1

I have this following program:

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

int main()
{
    char name[50],fname[50],sname[50],lname[50];
    int i,j,k;
    printf("First Name:");
    gets(fname);
    printf("sname:");
    gets(sname);
    printf("lname:");
    gets(lname);

    for(i=0;fname[i]!='\0';i++)
        name[i]=fname[i];
    name[i]=' ';

    for(j=0;sname[j]!='\0';j++)
        name[i+j+1]=sname[j];
    name[i+j+1]=' ';

    for(k=0;lname[k]!='\0';k++)
        name[i+j+k+2]=lname[k];
    name[i+j+k+2]=' ';

    printf("Concatenation is %s",name);
}

I'm confused as to why there is a space assigned in name[i]=' ' and name[i+j+1]=' ' and name[i+j+k+2]=' ' in this program.

If I execute with these, then I'm only getting concatenation, but if I remove them, I'm getting only the string of fname and not a concatenation of all.

3
  • 1
    Is there a reason you cannot use snprintf() to perform this task? (snprintf(name, sizeof(name), "%s %s %s", fname, sname, lname); name[sizeof(name) - 1] = '\0';)
    – cdhowie
    Aug 12, 2013 at 17:39
  • 8
    Also note that ' ' and NULL are two very different things
    – StephenTG
    Aug 12, 2013 at 17:39
  • 2
    @cdhowie As far as I can understand, it looks like this is code that OP has been given and is trying to understand the behaviour of.
    – Michelle
    Aug 12, 2013 at 17:43

1 Answer 1

8

The key here is that a null character and ' ' (the space character) are not the same. A null character is that '\0' character your for loops are checking for, a.k.a. the end of the string. A space is just a space, inserted between the parts of the name (think about "JamesEarlJones" vs "James Earl Jones" - you definitely want spaces).

It looks like either:

  • by default your arrays are initialized with null characters, which means if you don't assign a value to an element, it'll be '\0' (although this shouldn't be relied upon), or
  • you've got some awfully coincidental placement of null characters going on in the existing memory (there happens to be one after whatever length(s) of first name(s) and full names you've been trying).

If you skip an index when filling the name array (the +1 and +2 in your indices), you're leaving an element as the default/existing value ('\0'). If you don't print a space there, when printing out name, it'll hit a null character after the characters from fname and think that's the end of the string. If you include the lines that add space characters (not the same thing as '\0'), it sees the spaces, prints them, and keeps going.

11
  • 3
    Arrays are not implicitly initialized in C. Their values being '\0' are accidental, and one should not rely on such semantics. In particular, the name array was not initialized with '\0' when I compiled and ran the program as it is. I should also point out that the string that ends up in the name array is not null-terminated. Aug 12, 2013 at 18:28
  • @Robert I would expect implicit initialization to be compiler-specific (although I'm having trouble quickly confirming that). I only intended to explain what might cause the behaviour OP is seeing. I edited my answer a bit, but feel free to edit further if you think additional clarification is necessary.
    – Michelle
    Aug 12, 2013 at 18:41
  • 2
    @Michelle, the definition of the C language is that automatic variables are NOT initialized, as well as malloced storage. It is dangerous to write code that relies on how one compiler implements that language definition. It makes code unportable, and the next release of the same compiler might change its method of implementation while adhering to the standard. So, in C never rely on an automatic or heap variable being initialized for you. Finally, the C standard does define when and where a variable is initialized by the compiler. Aug 12, 2013 at 23:19
  • 2
    NULL refers to an unassigned pointer. NUL is an ASCII label for the character constant \0 (eg. like 'EOT' or 'CR'). null isn't really C nomenclature. See What is the difference between NULL, '\0' and 0 or NUL undeclared- first use in this function.
    – detly
    Aug 13, 2013 at 1:08
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    The only reason I'm being pedantic about case is that there are similar-looking lower case constants in C++, and it already gets confusing enough :)
    – detly
    Aug 13, 2013 at 2:07

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