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So let's say I have a char and I want to strcat() it to a char array in a single line of code. For [a non-practical] example:


Or I wanted to do the reverse, what would be the appropriate function to concat or typecast strings, regardless of data type? Or perhaps there is some syntax I'm missing...

Here's an example. It compiles just fine but crashes.

char* input(){
 char* inp="";
  char c=getchar();
 return inp;
share|improve this question
up vote 3 down vote accepted

strcat treats its argument as a pointer to a nul-terminated string. Casting a char to a char * is just dangerous, and I can imagine no reason it would ever be useful (not to imply that you're stupid for trying it - everyone makes silly mistakes when they learn. That's why we're here.)

The reason is that it would interpret the single byte char, plus the extra sizeof(char*) - sizeof(char) (usually 3) bytes surrounding that char, as a pointer, which would point to... anywhere. You have no way of knowing where it points, since 3 of those bytes are beyond your control, and thus no way of knowing whether it points to valid data.

You might take this as a second approach:

strcat(inp, &c);

This time, you'd be doing better, since &c is an expression of type char * and no casts are required. But again, strcat assumes it's argument is a nul-terminated string, and since you have no way of guaranteeing a nul byte after your char data, this won't do.

The best way is this:

size_t len = strlen(inp); // this may already be calculated somewhere else
inp[len++] = c; // add c as the last character, and adjust our len
inp[len] = '\0'; // add a new nul terminator to our string


Actually, I lied. The best way is to use the standard library function fgets, which appears to be doing more or less what you're trying to do. Truthfully I forgot it, but if this is a homework assignment your professor may not want you using fgets so that you can learn how to do it manually. However, if this isn't homework, fgets does exactly what you're looking for. (Actually, the third approach is well on its way to reimplementing fgets or fgets-like functionality.)

I would also add some other commentary on your input function:

  1. char* inp = ""; will point to read-only data. A flaw in the C standard (for backwards compatability) allows string literals to be assigned to char* types instead of const char * types as it (IMHO) should be.

    There are several ways to approach this, but the best is dynamic allocation. Use the malloc function to reserve some data, keep track of how much you've used in your function, and use the realloc function if you end up needing more room to store it. If you need help with that, I'm sure you'll be back here (hopefully not too soon) with another question. :)
  2. getchar() returns an int, because EOF is defined to be outside the normal range of a char. In order to distinguish between any char and EOF, it's best to make c an int. Otherwise a perfectly valid character may signal EOF. Be sure to cast c down to a char when you add it to the string, though.
share|improve this answer
This looks the closest to what I want, but &c gave me a string of what looked like escape characters. The other solution is just too much code. – Anonymous Jan 14 '11 at 3:20
@Anonymous - The other solution is the solution. The &c version is incorrect for the same reason (char *)c is. If you think the other version is too much code, welcome to C programming. :P (Actually, there is a fourth way, but I'm not sure whether or not this is homework, and I don't want to risk doing your homework for you so I'm erring on the side of caution.) – Chris Lutz Jan 14 '11 at 3:22
This isn't homework. I'm trying to understand C for my own benefit, but I just don't have that much time on my hands, and I find the process excruciating. What is the fourth way? – Anonymous Jan 14 '11 at 3:27
@Anonymous - I edited my answer. (And don't worry - I went through the same process. It won't make sense for a few months, and then one day you'll get it, and it'll all be downhill from there.) – Chris Lutz Jan 14 '11 at 3:30
Thanks for the pointer- I'll look into fgets. I didn't know my input function was so bad. About your point 1- I'm not concerned with buffer overflows, and I don't know how to declare what in other languages might be called a "fixed length string", and I don't want to learn malloc unless it is the fixed-length string declaration function I'm looking for. About point 2- I thought getchar returns a char data type, which is a byte. – Anonymous Jan 14 '11 at 3:36

That is trying to concat the contents of the memory at where ever 'c' (as a memory location) is until it finds a zero.

A better way is to create an empty string of whatever maximum size you think is reasonable, fill it with zeros and then just insert 'c' at the current last position

share|improve this answer
"That is trying to concat the contents of the memory at where ever 'c' is stored until it finds a zero." No, it's trying to concat the contents of the memory that c points to (when cast up to a pointer). &c is where c is stored. But +1 for the better way. – Chris Lutz Jan 14 '11 at 3:28
That's what I meant I was trying to avoid the pointer word - but reading it agian it could have been phrased better, thanks. – Martin Beckett Jan 14 '11 at 4:43
If I hadn't +1'ed you already I'd do so. Avoiding the P-word is probably a good policy when starting out with C. – Chris Lutz Jan 14 '11 at 4:55

If you wish to concatenate a single char onto a string, you can use strncat() and specify the number of characters to concatenate as 1. But note that:

  • The destination buffer must have sufficient space; and
  • In C89, you must have an actual char object to take the address of (so you can't directly concatenate the result of getchar().

For example:

char str[5] = "foo";
char c;
int ch;

if ((ch = getchar()) != EOF) {
    c = ch;
    strncat(str, &c, 1);

In C99, you can use a compound literal and the second restriction does not apply:

char str[5] = "foo";
int ch;

if ((ch = getchar()) != EOF) {
    strncat(str, &(char){ ch }, 1);
share|improve this answer

This won't work because the *inp char pointer doesn't have any memory backing it up. When you declared it to be char *inp = "";, you only gave it the address of an empty string. If you had given the following declaration char *inp = "abcdefg", then you could have written 7 chars to it before you overwrote the '\0' and got into trouble.

You will need to dynamically increase the size of the backing memory as you input more and more characters. You will also have the problem of knowing when to free the memory so you don't get memory leaks.

Also, your strcat needs to have '&' before the c.

share|improve this answer
Then how do I declare a fixed-length empty char array, and why is the output so weird when something goes wrong? – Anonymous Jan 14 '11 at 3:24
If he had given char *inp = "abcdefg"; he couldn't have written any data safely to the string - it's in read-only memory. – Chris Lutz Jan 14 '11 at 3:26
This is not really true. On some systems yes, but not globally. – No One in Particular Jan 14 '11 at 4:00
Also for Anonymous - char xyz[50]; memset((void *)xyz, 0, 50); or whatever length you want. If the array is declared globally, it is a convention that it will be all zeroed out. However, some compiler options will write a bad pattern in the space so you can check for improper usage. – No One in Particular Jan 14 '11 at 4:02

First off, you are returning a pointer to a stack allocated array. This is undefined bahavior. Secondly, you are attempting to write chars into unallocated memory. Thirdly, the type of inp is const char* not char*.

You want something like:

char* input(char *dest) {
  char c=getchar();
 return dest;
share|improve this answer
1. He's not returning a pointer to a stack array, he's returning a pointer to a string literal, which is going to be in global storage. 2. It's not unallocated memory, it's read-only memory. 3. The type of inp is valid, although if you said that the type should be const char* I wouldn't argue at all. 4. Your function is just as dangerous, if not more so, as it does no bounds checking (a much harder error to spot). If you want the user to pass in their own buffer, make them pass in their own length as well. – Chris Lutz Jan 14 '11 at 3:20
char *inp = "" should end up being memory on the stack. with some optimization it may be put into global storage, assuming global storage EXISTS on the architecture he's compiling on. 2. inp+1 isn't explicit allocated by the function. 3. The type should be const char *. The only reason he isn't getting an error is because he's using a legacy standard. 4. While my function is dangerous, it is no more so than strcat or the rest of string.h. – KitsuneYMG Jan 14 '11 at 13:06

Your code crashes because strcat expects null-terminated strings for both its parameters.

If you want to concatenate a char, you need to first create a null-terminated string from it.

char c[2] = {0,0};
c[0] = getchar();
strcat(inp, c);

But don't use strcat, unless you can guarantee that the input string has allocated space for that extra character. Better to you strncat which also includes a parameter for the amount of space in the first parameter (the dest).

I recommend reading this first.

share|improve this answer

One simple way is to use snprintf:

char newString[50+1];
snprintf(newString, sizeof(newString), "%s%c", "ljsdflusdfg", getchar());

It's a simple solution, but does require that you roughly know how big the string is going to be ahead of time.

Notes: I use the +1 to remind myself that there needs to be room for the null termination, and snprintf is better than sprintf as it is given the size of the buffer to prevent buffer overrun.

share|improve this answer

Cast char to char array?
It's just like saying you want to cast a char into string.
You just can't do that directly.
Instead of char, place it in an array (myChar[]).
Afterwhich, strcat it with your original char array.

share|improve this answer
-1 for wrong answer. You need to terminate the array with 0 for strcat to work. – Brennan Vincent Jan 14 '11 at 3:27
@brennan: i have remove one statement of my answer to make it correct. Thanks for reminding me about the 0 thing. – Neilvert Noval Jan 14 '11 at 3:29
I didn't downvote (I was about to but then you fixed it), but while you've made it correct, you haven't exactly made it clear or helpful. Someone who knows C can tell it's right, but someone who doesn't understand why casting a char to a char * doesn't work won't understand why casting a char to a string won't work. You kind of just stated a tautology there. – Chris Lutz Jan 14 '11 at 3:37

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