buggy_code
stringlengths 11
625k
| fixed_code
stringlengths 17
625k
| bug_type
stringlengths 2
4.45k
| language
int64 0
8
| token_count
int64 5
200k
| change_count
int64 0
100
|
|---|---|---|---|---|---|
using System;
using System.Diagnostics;
using System.IO;
using System.Text;
using System.Linq;
using System.Collections.Generic;
using System.Text.RegularExpressions;
using System.Security.Policy;
class Program {
const string Yes = "Yes";
const string No = "No";
const char White = '.';
const char Black = '#';
const long Mod = 1000000007;
static void Main(string[] args) {
checked {
#if DEBUG
// TestCaseMaker.MakeTestCase1("../TextFile2.txt");
MyDebugger.Test(process, "../TextFile1.txt");
// MyDebugger.Test(process, "../TextFile2.txt");
#else
object ret = process(new StreamReader(Console.OpenStandardInput()));
Console.WriteLine(ret);
#endif
}
}
static object process(TextReader input) {
var n = int.Parse(input.ReadLine());
var ary = ToIntArray(input.ReadLine(), n);
if (n > 1 && ary.Any(x => x == 1))
return 0;
var hash = new DefaultDectionary<int, int>(0);
var list = new List<int>();
foreach (var x in ary) {
if (!hash.ContainsKey(x)) {
list.Add(x);
}
hash[x] += 1;
}
list.Sort();
int co = 0;
foreach (var x in list) {
// var sq = Math.Sqrt(x);
var zero = false;
for (int i = 2; i <= Math.Sqrt(x); i++) {
if (x % i == 0) {
if (hash.ContainsKey(i) || hash.ContainsKey(x / i)) {
zero = true;
break;
}
}
}
if (!zero && hash[x] == 1)
co++;
}
return co;
}
class DefaultDectionary<Tkey, TValue> : Dictionary<Tkey, TValue> {
TValue DefaultValue;
public DefaultDectionary(TValue defaultvalue) {
this.DefaultValue = defaultvalue;
}
public new TValue this[Tkey key] {
get { if (this.ContainsKey(key)) return base[key];
else return DefaultValue;
}
set { base[key] = value; }
}
}
static int[] ToIntArray(string strs, int n) {
var ret = new int[n];
if (n == 0)
return ret;
var spl = strs.Split(' ');
for (int i = 0; i < n; i++)
ret[i] = int.Parse(spl[i]);
return ret;
}
}
|
using System;
using System.Diagnostics;
using System.IO;
using System.Text;
using System.Linq;
using System.Collections.Generic;
using System.Text.RegularExpressions;
using System.Security.Policy;
class Program {
const string Yes = "Yes";
const string No = "No";
const char White = '.';
const char Black = '#';
const long Mod = 1000000007;
static void Main(string[] args) {
checked {
#if DEBUG
// TestCaseMaker.MakeTestCase1("../TextFile2.txt");
MyDebugger.Test(process, "../TextFile1.txt");
// MyDebugger.Test(process, "../TextFile2.txt");
#else
object ret = process(new StreamReader(Console.OpenStandardInput()));
Console.WriteLine(ret);
#endif
}
}
static object process(TextReader input) {
var n = int.Parse(input.ReadLine());
var ary = ToIntArray(input.ReadLine(), n);
int ones = ary.Count(x => x == 1);
if (ones > 0) {
if (ones > 1)
return 0;
return 1;
}
var hash = new DefaultDectionary<int, int>(0);
var list = new List<int>();
foreach (var x in ary) {
if (!hash.ContainsKey(x)) {
list.Add(x);
}
hash[x] += 1;
}
list.Sort();
int co = 0;
foreach (var x in list) {
// var sq = Math.Sqrt(x);
var zero = false;
for (int i = 2; i <= Math.Sqrt(x); i++) {
if (x % i == 0) {
if (hash.ContainsKey(i) || hash.ContainsKey(x / i)) {
zero = true;
break;
}
}
}
if (!zero && hash[x] == 1)
co++;
}
return co;
}
class DefaultDectionary<Tkey, TValue> : Dictionary<Tkey, TValue> {
TValue DefaultValue;
public DefaultDectionary(TValue defaultvalue) {
this.DefaultValue = defaultvalue;
}
public new TValue this[Tkey key] {
get { if (this.ContainsKey(key)) return base[key];
else return DefaultValue;
}
set { base[key] = value; }
}
}
static int[] ToIntArray(string strs, int n) {
var ret = new int[n];
if (n == 0)
return ret;
var spl = strs.Split(' ');
for (int i = 0; i < n; i++)
ret[i] = int.Parse(spl[i]);
return ret;
}
}
|
[["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 17, 47], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 98], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 57, 15, 16, 12, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 57, 64, 196, 0, 57, 64, 37, 0, 35], ["+", 8, 196, 0, 57, 64, 196, 0, 37, 0, 38], ["+", 8, 196, 0, 57, 64, 196, 0, 37, 0, 203], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46]]
| 8
| 512
| 28
|
using System;
using System.Collections.Generic;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
int n = int.Parse(input[0]);
input = Console.ReadLine().Split(' ');
int[] a = new int[n];
for (int i = 0; i < n; i++)
a[i] = int.Parse(input[i]);
Array.Sort(a);
bool[] arr = new bool[1000001];
for (int i = 0; i < 1000001; i++)
arr[i] = true;
HashSet<int> canDiv = new HashSet<int>();
HashSet<int> ngDiv = new HashSet<int>();
int pre = 0;
int preAdded = 0;
for (int i = 0; i < n; i++) {
if (pre == a[i]) {
if (preAdded == pre)
ngDiv.Add(a[i]);
continue;
}
pre = a[i];
if (arr[a[i]]) {
canDiv.Add(a[i]);
preAdded = a[i];
for (int j = a[i] * 2; (long)j * (long)j <= 1000000; j += a[i]) {
arr[j] = false;
}
}
}
Console.WriteLine(canDiv.Count - ngDiv.Count);
}
}
|
using System;
using System.Collections.Generic;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
int n = int.Parse(input[0]);
input = Console.ReadLine().Split(' ');
int[] a = new int[n];
for (int i = 0; i < n; i++)
a[i] = int.Parse(input[i]);
Array.Sort(a);
bool[] arr = new bool[1000001];
for (int i = 0; i < 1000001; i++)
arr[i] = true;
HashSet<int> canDiv = new HashSet<int>();
HashSet<int> ngDiv = new HashSet<int>();
int pre = 0;
int preAdded = 0;
for (int i = 0; i < n; i++) {
if (pre == a[i]) {
if (preAdded == pre)
ngDiv.Add(a[i]);
continue;
}
pre = a[i];
if (arr[a[i]]) {
canDiv.Add(a[i]);
preAdded = a[i];
for (int j = a[i] * 2; j <= a[n - 1]; j += a[i]) {
arr[j] = false;
}
}
}
Console.WriteLine(canDiv.Count - ngDiv.Count);
}
}
|
[["-", 0, 7, 15, 16, 31, 16, 31, 74, 0, 24], ["-", 0, 7, 15, 16, 31, 16, 31, 74, 39, 199], ["-", 0, 7, 15, 16, 31, 16, 31, 74, 0, 25], ["-", 64, 196, 0, 7, 15, 16, 31, 16, 17, 48], ["-", 0, 7, 15, 16, 31, 16, 12, 74, 0, 24], ["-", 0, 7, 15, 16, 31, 16, 12, 74, 39, 199], ["-", 0, 7, 15, 16, 31, 16, 12, 74, 0, 25], ["-", 0, 7, 15, 16, 31, 16, 12, 74, 51, 22], ["-", 0, 57, 64, 196, 0, 7, 15, 16, 12, 203], ["+", 64, 196, 0, 7, 15, 16, 12, 204, 205, 22], ["+", 0, 7, 15, 16, 12, 204, 206, 207, 0, 70], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 0, 7, 15, 16, 12, 204, 206, 207, 0, 73]]
| 8
| 322
| 15
|
using System;
public class Hello {
public static void Main() {
var line = System.Console.ReadLine().Split(' ');
long A = long.Parse(line[0]);
long V = long.Parse(line[1]);
line = System.Console.ReadLine().Split(' ');
long B = long.Parse(line[0]);
long W = long.Parse(line[1]);
long T = long.Parse(System.Console.ReadLine());
if (A + T * V >= B + T * W) {
Console.WriteLine("YES");
} else {
if (A - T * V <= B - T * W) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
}
}
|
using System;
public class Hello {
public static void Main() {
var line = System.Console.ReadLine().Split(' ');
long A = long.Parse(line[0]);
long V = long.Parse(line[1]);
line = System.Console.ReadLine().Split(' ');
long B = long.Parse(line[0]);
long W = long.Parse(line[1]);
long T = long.Parse(System.Console.ReadLine());
if (A < B) {
if (A + T * V >= B + T * W) {
Console.WriteLine("YES");
return;
}
} else {
if (A - T * V <= B - T * W) {
Console.WriteLine("YES");
return;
} else {
Console.WriteLine("NO");
return;
}
}
Console.WriteLine("NO");
}
}
|
[["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 18], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["+", 64, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["+", 64, 196, 0, 57, 64, 196, 0, 37, 0, 38], ["+", 64, 196, 0, 57, 64, 196, 0, 37, 0, 35], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["+", 75, 196, 0, 57, 64, 196, 0, 37, 0, 38], ["+", 75, 196, 0, 57, 64, 196, 0, 37, 0, 35], ["+", 75, 196, 0, 57, 75, 196, 0, 37, 0, 38], ["+", 75, 196, 0, 57, 75, 196, 0, 37, 0, 35], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35]]
| 8
| 184
| 23
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.ComponentModel.Design;
using System.Globalization;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading;
using System.Threading.Tasks;
using System.Xml.Schema;
using static System.Console;
namespace ConsoleApp2 {
class Program {
static public long[] Sarray() {
return ReadLine().Split().Select(long.Parse).ToArray();
}
static public List<int> Slist() {
return new List<int>(ReadLine().Split().Select(int.Parse));
}
static void Main(string[] args) {
var AV = Sarray();
var BW = Sarray();
var T = Sarray()[0];
WriteLine(0 <= AV[0] + (AV[1] * T) - (BW[0] + (BW[1] * T)) ? "YES" : "NO");
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.ComponentModel.Design;
using System.Globalization;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading;
using System.Threading.Tasks;
using System.Xml.Schema;
using static System.Console;
namespace ConsoleApp2 {
class Program {
static public long[] Sarray() {
return ReadLine().Split().Select(long.Parse).ToArray();
}
static public List<int> Slist() {
return new List<int>(ReadLine().Split().Select(int.Parse));
}
static void Main(string[] args) {
var AV = Sarray();
var BW = Sarray();
var T = Sarray()[0];
var D = Math.Abs(AV[0] - BW[0]);
var D2 = (AV[1] - BW[1]) * T;
WriteLine(D <= D2 ? "YES" : "NO");
}
}
}
|
[["-", 0, 195, 8, 196, 0, 1, 0, 213, 63, 22], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 3, 4, 0, 28, 0, 41, 15, 16, 31, 203], ["-", 3, 4, 0, 28, 0, 41, 15, 16, 17, 19], ["-", 0, 41, 15, 16, 12, 16, 31, 16, 17, 72], ["-", 15, 16, 12, 16, 31, 16, 12, 23, 0, 24], ["-", 31, 16, 12, 23, 0, 16, 31, 204, 205, 22], ["-", 12, 23, 0, 16, 31, 204, 206, 207, 0, 70], ["-", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["-", 12, 23, 0, 16, 31, 204, 206, 207, 0, 73], ["-", 12, 16, 31, 16, 12, 23, 0, 16, 17, 48], ["-", 12, 16, 31, 16, 12, 23, 0, 16, 12, 22], ["-", 15, 16, 12, 16, 31, 16, 12, 23, 0, 25], ["-", 0, 41, 15, 16, 12, 16, 12, 23, 0, 24], ["-", 15, 16, 12, 16, 12, 23, 0, 16, 17, 72], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 16, 31, 23, 0, 16, 31, 204, 205, 22], ["+", 31, 23, 0, 16, 31, 204, 206, 207, 0, 70], ["+", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 31, 23, 0, 16, 31, 204, 206, 207, 0, 73], ["+", 0, 212, 0, 16, 31, 23, 0, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["-", 12, 16, 12, 23, 0, 16, 12, 23, 0, 25], ["-", 0, 41, 15, 16, 12, 16, 12, 23, 0, 25], ["+", 0, 195, 8, 196, 0, 1, 0, 213, 63, 22], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 41, 15, 16, 31, 22], ["+", 3, 4, 0, 28, 0, 41, 15, 16, 17, 19], ["+", 3, 4, 0, 28, 0, 41, 15, 16, 12, 22]]
| 8
| 231
| 39
|
using System;
namespace Sample {
class Sample {
static void Main(string[] args) {
string[] str1 = Console.ReadLine().Split(' ');
string[] str2 = Console.ReadLine().Split(' ');
long T = long.Parse(Console.ReadLine());
long A = long.Parse(str1[0]);
long V = long.Parse(str1[1]);
long B = long.Parse(str2[0]);
long W = long.Parse(str2[1]);
int flg = 0;
if ((A * V) >= (B * W)) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
}
}
|
using System;
using System.Numerics;
namespace Sample {
class Sample {
static void Main(string[] args) {
string[] str1 = Console.ReadLine().Split(' ');
string[] str2 = Console.ReadLine().Split(' ');
long T = long.Parse(Console.ReadLine());
long A = long.Parse(str1[0]);
long V = long.Parse(str1[1]);
long B = long.Parse(str2[0]);
long W = long.Parse(str2[1]);
long ans = Math.Abs(A - B);
if (ans <= (T * (V - W))) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
}
}
|
[["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 233], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 234, 22], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 0, 131], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 35], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 203], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 19], ["-", 0, 57, 15, 16, 31, 23, 0, 16, 31, 22], ["+", 0, 57, 15, 16, 12, 23, 0, 16, 31, 22], ["-", 0, 57, 15, 16, 31, 23, 0, 16, 12, 22], ["-", 8, 196, 0, 57, 15, 16, 31, 23, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 20], ["-", 0, 57, 15, 16, 12, 23, 0, 16, 31, 22], ["-", 0, 57, 15, 16, 12, 23, 0, 16, 17, 48], ["+", 12, 23, 0, 16, 12, 23, 0, 16, 31, 22], ["+", 12, 23, 0, 16, 12, 23, 0, 16, 17, 33], ["+", 15, 16, 12, 23, 0, 16, 12, 23, 0, 25]]
| 8
| 166
| 30
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace easy_Atcoder {
class Program {
static void Main(string[] args) {
double[] AV = Array.ConvertAll(Console.ReadLine().Split(), double.Parse);
double A = AV[0];
double V = AV[1];
double[] BW = Array.ConvertAll(Console.ReadLine().Split(), double.Parse);
double B = BW[0];
double W = BW[1];
ulong T = ulong.Parse(Console.ReadLine());
bool flag = false;
if (V - W > 0) {
ulong test = (ulong)((B - A) / (V - W));
if (test <= T) {
flag = true;
}
}
Console.WriteLine(flag ? "YES" : "NO");
}
// float[] ABN = Array.ConvertAll(Console.ReadLine().Split(),float.Parse);
// long[] NK = Array.ConvertAll(Console.ReadLine().Split(),long.Parse);
// long N = NK[0];
// long K = NK[1];
// long K = long.Parse(Console.ReadLine());
// int[] abc = Array.ConvertAll(Console.ReadLine().Split(),int.Parse);
// string S = Console.ReadLine();
// int x = int.Parse(Console.ReadLine());
// int b = int.Parse(Console.ReadLine());
// int N = int.Parse(Console.ReadLine());
// float N = float.Parse(Console.ReadLine());
// string c = Console.ReadLine();
// string B = Console.ReadLine();
// string[] s = Console.ReadLine().Split();
// var s = (new string[] { Console.ReadLine(), Console.ReadLine(),
// Console.ReadLine() }).Select(float.Parse); float[] a =
// Array.ConvertAll(Console.ReadLine().Split(),float.Parse); var X =
// Console.ReadLine(); int[,] abcd = new int[NMQ[2],4]; int[] A = new
// int[NMQ[0]]; int[] A_num = new int[NMQ[0]]; long[]
// s=Array.ConvertAll(Console.ReadLine().Split(),long.Parse); var hs=new
// Dictionary<long,long>(); for(int i=0;i<s[0];i++){
// long[] q=Array.ConvertAll(Console.ReadLine().Split(),long.Parse);
// if(hs.ContainsKey(q[0])){hs[q[0]]+=q[1];}
// else{hs.Add(q[0],q[1]);}
// }
// //最小公倍数
// static long Lcm(long a, long b)
// {
// return a/Gcd(a,b)*b;
// }
// //最大公約数
// static long Gcd(long m, long n)
// {
// if(n==0)return m;
// return Gcd(n,m%n);
// }
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace easy_Atcoder {
class Program {
static void Main(string[] args) {
double[] AV = Array.ConvertAll(Console.ReadLine().Split(), double.Parse);
double A = AV[0];
double V = AV[1];
double[] BW = Array.ConvertAll(Console.ReadLine().Split(), double.Parse);
double B = BW[0];
double W = BW[1];
double T = double.Parse(Console.ReadLine());
bool flag = false;
if (V > W) {
if (Math.Abs(A - B) / (V - W) <= T) {
flag = true;
}
}
Console.WriteLine(flag ? "YES" : "NO");
}
// float[] ABN = Array.ConvertAll(Console.ReadLine().Split(),float.Parse);
// long[] NK = Array.ConvertAll(Console.ReadLine().Split(),long.Parse);
// long N = NK[0];
// long K = NK[1];
// long K = long.Parse(Console.ReadLine());
// int[] abc = Array.ConvertAll(Console.ReadLine().Split(),int.Parse);
// string S = Console.ReadLine();
// int x = int.Parse(Console.ReadLine());
// int b = int.Parse(Console.ReadLine());
// int N = int.Parse(Console.ReadLine());
// float N = float.Parse(Console.ReadLine());
// string c = Console.ReadLine();
// string B = Console.ReadLine();
// string[] s = Console.ReadLine().Split();
// var s = (new string[] { Console.ReadLine(), Console.ReadLine(),
// Console.ReadLine() }).Select(float.Parse); float[] a =
// Array.ConvertAll(Console.ReadLine().Split(),float.Parse); var X =
// Console.ReadLine(); int[,] abcd = new int[NMQ[2],4]; int[] A = new
// int[NMQ[0]]; int[] A_num = new int[NMQ[0]]; long[]
// s=Array.ConvertAll(Console.ReadLine().Split(),long.Parse); var hs=new
// Dictionary<long,long>(); for(int i=0;i<s[0];i++){
// long[] q=Array.ConvertAll(Console.ReadLine().Split(),long.Parse);
// if(hs.ContainsKey(q[0])){hs[q[0]]+=q[1];}
// else{hs.Add(q[0],q[1]);}
// }
// //最小公倍数
// static long Lcm(long a, long b)
// {
// return a/Gcd(a,b)*b;
// }
// //最大公約数
// static long Gcd(long m, long n)
// {
// if(n==0)return m;
// return Gcd(n,m%n);
// }
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 17, 33], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 12, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["-", 0, 57, 64, 196, 0, 197, 0, 198, 39, 199], ["-", 64, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["+", 15, 16, 31, 16, 31, 213, 63, 214, 205, 22], ["+", 15, 16, 31, 16, 31, 213, 63, 214, 0, 131], ["+", 15, 16, 31, 16, 31, 213, 63, 214, 141, 22], ["-", 51, 23, 0, 16, 31, 23, 0, 16, 31, 22], ["-", 51, 23, 0, 16, 31, 23, 0, 16, 17, 33], ["+", 31, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["+", 31, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["-", 0, 200, 0, 212, 0, 74, 51, 23, 0, 25], ["-", 8, 196, 0, 57, 64, 196, 0, 197, 0, 35], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["-", 0, 57, 64, 196, 0, 57, 15, 16, 31, 22]]
| 8
| 226
| 27
|
using System;
public class Hello {
public static void Main() {
string[] line = Console.ReadLine().Trim().Split(' ');
var a = long.Parse(line[0]);
var av = long.Parse(line[1]);
line = Console.ReadLine().Trim().Split(' ');
var b = long.Parse(line[0]);
var bv = long.Parse(line[1]);
var t = long.Parse(Console.ReadLine().Trim());
Console.WriteLine(getAns(a, av, b, bv, t));
}
static string getAns(long a, long av, long b, long bv, long t) {
if (a > b)
return getAns(b, bv, a, av, t);
return a + av * t >= b + bv * t ? "YES" : "NO";
}
}
|
using System;
public class Hello {
public static void Main() {
string[] line = Console.ReadLine().Trim().Split(' ');
var a = long.Parse(line[0]);
var av = long.Parse(line[1]);
line = Console.ReadLine().Trim().Split(' ');
var b = long.Parse(line[0]);
var bv = long.Parse(line[1]);
var t = long.Parse(Console.ReadLine().Trim());
Console.WriteLine(getAns(a, av, b, bv, t));
}
static string getAns(long a, long av, long b, long bv, long t) {
if (a > b)
return getAns(-a, av, -b, bv, t);
return a + av * t >= b + bv * t ? "YES" : "NO";
}
}
|
[["-", 64, 37, 0, 213, 3, 4, 0, 28, 0, 22], ["-", 0, 57, 64, 37, 0, 213, 3, 4, 0, 21], ["+", 0, 213, 3, 4, 0, 28, 0, 241, 0, 33], ["+", 0, 57, 64, 37, 0, 213, 3, 4, 0, 21], ["+", 0, 213, 3, 4, 0, 28, 0, 241, 0, 22], ["+", 64, 37, 0, 213, 3, 4, 0, 28, 0, 22]]
| 8
| 207
| 10
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.IO;
using System.Linq;
class Program {
static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
Solve();
Console.Out.Flush();
}
static void Solve() {
var A = sc.ReadLong();
var V = sc.ReadLong();
var B = sc.ReadLong();
var W = sc.ReadLong();
var T = sc.ReadLong();
var a = A + V * T;
var b = B + W * T;
if (a >= b) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
static Scanner sc = new Scanner();
}
class Scanner {
string[] S = new string[0];
int Index = 0;
char[] Separators = new char[] { ' ' };
public string Next() {
if (this.Index < this.S.Length)
return this.S[this.Index++];
var line = "";
while (line == "")
line = Console.ReadLine();
this.S = line.Split(this.Separators, StringSplitOptions.RemoveEmptyEntries);
if (this.S.Length == 0)
return this.Next();
this.Index = 0;
return this.S[this.Index++];
}
public string ReadStr() { return this.Next(); }
public char ReadChar() { return this.Next()[0]; }
public int ReadInt() { return int.Parse(this.Next()); }
public uint ReadUInt() { return uint.Parse(this.Next()); }
public long ReadLong() { return long.Parse(this.Next()); }
public double ReadDouble() { return double.Parse(this.Next()); }
public Tuple<int, int> ReadTup(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add);
}
public Tuple<long, long> ReadTupLong(int add = 0) {
return Tuple.Create(this.ReadLong() + add, this.ReadLong() + add);
}
public Tuple<int, int, int> ReadTup3(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add,
this.ReadInt() + add);
}
public Tuple<int, int, int, int> ReadTup4(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add,
this.ReadInt() + add, this.ReadInt() + add);
}
public int[] ReadIntArray(int n) {
var array = new int[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadInt();
}
return array;
}
public long[] ReadLongArray(int n) {
var array = new long[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadLong();
}
return array;
}
public double[] ReadDoubleArray(int n) {
var array = new double[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadDouble();
}
return array;
}
public char[] ReadCharArray(int n) {
var array = new char[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadChar();
}
return array;
}
public string[] ReadStrArray(int n) {
var array = new string[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadStr();
}
return array;
}
public Tuple<long, long>[] ReadTupLongArray(int n, int add = 0) {
var array = new Tuple<long, long>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTupLong(add);
}
return array;
}
public Tuple<int, int>[] ReadTupArray(int n, int add = 0) {
var array = new Tuple<int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup(add);
}
return array;
}
public Tuple<int, int, int>[] ReadTup3Array(int n, int add = 0) {
var array = new Tuple<int, int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup3(add);
}
return array;
}
public Tuple<int, int, int, int>[] ReadTup4Array(int n, int add = 0) {
var array = new Tuple<int, int, int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup4(add);
}
return array;
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.IO;
using System.Linq;
class Program {
static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
Solve();
Console.Out.Flush();
}
static void Solve() {
var A = sc.ReadLong();
var V = sc.ReadLong();
var B = sc.ReadLong();
var W = sc.ReadLong();
var T = sc.ReadLong();
if (Math.Abs(A - B) <= T * (V - W)) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
static Scanner sc = new Scanner();
}
class Scanner {
string[] S = new string[0];
int Index = 0;
char[] Separators = new char[] { ' ' };
public string Next() {
if (this.Index < this.S.Length)
return this.S[this.Index++];
var line = "";
while (line == "")
line = Console.ReadLine();
this.S = line.Split(this.Separators, StringSplitOptions.RemoveEmptyEntries);
if (this.S.Length == 0)
return this.Next();
this.Index = 0;
return this.S[this.Index++];
}
public string ReadStr() { return this.Next(); }
public char ReadChar() { return this.Next()[0]; }
public int ReadInt() { return int.Parse(this.Next()); }
public uint ReadUInt() { return uint.Parse(this.Next()); }
public long ReadLong() { return long.Parse(this.Next()); }
public double ReadDouble() { return double.Parse(this.Next()); }
public Tuple<int, int> ReadTup(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add);
}
public Tuple<long, long> ReadTupLong(int add = 0) {
return Tuple.Create(this.ReadLong() + add, this.ReadLong() + add);
}
public Tuple<int, int, int> ReadTup3(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add,
this.ReadInt() + add);
}
public Tuple<int, int, int, int> ReadTup4(int add = 0) {
return Tuple.Create(this.ReadInt() + add, this.ReadInt() + add,
this.ReadInt() + add, this.ReadInt() + add);
}
public int[] ReadIntArray(int n) {
var array = new int[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadInt();
}
return array;
}
public long[] ReadLongArray(int n) {
var array = new long[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadLong();
}
return array;
}
public double[] ReadDoubleArray(int n) {
var array = new double[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadDouble();
}
return array;
}
public char[] ReadCharArray(int n) {
var array = new char[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadChar();
}
return array;
}
public string[] ReadStrArray(int n) {
var array = new string[n];
for (int i = 0; i < array.Length; i++) {
array[i] = this.ReadStr();
}
return array;
}
public Tuple<long, long>[] ReadTupLongArray(int n, int add = 0) {
var array = new Tuple<long, long>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTupLong(add);
}
return array;
}
public Tuple<int, int>[] ReadTupArray(int n, int add = 0) {
var array = new Tuple<int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup(add);
}
return array;
}
public Tuple<int, int, int>[] ReadTup3Array(int n, int add = 0) {
var array = new Tuple<int, int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup3(add);
}
return array;
}
public Tuple<int, int, int, int>[] ReadTup4Array(int n, int add = 0) {
var array = new Tuple<int, int, int, int>[n];
for (int i = 0; i < n; i++) {
array[i] = this.ReadTup4(add);
}
return array;
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 57, 15, 16, 31, 213, 63, 214, 205, 22], ["+", 0, 57, 15, 16, 31, 213, 63, 214, 0, 131], ["+", 0, 57, 15, 16, 31, 213, 63, 214, 141, 22], ["+", 0, 57, 15, 16, 31, 213, 3, 4, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["-", 0, 200, 0, 212, 0, 16, 12, 16, 31, 22], ["-", 0, 200, 0, 212, 0, 16, 12, 16, 17, 48], ["-", 0, 200, 0, 212, 0, 16, 12, 16, 12, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 31, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["+", 0, 57, 15, 16, 31, 213, 3, 4, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 19], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 17, 48], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 20], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["+", 15, 16, 12, 16, 12, 23, 0, 16, 31, 22], ["+", 15, 16, 12, 16, 12, 23, 0, 16, 17, 33], ["+", 15, 16, 12, 16, 12, 23, 0, 16, 12, 22], ["+", 0, 57, 15, 16, 12, 16, 12, 23, 0, 25]]
| 8
| 1,147
| 33
|
using System;
class Program {
static void Main(string[] args) {
string S = Console.ReadLine();
long A = long.Parse(S.Split()[0]);
long V = long.Parse(S.Split()[1]);
S = Console.ReadLine();
long B = long.Parse(S.Split()[0]);
long W = long.Parse(S.Split()[1]);
long T = long.Parse(Console.ReadLine());
if (A + (V * T) >= B + (W * T)) {
Console.WriteLine("YES");
return;
}
Console.WriteLine("NO");
}
}
|
using System;
class Program {
static void Main(string[] args) {
string S = Console.ReadLine();
long A = long.Parse(S.Split()[0]);
long V = long.Parse(S.Split()[1]);
S = Console.ReadLine();
long B = long.Parse(S.Split()[0]);
long W = long.Parse(S.Split()[1]);
long T = long.Parse(Console.ReadLine());
long av = V * T;
long bv = W * T;
if (av >= bv + Math.Abs(A - B)) {
Console.WriteLine("YES");
return;
}
Console.WriteLine("NO");
}
}
|
[["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 17, 72], ["-", 0, 57, 15, 16, 31, 16, 12, 23, 0, 24], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 57, 15, 16, 31, 16, 12, 23, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 20], ["-", 8, 196, 0, 57, 15, 16, 12, 16, 31, 22], ["-", 8, 196, 0, 57, 15, 16, 12, 16, 17, 72], ["-", 0, 57, 15, 16, 12, 16, 12, 23, 0, 24], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 20], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 31, 22], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 17, 72], ["+", 15, 16, 12, 16, 12, 213, 63, 214, 205, 22], ["+", 15, 16, 12, 16, 12, 213, 63, 214, 0, 131], ["+", 15, 16, 12, 16, 12, 213, 63, 214, 141, 22], ["+", 15, 16, 12, 16, 12, 213, 3, 4, 0, 24], ["+", 12, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 12, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["+", 12, 213, 3, 4, 0, 28, 0, 16, 12, 22]]
| 8
| 157
| 31
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var inputLongArray =
Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
// 整数配列の入力
var inputLongArray2 =
Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
// 整数の入力
var t = long.Parse(Console.ReadLine());
string result = "";
if (inputLongArray2[1] > inputLongArray[1]) {
result = "NO";
} else {
if (inputLongArray2[0] + inputLongArray2[1] * t -
(inputLongArray[0] + inputLongArray[1] * t) <=
0) {
result = "YES";
} else {
result = "NO";
}
}
Console.WriteLine(result);
Console.Out.Flush();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var inputLongArray =
Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
// 整数配列の入力
var inputLongArray2 =
Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
// 整数の入力
var t = long.Parse(Console.ReadLine());
string result = "";
if (inputLongArray2[1] > inputLongArray[1]) {
result = "NO";
} else {
var initDifference = Math.Abs(inputLongArray[0] - inputLongArray2[0]);
var difference = (inputLongArray2[1] - inputLongArray[1]) * t;
if (initDifference + difference <= 0) {
result = "YES";
} else {
result = "NO";
}
}
Console.WriteLine(result);
Console.Out.Flush();
}
}
}
|
[["-", 8, 196, 0, 57, 75, 196, 0, 57, 0, 121], ["+", 75, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 75, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 15, 16, 31, 16, 31, 16, 31, 204, 205, 22], ["+", 3, 4, 0, 28, 0, 16, 31, 204, 205, 22], ["-", 0, 57, 15, 16, 31, 16, 31, 16, 17, 72], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["-", 12, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 16, 12, 204, 206, 207, 0, 28, 0, 203], ["-", 15, 16, 31, 16, 31, 16, 12, 16, 17, 48], ["-", 15, 16, 31, 16, 31, 16, 12, 16, 12, 22], ["-", 75, 196, 0, 57, 15, 16, 31, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 57, 75, 196, 0, 197, 0, 35], ["-", 31, 16, 12, 23, 0, 16, 31, 204, 205, 22], ["+", 0, 16, 31, 23, 0, 16, 31, 204, 205, 22], ["-", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["-", 15, 16, 31, 16, 12, 23, 0, 16, 17, 72], ["+", 0, 212, 0, 16, 31, 23, 0, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["-", 0, 57, 15, 16, 31, 16, 12, 23, 0, 25], ["+", 8, 196, 0, 57, 75, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 57, 75, 196, 0, 57, 0, 24], ["+", 75, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["+", 75, 196, 0, 57, 15, 16, 31, 16, 17, 72], ["+", 75, 196, 0, 57, 15, 16, 31, 16, 12, 22]]
| 8
| 250
| 35
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace kaijouB {
class Program {
static void Main(string[] args) {
string[] AV = Console.ReadLine().Split(' ');
string[] BW = Console.ReadLine().Split(' ');
long T = long.Parse(Console.ReadLine());
long A = long.Parse(AV[0]);
long V = long.Parse(AV[1]);
long B = long.Parse(BW[0]);
long W = long.Parse(BW[0]);
long kyori = Math.Abs(A - B);
if (V > W) {
long sokudo = V - W;
long idou = sokudo * T;
if (idou >= kyori) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
} else {
Console.WriteLine("NO");
}
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace kaijouB {
class Program {
static void Main(string[] args) {
string[] AV = Console.ReadLine().Split(' ');
string[] BW = Console.ReadLine().Split(' ');
long T = long.Parse(Console.ReadLine());
long A = long.Parse(AV[0]);
long V = long.Parse(AV[1]);
long B = long.Parse(BW[0]);
long W = long.Parse(BW[1]);
long kyori = Math.Abs(A - B);
// Console.WriteLine(kyori);
long sokudo = V - W;
if (V > W) {
long idou = sokudo * T;
// Console.WriteLine(idou);
if (idou >= kyori) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
} else {
Console.WriteLine("NO");
}
}
}
}
|
[["-", 0, 28, 0, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 28, 0, 204, 206, 207, 0, 28, 0, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45]]
| 8
| 223
| 16
|
using System;
using System.Linq;
using System.Security.Principal;
class Program {
public static void Main() {
double[] killer =
Console.ReadLine().Split(' ').Select(i => double.Parse(i)).ToArray();
double[] hinder =
Console.ReadLine().Split(' ').Select(i => double.Parse(i)).ToArray();
double distance = Math.Abs(killer[0] - hinder[0]);
double perClose = Math.Abs(killer[1] - hinder[1]);
double time = double.Parse(Console.ReadLine());
if (distance == 0) {
Console.WriteLine("YES");
} else if (perClose == 0) {
Console.WriteLine("NO");
} else if (distance / perClose <= time) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
}
|
using System;
using System.Linq;
using System.Security.Principal;
class Program {
public static void Main() {
double[] killer =
Console.ReadLine().Split(' ').Select(i => double.Parse(i)).ToArray();
double[] hinder =
Console.ReadLine().Split(' ').Select(i => double.Parse(i)).ToArray();
double distance = Math.Abs(killer[0] - hinder[0]);
double perClose = Math.Abs(killer[1] - hinder[1]);
double time = double.Parse(Console.ReadLine());
if (killer[1] <= hinder[1]) {
Console.WriteLine("NO");
} else if (distance / perClose <= time) {
Console.WriteLine("YES");
} else {
Console.WriteLine("NO");
}
}
}
|
[["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 60], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["-", 64, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 64, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 64, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["-", 64, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["-", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 95], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 121], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 24], ["-", 8, 196, 0, 57, 75, 57, 15, 16, 31, 22], ["-", 8, 196, 0, 57, 75, 57, 15, 16, 17, 60], ["-", 8, 196, 0, 57, 75, 57, 15, 16, 12, 203], ["+", 8, 196, 0, 57, 15, 16, 31, 204, 205, 22], ["+", 0, 57, 15, 16, 31, 204, 206, 207, 0, 70], ["+", 15, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 57, 15, 16, 31, 204, 206, 207, 0, 73], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 19], ["+", 8, 196, 0, 57, 15, 16, 12, 204, 205, 22], ["+", 0, 57, 15, 16, 12, 204, 206, 207, 0, 70], ["+", 15, 16, 12, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 57, 15, 16, 12, 204, 206, 207, 0, 73]]
| 8
| 212
| 30
|
using static System.Math;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder {
class Program {
static void Main(string[] args) {
var line =
ReadLine().Split(' ').Select(value => long.Parse(value)).ToArray();
var a = line[0];
var v = line[1];
line = ReadLine().Split(' ').Select(value => long.Parse(value)).ToArray();
var b = line[0];
var w = line[1];
var t = long.Parse(ReadLine());
if (v <= w) {
WriteLine("NO");
return;
}
var diffDistance = Abs(a - b);
var diffMove = Abs(v - w);
if (diffDistance % diffMove == 0 && diffDistance / diffMove <= t) {
WriteLine("YES");
} else {
WriteLine("NO");
}
}
}
}
|
using static System.Math;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder {
class Program {
static void Main(string[] args) {
var line =
ReadLine().Split(' ').Select(value => long.Parse(value)).ToArray();
var a = line[0];
var v = line[1];
line = ReadLine().Split(' ').Select(value => long.Parse(value)).ToArray();
var b = line[0];
var w = line[1];
var t = long.Parse(ReadLine());
if (v <= w) {
WriteLine("NO");
return;
}
var diffDistance = Abs(a - b);
var diffMove = Abs(v - w);
if (diffDistance <= t * diffMove) {
WriteLine("YES");
} else {
WriteLine("NO");
}
}
}
}
|
[["-", 0, 57, 15, 16, 31, 16, 31, 16, 17, 109], ["-", 0, 57, 15, 16, 31, 16, 31, 16, 12, 22], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 17, 60], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 98], ["-", 0, 57, 15, 16, 12, 16, 31, 16, 31, 22], ["-", 0, 57, 15, 16, 12, 16, 31, 16, 17, 85], ["-", 0, 57, 15, 16, 12, 16, 31, 16, 12, 22], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 17, 48], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 12, 22]]
| 8
| 221
| 10
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using static System.Math;
using MethodImplAttribute = System.Runtime.CompilerServices.MethodImplAttribute;
using MethodImplOptions = System.Runtime.CompilerServices.MethodImplOptions;
public static class P {
public static void Main() {
var nk = Console.ReadLine().Split().Select(int.Parse).ToArray();
var n = nk[0];
var k = nk[1];
var a = Console.ReadLine().Split().Select(int.Parse).ToArray();
// var a = Enumerable.Repeat(0, n).ToArray();
// nが小さい時注意
var monoid = new AbelianMonoid<int>((x, y) => x + y, 0);
for (int count = 0; count < k; count++) {
RangeGetSegmentTree<int> next = new RangeGetSegmentTree<int>(n, monoid);
for (int i = 0; i < n; i++)
next.Operate(Max(i - a[i], 0), Min(i + a[i], n - 1), 1);
var isAllN = true;
for (int i = 0; i < n; i++) {
a[i] = next[i];
if (a[i] != n)
isAllN = false;
}
if (isAllN)
break;
}
Console.WriteLine(string.Join(" ", a));
}
}
class Monoid<T> {
public Func<T, T, T> Operation { get; }
public T Identity { get; }
public Monoid(Func<T, T, T> operation, T identity) {
Operation = operation;
Identity = identity;
}
}
class AbelianMonoid<T> : Monoid<T> {
public AbelianMonoid(Func<T, T, T> operation, T identity)
: base(operation, identity) {}
}
class RangeGetSegmentTree<T> {
public readonly int Size;
readonly bool IsCommutative;
Monoid<T> Monoid;
T[] Operators;
int Height;
int LeafCount;
public RangeGetSegmentTree(int size, Monoid<T> monoid) {
Size = size;
Monoid = monoid;
Height = 1;
LeafCount = 1;
while (LeafCount < size) {
Height++;
LeafCount <<= 1;
}
Operators = new T[LeafCount << 1];
for (int i = 0; i < Operators.Length; i++)
Operators[i] = monoid.Identity;
}
public RangeGetSegmentTree(int size, AbelianMonoid<T> monoid)
: this(size, monoid as Monoid<T>) {
IsCommutative = true;
}
public T this[int index] {
get { return Query(index); }
set {
Propagate(index += LeafCount);
Operators[index] = value;
}
}
public void Operate(int i, T x) {
i += LeafCount;
if (!IsCommutative)
Propagate(i);
Operators[i] = Monoid.Operation(Operators[i], x);
}
public void Operate(int l, int r, T x) {
l += LeafCount;
r += LeafCount;
if (!IsCommutative)
Propagate(l, r);
while (l <= r) {
if ((l & 1) == 1)
Operators[l] = Monoid.Operation(Operators[l], x);
if ((r & 1) == 0)
Operators[r] = Monoid.Operation(Operators[r], x);
l = (l + 1) / 2;
r = (r - 1) / 2;
}
}
public T Query(int index) {
index += LeafCount;
if (!IsCommutative)
Propagate(index);
return Operators[index];
}
private void Eval(int section) {
var leftChild = section << 1;
var rightChild = leftChild | 1;
Operators[leftChild] =
Monoid.Operation(Operators[leftChild], Operators[section]);
Operators[rightChild] =
Monoid.Operation(Operators[rightChild], Operators[section]);
Operators[section] = Monoid.Identity;
}
private void Propagate(int sectionIndex) {
for (int i = Height - 1; i >= 1; i--)
Eval(sectionIndex >> i);
}
private void Propagate(int l, int r) {
if (l == r) {
Propagate(l);
return;
}
int xor = l ^ r, i = Height - 1;
for (; (xor >> i) == 0; i--) {
Eval(l >> i);
}
for (; i >= 1; i--) {
Eval(l >> i);
Eval(r >> i);
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using static System.Math;
using MethodImplAttribute = System.Runtime.CompilerServices.MethodImplAttribute;
using MethodImplOptions = System.Runtime.CompilerServices.MethodImplOptions;
public static class P {
public static void Main() {
var nk = Console.ReadLine().Split().Select(int.Parse).ToArray();
var n = nk[0];
var k = nk[1];
var a = Console.ReadLine().Split().Select(int.Parse).ToArray();
// var a = Enumerable.Repeat(0, n).ToArray();
// nが小さい時注意
var monoid = new AbelianMonoid<int>((x, y) => x + y, 0);
for (int count = 0; count < k; count++) {
RangeGetSegmentTree<int> next = new RangeGetSegmentTree<int>(n, monoid);
for (int i = 0; i < n; i++)
next.Operate(Max(i - a[i], 0), Min(i + a[i], n - 1), 1);
var isAllN = true;
for (int i = 0; i < n; i++) {
a[i] = next[i];
if (a[i] != n)
isAllN = false;
}
if (isAllN)
break;
}
Console.WriteLine(string.Join(" ", a));
}
}
class Monoid<T> {
public Func<T, T, T> Operation { get; }
public T Identity { get; }
public Monoid(Func<T, T, T> operation, T identity) {
Operation = operation;
Identity = identity;
}
}
class AbelianMonoid<T> : Monoid<T> {
public AbelianMonoid(Func<T, T, T> operation, T identity)
: base(operation, identity) {}
}
class RangeGetSegmentTree<T> {
public readonly int Size;
readonly bool IsCommutative;
Monoid<T> Monoid;
T[] Operators;
int Height;
int LeafCount;
public RangeGetSegmentTree(int size, Monoid<T> monoid) {
Size = size;
Monoid = monoid;
Height = 1;
LeafCount = 1;
while (LeafCount < size) {
Height++;
LeafCount <<= 1;
}
Operators = new T[LeafCount << 1];
for (int i = 0; i < Operators.Length; i++)
Operators[i] = monoid.Identity;
}
public RangeGetSegmentTree(int size, AbelianMonoid<T> monoid)
: this(size, monoid as Monoid<T>) {
IsCommutative = true;
}
public T this[int index] {
get { return Query(index); }
set {
Propagate(index += LeafCount);
Operators[index] = value;
}
}
public void Operate(int i, T x) {
i += LeafCount;
// if (!IsCommutative) Propagate(i);
Operators[i] = Monoid.Operation(Operators[i], x);
}
public void Operate(int l, int r, T x) {
l += LeafCount;
r += LeafCount;
// if (!IsCommutative) Propagate(l, r);
while (l <= r) {
if ((l & 1) == 1)
Operators[l] = Monoid.Operation(Operators[l], x);
if ((r & 1) == 0)
Operators[r] = Monoid.Operation(Operators[r], x);
l = (l + 1) / 2;
r = (r - 1) / 2;
}
}
public T Query(int index) {
index += LeafCount;
Propagate(index);
return Operators[index];
}
private void Eval(int section) {
var leftChild = section << 1;
var rightChild = leftChild | 1;
Operators[leftChild] =
Monoid.Operation(Operators[leftChild], Operators[section]);
Operators[rightChild] =
Monoid.Operation(Operators[rightChild], Operators[section]);
Operators[section] = Monoid.Identity;
}
private void Propagate(int sectionIndex) {
for (int i = Height - 1; i >= 1; i--)
Eval(sectionIndex >> i);
}
private void Propagate(int l, int r) {
if (l == r) {
Propagate(l);
return;
}
int xor = l ^ r, i = Height - 1;
for (; (xor >> i) == 0; i--) {
Eval(l >> i);
}
for (; i >= 1; i--) {
Eval(l >> i);
Eval(r >> i);
}
}
}
|
[["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 0, 195, 8, 196, 0, 57, 15, 241, 0, 111], ["-", 0, 195, 8, 196, 0, 57, 15, 241, 0, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 8, 196, 0, 57, 64, 1, 0, 213, 63, 22], ["-", 0, 57, 64, 1, 0, 213, 3, 4, 0, 24], ["-", 64, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["-", 0, 57, 64, 1, 0, 213, 3, 4, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 1, 0, 35], ["-", 0, 57, 64, 1, 0, 213, 3, 4, 0, 21]]
| 8
| 981
| 27
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Text;
using System.Threading.Tasks;
using System.Globalization;
using System.Collections;
namespace Atcoder {
public class CPair<T, U> : IComparable
where T : IComparable<T> {
public readonly T Item1;
public readonly U Item2;
public int CompareTo(object obj) {
CPair<T, U> castedObj = (CPair<T, U>)obj;
return this.Item1.CompareTo(castedObj.Item1);
}
public CPair(T t, U u) {
Item1 = t;
Item2 = u;
}
}
class Pair : IComparable {
public long a;
public long b;
public long kosu;
public Pair(long A, long B) {
a = A;
b = B;
}
public int CompareTo(object obj) {
Pair kore = (Pair)obj;
if (a != kore.a) {
return a.CompareTo(kore.a);
}
return b.CompareTo(kore.b);
}
/* public static bool operator <=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x <= p2.x; }
else { return p1.a <= p2.a; }
}
public static bool operator >=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x >= p2.x; }
else { return p1.a >= p2.a; }
}*/
}
class Pair2 : IComparable {
public long a;
public long b;
public long kosu;
public long teki;
public Mlong jikkou = 1;
public Pair2(long A, long B) {
a = A;
b = B;
}
public int CompareTo(object obj) {
Pair2 kore = (Pair2)obj;
if (a != kore.a) {
return a.CompareTo(kore.a);
}
return b.CompareTo(kore.b);
}
/* public static bool operator <=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x <= p2.x; }
else { return p1.a <= p2.a; }
}
public static bool operator >=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x >= p2.x; }
else { return p1.a >= p2.a; }
}*/
}
class Program {
static bool[] visited;
static List<int>[] togo;
static void Main(string[] args) {
StreamScanner scan = new StreamScanner(System.Console.OpenStandardInput());
long n = scan.Long();
long k = scan.Long();
long[] a = scan.Long(n);
long[] ruiseki = new long[n];
long sum = 0;
bool ended = false;
for (long i = 0; i < k; i++) {
for (long j = 0; j < n; j++) {
long saki = j - a[j];
if (saki < 0) {
saki = 0;
}
ruiseki[saki]++;
long ato = j + a[j] + 1;
if (ato < n)
ruiseki[ato]--;
}
a[0] = ruiseki[0];
for (long j = 1; j < n; j++) {
a[j] = ruiseki[j] + a[j - 1];
sum += a[j];
}
if (sum == n * n) {
ended = true;
break;
}
ruiseki = new long[n];
}
if (ended) {
for (long i = 0; i < n - 1; i++) {
Console.Write(n + " ");
}
Console.WriteLine(n);
} else {
for (long i = 0; i < n - 1; i++) {
Console.Write(a[i] + " ");
}
Console.WriteLine(a[n - 1]);
}
}
static void shuffle(Pair2[] ary) {
System.Random rng = new System.Random();
int n = ary.Length;
while (n > 1) {
n--;
int k = rng.Next(n + 1);
var tmp = new Pair2(ary[k].a, ary[k].b);
ary[k] = new Pair2(ary[n].a, ary[n].b);
ary[n] = new Pair2(tmp.a, tmp.b);
}
}
static bool DFS(int now, int last) {
visited[now] = true;
for (int i = 0; i < togo[now].Count; i++) {
if (togo[now][i] == last) {
continue;
}
if (visited[togo[now][i]]) {
return false;
}
if (!DFS(togo[now][i], now)) {
return false;
}
}
return true;
}
static int binary_search<T>(T key, T[] moto, Func<int, T, T[], bool> isok) {
int ng = -1;
int ok = moto.Length;
while (Math.Abs(ok - ng) > 1) {
int mid = (ok + ng) / 2;
if (isok(mid, key, moto)) {
ok = mid;
} else {
ng = mid;
}
}
return ok;
}
static int binary_search(int key, int[] moto) {
int ng = -1;
int ok = moto.Length;
while (Math.Abs(ok - ng) > 1) {
int mid = (ok + ng) / 2;
if (isOK(mid, key, moto)) {
ok = mid;
} else {
ng = mid;
}
}
return ok;
}
static int[] Togo;
static bool CheckBipartite(int now, int prev, List<int>[] g,
int c = 0) // 0,-1が想定
{
if (Togo == null)
Togo = Enumerable.Repeat(-1, g.Length).ToArray();
foreach (var next in g[now]) {
if (next == prev)
continue;
var nextc = Togo[next];
if (nextc >= 0 && nextc == c)
return false;
if (nextc >= 0)
continue;
Togo[next] = (c + 1) % 2;
var res = CheckBipartite(next, now, g, (c + 1) % 2);
if (res == false)
return false;
}
return true;
}
static bool isOK(int index, int key, int[] moto) { return moto[index] > key; }
public static int bitCount(int k) {
uint i = (uint)k;
i = i - ((i >> 1) & 0x55555555);
i = (i & 0x33333333) + ((i >> 2) & 0x33333333);
i = (i + (i >> 4)) & 0x0f0f0f0f;
i = i + (i >> 8);
i = i + (i >> 16);
return (int)i & 0x3f;
}
static int check(long moto, long tai) {
if (tai % moto != 0) {
return 0;
}
while (tai > 1) {
if (tai % moto == 0) {
tai /= moto;
} else if (tai > moto) {
tai %= moto;
} else {
tai -= moto;
}
}
if (tai == 1) {
return 1;
} else {
return 0;
}
}
static bool NextPermutation(int[] array) {
var size = array.Length;
var ok = false;
// array[i]<array[i+1]を満たす最大のiを求める
int i = size - 2;
for (; 0 <= i; i--) {
if (array[i] < array[i + 1]) {
ok = true;
break;
}
}
//全ての要素が降順の場合、NextPermutationは存在しない
if (ok == false)
return false;
// array[i]<array[j]を満たす最大のjを求める
int j = size - 1;
for (;; j--) {
if (array[i] < array[j])
break;
}
// iとjの要素をswapする
var tmp = array[i];
array[i] = array[j];
array[j] = tmp;
// i以降の要素を反転させる
Array.Reverse(array, i + 1, size - (i + 1));
return true;
}
static List<int[]> GetAllPermutation(int N) {
var res = new List<int[]>();
var array = Enumerable.Range(0, N).ToArray();
do {
var copy = new int[N];
array.CopyTo(copy, 0);
res.Add(copy);
} while (NextPermutation(array));
return res;
}
static List<int[]> GetAllPermutation(int[] array) {
var size = array.Length;
var res = new List<int[]>();
do {
var copy = new int[size];
array.CopyTo(copy, 0);
res.Add(copy);
} while (NextPermutation(array));
return res;
}
static long Syakutori(
int[] a,
long
k) //しゃくとり法モデル:連続部分列に含まれるすべての要素の値の和がK以上
{
long sum = 0;
int right = 0;
long ans = 0;
for (int left = 0; left < a.Length; left++) {
while (right < a.Length && sum < k) {
sum += a[right];
right++;
}
if (k <= sum) {
ans += a.Length - right + 1;
}
if (left == right) {
right++;
} else {
sum -= a[left];
}
}
return ans;
}
static int[] zalgo(String s) {
int n = s.Length;
int[] ret = new int[n];
ret[0] = n;
int i = 1, j = 0;
while (i < n) {
while (i + j < n && s[j] == s[i + j])
++j;
ret[i] = j;
if (j == 0) {
++i;
continue;
}
int k = 1;
while (i + k < n && k + ret[k] < j) {
ret[i + k] = ret[k];
++k;
}
i += k;
j -= k;
}
return ret;
}
static int gcd(int a, int b) {
if (a % b == 0) {
return b;
}
return gcd(b, a % b);
}
static long gcd(long a, long b) {
if (a % b == 0) {
return b;
}
return gcd(b, a % b);
}
public static List<long> factorialMemo = new List<long>() { 1 };
static long Fact(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
static int[] yousogotoplus(int[] a, int[] b) {
int[] c = new int[a.Length];
for (int i = 0; i < a.Length; i++) {
c[i] = a[i] + b[i];
}
return c;
}
static int[] yousogotoplus(int[] a, int[,] b, int l) {
int[] c = new int[a.Length];
for (int i = 0; i < a.Length; i++) {
c[i] = a[i] + b[l, i];
}
return c;
}
static int[] yousogotoplus(int[,] a, int l) {
int[] c = new int[a.GetLength(1)];
for (int i = 0; i < a.GetLength(1); i++) {
c[i] = a[l, i];
}
return c;
}
public static long LowerBound(long[] a, long key) {
long l = 0;
long r = a.Length;
long mid;
while (l < r) {
mid = ((r - l) / 2) + l;
if (a[mid] <= key)
l = mid + 1;
else
r = mid;
}
return l;
}
public static long LIS(long[] a) {
var dp = Enumerable.Range(0, a.Length).Select(x => long.MaxValue).ToArray();
for (int i = 0; i < a.Length; i++) {
dp[LowerBound(dp, a[i])] = a[i];
}
return LowerBound(dp, long.MaxValue - 1);
}
static long DivideWith(long m, long n, List<long> primes) {
while (m % n == 0) {
primes.Add(n);
m = m / n;
}
return m;
}
static void Soinsubunkai(long num) {
long m = num;
for (long i = 2; i * i < num; i++) {
long j = 0;
for (j = 0; j < num; j++) {
if (m % i == 0) {
m /= i;
}
}
// i^j | num,i^{j+1} not divide num
}
if (m != 1) {
//素因数が一つ残っている(k*k>numな素因数は高々一つ)
}
}
/* static List<CPair<long, long>> SoinsuBunkai(long num)
{
List<CPair<long, long>> primes = new List<CPair<long, long>>();
List<long> yakusu = new List<long>();
List<long> yakusu2 = new List<long>();
for (int i = 2; i * i <= num; i++)
{
if (num % i != 0) { continue; }
yakusu.Add(i);
if (i * i != num) { yakusu2.Add(num / i); }
}
for (int i = 0; i < yakusu.Count; i++)
{
if (num % yakusu[i] != 0) { continue; }
int j = 0;
for (j = 0; num % yakusu[i] == 0; j++)
{
num /= yakusu[i];
}
primes.Add(new CPair<long, long>(yakusu[i], j));
}
for (int i = yakusu2.Count - 1; i > 0; i--)
{
if (num % yakusu2[i] != 0) { continue; }
int j = 0;
for (j = 0; num % yakusu2[i] == 0; j++)
{
num /= yakusu2[i];
}
primes.Add(new CPair<long, long>(yakusu2[i], j));
}
return primes;
}*/
static IEnumerable<int> Primes(int maxnum) {
// var sieve = new BitArray(maxnum + 1, true);
bool[] sieve = Enumerable.Repeat(true, maxnum + 1).ToArray();
int squareroot = (int)Math.Sqrt(maxnum);
for (int i = 2; i <= squareroot; i++) {
if (sieve[i] == false)
continue;
for (int n = i * 2; n <= maxnum; n += i)
sieve[n] = false;
}
for (int i = 2; i <= maxnum; i++)
if (sieve[i] == true)
yield return i;
}
/* static long[] SoinsuBunkai(long num)
{
if (num == 1)
return new long[] { 1 };
List<long> primes = new List<long>();
long n = DivideWith(num, 2, primes);
n = DivideWith(n, 3, primes);
n = DivideWith(n, 5, primes);
long i = 0;
while (n > 1)
{
int[] ps = { 7, 11, 13, 17, 19, 23, 29, 31 };
foreach (var p in ps)
{
// 30m+2, 30m+3, 30m+4, 30m+5, 30m+6、30m+8...
は割る必要はない。 n = DivideWith(n, i + p, primes); if (n == 1) break;
}
i += 30;
}
return primes.ToArray();
}*/
public static int h;
public static int w;
public static int BFS(int height, int width, char[,] map) {
int[] dx = new int[] { -1, 0, 0, 1 };
int[] dy = new int[] { 0, 1, -1, 0 };
bool[,] visited = new bool[h, w];
int[,] len = new int[h, w];
var queue = new Queue<Tuple<int, int>>();
queue.Enqueue(new Tuple<int, int>(height, width));
int max = 0;
visited[height, width] = true;
while (queue.Count > 0) {
var now = queue.Dequeue();
for (int i = 0; i < 4; i++) {
int ny = now.Item1 + dy[i];
int nx = now.Item2 + dx[i];
if (ny >= h || ny < 0 || nx >= w || nx < 0)
continue;
if (visited[ny, nx] || map[ny, nx] == '#')
continue;
visited[ny, nx] = true;
len[ny, nx] = len[now.Item1, now.Item2] + 1;
max = Math.Max(max, len[ny, nx]);
queue.Enqueue(new Tuple<int, int>(ny, nx));
}
}
return max;
}
static public List<int> Topological_Sort(List<List<Edge>> G) {
var ret = new List<int>();
var Nodes = new Queue<int>();
int N = G.Count();
var Link = new int[N];
for (var i = 0; i < N; i++) {
Link[i] = 0;
}
for (var i = 0; i < N; i++) {
foreach (var nx in G[i]) {
Link[nx.to]++;
}
}
for (var i = 0; i < N; i++) {
if (Link[i] == 0) {
Nodes.Enqueue(i);
}
}
while (Nodes.Any()) {
var nd = Nodes.Dequeue();
ret.Add(nd);
foreach (var nx in G[nd]) {
Link[nx.to]--;
if (Link[nx.to] == 0) {
Nodes.Enqueue(nx.to);
}
}
}
return ret;
}
static public bool Bit(long x, int dig) => ((1L << dig) & x) != 0;
static public void Swap<T>(ref T a, ref T b) {
T keep = a;
a = b;
b = keep;
}
static public void Initialize<T>(ref T[] array, T initialvalue) {
array = Array.ConvertAll(array, x => initialvalue);
}
static int[] Manacher(string S) {
int i = 0, j = 0;
int[] R = new int[S.Length];
while (i < S.Length) {
while (i - j >= 0 && i + j < S.Length && S[i - j] == S[i + j])
++j;
R[i] = j;
int k = 1;
while (i - k >= 0 && k + R[i - k] < j) {
R[i + k] = R[i - k];
++k;
}
i += k;
j -= k;
}
return R;
}
/* static Pair[] a;
static int SaikiZentansaku(List<int>now,int count,int last,int n,int m)
{
List<int> next = new List<int>();
for (int i = 0; i < now.Count; i++)
{
next.Add(now[i]);
}
next.Add(last);
var kore = next.ToArray();
int ans = 0;
if(count==n)
{
for (int i = 0; i < a.Length; i++)
{
int A = a[i].a;
int b = a[i].b;
int c = a[i].c;
int d = a[i].x;
if (kore[b] - kore[A] == c) { ans += d; }
}
return ans;
}
for (int i = last; i <= m; i++)
{
ans = Math.Max(ans, SaikiZentansaku(next, count + 1, i, n, m));
}
return ans;
}*/
}
public class StreamScanner {
public StreamScanner(Stream stream) { str = stream; }
private readonly Stream str;
private readonly byte[] buf = new byte[1024];
private int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
private byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
public char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
public char[] Char(long n) {
char[] kore = new char[n];
for (int i = 0; i < n; i++) {
kore[i] = Char();
}
return kore;
}
public char[,] Char(long n, long m) {
char[,] kore = new char[n, m];
for (int i = 0; i < n; i++) {
for (int j = 0; j < m; j++) {
kore[i, j] = Char();
}
}
return kore;
}
public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
public long[] Long(long n) {
long[] kore = new long[n];
for (int i = 0; i < n; i++) {
kore[i] = Long();
}
return kore;
}
public Mlong[] MLong(long n) {
Mlong[] kore = new Mlong[n];
for (int i = 0; i < n; i++) {
kore[i] = Long();
}
return kore;
}
public long[,] Long(long h, long w) {
long[,] kore = new long[h, w];
for (int i = 0; i < h; i++) {
for (int j = 0; j < w; j++) {
kore[i, j] = Long();
}
}
return kore;
}
public int Integer() { return (int)Long(); }
public Mint[] MInteger(long n) {
Mint[] kore = new Mint[n];
for (int i = 0; i < n; i++) {
kore[i] = Integer();
}
return kore;
}
public int[] Integer(long n) {
int[] kore = new int[n];
for (int i = 0; i < n; i++) {
kore[i] = (int)Long();
}
return kore;
}
public int[,] Integer(long h, long w) {
int[,] kore = new int[h, w];
for (int i = 0; i < h; i++) {
for (int j = 0; j < w; j++) {
kore[i, j] = (int)Long();
}
}
return kore;
}
public int[] StringToInt(int n) {
char[] s = Scan().ToCharArray();
int[] kore = new int[n];
for (int i = 0; i < n; i++) {
kore[i] = s[i] - '0';
}
return kore;
}
public int[,] StringToInt(int h, int w) {
int[,] kore = new int[h, w];
for (int i = 0; i < h; i++) {
char[] s = Scan().ToCharArray();
for (int j = 0; j < w; j++) {
kore[i, j] = s[j] - '0';
}
}
return kore;
}
public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
public class UnionFind {
public int[] data;
public UnionFind(int size) {
data = new int[size];
for (int i = 0; i < size; i++)
data[i] = -1;
}
public bool Unite(int x, int y) {
x = Root(x);
y = Root(y);
if (x != y) {
if (data[y] < data[x]) {
var tmp = y;
y = x;
x = tmp;
}
data[x] += data[y];
data[y] = x;
}
return x != y;
}
public bool IsSameGroup(int x, int y) { return Root(x) == Root(y); }
public int Root(int x) { return data[x] < 0 ? x : data[x] = Root(data[x]); }
}
public class Mlong : IComparable {
private static long mod = 1000000007;
public long num;
public Mlong(long num) { this.num = num; }
public override int GetHashCode() { return num.GetHashCode(); }
public override bool Equals(object obj) { return num.Equals(obj); }
public static Mlong operator +(Mlong x, Mlong y) {
return new Mlong((x.num + y.num) % mod);
}
public static Mlong operator -(Mlong x, Mlong y) {
return new Mlong((x.num - y.num + mod) % mod);
}
public static Mlong operator *(Mlong x, Mlong y) {
return new Mlong((long)(((1L * x.num) * y.num) % mod));
}
public Mlong hutujyo(Mlong x) { return new Mlong(num / x.num); }
static long GetInverse(long a) {
long div, p = mod, x1 = 1, y1 = 0, x2 = 0, y2 = 1;
while (true) {
if (p == 1)
return x2 + mod;
div = a / p;
x1 -= x2 * div;
y1 -= y2 * div;
a %= p;
if (a == 1)
return x1 + mod;
div = p / a;
x2 -= x1 * div;
y2 -= y1 * div;
p %= a;
}
}
public Mlong modjyo(Mlong x) { return num * GetInverse(x.num) % mod; }
public static implicit operator Mlong(long x) { return new Mlong(x); }
public static Mlong operator %(Mlong x, Mlong y) {
return new Mlong(x.num % y.num);
}
public static explicit operator long(Mlong x) { return x.num; }
public static bool operator ==(Mlong x, Mlong y) { return x.num == y.num; }
public static bool operator !=(Mlong x, Mlong y) { return x.num != y.num; }
public static bool operator<(Mlong x, Mlong y) { return x.num < y.num; }
public static bool operator>(Mlong x, Mlong y) { return x.num > y.num; }
public static bool operator <=(Mlong x, Mlong y) { return x.num <= y.num; }
public static bool operator >=(Mlong x, Mlong y) { return x.num >= y.num; }
public Mlong Pow(Mlong n) {
Mlong pow = this;
Mlong res = 1;
while (n > 0) {
if (n % 2 == 1) {
res *= pow;
}
pow *= pow;
n = n.hutujyo(2);
}
/* if (n == 1) { return this % mod; }
if (n % 2 == 1) { return (this * Pow(n - 1)) % mod; }
Mint buf = Pow(n.hutujyo(2));
return (buf * buf) % mod;*/
return res;
}
public static Mlong Pow(Mlong a, Mlong n) { return a.Pow(n); }
public static List<Mlong> factorialMemo = new List<Mlong>() { 1 };
static Mlong Factorial(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
public static Mlong Comb(Mlong n, Mlong a) {
Mlong buf1 = 1;
Mlong buf2 = 1;
for (long i = 0; i < a.num; i++) {
buf1 *= n - i;
buf2 *= (i + 1);
}
return buf1.modjyo(buf2);
}
public static Mlong Comb(int n, int r) {
return Factorial(n).modjyo(Factorial(r)).modjyo(Factorial(n - r));
}
public static void WriteLine(Mlong x) { Console.WriteLine(x.num); }
public int CompareTo(object obj) {
Mlong kore = (Mlong)obj;
return num.CompareTo(kore.num);
}
}
public class Mint : IComparable {
public static int mod = 1000000007;
public int num;
public Mint(int Num) { num = Num; }
public override int GetHashCode() { return num.GetHashCode(); }
public override bool Equals(object obj) { return num.Equals(obj); }
public static Mint operator +(Mint x, Mint y) {
return new Mint((x.num + y.num) % mod);
}
public static Mint operator -(Mint x, Mint y) {
return new Mint((x.num - y.num + mod) % mod);
}
public static Mint operator *(Mint x, Mint y) {
return new Mint((int)(((1L * x.num) * y.num) % mod));
}
public Mint hutujyo(Mint x) { return new Mint(num / x.num); }
static int GetInverse(long a) {
long div, p = mod, x1 = 1, y1 = 0, x2 = 0, y2 = 1;
while (true) {
if (p == 1)
return (int)(x2 + mod);
div = a / p;
x1 -= x2 * div;
y1 -= y2 * div;
a %= p;
if (a == 1)
return (int)(x1 + mod);
div = p / a;
x2 -= x1 * div;
y2 -= y1 * div;
p %= a;
}
}
public Mint modjyo(Mint x) { return num * GetInverse(x.num) % mod; }
/* public Mint modjyo(Mint x)
{
return num * x.Pow(mod - 2);
}*/
public static implicit operator Mint(int x) { return new Mint(x); }
public static Mint[] Toarray(int[] x) {
Mint[] buf = new Mint[x.Length];
for (int i = 0; i < x.Length; i++) {
buf[i] = x[i];
}
return buf;
}
public static explicit operator int(Mint x) { return x.num; }
public static Mint operator %(Mint x, Mint y) {
return new Mint(x.num % y.num);
}
public static bool operator ==(Mint x, Mint y) { return x.num == y.num; }
public static bool operator !=(Mint x, Mint y) { return x.num != y.num; }
public static bool operator<(Mint x, Mint y) { return x.num < y.num; }
public static bool operator>(Mint x, Mint y) { return x.num > y.num; }
public static bool operator <=(Mint x, Mint y) { return x.num <= y.num; }
public static bool operator >=(Mint x, Mint y) { return x.num >= y.num; }
public Mint Pow(Mint n) {
Mint pow = this;
Mint res = 1;
while (n > 0) {
if (n % 2 == 1) {
res *= pow;
}
pow *= pow;
n.hutujyo(2);
}
/* if (n == 1) { return this % mod; }
if (n % 2 == 1) { return (this * Pow(n - 1)) % mod; }
Mint buf = Pow(n.hutujyo(2));
return (buf * buf) % mod;*/
return res;
}
public static Mint Pow(Mint a, Mint n) { return a.Pow(n); }
public static List<Mint> factorialMemo = new List<Mint>() { 1 };
static Mint Factorial(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
public static Mint Comb(int n, int r) {
return Factorial(n).modjyo(Factorial(r)).modjyo(Factorial(n - r));
}
public static void WriteLine(Mint x) { Console.WriteLine(x.num); }
public int CompareTo(object obj) {
Mint kore = (Mint)obj;
return num.CompareTo(kore.num);
}
}
public class PriorityQueue<T> : IEnumerable<T> {
private readonly List<T> _data = new List<T>();
private readonly IComparer<T> _comparer;
private readonly bool _isDescending;
public PriorityQueue(IComparer<T> comparer, bool isDescending = true) {
_comparer = comparer;
_isDescending = isDescending;
}
public PriorityQueue(Comparison<T> comparison, bool isDescending = true)
: this(Comparer<T>.Create(comparison), isDescending) {}
public PriorityQueue(bool isDescending = true)
: this(Comparer<T>.Default, isDescending) {}
public void Enqueue(T item) {
_data.Add(item);
var childIndex = _data.Count - 1;
while (childIndex > 0) {
var parentIndex = (childIndex - 1) / 2;
if (Compare(_data[childIndex], _data[parentIndex]) >= 0)
break;
Swap(childIndex, parentIndex);
childIndex = parentIndex;
}
}
public T Dequeue() {
var lastIndex = _data.Count - 1;
var firstItem = _data[0];
_data[0] = _data[lastIndex];
_data.RemoveAt(lastIndex--);
var parentIndex = 0;
while (true) {
var childIndex = parentIndex * 2 + 1;
if (childIndex > lastIndex)
break;
var rightChild = childIndex + 1;
if (rightChild <= lastIndex &&
Compare(_data[rightChild], _data[childIndex]) < 0)
childIndex = rightChild;
if (Compare(_data[parentIndex], _data[childIndex]) <= 0)
break;
Swap(parentIndex, childIndex);
parentIndex = childIndex;
}
return firstItem;
}
public T Peek() { return _data[0]; }
private void Swap(int a, int b) {
var tmp = _data[a];
_data[a] = _data[b];
_data[b] = tmp;
}
private int Compare(T a, T b) {
return _isDescending ? _comparer.Compare(b, a) : _comparer.Compare(a, b);
}
public int Count => _data.Count;
public IEnumerator<T> GetEnumerator() { return _data.GetEnumerator(); }
IEnumerator IEnumerable.GetEnumerator() => GetEnumerator();
}
public class Tree {
public Node[] Nodes;
public List<int[]> hen;
public class Node {
public int? parent = null;
public List<int[]> children = new List<int[]>();
public int parentcolor = -1;
}
public Tree(int kosu) {
Nodes = new Node[kosu];
for (int i = 0; i < Nodes.Length; i++) {
Nodes[i] = new Node();
}
hen = new List<int[]>();
}
public void Connect(int oya, int ko, int id) {
hen.Add(new int[] { oya, ko, 0 });
Nodes[oya].children.Add(new int[] { ko, id });
Nodes[ko].parent = oya;
}
}
/// <summary>
/// Self-Balancing Binary Search Tree
/// (using Randamized BST)
/// </summary>
public class SB_BinarySearchTree<T>
where T : IComparable {
public class Node {
public T Value;
public Node LChild;
public Node RChild;
public int Count; // size of the sub tree
public Node(T v) {
Value = v;
Count = 1;
}
}
static Random _rnd = new Random();
public static int Count(Node t) { return t == null ? 0 : t.Count; }
static Node Update(Node t) {
t.Count = Count(t.LChild) + Count(t.RChild) + 1;
return t;
}
public static Node Merge(Node l, Node r) {
if (l == null || r == null)
return l == null ? r : l;
if ((double)Count(l) / (double)(Count(l) + Count(r)) > _rnd.NextDouble()) {
l.RChild = Merge(l.RChild, r);
return Update(l);
} else {
r.LChild = Merge(l, r.LChild);
return Update(r);
}
}
/// <summary>
/// split as [0, k), [k, n)
/// </summary>
public static Tuple<Node, Node> Split(Node t, int k) {
if (t == null)
return new Tuple<Node, Node>(null, null);
if (k <= Count(t.LChild)) {
var s = Split(t.LChild, k);
t.LChild = s.Item2;
return new Tuple<Node, Node>(s.Item1, Update(t));
} else {
var s = Split(t.RChild, k - Count(t.LChild) - 1);
t.RChild = s.Item1;
return new Tuple<Node, Node>(Update(t), s.Item2);
}
}
public static Node Remove(Node t, T v) {
if (Find(t, v) == null)
return t;
return RemoveAt(t, LowerBound(t, v));
}
public static Node RemoveAt(Node t, int k) {
var s = Split(t, k);
var s2 = Split(s.Item2, 1);
return Merge(s.Item1, s2.Item2);
}
public static bool Contains(Node t, T v) { return Find(t, v) != null; }
public static Node Find(Node t, T v) {
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp > 0)
t = t.LChild;
else if (cmp < 0)
t = t.RChild;
else
break;
}
return t;
}
public static Node FindByIndex(Node t, int idx) {
if (t == null)
return null;
var currentIdx = Count(t) - Count(t.RChild) - 1;
while (t != null) {
if (currentIdx == idx)
return t;
if (currentIdx > idx) {
t = t.LChild;
currentIdx -= (Count(t == null ? null : t.RChild) + 1);
} else {
t = t.RChild;
currentIdx += (Count(t == null ? null : t.LChild) + 1);
}
}
return null;
}
public static int UpperBound(Node t, T v) {
var torg = t;
if (t == null)
return -1;
var ret = Int32.MaxValue;
var idx = Count(t) - Count(t.RChild) - 1;
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp > 0) {
ret = Math.Min(ret, idx);
t = t.LChild;
idx -= (Count(t == null ? null : t.RChild) + 1);
} else if (cmp <= 0) {
t = t.RChild;
idx += (Count(t == null ? null : t.LChild) + 1);
}
}
return ret == Int32.MaxValue ? Count(torg) : ret;
}
public static int LowerBound(Node t, T v) {
var torg = t;
if (t == null)
return -1;
var idx = Count(t) - Count(t.RChild) - 1;
var ret = Int32.MaxValue;
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp >= 0) {
if (cmp == 0)
ret = Math.Min(ret, idx);
t = t.LChild;
if (t == null)
ret = Math.Min(ret, idx);
idx -= t == null ? 0 : (Count(t.RChild) + 1);
} else if (cmp < 0) {
t = t.RChild;
idx += (Count(t == null ? null : t.LChild) + 1);
if (t == null)
return idx;
}
}
// return ret;
return ret == Int32.MaxValue ? Count(torg) : ret;
}
public static Node Insert(Node t, T v) {
var ub = LowerBound(t, v);
return InsertByIdx(t, ub, v);
}
static Node InsertByIdx(Node t, int k, T v) {
var s = Split(t, k);
return Merge(Merge(s.Item1, new Node(v)), s.Item2);
}
public static IEnumerable<T> Enumerate(Node t) {
var ret = new List<T>();
Enumerate(t, ret);
return ret;
}
static void Enumerate(Node t, List<T> ret) {
if (t == null)
return;
Enumerate(t.LChild, ret);
ret.Add(t.Value);
Enumerate(t.RChild, ret);
}
}
/// <summary>
/// C-like set
/// </summary>
public class Set<T>
where T : IComparable {
protected SB_BinarySearchTree<T>.Node _root;
public T this[int idx] {
get { return ElementAt(idx); }
}
public int Count() { return SB_BinarySearchTree<T>.Count(_root); }
public virtual void Insert(T v) {
if (_root == null)
_root = new SB_BinarySearchTree<T>.Node(v);
else {
if (SB_BinarySearchTree<T>.Find(_root, v) != null)
return;
_root = SB_BinarySearchTree<T>.Insert(_root, v);
}
}
public void Clear() { _root = null; }
public void Remove(T v) { _root = SB_BinarySearchTree<T>.Remove(_root, v); }
public bool Contains(T v) {
return SB_BinarySearchTree<T>.Contains(_root, v);
}
public T ElementAt(int k) {
var node = SB_BinarySearchTree<T>.FindByIndex(_root, k);
if (node == null)
throw new IndexOutOfRangeException();
return node.Value;
}
public int Count(T v) {
return SB_BinarySearchTree<T>.UpperBound(_root, v) -
SB_BinarySearchTree<T>.LowerBound(_root, v);
}
public int LowerBound(T v) {
return SB_BinarySearchTree<T>.LowerBound(_root, v);
}
public int UpperBound(T v) {
return SB_BinarySearchTree<T>.UpperBound(_root, v);
}
public Tuple<int, int> EqualRange(T v) {
if (!Contains(v))
return new Tuple<int, int>(-1, -1);
return new Tuple<int, int>(SB_BinarySearchTree<T>.LowerBound(_root, v),
SB_BinarySearchTree<T>.UpperBound(_root, v) - 1);
}
public List<T> ToList() {
return new List<T>(SB_BinarySearchTree<T>.Enumerate(_root));
}
}
/// <summary>
/// C-like multiset
/// </summary>
public class MultiSet<T> : Set<T>
where T : IComparable {
public override void Insert(T v) {
if (_root == null)
_root = new SB_BinarySearchTree<T>.Node(v);
else
_root = SB_BinarySearchTree<T>.Insert(_root, v);
}
}
public class RollingHashSlow {
public const long B = (long)1e5 + 7;
public const long MOD = (long)1e9 + 7;
public string S { get; set; }
public int N { get; set; }
public long[] Power { get; set; }
public long[] Hash { get; set; }
public RollingHashSlow(string s) {
this.S = s;
this.N = s.Length;
// B^nを計算しておく
this.Power = new long[this.N + 1];
this.Power[0] = 1;
for (int i = 0; i < N; i++) {
this.Power[i + 1] = (this.Power[i] * B) % MOD;
}
// ハッシュを前計算する
this.Hash = new long[this.N + 1];
for (int i = 0; i < N; i++) {
this.Hash[i + 1] = (this.Hash[i] * B + S[i]) % MOD;
}
}
// S[l, r) のハッシュ値を求める
public long Get(int l, int r) {
var hash = this.Hash[r] - (this.Hash[l] * this.Power[r - l] % MOD);
if (hash < 0)
hash += MOD;
return hash;
}
}
class RollingHashFast {
public const ulong B = (ulong)1e9 + 7;
public string S { get; set; }
public int N { get; set; }
public ulong[] Power { get; set; }
public ulong[] Hash { get; set; }
public RollingHashFast(string s) {
this.S = s;
this.N = s.Length;
// B^nを計算しておく
this.Power = new ulong[this.N + 1];
this.Power[0] = 1;
for (int i = 0; i < N; i++) {
this.Power[i + 1] = this.Power[i] * B;
}
// ハッシュを前計算する
this.Hash = new ulong[this.N + 1];
for (int i = 0; i < N; i++) {
this.Hash[i + 1] = this.Hash[i] * B + S[i];
}
}
// [l, r) のハッシュ値を求める
public ulong Get(int l, int r) {
var hash = this.Hash[r] - (this.Hash[l] * this.Power[r - l]);
return hash;
}
}
class Segtree<T> {
int n;
T[] tree;
Func<T, T, T> f;
T exnum;
public Segtree(int m, Func<T, T, T> f, T ex) {
this.f = f;
this.exnum = ex;
n = 1;
while (n < m)
n <<= 1;
tree = new T[(n << 1) - 1];
for (int i = 0; i < tree.Length; i++)
tree[i] = ex;
}
public Segtree(int m, T ini, Func<T, T, T> f, T ex) : this(m, f, ex) {
for (int i = 0; i < m; ++i)
tree[i + n - 1] = ini;
all_update();
}
public void assign_without_update(int j, T x) { tree[j + n - 1] = x; }
public void update(int j, T x) {
int i = j + n - 1;
tree[i] = x;
while (i > 0) {
i = (i - 1) >> 1;
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
}
public void all_update() {
for (int i = n - 2; i >= 0; i--)
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
public T look(int i) { return tree[i + n - 1]; }
// [s, t)
public T run(int s, int t) { return query(s, t, 0, 0, n); }
T query(int s, int t, int k, int l, int r) {
if (r <= s || t <= l)
return exnum;
if (s <= l && r <= t)
return tree[k];
return f(query(s, t, (k << 1) + 1, l, (l + r) >> 1),
query(s, t, (k + 1) << 1, (l + r) >> 1, r));
}
}
public class WarshallFloyd {
public int V { get; set; }
public long[,] DP { get; set; }
public long INF = long.MaxValue;
public bool[] Negative;
public WarshallFloyd(int v) {
this.V = v;
this.DP = new long[V, V];
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
this.DP[i, j] = INF;
}
this.DP[i, i] = 0;
}
}
public void SetCost(int a, int b, int c = 1) { this.DP[a, b] = c; }
public long[,] CalcMinCost() {
this.Negative = new bool[V];
for (int k = 0; k < V; k++) {
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
if (DP[i, k] == INF || DP[k, j] == INF)
continue;
DP[i, j] = Math.Min(DP[i, j], DP[i, k] + DP[k, j]);
}
}
}
for (int k = 0; k < V; k++) {
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
if (DP[i, k] == INF || DP[k, j] == INF)
continue;
if (DP[i, j] > DP[i, k] + DP[k, j]) {
this.Negative[i] = true;
this.Negative[j] = true;
this.Negative[k] = true;
}
}
}
}
return DP;
}
public long GetMinCost(int a, int b) { return DP[a, b]; }
public bool IsINF(int a, int b) { return DP[a, b] >= INF; }
public bool IsNegative(params int[] vs) {
if (vs.Length == 0)
vs = Enumerable.Range(0, V).ToArray();
foreach (var v in vs) {
if (Negative[v])
return true;
}
return false;
}
}
/// <summary>
/// Get min cost between two points
/// </summary>
public class Dijkstra {
private int maxIndex = -1;
private const int INF = Int32.MaxValue;
private int[,] _edgeArray;
/// <summary>
/// Dijkstra, get min cost between two points
/// should not contain negatie cost path
/// </summary>
/// <param name="size">max index of vertices</param>
public Dijkstra(int size) {
maxIndex = size + 1;
_edgeArray = new int[maxIndex, maxIndex];
for (int i = 0; i < _edgeArray.GetLength(0); i++) {
for (int j = 0; j < _edgeArray.GetLength(1); j++) {
_edgeArray[i, j] = INF;
if (i == j)
_edgeArray[i, j] = 0;
}
}
}
// Add a path(no direction) with its cost
public void AddPath(int s, int t, int cost) {
_edgeArray[s, t] = Math.Min(_edgeArray[s, t], cost);
_edgeArray[t, s] = _edgeArray[s, t];
}
// Get the min cost between s and t
// return Int32.MaxValue if no path
public int GetMinCost(int s, int t) {
int[] cost = new int[maxIndex];
for (int i = 0; i < cost.Length; i++)
cost[i] = INF;
cost[s] = 0;
var priorityQueue = new PriorityQueue<CPair<int, int>>();
priorityQueue.Enqueue(new CPair<int, int>(0, s));
while (priorityQueue.Count() > 0) {
var costDestinationPair = priorityQueue.Dequeue();
if (cost[costDestinationPair.Item2] < costDestinationPair.Item1)
continue;
for (int i = 0; i < maxIndex; i++) {
int newCostToi = _edgeArray[costDestinationPair.Item2, i] == INF
? INF
: costDestinationPair.Item1 +
_edgeArray[costDestinationPair.Item2, i];
if (newCostToi < cost[i]) {
cost[i] = newCostToi;
priorityQueue.Enqueue(new CPair<int, int>(newCostToi, i));
}
}
}
return cost[t];
}
}
class Deque<T> : IEnumerable<T> {
public T this[int i] {
get { return this.Buffer[(this.FirstIndex + i) % this.Capacity]; }
set {
if (i < 0)
throw new ArgumentOutOfRangeException();
this.Buffer[(this.FirstIndex + i) % this.Capacity] = value;
}
}
private T[] Buffer;
private int Capacity;
private int FirstIndex;
private int LastIndex {
get { return (this.FirstIndex + this.Length) % this.Capacity; }
}
public int Length;
public Deque(int capacity = 16) {
this.Capacity = capacity;
this.Buffer = new T[this.Capacity];
this.FirstIndex = 0;
}
public void PushBack(T data) {
if (this.Length == this.Capacity)
this.Resize();
this.Buffer[this.LastIndex] = data;
this.Length++;
}
public void PushFront(T data) {
if (this.Length == this.Capacity)
this.Resize();
var index = this.FirstIndex - 1;
if (index < 0)
index = this.Capacity - 1;
this.Buffer[index] = data;
this.Length++;
this.FirstIndex = index;
}
public T PopBack() {
if (this.Length == 0)
throw new InvalidOperationException("データが空です。");
var data = this[this.Length - 1];
this.Length--;
return data;
}
public T PopFront() {
if (this.Length == 0)
throw new InvalidOperationException("データが空です。");
var data = this[0];
this.FirstIndex++;
this.FirstIndex %= this.Capacity;
this.Length--;
return data;
}
private void Resize() {
var newArray = new T[this.Capacity * 2];
for (int i = 0; i < this.Length; i++) {
newArray[i] = this[i];
}
this.FirstIndex = 0;
this.Capacity *= 2;
this.Buffer = newArray;
}
public IEnumerator<T> GetEnumerator() {
for (int i = 0; i < this.Length; i++) {
yield return this[i];
}
}
IEnumerator IEnumerable.GetEnumerator() {
for (int i = 0; i < this.Length; i++) {
yield return this[i];
}
}
}
public struct Edge {
public int from;
public int to;
public long dist;
public Edge(int t, long c) {
from = -1;
to = t;
dist = c;
}
public Edge(int f, int t, long c) {
from = f;
to = t;
dist = c;
}
}
public class PotentializedUnionFind {
int _count;
int[] par, sizes, rank;
long[] weight;
public PotentializedUnionFind(int N) {
_count = N;
par = new int[N];
sizes = new int[N];
rank = new int[N];
weight = new long[N];
for (int i = 0; i < N; ++i) {
par[i] = i;
sizes[i] = 1;
rank[i] = 0;
}
}
int Root(int X) {
if (par[X] == X) {
return X;
} else {
int r = Root(par[X]);
weight[X] += weight[par[X]];
return (par[X] = r);
}
}
public bool Merge(int X, int Y, long W) {
W += GetWeight(X);
W -= GetWeight(Y);
X = Root(X);
Y = Root(Y);
if (X == Y)
return false;
--_count;
if (rank[X] < rank[Y]) {
par[X] = Y;
sizes[Y] += sizes[X];
weight[X] = -W;
} else {
par[Y] = X;
sizes[X] += sizes[Y];
if (rank[X] == rank[Y])
++rank[X];
weight[Y] = W;
}
return true;
}
public bool IsSame(int X, int Y) => Root(X) == Root(Y);
public int Count => _count;
public bool IsParent(int X) => X == Root(X);
public int GetParent(int X) => Root(X);
public int Size(int X) => sizes[Root(X)];
public long GetWeight(int X) {
Root(X);
return weight[X];
}
public long GetDiff(int X, int Y) => GetWeight(Y) - GetWeight(X);
}
public static class BellmanFord {
public class Vertex {
public long Distance { get; set; }
public Vertex() { Distance = long.MaxValue; }
}
public class Edge {
public int From { get; private set; }
public int To { get; private set; }
public long Weight { get; private set; }
public Edge(int from, int to, long weight) {
From = from;
To = to;
Weight = weight;
}
}
private static void GetReachable(int origin, ref HashSet<int> reached,
ref Dictionary<int, int[]> paths) {
if (reached.Contains(origin))
return;
reached.Add(origin);
if (paths.ContainsKey(origin) == false)
return;
foreach (var p in paths[origin])
GetReachable(p, ref reached, ref paths);
}
/// <summary>
/// null: 負の無限大
/// long.MaxValue: たどり着けない
/// その他: 距離
/// </summary>
public static long? RunBellmanFord(int vertexCount, List<Edge> rawEdges,
int source, int dest) {
var forwards =
rawEdges.GroupBy(x => x.From)
.ToDictionary(x => x.Key, x => x.Select(xs => xs.To).ToArray());
var reverses = rawEdges.GroupBy(x => x.To).ToDictionary(
x => x.Key, x => x.Select(xs => xs.From).ToArray());
var fromSource = new HashSet<int>();
var toDest = new HashSet<int>();
GetReachable(source, ref fromSource, ref forwards);
GetReachable(dest, ref toDest, ref reverses);
var edges = rawEdges.Where(e => fromSource.Contains(e.From))
.Where(e => fromSource.Contains(e.To))
.Where(e => toDest.Contains(e.From))
.Where(e => toDest.Contains(e.To))
.ToArray();
// initialize distances
var vertices = new List<Vertex>();
for (int i = 0; i < vertexCount; i++)
vertices.Add(new Vertex());
vertices[source].Distance = 0L;
// update distances
for (int i = 0; i < vertices.Count; i++) {
foreach (var e in edges) {
var from = vertices[e.From];
var to = vertices[e.To];
if (from.Distance == long.MaxValue)
continue;
var newDistance = from.Distance + e.Weight;
if (to.Distance > newDistance) {
to.Distance = newDistance;
}
}
}
// check negative cycle
foreach (var e in edges) {
var from = vertices[e.From];
var to = vertices[e.To];
if (from.Distance + e.Weight < to.Distance)
return null;
}
return vertices[dest].Distance;
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Text;
using System.Threading.Tasks;
using System.Globalization;
using System.Collections;
namespace Atcoder {
public class CPair<T, U> : IComparable
where T : IComparable<T> {
public readonly T Item1;
public readonly U Item2;
public int CompareTo(object obj) {
CPair<T, U> castedObj = (CPair<T, U>)obj;
return this.Item1.CompareTo(castedObj.Item1);
}
public CPair(T t, U u) {
Item1 = t;
Item2 = u;
}
}
class Pair : IComparable {
public long a;
public long b;
public long kosu;
public Pair(long A, long B) {
a = A;
b = B;
}
public int CompareTo(object obj) {
Pair kore = (Pair)obj;
if (a != kore.a) {
return a.CompareTo(kore.a);
}
return b.CompareTo(kore.b);
}
/* public static bool operator <=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x <= p2.x; }
else { return p1.a <= p2.a; }
}
public static bool operator >=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x >= p2.x; }
else { return p1.a >= p2.a; }
}*/
}
class Pair2 : IComparable {
public long a;
public long b;
public long kosu;
public long teki;
public Mlong jikkou = 1;
public Pair2(long A, long B) {
a = A;
b = B;
}
public int CompareTo(object obj) {
Pair2 kore = (Pair2)obj;
if (a != kore.a) {
return a.CompareTo(kore.a);
}
return b.CompareTo(kore.b);
}
/* public static bool operator <=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x <= p2.x; }
else { return p1.a <= p2.a; }
}
public static bool operator >=(Pair p1, Pair p2)
{
if (p1.x != p2.x) { return p1.x >= p2.x; }
else { return p1.a >= p2.a; }
}*/
}
class Program {
static bool[] visited;
static List<int>[] togo;
static void Main(string[] args) {
StreamScanner scan = new StreamScanner(System.Console.OpenStandardInput());
long n = scan.Long();
long k = scan.Long();
long[] a = scan.Long(n);
long[] ruiseki = new long[n];
long sum = 0;
bool ended = false;
for (long i = 0; i < k; i++) {
for (long j = 0; j < n; j++) {
long saki = j - a[j];
if (saki < 0) {
saki = 0;
}
ruiseki[saki]++;
long ato = j + a[j] + 1;
if (ato < n)
ruiseki[ato]--;
}
a[0] = ruiseki[0];
sum += a[0];
for (long j = 1; j < n; j++) {
a[j] = ruiseki[j] + a[j - 1];
sum += a[j];
}
if (sum == n * n) {
ended = true;
break;
}
sum = 0;
ruiseki = new long[n];
}
if (ended) {
for (long i = 0; i < n - 1; i++) {
Console.Write(n + " ");
}
Console.WriteLine(n);
} else {
for (long i = 0; i < n - 1; i++) {
Console.Write(a[i] + " ");
}
Console.WriteLine(a[n - 1]);
}
}
static void shuffle(Pair2[] ary) {
System.Random rng = new System.Random();
int n = ary.Length;
while (n > 1) {
n--;
int k = rng.Next(n + 1);
var tmp = new Pair2(ary[k].a, ary[k].b);
ary[k] = new Pair2(ary[n].a, ary[n].b);
ary[n] = new Pair2(tmp.a, tmp.b);
}
}
static bool DFS(int now, int last) {
visited[now] = true;
for (int i = 0; i < togo[now].Count; i++) {
if (togo[now][i] == last) {
continue;
}
if (visited[togo[now][i]]) {
return false;
}
if (!DFS(togo[now][i], now)) {
return false;
}
}
return true;
}
static int binary_search<T>(T key, T[] moto, Func<int, T, T[], bool> isok) {
int ng = -1;
int ok = moto.Length;
while (Math.Abs(ok - ng) > 1) {
int mid = (ok + ng) / 2;
if (isok(mid, key, moto)) {
ok = mid;
} else {
ng = mid;
}
}
return ok;
}
static int binary_search(int key, int[] moto) {
int ng = -1;
int ok = moto.Length;
while (Math.Abs(ok - ng) > 1) {
int mid = (ok + ng) / 2;
if (isOK(mid, key, moto)) {
ok = mid;
} else {
ng = mid;
}
}
return ok;
}
static int[] Togo;
static bool CheckBipartite(int now, int prev, List<int>[] g,
int c = 0) // 0,-1が想定
{
if (Togo == null)
Togo = Enumerable.Repeat(-1, g.Length).ToArray();
foreach (var next in g[now]) {
if (next == prev)
continue;
var nextc = Togo[next];
if (nextc >= 0 && nextc == c)
return false;
if (nextc >= 0)
continue;
Togo[next] = (c + 1) % 2;
var res = CheckBipartite(next, now, g, (c + 1) % 2);
if (res == false)
return false;
}
return true;
}
static bool isOK(int index, int key, int[] moto) { return moto[index] > key; }
public static int bitCount(int k) {
uint i = (uint)k;
i = i - ((i >> 1) & 0x55555555);
i = (i & 0x33333333) + ((i >> 2) & 0x33333333);
i = (i + (i >> 4)) & 0x0f0f0f0f;
i = i + (i >> 8);
i = i + (i >> 16);
return (int)i & 0x3f;
}
static int check(long moto, long tai) {
if (tai % moto != 0) {
return 0;
}
while (tai > 1) {
if (tai % moto == 0) {
tai /= moto;
} else if (tai > moto) {
tai %= moto;
} else {
tai -= moto;
}
}
if (tai == 1) {
return 1;
} else {
return 0;
}
}
static bool NextPermutation(int[] array) {
var size = array.Length;
var ok = false;
// array[i]<array[i+1]を満たす最大のiを求める
int i = size - 2;
for (; 0 <= i; i--) {
if (array[i] < array[i + 1]) {
ok = true;
break;
}
}
//全ての要素が降順の場合、NextPermutationは存在しない
if (ok == false)
return false;
// array[i]<array[j]を満たす最大のjを求める
int j = size - 1;
for (;; j--) {
if (array[i] < array[j])
break;
}
// iとjの要素をswapする
var tmp = array[i];
array[i] = array[j];
array[j] = tmp;
// i以降の要素を反転させる
Array.Reverse(array, i + 1, size - (i + 1));
return true;
}
static List<int[]> GetAllPermutation(int N) {
var res = new List<int[]>();
var array = Enumerable.Range(0, N).ToArray();
do {
var copy = new int[N];
array.CopyTo(copy, 0);
res.Add(copy);
} while (NextPermutation(array));
return res;
}
static List<int[]> GetAllPermutation(int[] array) {
var size = array.Length;
var res = new List<int[]>();
do {
var copy = new int[size];
array.CopyTo(copy, 0);
res.Add(copy);
} while (NextPermutation(array));
return res;
}
static long Syakutori(
int[] a,
long
k) //しゃくとり法モデル:連続部分列に含まれるすべての要素の値の和がK以上
{
long sum = 0;
int right = 0;
long ans = 0;
for (int left = 0; left < a.Length; left++) {
while (right < a.Length && sum < k) {
sum += a[right];
right++;
}
if (k <= sum) {
ans += a.Length - right + 1;
}
if (left == right) {
right++;
} else {
sum -= a[left];
}
}
return ans;
}
static int[] zalgo(String s) {
int n = s.Length;
int[] ret = new int[n];
ret[0] = n;
int i = 1, j = 0;
while (i < n) {
while (i + j < n && s[j] == s[i + j])
++j;
ret[i] = j;
if (j == 0) {
++i;
continue;
}
int k = 1;
while (i + k < n && k + ret[k] < j) {
ret[i + k] = ret[k];
++k;
}
i += k;
j -= k;
}
return ret;
}
static int gcd(int a, int b) {
if (a % b == 0) {
return b;
}
return gcd(b, a % b);
}
static long gcd(long a, long b) {
if (a % b == 0) {
return b;
}
return gcd(b, a % b);
}
public static List<long> factorialMemo = new List<long>() { 1 };
static long Fact(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
static int[] yousogotoplus(int[] a, int[] b) {
int[] c = new int[a.Length];
for (int i = 0; i < a.Length; i++) {
c[i] = a[i] + b[i];
}
return c;
}
static int[] yousogotoplus(int[] a, int[,] b, int l) {
int[] c = new int[a.Length];
for (int i = 0; i < a.Length; i++) {
c[i] = a[i] + b[l, i];
}
return c;
}
static int[] yousogotoplus(int[,] a, int l) {
int[] c = new int[a.GetLength(1)];
for (int i = 0; i < a.GetLength(1); i++) {
c[i] = a[l, i];
}
return c;
}
public static long LowerBound(long[] a, long key) {
long l = 0;
long r = a.Length;
long mid;
while (l < r) {
mid = ((r - l) / 2) + l;
if (a[mid] <= key)
l = mid + 1;
else
r = mid;
}
return l;
}
public static long LIS(long[] a) {
var dp = Enumerable.Range(0, a.Length).Select(x => long.MaxValue).ToArray();
for (int i = 0; i < a.Length; i++) {
dp[LowerBound(dp, a[i])] = a[i];
}
return LowerBound(dp, long.MaxValue - 1);
}
static long DivideWith(long m, long n, List<long> primes) {
while (m % n == 0) {
primes.Add(n);
m = m / n;
}
return m;
}
static void Soinsubunkai(long num) {
long m = num;
for (long i = 2; i * i < num; i++) {
long j = 0;
for (j = 0; j < num; j++) {
if (m % i == 0) {
m /= i;
}
}
// i^j | num,i^{j+1} not divide num
}
if (m != 1) {
//素因数が一つ残っている(k*k>numな素因数は高々一つ)
}
}
/* static List<CPair<long, long>> SoinsuBunkai(long num)
{
List<CPair<long, long>> primes = new List<CPair<long, long>>();
List<long> yakusu = new List<long>();
List<long> yakusu2 = new List<long>();
for (int i = 2; i * i <= num; i++)
{
if (num % i != 0) { continue; }
yakusu.Add(i);
if (i * i != num) { yakusu2.Add(num / i); }
}
for (int i = 0; i < yakusu.Count; i++)
{
if (num % yakusu[i] != 0) { continue; }
int j = 0;
for (j = 0; num % yakusu[i] == 0; j++)
{
num /= yakusu[i];
}
primes.Add(new CPair<long, long>(yakusu[i], j));
}
for (int i = yakusu2.Count - 1; i > 0; i--)
{
if (num % yakusu2[i] != 0) { continue; }
int j = 0;
for (j = 0; num % yakusu2[i] == 0; j++)
{
num /= yakusu2[i];
}
primes.Add(new CPair<long, long>(yakusu2[i], j));
}
return primes;
}*/
static IEnumerable<int> Primes(int maxnum) {
// var sieve = new BitArray(maxnum + 1, true);
bool[] sieve = Enumerable.Repeat(true, maxnum + 1).ToArray();
int squareroot = (int)Math.Sqrt(maxnum);
for (int i = 2; i <= squareroot; i++) {
if (sieve[i] == false)
continue;
for (int n = i * 2; n <= maxnum; n += i)
sieve[n] = false;
}
for (int i = 2; i <= maxnum; i++)
if (sieve[i] == true)
yield return i;
}
/* static long[] SoinsuBunkai(long num)
{
if (num == 1)
return new long[] { 1 };
List<long> primes = new List<long>();
long n = DivideWith(num, 2, primes);
n = DivideWith(n, 3, primes);
n = DivideWith(n, 5, primes);
long i = 0;
while (n > 1)
{
int[] ps = { 7, 11, 13, 17, 19, 23, 29, 31 };
foreach (var p in ps)
{
// 30m+2, 30m+3, 30m+4, 30m+5, 30m+6、30m+8...
は割る必要はない。 n = DivideWith(n, i + p, primes); if (n == 1) break;
}
i += 30;
}
return primes.ToArray();
}*/
public static int h;
public static int w;
public static int BFS(int height, int width, char[,] map) {
int[] dx = new int[] { -1, 0, 0, 1 };
int[] dy = new int[] { 0, 1, -1, 0 };
bool[,] visited = new bool[h, w];
int[,] len = new int[h, w];
var queue = new Queue<Tuple<int, int>>();
queue.Enqueue(new Tuple<int, int>(height, width));
int max = 0;
visited[height, width] = true;
while (queue.Count > 0) {
var now = queue.Dequeue();
for (int i = 0; i < 4; i++) {
int ny = now.Item1 + dy[i];
int nx = now.Item2 + dx[i];
if (ny >= h || ny < 0 || nx >= w || nx < 0)
continue;
if (visited[ny, nx] || map[ny, nx] == '#')
continue;
visited[ny, nx] = true;
len[ny, nx] = len[now.Item1, now.Item2] + 1;
max = Math.Max(max, len[ny, nx]);
queue.Enqueue(new Tuple<int, int>(ny, nx));
}
}
return max;
}
static public List<int> Topological_Sort(List<List<Edge>> G) {
var ret = new List<int>();
var Nodes = new Queue<int>();
int N = G.Count();
var Link = new int[N];
for (var i = 0; i < N; i++) {
Link[i] = 0;
}
for (var i = 0; i < N; i++) {
foreach (var nx in G[i]) {
Link[nx.to]++;
}
}
for (var i = 0; i < N; i++) {
if (Link[i] == 0) {
Nodes.Enqueue(i);
}
}
while (Nodes.Any()) {
var nd = Nodes.Dequeue();
ret.Add(nd);
foreach (var nx in G[nd]) {
Link[nx.to]--;
if (Link[nx.to] == 0) {
Nodes.Enqueue(nx.to);
}
}
}
return ret;
}
static public bool Bit(long x, int dig) => ((1L << dig) & x) != 0;
static public void Swap<T>(ref T a, ref T b) {
T keep = a;
a = b;
b = keep;
}
static public void Initialize<T>(ref T[] array, T initialvalue) {
array = Array.ConvertAll(array, x => initialvalue);
}
static int[] Manacher(string S) {
int i = 0, j = 0;
int[] R = new int[S.Length];
while (i < S.Length) {
while (i - j >= 0 && i + j < S.Length && S[i - j] == S[i + j])
++j;
R[i] = j;
int k = 1;
while (i - k >= 0 && k + R[i - k] < j) {
R[i + k] = R[i - k];
++k;
}
i += k;
j -= k;
}
return R;
}
/* static Pair[] a;
static int SaikiZentansaku(List<int>now,int count,int last,int n,int m)
{
List<int> next = new List<int>();
for (int i = 0; i < now.Count; i++)
{
next.Add(now[i]);
}
next.Add(last);
var kore = next.ToArray();
int ans = 0;
if(count==n)
{
for (int i = 0; i < a.Length; i++)
{
int A = a[i].a;
int b = a[i].b;
int c = a[i].c;
int d = a[i].x;
if (kore[b] - kore[A] == c) { ans += d; }
}
return ans;
}
for (int i = last; i <= m; i++)
{
ans = Math.Max(ans, SaikiZentansaku(next, count + 1, i, n, m));
}
return ans;
}*/
}
public class StreamScanner {
public StreamScanner(Stream stream) { str = stream; }
private readonly Stream str;
private readonly byte[] buf = new byte[1024];
private int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
private byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
public char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
public char[] Char(long n) {
char[] kore = new char[n];
for (int i = 0; i < n; i++) {
kore[i] = Char();
}
return kore;
}
public char[,] Char(long n, long m) {
char[,] kore = new char[n, m];
for (int i = 0; i < n; i++) {
for (int j = 0; j < m; j++) {
kore[i, j] = Char();
}
}
return kore;
}
public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
public long[] Long(long n) {
long[] kore = new long[n];
for (int i = 0; i < n; i++) {
kore[i] = Long();
}
return kore;
}
public Mlong[] MLong(long n) {
Mlong[] kore = new Mlong[n];
for (int i = 0; i < n; i++) {
kore[i] = Long();
}
return kore;
}
public long[,] Long(long h, long w) {
long[,] kore = new long[h, w];
for (int i = 0; i < h; i++) {
for (int j = 0; j < w; j++) {
kore[i, j] = Long();
}
}
return kore;
}
public int Integer() { return (int)Long(); }
public Mint[] MInteger(long n) {
Mint[] kore = new Mint[n];
for (int i = 0; i < n; i++) {
kore[i] = Integer();
}
return kore;
}
public int[] Integer(long n) {
int[] kore = new int[n];
for (int i = 0; i < n; i++) {
kore[i] = (int)Long();
}
return kore;
}
public int[,] Integer(long h, long w) {
int[,] kore = new int[h, w];
for (int i = 0; i < h; i++) {
for (int j = 0; j < w; j++) {
kore[i, j] = (int)Long();
}
}
return kore;
}
public int[] StringToInt(int n) {
char[] s = Scan().ToCharArray();
int[] kore = new int[n];
for (int i = 0; i < n; i++) {
kore[i] = s[i] - '0';
}
return kore;
}
public int[,] StringToInt(int h, int w) {
int[,] kore = new int[h, w];
for (int i = 0; i < h; i++) {
char[] s = Scan().ToCharArray();
for (int j = 0; j < w; j++) {
kore[i, j] = s[j] - '0';
}
}
return kore;
}
public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
public class UnionFind {
public int[] data;
public UnionFind(int size) {
data = new int[size];
for (int i = 0; i < size; i++)
data[i] = -1;
}
public bool Unite(int x, int y) {
x = Root(x);
y = Root(y);
if (x != y) {
if (data[y] < data[x]) {
var tmp = y;
y = x;
x = tmp;
}
data[x] += data[y];
data[y] = x;
}
return x != y;
}
public bool IsSameGroup(int x, int y) { return Root(x) == Root(y); }
public int Root(int x) { return data[x] < 0 ? x : data[x] = Root(data[x]); }
}
public class Mlong : IComparable {
private static long mod = 1000000007;
public long num;
public Mlong(long num) { this.num = num; }
public override int GetHashCode() { return num.GetHashCode(); }
public override bool Equals(object obj) { return num.Equals(obj); }
public static Mlong operator +(Mlong x, Mlong y) {
return new Mlong((x.num + y.num) % mod);
}
public static Mlong operator -(Mlong x, Mlong y) {
return new Mlong((x.num - y.num + mod) % mod);
}
public static Mlong operator *(Mlong x, Mlong y) {
return new Mlong((long)(((1L * x.num) * y.num) % mod));
}
public Mlong hutujyo(Mlong x) { return new Mlong(num / x.num); }
static long GetInverse(long a) {
long div, p = mod, x1 = 1, y1 = 0, x2 = 0, y2 = 1;
while (true) {
if (p == 1)
return x2 + mod;
div = a / p;
x1 -= x2 * div;
y1 -= y2 * div;
a %= p;
if (a == 1)
return x1 + mod;
div = p / a;
x2 -= x1 * div;
y2 -= y1 * div;
p %= a;
}
}
public Mlong modjyo(Mlong x) { return num * GetInverse(x.num) % mod; }
public static implicit operator Mlong(long x) { return new Mlong(x); }
public static Mlong operator %(Mlong x, Mlong y) {
return new Mlong(x.num % y.num);
}
public static explicit operator long(Mlong x) { return x.num; }
public static bool operator ==(Mlong x, Mlong y) { return x.num == y.num; }
public static bool operator !=(Mlong x, Mlong y) { return x.num != y.num; }
public static bool operator<(Mlong x, Mlong y) { return x.num < y.num; }
public static bool operator>(Mlong x, Mlong y) { return x.num > y.num; }
public static bool operator <=(Mlong x, Mlong y) { return x.num <= y.num; }
public static bool operator >=(Mlong x, Mlong y) { return x.num >= y.num; }
public Mlong Pow(Mlong n) {
Mlong pow = this;
Mlong res = 1;
while (n > 0) {
if (n % 2 == 1) {
res *= pow;
}
pow *= pow;
n = n.hutujyo(2);
}
/* if (n == 1) { return this % mod; }
if (n % 2 == 1) { return (this * Pow(n - 1)) % mod; }
Mint buf = Pow(n.hutujyo(2));
return (buf * buf) % mod;*/
return res;
}
public static Mlong Pow(Mlong a, Mlong n) { return a.Pow(n); }
public static List<Mlong> factorialMemo = new List<Mlong>() { 1 };
static Mlong Factorial(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
public static Mlong Comb(Mlong n, Mlong a) {
Mlong buf1 = 1;
Mlong buf2 = 1;
for (long i = 0; i < a.num; i++) {
buf1 *= n - i;
buf2 *= (i + 1);
}
return buf1.modjyo(buf2);
}
public static Mlong Comb(int n, int r) {
return Factorial(n).modjyo(Factorial(r)).modjyo(Factorial(n - r));
}
public static void WriteLine(Mlong x) { Console.WriteLine(x.num); }
public int CompareTo(object obj) {
Mlong kore = (Mlong)obj;
return num.CompareTo(kore.num);
}
}
public class Mint : IComparable {
public static int mod = 1000000007;
public int num;
public Mint(int Num) { num = Num; }
public override int GetHashCode() { return num.GetHashCode(); }
public override bool Equals(object obj) { return num.Equals(obj); }
public static Mint operator +(Mint x, Mint y) {
return new Mint((x.num + y.num) % mod);
}
public static Mint operator -(Mint x, Mint y) {
return new Mint((x.num - y.num + mod) % mod);
}
public static Mint operator *(Mint x, Mint y) {
return new Mint((int)(((1L * x.num) * y.num) % mod));
}
public Mint hutujyo(Mint x) { return new Mint(num / x.num); }
static int GetInverse(long a) {
long div, p = mod, x1 = 1, y1 = 0, x2 = 0, y2 = 1;
while (true) {
if (p == 1)
return (int)(x2 + mod);
div = a / p;
x1 -= x2 * div;
y1 -= y2 * div;
a %= p;
if (a == 1)
return (int)(x1 + mod);
div = p / a;
x2 -= x1 * div;
y2 -= y1 * div;
p %= a;
}
}
public Mint modjyo(Mint x) { return num * GetInverse(x.num) % mod; }
/* public Mint modjyo(Mint x)
{
return num * x.Pow(mod - 2);
}*/
public static implicit operator Mint(int x) { return new Mint(x); }
public static Mint[] Toarray(int[] x) {
Mint[] buf = new Mint[x.Length];
for (int i = 0; i < x.Length; i++) {
buf[i] = x[i];
}
return buf;
}
public static explicit operator int(Mint x) { return x.num; }
public static Mint operator %(Mint x, Mint y) {
return new Mint(x.num % y.num);
}
public static bool operator ==(Mint x, Mint y) { return x.num == y.num; }
public static bool operator !=(Mint x, Mint y) { return x.num != y.num; }
public static bool operator<(Mint x, Mint y) { return x.num < y.num; }
public static bool operator>(Mint x, Mint y) { return x.num > y.num; }
public static bool operator <=(Mint x, Mint y) { return x.num <= y.num; }
public static bool operator >=(Mint x, Mint y) { return x.num >= y.num; }
public Mint Pow(Mint n) {
Mint pow = this;
Mint res = 1;
while (n > 0) {
if (n % 2 == 1) {
res *= pow;
}
pow *= pow;
n.hutujyo(2);
}
/* if (n == 1) { return this % mod; }
if (n % 2 == 1) { return (this * Pow(n - 1)) % mod; }
Mint buf = Pow(n.hutujyo(2));
return (buf * buf) % mod;*/
return res;
}
public static Mint Pow(Mint a, Mint n) { return a.Pow(n); }
public static List<Mint> factorialMemo = new List<Mint>() { 1 };
static Mint Factorial(int x) {
for (int i = factorialMemo.Count; i <= x; i++)
factorialMemo.Add(factorialMemo.Last() * i);
return factorialMemo[x];
}
public static Mint Comb(int n, int r) {
return Factorial(n).modjyo(Factorial(r)).modjyo(Factorial(n - r));
}
public static void WriteLine(Mint x) { Console.WriteLine(x.num); }
public int CompareTo(object obj) {
Mint kore = (Mint)obj;
return num.CompareTo(kore.num);
}
}
public class PriorityQueue<T> : IEnumerable<T> {
private readonly List<T> _data = new List<T>();
private readonly IComparer<T> _comparer;
private readonly bool _isDescending;
public PriorityQueue(IComparer<T> comparer, bool isDescending = true) {
_comparer = comparer;
_isDescending = isDescending;
}
public PriorityQueue(Comparison<T> comparison, bool isDescending = true)
: this(Comparer<T>.Create(comparison), isDescending) {}
public PriorityQueue(bool isDescending = true)
: this(Comparer<T>.Default, isDescending) {}
public void Enqueue(T item) {
_data.Add(item);
var childIndex = _data.Count - 1;
while (childIndex > 0) {
var parentIndex = (childIndex - 1) / 2;
if (Compare(_data[childIndex], _data[parentIndex]) >= 0)
break;
Swap(childIndex, parentIndex);
childIndex = parentIndex;
}
}
public T Dequeue() {
var lastIndex = _data.Count - 1;
var firstItem = _data[0];
_data[0] = _data[lastIndex];
_data.RemoveAt(lastIndex--);
var parentIndex = 0;
while (true) {
var childIndex = parentIndex * 2 + 1;
if (childIndex > lastIndex)
break;
var rightChild = childIndex + 1;
if (rightChild <= lastIndex &&
Compare(_data[rightChild], _data[childIndex]) < 0)
childIndex = rightChild;
if (Compare(_data[parentIndex], _data[childIndex]) <= 0)
break;
Swap(parentIndex, childIndex);
parentIndex = childIndex;
}
return firstItem;
}
public T Peek() { return _data[0]; }
private void Swap(int a, int b) {
var tmp = _data[a];
_data[a] = _data[b];
_data[b] = tmp;
}
private int Compare(T a, T b) {
return _isDescending ? _comparer.Compare(b, a) : _comparer.Compare(a, b);
}
public int Count => _data.Count;
public IEnumerator<T> GetEnumerator() { return _data.GetEnumerator(); }
IEnumerator IEnumerable.GetEnumerator() => GetEnumerator();
}
public class Tree {
public Node[] Nodes;
public List<int[]> hen;
public class Node {
public int? parent = null;
public List<int[]> children = new List<int[]>();
public int parentcolor = -1;
}
public Tree(int kosu) {
Nodes = new Node[kosu];
for (int i = 0; i < Nodes.Length; i++) {
Nodes[i] = new Node();
}
hen = new List<int[]>();
}
public void Connect(int oya, int ko, int id) {
hen.Add(new int[] { oya, ko, 0 });
Nodes[oya].children.Add(new int[] { ko, id });
Nodes[ko].parent = oya;
}
}
/// <summary>
/// Self-Balancing Binary Search Tree
/// (using Randamized BST)
/// </summary>
public class SB_BinarySearchTree<T>
where T : IComparable {
public class Node {
public T Value;
public Node LChild;
public Node RChild;
public int Count; // size of the sub tree
public Node(T v) {
Value = v;
Count = 1;
}
}
static Random _rnd = new Random();
public static int Count(Node t) { return t == null ? 0 : t.Count; }
static Node Update(Node t) {
t.Count = Count(t.LChild) + Count(t.RChild) + 1;
return t;
}
public static Node Merge(Node l, Node r) {
if (l == null || r == null)
return l == null ? r : l;
if ((double)Count(l) / (double)(Count(l) + Count(r)) > _rnd.NextDouble()) {
l.RChild = Merge(l.RChild, r);
return Update(l);
} else {
r.LChild = Merge(l, r.LChild);
return Update(r);
}
}
/// <summary>
/// split as [0, k), [k, n)
/// </summary>
public static Tuple<Node, Node> Split(Node t, int k) {
if (t == null)
return new Tuple<Node, Node>(null, null);
if (k <= Count(t.LChild)) {
var s = Split(t.LChild, k);
t.LChild = s.Item2;
return new Tuple<Node, Node>(s.Item1, Update(t));
} else {
var s = Split(t.RChild, k - Count(t.LChild) - 1);
t.RChild = s.Item1;
return new Tuple<Node, Node>(Update(t), s.Item2);
}
}
public static Node Remove(Node t, T v) {
if (Find(t, v) == null)
return t;
return RemoveAt(t, LowerBound(t, v));
}
public static Node RemoveAt(Node t, int k) {
var s = Split(t, k);
var s2 = Split(s.Item2, 1);
return Merge(s.Item1, s2.Item2);
}
public static bool Contains(Node t, T v) { return Find(t, v) != null; }
public static Node Find(Node t, T v) {
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp > 0)
t = t.LChild;
else if (cmp < 0)
t = t.RChild;
else
break;
}
return t;
}
public static Node FindByIndex(Node t, int idx) {
if (t == null)
return null;
var currentIdx = Count(t) - Count(t.RChild) - 1;
while (t != null) {
if (currentIdx == idx)
return t;
if (currentIdx > idx) {
t = t.LChild;
currentIdx -= (Count(t == null ? null : t.RChild) + 1);
} else {
t = t.RChild;
currentIdx += (Count(t == null ? null : t.LChild) + 1);
}
}
return null;
}
public static int UpperBound(Node t, T v) {
var torg = t;
if (t == null)
return -1;
var ret = Int32.MaxValue;
var idx = Count(t) - Count(t.RChild) - 1;
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp > 0) {
ret = Math.Min(ret, idx);
t = t.LChild;
idx -= (Count(t == null ? null : t.RChild) + 1);
} else if (cmp <= 0) {
t = t.RChild;
idx += (Count(t == null ? null : t.LChild) + 1);
}
}
return ret == Int32.MaxValue ? Count(torg) : ret;
}
public static int LowerBound(Node t, T v) {
var torg = t;
if (t == null)
return -1;
var idx = Count(t) - Count(t.RChild) - 1;
var ret = Int32.MaxValue;
while (t != null) {
var cmp = t.Value.CompareTo(v);
if (cmp >= 0) {
if (cmp == 0)
ret = Math.Min(ret, idx);
t = t.LChild;
if (t == null)
ret = Math.Min(ret, idx);
idx -= t == null ? 0 : (Count(t.RChild) + 1);
} else if (cmp < 0) {
t = t.RChild;
idx += (Count(t == null ? null : t.LChild) + 1);
if (t == null)
return idx;
}
}
// return ret;
return ret == Int32.MaxValue ? Count(torg) : ret;
}
public static Node Insert(Node t, T v) {
var ub = LowerBound(t, v);
return InsertByIdx(t, ub, v);
}
static Node InsertByIdx(Node t, int k, T v) {
var s = Split(t, k);
return Merge(Merge(s.Item1, new Node(v)), s.Item2);
}
public static IEnumerable<T> Enumerate(Node t) {
var ret = new List<T>();
Enumerate(t, ret);
return ret;
}
static void Enumerate(Node t, List<T> ret) {
if (t == null)
return;
Enumerate(t.LChild, ret);
ret.Add(t.Value);
Enumerate(t.RChild, ret);
}
}
/// <summary>
/// C-like set
/// </summary>
public class Set<T>
where T : IComparable {
protected SB_BinarySearchTree<T>.Node _root;
public T this[int idx] {
get { return ElementAt(idx); }
}
public int Count() { return SB_BinarySearchTree<T>.Count(_root); }
public virtual void Insert(T v) {
if (_root == null)
_root = new SB_BinarySearchTree<T>.Node(v);
else {
if (SB_BinarySearchTree<T>.Find(_root, v) != null)
return;
_root = SB_BinarySearchTree<T>.Insert(_root, v);
}
}
public void Clear() { _root = null; }
public void Remove(T v) { _root = SB_BinarySearchTree<T>.Remove(_root, v); }
public bool Contains(T v) {
return SB_BinarySearchTree<T>.Contains(_root, v);
}
public T ElementAt(int k) {
var node = SB_BinarySearchTree<T>.FindByIndex(_root, k);
if (node == null)
throw new IndexOutOfRangeException();
return node.Value;
}
public int Count(T v) {
return SB_BinarySearchTree<T>.UpperBound(_root, v) -
SB_BinarySearchTree<T>.LowerBound(_root, v);
}
public int LowerBound(T v) {
return SB_BinarySearchTree<T>.LowerBound(_root, v);
}
public int UpperBound(T v) {
return SB_BinarySearchTree<T>.UpperBound(_root, v);
}
public Tuple<int, int> EqualRange(T v) {
if (!Contains(v))
return new Tuple<int, int>(-1, -1);
return new Tuple<int, int>(SB_BinarySearchTree<T>.LowerBound(_root, v),
SB_BinarySearchTree<T>.UpperBound(_root, v) - 1);
}
public List<T> ToList() {
return new List<T>(SB_BinarySearchTree<T>.Enumerate(_root));
}
}
/// <summary>
/// C-like multiset
/// </summary>
public class MultiSet<T> : Set<T>
where T : IComparable {
public override void Insert(T v) {
if (_root == null)
_root = new SB_BinarySearchTree<T>.Node(v);
else
_root = SB_BinarySearchTree<T>.Insert(_root, v);
}
}
public class RollingHashSlow {
public const long B = (long)1e5 + 7;
public const long MOD = (long)1e9 + 7;
public string S { get; set; }
public int N { get; set; }
public long[] Power { get; set; }
public long[] Hash { get; set; }
public RollingHashSlow(string s) {
this.S = s;
this.N = s.Length;
// B^nを計算しておく
this.Power = new long[this.N + 1];
this.Power[0] = 1;
for (int i = 0; i < N; i++) {
this.Power[i + 1] = (this.Power[i] * B) % MOD;
}
// ハッシュを前計算する
this.Hash = new long[this.N + 1];
for (int i = 0; i < N; i++) {
this.Hash[i + 1] = (this.Hash[i] * B + S[i]) % MOD;
}
}
// S[l, r) のハッシュ値を求める
public long Get(int l, int r) {
var hash = this.Hash[r] - (this.Hash[l] * this.Power[r - l] % MOD);
if (hash < 0)
hash += MOD;
return hash;
}
}
class RollingHashFast {
public const ulong B = (ulong)1e9 + 7;
public string S { get; set; }
public int N { get; set; }
public ulong[] Power { get; set; }
public ulong[] Hash { get; set; }
public RollingHashFast(string s) {
this.S = s;
this.N = s.Length;
// B^nを計算しておく
this.Power = new ulong[this.N + 1];
this.Power[0] = 1;
for (int i = 0; i < N; i++) {
this.Power[i + 1] = this.Power[i] * B;
}
// ハッシュを前計算する
this.Hash = new ulong[this.N + 1];
for (int i = 0; i < N; i++) {
this.Hash[i + 1] = this.Hash[i] * B + S[i];
}
}
// [l, r) のハッシュ値を求める
public ulong Get(int l, int r) {
var hash = this.Hash[r] - (this.Hash[l] * this.Power[r - l]);
return hash;
}
}
class Segtree<T> {
int n;
T[] tree;
Func<T, T, T> f;
T exnum;
public Segtree(int m, Func<T, T, T> f, T ex) {
this.f = f;
this.exnum = ex;
n = 1;
while (n < m)
n <<= 1;
tree = new T[(n << 1) - 1];
for (int i = 0; i < tree.Length; i++)
tree[i] = ex;
}
public Segtree(int m, T ini, Func<T, T, T> f, T ex) : this(m, f, ex) {
for (int i = 0; i < m; ++i)
tree[i + n - 1] = ini;
all_update();
}
public void assign_without_update(int j, T x) { tree[j + n - 1] = x; }
public void update(int j, T x) {
int i = j + n - 1;
tree[i] = x;
while (i > 0) {
i = (i - 1) >> 1;
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
}
public void all_update() {
for (int i = n - 2; i >= 0; i--)
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
public T look(int i) { return tree[i + n - 1]; }
// [s, t)
public T run(int s, int t) { return query(s, t, 0, 0, n); }
T query(int s, int t, int k, int l, int r) {
if (r <= s || t <= l)
return exnum;
if (s <= l && r <= t)
return tree[k];
return f(query(s, t, (k << 1) + 1, l, (l + r) >> 1),
query(s, t, (k + 1) << 1, (l + r) >> 1, r));
}
}
public class WarshallFloyd {
public int V { get; set; }
public long[,] DP { get; set; }
public long INF = long.MaxValue;
public bool[] Negative;
public WarshallFloyd(int v) {
this.V = v;
this.DP = new long[V, V];
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
this.DP[i, j] = INF;
}
this.DP[i, i] = 0;
}
}
public void SetCost(int a, int b, int c = 1) { this.DP[a, b] = c; }
public long[,] CalcMinCost() {
this.Negative = new bool[V];
for (int k = 0; k < V; k++) {
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
if (DP[i, k] == INF || DP[k, j] == INF)
continue;
DP[i, j] = Math.Min(DP[i, j], DP[i, k] + DP[k, j]);
}
}
}
for (int k = 0; k < V; k++) {
for (int i = 0; i < V; i++) {
for (int j = 0; j < V; j++) {
if (DP[i, k] == INF || DP[k, j] == INF)
continue;
if (DP[i, j] > DP[i, k] + DP[k, j]) {
this.Negative[i] = true;
this.Negative[j] = true;
this.Negative[k] = true;
}
}
}
}
return DP;
}
public long GetMinCost(int a, int b) { return DP[a, b]; }
public bool IsINF(int a, int b) { return DP[a, b] >= INF; }
public bool IsNegative(params int[] vs) {
if (vs.Length == 0)
vs = Enumerable.Range(0, V).ToArray();
foreach (var v in vs) {
if (Negative[v])
return true;
}
return false;
}
}
/// <summary>
/// Get min cost between two points
/// </summary>
public class Dijkstra {
private int maxIndex = -1;
private const int INF = Int32.MaxValue;
private int[,] _edgeArray;
/// <summary>
/// Dijkstra, get min cost between two points
/// should not contain negatie cost path
/// </summary>
/// <param name="size">max index of vertices</param>
public Dijkstra(int size) {
maxIndex = size + 1;
_edgeArray = new int[maxIndex, maxIndex];
for (int i = 0; i < _edgeArray.GetLength(0); i++) {
for (int j = 0; j < _edgeArray.GetLength(1); j++) {
_edgeArray[i, j] = INF;
if (i == j)
_edgeArray[i, j] = 0;
}
}
}
// Add a path(no direction) with its cost
public void AddPath(int s, int t, int cost) {
_edgeArray[s, t] = Math.Min(_edgeArray[s, t], cost);
_edgeArray[t, s] = _edgeArray[s, t];
}
// Get the min cost between s and t
// return Int32.MaxValue if no path
public int GetMinCost(int s, int t) {
int[] cost = new int[maxIndex];
for (int i = 0; i < cost.Length; i++)
cost[i] = INF;
cost[s] = 0;
var priorityQueue = new PriorityQueue<CPair<int, int>>();
priorityQueue.Enqueue(new CPair<int, int>(0, s));
while (priorityQueue.Count() > 0) {
var costDestinationPair = priorityQueue.Dequeue();
if (cost[costDestinationPair.Item2] < costDestinationPair.Item1)
continue;
for (int i = 0; i < maxIndex; i++) {
int newCostToi = _edgeArray[costDestinationPair.Item2, i] == INF
? INF
: costDestinationPair.Item1 +
_edgeArray[costDestinationPair.Item2, i];
if (newCostToi < cost[i]) {
cost[i] = newCostToi;
priorityQueue.Enqueue(new CPair<int, int>(newCostToi, i));
}
}
}
return cost[t];
}
}
class Deque<T> : IEnumerable<T> {
public T this[int i] {
get { return this.Buffer[(this.FirstIndex + i) % this.Capacity]; }
set {
if (i < 0)
throw new ArgumentOutOfRangeException();
this.Buffer[(this.FirstIndex + i) % this.Capacity] = value;
}
}
private T[] Buffer;
private int Capacity;
private int FirstIndex;
private int LastIndex {
get { return (this.FirstIndex + this.Length) % this.Capacity; }
}
public int Length;
public Deque(int capacity = 16) {
this.Capacity = capacity;
this.Buffer = new T[this.Capacity];
this.FirstIndex = 0;
}
public void PushBack(T data) {
if (this.Length == this.Capacity)
this.Resize();
this.Buffer[this.LastIndex] = data;
this.Length++;
}
public void PushFront(T data) {
if (this.Length == this.Capacity)
this.Resize();
var index = this.FirstIndex - 1;
if (index < 0)
index = this.Capacity - 1;
this.Buffer[index] = data;
this.Length++;
this.FirstIndex = index;
}
public T PopBack() {
if (this.Length == 0)
throw new InvalidOperationException("データが空です。");
var data = this[this.Length - 1];
this.Length--;
return data;
}
public T PopFront() {
if (this.Length == 0)
throw new InvalidOperationException("データが空です。");
var data = this[0];
this.FirstIndex++;
this.FirstIndex %= this.Capacity;
this.Length--;
return data;
}
private void Resize() {
var newArray = new T[this.Capacity * 2];
for (int i = 0; i < this.Length; i++) {
newArray[i] = this[i];
}
this.FirstIndex = 0;
this.Capacity *= 2;
this.Buffer = newArray;
}
public IEnumerator<T> GetEnumerator() {
for (int i = 0; i < this.Length; i++) {
yield return this[i];
}
}
IEnumerator IEnumerable.GetEnumerator() {
for (int i = 0; i < this.Length; i++) {
yield return this[i];
}
}
}
public struct Edge {
public int from;
public int to;
public long dist;
public Edge(int t, long c) {
from = -1;
to = t;
dist = c;
}
public Edge(int f, int t, long c) {
from = f;
to = t;
dist = c;
}
}
public class PotentializedUnionFind {
int _count;
int[] par, sizes, rank;
long[] weight;
public PotentializedUnionFind(int N) {
_count = N;
par = new int[N];
sizes = new int[N];
rank = new int[N];
weight = new long[N];
for (int i = 0; i < N; ++i) {
par[i] = i;
sizes[i] = 1;
rank[i] = 0;
}
}
int Root(int X) {
if (par[X] == X) {
return X;
} else {
int r = Root(par[X]);
weight[X] += weight[par[X]];
return (par[X] = r);
}
}
public bool Merge(int X, int Y, long W) {
W += GetWeight(X);
W -= GetWeight(Y);
X = Root(X);
Y = Root(Y);
if (X == Y)
return false;
--_count;
if (rank[X] < rank[Y]) {
par[X] = Y;
sizes[Y] += sizes[X];
weight[X] = -W;
} else {
par[Y] = X;
sizes[X] += sizes[Y];
if (rank[X] == rank[Y])
++rank[X];
weight[Y] = W;
}
return true;
}
public bool IsSame(int X, int Y) => Root(X) == Root(Y);
public int Count => _count;
public bool IsParent(int X) => X == Root(X);
public int GetParent(int X) => Root(X);
public int Size(int X) => sizes[Root(X)];
public long GetWeight(int X) {
Root(X);
return weight[X];
}
public long GetDiff(int X, int Y) => GetWeight(Y) - GetWeight(X);
}
public static class BellmanFord {
public class Vertex {
public long Distance { get; set; }
public Vertex() { Distance = long.MaxValue; }
}
public class Edge {
public int From { get; private set; }
public int To { get; private set; }
public long Weight { get; private set; }
public Edge(int from, int to, long weight) {
From = from;
To = to;
Weight = weight;
}
}
private static void GetReachable(int origin, ref HashSet<int> reached,
ref Dictionary<int, int[]> paths) {
if (reached.Contains(origin))
return;
reached.Add(origin);
if (paths.ContainsKey(origin) == false)
return;
foreach (var p in paths[origin])
GetReachable(p, ref reached, ref paths);
}
/// <summary>
/// null: 負の無限大
/// long.MaxValue: たどり着けない
/// その他: 距離
/// </summary>
public static long? RunBellmanFord(int vertexCount, List<Edge> rawEdges,
int source, int dest) {
var forwards =
rawEdges.GroupBy(x => x.From)
.ToDictionary(x => x.Key, x => x.Select(xs => xs.To).ToArray());
var reverses = rawEdges.GroupBy(x => x.To).ToDictionary(
x => x.Key, x => x.Select(xs => xs.From).ToArray());
var fromSource = new HashSet<int>();
var toDest = new HashSet<int>();
GetReachable(source, ref fromSource, ref forwards);
GetReachable(dest, ref toDest, ref reverses);
var edges = rawEdges.Where(e => fromSource.Contains(e.From))
.Where(e => fromSource.Contains(e.To))
.Where(e => toDest.Contains(e.From))
.Where(e => toDest.Contains(e.To))
.ToArray();
// initialize distances
var vertices = new List<Vertex>();
for (int i = 0; i < vertexCount; i++)
vertices.Add(new Vertex());
vertices[source].Distance = 0L;
// update distances
for (int i = 0; i < vertices.Count; i++) {
foreach (var e in edges) {
var from = vertices[e.From];
var to = vertices[e.To];
if (from.Distance == long.MaxValue)
continue;
var newDistance = from.Distance + e.Weight;
if (to.Distance > newDistance) {
to.Distance = newDistance;
}
}
}
// check negative cycle
foreach (var e in edges) {
var from = vertices[e.From];
var to = vertices[e.To];
if (from.Distance + e.Weight < to.Distance)
return null;
}
return vertices[dest].Distance;
}
}
}
|
[["+", 0, 7, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 107], ["+", 8, 196, 0, 1, 0, 11, 12, 204, 205, 22], ["+", 0, 1, 0, 11, 12, 204, 206, 207, 0, 70], ["+", 0, 11, 12, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 1, 0, 11, 12, 204, 206, 207, 0, 73], ["+", 8, 196, 0, 7, 8, 196, 0, 1, 0, 35], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 7, 8, 196, 0, 1, 0, 11, 12, 203]]
| 8
| 11,962
| 11
|
using System;
using System.Collections.Generic;
using System.Collections;
using System.Collections.Specialized;
using System.Linq;
using System.Text;
using System.IO;
using System.Reflection;
using static System.Math;
using System.Numerics;
static class Program {
const int mod = (int)1e9 + 7;
const double eps = 1e-11;
static void Main() {
Sc sc = new Sc();
var t = sc.I;
var gj = new Gj();
StringBuilder sb = new StringBuilder();
for (int i = 0; i < t; i++) {
var n = sc.I;
var a = sc.La;
var s = sc.S;
var bo = true;
for (int j = n - 1; j >= 0; j--) {
if (s[j] == '0') {
gj.Add(a[j]);
} else if (!(bo = gj.Ck(a[j]))) {
sb.Append("1\n");
}
}
if (bo) {
sb.Append("0\n");
}
}
Console.Write(sb);
}
}
public class Gj {
public List<long> li = new List<long>();
public int cnt = 0;
public void Add(long v) {
int c = cnt;
for (int j = 0; j < cnt; j++) {
v = Min(v, li[j] ^ v);
if (v > li[j] && c == cnt) {
c = j;
}
}
if (v != 0) {
li.Add(v);
for (int j = cnt - 1; j >= 0; j--) {
li[j] = Min(li[j], v ^ li[j]);
if (j >= c) {
li[j + 1] = li[j];
if (j == c) {
li[c] = v;
}
}
}
cnt++;
}
}
public long this[int i] {
get { return li[i]; }
}
public bool Ck(long v) {
for (int i = 0; i < li.Count; i++) {
v = Min(v, li[i] ^ v);
}
return v == 0 ? true : false;
}
}
public class Sc {
public int I {
get { return int.Parse(Console.ReadLine()); }
}
public long L {
get { return long.Parse(Console.ReadLine()); }
}
public double D {
get { return double.Parse(Console.ReadLine()); }
}
public string S {
get { return Console.ReadLine(); }
}
public int[] Ia {
get { return Array.ConvertAll(Console.ReadLine().Split(), int.Parse); }
}
public long[] La {
get { return Array.ConvertAll(Console.ReadLine().Split(), long.Parse); }
}
public double[] Da {
get { return Array.ConvertAll(Console.ReadLine().Split(), double.Parse); }
}
public string[] Sa {
get { return Console.ReadLine().Split(); }
}
public object[] Oa {
get { return Console.ReadLine().Split(); }
}
public int[] Ia2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
int.Parse);
}
}
public int[] Ia3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), int.Parse);
}
public long[] La2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
long.Parse);
}
}
public long[] La3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), long.Parse);
}
public double[] Da2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
double.Parse);
}
}
public double[] Da3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), double.Parse);
}
public T[] Arr<T>(int n, Func<T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f();
}
return a;
}
public T[] Arr<T>(int n, Func<int, T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(i);
}
return a;
}
public T[] Arr<T>(int n, Func<string[], T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(Console.ReadLine().Split());
}
return a;
}
public T[] Arr<T>(int n, Func<int, string[], T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(i, Console.ReadLine().Split());
}
return a;
}
}
|
using System;
using System.Collections.Generic;
using System.Collections;
using System.Collections.Specialized;
using System.Linq;
using System.Text;
using System.IO;
using System.Reflection;
using static System.Math;
using System.Numerics;
static class Program {
const int mod = (int)1e9 + 7;
const double eps = 1e-11;
static void Main() {
Sc sc = new Sc();
var t = sc.I;
StringBuilder sb = new StringBuilder();
for (int i = 0; i < t; i++) {
var n = sc.I;
var a = sc.La;
var s = sc.S;
var bo = true;
var gj = new Gj();
for (int j = n - 1; j >= 0; j--) {
if (s[j] == '0') {
gj.Add(a[j]);
} else if (!(bo = gj.Ck(a[j]))) {
sb.Append("1\n");
break;
}
}
if (bo) {
sb.Append("0\n");
}
}
Console.Write(sb);
}
}
public class Gj {
public List<long> li = new List<long>();
public int cnt = 0;
public void Add(long v) {
int c = cnt;
for (int j = 0; j < cnt; j++) {
v = Min(v, li[j] ^ v);
if (v > li[j] && c == cnt) {
c = j;
}
}
if (v != 0) {
li.Add(v);
for (int j = cnt - 1; j >= 0; j--) {
li[j] = Min(li[j], v ^ li[j]);
if (j >= c) {
li[j + 1] = li[j];
if (j == c) {
li[c] = v;
}
}
}
cnt++;
}
}
public long this[int i] {
get { return li[i]; }
}
public bool Ck(long v) {
for (int i = 0; i < cnt; i++) {
v = Min(v, li[i] ^ v);
}
return v == 0;
}
}
public class Sc {
public int I {
get { return int.Parse(Console.ReadLine()); }
}
public long L {
get { return long.Parse(Console.ReadLine()); }
}
public double D {
get { return double.Parse(Console.ReadLine()); }
}
public string S {
get { return Console.ReadLine(); }
}
public int[] Ia {
get { return Array.ConvertAll(Console.ReadLine().Split(), int.Parse); }
}
public long[] La {
get { return Array.ConvertAll(Console.ReadLine().Split(), long.Parse); }
}
public double[] Da {
get { return Array.ConvertAll(Console.ReadLine().Split(), double.Parse); }
}
public string[] Sa {
get { return Console.ReadLine().Split(); }
}
public object[] Oa {
get { return Console.ReadLine().Split(); }
}
public int[] Ia2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
int.Parse);
}
}
public int[] Ia3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), int.Parse);
}
public long[] La2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
long.Parse);
}
}
public long[] La3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), long.Parse);
}
public double[] Da2 {
get {
return Array.ConvertAll(("0 " + Console.ReadLine() + " 0").Split(),
double.Parse);
}
}
public double[] Da3(string a, string b) {
return Array.ConvertAll((a + Console.ReadLine() + b).Split(), double.Parse);
}
public T[] Arr<T>(int n, Func<T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f();
}
return a;
}
public T[] Arr<T>(int n, Func<int, T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(i);
}
return a;
}
public T[] Arr<T>(int n, Func<string[], T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(Console.ReadLine().Split());
}
return a;
}
public T[] Arr<T>(int n, Func<int, string[], T> f) {
var a = new T[n];
for (int i = 0; i < n; i++) {
a[i] = f(i, Console.ReadLine().Split());
}
return a;
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 198, 0, 200, 0, 212, 0, 230, 0, 228], ["-", 0, 198, 0, 200, 0, 212, 0, 230, 39, 22], ["-", 0, 200, 0, 212, 0, 230, 3, 4, 0, 24], ["-", 0, 200, 0, 212, 0, 230, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 196, 0, 7, 8, 196, 0, 197, 0, 35], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 198, 0, 200, 0, 212, 0, 230, 0, 228], ["+", 0, 198, 0, 200, 0, 212, 0, 230, 39, 22], ["+", 0, 200, 0, 212, 0, 230, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 230, 3, 4, 0, 25], ["+", 0, 57, 75, 57, 64, 196, 0, 1, 0, 35], ["+", 0, 57, 75, 57, 64, 196, 0, 93, 0, 94], ["-", 8, 196, 0, 7, 15, 16, 12, 214, 205, 22], ["-", 8, 196, 0, 7, 15, 16, 12, 214, 0, 131], ["-", 8, 196, 0, 7, 15, 16, 12, 214, 141, 22], ["+", 0, 195, 8, 196, 0, 7, 15, 16, 12, 22], ["-", 0, 195, 8, 196, 0, 37, 0, 41, 0, 101], ["-", 8, 196, 0, 37, 0, 41, 64, 211, 0, 146], ["-", 0, 195, 8, 196, 0, 37, 0, 41, 0, 102], ["-", 8, 196, 0, 37, 0, 41, 75, 211, 0, 147]]
| 8
| 1,210
| 26
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Runtime.CompilerServices;
using System.Text;
using System.Diagnostics;
using System.Numerics;
using static System.Console;
using static System.Convert;
using static System.Math;
using static Template;
using Pi = Pair<int, int>;
class Solver {
public void Solve(Scanner sc) {
int H1, M1, H2, M2, K;
sc.Make(out H1, out M1, out H2, out M2, out K);
M2--;
if (M2 == -1) {
H2--;
M2 = 59;
}
var t = H2 * 60 + M2 - (H1 * 60 + M1);
Console.WriteLine(t / K * K);
}
}
#region Template
public static class Template {
static void Main(string[] args) {
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver().Solve(new Scanner());
Console.Out.Flush();
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static bool chmin<T>(ref T a, T b)
where T : IComparable<T> {
if (a.CompareTo(b) > 0) {
a = b;
return true;
}
return false;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static bool chmax<T>(ref T a, T b)
where T : IComparable<T> {
if (a.CompareTo(b) < 0) {
a = b;
return true;
}
return false;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static void swap<T>(ref T a, ref T b) {
var t = b;
b = a;
a = t;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static void swap<T>(this IList<T> A, int i, int j) {
var t = A[i];
A[i] = A[j];
A[j] = t;
}
public static T[] Create<T>(int n, Func<T> f) {
var rt = new T[n];
for (var i = 0; i < rt.Length; ++i)
rt[i] = f();
return rt;
}
public static T[] Create<T>(int n, Func<int, T> f) {
var rt = new T[n];
for (var i = 0; i < rt.Length; ++i)
rt[i] = f(i);
return rt;
}
public static IEnumerable<T>
Shuffle<T>(this IEnumerable<T> A) => A.OrderBy(v => Guid.NewGuid());
public static int CompareTo<T>(this T[] A, T[] B, Comparison<T> cmp = null) {
cmp = cmp ?? Comparer<T>.Default.Compare;
for (var i = 0; i < Min(A.Length, B.Length); i++) {
int c = cmp(A[i], B[i]);
if (c > 0)
return 1;
else if (c < 0)
return -1;
}
if (A.Length == B.Length)
return 0;
if (A.Length > B.Length)
return 1;
else
return -1;
}
public static int MaxElement<T>(this IList<T> A, Comparison<T> cmp = null) {
cmp = cmp ?? Comparer<T>.Default.Compare;
T max = A[0];
int rt = 0;
for (int i = 1; i < A.Count; i++)
if (cmp(max, A[i]) < 0) {
max = A[i];
rt = i;
}
return rt;
}
public static T PopBack<T>(this List<T> A) {
var v = A[A.Count - 1];
A.RemoveAt(A.Count - 1);
return v;
}
public static void Fail<T>(T s) {
Console.WriteLine(s);
Console.Out.Close();
Environment.Exit(0);
}
}
public class Scanner {
public string Str => Console.ReadLine().Trim();
public int Int => int.Parse(Str);
public long Long => long.Parse(Str);
public double Double => double.Parse(Str);
public int[] ArrInt => Str.Split(' ').Select(int.Parse).ToArray();
public long[] ArrLong => Str.Split(' ').Select(long.Parse).ToArray();
public char[][] Grid(int n) => Create(n, () => Str.ToCharArray());
public int[] ArrInt1D(int n) => Create(n, () => Int);
public long[] ArrLong1D(int n) => Create(n, () => Long);
public int[][] ArrInt2D(int n) => Create(n, () => ArrInt);
public long[][] ArrLong2D(int n) => Create(n, () => ArrLong);
private Queue<string> q = new Queue<string>();
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public T Next<T>() {
if (q.Count == 0)
foreach (var item in Str.Split(' '))
q.Enqueue(item);
return (T)Convert.ChangeType(q.Dequeue(), typeof(T));
}
public void Make<T1>(out T1 v1) => v1 = Next<T1>();
public void Make<T1, T2>(out T1 v1, out T2 v2) {
v1 = Next<T1>();
v2 = Next<T2>();
}
public void Make<T1, T2, T3>(out T1 v1, out T2 v2, out T3 v3) {
Make(out v1, out v2);
v3 = Next<T3>();
}
public void Make<T1, T2, T3, T4>(out T1 v1, out T2 v2, out T3 v3, out T4 v4) {
Make(out v1, out v2, out v3);
v4 = Next<T4>();
}
public void Make<T1, T2, T3, T4, T5>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5) {
Make(out v1, out v2, out v3, out v4);
v5 = Next<T5>();
}
public void Make<T1, T2, T3, T4, T5, T6>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5, out T6 v6) {
Make(out v1, out v2, out v3, out v4, out v5);
v6 = Next<T6>();
}
public void Make<T1, T2, T3, T4, T5, T6, T7>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5, out T6 v6,
out T7 v7) {
Make(out v1, out v2, out v3, out v4, out v5, out v6);
v7 = Next<T7>();
}
// public (T1, T2) Make<T1, T2>() { Make(out T1 v1, out T2 v2); return (v1,
// v2); } public (T1, T2, T3) Make<T1, T2, T3>() { Make(out T1 v1, out T2 v2,
// out T3 v3); return (v1, v2, v3); } public (T1, T2, T3, T4) Make<T1, T2, T3,
// T4>() { Make(out T1 v1, out T2 v2, out T3 v3, out T4 v4); return (v1, v2,
// v3, v4); }
}
public class Pair<T1, T2> : IComparable<Pair<T1, T2>> {
public T1 v1;
public T2 v2;
public Pair() {}
public Pair(T1 v1, T2 v2) {
this.v1 = v1;
this.v2 = v2;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public int CompareTo(Pair<T1, T2> p) {
var c = Comparer<T1>.Default.Compare(v1, p.v1);
if (c == 0)
c = Comparer<T2>.Default.Compare(v2, p.v2);
return c;
}
public override string ToString() => $"{v1.ToString()} {v2.ToString()}";
public void Deconstruct(out T1 a, out T2 b) {
a = v1;
b = v2;
}
}
public class Pair<T1, T2, T3> : Pair<T1, T2>, IComparable<Pair<T1, T2, T3>> {
public T3 v3;
public Pair() : base() {}
public Pair(T1 v1, T2 v2, T3 v3) : base(v1, v2) { this.v3 = v3; }
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public int CompareTo(Pair<T1, T2, T3> p) {
var c = base.CompareTo(p);
if (c == 0)
c = Comparer<T3>.Default.Compare(v3, p.v3);
return c;
}
public override string ToString() => $"{base.ToString()} {v3.ToString()}";
public void Deconstruct(out T1 a, out T2 b, out T3 c) {
Deconstruct(out a, out b);
c = v3;
}
}
#endregion
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Runtime.CompilerServices;
using System.Text;
using System.Diagnostics;
using System.Numerics;
using static System.Console;
using static System.Convert;
using static System.Math;
using static Template;
using Pi = Pair<int, int>;
class Solver {
public void Solve(Scanner sc) {
int H1, M1, H2, M2, K;
sc.Make(out H1, out M1, out H2, out M2, out K);
var t = H2 * 60 + M2 - (H1 * 60 + M1);
Console.WriteLine(t - K);
}
}
#region Template
public static class Template {
static void Main(string[] args) {
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver().Solve(new Scanner());
Console.Out.Flush();
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static bool chmin<T>(ref T a, T b)
where T : IComparable<T> {
if (a.CompareTo(b) > 0) {
a = b;
return true;
}
return false;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static bool chmax<T>(ref T a, T b)
where T : IComparable<T> {
if (a.CompareTo(b) < 0) {
a = b;
return true;
}
return false;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static void swap<T>(ref T a, ref T b) {
var t = b;
b = a;
a = t;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static void swap<T>(this IList<T> A, int i, int j) {
var t = A[i];
A[i] = A[j];
A[j] = t;
}
public static T[] Create<T>(int n, Func<T> f) {
var rt = new T[n];
for (var i = 0; i < rt.Length; ++i)
rt[i] = f();
return rt;
}
public static T[] Create<T>(int n, Func<int, T> f) {
var rt = new T[n];
for (var i = 0; i < rt.Length; ++i)
rt[i] = f(i);
return rt;
}
public static IEnumerable<T>
Shuffle<T>(this IEnumerable<T> A) => A.OrderBy(v => Guid.NewGuid());
public static int CompareTo<T>(this T[] A, T[] B, Comparison<T> cmp = null) {
cmp = cmp ?? Comparer<T>.Default.Compare;
for (var i = 0; i < Min(A.Length, B.Length); i++) {
int c = cmp(A[i], B[i]);
if (c > 0)
return 1;
else if (c < 0)
return -1;
}
if (A.Length == B.Length)
return 0;
if (A.Length > B.Length)
return 1;
else
return -1;
}
public static int MaxElement<T>(this IList<T> A, Comparison<T> cmp = null) {
cmp = cmp ?? Comparer<T>.Default.Compare;
T max = A[0];
int rt = 0;
for (int i = 1; i < A.Count; i++)
if (cmp(max, A[i]) < 0) {
max = A[i];
rt = i;
}
return rt;
}
public static T PopBack<T>(this List<T> A) {
var v = A[A.Count - 1];
A.RemoveAt(A.Count - 1);
return v;
}
public static void Fail<T>(T s) {
Console.WriteLine(s);
Console.Out.Close();
Environment.Exit(0);
}
}
public class Scanner {
public string Str => Console.ReadLine().Trim();
public int Int => int.Parse(Str);
public long Long => long.Parse(Str);
public double Double => double.Parse(Str);
public int[] ArrInt => Str.Split(' ').Select(int.Parse).ToArray();
public long[] ArrLong => Str.Split(' ').Select(long.Parse).ToArray();
public char[][] Grid(int n) => Create(n, () => Str.ToCharArray());
public int[] ArrInt1D(int n) => Create(n, () => Int);
public long[] ArrLong1D(int n) => Create(n, () => Long);
public int[][] ArrInt2D(int n) => Create(n, () => ArrInt);
public long[][] ArrLong2D(int n) => Create(n, () => ArrLong);
private Queue<string> q = new Queue<string>();
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public T Next<T>() {
if (q.Count == 0)
foreach (var item in Str.Split(' '))
q.Enqueue(item);
return (T)Convert.ChangeType(q.Dequeue(), typeof(T));
}
public void Make<T1>(out T1 v1) => v1 = Next<T1>();
public void Make<T1, T2>(out T1 v1, out T2 v2) {
v1 = Next<T1>();
v2 = Next<T2>();
}
public void Make<T1, T2, T3>(out T1 v1, out T2 v2, out T3 v3) {
Make(out v1, out v2);
v3 = Next<T3>();
}
public void Make<T1, T2, T3, T4>(out T1 v1, out T2 v2, out T3 v3, out T4 v4) {
Make(out v1, out v2, out v3);
v4 = Next<T4>();
}
public void Make<T1, T2, T3, T4, T5>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5) {
Make(out v1, out v2, out v3, out v4);
v5 = Next<T5>();
}
public void Make<T1, T2, T3, T4, T5, T6>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5, out T6 v6) {
Make(out v1, out v2, out v3, out v4, out v5);
v6 = Next<T6>();
}
public void Make<T1, T2, T3, T4, T5, T6, T7>(out T1 v1, out T2 v2, out T3 v3,
out T4 v4, out T5 v5, out T6 v6,
out T7 v7) {
Make(out v1, out v2, out v3, out v4, out v5, out v6);
v7 = Next<T7>();
}
// public (T1, T2) Make<T1, T2>() { Make(out T1 v1, out T2 v2); return (v1,
// v2); } public (T1, T2, T3) Make<T1, T2, T3>() { Make(out T1 v1, out T2 v2,
// out T3 v3); return (v1, v2, v3); } public (T1, T2, T3, T4) Make<T1, T2, T3,
// T4>() { Make(out T1 v1, out T2 v2, out T3 v3, out T4 v4); return (v1, v2,
// v3, v4); }
}
public class Pair<T1, T2> : IComparable<Pair<T1, T2>> {
public T1 v1;
public T2 v2;
public Pair() {}
public Pair(T1 v1, T2 v2) {
this.v1 = v1;
this.v2 = v2;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public int CompareTo(Pair<T1, T2> p) {
var c = Comparer<T1>.Default.Compare(v1, p.v1);
if (c == 0)
c = Comparer<T2>.Default.Compare(v2, p.v2);
return c;
}
public override string ToString() => $"{v1.ToString()} {v2.ToString()}";
public void Deconstruct(out T1 a, out T2 b) {
a = v1;
b = v2;
}
}
public class Pair<T1, T2, T3> : Pair<T1, T2>, IComparable<Pair<T1, T2, T3>> {
public T3 v3;
public Pair() : base() {}
public Pair(T1 v1, T2 v2, T3 v3) : base(v1, v2) { this.v3 = v3; }
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public int CompareTo(Pair<T1, T2, T3> p) {
var c = base.CompareTo(p);
if (c == 0)
c = Comparer<T3>.Default.Compare(v3, p.v3);
return c;
}
public override string ToString() => $"{base.ToString()} {v3.ToString()}";
public void Deconstruct(out T1 a, out T2 b, out T3 c) {
Deconstruct(out a, out b);
c = v3;
}
}
#endregion
|
[["-", 0, 195, 8, 196, 0, 1, 0, 223, 0, 22], ["-", 0, 195, 8, 196, 0, 1, 0, 223, 0, 68], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 60], ["-", 8, 196, 0, 57, 15, 16, 12, 241, 0, 33], ["-", 8, 196, 0, 57, 15, 16, 12, 241, 0, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["-", 0, 57, 64, 196, 0, 1, 0, 223, 0, 22], ["-", 0, 57, 64, 196, 0, 1, 0, 223, 0, 68], ["-", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["-", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 12, 203], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 17, 85], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 12, 22], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 33]]
| 8
| 1,918
| 23
|
using System;
using System.Linq;
using System.Collections.Generic;
using Debug = System.Diagnostics.Trace;
using SB = System.Text.StringBuilder;
using static System.Math;
using static Program.IO.Scanner;
using Number = System.Int64;
using System.Numerics;
#region IO
namespace Program.IO {
using System.IO;
using System.Text;
using System.Globalization;
public class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {}
}
static public class Scanner {
public static StreamScanner sc =
new StreamScanner(Console.OpenStandardInput());
public static int ri => sc.Integer();
public static long rl => sc.Long();
public static string rs => sc.Scan();
public static double rd => sc.Double();
}
public class StreamScanner {
public StreamScanner(Stream stream) { str = stream; }
public readonly Stream str;
private readonly byte[] buf = new byte[1024];
private int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
private byte read() {
if (isEof)
return 0;
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
public char Char() {
byte b = 0;
do
b = read();
while ((b < 33 || 126 < b) && !isEof);
return (char)b;
}
public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
public string ScanLine() {
var sb = new StringBuilder();
for (var b = Char(); b != '\n' && b != 0; b = (char)read())
if (b != '\r')
sb.Append(b);
return sb.ToString();
}
public long Long() { return isEof ? long.MinValue : long.Parse(Scan()); }
public int Integer() { return isEof ? int.MinValue : int.Parse(Scan()); }
public double Double() {
return isEof ? double.NaN
: double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
}
#endregion
#region main
static class Ex {
static public string AsString(this IEnumerable<char> ie) {
return new string(ie.ToArray());
}
static public string AsJoinedString<T>(this IEnumerable<T> ie,
string st = " ") {
return string.Join(st, ie);
}
static public void Main() {
Console.SetOut(new Program.IO.Printer(
Console.OpenStandardOutput()) { AutoFlush = false });
var solver = new Program.Solver();
var t = new System.Threading.Thread(solver.Solve, 50000000);
t.Start();
t.Join();
//*/
// solver.Solve();
Console.Out.Flush();
}
}
#endregion
namespace Program {
public class Solver {
Random rnd = new Random(0);
public void Solve() {
var s = rs.ToCharArray();
for (int i = 0; i < s.Length; i++) {
if (s[i] == '?') {
if (i > 0 && s[i - 1] == 'P')
s[i] = 'D';
else
s[i] = 'P';
}
}
Console.WriteLine(s.AsString());
}
const long INF = 1L << 60;
static int[] dx = { -1, 0, 1, 0 };
static int[] dy = { 0, 1, 0, -1 };
static T[] Enumerate<T>(int n, Func<int, T> f) {
var a = new T[n];
for (int i = 0; i < a.Length; ++i)
a[i] = f(i);
return a;
}
static T[][] Enumerate<T>(int n, int m, Func<int, int, T> f) {
return Enumerate(n, x => Enumerate(m, y => f(x, y)));
}
static public void Swap<T>(ref T a, ref T b) {
var tmp = a;
a = b;
b = tmp;
}
}
}
|
using System;
using System.Linq;
using System.Collections.Generic;
using Debug = System.Diagnostics.Trace;
using SB = System.Text.StringBuilder;
using static System.Math;
using static Program.IO.Scanner;
using Number = System.Int64;
using System.Numerics;
#region IO
namespace Program.IO {
using System.IO;
using System.Text;
using System.Globalization;
public class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {}
}
static public class Scanner {
public static StreamScanner sc =
new StreamScanner(Console.OpenStandardInput());
public static int ri => sc.Integer();
public static long rl => sc.Long();
public static string rs => sc.Scan();
public static double rd => sc.Double();
}
public class StreamScanner {
public StreamScanner(Stream stream) { str = stream; }
public readonly Stream str;
private readonly byte[] buf = new byte[1024];
private int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
private byte read() {
if (isEof)
return 0;
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
public char Char() {
byte b = 0;
do
b = read();
while ((b < 33 || 126 < b) && !isEof);
return (char)b;
}
public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
public string ScanLine() {
var sb = new StringBuilder();
for (var b = Char(); b != '\n' && b != 0; b = (char)read())
if (b != '\r')
sb.Append(b);
return sb.ToString();
}
public long Long() { return isEof ? long.MinValue : long.Parse(Scan()); }
public int Integer() { return isEof ? int.MinValue : int.Parse(Scan()); }
public double Double() {
return isEof ? double.NaN
: double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
}
#endregion
#region main
static class Ex {
static public string AsString(this IEnumerable<char> ie) {
return new string(ie.ToArray());
}
static public string AsJoinedString<T>(this IEnumerable<T> ie,
string st = " ") {
return string.Join(st, ie);
}
static public void Main() {
Console.SetOut(new Program.IO.Printer(
Console.OpenStandardOutput()) { AutoFlush = false });
var solver = new Program.Solver();
var t = new System.Threading.Thread(solver.Solve, 50000000);
t.Start();
t.Join();
//*/
// solver.Solve();
Console.Out.Flush();
}
}
#endregion
namespace Program {
public class Solver {
Random rnd = new Random(0);
public void Solve() {
var s = rs.ToCharArray();
for (int i = 0; i < s.Length; i++) {
if (s[i] == '?') {
s[i] = 'D';
}
}
Console.WriteLine(s.AsString());
}
const long INF = 1L << 60;
static int[] dx = { -1, 0, 1, 0 };
static int[] dy = { 0, 1, 0, -1 };
static T[] Enumerate<T>(int n, Func<int, T> f) {
var a = new T[n];
for (int i = 0; i < a.Length; ++i)
a[i] = f(i);
return a;
}
static T[][] Enumerate<T>(int n, int m, Func<int, int, T> f) {
return Enumerate(n, x => Enumerate(m, y => f(x, y)));
}
static public void Swap<T>(ref T a, ref T b) {
var tmp = a;
a = b;
b = tmp;
}
}
}
|
[["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["-", 64, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["-", 64, 196, 0, 57, 15, 16, 31, 16, 17, 47], ["-", 64, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["-", 0, 57, 64, 196, 0, 57, 15, 16, 17, 98], ["-", 31, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["-", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["-", 64, 196, 0, 57, 15, 16, 12, 16, 17, 60], ["-", 0, 57, 15, 16, 12, 16, 12, 252, 0, 104], ["-", 0, 57, 15, 16, 12, 16, 12, 252, 0, 253], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 25], ["-", 0, 57, 64, 1, 0, 11, 31, 204, 205, 22], ["-", 64, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["-", 0, 11, 31, 204, 206, 207, 0, 28, 0, 22], ["-", 64, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["-", 0, 57, 64, 1, 0, 11, 12, 252, 0, 104], ["-", 0, 57, 64, 196, 0, 57, 64, 1, 0, 35], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 95], ["-", 0, 57, 75, 1, 0, 11, 31, 204, 205, 22], ["-", 75, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["-", 75, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["-", 0, 57, 75, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 57, 75, 1, 0, 11, 12, 252, 0, 104], ["-", 0, 57, 75, 1, 0, 11, 12, 252, 0, 253]]
| 8
| 991
| 27
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列の入力
string T = Console.ReadLine();
string p = T.Replace("?", "D");
Console.WriteLine(p);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列の入力
string T = Console.ReadLine();
string p = T.Replace("?", "D");
Console.WriteLine(p);
Console.Out.Flush();
}
}
}
|
[["+", 0, 1, 0, 213, 63, 214, 205, 214, 205, 22], ["+", 0, 1, 0, 213, 63, 214, 205, 214, 0, 131], ["+", 0, 1, 0, 213, 63, 214, 205, 214, 141, 22], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35]]
| 8
| 111
| 8
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
namespace ForATCODER {
public class Program {
/// template
///
/// String[] s = Console.ReadLine().Split(' ');
/// long[] nk = s2larray(Console.ReadLine().Split(' '));
///
public static void Main(string[] args) {
String T = Console.ReadLine();
System.Text.StringBuilder T2 = new System.Text.StringBuilder(T);
/* int p = T.Count(x=> x=='P');
int d = T.Count(x => x == 'D');
int q = T.Count(x => x == '?');*/
int point = 0;
int count = 0;
// PD count
/* for (int i = 0; i < T2.Length; i++)
{
char c1 = T2[i];
char c2='\0';
if (i < T2.Length - 1) c2 = T2[i+1];
if(c1=='P' && c2=='D')
{
point += 2;
T = T.Remove(i-count,2);
count+=2;
}
}*/
T2 = new System.Text.StringBuilder(T);
count = 0;
for (int i = 0; i < T2.Length; i++) {
char c1 = T2[i];
char c2 = '\0';
if (i < T2.Length - 1)
c2 = T2[i + 1];
if (c1 == '?' && c2 == 'D') {
T2[i] = 'P';
} else if (c1 == '?') {
T2[i] = 'D';
}
}
/* T = T2.ToString();
for (int i = 0; i < T2.Length; i++)
{
char c1 = T2[i];
char c2 = '\0';
if (i < T2.Length - 1) c2 = T2[i + 1];
if (c1 == 'P' && c2 == 'D')
{
point += 2;
T = T.Remove(i - count, 2);
count += 2;
}
}*/
// point += T.Count(x=>x=='D');
RESULT(T2.ToString());
}
static void addarray(long[] arr, int start, int end) {
for (int i = start; i <= end; i++) {
arr[i]++;
}
}
public static decimal Sqrt(decimal x) {
decimal sqrt_x = (decimal)Math.Sqrt((long)x);
for (int i = 0; i < 10; ++i)
sqrt_x = 0.5m * (sqrt_x + x / sqrt_x);
return sqrt_x;
}
static long summ(long s) {
if (s == 1)
return 1;
return s + summ(s - 1);
}
public static bool checka(int[] a, int m) {
int back = 1;
for (int i = 0; i < a.Length; i++) {
if (a[i] >= 1 && a[i] <= m) {
if (a[i] >= back) {
back = a[i];
} else {
return false;
}
} else {
return false;
}
}
return true;
}
public static ulong pow(int a, int b) {
ulong res = 1;
for (int i = 0; i < b; i++) {
res *= (ulong)a;
}
return res;
}
static int s2i(String s) { return Convert.ToInt32(s); }
static long s2l(String s) { return Convert.ToInt64(s); }
static void RESULT(double res) { Console.WriteLine(res); }
static void RESULT(long res) { Console.WriteLine(res); }
static void RESULT(ulong res) { Console.WriteLine(res); }
static void RESULT(int res) { Console.WriteLine(res); }
static void RESULT(String res) { Console.WriteLine(res); }
static String[] ReadLineAll(int count) {
String[] res = new String[count];
for (int i = 0; i < count; i++) {
res[i] = Console.ReadLine();
}
return res;
}
static int[] s2iarray(String[] src) {
int len = src.Length;
int[] res = new int[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToInt32(src[i]);
}
return res;
}
static long[] s2larray(String[] src) {
int len = src.Length;
long[] res = new long[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToInt64(src[i]);
}
return res;
}
static ulong[] s2larray2(String[] src) {
int len = src.Length;
ulong[] res = new ulong[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToUInt64(src[i]);
}
return res;
}
static long C(int n, int r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
long ans = 1;
int i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
static long C(long n, long r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
long ans = 1;
int i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
static ulong C(ulong n, ulong r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
ulong ans = 1;
ulong i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
namespace ForATCODER {
public class Program {
/// template
///
/// String[] s = Console.ReadLine().Split(' ');
/// long[] nk = s2larray(Console.ReadLine().Split(' '));
///
public static void Main(string[] args) {
String T = Console.ReadLine();
System.Text.StringBuilder T2 = new System.Text.StringBuilder(T);
/* int p = T.Count(x=> x=='P');
int d = T.Count(x => x == 'D');
int q = T.Count(x => x == '?');*/
// PD count
/* for (int i = 0; i < T2.Length; i++)
{
char c1 = T2[i];
char c2='\0';
if (i < T2.Length - 1) c2 = T2[i+1];
if(c1=='P' && c2=='D')
{
point += 2;
T = T.Remove(i-count,2);
count+=2;
}
}*/
T2 = new System.Text.StringBuilder(T);
for (int i = 0; i < T2.Length; i++) {
char c1 = T2[i];
char c2 = '\0';
if (i < T2.Length - 1)
c2 = T2[i + 1];
if (c1 == '?' && c2 == 'D') {
T2[i] = 'D';
} else if (c1 == '?') {
T2[i] = 'D';
}
}
/* T = T2.ToString();
for (int i = 0; i < T2.Length; i++)
{
char c1 = T2[i];
char c2 = '\0';
if (i < T2.Length - 1) c2 = T2[i + 1];
if (c1 == 'P' && c2 == 'D')
{
point += 2;
T = T.Remove(i - count, 2);
count += 2;
}
}*/
// point += T.Count(x=>x=='D');
RESULT(T2.ToString());
}
static void addarray(long[] arr, int start, int end) {
for (int i = start; i <= end; i++) {
arr[i]++;
}
}
public static decimal Sqrt(decimal x) {
decimal sqrt_x = (decimal)Math.Sqrt((long)x);
for (int i = 0; i < 10; ++i)
sqrt_x = 0.5m * (sqrt_x + x / sqrt_x);
return sqrt_x;
}
static long summ(long s) {
if (s == 1)
return 1;
return s + summ(s - 1);
}
public static bool checka(int[] a, int m) {
int back = 1;
for (int i = 0; i < a.Length; i++) {
if (a[i] >= 1 && a[i] <= m) {
if (a[i] >= back) {
back = a[i];
} else {
return false;
}
} else {
return false;
}
}
return true;
}
public static ulong pow(int a, int b) {
ulong res = 1;
for (int i = 0; i < b; i++) {
res *= (ulong)a;
}
return res;
}
static int s2i(String s) { return Convert.ToInt32(s); }
static long s2l(String s) { return Convert.ToInt64(s); }
static void RESULT(double res) { Console.WriteLine(res); }
static void RESULT(long res) { Console.WriteLine(res); }
static void RESULT(ulong res) { Console.WriteLine(res); }
static void RESULT(int res) { Console.WriteLine(res); }
static void RESULT(String res) { Console.WriteLine(res); }
static String[] ReadLineAll(int count) {
String[] res = new String[count];
for (int i = 0; i < count; i++) {
res[i] = Console.ReadLine();
}
return res;
}
static int[] s2iarray(String[] src) {
int len = src.Length;
int[] res = new int[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToInt32(src[i]);
}
return res;
}
static long[] s2larray(String[] src) {
int len = src.Length;
long[] res = new long[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToInt64(src[i]);
}
return res;
}
static ulong[] s2larray2(String[] src) {
int len = src.Length;
ulong[] res = new ulong[len];
for (int i = 0; i < len; i++) {
res[i] = Convert.ToUInt64(src[i]);
}
return res;
}
static long C(int n, int r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
long ans = 1;
int i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
static long C(long n, long r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
long ans = 1;
int i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
static ulong C(ulong n, ulong r) {
if (n <= 1)
return 0;
if (r > n - r)
r = n - r; // because C(n, r) == C(n, n - r)
ulong ans = 1;
ulong i;
for (i = 1; i <= r; i++) {
ans *= n - r + i;
ans /= i;
}
return ans;
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 195, 8, 196, 0, 1, 0, 11, 12, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 64, 196, 0, 1, 0, 11, 12, 252, 0, 253], ["+", 64, 196, 0, 1, 0, 11, 12, 252, 0, 253]]
| 8
| 1,047
| 16
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列の入力
string s = Console.ReadLine();
var arr = s.ToCharArray();
for (var i = 0; i < arr.Length; i++) {
if (arr[i] == '?') {
if (i > 0 && arr[i - 1] == 'P')
arr[i] = 'D';
else if (i < arr.Length - 1 && arr[i + 1] == 'P')
arr[i] = 'D';
else if (i < arr.Length - 1 && arr[i + 1] == 'D')
arr[i] = 'P';
else if (i < arr.Length - 1 && arr[i + 1] == '?')
arr[i] = 'P';
}
}
string result = string.Join("", arr);
Console.WriteLine(result);
Console.Out.Flush();
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
class QuestionB {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列の入力
string s = Console.ReadLine();
var arr = s.ToCharArray();
for (var i = 0; i < arr.Length; i++) {
if (arr[i] == '?') {
if (i > 0 && arr[i - 1] == 'P')
arr[i] = 'D';
else if (i < arr.Length - 1 && arr[i + 1] == 'P')
arr[i] = 'D';
else if (i < arr.Length - 1 && arr[i + 1] == 'D')
arr[i] = 'P';
else if (i < arr.Length - 1 && arr[i + 1] == '?')
arr[i] = 'P';
else
arr[i] = 'D';
}
}
string result = string.Join("", arr);
Console.WriteLine(result);
Console.Out.Flush();
}
}
|
[["+", 0, 57, 75, 57, 75, 57, 75, 57, 0, 95], ["+", 75, 57, 75, 1, 0, 11, 31, 204, 205, 22], ["+", 75, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["+", 0, 11, 31, 204, 206, 207, 0, 28, 0, 22], ["+", 75, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["+", 75, 57, 75, 1, 0, 11, 0, 202, 0, 32], ["+", 75, 57, 75, 1, 0, 11, 12, 252, 0, 104], ["+", 75, 57, 75, 1, 0, 11, 12, 252, 0, 253], ["+", 75, 57, 75, 57, 75, 57, 75, 1, 0, 35]]
| 8
| 269
| 10
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder.Question {
public class QuestionB {
public static void Main(string[] args) {
var t = Console.ReadLine();
var result = new Char[t.Length];
for (int i = 0; i < t.Length; i++) {
if (t[i] == '?') {
var next = i == t.Length - 1 ? ' ' : t[i + 1];
result[i] = next == 'D' ? 'P' : 'D';
} else {
result[i] = t[i];
}
}
Console.WriteLine(new String(result));
}
static T ReadValue<T>() {
return (T)Convert.ChangeType(Console.ReadLine(), typeof(T));
}
static (T1, T2) ReadValue<T1, T2>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)));
}
static (T1, T2, T3) ReadValue<T1, T2, T3>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)),
(T3)Convert.ChangeType(input[2], typeof(T3)));
}
static (T1, T2, T3, T4) ReadValue<T1, T2, T3, T4>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)),
(T3)Convert.ChangeType(input[2], typeof(T3)),
(T4)Convert.ChangeType(input[3], typeof(T4)));
}
static T[] ReadValues<T>() {
var input = Console.ReadLine().Split(' ');
return input.Select(x => (T)Convert.ChangeType(x, typeof(T))).ToArray();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder.Question {
public class QuestionB {
public static void Main(string[] args) {
var t = Console.ReadLine();
var result = new Char[t.Length];
for (int i = 0; i < t.Length; i++) {
if (t[i] == '?') {
result[i] = 'D';
} else {
result[i] = t[i];
}
}
Console.WriteLine(new String(result));
}
static T ReadValue<T>() {
return (T)Convert.ChangeType(Console.ReadLine(), typeof(T));
}
static (T1, T2) ReadValue<T1, T2>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)));
}
static (T1, T2, T3) ReadValue<T1, T2, T3>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)),
(T3)Convert.ChangeType(input[2], typeof(T3)));
}
static (T1, T2, T3, T4) ReadValue<T1, T2, T3, T4>() {
var input = Console.ReadLine().Split(' ');
return ((T1)Convert.ChangeType(input[0], typeof(T1)),
(T2)Convert.ChangeType(input[1], typeof(T2)),
(T3)Convert.ChangeType(input[2], typeof(T3)),
(T4)Convert.ChangeType(input[3], typeof(T4)));
}
static T[] ReadValues<T>() {
var input = Console.ReadLine().Split(' ');
return input.Select(x => (T)Convert.ChangeType(x, typeof(T))).ToArray();
}
}
}
|
[["-", 64, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["-", 64, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 200, 0, 212, 0, 41, 15, 16, 31, 22], ["-", 0, 200, 0, 212, 0, 41, 15, 16, 17, 60], ["-", 0, 41, 15, 16, 12, 16, 31, 214, 205, 22], ["-", 0, 41, 15, 16, 12, 16, 31, 214, 0, 131], ["-", 0, 41, 15, 16, 12, 16, 31, 214, 141, 22], ["-", 0, 212, 0, 41, 15, 16, 12, 16, 17, 33], ["-", 0, 212, 0, 41, 15, 16, 12, 16, 12, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 41, 0, 101], ["-", 0, 200, 0, 212, 0, 41, 64, 252, 0, 104], ["-", 0, 200, 0, 212, 0, 41, 64, 252, 0, 253], ["-", 0, 198, 0, 200, 0, 212, 0, 41, 0, 102], ["-", 0, 200, 0, 212, 0, 41, 75, 204, 205, 22], ["-", 0, 212, 0, 41, 75, 204, 206, 207, 0, 70], ["-", 75, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["-", 75, 204, 206, 207, 0, 28, 0, 16, 17, 72], ["-", 75, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["-", 0, 212, 0, 41, 75, 204, 206, 207, 0, 73], ["-", 8, 196, 0, 57, 64, 196, 0, 197, 0, 35], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 31, 22], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 17, 60], ["-", 0, 11, 12, 41, 15, 16, 12, 252, 0, 104], ["-", 0, 11, 12, 41, 15, 16, 12, 252, 0, 253], ["-", 64, 196, 0, 1, 0, 11, 12, 41, 0, 101], ["-", 0, 1, 0, 11, 12, 41, 64, 252, 0, 104], ["-", 0, 1, 0, 11, 12, 41, 64, 252, 0, 253], ["-", 64, 196, 0, 1, 0, 11, 12, 41, 0, 102]]
| 8
| 518
| 32
|
using System;
using System.Text;
using System.Collections.Generic;
using System.Collections;
using System.Linq;
using E = System.Linq.Enumerable;
class Program {
static void Main(string[] args) {
// var NX = Console.ReadLine().Split(' ').Select(x =>
// long.Parse(x)).ToArray();
var N = long.Parse(Console.ReadLine());
var A = Console.ReadLine().Split(' ').Select(x => long.Parse(x)).ToArray();
long cum = A.Sum();
long ans = 0;
long bef = 1;
for (int i = 0; i <= N; i++) {
if (i > 0 && 2 * bef < A[i]) {
ans = -1;
break;
}
cum -= A[i];
bef = Math.Min(2 * bef - A[i], cum);
if (i == 0)
bef = Math.Min(bef, 1);
ans += (bef + A[i]);
}
if (A[0] > 1)
ans = -1;
Console.WriteLine(ans);
}
}
|
using System;
using System.Text;
using System.Collections.Generic;
using System.Collections;
using System.Linq;
using E = System.Linq.Enumerable;
class Program {
static void Main(string[] args) {
// var NX = Console.ReadLine().Split(' ').Select(x =>
// long.Parse(x)).ToArray();
var N = long.Parse(Console.ReadLine());
var A = Console.ReadLine().Split(' ').Select(x => long.Parse(x)).ToArray();
long cum = A.Sum();
long ans = 0;
long bef = 0;
for (int i = 0; i <= N; i++) {
if (i > 0 && 2 * bef < A[i]) {
ans = -1;
break;
}
cum -= A[i];
bef = Math.Min(2 * bef - A[i], cum);
if (i == 0)
bef = A[i] == 1 ? 0 : 1;
ans += (bef + A[i]);
}
if (A[0] > 1)
ans = -1;
Console.WriteLine(ans);
}
}
|
[["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 203], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 203], ["-", 64, 1, 0, 11, 12, 213, 63, 214, 205, 22], ["-", 64, 1, 0, 11, 12, 213, 63, 214, 0, 131], ["-", 64, 1, 0, 11, 12, 213, 63, 214, 141, 22], ["-", 64, 1, 0, 11, 12, 213, 3, 4, 0, 24], ["-", 0, 11, 12, 213, 3, 4, 0, 28, 0, 22], ["-", 64, 1, 0, 11, 12, 213, 3, 4, 0, 21], ["+", 0, 11, 12, 41, 15, 16, 31, 204, 205, 22], ["+", 12, 41, 15, 16, 31, 204, 206, 207, 0, 70], ["+", 15, 16, 31, 204, 206, 207, 0, 28, 0, 22], ["+", 12, 41, 15, 16, 31, 204, 206, 207, 0, 73], ["+", 64, 1, 0, 11, 12, 41, 15, 16, 17, 60], ["-", 64, 1, 0, 11, 12, 213, 3, 4, 0, 25], ["+", 0, 57, 64, 1, 0, 11, 12, 41, 0, 101], ["+", 0, 57, 64, 1, 0, 11, 12, 41, 64, 203], ["+", 0, 57, 64, 1, 0, 11, 12, 41, 0, 102], ["+", 0, 57, 64, 1, 0, 11, 12, 41, 75, 203]]
| 8
| 230
| 18
|
using System;
using System.Text;
using System.Collections.Generic;
using System.Linq;
public class HelloWorld {
static long A;
static long B;
static long C;
static long D;
static long N;
static SortedDictionary<long, long> dic;
static public void Main() {
var T = long.Parse(Console.ReadLine());
for (int i = 0; i < T; i++) {
var inp =
Console.ReadLine().Split(' ').Select(x => long.Parse(x)).ToArray();
N = inp[0];
// used = new long[N + 5];
A = inp[1];
B = inp[2];
C = inp[3];
D = inp[4];
dic = new SortedDictionary<long, long>();
dic.Add(1, D);
dic.Add(0, 1000000000000000);
Console.WriteLine(Check(N));
}
}
static long Check(long n) {
if (dic.ContainsKey(n))
return dic[n];
var tmp2 = n % 2;
var tmp3 = n % 3;
var tmp5 = n % 5;
long ans = long.MaxValue;
if (n % 5 == 0) {
ans = Math.Min(ans, C + Check(n / 5));
} else {
ans = Math.Min(ans, C + D * (5 - tmp5) + Check((n + 5 - tmp5) / 5));
ans = Math.Min(ans, C + D * tmp5 + Check((n - tmp5) / 5));
}
if (n % 3 == 0) {
ans = Math.Min(ans, B + Check(n / 3));
} else {
ans = Math.Min(ans, B + D * (3 - tmp3) + Check((n + 3 - tmp3) / 3));
ans = Math.Min(ans, B + D * tmp3 + Check((n - tmp3) / 3));
}
if (n % 2 == 0) {
ans = Math.Min(ans, A + Check(n / 2));
} else {
ans = Math.Min(ans, D + A + Check((n + 1) / 2));
ans = Math.Min(ans, D + A + Check((n - 1) / 2));
}
dic.Add(n, ans);
return ans;
}
}
|
using System;
using System.Text;
using System.Collections.Generic;
using System.Linq;
public class HelloWorld {
static long A;
static long B;
static long C;
static long D;
static long N;
static SortedDictionary<long, long> dic;
static public void Main() {
var T = long.Parse(Console.ReadLine());
for (int i = 0; i < T; i++) {
var inp =
Console.ReadLine().Split(' ').Select(x => long.Parse(x)).ToArray();
N = inp[0];
// used = new long[N + 5];
A = inp[1];
B = inp[2];
C = inp[3];
D = inp[4];
dic = new SortedDictionary<long, long>();
dic.Add(1, D);
dic.Add(0, (long)Math.Pow(10, 13));
Console.WriteLine(Check(N));
}
}
static long Check(long n) {
if (dic.ContainsKey(n))
return dic[n];
var tmp2 = n % 2;
var tmp3 = n % 3;
var tmp5 = n % 5;
long ans = n * D;
if (ans < 0)
ans = long.MaxValue;
if (n % 5 == 0) {
ans = Math.Min(ans, C + Check(n / 5));
} else {
ans = Math.Min(ans, C + D * (5 - tmp5) + Check((n + 5 - tmp5) / 5));
ans = Math.Min(ans, C + D * tmp5 + Check((n - tmp5) / 5));
}
if (n % 3 == 0) {
ans = Math.Min(ans, B + Check(n / 3));
} else {
ans = Math.Min(ans, B + D * (3 - tmp3) + Check((n + 3 - tmp3) / 3));
ans = Math.Min(ans, B + D * tmp3 + Check((n - tmp3) / 3));
}
if (n % 2 == 0) {
ans = Math.Min(ans, A + Check(n / 2));
} else {
ans = Math.Min(ans, D + A * tmp2 + Check((n + tmp2) / 2));
ans = Math.Min(ans, D + A + Check((n - tmp2) / 2));
}
dic.Add(n, ans);
return ans;
}
}
|
[["-", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 213, 3, 4, 0, 28, 0, 74, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 74, 39, 199], ["+", 0, 28, 0, 74, 51, 213, 63, 214, 205, 22], ["+", 0, 28, 0, 74, 51, 213, 63, 214, 0, 131], ["+", 0, 28, 0, 74, 51, 213, 63, 214, 141, 22], ["+", 0, 28, 0, 74, 51, 213, 3, 4, 0, 24], ["+", 0, 74, 51, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 28, 0, 74, 51, 213, 3, 4, 0, 21], ["+", 0, 28, 0, 74, 51, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 31, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 48], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 18], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 28, 0, 16, 31, 16, 12, 16, 17, 48], ["+", 0, 28, 0, 16, 31, 16, 12, 16, 12, 22], ["-", 0, 28, 0, 16, 31, 23, 0, 16, 12, 203], ["+", 0, 28, 0, 16, 31, 23, 0, 16, 12, 22]]
| 8
| 521
| 30
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Text;
using System.Linq;
using E = System.Linq.Enumerable;
public class FastQueue<T> {
private T[] _nodes;
private int _head;
private int _tail;
public int Count { get; private set; }
public FastQueue() {
_nodes = new T[1];
_head = 0;
_tail = 0;
}
public void Clear() { _head = _tail = Count = 0; }
public void Enqueue(T value) {
Count++;
if (Count == _nodes.Length) { // expand
var newNodes = new T[_nodes.Length * 2];
int nTail = 0;
while (_head != _tail) {
newNodes[nTail++] = _nodes[_head];
_head++;
if (_head == _nodes.Length)
_head = 0;
}
_head = 0;
_tail = nTail;
}
_nodes[_tail++] = value;
if (_tail >= _nodes.Length) {
_tail = 0;
}
}
public T Dequeue() {
var ret = _nodes[_head];
Count--;
if (++_head >= _nodes.Length) {
_head = 0;
}
return ret;
}
}
internal partial class Solver {
public int[] dx = new int[] { 0, 1, 0, -1 };
public int[] dy = new int[] { 1, 0, -1, 0 };
public void Run() {
var n = ni();
var p = ni(n * n);
// n = 500; p = E.Range(1, n * n).ToArray();
var a = new int[n, n];
var cost = new int[n, n];
var weight = new int[n, n];
var rows = new int[n * n];
var cols = new int[n * n];
for (int i = 0; i < n; i++) {
for (int j = 0; j < n; j++) {
var val = i * n + j;
a[i, j] = val;
weight[i, j] = 1;
rows[val] = i;
cols[val] = j;
cost[i, j] = Math.Min(Math.Min(i, n - 1 - i), Math.Min(j, n - 1 - j));
}
}
long ans = 0;
var queue = new FastQueue<(int, int, int)>();
var next = new FastQueue<(int, int, int)>();
for (int i = 0; i < p.Length; i++) {
var row = rows[p[i] - 1];
var col = cols[p[i] - 1];
ans += cost[row, col];
weight[row, col] = 0;
int minAdjCost = int.MaxValue;
for (int k = 0; k < 4; k++) {
var nr = row + dy[k];
var nc = col + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
minAdjCost = Math.Min(minAdjCost, cost[nr, nc]);
} else {
minAdjCost = -1;
}
}
if (cost[row, col] > minAdjCost) {
queue.Enqueue((row, col, minAdjCost));
while (queue.Count > 0) {
while (queue.Count > 0) {
var (crow, ccol, step) = queue.Dequeue();
if (cost[crow, ccol] <= step)
continue;
cost[crow, ccol] = step;
for (int k = 0; k < 4; k++) {
var nr = crow + dy[k];
var nc = ccol + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
var w = weight[nr, nc];
if (cost[nr, nc] > step + w) {
if (w == 0) {
queue.Enqueue((nr, nc, step));
} else {
next.Enqueue((nr, nc, step + 1));
}
}
}
}
}
Swap(ref queue, ref next);
}
// cost.Dump();
}
}
cout.WriteLine(ans);
}
public static void Swap<T>(ref T lhs, ref T rhs) {
T temp;
temp = lhs;
lhs = rhs;
rhs = temp;
}
public class BooleanArray {
private readonly int[] array;
private int trueValue = 1;
public BooleanArray(int size) { array = new int[size]; }
public void Clear() { trueValue++; }
public bool this[int index] {
get { return array[index] == trueValue; }
set { array[index] = value ? trueValue : trueValue - 1; }
}
public int Length {
get { return array.Length; }
}
}
}
// PREWRITEN CODE BEGINS FROM HERE
internal partial class Solver : Scanner {
public static void Main() {
#if LOCAL
byte[] inputBuffer = new byte[1000000];
var inputStream = Console.OpenStandardInput(inputBuffer.Length);
using (var reader = new StreamReader(inputStream, Console.InputEncoding,
false, inputBuffer.Length)) {
Console.SetIn(reader);
new Solver(Console.In, Console.Out).Run();
}
#else
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver(Console.In, Console.Out).Run();
Console.Out.Flush();
#endif
}
#pragma warning disable IDE0052
private readonly TextReader cin;
private readonly TextWriter cout;
#pragma warning restore IDE0052
public Solver(TextReader reader, TextWriter writer) : base(reader) {
cin = reader;
cout = writer;
}
public Solver(string input, TextWriter writer)
: this(new StringReader(input), writer) {}
#pragma warning disable IDE1006
#pragma warning disable IDE0051
private int ni() { return NextInt(); }
private int[] ni(int n) { return NextIntArray(n); }
private long nl() { return NextLong(); }
private long[] nl(int n) { return NextLongArray(n); }
private double nd() { return NextDouble(); }
private double[] nd(int n) { return NextDoubleArray(n); }
private string ns() { return Next(); }
private string[] ns(int n) { return NextArray(n); }
#pragma warning restore IDE1006
#pragma warning restore IDE0051
}
internal static class LinqPadExtension {
[Conditional("DEBUG")]
public static void Dump<T>(this T obj) {
#if DEBUG
LINQPad.Extensions.Dump(obj);
#endif
}
}
public class Scanner {
private readonly TextReader Reader;
private readonly CultureInfo ci = CultureInfo.InvariantCulture;
private readonly char[] buffer = new char[2 * 1024];
private int cursor = 0, length = 0;
private string Token;
private readonly StringBuilder sb = new StringBuilder(1024);
public Scanner() : this(Console.In) {}
public Scanner(TextReader reader) { Reader = reader; }
public int NextInt() { return checked((int)NextLong()); }
public long NextLong() {
var s = Next();
long r = 0;
int i = 0;
bool negative = false;
if (s[i] == '-') {
negative = true;
i++;
}
for (; i < s.Length; i++) {
r = r * 10 + (s[i] - '0');
#if DEBUG
if (!char.IsDigit(s[i]))
throw new FormatException();
#endif
}
return negative ? -r : r;
}
public double NextDouble() { return double.Parse(Next(), ci); }
public string[] NextArray(int size) {
string[] array = new string[size];
for (int i = 0; i < size; i++) {
array[i] = Next();
}
return array;
}
public int[] NextIntArray(int size) {
int[] array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = NextInt();
}
return array;
}
public long[] NextLongArray(int size) {
long[] array = new long[size];
for (int i = 0; i < size; i++) {
array[i] = NextLong();
}
return array;
}
public double[] NextDoubleArray(int size) {
double[] array = new double[size];
for (int i = 0; i < size; i++) {
array[i] = NextDouble();
}
return array;
}
public string Next() {
if (Token == null) {
if (!StockToken()) {
throw new Exception();
}
}
var token = Token;
Token = null;
return token;
}
public bool HasNext() {
if (Token != null) {
return true;
}
return StockToken();
}
private bool StockToken() {
while (true) {
sb.Clear();
while (true) {
if (cursor >= length) {
cursor = 0;
if ((length = Reader.Read(buffer, 0, buffer.Length)) <= 0) {
break;
}
}
var c = buffer[cursor++];
if (33 <= c && c <= 126) {
sb.Append(c);
} else {
if (sb.Length > 0)
break;
}
}
if (sb.Length > 0) {
Token = sb.ToString();
return true;
}
return false;
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Text;
using System.Linq;
using E = System.Linq.Enumerable;
public class FastQueue<T> {
private T[] _nodes;
private int _head;
private int _tail;
public int Count { get; private set; }
public FastQueue(int capacity = 16) {
_nodes = new T[capacity];
_head = 0;
_tail = 0;
}
public void Clear() { _head = _tail = Count = 0; }
public void Enqueue(T value) {
Count++;
if (Count == _nodes.Length) { // expand
var newNodes = new T[_nodes.Length * 2];
int nTail = 0;
while (_head != _tail) {
newNodes[nTail++] = _nodes[_head];
_head++;
if (_head == _nodes.Length)
_head = 0;
}
_head = 0;
_tail = nTail;
_nodes = newNodes;
}
_nodes[_tail++] = value;
if (_tail >= _nodes.Length) {
_tail = 0;
}
}
public T Dequeue() {
var ret = _nodes[_head];
Count--;
if (++_head >= _nodes.Length) {
_head = 0;
}
return ret;
}
}
internal partial class Solver {
public int[] dx = new int[] { 0, 1, 0, -1 };
public int[] dy = new int[] { 1, 0, -1, 0 };
public void Run() {
var n = ni();
var p = ni(n * n);
// n = 500; p = E.Range(1, n * n).ToArray();
var a = new int[n, n];
var cost = new int[n, n];
var weight = new int[n, n];
var rows = new int[n * n];
var cols = new int[n * n];
for (int i = 0; i < n; i++) {
for (int j = 0; j < n; j++) {
var val = i * n + j;
a[i, j] = val;
weight[i, j] = 1;
rows[val] = i;
cols[val] = j;
cost[i, j] = Math.Min(Math.Min(i, n - 1 - i), Math.Min(j, n - 1 - j));
}
}
long ans = 0;
var queue = new Stack<(int, int, int)>();
var next = new Stack<(int, int, int)>();
for (int i = 0; i < p.Length; i++) {
var row = rows[p[i] - 1];
var col = cols[p[i] - 1];
ans += cost[row, col];
weight[row, col] = 0;
int minAdjCost = int.MaxValue;
for (int k = 0; k < 4; k++) {
var nr = row + dy[k];
var nc = col + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
minAdjCost = Math.Min(minAdjCost, cost[nr, nc]);
} else {
minAdjCost = -1;
}
}
if (cost[row, col] > minAdjCost) {
queue.Push((row, col, minAdjCost));
while (queue.Count > 0) {
while (queue.Count > 0) {
var (crow, ccol, step) = queue.Pop();
if (cost[crow, ccol] <= step)
continue;
cost[crow, ccol] = step;
for (int k = 0; k < 4; k++) {
var nr = crow + dy[k];
var nc = ccol + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
var w = weight[nr, nc];
if (cost[nr, nc] > step + w) {
if (w == 0) {
queue.Push((nr, nc, step));
} else {
next.Push((nr, nc, step + 1));
}
}
}
}
}
Swap(ref queue, ref next);
}
// cost.Dump();
}
}
cout.WriteLine(ans);
}
public static void Swap<T>(ref T lhs, ref T rhs) {
T temp;
temp = lhs;
lhs = rhs;
rhs = temp;
}
public class BooleanArray {
private readonly int[] array;
private int trueValue = 1;
public BooleanArray(int size) { array = new int[size]; }
public void Clear() { trueValue++; }
public bool this[int index] {
get { return array[index] == trueValue; }
set { array[index] = value ? trueValue : trueValue - 1; }
}
public int Length {
get { return array.Length; }
}
}
}
// PREWRITEN CODE BEGINS FROM HERE
internal partial class Solver : Scanner {
public static void Main() {
#if LOCAL
byte[] inputBuffer = new byte[1000000];
var inputStream = Console.OpenStandardInput(inputBuffer.Length);
using (var reader = new StreamReader(inputStream, Console.InputEncoding,
false, inputBuffer.Length)) {
Console.SetIn(reader);
new Solver(Console.In, Console.Out).Run();
}
#else
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver(Console.In, Console.Out).Run();
Console.Out.Flush();
#endif
}
#pragma warning disable IDE0052
private readonly TextReader cin;
private readonly TextWriter cout;
#pragma warning restore IDE0052
public Solver(TextReader reader, TextWriter writer) : base(reader) {
cin = reader;
cout = writer;
}
public Solver(string input, TextWriter writer)
: this(new StringReader(input), writer) {}
#pragma warning disable IDE1006
#pragma warning disable IDE0051
private int ni() { return NextInt(); }
private int[] ni(int n) { return NextIntArray(n); }
private long nl() { return NextLong(); }
private long[] nl(int n) { return NextLongArray(n); }
private double nd() { return NextDouble(); }
private double[] nd(int n) { return NextDoubleArray(n); }
private string ns() { return Next(); }
private string[] ns(int n) { return NextArray(n); }
#pragma warning restore IDE1006
#pragma warning restore IDE0051
}
internal static class LinqPadExtension {
[Conditional("DEBUG")]
public static void Dump<T>(this T obj) {
#if DEBUG
LINQPad.Extensions.Dump(obj);
#endif
}
}
public class Scanner {
private readonly TextReader Reader;
private readonly CultureInfo ci = CultureInfo.InvariantCulture;
private readonly char[] buffer = new char[2 * 1024];
private int cursor = 0, length = 0;
private string Token;
private readonly StringBuilder sb = new StringBuilder(1024);
public Scanner() : this(Console.In) {}
public Scanner(TextReader reader) { Reader = reader; }
public int NextInt() { return checked((int)NextLong()); }
public long NextLong() {
var s = Next();
long r = 0;
int i = 0;
bool negative = false;
if (s[i] == '-') {
negative = true;
i++;
}
for (; i < s.Length; i++) {
r = r * 10 + (s[i] - '0');
#if DEBUG
if (!char.IsDigit(s[i]))
throw new FormatException();
#endif
}
return negative ? -r : r;
}
public double NextDouble() { return double.Parse(Next(), ci); }
public string[] NextArray(int size) {
string[] array = new string[size];
for (int i = 0; i < size; i++) {
array[i] = Next();
}
return array;
}
public int[] NextIntArray(int size) {
int[] array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = NextInt();
}
return array;
}
public long[] NextLongArray(int size) {
long[] array = new long[size];
for (int i = 0; i < size; i++) {
array[i] = NextLong();
}
return array;
}
public double[] NextDoubleArray(int size) {
double[] array = new double[size];
for (int i = 0; i < size; i++) {
array[i] = NextDouble();
}
return array;
}
public string Next() {
if (Token == null) {
if (!StockToken()) {
throw new Exception();
}
}
var token = Token;
Token = null;
return token;
}
public bool HasNext() {
if (Token != null) {
return true;
}
return StockToken();
}
private bool StockToken() {
while (true) {
sb.Clear();
while (true) {
if (cursor >= length) {
cursor = 0;
if ((length = Reader.Read(buffer, 0, buffer.Length)) <= 0) {
break;
}
}
var c = buffer[cursor++];
if (33 <= c && c <= 126) {
sb.Append(c);
} else {
if (sb.Length > 0)
break;
}
}
if (sb.Length > 0) {
Token = sb.ToString();
return true;
}
return false;
}
}
}
|
[["+", 8, 201, 0, 263, 54, 55, 0, 220, 39, 199], ["+", 8, 201, 0, 263, 54, 55, 0, 220, 141, 22], ["+", 0, 263, 54, 55, 0, 220, 0, 212, 0, 32], ["+", 0, 263, 54, 55, 0, 220, 0, 212, 0, 203], ["-", 0, 11, 12, 227, 39, 224, 225, 226, 0, 203], ["+", 0, 11, 12, 227, 39, 224, 225, 226, 0, 22], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 12, 22], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 200, 0, 212, 0, 230, 39, 236, 141, 22], ["+", 0, 200, 0, 212, 0, 230, 39, 236, 141, 22], ["-", 64, 196, 0, 197, 0, 198, 39, 232, 141, 22], ["+", 64, 196, 0, 197, 0, 198, 39, 232, 141, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 75, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 75, 196, 0, 1, 0, 213, 63, 214, 141, 22]]
| 8
| 2,038
| 22
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Text;
using System.Linq;
using E = System.Linq.Enumerable;
class Queue<T> {
T[] nodes;
public int Head;
public int Tail;
public int Count = 0;
public Queue(int size) {
nodes = new T[size];
this.Head = 0;
this.Tail = 0;
}
public void Clear() { Head = Tail = Count = 0; }
public void Enqueue(T value) {
nodes[Tail] = value;
Tail++;
Count++;
if (Tail >= nodes.Length) {
Tail = 0;
}
}
public T Dequeue() {
int ret = Head;
Head++;
Count--;
if (Head >= nodes.Length) {
Head = 0;
}
return nodes[ret];
}
}
internal partial class Solver {
public int[] dx = new int[] { 0, 1, 0, -1 };
public int[] dy = new int[] { 1, 0, -1, 0 };
public void Run() {
var n = ni();
var p = ni(n * n);
n = 500;
p = E.Range(1, n * n).ToArray();
var a = new int[n, n];
var cost = new int[n, n];
var weight = new int[n, n];
var rows = new int[n * n];
var cols = new int[n * n];
for (int i = 0; i < n; i++) {
for (int j = 0; j < n; j++) {
var val = i * n + j;
a[i, j] = val;
weight[i, j] = 1;
rows[val] = i;
cols[val] = j;
cost[i, j] = Math.Min(Math.Min(i, n - 1 - i), Math.Min(j, n - 1 - j));
}
}
long ans = 0;
var visited = new BooleanArray(n * n);
var queue = new Queue<(int, int, int)>((n + 2) * (n + 2));
var next = new Queue<(int, int, int)>((n + 2) * (n + 2));
for (int i = 0; i < p.Length; i++) {
var row = rows[p[i] - 1];
var col = cols[p[i] - 1];
ans += cost[row, col];
weight[row, col] = 0;
int minAdjCost = int.MaxValue;
for (int k = 0; k < 4; k++) {
var nr = row + dy[k];
var nc = col + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
minAdjCost = Math.Min(minAdjCost, cost[nr, nc]);
} else {
minAdjCost = -1;
}
}
if (cost[row, col] > minAdjCost) {
queue.Enqueue((row, col, minAdjCost));
while (queue.Count > 0) {
while (queue.Count > 0) {
var (crow, ccol, step) = queue.Dequeue();
if (cost[crow, ccol] <= step)
continue;
cost[crow, ccol] = step;
for (int k = 0; k < 4; k++) {
var nr = crow + dy[k];
var nc = ccol + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
var w = weight[nr, nc];
if (cost[nr, nc] > step + w) {
if (w == 0) {
queue.Enqueue((nr, nc, step));
} else {
next.Enqueue((nr, nc, step + 1));
}
}
}
}
}
Swap(ref queue, ref next);
}
// cost.Dump();
}
}
cout.WriteLine(ans);
}
public static void Swap<T>(ref T lhs, ref T rhs) {
T temp;
temp = lhs;
lhs = rhs;
rhs = temp;
}
public class BooleanArray {
private readonly int[] array;
private int trueValue = 1;
public BooleanArray(int size) { array = new int[size]; }
public void Clear() { trueValue++; }
public bool this[int index] {
get { return array[index] == trueValue; }
set { array[index] = value ? trueValue : trueValue - 1; }
}
public int Length {
get { return array.Length; }
}
}
}
// PREWRITEN CODE BEGINS FROM HERE
internal partial class Solver : Scanner {
public static void Main() {
#if LOCAL
byte[] inputBuffer = new byte[1000000];
var inputStream = Console.OpenStandardInput(inputBuffer.Length);
using (var reader = new StreamReader(inputStream, Console.InputEncoding,
false, inputBuffer.Length)) {
Console.SetIn(reader);
new Solver(Console.In, Console.Out).Run();
}
#else
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver(Console.In, Console.Out).Run();
Console.Out.Flush();
#endif
}
#pragma warning disable IDE0052
private readonly TextReader cin;
private readonly TextWriter cout;
#pragma warning restore IDE0052
public Solver(TextReader reader, TextWriter writer) : base(reader) {
cin = reader;
cout = writer;
}
public Solver(string input, TextWriter writer)
: this(new StringReader(input), writer) {}
#pragma warning disable IDE1006
#pragma warning disable IDE0051
private int ni() { return NextInt(); }
private int[] ni(int n) { return NextIntArray(n); }
private long nl() { return NextLong(); }
private long[] nl(int n) { return NextLongArray(n); }
private double nd() { return NextDouble(); }
private double[] nd(int n) { return NextDoubleArray(n); }
private string ns() { return Next(); }
private string[] ns(int n) { return NextArray(n); }
#pragma warning restore IDE1006
#pragma warning restore IDE0051
}
internal static class LinqPadExtension {
[Conditional("DEBUG")]
public static void Dump<T>(this T obj) {
#if DEBUG
LINQPad.Extensions.Dump(obj);
#endif
}
}
public class Scanner {
private readonly TextReader Reader;
private readonly CultureInfo ci = CultureInfo.InvariantCulture;
private readonly char[] buffer = new char[2 * 1024];
private int cursor = 0, length = 0;
private string Token;
private readonly StringBuilder sb = new StringBuilder(1024);
public Scanner() : this(Console.In) {}
public Scanner(TextReader reader) { Reader = reader; }
public int NextInt() { return checked((int)NextLong()); }
public long NextLong() {
var s = Next();
long r = 0;
int i = 0;
bool negative = false;
if (s[i] == '-') {
negative = true;
i++;
}
for (; i < s.Length; i++) {
r = r * 10 + (s[i] - '0');
#if DEBUG
if (!char.IsDigit(s[i]))
throw new FormatException();
#endif
}
return negative ? -r : r;
}
public double NextDouble() { return double.Parse(Next(), ci); }
public string[] NextArray(int size) {
string[] array = new string[size];
for (int i = 0; i < size; i++) {
array[i] = Next();
}
return array;
}
public int[] NextIntArray(int size) {
int[] array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = NextInt();
}
return array;
}
public long[] NextLongArray(int size) {
long[] array = new long[size];
for (int i = 0; i < size; i++) {
array[i] = NextLong();
}
return array;
}
public double[] NextDoubleArray(int size) {
double[] array = new double[size];
for (int i = 0; i < size; i++) {
array[i] = NextDouble();
}
return array;
}
public string Next() {
if (Token == null) {
if (!StockToken()) {
throw new Exception();
}
}
var token = Token;
Token = null;
return token;
}
public bool HasNext() {
if (Token != null) {
return true;
}
return StockToken();
}
private bool StockToken() {
while (true) {
sb.Clear();
while (true) {
if (cursor >= length) {
cursor = 0;
if ((length = Reader.Read(buffer, 0, buffer.Length)) <= 0) {
break;
}
}
var c = buffer[cursor++];
if (33 <= c && c <= 126) {
sb.Append(c);
} else {
if (sb.Length > 0)
break;
}
}
if (sb.Length > 0) {
Token = sb.ToString();
return true;
}
return false;
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.IO;
using System.Text;
using System.Linq;
using E = System.Linq.Enumerable;
class Queue<T> {
T[] nodes;
public int Head;
public int Tail;
public int Count = 0;
public Queue(int size) {
nodes = new T[size];
this.Head = 0;
this.Tail = 0;
}
public void Clear() { Head = Tail = Count = 0; }
public void Enqueue(T value) {
nodes[Tail] = value;
Tail++;
Count++;
if (Tail >= nodes.Length) {
Tail = 0;
}
}
public T Dequeue() {
int ret = Head;
Head++;
Count--;
if (Head >= nodes.Length) {
Head = 0;
}
return nodes[ret];
}
}
internal partial class Solver {
public int[] dx = new int[] { 0, 1, 0, -1 };
public int[] dy = new int[] { 1, 0, -1, 0 };
public void Run() {
var n = ni();
var p = ni(n * n);
// n = 500; p = E.Range(1, n * n).ToArray();
var a = new int[n, n];
var cost = new int[n, n];
var weight = new int[n, n];
var rows = new int[n * n];
var cols = new int[n * n];
for (int i = 0; i < n; i++) {
for (int j = 0; j < n; j++) {
var val = i * n + j;
a[i, j] = val;
weight[i, j] = 1;
rows[val] = i;
cols[val] = j;
cost[i, j] = Math.Min(Math.Min(i, n - 1 - i), Math.Min(j, n - 1 - j));
}
}
long ans = 0;
var visited = new BooleanArray(n * n);
var queue = new Queue<(int, int, int)>((n + 2) * (n + 2));
var next = new Queue<(int, int, int)>((n + 2) * (n + 2));
for (int i = 0; i < p.Length; i++) {
var row = rows[p[i] - 1];
var col = cols[p[i] - 1];
ans += cost[row, col];
weight[row, col] = 0;
int minAdjCost = int.MaxValue;
for (int k = 0; k < 4; k++) {
var nr = row + dy[k];
var nc = col + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
minAdjCost = Math.Min(minAdjCost, cost[nr, nc]);
} else {
minAdjCost = -1;
}
}
if (cost[row, col] > minAdjCost) {
queue.Enqueue((row, col, minAdjCost));
while (queue.Count > 0) {
while (queue.Count > 0) {
var (crow, ccol, step) = queue.Dequeue();
if (cost[crow, ccol] <= step)
continue;
cost[crow, ccol] = step;
for (int k = 0; k < 4; k++) {
var nr = crow + dy[k];
var nc = ccol + dx[k];
if (0 <= nr && nr < n && 0 <= nc && nc < n) {
var w = weight[nr, nc];
if (cost[nr, nc] > step + w) {
if (w == 0) {
queue.Enqueue((nr, nc, step));
} else {
next.Enqueue((nr, nc, step + 1));
}
}
}
}
}
Swap(ref queue, ref next);
}
// cost.Dump();
}
}
cout.WriteLine(ans);
}
public static void Swap<T>(ref T lhs, ref T rhs) {
T temp;
temp = lhs;
lhs = rhs;
rhs = temp;
}
public class BooleanArray {
private readonly int[] array;
private int trueValue = 1;
public BooleanArray(int size) { array = new int[size]; }
public void Clear() { trueValue++; }
public bool this[int index] {
get { return array[index] == trueValue; }
set { array[index] = value ? trueValue : trueValue - 1; }
}
public int Length {
get { return array.Length; }
}
}
}
// PREWRITEN CODE BEGINS FROM HERE
internal partial class Solver : Scanner {
public static void Main() {
#if LOCAL
byte[] inputBuffer = new byte[1000000];
var inputStream = Console.OpenStandardInput(inputBuffer.Length);
using (var reader = new StreamReader(inputStream, Console.InputEncoding,
false, inputBuffer.Length)) {
Console.SetIn(reader);
new Solver(Console.In, Console.Out).Run();
}
#else
Console.SetOut(
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false });
new Solver(Console.In, Console.Out).Run();
Console.Out.Flush();
#endif
}
#pragma warning disable IDE0052
private readonly TextReader cin;
private readonly TextWriter cout;
#pragma warning restore IDE0052
public Solver(TextReader reader, TextWriter writer) : base(reader) {
cin = reader;
cout = writer;
}
public Solver(string input, TextWriter writer)
: this(new StringReader(input), writer) {}
#pragma warning disable IDE1006
#pragma warning disable IDE0051
private int ni() { return NextInt(); }
private int[] ni(int n) { return NextIntArray(n); }
private long nl() { return NextLong(); }
private long[] nl(int n) { return NextLongArray(n); }
private double nd() { return NextDouble(); }
private double[] nd(int n) { return NextDoubleArray(n); }
private string ns() { return Next(); }
private string[] ns(int n) { return NextArray(n); }
#pragma warning restore IDE1006
#pragma warning restore IDE0051
}
internal static class LinqPadExtension {
[Conditional("DEBUG")]
public static void Dump<T>(this T obj) {
#if DEBUG
LINQPad.Extensions.Dump(obj);
#endif
}
}
public class Scanner {
private readonly TextReader Reader;
private readonly CultureInfo ci = CultureInfo.InvariantCulture;
private readonly char[] buffer = new char[2 * 1024];
private int cursor = 0, length = 0;
private string Token;
private readonly StringBuilder sb = new StringBuilder(1024);
public Scanner() : this(Console.In) {}
public Scanner(TextReader reader) { Reader = reader; }
public int NextInt() { return checked((int)NextLong()); }
public long NextLong() {
var s = Next();
long r = 0;
int i = 0;
bool negative = false;
if (s[i] == '-') {
negative = true;
i++;
}
for (; i < s.Length; i++) {
r = r * 10 + (s[i] - '0');
#if DEBUG
if (!char.IsDigit(s[i]))
throw new FormatException();
#endif
}
return negative ? -r : r;
}
public double NextDouble() { return double.Parse(Next(), ci); }
public string[] NextArray(int size) {
string[] array = new string[size];
for (int i = 0; i < size; i++) {
array[i] = Next();
}
return array;
}
public int[] NextIntArray(int size) {
int[] array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = NextInt();
}
return array;
}
public long[] NextLongArray(int size) {
long[] array = new long[size];
for (int i = 0; i < size; i++) {
array[i] = NextLong();
}
return array;
}
public double[] NextDoubleArray(int size) {
double[] array = new double[size];
for (int i = 0; i < size; i++) {
array[i] = NextDouble();
}
return array;
}
public string Next() {
if (Token == null) {
if (!StockToken()) {
throw new Exception();
}
}
var token = Token;
Token = null;
return token;
}
public bool HasNext() {
if (Token != null) {
return true;
}
return StockToken();
}
private bool StockToken() {
while (true) {
sb.Clear();
while (true) {
if (cursor >= length) {
cursor = 0;
if ((length = Reader.Read(buffer, 0, buffer.Length)) <= 0) {
break;
}
}
var c = buffer[cursor++];
if (33 <= c && c <= 126) {
sb.Append(c);
} else {
if (sb.Length > 0)
break;
}
}
if (sb.Length > 0) {
Token = sb.ToString();
return true;
}
return false;
}
}
}
|
[["-", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 195, 8, 196, 0, 1, 0, 11, 12, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 12, 213, 63, 214, 205, 213, 63, 214, 205, 22], ["-", 12, 213, 63, 214, 205, 213, 63, 214, 0, 131], ["-", 12, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["-", 12, 213, 63, 214, 205, 213, 3, 4, 0, 24], ["-", 63, 214, 205, 213, 3, 4, 0, 28, 0, 203], ["-", 12, 213, 63, 214, 205, 213, 3, 4, 0, 21], ["-", 205, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["-", 205, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["-", 205, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["-", 12, 213, 63, 214, 205, 213, 3, 4, 0, 25], ["-", 0, 1, 0, 11, 12, 213, 63, 214, 0, 131], ["-", 0, 1, 0, 11, 12, 213, 63, 214, 141, 22], ["-", 0, 1, 0, 11, 12, 213, 3, 4, 0, 24], ["-", 0, 1, 0, 11, 12, 213, 3, 4, 0, 25]]
| 8
| 2,024
| 21
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Threading;
using System.Text;
using System.Text.RegularExpressions;
using System.Diagnostics;
using static util;
using P = pair<int, int>;
class Program {
static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
var solver = new Solver(sw);
// var t = new Thread(solver.solve, 1 << 26); // 64 MB
// t.Start();
// t.Join();
solver.solve();
sw.Flush();
}
}
class Solver {
StreamWriter sw;
Scan sc;
void Prt(string a) => sw.WriteLine(a);
void Prt<T>(IEnumerable<T> a) => Prt(string.Join(" ", a));
void Prt(params object[] a) => Prt(string.Join(" ", a));
public Solver(StreamWriter sw) {
this.sw = sw;
this.sc = new Scan();
}
public void solve() {
int n = sc.Int % 10;
if (n == 3)
Prt("bon");
else if (n == 0 || n == 1 || n == 6 || n == 8)
Prt("hon");
else
Prt("pon");
}
}
class pair<T, U> : IComparable<pair<T, U>> {
public T v1;
public U v2;
public pair() : this(default(T), default(U)) {}
public pair(T v1, U v2) {
this.v1 = v1;
this.v2 = v2;
}
public int CompareTo(pair<T, U> a) {
int c = Comparer<T>.Default.Compare(v1, a.v1);
return c != 0 ? c : Comparer<U>.Default.Compare(v2, a.v2);
}
public override string ToString() => v1 + " " + v2;
public void Deconstruct(out T a, out U b) {
a = v1;
b = v2;
}
}
static class util {
public static readonly int M = 1000000007;
// public static readonly int M = 998244353;
public static readonly long LM = 1L << 60;
public static readonly double eps = 1e-11;
public static void DBG(string a) => Console.Error.WriteLine(a);
public static void DBG<T>(IEnumerable<T> a) => DBG(string.Join(" ", a));
public static void DBG(params object[] a) => DBG(string.Join(" ", a));
public static void Assert(params bool[] conds) {
if (conds.Any(x => !x))
throw new Exception();
}
public static pair<T, U> make_pair<T, U>(T v1, U v2) => new pair<T, U>(v1,
v2);
public static int CompareList<T>(IList<T> a, IList<T> b)
where T : IComparable<T> {
for (int i = 0; i < a.Count && i < b.Count; i++)
if (a[i].CompareTo(b[i]) != 0)
return a[i].CompareTo(b[i]);
return a.Count.CompareTo(b.Count);
}
public static bool inside(int i, int j, int h, int w) => i >= 0 && i < h
&& j >= 0 && j < w;
public static readonly int[] dd = { 0, 1, 0, -1 };
// static readonly string dstring = "RDLU";
public static IEnumerable<P>
adjacents(int i, int j) => Enumerable.Range(0, dd.Length)
.Select(k => new P(i + dd[k], j + dd[k ^ 1]));
public static IEnumerable<P> adjacents(int i, int j, int h, int w) =>
adjacents(i, j).Where(p => inside(p.v1, p.v2, h, w));
public static IEnumerable<P> adjacents(this P p) => adjacents(p.v1, p.v2);
public static IEnumerable<P> adjacents(this P p, int h,
int w) => adjacents(p.v1, p.v2, h, w);
public static IEnumerable<int> all_subset(this int p) {
for (int i = 0;; i = i - p & p) {
yield return i;
if (i == p)
break;
}
}
public static Dictionary<T, int>
compress<T>(this IEnumerable<T> a) => a.Distinct()
.OrderBy(v => v)
.Select((v, i) => new { v, i })
.ToDictionary(p => p.v, p => p.i);
public static Dictionary<T, int>
compress<T>(params IEnumerable<T>[] a) => compress(a.SelectMany(x => x));
public static T[] inv<T>(this Dictionary<T, int> dic) {
var res = new T[dic.Count];
foreach (var item in dic)
res[item.Value] = item.Key;
return res;
}
public static void swap<T>(ref T a, ref T b)
where T : struct {
var t = a;
a = b;
b = t;
}
public static void swap<T>(this IList<T> a, int i, int j)
where T : struct {
var t = a[i];
a[i] = a[j];
a[j] = t;
}
public static T[] copy<T>(this IList<T> a) {
var ret = new T[a.Count];
for (int i = 0; i < a.Count; i++)
ret[i] = a[i];
return ret;
}
}
class Scan {
StreamReader sr;
public Scan() { sr = new StreamReader(Console.OpenStandardInput()); }
public Scan(string path) { sr = new StreamReader(path); }
public int Int => int.Parse(Str);
public long Long => long.Parse(Str);
public double Double => double.Parse(Str);
public string Str => sr.ReadLine().Trim();
public pair<T, U> Pair<T, U>() {
T a;
U b;
Multi(out a, out b);
return new pair<T, U>(a, b);
}
public P P => Pair<int, int>();
public int[] IntArr => StrArr.Select(int.Parse).ToArray();
public long[] LongArr => StrArr.Select(long.Parse).ToArray();
public double[] DoubleArr => StrArr.Select(double.Parse).ToArray();
public string[] StrArr =>
Str.Split(new[] { ' ' }, StringSplitOptions.RemoveEmptyEntries);
bool eq<T, U>() => typeof(T).Equals(typeof(U));
T ct<T, U>(U a) => (T)Convert.ChangeType(a, typeof(T));
T cv<T>(string s) => eq<T, int>() ? ct<T, int>(int.Parse(s))
: eq<T, long>() ? ct<T, long>(long.Parse(s))
: eq<T, double>() ? ct<T, double>(double.Parse(s))
: eq<T, char>() ? ct<T, char>(s[0])
: ct<T, string>(s);
public void Multi<T>(out T a) => a = cv<T>(Str);
public void Multi<T, U>(out T a, out U b) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
}
public void Multi<T, U, V>(out T a, out U b, out V c) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
}
public void Multi<T, U, V, W>(out T a, out U b, out V c, out W d) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
d = cv<W>(ar[3]);
}
public void Multi<T, U, V, W, X>(out T a, out U b, out V c, out W d,
out X e) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
d = cv<W>(ar[3]);
e = cv<X>(ar[4]);
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Threading;
using System.Text;
using System.Text.RegularExpressions;
using System.Diagnostics;
using static util;
using P = pair<int, int>;
class Program {
static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
var solver = new Solver(sw);
// var t = new Thread(solver.solve, 1 << 26); // 64 MB
// t.Start();
// t.Join();
solver.solve();
sw.Flush();
}
}
class Solver {
StreamWriter sw;
Scan sc;
void Prt(string a) => sw.WriteLine(a);
void Prt<T>(IEnumerable<T> a) => Prt(string.Join(" ", a));
void Prt(params object[] a) => Prt(string.Join(" ", a));
public Solver(StreamWriter sw) {
this.sw = sw;
this.sc = new Scan();
}
public void solve() {
int n = sc.Int % 10;
if (n == 3)
Prt("bon");
else if (n == 0 || n == 1 || n == 6 || n == 8)
Prt("pon");
else
Prt("hon");
}
}
class pair<T, U> : IComparable<pair<T, U>> {
public T v1;
public U v2;
public pair() : this(default(T), default(U)) {}
public pair(T v1, U v2) {
this.v1 = v1;
this.v2 = v2;
}
public int CompareTo(pair<T, U> a) {
int c = Comparer<T>.Default.Compare(v1, a.v1);
return c != 0 ? c : Comparer<U>.Default.Compare(v2, a.v2);
}
public override string ToString() => v1 + " " + v2;
public void Deconstruct(out T a, out U b) {
a = v1;
b = v2;
}
}
static class util {
public static readonly int M = 1000000007;
// public static readonly int M = 998244353;
public static readonly long LM = 1L << 60;
public static readonly double eps = 1e-11;
public static void DBG(string a) => Console.Error.WriteLine(a);
public static void DBG<T>(IEnumerable<T> a) => DBG(string.Join(" ", a));
public static void DBG(params object[] a) => DBG(string.Join(" ", a));
public static void Assert(params bool[] conds) {
if (conds.Any(x => !x))
throw new Exception();
}
public static pair<T, U> make_pair<T, U>(T v1, U v2) => new pair<T, U>(v1,
v2);
public static int CompareList<T>(IList<T> a, IList<T> b)
where T : IComparable<T> {
for (int i = 0; i < a.Count && i < b.Count; i++)
if (a[i].CompareTo(b[i]) != 0)
return a[i].CompareTo(b[i]);
return a.Count.CompareTo(b.Count);
}
public static bool inside(int i, int j, int h, int w) => i >= 0 && i < h
&& j >= 0 && j < w;
public static readonly int[] dd = { 0, 1, 0, -1 };
// static readonly string dstring = "RDLU";
public static IEnumerable<P>
adjacents(int i, int j) => Enumerable.Range(0, dd.Length)
.Select(k => new P(i + dd[k], j + dd[k ^ 1]));
public static IEnumerable<P> adjacents(int i, int j, int h, int w) =>
adjacents(i, j).Where(p => inside(p.v1, p.v2, h, w));
public static IEnumerable<P> adjacents(this P p) => adjacents(p.v1, p.v2);
public static IEnumerable<P> adjacents(this P p, int h,
int w) => adjacents(p.v1, p.v2, h, w);
public static IEnumerable<int> all_subset(this int p) {
for (int i = 0;; i = i - p & p) {
yield return i;
if (i == p)
break;
}
}
public static Dictionary<T, int>
compress<T>(this IEnumerable<T> a) => a.Distinct()
.OrderBy(v => v)
.Select((v, i) => new { v, i })
.ToDictionary(p => p.v, p => p.i);
public static Dictionary<T, int>
compress<T>(params IEnumerable<T>[] a) => compress(a.SelectMany(x => x));
public static T[] inv<T>(this Dictionary<T, int> dic) {
var res = new T[dic.Count];
foreach (var item in dic)
res[item.Value] = item.Key;
return res;
}
public static void swap<T>(ref T a, ref T b)
where T : struct {
var t = a;
a = b;
b = t;
}
public static void swap<T>(this IList<T> a, int i, int j)
where T : struct {
var t = a[i];
a[i] = a[j];
a[j] = t;
}
public static T[] copy<T>(this IList<T> a) {
var ret = new T[a.Count];
for (int i = 0; i < a.Count; i++)
ret[i] = a[i];
return ret;
}
}
class Scan {
StreamReader sr;
public Scan() { sr = new StreamReader(Console.OpenStandardInput()); }
public Scan(string path) { sr = new StreamReader(path); }
public int Int => int.Parse(Str);
public long Long => long.Parse(Str);
public double Double => double.Parse(Str);
public string Str => sr.ReadLine().Trim();
public pair<T, U> Pair<T, U>() {
T a;
U b;
Multi(out a, out b);
return new pair<T, U>(a, b);
}
public P P => Pair<int, int>();
public int[] IntArr => StrArr.Select(int.Parse).ToArray();
public long[] LongArr => StrArr.Select(long.Parse).ToArray();
public double[] DoubleArr => StrArr.Select(double.Parse).ToArray();
public string[] StrArr =>
Str.Split(new[] { ' ' }, StringSplitOptions.RemoveEmptyEntries);
bool eq<T, U>() => typeof(T).Equals(typeof(U));
T ct<T, U>(U a) => (T)Convert.ChangeType(a, typeof(T));
T cv<T>(string s) => eq<T, int>() ? ct<T, int>(int.Parse(s))
: eq<T, long>() ? ct<T, long>(long.Parse(s))
: eq<T, double>() ? ct<T, double>(double.Parse(s))
: eq<T, char>() ? ct<T, char>(s[0])
: ct<T, string>(s);
public void Multi<T>(out T a) => a = cv<T>(Str);
public void Multi<T, U>(out T a, out U b) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
}
public void Multi<T, U, V>(out T a, out U b, out V c) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
}
public void Multi<T, U, V, W>(out T a, out U b, out V c, out W d) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
d = cv<W>(ar[3]);
}
public void Multi<T, U, V, W, X>(out T a, out U b, out V c, out W d,
out X e) {
var ar = StrArr;
a = cv<T>(ar[0]);
b = cv<U>(ar[1]);
c = cv<V>(ar[2]);
d = cv<W>(ar[3]);
e = cv<X>(ar[4]);
}
}
|
[["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222]]
| 8
| 1,983
| 4
|
using System;
using System.Collections.Generic;
class Program {
static void Main() {
String[] arr = Console.ReadLine().Split();
int N;
N = int.Parse(arr[0]);
if (new List<int> { 2, 4, 5, 7, 9 }.Contains(N % 10))
Console.WriteLine("hon");
else if (new List<int> { 1, 4, 6, 8 }.Contains(N % 10))
Console.WriteLine("pon");
else
Console.WriteLine("bon");
return;
}
}
|
using System;
using System.Linq;
class Program {
static void Main() {
String[] arr = Console.ReadLine().Split();
int N;
N = int.Parse(arr[0]);
if (new int[] { 2, 4, 5, 7, 9 }.Contains(N % 10))
Console.WriteLine("hon");
else if (new int[] { 0, 1, 4, 6, 8 }.Contains(N % 10))
Console.WriteLine("pon");
else
Console.WriteLine("bon");
return;
}
}
|
[["-", 0, 208, 0, 231, 141, 232, 234, 232, 141, 22], ["-", 36, 36, 0, 208, 0, 231, 141, 232, 0, 131], ["-", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["-", 15, 213, 63, 214, 205, 230, 39, 236, 141, 22], ["-", 63, 214, 205, 230, 39, 236, 237, 238, 0, 18], ["-", 63, 214, 205, 230, 39, 236, 237, 238, 0, 47], ["+", 63, 214, 205, 227, 39, 224, 225, 226, 0, 70], ["+", 63, 214, 205, 227, 39, 224, 225, 226, 0, 73], ["+", 15, 213, 63, 214, 205, 227, 0, 229, 0, 203], ["+", 15, 213, 63, 214, 205, 227, 0, 229, 0, 21]]
| 8
| 132
| 2
|
using System;
using System.Linq;
public class Program {
public static void Main(string[] args) {
var input = args[0];
switch (input.Last()) {
case '2':
case '4':
case '5':
case '7':
case '9':
Console.WriteLine("hon");
break;
case '0':
case '1':
case '6':
case '8':
Console.WriteLine("pon");
break;
case '3':
Console.WriteLine("bon");
break;
default:
break;
}
}
}
|
using System;
using System.Linq;
namespace AtCoder.Question {
public class QuestionA {
public static void Main(string[] args) {
var input = Console.ReadLine();
switch (input.Last()) {
case '2':
case '4':
case '5':
case '7':
case '9':
Console.WriteLine("hon");
break;
case '0':
case '1':
case '6':
case '8':
Console.WriteLine("pon");
break;
case '3':
Console.WriteLine("bon");
break;
default:
break;
}
}
}
}
|
[["+", 36, 36, 36, 36, 0, 208, 0, 209, 0, 256], ["+", 36, 36, 0, 208, 0, 209, 141, 232, 234, 22], ["+", 36, 36, 0, 208, 0, 209, 141, 232, 0, 131], ["+", 36, 36, 0, 208, 0, 209, 141, 232, 141, 22], ["+", 36, 36, 0, 208, 0, 209, 8, 201, 0, 45], ["-", 36, 36, 36, 36, 0, 208, 0, 235, 141, 22], ["+", 0, 208, 0, 209, 8, 201, 0, 235, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 204, 205, 22], ["-", 0, 200, 0, 212, 0, 204, 206, 207, 0, 70], ["-", 0, 212, 0, 204, 206, 207, 0, 28, 0, 203], ["-", 0, 200, 0, 212, 0, 204, 206, 207, 0, 73], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 0, 195, 8, 196, 0, 99, 8, 254, 0, 46]]
| 8
| 130
| 17
|
using System;
public class test {
static void Main(string[] args) {
int n = int.Parse(Console.ReadLine());
int val = n % 10;
Console.WriteLine("" + val);
switch (val) {
case 2:
case 4:
case 5:
case 7:
case 9:
Console.WriteLine("hon");
break;
case 0:
case 1:
case 6:
case 8:
Console.WriteLine("pon");
break;
case 3:
Console.WriteLine("bon");
break;
}
}
}
|
using System;
public class test {
static void Main(string[] args) {
int n = int.Parse(Console.ReadLine());
int val = n % 10;
switch (val) {
case 2:
case 4:
case 5:
case 7:
case 9:
Console.WriteLine("hon");
break;
case 0:
case 1:
case 6:
case 8:
Console.WriteLine("pon");
break;
case 3:
Console.WriteLine("bon");
break;
}
}
}
|
[["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 3, 4, 0, 28, 0, 16, 31, 5, 0, 62], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 72], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35]]
| 8
| 119
| 10
|
using System;
using System.Linq;
namespace abc168_v {
class Program {
static void Main(string[] args) {
var input = Console.ReadLine();
var n = Convert.ToInt32(input.Last());
switch (n) {
case 3:
System.Console.WriteLine("bon");
break;
case 0:
case 1:
case 6:
case 8:
System.Console.WriteLine("pon");
break;
default:
System.Console.WriteLine("hon");
break;
}
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace abc168_v {
class Program {
static void Main(string[] args) {
var input = Console.ReadLine();
var n = Convert.ToInt32(input.Last().ToString());
switch (n) {
case 3:
System.Console.WriteLine("bon");
break;
case 0:
case 1:
case 6:
case 8:
System.Console.WriteLine("pon");
break;
default:
System.Console.WriteLine("hon");
break;
}
}
}
}
|
[["+", 0, 208, 0, 231, 141, 232, 234, 232, 141, 22], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 0, 131], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 35], ["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 233], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 234, 22], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 24], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 25], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22]]
| 8
| 112
| 11
|
using System;
class Ans {
public static void Main(string[] args) {
string n = Console.ReadLine();
char n_last = n[-1];
string str = "";
switch (n_last) {
case '2':
case '4':
case '5':
case '7':
case '9':
str = "hon";
break;
case '0':
case '1':
case '6':
case '8':
str = "pon";
break;
case '3':
str = "bon";
break;
default:
break;
}
Console.WriteLine(str);
}
}
|
using System;
using System.Linq;
namespace AtCoder {
class Program {
public static void Main(string[] args) {
string n = Console.ReadLine();
char n_last = n[n.Length - 1];
string str = "unassigned";
switch (n_last) {
case '2':
case '4':
case '5':
case '7':
case '9':
str = "hon";
break;
case '0':
case '1':
case '6':
case '8':
str = "pon";
break;
case '3':
str = "bon";
break;
default:
break;
}
Console.WriteLine(str);
}
}
}
|
[["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 233], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 234, 22], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 0, 131], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 35], ["+", 36, 36, 36, 36, 0, 208, 0, 209, 0, 256], ["+", 36, 36, 36, 36, 0, 208, 0, 209, 141, 22], ["+", 36, 36, 0, 208, 0, 209, 8, 201, 0, 45], ["-", 36, 36, 36, 36, 0, 208, 0, 235, 141, 22], ["+", 0, 208, 0, 209, 8, 201, 0, 235, 141, 22], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 205, 22], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 0, 131], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 141, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 5, 0, 222], ["+", 0, 235, 8, 201, 0, 195, 8, 196, 0, 46]]
| 8
| 134
| 15
|
using System;
using System.Collections.Generic;
using System.Linq;
public class Hello {
public static void Main() {
var cs = Console.ReadLine().ToCharArray();
var c = cs[cs.Length - 1];
var ret = "bon";
if ((new int[] { 2, 4, 5, 7, 9 }).Contains(c)) {
ret = "hon";
}
if ((new int[] { 0, 1, 6, 8 }).Contains(c)) {
ret = "pon";
}
System.Console.WriteLine(ret);
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
public class Hello {
public static void Main() {
var cs = Console.ReadLine().ToCharArray();
var c = Int32.Parse(cs[cs.Length - 1].ToString());
var ret = "bon";
if ((new int[] { 2, 4, 5, 7, 9 }).Contains(c)) {
ret = "hon";
}
if ((new int[] { 0, 1, 6, 8 }).Contains(c)) {
ret = "pon";
}
System.Console.WriteLine(ret);
}
}
|
[["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25]]
| 8
| 133
| 9
|
using System;
using System.Collections.Generic;
using System.Globalization;
namespace cswork {
class Program {
public Program() {}
Scanner cin;
const int MAXIN = 1024;
bool[] used = new bool[MAXIN];
int[] perm = new int[MAXIN];
List<int[]> permList = new List<int[]>();
void Omame() {
cin = new Scanner();
int n = cin.nextInt();
if (n == 3) {
Console.WriteLine("bon");
} else if (n == 0 || n == 1 || n == 6 || n == 8) {
Console.WriteLine("pon");
} else {
Console.WriteLine("hon");
}
}
static void Main(string[] args) { new Program().Omame(); }
public void Permutation(int pos, int n, int length) {
if (pos == n) {
permList.Add((int[])perm.Clone());
}
for (int i = 0; i < n; i++) {
if (!used[i]) {
perm[pos] = i;
used[i] = true;
Permutation(pos + 1, n, length);
used[i] = false;
}
}
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
i = 0;
return next();
}
public int nextInt() { return int.Parse(next()); }
public long nextLong() { return long.Parse(next()); }
public double nextDouble() { return double.Parse(next()); }
}
}
|
using System;
using System.Collections.Generic;
using System.Globalization;
namespace cswork {
class Program {
public Program() {}
Scanner cin;
const int MAXIN = 1024;
bool[] used = new bool[MAXIN];
int[] perm = new int[MAXIN];
List<int[]> permList = new List<int[]>();
void Omame() {
cin = new Scanner();
string x = cin.next();
int n = int.Parse(x[x.Length - 1] + "");
if (n == 3) {
Console.WriteLine("bon");
} else if (n == 0 || n == 1 || n == 6 || n == 8) {
Console.WriteLine("pon");
} else {
Console.WriteLine("hon");
}
}
static void Main(string[] args) { new Program().Omame(); }
public void Permutation(int pos, int n, int length) {
if (pos == n) {
permList.Add((int[])perm.Clone());
}
for (int i = 0; i < n; i++) {
if (!used[i]) {
perm[pos] = i;
used[i] = true;
Permutation(pos + 1, n, length);
used[i] = false;
}
}
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
i = 0;
return next();
}
public int nextInt() { return int.Parse(next()); }
public long nextLong() { return long.Parse(next()); }
public double nextDouble() { return double.Parse(next()); }
}
}
|
[["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 16, 31, 204, 205, 22], ["+", 0, 28, 0, 16, 31, 204, 206, 207, 0, 70], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 205, 22], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 0, 131], ["+", 206, 207, 0, 28, 0, 16, 31, 214, 141, 22], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 0, 28, 0, 16, 31, 204, 206, 207, 0, 73], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 72], ["+", 3, 4, 0, 28, 0, 16, 12, 5, 0, 62]]
| 8
| 440
| 24
|
using System;
using System.Collections.Generic;
using static Assistant.Input;
using static Assistant.Debug;
using System.Linq;
using Assistant;
namespace ABC169C {
class Program {
static void Main(string[] args) {
string[] s = Console.ReadLine().Split();
var A = long.Parse(s[0]);
var B = double.Parse(s[1]);
double ans = A * B;
ans = Math.Floor(ans);
Console.WriteLine(ans);
}
}
}
namespace Assistant {
static class Input {
static List<string> line = new List<string>();
static int index = 0;
static String RNext() {
if (line.Count <= index)
line.AddRange(Console.ReadLine().Split());
return line[index++];
}
public static int RInt => int.Parse(RNext());
public static long RLong => long.Parse(RNext());
public static int[] RInts =>
Console.ReadLine().Split().Select(int.Parse).ToArray();
public static long[] RLongs =>
Console.ReadLine().Split().Select(long.Parse).ToArray();
public static string RString => RNext();
//以下未テスト
public static int[] RIntsC(int c) =>
Enumerable.Repeat(0, c).Select(x => int.Parse(RNext())).ToArray();
public static long[] RLongsC(int c) =>
Enumerable.Repeat(0, c).Select(x => long.Parse(RNext())).ToArray();
public static char[][] RMap(int h) =>
Enumerable.Repeat(0, h)
.Select(x => Console.ReadLine().ToCharArray())
.ToArray();
}
static class Debug {
static public void Draw2D<T>(T[,] map, int mode = 1) {
#if DEBUG
int W = map.GetLength(0);
int H = map.GetLength(1);
string[,] map2 = new string[W + 1, H + 1];
for (int i = 0; i < W + 1; i++) {
for (int j = 0; j < H + 1; j++) {
if (i == 0 && j == 0)
map2[i, j] = 0.ToString();
else if (i == 0)
map2[i, j] = (j - 1).ToString();
else if (j == 0)
map2[i, j] = (i - 1).ToString();
else
map2[i, j] = map[i - 1, j - 1].ToString();
}
}
for (int i = 0; i < W + 1; i++) {
for (int j = 0; j < H + 1; j++) {
if (mode == 0)
Console.Write(map2[i, j].Last());
if (mode == 1)
Console.Write(map2[i, j] + " ");
}
Console.WriteLine();
}
Console.WriteLine();
#endif
}
public static void Draw1D<T>(T[] array, int mode = 0) {
#if DEBUG
Console.WriteLine(string.Join(" ", array));
#endif
}
}
}
|
using System;
using System.Collections.Generic;
using static Assistant.Input;
using static Assistant.Debug;
using System.Linq;
using Assistant;
using System.Numerics;
namespace ABC169C {
class Program {
static void Main(string[] args) {
string[] s = Console.ReadLine().Split();
var A = decimal.Parse(s[0]);
var B = decimal.Parse(s[1]);
decimal ans = (A * B);
ans = Math.Floor(ans);
Console.WriteLine(ans);
}
}
}
namespace Assistant {
static class Input {
static List<string> line = new List<string>();
static int index = 0;
static String RNext() {
if (line.Count <= index)
line.AddRange(Console.ReadLine().Split());
return line[index++];
}
public static int RInt => int.Parse(RNext());
public static long RLong => long.Parse(RNext());
public static int[] RInts =>
Console.ReadLine().Split().Select(int.Parse).ToArray();
public static long[] RLongs =>
Console.ReadLine().Split().Select(long.Parse).ToArray();
public static string RString => RNext();
//以下未テスト
public static int[] RIntsC(int c) =>
Enumerable.Repeat(0, c).Select(x => int.Parse(RNext())).ToArray();
public static long[] RLongsC(int c) =>
Enumerable.Repeat(0, c).Select(x => long.Parse(RNext())).ToArray();
public static char[][] RMap(int h) =>
Enumerable.Repeat(0, h)
.Select(x => Console.ReadLine().ToCharArray())
.ToArray();
}
static class Debug {
static public void Draw2D<T>(T[,] map, int mode = 1) {
#if DEBUG
int W = map.GetLength(0);
int H = map.GetLength(1);
string[,] map2 = new string[W + 1, H + 1];
for (int i = 0; i < W + 1; i++) {
for (int j = 0; j < H + 1; j++) {
if (i == 0 && j == 0)
map2[i, j] = 0.ToString();
else if (i == 0)
map2[i, j] = (j - 1).ToString();
else if (j == 0)
map2[i, j] = (i - 1).ToString();
else
map2[i, j] = map[i - 1, j - 1].ToString();
}
}
for (int i = 0; i < W + 1; i++) {
for (int j = 0; j < H + 1; j++) {
if (mode == 0)
Console.Write(map2[i, j].Last());
if (mode == 1)
Console.Write(map2[i, j] + " ");
}
Console.WriteLine();
}
Console.WriteLine();
#endif
}
public static void Draw1D<T>(T[] array, int mode = 0) {
#if DEBUG
Console.WriteLine(string.Join(" ", array));
#endif
}
}
}
|
[["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 233], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 234, 22], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 0, 131], ["+", 36, 36, 0, 208, 0, 231, 141, 232, 141, 22], ["+", 36, 36, 36, 36, 0, 208, 0, 231, 0, 35], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 23, 0, 24], ["+", 0, 198, 0, 200, 0, 212, 0, 23, 0, 25]]
| 8
| 723
| 13
|
using System;
using System.IO;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Contest.C {
static class Program {
public static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
var cin = new Scanner();
long a = cin.NextLong();
double b = cin.NextDouble();
Console.WriteLine(Math.Floor(a * b));
Console.Out.Flush();
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
using System;
using System.IO;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Contest.C {
static class Program {
public static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
var cin = new Scanner();
// decimal a = cin.NextLong();
// string s = cin.Next();
// decimal b = (s[0] - '0') * 100 + (s[2] - '0') * 10 + s[3] - '0';
// Console.WriteLine((long)Math.Floor((a * b) / 100));
var a = Console.ReadLine().Split(' ').Select(decimal.Parse).ToArray();
Console.WriteLine(Math.Floor(a[0] * a[1]));
Console.Out.Flush();
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 205, 213, 63, 214, 205, 213, 63, 214, 205, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 205, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 205, 213, 3, 4, 0, 28, 0, 252, 0, 104], ["+", 205, 213, 3, 4, 0, 28, 0, 252, 0, 253], ["+", 0, 213, 63, 214, 205, 213, 63, 214, 0, 131], ["+", 0, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 24], ["+", 205, 213, 3, 4, 0, 28, 0, 214, 205, 199], ["+", 205, 213, 3, 4, 0, 28, 0, 214, 0, 131], ["+", 205, 213, 3, 4, 0, 28, 0, 214, 141, 22], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 25], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 0, 28, 0, 16, 31, 204, 206, 207, 0, 70], ["+", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 28, 0, 16, 31, 204, 206, 207, 0, 73], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["+", 3, 4, 0, 28, 0, 16, 12, 204, 205, 22], ["+", 0, 28, 0, 16, 12, 204, 206, 207, 0, 70], ["+", 0, 16, 12, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 28, 0, 16, 12, 204, 206, 207, 0, 73]]
| 8
| 480
| 35
|
using System;
using System.IO;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Contest.C {
static class Program {
public static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
var cin = new Scanner();
decimal a = cin.NextLong();
decimal b = (long)Math.Floor(cin.NextDouble() * 100);
Console.WriteLine((long)Math.Floor((a * b) / 100));
Console.Out.Flush();
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
using System;
using System.IO;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Contest.C {
static class Program {
public static void Main(string[] args) {
var sw =
new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
var cin = new Scanner();
decimal a = cin.NextLong();
string s = cin.Next();
decimal b = (s[0] - '0') * 100 + (s[2] - '0') * 10 + s[3] - '0';
Console.WriteLine((long)Math.Floor((a * b) / 100));
Console.Out.Flush();
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["-", 0, 212, 0, 74, 51, 213, 63, 214, 205, 22], ["-", 0, 212, 0, 74, 51, 213, 63, 214, 0, 131], ["-", 0, 212, 0, 74, 51, 213, 63, 214, 141, 22], ["-", 0, 212, 0, 74, 51, 213, 3, 4, 0, 24], ["-", 0, 28, 0, 16, 31, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 31, 16, 31, 16, 31, 16, 31, 23, 0, 24], ["+", 31, 16, 31, 23, 0, 16, 31, 204, 205, 22], ["+", 31, 23, 0, 16, 31, 204, 206, 207, 0, 70], ["+", 0, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 31, 23, 0, 16, 31, 204, 206, 207, 0, 73], ["+", 31, 16, 31, 16, 31, 23, 0, 16, 17, 33], ["+", 31, 16, 31, 23, 0, 16, 12, 252, 0, 104], ["+", 31, 16, 31, 23, 0, 16, 12, 252, 0, 253], ["+", 0, 212, 0, 16, 31, 16, 31, 16, 17, 72], ["+", 31, 16, 31, 16, 12, 16, 31, 23, 0, 24], ["+", 12, 16, 31, 23, 0, 16, 31, 204, 205, 22], ["+", 31, 16, 12, 16, 31, 23, 0, 16, 17, 33], ["+", 12, 16, 31, 23, 0, 16, 12, 252, 0, 104], ["+", 12, 16, 31, 23, 0, 16, 12, 252, 0, 253], ["+", 0, 16, 31, 16, 31, 16, 12, 16, 17, 48], ["+", 0, 16, 31, 16, 31, 16, 12, 16, 12, 203], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 17, 72], ["+", 0, 212, 0, 16, 31, 16, 12, 204, 205, 22], ["+", 0, 16, 31, 16, 12, 204, 206, 207, 0, 70], ["+", 31, 16, 12, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 16, 31, 16, 12, 204, 206, 207, 0, 73], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 16, 12, 252, 0, 104], ["+", 0, 200, 0, 212, 0, 16, 12, 252, 0, 253]]
| 8
| 497
| 48
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionC {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var num_AB = Console.ReadLine().Split(
' '); //.Select(i => double.Parse(i)).ToArray();
var A = ulong.Parse(num_AB[0]);
var B = (ulong)((double.Parse(num_AB[1])) * 100);
var num_P = (A * B) / 100;
Console.WriteLine(num_P);
Console.Out.Flush();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionC {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var num_AB = Console.ReadLine().Split(
' '); //.Select(i => double.Parse(i)).ToArray();
num_AB[1] = num_AB[1].Replace(".", "");
var A = ulong.Parse(num_AB[0]);
var B = ulong.Parse(num_AB[1]);
var num_P = (A * B) / 100;
Console.WriteLine(num_P);
Console.Out.Flush();
}
}
}
|
[["+", 8, 196, 0, 1, 0, 11, 31, 204, 205, 22], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["+", 0, 11, 31, 204, 206, 207, 0, 28, 0, 203], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 11, 12, 213, 63, 214, 205, 204, 205, 22], ["+", 12, 213, 63, 214, 205, 204, 206, 207, 0, 70], ["+", 63, 214, 205, 204, 206, 207, 0, 28, 0, 203], ["+", 12, 213, 63, 214, 205, 204, 206, 207, 0, 73], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 0, 131], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 141, 22], ["+", 0, 1, 0, 11, 12, 213, 3, 4, 0, 24], ["+", 12, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["+", 12, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 0, 1, 0, 11, 12, 213, 3, 4, 0, 21], ["+", 0, 1, 0, 11, 12, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["-", 0, 200, 0, 212, 0, 74, 51, 23, 0, 24], ["-", 0, 74, 51, 23, 0, 16, 31, 23, 0, 24], ["-", 0, 16, 31, 23, 0, 213, 63, 214, 205, 199], ["-", 0, 16, 31, 23, 0, 213, 3, 4, 0, 25], ["-", 0, 74, 51, 23, 0, 16, 31, 23, 0, 25], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 17, 48], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 12, 203]]
| 8
| 157
| 29
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using static System.Math;
public static class P {
public static void Main() {
var ab = Console.ReadLine().Split();
Console.WriteLine(long.Parse(ab[0]) * (long)(double.Parse(ab[1]) * 100) /
100);
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Numerics;
using System.Text;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using static System.Math;
public static class P {
public static void Main() {
var ab = Console.ReadLine().Split();
Console.WriteLine(long.Parse(ab[0]) * long.Parse(ab[1].Replace(".", "")) /
100);
}
}
|
[["-", 0, 28, 0, 16, 31, 16, 12, 74, 0, 24], ["-", 0, 28, 0, 16, 31, 16, 12, 74, 0, 25], ["-", 0, 16, 31, 16, 12, 74, 51, 23, 0, 24], ["-", 51, 23, 0, 16, 31, 213, 63, 214, 205, 199], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 21], ["-", 31, 16, 12, 74, 51, 23, 0, 16, 17, 48], ["-", 31, 16, 12, 74, 51, 23, 0, 16, 12, 203]]
| 8
| 121
| 15
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.IO;
using static Input;
using static Util;
class Program {
static long A;
static double B;
static void INPUT() {
A = NextLong();
B = NextDouble();
}
static void OUT() {
var ans = (long)(A * (int)(B * 100)) / 100;
Console.WriteLine(ans);
}
static void Main(string[] args) {
#if DEBUG
// TESTINPUT();
INPUT();
#else
INPUT();
#endif
OUT();
}
static void TESTINPUT() {}
}
public class Input {
public const long MOD = 1000000007;
public const int INF = 1000000007;
private static Queue<string> q = new Queue<string>();
private static void Confirm() {
if (q.Count == 0)
foreach (var s in Console.ReadLine().Split(' '))
q.Enqueue(s);
}
public static int NextInt() {
Confirm();
return int.Parse(q.Dequeue());
}
public static long NextLong() {
Confirm();
return long.Parse(q.Dequeue());
}
public static string NextString() {
Confirm();
return q.Dequeue();
}
public static double NextDouble() {
Confirm();
return double.Parse(q.Dequeue());
}
public static int[] LineInt() {
return Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
}
public static long[] LineLong() {
return Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
}
public static string[] LineString() {
return Console.ReadLine().Split(' ').ToArray();
}
public static double[] LineDouble() {
return Console.ReadLine().Split(' ').Select(double.Parse).ToArray();
}
}
class Util {}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.IO;
using static Input;
using static Util;
class Program {
static long A;
static string B;
static void INPUT() {
A = NextLong();
B = NextString();
}
static void OUT() {
var b = int.Parse(B.Replace(".", ""));
var ans = (long)(A * b) / 100;
Console.WriteLine(ans);
}
static void Main(string[] args) {
#if DEBUG
// TESTINPUT();
INPUT();
#else
INPUT();
#endif
OUT();
}
static void TESTINPUT() {}
}
public class Input {
public const long MOD = 1000000007;
public const int INF = 1000000007;
private static Queue<string> q = new Queue<string>();
private static void Confirm() {
if (q.Count == 0)
foreach (var s in Console.ReadLine().Split(' '))
q.Enqueue(s);
}
public static int NextInt() {
Confirm();
return int.Parse(q.Dequeue());
}
public static long NextLong() {
Confirm();
return long.Parse(q.Dequeue());
}
public static string NextString() {
Confirm();
return q.Dequeue();
}
public static double NextDouble() {
Confirm();
return double.Parse(q.Dequeue());
}
public static int[] LineInt() {
return Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
}
public static long[] LineLong() {
return Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
}
public static string[] LineString() {
return Console.ReadLine().Split(' ').ToArray();
}
public static double[] LineDouble() {
return Console.ReadLine().Split(' ').Select(double.Parse).ToArray();
}
}
class Util {}
|
[["-", 0, 235, 8, 201, 0, 124, 0, 198, 39, 199], ["+", 0, 235, 8, 201, 0, 124, 0, 198, 39, 199], ["-", 8, 196, 0, 1, 0, 11, 12, 213, 63, 22], ["+", 8, 196, 0, 1, 0, 11, 12, 213, 63, 22], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 21], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["-", 0, 16, 31, 74, 51, 23, 0, 16, 17, 48], ["-", 31, 74, 51, 23, 0, 16, 12, 74, 0, 24], ["-", 31, 74, 51, 23, 0, 16, 12, 74, 39, 199], ["-", 31, 74, 51, 23, 0, 16, 12, 74, 0, 25], ["-", 51, 23, 0, 16, 12, 74, 51, 23, 0, 24], ["-", 0, 16, 12, 74, 51, 23, 0, 16, 31, 22], ["-", 0, 16, 12, 74, 51, 23, 0, 16, 12, 203], ["-", 51, 23, 0, 16, 12, 74, 51, 23, 0, 25], ["+", 0, 16, 31, 74, 51, 23, 0, 16, 12, 22]]
| 8
| 448
| 33
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
public class AtCoderB {
static void Main() {
var sc = new Scanner();
long a = sc.NextLong();
double b = sc.NextDouble();
int c = (int)(b * 100);
long answer = a * c / 100;
Console.WriteLine(answer);
}
class Scanner {
private string[] _line;
private int _index;
private const char Separator = ' ';
public Scanner() {
_line = new string[0];
_index = 0;
}
public string Next() {
while (_index >= _line.Length) {
_line = Console.ReadLine().Split(Separator);
_index = 0;
}
return _line[_index++];
}
public int NextInt() => int.Parse(Next());
public long NextLong() => long.Parse(Next());
public double NextDouble() => double.Parse(Next());
public decimal NextDecimal() => decimal.Parse(Next());
public char NextChar() => Next()[0];
public char[] NextCharArray() => Next().ToCharArray();
public string[] Array() {
_line = Console.ReadLine().Split(Separator);
_index = _line.Length;
return _line;
}
public int[] IntArray() => Array().Select(int.Parse).ToArray();
public long[] LongArray() => Array().Select(long.Parse).ToArray();
public double[] DoubleArray() => Array().Select(double.Parse).ToArray();
public decimal[] DecimalArray() => Array().Select(decimal.Parse).ToArray();
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
public class AtCoderB {
static void Main() {
var sc = new Scanner();
long a = sc.NextLong();
string b = sc.Next();
string[] bs = b.Split('.');
int c = int.Parse(bs[0]) * 100 + int.Parse(bs[1]);
long answer = a * c / 100;
Console.WriteLine(answer);
}
class Scanner {
private string[] _line;
private int _index;
private const char Separator = ' ';
public Scanner() {
_line = new string[0];
_index = 0;
}
public string Next() {
while (_index >= _line.Length) {
_line = Console.ReadLine().Split(Separator);
_index = 0;
}
return _line[_index++];
}
public int NextInt() => int.Parse(Next());
public long NextLong() => long.Parse(Next());
public double NextDouble() => double.Parse(Next());
public decimal NextDecimal() => decimal.Parse(Next());
public char NextChar() => Next()[0];
public char[] NextCharArray() => Next().ToCharArray();
public string[] Array() {
_line = Console.ReadLine().Split(Separator);
_index = _line.Length;
return _line;
}
public int[] IntArray() => Array().Select(int.Parse).ToArray();
public long[] LongArray() => Array().Select(long.Parse).ToArray();
public double[] DoubleArray() => Array().Select(double.Parse).ToArray();
public decimal[] DecimalArray() => Array().Select(decimal.Parse).ToArray();
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 196, 0, 197, 0, 198, 39, 224, 39, 199], ["+", 0, 197, 0, 198, 39, 224, 225, 226, 0, 70], ["+", 0, 197, 0, 198, 39, 224, 225, 226, 0, 73], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 213, 3, 4, 0, 28, 0, 252, 0, 104], ["+", 0, 213, 3, 4, 0, 28, 0, 252, 0, 253], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 0, 16, 31, 16, 31, 213, 63, 214, 0, 131], ["+", 0, 16, 31, 16, 31, 213, 63, 214, 141, 22], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 31, 22], ["+", 31, 213, 3, 4, 0, 28, 0, 204, 205, 22], ["+", 3, 4, 0, 28, 0, 204, 206, 207, 0, 70], ["+", 0, 28, 0, 204, 206, 207, 0, 28, 0, 203], ["+", 3, 4, 0, 28, 0, 204, 206, 207, 0, 73], ["+", 0, 16, 31, 16, 31, 213, 3, 4, 0, 25], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["+", 0, 212, 0, 16, 12, 213, 63, 214, 205, 199], ["+", 0, 212, 0, 16, 12, 213, 63, 214, 0, 131], ["+", 0, 212, 0, 16, 12, 213, 63, 214, 141, 22], ["+", 0, 212, 0, 16, 12, 213, 3, 4, 0, 24], ["+", 12, 213, 3, 4, 0, 28, 0, 204, 205, 22]]
| 8
| 380
| 37
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using static System.Console;
using static System.Math;
using static System.Array;
class Program {
public static void Main() {
var n = ReadLine().Split(' ');
var a = long.Parse(n[0]);
var b = (long)(double.Parse(n[1]) * 100d);
if (a == 0L || b == 0L) {
WriteLine("0");
return;
}
long result = a * b / 100L;
WriteLine(result);
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using static System.Console;
using static System.Math;
using static System.Array;
class Program {
public static void Main() {
var n = ReadLine().Split(' ');
var a = long.Parse(n[0]);
var b = decimal.Parse(n[1]);
if (a == 0 || b == 0) {
WriteLine("0");
return;
}
decimal result = Floor(a * b);
WriteLine(result);
}
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["-", 0, 200, 0, 212, 0, 74, 51, 23, 0, 24], ["-", 51, 23, 0, 16, 31, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 51, 23, 0, 16, 31, 213, 3, 4, 0, 25], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 17, 48], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 12, 250], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["+", 8, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["-", 8, 196, 0, 57, 15, 16, 12, 16, 12, 203], ["+", 8, 196, 0, 57, 15, 16, 12, 16, 12, 203], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 85], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25]]
| 8
| 132
| 20
|
using System;
using System.Collections.Generic;
using System.Linq;
class Program {
static void Main(string[] args) {
var input = Console.ReadLine().Split(' ');
long A = TOL(input[0]);
double B = TOD(input[1]);
double res = A * B;
Console.WriteLine(Math.Floor(res));
}
static int TOI(string str) { return int.Parse(str); }
static long TOL(string str) { return long.Parse(str); }
static float TOF(string str) { return float.Parse(str); }
static double TOD(string str) { return double.Parse(str); }
}
|
using System;
using System.Collections.Generic;
using System.Linq;
class Program {
static void Main(string[] args) {
var input = Console.ReadLine().Split(' ');
long A = TOL(input[0]);
double B = TOD(input[1]);
decimal res = (decimal)A * (decimal)B;
Console.WriteLine(Math.Floor(res));
}
static int TOI(string str) { return int.Parse(str); }
static long TOL(string str) { return long.Parse(str); }
static float TOF(string str) { return float.Parse(str); }
static double TOD(string str) { return double.Parse(str); }
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 200, 0, 212, 0, 16, 31, 74, 0, 24], ["+", 0, 200, 0, 212, 0, 16, 31, 74, 39, 199], ["+", 0, 200, 0, 212, 0, 16, 31, 74, 0, 25], ["+", 0, 200, 0, 212, 0, 16, 12, 74, 0, 24], ["+", 0, 200, 0, 212, 0, 16, 12, 74, 39, 199], ["+", 0, 200, 0, 212, 0, 16, 12, 74, 0, 25]]
| 8
| 155
| 8
|
using System;
using System.Collections.Generic;
using System.Dynamic;
using System.Linq;
namespace ClassLibrary1 {
public class ListNode {
public int val;
public ListNode next;
public ListNode(int x) { val = x; }
}
class StringComparator2 : IComparer<string> {
int IComparer<string>.Compare(string a, string b) {
int length = Math.Min(a.Length, b.Length);
// Console.WriteLine("Comparing with length {0}", length);
for (int i = 0; i < length; i++) {
if (a[i] < b[i]) {
// Console.WriteLine("returning -1");
return -1;
} else if (a[i] > b[i])
return 1;
}
if (a.Length < b.Length)
return -1;
if (a.Length > b.Length)
return 1;
// Console.WriteLine("Why are we at the end?");
return 0;
}
}
class StringComparator3 : IEqualityComparer<string> {
public bool Equals(string b1, string b2) { return Compare(b1, b2) == 0; }
public int GetHashCode(string bx) { return bx.GetHashCode(); }
int Compare(string a, string b) {
int length = Math.Min(a.Length, b.Length);
// Console.WriteLine("Comparing with length {0}", length);
for (int i = 0; i < length; i++) {
if (a[i] < b[i]) {
// Console.WriteLine("returning -1");
return -1;
} else if (a[i] > b[i])
return 1;
}
if (a.Length < b.Length)
return -1;
if (a.Length > b.Length)
return 1;
// Console.WriteLine("Why are we at the end?");
return 0;
}
}
public class PriorityQueue<T>
where T : IComparable {
private IComparer<T> _comparer = null;
private int _type = 0;
private T[] _heap;
private int _sz = 0;
private int _count = 0;
/// <summary>
/// Priority Queue with custom comparer
/// </summary>
public PriorityQueue(int maxSize, IComparer<T> comparer) {
_heap = new T[maxSize];
_comparer = comparer;
}
/// <summary>
/// Priority queue
/// </summary>
/// <param name="maxSize">max size</param>
/// <param name="type">0: asc, 1:desc</param>
public PriorityQueue(int maxSize, int type = 0) {
_heap = new T[maxSize];
_type = type;
}
private int Compare(T x, T y) {
if (_comparer != null)
return _comparer.Compare(x, y);
return _type == 0 ? x.CompareTo(y) : y.CompareTo(x);
}
public void Push(T x) {
_count++;
// node number
var i = _sz++;
while (i > 0) {
// parent node number
var p = (i - 1) / 2;
if (Compare(_heap[p], x) <= 0)
break;
_heap[i] = _heap[p];
i = p;
}
_heap[i] = x;
}
public T Pop() {
_count--;
T ret = _heap[0];
T x = _heap[--_sz];
int i = 0;
while (i * 2 + 1 < _sz) {
// children
int a = i * 2 + 1;
int b = i * 2 + 2;
if (b < _sz && Compare(_heap[b], _heap[a]) < 0)
a = b;
if (Compare(_heap[a], x) >= 0)
break;
_heap[i] = _heap[a];
i = a;
}
_heap[i] = x;
return ret;
}
public int Count() { return _count; }
public T Peek() { return _heap[0]; }
public bool Contains(T x) {
for (int i = 0; i < _sz; i++)
if (x.Equals(_heap[i]))
return true;
return false;
}
public void Clear() {
while (this.Count() > 0)
this.Pop();
}
public IEnumerator<T> GetEnumerator() {
var ret = new List<T>();
while (this.Count() > 0) {
ret.Add(this.Pop());
}
foreach (var r in ret) {
this.Push(r);
yield return r;
}
}
public T[] ToArray() {
T[] array = new T[_sz];
int i = 0;
foreach (var r in this) {
array[i++] = r;
}
return array;
}
}
public class Class1 {
// static Dictionary<Tuple<long, long>, long> dic = new Dictionary<Tuple<long,
// long>, long>();
static long mod = 1000000007;
static long[] factorial = new long[1000001];
static long[] invFactorial = new long[1000001];
private static void calcFanctorial(long N) {
factorial[0] = 1;
for (int i = 1; i < N + 1; i++) {
factorial[i] = factorial[i - 1] * i;
factorial[i] %= mod;
}
invFactorial[N] = inv(factorial[N]);
for (int i = (int)N; i > 0; i--) {
invFactorial[i - 1] = invFactorial[i] * i % mod;
}
}
class Tree {
public HashSet<long> conn = new HashSet<long>();
}
static long bin(long a, long x, long n) {
long y = a;
long res = 1;
while (x > 0) {
if (x % 2 == 1) {
res = res * y % n;
}
x /= 2;
y = y * y % n;
}
return res;
}
int cmp(string a, string b) {
for (var i = 0; i < Math.Min(a.Length, b.Length); i++)
if (a[i] < b[i])
return -1;
else if (a[i] > b[i])
return 1;
if (a.Length == b.Length)
return 0;
if (a.Length > b.Length)
return 1;
else
return -1;
}
private static long nCm(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
return (factorial[n] * invFactorial[m] % mod) * invFactorial[n - m] % mod;
}
private static long nPm(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
return (factorial[n] * invFactorial[m] % mod);
}
private static long nCm2(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
long res = 1;
for (long i = n; i > n - m; i--) {
res *= i;
res %= mod;
}
return res * invFactorial[m] % mod;
}
public static long pow(long a, long b, long mod) {
a %= mod;
if (b <= 0)
return 1;
var t = pow(a, b / 2, mod);
if ((b & 1) == 0)
return t * t % mod;
return t * t % mod * a % mod;
}
public static long Lcm(long a, long b) {
return a * b % mod * inv(Gcd(a, b)) % mod;
}
public static long Lcm(long[] a) {
List<long> vect = new List<long>();
long lcm = 1;
for (int i = 0; i < a.Count(); i++) {
var factor = a[i] / GcdVector(vect, a[i]);
vect.Add(factor);
lcm = lcm * factor % mod;
}
return lcm;
}
static long GcdVector(List<long> a, long b) {
long ma = 1;
for (int i = 0; i < a.Count; i++)
ma = ma * a[i] % b;
return Gcd(b, ma);
}
public static long Gcd(long a, long b) {
if (a < b)
// 引数を入替えて自分を呼び出す
return Gcd(b, a);
while (b != 0) {
var remainder = a % b;
a = b;
b = remainder;
}
return a;
}
public static long pow(long a, long b) => pow(a, b, mod);
public static long inv(long a) => pow(a, mod - 2);
private static char[][] ReadCharMatrix(long h) {
char[][] mtx = new char [h][];
for (int i = 0; i < h; i++) {
var s = ReadString();
mtx[i] = s.ToCharArray();
}
return mtx;
}
private static int[][] CreateIntMatrix(long h, long w) {
int[][] mtx = new int [h][];
for (int i = 0; i < h; i++) {
mtx[i] = new int[w];
}
return mtx;
}
private static string ReadString() { return Console.ReadLine(); }
private static string[] ReadStringArr() {
return Console.ReadLine().Split(' ');
}
private static long ReadLong() { return long.Parse(Console.ReadLine()); }
private static long[] ReadLongArr() {
string[] s = ReadStringArr();
long[] l = new long[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = long.Parse(s[i]);
}
return l;
}
private static int[] ReadIntArr() {
string[] s = ReadStringArr();
int[] l = new int[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = int.Parse(s[i]);
}
return l;
}
private static double[] ReadDoubleArr() {
string[] s = ReadStringArr();
double[] l = new double[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = double.Parse(s[i]);
}
return l;
}
static void Main(string[] args) {
var AA = ReadStringArr();
long A = long.Parse(AA[0]);
long B = (long)(double.Parse(AA[1]) * 100);
long res = A * (B / 100);
long res2 = A * (B % 100);
res += res2 / 100;
Console.WriteLine(res);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Dynamic;
using System.Linq;
namespace ClassLibrary1 {
public class ListNode {
public int val;
public ListNode next;
public ListNode(int x) { val = x; }
}
class StringComparator2 : IComparer<string> {
int IComparer<string>.Compare(string a, string b) {
int length = Math.Min(a.Length, b.Length);
// Console.WriteLine("Comparing with length {0}", length);
for (int i = 0; i < length; i++) {
if (a[i] < b[i]) {
// Console.WriteLine("returning -1");
return -1;
} else if (a[i] > b[i])
return 1;
}
if (a.Length < b.Length)
return -1;
if (a.Length > b.Length)
return 1;
// Console.WriteLine("Why are we at the end?");
return 0;
}
}
class StringComparator3 : IEqualityComparer<string> {
public bool Equals(string b1, string b2) { return Compare(b1, b2) == 0; }
public int GetHashCode(string bx) { return bx.GetHashCode(); }
int Compare(string a, string b) {
int length = Math.Min(a.Length, b.Length);
// Console.WriteLine("Comparing with length {0}", length);
for (int i = 0; i < length; i++) {
if (a[i] < b[i]) {
// Console.WriteLine("returning -1");
return -1;
} else if (a[i] > b[i])
return 1;
}
if (a.Length < b.Length)
return -1;
if (a.Length > b.Length)
return 1;
// Console.WriteLine("Why are we at the end?");
return 0;
}
}
public class PriorityQueue<T>
where T : IComparable {
private IComparer<T> _comparer = null;
private int _type = 0;
private T[] _heap;
private int _sz = 0;
private int _count = 0;
/// <summary>
/// Priority Queue with custom comparer
/// </summary>
public PriorityQueue(int maxSize, IComparer<T> comparer) {
_heap = new T[maxSize];
_comparer = comparer;
}
/// <summary>
/// Priority queue
/// </summary>
/// <param name="maxSize">max size</param>
/// <param name="type">0: asc, 1:desc</param>
public PriorityQueue(int maxSize, int type = 0) {
_heap = new T[maxSize];
_type = type;
}
private int Compare(T x, T y) {
if (_comparer != null)
return _comparer.Compare(x, y);
return _type == 0 ? x.CompareTo(y) : y.CompareTo(x);
}
public void Push(T x) {
_count++;
// node number
var i = _sz++;
while (i > 0) {
// parent node number
var p = (i - 1) / 2;
if (Compare(_heap[p], x) <= 0)
break;
_heap[i] = _heap[p];
i = p;
}
_heap[i] = x;
}
public T Pop() {
_count--;
T ret = _heap[0];
T x = _heap[--_sz];
int i = 0;
while (i * 2 + 1 < _sz) {
// children
int a = i * 2 + 1;
int b = i * 2 + 2;
if (b < _sz && Compare(_heap[b], _heap[a]) < 0)
a = b;
if (Compare(_heap[a], x) >= 0)
break;
_heap[i] = _heap[a];
i = a;
}
_heap[i] = x;
return ret;
}
public int Count() { return _count; }
public T Peek() { return _heap[0]; }
public bool Contains(T x) {
for (int i = 0; i < _sz; i++)
if (x.Equals(_heap[i]))
return true;
return false;
}
public void Clear() {
while (this.Count() > 0)
this.Pop();
}
public IEnumerator<T> GetEnumerator() {
var ret = new List<T>();
while (this.Count() > 0) {
ret.Add(this.Pop());
}
foreach (var r in ret) {
this.Push(r);
yield return r;
}
}
public T[] ToArray() {
T[] array = new T[_sz];
int i = 0;
foreach (var r in this) {
array[i++] = r;
}
return array;
}
}
public class Class1 {
// static Dictionary<Tuple<long, long>, long> dic = new Dictionary<Tuple<long,
// long>, long>();
static long mod = 1000000007;
static long[] factorial = new long[1000001];
static long[] invFactorial = new long[1000001];
private static void calcFanctorial(long N) {
factorial[0] = 1;
for (int i = 1; i < N + 1; i++) {
factorial[i] = factorial[i - 1] * i;
factorial[i] %= mod;
}
invFactorial[N] = inv(factorial[N]);
for (int i = (int)N; i > 0; i--) {
invFactorial[i - 1] = invFactorial[i] * i % mod;
}
}
class Tree {
public HashSet<long> conn = new HashSet<long>();
}
static long bin(long a, long x, long n) {
long y = a;
long res = 1;
while (x > 0) {
if (x % 2 == 1) {
res = res * y % n;
}
x /= 2;
y = y * y % n;
}
return res;
}
int cmp(string a, string b) {
for (var i = 0; i < Math.Min(a.Length, b.Length); i++)
if (a[i] < b[i])
return -1;
else if (a[i] > b[i])
return 1;
if (a.Length == b.Length)
return 0;
if (a.Length > b.Length)
return 1;
else
return -1;
}
private static long nCm(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
return (factorial[n] * invFactorial[m] % mod) * invFactorial[n - m] % mod;
}
private static long nPm(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
return (factorial[n] * invFactorial[m] % mod);
}
private static long nCm2(long n, long m) {
if (n < m)
return 0;
if (m < 0)
return 0;
long res = 1;
for (long i = n; i > n - m; i--) {
res *= i;
res %= mod;
}
return res * invFactorial[m] % mod;
}
public static long pow(long a, long b, long mod) {
a %= mod;
if (b <= 0)
return 1;
var t = pow(a, b / 2, mod);
if ((b & 1) == 0)
return t * t % mod;
return t * t % mod * a % mod;
}
public static long Lcm(long a, long b) {
return a * b % mod * inv(Gcd(a, b)) % mod;
}
public static long Lcm(long[] a) {
List<long> vect = new List<long>();
long lcm = 1;
for (int i = 0; i < a.Count(); i++) {
var factor = a[i] / GcdVector(vect, a[i]);
vect.Add(factor);
lcm = lcm * factor % mod;
}
return lcm;
}
static long GcdVector(List<long> a, long b) {
long ma = 1;
for (int i = 0; i < a.Count; i++)
ma = ma * a[i] % b;
return Gcd(b, ma);
}
public static long Gcd(long a, long b) {
if (a < b)
// 引数を入替えて自分を呼び出す
return Gcd(b, a);
while (b != 0) {
var remainder = a % b;
a = b;
b = remainder;
}
return a;
}
public static long pow(long a, long b) => pow(a, b, mod);
public static long inv(long a) => pow(a, mod - 2);
private static char[][] ReadCharMatrix(long h) {
char[][] mtx = new char [h][];
for (int i = 0; i < h; i++) {
var s = ReadString();
mtx[i] = s.ToCharArray();
}
return mtx;
}
private static int[][] CreateIntMatrix(long h, long w) {
int[][] mtx = new int [h][];
for (int i = 0; i < h; i++) {
mtx[i] = new int[w];
}
return mtx;
}
private static string ReadString() { return Console.ReadLine(); }
private static string[] ReadStringArr() {
return Console.ReadLine().Split(' ');
}
private static long ReadLong() { return long.Parse(Console.ReadLine()); }
private static long[] ReadLongArr() {
string[] s = ReadStringArr();
long[] l = new long[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = long.Parse(s[i]);
}
return l;
}
private static int[] ReadIntArr() {
string[] s = ReadStringArr();
int[] l = new int[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = int.Parse(s[i]);
}
return l;
}
private static double[] ReadDoubleArr() {
string[] s = ReadStringArr();
double[] l = new double[s.Length];
for (int i = 0; i < l.Length; i++) {
l[i] = double.Parse(s[i]);
}
return l;
}
static void Main(string[] args) {
var AA = ReadStringArr();
long A = long.Parse(AA[0]);
Decimal B = (Decimal)(double.Parse(AA[1]) * 100);
Decimal res = (new decimal(A)) * B / 100;
Console.WriteLine(Math.Floor(res));
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 39, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 31, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 48], ["-", 0, 212, 0, 16, 12, 23, 0, 16, 31, 22], ["-", 0, 212, 0, 16, 12, 23, 0, 16, 17, 85], ["-", 0, 212, 0, 16, 12, 23, 0, 16, 12, 203], ["-", 0, 200, 0, 212, 0, 16, 12, 23, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 16, 31, 16, 31, 23, 0, 230, 0, 228], ["+", 0, 16, 31, 16, 31, 23, 0, 230, 39, 199], ["+", 31, 16, 31, 23, 0, 230, 3, 4, 0, 24], ["+", 31, 16, 31, 23, 0, 230, 3, 4, 0, 25], ["+", 0, 212, 0, 16, 31, 16, 31, 23, 0, 25], ["-", 0, 200, 0, 212, 0, 16, 12, 23, 0, 24], ["-", 0, 212, 0, 16, 12, 23, 0, 16, 17, 109], ["-", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 107], ["-", 8, 196, 0, 1, 0, 11, 12, 16, 31, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25]]
| 8
| 2,194
| 34
|
using System;
class Program {
static void Main(string[] args) {
int i;
string[] strInput = Console.ReadLine().Split(' ');
Int64 a = Int64.Parse(strInput[0]);
double b = double.Parse(strInput[1]);
Int64 b2 = (Int64)(b * 100);
Int64 result = a * b2;
String strResult = result.ToString();
String strResult2;
if (result >= 100) {
strResult2 = strResult.Substring(0, strResult.Length - 2);
} else {
strResult2 = "0";
}
Console.WriteLine(strResult2);
return;
}
}
|
using System;
class Program {
static void Main(string[] args) {
string[] strInput = Console.ReadLine().Split(' ');
Int64 a = Int64.Parse(strInput[0]);
Int64 b = Int64.Parse(strInput[1].Remove(1, 1));
Int64 result = a * b;
String strResult = result.ToString();
String strResult2;
if (result >= 100) {
strResult2 = strResult.Substring(0, strResult.Length - 2);
} else {
strResult2 = "0";
}
Console.WriteLine(strResult2);
return;
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 22], ["+", 0, 28, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 21], ["-", 0, 200, 0, 212, 0, 74, 51, 23, 0, 24], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 31, 22], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 17, 48], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 12, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22]]
| 8
| 137
| 24
|
using System;
using System.Collections.Generic;
using System.Text;
using System.Linq;
using System.Numerics;
using System.IO;
namespace Practice {
class Program {
static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
Solve();
Console.Out.Flush();
}
private const int MOD = 1000000007;
private const int MAX = 1000001;
static long[] fac = new long[MAX];
static long[] finv = new long[MAX];
static long[] inv = new long[MAX];
static void Solve() {
decimal a = Input.NextLong();
var b = Input.NextDouble();
if (a == 0 || b == 0.0) {
Console.WriteLine(0);
return;
}
// for (double i = 0; i < 10; i+=0.01)
//{
// var ans = Calc(a, i);
// var ans2 = (long)(i * 100) * a / 100;
// if ( ans != ans2)
// {
// break;
// }
// Console.WriteLine(ans);
//}
var ans = Calc(a, b);
Console.WriteLine(ans);
}
private static decimal Calc(decimal a, double b) {
return (decimal)(b * 100) * a / 100;
long b0 = (long)b;
long b1 = (long)(100 * (b - b0));
decimal ans = a * b0 + (decimal)(a * b1 / 100);
return ans;
}
#region よく使う便利関数
private static Dictionary<long, int> Factorize(long n) {
var dic = new Dictionary<long, int>();
for (long i = 2; i * i <= n; ++i) {
while (n % i == 0) {
if (!dic.ContainsKey(i)) {
dic.Add(i, 0);
}
dic[i]++;
n /= i;
}
}
if (n != 1) {
dic.Add(n, 1);
}
return dic;
}
static void COMinit() {
fac[0] = fac[1] = 1;
finv[0] = finv[1] = 1;
inv[1] = 1;
for (int i = 2; i < MAX; i++) {
fac[i] = fac[i - 1] * i % MOD;
inv[i] = MOD - inv[MOD % i] * (MOD / i) % MOD;
finv[i] = finv[i - 1] * inv[i] % MOD;
}
}
// 二項係数計算
static long COM(long n, long k) {
if (n < k)
return 0;
if (n < 0 || k < 0)
return 0;
return fac[n] * (finv[k] * finv[n - k] % MOD) % MOD;
}
static class Input {
static char[] separator = { ' ' };
public static bool IsEof { get; set; }
static Queue<string> q { get; set; }
static Input() {
IsEof = false;
q = new Queue<string>();
}
/// <summary>
/// 入力予約
/// </summary>
/// <param name="items"></param>
public static void SetText(IEnumerable<string> items) {
foreach (var item in items) {
SetText(item);
}
}
/// <summary>
/// 入力予約
/// </summary>
/// <param name="s"></param>
/// <returns></returns>
public static bool SetText(string s) {
if (s == null)
return false;
foreach (var elem in s.Trim().Split(
separator, StringSplitOptions.RemoveEmptyEntries)) {
q.Enqueue(elem);
}
return true;
}
/// <summary>
/// 内部queueに入力からの値をsplitして格納する
/// </summary>
/// <returns></returns>
static bool read() {
var s = Console.ReadLine();
if (s == null)
return false;
foreach (var elem in s.Trim().Split(
separator, StringSplitOptions.RemoveEmptyEntries)) {
q.Enqueue(elem);
}
if (!q.Any())
return read();
return true;
}
/// <summary>
/// 次のstringを一つ読み込む
/// </summary>
/// <returns></returns>
public static string Next() {
if (!q.Any()) {
if (!read()) {
IsEof = true;
return "";
}
}
return q.Dequeue();
}
public static int NextInt() => int.Parse(Next());
public static long NextLong() => long.Parse(Next());
public static double NextDouble() => double.Parse(Next());
public static List<string>
Next(int n) => Enumerable.Range(0, n).Select(_ => Next()).ToList();
public static List<int>
NextInt(int n) => Next(n).Select(x => int.Parse(x)).ToList();
public static List<long>
NextLong(int n) => Next(n).Select(x => long.Parse(x)).ToList();
public static List<double>
NextDouble(int n) => Next(n).Select(x => double.Parse(x)).ToList();
public static List<string>
NextLine() => Console.ReadLine()
.Trim()
.Split(separator, StringSplitOptions.RemoveEmptyEntries)
.ToList();
public static List<int>
NextIntLine() => NextLine().Select(x => int.Parse(x)).ToList();
public static List<long>
NextLongLine() => NextLine().Select(x => long.Parse(x)).ToList();
public static List<double>
NextDoubleLine() => NextLine().Select(x => double.Parse(x)).ToList();
}
private static bool isPrime(long x) {
if (x == 2) {
return true;
}
if (x < 2 || x % 2 == 0) {
return false;
}
long i = 3;
while (i * i <= x) {
if (x % i == 0) {
return false;
}
i = i + 2;
}
return true;
}
private static long lcm(long x, long y) { return x / gcd(x, y) * y; }
private static long gcd(long x, long y) { return y > 0 ? gcd(y, x % y) : x; }
private static long pow(long x, long n) {
if (n == 0) {
return 1;
}
long res = pow(x * x % MOD, n / 2);
if (n % 2 == 1) {
res = res * x % MOD;
}
return res;
}
private static void Swap<T>(ref T x, ref T y) {
T t = x;
x = y;
y = t;
}
/// <summary>
/// 指定した値以上の先頭のインデクスを返す
/// </summary>
/// <typeparam name="T">比較する値の型</typeparam>
/// <param name="arr">対象の配列(※ソート済みであること)</param>
/// <param name="start">開始インデクス [inclusive]</param>
/// <param name="end">終了インデクス [exclusive]</param>
/// <param name="value">検索する値</param>
/// <param name="comparer">比較関数(インターフェイス)</param>
/// <returns>指定した値以上の先頭のインデクス</returns>
public static int LowerBound<T>(IReadOnlyList<T> arr, int start, int end,
T value, IComparer<T> comparer) {
int low = start;
int high = end;
int mid;
while (low < high) {
mid = ((high - low) >> 1) + low;
if (comparer.Compare(arr[mid], value) < 0)
low = mid + 1;
else
high = mid;
}
return low;
}
//引数省略のオーバーロード
public static int LowerBound<T>(IReadOnlyList<T> arr, T value)
where T : IComparable {
return LowerBound(arr, 0, arr.Count, value, Comparer<T>.Default);
}
/// <summary>
/// 指定した値より大きい先頭のインデクスを返す
/// </summary>
/// <typeparam name="T">比較する値の型</typeparam>
/// <param name="arr">対象の配列(※ソート済みであること)</param>
/// <param name="start">開始インデクス [inclusive]</param>
/// <param name="end">終了インデクス [exclusive]</param>
/// <param name="value">検索する値</param>
/// <param name="comparer">比較関数(インターフェイス)</param>
/// <returns>指定した値より大きい先頭のインデクス</returns>
public static int UpperBound<T>(IReadOnlyList<T> arr, int start, int end,
T value, IComparer<T> comparer) {
int low = start;
int high = end;
int mid;
while (low < high) {
mid = ((high - low) >> 1) + low;
if (comparer.Compare(arr[mid], value) <= 0)
low = mid + 1;
else
high = mid;
}
return low;
}
//引数省略のオーバーロード
public static int UpperBound<T>(IReadOnlyList<T> arr, T value) {
return UpperBound(arr, 0, arr.Count, value, Comparer<T>.Default);
}
#endregion
}
public class DisjointSet {
private int[] rank;
private int[] p;
private int[] size;
public DisjointSet(int n) {
rank = new int[n];
p = new int[n];
size = new int[n];
for (int i = 0; i < n; ++i) {
MakeSet(i);
}
}
public void MakeSet(int x) {
p[x] = x;
rank[x] = 0;
size[x] = 1;
}
public bool IsSame(int x, int y) { return FindSet(x) == FindSet(y); }
public void Unite(int x, int y) { Link(FindSet(x), FindSet(y)); }
public void Link(int x, int y) {
if (rank[x] > rank[y]) {
p[y] = x;
size[x] += size[y];
size[y] = 0;
} else {
p[x] = y;
size[y] += size[x];
size[x] = 0;
if (rank[x] == rank[y]) {
rank[y]++;
}
}
}
public int FindSet(int x) {
if (x != p[x]) {
p[x] = FindSet(p[x]);
}
return p[x];
}
public int Size(int x) {
int root = FindSet(x);
return size[root];
}
}
public class PriorityQueue<T>
where T : IComparable {
private IComparer<T> _comparer = null;
private int _type = 0;
private T[] _heap;
private int _sz = 0;
private int _count = 0;
/// <summary>
/// Priority Queue with custom comparer
/// </summary>
public PriorityQueue(int maxSize, IComparer<T> comparer) {
_heap = new T[maxSize];
_comparer = comparer;
}
/// <summary>
/// Priority queue
/// </summary>
/// <param name="maxSize">max size</param>
/// <param name="type">0: asc, 1:desc</param>
public PriorityQueue(int maxSize, int type = 0) {
_heap = new T[maxSize];
_type = type;
}
private int Compare(T x, T y) {
if (_comparer != null)
return _comparer.Compare(x, y);
return _type == 0 ? x.CompareTo(y) : y.CompareTo(x);
}
public void Push(T x) {
_count++;
// node number
var i = _sz++;
while (i > 0) {
// parent node number
var p = (i - 1) / 2;
if (Compare(_heap[p], x) <= 0)
break;
_heap[i] = _heap[p];
i = p;
}
_heap[i] = x;
}
public T Pop() {
_count--;
T ret = _heap[0];
T x = _heap[--_sz];
int i = 0;
while (i * 2 + 1 < _sz) {
// children
int a = i * 2 + 1;
int b = i * 2 + 2;
if (b < _sz && Compare(_heap[b], _heap[a]) < 0)
a = b;
if (Compare(_heap[a], x) >= 0)
break;
_heap[i] = _heap[a];
i = a;
}
_heap[i] = x;
return ret;
}
public int Count() { return _count; }
public T Peek() { return _heap[0]; }
public bool Contains(T x) {
for (int i = 0; i < _sz; i++)
if (x.Equals(_heap[i]))
return true;
return false;
}
public void Clear() {
while (this.Count() > 0)
this.Pop();
}
public IEnumerator<T> GetEnumerator() {
var ret = new List<T>();
while (this.Count() > 0) {
ret.Add(this.Pop());
}
foreach (var r in ret) {
this.Push(r);
yield return r;
}
}
public T[] ToArray() {
T[] array = new T[_sz];
int i = 0;
foreach (var r in this) {
array[i++] = r;
}
return array;
}
}
}
|
using System;
using System.Collections.Generic;
using System.Text;
using System.Linq;
using System.Numerics;
using System.IO;
namespace Practice {
class Program {
static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
Solve();
Console.Out.Flush();
}
private const int MOD = 1000000007;
private const int MAX = 1000001;
static long[] fac = new long[MAX];
static long[] finv = new long[MAX];
static long[] inv = new long[MAX];
static void Solve() {
decimal a = Input.NextLong();
var b = Input.NextDouble();
if (a == 0 || b == 0.0) {
Console.WriteLine(0);
return;
}
// for (double i = 0; i < 10; i+=0.01)
//{
// var ans = Calc(a, i);
// var ans2 = (long)(i * 100) * a / 100;
// if ( ans != ans2)
// {
// break;
// }
// Console.WriteLine(ans);
//}
var ans = Calc(a, b);
Console.WriteLine(ans);
}
private static long Calc(decimal a, double b) {
return (long)((decimal)(b * 100) * a / 100);
long b0 = (long)b;
long b1 = (long)(100 * (b - b0));
long ans = (long)(a * b0 + (decimal)(a * b1 / 100));
return ans;
}
#region よく使う便利関数
private static Dictionary<long, int> Factorize(long n) {
var dic = new Dictionary<long, int>();
for (long i = 2; i * i <= n; ++i) {
while (n % i == 0) {
if (!dic.ContainsKey(i)) {
dic.Add(i, 0);
}
dic[i]++;
n /= i;
}
}
if (n != 1) {
dic.Add(n, 1);
}
return dic;
}
static void COMinit() {
fac[0] = fac[1] = 1;
finv[0] = finv[1] = 1;
inv[1] = 1;
for (int i = 2; i < MAX; i++) {
fac[i] = fac[i - 1] * i % MOD;
inv[i] = MOD - inv[MOD % i] * (MOD / i) % MOD;
finv[i] = finv[i - 1] * inv[i] % MOD;
}
}
// 二項係数計算
static long COM(long n, long k) {
if (n < k)
return 0;
if (n < 0 || k < 0)
return 0;
return fac[n] * (finv[k] * finv[n - k] % MOD) % MOD;
}
static class Input {
static char[] separator = { ' ' };
public static bool IsEof { get; set; }
static Queue<string> q { get; set; }
static Input() {
IsEof = false;
q = new Queue<string>();
}
/// <summary>
/// 入力予約
/// </summary>
/// <param name="items"></param>
public static void SetText(IEnumerable<string> items) {
foreach (var item in items) {
SetText(item);
}
}
/// <summary>
/// 入力予約
/// </summary>
/// <param name="s"></param>
/// <returns></returns>
public static bool SetText(string s) {
if (s == null)
return false;
foreach (var elem in s.Trim().Split(
separator, StringSplitOptions.RemoveEmptyEntries)) {
q.Enqueue(elem);
}
return true;
}
/// <summary>
/// 内部queueに入力からの値をsplitして格納する
/// </summary>
/// <returns></returns>
static bool read() {
var s = Console.ReadLine();
if (s == null)
return false;
foreach (var elem in s.Trim().Split(
separator, StringSplitOptions.RemoveEmptyEntries)) {
q.Enqueue(elem);
}
if (!q.Any())
return read();
return true;
}
/// <summary>
/// 次のstringを一つ読み込む
/// </summary>
/// <returns></returns>
public static string Next() {
if (!q.Any()) {
if (!read()) {
IsEof = true;
return "";
}
}
return q.Dequeue();
}
public static int NextInt() => int.Parse(Next());
public static long NextLong() => long.Parse(Next());
public static double NextDouble() => double.Parse(Next());
public static List<string>
Next(int n) => Enumerable.Range(0, n).Select(_ => Next()).ToList();
public static List<int>
NextInt(int n) => Next(n).Select(x => int.Parse(x)).ToList();
public static List<long>
NextLong(int n) => Next(n).Select(x => long.Parse(x)).ToList();
public static List<double>
NextDouble(int n) => Next(n).Select(x => double.Parse(x)).ToList();
public static List<string>
NextLine() => Console.ReadLine()
.Trim()
.Split(separator, StringSplitOptions.RemoveEmptyEntries)
.ToList();
public static List<int>
NextIntLine() => NextLine().Select(x => int.Parse(x)).ToList();
public static List<long>
NextLongLine() => NextLine().Select(x => long.Parse(x)).ToList();
public static List<double>
NextDoubleLine() => NextLine().Select(x => double.Parse(x)).ToList();
}
private static bool isPrime(long x) {
if (x == 2) {
return true;
}
if (x < 2 || x % 2 == 0) {
return false;
}
long i = 3;
while (i * i <= x) {
if (x % i == 0) {
return false;
}
i = i + 2;
}
return true;
}
private static long lcm(long x, long y) { return x / gcd(x, y) * y; }
private static long gcd(long x, long y) { return y > 0 ? gcd(y, x % y) : x; }
private static long pow(long x, long n) {
if (n == 0) {
return 1;
}
long res = pow(x * x % MOD, n / 2);
if (n % 2 == 1) {
res = res * x % MOD;
}
return res;
}
private static void Swap<T>(ref T x, ref T y) {
T t = x;
x = y;
y = t;
}
/// <summary>
/// 指定した値以上の先頭のインデクスを返す
/// </summary>
/// <typeparam name="T">比較する値の型</typeparam>
/// <param name="arr">対象の配列(※ソート済みであること)</param>
/// <param name="start">開始インデクス [inclusive]</param>
/// <param name="end">終了インデクス [exclusive]</param>
/// <param name="value">検索する値</param>
/// <param name="comparer">比較関数(インターフェイス)</param>
/// <returns>指定した値以上の先頭のインデクス</returns>
public static int LowerBound<T>(IReadOnlyList<T> arr, int start, int end,
T value, IComparer<T> comparer) {
int low = start;
int high = end;
int mid;
while (low < high) {
mid = ((high - low) >> 1) + low;
if (comparer.Compare(arr[mid], value) < 0)
low = mid + 1;
else
high = mid;
}
return low;
}
//引数省略のオーバーロード
public static int LowerBound<T>(IReadOnlyList<T> arr, T value)
where T : IComparable {
return LowerBound(arr, 0, arr.Count, value, Comparer<T>.Default);
}
/// <summary>
/// 指定した値より大きい先頭のインデクスを返す
/// </summary>
/// <typeparam name="T">比較する値の型</typeparam>
/// <param name="arr">対象の配列(※ソート済みであること)</param>
/// <param name="start">開始インデクス [inclusive]</param>
/// <param name="end">終了インデクス [exclusive]</param>
/// <param name="value">検索する値</param>
/// <param name="comparer">比較関数(インターフェイス)</param>
/// <returns>指定した値より大きい先頭のインデクス</returns>
public static int UpperBound<T>(IReadOnlyList<T> arr, int start, int end,
T value, IComparer<T> comparer) {
int low = start;
int high = end;
int mid;
while (low < high) {
mid = ((high - low) >> 1) + low;
if (comparer.Compare(arr[mid], value) <= 0)
low = mid + 1;
else
high = mid;
}
return low;
}
//引数省略のオーバーロード
public static int UpperBound<T>(IReadOnlyList<T> arr, T value) {
return UpperBound(arr, 0, arr.Count, value, Comparer<T>.Default);
}
#endregion
}
public class DisjointSet {
private int[] rank;
private int[] p;
private int[] size;
public DisjointSet(int n) {
rank = new int[n];
p = new int[n];
size = new int[n];
for (int i = 0; i < n; ++i) {
MakeSet(i);
}
}
public void MakeSet(int x) {
p[x] = x;
rank[x] = 0;
size[x] = 1;
}
public bool IsSame(int x, int y) { return FindSet(x) == FindSet(y); }
public void Unite(int x, int y) { Link(FindSet(x), FindSet(y)); }
public void Link(int x, int y) {
if (rank[x] > rank[y]) {
p[y] = x;
size[x] += size[y];
size[y] = 0;
} else {
p[x] = y;
size[y] += size[x];
size[x] = 0;
if (rank[x] == rank[y]) {
rank[y]++;
}
}
}
public int FindSet(int x) {
if (x != p[x]) {
p[x] = FindSet(p[x]);
}
return p[x];
}
public int Size(int x) {
int root = FindSet(x);
return size[root];
}
}
public class PriorityQueue<T>
where T : IComparable {
private IComparer<T> _comparer = null;
private int _type = 0;
private T[] _heap;
private int _sz = 0;
private int _count = 0;
/// <summary>
/// Priority Queue with custom comparer
/// </summary>
public PriorityQueue(int maxSize, IComparer<T> comparer) {
_heap = new T[maxSize];
_comparer = comparer;
}
/// <summary>
/// Priority queue
/// </summary>
/// <param name="maxSize">max size</param>
/// <param name="type">0: asc, 1:desc</param>
public PriorityQueue(int maxSize, int type = 0) {
_heap = new T[maxSize];
_type = type;
}
private int Compare(T x, T y) {
if (_comparer != null)
return _comparer.Compare(x, y);
return _type == 0 ? x.CompareTo(y) : y.CompareTo(x);
}
public void Push(T x) {
_count++;
// node number
var i = _sz++;
while (i > 0) {
// parent node number
var p = (i - 1) / 2;
if (Compare(_heap[p], x) <= 0)
break;
_heap[i] = _heap[p];
i = p;
}
_heap[i] = x;
}
public T Pop() {
_count--;
T ret = _heap[0];
T x = _heap[--_sz];
int i = 0;
while (i * 2 + 1 < _sz) {
// children
int a = i * 2 + 1;
int b = i * 2 + 2;
if (b < _sz && Compare(_heap[b], _heap[a]) < 0)
a = b;
if (Compare(_heap[a], x) >= 0)
break;
_heap[i] = _heap[a];
i = a;
}
_heap[i] = x;
return ret;
}
public int Count() { return _count; }
public T Peek() { return _heap[0]; }
public bool Contains(T x) {
for (int i = 0; i < _sz; i++)
if (x.Equals(_heap[i]))
return true;
return false;
}
public void Clear() {
while (this.Count() > 0)
this.Pop();
}
public IEnumerator<T> GetEnumerator() {
var ret = new List<T>();
while (this.Count() > 0) {
ret.Add(this.Pop());
}
foreach (var r in ret) {
this.Push(r);
yield return r;
}
}
public T[] ToArray() {
T[] array = new T[_sz];
int i = 0;
foreach (var r in this) {
array[i++] = r;
}
return array;
}
}
}
|
[["-", 8, 201, 0, 235, 8, 201, 0, 195, 39, 199], ["+", 8, 201, 0, 235, 8, 201, 0, 195, 39, 199], ["+", 0, 195, 8, 196, 0, 37, 0, 74, 39, 199], ["+", 0, 195, 8, 196, 0, 37, 0, 74, 0, 25], ["+", 8, 196, 0, 37, 0, 74, 51, 23, 0, 24], ["+", 51, 23, 0, 16, 31, 16, 31, 74, 0, 24], ["+", 8, 196, 0, 37, 0, 74, 51, 23, 0, 25], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 0, 200, 0, 212, 0, 74, 51, 23, 0, 24], ["+", 51, 23, 0, 16, 12, 74, 51, 23, 0, 25]]
| 8
| 2,522
| 14
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text;
using static System.Console;
using static System.Math;
namespace Atcoder {
class Program {
static StreamWriter sw =
new StreamWriter(OpenStandardOutput()) { AutoFlush = false };
static void Main(string[] args) {
try {
SetOut(sw);
Solve.Answer();
Out.Flush();
} catch (Exception ex) {
WriteLine(ex.ToString());
}
}
}
public class Solve {
public static void Answer() {
var ab = IO.RSDouble;
double ans = ab[0] * ab[1];
var ans2 = (long)ans;
WriteLine(ans2);
}
public class IO {
#region Input
public static int RInt => int.Parse(ReadLine());
public static long RLong => long.Parse(ReadLine());
public static double RDouble => double.Parse(ReadLine());
public static string[] RSString => ReadLine().Split();
public static int[] RSInt =>
ReadLine().Split().Select(s => int.Parse(s)).ToArray();
public static long[] RSLong =>
ReadLine().Split().Select(s => long.Parse(s)).ToArray();
public static double[] RSDouble =>
ReadLine().Split().Select(s => double.Parse(s)).ToArray();
#endregion
#region Output
public static void
OutJoinSpace<T>(IEnumerable<T> list) => WriteLine(string.Join(" ", list));
public static void WriteLineYes_or_No(bool flag) => WriteLine(flag ? "Yes"
: "No");
public static void WriteLineYES_or_NO(bool flag) => WriteLine(flag ? "YES"
: "NO");
#endregion
}
public class Mod {
#region
private readonly static long M = 1000000007;
public static long Add(long a, long b) => (a * b) % M;
public static long Sub(long a, long b) => (a - b) % M >= 0
? (a - b) % M
: (a - b) % M + M;
public static long Multi(long a, long b) => (a * b) % M;
#endregion
}
}
}
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text;
using static System.Console;
using static System.Math;
namespace Atcoder {
class Program {
static StreamWriter sw =
new StreamWriter(OpenStandardOutput()) { AutoFlush = false };
static void Main(string[] args) {
try {
SetOut(sw);
Solve.Answer();
Out.Flush();
} catch (Exception ex) {
WriteLine(ex.ToString());
}
}
}
public class Solve {
public static void Answer() {
var ab = IO.RSDouble;
var a = (long)ab[0];
var b = (decimal)ab[1];
var ans = a * b;
var ans2 = (long)ans;
WriteLine(ans2);
}
public class IO {
#region Input
public static int RInt => int.Parse(ReadLine());
public static long RLong => long.Parse(ReadLine());
public static double RDouble => double.Parse(ReadLine());
public static string[] RSString => ReadLine().Split();
public static int[] RSInt =>
ReadLine().Split().Select(s => int.Parse(s)).ToArray();
public static long[] RSLong =>
ReadLine().Split().Select(s => long.Parse(s)).ToArray();
public static double[] RSDouble =>
ReadLine().Split().Select(s => double.Parse(s)).ToArray();
#endregion
#region Output
public static void
OutJoinSpace<T>(IEnumerable<T> list) => WriteLine(string.Join(" ", list));
public static void WriteLineYes_or_No(bool flag) => WriteLine(flag ? "Yes"
: "No");
public static void WriteLineYES_or_NO(bool flag) => WriteLine(flag ? "YES"
: "NO");
#endregion
}
public class Mod {
#region
private readonly static long M = 1000000007;
public static long Add(long a, long b) => (a * b) % M;
public static long Sub(long a, long b) => (a - b) % M >= 0
? (a - b) % M
: (a - b) % M + M;
public static long Multi(long a, long b) => (a * b) % M;
#endregion
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 48], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 31, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 48], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22]]
| 8
| 497
| 22
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.IO;
namespace ABC {
class ABC169C {
const string FILE = @"..\..\data.txt";
static void Main(string[] args) {
#if DEBUG
Console.SetIn(new StreamReader(FILE));
#endif
var line = Console.ReadLine();
var sa = line.Split(' ');
long a = long.Parse(sa[0]);
string b = sa[1];
var ba = b.Split('.');
int b0 = int.Parse(ba[0]);
char[] bpoint = ba[1].ToCharArray();
int b1 = 0;
int b2 = 0;
if (bpoint.Length == 1) {
b1 = int.Parse(bpoint[0].ToString());
}
if (bpoint.Length == 2) {
b1 = int.Parse(bpoint[0].ToString());
b2 = int.Parse(bpoint[1].ToString());
}
long result = a * b0 + (a / 10) * b1 + (a / 100) * b2;
Console.WriteLine(result);
#if DEBUG
Console.WriteLine("end");
Console.SetIn(Console.In);
Console.ReadKey();
#endif
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.IO;
namespace ABC {
class ABC169C {
const string FILE = @"..\..\data.txt";
static void Main(string[] args) {
#if DEBUG
Console.SetIn(new StreamReader(FILE));
#endif
var line = Console.ReadLine();
var sa = line.Split(' ');
long a = long.Parse(sa[0]);
string b = sa[1];
var ba = b.Split('.');
int b0 = int.Parse(ba[0]);
char[] bpoint = ba[1].ToCharArray();
int b1 = 0;
int b2 = 0;
if (bpoint.Length == 1) {
b1 = int.Parse(bpoint[0].ToString());
}
if (bpoint.Length == 2) {
b1 = int.Parse(bpoint[0].ToString());
b2 = int.Parse(bpoint[1].ToString());
}
// long result = a * b0 + (a / 10) * b1 + (a / 100) * b2;
long result = (a * b0 * 100) + (a * 10) * b1 + (a)*b2;
result /= 100;
Console.WriteLine(result);
#if DEBUG
Console.WriteLine("end");
Console.SetIn(Console.In);
Console.ReadKey();
#endif
}
}
}
|
[["+", 0, 212, 0, 16, 31, 16, 31, 23, 0, 24], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 17, 48], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 12, 203], ["+", 0, 212, 0, 16, 31, 16, 31, 23, 0, 25], ["-", 31, 16, 12, 16, 31, 23, 0, 16, 17, 85], ["+", 31, 16, 12, 16, 31, 23, 0, 16, 17, 48], ["-", 0, 16, 12, 16, 31, 23, 0, 16, 17, 85], ["-", 0, 16, 12, 16, 31, 23, 0, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 90], ["+", 0, 195, 8, 196, 0, 1, 0, 11, 12, 203]]
| 8
| 291
| 12
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
double a = double.Parse(input[0]);
double b = double.Parse(input[1]);
long result = (long)(Math.Floor(a * b));
Console.WriteLine(result);
}
}
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
decimal a = decimal.Parse(input[0]);
decimal b = decimal.Parse(input[1]);
long result = (long)(a * b);
Console.WriteLine(result);
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 0, 200, 0, 212, 0, 74, 51, 23, 0, 24], ["-", 0, 74, 51, 23, 0, 213, 63, 214, 205, 22], ["-", 0, 74, 51, 23, 0, 213, 63, 214, 0, 131], ["-", 0, 74, 51, 23, 0, 213, 63, 214, 141, 22], ["-", 0, 74, 51, 23, 0, 213, 3, 4, 0, 25]]
| 8
| 86
| 13
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Text.RegularExpressions;
using static System.Console;
using static System.Math;
namespace AtCoder_1 {
class Program {
static void Main(string[] args) {
var N = CinDAr();
Cout((decimal)Floor(N[0] * N[1]));
Cin();
} // main
static readonly int MOD10_9_7 = (1000000000 + 7);
static Random Rand = new Random();
static readonly string[] AlphabetTable =
new string[] { "A", "B", "C", "D", "E", "F", "G", "H", "I",
"J", "K", "L", "M", "N", "O", "P", "Q", "R",
"S", "T", "U", "V", "W", "X", "Y", "Z" };
static int GetDigits(long num) { return (int)Floor(Log10(num)) + 1; }
static int GetNumByDigit(long num, int digit) {
return (int)((num / ((int)Pow(10, digit - 1))) % 10);
}
static int Loop(int num, int max) {
if (num > max) {
return num % max - 1;
} else if (num < 0) {
return max - (-num) % max + 1;
} else {
return num;
}
}
static long GCD(long a, long b) {
if (a < b) {
return GCD(b, a);
}
if (a % b == 0) {
return b;
} else {
return GCD(b, a % b);
}
}
static long LCM(long a, long b) { return a * b / GCD(a, b); }
static void Swap<T>(ref T a, ref T b) {
T t = a;
a = b;
b = t;
}
static void SwapArE<T>(T[] a, int i, int j) {
T t = a[i];
a[i] = a[j];
a[j] = t;
}
static void SwapLiE<T>(List<T> a, int i, int j) {
T t = a[i];
a[i] = a[j];
a[j] = t;
}
static bool IsInt(double d) { return (int)d == d; }
static string Cin() { return ReadLine(); }
static string[] CinAr() { return ReadLine().Split(' '); }
static int CinT() { return S2i(Cin()); }
static int[] CinTAr() {
return CinAr().Select((x, i) => { return S2i(x); }).ToArray();
}
static long CinL() { return S2L(Cin()); }
static long[] CinLAr() {
return CinAr().Select((x, i) => { return S2L(x); }).ToArray();
}
static double CinD() { return S2D(Cin()); }
static double[] CinDAr() {
return CinAr().Select((x, i) => { return S2D(x); }).ToArray();
}
static int S2i(string s) { return int.Parse(s); }
static long S2L(string s) { return long.Parse(s); }
static double S2D(string s) { return double.Parse(s); }
static void Cout(object s) { WriteLine(s); }
static string RevStr(string s) { return new string(s.Reverse().ToArray()); }
static long[] Divisor(long n) {
if (n == 1) {
return new long[] { 1 };
}
List<long> res = new List<long>() { 1 };
for (long i = 2; i <= n / 2 + 1; i++) {
if (n % i == 0) {
res.Add(i);
}
}
res.Add(n);
return res.ToArray();
}
static bool IsPrime(long num) {
if (num == 1) {
return false;
}
for (long i = 2; i <= Sqrt(num) + 1; i++) {
if (num % i == 0) {
return false;
}
}
return true;
}
static void CoutAr<Type>(IEnumerable<Type> types) {
Cout(string.Join(" ", types));
}
public static long nCr(int n, int r) { return nPr(n, r) / Factorial(r); }
public static long nPr(int n, int r) { return FactorialDivision(n, n - r); }
private static long FactorialDivision(int topFactorial,
int divisorFactorial) {
long r = 1;
for (int i = topFactorial; i > divisorFactorial; i--) {
r *= i;
}
return r;
}
private static long Factorial(int i) {
if (i <= 1) {
return 1;
}
return i * Factorial(i - 1);
}
public static void CoutMemPairAr<Type>(IEnumerable<Pair<Type>> pairs) {
var ar = pairs.ToArray();
for (int i = 0; i < ar.Length; i++) {
Write($"({ar[i].a}, {ar[i].b}, {ar[i].c}), ");
}
Cout("");
}
}
public struct Pair<T> {
public T a, b, c;
public Pair(T _a, T _b, T _c = default(T)) {
a = _a;
b = _b;
c = _c;
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Text.RegularExpressions;
using static System.Console;
using static System.Math;
namespace AtCoder_1 {
class Program {
static void Main(string[] args) {
var N = CinAr();
var A = (decimal)S2L(N[0]);
var B = (decimal)S2D(N[1]);
Cout(Floor(A * B));
Cin();
} // main
static readonly int MOD10_9_7 = (1000000000 + 7);
static Random Rand = new Random();
static readonly string[] AlphabetTable =
new string[] { "A", "B", "C", "D", "E", "F", "G", "H", "I",
"J", "K", "L", "M", "N", "O", "P", "Q", "R",
"S", "T", "U", "V", "W", "X", "Y", "Z" };
static int GetDigits(long num) { return (int)Floor(Log10(num)) + 1; }
static int GetNumByDigit(long num, int digit) {
return (int)((num / ((int)Pow(10, digit - 1))) % 10);
}
static int Loop(int num, int max) {
if (num > max) {
return num % max - 1;
} else if (num < 0) {
return max - (-num) % max + 1;
} else {
return num;
}
}
static long GCD(long a, long b) {
if (a < b) {
return GCD(b, a);
}
if (a % b == 0) {
return b;
} else {
return GCD(b, a % b);
}
}
static long LCM(long a, long b) { return a * b / GCD(a, b); }
static void Swap<T>(ref T a, ref T b) {
T t = a;
a = b;
b = t;
}
static void SwapArE<T>(T[] a, int i, int j) {
T t = a[i];
a[i] = a[j];
a[j] = t;
}
static void SwapLiE<T>(List<T> a, int i, int j) {
T t = a[i];
a[i] = a[j];
a[j] = t;
}
static bool IsInt(double d) { return (int)d == d; }
static string Cin() { return ReadLine(); }
static string[] CinAr() { return ReadLine().Split(' '); }
static int CinT() { return S2i(Cin()); }
static int[] CinTAr() {
return CinAr().Select((x, i) => { return S2i(x); }).ToArray();
}
static long CinL() { return S2L(Cin()); }
static long[] CinLAr() {
return CinAr().Select((x, i) => { return S2L(x); }).ToArray();
}
static double CinD() { return S2D(Cin()); }
static double[] CinDAr() {
return CinAr().Select((x, i) => { return S2D(x); }).ToArray();
}
static int S2i(string s) { return int.Parse(s); }
static long S2L(string s) { return long.Parse(s); }
static double S2D(string s) { return double.Parse(s); }
static void Cout(object s) { WriteLine(s); }
static string RevStr(string s) { return new string(s.Reverse().ToArray()); }
static long[] Divisor(long n) {
if (n == 1) {
return new long[] { 1 };
}
List<long> res = new List<long>() { 1 };
for (long i = 2; i <= n / 2 + 1; i++) {
if (n % i == 0) {
res.Add(i);
}
}
res.Add(n);
return res.ToArray();
}
static bool IsPrime(long num) {
if (num == 1) {
return false;
}
for (long i = 2; i <= Sqrt(num) + 1; i++) {
if (num % i == 0) {
return false;
}
}
return true;
}
static void CoutAr<Type>(IEnumerable<Type> types) {
Cout(string.Join(" ", types));
}
public static long nCr(int n, int r) { return nPr(n, r) / Factorial(r); }
public static long nPr(int n, int r) { return FactorialDivision(n, n - r); }
private static long FactorialDivision(int topFactorial,
int divisorFactorial) {
long r = 1;
for (int i = topFactorial; i > divisorFactorial; i--) {
r *= i;
}
return r;
}
private static long Factorial(int i) {
if (i <= 1) {
return 1;
}
return i * Factorial(i - 1);
}
public static void CoutMemPairAr<Type>(IEnumerable<Pair<Type>> pairs) {
var ar = pairs.ToArray();
for (int i = 0; i < ar.Length; i++) {
Write($"({ar[i].a}, {ar[i].b}, {ar[i].c}), ");
}
Cout("");
}
}
public struct Pair<T> {
public T a, b, c;
public Pair(T _a, T _b, T _c = default(T)) {
a = _a;
b = _b;
c = _c;
}
}
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["-", 0, 195, 8, 196, 0, 1, 0, 213, 63, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 3, 4, 0, 28, 0, 74, 51, 213, 63, 22], ["+", 0, 200, 0, 212, 0, 74, 51, 213, 63, 22], ["-", 51, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["+", 0, 212, 0, 74, 51, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["+", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 0, 212, 0, 74, 51, 213, 3, 4, 0, 24], ["+", 0, 195, 8, 196, 0, 1, 0, 213, 63, 22], ["+", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 213, 63, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22]]
| 8
| 1,268
| 29
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Linq;
using System.Numerics;
namespace AtCoderWorkspace {
public class Solver {
public void Solve() {
var cin = new Scanner();
var a = cin.nextLong();
var b = cin.nextDouble();
var bb = (long)(b * 100);
var ans = (a * bb) / 100;
Console.WriteLine(ans);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return next();
i = 0;
return s[i++];
}
public int nextInt() { return int.Parse(next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = nextInt() + add;
}
return Array;
}
public int[] DPArrayInt(int N, int ex) {
int[] Array = new int[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextInt();
}
return Array;
}
public long nextLong() { return long.Parse(next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = nextLong() + add;
}
return Array;
}
public long[] DPArrayLong(int N, int ex) {
long[] Array = new long[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextLong();
}
return Array;
}
public double nextDouble() { return double.Parse(next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = nextDouble() + add;
}
return Array;
}
}
class Program {
static void Main(string[] s) => new Solver().Solve();
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Linq;
using System.Numerics;
namespace AtCoderWorkspace {
public class Solver {
public void Solve() {
var cin = new Scanner();
var a = cin.nextLong();
var b = cin.nextDouble();
var db = Convert.ToDecimal(b);
var ans = a * db;
ans = Decimal.Floor(ans);
Console.WriteLine(ans);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return next();
i = 0;
return s[i++];
}
public int nextInt() { return int.Parse(next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = nextInt() + add;
}
return Array;
}
public int[] DPArrayInt(int N, int ex) {
int[] Array = new int[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextInt();
}
return Array;
}
public long nextLong() { return long.Parse(next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = nextLong() + add;
}
return Array;
}
public long[] DPArrayLong(int N, int ex) {
long[] Array = new long[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextLong();
}
return Array;
}
public double nextDouble() { return double.Parse(next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = nextDouble() + add;
}
return Array;
}
}
class Program {
static void Main(string[] s) => new Solver().Solve();
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 24], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 17, 48], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 12, 203], ["-", 0, 200, 0, 212, 0, 16, 31, 23, 0, 24], ["-", 0, 212, 0, 16, 31, 23, 0, 16, 12, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 205, 22], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 0, 131], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 141, 22], ["+", 0, 1, 0, 11, 12, 213, 3, 4, 0, 24], ["+", 0, 11, 12, 213, 3, 4, 0, 28, 0, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 85], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203]]
| 8
| 587
| 23
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Text.RegularExpressions;
using System.IO;
class readint {
public readint(out int i) { i = int.Parse(Console.ReadLine()); }
public readint(out int a, out int b) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
}
public readint(out int a, out int b, out int c) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
}
public readint(out int a, out int b, out int c, out int d) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
d = sp[3];
}
}
class readlong {
public readlong(out long i) { i = long.Parse(Console.ReadLine()); }
public readlong(out long a, out long b) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
}
public readlong(out long a, out long b, out long c) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
}
public readlong(out long a, out long b, out long c, out long d) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
d = sp[3];
}
}
class modMWorld {
public static long M = (int)998244353; // Math.Pow(10, 9) + 7;
//必要な演算は、加減乗除、nCk,n!,a^n
public static long add(long a, long b) {
long sum = a + b;
sum += M;
return sum % M;
}
public static long sub(long a, long b) {
long dif = a - b;
dif += M * 2;
return dif % M;
}
public static long mul(long a, long b) {
long product = a;
product *= b;
return product % M;
}
public static long div(long a, long b) { return mul(a, Pow(b, M - 2)); }
/// <summary>
/// a^m modMを求める
/// </summary>
/// <param name="a"></param>
/// <param name="m"></param>
/// <returns></returns>
public static long Pow(long a, long m) {
switch (m) {
case 0:
return 1;
case 1:
return a;
default:
long p1 = Pow(a, m / 2);
long p2 = mul(p1, p1);
return ((m % 2) == 0) ? p2 : mul(p2, a);
}
}
public static long kaijou(long n) {
//!
long output = 1;
for (int i = 0; i < n; i++) {
output = mul(output, n - i);
}
return output;
}
public static long nCk(long n, long k) {
long output = 1;
for (int i = 1; i <= k; i++) {
output = mul(output, n - (i - 1));
output = div(output, i);
}
return output;
}
}
class Util {
public static int[] readintarr() {
return Console.ReadLine().Split().Select(int.Parse).ToArray();
}
public static long[] readlongarr() {
return Console.ReadLine().Split().Select(long.Parse).ToArray();
}
/// <summary>
/// nの約数を小さい順のリストで返します。
/// </summary>
/// <param name="n"></param>
/// <returns></returns>
public static List<int> make_divisor(int n) {
List<int> output = new List<int>();
for (int i = 1; i <= Math.Sqrt(n) + 1; i++) {
if (n % i == 0) {
output.Add(i);
if (i * i != n) {
output.Add(n / i);
}
}
}
output.Sort();
return output;
}
// iの素因数分解をします
public static List<int> soinsuuBunkai(int n) {
//素因数分解をします
List<int> output = new List<int>();
int target = n;
for (int i = 2; i <= 1 + Math.Sqrt(target); i += 2) {
while (target % i == 0) {
target /= i;
output.Add(i);
}
if (i == 2)
i--;
}
if (target > 1) {
output.Add(target);
}
return output;
}
public static List<long> soinsuuBunkai(long n) {
List<long> output = new List<long>();
long target = n;
for (int i = 2; i <= 1 + Math.Sqrt(target); i += 2) {
while (target % i == 0) {
target /= i;
output.Add(i);
}
if (i == 2)
i--;
}
if (target > 1) {
output.Add(target);
}
return output;
}
/// <summary>
/// 2引数の最大公約数を返します。longです。
/// </summary>
/// <param name="a">long 引数1</param>
/// <param name="b">long 引数2</param>
/// <returns></returns>
public static long GCD(long a, long b) {
if (a < b)
swap(ref a, ref b);
if (a % b == 0)
return b;
return GCD(b, a % b);
}
/// <summary>
/// 2引数の最大公約数を返します。intです。
/// </summary>
/// <param name="a">int 引数1</param>
/// <param name="b">int 引数2</param>
/// <returns></returns>
public static int GCD(int a, int b) {
// if (a < b)
// swap(ref a, ref b);
if (a % b == 0)
return b;
return GCD(b, a % b);
}
/// <summary>
/// 2つの変数の中身を交換する。型はなんでもいい
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="a"></param>
/// <param name="b"></param>
public static void swap<T>(ref T a, ref T b) {
T temp = b;
b = a;
a = temp;
}
/// <summary>
/// 2引数の最大公約数を返します。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static long LCM(long a, long b) { return a * b / GCD(a, b); }
/// <summary>
/// 2引数の最大公約数を返します。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static long LCM(int a, int b) { return Math.BigMul(a, b) / GCD(a, b); }
public static int M = (int)998244353; //(Math.Pow(10, 9)) + 7;
private static int[] factorial_modM;
public static long nCr(long n, long r) {
long output = 1;
for (int i = 1; i <= r; i++) {
output *= (n + 1 - i);
output /= (i);
}
return output;
}
/// <summary>
/// 2引数の積 mod Mを求める。Mは10億7。
/// 変えられるよ。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static int Multiple_modM(int a, int b) {
return (int)(Math.BigMul(a, b) % M);
}
/// <summary>
/// n! modMまたはnCmを求めるための準備を行う。引数は最大値。
/// </summary>
/// <param name="n"></param>
public static void factorial_modM_Prepare(int n) {
factorial_modM = new int[n + 1];
factorial_modM[0] = 1;
for (int i = 1; i <= n; ++i) {
factorial_modM[i] = Multiple_modM(factorial_modM[i - 1], i);
}
}
/// <summary>
/// n! mod M を返す。やる前にfactorial_modM_Prepare(n)を実行しといてね。
/// </summary>
/// <param name="n"></param>
/// <returns></returns>
public static int Factorial(int n) { return factorial_modM[n]; }
/// <summary>
/// a^m modMを求める
/// </summary>
/// <param name="a"></param>
/// <param name="m"></param>
/// <returns></returns>
public static int Pow(int a, int m) {
switch (m) {
case 0:
return 1;
case 1:
return a;
default:
int p1 = Pow(a, m / 2);
int p2 = Multiple_modM(p1, p1);
return ((m % 2) == 0) ? p2 : Multiple_modM(p2, a);
}
}
/// <summary>
/// a / m Mod M を求める。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static int Div(int a, int b) {
return Multiple_modM(a, Pow(b, M - 2));
}
/// <summary>
/// nCr mod M を求める。やる前にfactorial_modM_Prepare(n)を実行しといてね。
/// </summary>
/// <param name="n"></param>
/// <param name="r"></param>
/// <returns></returns>
public static int nCr_modM(int n, int r) {
if (r < 0)
return 0;
if (n < r) {
return 0;
}
if (n == r) {
return 1;
}
int res = Factorial(n);
res = Div(res, Factorial(r));
res = Div(res, Factorial(n - r));
return res;
}
}
/// <summary>
/// Union-Find木を定義する。コンストラクタの指定は、頂点の番号。
/// おすすめとしては、UnionFind<T>[] で宣言してしまう。
/// 配列で宣言したあと、コンストラクタ使ってnewするのを忘れないでね。
/// コンストラクタのitemは、そのノード固有のIDになるので、絶対必要です
/// </summary>
/// <typeparam name="T">int固定でいいよね。</typeparam>
class UnionFind<T> {
public int tree_height;
public UnionFind<T> parent;
public T item { get; private set; }
public UnionFind(T item) {
tree_height = 0;
parent = this;
this.item = item;
}
/// <summary>
/// 一番上の親を探す。
/// 探しながら繋がり方を最適化している。
/// UnionFindの頂点そのものを返すので、==での比較が可能。
/// </summary>
/// <returns></returns>
public UnionFind<T> FindAdam() {
if (parent == this)
return this;
else {
UnionFind<T> ParentOfParent = parent.FindAdam();
parent = ParentOfParent; //縦長な構成をつなぎ直している
return ParentOfParent;
}
}
/// <summary>
/// unionfind2つを一つにつなぐ。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
public static void Unite(UnionFind<T> a, UnionFind<T> b) {
UnionFind<T> ParentOfA = a.FindAdam();
UnionFind<T> ParentOfB = b.FindAdam();
if (ParentOfA.tree_height < ParentOfB.tree_height) {
ParentOfA.parent = ParentOfB;
ParentOfB.tree_height =
Math.Max(ParentOfA.tree_height + 1, ParentOfB.tree_height);
} else {
ParentOfB.parent = ParentOfA;
ParentOfA.tree_height =
Math.Max(ParentOfB.tree_height + 1, ParentOfA.tree_height);
}
}
public static string convertToBinary(int N, int length) {
string binary = Convert.ToString(N, 2);
while (length > binary.Length) {
binary = "0" + binary;
}
return binary;
}
}
// Treap 平衡二分木
class Treap<T>
where T : IComparable {
private class Node {
private static Random g_rand = new Random();
private readonly int m_rank = g_rand.Next();
private readonly T m_value;
private Node m_lch;
private Node m_rch;
private int m_count;
public Node(T value) {
m_value = value;
m_count = 1;
}
private static int Count(Node node) {
return (node != null) ? node.m_count : 0;
}
private Node Update() {
m_count = Count(m_lch) + Count(m_rch) + 1;
return this;
}
public static Node Merge(Node a, Node b) {
if (a == null) {
return b;
}
if (b == null) {
return a;
}
if (a.m_rank < b.m_rank) {
a.m_rch = Merge(a.m_rch, b);
return a.Update();
} else {
b.m_lch = Merge(a, b.m_lch);
return b.Update();
}
}
public static Tuple<Node, Node> Split(Node t, int k) {
if (t == null) {
return new Tuple<Node, Node>(null, null);
}
if (k <= Count(t.m_lch)) {
var pair = Split(t.m_lch, k);
t.m_lch = pair.Item2;
return new Tuple<Node, Node>(pair.Item1, t.Update());
} else {
var pair = Split(t.m_rch, k - Count(t.m_lch) - 1);
t.m_rch = pair.Item1;
return new Tuple<Node, Node>(t.Update(), pair.Item2);
}
}
public int FindIndex(T value) {
int L = Count(m_lch);
if (value.CompareTo(m_value) < 0) {
return (m_lch != null) ? m_lch.FindIndex(value) : 0;
} else if (value.CompareTo(m_value) > 0) {
return (m_rch != null) ? m_rch.FindIndex(value) + L + 1 : L + 1;
} else {
return L;
}
}
public T this[int i] {
get {
int L = Count(m_lch);
if (i < L) {
return m_lch[i];
} else if (i > L) {
return m_rch[i - L - 1];
} else {
return m_value;
}
}
}
}
private Node node;
public void Insert(T value) {
if (node != null) {
int k = node.FindIndex(value);
var pair = Node.Split(node, k);
node = Node.Merge(Node.Merge(pair.Item1, new Node(value)), pair.Item2);
} else {
node = new Node(value);
}
}
public int FindIndex(T value) { return node.FindIndex(value); }
public T this[int i] {
get { return node[i]; }
}
}
/// <summary>
/// 使い方:Permutation.next(配列) で次の配列を返す
/// 配列を受け取って、その配列の要素を全部使った組み合わせのうち、辞書順で次のものを返します。
/// もし、次のがない場合、空の配列を返します。
///
/// </summary>
/// <typeparam name="T"></typeparam>
class Permutation<T>
where T : IComparable {
public static T[] next(T[] letters) {
int pivot = -1;
for (int i = letters.Length - 2; i >= 0; i--) {
if (letters[i].CompareTo(letters[i + 1]) < 0) {
pivot = i;
break;
}
}
if (pivot == -1) {
return new T[0];
}
int big_min = letters.Length - 1;
T big_min_T = letters[letters.Length - 1];
for (int i = letters.Length - 1; i > pivot;
i--) { // big_min_Tより小さいかつ、pivotのより大きい
if (letters[pivot].CompareTo(letters[i]) > 0 &&
letters[pivot].CompareTo(big_min_T) < 0) {
big_min_T = letters[i];
big_min = i;
}
}
T temp = letters[pivot];
letters[pivot] = letters[big_min];
letters[big_min] = temp;
Array.Sort(letters, pivot + 1, letters.Length - pivot - 1);
return letters;
}
}
/// <summary>
/// 使い方 : Combination
/// .AllCombination(使える文字を、小さい順から配列にしたもの,ほしい文字数)
/// 使える文字を、小さい順から配列にしたものを重複ありで組み合わせて、stringのlistで出力する
///
/// </summary>
/// <typeparam name="T"></typeparam>
class Combination<T>
where T : IComparable {
private static bool stop = false;
public static List<string> AllCombination(T[] letters, int n) {
// n桁ですよね。
List<string> outlist = new List<string>();
T[] state = new T[n];
for (int i = 0; i < n; i++) {
state[i] = letters[0];
}
outlist.Add(String.Join(" ", state));
while (true) {
next_keta(ref state, state.Length - 1, letters);
if (stop)
break;
outlist.Add(string.Join(" ", state));
}
return outlist;
}
public static T[] next_keta(ref T[] state, int keta, T[] letters) {
if (keta == -1) {
stop = true;
return new T[0];
}
if (state[keta].CompareTo(letters[letters.Length - 1]) == 0) {
//見た桁を最初の要素にする処理を
state[keta] = letters[0];
return next_keta(ref state, keta - 1, letters);
} else {
int ketaindex = 0;
for (int i = 0; i < letters.Length; i++) {
if (state[keta].CompareTo(letters[i]) == 0) {
ketaindex = i;
break;
}
}
state[keta] = letters[ketaindex + 1];
return state;
}
}
}
namespace CompLib.Collections {
#region PriorityQueue
/// <summary>
/// 指定した型のインスタンスを最も価値が低い順に取り出すことが可能な可変サイズのコレクションを表します.
/// </summary>
/// <typeparam name="T">優先度付きキュー内の要素の型を指定します.</typeparam>
/// <remarks>内部的にはバイナリヒープによって実装されています.</remarks>
public class PriorityQueue<T> {
readonly List<T> heap = new List<T>();
readonly Comparison<T> cmp;
/// <summary>
/// デフォルトの比較子を使用してインスタンスを初期化します.
/// </summary>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue() { cmp = Comparer<T>.Default.Compare; }
/// <summary>
/// デリゲートで表されるような比較関数を使用してインスタンスを初期化します.
/// </summary>
/// <param name="comparison"></param>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue(Comparison<T> comparison) { cmp = comparison; }
/// <summary>
/// 指定された比較子を使用してインスタンスを初期化します.
/// </summary>
/// <param name="comparer"></param>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue(IComparer<T> comparer) { cmp = comparer.Compare; }
/// <summary>
/// 優先度付きキューに要素を追加します.
/// </summary>
/// <param name="item">優先度付きキューに追加される要素</param>
/// <remarks>最悪計算量 O(log N) で実行されます.</remarks>
public void Enqueue(T item) {
var pos = heap.Count;
heap.Add(item);
while (pos > 0) {
var par = (pos - 1) / 2;
if (cmp(heap[par], item) <= 0)
break;
heap[pos] = heap[par];
pos = par;
}
heap[pos] = item;
}
/// <summary>
/// 優先度付きキューから最も価値が低い要素を削除し,返します.
/// </summary>
/// <returns>優先度付きキューから削除された要素.</returns>
/// <remarks>最悪計算量 O(log N) で実行されます.</remarks>
public T Dequeue() {
var ret = heap[0];
var pos = 0;
var x = heap[heap.Count - 1];
while (pos * 2 + 1 < heap.Count - 1) {
var lch = pos * 2 + 1;
var rch = pos * 2 + 2;
if (rch < heap.Count - 1 && cmp(heap[rch], heap[lch]) < 0)
lch = rch;
if (cmp(heap[lch], x) >= 0)
break;
heap[pos] = heap[lch];
pos = lch;
}
heap[pos] = x;
heap.RemoveAt(heap.Count - 1);
return ret;
}
/// <summary>
/// 優先度付きキューに含まれる最も価値が低い要素を削除せずに返します.
/// </summary>
/// <returns>優先度付きキューに含まれる最も価値が低い要素.</returns>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public T Peek() { return heap[0]; }
/// <summary>
/// 優先度付きキュー内の要素の数を取得します.
/// </summary>
/// <returns>優先度付キュー内にある要素の数</returns>
/// <remarks>最悪計算量 O(1) で実行されます.</remarks>
public int Count {
get { return heap.Count; }
}
/// <summary>
/// 優先度付きキュー内に要素が存在するかどうかを O(1) で判定します.
/// </summary>
/// <returns>優先度付キュー内にある要素が存在するならば
/// true,そうでなければ false.</returns> <remarks>この操作は O(1)
/// で実行されます.</remarks>
public bool Any() { return heap.Count > 0; }
/// <summary>
/// 優先度付きキューに含まれる要素を昇順に並べて返します.
/// </summary>
/// <remarks>この操作は計算量 O(N log N)で実行されます.</remarks>
public T[] Items {
get {
var ret = heap.ToArray();
Array.Sort(ret, cmp);
return ret;
}
}
}
#endregion
}
/// <summary>
/// SEGTREEは1-BASE運用でございます
/// よろしくおねがいします
/// あと絶対コンストラクタ使ってね
/// </summary>
/// <typeparam name="T"></typeparam>
class Segtree<T> {
int n; //高さ
T[] tree; //本体
Func<T, T, T> f; //更新関数。a -> b -> ab使ったなにか
T exnum; //初期値
int count;
/// <summary>
/// !!!WARNING!!! 1-BASEです。
/// </summary>
/// <param name="m">要素の数の最大値。200001とか入れておくとよい</param>
/// <param name="f">2引数の関数</param>
/// <param
/// name="ex">葉に書いてある値の初期値。fの関数に影響を与えない数値、零元とかにしておくべき。バグり散らかす。</param>
public Segtree(int m, Func<T, T, T> f, T ex) {
this.count = 0;
this.f = f;
this.exnum = ex;
n = 1;
while (n < m)
n <<= 1;
tree = new T[(n << 1) - 1];
for (int i = 0; i < tree.Length; i++)
tree[i] = ex;
}
public Segtree(int m, T ini, Func<T, T, T> f, T ex) : this(m, f, ex) {
this.count = 0;
for (int i = 0; i < m; ++i)
tree[i + n - 1] = ini;
all_update();
}
/// <summary>
/// j番目の値をxにする。計算し直さないので、
/// 入れ替えた後はall_update();を使おう
/// </summary>
/// <param name="j">番目</param>
/// <param name="x">更新後の値</param>
public void assign_without_update(int j, T x) { tree[j + n - 1] = x; }
/// <summary>
/// j番目の値をxにする。計算し直すので、ちょっと計算時間がかかる
/// </summary>
/// <param name="j">番目</param>
/// <param name="x">更新後の値</param>
public void update(int j, T x) // j番目をxにする
{
int i = j + n - 1;
tree[i] = x;
while (i > 0) {
i = (i - 1) >> 1;
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
this.count++;
}
/// <summary>
/// 木を全部計算し直す。多分NlogN。違うかも知れないから
/// よかったら教えて
/// </summary>
public void all_update() {
for (int i = n - 2; i >= 0; i--)
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
public T look(int i) { return tree[i + n - 1]; }
/// <summary>
/// j番目を消す。
/// </summary>
/// <param name="j"></param>
public void delete (int j) {
int i = j + n - 1;
tree[i] = exnum;
int moved = 0;
while (true) {
tree[i + 1] = tree[i];
T check = tree[i];
moved++;
if (moved + j + 2 > count) {
break;
}
}
all_update();
}
// [s, t)
/// <summary>
/// s番目からt - 1 番目までの結果を返す。t番目は含まない。
/// これも当然のように1-BASE.
/// </summary>
/// <param name="s"></param>
/// <param name="t"></param>
/// <returns></returns>
public T run(int s, int t) { return query(s, t, 0, 0, n); }
T query(int s, int t, int k, int l, int r) {
if (r <= s || t <= l)
return exnum;
if (s <= l && r <= t)
return tree[k];
return f(query(s, t, (k << 1) + 1, l, (l + r) >> 1),
query(s, t, (k + 1) << 1, (l + r) >> 1, r));
}
}
public class pair<T> {
public T A;
public T B;
public pair() {}
public pair(T A, T B) {
this.A = A;
this.B = B;
}
}
public class chouten {
public int N;
public List<int> node;
public chouten(int n) {
this.N = n;
this.node = new List<int>();
}
}
public class ab {
public int a, b;
public ab(int a, int b) {
this.a = a;
this.b = b;
}
}
public class ABC {
// long[] sp = Console.ReadLine().Split().Select(long
// .Parse).ToArray(); int[] sp =
// Console.ReadLine().Split().Select(int.Parse).ToArray(); int N =
// int.Parse(Console.ReadLine());
// CompLib.Collections.PriorityQueue<?>
//文字列比較のcomparer
// StringComparer.OrdinalIgnoreCase
public static void Main() {
double b;
string[] split = Console.ReadLine().Split();
long a = long.Parse(split[0]);
b = double.Parse(split[1]);
long mul = (long)(a * b);
Console.WriteLine(mul);
}
}
public class info {
public int worst;
public int value;
public string kakko;
public bool used;
public info(int worst, int value, string kakko) {
this.worst = worst;
this.value = value;
this.kakko = kakko;
this.used = false;
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Text.RegularExpressions;
using System.IO;
class readint {
public readint(out int i) { i = int.Parse(Console.ReadLine()); }
public readint(out int a, out int b) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
}
public readint(out int a, out int b, out int c) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
}
public readint(out int a, out int b, out int c, out int d) {
int[] sp = Console.ReadLine().Split().Select(int.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
d = sp[3];
}
}
class readlong {
public readlong(out long i) { i = long.Parse(Console.ReadLine()); }
public readlong(out long a, out long b) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
}
public readlong(out long a, out long b, out long c) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
}
public readlong(out long a, out long b, out long c, out long d) {
long[] sp = Console.ReadLine().Split().Select(long.Parse).ToArray();
a = sp[0];
b = sp[1];
c = sp[2];
d = sp[3];
}
}
class modMWorld {
public static long M = (int)998244353; // Math.Pow(10, 9) + 7;
//必要な演算は、加減乗除、nCk,n!,a^n
public static long add(long a, long b) {
long sum = a + b;
sum += M;
return sum % M;
}
public static long sub(long a, long b) {
long dif = a - b;
dif += M * 2;
return dif % M;
}
public static long mul(long a, long b) {
long product = a;
product *= b;
return product % M;
}
public static long div(long a, long b) { return mul(a, Pow(b, M - 2)); }
/// <summary>
/// a^m modMを求める
/// </summary>
/// <param name="a"></param>
/// <param name="m"></param>
/// <returns></returns>
public static long Pow(long a, long m) {
switch (m) {
case 0:
return 1;
case 1:
return a;
default:
long p1 = Pow(a, m / 2);
long p2 = mul(p1, p1);
return ((m % 2) == 0) ? p2 : mul(p2, a);
}
}
public static long kaijou(long n) {
//!
long output = 1;
for (int i = 0; i < n; i++) {
output = mul(output, n - i);
}
return output;
}
public static long nCk(long n, long k) {
long output = 1;
for (int i = 1; i <= k; i++) {
output = mul(output, n - (i - 1));
output = div(output, i);
}
return output;
}
}
class Util {
public static int[] readintarr() {
return Console.ReadLine().Split().Select(int.Parse).ToArray();
}
public static long[] readlongarr() {
return Console.ReadLine().Split().Select(long.Parse).ToArray();
}
/// <summary>
/// nの約数を小さい順のリストで返します。
/// </summary>
/// <param name="n"></param>
/// <returns></returns>
public static List<int> make_divisor(int n) {
List<int> output = new List<int>();
for (int i = 1; i <= Math.Sqrt(n) + 1; i++) {
if (n % i == 0) {
output.Add(i);
if (i * i != n) {
output.Add(n / i);
}
}
}
output.Sort();
return output;
}
// iの素因数分解をします
public static List<int> soinsuuBunkai(int n) {
//素因数分解をします
List<int> output = new List<int>();
int target = n;
for (int i = 2; i <= 1 + Math.Sqrt(target); i += 2) {
while (target % i == 0) {
target /= i;
output.Add(i);
}
if (i == 2)
i--;
}
if (target > 1) {
output.Add(target);
}
return output;
}
public static List<long> soinsuuBunkai(long n) {
List<long> output = new List<long>();
long target = n;
for (int i = 2; i <= 1 + Math.Sqrt(target); i += 2) {
while (target % i == 0) {
target /= i;
output.Add(i);
}
if (i == 2)
i--;
}
if (target > 1) {
output.Add(target);
}
return output;
}
/// <summary>
/// 2引数の最大公約数を返します。longです。
/// </summary>
/// <param name="a">long 引数1</param>
/// <param name="b">long 引数2</param>
/// <returns></returns>
public static long GCD(long a, long b) {
if (a < b)
swap(ref a, ref b);
if (a % b == 0)
return b;
return GCD(b, a % b);
}
/// <summary>
/// 2引数の最大公約数を返します。intです。
/// </summary>
/// <param name="a">int 引数1</param>
/// <param name="b">int 引数2</param>
/// <returns></returns>
public static int GCD(int a, int b) {
// if (a < b)
// swap(ref a, ref b);
if (a % b == 0)
return b;
return GCD(b, a % b);
}
/// <summary>
/// 2つの変数の中身を交換する。型はなんでもいい
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="a"></param>
/// <param name="b"></param>
public static void swap<T>(ref T a, ref T b) {
T temp = b;
b = a;
a = temp;
}
/// <summary>
/// 2引数の最大公約数を返します。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static long LCM(long a, long b) { return a * b / GCD(a, b); }
/// <summary>
/// 2引数の最大公約数を返します。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static long LCM(int a, int b) { return Math.BigMul(a, b) / GCD(a, b); }
public static int M = (int)998244353; //(Math.Pow(10, 9)) + 7;
private static int[] factorial_modM;
public static long nCr(long n, long r) {
long output = 1;
for (int i = 1; i <= r; i++) {
output *= (n + 1 - i);
output /= (i);
}
return output;
}
/// <summary>
/// 2引数の積 mod Mを求める。Mは10億7。
/// 変えられるよ。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static int Multiple_modM(int a, int b) {
return (int)(Math.BigMul(a, b) % M);
}
/// <summary>
/// n! modMまたはnCmを求めるための準備を行う。引数は最大値。
/// </summary>
/// <param name="n"></param>
public static void factorial_modM_Prepare(int n) {
factorial_modM = new int[n + 1];
factorial_modM[0] = 1;
for (int i = 1; i <= n; ++i) {
factorial_modM[i] = Multiple_modM(factorial_modM[i - 1], i);
}
}
/// <summary>
/// n! mod M を返す。やる前にfactorial_modM_Prepare(n)を実行しといてね。
/// </summary>
/// <param name="n"></param>
/// <returns></returns>
public static int Factorial(int n) { return factorial_modM[n]; }
/// <summary>
/// a^m modMを求める
/// </summary>
/// <param name="a"></param>
/// <param name="m"></param>
/// <returns></returns>
public static int Pow(int a, int m) {
switch (m) {
case 0:
return 1;
case 1:
return a;
default:
int p1 = Pow(a, m / 2);
int p2 = Multiple_modM(p1, p1);
return ((m % 2) == 0) ? p2 : Multiple_modM(p2, a);
}
}
/// <summary>
/// a / m Mod M を求める。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
/// <returns></returns>
public static int Div(int a, int b) {
return Multiple_modM(a, Pow(b, M - 2));
}
/// <summary>
/// nCr mod M を求める。やる前にfactorial_modM_Prepare(n)を実行しといてね。
/// </summary>
/// <param name="n"></param>
/// <param name="r"></param>
/// <returns></returns>
public static int nCr_modM(int n, int r) {
if (r < 0)
return 0;
if (n < r) {
return 0;
}
if (n == r) {
return 1;
}
int res = Factorial(n);
res = Div(res, Factorial(r));
res = Div(res, Factorial(n - r));
return res;
}
}
/// <summary>
/// Union-Find木を定義する。コンストラクタの指定は、頂点の番号。
/// おすすめとしては、UnionFind<T>[] で宣言してしまう。
/// 配列で宣言したあと、コンストラクタ使ってnewするのを忘れないでね。
/// コンストラクタのitemは、そのノード固有のIDになるので、絶対必要です
/// </summary>
/// <typeparam name="T">int固定でいいよね。</typeparam>
class UnionFind<T> {
public int tree_height;
public UnionFind<T> parent;
public T item { get; private set; }
public UnionFind(T item) {
tree_height = 0;
parent = this;
this.item = item;
}
/// <summary>
/// 一番上の親を探す。
/// 探しながら繋がり方を最適化している。
/// UnionFindの頂点そのものを返すので、==での比較が可能。
/// </summary>
/// <returns></returns>
public UnionFind<T> FindAdam() {
if (parent == this)
return this;
else {
UnionFind<T> ParentOfParent = parent.FindAdam();
parent = ParentOfParent; //縦長な構成をつなぎ直している
return ParentOfParent;
}
}
/// <summary>
/// unionfind2つを一つにつなぐ。
/// </summary>
/// <param name="a"></param>
/// <param name="b"></param>
public static void Unite(UnionFind<T> a, UnionFind<T> b) {
UnionFind<T> ParentOfA = a.FindAdam();
UnionFind<T> ParentOfB = b.FindAdam();
if (ParentOfA.tree_height < ParentOfB.tree_height) {
ParentOfA.parent = ParentOfB;
ParentOfB.tree_height =
Math.Max(ParentOfA.tree_height + 1, ParentOfB.tree_height);
} else {
ParentOfB.parent = ParentOfA;
ParentOfA.tree_height =
Math.Max(ParentOfB.tree_height + 1, ParentOfA.tree_height);
}
}
public static string convertToBinary(int N, int length) {
string binary = Convert.ToString(N, 2);
while (length > binary.Length) {
binary = "0" + binary;
}
return binary;
}
}
// Treap 平衡二分木
class Treap<T>
where T : IComparable {
private class Node {
private static Random g_rand = new Random();
private readonly int m_rank = g_rand.Next();
private readonly T m_value;
private Node m_lch;
private Node m_rch;
private int m_count;
public Node(T value) {
m_value = value;
m_count = 1;
}
private static int Count(Node node) {
return (node != null) ? node.m_count : 0;
}
private Node Update() {
m_count = Count(m_lch) + Count(m_rch) + 1;
return this;
}
public static Node Merge(Node a, Node b) {
if (a == null) {
return b;
}
if (b == null) {
return a;
}
if (a.m_rank < b.m_rank) {
a.m_rch = Merge(a.m_rch, b);
return a.Update();
} else {
b.m_lch = Merge(a, b.m_lch);
return b.Update();
}
}
public static Tuple<Node, Node> Split(Node t, int k) {
if (t == null) {
return new Tuple<Node, Node>(null, null);
}
if (k <= Count(t.m_lch)) {
var pair = Split(t.m_lch, k);
t.m_lch = pair.Item2;
return new Tuple<Node, Node>(pair.Item1, t.Update());
} else {
var pair = Split(t.m_rch, k - Count(t.m_lch) - 1);
t.m_rch = pair.Item1;
return new Tuple<Node, Node>(t.Update(), pair.Item2);
}
}
public int FindIndex(T value) {
int L = Count(m_lch);
if (value.CompareTo(m_value) < 0) {
return (m_lch != null) ? m_lch.FindIndex(value) : 0;
} else if (value.CompareTo(m_value) > 0) {
return (m_rch != null) ? m_rch.FindIndex(value) + L + 1 : L + 1;
} else {
return L;
}
}
public T this[int i] {
get {
int L = Count(m_lch);
if (i < L) {
return m_lch[i];
} else if (i > L) {
return m_rch[i - L - 1];
} else {
return m_value;
}
}
}
}
private Node node;
public void Insert(T value) {
if (node != null) {
int k = node.FindIndex(value);
var pair = Node.Split(node, k);
node = Node.Merge(Node.Merge(pair.Item1, new Node(value)), pair.Item2);
} else {
node = new Node(value);
}
}
public int FindIndex(T value) { return node.FindIndex(value); }
public T this[int i] {
get { return node[i]; }
}
}
/// <summary>
/// 使い方:Permutation.next(配列) で次の配列を返す
/// 配列を受け取って、その配列の要素を全部使った組み合わせのうち、辞書順で次のものを返します。
/// もし、次のがない場合、空の配列を返します。
///
/// </summary>
/// <typeparam name="T"></typeparam>
class Permutation<T>
where T : IComparable {
public static T[] next(T[] letters) {
int pivot = -1;
for (int i = letters.Length - 2; i >= 0; i--) {
if (letters[i].CompareTo(letters[i + 1]) < 0) {
pivot = i;
break;
}
}
if (pivot == -1) {
return new T[0];
}
int big_min = letters.Length - 1;
T big_min_T = letters[letters.Length - 1];
for (int i = letters.Length - 1; i > pivot;
i--) { // big_min_Tより小さいかつ、pivotのより大きい
if (letters[pivot].CompareTo(letters[i]) > 0 &&
letters[pivot].CompareTo(big_min_T) < 0) {
big_min_T = letters[i];
big_min = i;
}
}
T temp = letters[pivot];
letters[pivot] = letters[big_min];
letters[big_min] = temp;
Array.Sort(letters, pivot + 1, letters.Length - pivot - 1);
return letters;
}
}
/// <summary>
/// 使い方 : Combination
/// .AllCombination(使える文字を、小さい順から配列にしたもの,ほしい文字数)
/// 使える文字を、小さい順から配列にしたものを重複ありで組み合わせて、stringのlistで出力する
///
/// </summary>
/// <typeparam name="T"></typeparam>
class Combination<T>
where T : IComparable {
private static bool stop = false;
public static List<string> AllCombination(T[] letters, int n) {
// n桁ですよね。
List<string> outlist = new List<string>();
T[] state = new T[n];
for (int i = 0; i < n; i++) {
state[i] = letters[0];
}
outlist.Add(String.Join(" ", state));
while (true) {
next_keta(ref state, state.Length - 1, letters);
if (stop)
break;
outlist.Add(string.Join(" ", state));
}
return outlist;
}
public static T[] next_keta(ref T[] state, int keta, T[] letters) {
if (keta == -1) {
stop = true;
return new T[0];
}
if (state[keta].CompareTo(letters[letters.Length - 1]) == 0) {
//見た桁を最初の要素にする処理を
state[keta] = letters[0];
return next_keta(ref state, keta - 1, letters);
} else {
int ketaindex = 0;
for (int i = 0; i < letters.Length; i++) {
if (state[keta].CompareTo(letters[i]) == 0) {
ketaindex = i;
break;
}
}
state[keta] = letters[ketaindex + 1];
return state;
}
}
}
namespace CompLib.Collections {
#region PriorityQueue
/// <summary>
/// 指定した型のインスタンスを最も価値が低い順に取り出すことが可能な可変サイズのコレクションを表します.
/// </summary>
/// <typeparam name="T">優先度付きキュー内の要素の型を指定します.</typeparam>
/// <remarks>内部的にはバイナリヒープによって実装されています.</remarks>
public class PriorityQueue<T> {
readonly List<T> heap = new List<T>();
readonly Comparison<T> cmp;
/// <summary>
/// デフォルトの比較子を使用してインスタンスを初期化します.
/// </summary>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue() { cmp = Comparer<T>.Default.Compare; }
/// <summary>
/// デリゲートで表されるような比較関数を使用してインスタンスを初期化します.
/// </summary>
/// <param name="comparison"></param>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue(Comparison<T> comparison) { cmp = comparison; }
/// <summary>
/// 指定された比較子を使用してインスタンスを初期化します.
/// </summary>
/// <param name="comparer"></param>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public PriorityQueue(IComparer<T> comparer) { cmp = comparer.Compare; }
/// <summary>
/// 優先度付きキューに要素を追加します.
/// </summary>
/// <param name="item">優先度付きキューに追加される要素</param>
/// <remarks>最悪計算量 O(log N) で実行されます.</remarks>
public void Enqueue(T item) {
var pos = heap.Count;
heap.Add(item);
while (pos > 0) {
var par = (pos - 1) / 2;
if (cmp(heap[par], item) <= 0)
break;
heap[pos] = heap[par];
pos = par;
}
heap[pos] = item;
}
/// <summary>
/// 優先度付きキューから最も価値が低い要素を削除し,返します.
/// </summary>
/// <returns>優先度付きキューから削除された要素.</returns>
/// <remarks>最悪計算量 O(log N) で実行されます.</remarks>
public T Dequeue() {
var ret = heap[0];
var pos = 0;
var x = heap[heap.Count - 1];
while (pos * 2 + 1 < heap.Count - 1) {
var lch = pos * 2 + 1;
var rch = pos * 2 + 2;
if (rch < heap.Count - 1 && cmp(heap[rch], heap[lch]) < 0)
lch = rch;
if (cmp(heap[lch], x) >= 0)
break;
heap[pos] = heap[lch];
pos = lch;
}
heap[pos] = x;
heap.RemoveAt(heap.Count - 1);
return ret;
}
/// <summary>
/// 優先度付きキューに含まれる最も価値が低い要素を削除せずに返します.
/// </summary>
/// <returns>優先度付きキューに含まれる最も価値が低い要素.</returns>
/// <remarks>この操作は O(1) で実行されます.</remarks>
public T Peek() { return heap[0]; }
/// <summary>
/// 優先度付きキュー内の要素の数を取得します.
/// </summary>
/// <returns>優先度付キュー内にある要素の数</returns>
/// <remarks>最悪計算量 O(1) で実行されます.</remarks>
public int Count {
get { return heap.Count; }
}
/// <summary>
/// 優先度付きキュー内に要素が存在するかどうかを O(1) で判定します.
/// </summary>
/// <returns>優先度付キュー内にある要素が存在するならば
/// true,そうでなければ false.</returns> <remarks>この操作は O(1)
/// で実行されます.</remarks>
public bool Any() { return heap.Count > 0; }
/// <summary>
/// 優先度付きキューに含まれる要素を昇順に並べて返します.
/// </summary>
/// <remarks>この操作は計算量 O(N log N)で実行されます.</remarks>
public T[] Items {
get {
var ret = heap.ToArray();
Array.Sort(ret, cmp);
return ret;
}
}
}
#endregion
}
/// <summary>
/// SEGTREEは1-BASE運用でございます
/// よろしくおねがいします
/// あと絶対コンストラクタ使ってね
/// </summary>
/// <typeparam name="T"></typeparam>
class Segtree<T> {
int n; //高さ
T[] tree; //本体
Func<T, T, T> f; //更新関数。a -> b -> ab使ったなにか
T exnum; //初期値
int count;
/// <summary>
/// !!!WARNING!!! 1-BASEです。
/// </summary>
/// <param name="m">要素の数の最大値。200001とか入れておくとよい</param>
/// <param name="f">2引数の関数</param>
/// <param
/// name="ex">葉に書いてある値の初期値。fの関数に影響を与えない数値、零元とかにしておくべき。バグり散らかす。</param>
public Segtree(int m, Func<T, T, T> f, T ex) {
this.count = 0;
this.f = f;
this.exnum = ex;
n = 1;
while (n < m)
n <<= 1;
tree = new T[(n << 1) - 1];
for (int i = 0; i < tree.Length; i++)
tree[i] = ex;
}
public Segtree(int m, T ini, Func<T, T, T> f, T ex) : this(m, f, ex) {
this.count = 0;
for (int i = 0; i < m; ++i)
tree[i + n - 1] = ini;
all_update();
}
/// <summary>
/// j番目の値をxにする。計算し直さないので、
/// 入れ替えた後はall_update();を使おう
/// </summary>
/// <param name="j">番目</param>
/// <param name="x">更新後の値</param>
public void assign_without_update(int j, T x) { tree[j + n - 1] = x; }
/// <summary>
/// j番目の値をxにする。計算し直すので、ちょっと計算時間がかかる
/// </summary>
/// <param name="j">番目</param>
/// <param name="x">更新後の値</param>
public void update(int j, T x) // j番目をxにする
{
int i = j + n - 1;
tree[i] = x;
while (i > 0) {
i = (i - 1) >> 1;
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
this.count++;
}
/// <summary>
/// 木を全部計算し直す。多分NlogN。違うかも知れないから
/// よかったら教えて
/// </summary>
public void all_update() {
for (int i = n - 2; i >= 0; i--)
tree[i] = f(tree[(i << 1) + 1], tree[(i << 1) + 2]);
}
public T look(int i) { return tree[i + n - 1]; }
/// <summary>
/// j番目を消す。
/// </summary>
/// <param name="j"></param>
public void delete (int j) {
int i = j + n - 1;
tree[i] = exnum;
int moved = 0;
while (true) {
tree[i + 1] = tree[i];
T check = tree[i];
moved++;
if (moved + j + 2 > count) {
break;
}
}
all_update();
}
// [s, t)
/// <summary>
/// s番目からt - 1 番目までの結果を返す。t番目は含まない。
/// これも当然のように1-BASE.
/// </summary>
/// <param name="s"></param>
/// <param name="t"></param>
/// <returns></returns>
public T run(int s, int t) { return query(s, t, 0, 0, n); }
T query(int s, int t, int k, int l, int r) {
if (r <= s || t <= l)
return exnum;
if (s <= l && r <= t)
return tree[k];
return f(query(s, t, (k << 1) + 1, l, (l + r) >> 1),
query(s, t, (k + 1) << 1, (l + r) >> 1, r));
}
}
public class pair<T> {
public T A;
public T B;
public pair() {}
public pair(T A, T B) {
this.A = A;
this.B = B;
}
}
public class chouten {
public int N;
public List<int> node;
public chouten(int n) {
this.N = n;
this.node = new List<int>();
}
}
public class ab {
public int a, b;
public ab(int a, int b) {
this.a = a;
this.b = b;
}
}
public class ABC {
// long[] sp = Console.ReadLine().Split().Select(long
// .Parse).ToArray(); int[] sp =
// Console.ReadLine().Split().Select(int.Parse).ToArray(); int N =
// int.Parse(Console.ReadLine());
// CompLib.Collections.PriorityQueue<?>
//文字列比較のcomparer
// StringComparer.OrdinalIgnoreCase
public static void Main() {
decimal b;
string[] split = Console.ReadLine().Split();
decimal a = decimal.Parse(split[0]);
b = decimal.Parse(split[1]);
Console.WriteLine(Math.Floor(Decimal.Multiply(a, b)));
}
}
public class info {
public int worst;
public int value;
public string kakko;
public bool used;
public info(int worst, int value, string kakko) {
this.worst = worst;
this.value = value;
this.kakko = kakko;
this.used = false;
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 0, 1, 0, 11, 12, 213, 63, 214, 205, 199], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 205, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 39, 199], ["-", 0, 198, 0, 200, 0, 212, 0, 74, 0, 25], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["-", 0, 212, 0, 74, 51, 23, 0, 16, 17, 48], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 21], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25]]
| 8
| 4,504
| 32
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace ConsoleApp1 {
class Program {
static void Main(string[] args) {
// input //
ulong A;
float B;
args = Console.ReadLine().Split();
A = ulong.Parse(args[0]);
B = float.Parse(args[1]);
Console.Write(((ulong)(A * B)).ToString());
Console.Read();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace ConsoleApp1 {
class Program {
static void Main(string[] args) {
// input //
decimal A;
decimal B;
args = Console.ReadLine().Split();
A = decimal.Parse(args[0]);
B = decimal.Parse(args[1]);
Console.Write((ulong)(A * B));
Console.Read();
}
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 1, 0, 11, 12, 213, 63, 214, 205, 199], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 205, 199], ["-", 0, 213, 63, 214, 205, 23, 0, 74, 0, 24], ["-", 63, 214, 205, 23, 0, 74, 51, 23, 0, 25], ["-", 0, 28, 0, 213, 63, 214, 205, 23, 0, 25], ["-", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["-", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["-", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24]]
| 8
| 103
| 14
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
public class MainClass {
public const long Giri = 1000000007;
public const long DpInf = 99999999999999;
public static void Main(string[] args) {
var p = Input();
Console.WriteLine(
Math.Floor(double.Parse(p[0]) * double.Parse(p[1])).ToString("0"));
}
static long GCD(long a, long b) {
var v = new[] { a, b };
while (v[1] != 0) {
v = new[] { v[1], v[0] % v[1] };
}
return v[0];
}
public static string[] Input() { return Console.ReadLine().Split(); }
}
public static class Smarter {
public static int ToInt(this string str) { return int.Parse(str); }
public static long ToLong(this string str) { return long.Parse(str); }
public static int[] ToInt(this string[] str, int offset = 0) {
var r = new int[str.Length];
for (int i = 0; i < str.Length; i++)
r[i] = str[i].ToInt() + offset;
return r;
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
public class MainClass {
public const long Giri = 1000000007;
public const long DpInf = 99999999999999;
public static void Main(string[] args) {
var p = Input();
decimal a1 = decimal.Parse(p[0]);
decimal a2 = decimal.Parse(p[1]);
Console.WriteLine(decimal.Floor(a1 * a2));
}
static long GCD(long a, long b) {
var v = new[] { a, b };
while (v[1] != 0) {
v = new[] { v[1], v[0] % v[1] };
}
return v[0];
}
public static string[] Input() { return Console.ReadLine().Split(); }
}
public static class Smarter {
public static int ToInt(this string str) { return int.Parse(str); }
public static long ToLong(this string str) { return long.Parse(str); }
public static int[] ToInt(this string[] str, int offset = 0) {
var r = new int[str.Length];
for (int i = 0; i < str.Length; i++)
r[i] = str[i].ToInt() + offset;
return r;
}
}
|
[["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 213, 63, 214, 205, 213, 63, 214, 205, 22], ["-", 0, 213, 63, 214, 205, 213, 63, 214, 0, 131], ["-", 0, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["-", 0, 213, 63, 214, 205, 213, 3, 4, 0, 24], ["-", 0, 28, 0, 16, 31, 213, 63, 214, 205, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 205, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["-", 0, 28, 0, 16, 12, 213, 63, 214, 205, 199], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 28, 0, 16, 12, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 199], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22]]
| 8
| 289
| 35
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace AtCoder.Contests.ABC169 {
/// <summary>
///
/// </summary>
static class C {
static void Main(string[] args) {
var a = NextLong();
var b = double.Parse(Next());
Console.WriteLine(Math.Floor(a * b));
}
#region Console
static int _index = 0;
static string[] _buffer;
static string Next() {
if (_buffer == null || _index >= _buffer.Length) {
_buffer = Console.ReadLine().Split();
_index = 0;
}
return _buffer[_index++];
}
static int NextInt() { return int.Parse(Next()); }
static long NextLong() { return long.Parse(Next()); }
static int ReadInt() { return int.Parse(Console.ReadLine()); }
static long ReadLong() { return long.Parse(Console.ReadLine()); }
static int[] ReadIntArray() {
return Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
}
static int[] ReadIntArray(int n) {
var a = new int[n];
for (int i = 0; i < n; i++) {
a[i] = ReadInt();
}
return a;
}
static long[] ReadLongArray() {
return Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
}
static long[] ReadLongArray(int n) {
var a = new long[n];
for (int i = 0; i < n; i++) {
a[i] = ReadLong();
}
return a;
}
static List<T> ReadObjects<T>(int n, Func<int[], T> creator) {
var l = new List<T>(n);
for (int i = 0; i < n; i++) {
var a = ReadIntArray();
l.Add(creator(a));
}
return l;
}
static int[,] ReadMatrix(int n, int m) {
var r = new int[n, m];
for (int i = 0; i < n; i++) {
var a = ReadIntArray();
for (int j = 0; j < m; j++) {
r[i, j] = a[j];
}
}
return r;
}
#endregion
}
}
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace AtCoder.Contests.ABC169 {
/// <summary>
///
/// </summary>
static class C {
static void Main(string[] args) {
// var a = NextLong();
// var b = (long)(double.Parse(Next())*100);
var a = decimal.Parse(Next());
var b = decimal.Parse(Next());
Console.WriteLine(Math.Floor(a * b));
}
#region Console
static int _index = 0;
static string[] _buffer;
static string Next() {
if (_buffer == null || _index >= _buffer.Length) {
_buffer = Console.ReadLine().Split();
_index = 0;
}
return _buffer[_index++];
}
static int NextInt() { return int.Parse(Next()); }
static long NextLong() { return long.Parse(Next()); }
static int ReadInt() { return int.Parse(Console.ReadLine()); }
static long ReadLong() { return long.Parse(Console.ReadLine()); }
static int[] ReadIntArray() {
return Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
}
static int[] ReadIntArray(int n) {
var a = new int[n];
for (int i = 0; i < n; i++) {
a[i] = ReadInt();
}
return a;
}
static long[] ReadLongArray() {
return Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
}
static long[] ReadLongArray(int n) {
var a = new long[n];
for (int i = 0; i < n; i++) {
a[i] = ReadLong();
}
return a;
}
static List<T> ReadObjects<T>(int n, Func<int[], T> creator) {
var l = new List<T>(n);
for (int i = 0; i < n; i++) {
var a = ReadIntArray();
l.Add(creator(a));
}
return l;
}
static int[,] ReadMatrix(int n, int m) {
var r = new int[n, m];
for (int i = 0; i < n; i++) {
var a = ReadIntArray();
for (int j = 0; j < m; j++) {
r[i, j] = a[j];
}
}
return r;
}
#endregion
}
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 213, 63, 22], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 24], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199]]
| 8
| 525
| 9
|
using System;
using System.Collections.Generic;
class Program {
static Dictionary<long, long> slist = new Dictionary<long, long>();
static void Main() {
String[] inline = Console.ReadLine().Split(' ');
long n = long.Parse(inline[0]);
long ans = 0;
var list = plen(n);
foreach (long l in list) {
long i = 1;
long j = l;
while (i <= j) {
j -= i;
i++;
ans++;
}
}
Console.WriteLine(ans == 0 ? n == 1 ? 0 : 1 : ans);
}
static List<long> plen(long n) {
long i = 2;
double tmp = Math.Sqrt(n);
var list = new List<long>();
while ((double)i <= tmp) {
long index = 0;
while (true) {
if (n % i == 0) {
index++;
n /= i;
} else {
if (index != 0) {
list.Add(index);
}
break;
}
}
i++;
}
return list;
}
}
|
using System;
using System.Collections.Generic;
class Program {
static Dictionary<long, long> slist = new Dictionary<long, long>();
static void Main() {
String[] inline = Console.ReadLine().Split(' ');
long n = long.Parse(inline[0]);
long ans = 0;
var list = plen(n);
foreach (long l in list) {
long i = 1;
long j = l;
while (i <= j) {
j -= i;
i++;
ans++;
}
}
Console.WriteLine(ans == 0 ? n == 1 ? 0 : 1 : ans);
}
static List<long> plen(long n) {
long i = 2;
double tmp = Math.Sqrt(n);
var list = new List<long>();
while ((double)i <= tmp) {
long index = 0;
while (true) {
if (n % i == 0) {
index++;
n /= i;
} else {
if (index != 0) {
list.Add(index);
}
break;
}
}
i++;
}
if (n > tmp) {
list.Add(1);
}
return list;
}
}
|
[["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46]]
| 8
| 243
| 15
|
using System;
namespace ABC169D {
class Program {
static void Main(string[] args) {
long n = long.Parse(Console.ReadLine());
int x = 0;
long d = 2;
long z = 0;
while (d * d <= n) {
if (n % d != 0)
d++;
z = d;
while (n % z == 0) {
x += 1;
n /= z;
z *= d;
}
while (n % d == 0)
n /= d;
d++;
}
// if (n != 1)
// x++;
Console.WriteLine(x);
}
}
}
|
using System;
namespace ABC169D {
class Program {
static void Main(string[] args) {
long n = long.Parse(Console.ReadLine());
int x = 0;
long d = 2;
long z = 0;
while (d * d <= n) {
if (n % d != 0)
d++;
z = d;
while (n % z == 0) {
x += 1;
n /= z;
z *= d;
}
while (n % d == 0)
n /= d;
d++;
}
if (n != 1)
x++;
Console.WriteLine(x);
}
}
}
|
[["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 79], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 8, 196, 0, 57, 64, 1, 0, 223, 0, 22], ["+", 8, 196, 0, 57, 64, 1, 0, 223, 0, 29], ["+", 0, 195, 8, 196, 0, 57, 64, 1, 0, 35]]
| 8
| 122
| 9
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ConsoleAppTest {
class DivGame {
static void Main(string[] args) {
ulong num = ulong.Parse(Console.ReadLine());
// ulong num = 4;
ulong checkNum = (ulong)Math.Sqrt(num);
int methodNum = 0;
if (num < 2) {
Console.WriteLine(0);
} else {
for (ulong i = 2; i <= checkNum; i += 2) {
int powCnt = 0;
int popCnt = 1;
while (num % i == 0) {
powCnt++;
num /= i;
if (powCnt == popCnt) {
methodNum++;
popCnt++;
powCnt = 0;
}
}
if (i == 2) {
i--;
}
}
if (methodNum == 0) {
methodNum = 1;
}
Console.WriteLine(methodNum);
}
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ConsoleAppTest {
class DivGame {
static void Main(string[] args) {
ulong num = ulong.Parse(Console.ReadLine());
ulong checkNum = (ulong)Math.Sqrt(num);
int methodNum = 0;
if (num < 2) {
Console.WriteLine(methodNum);
} else {
for (ulong i = 2; i <= checkNum; i += (1 + i % 2)) {
int powCnt = 0;
int popCnt = 1;
while (num % i == 0) {
powCnt++;
num /= i;
if (powCnt == popCnt) {
methodNum++;
popCnt++;
powCnt = 0;
}
}
}
if (num > checkNum) {
methodNum++;
}
Console.WriteLine(methodNum);
}
}
}
}
|
[["-", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 75, 196, 0, 7, 26, 11, 12, 23, 0, 24], ["+", 0, 7, 26, 11, 12, 23, 0, 16, 31, 203], ["+", 0, 7, 26, 11, 12, 23, 0, 16, 17, 72], ["+", 26, 11, 12, 23, 0, 16, 12, 16, 31, 22], ["+", 26, 11, 12, 23, 0, 16, 12, 16, 17, 109], ["+", 75, 196, 0, 7, 26, 11, 12, 23, 0, 25], ["-", 0, 7, 8, 196, 0, 52, 8, 196, 0, 46], ["-", 75, 196, 0, 7, 8, 196, 0, 57, 0, 121], ["-", 75, 196, 0, 7, 8, 196, 0, 57, 0, 24], ["-", 0, 7, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 7, 8, 196, 0, 57, 15, 16, 17, 60], ["-", 0, 7, 8, 196, 0, 57, 15, 16, 12, 203], ["-", 75, 196, 0, 7, 8, 196, 0, 57, 0, 25], ["-", 0, 7, 8, 196, 0, 57, 64, 196, 0, 45], ["-", 0, 57, 64, 196, 0, 1, 0, 223, 0, 22], ["-", 0, 57, 64, 196, 0, 1, 0, 223, 0, 68], ["-", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 57, 75, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 57, 75, 196, 0, 57, 15, 16, 17, 60], ["-", 0, 57, 75, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 57, 75, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 57, 75, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 57, 75, 196, 0, 57, 15, 16, 12, 22], ["-", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 12, 203], ["+", 0, 57, 64, 196, 0, 1, 0, 223, 0, 29]]
| 8
| 189
| 11
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace D {
class Program {
static void Main(string[] args) {
string line = Console.ReadLine();
long N = long.Parse(line);
var PrimeFactor = new List<long>();
// 素因数分解する
long sqrtN = (long)Math.Sqrt(N);
long tmp = N;
for (long i = 2; i <= sqrtN; i++) {
if (tmp % i == 0) {
PrimeFactor.Add(i);
tmp = tmp / i;
i--;
}
}
if (PrimeFactor.Count == 0 && N != 1)
PrimeFactor.Add(N);
// 各素数が何個ずつあるか調べる(個数のみが重要)
List<int> PrimeFactorCounts = new List<int>();
long before = 0;
int count = 0;
foreach (var data in PrimeFactor) {
if (before == 0) {
before = data;
count = 1;
} else if (before == data) {
count++;
} else {
before = data;
PrimeFactorCounts.Add(count);
count = 1;
}
}
if (count > 0)
PrimeFactorCounts.Add(count);
// 素数の個数について、1,2,3,4,…と削りながらカウントする
int ret = 0;
foreach (var data in PrimeFactorCounts) {
int next = 0;
for (int i = data; i > next; i -= next) {
ret++;
next++;
}
}
Console.WriteLine(ret);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace D {
class Program {
static void Main(string[] args) {
string line = Console.ReadLine();
long N = long.Parse(line);
var PrimeFactor = new List<long>();
// 素因数分解する
long sqrtN = (long)Math.Sqrt(N);
long tmp = N;
for (long i = 2; i <= sqrtN; i++) {
if (tmp % i == 0) {
PrimeFactor.Add(i);
tmp = tmp / i;
i--;
}
}
if (tmp > 1)
PrimeFactor.Add(tmp);
// 各素数が何個ずつあるか調べる(個数のみが重要)
List<int> PrimeFactorCounts = new List<int>();
long before = 0;
int count = 0;
foreach (var data in PrimeFactor) {
if (before == 0) {
before = data;
count = 1;
} else if (before == data) {
count++;
} else {
before = data;
PrimeFactorCounts.Add(count);
count = 1;
}
}
if (count > 0)
PrimeFactorCounts.Add(count);
// 素数の個数について、1,2,3,4,…と削りながらカウントする
int ret = 0;
foreach (var data in PrimeFactorCounts) {
int next = 0;
for (int i = data; i > next; i -= next) {
ret++;
next++;
}
}
Console.WriteLine(ret);
}
}
}
|
[["-", 0, 57, 15, 16, 31, 16, 31, 214, 205, 22], ["-", 0, 57, 15, 16, 31, 16, 31, 214, 0, 131], ["-", 0, 57, 15, 16, 31, 16, 31, 214, 141, 22], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 17, 60], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 12, 203], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 98], ["-", 8, 196, 0, 57, 15, 16, 12, 16, 31, 22], ["-", 8, 196, 0, 57, 15, 16, 12, 16, 17, 79], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["-", 64, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 64, 1, 0, 213, 3, 4, 0, 28, 0, 22]]
| 8
| 299
| 12
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ABC169D {
class Program {
static void Main(string[] args) {
long N = long.Parse(Console.ReadLine());
long num = N;
long[] z = new long[20];
int sousa = 0;
int x = 0;
int sosuu = 0;
if (N != 1) {
for (long i = 2; i * i <= num; i++) {
if (N >= i) {
if (N % i == 0) {
while (N % i == 0) {
z[x] += 1;
N = N / i;
// Console.WriteLine(z[x]);
}
x += 1;
sosuu = -1;
}
}
}
// Console.WriteLine(z[3]);
// Console.WriteLine(z[2]);
for (long i = 0; i < 20; i++) {
int j = 1;
int kaisuu = 0;
while (z[i] > 0) {
z[i] -= j;
j++;
if (z[i] >= 0) {
kaisuu++;
}
}
// Console.WriteLine(kaisuu);
if (kaisuu != 0) {
sousa += kaisuu;
}
}
if (sosuu == 0) {
sousa = 1;
}
} else {
sousa = 0;
}
Console.WriteLine(sousa);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ABC169D {
class Program {
static void Main(string[] args) {
long N = long.Parse(Console.ReadLine());
long num = N;
long[] z = new long[20];
int sousa = 0;
int x = 0;
int sosuu = 0;
// Console.WriteLine(N);
// Console.WriteLine(num);
if (N != 1) {
for (long i = 2; i < 1000000; i++) {
if (N >= i) {
if (N % i == 0) {
while (N % i == 0) {
z[x] += 1;
N = N / i;
// Console.WriteLine(z[x]);
}
x += 1;
}
}
}
if (N != 1) {
z[x + 1] += 1;
}
// Console.WriteLine(z[3]);
// Console.WriteLine(z[2]);
for (long i = 0; i < 20; i++) {
int j = 1;
int kaisuu = 0;
while (z[i] > 0) {
z[i] -= j;
j++;
if (z[i] >= 0) {
kaisuu++;
}
}
// Console.WriteLine(kaisuu);
if (kaisuu != 0) {
sousa += kaisuu;
}
}
} else {
sousa = 0;
}
Console.WriteLine(sousa);
}
}
}
|
[["-", 64, 196, 0, 7, 15, 16, 31, 16, 17, 48], ["-", 64, 196, 0, 7, 15, 16, 31, 16, 12, 22], ["-", 0, 57, 64, 196, 0, 7, 15, 16, 17, 19], ["-", 0, 57, 64, 196, 0, 7, 15, 16, 12, 22], ["+", 0, 57, 64, 196, 0, 7, 15, 16, 17, 18], ["+", 0, 57, 64, 196, 0, 7, 15, 16, 12, 203], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 12, 203], ["-", 64, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["-", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 64, 196, 0, 1, 0, 11, 12, 241, 0, 33], ["+", 0, 57, 64, 196, 0, 57, 64, 196, 0, 46], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 17, 79], ["+", 0, 57, 64, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 196, 0, 57, 64, 196, 0, 57, 0, 25], ["+", 0, 57, 64, 196, 0, 57, 64, 196, 0, 45], ["+", 64, 196, 0, 1, 0, 11, 31, 204, 205, 22], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 17, 72], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 107], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 12, 203], ["+", 64, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 7, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 121], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 24], ["-", 0, 57, 64, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 57, 64, 196, 0, 57, 15, 16, 17, 60], ["-", 0, 57, 64, 196, 0, 57, 15, 16, 12, 203], ["-", 8, 196, 0, 57, 64, 196, 0, 57, 0, 25], ["-", 0, 57, 64, 196, 0, 57, 64, 196, 0, 45]]
| 8
| 270
| 40
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace ConsoleApp1 {
public class Class {
static void Main(string[] args) {
var N = long.Parse(Console.ReadLine());
var C = new List<long>();
while (N != 1) {
while (N % 2 == 0) {
C.Add(2);
N /= 2;
}
for (var i = 3; i <= N / i; i += 2) {
while (N % i == 0) {
C.Add(i);
N /= i;
}
}
C.Add(N);
N /= N;
}
var tmp = C.GroupBy(_ => _)
.Where(x => x.Count() > 0)
.Select(x => x.Count())
.ToList();
var ans = 0;
for (var t = 0; t < tmp.Count(); t++) {
for (var i = 1; i <= tmp[t]; i++) {
if (tmp[t] - i >= 0) {
ans++;
tmp[t] -= i;
}
}
}
Console.Write(ans);
}
}
}
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace ConsoleApp1 {
public class Class {
static void Main(string[] args) {
var N = long.Parse(Console.ReadLine());
var C = new List<long>();
while (N != 1) {
while (N % 2 == 0) {
C.Add(2);
N /= 2;
}
for (var i = 3; i <= Math.Sqrt(N); i += 2) {
while (N % i == 0) {
C.Add(i);
N /= i;
}
}
if (N != 1) {
C.Add(N);
N /= N;
}
}
var tmp = C.GroupBy(_ => _)
.Where(x => x.Count() > 0)
.Select(x => x.Count())
.ToList();
var ans = 0;
for (var t = 0; t < tmp.Count(); t++) {
for (var i = 1; i <= tmp[t]; i++) {
if (tmp[t] - i >= 0) {
ans++;
tmp[t] -= i;
}
}
}
Console.Write(ans);
}
}
}
|
[["+", 0, 7, 15, 16, 12, 213, 63, 214, 205, 22], ["+", 0, 7, 15, 16, 12, 213, 63, 214, 0, 131], ["+", 0, 7, 15, 16, 12, 213, 63, 214, 141, 22], ["+", 0, 7, 15, 16, 12, 213, 3, 4, 0, 24], ["-", 8, 196, 0, 7, 15, 16, 12, 16, 17, 85], ["-", 8, 196, 0, 7, 15, 16, 12, 16, 12, 22], ["+", 0, 7, 15, 16, 12, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 52, 8, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 52, 8, 196, 0, 57, 0, 24], ["+", 0, 52, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 52, 8, 196, 0, 57, 15, 16, 17, 79], ["+", 0, 52, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 196, 0, 52, 8, 196, 0, 57, 0, 25], ["+", 0, 52, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 0, 52, 8, 196, 0, 57, 64, 196, 0, 46]]
| 8
| 254
| 15
|
using System;
using static System.Console;
using static Atcoder_Template_NetCore3.MyUtil;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Numerics;
using System.Threading.Tasks;
using System.IO;
namespace Atcoder_Template_NetCore3 {
class Program {
private const string sosuData =
"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";
static void Main() {
/* 素数データ生成時コード
var list = GetSosuList();
var bin = DataWriter.ToBinary(list);
var str = Convert.ToBase64String(bin);
*/
DataReader dataReader = new DataReader(Convert.FromBase64String(sosuData));
long input = long.Parse(ReadLine());
long n = input;
long ans = 0;
foreach (var current in dataReader.Read()) {
var div = current;
while (true) {
if (n % div == 0) {
ans++;
n = n / div;
div *= current;
} else {
break;
}
}
}
if (n > 1)
ans++;
WriteLine(ans);
}
#region 素数計算コード
private static List<int> GetSosuList() {
int maxValue = (int)Math.Pow(10, 6); //事前生成の範囲=制約の平方根
List<int> list = new List<int>();
Parallel.For(2, maxValue + 1, (int i) => {
var root = (int)Math.Sqrt(i);
bool isSosu = true;
for (int j = 2; j <= root; j++) {
if (i % j == 0)
isSosu = false;
}
if (isSosu) {
lock (list) { list.Add(i); }
}
});
list.Sort();
return list;
}
#endregion
#region 素数データ符号化 / 逆符号化コード
const int keta = 7;
const byte unit = 1 << keta;
const int valueMask = unit - 1;
class DataReader {
private readonly byte[] binary;
public DataReader(byte[] data) { this.binary = data; }
public IEnumerable<int> Read() {
int currentValue = 0;
int bitShift = 0;
foreach (var data in binary) {
if (data >> keta == 1) {
currentValue += ((data & valueMask) << (keta * bitShift));
bitShift++;
} else {
yield return currentValue + (data << (keta * bitShift));
currentValue = 0;
bitShift = 0;
}
}
}
}
static class DataWriter {
public static byte[] ToBinary(IEnumerable<int> data) {
List<byte> list = new List<byte>();
foreach (var num in data) {
var n = num;
while (true) {
var x = n & valueMask;
if (n >= unit) {
list.Add((byte)(unit + x));
n = n >> keta;
} else {
list.Add((byte)x);
break;
}
}
}
return list.ToArray();
}
}
#endregion
}
static class MyUtil {
/// <summary>
/// 指定の桁のビットを取得します。
/// </summary>
/// <param name="num"></param>
/// <param name="count">取得する桁。</param>
/// <returns></returns>
public static int GetBit(this int num, int count) {
int mask = (int)Math.Pow(2, count - 1);
return (num & mask) == 0 ? 0 : 1;
}
/// <summary>
/// <c>int</c>を2進数ビット配列に変換します。
/// </summary>
/// <param name="num"></param>
/// <returns></returns>
public static int[] ToBitArray(this int num) {
const int size = sizeof(int) * 8;
var array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = num.GetBit(size - i);
}
return array;
}
#region AutoGeneratedCode 整数読み取り系
public static ValueTuple<int, int> ReadInt2() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1]);
}
public static ValueTuple<long, long> ReadLong2() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1]);
}
public static ValueTuple<int, int, int> ReadInt3() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2]);
}
public static ValueTuple<long, long, long> ReadLong3() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2]);
}
public static ValueTuple<int, int, int, int> ReadInt4() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3]);
}
public static ValueTuple<long, long, long, long> ReadLong4() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3]);
}
public static ValueTuple<int, int, int, int, int> ReadInt5() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4]);
}
public static ValueTuple<long, long, long, long, long> ReadLong5() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4]);
}
public static ValueTuple<int, int, int, int, int, int> ReadInt6() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5]);
}
public static ValueTuple<long, long, long, long, long, long> ReadLong6() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5]);
}
public static ValueTuple<int, int, int, int, int, int, int> ReadInt7() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5],
input[6]);
}
public static ValueTuple<long, long, long, long, long, long, long>
ReadLong7() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5],
input[6]);
}
#endregion
public static int[] ReadintArray() {
return ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
}
public static long[] ReadlongArray() {
return ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
}
/// <summary>
/// <see
/// cref="IEnumerable{T}"/>の各要素を並べてコンソールに出力します。各要素の間には半角スペースが一つ入ります。
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="ts"></param>
public static void WriteToConsole<T>(this IEnumerable<T> ts) {
StringBuilder stringBuilder = new StringBuilder();
foreach (T t in ts) {
stringBuilder.Append(t.ToString());
stringBuilder.Append(" ");
}
stringBuilder.Remove(stringBuilder.Length - 1, 1);
Console.WriteLine(stringBuilder.ToString());
}
}
}
|
using System;
using static System.Console;
using static Atcoder_Template_NetCore3.MyUtil;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Numerics;
using System.Threading.Tasks;
using System.IO;
namespace Atcoder_Template_NetCore3 {
class Program {
private const string sosuData =
"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";
static void Main() {
/* 素数データ生成時コード
var list = GetSosuList();
var bin = DataWriter.ToBinary(list);
var str = Convert.ToBase64String(bin);
*/
DataReader dataReader = new DataReader(Convert.FromBase64String(sosuData));
long input = long.Parse(ReadLine());
long n = input;
long ans = 0;
foreach (var current in dataReader.Read()) {
var div = current;
while (true) {
if (n % div == 0) {
ans++;
n = n / div;
div *= current;
} else {
break;
}
}
}
if (n > Math.Pow(10, 6))
ans++;
WriteLine(ans);
}
#region 素数計算コード
private static List<int> GetSosuList() {
int maxValue = (int)Math.Pow(10, 6); //事前生成の範囲=制約の平方根
List<int> list = new List<int>();
Parallel.For(2, maxValue + 1, (int i) => {
var root = (int)Math.Sqrt(i);
bool isSosu = true;
for (int j = 2; j <= root; j++) {
if (i % j == 0)
isSosu = false;
}
if (isSosu) {
lock (list) { list.Add(i); }
}
});
list.Sort();
return list;
}
#endregion
#region 素数データ符号化 / 逆符号化コード
const int keta = 7;
const byte unit = 1 << keta;
const int valueMask = unit - 1;
class DataReader {
private readonly byte[] binary;
public DataReader(byte[] data) { this.binary = data; }
public IEnumerable<int> Read() {
int currentValue = 0;
int bitShift = 0;
foreach (var data in binary) {
if (data >> keta == 1) {
currentValue += ((data & valueMask) << (keta * bitShift));
bitShift++;
} else {
yield return currentValue + (data << (keta * bitShift));
currentValue = 0;
bitShift = 0;
}
}
}
}
static class DataWriter {
public static byte[] ToBinary(IEnumerable<int> data) {
List<byte> list = new List<byte>();
foreach (var num in data) {
var n = num;
while (true) {
var x = n & valueMask;
if (n >= unit) {
list.Add((byte)(unit + x));
n = n >> keta;
} else {
list.Add((byte)x);
break;
}
}
}
return list.ToArray();
}
}
#endregion
}
static class MyUtil {
/// <summary>
/// 指定の桁のビットを取得します。
/// </summary>
/// <param name="num"></param>
/// <param name="count">取得する桁。</param>
/// <returns></returns>
public static int GetBit(this int num, int count) {
int mask = (int)Math.Pow(2, count - 1);
return (num & mask) == 0 ? 0 : 1;
}
/// <summary>
/// <c>int</c>を2進数ビット配列に変換します。
/// </summary>
/// <param name="num"></param>
/// <returns></returns>
public static int[] ToBitArray(this int num) {
const int size = sizeof(int) * 8;
var array = new int[size];
for (int i = 0; i < size; i++) {
array[i] = num.GetBit(size - i);
}
return array;
}
#region AutoGeneratedCode 整数読み取り系
public static ValueTuple<int, int> ReadInt2() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1]);
}
public static ValueTuple<long, long> ReadLong2() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1]);
}
public static ValueTuple<int, int, int> ReadInt3() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2]);
}
public static ValueTuple<long, long, long> ReadLong3() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2]);
}
public static ValueTuple<int, int, int, int> ReadInt4() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3]);
}
public static ValueTuple<long, long, long, long> ReadLong4() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3]);
}
public static ValueTuple<int, int, int, int, int> ReadInt5() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4]);
}
public static ValueTuple<long, long, long, long, long> ReadLong5() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4]);
}
public static ValueTuple<int, int, int, int, int, int> ReadInt6() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5]);
}
public static ValueTuple<long, long, long, long, long, long> ReadLong6() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5]);
}
public static ValueTuple<int, int, int, int, int, int, int> ReadInt7() {
var input =
Console.ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5],
input[6]);
}
public static ValueTuple<long, long, long, long, long, long, long>
ReadLong7() {
var input =
Console.ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
return (input[0], input[1], input[2], input[3], input[4], input[5],
input[6]);
}
#endregion
public static int[] ReadintArray() {
return ReadLine().Split(' ').Select(s => int.Parse(s)).ToArray();
}
public static long[] ReadlongArray() {
return ReadLine().Split(' ').Select(s => long.Parse(s)).ToArray();
}
/// <summary>
/// <see
/// cref="IEnumerable{T}"/>の各要素を並べてコンソールに出力します。各要素の間には半角スペースが一つ入ります。
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="ts"></param>
public static void WriteToConsole<T>(this IEnumerable<T> ts) {
StringBuilder stringBuilder = new StringBuilder();
foreach (T t in ts) {
stringBuilder.Append(t.ToString());
stringBuilder.Append(" ");
}
stringBuilder.Remove(stringBuilder.Length - 1, 1);
Console.WriteLine(stringBuilder.ToString());
}
}
}
|
[["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 57, 15, 16, 12, 213, 63, 214, 205, 22], ["+", 0, 57, 15, 16, 12, 213, 63, 214, 0, 131], ["+", 0, 57, 15, 16, 12, 213, 63, 214, 141, 22], ["+", 0, 57, 15, 16, 12, 213, 3, 4, 0, 24], ["+", 15, 16, 12, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 57, 15, 16, 12, 213, 3, 4, 0, 21], ["+", 0, 57, 15, 16, 12, 213, 3, 4, 0, 25]]
| 8
| 1,760
| 9
|
using static System.Math;
using System.Collections.Generic;
using System.Linq;
using System;
public class Hello {
public static void Main() {
var n = long.Parse(Console.ReadLine().Trim());
if (n == 1) {
Console.WriteLine(0);
goto exit;
}
if (IsPrime(n)) {
Console.WriteLine(1);
goto exit;
}
var a = GeneratePrime((int)Sqrt(n));
var b = getPrime(n, a);
getAns(b);
exit:;
}
static void getAns(List<int> a) {
var ans = 0;
foreach (var x in a)
ans += getN(x);
Console.WriteLine(ans);
}
static int getN(int n) {
var p = 1;
while (true) {
if (p * (p + 1) > 2 * n)
return p - 1;
else if (p * (p + 1) == 2 * n)
return p;
else
p++;
}
}
static bool IsPrime(long n) {
if (n < 2)
return false;
else if (n == 2)
return true;
else if (n % 2 == 0)
return false;
double sqrtNum = Sqrt(n);
for (int i = 3; i <= sqrtNum; i += 2)
if (n % i == 0)
return false;
return true;
}
static List<int> getPrime(long n, List<int> a) {
var ans = new List<int>();
var t = n;
for (int i = 0; i < a.Count(); i++) {
if (a[i] > t)
break;
var count = 0;
while (true) {
if (t % a[i] == 0) {
t /= a[i];
count++;
if (IsPrime(t)) {
t = 1;
ans.Add(1);
}
} else {
if (count > 0)
ans.Add(count);
break;
}
}
}
return ans;
}
static List<int> GeneratePrime(int m) {
var a = new List<int>();
int p;
var sqrtMax = Math.Sqrt(m);
var s = Enumerable.Range(2, m - 1).ToList();
do {
p = s.First();
a.Add(p);
s.RemoveAll(n => n % p == 0);
} while (p < sqrtMax);
a.AddRange(s);
return a;
}
}
|
using static System.Math;
using System.Collections.Generic;
using System.Linq;
using System;
public class Hello {
public static void Main() {
var n = long.Parse(Console.ReadLine().Trim());
if (n == 1) {
Console.WriteLine(0);
goto exit;
}
if (IsPrime(n)) {
Console.WriteLine(1);
goto exit;
}
var a = GeneratePrime((int)Sqrt(n));
var b = getPrime(n, a);
getAns(b);
exit:;
}
static void getAns(List<int> a) {
var ans = 0;
foreach (var x in a)
ans += getN(x);
Console.WriteLine(ans);
}
static int getN(int n) {
var p = 1;
while (true) {
if (p * (p + 1) > 2 * n)
return p - 1;
else if (p * (p + 1) == 2 * n)
return p;
else
p++;
}
}
static bool IsPrime(long n) {
if (n < 2)
return false;
else if (n == 2)
return true;
else if (n % 2 == 0)
return false;
double sqrtNum = Sqrt(n);
for (int i = 3; i <= sqrtNum; i += 2)
if (n % i == 0)
return false;
return true;
}
static List<int> getPrime(long n, List<int> a) {
var ans = new List<int>();
var t = n;
for (int i = 0; i < a.Count(); i++) {
if (a[i] > t)
break;
var count = 0;
while (true) {
if (t % a[i] == 0) {
t /= a[i];
count++;
if (IsPrime(t) && t > a[i]) {
t = 1;
ans.Add(1);
}
} else {
if (count > 0)
ans.Add(count);
break;
}
}
}
return ans;
}
static List<int> GeneratePrime(int m) {
var a = new List<int>();
int p;
var sqrtMax = Math.Sqrt(m);
var s = Enumerable.Range(2, m - 1).ToList();
do {
p = s.First();
a.Add(p);
s.RemoveAll(n => n % p == 0);
} while (p < sqrtMax);
a.AddRange(s);
return a;
}
}
|
[["+", 0, 57, 64, 196, 0, 57, 15, 16, 17, 98], ["+", 64, 196, 0, 57, 15, 16, 12, 16, 31, 22], ["+", 64, 196, 0, 57, 15, 16, 12, 16, 17, 47], ["+", 0, 57, 15, 16, 12, 16, 12, 204, 205, 22], ["+", 15, 16, 12, 16, 12, 204, 206, 207, 0, 70], ["+", 12, 16, 12, 204, 206, 207, 0, 28, 0, 22], ["+", 15, 16, 12, 16, 12, 204, 206, 207, 0, 73]]
| 8
| 539
| 7
|
using static System.Math;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder {
class Program {
static void Main(string[] args) {
var n = long.Parse(ReadLine());
var sqrtN = Sqrt(n);
var factors = new Dictionary<long, long>();
if (n == 1) {
WriteLine(0);
return;
}
for (long i = 2; i <= sqrtN + 1; i += 2) {
while (n % i == 0) {
if (!factors.ContainsKey(i)) {
factors.Add(i, 0);
}
factors[i]++;
n /= i;
if (n == 1) {
break;
}
}
if (n == 1) {
break;
}
if (i == 2) {
i--;
}
}
if (!factors.Any()) {
WriteLine(1);
return;
}
long count = 0;
foreach (var value in factors.Values) {
var tmp = value;
long i = 1;
while (tmp > 0) {
if (tmp - i > i || tmp - i == 0) {
tmp -= i;
count++;
}
i++;
}
}
WriteLine(count);
}
}
}
|
using static System.Math;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder {
class Program {
static void Main(string[] args) {
var n = long.Parse(ReadLine());
var sqrtN = Sqrt(n);
var factors = new Dictionary<long, long>();
if (n == 1) {
WriteLine(0);
return;
}
for (long i = 2; i <= sqrtN + 2; i += 2) {
while (n % i == 0) {
if (!factors.ContainsKey(i)) {
factors.Add(i, 0);
}
factors[i]++;
n /= i;
if (n == 1) {
break;
}
}
if (n == 1) {
break;
}
if (i == 2) {
i--;
}
}
if (n != 1) {
factors.Add(n, 1);
}
if (!factors.Any()) {
WriteLine(1);
return;
}
long count = 0;
foreach (var value in factors.Values) {
var tmp = value;
long i = 1;
while (tmp > 0) {
if (tmp - i > i || tmp - i == 0) {
tmp -= i;
count++;
}
i++;
}
}
WriteLine(count);
}
}
}
|
[["-", 8, 196, 0, 7, 15, 16, 12, 16, 12, 203], ["+", 8, 196, 0, 7, 15, 16, 12, 16, 12, 203], ["+", 0, 7, 8, 196, 0, 57, 64, 196, 0, 46], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 79], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 21], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35]]
| 8
| 270
| 19
|
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
namespace MyProject {
class Program {
static void Main(string[] args) {
#if Local
var sw = new Stopwatch();
sw.Start();
Console.SetIn(new StreamReader("input.in"));
#endif
var solver = new Solver();
solver.Solve();
#if Local
Console.WriteLine($"{sw.ElapsedMilliseconds}ms");
#endif
}
}
class Solver {
public void Solve() {
var N = long.Parse(Console.ReadLine());
var hash = new HashSet<long>();
long pool = 1;
var list = PrimeFactors(N).ToList().OrderByDescending(elem => elem);
foreach (var prime in list) {
pool *= prime;
if (!hash.Contains(pool)) {
hash.Add(pool);
pool = 1;
}
}
Console.WriteLine(hash.Count());
}
public static IEnumerable<long> PrimeFactors(long n) {
long i = 2;
long tmp = n;
while (i * i <= n) //※1
{
if (tmp % i == 0) {
tmp /= i;
yield return i;
} else {
i++;
}
}
if (tmp != 1)
yield return tmp; //最後の素数も返す
}
}
}
|
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
namespace MyProject {
class Program {
static void Main(string[] args) {
#if Local
var sw = new Stopwatch();
sw.Start();
Console.SetIn(new StreamReader("input.in"));
#endif
var solver = new Solver();
solver.Solve();
#if Local
Console.WriteLine($"{sw.ElapsedMilliseconds}ms");
#endif
}
}
class Solver {
public void Solve() {
var N = long.Parse(Console.ReadLine());
var hash = new HashSet<long>();
long before = 1;
long pool = 1;
var list = PrimeFactors(N).ToList().OrderByDescending(elem => elem);
foreach (var prime in list) {
if (before != prime) {
pool = 1;
}
before = prime;
pool *= prime;
if (!hash.Contains(pool)) {
hash.Add(pool);
pool = 1;
}
}
Console.WriteLine(hash.Count());
}
public static IEnumerable<long> PrimeFactors(long n) {
long i = 2;
long tmp = n;
while (i * i <= n) //※1
{
if (tmp % i == 0) {
tmp /= i;
yield return i;
} else {
i++;
}
}
if (tmp != 1)
yield return tmp; //最後の素数も返す
}
}
}
|
[["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 210, 8, 196, 0, 57, 0, 121], ["+", 8, 196, 0, 210, 8, 196, 0, 57, 0, 24], ["+", 0, 210, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 210, 8, 196, 0, 57, 15, 16, 17, 79], ["+", 0, 210, 8, 196, 0, 57, 15, 16, 12, 22], ["+", 8, 196, 0, 210, 8, 196, 0, 57, 0, 25], ["+", 0, 210, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 12, 203], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["+", 0, 210, 8, 196, 0, 57, 64, 196, 0, 46], ["+", 0, 210, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 0, 210, 8, 196, 0, 1, 0, 11, 12, 22], ["+", 8, 196, 0, 210, 8, 196, 0, 1, 0, 35]]
| 8
| 285
| 21
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder {
class Abc169D {
public static void Main() {
var n = long.Parse(Console.ReadLine());
List<int> factors = Factorize(n);
var max = factors.Max();
int m = 3;
int x = 1;
var s = new int[max + 1];
for (int i = 1; i <= max; i++) {
if (m <= i) {
x++;
m = (x + 1) * (x + 2) / 2;
}
s[i] = x;
}
Console.WriteLine(factors.Sum(i => s[i]));
}
static List<int> Factorize(long n) {
var factors = new List<int>();
for (long i = 2; i * i <= n; i++) {
if (n % i == 0) {
int degree = 1;
while ((n /= i) % i == 0)
degree++;
factors.Add(degree);
}
}
if (n != 1)
factors.Add(1);
return factors;
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder {
class Abc169D {
public static void Main() {
var n = long.Parse(Console.ReadLine());
List<int> degree = Factorize(n);
if (!degree.Any()) {
Console.WriteLine(0);
return;
}
var max = degree.Max();
int m = 3;
int x = 1;
var s = new int[max + 1];
for (int i = 1; i <= max; i++) {
if (m <= i) {
x++;
m = (x + 1) * (x + 2) / 2;
}
s[i] = x;
}
Console.WriteLine(degree.Sum(i => s[i]));
}
static List<int> Factorize(long n) {
var factors = new List<int>();
for (long i = 2; i * i <= n; i++) {
if (n % i == 0) {
int degree = 1;
while ((n /= i) % i == 0)
degree++;
factors.Add(degree);
}
}
if (n != 1)
factors.Add(1);
return factors;
}
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 241, 0, 111], ["+", 0, 57, 15, 241, 0, 213, 63, 214, 205, 22], ["+", 0, 57, 15, 241, 0, 213, 63, 214, 0, 131], ["+", 0, 57, 15, 241, 0, 213, 63, 214, 141, 22], ["+", 0, 57, 15, 241, 0, 213, 3, 4, 0, 24], ["+", 0, 57, 15, 241, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["+", 8, 196, 0, 57, 64, 196, 0, 37, 0, 38], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["-", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22]]
| 8
| 247
| 26
|
using System;
using System.Linq;
class Program {
static readonly long INF = 100100100100;
static void Main(string[] args) {
long n = long.Parse(Console.ReadLine());
long count = 0;
if (IsPrime(n)) {
Console.WriteLine(1);
return;
}
for (long i = 2; i * i < n; i++) {
if (!IsPrime(i))
continue;
if (n % i == 0) {
long n2 = n / i;
long x = 1;
for (long j = 2; j < INF; j++) {
if (n2 % i != 0)
break;
n2 /= i;
x++;
}
for (long j = 1; j < INF; j++) {
x -= j;
if (x < 0)
break;
count++;
}
}
}
Console.WriteLine(count);
}
static bool IsPrime(long n) {
if (n == 1)
return false;
for (long i = 2; i * i <= n; i++)
if (n % i == 0)
return false;
return true;
}
}
|
using System;
using System.Linq;
class Program {
static readonly long INF = 100100100100;
static void Main(string[] args) {
long n = long.Parse(Console.ReadLine());
long count = 0;
if (IsPrime(n)) {
Console.WriteLine(1);
return;
}
for (long i = 2; i * i < n; i++) {
if (!IsPrime(i))
continue;
if (n % i == 0) {
n /= i;
long x = 1;
for (long j = 2; j < INF; j++) {
if (n % i != 0)
break;
n /= i;
x++;
}
for (long j = 1; j < INF; j++) {
x -= j;
if (x < 0)
break;
count++;
}
}
}
if (n > 1)
count++;
Console.WriteLine(count);
}
static bool IsPrime(long n) {
if (n == 1)
return false;
for (long i = 2; i * i <= n; i++)
if (n % i == 0)
return false;
return true;
}
}
|
[["-", 0, 57, 64, 196, 0, 197, 0, 198, 39, 199], ["-", 64, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 85], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 90], ["-", 8, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["+", 8, 196, 0, 57, 15, 16, 31, 16, 31, 22], ["-", 0, 7, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 0, 7, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["+", 8, 196, 0, 57, 64, 1, 0, 223, 0, 22], ["+", 8, 196, 0, 57, 64, 1, 0, 223, 0, 29], ["+", 0, 195, 8, 196, 0, 57, 64, 1, 0, 35]]
| 8
| 236
| 18
|
using System;
using System.Collections.Generic;
using System.Windows;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace Atcoder {
public class Program {
private static long mod = 1000000007;
static void Main(string[] args) {
var n = Read().Long();
var now = n;
var count = 0;
var l = PrimeFactors(n);
var use = new Dictionary<long, int>();
var pre = 0L;
var calc = 0L;
foreach (var item in l) {
if (use.ContainsKey(item)) {
calc = calc * item;
if (use.ContainsKey(calc))
continue;
count++;
pre = item;
calc = 1;
} else {
use.Add(item, 1);
pre = item;
calc = 1;
count++;
}
}
WriteRead(count);
}
public static IEnumerable<long> PrimeFactors(long n) {
long i = 2;
long tmp = n;
while (i * i <= n) //※1
{
if (tmp % i == 0) {
tmp /= i;
yield return i;
} else {
i++;
}
}
if (tmp != 1)
yield return tmp; //最後の素数も返す
}
class ModCombination {
public long _mod = 1000000007;
public int _max = 1000000;
long[] fac;
long[] finv;
long[] inv;
public ModCombination() : this(1000000007, 1000000) {}
public ModCombination(long mod, int max) {
_mod = mod;
_max = max;
fac = new long[max];
finv = new long[max];
inv = new long[max];
fac[0] = fac[1] = 1;
finv[0] = finv[1] = 1;
inv[1] = 1;
for (int i = 2; i < max; i++) {
fac[i] = fac[i - 1] * i % mod;
inv[i] = mod - inv[mod % i] * (mod / i) % mod;
finv[i] = finv[i - 1] * inv[i] % mod;
}
}
public long Combination(int n, int m) {
if (n < m)
return 0;
if (n < 0 || m < 0)
return 0;
return fac[n] * (finv[m] * finv[n - m] % _mod) % _mod;
}
}
public static string Read() { return Console.ReadLine(); }
public static string[] ReadSplit() { return Console.ReadLine().Split(' '); }
public static void WriteRead(object str) {
Console.WriteLine(str);
Read();
}
public static void Write(object str) { Console.WriteLine(str); }
private static bool ChangeMin<T>(ref T a, T b)
where T : IComparable {
if (a.CompareTo(b) > 0) {
a = b;
return true;
}
return false;
}
private static bool ChangekMax<T>(ref T a, T b)
where T : IComparable {
if (b.CompareTo(a) > 0) {
a = b;
return true;
}
return false;
}
}
}
public static class Extentions {
public static int Int(this object obj) { return int.Parse(obj.ToString()); }
public static long Long(this object obj) {
return long.Parse(obj.ToString());
}
public static decimal Decimal(this object obj) {
return decimal.Parse(obj.ToString());
}
public static double Double(this object obj) {
return double.Parse(obj.ToString());
}
public static T2 GetValueZero<T1, T2>(this Dictionary<T1, T2> d, T1 key)
where T2 : struct {
T2 value;
if (d.TryGetValue(key, out value)) {
return value;
}
return new T2();
}
}
|
using System;
using System.Collections.Generic;
using System.Windows;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace Atcoder {
public class Program {
private static long mod = 1000000007;
static void Main(string[] args) {
var n = Read().Long();
var now = n;
var count = 0;
var l = PrimeFactors(n);
var use = new Dictionary<long, int>();
var pre = 0L;
var calc = 0L;
foreach (var item in l) {
if (use.ContainsKey(item)) {
calc = calc * item;
if (use.ContainsKey(calc))
continue;
use.Add(calc, 1);
count++;
pre = item;
calc = 1;
} else {
use.Add(item, 1);
pre = item;
calc = 1;
count++;
}
}
WriteRead(count);
}
public static IEnumerable<long> PrimeFactors(long n) {
long i = 2;
long tmp = n;
while (i * i <= n) //※1
{
if (tmp % i == 0) {
tmp /= i;
yield return i;
} else {
i++;
}
}
if (tmp != 1)
yield return tmp; //最後の素数も返す
}
class ModCombination {
public long _mod = 1000000007;
public int _max = 1000000;
long[] fac;
long[] finv;
long[] inv;
public ModCombination() : this(1000000007, 1000000) {}
public ModCombination(long mod, int max) {
_mod = mod;
_max = max;
fac = new long[max];
finv = new long[max];
inv = new long[max];
fac[0] = fac[1] = 1;
finv[0] = finv[1] = 1;
inv[1] = 1;
for (int i = 2; i < max; i++) {
fac[i] = fac[i - 1] * i % mod;
inv[i] = mod - inv[mod % i] * (mod / i) % mod;
finv[i] = finv[i - 1] * inv[i] % mod;
}
}
public long Combination(int n, int m) {
if (n < m)
return 0;
if (n < 0 || m < 0)
return 0;
return fac[n] * (finv[m] * finv[n - m] % _mod) % _mod;
}
}
public static string Read() { return Console.ReadLine(); }
public static string[] ReadSplit() { return Console.ReadLine().Split(' '); }
public static void WriteRead(object str) {
Console.WriteLine(str);
Read();
}
public static void Write(object str) { Console.WriteLine(str); }
private static bool ChangeMin<T>(ref T a, T b)
where T : IComparable {
if (a.CompareTo(b) > 0) {
a = b;
return true;
}
return false;
}
private static bool ChangekMax<T>(ref T a, T b)
where T : IComparable {
if (b.CompareTo(a) > 0) {
a = b;
return true;
}
return false;
}
}
}
public static class Extentions {
public static int Int(this object obj) { return int.Parse(obj.ToString()); }
public static long Long(this object obj) {
return long.Parse(obj.ToString());
}
public static decimal Decimal(this object obj) {
return decimal.Parse(obj.ToString());
}
public static double Double(this object obj) {
return double.Parse(obj.ToString());
}
public static T2 GetValueZero<T1, T2>(this Dictionary<T1, T2> d, T1 key)
where T2 : struct {
T2 value;
if (d.TryGetValue(key, out value)) {
return value;
}
return new T2();
}
}
|
[["+", 64, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["+", 64, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 21], ["+", 0, 1, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 64, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35]]
| 8
| 822
| 9
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using static System.Math;
using System.Text;
using System.Threading;
using System.Globalization;
using System.Runtime.CompilerServices;
using Library;
namespace Program {
public static class ProblemD {
static bool SAIKI = false;
static public int numberOfRandomCases = 0;
static public void MakeTestCase(List<string> _input, List<string> _output,
ref Func<string[], bool> _outputChecker) {}
static public void Solve() {
var N = NN;
var rt = (long)Sqrt(N);
var ans = 0;
for (var i = 2; i <= rt; i++) {
var cnt = (long)i;
while (N % cnt == 0) {
++ans;
N /= cnt;
cnt *= i;
}
}
if (N > rt)
++ans;
Console.WriteLine(ans);
}
class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {
base.AutoFlush = false;
}
public Printer(Stream stream, Encoding encoding) : base(stream, encoding) {
base.AutoFlush = false;
}
}
static LIB_FastIO fastio = new LIB_FastIODebug();
static public void Main(string[] args) {
if (args.Length == 0) {
fastio = new LIB_FastIO();
Console.SetOut(new Printer(Console.OpenStandardOutput()));
}
if (SAIKI) {
var t = new Thread(Solve, 134217728);
t.Start();
t.Join();
} else
Solve();
Console.Out.Flush();
}
static long NN => fastio.Long();
static double ND => fastio.Double();
static string NS => fastio.Scan();
static long[] NNList(long N) => Repeat(0, N).Select(_ => NN).ToArray();
static double[] NDList(long N) => Repeat(0, N).Select(_ => ND).ToArray();
static string[] NSList(long N) => Repeat(0, N).Select(_ => NS).ToArray();
static long Count<T>(this IEnumerable<T> x,
Func<T, bool> pred) => Enumerable.Count(x, pred);
static IEnumerable<T> Repeat<T>(T v, long n) => Enumerable.Repeat<T>(v,
(int)n);
static IEnumerable<int> Range(long s, long c) => Enumerable.Range((int)s,
(int)c);
static IOrderedEnumerable<T>
OrderByRand<T>(this IEnumerable<T> x) => Enumerable.OrderBy(x, _ => xorshift);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x) =>
Enumerable.OrderBy(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1> OrderBy<T1, T2>(this IEnumerable<T1> x,
Func<T1, T2> selector) =>
Enumerable.OrderBy(x.OrderByRand(), selector);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x) =>
Enumerable.OrderByDescending(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1>
OrderByDescending<T1, T2>(this IEnumerable<T1> x, Func<T1, T2> selector) =>
Enumerable.OrderByDescending(x.OrderByRand(), selector);
static IOrderedEnumerable<string> OrderBy(this IEnumerable<string> x) =>
x.OrderByRand().OrderBy(e => e, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderBy(selector, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<string>
OrderByDescending(this IEnumerable<string> x) =>
x.OrderByRand().OrderByDescending(e => e,
StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderByDescending(selector,
StringComparer.OrdinalIgnoreCase);
static uint xorshift {
get {
_xsi.MoveNext();
return _xsi.Current;
}
}
static IEnumerator<uint> _xsi = _xsc();
static IEnumerator<uint> _xsc() {
uint x = 123456789, y = 362436069, z = 521288629,
w = (uint)(DateTime.Now.Ticks & 0xffffffff);
while (true) {
var t = x ^ (x << 11);
x = y;
y = z;
z = w;
w = (w ^ (w >> 19)) ^ (t ^ (t >> 8));
yield return w;
}
}
}
}
namespace Library {
class LIB_FastIO {
public LIB_FastIO() { str = Console.OpenStandardInput(); }
readonly Stream str;
readonly byte[] buf = new byte[1024];
int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
virtual public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
virtual public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
virtual public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
class LIB_FastIODebug : LIB_FastIO {
Queue<string> param = new Queue<string>();
string NextString() {
if (param.Count == 0)
foreach (var item in Console.ReadLine().Split(' '))
param.Enqueue(item);
return param.Dequeue();
}
public LIB_FastIODebug() {}
public override string Scan() => NextString();
public override long Long() => long.Parse(NextString());
public override double Double() => double.Parse(NextString());
}
}
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using static System.Math;
using System.Text;
using System.Threading;
using System.Globalization;
using System.Runtime.CompilerServices;
using Library;
namespace Program {
public static class ProblemD {
static bool SAIKI = false;
static public int numberOfRandomCases = 0;
static public void MakeTestCase(List<string> _input, List<string> _output,
ref Func<string[], bool> _outputChecker) {}
static public void Solve() {
var N = NN;
var rt = (long)Sqrt(N);
var ans = 0;
for (var i = 2; i <= rt; i++) {
var cnt = (long)i;
while (N % cnt == 0) {
++ans;
N /= cnt;
cnt *= i;
}
while (N % i == 0)
N /= i;
}
if (N > rt)
++ans;
Console.WriteLine(ans);
}
class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {
base.AutoFlush = false;
}
public Printer(Stream stream, Encoding encoding) : base(stream, encoding) {
base.AutoFlush = false;
}
}
static LIB_FastIO fastio = new LIB_FastIODebug();
static public void Main(string[] args) {
if (args.Length == 0) {
fastio = new LIB_FastIO();
Console.SetOut(new Printer(Console.OpenStandardOutput()));
}
if (SAIKI) {
var t = new Thread(Solve, 134217728);
t.Start();
t.Join();
} else
Solve();
Console.Out.Flush();
}
static long NN => fastio.Long();
static double ND => fastio.Double();
static string NS => fastio.Scan();
static long[] NNList(long N) => Repeat(0, N).Select(_ => NN).ToArray();
static double[] NDList(long N) => Repeat(0, N).Select(_ => ND).ToArray();
static string[] NSList(long N) => Repeat(0, N).Select(_ => NS).ToArray();
static long Count<T>(this IEnumerable<T> x,
Func<T, bool> pred) => Enumerable.Count(x, pred);
static IEnumerable<T> Repeat<T>(T v, long n) => Enumerable.Repeat<T>(v,
(int)n);
static IEnumerable<int> Range(long s, long c) => Enumerable.Range((int)s,
(int)c);
static IOrderedEnumerable<T>
OrderByRand<T>(this IEnumerable<T> x) => Enumerable.OrderBy(x, _ => xorshift);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x) =>
Enumerable.OrderBy(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1> OrderBy<T1, T2>(this IEnumerable<T1> x,
Func<T1, T2> selector) =>
Enumerable.OrderBy(x.OrderByRand(), selector);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x) =>
Enumerable.OrderByDescending(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1>
OrderByDescending<T1, T2>(this IEnumerable<T1> x, Func<T1, T2> selector) =>
Enumerable.OrderByDescending(x.OrderByRand(), selector);
static IOrderedEnumerable<string> OrderBy(this IEnumerable<string> x) =>
x.OrderByRand().OrderBy(e => e, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderBy(selector, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<string>
OrderByDescending(this IEnumerable<string> x) =>
x.OrderByRand().OrderByDescending(e => e,
StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderByDescending(selector,
StringComparer.OrdinalIgnoreCase);
static uint xorshift {
get {
_xsi.MoveNext();
return _xsi.Current;
}
}
static IEnumerator<uint> _xsi = _xsc();
static IEnumerator<uint> _xsc() {
uint x = 123456789, y = 362436069, z = 521288629,
w = (uint)(DateTime.Now.Ticks & 0xffffffff);
while (true) {
var t = x ^ (x << 11);
x = y;
y = z;
z = w;
w = (w ^ (w >> 19)) ^ (t ^ (t >> 8));
yield return w;
}
}
}
}
namespace Library {
class LIB_FastIO {
public LIB_FastIO() { str = Console.OpenStandardInput(); }
readonly Stream str;
readonly byte[] buf = new byte[1024];
int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
virtual public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
virtual public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
virtual public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
class LIB_FastIODebug : LIB_FastIO {
Queue<string> param = new Queue<string>();
string NextString() {
if (param.Count == 0)
foreach (var item in Console.ReadLine().Split(' '))
param.Enqueue(item);
return param.Dequeue();
}
public LIB_FastIODebug() {}
public override string Scan() => NextString();
public override long Long() => long.Parse(NextString());
public override double Double() => double.Parse(NextString());
}
}
|
[["+", 8, 196, 0, 7, 8, 196, 0, 52, 0, 89], ["+", 8, 196, 0, 7, 8, 196, 0, 52, 0, 24], ["+", 8, 196, 0, 52, 15, 16, 31, 16, 31, 22], ["+", 8, 196, 0, 52, 15, 16, 31, 16, 17, 109], ["+", 8, 196, 0, 52, 15, 16, 31, 16, 12, 22], ["+", 0, 7, 8, 196, 0, 52, 15, 16, 17, 60], ["+", 0, 7, 8, 196, 0, 52, 15, 16, 12, 203], ["+", 8, 196, 0, 7, 8, 196, 0, 52, 0, 25], ["+", 8, 196, 0, 52, 8, 1, 0, 11, 31, 22], ["+", 0, 52, 8, 1, 0, 11, 0, 202, 0, 90], ["+", 8, 196, 0, 52, 8, 1, 0, 11, 12, 22], ["+", 0, 7, 8, 196, 0, 52, 8, 1, 0, 35]]
| 8
| 1,485
| 12
|
using System;
using System.Collections.Generic;
using System.Linq;
class MainClass {
static void Main() {
int N = int.Parse(Console.ReadLine());
var min = new double[N];
var max = new double[N];
for (int i = 0; i < N; i++) {
var r = Console.ReadLine().Split().Select(int.Parse).ToArray();
min[i] = r[0];
max[i] = r[1];
}
Array.Sort(min);
Array.Sort(max);
if (N % 2 == 1) {
Console.WriteLine(max[N / 2] - min[N / 2] + 1);
} else {
Console.WriteLine(Math.Ceiling((max[N / 2] + max[N / 2 - 1]) / 2 -
(min[N / 2] + min[N / 2 - 1]) / 2) *
2 +
1);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
class MainClass {
static void Main() {
int N = int.Parse(Console.ReadLine());
var min = new int[N];
var max = new int[N];
for (int i = 0; i < N; i++) {
var r = Console.ReadLine().Split().Select(int.Parse).ToArray();
min[i] = r[0];
max[i] = r[1];
}
Array.Sort(min);
Array.Sort(max);
if (N % 2 == 1) {
Console.WriteLine(max[N / 2] - min[N / 2] + 1);
} else {
Console.WriteLine((max[N / 2] + max[N / 2 - 1]) -
(min[N / 2] + min[N / 2 - 1]) + 1);
}
}
}
|
[["-", 0, 200, 0, 212, 0, 227, 39, 224, 39, 199], ["+", 0, 200, 0, 212, 0, 227, 39, 224, 39, 199], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 205, 22], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 0, 131], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 141, 22], ["-", 0, 28, 0, 16, 31, 16, 31, 23, 0, 24], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 17, 85], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 12, 203], ["-", 3, 4, 0, 28, 0, 16, 12, 16, 17, 85], ["-", 3, 4, 0, 28, 0, 16, 12, 16, 12, 203], ["-", 0, 16, 31, 16, 31, 213, 3, 4, 0, 25], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 17, 48]]
| 8
| 220
| 15
|
using System;
using System.Collections.Generic;
using System.Linq;
public class Solution {
static double Median(long[] x) {
x = x.OrderBy(xx => xx).ToArray();
var n = x.Length;
if (n % 2 == 0) {
return (x[n / 2 - 1] + x[n / 2]) / 2;
} else {
return x[n / 2];
}
}
public static void Main() {
var N = int.Parse(Console.ReadLine());
var min = new long[N];
var max = new long[N];
for (int i = 0; i < N; i++) {
var vals = Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
min[i] = vals[0];
max[i] = vals[1];
}
var left = Median(min);
var right = Median(max);
var answer = right - left;
if (N % 2 == 0) {
answer *= 2;
}
answer++;
Console.WriteLine(answer);
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
public class Solution {
static long Median2(long[] x) {
x = x.OrderBy(xx => xx).ToArray();
var n = x.Length;
if (n % 2 == 0) {
return (x[n / 2 - 1] + x[n / 2]);
} else {
return x[n / 2] * 2;
}
}
public static void Main() {
var N = int.Parse(Console.ReadLine());
var min = new long[N];
var max = new long[N];
for (int i = 0; i < N; i++) {
var vals = Console.ReadLine().Split(' ').Select(long.Parse).ToArray();
min[i] = vals[0];
max[i] = vals[1];
}
var left = Median2(min);
var right = Median2(max);
var answer = right - left;
if (N % 2 != 0) {
answer /= 2;
}
answer++;
Console.WriteLine(answer);
}
}
|
[["-", 0, 208, 0, 235, 8, 201, 0, 195, 39, 199], ["-", 0, 208, 0, 235, 8, 201, 0, 195, 141, 22], ["+", 0, 208, 0, 235, 8, 201, 0, 195, 39, 199], ["+", 0, 208, 0, 235, 8, 201, 0, 195, 141, 22], ["-", 0, 57, 64, 196, 0, 37, 0, 16, 17, 85], ["-", 0, 57, 64, 196, 0, 37, 0, 16, 12, 203], ["+", 0, 57, 75, 196, 0, 37, 0, 16, 17, 48], ["+", 0, 57, 75, 196, 0, 37, 0, 16, 12, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 60], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 79], ["-", 64, 196, 0, 1, 0, 11, 0, 202, 0, 108], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 90]]
| 8
| 245
| 3
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text;
using static System.Console;
using static System.Math;
namespace Atcoder {
class Program {
static StreamWriter sw =
new StreamWriter(OpenStandardOutput()) { AutoFlush = false };
static void Main(string[] args) {
try {
SetOut(sw);
Solve.Answer();
Out.Flush();
} catch (Exception ex) {
WriteLine(ex.ToString());
}
}
}
public class Solve {
public static void Answer() {
var n = IO.RInt;
var a = new int[n];
var b = new int[n];
for (int i = 0; i < n; i++) {
var ab = IO.RSInt;
a[i] = ab[0];
b[i] = ab[1];
}
Array.Sort(a);
Array.Sort(b);
int Minx;
int Maxx;
if (n % 2 == 1) {
Minx = a[a.Length / 2];
Maxx = b[b.Length / 2];
WriteLine(Maxx - Minx + 1);
} else {
Minx = (a[a.Length / 2] + a[a.Length / 2 - 1]) / 2;
double mi = (double)(a[a.Length / 2] + a[a.Length / 2 - 1]) / 2;
bool fmi = Minx == mi;
Maxx = (b[b.Length / 2] + b[b.Length / 2 - 1]) / 2;
double ma = (double)(b[b.Length / 2] + b[b.Length / 2 - 1]) / 2;
bool fma = Maxx == ma;
if ((fmi && !fma) || (!fmi && fma)) {
WriteLine(2 * (Maxx - Minx));
} else {
WriteLine(2 * (Maxx - Minx) + 1);
}
}
}
}
public class IO {
#region Input
public static int RInt => int.Parse(ReadLine());
public static long RLong => long.Parse(ReadLine());
public static double RDouble => double.Parse(ReadLine());
public static string[] RSString => ReadLine().Split();
public static int[] RSInt =>
ReadLine().Split().Select(s => int.Parse(s)).ToArray();
public static long[] RSLong =>
ReadLine().Split().Select(s => long.Parse(s)).ToArray();
public static double[] RSDouble =>
ReadLine().Split().Select(s => double.Parse(s)).ToArray();
#endregion
#region Output
public static void
OutJoinSpace<T>(IEnumerable<T> list) => WriteLine(string.Join(" ", list));
public static void WriteLineYes_or_No(bool flag) => WriteLine(flag ? "Yes"
: "No");
public static void WriteLineYES_or_NO(bool flag) => WriteLine(flag ? "YES"
: "NO");
#endregion
}
public class Mod {
#region
private readonly static long M = 1000000007;
public static long Add(long a, long b) => (a * b) % M;
public static long Sub(long a, long b) => (a - b) % M >= 0 ? (a - b) % M
: (a - b) % M + M;
public static long Multi(long a, long b) => (a * b) % M;
#endregion
}
}
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text;
using static System.Console;
using static System.Math;
namespace Atcoder {
class Program {
static StreamWriter sw =
new StreamWriter(OpenStandardOutput()) { AutoFlush = false };
static void Main(string[] args) {
try {
SetOut(sw);
Solve.Answer();
Out.Flush();
} catch (Exception ex) {
WriteLine(ex.ToString());
}
}
}
public class Solve {
public static void Answer() {
var n = IO.RInt;
var a = new int[n];
var b = new int[n];
for (int i = 0; i < n; i++) {
var ab = IO.RSInt;
a[i] = ab[0];
b[i] = ab[1];
}
Array.Sort(a);
Array.Sort(b);
int Minx;
int Maxx;
if (n % 2 == 1) {
Minx = a[a.Length / 2];
Maxx = b[b.Length / 2];
WriteLine(Maxx - Minx + 1);
} else {
Minx = (a[a.Length / 2] + a[a.Length / 2 - 1]) / 2;
double mi = (double)(a[a.Length / 2] + a[a.Length / 2 - 1]) / 2;
bool fmi = Minx == mi;
Maxx = (b[b.Length / 2] + b[b.Length / 2 - 1]) / 2;
double ma = (double)(b[b.Length / 2] + b[b.Length / 2 - 1]) / 2;
bool fma = Maxx == ma;
// if ((fmi && !fma) || (!fmi && fma))
//{
// WriteLine(2 * (Maxx - Minx + 1));
//}
// else
//{
// WriteLine(2 * (Maxx - Minx) + 1);
//}
WriteLine(2 * (ma - mi) + 1);
}
}
}
public class IO {
#region Input
public static int RInt => int.Parse(ReadLine());
public static long RLong => long.Parse(ReadLine());
public static double RDouble => double.Parse(ReadLine());
public static string[] RSString => ReadLine().Split();
public static int[] RSInt =>
ReadLine().Split().Select(s => int.Parse(s)).ToArray();
public static long[] RSLong =>
ReadLine().Split().Select(s => long.Parse(s)).ToArray();
public static double[] RSDouble =>
ReadLine().Split().Select(s => double.Parse(s)).ToArray();
#endregion
#region Output
public static void
OutJoinSpace<T>(IEnumerable<T> list) => WriteLine(string.Join(" ", list));
public static void WriteLineYes_or_No(bool flag) => WriteLine(flag ? "Yes"
: "No");
public static void WriteLineYES_or_NO(bool flag) => WriteLine(flag ? "YES"
: "NO");
#endregion
}
public class Mod {
#region
private readonly static long M = 1000000007;
public static long Add(long a, long b) => (a * b) % M;
public static long Sub(long a, long b) => (a - b) % M >= 0 ? (a - b) % M
: (a - b) % M + M;
public static long Multi(long a, long b) => (a * b) % M;
#endregion
}
}
|
[["-", 8, 196, 0, 57, 75, 196, 0, 57, 0, 121], ["-", 8, 196, 0, 57, 75, 196, 0, 57, 0, 24], ["-", 75, 196, 0, 57, 15, 16, 31, 23, 0, 24], ["-", 0, 57, 15, 16, 31, 23, 0, 16, 31, 22], ["-", 0, 57, 15, 16, 31, 23, 0, 16, 17, 98], ["-", 15, 16, 31, 23, 0, 16, 12, 241, 0, 111], ["-", 15, 16, 31, 23, 0, 16, 12, 241, 0, 22], ["-", 75, 196, 0, 57, 15, 16, 31, 23, 0, 25], ["-", 0, 57, 75, 196, 0, 57, 15, 16, 17, 106], ["-", 75, 196, 0, 57, 15, 16, 12, 23, 0, 24], ["-", 15, 16, 12, 23, 0, 16, 31, 241, 0, 111], ["-", 15, 16, 12, 23, 0, 16, 31, 241, 0, 22], ["-", 0, 57, 15, 16, 12, 23, 0, 16, 17, 98], ["-", 0, 57, 15, 16, 12, 23, 0, 16, 12, 22], ["-", 75, 196, 0, 57, 15, 16, 12, 23, 0, 25], ["-", 8, 196, 0, 57, 75, 196, 0, 57, 0, 25], ["-", 0, 57, 75, 196, 0, 57, 64, 196, 0, 45], ["-", 0, 57, 64, 196, 0, 1, 0, 213, 63, 22], ["-", 64, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 31, 203], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["-", 3, 4, 0, 28, 0, 16, 12, 23, 0, 24], ["-", 0, 28, 0, 16, 12, 23, 0, 16, 31, 22], ["-", 0, 28, 0, 16, 12, 23, 0, 16, 17, 33], ["-", 0, 28, 0, 16, 12, 23, 0, 16, 12, 22], ["-", 3, 4, 0, 28, 0, 16, 12, 23, 0, 25], ["-", 64, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["-", 75, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["-", 0, 57, 75, 196, 0, 57, 64, 196, 0, 46], ["-", 8, 196, 0, 57, 75, 196, 0, 57, 0, 95], ["-", 0, 57, 75, 196, 0, 57, 75, 196, 0, 45], ["-", 0, 16, 31, 16, 12, 23, 0, 16, 31, 22], ["+", 0, 16, 31, 16, 12, 23, 0, 16, 31, 22], ["-", 0, 16, 31, 16, 12, 23, 0, 16, 12, 22], ["+", 0, 16, 31, 16, 12, 23, 0, 16, 12, 22], ["-", 0, 57, 75, 196, 0, 57, 75, 196, 0, 46]]
| 8
| 767
| 36
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace ConsoleApp1 {
public class Class {
static void Main(string[] args) {
var N = long.Parse(Console.ReadLine());
var A = new long[N];
var B = new long[N];
for (var i = 0; i < N; i++) {
var AB = RL<long>();
A[i] = AB[0];
B[i] = AB[1];
}
Array.Sort(A);
Array.Sort(B);
if (N % 2 == 0) {
var a = A[N / 2 - 1] + A[N / 2];
var b = B[N / 2 - 1] + B[N / 2];
var ans = b - a + a;
Console.Write(ans);
} else {
var ans = B[N / 2] - A[N / 2] + 1;
Console.Write(ans);
}
}
static T[] RL<T>()
where T : IComparable {
if (typeof(T) == typeof(int)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(int.Parse)
.ToArray();
}
if (typeof(T) == typeof(long)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(long.Parse)
.ToArray();
}
if (typeof(T) == typeof(double)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(double.Parse)
.ToArray();
}
if (typeof(T) == typeof(decimal)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(decimal.Parse)
.ToArray();
}
return (T[])(object)Console.ReadLine().Trim().Split().ToArray();
}
}
}
|
using System;
using System.Linq;
using System.Collections.Generic;
namespace ConsoleApp1 {
public class Class {
static void Main(string[] args) {
var N = long.Parse(Console.ReadLine());
var A = new long[N];
var B = new long[N];
for (var i = 0; i < N; i++) {
var AB = RL<long>();
A[i] = AB[0];
B[i] = AB[1];
}
Array.Sort(A);
Array.Sort(B);
if (N % 2 == 0) {
var a = A[N / 2] + A[(N / 2) - 1];
var b = B[N / 2] + B[(N / 2) - 1];
var ans = b - a + 1;
Console.Write(ans);
} else {
var ans = B[(N + 1) / 2 - 1] - A[(N + 1) / 2 - 1] + 1;
Console.Write(ans);
}
}
static T[] RL<T>()
where T : IComparable {
if (typeof(T) == typeof(int)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(int.Parse)
.ToArray();
}
if (typeof(T) == typeof(long)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(long.Parse)
.ToArray();
}
if (typeof(T) == typeof(double)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(double.Parse)
.ToArray();
}
if (typeof(T) == typeof(decimal)) {
return (T[])(object)Console.ReadLine()
.Trim()
.Split()
.Select(decimal.Parse)
.ToArray();
}
return (T[])(object)Console.ReadLine().Trim().Split().ToArray();
}
}
}
|
[["-", 31, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["-", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 206, 207, 0, 28, 0, 16, 31, 23, 0, 24], ["+", 206, 207, 0, 28, 0, 16, 31, 23, 0, 25], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203], ["+", 0, 28, 0, 16, 31, 16, 31, 23, 0, 24], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 17, 72], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 12, 203], ["+", 0, 28, 0, 16, 31, 16, 31, 23, 0, 25], ["+", 31, 16, 31, 204, 206, 207, 0, 28, 0, 16], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 31, 16], ["+", 206, 207, 0, 28, 0, 16, 31, 16, 31, 23], ["+", 0, 28, 0, 16, 31, 16, 31, 23, 0, 16], ["+", 31, 16, 31, 23, 0, 16, 12, 203, 12, 203], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203]]
| 8
| 455
| 27
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using static System.Console;
using static System.Math;
namespace AtTest.ABC_169 {
class E {
static void Main(string[] args) {
var sw = new System.IO.StreamWriter(OpenStandardOutput()) { AutoFlush =
false };
SetOut(sw);
Method(args);
Out.Flush();
}
static void Method(string[] args) {
int n = ReadInt();
int[][] abs = new int [n][];
for (int i = 0; i < n; i++) {
abs[i] = ReadInts();
if (n % 2 == 0) {
abs[i][0] *= 2;
abs[i][1] *= 2;
}
}
int left = 0;
Array.Sort(abs, (a, b) => a[0] - b[0]);
if (n % 2 == 0) {
left = (abs[n / 2 - 1][0] + abs[n / 2][0]) / 2;
} else {
left = abs[n / 2][0];
}
int right = 0;
Array.Sort(abs, (a, b) => a[1] - b[1]);
if (n % 2 == 0) {
right = (abs[n / 2 - 1][1] + abs[n / 2][1]) / 2;
} else {
right = abs[n / 2][1];
}
WriteLine(right - left + 1);
}
private static string Read() { return ReadLine(); }
private static char[] ReadChars() {
return Array.ConvertAll(Read().Split(), a => a[0]);
}
private static int ReadInt() { return int.Parse(Read()); }
private static long ReadLong() { return long.Parse(Read()); }
private static double ReadDouble() { return double.Parse(Read()); }
private static int[] ReadInts() {
return Array.ConvertAll(Read().Split(), int.Parse);
}
private static long[] ReadLongs() {
return Array.ConvertAll(Read().Split(), long.Parse);
}
private static double[] ReadDoubles() {
return Array.ConvertAll(Read().Split(), double.Parse);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using static System.Console;
using static System.Math;
namespace AtTest.ABC_169 {
class E {
static void Main(string[] args) {
var sw = new System.IO.StreamWriter(OpenStandardOutput()) { AutoFlush =
false };
SetOut(sw);
Method(args);
Out.Flush();
}
static void Method(string[] args) {
int n = ReadInt();
long[][] abs = new long [n][];
for (int i = 0; i < n; i++) {
abs[i] = ReadLongs();
if (n % 2 == 0) {
abs[i][0] *= 2;
abs[i][1] *= 2;
}
}
long left = 0;
abs = abs.OrderBy(a => a[0]).ToArray();
if (n % 2 == 0) {
left = (abs[n / 2 - 1][0] + abs[n / 2][0]) / 2;
} else {
left = abs[n / 2][0];
}
long right = 0;
abs = abs.OrderBy(a => a[1]).ToArray();
if (n % 2 == 0) {
right = (abs[n / 2 - 1][1] + abs[n / 2][1]) / 2;
} else {
right = abs[n / 2][1];
}
WriteLine(right - left + 1);
}
private static string Read() { return ReadLine(); }
private static char[] ReadChars() {
return Array.ConvertAll(Read().Split(), a => a[0]);
}
private static int ReadInt() { return int.Parse(Read()); }
private static long ReadLong() { return long.Parse(Read()); }
private static double ReadDouble() { return double.Parse(Read()); }
private static int[] ReadInts() {
return Array.ConvertAll(Read().Split(), int.Parse);
}
private static long[] ReadLongs() {
return Array.ConvertAll(Read().Split(), long.Parse);
}
private static double[] ReadDoubles() {
return Array.ConvertAll(Read().Split(), double.Parse);
}
}
}
|
[["-", 0, 197, 0, 198, 39, 224, 39, 224, 39, 199], ["+", 0, 197, 0, 198, 39, 224, 39, 224, 39, 199], ["-", 0, 212, 0, 227, 39, 224, 39, 224, 39, 199], ["+", 0, 212, 0, 227, 39, 224, 39, 224, 39, 199], ["-", 8, 196, 0, 1, 0, 11, 12, 213, 63, 22], ["+", 8, 196, 0, 1, 0, 11, 12, 213, 63, 22], ["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 21], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 12, 213, 63, 214, 205, 213, 63, 214, 205, 22], ["+", 12, 213, 63, 214, 205, 213, 63, 214, 0, 131], ["+", 12, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["-", 3, 4, 0, 28, 0, 218, 54, 55, 0, 21], ["-", 0, 28, 0, 218, 54, 55, 0, 220, 141, 22], ["-", 3, 4, 0, 28, 0, 218, 54, 55, 0, 25], ["-", 0, 218, 8, 16, 31, 204, 206, 207, 0, 70], ["-", 8, 16, 31, 204, 206, 207, 0, 28, 0, 203], ["-", 0, 218, 8, 16, 31, 204, 206, 207, 0, 73], ["-", 3, 4, 0, 28, 0, 218, 8, 16, 17, 33], ["-", 0, 28, 0, 218, 8, 16, 12, 204, 205, 22], ["+", 12, 213, 63, 214, 205, 213, 3, 4, 0, 25], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 0, 131], ["+", 0, 1, 0, 11, 12, 213, 63, 214, 141, 22], ["+", 0, 1, 0, 11, 12, 213, 3, 4, 0, 24], ["+", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["-", 3, 4, 0, 28, 0, 218, 54, 55, 0, 24]]
| 8
| 530
| 52
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace ProblemE {
class Program {
class Range {
public int Max { get; set; }
public int Min { get; set; }
public Range(int max, int min) {
Max = max;
Min = min;
}
}
static void Main() {
int N = int.Parse(Console.ReadLine());
var A = new List<int>();
var B = new List<int>();
var range = new Range[N];
for (int i = 0; i < N; i++) {
var temp = Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
range[i] = new Range(temp[1], temp[0]);
A.Add(temp[0]);
B.Add(temp[1]);
}
A.Sort();
B.Sort((a, b) => b - a);
var ans = new List<int>();
if (N % 2 == 1) {
int min = A[N / 2];
int max = B[N / 2];
Console.WriteLine(max - min + 1);
} else {
var listx = new List<int>();
var listy = new List<int>();
int min = A[N / 2 - 1];
int max = B[N / 2 - 1];
Console.WriteLine((max - min) * 2 - 1);
}
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace ProblemE {
class Program {
class Range {
public int Max { get; set; }
public int Min { get; set; }
public Range(int max, int min) {
Max = max;
Min = min;
}
}
static void Main() {
int N = int.Parse(Console.ReadLine());
var A = new List<int>();
var B = new List<int>();
var range = new Range[N];
for (int i = 0; i < N; i++) {
var temp = Console.ReadLine().Split(' ').Select(int.Parse).ToArray();
range[i] = new Range(temp[1], temp[0]);
A.Add(temp[0]);
B.Add(temp[1]);
}
A.Sort();
B.Sort((a, b) => b - a);
var ans = new List<int>();
if (N % 2 == 1) {
int min = A[N / 2];
int max = B[N / 2];
Console.WriteLine(max - min + 1);
} else {
var listx = new List<int>();
var listy = new List<int>();
int doublemin = A[N / 2 - 1] + A[N / 2];
int doublemax = B[N / 2 - 1] + B[N / 2];
Console.WriteLine(doublemax - doublemin + 1);
}
}
}
}
|
[["-", 75, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 75, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 212, 0, 16, 31, 204, 206, 207, 0, 73], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["+", 0, 200, 0, 212, 0, 16, 12, 204, 205, 22], ["+", 0, 212, 0, 16, 12, 204, 206, 207, 0, 70], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 17, 85], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["-", 75, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 31, 22], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 17, 33], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 12, 22], ["-", 0, 28, 0, 16, 31, 16, 31, 23, 0, 25], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 17, 48], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 12, 203], ["+", 3, 4, 0, 28, 0, 16, 31, 16, 31, 22], ["+", 3, 4, 0, 28, 0, 16, 31, 16, 12, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 72]]
| 8
| 335
| 28
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Text;
using System.Numerics;
using System.Threading;
using static System.Math;
using static System.Array;
using static AtCoder.IO_ShortCut;
using static AtCoder.Tool;
using static AtCoder.ModInt;
namespace AtCoder {
class AC {
const int MOD = 1000000007;
// const int MOD = 998244353;
const int INF = int.MaxValue / 2;
const long SINF = long.MaxValue / 2;
const double EPS = 1e-8;
static readonly int[] dI = { 0, 1, 0, -1, 1, -1, -1, 1 };
static readonly int[] dJ = { 1, 0, -1, 0, 1, 1, -1, -1 };
// static List<List<int>> G = new List<List<int>>();
static List<List<Edge>> G = new List<List<Edge>>();
// static List<Edge> E = new List<Edge>();
static void Main(string[] args) {
// var sw = new StreamWriter(Console.OpenStandardOutput()) { AutoFlush =
// false }; Console.SetOut(sw);
/*var th = new Thread(Run, 1 << 26);
th.Start();
th.Join();*/
Run();
Console.Out.Flush();
}
static void Run() {
int Testcase = 1;
for (var _ = 0; _ < Testcase; _++)
Solve();
}
static void Solve() {
int N = Int;
var A = new int[N];
var B = new int[N];
for (var i = 0; i < N; i++)
Input(out A[i], out B[i]);
Sort(A);
Sort(B);
if (N % 2 == 0) {
OutL(B[N / 2] - A[N / 2 - 1] + 1);
} else {
OutL(B[N / 2] - A[N / 2] + 1);
}
}
public struct Edge {
public int from;
public int to;
public long dist;
public Edge(int t, long c) {
from = -1;
to = t;
dist = c;
}
public Edge(int f, int t, long c) {
from = f;
to = t;
dist = c;
}
}
}
struct ModInt {
public long value;
private const int MOD = 1000000007;
// private const int MOD = 998244353;
public ModInt(long value) { this.value = value; }
public static implicit operator ModInt(long a) {
var ret = a % MOD;
return new ModInt(ret < 0 ? (ret + MOD) : ret);
}
public static ModInt operator +(ModInt a, ModInt b) => (a.value + b.value);
public static ModInt operator -(ModInt a, ModInt b) => (a.value - b.value);
public static ModInt operator *(ModInt a, ModInt b) => (a.value * b.value);
public static ModInt operator /(ModInt a, ModInt b) => a * Modpow(b, MOD - 2);
public static ModInt operator <<(ModInt a, int n) => (a.value << n);
public static ModInt operator>>(ModInt a, int n) => (a.value >> n);
public static ModInt operator ++(ModInt a) => a.value + 1;
public static ModInt operator --(ModInt a) => a.value - 1;
public static ModInt Modpow(ModInt a, long n) {
var k = a;
ModInt ret = 1;
while (n > 0) {
if ((n & 1) != 0)
ret *= k;
k *= k;
n >>= 1;
}
return ret;
}
private static readonly List<long> Factorials = new List<long>() { 1 };
public static ModInt Fac(long n) {
for (var i = Factorials.Count(); i <= n; i++) {
Factorials.Add((Factorials[i - 1] * i) % MOD);
}
return Factorials[(int)n];
}
public static ModInt nCr(long n, long r) {
return n < r ? 0 : Fac(n) / (Fac(r) * Fac(n - r));
}
public static explicit operator int(ModInt a) => (int)a.value;
}
static class IO_ShortCut {
public static string[] _ReadSplit => Console.ReadLine().Split();
public static int[] _ReadSplitInt =>
ConvertAll(Console.ReadLine().Split(), int.Parse);
public static long[] _ReadSplitLong =>
ConvertAll(Console.ReadLine().Split(), long.Parse);
public static double[] _ReadSplit_Double =>
ConvertAll(Console.ReadLine().Split(), double.Parse);
public static string Str => Console.ReadLine();
public static int Int => int.Parse(Console.ReadLine());
public static long Long => long.Parse(Console.ReadLine());
public static double Double => double.Parse(Console.ReadLine());
public static T Conv<T>(string input) {
if (typeof(T).Equals(typeof(ModInt))) {
return (T)(dynamic)(long.Parse(input));
}
return (T)Convert.ChangeType(input, typeof(T));
}
public static void Input<T>(out T a) => a = Conv<T>(Console.ReadLine());
public static void Input<T, U>(out T a, out U b) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
}
public static void Input<T, U, V>(out T a, out U b, out V c) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
}
public static void Input<T, U, V, W>(out T a, out U b, out V c, out W d) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
d = Conv<W>(q[3]);
}
public static void Input<T, U, V, W, X>(out T a, out U b, out V c, out W d,
out X e) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
d = Conv<W>(q[3]);
e = Conv<X>(q[4]);
}
public static void OutL(object s) => Console.WriteLine(s);
public static void
Out_Sep<T>(IEnumerable<T> s) => Console.WriteLine(string.Join(" ", s));
public static void Out_Sep<T>(IEnumerable<T> s, string sep) =>
Console.WriteLine(string.Join($"{sep}", s));
public static void
Out_Sep(params object[] s) => Console.WriteLine(string.Join(" ", s));
public static void Out_One(object s) => Console.Write($"{s} ");
public static void Out_One(object s,
string sep) => Console.Write($"{s}{sep}");
public static void Endl() => Console.WriteLine();
}
public static class Tool {
static public void Initialize<T>(ref T[] array, T initialvalue) {
array = ConvertAll(array, x => initialvalue);
}
static public void Swap<T>(ref T a, ref T b) {
T keep = a;
a = b;
b = keep;
}
static public void Display<T>(T[,] array2d, int n, int m) {
for (var i = 0; i < n; i++) {
for (var j = 0; j < m; j++) {
Console.Write($"{array2d[i, j]} ");
}
Console.WriteLine();
}
}
static public long Gcd(long a, long b) {
if (a == 0 || b == 0)
return Max(a, b);
return a % b == 0 ? b : Gcd(b, a % b);
}
static public long LPow(int a, int b) => (long)Pow(a, b);
static public bool Bit(long x, int dig) => ((1L << dig) & x) != 0;
static public int Sig(long a) => a == 0 ? 0 : (int)(a / Abs(a));
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Text;
using System.Numerics;
using System.Threading;
using static System.Math;
using static System.Array;
using static AtCoder.IO_ShortCut;
using static AtCoder.Tool;
using static AtCoder.ModInt;
namespace AtCoder {
class AC {
// const int MOD = 1000000007;
const int MOD = 998244353;
const int INF = int.MaxValue / 2;
const long SINF = long.MaxValue / 2;
const double EPS = 1e-8;
static readonly int[] dI = { 0, 1, 0, -1, 1, -1, -1, 1 };
static readonly int[] dJ = { 1, 0, -1, 0, 1, 1, -1, -1 };
// static List<List<int>> G = new List<List<int>>();
static List<List<Edge>> G = new List<List<Edge>>();
// static List<Edge> E = new List<Edge>();
static void Main(string[] args) {
// var sw = new StreamWriter(Console.OpenStandardOutput()) { AutoFlush =
// false }; Console.SetOut(sw);
/*var th = new Thread(Run, 1 << 26);
th.Start();
th.Join();*/
Run();
Console.Out.Flush();
}
static void Run() {
int Testcase = 1;
for (var _ = 0; _ < Testcase; _++)
Solve();
}
static void Solve() {
int N = Int;
var A = new long[N];
var B = new long[N];
for (var i = 0; i < N; i++)
Input(out A[i], out B[i]);
Sort(A);
Sort(B);
if (N % 2 == 1) {
OutL(B[(N - 1) / 2] - A[(N - 1) / 2] + 1);
} else {
OutL(B[N / 2 - 1] + B[N / 2] - A[N / 2 - 1] - A[N / 2] + 1);
}
}
public struct Edge {
public int from;
public int to;
public long dist;
public Edge(int t, long c) {
from = -1;
to = t;
dist = c;
}
public Edge(int f, int t, long c) {
from = f;
to = t;
dist = c;
}
}
}
struct ModInt {
public long value;
// private const int MOD = 1000000007;
private const int MOD = 998244353;
public ModInt(long value) { this.value = value; }
public static implicit operator ModInt(long a) {
var ret = a % MOD;
return new ModInt(ret < 0 ? (ret + MOD) : ret);
}
public static ModInt operator +(ModInt a, ModInt b) => (a.value + b.value);
public static ModInt operator -(ModInt a, ModInt b) => (a.value - b.value);
public static ModInt operator *(ModInt a, ModInt b) => (a.value * b.value);
public static ModInt operator /(ModInt a, ModInt b) => a * Modpow(b, MOD - 2);
public static ModInt operator <<(ModInt a, int n) => (a.value << n);
public static ModInt operator>>(ModInt a, int n) => (a.value >> n);
public static ModInt operator ++(ModInt a) => a.value + 1;
public static ModInt operator --(ModInt a) => a.value - 1;
public static ModInt Modpow(ModInt a, long n) {
var k = a;
ModInt ret = 1;
while (n > 0) {
if ((n & 1) != 0)
ret *= k;
k *= k;
n >>= 1;
}
return ret;
}
private static readonly List<long> Factorials = new List<long>() { 1 };
public static ModInt Fac(long n) {
for (var i = Factorials.Count(); i <= n; i++) {
Factorials.Add((Factorials[i - 1] * i) % MOD);
}
return Factorials[(int)n];
}
public static ModInt nCr(long n, long r) {
return n < r ? 0 : Fac(n) / (Fac(r) * Fac(n - r));
}
public static explicit operator int(ModInt a) => (int)a.value;
}
static class IO_ShortCut {
public static string[] _ReadSplit => Console.ReadLine().Split();
public static int[] _ReadSplitInt =>
ConvertAll(Console.ReadLine().Split(), int.Parse);
public static long[] _ReadSplitLong =>
ConvertAll(Console.ReadLine().Split(), long.Parse);
public static double[] _ReadSplit_Double =>
ConvertAll(Console.ReadLine().Split(), double.Parse);
public static string Str => Console.ReadLine();
public static int Int => int.Parse(Console.ReadLine());
public static long Long => long.Parse(Console.ReadLine());
public static double Double => double.Parse(Console.ReadLine());
public static T Conv<T>(string input) {
if (typeof(T).Equals(typeof(ModInt))) {
return (T)(dynamic)(long.Parse(input));
}
return (T)Convert.ChangeType(input, typeof(T));
}
public static void Input<T>(out T a) => a = Conv<T>(Console.ReadLine());
public static void Input<T, U>(out T a, out U b) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
}
public static void Input<T, U, V>(out T a, out U b, out V c) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
}
public static void Input<T, U, V, W>(out T a, out U b, out V c, out W d) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
d = Conv<W>(q[3]);
}
public static void Input<T, U, V, W, X>(out T a, out U b, out V c, out W d,
out X e) {
var q = _ReadSplit;
a = Conv<T>(q[0]);
b = Conv<U>(q[1]);
c = Conv<V>(q[2]);
d = Conv<W>(q[3]);
e = Conv<X>(q[4]);
}
public static void OutL(object s) => Console.WriteLine(s);
public static void
Out_Sep<T>(IEnumerable<T> s) => Console.WriteLine(string.Join(" ", s));
public static void Out_Sep<T>(IEnumerable<T> s, string sep) =>
Console.WriteLine(string.Join($"{sep}", s));
public static void
Out_Sep(params object[] s) => Console.WriteLine(string.Join(" ", s));
public static void Out_One(object s) => Console.Write($"{s} ");
public static void Out_One(object s,
string sep) => Console.Write($"{s}{sep}");
public static void Endl() => Console.WriteLine();
}
public static class Tool {
static public void Initialize<T>(ref T[] array, T initialvalue) {
array = ConvertAll(array, x => initialvalue);
}
static public void Swap<T>(ref T a, ref T b) {
T keep = a;
a = b;
b = keep;
}
static public void Display<T>(T[,] array2d, int n, int m) {
for (var i = 0; i < n; i++) {
for (var j = 0; j < m; j++) {
Console.Write($"{array2d[i, j]} ");
}
Console.WriteLine();
}
}
static public long Gcd(long a, long b) {
if (a == 0 || b == 0)
return Max(a, b);
return a % b == 0 ? b : Gcd(b, a % b);
}
static public long LPow(int a, int b) => (long)Pow(a, b);
static public bool Bit(long x, int dig) => ((1L << dig) & x) != 0;
static public int Sig(long a) => a == 0 ? 0 : (int)(a / Abs(a));
}
}
|
[["-", 0, 124, 0, 198, 0, 200, 0, 212, 0, 203], ["+", 0, 124, 0, 198, 0, 200, 0, 212, 0, 203], ["-", 0, 200, 0, 212, 0, 227, 39, 224, 39, 199], ["+", 0, 200, 0, 212, 0, 227, 39, 224, 39, 199], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 206, 207, 0, 28, 0, 16, 31, 23, 0, 24], ["+", 0, 28, 0, 16, 31, 23, 0, 16, 17, 33], ["+", 0, 28, 0, 16, 31, 23, 0, 16, 12, 203], ["+", 206, 207, 0, 28, 0, 16, 31, 23, 0, 25], ["-", 206, 207, 0, 28, 0, 16, 31, 16, 17, 85], ["-", 206, 207, 0, 28, 0, 16, 31, 16, 12, 203], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 17, 85], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 31, 16, 31, 16, 31, 16, 31, 204, 205, 22], ["+", 31, 16, 31, 16, 31, 204, 206, 207, 0, 70], ["+", 206, 207, 0, 28, 0, 16, 31, 16, 31, 22], ["+", 206, 207, 0, 28, 0, 16, 31, 16, 17, 85], ["+", 206, 207, 0, 28, 0, 16, 31, 16, 12, 203], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 17, 33], ["+", 31, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 31, 16, 31, 16, 31, 204, 206, 207, 0, 73], ["+", 0, 16, 31, 16, 31, 16, 31, 16, 17, 72], ["+", 31, 16, 31, 16, 12, 204, 206, 207, 0, 70], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 31, 16, 31, 16, 12, 204, 206, 207, 0, 73], ["+", 0, 28, 0, 16, 31, 16, 31, 16, 17, 33], ["+", 0, 16, 31, 16, 31, 16, 12, 204, 205, 22], ["+", 12, 204, 206, 207, 0, 28, 0, 16, 17, 33]]
| 8
| 1,848
| 38
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder169 {
public class ProgramE {
static void Main(string[] args) {
var inputNumStr = Console.ReadLine();
var inputNum = int.Parse(inputNumStr);
var aList = new List<long>();
var bList = new List<long>();
for (var i = 0; i < inputNum; i++) {
var input = Console.ReadLine();
var vallist = input.Split(" ").Select(long.Parse);
var ai = vallist.First();
var bi = vallist.Skip(1).First();
if (!aList.Contains(ai))
aList.Add(ai);
if (!bList.Contains(bi))
bList.Add(bi);
}
if (inputNum % 2 == 1) {
var a = aList.OrderBy(d => d).Skip((inputNum - 1) / 2).First();
var b = bList.OrderBy(d => d).Skip((inputNum - 1) / 2).First();
Console.WriteLine(b - a + 1);
} else {
var a1 = aList.OrderBy(d => d).Skip(inputNum / 2 - 1).First();
var b1 = bList.OrderBy(d => d).Skip(inputNum / 2 - 1).First();
var a2 = aList.OrderBy(d => d).Skip(inputNum / 2).First();
var b2 = bList.OrderBy(d => d).Skip(inputNum / 2).First();
Console.WriteLine((b1 + b2) - (a1 + a2) + 1);
}
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace AtCoder169 {
public class ProgramE {
static void Main(string[] args) {
var inputNumStr = Console.ReadLine();
var inputNum = int.Parse(inputNumStr);
var aList = new List<long>();
var bList = new List<long>();
for (var i = 0; i < inputNum; i++) {
var input = Console.ReadLine();
var vallist = input.Split(" ").Select(long.Parse);
var ai = vallist.First();
var bi = vallist.Skip(1).First();
aList.Add(ai);
bList.Add(bi);
}
if (inputNum % 2 == 1) {
var a = aList.OrderBy(d => d).Skip((inputNum - 1) / 2).First();
var b = bList.OrderBy(d => d).Skip((inputNum - 1) / 2).First();
Console.WriteLine(b - a + 1);
} else {
var a1 = aList.OrderBy(d => d).Skip(inputNum / 2 - 1).First();
var b1 = bList.OrderBy(d => d).Skip(inputNum / 2 - 1).First();
var a2 = aList.OrderBy(d => d).Skip(inputNum / 2).First();
var b2 = bList.OrderBy(d => d).Skip(inputNum / 2).First();
Console.WriteLine((b1 + b2) - (a1 + a2) + 1);
}
}
}
}
|
[["-", 8, 196, 0, 7, 8, 196, 0, 57, 0, 121], ["-", 8, 196, 0, 7, 8, 196, 0, 57, 0, 24], ["-", 0, 7, 8, 196, 0, 57, 15, 241, 0, 111], ["-", 0, 57, 15, 241, 0, 213, 63, 214, 205, 22], ["-", 0, 57, 15, 241, 0, 213, 63, 214, 0, 131], ["-", 0, 57, 15, 241, 0, 213, 63, 214, 141, 22], ["-", 0, 57, 15, 241, 0, 213, 3, 4, 0, 24], ["-", 15, 241, 0, 213, 3, 4, 0, 28, 0, 22], ["-", 0, 57, 15, 241, 0, 213, 3, 4, 0, 25], ["-", 8, 196, 0, 7, 8, 196, 0, 57, 0, 25]]
| 8
| 375
| 20
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using static System.Math;
using System.Text;
using System.Threading;
using System.Globalization;
using System.Runtime.CompilerServices;
using Library;
namespace Program {
public static class ProblemE {
static bool SAIKI = false;
static public int numberOfRandomCases = 0;
static public void MakeTestCase(List<string> _input, List<string> _output,
ref Func<string[], bool> _outputChecker) {}
static public void Solve() {
var N = NN;
var ABList = Repeat(0, N).Select(_ => new { A = NN, B = NN }).ToArray();
if (N % 2 == 1) {
var sorted = ABList.OrderBy(e => e.A).ToArray();
var sita = sorted[N / 2].A;
var sorted2 = ABList.OrderByDescending(e => e.B).ToArray();
var ue = sorted2[N / 2].B;
Console.WriteLine(ue - sita + 1);
} else {
var sorted = ABList.OrderBy(e => e.A).ToArray();
var sita = sorted[N / 2 - 1].A;
var sorted2 = ABList.OrderByDescending(e => e.B).ToArray();
var ue = sorted2[N / 2 - 1].B;
Console.WriteLine(ue - sita + 1);
}
}
class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {
base.AutoFlush = false;
}
public Printer(Stream stream, Encoding encoding) : base(stream, encoding) {
base.AutoFlush = false;
}
}
static LIB_FastIO fastio = new LIB_FastIODebug();
static public void Main(string[] args) {
if (args.Length == 0) {
fastio = new LIB_FastIO();
Console.SetOut(new Printer(Console.OpenStandardOutput()));
}
if (SAIKI) {
var t = new Thread(Solve, 134217728);
t.Start();
t.Join();
} else
Solve();
Console.Out.Flush();
}
static long NN => fastio.Long();
static double ND => fastio.Double();
static string NS => fastio.Scan();
static long[] NNList(long N) => Repeat(0, N).Select(_ => NN).ToArray();
static double[] NDList(long N) => Repeat(0, N).Select(_ => ND).ToArray();
static string[] NSList(long N) => Repeat(0, N).Select(_ => NS).ToArray();
static long Count<T>(this IEnumerable<T> x,
Func<T, bool> pred) => Enumerable.Count(x, pred);
static IEnumerable<T> Repeat<T>(T v, long n) => Enumerable.Repeat<T>(v,
(int)n);
static IEnumerable<int> Range(long s, long c) => Enumerable.Range((int)s,
(int)c);
static IOrderedEnumerable<T>
OrderByRand<T>(this IEnumerable<T> x) => Enumerable.OrderBy(x, _ => xorshift);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x) =>
Enumerable.OrderBy(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1> OrderBy<T1, T2>(this IEnumerable<T1> x,
Func<T1, T2> selector) =>
Enumerable.OrderBy(x.OrderByRand(), selector);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x) =>
Enumerable.OrderByDescending(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1>
OrderByDescending<T1, T2>(this IEnumerable<T1> x, Func<T1, T2> selector) =>
Enumerable.OrderByDescending(x.OrderByRand(), selector);
static IOrderedEnumerable<string> OrderBy(this IEnumerable<string> x) =>
x.OrderByRand().OrderBy(e => e, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderBy(selector, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<string>
OrderByDescending(this IEnumerable<string> x) =>
x.OrderByRand().OrderByDescending(e => e,
StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderByDescending(selector,
StringComparer.OrdinalIgnoreCase);
static uint xorshift {
get {
_xsi.MoveNext();
return _xsi.Current;
}
}
static IEnumerator<uint> _xsi = _xsc();
static IEnumerator<uint> _xsc() {
uint x = 123456789, y = 362436069, z = 521288629,
w = (uint)(DateTime.Now.Ticks & 0xffffffff);
while (true) {
var t = x ^ (x << 11);
x = y;
y = z;
z = w;
w = (w ^ (w >> 19)) ^ (t ^ (t >> 8));
yield return w;
}
}
}
}
namespace Library {
class LIB_FastIO {
public LIB_FastIO() { str = Console.OpenStandardInput(); }
readonly Stream str;
readonly byte[] buf = new byte[1024];
int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
virtual public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
virtual public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
virtual public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
class LIB_FastIODebug : LIB_FastIO {
Queue<string> param = new Queue<string>();
string NextString() {
if (param.Count == 0)
foreach (var item in Console.ReadLine().Split(' '))
param.Enqueue(item);
return param.Dequeue();
}
public LIB_FastIODebug() {}
public override string Scan() => NextString();
public override long Long() => long.Parse(NextString());
public override double Double() => double.Parse(NextString());
}
}
|
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using static System.Math;
using System.Text;
using System.Threading;
using System.Globalization;
using System.Runtime.CompilerServices;
using Library;
namespace Program {
public static class ProblemE {
static bool SAIKI = false;
static public int numberOfRandomCases = 0;
static public void MakeTestCase(List<string> _input, List<string> _output,
ref Func<string[], bool> _outputChecker) {}
static public void Solve() {
var N = NN;
var ABList = Repeat(0, N).Select(_ => new { A = NN, B = NN }).ToArray();
if (N % 2 == 1) {
var sorted = ABList.OrderBy(e => e.A).ToArray();
var sita = sorted[N / 2].A;
var sorted2 = ABList.OrderByDescending(e => e.B).ToArray();
var ue = sorted2[N / 2].B;
Console.WriteLine(ue - sita + 1);
} else {
var sorted = ABList.OrderBy(e => e.A).ToArray();
var sita = (sorted[N / 2 - 1].A * 2 + sorted[N / 2].A * 2) / 2;
var sorted2 = ABList.OrderByDescending(e => e.B).ToArray();
var ue = (sorted2[N / 2 - 1].B * 2 + sorted2[N / 2].B * 2) / 2;
Console.WriteLine(ue - sita + 1);
}
}
class Printer : StreamWriter {
public override IFormatProvider FormatProvider {
get { return CultureInfo.InvariantCulture; }
}
public Printer(Stream stream)
: base(stream, new UTF8Encoding(false, true)) {
base.AutoFlush = false;
}
public Printer(Stream stream, Encoding encoding) : base(stream, encoding) {
base.AutoFlush = false;
}
}
static LIB_FastIO fastio = new LIB_FastIODebug();
static public void Main(string[] args) {
if (args.Length == 0) {
fastio = new LIB_FastIO();
Console.SetOut(new Printer(Console.OpenStandardOutput()));
}
if (SAIKI) {
var t = new Thread(Solve, 134217728);
t.Start();
t.Join();
} else
Solve();
Console.Out.Flush();
}
static long NN => fastio.Long();
static double ND => fastio.Double();
static string NS => fastio.Scan();
static long[] NNList(long N) => Repeat(0, N).Select(_ => NN).ToArray();
static double[] NDList(long N) => Repeat(0, N).Select(_ => ND).ToArray();
static string[] NSList(long N) => Repeat(0, N).Select(_ => NS).ToArray();
static long Count<T>(this IEnumerable<T> x,
Func<T, bool> pred) => Enumerable.Count(x, pred);
static IEnumerable<T> Repeat<T>(T v, long n) => Enumerable.Repeat<T>(v,
(int)n);
static IEnumerable<int> Range(long s, long c) => Enumerable.Range((int)s,
(int)c);
static IOrderedEnumerable<T>
OrderByRand<T>(this IEnumerable<T> x) => Enumerable.OrderBy(x, _ => xorshift);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x) =>
Enumerable.OrderBy(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1> OrderBy<T1, T2>(this IEnumerable<T1> x,
Func<T1, T2> selector) =>
Enumerable.OrderBy(x.OrderByRand(), selector);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x) =>
Enumerable.OrderByDescending(x.OrderByRand(), e => e);
static IOrderedEnumerable<T1>
OrderByDescending<T1, T2>(this IEnumerable<T1> x, Func<T1, T2> selector) =>
Enumerable.OrderByDescending(x.OrderByRand(), selector);
static IOrderedEnumerable<string> OrderBy(this IEnumerable<string> x) =>
x.OrderByRand().OrderBy(e => e, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderBy<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderBy(selector, StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<string>
OrderByDescending(this IEnumerable<string> x) =>
x.OrderByRand().OrderByDescending(e => e,
StringComparer.OrdinalIgnoreCase);
static IOrderedEnumerable<T> OrderByDescending<T>(this IEnumerable<T> x,
Func<T, string> selector) =>
x.OrderByRand().OrderByDescending(selector,
StringComparer.OrdinalIgnoreCase);
static uint xorshift {
get {
_xsi.MoveNext();
return _xsi.Current;
}
}
static IEnumerator<uint> _xsi = _xsc();
static IEnumerator<uint> _xsc() {
uint x = 123456789, y = 362436069, z = 521288629,
w = (uint)(DateTime.Now.Ticks & 0xffffffff);
while (true) {
var t = x ^ (x << 11);
x = y;
y = z;
z = w;
w = (w ^ (w >> 19)) ^ (t ^ (t >> 8));
yield return w;
}
}
}
}
namespace Library {
class LIB_FastIO {
public LIB_FastIO() { str = Console.OpenStandardInput(); }
readonly Stream str;
readonly byte[] buf = new byte[1024];
int len, ptr;
public bool isEof = false;
public bool IsEndOfStream {
get { return isEof; }
}
byte read() {
if (isEof)
throw new EndOfStreamException();
if (ptr >= len) {
ptr = 0;
if ((len = str.Read(buf, 0, 1024)) <= 0) {
isEof = true;
return 0;
}
}
return buf[ptr++];
}
char Char() {
byte b = 0;
do
b = read();
while (b < 33 || 126 < b);
return (char)b;
}
virtual public string Scan() {
var sb = new StringBuilder();
for (var b = Char(); b >= 33 && b <= 126; b = (char)read())
sb.Append(b);
return sb.ToString();
}
virtual public long Long() {
long ret = 0;
byte b = 0;
var ng = false;
do
b = read();
while (b != '-' && (b < '0' || '9' < b));
if (b == '-') {
ng = true;
b = read();
}
for (; true; b = read()) {
if (b < '0' || '9' < b)
return ng ? -ret : ret;
else
ret = ret * 10 + b - '0';
}
}
virtual public double Double() {
return double.Parse(Scan(), CultureInfo.InvariantCulture);
}
}
class LIB_FastIODebug : LIB_FastIO {
Queue<string> param = new Queue<string>();
string NextString() {
if (param.Count == 0)
foreach (var item in Console.ReadLine().Split(' '))
param.Enqueue(item);
return param.Dequeue();
}
public LIB_FastIODebug() {}
public override string Scan() => NextString();
public override long Long() => long.Parse(NextString());
public override double Double() => double.Parse(NextString());
}
}
|
[["+", 0, 200, 0, 212, 0, 16, 31, 23, 0, 24], ["+", 0, 16, 31, 23, 0, 16, 31, 16, 17, 48], ["+", 0, 16, 31, 23, 0, 16, 31, 16, 12, 203], ["+", 0, 212, 0, 16, 31, 23, 0, 16, 17, 72], ["+", 0, 16, 12, 16, 31, 214, 205, 204, 205, 22], ["+", 12, 16, 31, 214, 205, 204, 206, 207, 0, 70], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 17, 85], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 12, 16, 31, 214, 205, 204, 206, 207, 0, 73], ["+", 31, 23, 0, 16, 12, 16, 31, 214, 0, 131], ["+", 31, 23, 0, 16, 12, 16, 31, 214, 141, 22], ["+", 0, 16, 31, 23, 0, 16, 12, 16, 17, 48], ["+", 0, 16, 31, 23, 0, 16, 12, 16, 12, 203], ["+", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 85], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203], ["+", 31, 16, 31, 214, 205, 204, 206, 207, 0, 73], ["+", 31, 23, 0, 16, 31, 16, 31, 214, 0, 131], ["+", 31, 23, 0, 16, 31, 16, 31, 214, 141, 22]]
| 8
| 1,597
| 34
|
using System;
using System.Collections.Generic;
using System.Linq;
using static System.Console;
using static System.Math;
class MainClass {
static readonly long mod = 998244353;
static void Main() {
var NS = ReadLine().Split().Select(int.Parse).ToArray();
int N = NS[0];
int S = NS[1];
var A = ReadLine().Split().Select(int.Parse).ToArray();
var dp = new long [N + 1][];
for (int i = 0; i < N + 1; i++) {
dp[i] = new long[S + 1];
}
dp[0][0] = 1;
for (int i = 0; i < N; i++) {
for (int j = S; j >= 0; j--) {
dp[i + 1][j] += dp[i][j] * 2;
int k = j + A[i];
if (dp[i][j] == 0 || k > S)
continue;
dp[i + 1][k] += dp[i][j];
dp[i + 1][k] %= mod;
}
}
WriteLine((dp[N][S] + mod) % mod);
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using static System.Console;
using static System.Math;
class MainClass {
static readonly long mod = 998244353;
static void Main() {
var NS = ReadLine().Split().Select(int.Parse).ToArray();
int N = NS[0];
int S = NS[1];
var A = ReadLine().Split().Select(int.Parse).ToArray();
var dp = new long [N + 1][];
for (int i = 0; i < N + 1; i++) {
dp[i] = new long[S + 1];
}
dp[0][0] = 1;
for (int i = 0; i < N; i++) {
for (int j = S; j >= 0; j--) {
dp[i + 1][j] = dp[i][j] * 2;
dp[i + 1][j] %= mod;
int k = j + A[i];
if (dp[i][j] == 0 || k > S)
continue;
dp[i + 1][k] += dp[i][j];
dp[i + 1][k] %= mod;
}
}
WriteLine(dp[N][S]);
}
}
|
[["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 107], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 8, 196, 0, 7, 8, 196, 0, 1, 0, 35], ["+", 0, 1, 0, 11, 31, 204, 205, 204, 205, 22], ["+", 0, 11, 31, 204, 205, 204, 206, 207, 0, 70], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 31, 22], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 17, 72], ["+", 205, 204, 206, 207, 0, 28, 0, 16, 12, 203], ["+", 0, 11, 31, 204, 205, 204, 206, 207, 0, 73], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 70], ["+", 0, 11, 31, 204, 206, 207, 0, 28, 0, 22], ["+", 0, 1, 0, 11, 31, 204, 206, 207, 0, 73], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 132], ["+", 0, 7, 8, 196, 0, 1, 0, 11, 12, 22], ["-", 3, 4, 0, 28, 0, 16, 31, 23, 0, 24], ["-", 0, 28, 0, 16, 31, 23, 0, 16, 17, 72], ["-", 0, 28, 0, 16, 31, 23, 0, 16, 12, 22], ["-", 3, 4, 0, 28, 0, 16, 31, 23, 0, 25], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 109], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22]]
| 8
| 286
| 20
|
using System;
using System.Text;
using System.Linq;
using System.Collections;
using System.Collections.Generic;
using static System.Console;
using static System.Math;
namespace AtCoder {
public class Program {
public static void Main(string[] args) {
new Program().Solve(new ConsoleInput(Console.In, ' '));
}
public void Solve(ConsoleInput cin) {
// 解答はココに書く
var ST1 = cin.ReadInt;
var ET1 = cin.ReadInt;
var ST2 = cin.ReadInt;
var ET2 = cin.ReadInt;
var duration = cin.ReadInt;
int minutes = (ST2 - ST1) * 60;
WriteLine(minutes - duration);
}
}
public class ConsoleInput {
private readonly System.IO.TextReader _stream;
private char _separator = ' ';
private Queue<string> inputStream;
public ConsoleInput(System.IO.TextReader stream, char separator = ' ') {
this._separator = separator;
this._stream = stream;
inputStream = new Queue<string>();
}
public string Read {
get {
if (inputStream.Count != 0)
return inputStream.Dequeue();
string[] tmp = _stream.ReadLine().Split(_separator);
for (int i = 0; i < tmp.Length; ++i)
inputStream.Enqueue(tmp[i]);
return inputStream.Dequeue();
}
}
public string ReadLine {
get { return _stream.ReadLine(); }
}
public int ReadInt {
get { return int.Parse(Read); }
}
public long ReadLong {
get { return long.Parse(Read); }
}
public double ReadDouble {
get { return double.Parse(Read); }
}
public string[] ReadStrArray(long N) {
var ret = new string[N];
for (long i = 0; i < N; ++i)
ret[i] = Read;
return ret;
}
public int[] ReadIntArray(long N) {
var ret = new int[N];
for (long i = 0; i < N; ++i)
ret[i] = ReadInt;
return ret;
}
public long[] ReadLongArray(long N) {
var ret = new long[N];
for (long i = 0; i < N; ++i)
ret[i] = ReadLong;
return ret;
}
}
}
|
using System;
using System.Text;
using System.Linq;
using System.Collections;
using System.Collections.Generic;
using static System.Console;
using static System.Math;
namespace AtCoder {
public class Program {
public static void Main(string[] args) {
new Program().Solve(new ConsoleInput(Console.In, ' '));
}
public void Solve(ConsoleInput cin) {
// 解答はココに書く
var ST1 = cin.ReadInt;
var ET1 = cin.ReadInt;
var ST2 = cin.ReadInt;
var ET2 = cin.ReadInt;
var duration = cin.ReadInt;
int minutes1 = ST1 * 60 + ET1;
int minutes2 = ST2 * 60 + ET2;
WriteLine(minutes2 - minutes1 - duration);
}
}
public class ConsoleInput {
private readonly System.IO.TextReader _stream;
private char _separator = ' ';
private Queue<string> inputStream;
public ConsoleInput(System.IO.TextReader stream, char separator = ' ') {
this._separator = separator;
this._stream = stream;
inputStream = new Queue<string>();
}
public string Read {
get {
if (inputStream.Count != 0)
return inputStream.Dequeue();
string[] tmp = _stream.ReadLine().Split(_separator);
for (int i = 0; i < tmp.Length; ++i)
inputStream.Enqueue(tmp[i]);
return inputStream.Dequeue();
}
}
public string ReadLine {
get { return _stream.ReadLine(); }
}
public int ReadInt {
get { return int.Parse(Read); }
}
public long ReadLong {
get { return long.Parse(Read); }
}
public double ReadDouble {
get { return double.Parse(Read); }
}
public string[] ReadStrArray(long N) {
var ret = new string[N];
for (long i = 0; i < N; ++i)
ret[i] = Read;
return ret;
}
public int[] ReadIntArray(long N) {
var ret = new int[N];
for (long i = 0; i < N; ++i)
ret[i] = ReadInt;
return ret;
}
public long[] ReadLongArray(long N) {
var ret = new long[N];
for (long i = 0; i < N; ++i)
ret[i] = ReadLong;
return ret;
}
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 200, 0, 212, 0, 16, 31, 23, 0, 24], ["-", 0, 212, 0, 16, 31, 23, 0, 16, 31, 22], ["-", 0, 212, 0, 16, 31, 23, 0, 16, 17, 33], ["-", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 31, 22], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 17, 48], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 3, 4, 0, 28, 0, 16, 31, 16, 31, 22], ["+", 3, 4, 0, 28, 0, 16, 31, 16, 17, 33], ["+", 3, 4, 0, 28, 0, 16, 31, 16, 12, 22]]
| 8
| 478
| 21
|
using System;
using System.Diagnostics.CodeAnalysis;
using System.Globalization;
using System.Text;
namespace ChokudaiScanner {
class MainClass {
static void Main() {
Scanner cin = new Scanner();
int[] n = cin.ArrayInt(5);
int a = n[0] * 60 + n[1];
int b = n[2] * 60 + n[3];
int c = (b - a) / n[4];
Console.WriteLine(--c * n[4]);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public string[] ArrayNext(int N) {
string[] Array = new string[N];
for (int i = 0; i < N; i++) {
Array[i] = Next();
}
return Array;
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
using System;
using System.Diagnostics.CodeAnalysis;
using System.Globalization;
using System.Text;
namespace ChokudaiScanner {
class MainClass {
static void Main() {
Scanner cin = new Scanner();
int[] n = cin.ArrayInt(5);
int a = n[0] * 60 + n[1];
int b = n[2] * 60 + n[3];
int c = b - a;
Console.WriteLine(c - n[4]);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string Next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return Next();
i = 0;
return s[i++];
}
public string[] ArrayNext(int N) {
string[] Array = new string[N];
for (int i = 0; i < N; i++) {
Array[i] = Next();
}
return Array;
}
public int NextInt() { return int.Parse(Next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = NextInt() + add;
}
return Array;
}
public long NextLong() { return long.Parse(Next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = NextLong() + add;
}
return Array;
}
public double NextDouble() { return double.Parse(Next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = NextDouble() + add;
}
return Array;
}
}
}
|
[["-", 0, 200, 0, 212, 0, 16, 31, 23, 0, 24], ["-", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 85], ["-", 0, 200, 0, 212, 0, 16, 12, 204, 205, 22], ["-", 0, 212, 0, 16, 12, 204, 206, 207, 0, 70], ["-", 0, 16, 12, 204, 206, 207, 0, 28, 0, 203], ["-", 0, 212, 0, 16, 12, 204, 206, 207, 0, 73], ["-", 3, 4, 0, 28, 0, 16, 31, 241, 0, 68], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 33]]
| 8
| 512
| 10
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder.Abc {
public class QuestionA {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
int[] HMHMK =
Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
int H1 = HMHMK[0], M1 = HMHMK[1], H2 = HMHMK[2], M2 = HMHMK[3],
K = HMHMK[4];
int N_diff = H2 - H1;
int M_diff = Math.Abs(M2 - M1);
int total_time = 60 * N_diff + M_diff;
if (total_time > K) {
Console.WriteLine(total_time - K);
} else {
Console.WriteLine(0);
}
Console.Out.Flush();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
namespace AtCoder.Abc {
public class QuestionA {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
int[] HMHMK =
Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
int H1 = HMHMK[0], M1 = HMHMK[1], H2 = HMHMK[2], M2 = HMHMK[3],
K = HMHMK[4];
int HM1 = 60 * H1 + M1;
int HM2 = 60 * H2 + M2;
int total_time = HM2 - HM1;
if (total_time > K) {
Console.WriteLine(total_time - K);
} else {
Console.WriteLine(0);
}
Console.Out.Flush();
}
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 31, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 31, 203], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 17, 48], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 12, 22], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 33], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["-", 0, 200, 0, 212, 0, 16, 31, 16, 31, 203], ["-", 0, 200, 0, 212, 0, 16, 31, 16, 17, 48], ["-", 0, 200, 0, 212, 0, 16, 31, 16, 12, 22], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 72], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 31, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 33]]
| 8
| 200
| 29
|
namespace ConsoleAtCoder {
class Program {
static void Main(string[] args) {
int.TryParse(args[0].Trim(), out var h1);
int.TryParse(args[1].Trim(), out var m1);
int.TryParse(args[2].Trim(), out var h2);
int.TryParse(args[3].Trim(), out var m2);
int.TryParse(args[4].Trim(), out var k);
var wakeUp = System.DateTime.Today.AddHours(h1).AddMinutes(m1);
var goToBed = System.DateTime.Today.AddHours(h2).AddMinutes(m2);
var studyTime = System.TimeSpan.FromMinutes(k);
if (goToBed < wakeUp || goToBed.Subtract(wakeUp) < studyTime) {
System.Console.WriteLine("0");
} else {
System.Console.WriteLine(
goToBed.Subtract(wakeUp).Subtract(studyTime).TotalMinutes.ToString());
}
}
}
}
|
namespace ConsoleAtCoder {
class Program {
static void Main(string[] args) {
var inputs = System.Console.ReadLine().Split(' ');
int.TryParse(inputs[0].Trim(), out var h1);
int.TryParse(inputs[1].Trim(), out var m1);
int.TryParse(inputs[2].Trim(), out var h2);
int.TryParse(inputs[3].Trim(), out var m2);
int.TryParse(inputs[4].Trim(), out var k);
var wakeUp = System.DateTime.Today.AddHours(h1).AddMinutes(m1);
var goToBed = System.DateTime.Today.AddHours(h2).AddMinutes(m2);
var studyTime = System.TimeSpan.FromMinutes(k);
if (goToBed < wakeUp || goToBed.Subtract(wakeUp) < studyTime) {
System.Console.WriteLine("0");
} else {
System.Console.WriteLine(
goToBed.Subtract(wakeUp).Subtract(studyTime).TotalMinutes.ToString());
}
}
}
}
|
[["+", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 63, 214, 205, 213, 63, 214, 205, 214, 205, 22], ["+", 63, 214, 205, 213, 63, 214, 205, 214, 0, 131], ["+", 63, 214, 205, 213, 63, 214, 205, 214, 141, 22], ["+", 0, 213, 63, 214, 205, 213, 63, 214, 0, 131], ["+", 0, 213, 63, 214, 205, 213, 63, 214, 141, 22], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 24], ["+", 0, 213, 63, 214, 205, 213, 3, 4, 0, 25], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["+", 0, 213, 3, 4, 0, 28, 0, 252, 0, 104], ["+", 0, 213, 3, 4, 0, 28, 0, 252, 0, 253], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 28, 0, 213, 63, 214, 205, 204, 205, 22], ["+", 0, 28, 0, 213, 63, 214, 205, 204, 205, 22]]
| 8
| 215
| 28
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
// https://atcoder.jp/contests/abc141/tasks/abc141_a
public class QuestionA {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列配列の入力
string[] inputStrArray = Console.ReadLine().Split(' ');
int h1 = int.Parse(inputStrArray[0]);
int m1 = int.Parse(inputStrArray[1]);
int h2 = int.Parse(inputStrArray[2]);
int m2 = int.Parse(inputStrArray[3]);
int k = int.Parse(inputStrArray[4]);
int s = h1 * 60 + m1;
int e = h2 * 60 + m2;
int t = e - s - 1;
string result = (t < k) ? "0" : ((t / k) * k).ToString();
Console.WriteLine(result);
Console.Out.Flush();
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
public class QuestionA {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 文字列配列の入力
string[] inputStrArray = Console.ReadLine().Split(' ');
int h1 = int.Parse(inputStrArray[0]);
int m1 = int.Parse(inputStrArray[1]);
int h2 = int.Parse(inputStrArray[2]);
int m2 = int.Parse(inputStrArray[3]);
int k = int.Parse(inputStrArray[4]);
int s = h1 * 60 + m1;
int e = h2 * 60 + m2;
int t = e - s - k;
string result = (t <= 0) ? "0" : t.ToString();
Console.WriteLine(result);
Console.Out.Flush();
}
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["-", 0, 212, 0, 41, 15, 23, 0, 16, 17, 18], ["-", 0, 212, 0, 41, 15, 23, 0, 16, 12, 22], ["+", 0, 212, 0, 41, 15, 23, 0, 16, 17, 19], ["+", 0, 212, 0, 41, 15, 23, 0, 16, 12, 203], ["-", 0, 41, 75, 213, 63, 214, 205, 23, 0, 24], ["-", 63, 214, 205, 23, 0, 16, 31, 23, 0, 24], ["-", 205, 23, 0, 16, 31, 23, 0, 16, 17, 85], ["-", 205, 23, 0, 16, 31, 23, 0, 16, 12, 22], ["-", 63, 214, 205, 23, 0, 16, 31, 23, 0, 25], ["-", 75, 213, 63, 214, 205, 23, 0, 16, 17, 48], ["-", 75, 213, 63, 214, 205, 23, 0, 16, 12, 22], ["-", 0, 41, 75, 213, 63, 214, 205, 23, 0, 25]]
| 8
| 227
| 14
|
using System;
using System.Collections.Generic;
using System.Globalization;
using System.IO.Pipes;
using System.Linq;
using System.Security.Cryptography;
using System.Text;
namespace cswork {
class Program {
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
i = 0;
return next();
}
public int nextInt() { return int.Parse(next()); }
public long nextLong() { return long.Parse(next()); }
public double nextDouble() { return double.Parse(next()); }
}
public Program() {}
static void Main(string[] args) { new Program().Omame(); }
Scanner cin;
const int MAXIN = 1024;
bool[] used = new bool[MAXIN];
int[] perm = new int[MAXIN];
List<int[]> permList = new List<int[]>();
public void Permutation(int pos, int n, int length) {
if (pos == n) {
permList.Add((int[])perm.Clone());
}
for (int i = 0; i < n; i++) {
if (!used[i]) {
perm[pos] = i;
used[i] = true;
Permutation(pos + 1, n, length);
used[i] = false;
}
}
}
void Omame() {
cin = new Scanner();
int H1 = cin.nextInt();
int M1 = cin.nextInt();
int H2 = cin.nextInt();
int M2 = cin.nextInt();
int K = cin.nextInt();
int x1 = H1 * 60 + M1;
int x2 = H2 * 60 + M2 - 1;
Console.WriteLine((x2 - x1) / K * K);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Globalization;
using System.IO.Pipes;
using System.Linq;
using System.Security.Cryptography;
using System.Text;
namespace cswork {
class Program {
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
i = 0;
return next();
}
public int nextInt() { return int.Parse(next()); }
public long nextLong() { return long.Parse(next()); }
public double nextDouble() { return double.Parse(next()); }
}
public Program() {}
static void Main(string[] args) { new Program().Omame(); }
Scanner cin;
const int MAXIN = 1024;
bool[] used = new bool[MAXIN];
int[] perm = new int[MAXIN];
List<int[]> permList = new List<int[]>();
public void Permutation(int pos, int n, int length) {
if (pos == n) {
permList.Add((int[])perm.Clone());
}
for (int i = 0; i < n; i++) {
if (!used[i]) {
perm[pos] = i;
used[i] = true;
Permutation(pos + 1, n, length);
used[i] = false;
}
}
}
void Omame() {
cin = new Scanner();
int H1 = cin.nextInt();
int M1 = cin.nextInt();
int H2 = cin.nextInt();
int M2 = cin.nextInt();
int K = cin.nextInt();
int x1 = H1 * 60 + M1;
int x2 = H2 * 60 + M2 - 1;
int ans = x2 - x1 - K;
Console.WriteLine(Math.Max(0, ans + 1));
}
}
}
|
[["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 31, 22], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 17, 33], ["+", 0, 200, 0, 212, 0, 16, 31, 16, 12, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 17, 33], ["+", 0, 198, 0, 200, 0, 212, 0, 16, 12, 22], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 205, 22], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 0, 131], ["+", 3, 4, 0, 28, 0, 213, 63, 214, 141, 22], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 31, 22], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 17, 33], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 12, 22], ["+", 0, 28, 0, 213, 3, 4, 0, 28, 0, 203], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 21], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 31, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 72], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 12, 203], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 17, 85], ["-", 3, 4, 0, 28, 0, 16, 31, 16, 12, 22], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 17, 48], ["-", 0, 213, 3, 4, 0, 28, 0, 16, 12, 22]]
| 8
| 476
| 24
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Linq;
using System.Numerics;
namespace AtCoderWorkspace {
public class Solver {
public void Solve() {
var cin = new Scanner();
var a = cin.ArrayLong(5);
var hm = (a[2] - a[0]) * 60;
var m = a[3] - a[1];
if (m < 0) {
m = 60 + m;
}
var ans = hm + m;
Console.WriteLine(ans - a[4]);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return next();
i = 0;
return s[i++];
}
public int nextInt() { return int.Parse(next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = nextInt() + add;
}
return Array;
}
public int[] DPArrayInt(int N, int ex) {
int[] Array = new int[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextInt();
}
return Array;
}
public long nextLong() { return long.Parse(next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = nextLong() + add;
}
return Array;
}
public long[] DPArrayLong(int N, int ex) {
long[] Array = new long[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextLong();
}
return Array;
}
public double nextDouble() { return double.Parse(next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = nextDouble() + add;
}
return Array;
}
}
class Program {
static void Main(string[] s) => new Solver().Solve();
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Linq;
using System.Numerics;
namespace AtCoderWorkspace {
public class Solver {
public void Solve() {
var cin = new Scanner();
var a = cin.ArrayLong(5);
var hm = (a[2] - a[0]);
var m = a[3] - a[1];
if (m < 0) {
hm--;
m = 60 + m;
}
hm = hm * 60;
var ans = hm + m;
Console.WriteLine(ans - a[4]);
}
}
class Scanner {
string[] s;
int i;
char[] cs = new char[] { ' ' };
public Scanner() {
s = new string[0];
i = 0;
}
public string next() {
if (i < s.Length)
return s[i++];
string st = Console.ReadLine();
while (st == "")
st = Console.ReadLine();
s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries);
if (s.Length == 0)
return next();
i = 0;
return s[i++];
}
public int nextInt() { return int.Parse(next()); }
public int[] ArrayInt(int N, int add = 0) {
int[] Array = new int[N];
for (int i = 0; i < N; i++) {
Array[i] = nextInt() + add;
}
return Array;
}
public int[] DPArrayInt(int N, int ex) {
int[] Array = new int[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextInt();
}
return Array;
}
public long nextLong() { return long.Parse(next()); }
public long[] ArrayLong(int N, long add = 0) {
long[] Array = new long[N];
for (int i = 0; i < N; i++) {
Array[i] = nextLong() + add;
}
return Array;
}
public long[] DPArrayLong(int N, int ex) {
long[] Array = new long[N + ex];
for (int i = 0; i < N; i++) {
Array[i] = nextLong();
}
return Array;
}
public double nextDouble() { return double.Parse(next()); }
public double[] ArrayDouble(int N, double add = 0) {
double[] Array = new double[N];
for (int i = 0; i < N; i++) {
Array[i] = nextDouble() + add;
}
return Array;
}
}
class Program {
static void Main(string[] s) => new Solver().Solve();
}
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 16, 17, 48], ["-", 0, 198, 0, 200, 0, 212, 0, 16, 12, 203], ["+", 0, 57, 64, 196, 0, 1, 0, 223, 0, 22], ["+", 0, 57, 64, 196, 0, 1, 0, 223, 0, 68], ["+", 8, 196, 0, 57, 64, 196, 0, 1, 0, 35], ["+", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 8, 196, 0, 1, 0, 11, 12, 16, 31, 22], ["+", 8, 196, 0, 1, 0, 11, 12, 16, 17, 48], ["+", 8, 196, 0, 1, 0, 11, 12, 16, 12, 203], ["+", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35]]
| 8
| 612
| 11
|
using System;
class Program {
static void Main(string[] args) {
int k = int.Parse(Console.ReadLine());
string s = Console.ReadLine();
if (s.Length <= k) {
Console.WriteLine(s);
} else {
Console.WriteLine(s.Substring(0, k));
}
}
}
|
using System;
class Program {
static void Main(string[] args) {
int k = int.Parse(Console.ReadLine());
string s = Console.ReadLine();
if (s.Length <= k) {
Console.WriteLine(s);
} else {
Console.WriteLine($"{s.Substring(0, k)}" + "...");
}
}
}
|
[["+", 3, 4, 0, 28, 0, 16, 31, 283, 0, 295], ["+", 0, 28, 0, 16, 31, 283, 0, 284, 0, 45], ["+", 0, 28, 0, 16, 31, 283, 0, 284, 0, 46], ["+", 3, 4, 0, 28, 0, 16, 31, 283, 0, 62], ["+", 0, 213, 3, 4, 0, 28, 0, 16, 17, 72], ["+", 3, 4, 0, 28, 0, 16, 12, 5, 0, 62], ["+", 3, 4, 0, 28, 0, 16, 12, 5, 0, 222]]
| 8
| 75
| 8
|
using System;
namespace ABC168B {
class Program {
static void Main(string[] args) {
int a = int.Parse(Console.ReadLine());
int b;
string s = Console.ReadLine();
b = s.Length;
if (a < b) {
for (int i = 0; i < a; i++) {
Console.Write(s.Substring(i, 1));
}
}
else
Console.Write(b);
Console.Write("...");
}
}
}
|
using System;
namespace ABC168B {
class Program {
static void Main(string[] args) {
int a = int.Parse(Console.ReadLine());
int b;
string s = Console.ReadLine();
b = s.Length;
if (a < b) {
for (int i = 0; i < a; i++) {
Console.Write(s.Substring(i, 1));
}
Console.Write("...");
}
else
Console.Write(s);
}
}
}
|
[["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 95], ["-", 75, 1, 0, 213, 3, 4, 0, 28, 0, 22], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["+", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 95], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 62], ["-", 0, 213, 3, 4, 0, 28, 0, 5, 0, 222], ["+", 75, 1, 0, 213, 3, 4, 0, 28, 0, 22]]
| 8
| 109
| 12
|
using System;
public class Program {
public static void Main() {
int K = int.Parse(Console.ReadLine());
string S = Console.ReadLine();
string ans = "";
Console.WriteLine(S.Length);
if (S.Length > K) {
for (int i = 0; i < K; i++) {
ans = ans + S[i];
}
ans = ans + "...";
Console.WriteLine(ans);
} else {
Console.WriteLine(S);
}
}
}
|
using System;
public class Program {
public static void Main() {
int K = int.Parse(Console.ReadLine());
string S = Console.ReadLine();
string ans = "";
if (S.Length > K) {
for (int i = 0; i < K; i++) {
ans = ans + S[i];
}
ans = ans + "...";
Console.WriteLine(ans);
} else {
Console.WriteLine(S);
}
}
}
|
[["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 213, 3, 4, 0, 28, 0, 214, 205, 22], ["-", 0, 213, 3, 4, 0, 28, 0, 214, 0, 131], ["-", 0, 213, 3, 4, 0, 28, 0, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35]]
| 8
| 114
| 9
|
using System;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Threading;
namespace Atcoder_Answer {
class Program {
const Int32 mod = 1000000007;
static void Main(string[] args) {
string S = ReadLine();
int K = int.Parse(ReadLine());
if (S.Length > K) {
WriteLine(S.Substring(0, Math.Min(K, S.Length)) + "...");
} else
WriteLine(S);
return;
}
#region Functions
public static decimal floor(float d) => Math.Floor((decimal)d);
public static double nqrt(int n, int value) {
if (n >= 0) {
// 通常のn乗根
return Math.Pow(n, 1.0 / (double)n);
} else {
if ((n % 2) != 0) {
// 奇数乗根の場合
return -Math.Pow(-n, 1.0 / (double)n);
} else {
// 偶数乗根の場合
return double.NaN;
}
}
}
#endregion
}
public static class Extension {
#region 拡張 : bool
#region キャスト関連
public static int ToInt(this bool Bool) {
if (Bool)
return 1;
else
return 0;
}
public static string ToString(this bool Bool, string TrueStr,
string FalseStr) {
if (Bool)
return TrueStr;
else
return FalseStr;
}
#endregion
#endregion
#region 拡張 : int
#region キャスト関連
public static char ToAlphaBets(this int Base) => (char)Base;
#endregion
#endregion
#region 拡張 : char
#region 変換関連
public static char NextAlpha(this char Char) => (char)((Char) +
1); //次の文字を取得
#endregion
#endregion
#region 拡張 : int[]
public static long Sum(this int[] Array) {
int Ret = 0;
for (int loop = 0; loop < Array.Length; loop++)
Ret += Array[loop];
return Ret;
}
#endregion
#region 拡張 : string
public static string Multi(this string THIS, int Value) {
string RetValue = "";
for (int loop = 0; loop < Value; loop++)
RetValue += THIS;
return RetValue;
}
#endregion
#region 拡張 : List < string>
public static string Sum(this List<string> THIS, string Split) {
string RetValue = "";
for (int loop = 0; loop < THIS.Count; loop++) {
RetValue += THIS[loop];
}
return RetValue;
}
#endregion
}
}
|
using System;
using static System.Console;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Threading;
namespace Atcoder_Answer {
class Program {
const Int32 mod = 1000000007;
static void Main(string[] args) {
int K = int.Parse(ReadLine());
string S = ReadLine();
if (S.Length > K) {
WriteLine(S.Substring(0, Math.Min(K, S.Length)) + "...");
} else
WriteLine(S);
return;
}
#region Functions
public static decimal floor(float d) => Math.Floor((decimal)d);
public static double nqrt(int n, int value) {
if (n >= 0) {
// 通常のn乗根
return Math.Pow(n, 1.0 / (double)n);
} else {
if ((n % 2) != 0) {
// 奇数乗根の場合
return -Math.Pow(-n, 1.0 / (double)n);
} else {
// 偶数乗根の場合
return double.NaN;
}
}
}
#endregion
}
public static class Extension {
#region 拡張 : bool
#region キャスト関連
public static int ToInt(this bool Bool) {
if (Bool)
return 1;
else
return 0;
}
public static string ToString(this bool Bool, string TrueStr,
string FalseStr) {
if (Bool)
return TrueStr;
else
return FalseStr;
}
#endregion
#endregion
#region 拡張 : int
#region キャスト関連
public static char ToAlphaBets(this int Base) => (char)Base;
#endregion
#endregion
#region 拡張 : char
#region 変換関連
public static char NextAlpha(this char Char) => (char)((Char) +
1); //次の文字を取得
#endregion
#endregion
#region 拡張 : int[]
public static long Sum(this int[] Array) {
int Ret = 0;
for (int loop = 0; loop < Array.Length; loop++)
Ret += Array[loop];
return Ret;
}
#endregion
#region 拡張 : string
public static string Multi(this string THIS, int Value) {
string RetValue = "";
for (int loop = 0; loop < Value; loop++)
RetValue += THIS;
return RetValue;
}
#endregion
#region 拡張 : List < string>
public static string Sum(this List<string> THIS, string Split) {
string RetValue = "";
for (int loop = 0; loop < THIS.Count; loop++) {
RetValue += THIS[loop];
}
return RetValue;
}
#endregion
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["-", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["-", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 3, 4, 0, 28, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 8, 196, 0, 197, 0, 198, 0, 200, 141, 22], ["+", 0, 197, 0, 198, 0, 200, 0, 212, 0, 32], ["+", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24]]
| 8
| 502
| 14
|
using System;
using System.Linq;
namespace atcoder.abc168.c {
class Program {
static void Main(string[] args) {
int[] inputArray = getIntParams();
double A = (double)inputArray[0];
double B = (double)inputArray[1];
double H = (double)inputArray[2];
double M = (double)inputArray[3];
double angleA = (H + M / 60) * 30;
double angleB = M * 6;
double angle = Math.Abs(angleA - angleB);
angle = angle >= 180 ? 360 - angle : angle;
// 予言定理 a2 = b2 + c2 - 2bc * cos(A)
double ret = Math.Sqrt(Math.Pow(A, 2) + Math.Pow(B, 2) -
(2 * A * B * Math.Cos(angle * (Math.PI / 180))));
Console.WriteLine(angle);
Console.WriteLine(ret);
}
//↓↓↓ shared function ↓↓↓
static int getIntParam() { return int.Parse(Console.ReadLine()); }
static int[] getIntParams() {
return Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
}
static long getLongParam() { return long.Parse(Console.ReadLine()); }
static long[] getLongParams() {
return Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
}
static string getStringParam() { return Console.ReadLine(); }
static string[] getStringParams() { return Console.ReadLine().Split(' '); }
static decimal getDecimalParam() {
return decimal.Parse(Console.ReadLine());
}
static decimal[] getDecimalParams() {
return Console.ReadLine()
.Split(' ')
.Select(i => decimal.Parse(i))
.ToArray();
}
}
}
|
using System;
using System.Linq;
namespace atcoder.abc168.c {
class Program {
static void Main(string[] args) {
int[] inputArray = getIntParams();
double A = (double)inputArray[0];
double B = (double)inputArray[1];
double H = (double)inputArray[2];
double M = (double)inputArray[3];
double angleA = (H + M / 60) * 30;
double angleB = M * 6;
double angle = angleA - angleB;
// 余弦定理 a2 = b2 + c2 - 2bc * cos(A)
double ret = Math.Sqrt(Math.Pow(A, 2) + Math.Pow(B, 2) -
(2 * A * B * Math.Cos(angle * (Math.PI / 180))));
Console.WriteLine(ret);
}
//↓↓↓ shared function ↓↓↓
static int getIntParam() { return int.Parse(Console.ReadLine()); }
static int[] getIntParams() {
return Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
}
static long getLongParam() { return long.Parse(Console.ReadLine()); }
static long[] getLongParams() {
return Console.ReadLine().Split(' ').Select(i => long.Parse(i)).ToArray();
}
static string getStringParam() { return Console.ReadLine(); }
static string[] getStringParams() { return Console.ReadLine().Split(' '); }
static decimal getDecimalParam() {
return decimal.Parse(Console.ReadLine());
}
static decimal[] getDecimalParams() {
return Console.ReadLine()
.Split(' ')
.Select(i => decimal.Parse(i))
.ToArray();
}
}
}
|
[["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 22], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 0, 131], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 141, 22], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 24], ["-", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 31, 22], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 17, 20], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 12, 203], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 0, 101], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 31, 203], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 17, 33], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 12, 22], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 0, 102], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 75, 22], ["-", 3, 4, 0, 28, 0, 16, 12, 23, 0, 25], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 1, 0, 213, 3, 4, 0, 28, 0, 22]]
| 8
| 404
| 24
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder {
class ABC168C {
static void Main(string[] args) {
string[] str = Console.ReadLine().Split(' ');
int a = int.Parse(str[0]);
int b = int.Parse(str[1]);
int h = int.Parse(str[2]);
int m = int.Parse(str[3]);
double c = Math.Abs(30 * h - 5.5 * m);
if (c > 180) {
c = (c - 180) / 180 * Math.PI;
} else {
c = c / 180 * Math.PI;
}
double ans =
Math.Sqrt(Math.Pow(a, 2) + Math.Pow(b, 2) - (2 * a * b * Math.Cos(c)));
Console.WriteLine(ans);
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder {
class ABC168C {
static void Main(string[] args) {
string[] str = Console.ReadLine().Split(' ');
int a = int.Parse(str[0]);
int b = int.Parse(str[1]);
int h = int.Parse(str[2]);
int m = int.Parse(str[3]);
double c = Math.Abs(30 * h - 5.5 * m) / 180 * Math.PI;
double ans =
Math.Sqrt(Math.Pow(a, 2) + Math.Pow(b, 2) - (2 * a * b * Math.Cos(c)));
Console.WriteLine(ans);
}
}
}
|
[["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["-", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["-", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 11, 12, 16, 31, 16, 31, 23, 0, 24], ["-", 12, 16, 31, 16, 31, 23, 0, 16, 31, 22], ["-", 12, 16, 31, 16, 31, 23, 0, 16, 17, 33], ["-", 12, 16, 31, 16, 31, 23, 0, 16, 12, 203], ["-", 0, 11, 12, 16, 31, 16, 31, 23, 0, 25], ["-", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 95], ["-", 0, 195, 8, 196, 0, 57, 75, 196, 0, 45], ["-", 0, 57, 75, 196, 0, 1, 0, 11, 31, 22], ["-", 75, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 1, 0, 11, 12, 16, 31, 16, 31, 22], ["-", 0, 1, 0, 11, 12, 16, 31, 16, 17, 85], ["-", 0, 1, 0, 11, 12, 16, 31, 16, 12, 203], ["-", 75, 196, 0, 1, 0, 11, 12, 16, 17, 48], ["-", 0, 1, 0, 11, 12, 16, 12, 214, 205, 22], ["-", 0, 1, 0, 11, 12, 16, 12, 214, 0, 131], ["-", 0, 1, 0, 11, 12, 16, 12, 214, 141, 22], ["-", 8, 196, 0, 57, 75, 196, 0, 1, 0, 35], ["-", 0, 195, 8, 196, 0, 57, 75, 196, 0, 46]]
| 8
| 215
| 29
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
class Util {
static void Main() {
Sol mySol = new Sol();
mySol.Solve();
}
}
class Sol {
public void Solve() {
double[] ABHM = rda();
double A = ABHM[0];
double B = ABHM[1];
double H = ABHM[2];
double M = ABHM[3];
double angleA = (H + M / 60.0) / 12.0;
double angleB = M / 60.0;
double angleDiff = 2.0 * Math.PI * (angleA - angleB);
double ans;
if (angleDiff == 0)
ans = 0;
else if (angleDiff == Math.PI)
ans = A + B;
else
ans = Math.Sqrt(A * A + B * B - 2.0 * A * B * Math.Cos(angleDiff));
Console.WriteLine(ans);
Console.ReadLine();
}
static String rs() { return Console.ReadLine(); }
static int ri() { return int.Parse(Console.ReadLine()); }
static long rl() { return long.Parse(Console.ReadLine()); }
static double rd() { return double.Parse(Console.ReadLine()); }
static String[] rsa(char sep = ' ') { return Console.ReadLine().Split(sep); }
static int[] ria(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep), e => int.Parse(e));
}
static long[] rla(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep), e => long.Parse(e));
}
static double[] rda(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep),
e => double.Parse(e));
}
static int[] generateNums(int num, int N) {
return Enumerable.Repeat(num, N).ToArray();
}
static int[] generateSuretsu(int N) {
return Enumerable.Range(0, N).ToArray();
}
}
public static class Combination {
//使い方:int[][] Is = Combination.Enumerate(nums, k,
//withRepetition:false).ToArray();
public static IEnumerable<T[]> Enumerate<T>(IEnumerable<T> items, int k,
bool withRepetition) {
if (k == 1) {
foreach (var item in items)
yield return new T[] { item };
yield break;
}
foreach (var item in items) {
var leftside = new T[] { item };
// item よりも前のものを除く (順列と組み合わせの違い)
// 重複を許さないので、unusedから item そのものも取り除く
var unused = withRepetition
? items
: items.SkipWhile(e => !e.Equals(item)).Skip(1).ToList();
foreach (var rightside in Enumerate(unused, k - 1, withRepetition)) {
yield return leftside.Concat(rightside).ToArray();
}
}
}
}
|
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
class Util {
static void Main() {
Sol mySol = new Sol();
mySol.Solve();
}
}
class Sol {
public void Solve() {
double[] ABHM = rda();
double A = ABHM[0];
double B = ABHM[1];
double H = ABHM[2];
double M = ABHM[3];
double angleA = (H + M / 60.0) / 12.0;
double angleB = M / 60.0;
double angleDiff = 2.0 * Math.PI * (angleA - angleB);
double ans;
// if(angleDiff == 0) ans = 0;
// else if(angleDiff == Math.PI) ans = A + B;
// else
ans = Math.Sqrt(A * A + B * B - 2.0 * A * B * Math.Cos(angleDiff));
Console.WriteLine(ans);
Console.ReadLine();
}
static String rs() { return Console.ReadLine(); }
static int ri() { return int.Parse(Console.ReadLine()); }
static long rl() { return long.Parse(Console.ReadLine()); }
static double rd() { return double.Parse(Console.ReadLine()); }
static String[] rsa(char sep = ' ') { return Console.ReadLine().Split(sep); }
static int[] ria(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep), e => int.Parse(e));
}
static long[] rla(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep), e => long.Parse(e));
}
static double[] rda(char sep = ' ') {
return Array.ConvertAll(Console.ReadLine().Split(sep),
e => double.Parse(e));
}
static int[] generateNums(int num, int N) {
return Enumerable.Repeat(num, N).ToArray();
}
static int[] generateSuretsu(int N) {
return Enumerable.Range(0, N).ToArray();
}
}
public static class Combination {
//使い方:int[][] Is = Combination.Enumerate(nums, k,
//withRepetition:false).ToArray();
public static IEnumerable<T[]> Enumerate<T>(IEnumerable<T> items, int k,
bool withRepetition) {
if (k == 1) {
foreach (var item in items)
yield return new T[] { item };
yield break;
}
foreach (var item in items) {
var leftside = new T[] { item };
// item よりも前のものを除く (順列と組み合わせの違い)
// 重複を許さないので、unusedから item そのものも取り除く
var unused = withRepetition
? items
: items.SkipWhile(e => !e.Equals(item)).Skip(1).ToList();
foreach (var rightside in Enumerate(unused, k - 1, withRepetition)) {
yield return leftside.Concat(rightside).ToArray();
}
}
}
}
|
[["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 17, 60], ["-", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 25], ["-", 8, 196, 0, 57, 64, 1, 0, 11, 31, 22], ["-", 0, 57, 64, 1, 0, 11, 0, 202, 0, 32], ["-", 8, 196, 0, 57, 64, 1, 0, 11, 12, 203], ["-", 0, 195, 8, 196, 0, 57, 64, 1, 0, 35], ["-", 8, 201, 0, 195, 8, 196, 0, 57, 0, 95], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 121], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 24], ["-", 8, 196, 0, 57, 75, 57, 15, 16, 31, 22], ["-", 8, 196, 0, 57, 75, 57, 15, 16, 17, 60], ["-", 0, 57, 75, 57, 15, 16, 12, 214, 205, 22], ["-", 0, 57, 75, 57, 15, 16, 12, 214, 0, 131], ["-", 0, 57, 75, 57, 15, 16, 12, 214, 141, 22], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 25], ["-", 0, 57, 75, 57, 64, 1, 0, 11, 31, 22], ["-", 75, 57, 64, 1, 0, 11, 0, 202, 0, 32], ["-", 75, 57, 64, 1, 0, 11, 12, 16, 31, 22], ["-", 75, 57, 64, 1, 0, 11, 12, 16, 17, 72], ["-", 75, 57, 64, 1, 0, 11, 12, 16, 12, 22], ["-", 8, 196, 0, 57, 75, 57, 64, 1, 0, 35], ["-", 0, 195, 8, 196, 0, 57, 75, 57, 0, 95]]
| 8
| 628
| 26
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
int a = int.Parse(input[0]);
int b = int.Parse(input[1]);
int h = int.Parse(input[2]);
int m = int.Parse(input[3]);
double h_angle = (h * 30) + (m / 2);
double m_angle = m * 6;
double angle = Math.Abs(h_angle - m_angle);
double radian = angle * Math.PI / 180;
double c = Math.Sqrt(a * a + b * b - 2 * a * b * Math.Cos(radian));
Console.WriteLine(c);
}
}
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
int a = int.Parse(input[0]);
int b = int.Parse(input[1]);
int h = int.Parse(input[2]);
int m = int.Parse(input[3]);
double h_angle = (h * 30) + (m * 0.5);
double m_angle = m * 6;
double angle = Math.Abs(h_angle - m_angle);
if (angle > 180) {
angle = 360 - angle;
}
double radian = angle * Math.PI / 180;
double c = Math.Sqrt(a * a + b * b - 2 * a * b * Math.Cos(radian));
Console.WriteLine(c);
}
}
|
[["-", 0, 212, 0, 16, 12, 23, 0, 16, 17, 85], ["-", 0, 212, 0, 16, 12, 23, 0, 16, 12, 203], ["+", 0, 212, 0, 16, 12, 23, 0, 16, 17, 48], ["+", 0, 212, 0, 16, 12, 23, 0, 16, 12, 250], ["+", 0, 200, 0, 212, 0, 213, 3, 4, 0, 25], ["+", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 121], ["+", 8, 201, 0, 195, 8, 196, 0, 57, 0, 24], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 31, 22], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 17, 47], ["+", 0, 195, 8, 196, 0, 57, 15, 16, 12, 203], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 45], ["+", 0, 57, 64, 196, 0, 1, 0, 11, 31, 22], ["+", 64, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["+", 64, 196, 0, 1, 0, 11, 12, 16, 31, 203], ["+", 64, 196, 0, 1, 0, 11, 12, 16, 17, 33], ["+", 64, 196, 0, 1, 0, 11, 12, 16, 12, 22], ["+", 0, 195, 8, 196, 0, 57, 64, 196, 0, 46]]
| 8
| 169
| 18
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
long a = long.Parse(input[0]);
long b = long.Parse(input[1]);
long h = long.Parse(input[2]);
long m = long.Parse(input[3]);
Console.WriteLine(
Math.Sqrt(Math.Pow(a, 2) + Math.Pow(b, 2) -
2 * a * b * Math.Cos(((h * 30) - (m * 6)) * Math.PI / 180)));
}
}
|
using System;
class Program {
static void Main(string[] args) {
string[] input = Console.ReadLine().Split(' ');
double a = double.Parse(input[0]);
double b = double.Parse(input[1]);
double h = double.Parse(input[2]);
double m = double.Parse(input[3]);
Console.WriteLine(Math.Sqrt(
Math.Pow(a, 2) + Math.Pow(b, 2) -
2 * a * b * Math.Cos((h * 30 + m * 0.5 - m * 6) * Math.PI / 180)));
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["-", 31, 16, 31, 23, 0, 16, 31, 23, 0, 24], ["-", 31, 16, 31, 23, 0, 16, 31, 23, 0, 25], ["+", 31, 16, 31, 23, 0, 16, 31, 16, 17, 72], ["+", 31, 23, 0, 16, 31, 16, 12, 16, 31, 22], ["+", 31, 23, 0, 16, 31, 16, 12, 16, 17, 48], ["+", 31, 23, 0, 16, 31, 16, 12, 16, 12, 250], ["-", 31, 16, 31, 23, 0, 16, 12, 23, 0, 24], ["-", 31, 16, 31, 23, 0, 16, 12, 23, 0, 25]]
| 8
| 147
| 24
|
using System;
namespace C {
class Program {
static void Main(string[] args) {
var foo = Console.ReadLine().Trim().Split();
var A = Int32.Parse(foo[0]);
var B = Int32.Parse(foo[1]);
var H = Int32.Parse(foo[2]);
var M = Int32.Parse(foo[3]);
var mDeg = 6 * M;
var hDeg = (30) * H + (0.5 * M);
double deg = Math.Abs(mDeg - hDeg);
deg = deg >= 180 ? deg - 180 : deg;
var cosin = deg == 90 ? 0
: deg == 180 ? 1
: Math.Cos(deg * Math.PI / 180.0);
var res = Math.Pow(A, 2) + Math.Pow(B, 2) - 2.0 * A * B * cosin;
Console.WriteLine(Math.Sqrt(res));
}
}
}
|
using System;
namespace C {
class Program {
static void Main(string[] args) {
var foo = Console.ReadLine().Trim().Split();
var A = Int32.Parse(foo[0]);
var B = Int32.Parse(foo[1]);
var H = Int32.Parse(foo[2]);
var M = Int32.Parse(foo[3]);
var mDeg = 6 * M;
var hDeg = (30) * H + (0.5 * M);
double deg = Math.Abs(mDeg - hDeg);
var cosin = Math.Cos(deg * Math.PI / 180.0);
var res = Math.Pow(A, 2) + Math.Pow(B, 2) - 2.0 * A * B * cosin;
Console.WriteLine(Math.Sqrt(res));
}
}
}
|
[["-", 0, 195, 8, 196, 0, 1, 0, 11, 31, 22], ["-", 8, 196, 0, 1, 0, 11, 0, 202, 0, 32], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 31, 22], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 17, 20], ["-", 0, 1, 0, 11, 12, 41, 15, 16, 12, 203], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 0, 101], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 31, 22], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 17, 33], ["-", 0, 1, 0, 11, 12, 41, 64, 16, 12, 203], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 0, 102], ["-", 8, 196, 0, 1, 0, 11, 12, 41, 75, 22], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 0, 200, 0, 212, 0, 41, 15, 16, 31, 22], ["-", 0, 200, 0, 212, 0, 41, 15, 16, 17, 60], ["-", 0, 200, 0, 212, 0, 41, 15, 16, 12, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 41, 0, 101], ["-", 0, 198, 0, 200, 0, 212, 0, 41, 64, 203], ["-", 0, 198, 0, 200, 0, 212, 0, 41, 0, 102], ["-", 0, 212, 0, 41, 75, 41, 15, 16, 31, 22], ["-", 0, 212, 0, 41, 75, 41, 15, 16, 17, 60], ["-", 0, 212, 0, 41, 75, 41, 15, 16, 12, 203], ["-", 0, 200, 0, 212, 0, 41, 75, 41, 0, 101], ["-", 0, 200, 0, 212, 0, 41, 75, 41, 64, 203], ["-", 0, 200, 0, 212, 0, 41, 75, 41, 0, 102]]
| 8
| 206
| 24
|
using System;
using System.Linq;
public class ABC168C {
private static void Main(string[] args) {
var inputs = ReadIntsAsArray();
var a = inputs[0];
var b = inputs[1];
var h = inputs[2];
var m = inputs[3];
var angle = ((h * 60 + m) * 360 / (12 * 60)) - (m * 360 / 60);
var answer = CalcTriangleSide(a, b, CalcRadian(angle));
Console.WriteLine(answer);
}
private static int[] ReadIntsAsArray() =>
Console.ReadLine().Trim().Split().Select(x => int.Parse(x)).ToArray();
private static double CalcRadian(double angle) => angle * Math.PI / 180;
private static double CalcTriangleSide(double a, double b, double radian) =>
Math.Sqrt(Math.Pow(a, 2) + Math.Pow(b, 2) - 2 * a * b * Math.Cos(radian));
}
|
using System;
using System.Linq;
public class ABC168C {
private static void Main(string[] args) {
var inputs = ReadDoublesAsArray();
var a = inputs[0];
var b = inputs[1];
var h = inputs[2];
var m = inputs[3];
var angle = ((h * 60 + m) * 360 / (12 * 60)) - (m * 360 / 60);
var answer = CalcTriangleSide(a, b, CalcRadian(angle));
Console.WriteLine(answer);
}
private static double[] ReadDoublesAsArray() =>
Console.ReadLine().Trim().Split().Select(x => double.Parse(x)).ToArray();
private static double CalcRadian(double angle) => angle * Math.PI / 180;
private static double CalcTriangleSide(double a, double b, double radian) =>
Math.Sqrt((a * a) + (b * b) - (2 * a * b * Math.Cos(radian)));
}
|
[["-", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["+", 0, 198, 0, 200, 0, 212, 0, 213, 63, 22], ["-", 0, 235, 8, 201, 0, 195, 39, 224, 39, 199], ["+", 0, 235, 8, 201, 0, 195, 39, 224, 39, 199], ["-", 0, 208, 0, 235, 8, 201, 0, 195, 141, 22], ["+", 0, 208, 0, 235, 8, 201, 0, 195, 141, 22], ["-", 0, 28, 0, 218, 8, 213, 63, 214, 205, 199], ["+", 0, 28, 0, 218, 8, 213, 63, 214, 205, 199], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 205, 22], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 0, 131], ["-", 0, 16, 31, 16, 31, 213, 63, 214, 141, 22], ["-", 0, 16, 31, 16, 31, 213, 3, 4, 0, 21], ["-", 31, 16, 31, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 17, 48], ["+", 0, 16, 31, 16, 31, 23, 0, 16, 12, 22], ["-", 0, 16, 31, 16, 12, 213, 63, 214, 205, 22], ["-", 0, 16, 31, 16, 12, 213, 63, 214, 0, 131], ["-", 0, 16, 31, 16, 12, 213, 63, 214, 141, 22], ["-", 0, 16, 31, 16, 12, 213, 3, 4, 0, 21], ["-", 31, 16, 12, 213, 3, 4, 0, 28, 0, 203], ["+", 0, 16, 31, 16, 12, 23, 0, 16, 17, 48], ["+", 0, 16, 31, 16, 12, 23, 0, 16, 12, 22], ["+", 3, 4, 0, 28, 0, 16, 12, 23, 0, 24], ["+", 12, 23, 0, 16, 12, 213, 3, 4, 0, 25]]
| 8
| 222
| 24
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionC {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var inputLongArray =
Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
var a = inputLongArray[0];
var b = inputLongArray[1];
var h = inputLongArray[2];
var m = inputLongArray[3];
var hth = (h * 30 + m * 0.5) / 180 * Math.PI;
var mth = (m * 6) / 180 * Math.PI;
var hx = a * Math.Cos(hth);
var hy = a * Math.Sin(hth);
var mx = b * Math.Cos(mth);
var my = b * Math.Sin(mth);
var result = Math.Sqrt((hx - mx) * (hx - mx) + (hy - my) * (hy - my));
Console.WriteLine(result);
Console.Out.Flush();
}
}
}
|
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace AtCoder.Abc {
class QuestionC {
public static void Main(string[] args) {
var sw = new System.IO.StreamWriter(
Console.OpenStandardOutput()) { AutoFlush = false };
Console.SetOut(sw);
// 整数配列の入力
var inputLongArray =
Console.ReadLine().Split(' ').Select(i => int.Parse(i)).ToArray();
double a = inputLongArray[0];
double b = inputLongArray[1];
double h = inputLongArray[2];
double m = inputLongArray[3];
var hth = (h / 6 + m / 360) * Math.PI;
var mth = (m / 30) * Math.PI;
var hx = a * Math.Cos(hth);
var hy = a * Math.Sin(hth);
var mx = b * Math.Cos(mth);
var my = b * Math.Sin(mth);
var result = Math.Sqrt((hx - mx) * (hx - mx) + (hy - my) * (hy - my));
Console.WriteLine(result);
Console.Out.Flush();
}
}
}
|
[["-", 8, 196, 0, 197, 0, 198, 39, 216, 0, 217], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 31, 16, 31, 23, 0, 16, 31, 16, 17, 48], ["-", 31, 16, 31, 23, 0, 16, 31, 16, 12, 203], ["+", 0, 16, 31, 23, 0, 16, 31, 16, 17, 85], ["+", 0, 16, 31, 23, 0, 16, 31, 16, 12, 203], ["-", 31, 16, 31, 23, 0, 16, 12, 16, 17, 48], ["-", 31, 16, 31, 23, 0, 16, 12, 16, 12, 250], ["-", 0, 212, 0, 16, 31, 16, 31, 23, 0, 25], ["-", 0, 200, 0, 212, 0, 16, 31, 16, 12, 203], ["+", 0, 16, 31, 23, 0, 16, 12, 16, 12, 203], ["+", 0, 200, 0, 212, 0, 16, 31, 23, 0, 25], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 17, 48], ["-", 0, 16, 31, 16, 31, 23, 0, 16, 12, 203], ["+", 0, 212, 0, 16, 31, 23, 0, 16, 12, 203]]
| 8
| 272
| 24
|
using System;
using System.Linq;
using System.Collections.Generic;
class Program {
static void Main(string[] arg) {
string[] input = Console.ReadLine().Split(' ');
int a = int.Parse(input[0]);
int b = int.Parse(input[1]);
int H = int.Parse(input[2]);
int M = int.Parse(input[3]);
//長針の位置
double deg_h = H * 30 + 30 * M / 60;
double deg_m = M * 360 / 60;
double deg = Math.Abs(deg_h - deg_m);
//余弦定理
double ans;
ans = a * a + b * b - 2 * a * b * Math.Cos(Math.PI * deg / 180.0);
Console.WriteLine(Math.Sqrt(ans));
return;
}
}
|
using System;
using System.Linq;
using System.Collections.Generic;
class Program {
static void Main(string[] arg) {
string[] input = Console.ReadLine().Split(' ');
double a = double.Parse(input[0]);
double b = double.Parse(input[1]);
double H = double.Parse(input[2]);
double M = double.Parse(input[3]);
//長針の位置
double deg_h = H * 30 + 30 * M / 60;
double deg_m = M * 360 / 60;
double deg = Math.Abs(deg_h - deg_m);
//余弦定理
double ans;
ans = a * a + b * b - 2 * a * b * Math.Cos(Math.PI * deg / 180.0);
Console.WriteLine(Math.Sqrt(ans));
return;
}
}
|
[["-", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["+", 0, 195, 8, 196, 0, 197, 0, 198, 39, 199], ["-", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199], ["+", 0, 200, 0, 212, 0, 213, 63, 214, 205, 199]]
| 8
| 182
| 16
|
using System;
class main {
static void Main(string[] args) {
string[] read = Console.ReadLine().Split(' ');
int A = int.Parse(read[0]);
int B = int.Parse(read[1]);
int H = int.Parse(read[2]);
int M = int.Parse(read[3]);
double aAngle = H * 30 + M * 0.5;
double bAngle = M * 6;
double aX = A * Math.Cos(aAngle * Math.PI / 180);
double aY = A * Math.Sin(aAngle * Math.PI / 180);
Console.WriteLine($"{aX} :{aY}");
double bX = B * Math.Cos(bAngle * Math.PI / 180);
double bY = B * Math.Sin(bAngle * Math.PI / 180);
Console.WriteLine($"{bX} :{bY}");
double r = Math.Sqrt(Math.Pow(Math.Abs(bX - aX), 2) +
Math.Pow(Math.Abs(bY - aY), 2));
Console.Write($"{r}");
}
}
|
using System;
class main {
static void Main(string[] args) {
string[] read = Console.ReadLine().Split(' ');
int A = int.Parse(read[0]);
int B = int.Parse(read[1]);
int H = int.Parse(read[2]);
int M = int.Parse(read[3]);
double aAngle = H * 30 + M * 0.5;
double bAngle = M * 6;
double aX = A * Math.Cos(aAngle * Math.PI / 180);
double aY = A * Math.Sin(aAngle * Math.PI / 180);
// Console.WriteLine($"{aX} :{aY}");
double bX = B * Math.Cos(bAngle * Math.PI / 180);
double bY = B * Math.Sin(bAngle * Math.PI / 180);
// Console.WriteLine($"{bX} :{bY}");
double r = Math.Sqrt(Math.Pow(Math.Abs(bX - aX), 2) +
Math.Pow(Math.Abs(bY - aY), 2));
Console.Write($"{r:F20}");
}
}
|
[["-", 8, 196, 0, 1, 0, 213, 63, 214, 205, 22], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 0, 131], ["-", 8, 196, 0, 1, 0, 213, 63, 214, 141, 22], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 24], ["-", 0, 213, 3, 4, 0, 28, 0, 283, 0, 295], ["-", 3, 4, 0, 28, 0, 283, 0, 284, 0, 45], ["-", 3, 4, 0, 28, 0, 283, 0, 284, 0, 22], ["-", 3, 4, 0, 28, 0, 283, 0, 284, 0, 46], ["-", 0, 213, 3, 4, 0, 28, 0, 283, 0, 296], ["-", 0, 213, 3, 4, 0, 28, 0, 283, 0, 62], ["-", 8, 196, 0, 1, 0, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 1, 0, 35], ["-", 0, 212, 0, 16, 12, 213, 3, 4, 0, 25], ["-", 8, 201, 0, 195, 8, 196, 0, 197, 0, 35], ["+", 0, 28, 0, 283, 0, 284, 0, 298, 0, 102]]
| 8
| 259
| 32
|
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