#include <bits/stdc++.h>
using namespace std;
using ll = long long; using pii = pair<ll,ll>;
const ll Nm = 131072; const ll E = 17;
vector<ll> fadj[Nm];
ll radj[Nm];
ll sz[Nm];
ll ht[Nm];
vector<ll> adj[Nm];
bool isHeavy[Nm]; //global memory -> all 0 by default
ll hprt[Nm]; //heavy parent
ll hsz[Nm]; //heavy path size
ll memloc[Nm];
vector<ll> ett; //euler tour
ll floc[Nm];
pii ettmin[2*Nm][E+2]; //{height,xval}
map<ll,ll> hld[2*Nm]; //{elem,count}
bool lazy[2*Nm]; //lazy tag on above
ll ansST[2*Nm];
inline pii fz(pii p1, pii p2) {
if (p1.first<p2.first) {
return p1;
} else {
return p2;
}
}
inline ll l2(ll x) {
return (31-__builtin_clz(x));
}
inline ll v2(ll x) {
return __builtin_ctz(x);
}
void updT(ll x, ll v) {
ansST[Nm+x]+=v;
ll p = (Nm+x)/2;
while (p>0) {
ansST[p]=ansST[2*p]+ansST[2*p+1];
p=p/2;
}
}
ll qryT(ll x) {
if (x<0) {
return 0;
}
ll vx = v2(x+1);
return (ansST[(1LL<<(E-vx))+(x>>vx)]+qryT(x-(1LL<<vx)));
}
ll lca(ll x, ll y) {
x = floc[x]; y = floc[y];
if (x>y) {
swap(x,y);
}
ll l2d = l2(y-x+1);
pii pf = fz(ettmin[x][l2d],ettmin[y-(1LL<<l2d)+1][l2d]);
return pf.second;
}
void pdn(ll x) {
if (x>=Nm || !lazy[x]) {
return;
}
lazy[x]=0;
lazy[2*x]=1;
lazy[2*x+1]=1;
auto A0 = hld[x].begin();
hld[2*x+1]=hld[2*x]=(map<ll,ll>){{(*A0).first,(*A0).second/2}};
}
void lft(ll x) {
if (x>=Nm || lazy[x]) {
return;
}
map<ll,ll> vf;
for (pii p0: hld[2*x]) {
vf[p0.first]+=p0.second;
}
for (pii p0: hld[2*x+1]) {
vf[p0.first]+=p0.second;
}
hld[x]=vf;
}
void stset(ll p, ll sz0, ll t) {
for (pii p0: hld[p]) {
if (p0.first==-1) {
continue;
}
updT(p0.first,-p0.second);
ll pc = p/2;
while (pc>0) {
//auto A0 = hld[pc].find(p0.first);
hld[pc][p0.first]-=p0.second;
pc=pc/2;
}
//cerr << "updT: t,val="<<p0.first<<","<<(-p0.second)<<"\n";
}
hld[p]=(map<ll,ll>){{t,sz0}};
ll pc = p/2;
while (pc>0) {
hld[pc][t]+=sz0;
pc=pc/2;
}
updT(t,sz0);
//cerr << "updT: t,val="<<t<<","<<sz0<<"\n";
lazy[p]=1;
}
void updR(ll x, ll y, ll t) { //set segtree elements in [x,y] to all t
//return;
//cout << "updR on x,y,t="<<x<<","<<y<<","<<t<<"\n";
if (x>y) {
return;
}
for (ll e=E;e>=0;e--) {
pdn((x>>e)+(1LL<<(E-e)));
pdn((y>>e)+(1LL<<(E-e)));
}
ll xc = x; ll yc = y;
while (xc<=yc) {
ll vx = v2(xc); ll vy = v2(yc+1);
if (vx<vy) {
stset((xc>>vx)+(1LL<<(E-vx)),(1LL<<vx),t);
xc += (1LL<<vx);
} else {
stset((yc>>vy)+(1LL<<(E-vy)),(1LL<<vy),t);
yc -= (1LL<<vy);
}
}
// bool lzyF = 0;
// for (ll e=0;e<=E;e++) {
// ll p = (x>>e)+(1LL<<(E-e));
// if (lzyF) {
// lft(p);
// } else {
// if (lazy[p]) {
// lzyF=1;
// }
// }
// }
// lzyF=0;
// for (ll e=0;e<=E;e++) {
// ll p = (y>>e)+(1LL<<(E-e));
// if (lzyF) {
// lft(p);
// } else {
// if (lazy[p]) {
// lzyF=1;
// }
// }
// }
}
//ll CLOCK = 0;
void upd(ll x, ll y, ll t) { //update path x->y, set to time t
//cout << "upd: x,y,t="<<x<<","<<y<<","<<t<<"\n";
// if (100<=CLOCK++) {
// return;
// }
//return;
if (ht[x]<ht[y] || x<0) {
return;
}
if (ht[hprt[x]]>=ht[y]) {
updR(memloc[hprt[x]],memloc[hprt[x]]+ht[x]-ht[hprt[x]],t);
upd(radj[hprt[x]],y,t);
} else {
updR(memloc[hprt[x]]+ht[y]-ht[hprt[x]],memloc[hprt[x]]+ht[x]-ht[hprt[x]],t);
}
}
int main() {
ll N,M,Q;
ios_base::sync_with_stdio(false); cin.tie(0);
cin >> N >> M >> Q;
if (N==1) {
for (ll q=0;q<Q;q++) {
cout << "1\n";
}
exit(0);
}
for (ll i=0;i<(N-1);i++) {
ll a,b; cin >> a >> b;
a--; b--;
adj[a].push_back(b);
adj[b].push_back(a);
}
radj[0]=-1;
ht[0]=0;
queue<ll> q0;
vector<ll> rtpls;
q0.push(0);
while (!q0.empty()) {
ll x = q0.front(); q0.pop();
for (ll y: adj[x]) {
if (y != radj[x]) {
ht[y]=1+ht[x];
radj[y]=x;
fadj[x].push_back(y);
q0.push(y);
rtpls.push_back(y);
}
}
}
for (ll t=(N-1);t>=0;t--) {
ll x = rtpls[t];
hprt[x]=x;
sz[x]=1;
ll maxsz=-1; ll cstr=-1;
for (ll y: fadj[x]) {
sz[x]+=sz[y];
if (sz[y]>maxsz) {
cstr = y; maxsz = sz[y];
}
}
if (cstr!=-1) {
isHeavy[cstr]=1;
}
}
for (ll t=0;t<N;t++) {
ll x = rtpls[t];
if (isHeavy[x]) {
hprt[x]=hprt[radj[x]];
hsz[hprt[x]]++;
}
}
ll MLOC = 0; //memory location
for (ll t=0;t<N;t++) {
ll x = rtpls[t];
if (!isHeavy[x]) {
memloc[x]=MLOC;
hsz[x]++;
MLOC += hsz[x];
}
}
stack<pii> s0;
s0.push({0,0});
while (!s0.empty()) {
pii p0 = s0.top(); s0.pop();
ll x = p0.first; ll t = p0.second;
ett.push_back(x);
if (t==0) {
floc[x]=ett.size()-1;
for (ll y: fadj[x]) {
s0.push({x,1});
s0.push({y,0});
}
}
}
assert(ett.size()<=(2*Nm));
for (ll t=0;t<ett.size();t++) {
ettmin[t][0]={ht[ett[t]],ett[t]};
}
for (ll t=(ett.size());t<(2*Nm);t++) {
ettmin[t][0]={0,0};
}
for (ll e=1;e<=(E+1);e++) {
for (ll t=0;t<=(2*Nm-(1LL<<e));t++) {
ettmin[t][e]=fz(ettmin[t][e-1],ettmin[t+(1LL<<(e-1))][e-1]);
}
}
for (ll t=1;t<(2*Nm);t++) {
hld[t]=(map<ll,ll>){{-1,(1LL<<(E-l2(t)))}};
}
vector<ll> cv;
for (ll i=0;i<M;i++) {
ll ci; cin >> ci; ci--;
cv.push_back(ci);
}
vector<pair<ll,pii>> qryV; //{r,{l,qi}}
ll ans[Q];
for (ll q=0;q<Q;q++) {
ll l,r; cin >> l >> r;
l--; r--;
qryV.push_back({r,{l,q}});
}
sort(qryV.begin(),qryV.end());
ll TR = 0;
//upd(cv[0],cv[0],0);
//cerr << "end op\n";
// cout << "ett vector:\n";
// for (ll x: ett) {
// cout << x << " ";
// }
// cout << "\nfloc vector:\n";
// for (ll x=0;x<N;x++) {
// cout << floc[x]<<" ";
// }
// exit(0);
// for (ll x=0;x<N;x++) {
// cout << "x="<<x<<"\n";
// cout << "isHeavy[x]="<<isHeavy[x]<<"\n";
// cout << "memloc[x]="<<memloc[x]<<"\n";
// }
for (auto A: qryV) {
ll r = A.first; ll l = A.second.first; ll q = A.second.second;
if (r>TR) {
while (r!=TR) {
ll clca = lca(cv[TR],cv[TR+1]);
//cout << "cv[TR],cv[TR+1],clca="<<cv[TR]<<","<<cv[TR+1]<<","<<clca<<"\n";
upd(cv[TR],clca,TR+1);
//cout << "end op\n";
//cerr << "end op\n";
upd(cv[TR+1],clca,TR+1);
//cout << "end op\n";
//cerr << "end op\n";
TR++;
}
}
ll ansv = 0;
ansv += qryT(r);
ansv -= qryT(l);
if (l==r) {
ansv=1;
}
ans[q]=ansv;
}
for (ll m=0;m<=M;m++) {
//cout << "qryT(t="<<m<<")="<<qryT(m)<<"\n";
//cout << "ansST[Nm+t]="<<ansST[Nm+m]<<"\n";
}
for (ll q=0;q<Q;q++) {
cout << ans[q] << "\n";
}
}
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