I have a float value that needs to be put into a std::string. How do I convert from float to string?

float val = 2.5;
std::string my_val = val; // error here
  • 4
    Consider reading Herb Sutter's article "The String Formatters of Manor Farm" (gotw.ca/publications/mill19.htm). It provides examples of five of the most common ways to format things and discusses their advantages and disadvantages. – James McNellis Jan 24 '10 at 5:04

Unless you're worried about performance, use string streams:

#include <sstream>

std::ostringstream ss;
ss << myFloat;
std::string s(ss.str());

If you're okay with Boost, lexical_cast<> is a convenient alternative:

std::string s = boost::lexical_cast<std::string>(myFloat);

Efficient alternatives are e.g. FastFormat or simply the C-style functions.

  • This will be an adequate solution considering that these functions will be called rarely (resizing the window), but is there a more efficient method? – adam_0 Jan 24 '10 at 4:03
  • 1
    And if you're not okay with Boost, write your own lexical cast function; it's all of about five lines of code and makes for a most useful library function (see gotw.ca/publications/mill19.htm for the basic implementation). – James McNellis Jan 24 '10 at 5:01
  • 6
    For the first method, don't forget #include <sstream>. – jackw11111 Aug 22 '18 at 22:09
  • 1
    @jackw11111, The header is a very important point that is all to often omitted from answers. It is especially problematic with c++ 'streams'. Thanks for pointing it out. I was going to do so if you had not. – Grant Rostig Dec 18 '19 at 0:13

As of C++11, the standard C++ library provides the function std::to_string(arg) with various supported types for arg.


Read the note at the end.

Quick answer :
Use to_string(). (available since c++11)
example :

#include <iostream>   
#include <string>  

using namespace std;
int main ()
    string pi = "pi is " + to_string(3.1415926);
    cout<< "pi = "<< pi << endl;

  return 0;

run it yourself : http://ideone.com/7ejfaU
These are available as well :

string to_string (int val);
string to_string (long val);
string to_string (long long val);
string to_string (unsigned val);
string to_string (unsigned long val);
string to_string (unsigned long long val);
string to_string (float val);
string to_string (double val);
string to_string (long double val);

Important Note:
As @Michael Konečný rightfully pointed out, using to_string() is risky at best that is its very likely to cause unexpected results.
From http://en.cppreference.com/w/cpp/string/basic_string/to_string :

With floating point types std::to_string may yield unexpected results as the number of significant digits in the returned string can be zero, see the example.
The return value may differ significantly from what std::cout prints by default, see the example. std::to_string relies on the current locale for formatting purposes, and therefore concurrent calls to std::to_string from multiple threads may result in partial serialization of calls. C++17 provides std::to_chars as a higher-performance locale-independent alternative.

The best way would be to use stringstream as others such as @dcp demonstrated in his answer.:

This issue is demonstrated in the following example :
run the example yourself : https://www.jdoodle.com/embed/v0/T4k

#include <iostream>
#include <sstream>
#include <string>

template < typename Type > std::string to_str (const Type & t)
  std::ostringstream os;
  os << t;
  return os.str ();

int main ()

  // more info : https://en.cppreference.com/w/cpp/string/basic_string/to_string
  double    f = 23.43;
  double    f2 = 1e-9;
  double    f3 = 1e40;
  double    f4 = 1e-40;
  double    f5 = 123456789;
  std::string f_str = std::to_string (f);
  std::string f_str2 = std::to_string (f2); // Note: returns "0.000000"
  std::string f_str3 = std::to_string (f3); // Note: Does not return "1e+40".
  std::string f_str4 = std::to_string (f4); // Note: returns "0.000000"
  std::string f_str5 = std::to_string (f5);

  std::cout << "std::cout: " << f << '\n'
    << "to_string: " << f_str << '\n'
    << "ostringstream: " << to_str (f) << "\n\n"
    << "std::cout: " << f2 << '\n'
    << "to_string: " << f_str2 << '\n'
    << "ostringstream: " << to_str (f2) << "\n\n"
    << "std::cout: " << f3 << '\n'
    << "to_string: " << f_str3 << '\n'
    << "ostringstream: " << to_str (f3) << "\n\n"
    << "std::cout: " << f4 << '\n'
    << "to_string: " << f_str4 << '\n'
    << "ostringstream: " << to_str (f4) << "\n\n"
    << "std::cout: " << f5 << '\n'
    << "to_string: " << f_str5 << '\n'
    << "ostringstream: " << to_str (f5) << '\n';

  return 0;

output :

std::cout: 23.43
to_string: 23.430000
ostringstream: 23.43

std::cout: 1e-09
to_string: 0.000000
ostringstream: 1e-09

std::cout: 1e+40
to_string: 10000000000000000303786028427003666890752.000000
ostringstream: 1e+40

std::cout: 1e-40
to_string: 0.000000
ostringstream: 1e-40

std::cout: 1.23457e+08
to_string: 123456789.000000
ostringstream: 1.23457e+08 

You can define a template which will work not only just with doubles, but with other types as well.

template <typename T> string tostr(const T& t) { 
   ostringstream os; 
   return os.str(); 

Then you can use it for other types.

double x = 14.4;
int y = 21;

string sx = tostr(x);
string sy = tostr(y);

Use std::to_chars once your standard library provides it:

std::array<char, 32> buf;
auto result = std::to_chars(buf.data(), buf.data() + buf.size(), val);
if (result.ec == std::errc()) {
  auto str = std::string(buf.data(), result.ptr - buf.data());
  // use the string
} else {
  // handle the error

The advantages of this method are:

  • It is locale-independent, preventing bugs when writing data into formats such as JSON that require '.' as a decimal point
  • It provides shortest decimal representation with round trip guarantees
  • It is potentially more efficient than other standard methods because it doesn't use the locale and doesn't require allocation

Unfortunately std::to_string is of limited utility with floating point because it uses the fixed representation, rounding small values to zero and producing long strings for large values, e.g.

auto s1 = std::to_string(1e+40);
// s1 == 10000000000000000303786028427003666890752.000000

auto s2 = std::to_string(1e-40);
// s2 == 0.000000

C++20 might get a more convenient std::format API with the same benefits as std::to_chars if the P0645 standards proposal gets approved.


You can use std::to_string in C++11

float val = 2.5;
std::string my_val = std::to_string(val);
  • 2
    Heads up, don't copy-paste-submit-grace_period_edit answers. copy-paste-edit-submit them. We get an auto flag instead. Take care the next time. Cheers – Bhargav Rao Mar 27 '17 at 12:46
  • This is basically identical to @dmckee's answer from 2013. – vitaut Mar 24 '19 at 18:24
  • @Yochai when I cout the my_val gives 5.20000 but when you assigned val to 50.2 or more bigger then it gives not accurate output. Gives like: 50.000001 and 107.199997 (for 107.2). whats the reason of this? – Yunus Temurlenk Aug 16 '20 at 8:37

If you're worried about performance, check out the Boost::lexical_cast library.

  • 12
    I think you mean "if you're not worried about performance". boost::lexical_cast is about the heaviest solution you could pick! – Tom Jan 24 '10 at 6:03

This tutorial gives a simple, yet elegant, solution, which i transcribe:

#include <sstream>
#include <string>
#include <stdexcept>

class BadConversion : public std::runtime_error {
  BadConversion(std::string const& s)
    : std::runtime_error(s)
    { }

inline std::string stringify(double x)
  std::ostringstream o;
  if (!(o << x))
    throw BadConversion("stringify(double)");
  return o.str();
std::string my_val = stringify(val);

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