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Here is the structure declare code.

struct list_el {
    int val;
    struct list_el * next;

typedef struct list_el item;

And when I write a function like this, the compiler gives a error. It says cur undeclared before first use.

bool delete(item* item)
    assert(item != NULL);

    item* cur = NULL;
    cur = head;
    item* prev = NULL;
    while (cur) {
        if (cur == item) {
            if (prev == NULL) {
                head = item->next;
            } else {
                prev->next = item->next;
            return true;

        prev = cur;
        cur = cur->next;
    return false;

After I look up the reference, it says the typedef works out just a bit like #define. It simply makes a substitution at compile time. Is that the reason the code can't be compiled?

share|improve this question
typedef doesn't work like #define. which reference said so? – xiaoyi Nov 14 '12 at 7:27
up vote 14 down vote accepted

In this code:

bool delete(item* item)
    item *cur = NULL;

the item in the third line is taken to be the name of the variable item (the parameter to the function), and not the type. Consequently, the third line looks as if it starts out as an expression that multiplies item by the undefined variable cur, which leads to problems; the rest of the expression is also bogus.

If this isn't what you want, don't use the same name for a type and a variable. You'll confuse other people even if you don't confuse yourself and the compiler.

Whichever reference source said that typedef and #define are 'the same' should be dropped from your list of references now! If it can't differentiate two such fundamentally different constructs, it is dangerous because you won't know when it is misleading you (but this is one case where it is misleading you).

share|improve this answer
Thanks a lot for your answer. – madper Nov 14 '12 at 7:26
@Jonathan Leffler (item* item) will create compilation error? – Grijesh Chauhan Nov 14 '12 at 7:27
@GrijeshChauhan: It doesn't cause a compilation error under GCC. I'm a little surprised. I think it comes down to scope. There's a new scope with the function definition, and in that scope, the plain name item now means the variable. I'm not certain that's how you scrape by, but it looks semi-plausible. You can see it with: int x = 0; int func(void) { int y = x; int x = y + 1; ... } which is legitimate. The first x in the function is the global variable; the second is a new local variable that shadows the global. The situation in the function in the question is similar, I hypothesize. – Jonathan Leffler Nov 14 '12 at 7:30
You are correct, I also checked it myself, And yes due to scope ...also its correct in C but not in Java. : Thanks – Grijesh Chauhan Nov 14 '12 at 7:35
You changed your answer!...you wrote something about c99 and c89 – Grijesh Chauhan Nov 14 '12 at 7:36

A typedef is just a new name for an already existing type. defines are handled by the preprocessor while typedefs are handled by the C compiler itself. [copied from this link]

check this question: Is typedef and #define the same in c?

share|improve this answer
Moreover, forcing the compiler to guess from context whether you were referring to an instance of object, or the type name is at the very least a pathetic approach and should not be allowed by the compiler. A little insane example typedef int b; double b; b = 4; - compilation error – fayyazkl Nov 14 '12 at 7:32

typedef is not completely same as #define

Here is the difference by example:

#define cptr1 char*

typedef char* cptr2;

In code:

           int main()
             cptr1 c1,c2; // first case : 
        // here c1 will be pointer to char but c2 is only char as cptr 
   // is directly replaced by char* by preprocessor
            cptr2 c3,c4; // second case :
      // here c3 and c4 both are pointers to char 
share|improve this answer
This is only tangentially relevant... – huon Nov 14 '12 at 7:27

you should use -Wshadow when you compile you code. Then, gcc will tell you where you are wrong. :-) like follows:
declaration of ‘item’ shadows a global declaration [-Wshadow]

share|improve this answer
Since i am a newbie to c programming, so should i open as many as warning options in gcc as possible? – Frank Cheng Nov 14 '12 at 7:44
@user674199, I think so. you will avoid lots of mistake if you open them. And they will save your debuging time. :-) – madper Nov 14 '12 at 7:46
If you're compiling with GCC, as you are, then using -Wall will save you from a lot of problems. I use some extra options too — sometimes, but not always, including -Wshadow. Because of the retrograde and archaic code I work with, I find -Wmissing-prototypes -Wstrict-prototypes -Wold-style-definition useful. I compile with -Wextra when I can, but that is a demanding standard of coding; I'd forgive some warnings under -Wextra (but very few of the warnings under the other options). Using -Werror keeps you honest, too. – Jonathan Leffler Nov 14 '12 at 8:00

Jonathan Leffler answered you your question.

I just want to add: if you write your code in c++, you don't need to typedef, so you can implement your list just like this:

struct list_el {
    int val;
    list_el *next;

bool delete_element(list_el *item)
    list_el *cur = NULL;
share|improve this answer

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