#include <stdio.h>
#include <string.h>
#include <ctype.h>

void delspace(char *str);

int main() {
    int i, loops;
    char s1[101], s2[101];

    scanf("%d", &loops);

    while (loops--) {
        fgets(s1, 101, stdin);
        fgets(s2, 101, stdin);
        s1[strlen(s1)] = '\0';
        s2[strlen(s2)] = '\0';

        if (s1[0] == '\n' && s2[0] == '\n') {


        for (i = 0; s1[i] != '\0'; i++)
            s1[i] = tolower(s1[i]);

        for (i = 0; s2[i] != '\0'; i++)
            s2[i] = tolower(s2[i]);

        if (strcmp(s1, s2) == 0) {
        else {

    return 0;

void delspace(char* str) {
    int i = 0;
    int j = 0;
    char sTmp[strlen(str)];

    while (str[i++] != '\0') {
        if (str[i] != ' ') {
            sTmp[j++] = str[i];
    sTmp[j] = '\0';
    strcpy(str, sTmp);

After I entered "loops", "s1" was assigned a blank line automatically. How does it happen? I'm sure my keyboard works fine.

  • 9
    "I'm sure my keyboard works fine." Lol! – orlp May 6 '11 at 23:38
  • 1
    Some variant of this question seems to be asked here every day or so. – Jim Balter May 7 '11 at 0:10
  • The function delspace is definitely wrong! This will convert abc\0 to bc\0. – TrueY Feb 17 '16 at 23:29
  • 1
    Rule of thumb: for interactive input always read lines. – Karoly Horvath Sep 3 '16 at 11:06
  • Related: stackoverflow.com/questions/5240789/… – melpomene Oct 1 '19 at 17:54

scanf() reads exactly what you asked it to, leaving the following \n from the end of that line in the buffer where fgets() will read it. Either do something to consume the newline, or (my preferred solution) fgets() and then sscanf() from that string.

  • If I want to use scanf(), how I can consume the new line? Thanks. – Vayn May 6 '11 at 23:59
  • 5
    Use something like %*[^\n]%*c at the end of the format to skip any characters up the newline, followed by the newline itself. – geekosaur May 7 '11 at 0:07
  • 2
    @geekosaur: Just tacking %*[^\n]%*c on to the end of the format won't actually work if there are NO characters after the previous thing read and before the newline, as then the %*[^\n] will fail to match so the %*c will be skipped and the newline will still be left on the input. You need to do the %*c in a separate scanf call to make it work. – Chris Dodd May 16 '16 at 1:59

scanf leaves whitespace in the input buffer, including new-line characters. To use fgets to read the next line you need to manually remove the rest of the current line:

int c;
    c = getchar();
}while(c != EOF && c != '\n');
  • Yeah, that'll work too, but I personally just use fgets and then sscanf (as suggested by geekosaur) because it works "uniformly" for all sorts of data... not just single chars. And I like "generic, multi-purpose solutions". Cheers. Keith. – corlettk May 7 '11 at 0:32
  • This does work for more then a character though - that's what the loop is for ;) – hugomg May 7 '11 at 1:22
  • while(c != EOF && c != '\n'); is no good. c is out of scope. – chux - Reinstate Monica Feb 23 '18 at 0:50
  • I was going to excuse myself by saying that I must have been mixing C and Lua scoping rules but apparently this answer is from before I learned Lua, hahaha. – hugomg Feb 23 '18 at 2:45


Geekoaur has answered your question well, I'm just pointing out another "problem" with your code.

The line s1[strlen(s1)] = '\0'; is a no-op if s1 is allready properly null terminated BEFORE it executes.

But if s1 is NOT allready properly null terminated BEFORE this line executes (and you're unlucky) it will cause:

  • a SIGSEGV on a POSIX (*nix) system.
  • a GPF on Windows.

This is because strlen basicaly finds the index of the existing null-terminator and returns it! Here's a valid, unoptimized implementation of strlen:

int strlen(char *string) {
    int i = 0;
    while(string[i] != '\0') {
    return i;

So... If you're REALLY worried about strings NOT being null-terminated then you'd do something like:

  • string[sizeof(string)]='\0'; on local automatic strings (where the compiler "knows" the size of the string);
  • or string[SIZE_OF_STRING] for all other strings, where SIZE_OF_STRING is (most commonly) a #define'd constant, or a variable which you maintain specifically to store the current-SIZE (not length) of a dynamically allocated string.

And if you're REALLY, REALLY, REALLY worried about strings not being null-terminated (like you're dealing with "dirty" libary methods (like Tuxedo's ATMI for example) you ALSO "clear" your "return strings" before passing them to the suspect library methods with:

  • before:memset(string, NULL, SIZE_OF_STRING);
  • invoke: DirtyFunction(/*out*/string);
  • after: string[SIZE_OF_STRING]='\0'

SIG11's are a complete biatch to find because (unless you "hook" them with a signal-processor and say otherwise, they cause unix to hard-terminate your program, so you can't log anything (after the fact) to help figure out where-in-the-hell-did-that-come-from... especially considering that in many cases the line of code which throws the SIG11 is no-where-near the actual cause of the string loosing it's null-terminator.

Does that make sense to you?

Cheers mate. Keith.

PS: WARNING: strncpy does NOT allways nullterminate... you probably meant strlcpy instead. I learned this the hard way... when a 60 million dollar billing run crashed.


FYI: Here's a "safe" (unoptimized) version of strlen which I'll call strnlen (I reckon this should be in stdlib. Sigh.).

// retuns the length of the string (capped at size-1)
int strnlen(char *string, int size) {
    int i = 0;
    while( i<size && string[i]!='\0' ) {
    return i;
  • I am novice at C, and the textbook doesn't talk about string and security much. Maybe my textbook isn't good enough :( Thank you for your professional advice :) – Vayn May 7 '11 at 1:09
  • Do not do string[sizeof(string)]='\0'! This will write write a \0 AFTER the allocated memory! sizeof(s1) is 101 and the the index of s1 goes from 0 to 100! The same problem occurs with the strnlen. If there is no \0 then it will return size, not size - 1 as mentioned in the comment! – TrueY Feb 17 '16 at 23:19

This is a more Simpler solution

while ((getchar()) != '\n'); //This is consume the '\n' char
//now you're free to use fgets

I know this is very old. I'm new to c and wanted to check my method, which uses getchar:

#include <stdio.h>

int main()

    printf("Please enter your name\n");
    char string[10];

    scanf("%s", string);
    printf("Hello %s\n", string);

    //getchar();  # un commenting this line, fgets perfectly works!!
    printf("Please enter your name again\n");

    fgets ( string, 10, stdin );     

    printf("Hello again %s", string);

  • Try entering "Michele \n" (space after name) and see if code works by "un commenting this line". – chux - Reinstate Monica Feb 23 '18 at 0:53

just put scanf("%d\n",&loops);

instead of scanf("%d",&loops);

  • While this answer covers an important phenomenon of the original problem, it fails to provide some insight into the problem itslef. Thus, it is helpfull at best to the exect original problem and not really helpful in the long run. Please, add some more explanation to make your answer helpful to later readers looking for similar problems. – rpy Sep 12 '16 at 13:48

The following works if fgets() is being "skipped" after using scanf()

After saying:

scanf("%d", &loops);


char garbage[100];


This will store anything left on the input buffer into the garbage variable.

This will effectively clear the input buffer and allow you to use fgets() afterwards.

EDIT: I have recently learned that there is an easier solution than the one above. If you say getchar() after scanf(), it will allow you to use fgets() without issues. getchar() will get the next character in the input buffer, which in this case will be '\n'. Once you remove '\n' from the input buffer, fgets should work just fine.


Another way to ignore following newline character (due to hitting ENTER) after scanning the integer in variable label loops is:

scanf ("%d%*c", &loops);

Where, as per the man pages:

* Suppresses assignment. The conversion that follows occurs as usual, but no pointer is used; the result of the conversion is simply discarded.

This is very unlikely, but good habit to check for error during scanf:

errno = 0
scanf ("%d%*c", &loops);
if (errno != 0) perror ("scanf");
// act accordingly to avoid un-necessary bug in the code

For example in your code, loops is a local un-initialized variable, containing garbage. If scanf fails to fill the desired value, following while loop may run arbitrarily.

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