What is the easiest way to convert from int to equivalent string in C++? I am aware of two methods. Is there an easier way?
(1)
int a = 10;
char *intStr = itoa(a);
string str = string(intStr);
(2)
int a = 10;
stringstream ss;
ss << a;
string str = ss.str();
C++11 introduces std::stoi (and variants for each numeric type) and std::to_string, the counterparts of the C atoi and itoa but expressed in term of std::string.
#include <string>
std::string s = std::to_string(42);
is therefore the shortest way I can think of. You can even omit naming the type, using the auto keyword:
auto s = std::to_string(42);
Note: see [string.conversions] (21.5 in n3242)
g++ -std=c++11 someFile.cc
Nov 29, 2012 at 23:12
std in every compiler I know of except for one.
May 31, 2013 at 21:34
Error : No instance of overloaded function "std::to_string" matches the argument list i am using VS2010 c++
string s = to_string((_ULonglong)i);
C++20: std::format would be the idiomatic way now.
C++17:
Picking up a discussion with @v.oddou a couple of years later, C++17 has delivered a way to do the originally macro-based type-agnostic solution (preserved below) without going through macro ugliness.
// variadic template
template < typename... Args >
std::string sstr( Args &&... args )
{
std::ostringstream sstr;
// fold expression
( sstr << std::dec << ... << args );
return sstr.str();
}
Usage:
int i = 42;
std::string s = sstr( "i is: ", i );
puts( sstr( i ).c_str() );
Foo x( 42 );
throw std::runtime_error( sstr( "Foo is '", x, "', i is ", i ) );
C++98:
Since "converting ... to string" is a recurring problem, I always define the SSTR() macro in a central header of my C++ sources:
#include <sstream>
#define SSTR( x ) static_cast< std::ostringstream & >( \
( std::ostringstream() << std::dec << x ) ).str()
Usage is as easy as could be:
int i = 42;
std::string s = SSTR( "i is: " << i );
puts( SSTR( i ).c_str() );
Foo x( 42 );
throw std::runtime_error( SSTR( "Foo is '" << x << "', i is " << i ) );
The above is C++98 compatible (if you cannot use C++11 std::to_string), and does not need any third-party includes (if you cannot use Boost lexical_cast<>); both these other solutions have a better performance though.
dynamic_cast but I am using clang to compile so it complains about it. If I just omit the dynamic_cast then it compiles fine; what purpose does the dynamic_cast serve in this case? We are already creating an ostringstream, so why cast it?
ostringstream, we called operator<<() on it, which returns ostream & -- for which .str() is not defined. I really wonder how clang would make this work without the cast (or why it generates an error with it). This construct is published in many places, and I've used it for over a decade on many different compilers, including MSVC, GCC, and XLC, so I am rather surprised clang balks at it.
do { } while( 0 ) would not add anything. With 2. and 3. you probably got a point -- this could be done with a static cast, and perhaps one of you template wizards out there could come up with a "nicer" interface. But as I said, this is by no means an invention of myself. Look around, this macro (macro!) is quite ubiquitous. That's a case of POLA in itself. I might toy with this a bit to make it more "streamlined".
Starting with C++11, there's a std::to_string function overloaded for integer types, so you can use code like:
int a = 20;
std::string s = std::to_string(a);
// or: auto s = std::to_string(a);
The standard defines these as being equivalent to doing the conversion with sprintf (using the conversion specifier that matches the supplied type of object, such as %d for int), into a buffer of sufficient size, then creating an std::string of the contents of that buffer.
For older (pre-C++11) compilers, probably the most common easy way wraps essentially your second choice into a template that's usually named lexical_cast, such as the one in Boost, so your code looks like this:
int a = 10;
string s = lexical_cast<string>(a);
One nicety of this is that it supports other casts as well (e.g., in the opposite direction works just as well).
Also note that although Boost lexical_cast started out as just writing to a stringstream, then extracting back out of the stream, it now has a couple of additions. First of all, specializations for quite a few types have been added, so for many common types, it's substantially faster than using a stringstream. Second, it now checks the result, so (for example) if you convert from a string to an int, it can throw an exception if the string contains something that couldn't be converted to an int (e.g., 1234 would succeed, but 123abc would throw).
I usually use the following method:
#include <sstream>
template <typename T>
std::string NumberToString ( T Number )
{
std::ostringstream ss;
ss << Number;
return ss.str();
}
It is described in details here.
clear() a newly created ostringstream object. clear() resets the error/eof flags, and there has not been any error/eof condition generated yet.
Aug 5, 2015 at 4:00
NumberToString(23213.123) produces 23213.1 while std::to_string(23213.123) produces 23213.123000 What happens there?
Nov 5, 2017 at 23:00
You can use std::to_string available in C++11 as suggested by Matthieu M.:
std::string s = std::to_string(42);
Or, if performance is critical (for example, if you do lots of conversions), you can use fmt::format_int from the {fmt} library to convert an integer to std::string:
std::string s = fmt::format_int(42).str();
Or a C string:
fmt::format_int f(42);
const char* s = f.c_str();
The latter doesn't do any dynamic memory allocations and is more than 70% faster than libstdc++ implementation of std::to_string on Boost Karma benchmarks. See Converting a hundred million integers to strings per second for more details.
Disclaimer: I'm the author of the {fmt} library.
c_str() returns a pointer to a buffer declared inside the fmt::FormatInt class -- so the pointer returned will be invalid at the semicolon -- see also stackoverflow.com/questions/4214153/lifetime-of-temporaries
std::string::c_str() (thus the naming). If you want to use it outside of the full expression construct an object FormatInt f(42); Then you can use f.c_str() without a danger of it being destroyed.
If you have Boost installed (which you should):
#include <boost/lexical_cast.hpp>
int num = 4;
std::string str = boost::lexical_cast<std::string>(num);
It would be easier using stringstreams:
#include <sstream>
int x = 42; // The integer
string str; // The string
ostringstream temp; // 'temp' as in temporary
temp << x;
str = temp.str(); // str is 'temp' as string
Or make a function:
#include <sstream>
string IntToString(int a)
{
ostringstream temp;
temp << a;
return temp.str();
}
Not that I know of, in pure C++. But a little modification of what you mentioned
string s = string(itoa(a));
should work, and it's pretty short.
sprintf() is pretty good for format conversion. You can then assign the resulting C string to the C++ string as you did in 1.
NULL and zero size to get the necessary buffer size.
Sep 25, 2013 at 8:02
snprintf (note the SNP prefix) and sprintf (note the SP prefix). You pass the size to the former, and it takes care not to overflow, however the latter knows not the size of the buffer and thus may overflow.
Sep 25, 2013 at 9:37
snprintf variant first and a sprintf variant after that. As the buffer size is known by then, calling sprintf becomes entirely safe.
Sep 25, 2013 at 9:40
Using stringstream for number conversion is dangerous!
See std::ostream::operator<< where it tells that operator<< inserts formatted output.
Depending on your current locale an integer greater than three digits, could convert to a string of four digits, adding an extra thousands separator.
E.g., int = 1000 could be converted to a string 1.001. This could make comparison operations not work at all.
So I would strongly recommend using the std::to_string way. It is easier and does what you expect.
From std::to_string:
C++17 provides
std::to_charsas a higher-performance locale-independent alternative.
std::to_string uses the current locale (see en.cppreference.com/w/cpp/string/basic_string/to_string , the 'Notes' section). Almost all standard tools (from stringstreams to sprintf, but also sscanf etc) are using the current locale. I wasn't aware of this until recently when it hit me hard. Currently using home-grown stuff, not hard to make.
Oct 24, 2017 at 22:05
First include:
#include <string>
#include <sstream>
Second add the method:
template <typename T>
string NumberToString(T pNumber)
{
ostringstream oOStrStream;
oOStrStream << pNumber;
return oOStrStream.str();
}
Use the method like this:
NumberToString(69);
or
int x = 69;
string vStr = NumberToString(x) + " Hello word!."
In C++11 we can use the "to_string()" function to convert an int into a string:
#include <iostream>
#include <string>
using namespace std;
int main()
{
int x = 1612;
string s = to_string(x);
cout << s<< endl;
return 0;
}
C++17 provides std::to_chars as a higher-performance locale-independent alternative.
If you need fast conversion of an integer with a fixed number of digits to char* left-padded with '0', this is the example for little-endian architectures (all x86, x86_64 and others):
If you are converting a two-digit number:
int32_t s = 0x3030 | (n/10) | (n%10) << 8;
If you are converting a three-digit number:
int32_t s = 0x303030 | (n/100) | (n/10%10) << 8 | (n%10) << 16;
If you are converting a four-digit number:
int64_t s = 0x30303030 | (n/1000) | (n/100%10)<<8 | (n/10%10)<<16 | (n%10)<<24;
And so on up to seven-digit numbers. In this example n is a given integer. After conversion it's string representation can be accessed as (char*)&s:
std::cout << (char*)&s << std::endl;
Note: If you need it on big-endian byte order, though I did not tested it, but here is an example: for three-digit number it is int32_t s = 0x00303030 | (n/100)<< 24 | (n/10%10)<<16 | (n%10)<<8; for four-digit numbers (64 bit arch): int64_t s = 0x0000000030303030 | (n/1000)<<56 | (n/100%10)<<48 | (n/10%10)<<40 | (n%10)<<32; I think it should work.
It's rather easy to add some syntactical sugar that allows one to compose strings on the fly in a stream-like way
#include <string>
#include <sstream>
struct strmake {
std::stringstream s;
template <typename T> strmake& operator << (const T& x) {
s << x; return *this;
}
operator std::string() {return s.str();}
};
Now you may append whatever you want (provided that an operator << (std::ostream& ..) is defined for it) to strmake() and use it in place of an std::string.
Example:
#include <iostream>
int main() {
std::string x =
strmake() << "Current time is " << 5+5 << ":" << 5*5 << " GST";
std::cout << x << std::endl;
}
Use:
#define convertToString(x) #x
int main()
{
convertToString(42); // Returns const char* equivalent of 42
}
int i = 255;
std::string s = std::to_string(i);
In C++, to_string() will create a string object of the integer value by representing the value as a sequence of characters.
I use:
int myint = 0;
long double myLD = 0.0;
string myint_str = static_cast<ostringstream*>(&(ostringstream() << myint))->str();
string myLD_str = static_cast<ostringstream*>(&(ostringstream() << myLD))->str();
It works on my Windows and Linux g++ compilers.
Here's another easy way to do
char str[100];
sprintf(str, "%d", 101);
string s = str;
sprintf is a well-known one to insert any data into a string of the required format.
You can convert a char * array to a string as shown in the third line.
If you're using MFC, you can use CString:
int a = 10;
CString strA;
strA.Format("%d", a);
C++11 introduced std::to_string() for numeric types:
int n = 123; // Input, signed/unsigned short/int/long/long long/float/double
std::string str = std::to_string(n); // Output, std::string
Use:
#include<iostream>
#include<string>
std::string intToString(int num);
int main()
{
int integer = 4782151;
std::string integerAsStr = intToString(integer);
std::cout << "integer = " << integer << std::endl;
std::cout << "integerAsStr = " << integerAsStr << std::endl;
return 0;
}
std::string intToString(int num)
{
std::string numAsStr;
bool isNegative = num < 0;
if(isNegative) num*=-1;
do
{
char toInsert = (num % 10) + 48;
numAsStr.insert(0, 1, toInsert);
num /= 10;
}while (num);
return isNegative? numAsStr.insert(0, 1, '-') : numAsStr;
}
All you have to do is use String when defining your variable (String intStr). Whenever you need that variable, call whateverFunction(intStr.toInt())
Using the plain standard stdio header, you can cast the integer over sprintf into a buffer, like so:
#include <stdio.h>
int main()
{
int x = 23;
char y[2]; // The output buffer
sprintf(y, "%d", x);
printf("%s", y)
}
Remember to take care of your buffer size according to your needs (the string output size).
use my function "inToString"
it accepts one integer argument called "number"
remember you can change the argument type to FLOAT or DOUBLE instead of INT like:
"inToString(float number)" or "inToString(double number)"
and it will work fine but make sure to give it the same type ^_^
#include<iostream>
#include<sstream>
using namespace std;
string inToString(int number){
stringstream stream;
stream << number;
string outString;
stream >> outString;
return outString;
}
int main(){
int number = 100;
string stringOut = inToString(number);
cout << "stringOut : " + stringOut << endl;
return 0;
}
string number_to_string(int x) {
if (!x)
return "0";
string s, s2;
while(x) {
s.push_back(x%10 + '0');
x /= 10;
}
reverse(s.begin(), s.end());
return s;
}
This worked for me -
My code:
#include <iostream>
using namespace std;
int main()
{
int n = 32;
string s = to_string(n);
cout << "string: " + s << endl;
return 0;
}
I think using stringstream is pretty easy:
string toString(int n)
{
stringstream ss(n);
ss << n;
return ss.str();
}
int main()
{
int n;
cin >> n;
cout << toString(n) << endl;
return 0;
}
char * bufSecs = new char[32];
char * bufMs = new char[32];
sprintf(bufSecs, "%d", timeStart.elapsed()/1000);
sprintf(bufMs, "%d", timeStart.elapsed()%1000);
namespace std
{
inline string to_string(int _Val)
{ // Convert long long to string
char _Buf[2 * _MAX_INT_DIG];
snprintf(_Buf, "%d", _Val);
return (string(_Buf));
}
}
You can now use to_string(5).
std namespace is not something you should ever do, either. Also, it doesn't seem like _MAX_INT_DIG is a standard macro, so if it is defined wrongly, this code has the great potential of inducing undefined behaviour. -1
Nov 19, 2014 at 14:57
itoa()takes three parameters.