ref: 063901a12ba4031e700716f193818a88a25439b2
dir: /sim.c/
#include <u.h> #include <libc.h> #include "dat.h" #include "fns.h" static Tile **objs, **objhead; static int maxobj; enum{ UpkeepΔt = 150, }; static int stock[Gtot], rstock[Rtot]; int max(int a, int b) { return a > b ? a : b; } int min(int a, int b) { return a < b ? a : b; } static void spawn(Tile *m, int n) { Tile **o; if(objhead - objs >= maxobj) sysfatal("spawn: out of bounds"); m->t = terrains + Tplain; m->b = buildings + n; for(o=objhead-1; o>=objs; o--) if((*o)->b - buildings <= n) break; /* push in front of lower priority object */ if(++o < objhead) memmove(o+1, o, (objhead - o) * sizeof *o); *o = m; objhead++; } static void starve(Tile *o) { o->state = Svoid; } static void upkeep(void) { int n, r, g, upkeep[nelem(resources)]; Tile *o, **ol; if(clock % UpkeepΔt != 0 || clock == 0) return; for(ol=objhead-1; ol>=objs; ol--){ o = *ol; if(o->state <= Svoid) continue; if(o->b == nil) sysfatal("empty active tile"); memcpy(upkeep, o->b->upkeep, sizeof upkeep); for(r=0; r<nelem(resources); r++) if(upkeep[r] > rstock[r]){ starve(o); goto bail; } for(g=0; g<nelem(goods); g++){ r = goods[g].resource; if(upkeep[r] <= 0) continue; n = min(stock[g], upkeep[r]); stock[g] -= n; rstock[r] -= n; upkeep[r] -= n; } for(r=0; r<nelem(upkeep); r++) if(upkeep[r] > 0) sysfatal("upkeep: goods/resources phase error"); bail:; } } static int trypickup(Tile *o) { int g; if(o->pickupΔt == 0 || o->clock < o->pickupΔt) return 0; for(g=0; g<nelem(goods); g++) stock[g] += o->prodstock[g]; o->pickupΔt = 0; return 1; } static int trysupply(Tile *o) { int g; for(g=0; g<nelem(goods); g++) if(o->b->prodcost[g] > stock[g]) return 0; for(g=0; g<nelem(goods); g++) if(o->b->prodcost[g] > 0) stock[g] -= o->b->prodcost[g]; o->supplyΔt = o->clock + o->distance; return 1; } static void updateobj(void) { int g; Tile *o, **ol; for(ol=objhead-1; ol>=objs; ol--){ o = *ol; o->clock++; switch(o->state){ case Swaitbuild: if(o->clock >= o->distance){ o->clock = 0; o->state = Sbuild; } break; case Sbuild: if(o->clock >= o->b->buildtime){ o->clock = 0; o->state = o->b->prodtime > 0 ? Sstarved : Svoid; } break; case Sstarved: trypickup(o); if(trysupply(o)) o->state = Swaitsupply; break; case Swaitsupply: trypickup(o); if(o->clock >= o->supplyΔt){ o->gotsupply = 0; o->supplyΔt = 0; o->prodΔt = o->clock + o->b->prodtime; o->state = Sproduce; } break; case Sproduce: if(!o->gotsupply){ if(o->supplyΔt == 0){ if(!trysupply(o)) return; for(g=0; g<nelem(goods); g++) if(o->b->prodcost[g] > stock[g]) break; }else if(o->clock >= o->supplyΔt){ o->gotsupply = 1; o->supplyΔt = 0; } } trypickup(o); if(o->clock >= o->prodΔt){ o->pickupΔt = o->clock + o->distance * 2; if(!o->gotsupply){ if(o->supplyΔt == 0) o->state = Sstarved; else o->state = Swaitsupply; }else{ o->prodΔt += o->b->prodtime; o->gotsupply = 0; } } break; default: break; } } } void step(void) { upkeep(); updateobj(); } static void calcdists(int n) { int x, y, x´, y´; Tile *o; x = n % mapwidth; y = n / mapheight; for(o=map, x´=0, y´=0; o<map+mapwidth*mapheight; o++, x´++){ o->distance = mhdist(x, y, x´, y´); if(x´ == mapwidth){ x´ = 0; y´++; } } } void init(void) { int i, n; initmap(); maxobj = mapwidth * mapheight; objs = emalloc(maxobj * sizeof *objs); objhead = objs; n = nrand(maxobj); spawn(map + n, Btownhall); calcdists(n); for(i=0; i<nelem(initialstock); i++){ stock[i] = initialstock[i]; rstock[goods[i].resource] += stock[i]; } }