Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've seen this question and I noticed that I get errors when I declare variables in the middle of the main() function, but I thought that creating variables dynamically wouldn't cause an error, because it can be done anywhere and anytime during run-time (as far as I know).

However, I still get:

error C2065: 'i' : undeclared identifier
error C2065: 'z' : undeclared identifier
error C2065: 'intArr' : undeclared identifier

My code:

int main()

  printf("Type the array size:\t");
  int *z = (int *)malloc(sizeof(int));
  scanf("%d", z);
  int *intArr = (int *)malloc((*z) * sizeof(int));

  int *i = (int *)malloc(sizeof(int));

  for (*i = 0; *i < *z; ((*i)++))
      printf("Type a number\t");
      scanf("%d", (intArr+(*i)));


void printArr(int *arr)
    int i; 
    for (i = 0; i < (sizeof(arr) / sizeof(*arr)); ++i)
        printf("%d ", *(arr+i));
share|improve this question
It is one of the differences between the C89 and C99 standards. MSVC doesn't support C99. –  Hans Passant Sep 30 '12 at 19:22
What Hans said, but note, when compiling C files as C files. Compiling everything as C++ obviously changes that. It is a configurable option in the MSVC compiler settings whether to compile C as C++ or C. –  WhozCraig Sep 30 '12 at 19:24
@Hans Does MSVC actually support all of C89? It was my impression that it doesn’t really support C at all, just a subset of C++ which Microsoft insists on calling “C” but which really is just a reduced feature set. –  Konrad Rudolph Sep 30 '12 at 19:25
Side notes: 1. Do you have to allocate z and i dynamically? They look like simple size and loop variables! 2. If you do, you should also free them. 3. type *var = malloc(size * sizeof(*var)); is much more maintainable as you don't repeat type over and over again. –  Shahbaz Sep 30 '12 at 19:29
@Shahbaz I did that because I thought it would allow me to declare variables in the middle of the function (but it looks like it has nothing to do with it) –  tempy Sep 30 '12 at 19:41

1 Answer 1

up vote 1 down vote accepted

(I'm not sure why @Blood deleted his answer; it was essentially correct.)

When I compile your program using gcc, it compiles with no errors. I had to add

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

to the top, and delete the three ..... lines.

When I compile the same program using Microsoft's Visual C++ 2010 Express, I get a number of errors. Several of them complain about undeclared identifiers, but that's a common side effect of syntax errors; if the compiler can't parse your source file, it's likely to become "confused" as it tries to recover. The most relevant error is:

syntax error : missing ';' before 'type'

on line 10:

printf("Type the array size:\t");     // line 9
int *z = (int *)malloc(sizeof(int));  // line 10

The problem is that the 1989/1990 version of the C standard doesn't permit mixing declarations and statements within a block; it requires all declarations to appear first, followed by all statements. The 1999 C standard changed that, but Microsoft's C compiler has very limited support for any C standard past the 1990 one (and they've said they have no intention of changing that). (I expect they might permit mixed declarations and statements in a future version, since that's a C++ feature as well.)

(I'm assuming from the form of the error messages that you're using a Microsoft compiler.)

You can rearrange your code to satisfy the Microsoft compiler's restrictions. In some cases, you might need to change something like

int *var = initial_value;


int *var;
// ...
var = initial_value;

Another suggestion, not related to your question:

In C, you shouldn't cast the result of malloc(). The malloc() function returns a value of type void*, which can be implicitly converted to any pointer-to-object type. (C++ doesn't have this implicit conversion, but you probably shouldn't be using malloc() in C++ anyway.)

Rather than this:

int *z = (int *)malloc(sizeof(int));
int *intArr = (int *)malloc((*z) * sizeof(int));

you can write this:

int *z = malloc(sizeof *z);
int *intArr = malloc(*z * sizeof *intArr);

Dropping the unnecessary cast can avoid certain errors; for example, with some compilers a cast can mask a necessary error message if you've forgotten the required #include <stdlib.h>. And applying sizeof to *z or *intArr, rather than naming the size explicitly, means that you won't have to change the call if the type of the pointer changes. If you write, for example:

double *p = malloc(sizeof (int)); // incorrect

then you're allocating the wrong size, but the compiler won't warn you about it.

Also, if you're allocating a single int value using malloc(), as you're doing with your i and z pointers, you're doing unnecessary work. Unless your purpose is to practice using malloc(), you might as well just make i and z int variables, and drop the malloc() calls. You'll just have to pass their addresses to scanf. In other words, you can change this:

int *z = (int *)malloc(sizeof(int));
scanf("%d", z);

to this:

int z;
scanf("%d", &z);

One more point: your program has no error checking. malloc() can fail if there isn't enough memory to allocate; it returns a null pointer (NULL) when this happens. scanf() can fail if there's an input error, or if you type hello when it's expecting to read an int. scanf() returns the number of items it successfully scanned; you should verify that it did so (in this case, it returns 1 on success). For a simple program like this, aborting the program with an error message:

fprintf(stderr, "Call to ... failed\n");

is probably good enough.

share|improve this answer
Thank you so much for your answer, I learned a lot from it. I am currently using Microsoft's Visual C++ 2010 Express. Do you think I should use GCC to compile my code instead? I like programming in Visual Studio. –  tempy Oct 1 '12 at 12:47

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.