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#ifndef MAP_H
#define MAP_H
#define TILE_X_BITS 8
#define TILE_Y_BITS 8
extern byte _map_type_and_height[];
extern byte _map5[];
extern byte _map3_lo[];
extern byte _map3_hi[];
extern byte _map_owner[];
extern uint16 _map2[];
extern byte _map_extra_bits[];
// binary logarithm of the map size, try to avoid using this one
static inline uint MapLogX(void) { extern uint _map_log_x; return _map_log_x; }
static inline uint MapLogY(void) { extern uint _map_log_y; return _map_log_y; }
/* The size of the map */
static inline uint MapSizeX(void) { return 1 << MapLogX(); }
static inline uint MapSizeY(void) { return 1 << MapLogY(); }
/* The maximum coordinates */
static inline uint MapMaxX(void) { return MapSizeX() - 1; }
static inline uint MapMaxY(void) { return MapSizeY() - 1; }
/* The number of tiles in the map */
static inline uint MapSize(void) { return MapSizeX() * MapSizeY(); }
typedef int16 TileIndexDiff;
typedef struct TileIndexDiffC {
int16 x;
int16 y;
} TileIndexDiffC;
static inline TileIndexDiff ToTileIndexDiff(TileIndexDiffC tidc)
{
return (tidc.y << MapLogX()) + tidc.x;
}
static inline TileIndexDiff TileOffsByDir(uint dir)
{
extern const TileIndexDiffC _tileoffs_by_dir[4];
assert(dir < lengthof(_tileoffs_by_dir));
return ToTileIndexDiff(_tileoffs_by_dir[dir]);
}
#endif
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