ref: 7616b2f22d8e090dcbea817aee2cd819bc41bda7
dir: /bspfile.h/
// upper design bounds #define MAX_MAP_HULLS 4 #define MAX_MAP_MODELS 256 #define MAX_MAP_BRUSHES 4096 #define MAX_MAP_ENTSTRING 65536 #define MAX_MAP_PLANES 32767 #define MAX_MAP_NODES 32767 // because negative shorts are contents #define MAX_MAP_CLIPNODES 32767 // #define MAX_MAP_VERTS 65535 #define MAX_MAP_FACES 65535 #define MAX_MAP_MARKSURFACES 65535 #define MAX_MAP_TEXINFO 4096 #define MAX_MAP_EDGES 256000 #define MAX_MAP_SURFEDGES 512000 #define MAX_MAP_TEXTURES 512 #define MAX_MAP_MIPTEX 0x200000 #define MAX_MAP_LIGHTING 0x100000 #define MAX_MAP_VISIBILITY 0x100000 #define MAX_MAP_PORTALS 65536 // key / value pair sizes #define MAX_KEY 32 #define MAX_VALUE 1024 //============================================================================= #define BSPVERSION 29 #define BSP2VERSION ('B'|'S'<<8|'P'<<16|'2'<<24) #define TOOLVERSION 2 #ifdef __plan9__ #pragma pack on #else #pragma pack(1) #endif typedef struct { int fileofs, filelen; } lump_t; #define LUMP_ENTITIES 0 #define LUMP_PLANES 1 #define LUMP_TEXTURES 2 #define LUMP_VERTEXES 3 #define LUMP_VISIBILITY 4 #define LUMP_NODES 5 #define LUMP_TEXINFO 6 #define LUMP_FACES 7 #define LUMP_LIGHTING 8 #define LUMP_CLIPNODES 9 #define LUMP_LEAFS 10 #define LUMP_MARKSURFACES 11 #define LUMP_EDGES 12 #define LUMP_SURFEDGES 13 #define LUMP_MODELS 14 #define HEADER_LUMPS 15 typedef struct { float mins[3], maxs[3]; float origin[3]; int headnode[MAX_MAP_HULLS]; int visleafs; // not including the solid leaf 0 int firstface, numfaces; } dmodel_t; typedef struct { int version; lump_t lumps[HEADER_LUMPS]; } dheader_t; typedef struct { int nummiptex; int dataofs[4]; // [nummiptex] } dmiptexlump_t; #define MIPLEVELS 4 typedef struct miptex_s { char name[16]; unsigned width, height; unsigned offsets[MIPLEVELS]; // four mip maps stored } miptex_t; typedef struct { float point[3]; } dvertex_t; enum { // 0-2 are axial planes PLANE_X, PLANE_Y, PLANE_Z, // 3-5 are non-axial planes snapped to the nearest PLANE_ANYX, PLANE_ANYY, PLANE_ANYZ, }; typedef struct { float normal[3]; float dist; int type; // PLANE_X - PLANE_ANYZ ?remove? trivial to regenerate } dplane_t; #define CONTENTS_EMPTY -1 #define CONTENTS_SOLID -2 #define CONTENTS_WATER -3 #define CONTENTS_SLIME -4 #define CONTENTS_LAVA -5 #define CONTENTS_SKY -6 #define CONTENTS_ORIGIN -7 // removed at csg time #define CONTENTS_CLIP -8 // changed to contents_solid #define CONTENTS_CURRENT_0 -9 #define CONTENTS_CURRENT_90 -10 #define CONTENTS_CURRENT_180 -11 #define CONTENTS_CURRENT_270 -12 #define CONTENTS_CURRENT_UP -13 #define CONTENTS_CURRENT_DOWN -14 // !!! if this is changed, it must be changed in asm_i386.h too !!! typedef struct { int planenum; short children[2]; // negative numbers are -(leafs+1), not nodes short mins[3]; // for sphere culling short maxs[3]; unsigned short firstface; unsigned short numfaces; // counting both sides } dnode_t; typedef struct { int planenum; int children[2]; // negative numbers are -(leafs+1), not nodes float mins[3]; // for sphere culling float maxs[3]; unsigned int firstface; unsigned int numfaces; // counting both sides } bsp2_dnode_t; typedef struct { int planenum; short children[2]; // negative numbers are contents } dclipnode_t; typedef struct { int planenum; int children[2]; // negative numbers are contents } bsp2_dclipnode_t; typedef struct texinfo_s { float vecs[2][4]; // [s/t][xyz offset] int miptex; int flags; } texinfo_t; #define TEX_SPECIAL 1 // sky or slime, no lightmap or 256 subdivision // note that edge 0 is never used, because negative edge nums are used for // counterclockwise use of the edge in a face typedef struct { unsigned short v[2]; // vertex numbers } dedge_t; typedef struct { unsigned int v[2]; } bsp2_dedge_t; #define MAXLIGHTMAPS 4 typedef struct { short planenum; short side; int firstedge; // we must support > 64k edges short numedges; short texinfo; // lighting info byte styles[MAXLIGHTMAPS]; int lightofs; // start of [numstyles*surfsize] samples } dface_t; typedef struct { int planenum; int side; int firstedge; // we must support > 64k edges int numedges; int texinfo; // lighting info byte styles[MAXLIGHTMAPS]; int lightofs; // start of [numstyles*surfsize] samples } bsp2_dface_t; // leaf 0 is the generic CONTENTS_SOLID leaf, used for all solid areas // all other leafs need visibility info typedef struct { int contents; int visofs; // -1 = no visibility info short mins[3]; // for frustum culling short maxs[3]; unsigned short firstmarksurface; unsigned short nummarksurfaces; byte ambient_level[Namb]; } dleaf_t; typedef struct { int contents; int visofs; // -1 = no visibility info float mins[3]; // for frustum culling float maxs[3]; unsigned int firstmarksurface; unsigned int nummarksurfaces; byte ambient_level[Namb]; } bsp2_dleaf_t; #ifdef __plan9__ #pragma pack off #else #pragma pack(0) #endif //============================================================================ #ifndef QUAKE_GAME #define ANGLE_UP -1 #define ANGLE_DOWN -2 // the utilities get to be lazy and just use large static arrays extern int nummodels; extern dmodel_t dmodels[MAX_MAP_MODELS]; extern int visdatasize; extern byte dvisdata[MAX_MAP_VISIBILITY]; extern int lightdatasize; extern byte dlightdata[MAX_MAP_LIGHTING]; extern int texdatasize; extern byte dtexdata[MAX_MAP_MIPTEX]; // (dmiptexlump_t) extern int entdatasize; extern char dentdata[MAX_MAP_ENTSTRING]; extern int numleafs; extern dleaf_t dleafs[MAX_MAP_LEAFS]; extern int numplanes; extern dplane_t dplanes[MAX_MAP_PLANES]; extern int numvertexes; extern dvertex_t dvertexes[MAX_MAP_VERTS]; extern int numnodes; extern dnode_t dnodes[MAX_MAP_NODES]; extern int numtexinfo; extern texinfo_t texinfo[MAX_MAP_TEXINFO]; extern int numfaces; extern dface_t dfaces[MAX_MAP_FACES]; extern int numclipnodes; extern dclipnode_t dclipnodes[MAX_MAP_CLIPNODES]; extern int numedges; extern dedge_t dedges[MAX_MAP_EDGES]; extern int nummarksurfaces; extern unsigned short dmarksurfaces[MAX_MAP_MARKSURFACES]; extern int numsurfedges; extern int dsurfedges[MAX_MAP_SURFEDGES]; int CompressVis (byte *vis, byte *dest); void LoadBSPFile (char *filename); void WriteBSPFile (char *filename); void PrintBSPFileSizes (void); #endif