forked from OctaForge/OctaCore
338 lines
10 KiB
C++
338 lines
10 KiB
C++
// 6-directional octree heightfield map format
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struct elementset
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{
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ushort texture, envmap;
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union
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{
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struct { uchar orient, layer; };
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ushort reuse;
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};
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ushort length, minvert, maxvert;
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};
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enum
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{
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EMID_NONE = 0,
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EMID_CUSTOM,
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EMID_SKY,
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EMID_RESERVED
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};
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struct materialsurface
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{
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ivec o;
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ushort csize, rsize;
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ushort material, skip;
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uchar orient, visible;
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union
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{
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ushort envmap;
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uchar ends;
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};
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};
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struct vertinfo
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{
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ushort x, y, z, norm;
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void setxyz(ushort a, ushort b, ushort c) { x = a; y = b; z = c; }
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void setxyz(const ivec &v) { setxyz(v.x, v.y, v.z); }
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void set(ushort a, ushort b, ushort c, ushort n = 0) { setxyz(a, b, c); norm = n; }
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void set(const ivec &v, ushort n = 0) { set(v.x, v.y, v.z, n); }
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ivec getxyz() const { return ivec(x, y, z); }
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};
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enum
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{
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LAYER_TOP = (1<<5),
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LAYER_BOTTOM = (1<<6),
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LAYER_BLEND = LAYER_TOP|LAYER_BOTTOM,
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MAXFACEVERTS = 15
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};
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struct surfaceinfo
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{
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uchar verts, numverts;
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int totalverts() const { return numverts&MAXFACEVERTS; }
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bool used() const { return (numverts&~LAYER_TOP) != 0; }
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void clear() { numverts = (numverts&MAXFACEVERTS) | LAYER_TOP; }
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void brighten() { clear(); }
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};
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static const surfaceinfo topsurface = {0, LAYER_TOP};
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static const surfaceinfo bottomsurface = {0, LAYER_BOTTOM};
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#define brightsurface topsurface
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#define ambientsurface topsurface
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struct grasstri
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{
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vec v[4];
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int numv;
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plane surface;
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vec center;
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float radius;
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float minz, maxz;
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ushort texture, blend;
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};
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struct occludequery
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{
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void *owner;
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GLuint id;
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int fragments;
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};
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struct vtxarray;
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struct octaentities
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{
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vector<int> mapmodels, decals, other;
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occludequery *query;
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octaentities *next, *rnext;
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int distance;
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ivec o;
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int size;
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ivec bbmin, bbmax;
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octaentities(const ivec &o, int size) : query(0), o(o), size(size), bbmin(o), bbmax(o)
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{
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bbmin.add(size);
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}
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};
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enum
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{
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OCCLUDE_NOTHING = 0,
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OCCLUDE_GEOM,
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OCCLUDE_BB,
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OCCLUDE_PARENT
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};
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enum
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{
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MERGE_ORIGIN = 1<<0,
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MERGE_PART = 1<<1,
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MERGE_USE = 1<<2
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};
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struct vtxarray
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{
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vtxarray *parent;
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vector<vtxarray *> children;
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vtxarray *next, *rnext; // linked list of visible VOBs
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vertex *vdata; // vertex data
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ushort voffset, eoffset, skyoffset, decaloffset; // offset into vertex data
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ushort *edata, *skydata, *decaldata; // vertex indices
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GLuint vbuf, ebuf, skybuf, decalbuf; // VBOs
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ushort minvert, maxvert; // DRE info
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elementset *texelems, *decalelems; // List of element indices sets (range) per texture
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materialsurface *matbuf; // buffer of material surfaces
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int verts, tris, texs, blendtris, blends, alphabacktris, alphaback, alphafronttris, alphafront, refracttris, refract, texmask, sky, matsurfs, matmask, distance, rdistance, dyntexs, decaltris, decaltexs;
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ivec o;
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int size; // location and size of cube.
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ivec geommin, geommax; // BB of geom
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ivec alphamin, alphamax; // BB of alpha geom
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ivec refractmin, refractmax; // BB of refract geom
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ivec skymin, skymax; // BB of any sky geom
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ivec lavamin, lavamax; // BB of any lava
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ivec watermin, watermax; // BB of any water
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ivec glassmin, glassmax; // BB of any glass
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ivec nogimin, nogimax; // BB of any nogi
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ivec bbmin, bbmax; // BB of everything including children
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uchar curvfc, occluded;
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occludequery *query;
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vector<octaentities *> mapmodels, decals;
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vector<grasstri> grasstris;
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int hasmerges, mergelevel;
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int shadowmask;
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};
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struct cube;
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struct clipplanes
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{
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vec o, r, v[8];
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plane p[12];
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uchar side[12];
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uchar size, visible;
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const cube *owner;
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int version;
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};
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struct facebounds
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{
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ushort u1, u2, v1, v2;
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bool empty() const { return u1 >= u2 || v1 >= v2; }
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};
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struct tjoint
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{
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int next;
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ushort offset;
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uchar edge;
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};
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struct cubeext
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{
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vtxarray *va; // vertex array for children, or NULL
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octaentities *ents; // map entities inside cube
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surfaceinfo surfaces[6]; // render info for each surface
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int tjoints; // linked list of t-joints
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uchar maxverts; // allocated space for verts
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vertinfo *verts() { return (vertinfo *)(this+1); }
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};
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struct cube
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{
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cube *children; // points to 8 cube structures which are its children, or NULL. -Z first, then -Y, -X
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cubeext *ext; // extended info for the cube
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union
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{
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uchar edges[12]; // edges of the cube, each uchar is 2 4bit values denoting the range.
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// see documentation jpgs for more info.
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uint faces[3]; // 4 edges of each dimension together representing 2 perpendicular faces
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};
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ushort texture[6]; // one for each face. same order as orient.
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ushort material; // empty-space material
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uchar merged; // merged faces of the cube
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union
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{
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uchar escaped; // mask of which children have escaped merges
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uchar visible; // visibility info for faces
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};
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};
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struct block3
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{
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ivec o, s;
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int grid, orient;
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block3() {}
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block3(const selinfo &sel) : o(sel.o), s(sel.s), grid(sel.grid), orient(sel.orient) {}
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cube *c() { return (cube *)(this+1); }
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int size() const { return s.x*s.y*s.z; }
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};
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struct editinfo
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{
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block3 *copy;
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editinfo() : copy(NULL) {}
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};
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struct undoent { int i; entity e; };
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struct undoblock // undo header, all data sits in payload
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{
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undoblock *prev, *next;
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int size, timestamp, numents; // if numents is 0, is a cube undo record, otherwise an entity undo record
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block3 *block() { return (block3 *)(this + 1); }
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uchar *gridmap()
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{
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block3 *ub = block();
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return (uchar *)(ub->c() + ub->size());
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}
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undoent *ents() { return (undoent *)(this + 1); }
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};
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extern cube *worldroot; // the world data. only a ptr to 8 cubes (ie: like cube.children above)
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extern int wtris, wverts, vtris, vverts, glde, gbatches, rplanes;
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extern int allocnodes, allocva, selchildcount, selchildmat;
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const uint F_EMPTY = 0; // all edges in the range (0,0)
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const uint F_SOLID = 0x80808080; // all edges in the range (0,8)
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#define isempty(c) ((c).faces[0]==F_EMPTY)
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#define isentirelysolid(c) ((c).faces[0]==F_SOLID && (c).faces[1]==F_SOLID && (c).faces[2]==F_SOLID)
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#define setfaces(c, face) { (c).faces[0] = (c).faces[1] = (c).faces[2] = face; }
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#define solidfaces(c) setfaces(c, F_SOLID)
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#define emptyfaces(c) setfaces(c, F_EMPTY)
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#define edgemake(a, b) ((b)<<4|a)
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#define edgeget(edge, coord) ((coord) ? (edge)>>4 : (edge)&0xF)
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#define edgeset(edge, coord, val) ((edge) = ((coord) ? ((edge)&0xF)|((val)<<4) : ((edge)&0xF0)|(val)))
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#define cubeedge(c, d, x, y) ((c).edges[(((d)<<2)+((y)<<1)+(x))])
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#define octadim(d) (1<<(d)) // creates mask for bit of given dimension
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#define octacoord(d, i) (((i)&octadim(d))>>(d))
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#define oppositeocta(d, i) ((i)^octadim(D[d]))
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#define octaindex(d,x,y,z) (((z)<<D[d])+((y)<<C[d])+((x)<<R[d]))
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#define octastep(x, y, z, scale) (((((z)>>(scale))&1)<<2) | ((((y)>>(scale))&1)<<1) | (((x)>>(scale))&1))
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static inline uchar octaboxoverlap(const ivec &o, int size, const ivec &bbmin, const ivec &bbmax)
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{
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uchar p = 0xFF; // bitmask of possible collisions with octants. 0 bit = 0 octant, etc
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ivec mid = ivec(o).add(size);
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if(mid.z <= bbmin.z) p &= 0xF0; // not in a -ve Z octant
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else if(mid.z >= bbmax.z) p &= 0x0F; // not in a +ve Z octant
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if(mid.y <= bbmin.y) p &= 0xCC; // not in a -ve Y octant
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else if(mid.y >= bbmax.y) p &= 0x33; // etc..
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if(mid.x <= bbmin.x) p &= 0xAA;
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else if(mid.x >= bbmax.x) p &= 0x55;
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return p;
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}
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#define loopoctabox(o, size, bbmin, bbmax) uchar possible = octaboxoverlap(o, size, bbmin, bbmax); loopi(8) if(possible&(1<<i))
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#define loopoctaboxsize(o, size, bborigin, bbsize) uchar possible = octaboxoverlap(o, size, bborigin, ivec(bborigin).add(bbsize)); loopi(8) if(possible&(1<<i))
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enum
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{
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O_LEFT = 0,
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O_RIGHT,
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O_BACK,
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O_FRONT,
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O_BOTTOM,
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O_TOP,
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O_ANY
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};
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#define dimension(orient) ((orient)>>1)
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#define dimcoord(orient) ((orient)&1)
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#define opposite(orient) ((orient)^1)
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enum
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{
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VFC_FULL_VISIBLE = 0,
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VFC_PART_VISIBLE,
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VFC_FOGGED,
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VFC_NOT_VISIBLE,
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PVS_FULL_VISIBLE,
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PVS_PART_VISIBLE,
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PVS_FOGGED
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};
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#define GENCUBEVERTS(x0,x1, y0,y1, z0,z1) \
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GENCUBEVERT(0, x1, y1, z0) \
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GENCUBEVERT(1, x0, y1, z0) \
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GENCUBEVERT(2, x0, y1, z1) \
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GENCUBEVERT(3, x1, y1, z1) \
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GENCUBEVERT(4, x1, y0, z1) \
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GENCUBEVERT(5, x0, y0, z1) \
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GENCUBEVERT(6, x0, y0, z0) \
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GENCUBEVERT(7, x1, y0, z0)
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#define GENFACEVERTX(o,n, x,y,z, xv,yv,zv) GENFACEVERT(o,n, x,y,z, xv,yv,zv)
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#define GENFACEVERTSX(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEORIENT(0, GENFACEVERTX(0,0, x0,y1,z1, d0,r1,c1), GENFACEVERTX(0,1, x0,y1,z0, d0,r1,c0), GENFACEVERTX(0,2, x0,y0,z0, d0,r0,c0), GENFACEVERTX(0,3, x0,y0,z1, d0,r0,c1)) \
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GENFACEORIENT(1, GENFACEVERTX(1,0, x1,y1,z1, d1,r1,c1), GENFACEVERTX(1,1, x1,y0,z1, d1,r0,c1), GENFACEVERTX(1,2, x1,y0,z0, d1,r0,c0), GENFACEVERTX(1,3, x1,y1,z0, d1,r1,c0))
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#define GENFACEVERTY(o,n, x,y,z, xv,yv,zv) GENFACEVERT(o,n, x,y,z, xv,yv,zv)
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#define GENFACEVERTSY(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEORIENT(2, GENFACEVERTY(2,0, x1,y0,z1, c1,d0,r1), GENFACEVERTY(2,1, x0,y0,z1, c0,d0,r1), GENFACEVERTY(2,2, x0,y0,z0, c0,d0,r0), GENFACEVERTY(2,3, x1,y0,z0, c1,d0,r0)) \
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GENFACEORIENT(3, GENFACEVERTY(3,0, x0,y1,z0, c0,d1,r0), GENFACEVERTY(3,1, x0,y1,z1, c0,d1,r1), GENFACEVERTY(3,2, x1,y1,z1, c1,d1,r1), GENFACEVERTY(3,3, x1,y1,z0, c1,d1,r0))
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#define GENFACEVERTZ(o,n, x,y,z, xv,yv,zv) GENFACEVERT(o,n, x,y,z, xv,yv,zv)
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#define GENFACEVERTSZ(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEORIENT(4, GENFACEVERTZ(4,0, x0,y0,z0, r0,c0,d0), GENFACEVERTZ(4,1, x0,y1,z0, r0,c1,d0), GENFACEVERTZ(4,2, x1,y1,z0, r1,c1,d0), GENFACEVERTZ(4,3, x1,y0,z0, r1,c0,d0)) \
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GENFACEORIENT(5, GENFACEVERTZ(5,0, x0,y0,z1, r0,c0,d1), GENFACEVERTZ(5,1, x1,y0,z1, r1,c0,d1), GENFACEVERTZ(5,2, x1,y1,z1, r1,c1,d1), GENFACEVERTZ(5,3, x0,y1,z1, r0,c1,d1))
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#define GENFACEVERTSXY(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEVERTSX(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEVERTSY(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1)
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#define GENFACEVERTS(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEVERTSXY(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1) \
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GENFACEVERTSZ(x0,x1, y0,y1, z0,z1, c0,c1, r0,r1, d0,d1)
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