class heavy_light_decomposition:
    "The heavy edge oriented from the vertex `v` is the edge between `v` and `adj[vertex][0]`"

    def __init__(self, N, adj, root=0):
        self.N = N
        self.adj = [row.copy() for row in adj]
        self.root = root

        self.sz = [1] * N
        self.in_ = [0] * N
        self.out = [0] * N
        self.head = [0] * N
        self.rev = [0] * N
        self.par = [-1] * N

        self._dfs_sz()
        self._dfs_hld()

    def _dfs_sz(self):
        stack = []
        stack.append(~self.root)
        stack.append(self.root)
        while stack:
            v = stack.pop()
            if v >= 0:
                for nv in self.adj[v]:
                    if nv == self.par[v]:
                        continue
                    self.par[nv] = v
                    stack.append(~nv)
                    stack.append(nv)
            else:
                v = ~v
                if v and self.adj[v][0] == self.par[v]:
                    self.adj[v][0], self.adj[v][-1] = self.adj[v][-1], self.adj[v][0]
                for i, nv in enumerate(self.adj[v]):
                    if nv == self.par[v]:
                        continue
                    if self.sz[self.adj[v][0]] < self.sz[nv]:
                        self.adj[v][0], self.adj[v][i] = self.adj[v][i], self.adj[v][0]
                    self.sz[v] += self.sz[nv]

    def _dfs_hld(self):
        t = 0
        self.head[self.root] = self.root
        stack = []
        stack.append(~self.root)
        stack.append(self.root)
        while stack:
            v = stack.pop()
            if v >= 0:
                self.in_[v] = t
                self.rev[t] = v
                t += 1
                for nv in reversed(self.adj[v]):
                    if nv == self.par[v]:
                        continue
                    self.head[nv] = self.head[v] if self.adj[v][0] == nv else nv
                    stack.append(~nv)
                    stack.append(nv)
            else:
                v = ~v
                self.out[v] = t

    def level_ancestor(self, v, level):
        while True:
            u = self.head[v]
            if self.in_[v] - level >= self.in_[u]:
                return self.rev[self.in_[v] - level]
            level -= self.in_[v] - self.in_[u] + 1
            v = self.par[u]

    def lowest_common_ancestor(self, u, v):
        while True:
            if self.in_[u] > self.in_[v]:
                u, v = v, u
            if self.head[u] == self.head[v]:
                return u
            v = self.par[self.head[v]]

    def query(self, u, v, e, q, f, edge=False):
        l = e()
        r = e()
        while True:
            if self.in_[u] > self.in_[v]:
                u, v = v, u
                l, r = r, l
            if self.head[u] == self.head[v]:
                break
            l = f(q(self.in_[self.head[v]], self.in_[v] + 1), l)
            v = self.par[self.head[v]]
        return f(f(q(self.in_[u] + edge, self.in_[v] + 1), l), r)

    def add(self, u, v, q, edge=False):
        while True:
            if self.in_[u] > self.in_[v]:
                u, v = v, u
            if self.head[u] == self.head[v]:
                break
            q(self.in_[self.head[v]], self.in_[v] + 1)
            v = self.par[self.head[v]]
        q(self.in_[u] + edge, self.in_[v] + 1)

    def subtree(self, v, edge=False):
        return (self.in_[v] + edge, self.out[v])


N = int(input())
edges = []
adj = [[] for _ in range(N)]
for _ in range(N - 1):
    u, v = map(int, input().split())
    u -= 1; v -= 1
    edges.append((u, v))
    adj[u].append(v)
    adj[v].append(u)

hld = heavy_light_decomposition(N, adj)
imos = [0] * (N + 1)
for u, v in edges:
    d = 1 if u < v else -1
    if hld.in_[u] > hld.in_[v]:
        u, v = v, u
        d *= -1
        imos[0] += 1
        imos[-1] -= 1
    l, r = hld.subtree(v)
    imos[l] += d
    imos[r] -= d

for i in range(N):
    imos[i + 1] += imos[i]

answer = [0] * N
for t in range(N):
    answer[hld.rev[t]] = imos[t]

print(*answer, sep='\n')