ref: b10d223226d69e6a0989f1cc949c455322ff75c8
dir: /map.c/
#include <u.h> #include <libc.h> #include <draw.h> #include "dat.h" #include "fns.h" Map *map; int mapwidth, mapheight; Node *nodemap; int nodemapwidth, nodemapheight; static void updatemap(Mobj *mo) { linktomap(mo); markmobj(mo, 1); } static int findspawn(int *nx, int *ny, int ofs, Obj *o, Obj *spawn) { int sz, x, y, minx, miny, maxx, maxy; sz = ofs * o->w; minx = *nx - sz; miny = *ny - sz; maxx = *nx + spawn->w + sz; maxy = *ny + spawn->h + sz; for(x=minx+sz, y=maxy; x<maxx; x++) if(!isblocked(x, y, o)) goto found; for(x=maxx, y=maxy; y>miny; y--) if(!isblocked(x, y, o)) goto found; for(x=maxx, y=miny; x>minx; x--) if(!isblocked(x, y, o)) goto found; for(x=minx, y=miny; y<=maxy; y++) if(!isblocked(x, y, o)) goto found; return -1; found: *nx = x; *ny = y; return 0; } static int getspawn(int *nx, int *ny, Obj *o) { int n, x, y; Map *m; Mobjl *ml; Mobj *mo; Obj **os; x = *nx; y = *ny; if(o->f & Fbuild){ if(isblocked(x, y, o)){ werrstr("getspawn: building placement at %d,%d blocked", x, y); return -1; } }else if((o->f & Fair) == 0){ m = map + y / Node2Tile * mapwidth + x / Node2Tile; for(mo=nil, ml=m->ml.l; ml!=&m->ml; ml=ml->l){ mo = ml->mo; for(os=mo->o->spawn, n=mo->o->nspawn; n>0; n--, os++) if(*os == o) break; if(n > 0) break; } if(ml == &m->ml){ werrstr("getspawn: no spawn object at %d,%d", x, y); return -1; } for(n=0; n<3; n+=o->w) if(findspawn(&x, &y, n / o->w, o, mo->o) >= 0) break; if(n == 3){ werrstr("getspawn: no free spot for %s at %d,%d\n", o->name, x, y); return -1; } } *nx = x; *ny = y; return 0; } Mobj * mapspawn(int x, int y, Obj *o) { Mobj *mo; if(o->f & Fbuild && (x & Node2Tile-1 || y & Node2Tile-1)){ werrstr("mapspawn: building spawn %d,%d not aligned to tile map", x, y); return nil; } if(getspawn(&x, &y, o) < 0) return nil; mo = emalloc(sizeof *mo); mo->uuid = lrand(); mo->x = x; mo->y = y; mo->px = x * Nodewidth; mo->py = y * Nodeheight; mo->subpx = mo->px << Subpxshift; mo->subpy = mo->py << Subpxshift; mo->o = o; mo->f = o->f; mo->hp = o->hp; mo->θ = frand() * 256; updatemap(mo); return mo; } void initmap(void) { nodemapwidth = mapwidth * Node2Tile; nodemapheight = mapheight * Node2Tile; nodemap = emalloc(nodemapwidth * nodemapheight * sizeof *nodemap); initbmap(); }