# Printing float such that exponent is marked with “*10^” instead of “e”

I am looking for a possibility within C/C++ to print a float (or double) f, say `f = 1.234e-15`, such that it is printed as

• `f = 1.234*10^-15`, or, even better, as
• `f = 1.234*10^{-15}`

Can anyone help me? Maybe there is a way to get the exponent "-15" and mantissa "1.234" in base 10. I found the question how can I extract the mantissa of a double, but unfortunately that did not really help, since it only gets the mantissa in base 2.

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Seems like log10 rounded(somehow) would get you the exponent. Should be simple enough to get the mantissa once you have that. –  Lalaland Jun 16 '12 at 8:12
@EthanSteinberg: It's not that simple, depending on whether you want the full precision. –  Dietrich Epp Jun 16 '12 at 8:20
There's no such language as "C/C++", and the answers for the two languages are very different. –  R.. Jun 16 '12 at 11:10
What I meant was either C or C++, since I can use C code in my C++ program. –  alex Jun 18 '12 at 8:08

You can print to a `string` using the output string stream, and then replace `"e"` with `"*10^"`.

``````ostringstream ss;
ss << scientific << 123456789.87654321;
string s = ss.str();
s.replace(s.find("e"), 1, "*10^");
cout << s << endl;
``````

This snippet produces

``````1.234568*10^+08
``````
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Thanks a lot! I did not know the string methods replace() and find(). Thought I will need to use some regular expression library to replace the 'e' and that seemed to complicated. Your solution is really short, which I like. While waiting for replies I actually wrote my own code, see below... –  alex Jun 16 '12 at 9:10

Why not use string parsing? scan the string and replace e with 10^.

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``````#include <cmath>
#include <iostream>

using namespace std;

template <typename F>
F round_away_from_zero (F x)
{
return x < 0 ? floor(x) : ceil(x);
}

template <class O, typename F>
O &print_float (O &out, F f) {
signed ex = round_away_from_zero(log10(f)); // exponent
F mant = f / pow(10, ex);                   // mantissa
out << mant << "*10^" << ex;
}

int main () {
double f = 1.234e-15;
print_float(cout, f) << endl; // prints 1.234*10^-15
return 0;
}
``````
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Thanks! Also nice mathematical way to get exponent and mantissa! And easy to include my brace brackets into the output. And now I also know floor() and ceil() :)) –  alex Jun 16 '12 at 9:25
Just discovered a small error in your code: In print_float() you have to take the log10 of abs(f), otherwise the result will be infinite for negative f. But with this small change it also works for negative numbers. –  alex Jun 16 '12 at 10:08

While waiting for your solutions I came up with the following idea:

Use sprintf() to print the float or double to an array of char. Parse this to get the exponent and mantissa. Code looks now the following way:

``````void printDoubleToChar(double d, char* c){
char valAsChar[256];

sprintf(valAsChar, "%.12e", d);

int expStart = 0, expWidth = 0;
for(int i=0; i<sizeof(valAsChar); i++){
if(valAsChar[i] == 'e'){
expStart = i+1;
break;
}
}
for(int i=expStart; i<sizeof(valAsChar); i++){
if(valAsChar[i] == '\0'){
expWidth = i - expStart;
break;
}
}

char chValExp[32];
memcpy(chValExp, &valAsChar[expStart], expWidth+1);

char chValMan[128];
memcpy(chValMan, valAsChar, expStart-1);
chValMan[expStart-1] = '\0';

sprintf(c, "%s*10^{%s}", chValMan, chValExp);
}

int main(){
double myNewDbl = 3.95743e-5;
char chDbl[256];
printDoubleToChar(myNewDbl, chDbl);
printf("\nchDbl: %s\n", chDbl); // output: chDbl: 3.957430000000*10^{-05}
}
``````

But honestly, I prefer the much simpler solution by dasblinkenlight :)

Thank you all for your help!

Alex

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