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If user enters floating number for an integer variable I want to print invalid input. is that possible?

 int a;
 scanf("%d",&a); // if user enters 4.35 print invalid input 

I have tried for characters like this

  else printf("invalid input");

But how to do for floating numbers. If user enters 4.35 it truncates to 4 but I want invalid input.

Any help is greatly appreciated. Thanks

share|improve this question
Maybe take in a float, then check if it stays the same after rounding? – StephenTG Aug 20 '13 at 15:44
Linked again: Scanf won't execute for second time I think related posts. – Grijesh Chauhan Aug 20 '13 at 16:34
up vote 9 down vote accepted

Since the start of a floating point number with any digits before the decimal point looks like an integer, there is no way to detect this with %d alone.

You might consider reading the whole line with fgets() and then analyzing with sscanf():

int a;
int n;
char line[4096];
if (fgets(line, sizeof(line), stdin) != 0 && sscanf(line, "%d%n", &a, &n) == 1)
   ...analyze the character at line[n] for validity...

(And yes, I did mean to compare with 1; the %n conversion specifications are not counted in the return value from sscanf() et al.)

One thing that scanf() does which this code does not do is to skip blank lines before the number is entered. If that matters, you have to code a loop to read up to the (non-empty) line, and then parse the non-empty line. You also need to decide how much trailing junk (if any) on the line is tolerated. Are blanks allowed? Tabs? Alpha characters? Punctuation?

share|improve this answer
Isn't this a bit overcomplicated? – thejh Aug 20 '13 at 15:49
It depends on what you want. Using fgets() and sscanf() is generally better than scanf(); it will be a whole heap easier to report on what the user typed this way. So, factor that out of the solution. That leaves sscanf(line, "%d%n", &a, &n) == 1 and checking that you don't have a decimal point (default ., but locale-specific in general), or an e or E as the next character; anything else means the value entered was an integer. Even the E is not strictly proof; you'd need to see E and a number. 1.2E is the number 1.2 with an E after it, AFAIK (though I've not tested it today). – Jonathan Leffler Aug 20 '13 at 16:00
Interesting: on an Ubuntu 12.04 derivative, the following code regards the E as part of the floating point number; it prints out the space (32) as the stopping point. #include <stdio.h> int main(void) { char data[] = "34.1E and junk"; double d; int n; if (sscanf(data, "%lf%n", &d, &n) != 1) printf("scan failed\n"); else printf("Got: %f (stopped at '%c' %d)\n", d, data[n], data[n]); return 0; } I'm not completely convinced that's correct behaviour; on Mac OS X, the conversion stops on the E instead (correct by my reckoning). ("34.1E- and junk" stops at blank on Linux too.) – Jonathan Leffler Aug 20 '13 at 16:38
Actually, prior to C99, its unspecified whether the match for %n is counted in the return value -- so a successful match might return 2 on some systems. That's ok as you can easily catch this case by using sscanf(line, "%d%n", &a, &n) >= 1 instead as a failure to match will always return 0. – Chris Dodd Aug 20 '13 at 17:21
@ChrisDodd: ISO 9899:1990 for %n in fscanf() says: No input is consumed. The corresponding argument shall be a pointer to integer into which is to be written the number of characters read from the input stream so far by this call to the fscanf function. Execution of a %n directive does not increment the assignment count returned at the completion of the fscanf function. Thus, only pre-standard versions of fscanf() could count %n (and %n was added by the C89 standard, AFAIK — though there probably was some prior art). Unless you think Schildt made up the standard in his book. – Jonathan Leffler Aug 21 '13 at 8:01

You'll have to read it as a double and then check if it is an integer. The best way to check if it is an integer is to use modf, which returns the decimal portion of the double. If there is one you have an error:

double d;
scanf("%lf", &d);

double temp;
if(modf(d, &temp)){
  // Handle error for invalid input

int a = (int)temp;

This will allow integers or floating point numbers with only 0s after the decimal point such as 54.00000. If you want to consider that as invalid as well, you are better off reading character by character and verifying that each character is between 0 and 9 (ascii 48 to 57).

share|improve this answer
Does not one need to check for range, should d be outside int range? – chux Aug 20 '13 at 15:59
On many 64-bit machines, an int with 64 bit range exceeds the precision of a double, thus scanning the incorrect value into 'a'. A long double may work though. – chux Aug 20 '13 at 16:04
Not many 64-bit machine use a 64-bit int size; it leaves you with a quandary about what to do with 32-bit integers (or 16-bit integers). However, if you were dealing with long long (or 64-bit long), then your point would be entirely valid. – Jonathan Leffler Aug 20 '13 at 16:14
@Jonathan Leffler The range of an int may usually be within the integer representable range of a double. But "usual" is not portable idea. I prefer portable ideas and this solution had a weakness concerning that. I've worked in embedded where double and float are the same. That would limit this solution even if int was still 32-bit. – chux Aug 20 '13 at 16:30

This can not be done with out reading pass the int to see what stopped the scan.

Classic idiom

char buf[100];
if (fgets(buf, sizeo(buf), stdin) == NULL) {
  ; // deal with EOF or I/O error
int a;
char ch;
if (1 != sscanf(buf, "%d %c", &a, &ch)) {
  ; // Error: extra non-white space text
share|improve this answer
If there's white space after the integer, it was an integer. If the user typed 34 .34 (with a space before the .), they typed a valid integer first; there's just trailing junk after it on the line. Of course, that might be what you're after...any trailing junk is an error. It isn't clear from the question. – Jonathan Leffler Aug 20 '13 at 16:03
@Jonathan Leffler "34 .34" would fail the above as the extra, IMO, negates the correctness of the input. As you say, OP did not specify about trailing/leading white space nor extra text. – chux Aug 20 '13 at 16:13

You can do it using strtol() and strtod() and comparing the end pointers, e.g. this:

#include <stdio.h>
#include <stdlib.h>

int main(void) {
    char buffer[100];
    char * endptr_n;
    char * endptr_d;
    long n;
    double d;

    fgets(buffer, 100, stdin);
    n = strtol(buffer, &endptr_n, 10);
    if ( endptr_n == buffer ) {
        fputs("You didn't enter a number.", stderr);
        return EXIT_FAILURE;

    d = strtod(buffer, &endptr_d);

    if ( *endptr_d == '\0' || *endptr_d == '\n' ) {
        if ( endptr_d == endptr_n ) {
            puts("You entered just a plain integer.");
        } else {
            puts("You entered a floating point number - invalid.");
    } else {
        puts("You entered garbage after the number - invalid.");

    return EXIT_SUCCESS;


paul@local:~/src/c$ ./testint
You entered just a plain integer.
paul@local:~/src/c$ ./testint
You entered a floating point number - invalid.
paul@local:~/src/c$ ./testint
You entered a floating point number - invalid.
paul@local:~/src/c$ ./testint
You entered a floating point number - invalid.
paul@local:~/src/c$ ./testint
You entered garbage after the number - invalid.

It doesn't use scanf(), but that's a good thing, and it avoids the need to manually check the input following the integer you read.

Obviously, if the only thing on the line is the number, then a lot of this becomes unnecessary, since you can just call strtol() and check *endptr_n immediately, but if there may be other stuff on the line this is how you can do it, e.g. if you want to accept an integer followed by anything non-numeric, but not a floating point followed by the same thing, you can just remove the if ( *endptr_d == '\0' || *endptr_d == '\n' ) logic.

EDIT: updated the code to show the check to *endptr.

share|improve this answer

This one is bit easier:

#include <stdio.h>

int main() 
    int a;
    long double b;

    a = (int) b;

    a == b ? printf("%d\n",a) : printf("Invalid input!");

    return 0;

Input: 4


Input: 4.35

 Invalid input
share|improve this answer
On many machines, if 'b' > 16,777,216, the scan of text into a float loses precision that would not occur had a int been read directly. – chux Aug 20 '13 at 16:08
Unclear on "bit" in unsigned long long bit. Please clarify. – chux Aug 20 '13 at 16:20
@chux; Oops! Its unsigned long long a;. – haccks Aug 20 '13 at 16:23
If "16777217" was entered, b would likely get the value 16,777,218.0. If 'a' was int or unsigned long long, the wrong value would be assigned for the limitation is in the float, not a. – chux Aug 20 '13 at 16:33
@chux But I feel technique can be improve. Suggest some improvements.. – Grijesh Chauhan Aug 20 '13 at 16:38

Here's an easy way:

#include <stdio.h>

int main(int argc, char **argv) {
    int d;
    printf("Type something: ");

    // make sure you read %d and the next one is '\n'
    if( scanf("%d", &d) == 1 && getchar() == '\n' ) {
        printf("%d\n", d);

    return 0;


$ a.exe
Type something: 312312.4214

$ a.exe
Type something: 2312312

$ a.exe
Type something: 4324.

share|improve this answer
Show some test cases! Did you try? – Grijesh Chauhan Aug 20 '13 at 17:29
hmm...Nice thanks! – Grijesh Chauhan Aug 20 '13 at 17:58

First of all, there is nothing wrong with scanf. When a user enters a float then they actually type in a number dot number. So, code a scanf to detect that data entry.

       char c1[2];
       int num1;

       int nr_nums;

       nr_nums = scanf("%d%1[.e0123456789]", &num1, &c1);

       if (nr_nums == 1) {printf("\ndata = %d", num1);}
       if (nr_nums == 2) {printf("\nInvalid");}


Modified this code per another possible data entry format of 1. or 3e-1 as suggested by a comment.

This code gets to the basics of your requirement. It accepts Integer data entry and detects when a float is entered.

share|improve this answer
This won't work if they enter a floating point number using scientific notation, though, e.g. 1e-5, and writing 1. without anything to the right of the decimal point is a perfectly legitimate way of writing floating point constants in C, and someone may input it like that expecting it to be recognized. – Paul Griffiths Aug 20 '13 at 23:22
@PaulGriffiths, the question was if the user entered n.m not your example. I will think about your requirement and figure out out scanf can be modified accordingly. I.e. different requirement, different answer! – JackCColeman Aug 21 '13 at 5:18
@PaulGriffiths, have modified the code to handle the possibilities that you suggested. – JackCColeman Aug 22 '13 at 4:53

If you have your number represented as a string (when you have used fgets) you can fun a for loop through it and compare each character to '.'.

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