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How do I convert 30.8365146 into two integers, 30 and 8365146, for example, in Arduino or C?

This problem faces me when I try to send GPS data via XBee series 1 which don't allow to transmit fraction numbers, so I decided to split the data into two parts. How can I do this?

I have tried something like this:

double num=30.233;
int a,b;

a = floor(num); 
b = (num-a) * pow(10,3);

The output is 30 and 232! The output is not 30 and 233. Why and how can I fix it?

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How do you intend to maintain the scale of the decimal part? 3.1 and 3.0001 would both come out to be 3 and 1. –  cHao Mar 13 '13 at 13:46
    
Nice question but i don't know the answer , do u have any suggestion –  Abdelrahman Tarief Mar 13 '13 at 13:52
1  
You need to define how many decimal places you require - if it is 7 digits, for example, then .1 would be 1000000 while .0001 would be 1000 –  Andreas Mar 13 '13 at 13:54
    
XBee transmits data as bytes, effectively a serial link. So it can be whatever format you like. I'd either suggest degrees, minutes and seconds if raw values are used, or write it using a common serial format - gpsinformation.org/dale/nmea.htm#position - which GPS software on your pc may well understand directly if you configure the XBee explorer as a serial input. –  Pete Kirkham Mar 18 '13 at 10:44

5 Answers 5

double value = 30.8365146;
int left_part, right_part;
char buffer[50];
sprintf(buffer, "%lf", value);
sscanf(buffer, "%d.%d", &left_part, &right_part);

and you will get left/right parts separately stored in integers.

P.S. the other solution is to just multiply your number by some power of 10 and send as an integer.

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+1 Faster than me :) –  Ivaylo Strandjev Mar 13 '13 at 13:47
    
thanks alot for your help , but what is the function of the buffer array –  Abdelrahman Tarief Mar 13 '13 at 13:48
    
its function is to temporarily keep the value of your variable as a string to be read then by sscanf. –  aram90 Mar 13 '13 at 14:07
    
You need to be a bit wary of this approach. On my compiler using %lf with value results in 30.8365. If you specify the precession, say %2.10lf you will get something like 30.8365146000 and then you have 2 problems, the number is to big for an int and you have unwanted trailing zeros. –  Jackson Mar 13 '13 at 14:20
    
there is a problem with the code i don't know the reason but when i set value=30.8365 the result is 10218 and 18457 !!!! –  Abdelrahman Tarief Mar 13 '13 at 14:32

You can output the integer to a char array using sprintf, then replace the '.' with a space and read back two integers using sscanf.

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The 30 can just be extracted by rounding down (floor(x) in math.h).

The numbers behind the decimal point are a bit more tricky, since the number is most likely stored as a binary number internally, this might not translate nicely into the number you're looking for, especially if floating point-math is involved. You're best bet would probably be to convert the number to a string, and then extract the data from that string.

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xbee cant sent a string it can only send characters so it would be too slow to sent the fraction part as characters –  Abdelrahman Tarief Mar 13 '13 at 13:55
    
The string would only be used to convert the binary data to a decimal representation. You then extract the data from this string as integers and sent those. aram90 has given a code example of how to do exactly that. –  JSQuareD Mar 13 '13 at 13:59

As in the comments, you need to keep track of the decimal places. You can't do a direct conversion to integer. A bit of code that would do something like this:

#include <stdio.h>
#include <math.h>

#define PLACES 3

void extract(double x)
{
        char buf[PLACES+10];
        int a, b;

        sprintf(buf, "%.*f", PLACES, x);
        sscanf(buf, "%d.%d", &a, &b);

        int n = (int) pow(10, PLACES);

        printf("Number           : %.*f\n", PLACES, x);
        printf("  Integer        : %d\n", a);
        printf("  Fractional part: %d over %d\n", b, n);
}

int main()
{
        extract(1.1128);
        extract(20.0);
        extract(300.000512);
}

Produces:

Number           : 1.113
  Integer        : 1
  Fractional part: 113 over 1000
Number           : 20.000
  Integer        : 20
  Fractional part: 0 over 1000
Number           : 300.001
  Integer        : 300
  Fractional part: 1 over 1000
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What about using floor() to get the integer value and num % 1 (modulo arithmetic) to get the decimal component?

Then you could multiply the decimal component by a multiple of 10 and round. This would also give you control over how many decimal places you send, if that is limited in your comm. standard.

Would that work?

#include <math.h>

integer_part = floor(num); 
decimal_part = fmod(num,1)*10^whatever;
share|improve this answer
    
ok i will try this –  Abdelrahman Tarief Mar 13 '13 at 17:47
    
Series1_Tx:85: error: invalid operands of types 'double' and 'int' to binary 'operator^' it gives me this error –  Abdelrahman Tarief Mar 13 '13 at 17:52
    
I meant that you could use 1000 as 10^3. If you want to do exactly what I wrote, you could do pow(10,3). –  Frederick Mar 17 '13 at 18:12

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