結果
| 問題 | No.1637 Easy Tree Query |
| ユーザー |
 yuruhiya
|
| 提出日時 | 2021-08-06 21:23:40 |
| 言語 | Crystal (1.11.2) |
| 結果 |
AC
|
| 実行時間 | 180 ms / 2,000 ms |
| コード長 | 14,293 bytes |
| コンパイル時間 | 16,604 ms |
| コンパイル使用メモリ | 291,020 KB |
| 実行使用メモリ | 16,248 KB |
| 最終ジャッジ日時 | 2023-10-17 04:38:46 |
| 合計ジャッジ時間 | 22,809 ms |
|
ジャッジサーバーID (参考情報) |
judge15 / judge13 |
テストケース
テストケース表示| 入力 | 結果 | 実行時間 実行使用メモリ |
|---|---|---|
| testcase_00 | AC | 1 ms
4,324 KB |
| testcase_01 | AC | 2 ms
4,348 KB |
| testcase_02 | AC | 173 ms
11,184 KB |
| testcase_03 | AC | 2 ms
4,348 KB |
| testcase_04 | AC | 35 ms
7,324 KB |
| testcase_05 | AC | 154 ms
6,620 KB |
| testcase_06 | AC | 99 ms
5,908 KB |
| testcase_07 | AC | 57 ms
4,348 KB |
| testcase_08 | AC | 29 ms
6,428 KB |
| testcase_09 | AC | 103 ms
9,372 KB |
| testcase_10 | AC | 69 ms
5,500 KB |
| testcase_11 | AC | 150 ms
9,964 KB |
| testcase_12 | AC | 154 ms
8,596 KB |
| testcase_13 | AC | 23 ms
5,228 KB |
| testcase_14 | AC | 60 ms
9,524 KB |
| testcase_15 | AC | 138 ms
10,220 KB |
| testcase_16 | AC | 92 ms
10,936 KB |
| testcase_17 | AC | 44 ms
5,572 KB |
| testcase_18 | AC | 141 ms
6,620 KB |
| testcase_19 | AC | 137 ms
7,312 KB |
| testcase_20 | AC | 164 ms
8,440 KB |
| testcase_21 | AC | 76 ms
7,716 KB |
| testcase_22 | AC | 160 ms
11,048 KB |
| testcase_23 | AC | 41 ms
5,960 KB |
| testcase_24 | AC | 59 ms
7,760 KB |
| testcase_25 | AC | 156 ms
6,384 KB |
| testcase_26 | AC | 165 ms
8,852 KB |
| testcase_27 | AC | 180 ms
10,732 KB |
| testcase_28 | AC | 111 ms
6,196 KB |
| testcase_29 | AC | 125 ms
8,196 KB |
| testcase_30 | AC | 30 ms
7,520 KB |
| testcase_31 | AC | 135 ms
4,348 KB |
| testcase_32 | AC | 66 ms
6,468 KB |
| testcase_33 | AC | 150 ms
5,520 KB |
| testcase_34 | AC | 36 ms
16,248 KB |
ソースコード
# require "/template"
# require "./scanner"
# ### Specifications
#
# ```plain
# Inside input macro | Expanded code
# ----------------------------------------------+---------------------------------------
# Uppercase string: Int32, Int64, Float64, etc. | {}.new(Scanner.s)
# s | Scanner.s
# c | Scanner.c
# Other lowercase string: i, i64, f, etc. | Scanner.s.to_{}
# operator[]: type[size] | Array.new(input(size)) { input(type) }
# Tuple literal: {t1, t2, t3} | {input(t1), input(t2), input(t3)}
# Array literal: [t1, t2, t3] | [input(t1), input(t2), input(t3)]
# Range literal: t1..t2 | input(t1)..input(t2)
# If: cond ? t1 : t2 | cond ? input(t1) : input(t2)
# Assign: target = value | target = input(value)
# ```
#
# ### Examples
#
# Input:
# ```plain
# 5 3
# foo bar
# 1 2 3 4 5
# ```
# ```
# n, m = input(Int32, Int64) # => {5, 10i64}
# input(String, Char[m]) # => {"foo", ['b', 'a', 'r']}
# input(Int32[n]) # => [1, 2, 3, 4, 5]
# ```
# ```
# n, m = input(i, i64) # => {5, 10i64}
# input(s, c[m]) # => {"foo", ['b', 'a', 'r']}
# input(i[n]) # => [1, 2, 3, 4, 5]
# ```
#
# Input:
# ```plain
# 2 3
# 1 2 3
# 4 5 6
# ```
#
# ```
# h, w = input(i, i) # => {2, 3}
# input(i[h, w]) # => [[1, 2, 3], [4, 5, 6]]
# ```
# ```
# input(i[i][i]) # => [[1, 2, 3], [4, 5, 6]]
# ```
#
# Input:
# ```plain
# 5 3
# 3 1 4 2 5
# 1 2
# 2 3
# 3 1
# ```
# ```
# n, m = input(i, i) # => {5, 3}
# input(i.pred[n]) # => [2, 0, 3, 1, 4]
# input({i - 1, i - 1}[m]) # => [{0, 1}, {1, 2}, {2, 0}]
# ```
#
# Input:
# ```plain
# 3
# 1 2
# 2 2
# 3 2
# ```
# ```
# input({tmp = i, tmp == 1 ? i : i.pred}[i]) # => [{1, 2}, {2, 1}, {3, 1}]
# ```
#
# Input:
# ```plain
# 3
# 1 2
# 2 3
# 3 1
# ```
# ```
# n = input(i)
# input_column({Int32, Int32}, n) # => {[1, 2, 3], [2, 3, 1]}
# ```
class Scanner
private def self.skip_to_not_space
peek = STDIN.peek
not_space = peek.index { |x| x != 32 && x != 10 } || peek.size
STDIN.skip(not_space)
end
def self.c
skip_to_not_space
STDIN.read_char.not_nil!
end
def self.s
skip_to_not_space
peek = STDIN.peek
if index = peek.index { |x| x == 32 || x == 10 }
STDIN.skip(index + 1)
return String.new(peek[0, index])
end
String.build do |buffer|
loop do
buffer.write peek
STDIN.skip(peek.size)
peek = STDIN.peek
break if peek.empty?
if index = peek.index { |x| x == 32 || x == 10 }
buffer.write peek[0, index]
STDIN.skip(index)
break
end
end
end
end
end
macro internal_input(type, else_ast)
{% if Scanner.class.has_method?(type.id) %}
Scanner.{{type.id}}
{% elsif type.stringify == "String" %}
Scanner.s
{% elsif type.stringify == "Char" %}
Scanner.c
{% elsif type.stringify =~ /[A-Z][a-z0-9_]*/ %}
{{type.id}}.new(Scanner.s)
{% elsif String.has_method?("to_#{type}".id) %}
Scanner.s.to_{{type.id}}
{% else %}
{{else_ast}}
{% end %}
end
macro internal_input_array(type, args)
{% for i in 0...args.size %}
%size{i} = input({{args[i]}})
{% end %}
{% begin %}
{% for i in 0...args.size %} Array.new(%size{i}) { {% end %}
input({{type.id}})
{% for i in 0...args.size %} } {% end %}
{% end %}
end
macro input(type)
{% if type.is_a?(Call) %}
{% if type.receiver.is_a?(Nop) %}
internal_input(
{{type.name}}, {{type.name}}(
{% for argument in type.args %} input({{argument}}), {% end %}
)
)
{% elsif type.name.stringify == "[]" %}
internal_input_array({{type.receiver}}, {{type.args}})
{% else %}
input({{type.receiver}}).{{type.name.id}}(
{% for argument in type.args %} input({{argument}}), {% end %}
) {{type.block}}
{% end %}
{% elsif type.is_a?(TupleLiteral) %}
{ {% for i in 0...type.size %} input({{type[i]}}), {% end %} }
{% elsif type.is_a?(ArrayLiteral) %}
[ {% for i in 0...type.size %} input({{type[i]}}), {% end %} ]
{% elsif type.is_a?(RangeLiteral) %}
Range.new(input({{type.begin}}), input({{type.end}}), {{type.excludes_end?}})
{% elsif type.is_a?(If) %}
{{type.cond}} ? input({{type.then}}) : input({{type.else}})
{% elsif type.is_a?(Assign) %}
{{type.target}} = input({{type.value}})
{% else %}
internal_input({{type.id}}, {{type.id}})
{% end %}
end
macro input(*types)
{ {% for type in types %} input({{type}}), {% end %} }
end
macro input_column(types, size)
{% for type, i in types %}
%array{i} = Array({{type}}).new({{size}})
{% end %}
{{size}}.times do
{% for type, i in types %}
%array{i} << input({{type}})
{% end %}
end
{ {% for type, i in types %} %array{i}, {% end %} }
end
# require "./tuple/times"
struct Tuple
def times(&block) : Nil
{% begin %}
{% for i in 0...@type.size %}
{% if @type[i].has_method?(:each) %}
self[{{i}}].each do |i{{i}}|
{% else %}
self[{{i}}].times do |i{{i}}|
{% end %}
{% end %}
yield({% for i in 0...@type.size %} i{{i}}, {% end %})
{% for i in 0...@type.size %} end {% end %}
{% end %}
end
private class TimesIterator(T)
include Iterator(T)
def initialize(@n : T)
tuple = {% begin %}
{ {% for i in 0...T.size %} T[{{i}}].zero, {% end %} }
{% end %}
@index = tuple.as(T)
@first = true
end
def next
if @first
@first = false
return @index
end
{% begin %}
{%
type = @type.type_vars[0]
size = type.size
%}
{% for i in 1..size %}
if @index[{{size - i}}] < @n[{{size - i}}] - 1
@index = {
{% for j in 0...size %}
{% if j < size - i %}
@index[{{j}}],
{% elsif j == size - i %}
@index[{{j}}] + 1,
{% else %}
{{type[j]}}.zero,
{% end %}
{% end %}
}
return @index
end
{% end %}
stop
{% end %}
end
end
def times
TimesIterator(self).new(self)
end
end
# require "./comparable/min_max"
module Comparable(T)
def min(x : T)
self > x ? x : self
end
def max(x : T)
self < x ? x : self
end
end
# require "./array/new"
class Array
def self.new(sizes : Tuple(*T), initial_value) forall T
{% begin %}
{% for i in 0...T.size %} Array.new(sizes[{{i}}]) { {% end %}
initial_value
{% for i in 0...T.size %} } {% end %}
{% end %}
end
def self.new(sizes : Tuple(*T), &block) forall T
{% begin %}
{% for i in 0...T.size %} Array.new(sizes[{{i}}]) { |%i{i}| {% end %}
yield({% for i in 0...T.size %} %i{i}, {% end %})
{% for i in 0...T.size %} } {% end %}
{% end %}
end
end
# require "./array/change"
class Array(T)
def chmin(i : Int, value : T)
(self[i] > value).tap do |f|
self[i] = value if f
end
end
protected def chmin(i : Int, *indexes, value)
self[i].chmin(*indexes, value: value)
end
def chmin(indexes : Tuple, value)
chmin(*indexes, value: value)
end
def chmax(i : Int, value : T)
(self[i] < value).tap do |f|
self[i] = value if f
end
end
protected def chmax(i : Int, *indexes, value)
self[i].chmax(*indexes, value: value)
end
def chmax(indexes : Tuple, value)
chmax(*indexes, value: value)
end
end
# require "/graph/tree"
# require "../graph"
# require "./graph/edge"
struct WeightedEdge(T)
include Comparable(WeightedEdge(T))
property to : Int32, cost : T
def initialize(@to, @cost : T)
end
def <=>(other : WeightedEdge(T))
{cost, to} <=> {other.cost, other.to}
end
def to_s(io) : Nil
io << '(' << to << ", " << cost << ')'
end
def inspect(io) : Nil
io << "->#{to}(#{cost})"
end
end
struct WeightedEdge2(T)
include Comparable(WeightedEdge2(T))
property from : Int32, to : Int32, cost : T
def initialize(@from, @to, @cost : T)
end
def initialize(@from, edge : WeightedEdge(T))
@to, @cost = edge.to, edge.cost
end
def <=>(other : WeightedEdge2(T))
{cost, from, to} <=> {other.cost, other.from, other.to}
end
def reverse
WeightedEdge2(T).new(to, from, cost)
end
def sort
WeightedEdge2(T).new(*{to, from}.minmax, cost)
end
def to_s(io) : Nil
io << '(' << from << ", " << to << ", " << cost << ')'
end
def inspect(io) : Nil
io << from << "->" << to << '(' << cost << ')'
end
end
struct UnweightedEdge
property to : Int32
def initialize(@to)
end
def cost
1
end
def to_s(io) : Nil
io << to
end
def inspect(io) : Nil
io << "->" << to
end
end
struct UnweightedEdge2
property from : Int32, to : Int32
def initialize(@from, @to)
end
def initialize(@from, edge : UnweightedEdge)
@to = edge.to
end
def cost
1
end
def reverse
UnweightedEdge2.new(to, from)
end
def sort
UnweightedEdge2.new(*{to, from}.minmax)
end
def to_s(io) : Nil
io << '(' << from << ", " << to << ')'
end
def inspect(io) : Nil
io << from << "->" << to
end
end
module Graph(Edge, Edge2)
include Enumerable(Edge2)
getter graph : Array(Array(Edge))
def initialize(size : Int)
@graph = Array(Array(Edge)).new(size) { [] of Edge }
end
def initialize(size : Int, edges : Enumerable)
initialize(size)
add_edges(edges)
end
# Add *edge*.
abstract def <<(edge : Edge2)
# :ditto:
def <<(edge : Tuple)
self << Edge2.new(*edge)
end
def add_edges(edges : Enumerable)
edges.each { |edge| self << edge }
end
delegate size, to: @graph
delegate :[], to: @graph
# Yields each edge of the graph, ans returns `nil`.
def each(&) : Nil
(0...size).each do |v|
self[v].each do |edge|
yield Edge2.new(v, edge)
end
end
end
def reverse
if self.class.directed?
each_with_object(self.class.new(size)) do |edge, reversed|
reversed << edge.reverse
end
else
dup
end
end
def to_undirected
if self.class.directed?
each_with_object(self.class.new(size)) do |edge, graph|
graph << edge
graph << edge.reverse if self.class.directed?
end
else
dup
end
end
def to_s(io : IO) : Nil
io << '['
join(", ", io) do |edge, io|
edge.inspect io
end
io << ']'
end
def inspect(io : IO) : Nil
to_s(io)
end
end
class DirectedGraph(T)
include Graph(WeightedEdge(T), WeightedEdge2(T))
def initialize(size : Int)
super
end
def initialize(size : Int, edges : Enumerable(WeightedEdge2(T)))
super
end
def initialize(size : Int, edges : Enumerable({Int32, Int32, T}))
super
end
def <<(edge : WeightedEdge2(T))
raise IndexError.new unless 0 <= edge.from < size && 0 <= edge.to < size
@graph[edge.from] << WeightedEdge.new(edge.to, edge.cost)
self
end
def self.weighted?
true
end
def self.directed?
true
end
end
class UndirectedGraph(T)
include Graph(WeightedEdge(T), WeightedEdge2(T))
def initialize(size : Int)
super
end
def initialize(size : Int, edges : Enumerable(WeightedEdge2(T)))
super
end
def initialize(size : Int, edges : Enumerable({Int32, Int32, T}))
super
end
def <<(edge : WeightedEdge2(T))
raise IndexError.new unless 0 <= edge.from < size && 0 <= edge.to < size
@graph[edge.from] << WeightedEdge.new(edge.to, edge.cost)
@graph[edge.to] << WeightedEdge.new(edge.from, edge.cost)
self
end
def self.weighted?
true
end
def self.directed?
false
end
end
class UnweightedDirectedGraph
include Graph(UnweightedEdge, UnweightedEdge2)
def initialize(size : Int)
super
end
def initialize(size : Int, edges : Enumerable)
super
end
def <<(edge : UnweightedEdge2)
raise IndexError.new unless 0 <= edge.from < size && 0 <= edge.to < size
@graph[edge.from] << UnweightedEdge.new(edge.to)
self
end
def self.weighted?
false
end
def self.directed?
true
end
end
class UnweightedUndirectedGraph
include Graph(UnweightedEdge, UnweightedEdge2)
def initialize(size : Int)
super
end
def initialize(size : Int, edges : Enumerable)
super
end
def <<(edge : UnweightedEdge2)
raise IndexError.new unless 0 <= edge.from < size && 0 <= edge.to < size
@graph[edge.from] << UnweightedEdge.new(edge.to)
@graph[edge.to] << UnweightedEdge.new(edge.from)
self
end
def each_child(vertex : Int, parent, &block) : Nil
graph[vertex].each do |u|
yield u if u != parent
end
end
def each_child(vertex : Int, parent)
graph[vertex].each.select { |u| u != parent }
end
def self.weighted?
false
end
def self.directed?
false
end
end
module Graph(Edge, Edge2)
private def subtree_size_dfs(v : Int, p : Int, result : Array(Int32)) : Int32
result[v] = 1 + self[v].sum { |edge|
edge.to != p ? subtree_size_dfs(edge.to, v, result) : 0
}
end
def subtree_size(root : Int) : Array(Int32)
result = Array.new(size, 0)
subtree_size_dfs(root, -1, result)
result
end
private def tree_distance_dfs(v : Int, p : Int, dist : Int32, a) : Nil
a[v] = dist
self[v].each do |edge|
tree_distance_dfs(edge.to, v, dist + edge.cost, a) if edge.to != p
end
end
# Returns the distance of each node from *root*.
def tree_distance(root : Int)
a = Array.new(size, typeof(first.cost).zero)
tree_distance_dfs(root, -1, 0, a)
a
end
# Calculates diameter of the tree and returns `{distance, vertex1, vertex2}`.
def diameter
_, v = tree_distance(0).each_with_index.max
dist, u = tree_distance(v).each_with_index.max
{dist, v, u}
end
end
n, q = input(i, i)
g = UnweightedUndirectedGraph.new n, input({i - 1, i - 1}[n - 1])
size = g.subtree_size(0)
ans = 0i64
q.times do
p, x = input(i - 1, i64)
ans += x * size[p]
puts ans
end