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I'm trying to convert std::string to float/double. I tried:

std::string num = "0.6";
double temp = (double)atof(num.c_str());

But it always returns zero. Any other ways?

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1  
Resist the urge to overengineer something figured out already a decade ago. –  haavee Jun 18 '09 at 13:28
1  
are you sure you output it correctly? It shouldn't yield zero –  Johannes Schaub - litb Jun 18 '09 at 13:29
1  
additionally, you do not need to cast atof, it already returns a double. –  AlbertoPL Jun 18 '09 at 13:34
    
I'm sure. Debugger shows me 0. And result is 0. Platform: Linux. –  Ockonal Jun 18 '09 at 13:36
7  
Are you sure you have the right locale installed? try "0,6" or setlocale(LC_NUMERIC, "C"); –  Johannes Schaub - litb Jun 18 '09 at 13:37
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14 Answers

up vote 56 down vote accepted
std::string num = "0.6";
double temp = ::atof(num.c_str());

Does it for me, it is a valid C++ syntax to convert a string to a double.

You can do it with the stringstream or boost::lexical_cast but those come with a performance penalty.


Ahaha you have a Qt project ...

QString winOpacity("0.6");
double temp = winOpacity.toDouble();

Extra note:
If the input data is a const char*, QByteArray::toDouble will be faster.

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I don't see any reason why boost::lexical_cast would have a performance penalty (but a stringstream is certainly slower). –  Zifre Jun 18 '09 at 13:33
5  
boost::lexical_cast is streaming. –  TimW Jun 18 '09 at 13:40
    
You can't generally say they come with a performance penalty, i think. Think about what happens when just before it you have a cin >> num;. The user would have to type very quickly (rly jon skeet like) to ever note the milliseconds lexical_cast is slower :) That said, i believe there are tasks where lexical_cast just sucks too much performance :) –  Johannes Schaub - litb Jun 18 '09 at 13:42
    
... there is always a performance penalty, this penalty can be significant or not for the performance of the application. If the user can type very very very quickly it will be significant ;) –  TimW Jun 18 '09 at 13:48
3  
@ShaChris Because I want to make sure I use the atof function from the global namespace. –  TimW Feb 17 '10 at 8:16
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The Standard Library (C++11) offers the desired functionality with std::stod :

std::string  s  = "0.6"
std::wstring ws = "0.7"
double d  = std::stod(s);
double dw = std::stod(ws);

I guess the Standard Library converts internally too, but this way makes the code cleaner. Generally for most other basic types, see <string>. There are some new features for c strings, too. See <string.h>

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3  
I like this solution, but it appears that it is only from C++11. So not available on my SDK. –  pamplemousse_mk2 Mar 4 '13 at 10:45
    
It's great to know that the C++ standards committee added this. ostringstream in itself was simply too long to type out, let alone use .. –  bobobobo Jan 23 at 17:41
    
Technically, string support isn't part of the Standard Template Library (STL), although it does involve templates and is part of the C++ Standard Library. –  Edward Brey May 1 at 17:28
    
Sorry I thought STL is an acronym for Standard Library. Corrected. –  ManuelSchneid3r May 2 at 11:03
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Lexical cast is very nice.

#include <boost/lexical_cast.hpp>
#include <iostream>
#include <string>

using std::endl;
using std::cout;
using std::string;
using boost::lexical_cast;

int main() {
    string str = "0.6";
    double dub = lexical_cast<double>(str);
    cout << dub << endl;
}
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7  
+1 for not using "using namespace std;" –  Johannes Schaub - litb Jun 18 '09 at 13:30
    
Thanks, it works.. But it's a question for me: why my code isn't working. –  Ockonal Jun 18 '09 at 13:55
2  
@Johannes Schaub: Based on ADL, he might as well have, the using defintions plus what he is actually using will probably bring into scope a vast number of std elements. Furthermore lexical_cast is insanely slow, so no +1 from me. –  Matthieu N. Mar 10 '11 at 17:15
    
-1 for not using "using namespace std;" –  bobobobo Jan 23 at 17:39
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You can use std::stringstream:

   #include <sstream>
   #include <string>
   template<typename T>
   T StringToNumber(const std::string& numberAsString)
   {
      T valor;

      std::stringstream stream(numberAsString);
      stream >> valor;
      if (stream.fail()) {
         std::runtime_error e(numberAsString);
         throw e;
      }
      return valor;
   }

Usage:

double number= StringToNumber<double>("0.6");
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Uhm, so you think boost::lexical_cast has a terrible interface, don't you? Look at stefanB's answer! Boost does the same. –  kirsche40 Feb 21 at 14:38
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You can use boost lexical cast:

#include <boost/lexical_cast.hpp>

string v("0.6");
double dd = boost::lexical_cast<double>(v);
cout << dd << endl;

Note: boost::lexical_cast throws exception so you should be prepared to deal with it when you pass invalid value, try passing string("xxx")

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Yes, with a lexical cast. Use a stringstream and the << operator, or use Boost, they've already implemented it.

Your own version could look like:

template<typename to, typename from>to lexical_cast(from const &x) {
  std::stringstream os;
  to ret;

  os << x;
  os >> ret;

  return ret;  
}
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If you don't want to drag in all of boost, go with strtod(3) from <cstdlib> - it already returns a double.

#include <iostream>
#include <string>
#include <cstring>
#include <cstdlib>

using namespace std;

int main()  {
    std::string  num = "0.6";
    double temp = ::strtod(num.c_str(), 0);

    cout << num << " " << temp << endl;
    return 0;
}

Outputs:

$ g++ -o s s.cc
$ ./s
0.6 0.6
$

Why atof() doesn't work ... what platform/compiler are you on?

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Using a stringstream wouldn't require boost –  jalf Jun 18 '09 at 13:29
    
Your method returns zero too. Linux. –  Ockonal Jun 18 '09 at 13:31
    
+1 for not using boost –  Brett Jul 8 at 9:48
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This answer is backing up litb in your comments. I have profound suspicions you are just not displaying the result properly.

I had the exact same thing happen to me once. I spent a whole day trying to figure out why I was getting a bad value into a 64-bit int, only to discover that printf was ignoring the second byte. You can't just pass a 64-bit value into printf like its an int.

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I'm not using printf to see results... And i use that value to set window opacity, and my window is full trasparent, so value is 0. –  Ockonal Jun 18 '09 at 13:54
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   double myAtof ( string &num){
      double tmp;
      sscanf ( num.c_str(), "%lf" , &tmp);
      return tmp;
   }
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1  
Invalid answer, how do you know the value stored in num is actually a valid floating point number? you don't check the return type of sscanf, seems like an MS coding style. –  Matthieu N. Mar 10 '11 at 17:19
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The C++ 11 way is to use std::stod and std::to_string. Both work in Visual Studio 11.

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As to why atof() isn't working in the original question: the fact that it's cast to double makes me suspicious. The code shouldn't compile without #include <stdlib.h>, but if the cast was added to solve a compile warning, then atof() is not correctly declared. If the compiler assumes atof() returns an int, casting it will solve the conversion warning, but it will not cause the return value to be recognized as a double.

#include <stdlib.h>
#include <string>

... 
  std::string num = "0.6";
  double temp = atof(num.c_str());

should work without warnings.

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I had the same problem in Linux

double s2f(string str)
{
 istringstream buffer(str);
 double temp;
 buffer >> temp;
 return temp;
}

it works.

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Rather than dragging Boost into the equation, you could keep your string (temporarily) as a char[] and use sprintf().

But of course if you're using Boost anyway, it's really not too much of an issue.

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You don't want Boost lexical_cast for string <-> floating point anyway. That subset of use cases is the only set for which boost consistently is worse than the older functions- and they basically concentrated all their failure there, because their own performance results show a 20-25X SLOWER performance than using sscanf and printf for such conversions.

Google it yourself. boost::lexical_cast can handle something like 50 conversions and if you exclude the ones involving floating point #s its as good or better as the obvious alternatives (with the added advantage of being having a single API for all those operations). But bring in floats and its like the Titanic hitting an iceberg in terms of performance.

The old, dedicated str->double functions can all do 10000 parses in something like 30 ms (or better). lexical_cast takes something like 650 ms to do the same job.

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