ref: 75f9f90edfa9cdb2804dce926a2a1dabb27d5a88
dir: /path/a∗.c/
#include <u.h>
#include <libc.h>
#include <draw.h>
#include "asif.h"
#include "path.h"
typedef Vertex Point;
typedef struct PNode PNode;
struct PNode{
Node *n;
double g;
double h;
double Δg;
Pairheap *pq;
};
static PNode** (*successorfn)(Node*);
static Zpool *zpool;
static void
backtrack(Node *a, Node *b)
{
Node *u, *v;
PNode *p;
for(u=b; u!=a; u=v){
p = u->aux;
stats.cost += p->g;
stats.steps++;
v = u->from;
v->to = u;
}
}
/* slightly penalize diagonal movement for nicer-looking paths; cf.:
* https://www.redbloblgames.com/pathfinding/a-star/implementation.html
* one addition: make cost function to increase at a slower rate to
* resolve tie-breakers in favor of closer nodes, otherwise we will
* explore all nodes in the rectangle between the two points */
static double
movecost(int Δx, int Δy)
{
return Δx != 0 && Δy != 0 ? 1.001 : 1.0;
}
static PNode **
successors8(Node *nu)
{
static PNode *suc[8+1];
static dtab[2*(nelem(suc)-1)]={
1,0, 0,-1, -1,0, 0,1,
-1,-1, -1,1, 1,-1, 1,1,
};
int i;
Node *nv;
PNode *v, **vp;
Point p;
Rectangle r;
memset(suc, 0, sizeof suc);
p = n2p(nu);
r = Rect(0, 0, gridwidth, gridheight);
for(i=0, vp=suc; i<nelem(dtab); i+=2){
if(!ptinrect(addpt(p, Pt(dtab[i], dtab[i+1])), r))
continue;
nv = nu + dtab[i+1] * gridwidth + dtab[i];
assert(nv >= grid && nv < grid + gridwidth * gridheight);
if(isblocked(nv))
continue;
if((v = nv->aux) == nil){
v = nv->aux = zalloc(zpool);
v->n = nv;
}
v->Δg = movecost(dtab[i], dtab[i+1]);
*vp++ = v;
}
return suc;
}
static PNode **
successors4(Node *nu)
{
static PNode *suc[4+1];
static int dtab[2*(nelem(suc)-1)]={
1,0, -1,0, 0,-1, 0,1,
}, rdtab[nelem(dtab)]={
0,1, 0,-1, -1,0, 1,0,
};
int i, *t;
Node *nv;
PNode *v, **vp;
Point p;
Rectangle r;
memset(suc, 0, sizeof suc);
p = n2p(nu);
r = Rect(0, 0, gridwidth, gridheight);
/* path straightening; cf.:
* https://www.redbloblgames.com/pathfinding/a-star/implementation.html */
t = (p.x + p.y) % 2 == 0 ? rdtab : dtab;
for(i=0, vp=suc; i<nelem(dtab); i+=2){
if(!ptinrect(addpt(p, Pt(t[i], t[i+1])), r))
continue;
nv = nu + t[i+1] * gridwidth + t[i];
assert(nv >= grid && nv < grid + gridwidth * gridheight);
if(isblocked(nv))
continue;
if((v = nv->aux) == nil){
v = nv->aux = zalloc(zpool);
v->n = nv;
}
v->Δg = movecost(t[i], t[i+1]);
*vp++ = v;
}
return suc;
}
static int
a∗(Node *a, Node *b)
{
double g, Δg;
PNode *u, *v, **vl;
Node *nu, *nv;
Pairheap *queue, *pn;
queue = nil;
u = a->aux = zalloc(zpool);
nu = u->n = a;
u->pq = pushqueue(distfn(a, b), u, &queue);
while((pn = popqueue(&queue)) != nil){
u = pn->aux;
nu = u->n;
free(pn);
if(nu == b)
break;
nu->closed = 1;
stats.closed++;
dprint(Logtrace, "a∗: closed [%#p,%P] h %.4f g %.4f\n",
u, n2p(nu), u->h, u->g);
if((vl = successorfn(nu)) == nil)
sysfatal("a∗: %r");
for(v=*vl++; v!=nil; v=*vl++){
nv = v->n;
stats.touched++;
if(nv->closed)
continue;
g = u->g + v->Δg;
Δg = v->g - g;
if(!nv->open){
nv->from = nu;
nv->open = 1;
stats.opened++;
v->h = distfn(nv, b);
v->g = g;
dprint(Logtrace, "a∗: opened [%#p,%P] h %.4f g %.4f f %.4f\n",
v, n2p(nv), v->h, v->g, v->h + v->g);
v->pq = pushqueue(v->g + v->h, v, &queue);
}else if(Δg > 0){
stats.updated++;
dprint(Logtrace, "a∗: decrease [%#p,%P] h %.4f g %.4f Δg %.4f → f %.4f\n",
v, n2p(nv), v->h, v->g, Δg, v->h + v->g - Δg);
nv->from = u->n;
v->g -= Δg;
decreasekey(v->pq, Δg, &queue);
assert(v->g >= 0);
}
}
}
nukequeue(&queue);
if(nu != b)
return -1;
return 0;
}
int
a∗findpath(Node *a, Node *b)
{
int r;
assert(a != nil && b != nil && a != b);
clearpath();
if(zpool == nil)
zpool = znew(sizeof(PNode));
successorfn = movemode == Move8 ? successors8 : successors4;
dprint(Logdebug, "grid::a∗findpath: a∗ from [%#p,%P] to [%#p,%P]\n",
a, n2p(a), b, n2p(b));
if((r = a∗(a, b)) < 0)
dprint(Logdebug, "grid::a∗findpath: failed to find a path\n");
else
backtrack(a, b);
znuke(zpool);
return r;
}