm->laser_blue = level->mm_laser_blue;
4066 strcpy(level_mm->name, level->name);
4067 strcpy(level_mm->author, level->author);
4069 level_mm->score[SC_EMERALD] = level->score[SC_EMERALD];
4070 level_mm->score[SC_PACMAN] = level->score[SC_PACMAN];
4071 level_mm->score[SC_KEY] = level->score[SC_KEY];
4072 level_mm->score[SC_TIME_BONUS] = level->score[SC_TIME_BONUS];
4073 level_mm->score[SC_ELEM_BONUS] = level->score[SC_ELEM_BONUS];
4075 level_mm->amoeba_speed = level->amoeba_speed;
4076 level_mm->time_fuse = level->mm_time_fuse;
4077 level_mm->time_bomb = level->mm_time_bomb;
4078 level_mm->time_ball = level->mm_time_ball;
4079 level_mm->time_block = level->mm_time_block;
4081 for (x = 0; x < level->fieldx; x++)
4082 for (y = 0; y < level->fieldy; y++)
4084 level_mm->field[x][y] = map_element_RND_to_MM(level->field[x][y]);
4087 static void CopyNativeLevel_MM_to_RND(struct LevelInfo *level)
4089 struct LevelInfo_MM *level_mm = level->native_mm_level;
4092 level->fieldx = MIN(level_mm->fieldx, MAX_LEV_FIELDX);
4093 level->fieldy = MIN(level_mm->fieldy, MAX_LEV_FIELDY);
4095 level->time = level_mm->time;
4096 level->gems_needed = level_mm->kettles_needed;
4097 level->auto_count_gems = level_mm->auto_count_kettles;
4099 level->mm_laser_red = level_mm->laser_red;
4100 level->mm_laser_green = level_mm->laser_green;
4101 level->mm_laser_blue = level_mm->laser_blue;
4103 strcpy(level->name, level_mm->name);
4105 // only overwrite author from 'levelinfo.conf' if author defined in level
4106 if (!strEqual(level_mm->author, ANONYMOUS_NAME))
4107 strcpy(level->author, level_mm->author);
4109 level->score[SC_EMERALD] = level_mm->score[SC_EMERALD];
4110 level->score[SC_PACMAN] = level_mm->score[SC_PACMAN];
4111 level->score[SC_KEY] = level_mm->score[SC_KEY];
4112 level->score[SC_TIME_BONUS] = level_mm->score[SC_TIME_BONUS];
4113 level->score[SC_ELEM_BONUS] = level_mm->score[SC_ELEM_BONUS];
4115 level->amoeba_speed = level_mm->amoeba_speed;
4116 level->mm_time_fuse = level_mm->time_fuse;
4117 level->mm_time_bomb = level_mm->time_bomb;
4118 level->mm_time_ball = level_mm->time_ball;
4119 level->mm_time_block = level_mm->time_block;
4121 for (x = 0; x < level->fieldx; x++)
4122 for (y = 0; y < level->fieldy; y++)
4123 level->field[x][y] = map_element_MM_to_RND(level_mm->field[x][y]);
4127 // ----------------------------------------------------------------------------
4128 // functions for loading DC level
4129 // ----------------------------------------------------------------------------
4131 #define DC_LEVEL_HEADER_SIZE 344
4133 static unsigned short getDecodedWord_DC(unsigned short data_encoded,
4136 static int last_data_encoded;
4140 int diff_hi, diff_lo;
4141 int data_hi, data_lo;
4142 unsigned short data_decoded;
4146 last_data_encoded = 0;
4153 diff = data_encoded - last_data_encoded;
4154 diff_hi = diff & ~0xff;
4155 diff_lo = diff & 0xff;
4159 data_hi = diff_hi - (offset1 << 8) + (offset2 & 0xff00);
4160 data_lo = (diff_lo + (data_hi >> 16)) & 0x00ff;
4161 data_hi = data_hi & 0xff00;
4163 data_decoded = data_hi | data_lo;
4165 last_data_encoded = data_encoded;
4167 offset1 = (offset1 + 1) % 31;
4168 offset2 = offset2 & 0xff;
4170 return data_decoded;
4173 static int getMappedElement_DC(int element)
4181 // 0x0117 - 0x036e: (?)
4184 // 0x042d - 0x0684: (?)
4200 element = EL_CRYSTAL;
4203 case 0x0e77: // quicksand (boulder)
4204 element = EL_QUICKSAND_FAST_FULL;
4207 case 0x0e99: // slow quicksand (boulder)
4208 element = EL_QUICKSAND_FULL;
4212 element = EL_EM_EXIT_OPEN;
4216 element = EL_EM_EXIT_CLOSED;
4220 element = EL_EM_STEEL_EXIT_OPEN;
4224 element = EL_EM_STEEL_EXIT_CLOSED;
4227 case 0x0f4f: // dynamite (lit 1)
4228 element = EL_EM_DYNAMITE_ACTIVE;
4231 case 0x0f57: // dynamite (lit 2)
4232 element = EL_EM_DYNAMITE_ACTIVE;
4235 case 0x0f5f: // dynamite (lit 3)
4236 element = EL_EM_DYNAMITE_ACTIVE;
4239 case 0x0f67: // dynamite (lit 4)
4240 element = EL_EM_DYNAMITE_ACTIVE;
4247 element = EL_AMOEBA_WET;
4251 element = EL_AMOEBA_DROP;
4255 element = EL_DC_MAGIC_WALL;
4259 element = EL_SPACESHIP_UP;
4263 element = EL_SPACESHIP_DOWN;
4267 element = EL_SPACESHIP_LEFT;
4271 element = EL_SPACESHIP_RIGHT;
4275 element = EL_BUG_UP;
4279 element = EL_BUG_DOWN;
4283 element = EL_BUG_LEFT;
4287 element = EL_BUG_RIGHT;
4291 element = EL_MOLE_UP;
4295 element = EL_MOLE_DOWN;
4299 element = EL_MOLE_LEFT;
4303 element = EL_MOLE_RIGHT;
4311 element = EL_YAMYAM_UP;
4315 element = EL_SWITCHGATE_OPEN;
4319 element = EL_SWITCHGATE_CLOSED;
4323 element = EL_DC_SWITCHGATE_SWITCH_UP;
4327 element = EL_TIMEGATE_CLOSED;
4330 case 0x144c: // conveyor belt switch (green)
4331 element = EL_CONVEYOR_BELT_3_SWITCH_MIDDLE;
4334 case 0x144f: // conveyor belt switch (red)
4335 element = EL_CONVEYOR_BELT_1_SWITCH_MIDDLE;
4338 case 0x1452: // conveyor belt switch (blue)
4339 element = EL_CONVEYOR_BELT_4_SWITCH_MIDDLE;
4343 element = EL_CONVEYOR_BELT_3_MIDDLE;
4347 element = EL_CONVEYOR_BELT_3_LEFT;
4351 element = EL_CONVEYOR_BELT_3_RIGHT;
4355 element = EL_CONVEYOR_BELT_1_MIDDLE;
4359 element = EL_CONVEYOR_BELT_1_LEFT;
4363 element = EL_CONVEYOR_BELT_1_RIGHT;
4367 element = EL_CONVEYOR_BELT_4_MIDDLE;
4371 element = EL_CONVEYOR_BELT_4_LEFT;
4375 element = EL_CONVEYOR_BELT_4_RIGHT;
4379 element = EL_EXPANDABLE_WALL_HORIZONTAL;
4383 element = EL_EXPANDABLE_WALL_VERTICAL;
4387 element = EL_EXPANDABLE_WALL_ANY;
4390 case 0x14ce: // growing steel wall (left/right)
4391 element = EL_EXPANDABLE_STEELWALL_HORIZONTAL;
4394 case 0x14df: // growing steel wall (up/down)
4395 element = EL_EXPANDABLE_STEELWALL_VERTICAL;
4398 case 0x14e8: // growing steel wall (up/down/left/right)
4399 element = EL_EXPANDABLE_STEELWALL_ANY;
4403 element = EL_SHIELD_DEADLY;
4407 element = EL_EXTRA_TIME;
4415 element = EL_EMPTY_SPACE;
4418 case 0x1578: // quicksand (empty)
4419 element = EL_QUICKSAND_FAST_EMPTY;
4422 case 0x1579: // slow quicksand (empty)
4423 element = EL_QUICKSAND_EMPTY;
4433 element = EL_EM_DYNAMITE;
4436 case 0x15a1: // key (red)
4437 element = EL_EM_KEY_1;
4440 case 0x15a2: // key (yellow)
4441 element = EL_EM_KEY_2;
4444 case 0x15a3: // key (blue)
4445 element = EL_EM_KEY_4;
4448 case 0x15a4: // key (green)
4449 element = EL_EM_KEY_3;
4452 case 0x15a5: // key (white)
4453 element = EL_DC_KEY_WHITE;
4457 element = EL_WALL_SLIPPERY;
4464 case 0x15a8: // wall (not round)
4468 case 0x15a9: // (blue)
4469 element = EL_CHAR_A;
4472 case 0x15aa: // (blue)
4473 element = EL_CHAR_B;
4476 case 0x15ab: // (blue)
4477 element = EL_CHAR_C;
4480 case 0x15ac: // (blue)
4481 element = EL_CHAR_D;
4484 case 0x15ad: // (blue)
4485 element = EL_CHAR_E;
4488 case 0x15ae: // (blue)
4489 element = EL_CHAR_F;
4492 case 0x15af: // (blue)
4493 element = EL_CHAR_G;
4496 case 0x15b0: // (blue)
4497 element = EL_CHAR_H;
4500 case 0x15b1: // (blue)
4501 element = EL_CHAR_I;
4504 case 0x15b2: // (blue)
4505 element = EL_CHAR_J;
4508 case 0x15b3: // (blue)
4509 element = EL_CHAR_K;
4512 case 0x15b4: // (blue)
4513 element = EL_CHAR_L;
4516 case 0x15b5: // (blue)
4517 element = EL_CHAR_M;
4520 case 0x15b6: // (blue)
4521 element = EL_CHAR_N;
4524 case 0x15b7: // (blue)
4525 element = EL_CHAR_O;
4528 case 0x15b8: // (blue)
4529 element = EL_CHAR_P;
4532 case 0x15b9: // (blue)
4533 element = EL_CHAR_Q;
4536 case 0x15ba: // (blue)
4537 element = EL_CHAR_R;
4540 case 0x15bb: // (blue)
4541 element = EL_CHAR_S;
4544 case 0x15bc: // (blue)
4545 element = EL_CHAR_T;
4548 case 0x15bd: // (blue)
4549 element = EL_CHAR_U;
4552 case 0x15be: // (blue)
4553 element = EL_CHAR_V;
4556 case 0x15bf: // (blue)
4557 element = EL_CHAR_W;
4560 case 0x15c0: // (blue)
4561 element = EL_CHAR_X;
4564 case 0x15c1: // (blue)
4565 element = EL_CHAR_Y;
4568 case 0x15c2: // (blue)
4569 element = EL_CHAR_Z;
4572 case 0x15c3: // (blue)
4573 element = EL_CHAR_AUMLAUT;
4576 case 0x15c4: // (blue)
4577 element = EL_CHAR_OUMLAUT;
4580 case 0x15c5: // (blue)
4581 element = EL_CHAR_UUMLAUT;
4584 case 0x15c6: // (blue)
4585 element = EL_CHAR_0;
4588 case 0x15c7: // (blue)
4589 element = EL_CHAR_1;
4592 case 0x15c8: // (blue)
4593 element = EL_CHAR_2;
4596 case 0x15c9: // (blue)
4597 element = EL_CHAR_3;
4600 case 0x15ca: // (blue)
4601 element = EL_CHAR_4;
4604 case 0x15cb: // (blue)
4605 element = EL_CHAR_5;
4608 case 0x15cc: // (blue)
4609 element = EL_CHAR_6;
4612 case 0x15cd: // (blue)
4613 element = EL_CHAR_7;
4616 case 0x15ce: // (blue)
4617 element = EL_CHAR_8;
4620 case 0x15cf: // (blue)
4621 element = EL_CHAR_9;
4624 case 0x15d0: // (blue)
4625 element = EL_CHAR_PERIOD;
4628 case 0x15d1: // (blue)
4629 element = EL_CHAR_EXCLAM;
4632 case 0x15d2: // (blue)
4633 element = EL_CHAR_COLON;
4636 case 0x15d3: // (blue)
4637 element = EL_CHAR_LESS;
4640 case 0x15d4: // (blue)
4641 element = EL_CHAR_GREATER;
4644 case 0x15d5: // (blue)
4645 element = EL_CHAR_QUESTION;
4648 case 0x15d6: // (blue)
4649 element = EL_CHAR_COPYRIGHT;
4652 case 0x15d7: // (blue)
4653 element = EL_CHAR_UP;
4656 case 0x15d8: // (blue)
4657 element = EL_CHAR_DOWN;
4660 case 0x15d9: // (blue)
4661 element = EL_CHAR_BUTTON;
4664 case 0x15da: // (blue)
4665 element = EL_CHAR_PLUS;
4668 case 0x15db: // (blue)
4669 element = EL_CHAR_MINUS;
4672 case 0x15dc: // (blue)
4673 element = EL_CHAR_APOSTROPHE;
4676 case 0x15dd: // (blue)
4677 element = EL_CHAR_PARENLEFT;
4680 case 0x15de: // (blue)
4681 element = EL_CHAR_PARENRIGHT;
4684 case 0x15df: // (green)
4685 element = EL_CHAR_A;
4688 case 0x15e0: // (green)
4689 element = EL_CHAR_B;
4692 case 0x15e1: // (green)
4693 element = EL_CHAR_C;
4696 case 0x15e2: // (green)
4697 element = EL_CHAR_D;
4700 case 0x15e3: // (green)
4701 element = EL_CHAR_E;
4704 case 0x15e4: // (green)
4705 element = EL_CHAR_F;
4708 case 0x15e5: // (green)
4709 element = EL_CHAR_G;
4712 case 0x15e6: // (green)
4713 element = EL_CHAR_H;
4716 case 0x15e7: // (green)
4717 element = EL_CHAR_I;
4720 case 0x15e8: // (green)
4721 element = EL_CHAR_J;
4724 case 0x15e9: // (green)
4725 element = EL_CHAR_K;
4728 case 0x15ea: // (green)
4729 element = EL_CHAR_L;
4732 case 0x15eb: // (green)
4733 element = EL_CHAR_M;
4736 case 0x15ec: // (green)
4737 element = EL_CHAR_N;
4740 case 0x15ed: // (green)
4741 element = EL_CHAR_O;
4744 case 0x15ee: // (green)
4745 element = EL_CHAR_P;
4748 case 0x15ef: // (green)
4749 element = EL_CHAR_Q;
4752 case 0x15f0: // (green)
4753 element = EL_CHAR_R;
4756 case 0x15f1: // (green)
4757 element = EL_CHAR_S;
4760 case 0x15f2: // (green)
4761 element = EL_CHAR_T;
4764 case 0x15f3: // (green)
4765 element = EL_CHAR_U;
4768 case 0x15f4: // (green)
4769 element = EL_CHAR_V;
4772 case 0x15f5: // (green)
4773 element = EL_CHAR_W;
4776 case 0x15f6: // (green)
4777 element = EL_CHAR_X;
4780 case 0x15f7: // (green)
4781 element = EL_CHAR_Y;
4784 case 0x15f8: // (green)
4785 element = EL_CHAR_Z;
4788 case 0x15f9: // (green)
4789 element = EL_CHAR_AUMLAUT;
4792 case 0x15fa: // (green)
4793 element = EL_CHAR_OUMLAUT;
4796 case 0x15fb: // (green)
4797 element = EL_CHAR_UUMLAUT;
4800 case 0x15fc: // (green)
4801 element = EL_CHAR_0;
4804 case 0x15fd: // (green)
4805 element = EL_CHAR_1;
4808 case 0x15fe: // (green)
4809 element = EL_CHAR_2;
4812 case 0x15ff: // (green)
4813 element = EL_CHAR_3;
4816 case 0x1600: // (green)
4817 element = EL_CHAR_4;
4820 case 0x1601: // (green)
4821 element = EL_CHAR_5;
4824 case 0x1602: // (green)
4825 element = EL_CHAR_6;
4828 case 0x1603: // (green)
4829 element = EL_CHAR_7;
4832 case 0x1604: // (green)
4833 element = EL_CHAR_8;
4836 case 0x1605: // (green)
4837 element = EL_CHAR_9;
4840 case 0x1606: // (green)
4841 element = EL_CHAR_PERIOD;
4844 case 0x1607: // (green)
4845 element = EL_CHAR_EXCLAM;
4848 case 0x1608: // (green)
4849 element = EL_CHAR_COLON;
4852 case 0x1609: // (green)
4853 element = EL_CHAR_LESS;
4856 case 0x160a: // (green)
4857 element = EL_CHAR_GREATER;
4860 case 0x160b: // (green)
4861 element = EL_CHAR_QUESTION;
4864 case 0x160c: // (green)
4865 element = EL_CHAR_COPYRIGHT;
4868 case 0x160d: // (green)
4869 element = EL_CHAR_UP;
4872 case 0x160e: // (green)
4873 element = EL_CHAR_DOWN;
4876 case 0x160f: // (green)
4877 element = EL_CHAR_BUTTON;
4880 case 0x1610: // (green)
4881 element = EL_CHAR_PLUS;
4884 case 0x1611: // (green)
4885 element = EL_CHAR_MINUS;
4888 case 0x1612: // (green)
4889 element = EL_CHAR_APOSTROPHE;
4892 case 0x1613: // (green)
4893 element = EL_CHAR_PARENLEFT;
4896 case 0x1614: // (green)
4897 element = EL_CHAR_PARENRIGHT;
4900 case 0x1615: // (blue steel)
4901 element = EL_STEEL_CHAR_A;
4904 case 0x1616: // (blue steel)
4905 element = EL_STEEL_CHAR_B;
4908 case 0x1617: // (blue steel)
4909 element = EL_STEEL_CHAR_C;
4912 case 0x1618: // (blue steel)
4913 element = EL_STEEL_CHAR_D;
4916 case 0x1619: // (blue steel)
4917 element = EL_STEEL_CHAR_E;
4920 case 0x161a: // (blue steel)
4921 element = EL_STEEL_CHAR_F;
4924 case 0x161b: // (blue steel)
4925 element = EL_STEEL_CHAR_G;
4928 case 0x161c: // (blue steel)
4929 element = EL_STEEL_CHAR_H;
4932 case 0x161d: // (blue steel)
4933 element = EL_STEEL_CHAR_I;
4936 case 0x161e: // (blue steel)
4937 element = EL_STEEL_CHAR_J;
4940 case 0x161f: // (blue steel)
4941 element = EL_STEEL_CHAR_K;
4944 case 0x1620: // (blue steel)
4945 element = EL_STEEL_CHAR_L;
4948 case 0x1621: // (blue steel)
4949 element = EL_STEEL_CHAR_M;
4952 case 0x1622: // (blue steel)
4953 element = EL_STEEL_CHAR_N;
4956 case 0x1623: // (blue steel)
4957 element = EL_STEEL_CHAR_O;
4960 case 0x1624: // (blue steel)
4961 element = EL_STEEL_CHAR_P;
4964 case 0x1625: // (blue steel)
4965 element = EL_STEEL_CHAR_Q;
4968 case 0x1626: // (blue steel)
4969 element = EL_STEEL_CHAR_R;
4972 case 0x1627: // (blue steel)
4973 element = EL_STEEL_CHAR_S;
4976 case 0x1628: // (blue steel)
4977 element = EL_STEEL_CHAR_T;
4980 case 0x1629: // (blue steel)
4981 element = EL_STEEL_CHAR_U;
4984 case 0x162a: // (blue steel)
4985 element = EL_STEEL_CHAR_V;
4988 case 0x162b: // (blue steel)
4989 element = EL_STEEL_CHAR_W;
4992 case 0x162c: // (blue steel)
4993 element = EL_STEEL_CHAR_X;
4996 case 0x162d: // (blue steel)
4997 element = EL_STEEL_CHAR_Y;
5000 case 0x162e: // (blue steel)
5001 element = EL_STEEL_CHAR_Z;
5004 case 0x162f: // (blue steel)
5005 element = EL_STEEL_CHAR_AUMLAUT;
5008 case 0x1630: // (blue steel)
5009 element = EL_STEEL_CHAR_OUMLAUT;
5012 case 0x1631: // (blue steel)
5013 element = EL_STEEL_CHAR_UUMLAUT;
5016 case 0x1632: // (blue steel)
5017 element = EL_STEEL_CHAR_0;
5020 case 0x1633: // (blue steel)
5021 element = EL_STEEL_CHAR_1;
5024 case 0x1634: // (blue steel)
5025 element = EL_STEEL_CHAR_2;
5028 case 0x1635: // (blue steel)
5029 element = EL_STEEL_CHAR_3;
5032 case 0x1636: // (blue steel)
5033 element = EL_STEEL_CHAR_4;
5036 case 0x1637: // (blue steel)
5037 element = EL_STEEL_CHAR_5;
5040 case 0x1638: // (blue steel)
5041 element = EL_STEEL_CHAR_6;
5044 case 0x1639: // (blue steel)
5045 element = EL_STEEL_CHAR_7;
5048 case 0x163a: // (blue steel)
5049 element = EL_STEEL_CHAR_8;
5052 case 0x163b: // (blue steel)
5053 element = EL_STEEL_CHAR_9;
5056 case 0x163c: // (blue steel)
5057 element = EL_STEEL_CHAR_PERIOD;
5060 case 0x163d: // (blue steel)
5061 element = EL_STEEL_CHAR_EXCLAM;
5064 case 0x163e: // (blue steel)
5065 element = EL_STEEL_CHAR_COLON;
5068 case 0x163f: // (blue steel)
5069 element = EL_STEEL_CHAR_LESS;
5072 case 0x1640: // (blue steel)
5073 element = EL_STEEL_CHAR_GREATER;
5076 case 0x1641: // (blue steel)
5077 element = EL_STEEL_CHAR_QUESTION;
5080 case 0x1642: // (blue steel)
5081 element = EL_STEEL_CHAR_COPYRIGHT;
5084 case 0x1643: // (blue steel)
5085 element = EL_STEEL_CHAR_UP;
5088 case 0x1644: // (blue steel)
5089 element = EL_STEEL_CHAR_DOWN;
5092 case 0x1645: // (blue steel)
5093 element = EL_STEEL_CHAR_BUTTON;
5096 case 0x1646: // (blue steel)
5097 element = EL_STEEL_CHAR_PLUS;
5100 case 0x1647: // (blue steel)
5101 element = EL_STEEL_CHAR_MINUS;
5104 case 0x1648: // (blue steel)
5105 element = EL_STEEL_CHAR_APOSTROPHE;
5108 case 0x1649: // (blue steel)
5109 element = EL_STEEL_CHAR_PARENLEFT;
5112 case 0x164a: // (blue steel)
5113 element = EL_STEEL_CHAR_PARENRIGHT;
5116 case 0x164b: // (green steel)
5117 element = EL_STEEL_CHAR_A;
5120 case 0x164c: // (green steel)
5121 element = EL_STEEL_CHAR_B;
5124 case 0x164d: // (green steel)
5125 element = EL_STEEL_CHAR_C;
5128 case 0x164e: // (green steel)
5129 element = EL_STEEL_CHAR_D;
5132 case 0x164f: // (green steel)
5133 element = EL_STEEL_CHAR_E;
5136 case 0x1650: // (green steel)
5137 element = EL_STEEL_CHAR_F;
5140 case 0x1651: // (green steel)
5141 element = EL_STEEL_CHAR_G;
5144 case 0x1652: // (green steel)
5145 element = EL_STEEL_CHAR_H;
5148 case 0x1653: // (green steel)
5149 element = EL_STEEL_CHAR_I;
5152 case 0x1654: // (green steel)
5153 element = EL_STEEL_CHAR_J;
5156 case 0x1655: // (green steel)
5157 element = EL_STEEL_CHAR_K;
5160 case 0x1656: // (green steel)
5161 element = EL_STEEL_CHAR_L;
5164 case 0x1657: // (green steel)
5165 element = EL_STEEL_CHAR_M;
5168 case 0x1658: // (green steel)
5169 element = EL_STEEL_CHAR_N;
5172 case 0x1659: // (green steel)
5173 element = EL_STEEL_CHAR_O;
5176 case 0x165a: // (green steel)
5177 element = EL_STEEL_CHAR_P;
5180 case 0x165b: // (green steel)
5181 element = EL_STEEL_CHAR_Q;
5184 case 0x165c: // (green steel)
5185 element = EL_STEEL_CHAR_R;
5188 case 0x165d: // (green steel)
5189 element = EL_STEEL_CHAR_S;
5192 case 0x165e: // (green steel)
5193 element = EL_STEEL_CHAR_T;
5196 case 0x165f: // (green steel)
5197 element = EL_STEEL_CHAR_U;
5200 case 0x1660: // (green steel)
5201 element = EL_STEEL_CHAR_V;
5204 case 0x1661: // (green steel)
5205 element = EL_STEEL_CHAR_W;
5208 case 0x1662: // (green steel)
5209 element = EL_STEEL_CHAR_X;
5212 case 0x1663: // (green steel)
5213 element = EL_STEEL_CHAR_Y;
5216 case 0x1664: // (green steel)
5217 element = EL_STEEL_CHAR_Z;
5220 case 0x1665: // (green steel)
5221 element = EL_STEEL_CHAR_AUMLAUT;
5224 case 0x1666: // (green steel)
5225 element = EL_STEEL_CHAR_OUMLAUT;
5228 case 0x1667: // (green steel)
5229 element = EL_STEEL_CHAR_UUMLAUT;
5232 case 0x1668: // (green steel)
5233 element = EL_STEEL_CHAR_0;
5236 case 0x1669: // (green steel)
5237 element = EL_STEEL_CHAR_1;
5240 case 0x166a: // (green steel)
5241 element = EL_STEEL_CHAR_2;
5244 case 0x166b: // (green steel)
5245 element = EL_STEEL_CHAR_3;
5248 case 0x166c: // (green steel)
5249 element = EL_STEEL_CHAR_4;
5252 case 0x166d: // (green steel)
5253 element = EL_STEEL_CHAR_5;
5256 case 0x166e: // (green steel)
5257 element = EL_STEEL_CHAR_6;
5260 case 0x166f: // (green steel)
5261 element = EL_STEEL_CHAR_7;
5264 case 0x1670: // (green steel)
5265 element = EL_STEEL_CHAR_8;
5268 case 0x1671: // (green steel)
5269 element = EL_STEEL_CHAR_9;
5272 case 0x1672: // (green steel)
5273 element = EL_STEEL_CHAR_PERIOD;
5276 case 0x1673: // (green steel)
5277 element = EL_STEEL_CHAR_EXCLAM;
5280 case 0x1674: // (green steel)
5281 element = EL_STEEL_CHAR_COLON;
5284 case 0x1675: // (green steel)
5285 element = EL_STEEL_CHAR_LESS;
5288 case 0x1676: // (green steel)
5289 element = EL_STEEL_CHAR_GREATER;
5292 case 0x1677: // (green steel)
5293 element = EL_STEEL_CHAR_QUESTION;
5296 case 0x1678: // (green steel)
5297 element = EL_STEEL_CHAR_COPYRIGHT;
5300 case 0x1679: // (green steel)
5301 element = EL_STEEL_CHAR_UP;
5304 case 0x167a: // (green steel)
5305 element = EL_STEEL_CHAR_DOWN;
5308 case 0x167b: // (green steel)
5309 element = EL_STEEL_CHAR_BUTTON;
5312 case 0x167c: // (green steel)
5313 element = EL_STEEL_CHAR_PLUS;
5316 case 0x167d: // (green steel)
5317 element = EL_STEEL_CHAR_MINUS;
5320 case 0x167e: // (green steel)
5321 element = EL_STEEL_CHAR_APOSTROPHE;
5324 case 0x167f: // (green steel)
5325 element = EL_STEEL_CHAR_PARENLEFT;
5328 case 0x1680: // (green steel)
5329 element = EL_STEEL_CHAR_PARENRIGHT;
5332 case 0x1681: // gate (red)
5333 element = EL_EM_GATE_1;
5336 case 0x1682: // secret gate (red)
5337 element = EL_EM_GATE_1_GRAY;
5340 case 0x1683: // gate (yellow)
5341 element = EL_EM_GATE_2;
5344 case 0x1684: // secret gate (yellow)
5345 element = EL_EM_GATE_2_GRAY;
5348 case 0x1685: // gate (blue)
5349 element = EL_EM_GATE_4;
5352 case 0x1686: // secret gate (blue)
5353 element = EL_EM_GATE_4_GRAY;
5356 case 0x1687: // gate (green)
5357 element = EL_EM_GATE_3;
5360 case 0x1688: // secret gate (green)
5361 element = EL_EM_GATE_3_GRAY;
5364 case 0x1689: // gate (white)
5365 element = EL_DC_GATE_WHITE;
5368 case 0x168a: // secret gate (white)
5369 element = EL_DC_GATE_WHITE_GRAY;
5372 case 0x168b: // secret gate (no key)
5373 element = EL_DC_GATE_FAKE_GRAY;
5377 element = EL_ROBOT_WHEEL;
5381 element = EL_DC_TIMEGATE_SWITCH;
5385 element = EL_ACID_POOL_BOTTOM;
5389 element = EL_ACID_POOL_TOPLEFT;
5393 element = EL_ACID_POOL_TOPRIGHT;
5397 element = EL_ACID_POOL_BOTTOMLEFT;
5401 element = EL_ACID_POOL_BOTTOMRIGHT;
5405 element = EL_STEELWALL;
5409 element = EL_STEELWALL_SLIPPERY;
5412 case 0x1695: // steel wall (not round)
5413 element = EL_STEELWALL;
5416 case 0x1696: // steel wall (left)
5417 element = EL_DC_STEELWALL_1_LEFT;
5420 case 0x1697: // steel wall (bottom)
5421 element = EL_DC_STEELWALL_1_BOTTOM;
5424 case 0x1698: // steel wall (right)
5425 element = EL_DC_STEELWALL_1_RIGHT;
5428 case 0x1699: // steel wall (top)
5429 element = EL_DC_STEELWALL_1_TOP;
5432 case 0x169a: // steel wall (left/bottom)
5433 element = EL_DC_STEELWALL_1_BOTTOMLEFT;
5436 case 0x169b: // steel wall (right/bottom)
5437 element = EL_DC_STEELWALL_1_BOTTOMRIGHT;
5440 case 0x169c: // steel wall (right/top)
5441 element = EL_DC_STEELWALL_1_TOPRIGHT;
5444 case 0x169d: // steel wall (left/top)
5445 element = EL_DC_STEELWALL_1_TOPLEFT;
5448 case 0x169e: // steel wall (right/bottom small)
5449 element = EL_DC_STEELWALL_1_BOTTOMRIGHT_2;
5452 case 0x169f: // steel wall (left/bottom small)
5453 element = EL_DC_STEELWALL_1_BOTTOMLEFT_2;
5456 case 0x16a0: // steel wall (right/top small)
5457 element = EL_DC_STEELWALL_1_TOPRIGHT_2;
5460 case 0x16a1: // steel wall (left/top small)
5461 element = EL_DC_STEELWALL_1_TOPLEFT_2;
5464 case 0x16a2: // steel wall (left/right)
5465 element = EL_DC_STEELWALL_1_VERTICAL;
5468 case 0x16a3: // steel wall (top/bottom)
5469 element = EL_DC_STEELWALL_1_HORIZONTAL;
5472 case 0x16a4: // steel wall 2 (left end)
5473 element = EL_DC_STEELWALL_2_LEFT;
5476 case 0x16a5: // steel wall 2 (right end)
5477 element = EL_DC_STEELWALL_2_RIGHT;
5480 case 0x16a6: // steel wall 2 (top end)
5481 element = EL_DC_STEELWALL_2_TOP;
5484 case 0x16a7: // steel wall 2 (bottom end)
5485 element = EL_DC_STEELWALL_2_BOTTOM;
5488 case 0x16a8: // steel wall 2 (left/right)
5489 element = EL_DC_STEELWALL_2_HORIZONTAL;
5492 case 0x16a9: // steel wall 2 (up/down)
5493 element = EL_DC_STEELWALL_2_VERTICAL;
5496 case 0x16aa: // steel wall 2 (mid)
5497 element = EL_DC_STEELWALL_2_MIDDLE;
5501 element = EL_SIGN_EXCLAMATION;
5505 element = EL_SIGN_RADIOACTIVITY;
5509 element = EL_SIGN_STOP;
5513 element = EL_SIGN_WHEELCHAIR;
5517 element = EL_SIGN_PARKING;
5521 element = EL_SIGN_NO_ENTRY;
5525 element = EL_SIGN_HEART;
5529 element = EL_SIGN_GIVE_WAY;
5533 element = EL_SIGN_ENTRY_FORBIDDEN;
5537 element = EL_SIGN_EMERGENCY_EXIT;
5541 element = EL_SIGN_YIN_YANG;
5545 element = EL_WALL_EMERALD;
5549 element = EL_WALL_DIAMOND;
5553 element = EL_WALL_PEARL;
5557 element = EL_WALL_CRYSTAL;
5561 element = EL_INVISIBLE_WALL;
5565 element = EL_INVISIBLE_STEELWALL;
5569 // EL_INVISIBLE_SAND
5572 element = EL_LIGHT_SWITCH;
5576 element = EL_ENVELOPE_1;
5580 if (element >= 0x0117 && element <= 0x036e) // (?)
5581 element = EL_DIAMOND;
5582 else if (element >= 0x042d && element <= 0x0684) // (?)
5583 element = EL_EMERALD;
5584 else if (element >= 0x157c && element <= 0x158b)
5586 else if (element >= 0x1590 && element <= 0x159f)
5587 element = EL_DC_LANDMINE;
5588 else if (element >= 0x16bc && element <= 0x16cb)
5589 element = EL_INVISIBLE_SAND;
5592 Warn("unknown Diamond Caves element 0x%04x", element);
5594 element = EL_UNKNOWN;
5599 return getMappedElement(element);
5602 static void LoadLevelFromFileStream_DC(File *file, struct LevelInfo *level,
5605 byte header[DC_LEVEL_HEADER_SIZE];
5607 int envelope_header_pos = 62;
5608 int envelope_content_pos = 94;
5609 int level_name_pos = 251;
5610 int level_author_pos = 292;
5611 int envelope_header_len;
5612 int envelope_content_len;
5614 int level_author_len;
5616 int num_yamyam_contents;
5619 getDecodedWord_DC(0, TRUE); // initialize DC2 decoding engine
5621 for (i = 0; i < DC_LEVEL_HEADER_SIZE / 2; i++)
5623 unsigned short header_word = getDecodedWord_DC(getFile16BitBE(file), FALSE);
5625 header[i * 2 + 0] = header_word >> 8;
5626 header[i * 2 + 1] = header_word & 0xff;
5629 // read some values from level header to check level decoding integrity
5630 fieldx = header[6] | (header[7] << 8);
5631 fieldy = header[8] | (header[9] << 8);
5632 num_yamyam_contents = header[60] | (header[61] << 8);
5634 // do some simple sanity checks to ensure that level was correctly decoded
5635 if (fieldx < 1 || fieldx > 256 ||
5636 fieldy < 1 || fieldy > 256 ||
5637 num_yamyam_contents < 1 || num_yamyam_contents > 8)
5639 level->no_valid_file = TRUE;
5641 Warn("cannot decode level from stream -- using empty level");
5646 // maximum envelope header size is 31 bytes
5647 envelope_header_len = header[envelope_header_pos];
5648 // maximum envelope content size is 110 (156?) bytes
5649 envelope_content_len = header[envelope_content_pos];
5651 // maximum level title size is 40 bytes
5652 level_name_len = MIN(header[level_name_pos], MAX_LEVEL_NAME_LEN);
5653 // maximum level author size is 30 (51?) bytes
5654 level_author_len = MIN(header[level_author_pos], MAX_LEVEL_AUTHOR_LEN);
5658 for (i = 0; i < envelope_header_len; i++)
5659 if (envelope_size < MAX_ENVELOPE_TEXT_LEN)
5660 level->envelope[0].text[envelope_size++] =
5661 header[envelope_header_pos + 1 + i];
5663 if (envelope_header_len > 0 && envelope_content_len > 0)
5665 if (envelope_size < MAX_ENVELOPE_TEXT_LEN)
5666 level->envelope[0].text[envelope_size++] = '\n';
5667 if (envelope_size < MAX_ENVELOPE_TEXT_LEN)
5668 level->envelope[0].text[envelope_size++] = '\n';
5671 for (i = 0; i < envelope_content_len; i++)
5672 if (envelope_size < MAX_ENVELOPE_TEXT_LEN)
5673 level->envelope[0].text[envelope_size++] =
5674 header[envelope_content_pos + 1 + i];
5676 level->envelope[0].text[envelope_size] = '\0';
5678 level->envelope[0].xsize = MAX_ENVELOPE_XSIZE;
5679 level->envelope[0].ysize = 10;
5680 level->envelope[0].autowrap = TRUE;
5681 level->envelope[0].centered = TRUE;
5683 for (i = 0; i < level_name_len; i++)
5684 level->name[i] = header[level_name_pos + 1 + i];
5685 level->name[level_name_len] = '\0';
5687 for (i = 0; i < level_author_len; i++)
5688 level->author[i] = header[level_author_pos + 1 + i];
5689 level->author[level_author_len] = '\0';
5691 num_yamyam_contents = header[60] | (header[61] << 8);
5692 level->num_yamyam_contents =
5693 MIN(MAX(MIN_ELEMENT_CONTENTS, num_yamyam_contents), MAX_ELEMENT_CONTENTS);
5695 for (i = 0; i < num_yamyam_contents; i++)
5697 for (y = 0; y < 3; y++) for (x = 0; x < 3; x++)
5699 unsigned short word = getDecodedWord_DC(getFile16BitBE(file), FALSE);
5700 int element_dc = ((word & 0xff) << 8) | ((word >> 8) & 0xff);
5702 if (i < MAX_ELEMENT_CONTENTS)
5703 level->yamyam_content[i].e[x][y] = getMappedElement_DC(element_dc);
5707 fieldx = header[6] | (header[7] << 8);
5708 fieldy = header[8] | (header[9] << 8);
5709 level->fieldx = MIN(MAX(MIN_LEV_FIELDX, fieldx), MAX_LEV_FIELDX);
5710 level->fieldy = MIN(MAX(MIN_LEV_FIELDY, fieldy), MAX_LEV_FIELDY);
5712 for (y = 0; y < fieldy; y++) for (x = 0; x < fieldx; x++)
5714 unsigned short word = getDecodedWord_DC(getFile16BitBE(file), FALSE);
5715 int element_dc = ((word & 0xff) << 8) | ((word >> 8) & 0xff);
5717 if (x < MAX_LEV_FIELDX && y < MAX_LEV_FIELDY)
5718 level->field[x][y] = getMappedElement_DC(element_dc);
5721 x = MIN(MAX(0, (header[10] | (header[11] << 8)) - 1), MAX_LEV_FIELDX - 1);
5722 y = MIN(MAX(0, (header[12] | (header[13] << 8)) - 1), MAX_LEV_FIELDY - 1);
5723 level->field[x][y] = EL_PLAYER_1;
5725 x = MIN(MAX(0, (header[14] | (header[15] << 8)) - 1), MAX_LEV_FIELDX - 1);
5726 y = MIN(MAX(0, (header[16] | (header[17] << 8)) - 1), MAX_LEV_FIELDY - 1);
5727 level->field[x][y] = EL_PLAYER_2;
5729 level->gems_needed = header[18] | (header[19] << 8);
5731 level->score[SC_EMERALD] = header[20] | (header[21] << 8);
5732 level->score[SC_DIAMOND] = header[22] | (header[23] << 8);
5733 level->score[SC_PEARL] = header[24] | (header[25] << 8);
5734 level->score[SC_CRYSTAL] = header[26] | (header[27] << 8);
5735 level->score[SC_NUT] = header[28] | (header[29] << 8);
5736 level->score[SC_ROBOT] = header[30] | (header[31] << 8);
5737 level->score[SC_SPACESHIP] = header[32] | (header[33] << 8);
5738 level->score[SC_BUG] = header[34] | (header[35] << 8);
5739 level->score[SC_YAMYAM] = header[36] | (header[37] << 8);
5740 level->score[SC_DYNAMITE] = header[38] | (header[39] << 8);
5741 level->score[SC_KEY] = header[40] | (header[41] << 8);
5742 level->score[SC_TIME_BONUS] = header[42] | (header[43] << 8);
5744 level->time = header[44] | (header[45] << 8);
5746 level->amoeba_speed = header[46] | (header[47] << 8);
5747 level->time_light = header[48] | (header[49] << 8);
5748 level->time_timegate = header[50] | (header[51] << 8);
5749 level->time_wheel = header[52] | (header[53] << 8);
5750 level->time_magic_wall = header[54] | (header[55] << 8);
5751 level->extra_time = header[56] | (header[57] << 8);
5752 level->shield_normal_time = header[58] | (header[59] << 8);
5754 // shield and extra time elements do not have a score
5755 level->score[SC_SHIELD] = 0;
5756 level->extra_time_score = 0;
5758 // set time for normal and deadly shields to the same value
5759 level->shield_deadly_time = level->shield_normal_time;
5761 // Diamond Caves has the same (strange) behaviour as Emerald Mine that gems
5762 // can slip down from flat walls, like normal walls and steel walls
5763 level->em_slippery_gems = TRUE;
5765 // time score is counted for each 10 seconds left in Diamond Caves levels
5766 level->time_score_base = 10;
5769 static void LoadLevelFromFileInfo_DC(struct LevelInfo *level,
5770 struct LevelFileInfo *level_file_info,
5771 boolean level_info_only)
5773 char *filename = level_file_info->filename;
5775 int num_magic_bytes = 8;
5776 char magic_bytes[num_magic_bytes + 1];
5777 int num_levels_to_skip = level_file_info->nr - leveldir_current->first_level;
5779 if (!(file = openFile(filename, MODE_READ)))
5781 level->no_valid_file = TRUE;
5783 if (!level_info_only)
5784 Warn("cannot read level '%s' -- using empty level", filename);
5789 // fseek(file, 0x0000, SEEK_SET);
5791 if (level_file_info->packed)
5793 // read "magic bytes" from start of file
5794 if (getStringFromFile(file, magic_bytes, num_magic_bytes + 1) == NULL)
5795 magic_bytes[0] = '\0';
5797 // check "magic bytes" for correct file format
5798 if (!strPrefix(magic_bytes, "DC2"))
5800 level->no_valid_file = TRUE;
5802 Warn("unknown DC level file '%s' -- using empty level", filename);
5807 if (strPrefix(magic_bytes, "DC2Win95") ||
5808 strPrefix(magic_bytes, "DC2Win98"))
5810 int position_first_level = 0x00fa;
5811 int extra_bytes = 4;
5814 // advance file stream to first level inside the level package
5815 skip_bytes = position_first_level - num_magic_bytes - extra_bytes;
5817 // each block of level data is followed by block of non-level data
5818 num_levels_to_skip *= 2;
5820 // at least skip header bytes, therefore use ">= 0" instead of "> 0"
5821 while (num_levels_to_skip >= 0)
5823 // advance file stream to next level inside the level package
5824 if (seekFile(file, skip_bytes, SEEK_CUR) != 0)
5826 level->no_valid_file = TRUE;
5828 Warn("cannot fseek in file '%s' -- using empty level", filename);
5833 // skip apparently unused extra bytes following each level
5834 ReadUnusedBytesFromFile(file, extra_bytes);
5836 // read size of next level in level package
5837 skip_bytes = getFile32BitLE(file);
5839 num_levels_to_skip--;
5844 level->no_valid_file = TRUE;
5846 Warn("unknown DC2 level file '%s' -- using empty level", filename);
5852 LoadLevelFromFileStream_DC(file, level, level_file_info->nr);
5858 // ----------------------------------------------------------------------------
5859 // functions for loading SB level
5860 // ----------------------------------------------------------------------------
5862 int getMappedElement_SB(int element_ascii, boolean use_ces)
5870 sb_element_mapping[] =
5872 { ' ', EL_EMPTY, EL_CUSTOM_1 }, // floor (space)
5873 { '#', EL_STEELWALL, EL_CUSTOM_2 }, // wall
5874 { '@', EL_PLAYER_1, EL_CUSTOM_3 }, // player
5875 { '$', EL_SOKOBAN_OBJECT, EL_CUSTOM_4 }, // box
5876 { '.', EL_SOKOBAN_FIELD_EMPTY, EL_CUSTOM_5 }, // goal square
5877 { '*', EL_SOKOBAN_FIELD_FULL, EL_CUSTOM_6 }, // box on goal square
5878 { '+', EL_SOKOBAN_FIELD_PLAYER, EL_CUSTOM_7 }, // player on goal square
5879 { '_', EL_INVISIBLE_STEELWALL, EL_FROM_LEVEL_TEMPLATE }, // floor beyond border
5886 for (i = 0; sb_element_mapping[i].ascii != 0; i++)
5887 if (element_ascii == sb_element_mapping[i].ascii)
5888 return (use_ces ? sb_element_mapping[i].ce : sb_element_mapping[i].sb);
5890 return EL_UNDEFINED;
5893 static void LoadLevelFromFileInfo_SB(struct LevelInfo *level,
5894 struct LevelFileInfo *level_file_info,
5895 boolean level_info_only)
5897 char *filename = level_file_info->filename;
5898 char line[MAX_LINE_LEN], line_raw[MAX_LINE_LEN], previous_line[MAX_LINE_LEN];
5899 char last_comment[MAX_LINE_LEN];
5900 char level_name[MAX_LINE_LEN];
5903 int num_levels_to_skip = level_file_info->nr - leveldir_current->first_level;
5904 boolean read_continued_line = FALSE;
5905 boolean reading_playfield = FALSE;
5906 boolean got_valid_playfield_line = FALSE;
5907 boolean invalid_playfield_char = FALSE;
5908 boolean load_xsb_to_ces = check_special_flags("load_xsb_to_ces");
5909 int file_level_nr = 0;
5911 int x = 0, y = 0; // initialized to make compilers happy
5913 last_comment[0] = '\0';
5914 level_name[0] = '\0';
5916 if (!(file = openFile(filename, MODE_READ)))
5918 level->no_valid_file = TRUE;
5920 if (!level_info_only)
5921 Warn("cannot read level '%s' -- using empty level", filename);
5926 while (!checkEndOfFile(file))
5928 // level successfully read, but next level may follow here
5929 if (!got_valid_playfield_line && reading_playfield)
5931 // read playfield from single level file -- skip remaining file
5932 if (!level_file_info->packed)
5935 if (file_level_nr >= num_levels_to_skip)
5940 last_comment[0] = '\0';
5941 level_name[0] = '\0';
5943 reading_playfield = FALSE;
5946 got_valid_playfield_line = FALSE;
5948 // read next line of input file
5949 if (!getStringFromFile(file, line, MAX_LINE_LEN))
5952 // check if line was completely read and is terminated by line break
5953 if (strlen(line) > 0 && line[strlen(line) - 1] == '\n')
5956 // cut trailing line break (this can be newline and/or carriage return)
5957 for (line_ptr = &line[strlen(line)]; line_ptr >= line; line_ptr--)
5958 if ((*line_ptr == '\n' || *line_ptr == '\r') && *(line_ptr + 1) == '\0')
5961 // copy raw input line for later use (mainly debugging output)
5962 strcpy(line_raw, line);
5964 if (read_continued_line)
5966 // append new line to existing line, if there is enough space
5967 if (strlen(previous_line) + strlen(line_ptr) < MAX_LINE_LEN)
5968 strcat(previous_line, line_ptr);
5970 strcpy(line, previous_line); // copy storage buffer to line
5972 read_continued_line = FALSE;
5975 // if the last character is '\', continue at next line
5976 if (strlen(line) > 0 && line[strlen(line) - 1] == '\\')
5978 line[strlen(line) - 1] = '\0'; // cut off trailing backslash
5979 strcpy(previous_line, line); // copy line to storage buffer
5981 read_continued_line = TRUE;
5987 if (line[0] == '\0')
5990 // extract comment text from comment line
5993 for (line_ptr = line; *line_ptr; line_ptr++)
5994 if (*line_ptr != ' ' && *line_ptr != '\t' && *line_ptr != ';')
5997 strcpy(last_comment, line_ptr);
6002 // extract level title text from line containing level title
6003 if (line[0] == '\'')
6005 strcpy(level_name, &line[1]);
6007 if (strlen(level_name) > 0 && level_name[strlen(level_name) - 1] == '\'')
6008 level_name[strlen(level_name) - 1] = '\0';
6013 // skip lines containing only spaces (or empty lines)
6014 for (line_ptr = line; *line_ptr; line_ptr++)
6015 if (*line_ptr != ' ')
6017 if (*line_ptr == '\0')
6020 // at this point, we have found a line containing part of a playfield
6022 got_valid_playfield_line = TRUE;
6024 if (!reading_playfield)
6026 reading_playfield = TRUE;
6027 invalid_playfield_char = FALSE;
6029 for (x = 0; x < MAX_LEV_FIELDX; x++)
6030 for (y = 0; y < MAX_LEV_FIELDY; y++)
6031 level->field[x][y] = getMappedElement_SB(' ', load_xsb_to_ces);
6036 // start with topmost tile row
6040 // skip playfield line if larger row than allowed
6041 if (y >= MAX_LEV_FIELDY)
6044 // start with leftmost tile column
6047 // read playfield elements from line
6048 for (line_ptr = line; *line_ptr; line_ptr++)
6050 int mapped_sb_element = getMappedElement_SB(*line_ptr, load_xsb_to_ces);
6052 // stop parsing playfield line if larger column than allowed
6053 if (x >= MAX_LEV_FIELDX)
6056 if (mapped_sb_element == EL_UNDEFINED)
6058 invalid_playfield_char = TRUE;
6063 level->field[x][y] = mapped_sb_element;
6065 // continue with next tile column
6068 level->fieldx = MAX(x, level->fieldx);
6071 if (invalid_playfield_char)
6073 // if first playfield line, treat invalid lines as comment lines
6075 reading_playfield = FALSE;
6080 // continue with next tile row
6088 level->fieldx = MIN(MAX(MIN_LEV_FIELDX, level->fieldx), MAX_LEV_FIELDX);
6089 level->fieldy = MIN(MAX(MIN_LEV_FIELDY, level->fieldy), MAX_LEV_FIELDY);
6091 if (!reading_playfield)
6093 level->no_valid_file = TRUE;
6095 Warn("cannot read level '%s' -- using empty level", filename);
6100 if (*level_name != '\0')
6102 strncpy(level->name, level_name, MAX_LEVEL_NAME_LEN);
6103 level->name[MAX_LEVEL_NAME_LEN] = '\0';
6105 else if (*last_comment != '\0')
6107 strncpy(level->name, last_comment, MAX_LEVEL_NAME_LEN);
6108 level->name[MAX_LEVEL_NAME_LEN] = '\0';
6112 sprintf(level->name, "--> Level %d <--", level_file_info->nr);
6115 // set all empty fields beyond the border walls to invisible steel wall
6116 for (y = 0; y < level->fieldy; y++) for (x = 0; x < level->fieldx; x++)
6118 if ((x == 0 || x == level->fieldx - 1 ||
6119 y == 0 || y == level->fieldy - 1) &&
6120 level->field[x][y] == getMappedElement_SB(' ', load_xsb_to_ces))
6121 FloodFillLevel(x, y, getMappedElement_SB('_', load_xsb_to_ces),
6122 level->field, level->fieldx, level->fieldy);
6125 // set special level settings for Sokoban levels
6128 level->use_step_counter = TRUE;
6130 if (load_xsb_to_ces)
6132 // special global settings can now be set in level template
6134 level->use_custom_template = TRUE;
6139 // -------------------------------------------------------------------------
6140 // functions for handling native levels
6141 // -------------------------------------------------------------------------
6143 static void LoadLevelFromFileInfo_EM(struct LevelInfo *level,
6144 struct LevelFileInfo *level_file_info,
6145 boolean level_info_only)
6147 if (!LoadNativeLevel_EM(level_file_info->filename, level_info_only))
6148 level->no_valid_file = TRUE;
6151 static void LoadLevelFromFileInfo_SP(struct LevelInfo *level,
6152 struct LevelFileInfo *level_file_info,
6153 boolean level_info_only)
6157 // determine position of requested level inside level package
6158 if (level_file_info->packed)
6159 pos = level_file_info->nr - leveldir_current->first_level;
6161 if (!LoadNativeLevel_SP(level_file_info->filename, pos, level_info_only))
6162 level->no_valid_file = TRUE;
6165 static void LoadLevelFromFileInfo_MM(struct LevelInfo *level,
6166 struct LevelFileInfo *level_file_info,
6167 boolean level_info_only)
6169 if (!LoadNativeLevel_MM(level_file_info->filename, level_info_only))
6170 level->no_valid_file = TRUE;
6173 void CopyNativeLevel_RND_to_Native(struct LevelInfo *level)
6175 if (level->game_engine_type == GAME_ENGINE_TYPE_EM)
6176 CopyNativeLevel_RND_to_EM(level);
6177 else if (level->game_engine_type == GAME_ENGINE_TYPE_SP)
6178 CopyNativeLevel_RND_to_SP(level);
6179 else if (level->game_engine_type == GAME_ENGINE_TYPE_MM)
6180 CopyNativeLevel_RND_to_MM(level);
6183 void CopyNativeLevel_Native_to_RND(struct LevelInfo *level)
6185 if (level->game_engine_type == GAME_ENGINE_TYPE_EM)
6186 CopyNativeLevel_EM_to_RND(level);
6187 else if (level->game_engine_type == GAME_ENGINE_TYPE_SP)
6188 CopyNativeLevel_SP_to_RND(level);
6189 else if (level->game_engine_type == GAME_ENGINE_TYPE_MM)
6190 CopyNativeLevel_MM_to_RND(level);
6193 void SaveNativeLevel(struct LevelInfo *level)
6195 if (level->game_engine_type == GAME_ENGINE_TYPE_SP)
6197 char *basename = getSingleLevelBasenameExt(level->file_info.nr, "sp");
6198 char *filename = getLevelFilenameFromBasename(basename);
6200 CopyNativeLevel_RND_to_SP(level);
6201 CopyNativeTape_RND_to_SP(level);
6203 SaveNativeLevel_SP(filename);
6208 // ----------------------------------------------------------------------------
6209 // functions for loading generic level
6210 // ----------------------------------------------------------------------------
6212 static void LoadLevelFromFileInfo(struct LevelInfo *level,
6213 struct LevelFileInfo *level_file_info,
6214 boolean level_info_only)
6216 // always start with reliable default values
6217 setLevelInfoToDefaults(level, level_info_only, TRUE);
6219 switch (level_file_info->type)
6221 case LEVEL_FILE_TYPE_RND:
6222 LoadLevelFromFileInfo_RND(level, level_file_info, level_info_only);
6225 case LEVEL_FILE_TYPE_EM:
6226 LoadLevelFromFileInfo_EM(level, level_file_info, level_info_only);
6227 level->game_engine_type = GAME_ENGINE_TYPE_EM;
6230 case LEVEL_FILE_TYPE_SP:
6231 LoadLevelFromFileInfo_SP(level, level_file_info, level_info_only);
6232 level->game_engine_type = GAME_ENGINE_TYPE_SP;
6235 case LEVEL_FILE_TYPE_MM:
6236 LoadLevelFromFileInfo_MM(level, level_file_info, level_info_only);
6237 level->game_engine_type = GAME_ENGINE_TYPE_MM;
6240 case LEVEL_FILE_TYPE_DC:
6241 LoadLevelFromFileInfo_DC(level, level_file_info, level_info_only);
6244 case LEVEL_FILE_TYPE_SB:
6245 LoadLevelFromFileInfo_SB(level, level_file_info, level_info_only);
6249 LoadLevelFromFileInfo_RND(level, level_file_info, level_info_only);
6253 // if level file is invalid, restore level structure to default values
6254 if (level->no_valid_file)
6255 setLevelInfoToDefaults(level, level_info_only, FALSE);
6257 if (level->game_engine_type == GAME_ENGINE_TYPE_UNKNOWN)
6258 level->game_engine_type = GAME_ENGINE_TYPE_RND;
6260 if (level_file_info->type != LEVEL_FILE_TYPE_RND)
6261 CopyNativeLevel_Native_to_RND(level);
6264 void LoadLevelFromFilename(struct LevelInfo *level, char *filename)
6266 static struct LevelFileInfo level_file_info;
6268 // always start with reliable default values
6269 setFileInfoToDefaults(&level_file_info);
6271 level_file_info.nr = 0; // unknown level number
6272 level_file_info.type = LEVEL_FILE_TYPE_RND; // no others supported yet
6274 setString(&level_file_info.filename, filename);
6276 LoadLevelFromFileInfo(level, &level_file_info, FALSE);
6279 static void LoadLevel_InitVersion(struct LevelInfo *level)
6283 if (leveldir_current == NULL) // only when dumping level
6286 // all engine modifications also valid for levels which use latest engine
6287 if (level->game_version < VERSION_IDENT(3,2,0,5))
6289 // time bonus score was given for 10 s instead of 1 s before 3.2.0-5
6290 level->time_score_base = 10;
6293 if (leveldir_current->latest_engine)
6295 // ---------- use latest game engine --------------------------------------
6297 /* For all levels which are forced to use the latest game engine version
6298 (normally all but user contributed, private and undefined levels), set
6299 the game engine version to the actual version; this allows for actual
6300 corrections in the game engine to take effect for existing, converted
6301 levels (from "classic" or other existing games) to make the emulation
6302 of the corresponding game more accurate, while (hopefully) not breaking
6303 existing levels created from other players. */
6305 level->game_version = GAME_VERSION_ACTUAL;
6307 /* Set special EM style gems behaviour: EM style gems slip down from
6308 normal, steel and growing wall. As this is a more fundamental change,
6309 it seems better to set the default behaviour to "off" (as it is more
6310 natural) and make it configurable in the level editor (as a property
6311 of gem style elements). Already existing converted levels (neither
6312 private nor contributed levels) are changed to the new behaviour. */
6314 if (level->file_version < FILE_VERSION_2_0)
6315 level->em_slippery_gems = TRUE;
6320 // ---------- use game engine the level was created with --------------------
6322 /* For all levels which are not forced to use the latest game engine
6323 version (normally user contributed, private and undefined levels),
6324 use the version of the game engine the levels were created for.
6326 Since 2.0.1, the game engine version is now directly stored
6327 in the level file (chunk "VERS"), so there is no need anymore
6328 to set the game version from the file version (except for old,
6329 pre-2.0 levels, where the game version is still taken from the
6330 file format version used to store the level -- see above). */
6332 // player was faster than enemies in 1.0.0 and before
6333 if (level->file_version == FILE_VERSION_1_0)
6334 for (i = 0; i < MAX_PLAYERS; i++)
6335 level->initial_player_stepsize[i] = STEPSIZE_FAST;
6337 // default behaviour for EM style gems was "slippery" only in 2.0.1
6338 if (level->game_version == VERSION_IDENT(2,0,1,0))
6339 level->em_slippery_gems = TRUE;
6341 // springs could be pushed over pits before (pre-release version) 2.2.0
6342 if (level->game_version < VERSION_IDENT(2,2,0,0))
6343 level->use_spring_bug = TRUE;
6345 if (level->game_version < VERSION_IDENT(3,2,0,5))
6347 // time orb caused limited time in endless time levels before 3.2.0-5
6348 level->use_time_orb_bug = TRUE;
6350 // default behaviour for snapping was "no snap delay" before 3.2.0-5
6351 level->block_snap_field = FALSE;
6353 // extra time score was same value as time left score before 3.2.0-5
6354 level->extra_time_score = level->score[SC_TIME_BONUS];
6357 if (level->game_version < VERSION_IDENT(3,2,0,7))
6359 // default behaviour for snapping was "not continuous" before 3.2.0-7
6360 level->continuous_snapping = FALSE;
6363 // only few elements were able to actively move into acid before 3.1.0
6364 // trigger settings did not exist before 3.1.0; set to default "any"
6365 if (level->game_version < VERSION_IDENT(3,1,0,0))
6367 // correct "can move into acid" settings (all zero in old levels)
6369 level->can_move_into_acid_bits = 0; // nothing can move into acid
6370 level->dont_collide_with_bits = 0; // nothing is deadly when colliding
6372 setMoveIntoAcidProperty(level, EL_ROBOT, TRUE);
6373 setMoveIntoAcidProperty(level, EL_SATELLITE, TRUE);
6374 setMoveIntoAcidProperty(level, EL_PENGUIN, TRUE);
6375 setMoveIntoAcidProperty(level, EL_BALLOON, TRUE);
6377 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6378 SET_PROPERTY(EL_CUSTOM_START + i, EP_CAN_MOVE_INTO_ACID, TRUE);
6380 // correct trigger settings (stored as zero == "none" in old levels)
6382 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6384 int element = EL_CUSTOM_START + i;
6385 struct ElementInfo *ei = &element_info[element];
6387 for (j = 0; j < ei->num_change_pages; j++)
6389 struct ElementChangeInfo *change = &ei->change_page[j];
6391 change->trigger_player = CH_PLAYER_ANY;
6392 change->trigger_page = CH_PAGE_ANY;
6397 // try to detect and fix "Snake Bite" levels, which are broken with 3.2.0
6399 int element = EL_CUSTOM_256;
6400 struct ElementInfo *ei = &element_info[element];
6401 struct ElementChangeInfo *change = &ei->change_page[0];
6403 /* This is needed to fix a problem that was caused by a bugfix in function
6404 game.c/CreateFieldExt() introduced with 3.2.0 that corrects the behaviour
6405 when a custom element changes to EL_SOKOBAN_FIELD_PLAYER (before, it did
6406 not replace walkable elements, but instead just placed the player on it,
6407 without placing the Sokoban field under the player). Unfortunately, this
6408 breaks "Snake Bite" style levels when the snake is halfway through a door
6409 that just closes (the snake head is still alive and can be moved in this
6410 case). This can be fixed by replacing the EL_SOKOBAN_FIELD_PLAYER by the
6411 player (without Sokoban element) which then gets killed as designed). */
6413 if ((strncmp(leveldir_current->identifier, "snake_bite", 10) == 0 ||
6414 strncmp(ei->description, "pause b4 death", 14) == 0) &&
6415 change->target_element == EL_SOKOBAN_FIELD_PLAYER)
6416 change->target_element = EL_PLAYER_1;
6419 // try to detect and fix "Zelda" style levels, which are broken with 3.2.5
6420 if (level->game_version < VERSION_IDENT(3,2,5,0))
6422 /* This is needed to fix a problem that was caused by a bugfix in function
6423 game.c/CheckTriggeredElementChangeExt() introduced with 3.2.5 that
6424 corrects the behaviour when a custom element changes to another custom
6425 element with a higher element number that has change actions defined.
6426 Normally, only one change per frame is allowed for custom elements.
6427 Therefore, it is checked if a custom element already changed in the
6428 current frame; if it did, subsequent changes are suppressed.
6429 Unfortunately, this is only checked for element changes, but not for
6430 change actions, which are still executed. As the function above loops
6431 through all custom elements from lower to higher, an element change
6432 resulting in a lower CE number won't be checked again, while a target
6433 element with a higher number will also be checked, and potential change
6434 actions will get executed for this CE, too (which is wrong), while
6435 further changes are ignored (which is correct). As this bugfix breaks
6436 Zelda II (and introduces graphical bugs to Zelda I, and also breaks a
6437 few other levels like Alan Bond's "FMV"), allow the previous, incorrect
6438 behaviour for existing levels and tapes that make use of this bug */
6440 level->use_action_after_change_bug = TRUE;
6443 // not centering level after relocating player was default only in 3.2.3
6444 if (level->game_version == VERSION_IDENT(3,2,3,0)) // (no pre-releases)
6445 level->shifted_relocation = TRUE;
6447 // EM style elements always chain-exploded in R'n'D engine before 3.2.6
6448 if (level->game_version < VERSION_IDENT(3,2,6,0))
6449 level->em_explodes_by_fire = TRUE;
6451 // levels were solved by the first player entering an exit up to 4.1.0.0
6452 if (level->game_version <= VERSION_IDENT(4,1,0,0))
6453 level->solved_by_one_player = TRUE;
6455 // game logic of "game of life" and "biomaze" was buggy before 4.1.1.1
6456 if (level->game_version < VERSION_IDENT(4,1,1,1))
6457 level->use_life_bugs = TRUE;
6459 // only Sokoban fields (but not objects) had to be solved before 4.1.1.1
6460 if (level->game_version < VERSION_IDENT(4,1,1,1))
6461 level->sb_objects_needed = FALSE;
6463 // CE actions were triggered by unfinished digging/collecting up to 4.2.2.0
6464 if (level->game_version <= VERSION_IDENT(4,2,2,0))
6465 level->finish_dig_collect = FALSE;
6468 static void LoadLevel_InitStandardElements(struct LevelInfo *level)
6472 // map elements that have changed in newer versions
6473 level->amoeba_content = getMappedElementByVersion(level->amoeba_content,
6474 level->game_version);
6475 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
6476 for (x = 0; x < 3; x++)
6477 for (y = 0; y < 3; y++)
6478 level->yamyam_content[i].e[x][y] =
6479 getMappedElementByVersion(level->yamyam_content[i].e[x][y],
6480 level->game_version);
6484 static void LoadLevel_InitCustomElements(struct LevelInfo *level)
6488 // map custom element change events that have changed in newer versions
6489 // (these following values were accidentally changed in version 3.0.1)
6490 // (this seems to be needed only for 'ab_levelset3' and 'ab_levelset4')
6491 if (level->game_version <= VERSION_IDENT(3,0,0,0))
6493 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6495 int element = EL_CUSTOM_START + i;
6497 // order of checking and copying events to be mapped is important
6498 // (do not change the start and end value -- they are constant)
6499 for (j = CE_BY_OTHER_ACTION; j >= CE_VALUE_GETS_ZERO; j--)
6501 if (HAS_CHANGE_EVENT(element, j - 2))
6503 SET_CHANGE_EVENT(element, j - 2, FALSE);
6504 SET_CHANGE_EVENT(element, j, TRUE);
6508 // order of checking and copying events to be mapped is important
6509 // (do not change the start and end value -- they are constant)
6510 for (j = CE_PLAYER_COLLECTS_X; j >= CE_HITTING_SOMETHING; j--)
6512 if (HAS_CHANGE_EVENT(element, j - 1))
6514 SET_CHANGE_EVENT(element, j - 1, FALSE);
6515 SET_CHANGE_EVENT(element, j, TRUE);
6521 // initialize "can_change" field for old levels with only one change page
6522 if (level->game_version <= VERSION_IDENT(3,0,2,0))
6524 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6526 int element = EL_CUSTOM_START + i;
6528 if (CAN_CHANGE(element))
6529 element_info[element].change->can_change = TRUE;
6533 // correct custom element values (for old levels without these options)
6534 if (level->game_version < VERSION_IDENT(3,1,1,0))
6536 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6538 int element = EL_CUSTOM_START + i;
6539 struct ElementInfo *ei = &element_info[element];
6541 if (ei->access_direction == MV_NO_DIRECTION)
6542 ei->access_direction = MV_ALL_DIRECTIONS;
6546 // correct custom element values (fix invalid values for all versions)
6549 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6551 int element = EL_CUSTOM_START + i;
6552 struct ElementInfo *ei = &element_info[element];
6554 for (j = 0; j < ei->num_change_pages; j++)
6556 struct ElementChangeInfo *change = &ei->change_page[j];
6558 if (change->trigger_player == CH_PLAYER_NONE)
6559 change->trigger_player = CH_PLAYER_ANY;
6561 if (change->trigger_side == CH_SIDE_NONE)
6562 change->trigger_side = CH_SIDE_ANY;
6567 // initialize "can_explode" field for old levels which did not store this
6568 // !!! CHECK THIS -- "<= 3,1,0,0" IS PROBABLY WRONG !!!
6569 if (level->game_version <= VERSION_IDENT(3,1,0,0))
6571 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6573 int element = EL_CUSTOM_START + i;
6575 if (EXPLODES_1X1_OLD(element))
6576 element_info[element].explosion_type = EXPLODES_1X1;
6578 SET_PROPERTY(element, EP_CAN_EXPLODE, (EXPLODES_BY_FIRE(element) ||
6579 EXPLODES_SMASHED(element) ||
6580 EXPLODES_IMPACT(element)));
6584 // correct previously hard-coded move delay values for maze runner style
6585 if (level->game_version < VERSION_IDENT(3,1,1,0))
6587 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6589 int element = EL_CUSTOM_START + i;
6591 if (element_info[element].move_pattern & MV_MAZE_RUNNER_STYLE)
6593 // previously hard-coded and therefore ignored
6594 element_info[element].move_delay_fixed = 9;
6595 element_info[element].move_delay_random = 0;
6600 // set some other uninitialized values of custom elements in older levels
6601 if (level->game_version < VERSION_IDENT(3,1,0,0))
6603 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6605 int element = EL_CUSTOM_START + i;
6607 element_info[element].access_direction = MV_ALL_DIRECTIONS;
6609 element_info[element].explosion_delay = 17;
6610 element_info[element].ignition_delay = 8;
6614 // set mouse click change events to work for left/middle/right mouse button
6615 if (level->game_version < VERSION_IDENT(4,2,3,0))
6617 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6619 int element = EL_CUSTOM_START + i;
6620 struct ElementInfo *ei = &element_info[element];
6622 for (j = 0; j < ei->num_change_pages; j++)
6624 struct ElementChangeInfo *change = &ei->change_page[j];
6626 if (change->has_event[CE_CLICKED_BY_MOUSE] ||
6627 change->has_event[CE_PRESSED_BY_MOUSE] ||
6628 change->has_event[CE_MOUSE_CLICKED_ON_X] ||
6629 change->has_event[CE_MOUSE_PRESSED_ON_X])
6630 change->trigger_side = CH_SIDE_ANY;
6636 static void LoadLevel_InitElements(struct LevelInfo *level)
6638 LoadLevel_InitStandardElements(level);
6640 if (level->file_has_custom_elements)
6641 LoadLevel_InitCustomElements(level);
6643 // initialize element properties for level editor etc.
6644 InitElementPropertiesEngine(level->game_version);
6645 InitElementPropertiesGfxElement();
6648 static void LoadLevel_InitPlayfield(struct LevelInfo *level)
6652 // map elements that have changed in newer versions
6653 for (y = 0; y < level->fieldy; y++)
6654 for (x = 0; x < level->fieldx; x++)
6655 level->field[x][y] = getMappedElementByVersion(level->field[x][y],
6656 level->game_version);
6658 // clear unused playfield data (nicer if level gets resized in editor)
6659 for (x = 0; x < MAX_LEV_FIELDX; x++)
6660 for (y = 0; y < MAX_LEV_FIELDY; y++)
6661 if (x >= level->fieldx || y >= level->fieldy)
6662 level->field[x][y] = EL_EMPTY;
6664 // copy elements to runtime playfield array
6665 for (x = 0; x < MAX_LEV_FIELDX; x++)
6666 for (y = 0; y < MAX_LEV_FIELDY; y++)
6667 Tile[x][y] = level->field[x][y];
6669 // initialize level size variables for faster access
6670 lev_fieldx = level->fieldx;
6671 lev_fieldy = level->fieldy;
6673 // determine border element for this level
6674 if (level->file_info.type == LEVEL_FILE_TYPE_DC)
6675 BorderElement = EL_EMPTY; // (in editor, SetBorderElement() is used)
6680 static void LoadLevel_InitNativeEngines(struct LevelInfo *level)
6682 struct LevelFileInfo *level_file_info = &level->file_info;
6684 if (level_file_info->type == LEVEL_FILE_TYPE_RND)
6685 CopyNativeLevel_RND_to_Native(level);
6688 static void LoadLevelTemplate_LoadAndInit(void)
6690 LoadLevelFromFileInfo(&level_template, &level_template.file_info, FALSE);
6692 LoadLevel_InitVersion(&level_template);
6693 LoadLevel_InitElements(&level_template);
6695 ActivateLevelTemplate();
6698 void LoadLevelTemplate(int nr)
6700 if (!fileExists(getGlobalLevelTemplateFilename()))
6702 Warn("no level template found for this level");
6707 setLevelFileInfo(&level_template.file_info, nr);
6709 LoadLevelTemplate_LoadAndInit();
6712 static void LoadNetworkLevelTemplate(struct NetworkLevelInfo *network_level)
6714 copyLevelFileInfo(&network_level->tmpl_info, &level_template.file_info);
6716 LoadLevelTemplate_LoadAndInit();
6719 static void LoadLevel_LoadAndInit(struct NetworkLevelInfo *network_level)
6721 LoadLevelFromFileInfo(&level, &level.file_info, FALSE);
6723 if (level.use_custom_template)
6725 if (network_level != NULL)
6726 LoadNetworkLevelTemplate(network_level);
6728 LoadLevelTemplate(-1);
6731 LoadLevel_InitVersion(&level);
6732 LoadLevel_InitElements(&level);
6733 LoadLevel_InitPlayfield(&level);
6735 LoadLevel_InitNativeEngines(&level);
6738 void LoadLevel(int nr)
6740 SetLevelSetInfo(leveldir_current->identifier, nr);
6742 setLevelFileInfo(&level.file_info, nr);
6744 LoadLevel_LoadAndInit(NULL);
6747 void LoadLevelInfoOnly(int nr)
6749 setLevelFileInfo(&level.file_info, nr);
6751 LoadLevelFromFileInfo(&level, &level.file_info, TRUE);
6754 void LoadNetworkLevel(struct NetworkLevelInfo *network_level)
6756 SetLevelSetInfo(network_level->leveldir_identifier,
6757 network_level->file_info.nr);
6759 copyLevelFileInfo(&network_level->file_info, &level.file_info);
6761 LoadLevel_LoadAndInit(network_level);
6764 static int SaveLevel_VERS(FILE *file, struct LevelInfo *level)
6768 chunk_size += putFileVersion(file, level->file_version);
6769 chunk_size += putFileVersion(file, level->game_version);
6774 static int SaveLevel_DATE(FILE *file, struct LevelInfo *level)
6778 chunk_size += putFile16BitBE(file, level->creation_date.year);
6779 chunk_size += putFile8Bit(file, level->creation_date.month);
6780 chunk_size += putFile8Bit(file, level->creation_date.day);
6785 #if ENABLE_HISTORIC_CHUNKS
6786 static void SaveLevel_HEAD(FILE *file, struct LevelInfo *level)
6790 putFile8Bit(file, level->fieldx);
6791 putFile8Bit(file, level->fieldy);
6793 putFile16BitBE(file, level->time);
6794 putFile16BitBE(file, level->gems_needed);
6796 for (i = 0; i < MAX_LEVEL_NAME_LEN; i++)
6797 putFile8Bit(file, level->name[i]);
6799 for (i = 0; i < LEVEL_SCORE_ELEMENTS; i++)
6800 putFile8Bit(file, level->score[i]);
6802 for (i = 0; i < STD_ELEMENT_CONTENTS; i++)
6803 for (y = 0; y < 3; y++)
6804 for (x = 0; x < 3; x++)
6805 putFile8Bit(file, (level->encoding_16bit_yamyam ? EL_EMPTY :
6806 level->yamyam_content[i].e[x][y]));
6807 putFile8Bit(file, level->amoeba_speed);
6808 putFile8Bit(file, level->time_magic_wall);
6809 putFile8Bit(file, level->time_wheel);
6810 putFile8Bit(file, (level->encoding_16bit_amoeba ? EL_EMPTY :
6811 level->amoeba_content));
6812 putFile8Bit(file, (level->initial_player_stepsize == STEPSIZE_FAST ? 1 : 0));
6813 putFile8Bit(file, (level->initial_gravity ? 1 : 0));
6814 putFile8Bit(file, (level->encoding_16bit_field ? 1 : 0));
6815 putFile8Bit(file, (level->em_slippery_gems ? 1 : 0));
6817 putFile8Bit(file, (level->use_custom_template ? 1 : 0));
6819 putFile8Bit(file, (level->block_last_field ? 1 : 0));
6820 putFile8Bit(file, (level->sp_block_last_field ? 1 : 0));
6821 putFile32BitBE(file, level->can_move_into_acid_bits);
6822 putFile8Bit(file, level->dont_collide_with_bits);
6824 putFile8Bit(file, (level->use_spring_bug ? 1 : 0));
6825 putFile8Bit(file, (level->use_step_counter ? 1 : 0));
6827 putFile8Bit(file, (level->instant_relocation ? 1 : 0));
6828 putFile8Bit(file, (level->can_pass_to_walkable ? 1 : 0));
6829 putFile8Bit(file, (level->grow_into_diggable ? 1 : 0));
6831 putFile8Bit(file, level->game_engine_type);
6833 WriteUnusedBytesToFile(file, LEVEL_CHUNK_HEAD_UNUSED);
6837 static int SaveLevel_NAME(FILE *file, struct LevelInfo *level)
6842 for (i = 0; i < MAX_LEVEL_NAME_LEN; i++)
6843 chunk_size += putFile8Bit(file, level->name[i]);
6848 static int SaveLevel_AUTH(FILE *file, struct LevelInfo *level)
6853 for (i = 0; i < MAX_LEVEL_AUTHOR_LEN; i++)
6854 chunk_size += putFile8Bit(file, level->author[i]);
6859 #if ENABLE_HISTORIC_CHUNKS
6860 static int SaveLevel_BODY(FILE *file, struct LevelInfo *level)
6865 for (y = 0; y < level->fieldy; y++)
6866 for (x = 0; x < level->fieldx; x++)
6867 if (level->encoding_16bit_field)
6868 chunk_size += putFile16BitBE(file, level->field[x][y]);
6870 chunk_size += putFile8Bit(file, level->field[x][y]);
6876 static int SaveLevel_BODY(FILE *file, struct LevelInfo *level)
6881 for (y = 0; y < level->fieldy; y++)
6882 for (x = 0; x < level->fieldx; x++)
6883 chunk_size += putFile16BitBE(file, level->field[x][y]);
6888 #if ENABLE_HISTORIC_CHUNKS
6889 static void SaveLevel_CONT(FILE *file, struct LevelInfo *level)
6893 putFile8Bit(file, EL_YAMYAM);
6894 putFile8Bit(file, level->num_yamyam_contents);
6895 putFile8Bit(file, 0);
6896 putFile8Bit(file, 0);
6898 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
6899 for (y = 0; y < 3; y++)
6900 for (x = 0; x < 3; x++)
6901 if (level->encoding_16bit_field)
6902 putFile16BitBE(file, level->yamyam_content[i].e[x][y]);
6904 putFile8Bit(file, level->yamyam_content[i].e[x][y]);
6908 #if ENABLE_HISTORIC_CHUNKS
6909 static void SaveLevel_CNT2(FILE *file, struct LevelInfo *level, int element)
6912 int num_contents, content_xsize, content_ysize;
6913 int content_array[MAX_ELEMENT_CONTENTS][3][3];
6915 if (element == EL_YAMYAM)
6917 num_contents = level->num_yamyam_contents;
6921 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
6922 for (y = 0; y < 3; y++)
6923 for (x = 0; x < 3; x++)
6924 content_array[i][x][y] = level->yamyam_content[i].e[x][y];
6926 else if (element == EL_BD_AMOEBA)
6932 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
6933 for (y = 0; y < 3; y++)
6934 for (x = 0; x < 3; x++)
6935 content_array[i][x][y] = EL_EMPTY;
6936 content_array[0][0][0] = level->amoeba_content;
6940 // chunk header already written -- write empty chunk data
6941 WriteUnusedBytesToFile(file, LEVEL_CHUNK_CNT2_SIZE);
6943 Warn("cannot save content for element '%d'", element);
6948 putFile16BitBE(file, element);
6949 putFile8Bit(file, num_contents);
6950 putFile8Bit(file, content_xsize);
6951 putFile8Bit(file, content_ysize);
6953 WriteUnusedBytesToFile(file, LEVEL_CHUNK_CNT2_UNUSED);
6955 for (i = 0; i < MAX_ELEMENT_CONTENTS; i++)
6956 for (y = 0; y < 3; y++)
6957 for (x = 0; x < 3; x++)
6958 putFile16BitBE(file, content_array[i][x][y]);
6962 #if ENABLE_HISTORIC_CHUNKS
6963 static int SaveLevel_CNT3(FILE *file, struct LevelInfo *level, int element)
6965 int envelope_nr = element - EL_ENVELOPE_1;
6966 int envelope_len = strlen(level->envelope_text[envelope_nr]) + 1;
6970 chunk_size += putFile16BitBE(file, element);
6971 chunk_size += putFile16BitBE(file, envelope_len);
6972 chunk_size += putFile8Bit(file, level->envelope_xsize[envelope_nr]);
6973 chunk_size += putFile8Bit(file, level->envelope_ysize[envelope_nr]);
6975 WriteUnusedBytesToFile(file, LEVEL_CHUNK_CNT3_UNUSED);
6976 chunk_size += LEVEL_CHUNK_CNT3_UNUSED;
6978 for (i = 0; i < envelope_len; i++)
6979 chunk_size += putFile8Bit(file, level->envelope_text[envelope_nr][i]);
6985 #if ENABLE_HISTORIC_CHUNKS
6986 static void SaveLevel_CUS1(FILE *file, struct LevelInfo *level,
6987 int num_changed_custom_elements)
6991 putFile16BitBE(file, num_changed_custom_elements);
6993 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
6995 int element = EL_CUSTOM_START + i;
6997 struct ElementInfo *ei = &element_info[element];
6999 if (ei->properties[EP_BITFIELD_BASE_NR] != EP_BITMASK_DEFAULT)
7001 if (check < num_changed_custom_elements)
7003 putFile16BitBE(file, element);
7004 putFile32BitBE(file, ei->properties[EP_BITFIELD_BASE_NR]);
7011 if (check != num_changed_custom_elements) // should not happen
7012 Warn("inconsistent number of custom element properties");
7016 #if ENABLE_HISTORIC_CHUNKS
7017 static void SaveLevel_CUS2(FILE *file, struct LevelInfo *level,
7018 int num_changed_custom_elements)
7022 putFile16BitBE(file, num_changed_custom_elements);
7024 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
7026 int element = EL_CUSTOM_START + i;
7028 if (element_info[element].change->target_element != EL_EMPTY_SPACE)
7030 if (check < num_changed_custom_elements)
7032 putFile16BitBE(file, element);
7033 putFile16BitBE(file, element_info[element].change->target_element);
7040 if (check != num_changed_custom_elements) // should not happen
7041 Warn("inconsistent number of custom target elements");
7045 #if ENABLE_HISTORIC_CHUNKS
7046 static void SaveLevel_CUS3(FILE *file, struct LevelInfo *level,
7047 int num_changed_custom_elements)
7049 int i, j, x, y, check = 0;
7051 putFile16BitBE(file, num_changed_custom_elements);
7053 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
7055 int element = EL_CUSTOM_START + i;
7056 struct ElementInfo *ei = &element_info[element];
7058 if (ei->modified_settings)
7060 if (check < num_changed_custom_elements)
7062 putFile16BitBE(file, element);
7064 for (j = 0; j < MAX_ELEMENT_NAME_LEN; j++)
7065 putFile8Bit(file, ei->description[j]);
7067 putFile32BitBE(file, ei->properties[EP_BITFIELD_BASE_NR]);
7069 // some free bytes for future properties and padding
7070 WriteUnusedBytesToFile(file, 7);
7072 putFile8Bit(file, ei->use_gfx_element);
7073 putFile16BitBE(file, ei->gfx_element_initial);
7075 putFile8Bit(file, ei->collect_score_initial);
7076 putFile8Bit(file, ei->collect_count_initial);
7078 putFile16BitBE(file, ei->push_delay_fixed);
7079 putFile16BitBE(file, ei->push_delay_random);
7080 putFile16BitBE(file, ei->move_delay_fixed);
7081 putFile16BitBE(file, ei->move_delay_random);
7083 putFile16BitBE(file, ei->move_pattern);
7084 putFile8Bit(file, ei->move_direction_initial);
7085 putFile8Bit(file, ei->move_stepsize);
7087 for (y = 0; y < 3; y++)
7088 for (x = 0; x < 3; x++)
7089 putFile16BitBE(file, ei->content.e[x][y]);
7091 putFile32BitBE(file, ei->change->events);
7093 putFile16BitBE(file, ei->change->target_element);
7095 putFile16BitBE(file, ei->change->delay_fixed);
7096 putFile16BitBE(file, ei->change->delay_random);
7097 putFile16BitBE(file, ei->change->delay_frames);
7099 putFile16BitBE(file, ei->change->initial_trigger_element);
7101 putFile8Bit(file, ei->change->explode);
7102 putFile8Bit(file, ei->change->use_target_content);
7103 putFile8Bit(file, ei->change->only_if_complete);
7104 putFile8Bit(file, ei->change->use_random_replace);
7106 putFile8Bit(file, ei->change->random_percentage);
7107 putFile8Bit(file, ei->change->replace_when);
7109 for (y = 0; y < 3; y++)
7110 for (x = 0; x < 3; x++)
7111 putFile16BitBE(file, ei->change->content.e[x][y]);
7113 putFile8Bit(file, ei->slippery_type);
7115 // some free bytes for future properties and padding
7116 WriteUnusedBytesToFile(file, LEVEL_CPART_CUS3_UNUSED);
7123 if (check != num_changed_custom_elements) // should not happen
7124 Warn("inconsistent number of custom element properties");
7128 #if ENABLE_HISTORIC_CHUNKS
7129 static void SaveLevel_CUS4(FILE *file, struct LevelInfo *level, int element)
7131 struct ElementInfo *ei = &element_info[element];
7134 // ---------- custom element base property values (96 bytes) ----------------
7136 putFile16BitBE(file, element);
7138 for (i = 0; i < MAX_ELEMENT_NAME_LEN; i++)
7139 putFile8Bit(file, ei->description[i]);
7141 putFile32BitBE(file, ei->properties[EP_BITFIELD_BASE_NR]);
7143 WriteUnusedBytesToFile(file, 4); // reserved for more base properties
7145 putFile8Bit(file, ei->num_change_pages);
7147 putFile16BitBE(file, ei->ce_value_fixed_initial);
7148 putFile16BitBE(file, ei->ce_value_random_initial);
7149 putFile8Bit(file, ei->use_last_ce_value);
7151 putFile8Bit(file, ei->use_gfx_element);
7152 putFile16BitBE(file, ei->gfx_element_initial);
7154 putFile8Bit(file, ei->collect_score_initial);
7155 putFile8Bit(file, ei->collect_count_initial);
7157 putFile8Bit(file, ei->drop_delay_fixed);
7158 putFile8Bit(file, ei->push_delay_fixed);
7159 putFile8Bit(file, ei->drop_delay_random);
7160 putFile8Bit(file, ei->push_delay_random);
7161 putFile16BitBE(file, ei->move_delay_fixed);
7162 putFile16BitBE(file, ei->move_delay_random);
7164 // bits 0 - 15 of "move_pattern" ...
7165 putFile16BitBE(file, ei->move_pattern & 0xffff);
7166 putFile8Bit(file, ei->move_direction_initial);
7167 putFile8Bit(file, ei->move_stepsize);
7169 putFile8Bit(file, ei->slippery_type);
7171 for (y = 0; y < 3; y++)
7172 for (x = 0; x < 3; x++)
7173 putFile16BitBE(file, ei->content.e[x][y]);
7175 putFile16BitBE(file, ei->move_enter_element);
7176 putFile16BitBE(file, ei->move_leave_element);
7177 putFile8Bit(file, ei->move_leave_type);
7179 // ... bits 16 - 31 of "move_pattern" (not nice, but downward compatible)
7180 putFile16BitBE(file, (ei->move_pattern >> 16) & 0xffff);
7182 putFile8Bit(file, ei->access_direction);
7184 putFile8Bit(file, ei->explosion_delay);
7185 putFile8Bit(file, ei->ignition_delay);
7186 putFile8Bit(file, ei->explosion_type);
7188 // some free bytes for future custom property values and padding
7189 WriteUnusedBytesToFile(file, 1);
7191 // ---------- change page property values (48 bytes) ------------------------
7193 for (i = 0; i < ei->num_change_pages; i++)
7195 struct ElementChangeInfo *change = &ei->change_page[i];
7196 unsigned int event_bits;
7198 // bits 0 - 31 of "has_event[]" ...
7200 for (j = 0; j < MIN(NUM_CHANGE_EVENTS, 32); j++)
7201 if (change->has_event[j])
7202 event_bits |= (1 << j);
7203 putFile32BitBE(file, event_bits);
7205 putFile16BitBE(file, change->target_element);
7207 putFile16BitBE(file, change->delay_fixed);
7208 putFile16BitBE(file, change->delay_random);
7209 putFile16BitBE(file, change->delay_frames);
7211 putFile16BitBE(file, change->initial_trigger_element);
7213 putFile8Bit(file, change->explode);
7214 putFile8Bit(file, change->use_target_content);
7215 putFile8Bit(file, change->only_if_complete);
7216 putFile8Bit(file, change->use_random_replace);
7218 putFile8Bit(file, change->random_percentage);
7219 putFile8Bit(file, change->replace_when);
7221 for (y = 0; y < 3; y++)
7222 for (x = 0; x < 3; x++)
7223 putFile16BitBE(file, change->target_content.e[x][y]);
7225 putFile8Bit(file, change->can_change);
7227 putFile8Bit(file, change->trigger_side);
7229 putFile8Bit(file, change->trigger_player);
7230 putFile8Bit(file, (change->trigger_page == CH_PAGE_ANY ? CH_PAGE_ANY_FILE :
7231 log_2(change->trigger_page)));
7233 putFile8Bit(file, change->has_action);
7234 putFile8Bit(file, change->action_type);
7235 putFile8Bit(file, change->action_mode);
7236 putFile16BitBE(file, change->action_arg);
7238 // ... bits 32 - 39 of "has_event[]" (not nice, but downward compatible)
7240 for (j = 32; j < NUM_CHANGE_EVENTS; j++)
7241 if (change->has_event[j])
7242 event_bits |= (1 << (j - 32));
7243 putFile8Bit(file, event_bits);
7248 #if ENABLE_HISTORIC_CHUNKS
7249 static void SaveLevel_GRP1(FILE *file, struct LevelInfo *level, int element)
7251 struct ElementInfo *ei = &element_info[element];
7252 struct ElementGroupInfo *group = ei->group;
7255 putFile16BitBE(file, element);
7257 for (i = 0; i < MAX_ELEMENT_NAME_LEN; i++)
7258 putFile8Bit(file, ei->description[i]);
7260 putFile8Bit(file, group->num_elements);
7262 putFile8Bit(file, ei->use_gfx_element);
7263 putFile16BitBE(file, ei->gfx_element_initial);
7265 putFile8Bit(file, group->choice_mode);
7267 // some free bytes for future values and padding
7268 WriteUnusedBytesToFile(file, 3);
7270 for (i = 0; i < MAX_ELEMENTS_IN_GROUP; i++)
7271 putFile16BitBE(file, group->element[i]);
7275 static int SaveLevel_MicroChunk(FILE *file, struct LevelFileConfigInfo *entry,
7276 boolean write_element)
7278 int save_type = entry->save_type;
7279 int data_type = entry->data_type;
7280 int conf_type = entry->conf_type;
7281 int byte_mask = conf_type & CONF_MASK_BYTES;
7282 int element = entry->element;
7283 int default_value = entry->default_value;
7285 boolean modified = FALSE;
7287 if (byte_mask != CONF_MASK_MULTI_BYTES)
7289 void *value_ptr = entry->value;
7290 int value = (data_type == TYPE_BOOLEAN ? *(boolean *)value_ptr :
7293 // check if any settings have been modified before saving them
7294 if (value != default_value)
7297 // do not save if explicitly told or if unmodified default settings
7298 if ((save_type == SAVE_CONF_NEVER) ||
7299 (save_type == SAVE_CONF_WHEN_CHANGED && !modified))
7303 num_bytes += putFile16BitBE(file, element);
7305 num_bytes += putFile8Bit(file, conf_type);
7306 num_bytes += (byte_mask == CONF_MASK_1_BYTE ? putFile8Bit (file, value) :
7307 byte_mask == CONF_MASK_2_BYTE ? putFile16BitBE(file, value) :
7308 byte_mask == CONF_MASK_4_BYTE ? putFile32BitBE(file, value) :
7311 else if (data_type == TYPE_STRING)
7313 char *default_string = entry->default_string;
7314 char *string = (char *)(entry->value);
7315 int string_length = strlen(string);
7318 // check if any settings have been modified before saving them
7319 if (!strEqual(string, default_string))
7322 // do not save if explicitly told or if unmodified default settings
7323 if ((save_type == SAVE_CONF_NEVER) ||
7324 (save_type == SAVE_CONF_WHEN_CHANGED && !modified))
7328 num_bytes += putFile16BitBE(file, element);
7330 num_bytes += putFile8Bit(file, conf_type);
7331 num_bytes += putFile16BitBE(file, string_length);
7333 for (i = 0; i < string_length; i++)
7334 num_bytes += putFile8Bit(file, string[i]);
7336 else if (data_type == TYPE_ELEMENT_LIST)
7338 int *element_array = (int *)(entry->value);
7339 int num_elements = *(int *)(entry->num_entities);
7342 // check if any settings have been modified before saving them
7343 for (i = 0; i < num_elements; i++)
7344 if (element_array[i] != default_value)
7347 // do not save if explicitly told or if unmodified default settings
7348 if ((save_type == SAVE_CONF_NEVER) ||
7349 (save_type == SAVE_CONF_WHEN_CHANGED && !modified))
7353 num_bytes += putFile16BitBE(file, element);
7355 num_bytes += putFile8Bit(file, conf_type);
7356 num_bytes += putFile16BitBE(file, num_elements * CONF_ELEMENT_NUM_BYTES);
7358 for (i = 0; i < num_elements; i++)
7359 num_bytes += putFile16BitBE(file, element_array[i]);
7361 else if (data_type == TYPE_CONTENT_LIST)
7363 struct Content *content = (struct Content *)(entry->value);
7364 int num_contents = *(int *)(entry->num_entities);
7367 // check if any settings have been modified before saving them
7368 for (i = 0; i < num_contents; i++)
7369 for (y = 0; y < 3; y++)
7370 for (x = 0; x < 3; x++)
7371 if (content[i].e[x][y] != default_value)
7374 // do not save if explicitly told or if unmodified default settings
7375 if ((save_type == SAVE_CONF_NEVER) ||
7376 (save_type == SAVE_CONF_WHEN_CHANGED && !modified))
7380 num_bytes += putFile16BitBE(file, element);
7382 num_bytes += putFile8Bit(file, conf_type);
7383 num_bytes += putFile16BitBE(file, num_contents * CONF_CONTENT_NUM_BYTES);
7385 for (i = 0; i < num_contents; i++)
7386 for (y = 0; y < 3; y++)
7387 for (x = 0; x < 3; x++)
7388 num_bytes += putFile16BitBE(file, content[i].e[x][y]);
7394 static int SaveLevel_INFO(FILE *file, struct LevelInfo *level)
7399 li = *level; // copy level data into temporary buffer
7401 for (i = 0; chunk_config_INFO[i].data_type != -1; i++)
7402 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_INFO[i], FALSE);
7407 static int SaveLevel_ELEM(FILE *file, struct LevelInfo *level)
7412 li = *level; // copy level data into temporary buffer
7414 for (i = 0; chunk_config_ELEM[i].data_type != -1; i++)
7415 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_ELEM[i], TRUE);
7420 static int SaveLevel_NOTE(FILE *file, struct LevelInfo *level, int element)
7422 int envelope_nr = element - EL_ENVELOPE_1;
7426 chunk_size += putFile16BitBE(file, element);
7428 // copy envelope data into temporary buffer
7429 xx_envelope = level->envelope[envelope_nr];
7431 for (i = 0; chunk_config_NOTE[i].data_type != -1; i++)
7432 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_NOTE[i], FALSE);
7437 static int SaveLevel_CUSX(FILE *file, struct LevelInfo *level, int element)
7439 struct ElementInfo *ei = &element_info[element];
7443 chunk_size += putFile16BitBE(file, element);
7445 xx_ei = *ei; // copy element data into temporary buffer
7447 // set default description string for this specific element
7448 strcpy(xx_default_description, getDefaultElementDescription(ei));
7450 for (i = 0; chunk_config_CUSX_base[i].data_type != -1; i++)
7451 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_CUSX_base[i], FALSE);
7453 for (i = 0; i < ei->num_change_pages; i++)
7455 struct ElementChangeInfo *change = &ei->change_page[i];
7457 xx_current_change_page = i;
7459 xx_change = *change; // copy change data into temporary buffer
7462 setEventBitsFromEventFlags(change);
7464 for (j = 0; chunk_config_CUSX_change[j].data_type != -1; j++)
7465 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_CUSX_change[j],
7472 static int SaveLevel_GRPX(FILE *file, struct LevelInfo *level, int element)
7474 struct ElementInfo *ei = &element_info[element];
7475 struct ElementGroupInfo *group = ei->group;
7479 chunk_size += putFile16BitBE(file, element);
7481 xx_ei = *ei; // copy element data into temporary buffer
7482 xx_group = *group; // copy group data into temporary buffer
7484 // set default description string for this specific element
7485 strcpy(xx_default_description, getDefaultElementDescription(ei));
7487 for (i = 0; chunk_config_GRPX[i].data_type != -1; i++)
7488 chunk_size += SaveLevel_MicroChunk(file, &chunk_config_GRPX[i], FALSE);
7493 static void SaveLevelFromFilename(struct LevelInfo *level, char *filename,
7494 boolean save_as_template)
7500 if (!(file = fopen(filename, MODE_WRITE)))
7502 Warn("cannot save level file '%s'", filename);
7507 level->file_version = FILE_VERSION_ACTUAL;
7508 level->game_version = GAME_VERSION_ACTUAL;
7510 level->creation_date = getCurrentDate();
7512 putFileChunkBE(file, "RND1", CHUNK_SIZE_UNDEFINED);
7513 putFileChunkBE(file, "CAVE", CHUNK_SIZE_NONE);
7515 chunk_size = SaveLevel_VERS(NULL, level);
7516 putFileChunkBE(file, "VERS", chunk_size);
7517 SaveLevel_VERS(file, level);
7519 chunk_size = SaveLevel_DATE(NULL, level);
7520 putFileChunkBE(file, "DATE", chunk_size);
7521 SaveLevel_DATE(file, level);
7523 chunk_size = SaveLevel_NAME(NULL, level);
7524 putFileChunkBE(file, "NAME", chunk_size);
7525 SaveLevel_NAME(file, level);
7527 chunk_size = SaveLevel_AUTH(NULL, level);
7528 putFileChunkBE(file, "AUTH", chunk_size);
7529 SaveLevel_AUTH(file, level);
7531 chunk_size = SaveLevel_INFO(NULL, level);
7532 putFileChunkBE(file, "INFO", chunk_size);
7533 SaveLevel_INFO(file, level);
7535 chunk_size = SaveLevel_BODY(NULL, level);
7536 putFileChunkBE(file, "BODY", chunk_size);
7537 SaveLevel_BODY(file, level);
7539 chunk_size = SaveLevel_ELEM(NULL, level);
7540 if (chunk_size > LEVEL_CHUNK_ELEM_UNCHANGED) // save if changed
7542 putFileChunkBE(file, "ELEM", chunk_size);
7543 SaveLevel_ELEM(file, level);
7546 for (i = 0; i < NUM_ENVELOPES; i++)
7548 int element = EL_ENVELOPE_1 + i;
7550 chunk_size = SaveLevel_NOTE(NULL, level, element);
7551 if (chunk_size > LEVEL_CHUNK_NOTE_UNCHANGED) // save if changed
7553 putFileChunkBE(file, "NOTE", chunk_size);
7554 SaveLevel_NOTE(file, level, element);
7558 // if not using template level, check for non-default custom/group elements
7559 if (!level->use_custom_template || save_as_template)
7561 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
7563 int element = EL_CUSTOM_START + i;
7565 chunk_size = SaveLevel_CUSX(NULL, level, element);
7566 if (chunk_size > LEVEL_CHUNK_CUSX_UNCHANGED) // save if changed
7568 putFileChunkBE(file, "CUSX", chunk_size);
7569 SaveLevel_CUSX(file, level, element);
7573 for (i = 0; i < NUM_GROUP_ELEMENTS; i++)
7575 int element = EL_GROUP_START + i;
7577 chunk_size = SaveLevel_GRPX(NULL, level, element);
7578 if (chunk_size > LEVEL_CHUNK_GRPX_UNCHANGED) // save if changed
7580 putFileChunkBE(file, "GRPX", chunk_size);
7581 SaveLevel_GRPX(file, level, element);
7588 SetFilePermissions(filename, PERMS_PRIVATE);
7591 void SaveLevel(int nr)
7593 char *filename = getDefaultLevelFilename(nr);
7595 SaveLevelFromFilename(&level, filename, FALSE);
7598 void SaveLevelTemplate(void)
7600 char *filename = getLocalLevelTemplateFilename();
7602 SaveLevelFromFilename(&level, filename, TRUE);
7605 boolean SaveLevelChecked(int nr)
7607 char *filename = getDefaultLevelFilename(nr);
7608 boolean new_level = !fileExists(filename);
7609 boolean level_saved = FALSE;
7611 if (new_level || Request("Save this level and kill the old?", REQ_ASK))
7616 Request("Level saved!", REQ_CONFIRM);
7624 void DumpLevel(struct LevelInfo *level)
7626 if (level->no_level_file || level->no_valid_file)
7628 Warn("cannot dump -- no valid level file found");
7634 Print("Level xxx (file version %08d, game version %08d)\n",
7635 level->file_version, level->game_version);
7638 Print("Level author: '%s'\n", level->author);
7639 Print("Level title: '%s'\n", level->name);
7641 Print("Playfield size: %d x %d\n", level->fieldx, level->fieldy);
7643 Print("Level time: %d seconds\n", level->time);
7644 Print("Gems needed: %d\n", level->gems_needed);
7646 Print("Time for magic wall: %d seconds\n", level->time_magic_wall);
7647 Print("Time for wheel: %d seconds\n", level->time_wheel);
7648 Print("Time for light: %d seconds\n", level->time_light);
7649 Print("Time for timegate: %d seconds\n", level->time_timegate);
7651 Print("Amoeba speed: %d\n", level->amoeba_speed);
7654 Print("EM style slippery gems: %s\n", (level->em_slippery_gems ? "yes" : "no"));
7655 Print("Player blocks last field: %s\n", (level->block_last_field ? "yes" : "no"));
7656 Print("SP player blocks last field: %s\n", (level->sp_block_last_field ? "yes" : "no"));
7657 Print("use spring bug: %s\n", (level->use_spring_bug ? "yes" : "no"));
7658 Print("use step counter: %s\n", (level->use_step_counter ? "yes" : "no"));
7664 // ============================================================================
7665 // tape file functions
7666 // ============================================================================
7668 static void setTapeInfoToDefaults(void)
7672 // always start with reliable default values (empty tape)
7675 // default values (also for pre-1.2 tapes) with only the first player
7676 tape.player_participates[0] = TRUE;
7677 for (i = 1; i < MAX_PLAYERS; i++)
7678 tape.player_participates[i] = FALSE;
7680 // at least one (default: the first) player participates in every tape
7681 tape.num_participating_players = 1;
7683 tape.property_bits = TAPE_PROPERTY_NONE;
7685 tape.level_nr = level_nr;
7687 tape.changed = FALSE;
7689 tape.recording = FALSE;
7690 tape.playing = FALSE;
7691 tape.pausing = FALSE;
7693 tape.scr_fieldx = SCR_FIELDX_DEFAULT;
7694 tape.scr_fieldy = SCR_FIELDY_DEFAULT;
7696 tape.no_valid_file = FALSE;
7699 static int getTapePosSize(struct TapeInfo *tape)
7701 int tape_pos_size = 0;
7703 if (tape->use_key_actions)
7704 tape_pos_size += tape->num_participating_players;
7706 if (tape->use_mouse_actions)
7707 tape_pos_size += 3; // x and y position and mouse button mask
7709 tape_pos_size += 1; // tape action delay value
7711 return tape_pos_size;
7714 static void setTapeActionFlags(struct TapeInfo *tape, int value)
7716 tape->use_key_actions = FALSE;
7717 tape->use_mouse_actions = FALSE;
7719 if (value != TAPE_USE_MOUSE_ACTIONS_ONLY)
7720 tape->use_key_actions = TRUE;
7722 if (value != TAPE_USE_KEY_ACTIONS_ONLY)
7723 tape->use_mouse_actions = TRUE;
7726 static int getTapeActionValue(struct TapeInfo *tape)
7728 return (tape->use_key_actions &&
7729 tape->use_mouse_actions ? TAPE_USE_KEY_AND_MOUSE_ACTIONS :
7730 tape->use_key_actions ? TAPE_USE_KEY_ACTIONS_ONLY :
7731 tape->use_mouse_actions ? TAPE_USE_MOUSE_ACTIONS_ONLY :
7732 TAPE_ACTIONS_DEFAULT);
7735 static int LoadTape_VERS(File *file, int chunk_size, struct TapeInfo *tape)
7737 tape->file_version = getFileVersion(file);
7738 tape->game_version = getFileVersion(file);
7743 static int LoadTape_HEAD(File *file, int chunk_size, struct TapeInfo *tape)
7747 tape->random_seed = getFile32BitBE(file);
7748 tape->date = getFile32BitBE(file);
7749 tape->length = getFile32BitBE(file);
7751 // read header fields that are new since version 1.2
7752 if (tape->file_version >= FILE_VERSION_1_2)
7754 byte store_participating_players = getFile8Bit(file);
7757 // since version 1.2, tapes store which players participate in the tape
7758 tape->num_participating_players = 0;
7759 for (i = 0; i < MAX_PLAYERS; i++)
7761 tape->player_participates[i] = FALSE;
7763 if (store_participating_players & (1 << i))
7765 tape->player_participates[i] = TRUE;
7766 tape->num_participating_players++;
7770 setTapeActionFlags(tape, getFile8Bit(file));
7772 tape->property_bits = getFile8Bit(file);
7774 ReadUnusedBytesFromFile(file, TAPE_CHUNK_HEAD_UNUSED);
7776 engine_version = getFileVersion(file);
7777 if (engine_version > 0)
7778 tape->engine_version = engine_version;
7780 tape->engine_version = tape->game_version;
7786 static int LoadTape_SCRN(File *file, int chunk_size, struct TapeInfo *tape)
7788 tape->scr_fieldx = getFile8Bit(file);
7789 tape->scr_fieldy = getFile8Bit(file);
7794 static int LoadTape_INFO(File *file, int chunk_size, struct TapeInfo *tape)
7796 char *level_identifier = NULL;
7797 int level_identifier_size;
7800 level_identifier_size = getFile16BitBE(file);
7802 level_identifier = checked_malloc(level_identifier_size);
7804 for (i = 0; i < level_identifier_size; i++)
7805 level_identifier[i] = getFile8Bit(file);
7807 strncpy(tape->level_identifier, level_identifier, MAX_FILENAME_LEN);
7808 tape->level_identifier[MAX_FILENAME_LEN] = '\0';
7810 checked_free(level_identifier);
7812 tape->level_nr = getFile16BitBE(file);
7814 chunk_size = 2 + level_identifier_size + 2;
7819 static int LoadTape_BODY(File *file, int chunk_size, struct TapeInfo *tape)
7822 int tape_pos_size = getTapePosSize(tape);
7823 int chunk_size_expected = tape_pos_size * tape->length;
7825 if (chunk_size_expected != chunk_size)
7827 ReadUnusedBytesFromFile(file, chunk_size);
7828 return chunk_size_expected;
7831 for (i = 0; i < tape->length; i++)
7833 if (i >= MAX_TAPE_LEN)
7835 Warn("tape truncated -- size exceeds maximum tape size %d",
7838 // tape too large; read and ignore remaining tape data from this chunk
7839 for (;i < tape->length; i++)
7840 ReadUnusedBytesFromFile(file, tape_pos_size);
7845 if (tape->use_key_actions)
7847 for (j = 0; j < MAX_PLAYERS; j++)
7849 tape->pos[i].action[j] = MV_NONE;
7851 if (tape->player_participates[j])
7852 tape->pos[i].action[j] = getFile8Bit(file);
7856 if (tape->use_mouse_actions)
7858 tape->pos[i].action[TAPE_ACTION_LX] = getFile8Bit(file);
7859 tape->pos[i].action[TAPE_ACTION_LY] = getFile8Bit(file);
7860 tape->pos[i].action[TAPE_ACTION_BUTTON] = getFile8Bit(file);
7863 tape->pos[i].delay = getFile8Bit(file);
7865 if (tape->file_version == FILE_VERSION_1_0)
7867 // eliminate possible diagonal moves in old tapes
7868 // this is only for backward compatibility
7870 byte joy_dir[4] = { JOY_LEFT, JOY_RIGHT, JOY_UP, JOY_DOWN };
7871 byte action = tape->pos[i].action[0];
7872 int k, num_moves = 0;
7874 for (k = 0; k<4; k++)
7876 if (action & joy_dir[k])
7878 tape->pos[i + num_moves].action[0] = joy_dir[k];
7880 tape->pos[i + num_moves].delay = 0;
7889 tape->length += num_moves;
7892 else if (tape->file_version < FILE_VERSION_2_0)
7894 // convert pre-2.0 tapes to new tape format
7896 if (tape->pos[i].delay > 1)
7899 tape->pos[i + 1] = tape->pos[i];
7900 tape->pos[i + 1].delay = 1;
7903 for (j = 0; j < MAX_PLAYERS; j++)
7904 tape->pos[i].action[j] = MV_NONE;
7905 tape->pos[i].delay--;
7912 if (checkEndOfFile(file))
7916 if (i != tape->length)
7917 chunk_size = tape_pos_size * i;
7922 static void LoadTape_SokobanSolution(char *filename)
7925 int move_delay = TILESIZE / level.initial_player_stepsize[0];
7927 if (!(file = openFile(filename, MODE_READ)))
7929 tape.no_valid_file = TRUE;
7934 while (!checkEndOfFile(file))
7936 unsigned char c = getByteFromFile(file);
7938 if (checkEndOfFile(file))
7945 tape.pos[tape.length].action[0] = MV_UP;
7946 tape.pos[tape.length].delay = move_delay + (c < 'a' ? 2 : 0);
7952 tape.pos[tape.length].action[0] = MV_DOWN;
7953 tape.pos[tape.length].delay = move_delay + (c < 'a' ? 2 : 0);
7959 tape.pos[tape.length].action[0] = MV_LEFT;
7960 tape.pos[tape.length].delay = move_delay + (c < 'a' ? 2 : 0);
7966 tape.pos[tape.length].action[0] = MV_RIGHT;
7967 tape.pos[tape.length].delay = move_delay + (c < 'a' ? 2 : 0);
7975 // ignore white-space characters
7979 tape.no_valid_file = TRUE;
7981 Warn("unsupported Sokoban solution file '%s' ['%d']", filename, c);
7989 if (tape.no_valid_file)
7992 tape.length_frames = GetTapeLengthFrames();
7993 tape.length_seconds = GetTapeLengthSeconds();
7996 void LoadTapeFromFilename(char *filename)
7998 char cookie[MAX_LINE_LEN];
7999 char chunk_name[CHUNK_ID_LEN + 1];
8003 // always start with reliable default values
8004 setTapeInfoToDefaults();
8006 if (strSuffix(filename, ".sln"))
8008 LoadTape_SokobanSolution(filename);
8013 if (!(file = openFile(filename, MODE_READ)))
8015 tape.no_valid_file = TRUE;
8020 getFileChunkBE(file, chunk_name, NULL);
8021 if (strEqual(chunk_name, "RND1"))
8023 getFile32BitBE(file); // not used
8025 getFileChunkBE(file, chunk_name, NULL);
8026 if (!strEqual(chunk_name, "TAPE"))
8028 tape.no_valid_file = TRUE;
8030 Warn("unknown format of tape file '%s'", filename);
8037 else // check for pre-2.0 file format with cookie string
8039 strcpy(cookie, chunk_name);
8040 if (getStringFromFile(file, &cookie[4], MAX_LINE_LEN - 4) == NULL)
8042 if (strlen(cookie) > 0 && cookie[strlen(cookie) - 1] == '\n')
8043 cookie[strlen(cookie) - 1] = '\0';
8045 if (!checkCookieString(cookie, TAPE_COOKIE_TMPL))
8047 tape.no_valid_file = TRUE;
8049 Warn("unknown format of tape file '%s'", filename);
8056 if ((tape.file_version = getFileVersionFromCookieString(cookie)) == -1)
8058 tape.no_valid_file = TRUE;
8060 Warn("unsupported version of tape file '%s'", filename);
8067 // pre-2.0 tape files have no game version, so use file version here
8068 tape.game_version = tape.file_version;
8071 if (tape.file_version < FILE_VERSION_1_2)
8073 // tape files from versions before 1.2.0 without chunk structure
8074 LoadTape_HEAD(file, TAPE_CHUNK_HEAD_SIZE, &tape);
8075 LoadTape_BODY(file, 2 * tape.length, &tape);
8083 int (*loader)(File *, int, struct TapeInfo *);
8087 { "VERS", TAPE_CHUNK_VERS_SIZE, LoadTape_VERS },
8088 { "HEAD", TAPE_CHUNK_HEAD_SIZE, LoadTape_HEAD },
8089 { "SCRN", TAPE_CHUNK_SCRN_SIZE, LoadTape_SCRN },
8090 { "INFO", -1, LoadTape_INFO },
8091 { "BODY", -1, LoadTape_BODY },
8095 while (getFileChunkBE(file, chunk_name, &chunk_size))
8099 while (chunk_info[i].name != NULL &&
8100 !strEqual(chunk_name, chunk_info[i].name))
8103 if (chunk_info[i].name == NULL)
8105 Warn("unknown chunk '%s' in tape file '%s'",
8106 chunk_name, filename);
8108 ReadUnusedBytesFromFile(file, chunk_size);
8110 else if (chunk_info[i].size != -1 &&
8111 chunk_info[i].size != chunk_size)
8113 Warn("wrong size (%d) of chunk '%s' in tape file '%s'",
8114 chunk_size, chunk_name, filename);
8116 ReadUnusedBytesFromFile(file, chunk_size);
8120 // call function to load this tape chunk
8121 int chunk_size_expected =
8122 (chunk_info[i].loader)(file, chunk_size, &tape);
8124 // the size of some chunks cannot be checked before reading other
8125 // chunks first (like "HEAD" and "BODY") that contain some header
8126 // information, so check them here
8127 if (chunk_size_expected != chunk_size)
8129 Warn("wrong size (%d) of chunk '%s' in tape file '%s'",
8130 chunk_size, chunk_name, filename);
8138 tape.length_frames = GetTapeLengthFrames();
8139 tape.length_seconds = GetTapeLengthSeconds();
8142 Debug("files:LoadTapeFromFilename", "tape file version: %d",
8144 Debug("files:LoadTapeFromFilename", "tape game version: %d",
8146 Debug("files:LoadTapeFromFilename", "tape engine version: %d",
8147 tape.engine_version);
8151 void LoadTape(int nr)
8153 char *filename = getTapeFilename(nr);
8155 LoadTapeFromFilename(filename);
8158 void LoadSolutionTape(int nr)
8160 char *filename = getSolutionTapeFilename(nr);
8162 LoadTapeFromFilename(filename);
8164 if (TAPE_IS_EMPTY(tape) &&
8165 level.game_engine_type == GAME_ENGINE_TYPE_SP &&
8166 level.native_sp_level->demo.is_available)
8167 CopyNativeTape_SP_to_RND(&level);
8170 static boolean checkSaveTape_SCRN(struct TapeInfo *tape)
8172 // chunk required for team mode tapes with non-default screen size
8173 return (tape->num_participating_players > 1 &&
8174 (tape->scr_fieldx != SCR_FIELDX_DEFAULT ||
8175 tape->scr_fieldy != SCR_FIELDY_DEFAULT));
8178 static void SaveTape_VERS(FILE *file, struct TapeInfo *tape)
8180 putFileVersion(file, tape->file_version);
8181 putFileVersion(file, tape->game_version);
8184 static void SaveTape_HEAD(FILE *file, struct TapeInfo *tape)
8187 byte store_participating_players = 0;
8189 // set bits for participating players for compact storage
8190 for (i = 0; i < MAX_PLAYERS; i++)
8191 if (tape->player_participates[i])
8192 store_participating_players |= (1 << i);
8194 putFile32BitBE(file, tape->random_seed);
8195 putFile32BitBE(file, tape->date);
8196 putFile32BitBE(file, tape->length);
8198 putFile8Bit(file, store_participating_players);
8200 putFile8Bit(file, getTapeActionValue(tape));
8202 putFile8Bit(file, tape->property_bits);
8204 // unused bytes not at the end here for 4-byte alignment of engine_version
8205 WriteUnusedBytesToFile(file, TAPE_CHUNK_HEAD_UNUSED);
8207 putFileVersion(file, tape->engine_version);
8210 static void SaveTape_SCRN(FILE *file, struct TapeInfo *tape)
8212 putFile8Bit(file, tape->scr_fieldx);
8213 putFile8Bit(file, tape->scr_fieldy);
8216 static void SaveTape_INFO(FILE *file, struct TapeInfo *tape)
8218 int level_identifier_size = strlen(tape->level_identifier) + 1;
8221 putFile16BitBE(file, level_identifier_size);
8223 for (i = 0; i < level_identifier_size; i++)
8224 putFile8Bit(file, tape->level_identifier[i]);
8226 putFile16BitBE(file, tape->level_nr);
8229 static void SaveTape_BODY(FILE *file, struct TapeInfo *tape)
8233 for (i = 0; i < tape->length; i++)
8235 if (tape->use_key_actions)
8237 for (j = 0; j < MAX_PLAYERS; j++)
8238 if (tape->player_participates[j])
8239 putFile8Bit(file, tape->pos[i].action[j]);
8242 if (tape->use_mouse_actions)
8244 putFile8Bit(file, tape->pos[i].action[TAPE_ACTION_LX]);
8245 putFile8Bit(file, tape->pos[i].action[TAPE_ACTION_LY]);
8246 putFile8Bit(file, tape->pos[i].action[TAPE_ACTION_BUTTON]);
8249 putFile8Bit(file, tape->pos[i].delay);
8253 void SaveTapeToFilename(char *filename)
8257 int info_chunk_size;
8258 int body_chunk_size;
8260 if (!(file = fopen(filename, MODE_WRITE)))
8262 Warn("cannot save level recording file '%s'", filename);
8267 tape_pos_size = getTapePosSize(&tape);
8269 info_chunk_size = 2 + (strlen(tape.level_identifier) + 1) + 2;
8270 body_chunk_size = tape_pos_size * tape.length;
8272 putFileChunkBE(file, "RND1", CHUNK_SIZE_UNDEFINED);
8273 putFileChunkBE(file, "TAPE", CHUNK_SIZE_NONE);
8275 putFileChunkBE(file, "VERS", TAPE_CHUNK_VERS_SIZE);
8276 SaveTape_VERS(file, &tape);
8278 putFileChunkBE(file, "HEAD", TAPE_CHUNK_HEAD_SIZE);
8279 SaveTape_HEAD(file, &tape);
8281 if (checkSaveTape_SCRN(&tape))
8283 putFileChunkBE(file, "SCRN", TAPE_CHUNK_SCRN_SIZE);
8284 SaveTape_SCRN(file, &tape);
8287 putFileChunkBE(file, "INFO", info_chunk_size);
8288 SaveTape_INFO(file, &tape);
8290 putFileChunkBE(file, "BODY", body_chunk_size);
8291 SaveTape_BODY(file, &tape);
8295 SetFilePermissions(filename, PERMS_PRIVATE);
8298 static void SaveTapeExt(char *filename)
8302 tape.file_version = FILE_VERSION_ACTUAL;
8303 tape.game_version = GAME_VERSION_ACTUAL;
8305 tape.num_participating_players = 0;
8307 // count number of participating players
8308 for (i = 0; i < MAX_PLAYERS; i++)
8309 if (tape.player_participates[i])
8310 tape.num_participating_players++;
8312 SaveTapeToFilename(filename);
8314 tape.changed = FALSE;
8317 void SaveTape(int nr)
8319 char *filename = getTapeFilename(nr);
8321 InitTapeDirectory(leveldir_current->subdir);
8323 SaveTapeExt(filename);
8326 void SaveScoreTape(int nr)
8328 char *filename = getScoreTapeFilename(tape.score_tape_basename, nr);
8330 // used instead of "leveldir_current->subdir" (for network games)
8331 InitScoreTapeDirectory(levelset.identifier, nr);
8333 SaveTapeExt(filename);
8336 static boolean SaveTapeCheckedExt(int nr, char *msg_replace, char *msg_saved,
8337 unsigned int req_state_added)
8339 char *filename = getTapeFilename(nr);
8340 boolean new_tape = !fileExists(filename);
8341 boolean tape_saved = FALSE;
8343 if (new_tape || Request(msg_replace, REQ_ASK | req_state_added))
8348 Request(msg_saved, REQ_CONFIRM | req_state_added);
8356 boolean SaveTapeChecked(int nr)
8358 return SaveTapeCheckedExt(nr, "Replace old tape?", "Tape saved!", 0);
8361 boolean SaveTapeChecked_LevelSolved(int nr)
8363 return SaveTapeCheckedExt(nr, "Level solved! Replace old tape?",
8364 "Level solved! Tape saved!", REQ_STAY_OPEN);
8367 void DumpTape(struct TapeInfo *tape)
8369 int tape_frame_counter;
8372 if (tape->no_valid_file)
8374 Warn("cannot dump -- no valid tape file found");
8380 Print("Tape of Level %03d (file version %08d, game version %08d)\n",
8381 tape->level_nr, tape->file_version, tape->game_version);
8382 Print(" (effective engine version %08d)\n",
8383 tape->engine_version);
8384 Print("Level series identifier: '%s'\n", tape->level_identifier);
8387 tape_frame_counter = 0;
8389 for (i = 0; i < tape->length; i++)
8391 if (i >= MAX_TAPE_LEN)
8396 for (j = 0; j < MAX_PLAYERS; j++)
8398 if (tape->player_participates[j])
8400 int action = tape->pos[i].action[j];
8402 Print("%d:%02x ", j, action);
8403 Print("[%c%c%c%c|%c%c] - ",
8404 (action & JOY_LEFT ? '<' : ' '),
8405 (action & JOY_RIGHT ? '>' : ' '),
8406 (action & JOY_UP ? '^' : ' '),
8407 (action & JOY_DOWN ? 'v' : ' '),
8408 (action & JOY_BUTTON_1 ? '1' : ' '),
8409 (action & JOY_BUTTON_2 ? '2' : ' '));
8413 Print("(%03d) ", tape->pos[i].delay);
8414 Print("[%05d]\n", tape_frame_counter);
8416 tape_frame_counter += tape->pos[i].delay;
8423 // ============================================================================
8424 // score file functions
8425 // ============================================================================
8427 static void setScoreInfoToDefaultsExt(struct ScoreInfo *scores)
8431 for (i = 0; i < MAX_SCORE_ENTRIES; i++)
8433 strcpy(scores->entry[i].tape_basename, UNDEFINED_FILENAME);
8434 strcpy(scores->entry[i].name, EMPTY_PLAYER_NAME);
8435 scores->entry[i].score = 0;
8436 scores->entry[i].time = 0;
8439 scores->num_entries = 0;
8440 scores->last_added = -1;
8443 static void setScoreInfoToDefaults(void)
8445 setScoreInfoToDefaultsExt(&scores);
8448 static void LoadScore_OLD(int nr)
8451 char *filename = getScoreFilename(nr);
8452 char cookie[MAX_LINE_LEN];
8453 char line[MAX_LINE_LEN];
8457 if (!(file = fopen(filename, MODE_READ)))
8460 // check file identifier
8461 if (fgets(cookie, MAX_LINE_LEN, file) == NULL)
8463 if (strlen(cookie) > 0 && cookie[strlen(cookie) - 1] == '\n')
8464 cookie[strlen(cookie) - 1] = '\0';
8466 if (!checkCookieString(cookie, SCORE_COOKIE_TMPL))
8468 Warn("unknown format of score file '%s'", filename);
8475 for (i = 0; i < MAX_SCORE_ENTRIES; i++)
8477 if (fscanf(file, "%d", &scores.entry[i].score) == EOF)
8478 Warn("fscanf() failed; %s", strerror(errno));
8480 if (fgets(line, MAX_LINE_LEN, file) == NULL)
8483 if (strlen(line) > 0 && line[strlen(line) - 1] == '\n')
8484 line[strlen(line) - 1] = '\0';
8486 for (line_ptr = line; *line_ptr; line_ptr++)
8488 if (*line_ptr != ' ' && *line_ptr != '\t' && *line_ptr != '\0')
8490 strncpy(scores.entry[i].name, line_ptr, MAX_PLAYER_NAME_LEN);
8491 scores.entry[i].name[MAX_PLAYER_NAME_LEN] = '\0';
8500 static void ConvertScore_OLD(void)
8502 // only convert score to time for levels that rate playing time over score
8503 if (!level.rate_time_over_score)
8506 // convert old score to playing time for score-less levels (like Supaplex)
8507 int time_final_max = 999;
8510 for (i = 0; i < MAX_SCORE_ENTRIES; i++)
8512 int score = scores.entry[i].score;
8514 if (score > 0 && score < time_final_max)
8515 scores.entry[i].time = (time_final_max - score - 1) * FRAMES_PER_SECOND;
8519 static int LoadScore_VERS(File *file, int chunk_size, struct ScoreInfo *scores)
8521 scores->file_version = getFileVersion(file);
8522 scores->game_version = getFileVersion(file);
8527 static int LoadScore_INFO(File *file, int chunk_size, struct ScoreInfo *scores)
8529 char *level_identifier = NULL;
8530 int level_identifier_size;
8533 level_identifier_size = getFile16BitBE(file);
8535 level_identifier = checked_malloc(level_identifier_size);
8537 for (i = 0; i < level_identifier_size; i++)
8538 level_identifier[i] = getFile8Bit(file);
8540 strncpy(scores->level_identifier, level_identifier, MAX_FILENAME_LEN);
8541 scores->level_identifier[MAX_FILENAME_LEN] = '\0';
8543 checked_free(level_identifier);
8545 scores->level_nr = getFile16BitBE(file);
8546 scores->num_entries = getFile16BitBE(file);
8548 chunk_size = 2 + level_identifier_size + 2 + 2;
8553 static int LoadScore_NAME(File *file, int chunk_size, struct ScoreInfo *scores)
8557 for (i = 0; i < scores->num_entries; i++)
8559 for (j = 0; j < MAX_PLAYER_NAME_LEN; j++)
8560 scores->entry[i].name[j] = getFile8Bit(file);
8562 scores->entry[i].name[MAX_PLAYER_NAME_LEN] = '\0';
8565 chunk_size = scores->num_entries * MAX_PLAYER_NAME_LEN;
8570 static int LoadScore_SCOR(File *file, int chunk_size, struct ScoreInfo *scores)
8574 for (i = 0; i < scores->num_entries; i++)
8575 scores->entry[i].score = getFile16BitBE(file);
8577 chunk_size = scores->num_entries * 2;
8582 static int LoadScore_TIME(File *file, int chunk_size, struct ScoreInfo *scores)
8586 for (i = 0; i < scores->num_entries; i++)
8587 scores->entry[i].time = getFile32BitBE(file);
8589 chunk_size = scores->num_entries * 4;
8594 static int LoadScore_TAPE(File *file, int chunk_size, struct ScoreInfo *scores)
8598 for (i = 0; i < scores->num_entries; i++)
8600 for (j = 0; j < MAX_SCORE_TAPE_BASENAME_LEN; j++)
8601 scores->entry[i].tape_basename[j] = getFile8Bit(file);
8603 scores->entry[i].tape_basename[MAX_SCORE_TAPE_BASENAME_LEN] = '\0';
8606 chunk_size = scores->num_entries * MAX_SCORE_TAPE_BASENAME_LEN;
8611 void LoadScore(int nr)
8613 char *filename = getScoreFilename(nr);
8614 char cookie[MAX_LINE_LEN];
8615 char chunk_name[CHUNK_ID_LEN + 1];
8617 boolean old_score_file_format = FALSE;
8620 // always start with reliable default values
8621 setScoreInfoToDefaults();
8623 if (!(file = openFile(filename, MODE_READ)))
8626 getFileChunkBE(file, chunk_name, NULL);
8627 if (strEqual(chunk_name, "RND1"))
8629 getFile32BitBE(file); // not used
8631 getFileChunkBE(file, chunk_name, NULL);
8632 if (!strEqual(chunk_name, "SCOR"))
8634 Warn("unknown format of score file '%s'", filename);
8641 else // check for old file format with cookie string
8643 strcpy(cookie, chunk_name);
8644 if (getStringFromFile(file, &cookie[4], MAX_LINE_LEN - 4) == NULL)
8646 if (strlen(cookie) > 0 && cookie[strlen(cookie) - 1] == '\n')
8647 cookie[strlen(cookie) - 1] = '\0';
8649 if (!checkCookieString(cookie, SCORE_COOKIE_TMPL))
8651 Warn("unknown format of score file '%s'", filename);
8658 old_score_file_format = TRUE;
8661 if (old_score_file_format)
8663 // score files from versions before 4.2.4.0 without chunk structure
8666 // convert score to time, if possible (mainly for Supaplex levels)
8675 int (*loader)(File *, int, struct ScoreInfo *);
8679 { "VERS", SCORE_CHUNK_VERS_SIZE, LoadScore_VERS },
8680 { "INFO", -1, LoadScore_INFO },
8681 { "NAME", -1, LoadScore_NAME },
8682 { "SCOR", -1, LoadScore_SCOR },
8683 { "TIME", -1, LoadScore_TIME },
8684 { "TAPE", -1, LoadScore_TAPE },
8689 while (getFileChunkBE(file, chunk_name, &chunk_size))
8693 while (chunk_info[i].name != NULL &&
8694 !strEqual(chunk_name, chunk_info[i].name))
8697 if (chunk_info[i].name == NULL)
8699 Warn("unknown chunk '%s' in score file '%s'",
8700 chunk_name, filename);
8702 ReadUnusedBytesFromFile(file, chunk_size);
8704 else if (chunk_info[i].size != -1 &&
8705 chunk_info[i].size != chunk_size)
8707 Warn("wrong size (%d) of chunk '%s' in score file '%s'",
8708 chunk_size, chunk_name, filename);
8710 ReadUnusedBytesFromFile(file, chunk_size);
8714 // call function to load this score chunk
8715 int chunk_size_expected =
8716 (chunk_info[i].loader)(file, chunk_size, &scores);
8718 // the size of some chunks cannot be checked before reading other
8719 // chunks first (like "HEAD" and "BODY") that contain some header
8720 // information, so check them here
8721 if (chunk_size_expected != chunk_size)
8723 Warn("wrong size (%d) of chunk '%s' in score file '%s'",
8724 chunk_size, chunk_name, filename);
8733 #if ENABLE_HISTORIC_CHUNKS
8734 void SaveScore_OLD(int nr)
8737 int permissions = (program.global_scores ? PERMS_PUBLIC : PERMS_PRIVATE);
8738 char *filename = getScoreFilename(nr);
8741 // used instead of "leveldir_current->subdir" (for network games)
8742 InitScoreDirectory(levelset.identifier);
8744 if (!(file = fopen(filename, MODE_WRITE)))
8746 Warn("cannot save score for level %d", nr);
8751 fprintf(file, "%s\n\n", SCORE_COOKIE);
8753 for (i = 0; i < MAX_SCORE_ENTRIES; i++)
8754 fprintf(file, "%d %s\n", scores.entry[i].score, scores.entry[i].name);
8758 SetFilePermissions(filename, permissions);
8762 static void SaveScore_VERS(FILE *file, struct ScoreInfo *scores)
8764 putFileVersion(file, scores->file_version);
8765 putFileVersion(file, scores->game_version);
8768 static void SaveScore_INFO(FILE *file, struct ScoreInfo *scores)
8770 int level_identifier_size = strlen(scores->level_identifier) + 1;
8773 putFile16BitBE(file, level_identifier_size);
8775 for (i = 0; i < level_identifier_size; i++)
8776 putFile8Bit(file, scores->level_identifier[i]);
8778 putFile16BitBE(file, scores->level_nr);
8779 putFile16BitBE(file, scores->num_entries);
8782 static void SaveScore_NAME(FILE *file, struct ScoreInfo *scores)
8786 for (i = 0; i < scores->num_entries; i++)
8788 int name_size = strlen(scores->entry[i].name);
8790 for (j = 0; j < MAX_PLAYER_NAME_LEN; j++)
8791 putFile8Bit(file, (j < name_size ? scores->entry[i].name[j] : 0));
8795 static void SaveScore_SCOR(FILE *file, struct ScoreInfo *scores)
8799 for (i = 0; i < scores->num_entries; i++)
8800 putFile16BitBE(file, scores->entry[i].score);
8803 static void SaveScore_TIME(FILE *file, struct ScoreInfo *scores)
8807 for (i = 0; i < scores->num_entries; i++)
8808 putFile32BitBE(file, scores->entry[i].time);
8811 static void SaveScore_TAPE(FILE *file, struct ScoreInfo *scores)
8815 for (i = 0; i < scores->num_entries; i++)
8817 int size = strlen(scores->entry[i].tape_basename);
8819 for (j = 0; j < MAX_SCORE_TAPE_BASENAME_LEN; j++)
8820 putFile8Bit(file, (j < size ? scores->entry[i].tape_basename[j] : 0));
8824 static void SaveScoreToFilename(char *filename)
8827 int permissions = (program.global_scores ? PERMS_PUBLIC : PERMS_PRIVATE);
8828 int info_chunk_size;
8829 int name_chunk_size;
8830 int scor_chunk_size;
8831 int time_chunk_size;
8832 int tape_chunk_size;
8834 if (!(file = fopen(filename, MODE_WRITE)))
8836 Warn("cannot save score file '%s'", filename);
8841 info_chunk_size = 2 + (strlen(scores.level_identifier) + 1) + 2 + 2;
8842 name_chunk_size = scores.num_entries * MAX_PLAYER_NAME_LEN;
8843 scor_chunk_size = scores.num_entries * 2;
8844 time_chunk_size = scores.num_entries * 4;
8845 tape_chunk_size = scores.num_entries * MAX_SCORE_TAPE_BASENAME_LEN;
8847 putFileChunkBE(file, "RND1", CHUNK_SIZE_UNDEFINED);
8848 putFileChunkBE(file, "SCOR", CHUNK_SIZE_NONE);
8850 putFileChunkBE(file, "VERS", SCORE_CHUNK_VERS_SIZE);
8851 SaveScore_VERS(file, &scores);
8853 putFileChunkBE(file, "INFO", info_chunk_size);
8854 SaveScore_INFO(file, &scores);
8856 putFileChunkBE(file, "NAME", name_chunk_size);
8857 SaveScore_NAME(file, &scores);
8859 putFileChunkBE(file, "SCOR", scor_chunk_size);
8860 SaveScore_SCOR(file, &scores);
8862 putFileChunkBE(file, "TIME", time_chunk_size);
8863 SaveScore_TIME(file, &scores);
8865 putFileChunkBE(file, "TAPE", tape_chunk_size);
8866 SaveScore_TAPE(file, &scores);
8870 SetFilePermissions(filename, permissions);
8873 void SaveScore(int nr)
8875 char *filename = getScoreFilename(nr);
8878 // used instead of "leveldir_current->subdir" (for network games)
8879 InitScoreDirectory(levelset.identifier);
8881 scores.file_version = FILE_VERSION_ACTUAL;
8882 scores.game_version = GAME_VERSION_ACTUAL;
8884 strncpy(scores.level_identifier, levelset.identifier, MAX_FILENAME_LEN);
8885 scores.level_identifier[MAX_FILENAME_LEN] = '\0';
8886 scores.level_nr = level_nr;
8888 for (i = 0; i < MAX_SCORE_ENTRIES; i++)
8889 if (scores.entry[i].score == 0 &&
8890 scores.entry[i].time == 0 &&
8891 strEqual(scores.entry[i].name, EMPTY_PLAYER_NAME))
8894 scores.num_entries = i;
8896 if (scores.num_entries == 0)
8899 SaveScoreToFilename(filename);
8902 static char *get_file_base64(char *filename)
8904 struct stat file_status;
8906 if (stat(filename, &file_status) != 0)
8908 Error("cannot stat file '%s'\n", filename);
8913 int buffer_size = file_status.st_size;
8914 byte *buffer = checked_malloc(buffer_size);
8918 if (!(file = fopen(filename, MODE_READ)))
8920 Error("cannot open file '%s'\n", filename);
8922 checked_free(buffer);
8927 for (i = 0; i < buffer_size; i++)
8929 int c = fgetc(file);
8933 Error("cannot read from input file '%s'\n", filename);
8936 checked_free(buffer);
8941 buffer[i] = (byte)c;
8946 int buffer_encoded_size = base64_encoded_size(buffer_size);
8947 char *buffer_encoded = checked_malloc(buffer_encoded_size);
8949 base64_encode(buffer_encoded, buffer, buffer_size);
8951 checked_free(buffer);
8953 return buffer_encoded;
8956 static void UploadScoreToServerExt(struct HttpRequest *request,
8957 struct HttpResponse *response,
8960 struct ScoreEntry *score_entry = &scores.entry[scores.last_added];
8962 request->hostname = API_SERVER_HOSTNAME;
8963 request->port = API_SERVER_PORT;
8964 request->method = API_SERVER_METHOD;
8965 request->uri = API_SERVER_URI_ADD;
8967 char *tape_filename = getScoreTapeFilename(score_entry->tape_basename, nr);
8968 char *tape_base64 = get_file_base64(tape_filename);
8970 if (tape_base64 == NULL)
8972 Error("loading and base64 encoding score tape file failed");
8977 snprintf(request->body, MAX_HTTP_BODY_SIZE,
8979 " \"game_version\": \"%s\",\n"
8980 " \"levelset_identifier\": \"%s\",\n"
8981 " \"levelset_name\": \"%s\",\n"
8982 " \"levelset_author\": \"%s\",\n"
8983 " \"levelset_num_levels\": \"%d\",\n"
8984 " \"levelset_first_level\": \"%d\",\n"
8985 " \"level_nr\": \"%d\",\n"
8986 " \"player_name\": \"%s\",\n"
8987 " \"score\": \"%d\",\n"
8988 " \"time\": \"%d\",\n"
8989 " \"tape_basename\": \"%s\",\n"
8990 " \"tape\": \"%s\"\n"
8992 getProgramRealVersionString(),
8993 leveldir_current->identifier,
8994 leveldir_current->name,
8995 leveldir_current->author,
8996 leveldir_current->levels,
8997 leveldir_current->first_level,
9002 score_entry->tape_basename,
9005 ConvertHttpRequestBodyToServerEncoding(request);
9007 if (!DoHttpRequest(request, response))
9009 Error("HTTP request failed: %s", GetHttpError());
9014 if (!HTTP_SUCCESS(response->status_code))
9016 Error("server failed to handle request: %d %s",
9017 response->status_code,
9018 response->status_text);
9024 static void UploadScoreToServer(int nr)
9026 struct HttpRequest *request = checked_calloc(sizeof(struct HttpRequest));
9027 struct HttpResponse *response = checked_calloc(sizeof(struct HttpResponse));
9029 UploadScoreToServerExt(request, response, nr);
9031 checked_free(request);
9032 checked_free(response);
9035 void SaveServerScore(int nr)
9037 UploadScoreToServer(nr);
9041 // ============================================================================
9042 // setup file functions
9043 // ============================================================================
9045 #define TOKEN_STR_PLAYER_PREFIX "player_"
9048 static struct TokenInfo global_setup_tokens[] =
9052 &setup.player_name, "player_name"
9056 &setup.multiple_users, "multiple_users"
9060 &setup.sound, "sound"
9064 &setup.sound_loops, "repeating_sound_loops"
9068 &setup.sound_music, "background_music"
9072 &setup.sound_simple, "simple_sound_effects"
9076 &setup.toons, "toons"
9080 &setup.scroll_delay, "scroll_delay"
9084 &setup.forced_scroll_delay, "forced_scroll_delay"
9088 &setup.scroll_delay_value, "scroll_delay_value"
9092 &setup.engine_snapshot_mode, "engine_snapshot_mode"
9096 &setup.engine_snapshot_memory, "engine_snapshot_memory"
9100 &setup.fade_screens, "fade_screens"
9104 &setup.autorecord, "automatic_tape_recording"
9108 &setup.show_titlescreen, "show_titlescreen"
9112 &setup.quick_doors, "quick_doors"
9116 &setup.team_mode, "team_mode"
9120 &setup.handicap, "handicap"
9124 &setup.skip_levels, "skip_levels"
9128 &setup.increment_levels, "increment_levels"
9132 &setup.auto_play_next_level, "auto_play_next_level"
9136 &setup.count_score_after_game, "count_score_after_game"
9140 &setup.show_scores_after_game, "show_scores_after_game"
9144 &setup.time_limit, "time_limit"
9148 &setup.fullscreen, "fullscreen"
9152 &setup.window_scaling_percent, "window_scaling_percent"
9156 &setup.window_scaling_quality, "window_scaling_quality"
9160 &setup.screen_rendering_mode, "screen_rendering_mode"
9164 &setup.vsync_mode, "vsync_mode"
9168 &setup.ask_on_escape, "ask_on_escape"
9172 &setup.ask_on_escape_editor, "ask_on_escape_editor"
9176 &setup.ask_on_game_over, "ask_on_game_over"
9180 &setup.ask_on_quit_game, "ask_on_quit_game"
9184 &setup.ask_on_quit_program, "ask_on_quit_program"
9188 &setup.quick_switch, "quick_player_switch"
9192 &setup.input_on_focus, "input_on_focus"
9196 &setup.prefer_aga_graphics, "prefer_aga_graphics"
9200 &setup.prefer_lowpass_sounds, "prefer_lowpass_sounds"
9204 &setup.prefer_extra_panel_items, "prefer_extra_panel_items"
9208 &setup.game_speed_extended, "game_speed_extended"
9212 &setup.game_frame_delay, "game_frame_delay"
9216 &setup.sp_show_border_elements, "sp_show_border_elements"
9220 &setup.small_game_graphics, "small_game_graphics"
9224 &setup.show_snapshot_buttons, "show_snapshot_buttons"
9228 &setup.graphics_set, "graphics_set"
9232 &setup.sounds_set, "sounds_set"
9236 &setup.music_set, "music_set"
9240 &setup.override_level_graphics, "override_level_graphics"
9244 &setup.override_level_sounds, "override_level_sounds"
9248 &setup.override_level_music, "override_level_music"
9252 &setup.volume_simple, "volume_simple"
9256 &setup.volume_loops, "volume_loops"
9260 &setup.volume_music, "volume_music"
9264 &setup.network_mode, "network_mode"
9268 &setup.network_player_nr, "network_player"
9272 &setup.network_server_hostname, "network_server_hostname"
9276 &setup.touch.control_type, "touch.control_type"
9280 &setup.touch.move_distance, "touch.move_distance"
9284 &setup.touch.drop_distance, "touch.drop_distance"
9288 &setup.touch.transparency, "touch.transparency"
9292 &setup.touch.draw_outlined, "touch.draw_outlined"
9296 &setup.touch.draw_pressed, "touch.draw_pressed"
9300 &setup.touch.grid_xsize[0], "touch.virtual_buttons.0.xsize"
9304 &setup.touch.grid_ysize[0], "touch.virtual_buttons.0.ysize"
9308 &setup.touch.grid_xsize[1], "touch.virtual_buttons.1.xsize"
9312 &setup.touch.grid_ysize[1], "touch.virtual_buttons.1.ysize"
9316 static struct TokenInfo auto_setup_tokens[] =
9320 &setup.auto_setup.editor_zoom_tilesize, "editor.zoom_tilesize"
9324 static struct TokenInfo editor_setup_tokens[] =
9328 &setup.editor.el_classic, "editor.el_classic"
9332 &setup.editor.el_custom, "editor.el_custom"
9336 &setup.editor.el_user_defined, "editor.el_user_defined"
9340 &setup.editor.el_dynamic, "editor.el_dynamic"
9344 &setup.editor.el_headlines, "editor.el_headlines"
9348 &setup.editor.show_element_token, "editor.show_element_token"
9352 &setup.editor.show_read_only_warning, "editor.show_read_only_warning"
9356 static struct TokenInfo editor_cascade_setup_tokens[] =
9360 &setup.editor_cascade.el_bd, "editor.cascade.el_bd"
9364 &setup.editor_cascade.el_em, "editor.cascade.el_em"
9368 &setup.editor_cascade.el_emc, "editor.cascade.el_emc"
9372 &setup.editor_cascade.el_rnd, "editor.cascade.el_rnd"
9376 &setup.editor_cascade.el_sb, "editor.cascade.el_sb"
9380 &setup.editor_cascade.el_sp, "editor.cascade.el_sp"
9384 &setup.editor_cascade.el_dc, "editor.cascade.el_dc"
9388 &setup.editor_cascade.el_dx, "editor.cascade.el_dx"
9392 &setup.editor_cascade.el_mm, "editor.cascade.el_mm"
9396 &setup.editor_cascade.el_df, "editor.cascade.el_df"
9400 &setup.editor_cascade.el_chars, "editor.cascade.el_chars"
9404 &setup.editor_cascade.el_steel_chars, "editor.cascade.el_steel_chars"
9408 &setup.editor_cascade.el_ce, "editor.cascade.el_ce"
9412 &setup.editor_cascade.el_ge, "editor.cascade.el_ge"
9416 &setup.editor_cascade.el_ref, "editor.cascade.el_ref"
9420 &setup.editor_cascade.el_user, "editor.cascade.el_user"
9424 &setup.editor_cascade.el_dynamic, "editor.cascade.el_dynamic"
9428 static struct TokenInfo shortcut_setup_tokens[] =
9432 &setup.shortcut.save_game, "shortcut.save_game"
9436 &setup.shortcut.load_game, "shortcut.load_game"
9440 &setup.shortcut.toggle_pause, "shortcut.toggle_pause"
9444 &setup.shortcut.focus_player[0], "shortcut.focus_player_1"
9448 &setup.shortcut.focus_player[1], "shortcut.focus_player_2"
9452 &setup.shortcut.focus_player[2], "shortcut.focus_player_3"
9456 &setup.shortcut.focus_player[3], "shortcut.focus_player_4"
9460 &setup.shortcut.focus_player_all, "shortcut.focus_player_all"
9464 &setup.shortcut.tape_eject, "shortcut.tape_eject"
9468 &setup.shortcut.tape_extra, "shortcut.tape_extra"
9472 &setup.shortcut.tape_stop, "shortcut.tape_stop"
9476 &setup.shortcut.tape_pause, "shortcut.tape_pause"
9480 &setup.shortcut.tape_record, "shortcut.tape_record"
9484 &setup.shortcut.tape_play, "shortcut.tape_play"
9488 &setup.shortcut.sound_simple, "shortcut.sound_simple"
9492 &setup.shortcut.sound_loops, "shortcut.sound_loops"
9496 &setup.shortcut.sound_music, "shortcut.sound_music"
9500 &setup.shortcut.snap_left, "shortcut.snap_left"
9504 &setup.shortcut.snap_right, "shortcut.snap_right"
9508 &setup.shortcut.snap_up, "shortcut.snap_up"
9512 &setup.shortcut.snap_down, "shortcut.snap_down"
9516 static struct SetupInputInfo setup_input;
9517 static struct TokenInfo player_setup_tokens[] =
9521 &setup_input.use_joystick, ".use_joystick"
9525 &setup_input.joy.device_name, ".joy.device_name"
9529 &setup_input.joy.xleft, ".joy.xleft"
9533 &setup_input.joy.xmiddle, ".joy.xmiddle"
9537 &setup_input.joy.xright, ".joy.xright"
9541 &setup_input.joy.yupper, ".joy.yupper"
9545 &setup_input.joy.ymiddle, ".joy.ymiddle"
9549 &setup_input.joy.ylower, ".joy.ylower"
9553 &setup_input.joy.snap, ".joy.snap_field"
9557 &setup_input.joy.drop, ".joy.place_bomb"
9561 &setup_input.key.left, ".key.move_left"
9565 &setup_input.key.right, ".key.move_right"
9569 &setup_input.key.up, ".key.move_up"
9573 &setup_input.key.down, ".key.move_down"
9577 &setup_input.key.snap, ".key.snap_field"
9581 &setup_input.key.drop, ".key.place_bomb"
9585 static struct TokenInfo system_setup_tokens[] =
9589 &setup.system.sdl_renderdriver, "system.sdl_renderdriver"
9593 &setup.system.sdl_videodriver, "system.sdl_videodriver"
9597 &setup.system.sdl_audiodriver, "system.sdl_audiodriver"
9601 &setup.system.audio_fragment_size, "system.audio_fragment_size"
9605 static struct TokenInfo internal_setup_tokens[] =
9609 &setup.internal.program_title, "program_title"
9613 &setup.internal.program_version, "program_version"
9617 &setup.internal.program_author, "program_author"
9621 &setup.internal.program_email, "program_email"
9625 &setup.internal.program_website, "program_website"
9629 &setup.internal.program_copyright, "program_copyright"
9633 &setup.internal.program_company, "program_company"
9637 &setup.internal.program_icon_file, "program_icon_file"
9641 &setup.internal.default_graphics_set, "default_graphics_set"
9645 &setup.internal.default_sounds_set, "default_sounds_set"
9649 &setup.internal.default_music_set, "default_music_set"
9653 &setup.internal.fallback_graphics_file, "fallback_graphics_file"
9657 &setup.internal.fallback_sounds_file, "fallback_sounds_file"
9661 &setup.internal.fallback_music_file, "fallback_music_file"
9665 &setup.internal.default_level_series, "default_level_series"
9669 &setup.internal.default_window_width, "default_window_width"
9673 &setup.internal.default_window_height, "default_window_height"
9677 &setup.internal.choose_from_top_leveldir, "choose_from_top_leveldir"
9681 &setup.internal.show_scaling_in_title, "show_scaling_in_title"
9685 &setup.internal.create_user_levelset, "create_user_levelset"
9689 &setup.internal.menu_game, "menu_game"
9693 &setup.internal.menu_editor, "menu_editor"
9697 &setup.internal.menu_graphics, "menu_graphics"
9701 &setup.internal.menu_sound, "menu_sound"
9705 &setup.internal.menu_artwork, "menu_artwork"
9709 &setup.internal.menu_input, "menu_input"
9713 &setup.internal.menu_touch, "menu_touch"
9717 &setup.internal.menu_shortcuts, "menu_shortcuts"
9721 &setup.internal.menu_exit, "menu_exit"
9725 &setup.internal.menu_save_and_exit, "menu_save_and_exit"
9729 static struct TokenInfo debug_setup_tokens[] =
9733 &setup.debug.frame_delay[0], "debug.frame_delay_0"
9737 &setup.debug.frame_delay[1], "debug.frame_delay_1"
9741 &setup.debug.frame_delay[2], "debug.frame_delay_2"
9745 &setup.debug.frame_delay[3], "debug.frame_delay_3"
9749 &setup.debug.frame_delay[4], "debug.frame_delay_4"
9753 &setup.debug.frame_delay[5], "debug.frame_delay_5"
9757 &setup.debug.frame_delay[6], "debug.frame_delay_6"
9761 &setup.debug.frame_delay[7], "debug.frame_delay_7"
9765 &setup.debug.frame_delay[8], "debug.frame_delay_8"
9769 &setup.debug.frame_delay[9], "debug.frame_delay_9"
9773 &setup.debug.frame_delay_key[0], "debug.key.frame_delay_0"
9777 &setup.debug.frame_delay_key[1], "debug.key.frame_delay_1"
9781 &setup.debug.frame_delay_key[2], "debug.key.frame_delay_2"
9785 &setup.debug.frame_delay_key[3], "debug.key.frame_delay_3"
9789 &setup.debug.frame_delay_key[4], "debug.key.frame_delay_4"
9793 &setup.debug.frame_delay_key[5], "debug.key.frame_delay_5"
9797 &setup.debug.frame_delay_key[6], "debug.key.frame_delay_6"
9801 &setup.debug.frame_delay_key[7], "debug.key.frame_delay_7"
9805 &setup.debug.frame_delay_key[8], "debug.key.frame_delay_8"
9809 &setup.debug.frame_delay_key[9], "debug.key.frame_delay_9"
9813 &setup.debug.frame_delay_use_mod_key, "debug.frame_delay.use_mod_key"},
9816 &setup.debug.frame_delay_game_only, "debug.frame_delay.game_only"
9820 &setup.debug.show_frames_per_second, "debug.show_frames_per_second"
9824 &setup.debug.xsn_mode, "debug.xsn_mode"
9828 &setup.debug.xsn_percent, "debug.xsn_percent"
9832 static struct TokenInfo options_setup_tokens[] =
9836 &setup.options.verbose, "options.verbose"
9840 static void setSetupInfoToDefaults(struct SetupInfo *si)
9844 si->player_name = getStringCopy(getDefaultUserName(user.nr));
9846 si->multiple_users = TRUE;
9849 si->sound_loops = TRUE;
9850 si->sound_music = TRUE;
9851 si->sound_simple = TRUE;
9853 si->scroll_delay = TRUE;
9854 si->forced_scroll_delay = FALSE;
9855 si->scroll_delay_value = STD_SCROLL_DELAY;
9856 si->engine_snapshot_mode = getStringCopy(STR_SNAPSHOT_MODE_DEFAULT);
9857 si->engine_snapshot_memory = SNAPSHOT_MEMORY_DEFAULT;
9858 si->fade_screens = TRUE;
9859 si->autorecord = TRUE;
9860 si->show_titlescreen = TRUE;
9861 si->quick_doors = FALSE;
9862 si->team_mode = FALSE;
9863 si->handicap = TRUE;
9864 si->skip_levels = TRUE;
9865 si->increment_levels = TRUE;
9866 si->auto_play_next_level = TRUE;
9867 si->count_score_after_game = TRUE;
9868 si->show_scores_after_game = TRUE;
9869 si->time_limit = TRUE;
9870 si->fullscreen = FALSE;
9871 si->window_scaling_percent = STD_WINDOW_SCALING_PERCENT;
9872 si->window_scaling_quality = getStringCopy(SCALING_QUALITY_DEFAULT);
9873 si->screen_rendering_mode = getStringCopy(STR_SPECIAL_RENDERING_DEFAULT);
9874 si->vsync_mode = getStringCopy(STR_VSYNC_MODE_DEFAULT);
9875 si->ask_on_escape = TRUE;
9876 si->ask_on_escape_editor = TRUE;
9877 si->ask_on_game_over = TRUE;
9878 si->ask_on_quit_game = TRUE;
9879 si->ask_on_quit_program = TRUE;
9880 si->quick_switch = FALSE;
9881 si->input_on_focus = FALSE;
9882 si->prefer_aga_graphics = TRUE;
9883 si->prefer_lowpass_sounds = FALSE;
9884 si->prefer_extra_panel_items = TRUE;
9885 si->game_speed_extended = FALSE;
9886 si->game_frame_delay = GAME_FRAME_DELAY;
9887 si->sp_show_border_elements = FALSE;
9888 si->small_game_graphics = FALSE;
9889 si->show_snapshot_buttons = FALSE;
9891 si->graphics_set = getStringCopy(GFX_CLASSIC_SUBDIR);
9892 si->sounds_set = getStringCopy(SND_CLASSIC_SUBDIR);
9893 si->music_set = getStringCopy(MUS_CLASSIC_SUBDIR);
9895 si->override_level_graphics = FALSE;
9896 si->override_level_sounds = FALSE;
9897 si->override_level_music = FALSE;
9899 si->volume_simple = 100; // percent
9900 si->volume_loops = 100; // percent
9901 si->volume_music = 100; // percent
9903 si->network_mode = FALSE;
9904 si->network_player_nr = 0; // first player
9905 si->network_server_hostname = getStringCopy(STR_NETWORK_AUTO_DETECT);
9907 si->touch.control_type = getStringCopy(TOUCH_CONTROL_DEFAULT);
9908 si->touch.move_distance = TOUCH_MOVE_DISTANCE_DEFAULT; // percent
9909 si->touch.drop_distance = TOUCH_DROP_DISTANCE_DEFAULT; // percent
9910 si->touch.transparency = TOUCH_TRANSPARENCY_DEFAULT; // percent
9911 si->touch.draw_outlined = TRUE;
9912 si->touch.draw_pressed = TRUE;
9914 for (i = 0; i < 2; i++)
9916 char *default_grid_button[6][2] =
9922 { "111222", " vv " },
9923 { "111222", " vv " }
9925 int grid_xsize = DEFAULT_GRID_XSIZE(i);
9926 int grid_ysize = DEFAULT_GRID_YSIZE(i);
9927 int min_xsize = MIN(6, grid_xsize);
9928 int min_ysize = MIN(6, grid_ysize);
9929 int startx = grid_xsize - min_xsize;
9930 int starty = grid_ysize - min_ysize;
9933 // virtual buttons grid can only be set to defaults if video is initialized
9934 // (this will be repeated if virtual buttons are not loaded from setup file)
9935 if (video.initialized)
9937 si->touch.grid_xsize[i] = grid_xsize;
9938 si->touch.grid_ysize[i] = grid_ysize;
9942 si->touch.grid_xsize[i] = -1;
9943 si->touch.grid_ysize[i] = -1;
9946 for (x = 0; x < MAX_GRID_XSIZE; x++)
9947 for (y = 0; y < MAX_GRID_YSIZE; y++)
9948 si->touch.grid_button[i][x][y] = CHAR_GRID_BUTTON_NONE;
9950 for (x = 0; x < min_xsize; x++)
9951 for (y = 0; y < min_ysize; y++)
9952 si->touch.grid_button[i][x][starty + y] =
9953 default_grid_button[y][0][x];
9955 for (x = 0; x < min_xsize; x++)
9956 for (y = 0; y < min_ysize; y++)
9957 si->touch.grid_button[i][startx + x][starty + y] =
9958 default_grid_button[y][1][x];
9961 si->touch.grid_initialized = video.initialized;
9963 si->editor.el_boulderdash = TRUE;
9964 si->editor.el_emerald_mine = TRUE;
9965 si->editor.el_emerald_mine_club = TRUE;
9966 si->editor.el_more = TRUE;
9967 si->editor.el_sokoban = TRUE;
9968 si->editor.el_supaplex = TRUE;
9969 si->editor.el_diamond_caves = TRUE;
9970 si->editor.el_dx_boulderdash = TRUE;
9972 si->editor.el_mirror_magic = TRUE;
9973 si->editor.el_deflektor = TRUE;
9975 si->editor.el_chars = TRUE;
9976 si->editor.el_steel_chars = TRUE;
9978 si->editor.el_classic = TRUE;
9979 si->editor.el_custom = TRUE;
9981 si->editor.el_user_defined = FALSE;
9982 si->editor.el_dynamic = TRUE;
9984 si->editor.el_headlines = TRUE;
9986 si->editor.show_element_token = FALSE;
9988 si->editor.show_read_only_warning = TRUE;
9990 si->editor.use_template_for_new_levels = TRUE;
9992 si->shortcut.save_game = DEFAULT_KEY_SAVE_GAME;
9993 si->shortcut.load_game = DEFAULT_KEY_LOAD_GAME;
9994 si->shortcut.toggle_pause = DEFAULT_KEY_TOGGLE_PAUSE;
9996 si->shortcut.focus_player[0] = DEFAULT_KEY_FOCUS_PLAYER_1;
9997 si->shortcut.focus_player[1] = DEFAULT_KEY_FOCUS_PLAYER_2;
9998 si->shortcut.focus_player[2] = DEFAULT_KEY_FOCUS_PLAYER_3;
9999 si->shortcut.focus_player[3] = DEFAULT_KEY_FOCUS_PLAYER_4;
10000 si->shortcut.focus_player_all = DEFAULT_KEY_FOCUS_PLAYER_ALL;
10002 si->shortcut.tape_eject = DEFAULT_KEY_TAPE_EJECT;
10003 si->shortcut.tape_extra = DEFAULT_KEY_TAPE_EXTRA;
10004 si->shortcut.tape_stop = DEFAULT_KEY_TAPE_STOP;
10005 si->shortcut.tape_pause = DEFAULT_KEY_TAPE_PAUSE;
10006 si->shortcut.tape_record = DEFAULT_KEY_TAPE_RECORD;
10007 si->shortcut.tape_play = DEFAULT_KEY_TAPE_PLAY;
10009 si->shortcut.sound_simple = DEFAULT_KEY_SOUND_SIMPLE;
10010 si->shortcut.sound_loops = DEFAULT_KEY_SOUND_LOOPS;
10011 si->shortcut.sound_music = DEFAULT_KEY_SOUND_MUSIC;
10013 si->shortcut.snap_left = DEFAULT_KEY_SNAP_LEFT;
10014 si->shortcut.snap_right = DEFAULT_KEY_SNAP_RIGHT;
10015 si->shortcut.snap_up = DEFAULT_KEY_SNAP_UP;
10016 si->shortcut.snap_down = DEFAULT_KEY_SNAP_DOWN;
10018 for (i = 0; i < MAX_PLAYERS; i++)
10020 si->input[i].use_joystick = FALSE;
10021 si->input[i].joy.device_name=getStringCopy(getDeviceNameFromJoystickNr(i));
10022 si->input[i].joy.xleft = JOYSTICK_XLEFT;
10023 si->input[i].joy.xmiddle = JOYSTICK_XMIDDLE;
10024 si->input[i].joy.xright = JOYSTICK_XRIGHT;
10025 si->input[i].joy.yupper = JOYSTICK_YUPPER;
10026 si->input[i].joy.ymiddle = JOYSTICK_YMIDDLE;
10027 si->input[i].joy.ylower = JOYSTICK_YLOWER;
10028 si->input[i].joy.snap = (i == 0 ? JOY_BUTTON_1 : 0);
10029 si->input[i].joy.drop = (i == 0 ? JOY_BUTTON_2 : 0);
10030 si->input[i].key.left = (i == 0 ? DEFAULT_KEY_LEFT : KSYM_UNDEFINED);
10031 si->input[i].key.right = (i == 0 ? DEFAULT_KEY_RIGHT : KSYM_UNDEFINED);
10032 si->input[i].key.up = (i == 0 ? DEFAULT_KEY_UP : KSYM_UNDEFINED);
10033 si->input[i].key.down = (i == 0 ? DEFAULT_KEY_DOWN : KSYM_UNDEFINED);
10034 si->input[i].key.snap = (i == 0 ? DEFAULT_KEY_SNAP : KSYM_UNDEFINED);
10035 si->input[i].key.drop = (i == 0 ? DEFAULT_KEY_DROP : KSYM_UNDEFINED);
10038 si->system.sdl_renderdriver = getStringCopy(ARG_DEFAULT);
10039 si->system.sdl_videodriver = getStringCopy(ARG_DEFAULT);
10040 si->system.sdl_audiodriver = getStringCopy(ARG_DEFAULT);
10041 si->system.audio_fragment_size = DEFAULT_AUDIO_FRAGMENT_SIZE;
10043 si->internal.program_title = getStringCopy(PROGRAM_TITLE_STRING);
10044 si->internal.program_version = getStringCopy(getProgramRealVersionString());
10045 si->internal.program_author = getStringCopy(PROGRAM_AUTHOR_STRING);
10046 si->internal.program_email = getStringCopy(PROGRAM_EMAIL_STRING);
10047 si->internal.program_website = getStringCopy(PROGRAM_WEBSITE_STRING);
10048 si->internal.program_copyright = getStringCopy(PROGRAM_COPYRIGHT_STRING);
10049 si->internal.program_company = getStringCopy(PROGRAM_COMPANY_STRING);
10051 si->internal.program_icon_file = getStringCopy(PROGRAM_ICON_FILENAME);
10053 si->internal.default_graphics_set = getStringCopy(GFX_CLASSIC_SUBDIR);
10054 si->internal.default_sounds_set = getStringCopy(SND_CLASSIC_SUBDIR);
10055 si->internal.default_music_set = getStringCopy(MUS_CLASSIC_SUBDIR);
10057 si->internal.fallback_graphics_file = getStringCopy(UNDEFINED_FILENAME);
10058 si->internal.fallback_sounds_file = getStringCopy(UNDEFINED_FILENAME);
10059 si->internal.fallback_music_file = getStringCopy(UNDEFINED_FILENAME);
10061 si->internal.default_level_series = getStringCopy(UNDEFINED_LEVELSET);
10062 si->internal.choose_from_top_leveldir = FALSE;
10063 si->internal.show_scaling_in_title = TRUE;
10064 si->internal.create_user_levelset = TRUE;
10066 si->internal.default_window_width = WIN_XSIZE_DEFAULT;
10067 si->internal.default_window_height = WIN_YSIZE_DEFAULT;
10069 si->debug.frame_delay[0] = DEFAULT_FRAME_DELAY_0;
10070 si->debug.frame_delay[1] = DEFAULT_FRAME_DELAY_1;
10071 si->debug.frame_delay[2] = DEFAULT_FRAME_DELAY_2;
10072 si->debug.frame_delay[3] = DEFAULT_FRAME_DELAY_3;
10073 si->debug.frame_delay[4] = DEFAULT_FRAME_DELAY_4;
10074 si->debug.frame_delay[5] = DEFAULT_FRAME_DELAY_5;
10075 si->debug.frame_delay[6] = DEFAULT_FRAME_DELAY_6;
10076 si->debug.frame_delay[7] = DEFAULT_FRAME_DELAY_7;
10077 si->debug.frame_delay[8] = DEFAULT_FRAME_DELAY_8;
10078 si->debug.frame_delay[9] = DEFAULT_FRAME_DELAY_9;
10080 si->debug.frame_delay_key[0] = DEFAULT_KEY_FRAME_DELAY_0;
10081 si->debug.frame_delay_key[1] = DEFAULT_KEY_FRAME_DELAY_1;
10082 si->debug.frame_delay_key[2] = DEFAULT_KEY_FRAME_DELAY_2;
10083 si->debug.frame_delay_key[3] = DEFAULT_KEY_FRAME_DELAY_3;
10084 si->debug.frame_delay_key[4] = DEFAULT_KEY_FRAME_DELAY_4;
10085 si->debug.frame_delay_key[5] = DEFAULT_KEY_FRAME_DELAY_5;
10086 si->debug.frame_delay_key[6] = DEFAULT_KEY_FRAME_DELAY_6;
10087 si->debug.frame_delay_key[7] = DEFAULT_KEY_FRAME_DELAY_7;
10088 si->debug.frame_delay_key[8] = DEFAULT_KEY_FRAME_DELAY_8;
10089 si->debug.frame_delay_key[9] = DEFAULT_KEY_FRAME_DELAY_9;
10091 si->debug.frame_delay_use_mod_key = DEFAULT_FRAME_DELAY_USE_MOD_KEY;
10092 si->debug.frame_delay_game_only = DEFAULT_FRAME_DELAY_GAME_ONLY;
10094 si->debug.show_frames_per_second = FALSE;
10096 si->debug.xsn_mode = AUTO;
10097 si->debug.xsn_percent = 0;
10099 si->options.verbose = FALSE;
10101 #if defined(PLATFORM_ANDROID)
10102 si->fullscreen = TRUE;
10105 setHideSetupEntry(&setup.debug.xsn_mode);
10108 static void setSetupInfoToDefaults_AutoSetup(struct SetupInfo *si)
10110 si->auto_setup.editor_zoom_tilesize = MINI_TILESIZE;
10113 static void setSetupInfoToDefaults_EditorCascade(struct SetupInfo *si)
10115 si->editor_cascade.el_bd = TRUE;
10116 si->editor_cascade.el_em = TRUE;
10117 si->editor_cascade.el_emc = TRUE;
10118 si->editor_cascade.el_rnd = TRUE;
10119 si->editor_cascade.el_sb = TRUE;
10120 si->editor_cascade.el_sp = TRUE;
10121 si->editor_cascade.el_dc = TRUE;
10122 si->editor_cascade.el_dx = TRUE;
10124 si->editor_cascade.el_mm = TRUE;
10125 si->editor_cascade.el_df = TRUE;
10127 si->editor_cascade.el_chars = FALSE;
10128 si->editor_cascade.el_steel_chars = FALSE;
10129 si->editor_cascade.el_ce = FALSE;
10130 si->editor_cascade.el_ge = FALSE;
10131 si->editor_cascade.el_ref = FALSE;
10132 si->editor_cascade.el_user = FALSE;
10133 si->editor_cascade.el_dynamic = FALSE;
10136 #define MAX_HIDE_SETUP_TOKEN_SIZE 20
10138 static char *getHideSetupToken(void *setup_value)
10140 static char hide_setup_token[MAX_HIDE_SETUP_TOKEN_SIZE];
10142 if (setup_value != NULL)
10143 snprintf(hide_setup_token, MAX_HIDE_SETUP_TOKEN_SIZE, "%p", setup_value);
10145 return hide_setup_token;
10148 void setHideSetupEntry(void *setup_value)
10150 char *hide_setup_token = getHideSetupToken(setup_value);
10152 if (hide_setup_hash == NULL)
10153 hide_setup_hash = newSetupFileHash();
10155 if (setup_value != NULL)
10156 setHashEntry(hide_setup_hash, hide_setup_token, "");
10159 void removeHideSetupEntry(void *setup_value)
10161 char *hide_setup_token = getHideSetupToken(setup_value);
10163 if (setup_value != NULL)
10164 removeHashEntry(hide_setup_hash, hide_setup_token);
10167 boolean hideSetupEntry(void *setup_value)
10169 char *hide_setup_token = getHideSetupToken(setup_value);
10171 return (setup_value != NULL &&
10172 getHashEntry(hide_setup_hash, hide_setup_token) != NULL);
10175 static void setSetupInfoFromTokenText(SetupFileHash *setup_file_hash,
10176 struct TokenInfo *token_info,
10177 int token_nr, char *token_text)
10179 char *token_hide_text = getStringCat2(token_text, ".hide");
10180 char *token_hide_value = getHashEntry(setup_file_hash, token_hide_text);
10182 // set the value of this setup option in the setup option structure
10183 setSetupInfo(token_info, token_nr, getHashEntry(setup_file_hash, token_text));
10185 // check if this setup option should be hidden in the setup menu
10186 if (token_hide_value != NULL && get_boolean_from_string(token_hide_value))
10187 setHideSetupEntry(token_info[token_nr].value);
10189 free(token_hide_text);
10192 static void setSetupInfoFromTokenInfo(SetupFileHash *setup_file_hash,
10193 struct TokenInfo *token_info,
10196 setSetupInfoFromTokenText(setup_file_hash, token_info, token_nr,
10197 token_info[token_nr].text);
10200 static void decodeSetupFileHash(SetupFileHash *setup_file_hash)
10204 if (!setup_file_hash)
10207 for (i = 0; i < ARRAY_SIZE(global_setup_tokens); i++)
10208 setSetupInfoFromTokenInfo(setup_file_hash, global_setup_tokens, i);
10210 setup.touch.grid_initialized = TRUE;
10211 for (i = 0; i < 2; i++)
10213 int grid_xsize = setup.touch.grid_xsize[i];
10214 int grid_ysize = setup.touch.grid_ysize[i];
10217 // if virtual buttons are not loaded from setup file, repeat initializing
10218 // virtual buttons grid with default values later when video is initialized
10219 if (grid_xsize == -1 ||
10222 setup.touch.grid_initialized = FALSE;
10227 for (y = 0; y < grid_ysize; y++)
10229 char token_string[MAX_LINE_LEN];
10231 sprintf(token_string, "touch.virtual_buttons.%d.%02d", i, y);
10233 char *value_string = getHashEntry(setup_file_hash, token_string);
10235 if (value_string == NULL)
10238 for (x = 0; x < grid_xsize; x++)
10240 char c = value_string[x];
10242 setup.touch.grid_button[i][x][y] =
10243 (c == '.' ? CHAR_GRID_BUTTON_NONE : c);
10248 for (i = 0; i < ARRAY_SIZE(editor_setup_tokens); i++)
10249 setSetupInfoFromTokenInfo(setup_file_hash, editor_setup_tokens, i);
10251 for (i = 0; i < ARRAY_SIZE(shortcut_setup_tokens); i++)
10252 setSetupInfoFromTokenInfo(setup_file_hash, shortcut_setup_tokens, i);
10254 for (pnr = 0; pnr < MAX_PLAYERS; pnr++)
10258 sprintf(prefix, "%s%d", TOKEN_STR_PLAYER_PREFIX, pnr + 1);
10260 setup_input = setup.input[pnr];
10261 for (i = 0; i < ARRAY_SIZE(player_setup_tokens); i++)
10263 char full_token[100];
10265 sprintf(full_token, "%s%s", prefix, player_setup_tokens[i].text);
10266 setSetupInfoFromTokenText(setup_file_hash, player_setup_tokens, i,
10269 setup.input[pnr] = setup_input;
10272 for (i = 0; i < ARRAY_SIZE(system_setup_tokens); i++)
10273 setSetupInfoFromTokenInfo(setup_file_hash, system_setup_tokens, i);
10275 for (i = 0; i < ARRAY_SIZE(internal_setup_tokens); i++)
10276 setSetupInfoFromTokenInfo(setup_file_hash, internal_setup_tokens, i);
10278 for (i = 0; i < ARRAY_SIZE(debug_setup_tokens); i++)
10279 setSetupInfoFromTokenInfo(setup_file_hash, debug_setup_tokens, i);
10281 for (i = 0; i < ARRAY_SIZE(options_setup_tokens); i++)
10282 setSetupInfoFromTokenInfo(setup_file_hash, options_setup_tokens, i);
10284 setHideRelatedSetupEntries();
10287 static void decodeSetupFileHash_AutoSetup(SetupFileHash *setup_file_hash)
10291 if (!setup_file_hash)
10294 for (i = 0; i < ARRAY_SIZE(auto_setup_tokens); i++)
10295 setSetupInfo(auto_setup_tokens, i,
10296 getHashEntry(setup_file_hash,
10297 auto_setup_tokens[i].text));
10300 static void decodeSetupFileHash_EditorCascade(SetupFileHash *setup_file_hash)
10304 if (!setup_file_hash)
10307 for (i = 0; i < ARRAY_SIZE(editor_cascade_setup_tokens); i++)
10308 setSetupInfo(editor_cascade_setup_tokens, i,
10309 getHashEntry(setup_file_hash,
10310 editor_cascade_setup_tokens[i].text));
10313 void LoadUserNames(void)
10315 int last_user_nr = user.nr;
10318 if (global.user_names != NULL)
10320 for (i = 0; i < MAX_PLAYER_NAMES; i++)
10321 checked_free(global.user_names[i]);
10323 checked_free(global.user_names);
10326 global.user_names = checked_calloc(MAX_PLAYER_NAMES * sizeof(char *));
10328 for (i = 0; i < MAX_PLAYER_NAMES; i++)
10332 SetupFileHash *setup_file_hash = loadSetupFileHash(getSetupFilename());
10334 if (setup_file_hash)
10336 char *player_name = getHashEntry(setup_file_hash, "player_name");
10338 global.user_names[i] = getFixedUserName(player_name);
10340 freeSetupFileHash(setup_file_hash);
10343 if (global.user_names[i] == NULL)
10344 global.user_names[i] = getStringCopy(getDefaultUserName(i));
10347 user.nr = last_user_nr;
10350 void LoadSetupFromFilename(char *filename)
10352 SetupFileHash *setup_file_hash = loadSetupFileHash(filename);
10354 if (setup_file_hash)
10356 decodeSetupFileHash(setup_file_hash);
10358 freeSetupFileHash(setup_file_hash);
10362 Debug("setup", "using default setup values");
10366 static void LoadSetup_SpecialPostProcessing(void)
10368 char *player_name_new;
10370 // needed to work around problems with fixed length strings
10371 player_name_new = getFixedUserName(setup.player_name);
10372 free(setup.player_name);
10373 setup.player_name = player_name_new;
10375 // "scroll_delay: on(3) / off(0)" was replaced by scroll delay value
10376 if (setup.scroll_delay == FALSE)
10378 setup.scroll_delay_value = MIN_SCROLL_DELAY;
10379 setup.scroll_delay = TRUE; // now always "on"
10382 // make sure that scroll delay value stays inside valid range
10383 setup.scroll_delay_value =
10384 MIN(MAX(MIN_SCROLL_DELAY, setup.scroll_delay_value), MAX_SCROLL_DELAY);
10387 void LoadSetup(void)
10391 // always start with reliable default values
10392 setSetupInfoToDefaults(&setup);
10394 // try to load setup values from default setup file
10395 filename = getDefaultSetupFilename();
10397 if (fileExists(filename))
10398 LoadSetupFromFilename(filename);
10400 // try to load setup values from user setup file
10401 filename = getSetupFilename();
10403 LoadSetupFromFilename(filename);
10405 LoadSetup_SpecialPostProcessing();
10408 void LoadSetup_AutoSetup(void)
10410 char *filename = getPath2(getSetupDir(), AUTOSETUP_FILENAME);
10411 SetupFileHash *setup_file_hash = NULL;
10413 // always start with reliable default values
10414 setSetupInfoToDefaults_AutoSetup(&setup);
10416 setup_file_hash = loadSetupFileHash(filename);
10418 if (setup_file_hash)
10420 decodeSetupFileHash_AutoSetup(setup_file_hash);
10422 freeSetupFileHash(setup_file_hash);
10428 void LoadSetup_EditorCascade(void)
10430 char *filename = getPath2(getSetupDir(), EDITORCASCADE_FILENAME);
10431 SetupFileHash *setup_file_hash = NULL;
10433 // always start with reliable default values
10434 setSetupInfoToDefaults_EditorCascade(&setup);
10436 setup_file_hash = loadSetupFileHash(filename);
10438 if (setup_file_hash)
10440 decodeSetupFileHash_EditorCascade(setup_file_hash);
10442 freeSetupFileHash(setup_file_hash);
10448 static void addGameControllerMappingToHash(SetupFileHash *mappings_hash,
10449 char *mapping_line)
10451 char mapping_guid[MAX_LINE_LEN];
10452 char *mapping_start, *mapping_end;
10454 // get GUID from game controller mapping line: copy complete line
10455 strncpy(mapping_guid, mapping_line, MAX_LINE_LEN - 1);
10456 mapping_guid[MAX_LINE_LEN - 1] = '\0';
10458 // get GUID from game controller mapping line: cut after GUID part
10459 mapping_start = strchr(mapping_guid, ',');
10460 if (mapping_start != NULL)
10461 *mapping_start = '\0';
10463 // cut newline from game controller mapping line
10464 mapping_end = strchr(mapping_line, '\n');
10465 if (mapping_end != NULL)
10466 *mapping_end = '\0';
10468 // add mapping entry to game controller mappings hash
10469 setHashEntry(mappings_hash, mapping_guid, mapping_line);
10472 static void LoadSetup_ReadGameControllerMappings(SetupFileHash *mappings_hash,
10477 if (!(file = fopen(filename, MODE_READ)))
10479 Warn("cannot read game controller mappings file '%s'", filename);
10484 while (!feof(file))
10486 char line[MAX_LINE_LEN];
10488 if (!fgets(line, MAX_LINE_LEN, file))
10491 addGameControllerMappingToHash(mappings_hash, line);
10497 void SaveSetup(void)
10499 char *filename = getSetupFilename();
10503 InitUserDataDirectory();
10505 if (!(file = fopen(filename, MODE_WRITE)))
10507 Warn("cannot write setup file '%s'", filename);
10512 fprintFileHeader(file, SETUP_FILENAME);
10514 for (i = 0; i < ARRAY_SIZE(global_setup_tokens); i++)
10516 // just to make things nicer :)
10517 if (global_setup_tokens[i].value == &setup.multiple_users ||
10518 global_setup_tokens[i].value == &setup.sound ||
10519 global_setup_tokens[i].value == &setup.graphics_set ||
10520 global_setup_tokens[i].value == &setup.volume_simple ||
10521 global_setup_tokens[i].value == &setup.network_mode ||
10522 global_setup_tokens[i].value == &setup.touch.control_type ||
10523 global_setup_tokens[i].value == &setup.touch.grid_xsize[0] ||
10524 global_setup_tokens[i].value == &setup.touch.grid_xsize[1])
10525 fprintf(file, "\n");
10527 fprintf(file, "%s\n", getSetupLine(global_setup_tokens, "", i));
10530 for (i = 0; i < 2; i++)
10532 int grid_xsize = setup.touch.grid_xsize[i];
10533 int grid_ysize = setup.touch.grid_ysize[i];
10536 fprintf(file, "\n");
10538 for (y = 0; y < grid_ysize; y++)
10540 char token_string[MAX_LINE_LEN];
10541 char value_string[MAX_LINE_LEN];
10543 sprintf(token_string, "touch.virtual_buttons.%d.%02d", i, y);
10545 for (x = 0; x < grid_xsize; x++)
10547 char c = setup.touch.grid_button[i][x][y];
10549 value_string[x] = (c == CHAR_GRID_BUTTON_NONE ? '.' : c);
10552 value_string[grid_xsize] = '\0';
10554 fprintf(file, "%s\n", getFormattedSetupEntry(token_string, value_string));
10558 fprintf(file, "\n");
10559 for (i = 0; i < ARRAY_SIZE(editor_setup_tokens); i++)
10560 fprintf(file, "%s\n", getSetupLine(editor_setup_tokens, "", i));
10562 fprintf(file, "\n");
10563 for (i = 0; i < ARRAY_SIZE(shortcut_setup_tokens); i++)
10564 fprintf(file, "%s\n", getSetupLine(shortcut_setup_tokens, "", i));
10566 for (pnr = 0; pnr < MAX_PLAYERS; pnr++)
10570 sprintf(prefix, "%s%d", TOKEN_STR_PLAYER_PREFIX, pnr + 1);
10571 fprintf(file, "\n");
10573 setup_input = setup.input[pnr];
10574 for (i = 0; i < ARRAY_SIZE(player_setup_tokens); i++)
10575 fprintf(file, "%s\n", getSetupLine(player_setup_tokens, prefix, i));
10578 fprintf(file, "\n");
10579 for (i = 0; i < ARRAY_SIZE(system_setup_tokens); i++)
10580 fprintf(file, "%s\n", getSetupLine(system_setup_tokens, "", i));
10582 // (internal setup values not saved to user setup file)
10584 fprintf(file, "\n");
10585 for (i = 0; i < ARRAY_SIZE(debug_setup_tokens); i++)
10586 if (!strPrefix(debug_setup_tokens[i].text, "debug.xsn_") ||
10587 setup.debug.xsn_mode != AUTO)
10588 fprintf(file, "%s\n", getSetupLine(debug_setup_tokens, "", i));
10590 fprintf(file, "\n");
10591 for (i = 0; i < ARRAY_SIZE(options_setup_tokens); i++)
10592 fprintf(file, "%s\n", getSetupLine(options_setup_tokens, "", i));
10596 SetFilePermissions(filename, PERMS_PRIVATE);
10599 void SaveSetup_AutoSetup(void)
10601 char *filename = getPath2(getSetupDir(), AUTOSETUP_FILENAME);
10605 InitUserDataDirectory();
10607 if (!(file = fopen(filename, MODE_WRITE)))
10609 Warn("cannot write auto setup file '%s'", filename);
10616 fprintFileHeader(file, AUTOSETUP_FILENAME);
10618 for (i = 0; i < ARRAY_SIZE(auto_setup_tokens); i++)
10619 fprintf(file, "%s\n", getSetupLine(auto_setup_tokens, "", i));
10623 SetFilePermissions(filename, PERMS_PRIVATE);
10628 void SaveSetup_EditorCascade(void)
10630 char *filename = getPath2(getSetupDir(), EDITORCASCADE_FILENAME);
10634 InitUserDataDirectory();
10636 if (!(file = fopen(filename, MODE_WRITE)))
10638 Warn("cannot write editor cascade state file '%s'", filename);
10645 fprintFileHeader(file, EDITORCASCADE_FILENAME);
10647 for (i = 0; i < ARRAY_SIZE(editor_cascade_setup_tokens); i++)
10648 fprintf(file, "%s\n", getSetupLine(editor_cascade_setup_tokens, "", i));
10652 SetFilePermissions(filename, PERMS_PRIVATE);
10657 static void SaveSetup_WriteGameControllerMappings(SetupFileHash *mappings_hash,
10662 if (!(file = fopen(filename, MODE_WRITE)))
10664 Warn("cannot write game controller mappings file '%s'", filename);
10669 BEGIN_HASH_ITERATION(mappings_hash, itr)
10671 fprintf(file, "%s\n", HASH_ITERATION_VALUE(itr));
10673 END_HASH_ITERATION(mappings_hash, itr)
10678 void SaveSetup_AddGameControllerMapping(char *mapping)
10680 char *filename = getPath2(getSetupDir(), GAMECONTROLLER_BASENAME);
10681 SetupFileHash *mappings_hash = newSetupFileHash();
10683 InitUserDataDirectory();
10685 // load existing personal game controller mappings
10686 LoadSetup_ReadGameControllerMappings(mappings_hash, filename);
10688 // add new mapping to personal game controller mappings
10689 addGameControllerMappingToHash(mappings_hash, mapping);
10691 // save updated personal game controller mappings
10692 SaveSetup_WriteGameControllerMappings(mappings_hash, filename);
10694 freeSetupFileHash(mappings_hash);
10698 void LoadCustomElementDescriptions(void)
10700 char *filename = getCustomArtworkConfigFilename(ARTWORK_TYPE_GRAPHICS);
10701 SetupFileHash *setup_file_hash;
10704 for (i = 0; i < NUM_FILE_ELEMENTS; i++)
10706 if (element_info[i].custom_description != NULL)
10708 free(element_info[i].custom_description);
10709 element_info[i].custom_description = NULL;
10713 if ((setup_file_hash = loadSetupFileHash(filename)) == NULL)
10716 for (i = 0; i < NUM_FILE_ELEMENTS; i++)
10718 char *token = getStringCat2(element_info[i].token_name, ".name");
10719 char *value = getHashEntry(setup_file_hash, token);
10722 element_info[i].custom_description = getStringCopy(value);
10727 freeSetupFileHash(setup_file_hash);
10730 static int getElementFromToken(char *token)
10732 char *value = getHashEntry(element_token_hash, token);
10735 return atoi(value);
10737 Warn("unknown element token '%s'", token);
10739 return EL_UNDEFINED;
10742 void FreeGlobalAnimEventInfo(void)
10744 struct GlobalAnimEventInfo *gaei = &global_anim_event_info;
10746 if (gaei->event_list == NULL)
10751 for (i = 0; i < gaei->num_event_lists; i++)
10753 checked_free(gaei->event_list[i]->event_value);
10754 checked_free(gaei->event_list[i]);
10757 checked_free(gaei->event_list);
10759 gaei->event_list = NULL;
10760 gaei->num_event_lists = 0;
10763 static int AddGlobalAnimEventList(void)
10765 struct GlobalAnimEventInfo *gaei = &global_anim_event_info;
10766 int list_pos = gaei->num_event_lists++;
10768 gaei->event_list = checked_realloc(gaei->event_list, gaei->num_event_lists *
10769 sizeof(struct GlobalAnimEventListInfo *));
10771 gaei->event_list[list_pos] =
10772 checked_calloc(sizeof(struct GlobalAnimEventListInfo));
10774 struct GlobalAnimEventListInfo *gaeli = gaei->event_list[list_pos];
10776 gaeli->event_value = NULL;
10777 gaeli->num_event_values = 0;
10782 static int AddGlobalAnimEventValue(int list_pos, int event_value)
10784 // do not add empty global animation events
10785 if (event_value == ANIM_EVENT_NONE)
10788 // if list position is undefined, create new list
10789 if (list_pos == ANIM_EVENT_UNDEFINED)
10790 list_pos = AddGlobalAnimEventList();
10792 struct GlobalAnimEventInfo *gaei = &global_anim_event_info;
10793 struct GlobalAnimEventListInfo *gaeli = gaei->event_list[list_pos];
10794 int value_pos = gaeli->num_event_values++;
10796 gaeli->event_value = checked_realloc(gaeli->event_value,
10797 gaeli->num_event_values * sizeof(int *));
10799 gaeli->event_value[value_pos] = event_value;
10804 int GetGlobalAnimEventValue(int list_pos, int value_pos)
10806 if (list_pos == ANIM_EVENT_UNDEFINED)
10807 return ANIM_EVENT_NONE;
10809 struct GlobalAnimEventInfo *gaei = &global_anim_event_info;
10810 struct GlobalAnimEventListInfo *gaeli = gaei->event_list[list_pos];
10812 return gaeli->event_value[value_pos];
10815 int GetGlobalAnimEventValueCount(int list_pos)
10817 if (list_pos == ANIM_EVENT_UNDEFINED)
10820 struct GlobalAnimEventInfo *gaei = &global_anim_event_info;
10821 struct GlobalAnimEventListInfo *gaeli = gaei->event_list[list_pos];
10823 return gaeli->num_event_values;
10826 // This function checks if a string <s> of the format "string1, string2, ..."
10827 // exactly contains a string <s_contained>.
10829 static boolean string_has_parameter(char *s, char *s_contained)
10833 if (s == NULL || s_contained == NULL)
10836 if (strlen(s_contained) > strlen(s))
10839 if (strncmp(s, s_contained, strlen(s_contained)) == 0)
10841 char next_char = s[strlen(s_contained)];
10843 // check if next character is delimiter or whitespace
10844 return (next_char == ',' || next_char == '\0' ||
10845 next_char == ' ' || next_char == '\t' ? TRUE : FALSE);
10848 // check if string contains another parameter string after a comma
10849 substring = strchr(s, ',');
10850 if (substring == NULL) // string does not contain a comma
10853 // advance string pointer to next character after the comma
10856 // skip potential whitespaces after the comma
10857 while (*substring == ' ' || *substring == '\t')
10860 return string_has_parameter(substring, s_contained);
10863 static int get_anim_parameter_value(char *s)
10865 int event_value[] =
10873 char *pattern_1[] =
10881 char *pattern_2 = ".part_";
10882 char *matching_char = NULL;
10884 int pattern_1_len = 0;
10885 int result = ANIM_EVENT_NONE;
10888 for (i = 0; i < ARRAY_SIZE(event_value); i++)
10890 matching_char = strstr(s_ptr, pattern_1[i]);
10891 pattern_1_len = strlen(pattern_1[i]);
10892 result = event_value[i];
10894 if (matching_char != NULL)
10898 if (matching_char == NULL)
10899 return ANIM_EVENT_NONE;
10901 s_ptr = matching_char + pattern_1_len;
10903 // check for main animation number ("anim_X" or "anim_XX")
10904 if (*s_ptr >= '0' && *s_ptr <= '9')
10906 int gic_anim_nr = (*s_ptr++ - '0');
10908 if (*s_ptr >= '0' && *s_ptr <= '9')
10909 gic_anim_nr = 10 * gic_anim_nr + (*s_ptr++ - '0');
10911 if (gic_anim_nr < 1 || gic_anim_nr > MAX_GLOBAL_ANIMS)
10912 return ANIM_EVENT_NONE;
10914 result |= gic_anim_nr << ANIM_EVENT_ANIM_BIT;
10918 // invalid main animation number specified
10920 return ANIM_EVENT_NONE;
10923 // check for animation part number ("part_X" or "part_XX") (optional)
10924 if (strPrefix(s_ptr, pattern_2))
10926 s_ptr += strlen(pattern_2);
10928 if (*s_ptr >= '0' && *s_ptr <= '9')
10930 int gic_part_nr = (*s_ptr++ - '0');
10932 if (*s_ptr >= '0' && *s_ptr <= '9')
10933 gic_part_nr = 10 * gic_part_nr + (*s_ptr++ - '0');
10935 if (gic_part_nr < 1 || gic_part_nr > MAX_GLOBAL_ANIM_PARTS)
10936 return ANIM_EVENT_NONE;
10938 result |= gic_part_nr << ANIM_EVENT_PART_BIT;
10942 // invalid animation part number specified
10944 return ANIM_EVENT_NONE;
10948 // discard result if next character is neither delimiter nor whitespace
10949 if (!(*s_ptr == ',' || *s_ptr == '\0' ||
10950 *s_ptr == ' ' || *s_ptr == '\t'))
10951 return ANIM_EVENT_NONE;
10956 static int get_anim_parameter_values(char *s)
10958 int list_pos = ANIM_EVENT_UNDEFINED;
10959 int event_value = ANIM_EVENT_DEFAULT;
10961 if (string_has_parameter(s, "any"))
10962 event_value |= ANIM_EVENT_ANY;
10964 if (string_has_parameter(s, "click:self") ||
10965 string_has_parameter(s, "click") ||
10966 string_has_parameter(s, "self"))
10967 event_value |= ANIM_EVENT_SELF;
10969 if (string_has_parameter(s, "unclick:any"))
10970 event_value |= ANIM_EVENT_UNCLICK_ANY;
10972 // if animation event found, add it to global animation event list
10973 if (event_value != ANIM_EVENT_NONE)
10974 list_pos = AddGlobalAnimEventValue(list_pos, event_value);
10978 // add optional "click:anim_X" or "click:anim_X.part_X" parameter
10979 event_value = get_anim_parameter_value(s);
10981 // if animation event found, add it to global animation event list
10982 if (event_value != ANIM_EVENT_NONE)
10983 list_pos = AddGlobalAnimEventValue(list_pos, event_value);
10985 // continue with next part of the string, starting with next comma
10986 s = strchr(s + 1, ',');
10992 static int get_anim_action_parameter_value(char *token)
10994 // check most common default case first to massively speed things up
10995 if (strEqual(token, ARG_UNDEFINED))
10996 return ANIM_EVENT_ACTION_NONE;
10998 int result = getImageIDFromToken(token);
11002 char *gfx_token = getStringCat2("gfx.", token);
11004 result = getImageIDFromToken(gfx_token);
11006 checked_free(gfx_token);
11011 Key key = getKeyFromX11KeyName(token);
11013 if (key != KSYM_UNDEFINED)
11014 result = -(int)key;
11018 result = ANIM_EVENT_ACTION_NONE;
11023 int get_parameter_value(char *value_raw, char *suffix, int type)
11025 char *value = getStringToLower(value_raw);
11026 int result = 0; // probably a save default value
11028 if (strEqual(suffix, ".direction"))
11030 result = (strEqual(value, "left") ? MV_LEFT :
11031 strEqual(value, "right") ? MV_RIGHT :
11032 strEqual(value, "up") ? MV_UP :
11033 strEqual(value, "down") ? MV_DOWN : MV_NONE);
11035 else if (strEqual(suffix, ".position"))
11037 result = (strEqual(value, "left") ? POS_LEFT :
11038 strEqual(value, "right") ? POS_RIGHT :
11039 strEqual(value, "top") ? POS_TOP :
11040 strEqual(value, "upper") ? POS_UPPER :
11041 strEqual(value, "middle") ? POS_MIDDLE :
11042 strEqual(value, "lower") ? POS_LOWER :
11043 strEqual(value, "bottom") ? POS_BOTTOM :
11044 strEqual(value, "any") ? POS_ANY :
11045 strEqual(value, "last") ? POS_LAST : POS_UNDEFINED);
11047 else if (strEqual(suffix, ".align"))
11049 result = (strEqual(value, "left") ? ALIGN_LEFT :
11050 strEqual(value, "right") ? ALIGN_RIGHT :
11051 strEqual(value, "center") ? ALIGN_CENTER :
11052 strEqual(value, "middle") ? ALIGN_CENTER : ALIGN_DEFAULT);
11054 else if (strEqual(suffix, ".valign"))
11056 result = (strEqual(value, "top") ? VALIGN_TOP :
11057 strEqual(value, "bottom") ? VALIGN_BOTTOM :
11058 strEqual(value, "middle") ? VALIGN_MIDDLE :
11059 strEqual(value, "center") ? VALIGN_MIDDLE : VALIGN_DEFAULT);
11061 else if (strEqual(suffix, ".anim_mode"))
11063 result = (string_has_parameter(value, "none") ? ANIM_NONE :
11064 string_has_parameter(value, "loop") ? ANIM_LOOP :
11065 string_has_parameter(value, "linear") ? ANIM_LINEAR :
11066 string_has_parameter(value, "pingpong") ? ANIM_PINGPONG :
11067 string_has_parameter(value, "pingpong2") ? ANIM_PINGPONG2 :
11068 string_has_parameter(value, "random") ? ANIM_RANDOM :
11069 string_has_parameter(value, "ce_value") ? ANIM_CE_VALUE :
11070 string_has_parameter(value, "ce_score") ? ANIM_CE_SCORE :
11071 string_has_parameter(value, "ce_delay") ? ANIM_CE_DELAY :
11072 string_has_parameter(value, "horizontal") ? ANIM_HORIZONTAL :
11073 string_has_parameter(value, "vertical") ? ANIM_VERTICAL :
11074 string_has_parameter(value, "centered") ? ANIM_CENTERED :
11075 string_has_parameter(value, "all") ? ANIM_ALL :
11078 if (string_has_parameter(value, "once"))
11079 result |= ANIM_ONCE;
11081 if (string_has_parameter(value, "reverse"))
11082 result |= ANIM_REVERSE;
11084 if (string_has_parameter(value, "opaque_player"))
11085 result |= ANIM_OPAQUE_PLAYER;
11087 if (string_has_parameter(value, "static_panel"))
11088 result |= ANIM_STATIC_PANEL;
11090 else if (strEqual(suffix, ".init_event") ||
11091 strEqual(suffix, ".anim_event"))
11093 result = get_anim_parameter_values(value);
11095 else if (strEqual(suffix, ".init_delay_action") ||
11096 strEqual(suffix, ".anim_delay_action") ||
11097 strEqual(suffix, ".post_delay_action") ||
11098 strEqual(suffix, ".init_event_action") ||
11099 strEqual(suffix, ".anim_event_action"))
11101 result = get_anim_action_parameter_value(value_raw);
11103 else if (strEqual(suffix, ".class"))
11105 result = (strEqual(value, ARG_UNDEFINED) ? ARG_UNDEFINED_VALUE :
11106 get_hash_from_key(value));
11108 else if (strEqual(suffix, ".style"))
11110 result = STYLE_DEFAULT;
11112 if (string_has_parameter(value, "accurate_borders"))
11113 result |= STYLE_ACCURATE_BORDERS;
11115 if (string_has_parameter(value, "inner_corners"))
11116 result |= STYLE_INNER_CORNERS;
11118 if (string_has_parameter(value, "reverse"))
11119 result |= STYLE_REVERSE;
11121 if (string_has_parameter(value, "leftmost_position"))
11122 result |= STYLE_LEFTMOST_POSITION;
11124 if (string_has_parameter(value, "block_clicks"))
11125 result |= STYLE_BLOCK;
11127 if (string_has_parameter(value, "passthrough_clicks"))
11128 result |= STYLE_PASSTHROUGH;
11130 if (string_has_parameter(value, "multiple_actions"))
11131 result |= STYLE_MULTIPLE_ACTIONS;
11133 else if (strEqual(suffix, ".fade_mode"))
11135 result = (string_has_parameter(value, "none") ? FADE_MODE_NONE :
11136 string_has_parameter(value, "fade") ? FADE_MODE_FADE :
11137 string_has_parameter(value, "crossfade") ? FADE_MODE_CROSSFADE :
11138 string_has_parameter(value, "melt") ? FADE_MODE_MELT :
11139 string_has_parameter(value, "curtain") ? FADE_MODE_CURTAIN :
11140 FADE_MODE_DEFAULT);
11142 else if (strEqual(suffix, ".auto_delay_unit"))
11144 result = (string_has_parameter(value, "ms") ? AUTO_DELAY_UNIT_MS :
11145 string_has_parameter(value, "frames") ? AUTO_DELAY_UNIT_FRAMES :
11146 AUTO_DELAY_UNIT_DEFAULT);
11148 else if (strPrefix(suffix, ".font")) // (may also be ".font_xyz")
11150 result = gfx.get_font_from_token_function(value);
11152 else // generic parameter of type integer or boolean
11154 result = (strEqual(value, ARG_UNDEFINED) ? ARG_UNDEFINED_VALUE :
11155 type == TYPE_INTEGER ? get_integer_from_string(value) :
11156 type == TYPE_BOOLEAN ? get_boolean_from_string(value) :
11157 ARG_UNDEFINED_VALUE);
11165 static int get_token_parameter_value(char *token, char *value_raw)
11169 if (token == NULL || value_raw == NULL)
11170 return ARG_UNDEFINED_VALUE;
11172 suffix = strrchr(token, '.');
11173 if (suffix == NULL)
11176 if (strEqual(suffix, ".element"))
11177 return getElementFromToken(value_raw);
11179 // !!! USE CORRECT VALUE TYPE (currently works also for TYPE_BOOLEAN) !!!
11180 return get_parameter_value(value_raw, suffix, TYPE_INTEGER);
11183 void InitMenuDesignSettings_Static(void)
11187 // always start with reliable default values from static default config
11188 for (i = 0; image_config_vars[i].token != NULL; i++)
11190 char *value = getHashEntry(image_config_hash, image_config_vars[i].token);
11193 *image_config_vars[i].value =
11194 get_token_parameter_value(image_config_vars[i].token, value);
11198 static void InitMenuDesignSettings_SpecialPreProcessing(void)
11202 // the following initializes hierarchical values from static configuration
11204 // special case: initialize "ARG_DEFAULT" values in static default config
11205 // (e.g., initialize "[titlemessage].fade_mode" from "[title].fade_mode")
11206 titlescreen_initial_first_default.fade_mode =
11207 title_initial_first_default.fade_mode;
11208 titlescreen_initial_first_default.fade_delay =
11209 title_initial_first_default.fade_delay;
11210 titlescreen_initial_first_default.post_delay =
11211 title_initial_first_default.post_delay;
11212 titlescreen_initial_first_default.auto_delay =
11213 title_initial_first_default.auto_delay;
11214 titlescreen_initial_first_default.auto_delay_unit =
11215 title_initial_first_default.auto_delay_unit;
11216 titlescreen_first_default.fade_mode = title_first_default.fade_mode;
11217 titlescreen_first_default.fade_delay = title_first_default.fade_delay;
11218 titlescreen_first_default.post_delay = title_first_default.post_delay;
11219 titlescreen_first_default.auto_delay = title_first_default.auto_delay;
11220 titlescreen_first_default.auto_delay_unit =
11221 title_first_default.auto_delay_unit;
11222 titlemessage_initial_first_default.fade_mode =
11223 title_initial_first_default.fade_mode;
11224 titlemessage_initial_first_default.fade_delay =
11225 title_initial_first_default.fade_delay;
11226 titlemessage_initial_first_default.post_delay =
11227 title_initial_first_default.post_delay;
11228 titlemessage_initial_first_default.auto_delay =
11229 title_initial_first_default.auto_delay;
11230 titlemessage_initial_first_default.auto_delay_unit =
11231 title_initial_first_default.auto_delay_unit;
11232 titlemessage_first_default.fade_mode = title_first_default.fade_mode;
11233 titlemessage_first_default.fade_delay = title_first_default.fade_delay;
11234 titlemessage_first_default.post_delay = title_first_default.post_delay;
11235 titlemessage_first_default.auto_delay = title_first_default.auto_delay;
11236 titlemessage_first_default.auto_delay_unit =
11237 title_first_default.auto_delay_unit;
11239 titlescreen_initial_default.fade_mode = title_initial_default.fade_mode;
11240 titlescreen_initial_default.fade_delay = title_initial_default.fade_delay;
11241 titlescreen_initial_default.post_delay = title_initial_default.post_delay;
11242 titlescreen_initial_default.auto_delay = title_initial_default.auto_delay;
11243 titlescreen_initial_default.auto_delay_unit =
11244 title_initial_default.auto_delay_unit;
11245 titlescreen_default.fade_mode = title_default.fade_mode;
11246 titlescreen_default.fade_delay = title_default.fade_delay;
11247 titlescreen_default.post_delay = title_default.post_delay;
11248 titlescreen_default.auto_delay = title_default.auto_delay;
11249 titlescreen_default.auto_delay_unit = title_default.auto_delay_unit;
11250 titlemessage_initial_default.fade_mode = title_initial_default.fade_mode;
11251 titlemessage_initial_default.fade_delay = title_initial_default.fade_delay;
11252 titlemessage_initial_default.post_delay = title_initial_default.post_delay;
11253 titlemessage_initial_default.auto_delay_unit =
11254 title_initial_default.auto_delay_unit;
11255 titlemessage_default.fade_mode = title_default.fade_mode;
11256 titlemessage_default.fade_delay = title_default.fade_delay;
11257 titlemessage_default.post_delay = title_default.post_delay;
11258 titlemessage_default.auto_delay = title_default.auto_delay;
11259 titlemessage_default.auto_delay_unit = title_default.auto_delay_unit;
11261 // special case: initialize "ARG_DEFAULT" values in static default config
11262 // (e.g., init "titlemessage_1.fade_mode" from "[titlemessage].fade_mode")
11263 for (i = 0; i < MAX_NUM_TITLE_MESSAGES; i++)
11265 titlescreen_initial_first[i] = titlescreen_initial_first_default;
11266 titlescreen_first[i] = titlescreen_first_default;
11267 titlemessage_initial_first[i] = titlemessage_initial_first_default;
11268 titlemessage_first[i] = titlemessage_first_default;
11270 titlescreen_initial[i] = titlescreen_initial_default;
11271 titlescreen[i] = titlescreen_default;
11272 titlemessage_initial[i] = titlemessage_initial_default;
11273 titlemessage[i] = titlemessage_default;
11276 // special case: initialize "ARG_DEFAULT" values in static default config
11277 // (eg, init "menu.enter_screen.SCORES.xyz" from "menu.enter_screen.xyz")
11278 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11280 if (i == GFX_SPECIAL_ARG_TITLE) // title values already initialized
11283 menu.enter_screen[i] = menu.enter_screen[GFX_SPECIAL_ARG_DEFAULT];
11284 menu.leave_screen[i] = menu.leave_screen[GFX_SPECIAL_ARG_DEFAULT];
11285 menu.next_screen[i] = menu.next_screen[GFX_SPECIAL_ARG_DEFAULT];
11288 // special case: initialize "ARG_DEFAULT" values in static default config
11289 // (eg, init "viewport.door_1.MAIN.xyz" from "viewport.door_1.xyz")
11290 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11292 viewport.window[i] = viewport.window[GFX_SPECIAL_ARG_DEFAULT];
11293 viewport.playfield[i] = viewport.playfield[GFX_SPECIAL_ARG_DEFAULT];
11294 viewport.door_1[i] = viewport.door_1[GFX_SPECIAL_ARG_DEFAULT];
11296 if (i == GFX_SPECIAL_ARG_EDITOR) // editor values already initialized
11299 viewport.door_2[i] = viewport.door_2[GFX_SPECIAL_ARG_DEFAULT];
11303 static void InitMenuDesignSettings_SpecialPostProcessing(void)
11307 struct XY *dst, *src;
11309 game_buttons_xy[] =
11311 { &game.button.save, &game.button.stop },
11312 { &game.button.pause2, &game.button.pause },
11313 { &game.button.load, &game.button.play },
11314 { &game.button.undo, &game.button.stop },
11315 { &game.button.redo, &game.button.play },
11321 // special case: initialize later added SETUP list size from LEVELS value
11322 if (menu.list_size[GAME_MODE_SETUP] == -1)
11323 menu.list_size[GAME_MODE_SETUP] = menu.list_size[GAME_MODE_LEVELS];
11325 // set default position for snapshot buttons to stop/pause/play buttons
11326 for (i = 0; game_buttons_xy[i].dst != NULL; i++)
11327 if ((*game_buttons_xy[i].dst).x == -1 &&
11328 (*game_buttons_xy[i].dst).y == -1)
11329 *game_buttons_xy[i].dst = *game_buttons_xy[i].src;
11331 // --------------------------------------------------------------------------
11332 // dynamic viewports (including playfield margins, borders and alignments)
11333 // --------------------------------------------------------------------------
11335 // dynamic viewports currently only supported for landscape mode
11336 int display_width = MAX(video.display_width, video.display_height);
11337 int display_height = MIN(video.display_width, video.display_height);
11339 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11341 struct RectWithBorder *vp_window = &viewport.window[i];
11342 struct RectWithBorder *vp_playfield = &viewport.playfield[i];
11343 struct RectWithBorder *vp_door_1 = &viewport.door_1[i];
11344 struct RectWithBorder *vp_door_2 = &viewport.door_2[i];
11345 boolean dynamic_window_width = (vp_window->min_width != -1);
11346 boolean dynamic_window_height = (vp_window->min_height != -1);
11347 boolean dynamic_playfield_width = (vp_playfield->min_width != -1);
11348 boolean dynamic_playfield_height = (vp_playfield->min_height != -1);
11350 // adjust window size if min/max width/height is specified
11352 if (vp_window->min_width != -1)
11354 int window_width = display_width;
11356 // when using static window height, use aspect ratio of display
11357 if (vp_window->min_height == -1)
11358 window_width = vp_window->height * display_width / display_height;
11360 vp_window->width = MAX(vp_window->min_width, window_width);
11363 if (vp_window->min_height != -1)
11365 int window_height = display_height;
11367 // when using static window width, use aspect ratio of display
11368 if (vp_window->min_width == -1)
11369 window_height = vp_window->width * display_height / display_width;
11371 vp_window->height = MAX(vp_window->min_height, window_height);
11374 if (vp_window->max_width != -1)
11375 vp_window->width = MIN(vp_window->width, vp_window->max_width);
11377 if (vp_window->max_height != -1)
11378 vp_window->height = MIN(vp_window->height, vp_window->max_height);
11380 int playfield_width = vp_window->width;
11381 int playfield_height = vp_window->height;
11383 // adjust playfield size and position according to specified margins
11385 playfield_width -= vp_playfield->margin_left;
11386 playfield_width -= vp_playfield->margin_right;
11388 playfield_height -= vp_playfield->margin_top;
11389 playfield_height -= vp_playfield->margin_bottom;
11391 // adjust playfield size if min/max width/height is specified
11393 if (vp_playfield->min_width != -1)
11394 vp_playfield->width = MAX(vp_playfield->min_width, playfield_width);
11396 if (vp_playfield->min_height != -1)
11397 vp_playfield->height = MAX(vp_playfield->min_height, playfield_height);
11399 if (vp_playfield->max_width != -1)
11400 vp_playfield->width = MIN(vp_playfield->width, vp_playfield->max_width);
11402 if (vp_playfield->max_height != -1)
11403 vp_playfield->height = MIN(vp_playfield->height,vp_playfield->max_height);
11405 // adjust playfield position according to specified alignment
11407 if (vp_playfield->align == ALIGN_LEFT || vp_playfield->x > 0)
11408 vp_playfield->x = ALIGNED_VP_XPOS(vp_playfield);
11409 else if (vp_playfield->align == ALIGN_CENTER)
11410 vp_playfield->x = playfield_width / 2 - vp_playfield->width / 2;
11411 else if (vp_playfield->align == ALIGN_RIGHT)
11412 vp_playfield->x += playfield_width - vp_playfield->width;
11414 if (vp_playfield->valign == VALIGN_TOP || vp_playfield->y > 0)
11415 vp_playfield->y = ALIGNED_VP_YPOS(vp_playfield);
11416 else if (vp_playfield->valign == VALIGN_MIDDLE)
11417 vp_playfield->y = playfield_height / 2 - vp_playfield->height / 2;
11418 else if (vp_playfield->valign == VALIGN_BOTTOM)
11419 vp_playfield->y += playfield_height - vp_playfield->height;
11421 vp_playfield->x += vp_playfield->margin_left;
11422 vp_playfield->y += vp_playfield->margin_top;
11424 // adjust individual playfield borders if only default border is specified
11426 if (vp_playfield->border_left == -1)
11427 vp_playfield->border_left = vp_playfield->border_size;
11428 if (vp_playfield->border_right == -1)
11429 vp_playfield->border_right = vp_playfield->border_size;
11430 if (vp_playfield->border_top == -1)
11431 vp_playfield->border_top = vp_playfield->border_size;
11432 if (vp_playfield->border_bottom == -1)
11433 vp_playfield->border_bottom = vp_playfield->border_size;
11435 // set dynamic playfield borders if borders are specified as undefined
11436 // (but only if window size was dynamic and playfield size was static)
11438 if (dynamic_window_width && !dynamic_playfield_width)
11440 if (vp_playfield->border_left == -1)
11442 vp_playfield->border_left = (vp_playfield->x -
11443 vp_playfield->margin_left);
11444 vp_playfield->x -= vp_playfield->border_left;
11445 vp_playfield->width += vp_playfield->border_left;
11448 if (vp_playfield->border_right == -1)
11450 vp_playfield->border_right = (vp_window->width -
11452 vp_playfield->width -
11453 vp_playfield->margin_right);
11454 vp_playfield->width += vp_playfield->border_right;
11458 if (dynamic_window_height && !dynamic_playfield_height)
11460 if (vp_playfield->border_top == -1)
11462 vp_playfield->border_top = (vp_playfield->y -
11463 vp_playfield->margin_top);
11464 vp_playfield->y -= vp_playfield->border_top;
11465 vp_playfield->height += vp_playfield->border_top;
11468 if (vp_playfield->border_bottom == -1)
11470 vp_playfield->border_bottom = (vp_window->height -
11472 vp_playfield->height -
11473 vp_playfield->margin_bottom);
11474 vp_playfield->height += vp_playfield->border_bottom;
11478 // adjust playfield size to be a multiple of a defined alignment tile size
11480 int align_size = vp_playfield->align_size;
11481 int playfield_xtiles = vp_playfield->width / align_size;
11482 int playfield_ytiles = vp_playfield->height / align_size;
11483 int playfield_width_corrected = playfield_xtiles * align_size;
11484 int playfield_height_corrected = playfield_ytiles * align_size;
11485 boolean is_playfield_mode = (i == GFX_SPECIAL_ARG_PLAYING ||
11486 i == GFX_SPECIAL_ARG_EDITOR);
11488 if (is_playfield_mode &&
11489 dynamic_playfield_width &&
11490 vp_playfield->width != playfield_width_corrected)
11492 int playfield_xdiff = vp_playfield->width - playfield_width_corrected;
11494 vp_playfield->width = playfield_width_corrected;
11496 if (vp_playfield->align == ALIGN_LEFT)
11498 vp_playfield->border_left += playfield_xdiff;
11500 else if (vp_playfield->align == ALIGN_RIGHT)
11502 vp_playfield->border_right += playfield_xdiff;
11504 else if (vp_playfield->align == ALIGN_CENTER)
11506 int border_left_diff = playfield_xdiff / 2;
11507 int border_right_diff = playfield_xdiff - border_left_diff;
11509 vp_playfield->border_left += border_left_diff;
11510 vp_playfield->border_right += border_right_diff;
11514 if (is_playfield_mode &&
11515 dynamic_playfield_height &&
11516 vp_playfield->height != playfield_height_corrected)
11518 int playfield_ydiff = vp_playfield->height - playfield_height_corrected;
11520 vp_playfield->height = playfield_height_corrected;
11522 if (vp_playfield->valign == VALIGN_TOP)
11524 vp_playfield->border_top += playfield_ydiff;
11526 else if (vp_playfield->align == VALIGN_BOTTOM)
11528 vp_playfield->border_right += playfield_ydiff;
11530 else if (vp_playfield->align == VALIGN_MIDDLE)
11532 int border_top_diff = playfield_ydiff / 2;
11533 int border_bottom_diff = playfield_ydiff - border_top_diff;
11535 vp_playfield->border_top += border_top_diff;
11536 vp_playfield->border_bottom += border_bottom_diff;
11540 // adjust door positions according to specified alignment
11542 for (j = 0; j < 2; j++)
11544 struct RectWithBorder *vp_door = (j == 0 ? vp_door_1 : vp_door_2);
11546 if (vp_door->align == ALIGN_LEFT || vp_door->x > 0)
11547 vp_door->x = ALIGNED_VP_XPOS(vp_door);
11548 else if (vp_door->align == ALIGN_CENTER)
11549 vp_door->x = vp_window->width / 2 - vp_door->width / 2;
11550 else if (vp_door->align == ALIGN_RIGHT)
11551 vp_door->x += vp_window->width - vp_door->width;
11553 if (vp_door->valign == VALIGN_TOP || vp_door->y > 0)
11554 vp_door->y = ALIGNED_VP_YPOS(vp_door);
11555 else if (vp_door->valign == VALIGN_MIDDLE)
11556 vp_door->y = vp_window->height / 2 - vp_door->height / 2;
11557 else if (vp_door->valign == VALIGN_BOTTOM)
11558 vp_door->y += vp_window->height - vp_door->height;
11563 static void InitMenuDesignSettings_SpecialPostProcessing_AfterGraphics(void)
11567 struct XYTileSize *dst, *src;
11570 editor_buttons_xy[] =
11573 &editor.button.element_left, &editor.palette.element_left,
11574 IMG_GFX_EDITOR_BUTTON_ELEMENT_LEFT
11577 &editor.button.element_middle, &editor.palette.element_middle,
11578 IMG_GFX_EDITOR_BUTTON_ELEMENT_MIDDLE
11581 &editor.button.element_right, &editor.palette.element_right,
11582 IMG_GFX_EDITOR_BUTTON_ELEMENT_RIGHT
11589 // set default position for element buttons to element graphics
11590 for (i = 0; editor_buttons_xy[i].dst != NULL; i++)
11592 if ((*editor_buttons_xy[i].dst).x == -1 &&
11593 (*editor_buttons_xy[i].dst).y == -1)
11595 struct GraphicInfo *gd = &graphic_info[editor_buttons_xy[i].graphic];
11597 gd->width = gd->height = editor_buttons_xy[i].src->tile_size;
11599 *editor_buttons_xy[i].dst = *editor_buttons_xy[i].src;
11603 // adjust editor palette rows and columns if specified to be dynamic
11605 if (editor.palette.cols == -1)
11607 int vp_width = viewport.playfield[GFX_SPECIAL_ARG_EDITOR].width;
11608 int bt_width = graphic_info[IMG_EDITOR_PALETTE_BUTTON].width;
11609 int sc_width = graphic_info[IMG_EDITOR_PALETTE_SCROLLBAR].width;
11611 editor.palette.cols = (vp_width - sc_width) / bt_width;
11613 if (editor.palette.x == -1)
11615 int palette_width = editor.palette.cols * bt_width + sc_width;
11617 editor.palette.x = (vp_width - palette_width) / 2;
11621 if (editor.palette.rows == -1)
11623 int vp_height = viewport.playfield[GFX_SPECIAL_ARG_EDITOR].height;
11624 int bt_height = graphic_info[IMG_EDITOR_PALETTE_BUTTON].height;
11625 int tx_height = getFontHeight(FONT_TEXT_2);
11627 editor.palette.rows = (vp_height - tx_height) / bt_height;
11629 if (editor.palette.y == -1)
11631 int palette_height = editor.palette.rows * bt_height + tx_height;
11633 editor.palette.y = (vp_height - palette_height) / 2;
11638 static void LoadMenuDesignSettingsFromFilename(char *filename)
11640 static struct TitleFadingInfo tfi;
11641 static struct TitleMessageInfo tmi;
11642 static struct TokenInfo title_tokens[] =
11644 { TYPE_INTEGER, &tfi.fade_mode, ".fade_mode" },
11645 { TYPE_INTEGER, &tfi.fade_delay, ".fade_delay" },
11646 { TYPE_INTEGER, &tfi.post_delay, ".post_delay" },
11647 { TYPE_INTEGER, &tfi.auto_delay, ".auto_delay" },
11648 { TYPE_INTEGER, &tfi.auto_delay_unit, ".auto_delay_unit" },
11652 static struct TokenInfo titlemessage_tokens[] =
11654 { TYPE_INTEGER, &tmi.x, ".x" },
11655 { TYPE_INTEGER, &tmi.y, ".y" },
11656 { TYPE_INTEGER, &tmi.width, ".width" },
11657 { TYPE_INTEGER, &tmi.height, ".height" },
11658 { TYPE_INTEGER, &tmi.chars, ".chars" },
11659 { TYPE_INTEGER, &tmi.lines, ".lines" },
11660 { TYPE_INTEGER, &tmi.align, ".align" },
11661 { TYPE_INTEGER, &tmi.valign, ".valign" },
11662 { TYPE_INTEGER, &tmi.font, ".font" },
11663 { TYPE_BOOLEAN, &tmi.autowrap, ".autowrap" },
11664 { TYPE_BOOLEAN, &tmi.centered, ".centered" },
11665 { TYPE_BOOLEAN, &tmi.parse_comments, ".parse_comments" },
11666 { TYPE_INTEGER, &tmi.sort_priority, ".sort_priority" },
11667 { TYPE_INTEGER, &tmi.fade_mode, ".fade_mode" },
11668 { TYPE_INTEGER, &tmi.fade_delay, ".fade_delay" },
11669 { TYPE_INTEGER, &tmi.post_delay, ".post_delay" },
11670 { TYPE_INTEGER, &tmi.auto_delay, ".auto_delay" },
11671 { TYPE_INTEGER, &tmi.auto_delay_unit, ".auto_delay_unit" },
11677 struct TitleFadingInfo *info;
11682 // initialize first titles from "enter screen" definitions, if defined
11683 { &title_initial_first_default, "menu.enter_screen.TITLE" },
11684 { &title_first_default, "menu.enter_screen.TITLE" },
11686 // initialize title screens from "next screen" definitions, if defined
11687 { &title_initial_default, "menu.next_screen.TITLE" },
11688 { &title_default, "menu.next_screen.TITLE" },
11694 struct TitleMessageInfo *array;
11697 titlemessage_arrays[] =
11699 // initialize first titles from "enter screen" definitions, if defined
11700 { titlescreen_initial_first, "menu.enter_screen.TITLE" },
11701 { titlescreen_first, "menu.enter_screen.TITLE" },
11702 { titlemessage_initial_first, "menu.enter_screen.TITLE" },
11703 { titlemessage_first, "menu.enter_screen.TITLE" },
11705 // initialize titles from "next screen" definitions, if defined
11706 { titlescreen_initial, "menu.next_screen.TITLE" },
11707 { titlescreen, "menu.next_screen.TITLE" },
11708 { titlemessage_initial, "menu.next_screen.TITLE" },
11709 { titlemessage, "menu.next_screen.TITLE" },
11711 // overwrite titles with title definitions, if defined
11712 { titlescreen_initial_first, "[title_initial]" },
11713 { titlescreen_first, "[title]" },
11714 { titlemessage_initial_first, "[title_initial]" },
11715 { titlemessage_first, "[title]" },
11717 { titlescreen_initial, "[title_initial]" },
11718 { titlescreen, "[title]" },
11719 { titlemessage_initial, "[title_initial]" },
11720 { titlemessage, "[title]" },
11722 // overwrite titles with title screen/message definitions, if defined
11723 { titlescreen_initial_first, "[titlescreen_initial]" },
11724 { titlescreen_first, "[titlescreen]" },
11725 { titlemessage_initial_first, "[titlemessage_initial]" },
11726 { titlemessage_first, "[titlemessage]" },
11728 { titlescreen_initial, "[titlescreen_initial]" },
11729 { titlescreen, "[titlescreen]" },
11730 { titlemessage_initial, "[titlemessage_initial]" },
11731 { titlemessage, "[titlemessage]" },
11735 SetupFileHash *setup_file_hash;
11738 if ((setup_file_hash = loadSetupFileHash(filename)) == NULL)
11741 // the following initializes hierarchical values from dynamic configuration
11743 // special case: initialize with default values that may be overwritten
11744 // (e.g., init "menu.draw_xoffset.INFO" from "menu.draw_xoffset")
11745 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11747 struct TokenIntPtrInfo menu_config[] =
11749 { "menu.draw_xoffset", &menu.draw_xoffset[i] },
11750 { "menu.draw_yoffset", &menu.draw_yoffset[i] },
11751 { "menu.list_size", &menu.list_size[i] }
11754 for (j = 0; j < ARRAY_SIZE(menu_config); j++)
11756 char *token = menu_config[j].token;
11757 char *value = getHashEntry(setup_file_hash, token);
11760 *menu_config[j].value = get_integer_from_string(value);
11764 // special case: initialize with default values that may be overwritten
11765 // (eg, init "menu.draw_xoffset.INFO[XXX]" from "menu.draw_xoffset.INFO")
11766 for (i = 0; i < NUM_SPECIAL_GFX_INFO_ARGS; i++)
11768 struct TokenIntPtrInfo menu_config[] =
11770 { "menu.draw_xoffset.INFO", &menu.draw_xoffset_info[i] },
11771 { "menu.draw_yoffset.INFO", &menu.draw_yoffset_info[i] },
11772 { "menu.list_size.INFO", &menu.list_size_info[i] }
11775 for (j = 0; j < ARRAY_SIZE(menu_config); j++)
11777 char *token = menu_config[j].token;
11778 char *value = getHashEntry(setup_file_hash, token);
11781 *menu_config[j].value = get_integer_from_string(value);
11785 // special case: initialize with default values that may be overwritten
11786 // (eg, init "menu.draw_xoffset.SETUP[XXX]" from "menu.draw_xoffset.SETUP")
11787 for (i = 0; i < NUM_SPECIAL_GFX_SETUP_ARGS; i++)
11789 struct TokenIntPtrInfo menu_config[] =
11791 { "menu.draw_xoffset.SETUP", &menu.draw_xoffset_setup[i] },
11792 { "menu.draw_yoffset.SETUP", &menu.draw_yoffset_setup[i] }
11795 for (j = 0; j < ARRAY_SIZE(menu_config); j++)
11797 char *token = menu_config[j].token;
11798 char *value = getHashEntry(setup_file_hash, token);
11801 *menu_config[j].value = get_integer_from_string(value);
11805 // special case: initialize with default values that may be overwritten
11806 // (eg, init "menu.line_spacing.INFO[XXX]" from "menu.line_spacing.INFO")
11807 for (i = 0; i < NUM_SPECIAL_GFX_INFO_ARGS; i++)
11809 struct TokenIntPtrInfo menu_config[] =
11811 { "menu.left_spacing.INFO", &menu.left_spacing_info[i] },
11812 { "menu.right_spacing.INFO", &menu.right_spacing_info[i] },
11813 { "menu.top_spacing.INFO", &menu.top_spacing_info[i] },
11814 { "menu.bottom_spacing.INFO", &menu.bottom_spacing_info[i] },
11815 { "menu.paragraph_spacing.INFO", &menu.paragraph_spacing_info[i] },
11816 { "menu.headline1_spacing.INFO", &menu.headline1_spacing_info[i] },
11817 { "menu.headline2_spacing.INFO", &menu.headline2_spacing_info[i] },
11818 { "menu.line_spacing.INFO", &menu.line_spacing_info[i] },
11819 { "menu.extra_spacing.INFO", &menu.extra_spacing_info[i] },
11822 for (j = 0; j < ARRAY_SIZE(menu_config); j++)
11824 char *token = menu_config[j].token;
11825 char *value = getHashEntry(setup_file_hash, token);
11828 *menu_config[j].value = get_integer_from_string(value);
11832 // special case: initialize with default values that may be overwritten
11833 // (eg, init "menu.enter_screen.SCORES.xyz" from "menu.enter_screen.xyz")
11834 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11836 struct TokenIntPtrInfo menu_config[] =
11838 { "menu.enter_screen.fade_mode", &menu.enter_screen[i].fade_mode },
11839 { "menu.enter_screen.fade_delay", &menu.enter_screen[i].fade_delay },
11840 { "menu.enter_screen.post_delay", &menu.enter_screen[i].post_delay },
11841 { "menu.leave_screen.fade_mode", &menu.leave_screen[i].fade_mode },
11842 { "menu.leave_screen.fade_delay", &menu.leave_screen[i].fade_delay },
11843 { "menu.leave_screen.post_delay", &menu.leave_screen[i].post_delay },
11844 { "menu.next_screen.fade_mode", &menu.next_screen[i].fade_mode },
11845 { "menu.next_screen.fade_delay", &menu.next_screen[i].fade_delay },
11846 { "menu.next_screen.post_delay", &menu.next_screen[i].post_delay }
11849 for (j = 0; j < ARRAY_SIZE(menu_config); j++)
11851 char *token = menu_config[j].token;
11852 char *value = getHashEntry(setup_file_hash, token);
11855 *menu_config[j].value = get_token_parameter_value(token, value);
11859 // special case: initialize with default values that may be overwritten
11860 // (eg, init "viewport.door_1.MAIN.xyz" from "viewport.door_1.xyz")
11861 for (i = 0; i < NUM_SPECIAL_GFX_ARGS; i++)
11865 char *token_prefix;
11866 struct RectWithBorder *struct_ptr;
11870 { "viewport.window", &viewport.window[i] },
11871 { "viewport.playfield", &viewport.playfield[i] },
11872 { "viewport.door_1", &viewport.door_1[i] },
11873 { "viewport.door_2", &viewport.door_2[i] }
11876 for (j = 0; j < ARRAY_SIZE(vp_struct); j++)
11878 struct TokenIntPtrInfo vp_config[] =
11880 { ".x", &vp_struct[j].struct_ptr->x },
11881 { ".y", &vp_struct[j].struct_ptr->y },
11882 { ".width", &vp_struct[j].struct_ptr->width },
11883 { ".height", &vp_struct[j].struct_ptr->height },
11884 { ".min_width", &vp_struct[j].struct_ptr->min_width },
11885 { ".min_height", &vp_struct[j].struct_ptr->min_height },
11886 { ".max_width", &vp_struct[j].struct_ptr->max_width },
11887 { ".max_height", &vp_struct[j].struct_ptr->max_height },
11888 { ".margin_left", &vp_struct[j].struct_ptr->margin_left },
11889 { ".margin_right", &vp_struct[j].struct_ptr->margin_right },
11890 { ".margin_top", &vp_struct[j].struct_ptr->margin_top },
11891 { ".margin_bottom", &vp_struct[j].struct_ptr->margin_bottom },
11892 { ".border_left", &vp_struct[j].struct_ptr->border_left },
11893 { ".border_right", &vp_struct[j].struct_ptr->border_right },
11894 { ".border_top", &vp_struct[j].struct_ptr->border_top },
11895 { ".border_bottom", &vp_struct[j].struct_ptr->border_bottom },
11896 { ".border_size", &vp_struct[j].struct_ptr->border_size },
11897 { ".align_size", &vp_struct[j].struct_ptr->align_size },
11898 { ".align", &vp_struct[j].struct_ptr->align },
11899 { ".valign", &vp_struct[j].struct_ptr->valign }
11902 for (k = 0; k < ARRAY_SIZE(vp_config); k++)
11904 char *token = getStringCat2(vp_struct[j].token_prefix,
11905 vp_config[k].token);
11906 char *value = getHashEntry(setup_file_hash, token);
11909 *vp_config[k].value = get_token_parameter_value(token, value);
11916 // special case: initialize with default values that may be overwritten
11917 // (e.g., init "[title].fade_mode" from "menu.next_screen.TITLE.fade_mode")
11918 for (i = 0; title_info[i].info != NULL; i++)
11920 struct TitleFadingInfo *info = title_info[i].info;
11921 char *base_token = title_info[i].text;
11923 for (j = 0; title_tokens[j].type != -1; j++)
11925 char *token = getStringCat2(base_token, title_tokens[j].text);
11926 char *value = getHashEntry(setup_file_hash, token);
11930 int parameter_value = get_token_parameter_value(token, value);
11934 *(int *)title_tokens[j].value = (int)parameter_value;
11943 // special case: initialize with default values that may be overwritten
11944 // (e.g., init "titlemessage_1.fade_mode" from "[titlemessage].fade_mode")
11945 for (i = 0; titlemessage_arrays[i].array != NULL; i++)
11947 struct TitleMessageInfo *array = titlemessage_arrays[i].array;
11948 char *base_token = titlemessage_arrays[i].text;
11950 for (j = 0; titlemessage_tokens[j].type != -1; j++)
11952 char *token = getStringCat2(base_token, titlemessage_tokens[j].text);
11953 char *value = getHashEntry(setup_file_hash, token);
11957 int parameter_value = get_token_parameter_value(token, value);
11959 for (k = 0; k < MAX_NUM_TITLE_MESSAGES; k++)
11963 if (titlemessage_tokens[j].type == TYPE_INTEGER)
11964 *(int *)titlemessage_tokens[j].value = (int)parameter_value;
11966 *(boolean *)titlemessage_tokens[j].value = (boolean)parameter_value;
11976 // special case: check if network and preview player positions are redefined,
11977 // to compare this later against the main menu level preview being redefined
11978 struct TokenIntPtrInfo menu_config_players[] =
11980 { "main.network_players.x", &menu.main.network_players.redefined },
11981 { "main.network_players.y", &menu.main.network_players.redefined },
11982 { "main.preview_players.x", &menu.main.preview_players.redefined },
11983 { "main.preview_players.y", &menu.main.preview_players.redefined },
11984 { "preview.x", &preview.redefined },
11985 { "preview.y", &preview.redefined }
11988 for (i = 0; i < ARRAY_SIZE(menu_config_players); i++)
11989 *menu_config_players[i].value = FALSE;
11991 for (i = 0; i < ARRAY_SIZE(menu_config_players); i++)
11992 if (getHashEntry(setup_file_hash, menu_config_players[i].token) != NULL)
11993 *menu_config_players[i].value = TRUE;
11995 // read (and overwrite with) values that may be specified in config file
11996 for (i = 0; image_config_vars[i].token != NULL; i++)
11998 char *value = getHashEntry(setup_file_hash, image_config_vars[i].token);
12000 // (ignore definitions set to "[DEFAULT]" which are already initialized)
12001 if (value != NULL && !strEqual(value, ARG_DEFAULT))
12002 *image_config_vars[i].value =
12003 get_token_parameter_value(image_config_vars[i].token, value);
12006 freeSetupFileHash(setup_file_hash);
12009 void LoadMenuDesignSettings(void)
12011 char *filename_base = UNDEFINED_FILENAME, *filename_local;
12013 InitMenuDesignSettings_Static();
12014 InitMenuDesignSettings_SpecialPreProcessing();
12016 if (!GFX_OVERRIDE_ARTWORK(ARTWORK_TYPE_GRAPHICS))
12018 // first look for special settings configured in level series config
12019 filename_base = getCustomArtworkLevelConfigFilename(ARTWORK_TYPE_GRAPHICS);
12021 if (fileExists(filename_base))
12022 LoadMenuDesignSettingsFromFilename(filename_base);
12025 filename_local = getCustomArtworkConfigFilename(ARTWORK_TYPE_GRAPHICS);
12027 if (filename_local != NULL && !strEqual(filename_base, filename_local))
12028 LoadMenuDesignSettingsFromFilename(filename_local);
12030 InitMenuDesignSettings_SpecialPostProcessing();
12033 void LoadMenuDesignSettings_AfterGraphics(void)
12035 InitMenuDesignSettings_SpecialPostProcessing_AfterGraphics();
12038 void LoadUserDefinedEditorElementList(int **elements, int *num_elements)
12040 char *filename = getEditorSetupFilename();
12041 SetupFileList *setup_file_list, *list;
12042 SetupFileHash *element_hash;
12043 int num_unknown_tokens = 0;
12046 if ((setup_file_list = loadSetupFileList(filename)) == NULL)
12049 element_hash = newSetupFileHash();
12051 for (i = 0; i < NUM_FILE_ELEMENTS; i++)
12052 setHashEntry(element_hash, element_info[i].token_name, i_to_a(i));
12054 // determined size may be larger than needed (due to unknown elements)
12056 for (list = setup_file_list; list != NULL; list = list->next)
12059 // add space for up to 3 more elements for padding that may be needed
12060 *num_elements += 3;
12062 // free memory for old list of elements, if needed
12063 checked_free(*elements);
12065 // allocate memory for new list of elements
12066 *elements = checked_malloc(*num_elements * sizeof(int));
12069 for (list = setup_file_list; list != NULL; list = list->next)
12071 char *value = getHashEntry(element_hash, list->token);
12073 if (value == NULL) // try to find obsolete token mapping
12075 char *mapped_token = get_mapped_token(list->token);
12077 if (mapped_token != NULL)
12079 value = getHashEntry(element_hash, mapped_token);
12081 free(mapped_token);
12087 (*elements)[(*num_elements)++] = atoi(value);
12091 if (num_unknown_tokens == 0)
12094 Warn("unknown token(s) found in config file:");
12095 Warn("- config file: '%s'", filename);
12097 num_unknown_tokens++;
12100 Warn("- token: '%s'", list->token);
12104 if (num_unknown_tokens > 0)
12107 while (*num_elements % 4) // pad with empty elements, if needed
12108 (*elements)[(*num_elements)++] = EL_EMPTY;
12110 freeSetupFileList(setup_file_list);
12111 freeSetupFileHash(element_hash);
12114 for (i = 0; i < *num_elements; i++)
12115 Debug("editor", "element '%s' [%d]\n",
12116 element_info[(*elements)[i]].token_name, (*elements)[i]);
12120 static struct MusicFileInfo *get_music_file_info_ext(char *basename, int music,
12123 SetupFileHash *setup_file_hash = NULL;
12124 struct MusicFileInfo tmp_music_file_info, *new_music_file_info;
12125 char *filename_music, *filename_prefix, *filename_info;
12131 token_to_value_ptr[] =
12133 { "title_header", &tmp_music_file_info.title_header },
12134 { "artist_header", &tmp_music_file_info.artist_header },
12135 { "album_header", &tmp_music_file_info.album_header },
12136 { "year_header", &tmp_music_file_info.year_header },
12138 { "title", &tmp_music_file_info.title },
12139 { "artist", &tmp_music_file_info.artist },
12140 { "album", &tmp_music_file_info.album },
12141 { "year", &tmp_music_file_info.year },
12147 filename_music = (is_sound ? getCustomSoundFilename(basename) :
12148 getCustomMusicFilename(basename));
12150 if (filename_music == NULL)
12153 // ---------- try to replace file extension ----------
12155 filename_prefix = getStringCopy(filename_music);
12156 if (strrchr(filename_prefix, '.') != NULL)
12157 *strrchr(filename_prefix, '.') = '\0';
12158 filename_info = getStringCat2(filename_prefix, ".txt");
12160 if (fileExists(filename_info))
12161 setup_file_hash = loadSetupFileHash(filename_info);
12163 free(filename_prefix);
12164 free(filename_info);
12166 if (setup_file_hash == NULL)
12168 // ---------- try to add file extension ----------
12170 filename_prefix = getStringCopy(filename_music);
12171 filename_info = getStringCat2(filename_prefix, ".txt");
12173 if (fileExists(filename_info))
12174 setup_file_hash = loadSetupFileHash(filename_info);
12176 free(filename_prefix);
12177 free(filename_info);
12180 if (setup_file_hash == NULL)
12183 // ---------- music file info found ----------
12185 clear_mem(&tmp_music_file_info, sizeof(struct MusicFileInfo));
12187 for (i = 0; token_to_value_ptr[i].token != NULL; i++)
12189 char *value = getHashEntry(setup_file_hash, token_to_value_ptr[i].token);
12191 *token_to_value_ptr[i].value_ptr =
12192 getStringCopy(value != NULL && *value != '\0' ? value : UNKNOWN_NAME);
12195 tmp_music_file_info.basename = getStringCopy(basename);
12196 tmp_music_file_info.music = music;
12197 tmp_music_file_info.is_sound = is_sound;
12199 new_music_file_info = checked_malloc(sizeof(struct MusicFileInfo));
12200 *new_music_file_info = tmp_music_file_info;
12202 return new_music_file_info;
12205 static struct MusicFileInfo *get_music_file_info(char *basename, int music)
12207 return get_music_file_info_ext(basename, music, FALSE);
12210 static struct MusicFileInfo *get_sound_file_info(char *basename, int sound)
12212 return get_music_file_info_ext(basename, sound, TRUE);
12215 static boolean music_info_listed_ext(struct MusicFileInfo *list,
12216 char *basename, boolean is_sound)
12218 for (; list != NULL; list = list->next)
12219 if (list->is_sound == is_sound && strEqual(list->basename, basename))
12225 static boolean music_info_listed(struct MusicFileInfo *list, char *basename)
12227 return music_info_listed_ext(list, basename, FALSE);
12230 static boolean sound_info_listed(struct MusicFileInfo *list, char *basename)
12232 return music_info_listed_ext(list, basename, TRUE);
12235 void LoadMusicInfo(void)
12237 char *music_directory = getCustomMusicDirectory();
12238 int num_music = getMusicListSize();
12239 int num_music_noconf = 0;
12240 int num_sounds = getSoundListSize();
12242 DirectoryEntry *dir_entry;
12243 struct FileInfo *music, *sound;
12244 struct MusicFileInfo *next, **new;
12247 while (music_file_info != NULL)
12249 next = music_file_info->next;
12251 checked_free(music_file_info->basename);
12253 checked_free(music_file_info->title_header);
12254 checked_free(music_file_info->artist_header);
12255 checked_free(music_file_info->album_header);
12256 checked_free(music_file_info->year_header);
12258 checked_free(music_file_info->title);
12259 checked_free(music_file_info->artist);
12260 checked_free(music_file_info->album);
12261 checked_free(music_file_info->year);
12263 free(music_file_info);
12265 music_file_info = next;
12268 new = &music_file_info;
12270 for (i = 0; i < num_music; i++)
12272 music = getMusicListEntry(i);
12274 if (music->filename == NULL)
12277 if (strEqual(music->filename, UNDEFINED_FILENAME))
12280 // a configured file may be not recognized as music
12281 if (!FileIsMusic(music->filename))
12284 if (!music_info_listed(music_file_info, music->filename))
12286 *new = get_music_file_info(music->filename, i);
12289 new = &(*new)->next;
12293 if ((dir = openDirectory(music_directory)) == NULL)
12295 Warn("cannot read music directory '%s'", music_directory);
12300 while ((dir_entry = readDirectory(dir)) != NULL) // loop all entries
12302 char *basename = dir_entry->basename;
12303 boolean music_already_used = FALSE;
12306 // skip all music files that are configured in music config file
12307 for (i = 0; i < num_music; i++)
12309 music = getMusicListEntry(i);
12311 if (music->filename == NULL)
12314 if (strEqual(basename, music->filename))
12316 music_already_used = TRUE;
12321 if (music_already_used)
12324 if (!FileIsMusic(dir_entry->filename))
12327 if (!music_info_listed(music_file_info, basename))
12329 *new = get_music_file_info(basename, MAP_NOCONF_MUSIC(num_music_noconf));
12332 new = &(*new)->next;
12335 num_music_noconf++;
12338 closeDirectory(dir);
12340 for (i = 0; i < num_sounds; i++)
12342 sound = getSoundListEntry(i);
12344 if (sound->filename == NULL)
12347 if (strEqual(sound->filename, UNDEFINED_FILENAME))
12350 // a configured file may be not recognized as sound
12351 if (!FileIsSound(sound->filename))
12354 if (!sound_info_listed(music_file_info, sound->filename))
12356 *new = get_sound_file_info(sound->filename, i);
12358 new = &(*new)->next;
12363 static void add_helpanim_entry(int element, int action, int direction,
12364 int delay, int *num_list_entries)
12366 struct HelpAnimInfo *new_list_entry;
12367 (*num_list_entries)++;
12370 checked_realloc(helpanim_info,
12371 *num_list_entries * sizeof(struct HelpAnimInfo));
12372 new_list_entry = &helpanim_info[*num_list_entries - 1];
12374 new_list_entry->element = element;
12375 new_list_entry->action = action;
12376 new_list_entry->direction = direction;
12377 new_list_entry->delay = delay;
12380 static void print_unknown_token(char *filename, char *token, int token_nr)
12385 Warn("unknown token(s) found in config file:");
12386 Warn("- config file: '%s'", filename);
12389 Warn("- token: '%s'", token);
12392 static void print_unknown_token_end(int token_nr)
12398 void LoadHelpAnimInfo(void)
12400 char *filename = getHelpAnimFilename();
12401 SetupFileList *setup_file_list = NULL, *list;
12402 SetupFileHash *element_hash, *action_hash, *direction_hash;
12403 int num_list_entries = 0;
12404 int num_unknown_tokens = 0;
12407 if (fileExists(filename))
12408 setup_file_list = loadSetupFileList(filename);
12410 if (setup_file_list == NULL)
12412 // use reliable default values from static configuration
12413 SetupFileList *insert_ptr;
12415 insert_ptr = setup_file_list =
12416 newSetupFileList(helpanim_config[0].token,
12417 helpanim_config[0].value);
12419 for (i = 1; helpanim_config[i].token; i++)
12420 insert_ptr = addListEntry(insert_ptr,
12421 helpanim_config[i].token,
12422 helpanim_config[i].value);
12425 element_hash = newSetupFileHash();
12426 action_hash = newSetupFileHash();
12427 direction_hash = newSetupFileHash();
12429 for (i = 0; i < MAX_NUM_ELEMENTS; i++)
12430 setHashEntry(element_hash, element_info[i].token_name, i_to_a(i));
12432 for (i = 0; i < NUM_ACTIONS; i++)
12433 setHashEntry(action_hash, element_action_info[i].suffix,
12434 i_to_a(element_action_info[i].value));
12436 // do not store direction index (bit) here, but direction value!
12437 for (i = 0; i < NUM_DIRECTIONS_FULL; i++)
12438 setHashEntry(direction_hash, element_direction_info[i].suffix,
12439 i_to_a(1 << element_direction_info[i].value));
12441 for (list = setup_file_list; list != NULL; list = list->next)
12443 char *element_token, *action_token, *direction_token;
12444 char *element_value, *action_value, *direction_value;
12445 int delay = atoi(list->value);
12447 if (strEqual(list->token, "end"))
12449 add_helpanim_entry(HELPANIM_LIST_NEXT, -1, -1, -1, &num_list_entries);
12454 /* first try to break element into element/action/direction parts;
12455 if this does not work, also accept combined "element[.act][.dir]"
12456 elements (like "dynamite.active"), which are unique elements */
12458 if (strchr(list->token, '.') == NULL) // token contains no '.'
12460 element_value = getHashEntry(element_hash, list->token);
12461 if (element_value != NULL) // element found
12462 add_helpanim_entry(atoi(element_value), -1, -1, delay,
12463 &num_list_entries);
12466 // no further suffixes found -- this is not an element
12467 print_unknown_token(filename, list->token, num_unknown_tokens++);
12473 // token has format "<prefix>.<something>"
12475 action_token = strchr(list->token, '.'); // suffix may be action ...
12476 direction_token = action_token; // ... or direction
12478 element_token = getStringCopy(list->token);
12479 *strchr(element_token, '.') = '\0';
12481 element_value = getHashEntry(element_hash, element_token);
12483 if (element_value == NULL) // this is no element
12485 element_value = getHashEntry(element_hash, list->token);
12486 if (element_value != NULL) // combined element found
12487 add_helpanim_entry(atoi(element_value), -1, -1, delay,
12488 &num_list_entries);
12490 print_unknown_token(filename, list->token, num_unknown_tokens++);
12492 free(element_token);
12497 action_value = getHashEntry(action_hash, action_token);
12499 if (action_value != NULL) // action found
12501 add_helpanim_entry(atoi(element_value), atoi(action_value), -1, delay,
12502 &num_list_entries);
12504 free(element_token);
12509 direction_value = getHashEntry(direction_hash, direction_token);
12511 if (direction_value != NULL) // direction found
12513 add_helpanim_entry(atoi(element_value), -1, atoi(direction_value), delay,
12514 &num_list_entries);
12516 free(element_token);
12521 if (strchr(action_token + 1, '.') == NULL)
12523 // no further suffixes found -- this is not an action nor direction
12525 element_value = getHashEntry(element_hash, list->token);
12526 if (element_value != NULL) // combined element found
12527 add_helpanim_entry(atoi(element_value), -1, -1, delay,
12528 &num_list_entries);
12530 print_unknown_token(filename, list->token, num_unknown_tokens++);
12532 free(element_token);
12537 // token has format "<prefix>.<suffix>.<something>"
12539 direction_token = strchr(action_token + 1, '.');
12541 action_token = getStringCopy(action_token);
12542 *strchr(action_token + 1, '.') = '\0';
12544 action_value = getHashEntry(action_hash, action_token);
12546 if (action_value == NULL) // this is no action
12548 element_value = getHashEntry(element_hash, list->token);
12549 if (element_value != NULL) // combined element found
12550 add_helpanim_entry(atoi(element_value), -1, -1, delay,
12551 &num_list_entries);
12553 print_unknown_token(filename, list->token, num_unknown_tokens++);
12555 free(element_token);
12556 free(action_token);
12561 direction_value = getHashEntry(direction_hash, direction_token);
12563 if (direction_value != NULL) // direction found
12565 add_helpanim_entry(atoi(element_value), atoi(action_value),
12566 atoi(direction_value), delay, &num_list_entries);
12568 free(element_token);
12569 free(action_token);
12574 // this is no direction
12576 element_value = getHashEntry(element_hash, list->token);
12577 if (element_value != NULL) // combined element found
12578 add_helpanim_entry(atoi(element_value), -1, -1, delay,
12579 &num_list_entries);
12581 print_unknown_token(filename, list->token, num_unknown_tokens++);
12583 free(element_token);
12584 free(action_token);
12587 print_unknown_token_end(num_unknown_tokens);
12589 add_helpanim_entry(HELPANIM_LIST_NEXT, -1, -1, -1, &num_list_entries);
12590 add_helpanim_entry(HELPANIM_LIST_END, -1, -1, -1, &num_list_entries);
12592 freeSetupFileList(setup_file_list);
12593 freeSetupFileHash(element_hash);
12594 freeSetupFileHash(action_hash);
12595 freeSetupFileHash(direction_hash);
12598 for (i = 0; i < num_list_entries; i++)
12599 Debug("files:LoadHelpAnimInfo", "'%s': %d, %d, %d => %d",
12600 EL_NAME(helpanim_info[i].element),
12601 helpanim_info[i].element,
12602 helpanim_info[i].action,
12603 helpanim_info[i].direction,
12604 helpanim_info[i].delay);
12608 void LoadHelpTextInfo(void)
12610 char *filename = getHelpTextFilename();
12613 if (helptext_info != NULL)
12615 freeSetupFileHash(helptext_info);
12616 helptext_info = NULL;
12619 if (fileExists(filename))
12620 helptext_info = loadSetupFileHash(filename);
12622 if (helptext_info == NULL)
12624 // use reliable default values from static configuration
12625 helptext_info = newSetupFileHash();
12627 for (i = 0; helptext_config[i].token; i++)
12628 setHashEntry(helptext_info,
12629 helptext_config[i].token,
12630 helptext_config[i].value);
12634 BEGIN_HASH_ITERATION(helptext_info, itr)
12636 Debug("files:LoadHelpTextInfo", "'%s' => '%s'",
12637 HASH_ITERATION_TOKEN(itr), HASH_ITERATION_VALUE(itr));
12639 END_HASH_ITERATION(hash, itr)
12644 // ----------------------------------------------------------------------------
12646 // ----------------------------------------------------------------------------
12648 #define MAX_NUM_CONVERT_LEVELS 1000
12650 void ConvertLevels(void)
12652 static LevelDirTree *convert_leveldir = NULL;
12653 static int convert_level_nr = -1;
12654 static int num_levels_handled = 0;
12655 static int num_levels_converted = 0;
12656 static boolean levels_failed[MAX_NUM_CONVERT_LEVELS];
12659 convert_leveldir = getTreeInfoFromIdentifier(leveldir_first,
12660 global.convert_leveldir);
12662 if (convert_leveldir == NULL)
12663 Fail("no such level identifier: '%s'", global.convert_leveldir);
12665 leveldir_current = convert_leveldir;
12667 if (global.convert_level_nr != -1)
12669 convert_leveldir->first_level = global.convert_level_nr;
12670 convert_leveldir->last_level = global.convert_level_nr;
12673 convert_level_nr = convert_leveldir->first_level;
12675 PrintLine("=", 79);
12676 Print("Converting levels\n");
12677 PrintLine("-", 79);
12678 Print("Level series identifier: '%s'\n", convert_leveldir->identifier);
12679 Print("Level series name: '%s'\n", convert_leveldir->name);
12680 Print("Level series author: '%s'\n", convert_leveldir->author);
12681 Print("Number of levels: %d\n", convert_leveldir->levels);
12682 PrintLine("=", 79);
12685 for (i = 0; i < MAX_NUM_CONVERT_LEVELS; i++)
12686 levels_failed[i] = FALSE;
12688 while (convert_level_nr <= convert_leveldir->last_level)
12690 char *level_filename;
12693 level_nr = convert_level_nr++;
12695 Print("Level %03d: ", level_nr);
12697 LoadLevel(level_nr);
12698 if (level.no_level_file || level.no_valid_file)
12700 Print("(no level)\n");
12704 Print("converting level ... ");
12706 level_filename = getDefaultLevelFilename(level_nr);
12707 new_level = !fileExists(level_filename);
12711 SaveLevel(level_nr);
12713 num_levels_converted++;
12715 Print("converted.\n");
12719 if (level_nr >= 0 && level_nr < MAX_NUM_CONVERT_LEVELS)
12720 levels_failed[level_nr] = TRUE;
12722 Print("NOT CONVERTED -- LEVEL ALREADY EXISTS.\n");
12725 num_levels_handled++;
12729 PrintLine("=", 79);
12730 Print("Number of levels handled: %d\n", num_levels_handled);
12731 Print("Number of levels converted: %d (%d%%)\n", num_levels_converted,
12732 (num_levels_handled ?
12733 num_levels_converted * 100 / num_levels_handled : 0));
12734 PrintLine("-", 79);
12735 Print("Summary (for automatic parsing by scripts):\n");
12736 Print("LEVELDIR '%s', CONVERTED %d/%d (%d%%)",
12737 convert_leveldir->identifier, num_levels_converted,
12738 num_levels_handled,
12739 (num_levels_handled ?
12740 num_levels_converted * 100 / num_levels_handled : 0));
12742 if (num_levels_handled != num_levels_converted)
12744 Print(", FAILED:");
12745 for (i = 0; i < MAX_NUM_CONVERT_LEVELS; i++)
12746 if (levels_failed[i])
12751 PrintLine("=", 79);
12753 CloseAllAndExit(0);
12757 // ----------------------------------------------------------------------------
12758 // create and save images for use in level sketches (raw BMP format)
12759 // ----------------------------------------------------------------------------
12761 void CreateLevelSketchImages(void)
12767 InitElementPropertiesGfxElement();
12769 bitmap1 = CreateBitmap(TILEX, TILEY, DEFAULT_DEPTH);
12770 bitmap2 = CreateBitmap(MINI_TILEX, MINI_TILEY, DEFAULT_DEPTH);
12772 for (i = 0; i < NUM_FILE_ELEMENTS; i++)
12774 int element = getMappedElement(i);
12775 char basename1[16];
12776 char basename2[16];
12780 sprintf(basename1, "%04d.bmp", i);
12781 sprintf(basename2, "%04ds.bmp", i);
12783 filename1 = getPath2(global.create_images_dir, basename1);
12784 filename2 = getPath2(global.create_images_dir, basename2);
12786 DrawSizedElement(0, 0, element, TILESIZE);
12787 BlitBitmap(drawto, bitmap1, SX, SY, TILEX, TILEY, 0, 0);
12789 if (SDL_SaveBMP(bitmap1->surface, filename1) != 0)
12790 Fail("cannot save level sketch image file '%s'", filename1);
12792 DrawSizedElement(0, 0, element, MINI_TILESIZE);
12793 BlitBitmap(drawto, bitmap2, SX, SY, MINI_TILEX, MINI_TILEY, 0, 0);
12795 if (SDL_SaveBMP(bitmap2->surface, filename2) != 0)
12796 Fail("cannot save level sketch image file '%s'", filename2);
12801 // create corresponding SQL statements (for normal and small images)
12804 printf("insert into phpbb_words values (NULL, '`%03d', '<IMG class=\"levelsketch\" src=\"/I/%04d.png\"/>');\n", i, i);
12805 printf("insert into phpbb_words values (NULL, '¸%03d', '<IMG class=\"levelsketch\" src=\"/I/%04ds.png\"/>');\n", i, i);
12808 printf("insert into phpbb_words values (NULL, '`%04d', '<IMG class=\"levelsketch\" src=\"/I/%04d.png\"/>');\n", i, i);
12809 printf("insert into phpbb_words values (NULL, '¸%04d', '<IMG class=\"levelsketch\" src=\"/I/%04ds.png\"/>');\n", i, i);
12811 // optional: create content for forum level sketch demonstration post
12813 fprintf(stderr, "%03d `%03d%c", i, i, (i % 10 < 9 ? ' ' : '\n'));
12816 FreeBitmap(bitmap1);
12817 FreeBitmap(bitmap2);
12820 fprintf(stderr, "\n");
12822 Info("%d normal and small images created", NUM_FILE_ELEMENTS);
12824 CloseAllAndExit(0);
12828 // ----------------------------------------------------------------------------
12829 // create and save images for custom and group elements (raw BMP format)
12830 // ----------------------------------------------------------------------------
12832 void CreateCustomElementImages(char *directory)
12834 char *src_basename = "RocksCE-template.ilbm";
12835 char *dst_basename = "RocksCE.bmp";
12836 char *src_filename = getPath2(directory, src_basename);
12837 char *dst_filename = getPath2(directory, dst_basename);
12838 Bitmap *src_bitmap;
12840 int yoffset_ce = 0;
12841 int yoffset_ge = (TILEY * NUM_CUSTOM_ELEMENTS / 16);
12844 InitVideoDefaults();
12846 ReCreateBitmap(&backbuffer, video.width, video.height);
12848 src_bitmap = LoadImage(src_filename);
12850 bitmap = CreateBitmap(TILEX * 16 * 2,
12851 TILEY * (NUM_CUSTOM_ELEMENTS + NUM_GROUP_ELEMENTS) / 16,
12854 for (i = 0; i < NUM_CUSTOM_ELEMENTS; i++)
12861 BlitBitmap(src_bitmap, bitmap, 0, 0, TILEX, TILEY,
12862 TILEX * x, TILEY * y + yoffset_ce);
12864 BlitBitmap(src_bitmap, bitmap, 0, TILEY,
12866 TILEX * x + TILEX * 16,
12867 TILEY * y + yoffset_ce);
12869 for (j = 2; j >= 0; j--)
12873 BlitBitmap(src_bitmap, bitmap,
12874 TILEX + c * 7, 0, 6, 10,
12875 TILEX * x + 6 + j * 7,
12876 TILEY * y + 11 + yoffset_ce);
12878 BlitBitmap(src_bitmap, bitmap,
12879 TILEX + c * 8, TILEY, 6, 10,
12880 TILEX * 16 + TILEX * x + 6 + j * 8,
12881 TILEY * y + 10 + yoffset_ce);
12887 for (i = 0; i < NUM_GROUP_ELEMENTS; i++)
12894 BlitBitmap(src_bitmap, bitmap, 0, 0, TILEX, TILEY,
12895 TILEX * x, TILEY * y + yoffset_ge);
12897 BlitBitmap(src_bitmap, bitmap, 0, TILEY,
12899 TILEX * x + TILEX * 16,
12900 TILEY * y + yoffset_ge);
12902 for (j = 1; j >= 0; j--)
12906 BlitBitmap(src_bitmap, bitmap, TILEX + c * 10, 11, 10, 10,
12907 TILEX * x + 6 + j * 10,
12908 TILEY * y + 11 + yoffset_ge);
12910 BlitBitmap(src_bitmap, bitmap,
12911 TILEX + c * 8, TILEY + 12, 6, 10,
12912 TILEX * 16 + TILEX * x + 10 + j * 8,
12913 TILEY * y + 10 + yoffset_ge);
12919 if (SDL_SaveBMP(bitmap->surface, dst_filename) != 0)
12920 Fail("cannot save CE graphics file '%s'", dst_filename);
12922 FreeBitmap(bitmap);
12924 CloseAllAndExit(0);