def main(io) n = io.get g = Graph.new(n) (n-1).times do ui, vi = io.get2; ui -= 1; vi -= 1 g.add_edge_b(ui, vi) end t = g.tree(0) r = Mint.zero (1...n).each do |u| d1 = Mint.new(t.size_of(0)) d2 = Mint.new(t.size_of(u)) d3 = Mint.new(t.size_of(0) - t.size_of(u)) r += (d3*(d3-1)//2 + d2*(d2-1)//2)//(d1*(d1-1)//2) end io.put r//(n-1) end class Graph alias Node = Int32 def initialize(@n : Node) @g = Array(Array(Node)).new(@n) { [] of Node } end getter n : Node delegate :[], to: @g def add_edge(u : Node, v : Node) @g[u] << v end def add_edge_b(u : Node, v : Node) @g[u] << v @g[v] << u end end class GraphW(T) alias Node = Int32 struct Edge(T) def initialize(@src : Node, @dst : Node, @wt : T) end getter src : Node, dst : Node getter wt : T end def initialize(@n : Node, @inf = 10**9) @g = Array(Array(Edge(T))).new(@n) { [] of Edge(T) } end getter n : Node getter inf : T delegate :[], to: @g def add_edge(u : Node, v : Node, wt : T) @g[u] << Edge.new(u, v, wt) end def add_edge_b(u : Node, v : Node, wt : T) @g[u] << Edge.new(u, v, wt) @g[v] << Edge.new(v, u, wt) end end class Tree alias Node = Graph::Node def initialize(@g : Graph, @root : Node) n = @g.n @parent = Array(Node).new(n, 0) @depth = Array(Int32).new(n, -1) @dfs_order = Array(Node).new s = [{@root, @root}] until s.empty? u, p = s.pop @parent[u] = p @depth[u] = @depth[p] + 1 @dfs_order << u @g[u].each do |v| s.push({v, u}) if v != p end end @size = Array(Int32).new(n, 1) @dfs_order.reverse_each do |u| @size[@parent[u]] += @size[u] if u != @root end end getter root : Node getter dfs_order : Array(Node) def parent_of(u : Node) @parent[u] end def depth_of(u : Node) @depth[u] end def size_of(u : Node) @size[u] end def children_of(u : Node) @g[u].reject { |v| v == @parent[u] } end end class Graph def tree(root) Tree.new(self, root) end end macro min_u(a, b) {{a}} = Math.min({{a}}, {{b}}) end macro max_u(a, b) {{a}} = Math.max({{a}}, {{b}}) end def isqrt(n : Int32) m = 46340 r = (1..m).bsearch { |i| i**2 > n } r.nil? ? m : r - 1 end def powr(a : T, n : Int, i : T = T.multiplicative_identity) forall T powr(a, n, i) { |a, b| a * b } end def powr(a : T, n : Int, i : T = T.multiplicative_identity, &block) forall T return i if n == 0 r, b = i, a while n > 0 r = yield r, b if n.bit(0) == 1 b = yield b, b n >>= 1 end r end def ext_gcd(a : T, b : T) forall T if a == 0 {b, T.new(0), T.new(1)} else g, x, y = ext_gcd(b%a, a) {g, y-(b//a)*x, x} end end abstract struct ModInt < Number def self.zero self.new(0) end def self.additive_identity self.new(0) end def self.multiplicative_identity self.new(1) end def initialize(v : Int) @v = (v % @@mod).to_i64 end def_hash @@mod, @v def to_s @v.to_s end def to_s(io : IO) : Nil @v.to_s(io) end getter v : Int64 delegate to_i, to: @v def ==(r : self) @v == r.v end def ==(r : Int) @v == (r % @@mod) end def - : self m(-@v) end def +(r : self) m(@v + r.v) end def +(r : Int) self + m(r) end def -(r : self) m(@v - r.v) end def -(r : Int) self - m(r) end def *(r : self) m(@v * r.v) end def *(r : Int) self * m(r) end def //(r : self) self * r.inv end def //(r : Int) self // m(r) end def **(n : Int) powr(self, n) end def inv m(ext_gcd(@v.to_i32, @@mod)[1]) end private def m(v : Int) self.class.new(v) end end struct Mint < ModInt; @@mod : Int32 = 998244353; end class ProconIO def initialize @buf = [] of String @index = 0 end def get(k : T.class = Int32) forall T get_v(k) end def get(*ks : T.class) forall T ks.map { |k| get_v(k) } end macro define_getn {% for i in (2..9) %} def get{{i}}(k : T.class = Int32) forall T get({% for j in (1..i) %}k{% if j < i %}, {% end %}{% end %}) end {% end %} end define_getn def get_a(n : Int, k : T.class = Int32) forall T Array.new(n) { get_v(k) } end def get_c(n : Int, k : T.class = Int32) forall T get_a(n, k) end def get_c(n : Int, *ks : T.class) forall T a = Array.new(n) { get(*ks) } ks.map_with_index { |_, i| a.map { |e| e[i] } } end macro define_getn_c {% for i in (2..9) %} def get{{i}}_c(n : Int, k : T.class = Int32) forall T get_c(n, {% for j in (1..i) %}k{% if j < i %}, {% end %}{% end %}) end {% end %} end define_getn_c def get_m(r : Int, c : Int, k : T.class = Int32) forall T Array.new(r) { get_a(c, k) } end def put(*vs) vs.each.with_index do |v, i| put_v(v) print i < vs.size - 1 ? " " : "\n" end end def put_e(*vs) put(*vs) exit end private def get_v(k : Int32.class); get_token.to_i32; end private def get_v(k : Int64.class); get_token.to_i64; end private def get_v(k : String.class); get_token; end private def get_token if @buf.size == @index @buf = read_line.split @index = 0 end v = @buf[@index] @index += 1 v end private def put_v(vs : Enumerable) vs.each_with_index do |v, i| print v print " " if i < vs.size - 1 end end private def put_v(v) print v end end main(ProconIO.new)