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#ifndef __KOOPATLAS_MAPDATA_H
#define __KOOPATLAS_MAPDATA_H
#include <game.h>
#include <g3dhax.h>
// forward declarations
struct dKPLayer_s;
class dKPNodeExtra_c;
/******************************************************************************
* Doodads
******************************************************************************/
struct dKPDoodad_s {
struct animation_s {
enum LoopTypes {
CONTIGUOUS, LOOP, REVERSE_LOOP
};
enum CurveTypes {
LINEAR, SIN, COS
};
enum AnimTypes {
X_POS, Y_POS, ANGLE, X_SCALE, Y_SCALE, OPACITY
};
LoopTypes loop;
CurveTypes curve;
int frameCount;
AnimTypes type;
int start, end;
int delay, delayOffset;
u32 baseTick;
bool isReversed;
};
float x, y;
float width, height;
float angle;
GXTexObj *texObj;
int animationCount;
animation_s animations[1]; // variable size
};
/******************************************************************************
* Paths
******************************************************************************/
struct dKPPath_s;
struct dKPNode_s {
enum NodeTypes {
PASS_THROUGH, STOP, LEVEL, CHANGE
};
short x, y;
union {
dKPPath_s *exits[4];
struct {
dKPPath_s *leftExit;
dKPPath_s *rightExit;
dKPPath_s *upExit;
dKPPath_s *downExit;
};
};
dKPLayer_s *tileLayer, *doodadLayer;
NodeTypes type;
bool isNew;
dKPNodeExtra_c *extra;
// The union is placed at the very end so we can leave out padding in the
// kpbin
union {
struct { u8 levelNumber[2]; bool hasSecret; };
struct { const char *destMap; u8 thisID, foreignID, transition, _; };
};
dKPPath_s *getAnyExit() {
for (int i = 0; i < 4; i++)
if (exits[i])
return exits[i];
return 0;
}
bool isUnlocked();
void setupNodeExtra();
dKPPath_s *getOppositeExitTo(dKPPath_s *path, bool mustBeAvailable=false);
dKPPath_s *getOppositeAvailableExitTo(dKPPath_s *path) {
return getOppositeExitTo(path, true);
}
int getExitCount(bool mustBeAvailable=false);
int getAvailableExitCount() {
return getExitCount(true);
}
void setLayerAlpha(u8 alpha);
};
struct dKPPath_s {
enum Availability {
NOT_AVAILABLE = 0,
AVAILABLE = 1,
NEWLY_AVAILABLE = 2,
ALWAYS_AVAILABLE = 3
};
enum Animation {
WALK = 0, WALK_SAND = 1, WALK_SNOW = 2, WALK_WATER = 3,
JUMP = 4, JUMP_SAND = 5, JUMP_SNOW = 6, JUMP_WATER = 7,
LADDER = 8, LADDER_LEFT = 9, LADDER_RIGHT = 10, FALL = 11,
SWIM = 12, RUN = 13, PIPE = 14, DOOR = 15,
TJUMPED = 16, ENTER_CAVE = 17, LEAVE_CAVE = 18, INVISIBLE = 19,
MAX_ANIM = 20
};
dKPNode_s *start, *end;
dKPLayer_s *tileLayer, *doodadLayer;
u8 isAvailable; // computed on-the-fly - default from Koopatlas is NOT or ALWAYS
u8 isSecret;
u8 _padding[2];
float speed;
Animation animation;
void setLayerAlpha(u8 alpha);
};
/******************************************************************************
* Tying It All Together
******************************************************************************/
struct dKPLayer_s {
enum LayerTypes {
OBJECTS, DOODADS, PATHS
};
LayerTypes type;
u8 alpha;
u8 _padding[3];
typedef u16 sector_s[16][16];
union {
struct {
GXTexObj *tileset;
union {
int sectorBounds[4];
struct {
int sectorLeft;
int sectorTop;
int sectorRight;
int sectorBottom;
};
};
union {
int bounds[4];
struct {
int left;
int top;
int right;
int bottom;
};
};
u16 indices[1]; // variable size
};
struct {
int doodadCount;
dKPDoodad_s *doodads[1]; // variable size
};
struct {
int nodeCount;
dKPNode_s **nodes;
int pathCount;
dKPPath_s **paths;
};
};
int findNodeID(dKPNode_s *node);
};
struct dKPMapFile_s {
u32 magic;
int version;
int layerCount;
dKPLayer_s **layers;
int tilesetCount;
GXTexObj *tilesets;
u8 *unlockData;
dKPLayer_s::sector_s *sectors;
const char *backgroundName;
};
class dKPMapData_c {
private:
dDvdLoader_c m_fileLoader;
template <typename T>
inline T* fixRef(T*& indexAsPtr) {
unsigned int index = (unsigned int)indexAsPtr;
if (index == 0xFFFFFFFF || index == 0)
indexAsPtr = 0;
else
indexAsPtr = (T*)(((char*)data) + index);
return indexAsPtr;
}
template <typename T>
inline T* fixRefSafe(T*& indexAsPtr) {
unsigned int index = (unsigned int)indexAsPtr;
if (index == 0xFFFFFFFF || index == 0)
indexAsPtr = 0;
else if (index < 0x80000000)
indexAsPtr = (T*)(((char*)data) + index);
return indexAsPtr;
}
inline void fixTexObjSafe(GXTexObj *obj) {
if (obj->dummy[3] >= 0x10000000) {
obj->dummy[3] = (((u32)data) & 0x7FFFFFFF) + (obj->dummy[3] - 0x10000000);
obj->dummy[3] >>= 5;
}
}
bool fixedUp;
bool tilesetsLoaded;
void fixup();
bool loadTilesets();
void unloadTilesets();
public:
dDvdLoader_c *tilesetLoaders;
dKPMapFile_s *data;
dKPLayer_s *pathLayer;
dDvdLoader_c bgLoader;
dKPNodeExtra_c *levelNodeExtraArray;
dKPMapData_c();
bool load(const char *filename);
~dKPMapData_c();
};
// Currently only available for LEVEL nodes
class dKPNodeExtra_c {
public:
mHeapAllocator_c mallocator;
mMtx matrix;
m3d::mdl_c model;
};
#endif
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