// Algotester Library
// Version 1.0.460
#pragma once
#include <iostream>
#include <climits>
#include <stdexcept>
#include <cctype>
#include <regex>
#include <assert.h>
#include <stdarg.h>
#include <array>
#include <tuple>
#include <fstream>
#include <csignal>
#include <cmath>
using namespace std;
#ifdef ALGOTESTER_TEST
#define EXIT(msg) throw runtime_error(msg)
#else
#define EXIT(msg) cout << msg << endl; exit(0)
#endif
class AlgotesterReader;
/// @brief Initialize validator.
/// @return Reader that should be used to read test data.
AlgotesterReader initValidator();
/// @brief Initialize checker.
/// @return Array of readers in order: test input reader, user output reader, correct answer reader.
array<AlgotesterReader, 3> initChecker(int argc, char* argv[]);
/// @brief Initialize interactive checker.
/// @return Tuple of test input reader, user input stream and `AlgotesterReader` from user output stream.
tuple<AlgotesterReader, ofstream, AlgotesterReader> initInteractiveChecker(int argc, char* argv[]);
/// @brief Initialize scorer.
/// @return Array of readers in order: test input reader, user output reader, correct answer reader.
array<AlgotesterReader, 3> initScorer(int argc, char* argv[]);
/// @brief Check that 2 double values are close with given absolute and relative tolerance.
/// @param actual Actual value.
/// @param expected Expected value.
/// @param atol Absolute tolerance.
/// @param rtol Relative tolerance.
/// @return Whether given values are close.
bool isClose(long double actual, long double expected, long double atol=1e-7, long double rtol=1e-7);
/// @brief Case insensitive compare of 2 strings.
/// @param x First string.
/// @param y Second string.
/// @return Whether given strings are equal when case is ignored.
bool equalsIgnoreCase(string x, string y);
/// @brief Check if condition holds and exit with message if not.
void check(bool condition, string message);
class AlgotesterReader{
public:
AlgotesterReader(istream* _in=&cin, bool _strict=true): in(_in), strict(_strict), isSavedChar(false), lastChar(-1), row(1), col(1) {}
AlgotesterReader(string filename, bool _strict=true): strict(_strict), isSavedChar(false), lastChar(-1), row(1), col(1) {
in = new ifstream(filename);
}
/// @brief Read single char and check that its value is among possible values.
/// @param values If non-empty, string that contain all possible char values.
/// @param skipWhitespace Whether to skip whitespaces before reading next character.
/// @param name Name of the character.
/// @return Value that was read.
/// @note `skipWhitespace=true` could not be used if `strict=true`
char readChar(string values="", bool skipWhitespace=false, string name="");
/// @brief Read space character.
void readSpace() { readChar(" "); }
/// @brief Read endline character.
void readEndl();
/// @brief Read end of file character.
void readEof();
/// @brief Check if it is end of file.
/// @param skipWhitespace If true, whitespaces are skipped, i.e. result of this function is true if only whitespaces are left.
/// @return If the reader reached end of file.
/// @note `skipWhitespace=true` could not be used if `strict=true`
bool isEof(bool skipWhitespace=false);
/// @brief Read long long.
/// @param name Name of the variable.
/// @return Value that was read.
long long readInt(string name="");
/// @brief Read long long and check if it's in given range.
/// @param l Minimal value of integer.
/// @param r Maximal value of integer.
/// @param name Name of the variable.
/// @return Value that was read.
long long readInt(long long l, long long r, string name="");
/// @brief Read vector of long long with given length.
/// @param n Length of vector.
/// @param name Name
/// @return Values that were read.
/// @note In strict mode elements should be space-separated with endl in the end.
vector<long long> readVectorInt(int n, string name="");
/// @brief Read vector of long long with given length and check that each element is in given range.
/// @param n Length of vector.
/// @param l Minimal value of element.
/// @param r Maximal value of element.
/// @param name Name
/// @return Values that were read.
/// @note In strict mode elements should be space-separated with endl in the end.
vector<long long> readVectorInt(int n, long long l, long long r, string name="");
/// @brief Read unsigned long long.
/// @param name Name of the variable.
/// @return Value that was read.
unsigned long long readUInt(string name="");
/// @brief Read unsigned long long and check if it's in given range.
/// @param l Minimal value.
/// @param r Maximal value.
/// @param name Name of the variable.
/// @return Value that was read.
unsigned long long readUInt(unsigned long long l, unsigned long long r, string name="");
/// @brief Read token till the next whitespace and check if it matches given regex.
/// @param name Name of the variable.
/// @param regex Regular expression that token must match.
/// @return Token that was read.
string readToken(string name="", string regex=".*");
/// @brief Read token till the next whitespace and check if it matches given regex and its length is in given range.
/// @param minLength Minimal length of token.
/// @param maxLength Maximal length of token.
/// @param name Name of the variable.
/// @param regex Regular expression that token must match.
/// @return Token that was read.
string readToken(int minLength, int maxLength, string name="", string regex=".*");
/// @brief Read line till the next newline character.
/// @return Line that was read.
string readLine();
/// @brief Read long double.
/// @param name Name of the variable.
/// @return Value that was read.
long double readDouble(string name="");
/// @brief Read long double and check if it's in given range.
/// @param l Minimal value.
/// @param r Maximal value.
/// @param name Name of the variable.
/// @return Value that was read.
long double readDouble(long double l, long double r, string name="");
/// @brief Read long double and check its characteristics.
/// @param minDecimals Minimal number of decimal digits after the point.
/// @param maxDecimals Maximal number of decimal digits after the point.
/// @param allowExpFormat Whether exponential format is allowed.
/// @param name Name of the variable.
/// @return Value that was read.
long double readDouble(int minDecimals, int maxDecimals, bool allowExpFormat, string name);
/// @brief Read long double and check its characteristics and range.
/// @param l Minimal value.
/// @param r Maximal value.
/// @param minDecimals Minimal number of decimal digits after the point.
/// @param maxDecimals Maximal number of decimal digits after the point.
/// @param allowExpFormat Whether exponential format is allowed.
/// @param name Name of the variable.
/// @return Value that was read.
long double readDouble(long double l, long double r, int minDecimals, int maxDecimals, bool allowExpFormat, string name);
private:
istream* in;
bool strict;
bool isSavedChar;
char lastChar;
int row, col;
int row_prev, col_prev;
char getChar() {
char res;
if (isSavedChar) {
res = lastChar;
isSavedChar = false;
} else {
if (!in->get(res)) {
return 0;
}
}
row_prev = row;
col_prev = col;
if (res == '\n') {
row ++;
col = 1;
} else {
col ++;
}
return res;
}
string error_message(const char* s, ...) {
va_list arg;
char res[128];
va_start(arg, s);
vsnprintf (res, 128, s, arg);
va_end(arg);
return this->info() + string(res);
}
string info() { return "row " + std::to_string(row) + ": col " + std::to_string(col) + ": "; }
string readTokenImpl(int minLength, int maxLength, string name="") {
string res = "";
if (!strict)
readWhitespaces();
while (true) {
char ch = getChar();
if (!ch || isspace(ch)) {
if (ch)
saveChar(ch);
if (res.empty()) {
EXIT(error_message("Token %s is empty (maybe you forget to read whitespace character)", name.c_str()));
}
if ((int)res.size() < minLength) {
EXIT(error_message("Token %s is too short, expected length in range [%d, %d]", name.c_str(), minLength, maxLength));
}
return res;
}
if ((int)res.size() >= maxLength) {
EXIT(error_message("Token %s is too long, expected length in range [%d, %d]", name.c_str(), minLength, maxLength));
}
res += ch;
}
}
void match_string(string s, string r) {
if (r == ".*") {
return;
}
const std::regex regex(r);
if (!std::regex_match(s, regex)) {
EXIT(error_message("Token %s doesn't match regex %s", s.c_str(), r.c_str()));
}
}
void saveChar(char c) {
row = row_prev;
col = col_prev;
assert(!isSavedChar);
lastChar = c;
isSavedChar = true;
}
unsigned long long parseUInt(string s, unsigned long long limit, bool neg, string name = "") {
string fs = (neg ? "-" : "") + s;
if (!strict) {
int l = 0;
while (s.size() - l > 1 && s[l] == '0') ++ l;
s = s.substr(l);
}
if (s.size() > 20) {
EXIT(error_message("Integer %s out of long long range: %s", name.c_str(), fs.c_str()));
}
unsigned long long res = 0;
for(unsigned i = 0; i < s.size(); ++i) {
int digit = s[i] - '0';
if (digit < 0 || digit > 9) {
EXIT(error_message("Cannot parse %s: %s", name.c_str(), fs.c_str()));
}
if (strict && i == 0 && digit == 0 && (s.size() > 1 || neg)) {
if (neg && s.size() == 1) {
EXIT(error_message("Negative zero is not allowed in integer %s", name.c_str()));
}
EXIT(error_message("Leading zeros in integer %s: %s", name.c_str(), fs.c_str()));
}
if ((limit - digit) / 10 < res) {
EXIT(error_message("Integer %s out of long long range: %s", name.c_str(), fs.c_str()));
}
res = res * 10 + digit;
}
return res;
}
void readWhitespaces() {
while(true) {
char ch = getChar();
if (ch == 0)
break;
if (isspace(ch))
continue;
saveChar(ch);
break;
}
}
string charInfo(char ch) {
string res = "";
switch (ch)
{
case '\n':
res += "\\n";
break;
case '\r':
res += "\\r";
break;
case ' ':
res += "space";
break;
default:
res += ch;
break;
}
res += "(" + to_string(int(ch)) + ")";
return res;
}
};
void check(bool condition, string message) {
if (!condition) {
EXIT(message);
}
}
char AlgotesterReader::readChar(string values, bool skipWhitespace, string name) {
assert (!strict || !skipWhitespace);
if (skipWhitespace)
readWhitespaces();
char ch = getChar();
if (ch == 0) {
EXIT(error_message("Character %s could not be read", name.c_str()));
}
if (values.size() != 0) {
bool ok = false;
for (char t: values)
if (ch == t) {
ok = true;
break;
}
if (!ok) {
string expected_info = "";
for(char c: values) {
expected_info += " " + charInfo(c);
}
EXIT(error_message("Wrong character %s, expected values =%s, actual=%s", name.c_str(), expected_info.c_str(), charInfo(ch).c_str()));
}
}
return ch;
}
void AlgotesterReader::readEndl() {
if (strict) {
readChar("\n");
} else {
char c0;
while (true) {
c0 = readChar(" \n\r");
if (c0 != ' ')
break;
}
char c1 = getChar();
if ((c1 != '\n' && c1 != '\r' && c1) || c0 == c1) {
saveChar(c1);
}
}
}
void AlgotesterReader::readEof() {
if (!strict)
readWhitespaces();
char ch = getChar();
if (ch == 0)
return;
EXIT(error_message("Not end of file, read character %s", charInfo(ch).c_str()));
};
bool AlgotesterReader::isEof(bool skipWhitespace) {
assert(!strict || !skipWhitespace); // Could not use `skipWhitespace=true` in strict mode.
if (skipWhitespace)
readWhitespaces();
char ch = getChar();
if (ch == 0)
return true;
saveChar(ch);
return false;
}
long long AlgotesterReader::readInt(string name) {
string s = readToken(name);
long long res;
if (s[0] == '-') {
res = -(long long)parseUInt(s.substr(1), (unsigned long long)LLONG_MAX + 1, true, name);
} else {
if (!strict && s[0] == '+') {
s = s.substr(1);
}
res = parseUInt(s, LLONG_MAX, false, name);
}
return res;
}
long long AlgotesterReader::readInt(long long l, long long r, string name){
long long res = readInt(name);
if (res < l || res > r) {
EXIT(error_message("Integer %s out of range, expected range=[%lld, %lld], actual=%lld\n", name.c_str(), l, r, res));
}
return res;
}
vector<long long> AlgotesterReader::readVectorInt(int n, string name) {
vector<long long> res;
for(int i = 0; i < n; ++i) {
res.push_back(readInt(name + "[" + to_string(i) + "]"));
if (strict) {
if (i + 1 < n)
readSpace();
else
readEndl();
}
}
return res;
}
vector<long long> AlgotesterReader::readVectorInt(int n, long long l, long long r, string name) {
vector<long long> res;
for(int i = 0; i < n; ++i) {
res.push_back(readInt(l, r, name + "[" + to_string(i) + "]"));
if (strict) {
if (i + 1 < n)
readSpace();
else
readEndl();
}
}
return res;
}
unsigned long long AlgotesterReader::readUInt(string name) {
string s = readToken();
unsigned long long res = parseUInt(s, ULLONG_MAX, false, name);
return res;
}
unsigned long long AlgotesterReader::readUInt(unsigned long long l, unsigned long long r, string name){
unsigned long long res = this->readUInt(name);
if (res < l || res > r) {
EXIT(error_message("Integer %s out of range, expected range=[%llu, %llu], actual=%llu\n", name.c_str(), l, r, res));
}
return res;
}
string AlgotesterReader::readToken(string name, string regex) {
return readToken(0, INT_MAX, name, regex);
}
string AlgotesterReader::readToken(int minLength, int maxLength, string name, string regex) {
string res = readTokenImpl(minLength, maxLength, name);
match_string(res, regex);
return res;
}
string AlgotesterReader::readLine() {
string res = "";
while (true) {
char ch = getChar();
if (!ch || ch == '\n' || ch == '\r') {
saveChar(ch);
if (ch != 0)
readEndl();
return res;
}
res += ch;
}
}
long double AlgotesterReader::readDouble(string name) {
return readDouble(0, 47, !strict, name);
}
long double AlgotesterReader::readDouble(long double l, long double r, string name) {
long double res = readDouble(name);
if (res < l || res > r) {
EXIT(error_message("Double %s out of range, expected range=[%llf, %llf], actual=%llf\n", name.c_str(), l, r, res));
}
return res;
}
long double AlgotesterReader::readDouble(int minDecimals, int maxDecimals, bool allowExpFormat, string name) {
string s = readToken(name);
long double res;
try{
size_t pos;
res = stold(s, &pos);
if (pos != s.size()) {
throw invalid_argument("");
}
}
catch (invalid_argument&) {
EXIT(error_message("Cannot parse double %s: %s", name.c_str(), s.c_str()));
}
catch(out_of_range&) {
EXIT(error_message("Double %s is out of long double range: %s", name.c_str(), s.c_str()));
}
if (!isfinite(res)){
EXIT(error_message("Double %s is not finite: %s", name.c_str(), s.c_str()));
}
int expPos = max((int)s.find('e'), (int)s.find('E'));
int dotPos = (int)s.find('.');
if (!allowExpFormat && expPos != -1) {
EXIT(error_message("Double %s is in exponential format: %s", name.c_str(), s.c_str()));
}
int decimals = (dotPos == -1 ? 0 : (expPos == -1 ? (int)s.size() - dotPos - 1 : expPos - dotPos - 1));
if (decimals < minDecimals || decimals > maxDecimals) {
EXIT(error_message("Double %s has incorrect number of decimals, expected range=[%d, %d], actual=%d: %s", name.c_str(), minDecimals, maxDecimals, decimals, s.c_str()));
}
return res;
}
long double AlgotesterReader::readDouble(long double l, long double r, int minDecimals, int maxDecimals, bool allowExpFormat, string name) {
long double res = readDouble(minDecimals, maxDecimals, allowExpFormat, name);
if (res < l || res > r) {
EXIT(error_message("Double %s out of range, expected range=[%llf, %llf], actual=%llf\n", name.c_str(), l, r, res));
}
return res;
}
AlgotesterReader initValidator() {
return AlgotesterReader();
}
array<AlgotesterReader, 3> initChecker(int argc, char* argv[]) {
static_cast<void>(argc);
return {AlgotesterReader(argv[1], false), AlgotesterReader(argv[2], false), AlgotesterReader(argc >= 4 ? argv[3] : "/dev/null", false)};
}
#if defined(__unix__)
#define IGNORE_BROKEN_PIPE signal(SIGPIPE, SIG_IGN)
#else
#define IGNORE_BROKEN_PIPE
#endif
tuple<AlgotesterReader, ofstream, AlgotesterReader> initInteractiveChecker(int argc, char* argv[]) {
IGNORE_BROKEN_PIPE;
static_cast<void>(argc);
return {AlgotesterReader(&cin, false), ofstream(argv[1]), AlgotesterReader(argv[2], false)};
}
array<AlgotesterReader, 3> initScorer(int argc, char* argv[]) {
return initChecker(argc, argv);
}
bool isClose(long double actual, long double expected, long double atol, long double rtol) {
return abs(actual - expected) <= max(rtol * abs(expected), atol);
}
bool equalsIgnoreCase(string x, string y) {
if (x.size() != y.size())
return false;
for (unsigned i = 0; i < x.size(); ++i) {
if (tolower(x[i]) != tolower(y[i]))
return false;
}
return true;
}