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Hey I am getting this error:

error: conversion to non-scalar type requested

Here are my structs:

typedef struct value_t value;

struct value{
   void* x;
   int y;
   value* next;
   value* prev;

typedef struct key_t key;

struct key{
   int x;
   value * values;
   key* next;
   key* prev;

Here is the code that is giving me problems:

struct key new_node = (struct key) calloc(1, sizeof(struct key));
struct key* curr_node = head;

new_node.key = new_key;

struct value head_value = (struct value) calloc(1, sizeof(struct value))

Am I not suppose to use calloc on structs? Also, I have a struct that I have created and then I want to set that to a pointer of that same struct type but getting an error. This is an example of what I am doing:

struct value x;
struct value* y = *x;

this gives me this error

error: invalid type argument of ‘unary *’

When I do y = x, I get this warning:

warning: assignment from incompatible pointer type
share|improve this question
You learn C by asking questions and trying different things out.. as well as reading and such. People like you are so discouraging. Seriously? You couldn't write anything constructive? – BigBug Jan 26 '12 at 2:14
up vote 12 down vote accepted

You are trying to assign a pointer expression (the return type of malloc() and friends is void*) to a struct type (struct new_node). That is nonsense. Also: the cast is not needed (and possibly dangerous, since it can hide errors)

struct key *new_node = calloc(1, sizeof *new_node);

the same problem with the other malloc() line:

struct value *head_value = calloc(1, sizeof *head_value);

More errors: You are omitting the 'struct' keyword (which is allowed in C++, but nonsense in C):

struct key{
   int x;
   struct value *values;
   struct key *next;
   struct key *prev;

UPDATE: using structs and pointers to struct.

struct key the_struct;
struct key other_struct;
struct key *the_pointer;

the_pointer = &other_struct; // a pointer should point to something

the_struct.x = 42;
the_pointer->x = the_struct.x; 

 /* a->b can be seen as shorthand for (*a).b :: */
(*thepointer).x = the_struct.x;

/* and for the pointer members :: */ = the_pointer;
the_pointer->next = malloc (sizeof *the_pointer->next);
share|improve this answer
a pointer type IS a scalar type. It's the structure type which is not a scalar type (structure types are of aggregate type). – ouah Jan 26 '12 at 0:32
Oops. My bad. What should I call it than? object? too confusing, IMHO. Pointer versus non-pointer seems more adequate. – wildplasser Jan 26 '12 at 0:46
If I just wanted a struct, could I just do "struct key new_node;" and not have to allocate the memory? or do I have to allocate the memory first? – user972276 Jan 26 '12 at 0:47
@user972276: struct key new_node; allocates the memory on the stack so you don't have to manage it by hand. – Borealid Jan 26 '12 at 0:49
struct key new_node; is Ok, but: it allocates an automatic variable ("on the stack") which will get out of scope ("becomes invalid") once the function returns. (thus: you cannot return a pointer to it, because the object ceases to exist once the function returns) – wildplasser Jan 26 '12 at 0:51

I don't think you've correctly understood typedefs.

The common idiom with using typedefs for convenience naming is this:

struct foo {
    int something;

typedef struct foo foo_t;

Then you use the type foo_t instead of the less convenient struct foo.

For convenience, you can combine the struct declaration and the typedef into one block:

typedef struct {
    int something;
} foo_t;

This defines a foo_t just like the above.

The last token on the typedef line is the name you're assigning. I have no idea what the code you wrote is actually doing to your namespace, but I doubt it's what you want.

Now, as for the code itself: calloc returns a pointer, which means both your cast and your storage type should be struct key* (or, if you fix your naming, key_t). The correct line is struct key* new_node = (struct key*)calloc(1, sizeof(struct key));

For your second, independent, issue, the last line should be struct value* y = &x;. You want y to store the address of x, not the thing at address x. The error message indicates this - you are misusing the unary star operator to attempt to dereference a non-pointer variable.

share|improve this answer
Please don't throw in typedefs yet. The poor guy is already confused beyond understanding. Ooops sorry: the OP started it. I overlooked it. – wildplasser Jan 26 '12 at 0:22
+1, except that you shouldn't name types ending with _t because POSIX reserves these. It'll be alright for your own code and for small apps but any code destined for distribution or portability should avoid it. – dreamlax Jan 26 '12 at 0:23
struct key new_node = (struct key) calloc(1, sizeof(struct key)); 

calloc returns a pointer value (void *), which you are trying to convert and assign to an aggregate (IOW, non-scalar) type (struct key). To fix this, change the type of new_node to struct key * and rewrite your allocation as follows:

struct key *new_node = calloc(1, sizeof *new_node);

Two things to note. First of all, ditch the cast expression. malloc, calloc, and realloc all return void *, which can be assigned to any object pointer type without need for a cast1. In fact, the presence of a cast can potentially mask an error if you forget to include stdlib.h or otherwise don't have a declaration for malloc in scope2.

Secondly, note that I use the expression *new_node as the argument to sizeof, rather than (struct key). sizeof doesn't evaluate it's operator (unless it's a variable array type, which this isn't); it just computes the type of the expression. Since the type of the expression *new_node is struct key, sizeof will return the correct number of bytes to store that object. It can save some maintenance headaches if your code is structured like

T *foo;
... // more than a few lines of code
foo = malloc(sizeof (T))

and you change the type of foo in the declaration, but forget to update the malloc call.

Also, it's not clear what you're trying to accomplish with your typedefs and struct definitions. The code

typedef struct value_t value;  

struct value{
   void* x;
   int y;
   value* next;
   value* prev;

isn't doing what you think it is. You're creating a typedef name value which is a synonym for an as-yet-undefined type struct value_t. This value type is different from the struct value type you create later (typedef names and struct tags live in different namespaces). Rewrite your structs to follow this model:

struct value_t {
  void *x;
  int y;
  struct value_t *next;
  struct value_t *prev;

typedef struct value_t value;

Also, life will be easier if you write your declarations so that the * is associated with the declarator, not the type specifier3. A declaration like T* p is parsed as though it were written T (*p). This will save you the embarrassment of writing int* a, b; and expecting both a and b to be pointers (b is just a regular int).

1 - This is one area where C and C++ differ; C++ does not allow implicit conversions between void * and other object pointer types, so if you compile this as C++ code, you'll get an error at compile time. Also, before the 1989 standard was adopted, the *alloc functions returned char *, so in those days a cast was required if you were assigning to a different pointer type. This should only be an issue if you're working on a very old system.

2 - Up until the 1999 standard, if the compiler saw a function call without a preceding declaration, it assumed the function returned an int (which is why you still occasionally see examples like


in some tutorials; main is implicitly typed to return int. As of C99, this is no longer allowed). So if you forget to include stdlib.h and call calloc (and you're not compiling as C99), the compiler will assume the function returns an int and generate the machine code accordingly. If you leave the cast off, the compiler will issue a diagnostic to the effect that you're trying to assign an int value to a pointer, which is not allowed. If you leave the cast in, the code will compile but the pointer value may be munged at runtime (conversions of pointers to int and back to pointers again is not guaranteed to be meaningful).

3 - There are some rare instances, limited to C++, where the T* p style can make code a little more clear, but in general you're better off following the T *p style. Yes, that's a personal opinion, but one that's backed up by a non-trivial amount of experience.

share|improve this answer

calloc(3) returns a pointer to the memory it allocates.

struct key new_node = (struct key) calloc(1, sizeof(struct key));

should be

struct key* new_node = calloc(1, sizeof(struct key));
share|improve this answer

You should not assign a pointer to a non-pointer variable. Change new_node to be a pointer.

Also, to use the address of variable, you need &, not *, so change it to struct value* y = &x;

Edit: your typedefs are wrong too. reverse them.

share|improve this answer

For the second problem, you want to use an ampersand "&" instead of an astrisk "*". An astrisk dereferences a pointer, an ampersand gives you the pointer from the value.

share|improve this answer
when I use an ampersand, I still get the error – user972276 Jan 26 '12 at 0:52
@user972276 this is the section I was talking about: struct value* y = *x; should be: struct value * y = &x; – JKor Jan 26 '12 at 1:03

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