Instruction stringlengths 45 106 | input_code stringlengths 1 13.7k | output_code stringlengths 1 13.7k |
|---|---|---|
Produce a functionally identical C++ code for the snippet given in PHP. | <?php
$h = 0;
$s = file_get_contents(__FILE__);
$l = strlen($s);
foreach ( count_chars($s, 1) as $c )
$h -=
( $c / $l ) *
log( $c / $l, 2 );
echo $h;
| #include <iostream>
#include <fstream>
#include <cmath>
using namespace std;
string readFile (string path) {
string contents;
string line;
ifstream inFile(path);
while (getline (inFile, line)) {
contents.append(line);
contents.append("\n");
}
inFile.close();
return contents;
}
double entropy (string X) {
const int MAXCHAR = 127;
int N = X.length();
int count[MAXCHAR];
double count_i;
char ch;
double sum = 0.0;
for (int i = 0; i < MAXCHAR; i++) count[i] = 0;
for (int pos = 0; pos < N; pos++) {
ch = X[pos];
count[(int)ch]++;
}
for (int n_i = 0; n_i < MAXCHAR; n_i++) {
count_i = count[n_i];
if (count_i > 0) sum -= count_i / N * log2(count_i / N);
}
return sum;
}
int main () {
cout<<entropy(readFile("entropy.cpp"));
return 0;
}
|
Keep all operations the same but rewrite the snippet in C++. | <?php
$h = 0;
$s = file_get_contents(__FILE__);
$l = strlen($s);
foreach ( count_chars($s, 1) as $c )
$h -=
( $c / $l ) *
log( $c / $l, 2 );
echo $h;
| #include <iostream>
#include <fstream>
#include <cmath>
using namespace std;
string readFile (string path) {
string contents;
string line;
ifstream inFile(path);
while (getline (inFile, line)) {
contents.append(line);
contents.append("\n");
}
inFile.close();
return contents;
}
double entropy (string X) {
const int MAXCHAR = 127;
int N = X.length();
int count[MAXCHAR];
double count_i;
char ch;
double sum = 0.0;
for (int i = 0; i < MAXCHAR; i++) count[i] = 0;
for (int pos = 0; pos < N; pos++) {
ch = X[pos];
count[(int)ch]++;
}
for (int n_i = 0; n_i < MAXCHAR; n_i++) {
count_i = count[n_i];
if (count_i > 0) sum -= count_i / N * log2(count_i / N);
}
return sum;
}
int main () {
cout<<entropy(readFile("entropy.cpp"));
return 0;
}
|
Generate an equivalent C++ version of this PHP code. | <?php
$ipv4_record = dns_get_record("www.kame.net",DNS_A);
$ipv6_record = dns_get_record("www.kame.net",DNS_AAAA);
print "ipv4: " . $ipv4_record[0]["ip"] . "\n";
print "ipv6: " . $ipv6_record[0]["ipv6"] . "\n";
?>
| #include <Rcpp.h>
#include <arpa/inet.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
using namespace Rcpp ;
CharacterVector getNameInfo(std::string fqdn) {
struct addrinfo hints, *res, *res0;
int error;
char host[NI_MAXHOST];
memset(&hints, 0, sizeof hints);
hints.ai_family = PF_UNSPEC;
hints.ai_socktype = SOCK_DGRAM;
error = getaddrinfo(fqdn.c_str(), NULL, &hints, &res0);
if (error) { return(NA_STRING); }
int i = 0 ;
for (res = res0; res; res = res->ai_next) {
error = getnameinfo(res->ai_addr, res->ai_addrlen,
host, sizeof host, NULL, 0, NI_NUMERICHOST);
if (!error) { i++ ; }
}
CharacterVector results(i) ;
i = 0;
for (res = res0; res; res = res->ai_next) {
error = getnameinfo(res->ai_addr, res->ai_addrlen,
host, sizeof host, NULL, 0, NI_NUMERICHOST);
if (!error) { results[i++] = host ; }
}
freeaddrinfo(res0);
return(results) ;
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | <?php
echo "<h1>" . "Choose: ROCK - PAPER - SCISSORS" . "</h1>";
echo "<h2>";
echo "";
$player = strtoupper( $_GET["moves"] );
$wins = [
'ROCK' => 'SCISSORS',
'PAPER' => 'ROCK',
'SCISSORS' => 'PAPER'
];
$a_i = array_rand($wins);
echo "<br>";
echo "Player chooses " . "<i style=\"color:blue\">" . $player . "</i>";
echo "<br>";
echo "<br>" . "A.I chooses " . "<i style=\"color:red\">" . $a_i . "</i>";
$results = "";
if ($player == $a_i){
$results = "Draw";
} else if($wins[$a_i] == $player ){
$results = "A.I wins";
} else {
$results = "Player wins";
}
echo "<br>" . $results;
?>
| #include <windows.h>
#include <iostream>
#include <string>
using namespace std;
enum choices { ROCK, SPOCK, PAPER, LIZARD, SCISSORS, MX_C };
enum indexes { PLAYER, COMPUTER, DRAW };
class stats
{
public:
stats() : _draw( 0 )
{
ZeroMemory( _moves, sizeof( _moves ) );
ZeroMemory( _win, sizeof( _win ) );
}
void draw() { _draw++; }
void win( int p ) { _win[p]++; }
void move( int p, int m ) { _moves[p][m]++; }
int getMove( int p, int m ) { return _moves[p][m]; }
string format( int a )
{
char t[32];
wsprintf( t, "%.3d", a );
string d( t );
return d;
}
void print()
{
string d = format( _draw ),
pw = format( _win[PLAYER] ), cw = format( _win[COMPUTER] ),
pr = format( _moves[PLAYER][ROCK] ), cr = format( _moves[COMPUTER][ROCK] ),
pp = format( _moves[PLAYER][PAPER] ), cp = format( _moves[COMPUTER][PAPER] ),
ps = format( _moves[PLAYER][SCISSORS] ), cs = format( _moves[COMPUTER][SCISSORS] ),
pl = format( _moves[PLAYER][LIZARD] ), cl = format( _moves[COMPUTER][LIZARD] ),
pk = format( _moves[PLAYER][SPOCK] ), ck = format( _moves[COMPUTER][SPOCK] );
system( "cls" );
cout << endl;
cout << "+----------+-------+--------+--------+---------+----------+--------+---------+" << endl;
cout << "| | WON | DRAW | ROCK | PAPER | SCISSORS | LIZARD | SPOCK |" << endl;
cout << "+----------+-------+--------+--------+---------+----------+--------+---------+" << endl;
cout << "| PLAYER | " << pw << " | | " << pr << " | " << pp << " | " << ps << " | " << pl << " | " << pk << " |" << endl;
cout << "+----------+-------+ " << d << " +--------+---------+----------+--------+---------+" << endl;
cout << "| COMPUTER | " << cw << " | | " << cr << " | " << cp << " | " << cs << " | " << cl << " | " << ck << " |" << endl;
cout << "+----------+-------+--------+--------+---------+----------+--------+---------+" << endl;
cout << endl << endl;
system( "pause" );
}
private:
int _moves[2][MX_C], _win[2], _draw;
};
class rps
{
private:
int makeMove()
{
int total = 0, r, s;
for( int i = 0; i < MX_C; total += statistics.getMove( PLAYER, i++ ) );
r = rand() % total;
for( int i = ROCK; i < SCISSORS; i++ )
{
s = statistics.getMove( PLAYER, i );
if( r < s ) return ( i + 1 );
r -= s;
}
return ROCK;
}
void printMove( int p, int m )
{
if( p == COMPUTER ) cout << "My move: ";
else cout << "Your move: ";
switch( m )
{
case ROCK: cout << "ROCK\n"; break;
case PAPER: cout << "PAPER\n"; break;
case SCISSORS: cout << "SCISSORS\n"; break;
case LIZARD: cout << "LIZARD\n"; break;
case SPOCK: cout << "SPOCK\n";
}
}
public:
rps()
{
checker[ROCK][ROCK] = 2; checker[ROCK][PAPER] = 1; checker[ROCK][SCISSORS] = 0; checker[ROCK][LIZARD] = 0; checker[ROCK][SPOCK] = 1;
checker[PAPER][ROCK] = 0; checker[PAPER][PAPER] = 2; checker[PAPER][SCISSORS] = 1; checker[PAPER][LIZARD] = 1; checker[PAPER][SPOCK] = 0;
checker[SCISSORS][ROCK] = 1; checker[SCISSORS][PAPER] = 0; checker[SCISSORS][SCISSORS] = 2; checker[SCISSORS][LIZARD] = 0; checker[SCISSORS][SPOCK] = 1;
checker[LIZARD][ROCK] = 1; checker[LIZARD][PAPER] = 0; checker[LIZARD][SCISSORS] = 1; checker[LIZARD][LIZARD] = 2; checker[LIZARD][SPOCK] = 0;
checker[SPOCK][ROCK] = 0; checker[SPOCK][PAPER] = 1; checker[SPOCK][SCISSORS] = 0; checker[SPOCK][LIZARD] = 1; checker[SPOCK][SPOCK] = 2;
}
void play()
{
int p, r, m;
while( true )
{
cout << "What is your move (1)ROCK (2)SPOCK (3)PAPER (4)LIZARD (5)SCISSORS (0)Quit ? ";
cin >> p;
if( !p || p < 0 ) break;
if( p > 0 && p < 6 )
{
p--;
cout << endl;
printMove( PLAYER, p );
statistics.move( PLAYER, p );
m = makeMove();
statistics.move( COMPUTER, m );
printMove( COMPUTER, m );
r = checker[p][m];
switch( r )
{
case DRAW:
cout << endl << "DRAW!" << endl << endl;
statistics.draw();
break;
case COMPUTER:
cout << endl << "I WIN!" << endl << endl;
statistics.win( COMPUTER );
break;
case PLAYER:
cout << endl << "YOU WIN!" << endl << endl;
statistics.win( PLAYER );
}
system( "pause" );
}
system( "cls" );
}
statistics.print();
}
private:
stats statistics;
int checker[MX_C][MX_C];
};
int main( int argc, char* argv[] )
{
srand( GetTickCount() );
rps game;
game.play();
return 0;
}
|
Maintain the same structure and functionality when rewriting this code in C++. | <?php
function Y($f) {
$g = function($w) use($f) {
return $f(function() use($w) {
return call_user_func_array($w($w), func_get_args());
});
};
return $g($g);
}
$fibonacci = Y(function($f) {
return function($i) use($f) { return ($i <= 1) ? $i : ($f($i-1) + $f($i-2)); };
});
echo $fibonacci(10), "\n";
$factorial = Y(function($f) {
return function($i) use($f) { return ($i <= 1) ? 1 : ($f($i - 1) * $i); };
});
echo $factorial(10), "\n";
?>
| #include <iostream>
#include <functional>
template <typename F>
struct RecursiveFunc {
std::function<F(RecursiveFunc)> o;
};
template <typename A, typename B>
std::function<B(A)> Y (std::function<std::function<B(A)>(std::function<B(A)>)> f) {
RecursiveFunc<std::function<B(A)>> r = {
std::function<std::function<B(A)>(RecursiveFunc<std::function<B(A)>>)>([f](RecursiveFunc<std::function<B(A)>> w) {
return f(std::function<B(A)>([w](A x) {
return w.o(w)(x);
}));
})
};
return r.o(r);
}
typedef std::function<int(int)> Func;
typedef std::function<Func(Func)> FuncFunc;
FuncFunc almost_fac = [](Func f) {
return Func([f](int n) {
if (n <= 1) return 1;
return n * f(n - 1);
});
};
FuncFunc almost_fib = [](Func f) {
return Func([f](int n) {
if (n <= 2) return 1;
return f(n - 1) + f(n - 2);
});
};
int main() {
auto fib = Y(almost_fib);
auto fac = Y(almost_fac);
std::cout << "fib(10) = " << fib(10) << std::endl;
std::cout << "fac(10) = " << fac(10) << std::endl;
return 0;
}
|
Port the provided PHP code into C++ while preserving the original functionality. | function addsub($x, $y) {
return array($x + $y, $x - $y);
}
| #include <algorithm>
#include <array>
#include <cstdint>
#include <iostream>
#include <tuple>
std::tuple<int, int> minmax(const int * numbers, const std::size_t num) {
const auto maximum = std::max_element(numbers, numbers + num);
const auto minimum = std::min_element(numbers, numbers + num);
return std::make_tuple(*minimum, *maximum) ;
}
int main( ) {
const auto numbers = std::array<int, 8>{{17, 88, 9, 33, 4, 987, -10, 2}};
int min{};
int max{};
std::tie(min, max) = minmax(numbers.data(), numbers.size());
std::cout << "The smallest number is " << min << ", the biggest " << max << "!\n" ;
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | $server = "speedtest.tele2.net";
$user = "anonymous";
$pass = "ftptest@example.com";
$conn = ftp_connect($server);
if (!$conn) {
die('unable to connect to: '. $server);
}
$login = ftp_login($conn, $user, $pass);
if (!$login) {
echo 'unable to log in to '. $server. ' with user: '.$user.' and pass: '. $pass;
} else{
echo 'connected successfully'.PHP_EOL;
$directory = ftp_nlist($conn,'');
print_r($directory);
}
if (ftp_get($conn, '1KB.zip', '1KB.zip', FTP_BINARY)) {
echo "Successfully downloaded file".PHP_EOL;
} else {
echo "failed to download file";
}
|
#include <iostream>
#include <string>
#include <cstring>
#include <fstream>
#include <sys/stat.h>
#include <ftplib.h>
#include <ftp++.hpp>
int stat(const char *pathname, struct stat *buf);
char *strerror(int errnum);
char *basename(char *path);
namespace stl
{
using std::cout;
using std::cerr;
using std::string;
using std::ifstream;
using std::remove;
};
using namespace stl;
using Mode = ftp::Connection::Mode;
Mode PASV = Mode::PASSIVE;
Mode PORT = Mode::PORT;
using TransferMode = ftp::Connection::TransferMode;
TransferMode BINARY = TransferMode::BINARY;
TransferMode TEXT = TransferMode::TEXT;
struct session
{
const string server;
const string port;
const string user;
const string pass;
Mode mode;
TransferMode txmode;
string dir;
};
ftp::Connection connect_ftp( const session& sess);
size_t get_ftp( ftp::Connection& conn, string const& path);
string readFile( const string& filename);
string login_ftp(ftp::Connection& conn, const session& sess);
string dir_listing( ftp::Connection& conn, const string& path);
string readFile( const string& filename)
{
struct stat stat_buf;
string contents;
errno = 0;
if (stat(filename.c_str() , &stat_buf) != -1)
{
size_t len = stat_buf.st_size;
string bytes(len+1, '\0');
ifstream ifs(filename);
ifs.read(&bytes[0], len);
if (! ifs.fail() ) contents.swap(bytes);
ifs.close();
}
else
{
cerr << "stat error: " << strerror(errno);
}
return contents;
}
ftp::Connection connect_ftp( const session& sess)
try
{
string constr = sess.server + ":" + sess.port;
cerr << "connecting to " << constr << " ...\n";
ftp::Connection conn{ constr.c_str() };
cerr << "connected to " << constr << "\n";
conn.setConnectionMode(sess.mode);
return conn;
}
catch (ftp::ConnectException e)
{
cerr << "FTP error: could not connect to server" << "\n";
}
string login_ftp(ftp::Connection& conn, const session& sess)
{
conn.login(sess.user.c_str() , sess.pass.c_str() );
return conn.getLastResponse();
}
string dir_listing( ftp::Connection& conn, const string& path)
try
{
const char* dirdata = "/dev/shm/dirdata";
conn.getList(dirdata, path.c_str() );
string dir_string = readFile(dirdata);
cerr << conn.getLastResponse() << "\n";
errno = 0;
if ( remove(dirdata) != 0 )
{
cerr << "error: " << strerror(errno) << "\n";
}
return dir_string;
}
catch (...) {
cerr << "error: getting dir contents: \n"
<< strerror(errno) << "\n";
}
size_t get_ftp( ftp::Connection& conn, const string& r_path)
{
size_t received = 0;
const char* path = r_path.c_str();
unsigned remotefile_size = conn.size(path , BINARY);
const char* localfile = basename(path);
conn.get(localfile, path, BINARY);
cerr << conn.getLastResponse() << "\n";
struct stat stat_buf;
errno = 0;
if (stat(localfile, &stat_buf) != -1)
received = stat_buf.st_size;
else
cerr << strerror(errno);
return received;
}
const session sonic
{
"mirrors.sonic.net",
"21" ,
"anonymous",
"xxxx@nohost.org",
PASV,
BINARY,
"/pub/OpenBSD"
};
int main(int argc, char* argv[], char * env[] )
{
const session remote = sonic;
try
{
ftp::Connection conn = connect_ftp(remote);
cerr << login_ftp(conn, remote);
cout << "System type: " << conn.getSystemType() << "\n";
cerr << conn.getLastResponse() << "\n";
conn.cd(remote.dir.c_str());
cerr << conn.getLastResponse() << "\n";
string pwdstr = conn.getDirectory();
cout << "PWD: " << pwdstr << "\n";
cerr << conn.getLastResponse() << "\n";
string dirlist = dir_listing(conn, pwdstr.c_str() );
cout << dirlist << "\n";
string filename = "ftplist";
auto pos = dirlist.find(filename);
auto notfound = string::npos;
if (pos != notfound)
{
size_t received = get_ftp(conn, filename.c_str() );
if (received == 0)
cerr << "got 0 bytes\n";
else
cerr << "got " << filename
<< " (" << received << " bytes)\n";
}
else
{
cerr << "file " << filename
<< "not found on server. \n";
}
}
catch (ftp::ConnectException e)
{
cerr << "FTP error: could not connect to server" << "\n";
}
catch (ftp::Exception e)
{
cerr << "FTP error: " << e << "\n";
}
catch (...)
{
cerr << "error: " << strerror(errno) << "\n";
}
return 0;
}
|
Write a version of this PHP function in C++ with identical behavior. | #!/usr/bin/env php
The 24 Game
Given any four digits in the range 1 to 9, which may have repetitions,
Using just the +, -, *, and / operators; and the possible use of
brackets, (), show how to make an answer of 24.
An answer of "q" will quit the game.
An answer of "!" will generate a new set of four digits.
Otherwise you are repeatedly asked for an expression until it evaluates to 24
Note: you cannot form multiple digit numbers from the supplied digits,
so an answer of 12+12 when given 1, 2, 2, and 1 would not be allowed.
<?php
while (true) {
$numbers = make_numbers();
for ($iteration_num = 1; ; $iteration_num++) {
echo "Expresion $iteration_num: ";
$entry = rtrim(fgets(STDIN));
if ($entry === '!') break;
if ($entry === 'q') exit;
$result = play($numbers, $entry);
if ($result === null) {
echo "That's not valid\n";
continue;
}
elseif ($result != 24) {
echo "Sorry, that's $result\n";
continue;
}
else {
echo "That's right! 24!!\n";
exit;
}
}
}
function make_numbers() {
$numbers = array();
echo "Your four digits: ";
for ($i = 0; $i < 4; $i++) {
$number = rand(1, 9);
if (!isset($numbers[$number])) {
$numbers[$number] = 0;
}
$numbers[$number]++;
print "$number ";
}
print "\n";
return $numbers;
}
function play($numbers, $expression) {
$operator = true;
for ($i = 0, $length = strlen($expression); $i < $length; $i++) {
$character = $expression[$i];
if (in_array($character, array('(', ')', ' ', "\t"))) continue;
$operator = !$operator;
if (!$operator) {
if (!empty($numbers[$character])) {
$numbers[$character]--;
continue;
}
return;
}
elseif (!in_array($character, array('+', '-', '*', '/'))) {
return;
}
}
foreach ($numbers as $remaining) {
if ($remaining > 0) {
return;
}
}
return eval("return $expression;");
}
?>
| #include <random>
#include <iostream>
#include <stack>
#include <set>
#include <string>
#include <functional>
using namespace std;
class RPNParse
{
public:
stack<double> stk;
multiset<int> digits;
void op(function<double(double,double)> f)
{
if(stk.size() < 2)
throw "Improperly written expression";
int b = stk.top(); stk.pop();
int a = stk.top(); stk.pop();
stk.push(f(a, b));
}
void parse(char c)
{
if(c >= '0' && c <= '9')
{
stk.push(c - '0');
digits.insert(c - '0');
}
else if(c == '+')
op([](double a, double b) {return a+b;});
else if(c == '-')
op([](double a, double b) {return a-b;});
else if(c == '*')
op([](double a, double b) {return a*b;});
else if(c == '/')
op([](double a, double b) {return a/b;});
}
void parse(string s)
{
for(int i = 0; i < s.size(); ++i)
parse(s[i]);
}
double getResult()
{
if(stk.size() != 1)
throw "Improperly written expression";
return stk.top();
}
};
int main()
{
random_device seed;
mt19937 engine(seed());
uniform_int_distribution<> distribution(1, 9);
auto rnd = bind(distribution, engine);
multiset<int> digits;
cout << "Make 24 with the digits: ";
for(int i = 0; i < 4; ++i)
{
int n = rnd();
cout << " " << n;
digits.insert(n);
}
cout << endl;
RPNParse parser;
try
{
string input;
getline(cin, input);
parser.parse(input);
if(digits != parser.digits)
cout << "Error: Not using the given digits" << endl;
else
{
double r = parser.getResult();
cout << "Result: " << r << endl;
if(r > 23.999 && r < 24.001)
cout << "Good job!" << endl;
else
cout << "Try again." << endl;
}
}
catch(char* e)
{
cout << "Error: " << e << endl;
}
return 0;
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | #!/usr/bin/env php
The 24 Game
Given any four digits in the range 1 to 9, which may have repetitions,
Using just the +, -, *, and / operators; and the possible use of
brackets, (), show how to make an answer of 24.
An answer of "q" will quit the game.
An answer of "!" will generate a new set of four digits.
Otherwise you are repeatedly asked for an expression until it evaluates to 24
Note: you cannot form multiple digit numbers from the supplied digits,
so an answer of 12+12 when given 1, 2, 2, and 1 would not be allowed.
<?php
while (true) {
$numbers = make_numbers();
for ($iteration_num = 1; ; $iteration_num++) {
echo "Expresion $iteration_num: ";
$entry = rtrim(fgets(STDIN));
if ($entry === '!') break;
if ($entry === 'q') exit;
$result = play($numbers, $entry);
if ($result === null) {
echo "That's not valid\n";
continue;
}
elseif ($result != 24) {
echo "Sorry, that's $result\n";
continue;
}
else {
echo "That's right! 24!!\n";
exit;
}
}
}
function make_numbers() {
$numbers = array();
echo "Your four digits: ";
for ($i = 0; $i < 4; $i++) {
$number = rand(1, 9);
if (!isset($numbers[$number])) {
$numbers[$number] = 0;
}
$numbers[$number]++;
print "$number ";
}
print "\n";
return $numbers;
}
function play($numbers, $expression) {
$operator = true;
for ($i = 0, $length = strlen($expression); $i < $length; $i++) {
$character = $expression[$i];
if (in_array($character, array('(', ')', ' ', "\t"))) continue;
$operator = !$operator;
if (!$operator) {
if (!empty($numbers[$character])) {
$numbers[$character]--;
continue;
}
return;
}
elseif (!in_array($character, array('+', '-', '*', '/'))) {
return;
}
}
foreach ($numbers as $remaining) {
if ($remaining > 0) {
return;
}
}
return eval("return $expression;");
}
?>
| #include <random>
#include <iostream>
#include <stack>
#include <set>
#include <string>
#include <functional>
using namespace std;
class RPNParse
{
public:
stack<double> stk;
multiset<int> digits;
void op(function<double(double,double)> f)
{
if(stk.size() < 2)
throw "Improperly written expression";
int b = stk.top(); stk.pop();
int a = stk.top(); stk.pop();
stk.push(f(a, b));
}
void parse(char c)
{
if(c >= '0' && c <= '9')
{
stk.push(c - '0');
digits.insert(c - '0');
}
else if(c == '+')
op([](double a, double b) {return a+b;});
else if(c == '-')
op([](double a, double b) {return a-b;});
else if(c == '*')
op([](double a, double b) {return a*b;});
else if(c == '/')
op([](double a, double b) {return a/b;});
}
void parse(string s)
{
for(int i = 0; i < s.size(); ++i)
parse(s[i]);
}
double getResult()
{
if(stk.size() != 1)
throw "Improperly written expression";
return stk.top();
}
};
int main()
{
random_device seed;
mt19937 engine(seed());
uniform_int_distribution<> distribution(1, 9);
auto rnd = bind(distribution, engine);
multiset<int> digits;
cout << "Make 24 with the digits: ";
for(int i = 0; i < 4; ++i)
{
int n = rnd();
cout << " " << n;
digits.insert(n);
}
cout << endl;
RPNParse parser;
try
{
string input;
getline(cin, input);
parser.parse(input);
if(digits != parser.digits)
cout << "Error: Not using the given digits" << endl;
else
{
double r = parser.getResult();
cout << "Result: " << r << endl;
if(r > 23.999 && r < 24.001)
cout << "Good job!" << endl;
else
cout << "Try again." << endl;
}
}
catch(char* e)
{
cout << "Error: " << e << endl;
}
return 0;
}
|
Write the same code in C++ as shown below in PHP. | for ($i = 1; $i <= 10; $i++) {
echo $i;
if ($i % 5 == 0) {
echo "\n";
continue;
}
echo ', ';
}
| for(int i = 1;i <= 10; i++){
cout << i;
if(i % 5 == 0){
cout << endl;
continue;
}
cout << ", ";
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | <?php
$colors = array(array( 0, 0, 0), // black
array(255, 0, 0), // red
array( 0, 255, 0), // green
array( 0, 0, 255), // blue
array(255, 0, 255), // magenta
array( 0, 255, 255), // cyan
array(255, 255, 0), // yellow
array(255, 255, 255)); // white
define('BARWIDTH', 640 / count($colors));
define('HEIGHT', 480);
$image = imagecreate(BARWIDTH * count($colors), HEIGHT);
foreach ($colors as $position => $color) {
$color = imagecolorallocate($image, $color[0], $color[1], $color[2]);
imagefilledrectangle($image, $position * BARWIDTH, 0,
$position * BARWIDTH + BARWIDTH - 1,
HEIGHT - 1, $color);
}
header('Content-type:image/png');
imagepng($image);
imagedestroy($image);
| #ifndef MYWIDGET_H
#define MYWIDGET_H
#include <QWidget>
class QPaintEvent ;
class MyWidget : public QWidget {
public :
MyWidget( ) ;
protected :
void paintEvent( QPaintEvent * ) ;
private :
int width ;
int height ;
const int colornumber ;
} ;
#endif
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
$colors = array(array( 0, 0, 0), // black
array(255, 0, 0), // red
array( 0, 255, 0), // green
array( 0, 0, 255), // blue
array(255, 0, 255), // magenta
array( 0, 255, 255), // cyan
array(255, 255, 0), // yellow
array(255, 255, 255)); // white
define('BARWIDTH', 640 / count($colors));
define('HEIGHT', 480);
$image = imagecreate(BARWIDTH * count($colors), HEIGHT);
foreach ($colors as $position => $color) {
$color = imagecolorallocate($image, $color[0], $color[1], $color[2]);
imagefilledrectangle($image, $position * BARWIDTH, 0,
$position * BARWIDTH + BARWIDTH - 1,
HEIGHT - 1, $color);
}
header('Content-type:image/png');
imagepng($image);
imagedestroy($image);
| #ifndef MYWIDGET_H
#define MYWIDGET_H
#include <QWidget>
class QPaintEvent ;
class MyWidget : public QWidget {
public :
MyWidget( ) ;
protected :
void paintEvent( QPaintEvent * ) ;
private :
int width ;
int height ;
const int colornumber ;
} ;
#endif
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | <?php
$max = 20;
$factor = array(3 => 'Fizz', 5 => 'Buzz', 7 => 'Jazz');
for ($i = 1 ; $i <= $max ; $i++) {
$matched = false;
foreach ($factor AS $number => $word) {
if ($i % $number == 0) {
echo $word;
$matched = true;
}
}
echo ($matched ? '' : $i), PHP_EOL;
}
?>
| #include <algorithm>
#include <iostream>
#include <vector>
#include <string>
class pair {
public:
pair( int s, std::string z ) { p = std::make_pair( s, z ); }
bool operator < ( const pair& o ) const { return i() < o.i(); }
int i() const { return p.first; }
std::string s() const { return p.second; }
private:
std::pair<int, std::string> p;
};
void gFizzBuzz( int c, std::vector<pair>& v ) {
bool output;
for( int x = 1; x <= c; x++ ) {
output = false;
for( std::vector<pair>::iterator i = v.begin(); i != v.end(); i++ ) {
if( !( x % ( *i ).i() ) ) {
std::cout << ( *i ).s();
output = true;
}
}
if( !output ) std::cout << x;
std::cout << "\n";
}
}
int main( int argc, char* argv[] ) {
std::vector<pair> v;
v.push_back( pair( 7, "Baxx" ) );
v.push_back( pair( 3, "Fizz" ) );
v.push_back( pair( 5, "Buzz" ) );
std::sort( v.begin(), v.end() );
gFizzBuzz( 20, v );
return 0;
}
|
Translate the given PHP code snippet into C++ without altering its behavior. | <?php
$DOCROOT = $_SERVER['DOCUMENT_ROOT'];
function fileLine ($lineNum, $file) {
$count = 0;
while (!feof($file)) {
$count++;
$line = fgets($file);
if ($count == $lineNum) return $line;
}
die("Requested file has fewer than ".$lineNum." lines!");
}
@ $fp = fopen("$DOCROOT/exercises/words.txt", 'r');
if (!$fp) die("Input file not found!");
echo fileLine(7, $fp);
?>
| #include <string>
#include <fstream>
#include <iostream>
int main( ) {
std::cout << "Which file do you want to look at ?\n" ;
std::string input ;
std::getline( std::cin , input ) ;
std::ifstream infile( input.c_str( ) , std::ios::in ) ;
std::string file( input ) ;
std::cout << "Which file line do you want to see ? ( Give a number > 0 ) ?\n" ;
std::getline( std::cin , input ) ;
int linenumber = std::stoi( input ) ;
int lines_read = 0 ;
std::string line ;
if ( infile.is_open( ) ) {
while ( infile ) {
getline( infile , line ) ;
lines_read++ ;
if ( lines_read == linenumber ) {
std::cout << line << std::endl ;
break ;
}
}
infile.close( ) ;
if ( lines_read < linenumber )
std::cout << "No " << linenumber << " lines in " << file << " !\n" ;
return 0 ;
}
else {
std::cerr << "Could not find file " << file << " !\n" ;
return 1 ;
}
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
$DOCROOT = $_SERVER['DOCUMENT_ROOT'];
function fileLine ($lineNum, $file) {
$count = 0;
while (!feof($file)) {
$count++;
$line = fgets($file);
if ($count == $lineNum) return $line;
}
die("Requested file has fewer than ".$lineNum." lines!");
}
@ $fp = fopen("$DOCROOT/exercises/words.txt", 'r');
if (!$fp) die("Input file not found!");
echo fileLine(7, $fp);
?>
| #include <string>
#include <fstream>
#include <iostream>
int main( ) {
std::cout << "Which file do you want to look at ?\n" ;
std::string input ;
std::getline( std::cin , input ) ;
std::ifstream infile( input.c_str( ) , std::ios::in ) ;
std::string file( input ) ;
std::cout << "Which file line do you want to see ? ( Give a number > 0 ) ?\n" ;
std::getline( std::cin , input ) ;
int linenumber = std::stoi( input ) ;
int lines_read = 0 ;
std::string line ;
if ( infile.is_open( ) ) {
while ( infile ) {
getline( infile , line ) ;
lines_read++ ;
if ( lines_read == linenumber ) {
std::cout << line << std::endl ;
break ;
}
}
infile.close( ) ;
if ( lines_read < linenumber )
std::cout << "No " << linenumber << " lines in " << file << " !\n" ;
return 0 ;
}
else {
std::cerr << "Could not find file " << file << " !\n" ;
return 1 ;
}
}
|
Write the same code in C++ as shown below in PHP. | $allowed = ['zip', 'rar', '7z', 'gz', 'archive', 'A##', 'tar.bz2'];
$lc_allowed = array_map('strtolower', $allowed);
$tests = [
['MyData.a##',true],
['MyData.tar.Gz',true],
['MyData.gzip',false],
['MyData.7z.backup',false],
['MyData...',false],
['MyData',false],
['archive.tar.gz', true]
];
foreach ($tests as $test) {
$ext = pathinfo($test[0], PATHINFO_EXTENSION);
if (in_array(strtolower($ext), $lc_allowed)) {
$result = 'true';
} else {
$result = 'false';
}
printf("%20s : %s \n", $test[0],$result);
}
| #include <algorithm>
#include <cctype>
#include <iomanip>
#include <iostream>
#include <string>
#include <vector>
bool endsWithIgnoreCase(const std::string& str, const std::string& suffix) {
const size_t n1 = str.length();
const size_t n2 = suffix.length();
if (n1 < n2)
return false;
return std::equal(str.begin() + (n1 - n2), str.end(), suffix.begin(),
[](char c1, char c2) {
return std::tolower(static_cast<unsigned char>(c1))
== std::tolower(static_cast<unsigned char>(c2));
});
}
bool filenameHasExtension(const std::string& filename,
const std::vector<std::string>& extensions) {
return std::any_of(extensions.begin(), extensions.end(),
[&filename](const std::string& extension) {
return endsWithIgnoreCase(filename, "." + extension);
});
}
void test(const std::string& filename,
const std::vector<std::string>& extensions) {
std::cout << std::setw(20) << std::left << filename
<< ": " << std::boolalpha
<< filenameHasExtension(filename, extensions) << '\n';
}
int main() {
const std::vector<std::string> extensions{"zip", "rar", "7z",
"gz", "archive", "A##", "tar.bz2"};
test("MyData.a##", extensions);
test("MyData.tar.Gz", extensions);
test("MyData.gzip", extensions);
test("MyData.7z.backup", extensions);
test("MyData...", extensions);
test("MyData", extensions);
test("MyData_v1.0.tar.bz2", extensions);
test("MyData_v1.0.bz2", extensions);
return 0;
}
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? | $allowed = ['zip', 'rar', '7z', 'gz', 'archive', 'A##', 'tar.bz2'];
$lc_allowed = array_map('strtolower', $allowed);
$tests = [
['MyData.a##',true],
['MyData.tar.Gz',true],
['MyData.gzip',false],
['MyData.7z.backup',false],
['MyData...',false],
['MyData',false],
['archive.tar.gz', true]
];
foreach ($tests as $test) {
$ext = pathinfo($test[0], PATHINFO_EXTENSION);
if (in_array(strtolower($ext), $lc_allowed)) {
$result = 'true';
} else {
$result = 'false';
}
printf("%20s : %s \n", $test[0],$result);
}
| #include <algorithm>
#include <cctype>
#include <iomanip>
#include <iostream>
#include <string>
#include <vector>
bool endsWithIgnoreCase(const std::string& str, const std::string& suffix) {
const size_t n1 = str.length();
const size_t n2 = suffix.length();
if (n1 < n2)
return false;
return std::equal(str.begin() + (n1 - n2), str.end(), suffix.begin(),
[](char c1, char c2) {
return std::tolower(static_cast<unsigned char>(c1))
== std::tolower(static_cast<unsigned char>(c2));
});
}
bool filenameHasExtension(const std::string& filename,
const std::vector<std::string>& extensions) {
return std::any_of(extensions.begin(), extensions.end(),
[&filename](const std::string& extension) {
return endsWithIgnoreCase(filename, "." + extension);
});
}
void test(const std::string& filename,
const std::vector<std::string>& extensions) {
std::cout << std::setw(20) << std::left << filename
<< ": " << std::boolalpha
<< filenameHasExtension(filename, extensions) << '\n';
}
int main() {
const std::vector<std::string> extensions{"zip", "rar", "7z",
"gz", "archive", "A##", "tar.bz2"};
test("MyData.a##", extensions);
test("MyData.tar.Gz", extensions);
test("MyData.gzip", extensions);
test("MyData.7z.backup", extensions);
test("MyData...", extensions);
test("MyData", extensions);
test("MyData_v1.0.tar.bz2", extensions);
test("MyData_v1.0.bz2", extensions);
return 0;
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | $str = "alphaBETA";
echo strtoupper($str), "\n"; // ALPHABETA
echo strtolower($str), "\n"; // alphabeta
echo ucfirst($str), "\n"; // AlphaBETA
echo lcfirst("FOObar"), "\n"; // fOObar
echo ucwords("foO baR baZ"), "\n"; // FoO BaR BaZ
echo lcwords("FOo BAr BAz"), "\n"; // fOo bAr bAz
| #include <algorithm>
#include <string>
#include <cctype>
void str_toupper(std::string &str) {
std::transform(str.begin(),
str.end(),
str.begin(),
(int(*)(int)) std::toupper);
}
void str_tolower(std::string &str) {
std::transform(str.begin(),
str.end(),
str.begin(),
(int(*)(int)) std::tolower);
}
|
Generate an equivalent C++ version of this PHP code. | $string = "The quick brown fox jumped over the lazy dog's back";
echo md5( $string );
| #include <string>
#include <iostream>
#include "Poco/MD5Engine.h"
#include "Poco/DigestStream.h"
using Poco::DigestEngine ;
using Poco::MD5Engine ;
using Poco::DigestOutputStream ;
int main( ) {
std::string myphrase ( "The quick brown fox jumped over the lazy dog's back" ) ;
MD5Engine md5 ;
DigestOutputStream outstr( md5 ) ;
outstr << myphrase ;
outstr.flush( ) ;
const DigestEngine::Digest& digest = md5.digest( ) ;
std::cout << myphrase << " as a MD5 digest :\n" << DigestEngine::digestToHex( digest )
<< " !" << std::endl ;
return 0 ;
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | <?php
$time = new DateTime('March 7 2009 7:30pm EST');
$time->modify('+12 hours');
echo $time->format('c');
?>
| #include <string>
#include <iostream>
#include <boost/date_time/local_time/local_time.hpp>
#include <sstream>
#include <boost/date_time/gregorian/gregorian.hpp>
#include <vector>
#include <boost/algorithm/string.hpp>
#include <cstdlib>
#include <locale>
int main( ) {
std::string datestring ("March 7 2009 7:30pm EST" ) ;
std::vector<std::string> elements ;
boost::split( elements , datestring , boost::is_any_of( " " ) ) ;
std::string datepart = elements[ 0 ] + " " + "0" + elements[ 1 ] + " " +
elements[ 2 ] ;
std::string timepart = elements[ 3 ] ;
std::string timezone = elements[ 4 ] ;
const char meridians[ ] = { 'a' , 'p' } ;
std::string::size_type found = timepart.find_first_of( meridians, 0 ) ;
std::string twelve_hour ( timepart.substr( found , 1 ) ) ;
timepart = timepart.substr( 0 , found ) ;
elements.clear( ) ;
boost::split( elements , timepart , boost::is_any_of ( ":" ) ) ;
long hour = std::atol( (elements.begin( ))->c_str( ) ) ;
if ( twelve_hour == "p" )
hour += 12 ;
long minute = std::atol( ( elements.begin( ) + 1)->c_str( ) ) ;
boost::local_time::tz_database tz_db ;
tz_db.load_from_file( "/home/ulrich/internetpages/date_time_zonespec.csv" ) ;
boost::local_time::time_zone_ptr dyc = tz_db.time_zone_from_region( "America/New_York" ) ;
boost::gregorian::date_input_facet *f =
new boost::gregorian::date_input_facet( "%B %d %Y" ) ;
std::stringstream ss ;
ss << datepart ;
ss.imbue( std::locale( std::locale::classic( ) , f ) ) ;
boost::gregorian::date d ;
ss >> d ;
boost::posix_time::time_duration td ( hour , minute , 0 ) ;
boost::local_time::local_date_time lt ( d , td , dyc ,
boost::local_time::local_date_time::NOT_DATE_TIME_ON_ERROR ) ;
std::cout << "local time: " << lt << '\n' ;
ss.str( "" ) ;
ss << lt ;
boost::posix_time::time_duration td2 (12 , 0 , 0 , 0 ) ;
boost::local_time::local_date_time ltlater = lt + td2 ;
boost::gregorian::date_facet *f2 =
new boost::gregorian::date_facet( "%B %d %Y , %R %Z" ) ;
std::cout.imbue( std::locale( std::locale::classic( ) , f2 ) ) ;
std::cout << "12 hours after " << ss.str( ) << " it is " << ltlater << " !\n" ;
boost::local_time::time_zone_ptr bt = tz_db.time_zone_from_region( "Europe/Berlin" ) ;
std::cout.imbue( std::locale( "de_DE.UTF-8" ) ) ;
std::cout << "This corresponds to " << ltlater.local_time_in( bt ) << " in Berlin!\n" ;
return 0 ;
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | <?php
$buffer = 1;
$pids = [];
for ($i = 1; $i < $argc; $i++) {
$pid = pcntl_fork();
if ($pid < 0) {
die("failed to start child process");
}
if ($pid === 0) {
sleep($argv[$i] + $buffer);
echo $argv[$i] . "\n";
exit();
}
$pids[] = $pid;
}
foreach ($pids as $pid) {
pcntl_waitpid($pid, $status);
}
| #include <chrono>
#include <iostream>
#include <thread>
#include <vector>
int main(int argc, char* argv[]) {
std::vector<std::thread> threads;
for (int i = 1; i < argc; ++i) {
threads.emplace_back([i, &argv]() {
int arg = std::stoi(argv[i]);
std::this_thread::sleep_for(std::chrono::seconds(arg));
std::cout << argv[i] << std::endl;
});
}
for (auto& thread : threads) {
thread.join();
}
}
|
Keep all operations the same but rewrite the snippet in C++. | <?php
for ($i = 0; $i < 10; $i++)
for ($j = 0; $j < 10; $j++)
$a[$i][$j] = rand(1, 20);
foreach ($a as $row) {
foreach ($row as $element) {
echo " $element";
if ($element == 20)
break 2; // 2 is the number of loops we want to break out of
}
echo "\n";
}
echo "\n";
?>
| #include<cstdlib>
#include<ctime>
#include<iostream>
using namespace std;
int main()
{
int arr[10][10];
srand(time(NULL));
for(auto& row: arr)
for(auto& col: row)
col = rand() % 20 + 1;
([&](){
for(auto& row : arr)
for(auto& col: row)
{
cout << col << endl;
if(col == 20)return;
}
})();
return 0;
}
|
Rewrite the snippet below in C++ so it works the same as the original PHP code. | <?php
function gcd($a, $b)
{
if ($a == 0)
return $b;
if ($b == 0)
return $a;
if($a == $b)
return $a;
if($a > $b)
return gcd($a-$b, $b);
return gcd($a, $b-$a);
}
$pytha = 0;
$prim = 0;
$max_p = 100;
for ($a = 1; $a <= $max_p / 3; $a++) {
$aa = $a**2;
for ($b = $a + 1; $b < $max_p/2; $b++) {
$bb = $b**2;
for ($c = $b + 1; $c < $max_p/2; $c++) {
$cc = $c**2;
if ($aa + $bb < $cc) break;
if ($a + $b + $c > $max_p) break;
if ($aa + $bb == $cc) {
$pytha++;
if (gcd($a, $b) == 1) $prim++;
}
}
}
}
echo 'Up to ' . $max_p . ', there are ' . $pytha . ' triples, of which ' . $prim . ' are primitive.';
| #include <cmath>
#include <iostream>
#include <numeric>
#include <tuple>
#include <vector>
using namespace std;
auto CountTriplets(unsigned long long maxPerimeter)
{
unsigned long long totalCount = 0;
unsigned long long primitveCount = 0;
auto max_M = (unsigned long long)sqrt(maxPerimeter/2) + 1;
for(unsigned long long m = 2; m < max_M; ++m)
{
for(unsigned long long n = 1 + m % 2; n < m; n+=2)
{
if(gcd(m,n) != 1)
{
continue;
}
auto a = m * m - n * n;
auto b = 2 * m * n;
auto c = m * m + n * n;
auto perimeter = a + b + c;
if(perimeter <= maxPerimeter)
{
primitveCount++;
totalCount+= maxPerimeter / perimeter;
}
}
}
return tuple(totalCount, primitveCount);
}
int main()
{
vector<unsigned long long> inputs{100, 1000, 10'000, 100'000,
1000'000, 10'000'000, 100'000'000, 1000'000'000,
10'000'000'000};
for(auto maxPerimeter : inputs)
{
auto [total, primitive] = CountTriplets(maxPerimeter);
cout << "\nMax Perimeter: " << maxPerimeter << ", Total: " << total << ", Primitive: " << primitive ;
}
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | <?php
function gcd($a, $b)
{
if ($a == 0)
return $b;
if ($b == 0)
return $a;
if($a == $b)
return $a;
if($a > $b)
return gcd($a-$b, $b);
return gcd($a, $b-$a);
}
$pytha = 0;
$prim = 0;
$max_p = 100;
for ($a = 1; $a <= $max_p / 3; $a++) {
$aa = $a**2;
for ($b = $a + 1; $b < $max_p/2; $b++) {
$bb = $b**2;
for ($c = $b + 1; $c < $max_p/2; $c++) {
$cc = $c**2;
if ($aa + $bb < $cc) break;
if ($a + $b + $c > $max_p) break;
if ($aa + $bb == $cc) {
$pytha++;
if (gcd($a, $b) == 1) $prim++;
}
}
}
}
echo 'Up to ' . $max_p . ', there are ' . $pytha . ' triples, of which ' . $prim . ' are primitive.';
| #include <cmath>
#include <iostream>
#include <numeric>
#include <tuple>
#include <vector>
using namespace std;
auto CountTriplets(unsigned long long maxPerimeter)
{
unsigned long long totalCount = 0;
unsigned long long primitveCount = 0;
auto max_M = (unsigned long long)sqrt(maxPerimeter/2) + 1;
for(unsigned long long m = 2; m < max_M; ++m)
{
for(unsigned long long n = 1 + m % 2; n < m; n+=2)
{
if(gcd(m,n) != 1)
{
continue;
}
auto a = m * m - n * n;
auto b = 2 * m * n;
auto c = m * m + n * n;
auto perimeter = a + b + c;
if(perimeter <= maxPerimeter)
{
primitveCount++;
totalCount+= maxPerimeter / perimeter;
}
}
}
return tuple(totalCount, primitveCount);
}
int main()
{
vector<unsigned long long> inputs{100, 1000, 10'000, 100'000,
1000'000, 10'000'000, 100'000'000, 1000'000'000,
10'000'000'000};
for(auto maxPerimeter : inputs)
{
auto [total, primitive] = CountTriplets(maxPerimeter);
cout << "\nMax Perimeter: " << maxPerimeter << ", Total: " << total << ", Primitive: " << primitive ;
}
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | $list = array(1, 2, 3, 'a', 'b', 'c', 2, 3, 4, 'b', 'c', 'd');
$unique_list = array_unique($list);
| #include <set>
#include <iostream>
using namespace std;
int main() {
typedef set<int> TySet;
int data[] = {1, 2, 3, 2, 3, 4};
TySet unique_set(data, data + 6);
cout << "Set items:" << endl;
for (TySet::iterator iter = unique_set.begin(); iter != unique_set.end(); iter++)
cout << *iter << " ";
cout << endl;
}
|
Keep all operations the same but rewrite the snippet in C++. | <?php
function lookAndSay($str) {
return preg_replace_callback('#(.)\1*#', function($matches) {
return strlen($matches[0]).$matches[1];
}, $str);
}
$num = "1";
foreach(range(1,10) as $i) {
echo $num."<br/>";
$num = lookAndSay($num);
}
?>
| #include <iostream>
#include <sstream>
#include <string>
std::string lookandsay(const std::string& s)
{
std::ostringstream r;
for (std::size_t i = 0; i != s.length();) {
auto new_i = s.find_first_not_of(s[i], i + 1);
if (new_i == std::string::npos)
new_i = s.length();
r << new_i - i << s[i];
i = new_i;
}
return r.str();
}
int main()
{
std::string laf = "1";
std::cout << laf << '\n';
for (int i = 0; i < 10; ++i) {
laf = lookandsay(laf);
std::cout << laf << '\n';
}
}
|
Keep all operations the same but rewrite the snippet in C++. | $stack = array();
empty( $stack ); // true
array_push( $stack, 1 ); // or $stack[] = 1;
array_push( $stack, 2 ); // or $stack[] = 2;
empty( $stack ); // false
echo array_pop( $stack ); // outputs "2"
echo array_pop( $stack ); // outputs "1"
| #include <stack>
|
Write a version of this PHP function in C++ with identical behavior. | <?php
$foo = 3;
if ($foo == 2)
if ($foo == 3)
else
if ($foo != 0)
{
}
else
{
}
?>
| template<bool Condition, typename ThenType, typename Elsetype> struct ifthenelse;
template<typename ThenType, typename ElseType> struct ifthenelse<true, ThenType, ElseType>
{
typedef ThenType type;
};
template<typename ThenType, typename ElseType> struct ifthenelse<false, ThenType, ElseType>
{
typedef ElseType type;
};
ifthenelse<INT_MAX == 32767,
long int,
int>
::type myvar;
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? | function stoogeSort(&$arr, $i, $j)
{
if($arr[$j] < $arr[$i])
{
list($arr[$j],$arr[$i]) = array($arr[$i], $arr[$j]);
}
if(($j - $i) > 1)
{
$t = ($j - $i + 1) / 3;
stoogesort($arr, $i, $j - $t);
stoogesort($arr, $i + $t, $j);
stoogesort($arr, $i, $j - $t);
}
}
| #include <iostream>
#include <time.h>
using namespace std;
class stooge
{
public:
void sort( int* arr, int start, int end )
{
if( arr[start] > arr[end - 1] ) swap( arr[start], arr[end - 1] );
int n = end - start; if( n > 2 )
{
n /= 3; sort( arr, start, end - n );
sort( arr, start + n, end ); sort( arr, start, end - n );
}
}
};
int main( int argc, char* argv[] )
{
srand( static_cast<unsigned int>( time( NULL ) ) ); stooge s; int a[80], m = 80;
cout << "before:\n";
for( int x = 0; x < m; x++ ) { a[x] = rand() % 40 - 20; cout << a[x] << " "; }
s.sort( a, 0, m ); cout << "\n\nafter:\n";
for( int x = 0; x < m; x++ ) cout << a[x] << " "; cout << "\n\n";
return system( "pause" );
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | <?php
$conf = file_get_contents('parse-conf-file.txt');
$conf = preg_replace('/^([a-z]+)/mi', '$1 =', $conf);
$conf = preg_replace_callback(
'/^([a-z]+)\s*=((?=.*\,.*).*)$/mi',
function ($matches) {
$r = '';
foreach (explode(',', $matches[2]) AS $val) {
$r .= $matches[1] . '[] = ' . trim($val) . PHP_EOL;
}
return $r;
},
$conf
);
$conf = preg_replace('/^([a-z]+)\s*=$/mi', '$1 = true', $conf);
$ini = parse_ini_string($conf);
echo 'Full name = ', $ini['FULLNAME'], PHP_EOL;
echo 'Favourite fruit = ', $ini['FAVOURITEFRUIT'], PHP_EOL;
echo 'Need spelling = ', (empty($ini['NEEDSPEELING']) ? 'false' : 'true'), PHP_EOL;
echo 'Seeds removed = ', (empty($ini['SEEDSREMOVED']) ? 'false' : 'true'), PHP_EOL;
echo 'Other family = ', print_r($ini['OTHERFAMILY'], true), PHP_EOL;
| #include "stdafx.h"
#include <iostream>
#include <fstream>
#include <vector>
#include <string>
#include <boost/tokenizer.hpp>
#include <boost/algorithm/string/case_conv.hpp>
using namespace std;
using namespace boost;
typedef boost::tokenizer<boost::char_separator<char> > Tokenizer;
static const char_separator<char> sep(" ","#;,");
struct configs{
string fullname;
string favoritefruit;
bool needspelling;
bool seedsremoved;
vector<string> otherfamily;
} conf;
void parseLine(const string &line, configs &conf)
{
if (line[0] == '#' || line.empty())
return;
Tokenizer tokenizer(line, sep);
vector<string> tokens;
for (Tokenizer::iterator iter = tokenizer.begin(); iter != tokenizer.end(); iter++)
tokens.push_back(*iter);
if (tokens[0] == ";"){
algorithm::to_lower(tokens[1]);
if (tokens[1] == "needspeeling")
conf.needspelling = false;
if (tokens[1] == "seedsremoved")
conf.seedsremoved = false;
}
algorithm::to_lower(tokens[0]);
if (tokens[0] == "needspeeling")
conf.needspelling = true;
if (tokens[0] == "seedsremoved")
conf.seedsremoved = true;
if (tokens[0] == "fullname"){
for (unsigned int i=1; i<tokens.size(); i++)
conf.fullname += tokens[i] + " ";
conf.fullname.erase(conf.fullname.size() -1, 1);
}
if (tokens[0] == "favouritefruit")
for (unsigned int i=1; i<tokens.size(); i++)
conf.favoritefruit += tokens[i];
if (tokens[0] == "otherfamily"){
unsigned int i=1;
string tmp;
while (i<=tokens.size()){
if ( i == tokens.size() || tokens[i] ==","){
tmp.erase(tmp.size()-1, 1);
conf.otherfamily.push_back(tmp);
tmp = "";
i++;
}
else{
tmp += tokens[i];
tmp += " ";
i++;
}
}
}
}
int _tmain(int argc, TCHAR* argv[])
{
if (argc != 2)
{
wstring tmp = argv[0];
wcout << L"Usage: " << tmp << L" <configfile.ini>" << endl;
return -1;
}
ifstream file (argv[1]);
if (file.is_open())
while(file.good())
{
char line[255];
file.getline(line, 255);
string linestring(line);
parseLine(linestring, conf);
}
else
{
cout << "Unable to open the file" << endl;
return -2;
}
cout << "Fullname= " << conf.fullname << endl;
cout << "Favorite Fruit= " << conf.favoritefruit << endl;
cout << "Need Spelling= " << (conf.needspelling?"True":"False") << endl;
cout << "Seed Removed= " << (conf.seedsremoved?"True":"False") << endl;
string otherFamily;
for (unsigned int i = 0; i < conf.otherfamily.size(); i++)
otherFamily += conf.otherfamily[i] + ", ";
otherFamily.erase(otherFamily.size()-2, 2);
cout << "Other Family= " << otherFamily << endl;
return 0;
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | <?php
function mycmp($s1, $s2)
{
if ($d = strlen($s2) - strlen($s1))
return $d;
return strcasecmp($s1, $s2);
}
$strings = array("Here", "are", "some", "sample", "strings", "to", "be", "sorted");
usort($strings, "mycmp");
?>
| #include <algorithm>
#include <string>
#include <cctype>
struct icompare_char {
bool operator()(char c1, char c2) {
return std::toupper(c1) < std::toupper(c2);
}
};
struct compare {
bool operator()(std::string const& s1, std::string const& s2) {
if (s1.length() > s2.length())
return true;
if (s1.length() < s2.length())
return false;
return std::lexicographical_compare(s1.begin(), s1.end(),
s2.begin(), s2.end(),
icompare_char());
}
};
int main() {
std::string strings[8] = {"Here", "are", "some", "sample", "strings", "to", "be", "sorted"};
std::sort(strings, strings+8, compare());
return 0;
}
|
Change the programming language of this snippet from PHP to C++ without modifying what it does. | function selection_sort(&$arr) {
$n = count($arr);
for($i = 0; $i < count($arr); $i++) {
$min = $i;
for($j = $i + 1; $j < $n; $j++){
if($arr[$j] < $arr[$min]){
$min = $j;
}
}
list($arr[$i],$arr[$min]) = array($arr[$min],$arr[$i]);
}
}
| #include <algorithm>
#include <iterator>
#include <iostream>
template<typename ForwardIterator> void selection_sort(ForwardIterator begin,
ForwardIterator end) {
for(auto i = begin; i != end; ++i) {
std::iter_swap(i, std::min_element(i, end));
}
}
int main() {
int a[] = {100, 2, 56, 200, -52, 3, 99, 33, 177, -199};
selection_sort(std::begin(a), std::end(a));
copy(std::begin(a), std::end(a), std::ostream_iterator<int>(std::cout, " "));
std::cout << "\n";
}
|
Generate a C++ translation of this PHP snippet without changing its computational steps. | function cube($n)
{
return($n * $n * $n);
}
$a = array(1, 2, 3, 4, 5);
$b = array_map("cube", $a);
print_r($b);
| #include <iostream>
#include <algorithm>
void print_square(int i) {
std::cout << i*i << " ";
}
int main() {
int ary[]={1,2,3,4,5};
std::for_each(ary,ary+5,print_square);
return 0;
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | class Singleton {
protected static $instance = null;
public $test_var;
private function __construct(){
}
public static function getInstance(){
if (is_null(self::$instance)){
self::$instance = new self();
}
return self::$instance;
}
}
$foo = Singleton::getInstance();
$foo->test_var = 'One';
$bar = Singleton::getInstance();
echo $bar->test_var; //Prints 'One'
$fail = new Singleton(); //Fatal error
| #include <stdexcept>
template <typename Self>
class singleton
{
protected:
static Self*
sentry;
public:
static Self&
instance()
{
return *sentry;
}
singleton()
{
if(sentry)
throw std::logic_error("Error: attempt to instantiate a singleton over a pre-existing one!");
sentry = (Self*)this;
}
virtual ~singleton()
{
if(sentry == this)
sentry = 0;
}
};
template <typename Self>
Self*
singleton<Self>::sentry = 0;
#include <iostream>
#include <string>
using namespace
std;
class controller : public singleton<controller>
{
public:
controller(string const& name)
: name(name)
{
trace("begin");
}
~controller()
{
trace("end");
}
void
work()
{
trace("doing stuff");
}
void
trace(string const& message)
{
cout << name << ": " << message << endl;
}
string
name;
};
int
main()
{
controller*
first = new controller("first");
controller::instance().work();
delete first;
controller
second("second");
controller::instance().work();
try
{
controller
goner("goner");
controller::instance().work();
}
catch(exception const& error)
{
cout << error.what() << endl;
}
controller::instance().work();
controller
goner("goner");
controller::instance().work();
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | <?php
$dog = 'Benjamin';
$Dog = 'Samba';
$DOG = 'Bernie';
echo "There are 3 dogs named {$dog}, {$Dog} and {$DOG}\n";
function DOG() { return 'Bernie'; }
echo 'There is only 1 dog named ' . dog() . "\n";
| #include <iostream>
#include <string>
using namespace std;
int main() {
string dog = "Benjamin", Dog = "Samba", DOG = "Bernie";
cout << "The three dogs are named " << dog << ", " << Dog << ", and " << DOG << endl;
}
|
Generate an equivalent C++ version of this PHP code. | for ($i = 10; $i >= 0; $i--)
echo "$i\n";
| for(int i = 10; i >= 0; --i)
std::cout << i << "\n";
|
Translate the given PHP code snippet into C++ without altering its behavior. | file_put_contents($filename, $data)
| #include <fstream>
using namespace std;
int main()
{
ofstream file("new.txt");
file << "this is a string";
file.close();
return 0;
}
|
Write a version of this PHP function in C++ with identical behavior. | for ($i = 1; $i <= 5; $i++) {
for ($j = 1; $j <= $i; $j++) {
echo '*';
}
echo "\n";
}
| for(int i = 0; i < 5; ++i) {
for(int j = 0; j < i; ++j)
std::cout.put('*');
std::cout.put('\n');
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | <?php
function longMult($a, $b)
{
$as = (string) $a;
$bs = (string) $b;
for($pi = 0, $ai = strlen($as) - 1; $ai >= 0; $pi++, $ai--)
{
for($p = 0; $p < $pi; $p++)
{
$regi[$ai][] = 0;
}
for($bi = strlen($bs) - 1; $bi >= 0; $bi--)
{
$regi[$ai][] = $as[$ai] * $bs[$bi];
}
}
return $regi;
}
function longAdd($arr)
{
$outer = count($arr);
$inner = count($arr[$outer-1]) + $outer;
for($i = 0; $i <= $inner; $i++)
{
for($o = 0; $o < $outer; $o++)
{
$val = isset($arr[$o][$i]) ? $arr[$o][$i] : 0;
@$sum[$i] += $val;
}
}
return $sum;
}
function carry($arr)
{
for($i = 0; $i < count($arr); $i++)
{
$s = (string) $arr[$i];
switch(strlen($s))
{
case 2:
$arr[$i] = $s{1};
@$arr[$i+1] += $s{0};
break;
case 3:
$arr[$i] = $s{2};
@$arr[$i+1] += $s{0}.$s{1};
break;
}
}
return ltrim(implode('',array_reverse($arr)),'0');
}
function lm($a,$b)
{
return carry(longAdd(longMult($a,$b)));
}
if(lm('18446744073709551616','18446744073709551616') == '340282366920938463463374607431768211456')
{
echo 'pass!';
}; // 2^64 * 2^64
| #include <iostream>
#include <sstream>
typedef long long bigInt;
using namespace std;
class number
{
public:
number() { s = "0"; neg = false; }
number( bigInt a ) { set( a ); }
number( string a ) { set( a ); }
void set( bigInt a ) { neg = false; if( a < 0 ) { a = -a; neg = true; } ostringstream o; o << a; s = o.str(); clearStr(); }
void set( string a ) { neg = false; s = a; if( s.length() > 1 && s[0] == '-' ) { neg = true; } clearStr(); }
number operator * ( const number& b ) { return this->mul( b ); }
number& operator *= ( const number& b ) { *this = *this * b; return *this; }
number& operator = ( const number& b ) { s = b.s; return *this; }
friend ostream& operator << ( ostream& out, const number& a ) { if( a.neg ) out << "-"; out << a.s; return out; }
friend istream& operator >> ( istream& in, number& a ){ string b; in >> b; a.set( b ); return in; }
private:
number mul( const number& b )
{
number a; bool neg = false;
string r, bs = b.s; r.resize( 2 * max( b.s.length(), s.length() ), '0' );
int xx, ss, rr, t, c, stp = 0;
string::reverse_iterator xi = bs.rbegin(), si, ri;
for( ; xi != bs.rend(); xi++ )
{
c = 0; ri = r.rbegin() + stp;
for( si = s.rbegin(); si != s.rend(); si++ )
{
xx = ( *xi ) - 48; ss = ( *si ) - 48; rr = ( *ri ) - 48;
ss = ss * xx + rr + c; t = ss % 10; c = ( ss - t ) / 10;
( *ri++ ) = t + 48;
}
if( c > 0 ) ( *ri ) = c + 48;
stp++;
}
trimLeft( r ); t = b.neg ? 1 : 0; t += neg ? 1 : 0;
if( t & 1 ) a.s = "-" + r;
else a.s = r;
return a;
}
void trimLeft( string& r )
{
if( r.length() < 2 ) return;
for( string::iterator x = r.begin(); x != ( r.end() - 1 ); )
{
if( ( *x ) != '0' ) return;
x = r.erase( x );
}
}
void clearStr()
{
for( string::iterator x = s.begin(); x != s.end(); )
{
if( ( *x ) < '0' || ( *x ) > '9' ) x = s.erase( x );
else x++;
}
}
string s;
bool neg;
};
int main( int argc, char* argv[] )
{
number a, b;
a.set( "18446744073709551616" ); b.set( "18446744073709551616" );
cout << a * b << endl << endl;
cout << "Factor 1 = "; cin >> a;
cout << "Factor 2 = "; cin >> b;
cout << "Product: = " << a * b << endl << endl;
return system( "pause" );
}
|
Port the provided PHP code into C++ while preserving the original functionality. | <?php
$size = 4;
$chosen = implode(array_rand(array_flip(range(1,9)), $size));
echo "I've chosen a number from $size unique digits from 1 to 9; you need
to input $size unique digits to guess my number\n";
for ($guesses = 1; ; $guesses++) {
while (true) {
echo "\nNext guess [$guesses]: ";
$guess = rtrim(fgets(STDIN));
if (!checkguess($guess))
echo "$size digits, no repetition, no 0... retry\n";
else
break;
}
if ($guess == $chosen) {
echo "You did it in $guesses attempts!\n";
break;
} else {
$bulls = 0;
$cows = 0;
foreach (range(0, $size-1) as $i) {
if ($guess[$i] == $chosen[$i])
$bulls++;
else if (strpos($chosen, $guess[$i]) !== FALSE)
$cows++;
}
echo "$cows cows, $bulls bulls\n";
}
}
function checkguess($g)
{
global $size;
return count(array_unique(str_split($g))) == $size &&
preg_match("/^[1-9]{{$size}}$/", $g);
}
?>
| #include <iostream>
#include <string>
#include <algorithm>
#include <cstdlib>
bool contains_duplicates(std::string s)
{
std::sort(s.begin(), s.end());
return std::adjacent_find(s.begin(), s.end()) != s.end();
}
void game()
{
typedef std::string::size_type index;
std::string symbols = "0123456789";
unsigned int const selection_length = 4;
std::random_shuffle(symbols.begin(), symbols.end());
std::string selection = symbols.substr(0, selection_length);
std::string guess;
while (std::cout << "Your guess? ", std::getline(std::cin, guess))
{
if (guess.length() != selection_length
|| guess.find_first_not_of(symbols) != std::string::npos
|| contains_duplicates(guess))
{
std::cout << guess << " is not a valid guess!";
continue;
}
unsigned int bulls = 0;
unsigned int cows = 0;
for (index i = 0; i != selection_length; ++i)
{
index pos = selection.find(guess[i]);
if (pos == i)
++bulls;
else if (pos != std::string::npos)
++cows;
}
std::cout << bulls << " bulls, " << cows << " cows.\n";
if (bulls == selection_length)
{
std::cout << "Congratulations! You have won!\n";
return;
}
}
std::cerr << "Oops! Something went wrong with input, or you've entered end-of-file!\nExiting ...\n";
std::exit(EXIT_FAILURE);
}
int main()
{
std::cout << "Welcome to bulls and cows!\nDo you want to play? ";
std::string answer;
while (true)
{
while (true)
{
if (!std::getline(std::cin, answer))
{
std::cout << "I can't get an answer. Exiting.\n";
return EXIT_FAILURE;
}
if (answer == "yes" || answer == "Yes" || answer == "y" || answer == "Y")
break;
if (answer == "no" || answer == "No" || answer == "n" || answer == "N")
{
std::cout << "Ok. Goodbye.\n";
return EXIT_SUCCESS;
}
std::cout << "Please answer yes or no: ";
}
game();
std::cout << "Another game? ";
}
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | function bubbleSort(array $array){
foreach($array as $i => &$val){
foreach($array as $k => &$val2){
if($k <= $i)
continue;
if($val > $val2) {
list($val, $val2) = [$val2, $val];
break;
}
}
}
return $array;
}
| #include <algorithm>
#include <iostream>
#include <iterator>
template <typename RandomAccessIterator>
void bubble_sort(RandomAccessIterator begin, RandomAccessIterator end) {
bool swapped = true;
while (begin != end-- && swapped) {
swapped = false;
for (auto i = begin; i != end; ++i) {
if (*(i + 1) < *i) {
std::iter_swap(i, i + 1);
swapped = true;
}
}
}
}
int main() {
int a[] = {100, 2, 56, 200, -52, 3, 99, 33, 177, -199};
bubble_sort(std::begin(a), std::end(a));
copy(std::begin(a), std::end(a), std::ostream_iterator<int>(std::cout, " "));
std::cout << "\n";
}
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? | <?php
if (!$in = fopen('input.txt', 'r')) {
die('Could not open input file.');
}
if (!$out = fopen('output.txt', 'w')) {
die('Could not open output file.');
}
while (!feof($in)) {
$data = fread($in, 512);
fwrite($out, $data);
}
fclose($out);
fclose($in);
?>
| #include <iostream>
#include <fstream>
#include <string>
using namespace std;
int main() {
string line;
ifstream input ( "input.txt" );
ofstream output ("output.txt");
if (output.is_open()) {
if (input.is_open()){
while (getline (input,line)) {
output << line << endl;
}
input.close();
}
else {
cout << "input.txt cannot be opened!\n";
}
output.close();
}
else {
cout << "output.txt cannot be written to!\n";
}
return 0;
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | <?php
$a = fgets(STDIN);
$b = fgets(STDIN);
echo
"sum: ", $a + $b, "\n",
"difference: ", $a - $b, "\n",
"product: ", $a * $b, "\n",
"truncating quotient: ", (int)($a / $b), "\n",
"flooring quotient: ", floor($a / $b), "\n",
"remainder: ", $a % $b, "\n",
"power: ", $a ** $b, "\n"; // PHP 5.6+ only
?>
| #include <iostream>
int main()
{
int a, b;
std::cin >> a >> b;
std::cout << "a+b = " << a+b << "\n";
std::cout << "a-b = " << a-b << "\n";
std::cout << "a*b = " << a*b << "\n";
std::cout << "a/b = " << a/b << ", remainder " << a%b << "\n";
return 0;
}
|
Rewrite the snippet below in C++ so it works the same as the original PHP code. | function transpose($m) {
if (count($m) == 0) // special case: empty matrix
return array();
else if (count($m) == 1) // special case: row matrix
return array_chunk($m[0], 1);
array_unshift($m, NULL); // the original matrix is not modified because it was passed by value
return call_user_func_array('array_map', $m);
}
| #include <boost/numeric/ublas/matrix.hpp>
#include <boost/numeric/ublas/io.hpp>
int main()
{
using namespace boost::numeric::ublas;
matrix<double> m(3,3);
for(int i=0; i!=m.size1(); ++i)
for(int j=0; j!=m.size2(); ++j)
m(i,j)=3*i+j;
std::cout << trans(m) << std::endl;
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | <?php
function A($k,$x1,$x2,$x3,$x4,$x5) {
$b = function () use (&$b,&$k,$x1,$x2,$x3,$x4) {
return A(--$k,$b,$x1,$x2,$x3,$x4);
};
return $k <= 0 ? $x4() + $x5() : $b();
}
echo A(10, function () { return 1; },
function () { return -1; },
function () { return -1; },
function () { return 1; },
function () { return 0; }) . "\n";
?>
| #include <iostream>
#include <tr1/memory>
using std::tr1::shared_ptr;
using std::tr1::enable_shared_from_this;
struct Arg {
virtual int run() = 0;
virtual ~Arg() { };
};
int A(int, shared_ptr<Arg>, shared_ptr<Arg>, shared_ptr<Arg>,
shared_ptr<Arg>, shared_ptr<Arg>);
class B : public Arg, public enable_shared_from_this<B> {
private:
int k;
const shared_ptr<Arg> x1, x2, x3, x4;
public:
B(int _k, shared_ptr<Arg> _x1, shared_ptr<Arg> _x2, shared_ptr<Arg> _x3,
shared_ptr<Arg> _x4)
: k(_k), x1(_x1), x2(_x2), x3(_x3), x4(_x4) { }
int run() {
return A(--k, shared_from_this(), x1, x2, x3, x4);
}
};
class Const : public Arg {
private:
const int x;
public:
Const(int _x) : x(_x) { }
int run () { return x; }
};
int A(int k, shared_ptr<Arg> x1, shared_ptr<Arg> x2, shared_ptr<Arg> x3,
shared_ptr<Arg> x4, shared_ptr<Arg> x5) {
if (k <= 0)
return x4->run() + x5->run();
else {
shared_ptr<Arg> b(new B(k, x1, x2, x3, x4));
return b->run();
}
}
int main() {
std::cout << A(10, shared_ptr<Arg>(new Const(1)),
shared_ptr<Arg>(new Const(-1)),
shared_ptr<Arg>(new Const(-1)),
shared_ptr<Arg>(new Const(1)),
shared_ptr<Arg>(new Const(0))) << std::endl;
return 0;
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
function a() {
static $i = 0;
print ++$i . "\n";
a();
}
a();
| #include <iostream>
void recurse(unsigned int i)
{
std::cout<<i<<"\n";
recurse(i+1);
}
int main()
{
recurse(0);
}
|
Generate a C++ translation of this PHP snippet without changing its computational steps. | <?php
function a() {
static $i = 0;
print ++$i . "\n";
a();
}
a();
| #include <iostream>
void recurse(unsigned int i)
{
std::cout<<i<<"\n";
recurse(i+1);
}
int main()
{
recurse(0);
}
|
Maintain the same structure and functionality when rewriting this code in C++. | function is_perfect($number)
{
$sum = 0;
for($i = 1; $i < $number; $i++)
{
if($number % $i == 0)
$sum += $i;
}
return $sum == $number;
}
echo "Perfect numbers from 1 to 33550337:" . PHP_EOL;
for($num = 1; $num < 33550337; $num++)
{
if(is_perfect($num))
echo $num . PHP_EOL;
}
| #include <iostream>
using namespace std ;
int divisor_sum( int number ) {
int sum = 0 ;
for ( int i = 1 ; i < number ; i++ )
if ( number % i == 0 )
sum += i ;
return sum;
}
int main( ) {
cout << "Perfect numbers from 1 to 33550337:\n" ;
for ( int num = 1 ; num < 33550337 ; num++ ) {
if (divisor_sum(num) == num)
cout << num << '\n' ;
}
return 0 ;
}
|
Write a version of this PHP function in C++ with identical behavior. | <?php
function columns($arr) {
if (count($arr) == 0)
return array();
else if (count($arr) == 1)
return array_chunk($arr[0], 1);
array_unshift($arr, NULL);
$transpose = call_user_func_array('array_map', $arr);
return array_map('array_filter', $transpose);
}
function beadsort($arr) {
foreach ($arr as $e)
$poles []= array_fill(0, $e, 1);
return array_map('count', columns(columns($poles)));
}
print_r(beadsort(array(5,3,1,7,4,1,1)));
?>
|
#include <iostream>
#include <vector>
using std::cout;
using std::vector;
void distribute(int dist, vector<int> &List) {
if (dist > List.size() )
List.resize(dist);
for (int i=0; i < dist; i++)
List[i]++;
}
vector<int> beadSort(int *myints, int n) {
vector<int> list, list2, fifth (myints, myints + n);
cout << "#1 Beads falling down: ";
for (int i=0; i < fifth.size(); i++)
distribute (fifth[i], list);
cout << '\n';
cout << "\nBeads on their sides: ";
for (int i=0; i < list.size(); i++)
cout << " " << list[i];
cout << '\n';
cout << "#2 Beads right side up: ";
for (int i=0; i < list.size(); i++)
distribute (list[i], list2);
cout << '\n';
return list2;
}
int main() {
int myints[] = {734,3,1,24,324,324,32,432,42,3,4,1,1};
vector<int> sorted = beadSort(myints, sizeof(myints)/sizeof(int));
cout << "Sorted list/array: ";
for(unsigned int i=0; i<sorted.size(); i++)
cout << sorted[i] << ' ';
}
|
Change the following PHP code into C++ without altering its purpose. | <?php
$y = bcpow('5', bcpow('4', bcpow('3', '2')));
printf("5**4**3**2 = %s...%s and has %d digits\n", substr($y,0,20), substr($y,-20), strlen($y));
?>
| #include <iostream>
#include <boost/multiprecision/gmp.hpp>
#include <string>
namespace mp = boost::multiprecision;
int main(int argc, char const *argv[])
{
uint64_t tmpres = mp::pow(mp::mpz_int(4)
, mp::pow(mp::mpz_int(3)
, 2).convert_to<uint64_t>()
).convert_to<uint64_t>();
mp::mpz_int res = mp::pow(mp::mpz_int(5), tmpres);
std::string s = res.str();
std::cout << s.substr(0, 20)
<< "..."
<< s.substr(s.length() - 20, 20) << std::endl;
return 0;
}
|
Write a version of this PHP function in C++ with identical behavior. | <?php
function buildInvertedIndex($filenames)
{
$invertedIndex = [];
foreach($filenames as $filename)
{
$data = file_get_contents($filename);
if($data === false) die('Unable to read file: ' . $filename);
preg_match_all('/(\w+)/', $data, $matches, PREG_SET_ORDER);
foreach($matches as $match)
{
$word = strtolower($match[0]);
if(!array_key_exists($word, $invertedIndex)) $invertedIndex[$word] = [];
if(!in_array($filename, $invertedIndex[$word], true)) $invertedIndex[$word][] = $filename;
}
}
return $invertedIndex;
}
function lookupWord($invertedIndex, $word)
{
return array_key_exists($word, $invertedIndex) ? $invertedIndex[$word] : false;
}
$invertedIndex = buildInvertedIndex2(['file1.txt', 'file2.txt', 'file3.txt']);
foreach(['cat', 'is', 'banana', 'it'] as $word)
{
$matches = lookupWord($invertedIndex, $word);
if($matches !== false)
{
echo "Found the word \"$word\" in the following files: " . implode(', ', $matches) . "\n";
}
else
{
echo "Unable to find the word \"$word\" in the index\n";
}
}
| #include <algorithm>
#include <fstream>
#include <iostream>
#include <vector>
#include <string>
const std::string _CHARS = "abcdefghijklmnopqrstuvwxyz0123456789.:-_/";
const size_t MAX_NODES = 41;
class node
{
public:
node() { clear(); }
node( char z ) { clear(); }
~node() { for( int x = 0; x < MAX_NODES; x++ ) if( next[x] ) delete next[x]; }
void clear() { for( int x = 0; x < MAX_NODES; x++ ) next[x] = 0; isWord = false; }
bool isWord;
std::vector<std::string> files;
node* next[MAX_NODES];
};
class index {
public:
void add( std::string s, std::string fileName ) {
std::transform( s.begin(), s.end(), s.begin(), tolower );
std::string h;
for( std::string::iterator i = s.begin(); i != s.end(); i++ ) {
if( *i == 32 ) {
pushFileName( addWord( h ), fileName );
h.clear();
continue;
}
h.append( 1, *i );
}
if( h.length() )
pushFileName( addWord( h ), fileName );
}
void findWord( std::string s ) {
std::vector<std::string> v = find( s );
if( !v.size() ) {
std::cout << s + " was not found!\n";
return;
}
std::cout << s << " found in:\n";
for( std::vector<std::string>::iterator i = v.begin(); i != v.end(); i++ ) {
std::cout << *i << "\n";
}
std::cout << "\n";
}
private:
void pushFileName( node* n, std::string fn ) {
std::vector<std::string>::iterator i = std::find( n->files.begin(), n->files.end(), fn );
if( i == n->files.end() ) n->files.push_back( fn );
}
const std::vector<std::string>& find( std::string s ) {
size_t idx;
std::transform( s.begin(), s.end(), s.begin(), tolower );
node* rt = &root;
for( std::string::iterator i = s.begin(); i != s.end(); i++ ) {
idx = _CHARS.find( *i );
if( idx < MAX_NODES ) {
if( !rt->next[idx] ) return std::vector<std::string>();
rt = rt->next[idx];
}
}
if( rt->isWord ) return rt->files;
return std::vector<std::string>();
}
node* addWord( std::string s ) {
size_t idx;
node* rt = &root, *n;
for( std::string::iterator i = s.begin(); i != s.end(); i++ ) {
idx = _CHARS.find( *i );
if( idx < MAX_NODES ) {
n = rt->next[idx];
if( n ){
rt = n;
continue;
}
n = new node( *i );
rt->next[idx] = n;
rt = n;
}
}
rt->isWord = true;
return rt;
}
node root;
};
int main( int argc, char* argv[] ) {
index t;
std::string s;
std::string files[] = { "file1.txt", "f_text.txt", "text_1b.txt" };
for( int x = 0; x < 3; x++ ) {
std::ifstream f;
f.open( files[x].c_str(), std::ios::in );
if( f.good() ) {
while( !f.eof() ) {
f >> s;
t.add( s, files[x] );
s.clear();
}
f.close();
}
}
while( true ) {
std::cout << "Enter one word to search for, return to exit: ";
std::getline( std::cin, s );
if( !s.length() ) break;
t.findWord( s );
}
return 0;
}
|
Keep all operations the same but rewrite the snippet in C++. | echo lcm(12, 18) == 36;
function lcm($m, $n) {
if ($m == 0 || $n == 0) return 0;
$r = ($m * $n) / gcd($m, $n);
return abs($r);
}
function gcd($a, $b) {
while ($b != 0) {
$t = $b;
$b = $a % $b;
$a = $t;
}
return $a;
}
| #include <boost/math/common_factor.hpp>
#include <iostream>
int main( ) {
std::cout << "The least common multiple of 12 and 18 is " <<
boost::math::lcm( 12 , 18 ) << " ,\n"
<< "and the greatest common divisor " << boost::math::gcd( 12 , 18 ) << " !" << std::endl ;
return 0 ;
}
|
Generate a C++ translation of this PHP snippet without changing its computational steps. | echo lcm(12, 18) == 36;
function lcm($m, $n) {
if ($m == 0 || $n == 0) return 0;
$r = ($m * $n) / gcd($m, $n);
return abs($r);
}
function gcd($a, $b) {
while ($b != 0) {
$t = $b;
$b = $a % $b;
$a = $t;
}
return $a;
}
| #include <boost/math/common_factor.hpp>
#include <iostream>
int main( ) {
std::cout << "The least common multiple of 12 and 18 is " <<
boost::math::lcm( 12 , 18 ) << " ,\n"
<< "and the greatest common divisor " << boost::math::gcd( 12 , 18 ) << " !" << std::endl ;
return 0 ;
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | while (true) {
$a = rand(0,19);
echo "$a\n";
if ($a == 10)
break;
$b = rand(0,19);
echo "$b\n";
}
| #include <iostream>
#include <ctime>
#include <cstdlib>
int main(){
srand(time(NULL));
while(true){
const int a = rand() % 20;
std::cout << a << std::endl;
if(a == 10)
break;
const int b = rand() % 20;
std::cout << b << std::endl;
}
return 0;
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
file_put_contents('/dev/lp0', 'Hello world!');
?>
| #include <iostream>
#include <fstream>
int main(){
std::ofstream lprFile;
lprFile.open( "/dev/lp0" );
lprFile << "Hello World!\n";
lprFile.close();
return 0;
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
file_put_contents('/dev/lp0', 'Hello world!');
?>
| #include <iostream>
#include <fstream>
int main(){
std::ofstream lprFile;
lprFile.open( "/dev/lp0" );
lprFile << "Hello World!\n";
lprFile.close();
return 0;
}
|
Port the following code from PHP to C++ with equivalent syntax and logic. | <?php
function f($n)
{
return sqrt(abs($n)) + 5 * $n * $n * $n;
}
$sArray = [];
echo "Enter 11 numbers.\n";
for ($i = 0; $i <= 10; $i++) {
echo $i + 1, " - Enter number: ";
array_push($sArray, (float)fgets(STDIN));
}
echo PHP_EOL;
$sArray = array_reverse($sArray);
foreach ($sArray as $s) {
$r = f($s);
echo "f(", $s, ") = ";
if ($r > 400)
echo "overflow\n";
else
echo $r, PHP_EOL;
}
?>
| #include <iostream>
#include <cmath>
#include <vector>
#include <algorithm>
#include <iomanip>
int main( ) {
std::vector<double> input( 11 ) , results( 11 ) ;
std::cout << "Please enter 11 numbers!\n" ;
for ( int i = 0 ; i < input.size( ) ; i++ )
std::cin >> input[i];
std::transform( input.begin( ) , input.end( ) , results.begin( ) ,
[ ]( double n )-> double { return sqrt( abs( n ) ) + 5 * pow( n , 3 ) ; } ) ;
for ( int i = 10 ; i > -1 ; i-- ) {
std::cout << "f( " << std::setw( 3 ) << input[ i ] << " ) : " ;
if ( results[ i ] > 400 )
std::cout << "too large!" ;
else
std::cout << results[ i ] << " !" ;
std::cout << std::endl ;
}
return 0 ;
}
|
Port the following code from PHP to C++ with equivalent syntax and logic. |
function middlethree($integer)
{
$int = (int)str_replace('-','',$integer);
$length = strlen($int);
if(is_int($int))
{
if($length >= 3)
{
if($length % 2 == 1)
{
$middle = floor($length / 2) - 1;
return substr($int,$middle, 3);
}
else
{
return 'The value must contain an odd amount of digits...';
}
}
else
{
return 'The value must contain at least three digits...';
}
}
else
{
return 'The value does not appear to be an integer...';
}
}
$numbers = array(123, 12345, 1234567, 987654321, 10001, -10001, -123, -100, 100, -12345, 1, 2, -1, -10, 2002, -2002, 0);
foreach($numbers as $nums)
{
echo $nums.' : '.middlethree($nums). '<br>';
}
| #include <iostream>
std::string middleThreeDigits(int n)
{
auto number = std::to_string(std::abs(n));
auto length = number.size();
if (length < 3) {
return "less than three digits";
} else if (length % 2 == 0) {
return "even number of digits";
} else {
return number.substr(length / 2 - 1, 3);
}
}
int main()
{
auto values {123, 12345, 1234567, 987654321, 10001,
-10001, -123, -100, 100, -12345,
1, 2, -1, -10, 2002, -2002, 0};
for (auto&& v : values) {
std::cout << "middleThreeDigits(" << v << "): " <<
middleThreeDigits(v) << "\n";
}
}
|
Generate an equivalent C++ version of this PHP code. | $odd = function ($prev) use ( &$odd ) {
$a = fgetc(STDIN);
if (!ctype_alpha($a)) {
$prev();
fwrite(STDOUT, $a);
return $a != '.';
}
$clos = function () use ($a , $prev) {
fwrite(STDOUT, $a);
$prev();
};
return $odd($clos);
};
$even = function () {
while (true) {
$c = fgetc(STDIN);
fwrite(STDOUT, $c);
if (!ctype_alpha($c)) {
return $c != ".";
}
}
};
$prev = function(){};
$e = false;
while ($e ? $odd($prev) : $even()) {
$e = !$e;
}
| #include <iostream>
#include <cctype>
#include <functional>
using namespace std;
bool odd()
{
function<void ()> prev = []{};
while(true) {
int c = cin.get();
if (!isalpha(c)) {
prev();
cout.put(c);
return c != '.';
}
prev = [=] { cout.put(c); prev(); };
}
}
bool even()
{
while(true) {
int c;
cout.put(c = cin.get());
if (!isalpha(c)) return c != '.';
}
}
int main()
{
bool e = false;
while( e ? odd() : even() ) e = !e;
return 0;
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | 'c'; # character
'hello'; # these two strings are the same
"hello";
'Hi $name. How are you?'; # result: "Hi $name. How are you?"
"Hi $name. How are you?"; # result: "Hi Bob. How are you?"
'\n'; # 2-character string with a backslash and "n"
"\n"; # newline character
`ls`; # runs a command in the shell and returns the output as a string
<<END # Here-Document
Hi, whatever goes here gets put into the string,
including newlines and $variables,
until the label we put above
END;
<<'END' # Here-Document like single-quoted
Same as above, but no interpolation of $variables.
END;
| auto strA = R"(this is
a newline-separated
raw string)";
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? |
$fruits = array( "apple", "banana", "cherry" );
$fruits = array( "apple" => 0, "banana" => 1, "cherry" => 2 );
class Fruit {
const APPLE = 0;
const BANANA = 1;
const CHERRY = 2;
}
$value = Fruit::APPLE;
define("FRUIT_APPLE", 0);
define("FRUIT_BANANA", 1);
define("FRUIT_CHERRY", 2);
| enum fruits { apple, banana, cherry };
enum fruits { apple = 0, banana = 1, cherry = 2 };
|
Please provide an equivalent version of this PHP code in C++. | <?php
function meaning_of_life() {
return 42;
}
function main($args) {
echo "Main: The meaning of life is " . meaning_of_life() . "\n";
}
if (preg_match("/scriptedmain/", $_SERVER["SCRIPT_NAME"])) {
main($argv);
}
?>
| int meaning_of_life();
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
function meaning_of_life() {
return 42;
}
function main($args) {
echo "Main: The meaning of life is " . meaning_of_life() . "\n";
}
if (preg_match("/scriptedmain/", $_SERVER["SCRIPT_NAME"])) {
main($argv);
}
?>
| int meaning_of_life();
|
Write the same code in C++ as shown below in PHP. | <?php
foreach(scandir('.') as $fileName){
echo $fileName."\n";
}
| #include <iostream>
#include <set>
#include <boost/filesystem.hpp>
namespace fs = boost::filesystem;
int main(void)
{
fs::path p(fs::current_path());
std::set<std::string> tree;
for (auto it = fs::directory_iterator(p); it != fs::directory_iterator(); ++it)
tree.insert(it->path().filename().native());
for (auto entry : tree)
std::cout << entry << '\n';
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | <?php
function symbolTable() {
$symbol = array();
for ($c = ord('a') ; $c <= ord('z') ; $c++) {
$symbol[$c - ord('a')] = chr($c);
}
return $symbol;
}
function mtfEncode($original, $symbol) {
$encoded = array();
for ($i = 0 ; $i < strlen($original) ; $i++) {
$char = $original[$i];
$position = array_search($char, $symbol);
$encoded[] = $position;
$mtf = $symbol[$position];
unset($symbol[$position]);
array_unshift($symbol, $mtf);
}
return $encoded;
}
function mtfDecode($encoded, $symbol) {
$decoded = '';
foreach ($encoded AS $position) {
$char = $symbol[$position];
$decoded .= $char;
unset($symbol[$position]);
array_unshift($symbol, $char);
}
return $decoded;
}
foreach (array('broood', 'bananaaa', 'hiphophiphop') AS $original) {
$encoded = mtfEncode($original, symbolTable());
$decoded = mtfDecode($encoded, symbolTable());
echo
$original,
' -> [', implode(',', $encoded), ']',
' -> ', $decoded,
' : ', ($original === $decoded ? 'OK' : 'Error'),
PHP_EOL;
}
| #include <iostream>
#include <iterator>
#include <sstream>
#include <vector>
using namespace std;
class MTF
{
public:
string encode( string str )
{
fillSymbolTable();
vector<int> output;
for( string::iterator it = str.begin(); it != str.end(); it++ )
{
for( int i = 0; i < 26; i++ )
{
if( *it == symbolTable[i] )
{
output.push_back( i );
moveToFront( i );
break;
}
}
}
string r;
for( vector<int>::iterator it = output.begin(); it != output.end(); it++ )
{
ostringstream ss;
ss << *it;
r += ss.str() + " ";
}
return r;
}
string decode( string str )
{
fillSymbolTable();
istringstream iss( str ); vector<int> output;
copy( istream_iterator<int>( iss ), istream_iterator<int>(), back_inserter<vector<int> >( output ) );
string r;
for( vector<int>::iterator it = output.begin(); it != output.end(); it++ )
{
r.append( 1, symbolTable[*it] );
moveToFront( *it );
}
return r;
}
private:
void moveToFront( int i )
{
char t = symbolTable[i];
for( int z = i - 1; z >= 0; z-- )
symbolTable[z + 1] = symbolTable[z];
symbolTable[0] = t;
}
void fillSymbolTable()
{
for( int x = 0; x < 26; x++ )
symbolTable[x] = x + 'a';
}
char symbolTable[26];
};
int main()
{
MTF mtf;
string a, str[] = { "broood", "bananaaa", "hiphophiphop" };
for( int x = 0; x < 3; x++ )
{
a = str[x];
cout << a << " -> encoded = ";
a = mtf.encode( a );
cout << a << "; decoded = " << mtf.decode( a ) << endl;
}
return 0;
}
|
Write the same code in C++ as shown below in PHP. | <?php
class Node {
public $val;
public $back = NULL;
}
function lis($n) {
$pileTops = array();
foreach ($n as $x) {
$low = 0; $high = count($pileTops)-1;
while ($low <= $high) {
$mid = (int)(($low + $high) / 2);
if ($pileTops[$mid]->val >= $x)
$high = $mid - 1;
else
$low = $mid + 1;
}
$i = $low;
$node = new Node();
$node->val = $x;
if ($i != 0)
$node->back = $pileTops[$i-1];
$pileTops[$i] = $node;
}
$result = array();
for ($node = count($pileTops) ? $pileTops[count($pileTops)-1] : NULL;
$node != NULL; $node = $node->back)
$result[] = $node->val;
return array_reverse($result);
}
print_r(lis(array(3, 2, 6, 4, 5, 1)));
print_r(lis(array(0, 8, 4, 12, 2, 10, 6, 14, 1, 9, 5, 13, 3, 11, 7, 15)));
?>
| #include <vector>
#include <list>
#include <algorithm>
#include <iostream>
template <typename T>
struct Node {
T value;
Node* prev_node;
};
template <typename Container>
Container lis(const Container& values) {
using E = typename Container::value_type;
using NodePtr = Node<E>*;
using ConstNodePtr = const NodePtr;
std::vector<NodePtr> pileTops;
std::vector<Node<E>> nodes(values.size());
auto cur_node = std::begin(nodes);
for (auto cur_value = std::begin(values); cur_value != std::end(values); ++cur_value, ++cur_node)
{
auto node = &*cur_node;
node->value = *cur_value;
auto lb = std::lower_bound(pileTops.begin(), pileTops.end(), node,
[](ConstNodePtr& node1, ConstNodePtr& node2) -> bool { return node1->value < node2->value; });
if (lb != pileTops.begin())
node->prev_node = *std::prev(lb);
if (lb == pileTops.end())
pileTops.push_back(node);
else
*lb = node;
}
Container result(pileTops.size());
auto r = std::rbegin(result);
for (NodePtr node = pileTops.back(); node != nullptr; node = node->prev_node, ++r)
*r = node->value;
return result;
}
template <typename Container>
void show_lis(const Container& values)
{
auto&& result = lis(values);
for (auto& r : result) {
std::cout << r << ' ';
}
std::cout << std::endl;
}
int main()
{
show_lis(std::list<int> { 3, 2, 6, 4, 5, 1 });
show_lis(std::vector<int> { 0, 8, 4, 12, 2, 10, 6, 14, 1, 9, 5, 13, 3, 11, 7, 15 });
}
|
Please provide an equivalent version of this PHP code in C++. | function getitem($s,$depth=0) {
$out = [''];
while ($s) {
$c = $s[0];
if ($depth && ($c == ',' || $c == '}')) {
return [$out, $s];
}
if ($c == '{') {
$x = getgroup(substr($s, 1), $depth + 1);
if($x) {
$tmp = [];
foreach($out as $a) {
foreach($x[0] as $b) {
$tmp[] = $a . $b;
}
}
$out = $tmp;
$s = $x[1];
continue;
}
}
if ($c == '\\' && strlen($s) > 1) {
list($s, $c) = [substr($s, 1), ($c . $s[1])];
}
$tmp = [];
foreach($out as $a) {
$tmp[] = $a . $c;
}
$out = $tmp;
$s = substr($s, 1);
}
return [$out, $s];
}
function getgroup($s,$depth) {
list($out, $comma) = [[], false];
while ($s) {
list($g, $s) = getitem($s, $depth);
if (!$s) {
break;
}
$out = array_merge($out, $g);
if ($s[0] == '}') {
if ($comma) {
return [$out, substr($s, 1)];
}
$tmp = [];
foreach($out as $a) {
$tmp[] = '{' . $a . '}';
}
return [$tmp, substr($s, 1)];
}
if ($s[0] == ',') {
list($comma, $s) = [true, substr($s, 1)];
}
}
return null;
}
$lines = <<< 'END'
~/{Downloads,Pictures}/*.{jpg,gif,png}
It{{em,alic}iz,erat}e{d,}, please.
{,{,gotta have{ ,\, again\, }}more }cowbell!
{}} some }{,{\\{ edge, edge} \,}{ cases, {here} \\\\\}
END;
foreach( explode("\n", $lines) as $line ) {
printf("\n%s\n", $line);
foreach( getitem($line)[0] as $expansion ) {
printf(" %s\n", $expansion);
}
}
| #include <iostream>
#include <iterator>
#include <string>
#include <utility>
#include <vector>
namespace detail {
template <typename ForwardIterator>
class tokenizer
{
ForwardIterator _tbegin, _tend, _end;
public:
tokenizer(ForwardIterator begin, ForwardIterator end)
: _tbegin(begin), _tend(begin), _end(end)
{ }
template <typename Lambda>
bool next(Lambda istoken)
{
if (_tbegin == _end) {
return false;
}
_tbegin = _tend;
for (; _tend != _end && !istoken(*_tend); ++_tend) {
if (*_tend == '\\' && std::next(_tend) != _end) {
++_tend;
}
}
if (_tend == _tbegin) {
_tend++;
}
return _tbegin != _end;
}
ForwardIterator begin() const { return _tbegin; }
ForwardIterator end() const { return _tend; }
bool operator==(char c) { return *_tbegin == c; }
};
template <typename List>
void append_all(List & lista, const List & listb)
{
if (listb.size() == 1) {
for (auto & a : lista) {
a += listb.back();
}
} else {
List tmp;
for (auto & a : lista) {
for (auto & b : listb) {
tmp.push_back(a + b);
}
}
lista = std::move(tmp);
}
}
template <typename String, typename List, typename Tokenizer>
List expand(Tokenizer & token)
{
std::vector<List> alts{ { String() } };
while (token.next([](char c) { return c == '{' || c == ',' || c == '}'; })) {
if (token == '{') {
append_all(alts.back(), expand<String, List>(token));
} else if (token == ',') {
alts.push_back({ String() });
} else if (token == '}') {
if (alts.size() == 1) {
for (auto & a : alts.back()) {
a = '{' + a + '}';
}
return alts.back();
} else {
for (std::size_t i = 1; i < alts.size(); i++) {
alts.front().insert(alts.front().end(),
std::make_move_iterator(std::begin(alts[i])),
std::make_move_iterator(std::end(alts[i])));
}
return std::move(alts.front());
}
} else {
for (auto & a : alts.back()) {
a.append(token.begin(), token.end());
}
}
}
List result{ String{ '{' } };
append_all(result, alts.front());
for (std::size_t i = 1; i < alts.size(); i++) {
for (auto & a : result) {
a += ',';
}
append_all(result, alts[i]);
}
return result;
}
}
template <
typename ForwardIterator,
typename String = std::basic_string<
typename std::iterator_traits<ForwardIterator>::value_type
>,
typename List = std::vector<String>
>
List expand(ForwardIterator begin, ForwardIterator end)
{
detail::tokenizer<ForwardIterator> token(begin, end);
List list{ String() };
while (token.next([](char c) { return c == '{'; })) {
if (token == '{') {
detail::append_all(list, detail::expand<String, List>(token));
} else {
for (auto & a : list) {
a.append(token.begin(), token.end());
}
}
}
return list;
}
template <
typename Range,
typename String = std::basic_string<typename Range::value_type>,
typename List = std::vector<String>
>
List expand(const Range & range)
{
using Iterator = typename Range::const_iterator;
return expand<Iterator, String, List>(std::begin(range), std::end(range));
}
int main()
{
for (std::string string : {
R"(~/{Downloads,Pictures}/*.{jpg,gif,png})",
R"(It{{em,alic}iz,erat}e{d,}, please.)",
R"({,{,gotta have{ ,\, again\, }}more }cowbell!)",
R"({}} some {\\{edge,edgy} }{ cases, here\\\})",
R"(a{b{1,2}c)",
R"(a{1,2}b}c)",
R"(a{1,{2},3}b)",
R"(a{b{1,2}c{}})",
R"(more{ darn{ cowbell,},})",
R"(ab{c,d\,e{f,g\h},i\,j{k,l\,m}n,o\,p}qr)",
R"({a,{\,b}c)",
R"(a{b,{{c}})",
R"({a{\}b,c}d)",
R"({a,b{{1,2}e}f)",
R"({}} some }{,{\\{ edge, edge} \,}{ cases, {here} \\\\\})",
R"({{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{{)",
}) {
std::cout << string << '\n';
for (auto expansion : expand(string)) {
std::cout << " " << expansion << '\n';
}
std::cout << '\n';
}
return 0;
}
|
Maintain the same structure and functionality when rewriting this code in C++. | <?php
function is_describing($number) {
foreach (str_split((int) $number) as $place => $value) {
if (substr_count($number, $place) != $value) {
return false;
}
}
return true;
}
for ($i = 0; $i <= 50000000; $i += 10) {
if (is_describing($i)) {
echo $i . PHP_EOL;
}
}
?>
| #include <iostream>
typedef unsigned long long bigint;
using namespace std;
class sdn
{
public:
bool check( bigint n )
{
int cc = digitsCount( n );
return compare( n, cc );
}
void displayAll( bigint s )
{
for( bigint y = 1; y < s; y++ )
if( check( y ) )
cout << y << " is a Self-Describing Number." << endl;
}
private:
bool compare( bigint n, int cc )
{
bigint a;
while( cc )
{
cc--; a = n % 10;
if( dig[cc] != a ) return false;
n -= a; n /= 10;
}
return true;
}
int digitsCount( bigint n )
{
int cc = 0; bigint a;
memset( dig, 0, sizeof( dig ) );
while( n )
{
a = n % 10; dig[a]++;
cc++ ; n -= a; n /= 10;
}
return cc;
}
int dig[10];
};
int main( int argc, char* argv[] )
{
sdn s;
s. displayAll( 1000000000000 );
cout << endl << endl; system( "pause" );
bigint n;
while( true )
{
system( "cls" );
cout << "Enter a positive whole number ( 0 to QUIT ): "; cin >> n;
if( !n ) return 0;
if( s.check( n ) ) cout << n << " is";
else cout << n << " is NOT";
cout << " a Self-Describing Number!" << endl << endl;
system( "pause" );
}
return 0;
}
|
Change the programming language of this snippet from PHP to C++ without modifying what it does. | <?php
function invmod($a,$n){
if ($n < 0) $n = -$n;
if ($a < 0) $a = $n - (-$a % $n);
$t = 0; $nt = 1; $r = $n; $nr = $a % $n;
while ($nr != 0) {
$quot= intval($r/$nr);
$tmp = $nt; $nt = $t - $quot*$nt; $t = $tmp;
$tmp = $nr; $nr = $r - $quot*$nr; $r = $tmp;
}
if ($r > 1) return -1;
if ($t < 0) $t += $n;
return $t;
}
printf("%d\n", invmod(42, 2017));
?>
| #include <iostream>
int mul_inv(int a, int b)
{
int b0 = b, t, q;
int x0 = 0, x1 = 1;
if (b == 1) return 1;
while (a > 1) {
q = a / b;
t = b, b = a % b, a = t;
t = x0, x0 = x1 - q * x0, x1 = t;
}
if (x1 < 0) x1 += b0;
return x1;
}
int main(void) {
std::cout << mul_inv(42, 2017) << std::endl;
return 0;
}
|
Please provide an equivalent version of this PHP code in C++. | .12
0.1234
1.2e3
7E-10
| #include <iostream>
int main()
{
auto double1 = 2.5;
auto float1 = 2.5f;
auto longdouble1 = 2.5l;
auto double2 = 2.5e-3;
auto float2 = 2.5e3f;
auto double3 = 0x1p4;
auto float3 = 0xbeefp-8f;
std::cout << "\ndouble1: " << double1;
std::cout << "\nfloat1: " << float1;
std::cout << "\nlongdouble1: " << longdouble1;
std::cout << "\ndouble2: " << double2;
std::cout << "\nfloat2: " << float2;
std::cout << "\ndouble3: " << double3;
std::cout << "\nfloat3: " << float3;
std::cout << "\n";
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | <?php
$zero = function($f) { return function ($x) { return $x; }; };
$succ = function($n) {
return function($f) use (&$n) {
return function($x) use (&$n, &$f) {
return $f( ($n($f))($x) );
};
};
};
$add = function($n, $m) {
return function($f) use (&$n, &$m) {
return function($x) use (&$f, &$n, &$m) {
return ($m($f))(($n($f))($x));
};
};
};
$mult = function($n, $m) {
return function($f) use (&$n, &$m) {
return function($x) use (&$f, &$n, &$m) {
return ($m($n($f)))($x);
};
};
};
$power = function($b,$e) {
return $e($b);
};
$to_int = function($f) {
$count_up = function($i) { return $i+1; };
return ($f($count_up))(0);
};
$from_int = function($x) {
$countdown = function($i) use (&$countdown) {
global $zero, $succ;
if ( $i == 0 ) {
return $zero;
} else {
return $succ($countdown($i-1));
};
};
return $countdown($x);
};
$three = $succ($succ($succ($zero)));
$four = $from_int(4);
foreach (array($add($three,$four), $mult($three,$four),
$power($three,$four), $power($four,$three)) as $ch) {
print($to_int($ch));
print("\n");
}
?>
| #include <iostream>
auto Zero = [](auto){ return [](auto x){ return x; }; };
auto True = [](auto a){ return [=](auto){ return a; }; };
auto False = [](auto){ return [](auto b){ return b; }; };
auto Successor(auto a) {
return [=](auto f) {
return [=](auto x) {
return a(f)(f(x));
};
};
}
auto Add(auto a, auto b) {
return [=](auto f) {
return [=](auto x) {
return a(f)(b(f)(x));
};
};
}
auto Multiply(auto a, auto b) {
return [=](auto f) {
return a(b(f));
};
}
auto Exp(auto a, auto b) {
return b(a);
}
auto IsZero(auto a){
return a([](auto){ return False; })(True);
}
auto Predecessor(auto a) {
return [=](auto f) {
return [=](auto x) {
return a(
[=](auto g) {
return [=](auto h){
return h(g(f));
};
}
)([=](auto){ return x; })([](auto y){ return y; });
};
};
}
auto Subtract(auto a, auto b) {
{
return b([](auto c){ return Predecessor(c); })(a);
};
}
namespace
{
auto Divr(decltype(Zero), auto) {
return Zero;
}
auto Divr(auto a, auto b) {
auto a_minus_b = Subtract(a, b);
auto isZero = IsZero(a_minus_b);
return isZero
(Zero)
(Successor(Divr(isZero(Zero)(a_minus_b), b)));
}
}
auto Divide(auto a, auto b) {
return Divr(Successor(a), b);
}
template <int N> constexpr auto ToChurch() {
if constexpr(N<=0) return Zero;
else return Successor(ToChurch<N-1>());
}
int ToInt(auto church) {
return church([](int n){ return n + 1; })(0);
}
int main() {
auto three = Successor(Successor(Successor(Zero)));
auto four = Successor(three);
auto six = ToChurch<6>();
auto ten = ToChurch<10>();
auto thousand = Exp(ten, three);
std::cout << "\n 3 + 4 = " << ToInt(Add(three, four));
std::cout << "\n 3 * 4 = " << ToInt(Multiply(three, four));
std::cout << "\n 3^4 = " << ToInt(Exp(three, four));
std::cout << "\n 4^3 = " << ToInt(Exp(four, three));
std::cout << "\n 0^0 = " << ToInt(Exp(Zero, Zero));
std::cout << "\n 4 - 3 = " << ToInt(Subtract(four, three));
std::cout << "\n 3 - 4 = " << ToInt(Subtract(three, four));
std::cout << "\n 6 / 3 = " << ToInt(Divide(six, three));
std::cout << "\n 3 / 6 = " << ToInt(Divide(three, six));
auto looloolooo = Add(Exp(thousand, three), Add(Exp(ten, six), thousand));
auto looloolool = Successor(looloolooo);
std::cout << "\n 10^9 + 10^6 + 10^3 + 1 = " << ToInt(looloolool);
std::cout << "\n golden ratio = " <<
thousand([](double x){ return 1.0 + 1.0 / x; })(1.0) << "\n";
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
$zero = function($f) { return function ($x) { return $x; }; };
$succ = function($n) {
return function($f) use (&$n) {
return function($x) use (&$n, &$f) {
return $f( ($n($f))($x) );
};
};
};
$add = function($n, $m) {
return function($f) use (&$n, &$m) {
return function($x) use (&$f, &$n, &$m) {
return ($m($f))(($n($f))($x));
};
};
};
$mult = function($n, $m) {
return function($f) use (&$n, &$m) {
return function($x) use (&$f, &$n, &$m) {
return ($m($n($f)))($x);
};
};
};
$power = function($b,$e) {
return $e($b);
};
$to_int = function($f) {
$count_up = function($i) { return $i+1; };
return ($f($count_up))(0);
};
$from_int = function($x) {
$countdown = function($i) use (&$countdown) {
global $zero, $succ;
if ( $i == 0 ) {
return $zero;
} else {
return $succ($countdown($i-1));
};
};
return $countdown($x);
};
$three = $succ($succ($succ($zero)));
$four = $from_int(4);
foreach (array($add($three,$four), $mult($three,$four),
$power($three,$four), $power($four,$three)) as $ch) {
print($to_int($ch));
print("\n");
}
?>
| #include <iostream>
auto Zero = [](auto){ return [](auto x){ return x; }; };
auto True = [](auto a){ return [=](auto){ return a; }; };
auto False = [](auto){ return [](auto b){ return b; }; };
auto Successor(auto a) {
return [=](auto f) {
return [=](auto x) {
return a(f)(f(x));
};
};
}
auto Add(auto a, auto b) {
return [=](auto f) {
return [=](auto x) {
return a(f)(b(f)(x));
};
};
}
auto Multiply(auto a, auto b) {
return [=](auto f) {
return a(b(f));
};
}
auto Exp(auto a, auto b) {
return b(a);
}
auto IsZero(auto a){
return a([](auto){ return False; })(True);
}
auto Predecessor(auto a) {
return [=](auto f) {
return [=](auto x) {
return a(
[=](auto g) {
return [=](auto h){
return h(g(f));
};
}
)([=](auto){ return x; })([](auto y){ return y; });
};
};
}
auto Subtract(auto a, auto b) {
{
return b([](auto c){ return Predecessor(c); })(a);
};
}
namespace
{
auto Divr(decltype(Zero), auto) {
return Zero;
}
auto Divr(auto a, auto b) {
auto a_minus_b = Subtract(a, b);
auto isZero = IsZero(a_minus_b);
return isZero
(Zero)
(Successor(Divr(isZero(Zero)(a_minus_b), b)));
}
}
auto Divide(auto a, auto b) {
return Divr(Successor(a), b);
}
template <int N> constexpr auto ToChurch() {
if constexpr(N<=0) return Zero;
else return Successor(ToChurch<N-1>());
}
int ToInt(auto church) {
return church([](int n){ return n + 1; })(0);
}
int main() {
auto three = Successor(Successor(Successor(Zero)));
auto four = Successor(three);
auto six = ToChurch<6>();
auto ten = ToChurch<10>();
auto thousand = Exp(ten, three);
std::cout << "\n 3 + 4 = " << ToInt(Add(three, four));
std::cout << "\n 3 * 4 = " << ToInt(Multiply(three, four));
std::cout << "\n 3^4 = " << ToInt(Exp(three, four));
std::cout << "\n 4^3 = " << ToInt(Exp(four, three));
std::cout << "\n 0^0 = " << ToInt(Exp(Zero, Zero));
std::cout << "\n 4 - 3 = " << ToInt(Subtract(four, three));
std::cout << "\n 3 - 4 = " << ToInt(Subtract(three, four));
std::cout << "\n 6 / 3 = " << ToInt(Divide(six, three));
std::cout << "\n 3 / 6 = " << ToInt(Divide(three, six));
auto looloolooo = Add(Exp(thousand, three), Add(Exp(ten, six), thousand));
auto looloolool = Successor(looloolooo);
std::cout << "\n 10^9 + 10^6 + 10^3 + 1 = " << ToInt(looloolool);
std::cout << "\n golden ratio = " <<
thousand([](double x){ return 1.0 + 1.0 / x; })(1.0) << "\n";
}
|
Convert this PHP block to C++, preserving its control flow and logic. | <?php
class SimpleClass {
private $answer = "hello\"world\nforever :)";
}
$class = new SimpleClass;
ob_start();
var_export($class);
$class_content = ob_get_clean();
$class_content = preg_replace('"^SimpleClass::__set_state\("', 'return ', $class_content);
$class_content = preg_replace('"\)$"', ';', $class_content);
$new_class = eval($class_content);
echo $new_class['answer'];
| #include <iostream>
class CWidget;
class CFactory
{
friend class CWidget;
private:
unsigned int m_uiCount;
public:
CFactory();
~CFactory();
CWidget* GetWidget();
};
class CWidget
{
private:
CFactory& m_parent;
private:
CWidget();
CWidget(const CWidget&);
CWidget& operator=(const CWidget&);
public:
CWidget(CFactory& parent);
~CWidget();
};
CFactory::CFactory() : m_uiCount(0) {}
CFactory::~CFactory() {}
CWidget* CFactory::GetWidget()
{
return new CWidget(*this);
}
CWidget::CWidget(CFactory& parent) : m_parent(parent)
{
++m_parent.m_uiCount;
std::cout << "Widget spawning. There are now " << m_parent.m_uiCount << " Widgets instanciated." << std::endl;
}
CWidget::~CWidget()
{
--m_parent.m_uiCount;
std::cout << "Widget dieing. There are now " << m_parent.m_uiCount << " Widgets instanciated." << std::endl;
}
int main()
{
CFactory factory;
CWidget* pWidget1 = factory.GetWidget();
CWidget* pWidget2 = factory.GetWidget();
delete pWidget1;
CWidget* pWidget3 = factory.GetWidget();
delete pWidget3;
delete pWidget2;
}
|
Ensure the translated C++ code behaves exactly like the original PHP snippet. | <?php
class SimpleClass {
private $answer = "hello\"world\nforever :)";
}
$class = new SimpleClass;
ob_start();
var_export($class);
$class_content = ob_get_clean();
$class_content = preg_replace('"^SimpleClass::__set_state\("', 'return ', $class_content);
$class_content = preg_replace('"\)$"', ';', $class_content);
$new_class = eval($class_content);
echo $new_class['answer'];
| #include <iostream>
class CWidget;
class CFactory
{
friend class CWidget;
private:
unsigned int m_uiCount;
public:
CFactory();
~CFactory();
CWidget* GetWidget();
};
class CWidget
{
private:
CFactory& m_parent;
private:
CWidget();
CWidget(const CWidget&);
CWidget& operator=(const CWidget&);
public:
CWidget(CFactory& parent);
~CWidget();
};
CFactory::CFactory() : m_uiCount(0) {}
CFactory::~CFactory() {}
CWidget* CFactory::GetWidget()
{
return new CWidget(*this);
}
CWidget::CWidget(CFactory& parent) : m_parent(parent)
{
++m_parent.m_uiCount;
std::cout << "Widget spawning. There are now " << m_parent.m_uiCount << " Widgets instanciated." << std::endl;
}
CWidget::~CWidget()
{
--m_parent.m_uiCount;
std::cout << "Widget dieing. There are now " << m_parent.m_uiCount << " Widgets instanciated." << std::endl;
}
int main()
{
CFactory factory;
CWidget* pWidget1 = factory.GetWidget();
CWidget* pWidget2 = factory.GetWidget();
delete pWidget1;
CWidget* pWidget3 = factory.GetWidget();
delete pWidget3;
delete pWidget2;
}
|
Write the same code in C++ as shown below in PHP. | $myObj = new Object();
$serializedObj = serialize($myObj);
| #include <string>
#include <fstream>
#include <boost/serialization/string.hpp>
#include <boost/archive/text_oarchive.hpp>
#include <boost/archive/text_iarchive.hpp>
#include <boost/serialization/base_object.hpp>
#include <iostream>
class Employee {
public :
Employee( ) { }
Employee ( const std::string &dep , const std::string &namen )
: department( dep ) , name( namen ) {
my_id = count++ ;
}
std::string getName( ) const {
return name ;
}
std::string getDepartment( ) const {
return department ;
}
int getId( ) const {
return my_id ;
}
void setDepartment( const std::string &dep ) {
department.assign( dep ) ;
}
virtual void print( ) {
std::cout << "Name: " << name << '\n' ;
std::cout << "Id: " << my_id << '\n' ;
std::cout << "Department: " << department << '\n' ;
}
virtual ~Employee( ) { }
static int count ;
private :
std::string name ;
std::string department ;
int my_id ;
friend class boost::serialization::access ;
template <class Archive>
void serialize( Archive &ar, const unsigned int version ) {
ar & my_id ;
ar & name ;
ar & department ;
}
} ;
class Worker : public Employee {
public :
Worker( const std::string & dep, const std::string &namen ,
double hourlyPay ) : Employee( dep , namen ) , salary( hourlyPay) { }
Worker( ) { }
double getSalary( ) {
return salary ;
}
void setSalary( double pay ) {
if ( pay > 0 )
salary = pay ;
}
virtual void print( ) {
Employee::print( ) ;
std::cout << "wage per hour: " << salary << '\n' ;
}
private :
double salary ;
friend class boost::serialization::access ;
template <class Archive>
void serialize ( Archive & ar, const unsigned int version ) {
ar & boost::serialization::base_object<Employee>( *this ) ;
ar & salary ;
}
} ;
int Employee::count = 0 ;
int main( ) {
std::ofstream storefile( "/home/ulrich/objects.dat" ) ;
const Employee emp1( "maintenance" , "Fritz Schmalstieg" ) ;
const Employee emp2( "maintenance" , "John Berry" ) ;
const Employee emp3( "repair" , "Pawel Lichatschow" ) ;
const Employee emp4( "IT" , "Marian Niculescu" ) ;
const Worker worker1( "maintenance" , "Laurent Le Chef" , 20 ) ;
const Worker worker2 ( "IT" , "Srinivan Taraman" , 55.35 ) ;
boost::archive::text_oarchive oar ( storefile ) ;
oar << emp1 ;
oar << emp2 ;
oar << emp3 ;
oar << emp4 ;
oar << worker1 ;
oar << worker2 ;
storefile.close( ) ;
std::cout << "Reading out the data again\n" ;
Employee e1 , e2 , e3 , e4 ;
Worker w1, w2 ;
std::ifstream sourcefile( "/home/ulrich/objects.dat" ) ;
boost::archive::text_iarchive iar( sourcefile ) ;
iar >> e1 >> e2 >> e3 >> e4 ;
iar >> w1 >> w2 ;
sourcefile.close( ) ;
std::cout << "And here are the data after deserialization!( abridged):\n" ;
e1.print( ) ;
e3.print( ) ;
w2.print( ) ;
return 0 ;
}
|
Produce a functionally identical C++ code for the snippet given in PHP. | function isLongYear($year) {
return (53 == strftime('%V', gmmktime(0,0,0,12,28,$year)));
}
for ($y=1995; $y<=2045; ++$y) {
if (isLongYear($y)) {
printf("%s\n", $y);
}
}
| #include <stdio.h>
#include <math.h>
int p(int year) {
return (int)((double)year + floor(year/4) - floor(year/100) + floor(year/400)) % 7;
}
int is_long_year(int year) {
return p(year) == 4 || p(year - 1) == 3;
}
void print_long_years(int from, int to) {
for (int year = from; year <= to; ++year) {
if (is_long_year(year)) {
printf("%d ", year);
}
}
}
int main() {
printf("Long (53 week) years between 1800 and 2100\n\n");
print_long_years(1800, 2100);
printf("\n");
return 0;
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | <?
$base = array("name" => "Rocket Skates", "price" => 12.75, "color" => "yellow");
$update = array("price" => 15.25, "color" => "red", "year" => 1974);
$result = $update + $base; // Notice that the order is reversed
print_r($result);
?>
| #include <iostream>
#include <string>
#include <map>
template<typename map_type>
map_type merge(const map_type& original, const map_type& update) {
map_type result(update);
result.insert(original.begin(), original.end());
return result;
}
int main() {
typedef std::map<std::string, std::string> map;
map original{
{"name", "Rocket Skates"},
{"price", "12.75"},
{"color", "yellow"}
};
map update{
{"price", "15.25"},
{"color", "red"},
{"year", "1974"}
};
map merged(merge(original, update));
for (auto&& i : merged)
std::cout << "key: " << i.first << ", value: " << i.second << '\n';
return 0;
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | <?
$base = array("name" => "Rocket Skates", "price" => 12.75, "color" => "yellow");
$update = array("price" => 15.25, "color" => "red", "year" => 1974);
$result = $update + $base; // Notice that the order is reversed
print_r($result);
?>
| #include <iostream>
#include <string>
#include <map>
template<typename map_type>
map_type merge(const map_type& original, const map_type& update) {
map_type result(update);
result.insert(original.begin(), original.end());
return result;
}
int main() {
typedef std::map<std::string, std::string> map;
map original{
{"name", "Rocket Skates"},
{"price", "12.75"},
{"color", "yellow"}
};
map update{
{"price", "15.25"},
{"color", "red"},
{"year", "1974"}
};
map merged(merge(original, update));
for (auto&& i : merged)
std::cout << "key: " << i.first << ", value: " << i.second << '\n';
return 0;
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | <?php
function markovChainTextGenerator($text, $keySize, $maxWords) {
$token = array();
$position = 0;
$maxPosition = strlen($text);
while ($position < $maxPosition) {
if (preg_match('/^(\S+)/', substr($text, $position, 25), $matches)) {
$token[] = $matches[1];
$position += strlen($matches[1]);
}
elseif (preg_match('/^(\s+)/', substr($text, $position, 25), $matches)) {
$position += strlen($matches[1]);
}
else {
die(
'Unknown token found at position ' . $position . ' : ' .
substr($text, $position, 25) . '...' . PHP_EOL
);
}
}
$dictionary = array();
for ($i = 0 ; $i < count($token) - $keySize ; $i++) {
$prefix = '';
$separator = '';
for ($c = 0 ; $c < $keySize ; $c++) {
$prefix .= $separator . $token[$i + $c];
$separator = '.';
}
$dictionary[$prefix][] = $token[$i + $keySize];
}
$rand = rand(0, count($token) - $keySize);
$startToken = array();
for ($c = 0 ; $c < $keySize ; $c++) {
array_push($startToken, $token[$rand + $c]);
}
$text = implode(' ', $startToken);
$words = $keySize;
do {
$tokenKey = implode('.', $startToken);
$rand = rand(0, count($dictionary[$tokenKey]) - 1);
$newToken = $dictionary[$tokenKey][$rand];
$text .= ' ' . $newToken;
$words++;
array_shift($startToken);
array_push($startToken, $newToken);
} while($words < $maxWords);
return $text;
}
srand(5678);
$text = markovChainTextGenerator(
file_get_contents(__DIR__ . '/inc/alice_oz.txt'),
3,
308
);
echo wordwrap($text, 100, PHP_EOL) . PHP_EOL;
| #include <ctime>
#include <iostream>
#include <algorithm>
#include <fstream>
#include <string>
#include <vector>
#include <map>
class markov {
public:
void create( std::string& file, unsigned int keyLen, unsigned int words ) {
std::ifstream f( file.c_str(), std::ios_base::in );
fileBuffer = std::string( ( std::istreambuf_iterator<char>( f ) ), std::istreambuf_iterator<char>() );
f.close();
if( fileBuffer.length() < 1 ) return;
createDictionary( keyLen );
createText( words - keyLen );
}
private:
void createText( int w ) {
std::string key, first, second;
size_t next;
std::map<std::string, std::vector<std::string> >::iterator it = dictionary.begin();
std::advance( it, rand() % dictionary.size() );
key = ( *it ).first;
std::cout << key;
while( true ) {
std::vector<std::string> d = dictionary[key];
if( d.size() < 1 ) break;
second = d[rand() % d.size()];
if( second.length() < 1 ) break;
std::cout << " " << second;
if( --w < 0 ) break;
next = key.find_first_of( 32, 0 );
first = key.substr( next + 1 );
key = first + " " + second;
}
std::cout << "\n";
}
void createDictionary( unsigned int kl ) {
std::string w1, key;
size_t wc = 0, pos, next;
next = fileBuffer.find_first_not_of( 32, 0 );
if( next == std::string::npos ) return;
while( wc < kl ) {
pos = fileBuffer.find_first_of( ' ', next );
w1 = fileBuffer.substr( next, pos - next );
key += w1 + " ";
next = fileBuffer.find_first_not_of( 32, pos + 1 );
if( next == std::string::npos ) return;
wc++;
}
key = key.substr( 0, key.size() - 1 );
while( true ) {
next = fileBuffer.find_first_not_of( 32, pos + 1 );
if( next == std::string::npos ) return;
pos = fileBuffer.find_first_of( 32, next );
w1 = fileBuffer.substr( next, pos - next );
if( w1.size() < 1 ) break;
if( std::find( dictionary[key].begin(), dictionary[key].end(), w1 ) == dictionary[key].end() )
dictionary[key].push_back( w1 );
key = key.substr( key.find_first_of( 32 ) + 1 ) + " " + w1;
}
}
std::string fileBuffer;
std::map<std::string, std::vector<std::string> > dictionary;
};
int main( int argc, char* argv[] ) {
srand( unsigned( time( 0 ) ) );
markov m;
m.create( std::string( "alice_oz.txt" ), 3, 200 );
return 0;
}
|
Translate the given PHP code snippet into C++ without altering its behavior. | <?php
function dijkstra($graph_array, $source, $target) {
$vertices = array();
$neighbours = array();
foreach ($graph_array as $edge) {
array_push($vertices, $edge[0], $edge[1]);
$neighbours[$edge[0]][] = array("end" => $edge[1], "cost" => $edge[2]);
$neighbours[$edge[1]][] = array("end" => $edge[0], "cost" => $edge[2]);
}
$vertices = array_unique($vertices);
foreach ($vertices as $vertex) {
$dist[$vertex] = INF;
$previous[$vertex] = NULL;
}
$dist[$source] = 0;
$Q = $vertices;
while (count($Q) > 0) {
$min = INF;
foreach ($Q as $vertex){
if ($dist[$vertex] < $min) {
$min = $dist[$vertex];
$u = $vertex;
}
}
$Q = array_diff($Q, array($u));
if ($dist[$u] == INF or $u == $target) {
break;
}
if (isset($neighbours[$u])) {
foreach ($neighbours[$u] as $arr) {
$alt = $dist[$u] + $arr["cost"];
if ($alt < $dist[$arr["end"]]) {
$dist[$arr["end"]] = $alt;
$previous[$arr["end"]] = $u;
}
}
}
}
$path = array();
$u = $target;
while (isset($previous[$u])) {
array_unshift($path, $u);
$u = $previous[$u];
}
array_unshift($path, $u);
return $path;
}
$graph_array = array(
array("a", "b", 7),
array("a", "c", 9),
array("a", "f", 14),
array("b", "c", 10),
array("b", "d", 15),
array("c", "d", 11),
array("c", "f", 2),
array("d", "e", 6),
array("e", "f", 9)
);
$path = dijkstra($graph_array, "a", "e");
echo "path is: ".implode(", ", $path)."\n";
| #include <iostream>
#include <vector>
#include <string>
#include <list>
#include <limits>
#include <set>
#include <utility>
#include <algorithm>
#include <iterator>
typedef int vertex_t;
typedef double weight_t;
const weight_t max_weight = std::numeric_limits<double>::infinity();
struct neighbor {
vertex_t target;
weight_t weight;
neighbor(vertex_t arg_target, weight_t arg_weight)
: target(arg_target), weight(arg_weight) { }
};
typedef std::vector<std::vector<neighbor> > adjacency_list_t;
void DijkstraComputePaths(vertex_t source,
const adjacency_list_t &adjacency_list,
std::vector<weight_t> &min_distance,
std::vector<vertex_t> &previous)
{
int n = adjacency_list.size();
min_distance.clear();
min_distance.resize(n, max_weight);
min_distance[source] = 0;
previous.clear();
previous.resize(n, -1);
std::set<std::pair<weight_t, vertex_t> > vertex_queue;
vertex_queue.insert(std::make_pair(min_distance[source], source));
while (!vertex_queue.empty())
{
weight_t dist = vertex_queue.begin()->first;
vertex_t u = vertex_queue.begin()->second;
vertex_queue.erase(vertex_queue.begin());
const std::vector<neighbor> &neighbors = adjacency_list[u];
for (std::vector<neighbor>::const_iterator neighbor_iter = neighbors.begin();
neighbor_iter != neighbors.end();
neighbor_iter++)
{
vertex_t v = neighbor_iter->target;
weight_t weight = neighbor_iter->weight;
weight_t distance_through_u = dist + weight;
if (distance_through_u < min_distance[v]) {
vertex_queue.erase(std::make_pair(min_distance[v], v));
min_distance[v] = distance_through_u;
previous[v] = u;
vertex_queue.insert(std::make_pair(min_distance[v], v));
}
}
}
}
std::list<vertex_t> DijkstraGetShortestPathTo(
vertex_t vertex, const std::vector<vertex_t> &previous)
{
std::list<vertex_t> path;
for ( ; vertex != -1; vertex = previous[vertex])
path.push_front(vertex);
return path;
}
int main()
{
adjacency_list_t adjacency_list(6);
adjacency_list[0].push_back(neighbor(1, 7));
adjacency_list[0].push_back(neighbor(2, 9));
adjacency_list[0].push_back(neighbor(5, 14));
adjacency_list[1].push_back(neighbor(0, 7));
adjacency_list[1].push_back(neighbor(2, 10));
adjacency_list[1].push_back(neighbor(3, 15));
adjacency_list[2].push_back(neighbor(0, 9));
adjacency_list[2].push_back(neighbor(1, 10));
adjacency_list[2].push_back(neighbor(3, 11));
adjacency_list[2].push_back(neighbor(5, 2));
adjacency_list[3].push_back(neighbor(1, 15));
adjacency_list[3].push_back(neighbor(2, 11));
adjacency_list[3].push_back(neighbor(4, 6));
adjacency_list[4].push_back(neighbor(3, 6));
adjacency_list[4].push_back(neighbor(5, 9));
adjacency_list[5].push_back(neighbor(0, 14));
adjacency_list[5].push_back(neighbor(2, 2));
adjacency_list[5].push_back(neighbor(4, 9));
std::vector<weight_t> min_distance;
std::vector<vertex_t> previous;
DijkstraComputePaths(0, adjacency_list, min_distance, previous);
std::cout << "Distance from 0 to 4: " << min_distance[4] << std::endl;
std::list<vertex_t> path = DijkstraGetShortestPathTo(4, previous);
std::cout << "Path : ";
std::copy(path.begin(), path.end(), std::ostream_iterator<vertex_t>(std::cout, " "));
std::cout << std::endl;
return 0;
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | <?php
$pairs = array( "hello" => 1,
"world" => 2,
"!" => 3 );
foreach($pairs as $k => $v) {
echo "(k,v) = ($k, $v)\n";
}
foreach(array_keys($pairs) as $key) {
echo "key = $key, value = $pairs[$key]\n";
}
foreach($pairs as $value) {
echo "values = $value\n";
}
?>
| #include <iostream>
#include <map>
#include <string>
int main() {
std::map<std::string, int> dict {
{"One", 1},
{"Two", 2},
{"Three", 7}
};
dict["Three"] = 3;
std::cout << "One: " << dict["One"] << std::endl;
std::cout << "Key/Value pairs: " << std::endl;
for(auto& kv: dict) {
std::cout << " " << kv.first << ": " << kv.second << std::endl;
}
return 0;
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the PHP version. | $address = <<<END
1, High Street,
$town_name,
West Midlands.
WM4 5HD.
END;
| #include <iostream>
int main()
{
std::cout <<
R"EOF( A raw string begins with R, then a double-quote ("), then an optional
identifier (here I've used "EOF"), then an opening parenthesis ('('). If you
use an identifier, it cannot be longer than 16 characters, and it cannot
contain a space, either opening or closing parentheses, a backslash, a tab, a
vertical tab, a form feed, or a newline.
It ends with a closing parenthesis (')'), the identifer (if you used one),
and a double-quote.
All characters are okay in a raw string, no escape sequences are necessary
or recognized, and all whitespace is preserved.
)EOF";
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | $address = <<<END
1, High Street,
$town_name,
West Midlands.
WM4 5HD.
END;
| #include <iostream>
int main()
{
std::cout <<
R"EOF( A raw string begins with R, then a double-quote ("), then an optional
identifier (here I've used "EOF"), then an opening parenthesis ('('). If you
use an identifier, it cannot be longer than 16 characters, and it cannot
contain a space, either opening or closing parentheses, a backslash, a tab, a
vertical tab, a form feed, or a newline.
It ends with a closing parenthesis (')'), the identifer (if you used one),
and a double-quote.
All characters are okay in a raw string, no escape sequences are necessary
or recognized, and all whitespace is preserved.
)EOF";
}
|
Translate the given PHP code snippet into C++ without altering its behavior. | <?php
function hashJoin($table1, $index1, $table2, $index2) {
foreach ($table1 as $s)
$h[$s[$index1]][] = $s;
foreach ($table2 as $r)
foreach ($h[$r[$index2]] as $s)
$result[] = array($s, $r);
return $result;
}
$table1 = array(array(27, "Jonah"),
array(18, "Alan"),
array(28, "Glory"),
array(18, "Popeye"),
array(28, "Alan"));
$table2 = array(array("Jonah", "Whales"),
array("Jonah", "Spiders"),
array("Alan", "Ghosts"),
array("Alan", "Zombies"),
array("Glory", "Buffy"),
array("Bob", "foo"));
foreach (hashJoin($table1, 1, $table2, 0) as $row)
print_r($row);
?>
| #include <iostream>
#include <string>
#include <vector>
#include <unordered_map>
using tab_t = std::vector<std::vector<std::string>>;
tab_t tab1 {
{"27", "Jonah"}
, {"18", "Alan"}
, {"28", "Glory"}
, {"18", "Popeye"}
, {"28", "Alan"}
};
tab_t tab2 {
{"Jonah", "Whales"}
, {"Jonah", "Spiders"}
, {"Alan", "Ghosts"}
, {"Alan", "Zombies"}
, {"Glory", "Buffy"}
};
std::ostream& operator<<(std::ostream& o, const tab_t& t) {
for(size_t i = 0; i < t.size(); ++i) {
o << i << ":";
for(const auto& e : t[i])
o << '\t' << e;
o << std::endl;
}
return o;
}
tab_t Join(const tab_t& a, size_t columna, const tab_t& b, size_t columnb) {
std::unordered_multimap<std::string, size_t> hashmap;
for(size_t i = 0; i < a.size(); ++i) {
hashmap.insert(std::make_pair(a[i][columna], i));
}
tab_t result;
for(size_t i = 0; i < b.size(); ++i) {
auto range = hashmap.equal_range(b[i][columnb]);
for(auto it = range.first; it != range.second; ++it) {
tab_t::value_type row;
row.insert(row.end() , a[it->second].begin() , a[it->second].end());
row.insert(row.end() , b[i].begin() , b[i].end());
result.push_back(std::move(row));
}
}
return result;
}
int main(int argc, char const *argv[])
{
using namespace std;
int ret = 0;
cout << "Table A: " << endl << tab1 << endl;
cout << "Table B: " << endl << tab2 << endl;
auto tab3 = Join(tab1, 1, tab2, 0);
cout << "Joined tables: " << endl << tab3 << endl;
return ret;
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | <?php
class Example {
function foo() {
echo "this is foo\n";
}
function bar() {
echo "this is bar\n";
}
function __call($name, $args) {
echo "tried to handle unknown method $name\n";
if ($args)
echo "it had arguments: ", implode(', ', $args), "\n";
}
}
$example = new Example();
$example->foo(); // prints "this is foo"
$example->bar(); // prints "this is bar"
$example->grill(); // prints "tried to handle unknown method grill"
$example->ding("dong"); // prints "tried to handle unknown method ding"
?>
| class animal {
public:
virtual void bark()
{
throw "implement me: do not know how to bark";
}
};
class elephant : public animal
{
};
int main()
{
elephant e;
e.bark();
}
|
Port the provided PHP code into C++ while preserving the original functionality. | class Animal {
}
class Dog extends Animal {
}
class Cat extends Animal {
}
class Lab extends Dog {
}
class Collie extends Dog {
}
| class Animal
{
};
class Dog: public Animal
{
};
class Lab: public Dog
{
};
class Collie: public Dog
{
};
class Cat: public Animal
{
};
|
Write the same algorithm in C++ as shown in this PHP implementation. | $array = array();
$array = []; // Simpler form of array initialization
$array['foo'] = 'bar';
$array['bar'] = 'foo';
echo($array['foo']); // bar
echo($array['moo']); // Undefined index
$array2 = array('fruit' => 'apple',
'price' => 12.96,
'colour' => 'green');
$array2 = ['fruit' => 'apple',
'price' => 12.96,
'colour' => 'green'];
echo(isset($array['foo'])); // Faster, but returns false if the value of the element is set to null
echo(array_key_exists('foo', $array)); // Slower, but returns true if the value of the element is null
| #include <map>
|
Rewrite the snippet below in C++ so it works the same as the original PHP code. | class Point
{
protected $_x;
protected $_y;
public function __construct()
{
switch( func_num_args() )
{
case 1:
$point = func_get_arg( 0 );
$this->setFromPoint( $point );
break;
case 2:
$x = func_get_arg( 0 );
$y = func_get_arg( 1 );
$this->setX( $x );
$this->setY( $y );
break;
default:
throw new InvalidArgumentException( 'expecting one (Point) argument or two (numeric x and y) arguments' );
}
}
public function setFromPoint( Point $point )
{
$this->setX( $point->getX() );
$this->setY( $point->getY() );
}
public function getX()
{
return $this->_x;
}
public function setX( $x )
{
if( !is_numeric( $x ) )
{
throw new InvalidArgumentException( 'expecting numeric value' );
}
$this->_x = (float) $x;
}
public function getY()
{
return $this->_y;
}
public function setY( $y )
{
if( !is_numeric( $y ) )
{
throw new InvalidArgumentException( 'expecting numeric value' );
}
$this->_y = (float) $y;
}
public function output()
{
echo $this->__toString();
}
public function __toString()
{
return 'Point [x:' . $this->_x . ',y:' . $this->_y . ']';
}
}
| #include <cstdio>
#include <cstdlib>
class Point {
protected:
int x, y;
public:
Point(int x0 = 0, int y0 = 0) : x(x0), y(y0) {}
Point(const Point &p) : x(p.x), y(p.y) {}
virtual ~Point() {}
const Point& operator=(const Point &p) {
if (this != &p) {
x = p.x;
y = p.y;
}
return *this;
}
int getX() { return x; }
int getY() { return y; }
void setX(int x0) { x = x0; }
void setY(int y0) { y = y0; }
virtual void print() { printf("Point\n"); }
};
class Circle: public Point {
private:
int r;
public:
Circle(Point p, int r0 = 0) : Point(p), r(r0) {}
Circle(int x0 = 0, int y0 = 0, int r0 = 0) : Point(x0, y0), r(r0) {}
virtual ~Circle() {}
const Circle& operator=(const Circle &c) {
if (this != &c) {
x = c.x;
y = c.y;
r = c.r;
}
return *this;
}
int getR() { return r; }
void setR(int r0) { r = r0; }
virtual void print() { printf("Circle\n"); }
};
int main() {
Point *p = new Point();
Point *c = new Circle();
p->print();
c->print();
delete p;
delete c;
return EXIT_SUCCESS;
}
|
Translate the given PHP code snippet into C++ without altering its behavior. | <?php
# NULL typed variable
$null = NULL; var_dump($null); // output: null
# defining a boolean
$boolean = true; var_dump($boolean); // output: boolean true
$boolean = false; var_dump($boolean); // output: boolean false
# bool and boolean is the same
$boolean = (bool)1; var_dump($boolean); // output: boolean true
$boolean = (boolean)1; var_dump($boolean); // output: boolean true
$boolean = (bool)0; var_dump($boolean); // output: boolean false
$boolean = (boolean)0; var_dump($boolean); // output: boolean false
# defining an integer
$int = 0; var_dump($int); // output: int 0
# defining a float,
$float = 0.01; var_dump($float); // output: float 0.01
# which is also identical to "real" and "double"
var_dump((double)$float); // output: float 0.01
var_dump((real)$float); // output: float 0.01
# casting back to int (auto flooring the value)
var_dump((int)$float); // output: int 0
var_dump((int)($float+1)); // output: int 1
var_dump((int)($float+1.9)); // output: int 1
# defining a string
$string = 'string';
var_dump($string); // output: string 'string' (length=6)
# referencing a variable (there are no pointers in PHP).
$another_string = &$string;
var_dump($another_string);
$string = "I'm the same string!";
var_dump($another_string);
# "deleting" a variable from memory
unset($another_string);
$string = 'string';
$parsed_string = "This is a $string";
var_dump($parsed_string);
$parsed_string .= " with another {$string}";
var_dump($parsed_string);
# with string parsing
$heredoc = <<<HEREDOC
This is the content of \$string: {$string}
HEREDOC;
var_dump($heredoc);
# without string parsing (notice the single quotes surrounding NOWDOC)
$nowdoc = <<<'NOWDOC'
This is the content of \$string: {$string}
NOWDOC;
var_dump($nowdoc);
# as of PHP5, defining an object typed stdClass => standard class
$stdObject = new stdClass(); var_dump($stdObject);
# defining an object typed Foo
class Foo {}
$foo = new Foo(); var_dump($foo);
# defining an empty array
$array = array(); var_dump($array);
$assoc = array(
0 => $int,
'integer' => $int,
1 => $float,
'float' => $float,
2 => $string,
'string' => $string,
3 => NULL, // <=== key 3 is NULL
3, // <=== this is a value, not a key (key is 4)
5 => $stdObject,
'Foo' => $foo,
);
var_dump($assoc);
function a_function()
{
# not reachable
var_dump(isset($foo)); // output: boolean false
global $foo;
# "global" (reachable) inside a_function()'s scope
var_dump(isset($foo)); // output: boolean true
}
a_function();
| int a;
|
Convert this PHP snippet to C++ and keep its semantics consistent. | class WriterMonad {
private $value;
private $logs;
private function __construct($value, array $logs = []) {
$this->value = $value;
$this->logs = $logs;
}
public static function unit($value, string $log): WriterMonad {
return new WriterMonad($value, ["{$log}: {$value}"]);
}
public function bind(callable $mapper): WriterMonad {
$mapped = $mapper($this->value);
assert($mapped instanceof WriterMonad);
return new WriterMonad($mapped->value, [...$this->logs, ...$mapped->logs]);
}
public function value() {
return $this->value;
}
public function logs(): array {
return $this->logs;
}
}
$root = fn(float $i): float => sqrt($i);
$addOne = fn(float $i): float => $i + 1;
$half = fn(float $i): float => $i / 2;
$m = fn (callable $callback, string $log): callable => fn ($value): WriterMonad => WriterMonad::unit($callback($value), $log);
$result = WriterMonad::unit(5, "Initial value")
->bind($m($root, "square root"))
->bind($m($addOne, "add one"))
->bind($m($half, "half"));
print "The Golden Ratio is: {$result->value()}\n";
print join("\n", $result->logs());
| #include <cmath>
#include <iostream>
#include <string>
using namespace std;
struct LoggingMonad
{
double Value;
string Log;
};
auto operator>>(const LoggingMonad& monad, auto f)
{
auto result = f(monad.Value);
return LoggingMonad{result.Value, monad.Log + "\n" + result.Log};
}
auto Root = [](double x){ return sqrt(x); };
auto AddOne = [](double x){ return x + 1; };
auto Half = [](double x){ return x / 2.0; };
auto MakeWriter = [](auto f, string message)
{
return [=](double x){return LoggingMonad(f(x), message);};
};
auto writerRoot = MakeWriter(Root, "Taking square root");
auto writerAddOne = MakeWriter(AddOne, "Adding 1");
auto writerHalf = MakeWriter(Half, "Dividing by 2");
int main()
{
auto result = LoggingMonad{5, "Starting with 5"} >> writerRoot >> writerAddOne >> writerHalf;
cout << result.Log << "\nResult: " << result.Value;
}
|
Transform the following Java implementation into Python, maintaining the same output and logic. | import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStream;
import org.apache.commons.net.ftp.FTP;
import org.apache.commons.net.ftp.FTPClient;
import org.apache.commons.net.ftp.FTPFile;
import org.apache.commons.net.ftp.FTPReply;
public class FTPconn {
public static void main(String[] args) throws IOException {
String server = "ftp.hq.nasa.gov";
int port = 21;
String user = "anonymous";
String pass = "ftptest@example.com";
OutputStream output = null;
FTPClient ftpClient = new FTPClient();
try {
ftpClient.connect(server, port);
serverReply(ftpClient);
int replyCode = ftpClient.getReplyCode();
if (!FTPReply.isPositiveCompletion(replyCode)) {
System.out.println("Failure. Server reply code: " + replyCode);
return;
}
serverReply(ftpClient);
if (!ftpClient.login(user, pass)) {
System.out.println("Could not login to the server.");
return;
}
String dir = "pub/issoutreach/Living in Space Stories (MP3 Files)/";
if (!ftpClient.changeWorkingDirectory(dir)) {
System.out.println("Change directory failed.");
return;
}
ftpClient.enterLocalPassiveMode();
for (FTPFile file : ftpClient.listFiles())
System.out.println(file);
String filename = "Can People go to Mars.mp3";
output = new FileOutputStream(filename);
ftpClient.setFileType(FTP.BINARY_FILE_TYPE);
if (!ftpClient.retrieveFile(filename, output)) {
System.out.println("Retrieving file failed");
return;
}
serverReply(ftpClient);
ftpClient.logout();
} finally {
if (output != null)
output.close();
}
}
private static void serverReply(FTPClient ftpClient) {
for (String reply : ftpClient.getReplyStrings()) {
System.out.println(reply);
}
}
}
| from ftplib import FTP
ftp = FTP('kernel.org')
ftp.login()
ftp.cwd('/pub/linux/kernel')
ftp.set_pasv(True)
print ftp.retrlines('LIST')
print ftp.retrbinary('RETR README', open('README', 'wb').write)
ftp.quit()
|
Transform the following Java implementation into Python, maintaining the same output and logic. | import java.util.*;
public class Game24 {
static Random r = new Random();
public static void main(String[] args) {
int[] digits = randomDigits();
Scanner in = new Scanner(System.in);
System.out.print("Make 24 using these digits: ");
System.out.println(Arrays.toString(digits));
System.out.print("> ");
Stack<Float> s = new Stack<>();
long total = 0;
for (char c : in.nextLine().toCharArray()) {
if ('0' <= c && c <= '9') {
int d = c - '0';
total += (1 << (d * 5));
s.push((float) d);
} else if ("+/-*".indexOf(c) != -1) {
s.push(applyOperator(s.pop(), s.pop(), c));
}
}
if (tallyDigits(digits) != total)
System.out.print("Not the same digits. ");
else if (Math.abs(24 - s.peek()) < 0.001F)
System.out.println("Correct!");
else
System.out.print("Not correct.");
}
static float applyOperator(float a, float b, char c) {
switch (c) {
case '+':
return a + b;
case '-':
return b - a;
case '*':
return a * b;
case '/':
return b / a;
default:
return Float.NaN;
}
}
static long tallyDigits(int[] a) {
long total = 0;
for (int i = 0; i < 4; i++)
total += (1 << (a[i] * 5));
return total;
}
static int[] randomDigits() {
int[] result = new int[4];
for (int i = 0; i < 4; i++)
result[i] = r.nextInt(9) + 1;
return result;
}
}
|
from __future__ import division, print_function
import random, ast, re
import sys
if sys.version_info[0] < 3: input = raw_input
def choose4():
'four random digits >0 as characters'
return [str(random.randint(1,9)) for i in range(4)]
def welcome(digits):
print (__doc__)
print ("Your four digits: " + ' '.join(digits))
def check(answer, digits):
allowed = set('() +-*/\t'+''.join(digits))
ok = all(ch in allowed for ch in answer) and \
all(digits.count(dig) == answer.count(dig) for dig in set(digits)) \
and not re.search('\d\d', answer)
if ok:
try:
ast.parse(answer)
except:
ok = False
return ok
def main():
digits = choose4()
welcome(digits)
trial = 0
answer = ''
chk = ans = False
while not (chk and ans == 24):
trial +=1
answer = input("Expression %i: " % trial)
chk = check(answer, digits)
if answer.lower() == 'q':
break
if answer == '!':
digits = choose4()
print ("New digits:", ' '.join(digits))
continue
if not chk:
print ("The input '%s' was wonky!" % answer)
else:
ans = eval(answer)
print (" = ", ans)
if ans == 24:
print ("Thats right!")
print ("Thank you and goodbye")
if __name__ == '__main__': main()
|
Port the following code from Java to Python with equivalent syntax and logic. | import java.util.*;
public class Game24 {
static Random r = new Random();
public static void main(String[] args) {
int[] digits = randomDigits();
Scanner in = new Scanner(System.in);
System.out.print("Make 24 using these digits: ");
System.out.println(Arrays.toString(digits));
System.out.print("> ");
Stack<Float> s = new Stack<>();
long total = 0;
for (char c : in.nextLine().toCharArray()) {
if ('0' <= c && c <= '9') {
int d = c - '0';
total += (1 << (d * 5));
s.push((float) d);
} else if ("+/-*".indexOf(c) != -1) {
s.push(applyOperator(s.pop(), s.pop(), c));
}
}
if (tallyDigits(digits) != total)
System.out.print("Not the same digits. ");
else if (Math.abs(24 - s.peek()) < 0.001F)
System.out.println("Correct!");
else
System.out.print("Not correct.");
}
static float applyOperator(float a, float b, char c) {
switch (c) {
case '+':
return a + b;
case '-':
return b - a;
case '*':
return a * b;
case '/':
return b / a;
default:
return Float.NaN;
}
}
static long tallyDigits(int[] a) {
long total = 0;
for (int i = 0; i < 4; i++)
total += (1 << (a[i] * 5));
return total;
}
static int[] randomDigits() {
int[] result = new int[4];
for (int i = 0; i < 4; i++)
result[i] = r.nextInt(9) + 1;
return result;
}
}
|
from __future__ import division, print_function
import random, ast, re
import sys
if sys.version_info[0] < 3: input = raw_input
def choose4():
'four random digits >0 as characters'
return [str(random.randint(1,9)) for i in range(4)]
def welcome(digits):
print (__doc__)
print ("Your four digits: " + ' '.join(digits))
def check(answer, digits):
allowed = set('() +-*/\t'+''.join(digits))
ok = all(ch in allowed for ch in answer) and \
all(digits.count(dig) == answer.count(dig) for dig in set(digits)) \
and not re.search('\d\d', answer)
if ok:
try:
ast.parse(answer)
except:
ok = False
return ok
def main():
digits = choose4()
welcome(digits)
trial = 0
answer = ''
chk = ans = False
while not (chk and ans == 24):
trial +=1
answer = input("Expression %i: " % trial)
chk = check(answer, digits)
if answer.lower() == 'q':
break
if answer == '!':
digits = choose4()
print ("New digits:", ' '.join(digits))
continue
if not chk:
print ("The input '%s' was wonky!" % answer)
else:
ans = eval(answer)
print (" = ", ans)
if ans == 24:
print ("Thats right!")
print ("Thank you and goodbye")
if __name__ == '__main__': main()
|
Transform the following Java implementation into Python, maintaining the same output and logic. | for(int i = 1;i <= 10; i++){
System.out.print(i);
if(i % 5 == 0){
System.out.println();
continue;
}
System.out.print(", ");
}
| for i in range(1, 11):
if i % 5 == 0:
print(i)
continue
print(i, end=', ')
|
Ensure the translated Python code behaves exactly like the original Java snippet. | import java.awt.Color;
import java.awt.Graphics;
import javax.swing.JFrame;
public class ColorFrame extends JFrame {
public ColorFrame(int width, int height) {
this.setDefaultCloseOperation(EXIT_ON_CLOSE);
this.setSize(width, height);
this.setVisible(true);
}
@Override
public void paint(Graphics g) {
Color[] colors = { Color.black, Color.red, Color.green, Color.blue,
Color.pink, Color.CYAN, Color.yellow, Color.white };
for (int i = 0; i < colors.length; i++) {
g.setColor(colors[i]);
g.fillRect(this.getWidth() / colors.length * i, 0, this.getWidth()
/ colors.length, this.getHeight());
}
}
public static void main(String args[]) {
new ColorFrame(200, 200);
}
}
|
from livewires import *
horiz=640; vert=480
begin_graphics(width=horiz,height=vert,title="v_stripes",background=Colour.black)
NameColors=["black","red","green","dark_blue","purple","blue","yellow","white"]
stepik=horiz/len(NameColors)
for index,each in enumerate(NameColors):
ExcStrng="set_colour(Colour."+each+")"
exec ExcStrng
box(index*stepik,0,(index+1)*stepik,vert,filled=1)
while keys_pressed() != ['x']:
pass
end_graphics()
|
Translate the given Java code snippet into Python without altering its behavior. | import java.awt.Color;
import java.awt.Graphics;
import javax.swing.JFrame;
public class ColorFrame extends JFrame {
public ColorFrame(int width, int height) {
this.setDefaultCloseOperation(EXIT_ON_CLOSE);
this.setSize(width, height);
this.setVisible(true);
}
@Override
public void paint(Graphics g) {
Color[] colors = { Color.black, Color.red, Color.green, Color.blue,
Color.pink, Color.CYAN, Color.yellow, Color.white };
for (int i = 0; i < colors.length; i++) {
g.setColor(colors[i]);
g.fillRect(this.getWidth() / colors.length * i, 0, this.getWidth()
/ colors.length, this.getHeight());
}
}
public static void main(String args[]) {
new ColorFrame(200, 200);
}
}
|
from livewires import *
horiz=640; vert=480
begin_graphics(width=horiz,height=vert,title="v_stripes",background=Colour.black)
NameColors=["black","red","green","dark_blue","purple","blue","yellow","white"]
stepik=horiz/len(NameColors)
for index,each in enumerate(NameColors):
ExcStrng="set_colour(Colour."+each+")"
exec ExcStrng
box(index*stepik,0,(index+1)*stepik,vert,filled=1)
while keys_pressed() != ['x']:
pass
end_graphics()
|
Change the following Java code into Python without altering its purpose. | import static java.util.Arrays.stream;
import java.util.Locale;
import static java.util.stream.IntStream.range;
public class Test {
static double dotProduct(double[] a, double[] b) {
return range(0, a.length).mapToDouble(i -> a[i] * b[i]).sum();
}
static double[][] matrixMul(double[][] A, double[][] B) {
double[][] result = new double[A.length][B[0].length];
double[] aux = new double[B.length];
for (int j = 0; j < B[0].length; j++) {
for (int k = 0; k < B.length; k++)
aux[k] = B[k][j];
for (int i = 0; i < A.length; i++)
result[i][j] = dotProduct(A[i], aux);
}
return result;
}
static double[][] pivotize(double[][] m) {
int n = m.length;
double[][] id = range(0, n).mapToObj(j -> range(0, n)
.mapToDouble(i -> i == j ? 1 : 0).toArray())
.toArray(double[][]::new);
for (int i = 0; i < n; i++) {
double maxm = m[i][i];
int row = i;
for (int j = i; j < n; j++)
if (m[j][i] > maxm) {
maxm = m[j][i];
row = j;
}
if (i != row) {
double[] tmp = id[i];
id[i] = id[row];
id[row] = tmp;
}
}
return id;
}
static double[][][] lu(double[][] A) {
int n = A.length;
double[][] L = new double[n][n];
double[][] U = new double[n][n];
double[][] P = pivotize(A);
double[][] A2 = matrixMul(P, A);
for (int j = 0; j < n; j++) {
L[j][j] = 1;
for (int i = 0; i < j + 1; i++) {
double s1 = 0;
for (int k = 0; k < i; k++)
s1 += U[k][j] * L[i][k];
U[i][j] = A2[i][j] - s1;
}
for (int i = j; i < n; i++) {
double s2 = 0;
for (int k = 0; k < j; k++)
s2 += U[k][j] * L[i][k];
L[i][j] = (A2[i][j] - s2) / U[j][j];
}
}
return new double[][][]{L, U, P};
}
static void print(double[][] m) {
stream(m).forEach(a -> {
stream(a).forEach(n -> System.out.printf(Locale.US, "%5.1f ", n));
System.out.println();
});
System.out.println();
}
public static void main(String[] args) {
double[][] a = {{1.0, 3, 5}, {2.0, 4, 7}, {1.0, 1, 0}};
double[][] b = {{11.0, 9, 24, 2}, {1.0, 5, 2, 6}, {3.0, 17, 18, 1},
{2.0, 5, 7, 1}};
for (double[][] m : lu(a))
print(m);
System.out.println();
for (double[][] m : lu(b))
print(m);
}
}
| from pprint import pprint
def matrixMul(A, B):
TB = zip(*B)
return [[sum(ea*eb for ea,eb in zip(a,b)) for b in TB] for a in A]
def pivotize(m):
n = len(m)
ID = [[float(i == j) for i in xrange(n)] for j in xrange(n)]
for j in xrange(n):
row = max(xrange(j, n), key=lambda i: abs(m[i][j]))
if j != row:
ID[j], ID[row] = ID[row], ID[j]
return ID
def lu(A):
n = len(A)
L = [[0.0] * n for i in xrange(n)]
U = [[0.0] * n for i in xrange(n)]
P = pivotize(A)
A2 = matrixMul(P, A)
for j in xrange(n):
L[j][j] = 1.0
for i in xrange(j+1):
s1 = sum(U[k][j] * L[i][k] for k in xrange(i))
U[i][j] = A2[i][j] - s1
for i in xrange(j, n):
s2 = sum(U[k][j] * L[i][k] for k in xrange(j))
L[i][j] = (A2[i][j] - s2) / U[j][j]
return (L, U, P)
a = [[1, 3, 5], [2, 4, 7], [1, 1, 0]]
for part in lu(a):
pprint(part, width=19)
print
print
b = [[11,9,24,2],[1,5,2,6],[3,17,18,1],[2,5,7,1]]
for part in lu(b):
pprint(part)
print
|
Rewrite this program in Python while keeping its functionality equivalent to the Java version. | public class FizzBuzz {
public static void main(String[] args) {
Sound[] sounds = {new Sound(3, "Fizz"), new Sound(5, "Buzz"), new Sound(7, "Baxx")};
for (int i = 1; i <= 20; i++) {
StringBuilder sb = new StringBuilder();
for (Sound sound : sounds) {
sb.append(sound.generate(i));
}
System.out.println(sb.length() == 0 ? i : sb.toString());
}
}
private static class Sound {
private final int trigger;
private final String onomatopoeia;
public Sound(int trigger, String onomatopoeia) {
this.trigger = trigger;
this.onomatopoeia = onomatopoeia;
}
public String generate(int i) {
return i % trigger == 0 ? onomatopoeia : "";
}
}
}
| def genfizzbuzz(factorwords, numbers):
factorwords.sort(key=lambda factor_and_word: factor_and_word[0])
lines = []
for num in numbers:
words = ''.join(word for factor, word in factorwords if (num % factor) == 0)
lines.append(words if words else str(num))
return '\n'.join(lines)
if __name__ == '__main__':
print(genfizzbuzz([(5, 'Buzz'), (3, 'Fizz'), (7, 'Baxx')], range(1, 21)))
|
Write the same algorithm in Python as shown in this Java implementation. | package linenbr7;
import java.io.*;
public class LineNbr7 {
public static void main(String[] args) throws Exception {
File f = new File(args[0]);
if (!f.isFile() || !f.canRead())
throw new IOException("can't read " + args[0]);
BufferedReader br = new BufferedReader(new FileReader(f));
try (LineNumberReader lnr = new LineNumberReader(br)) {
String line = null;
int lnum = 0;
while ((line = lnr.readLine()) != null
&& (lnum = lnr.getLineNumber()) < 7) {
}
switch (lnum) {
case 0:
System.out.println("the file has zero length");
break;
case 7:
boolean empty = "".equals(line);
System.out.println("line 7: " + (empty ? "empty" : line));
break;
default:
System.out.println("the file has only " + lnum + " line(s)");
}
}
}
}
| with open('xxx.txt') as f:
for i, line in enumerate(f):
if i == 6:
break
else:
print('Not 7 lines in file')
line = None
|
Convert this Java snippet to Python and keep its semantics consistent. | package linenbr7;
import java.io.*;
public class LineNbr7 {
public static void main(String[] args) throws Exception {
File f = new File(args[0]);
if (!f.isFile() || !f.canRead())
throw new IOException("can't read " + args[0]);
BufferedReader br = new BufferedReader(new FileReader(f));
try (LineNumberReader lnr = new LineNumberReader(br)) {
String line = null;
int lnum = 0;
while ((line = lnr.readLine()) != null
&& (lnum = lnr.getLineNumber()) < 7) {
}
switch (lnum) {
case 0:
System.out.println("the file has zero length");
break;
case 7:
boolean empty = "".equals(line);
System.out.println("line 7: " + (empty ? "empty" : line));
break;
default:
System.out.println("the file has only " + lnum + " line(s)");
}
}
}
}
| with open('xxx.txt') as f:
for i, line in enumerate(f):
if i == 6:
break
else:
print('Not 7 lines in file')
line = None
|
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