I have a c file that starts with a struct I am calling stringtable, looks like this
struct stringtable {
int table[];
int numElements = 15;
};
And I have a header for it that has this typedef
typedef stringtable *stringtable_ref;
When I compile with gcc I get the errors:
expected identifier or '(' before '[' token
expected ':' before 'int'
like I have declared the struct wrong. I have done structs in C like this before so my question is: Am I making a mistake declaring my struct? Does it need to have a tag before the semicolon? Are there only certain places I am allowed to declare a struct?
struct stringtable {
int table[];
int numElements = 15;
};
A flexible array member like int table[]; can only be the last member of a struct (with at least one more member).
And you can't assign a default value to a member in a struct declaration, C doesn't support that.
Unless you have a static member in your struct, you cannot initialize the members upon declaration.
You need to create an instance of your struct before initalizing the members:
struct stringtable str_table;
str_table.numElements = 15;
//etc
I would also expect that you need in the header typedef struct stringtable *stringtable_ref
Related
Learning C recently and came across this problem
struct myStruct {
int a;
float b;
struct thisStruct c;
};
struct thisstruct {
int d;
float e;
struct myStruct c;
};
'struct thisStruct c;' returns an error, but not 'struct myStruct c;'. Why is this so?
For starters there is a typo in the presented code snippet.
struct myStruct {
int a;
float b;
struct thisStruct c;
};
struct thisstruct {
int d;
float e;
struct myStruct c;
};
It seems you mean that the second declaration declares a structure with the name thisStruct instead of the name thisstruct.
As for your question then according to the C Standard (6.7.2.1 Structure and union specifiers)
3 A structure or union shall not contain a member with incomplete or
function type (hence, a structure shall not contain an instance of
itself, but may contain a pointer to an instance of itself), except
that the last member of a structure with more than one named member
may have incomplete array type; such a structure (and any union
containing, possibly recursively, a member that is such a structure)
shall not be a member of a structure or an element of an array
In this structure declaration
struct myStruct {
int a;
float b;
struct thisStruct c;
};
the type struct thisStruct is an incomplete type. Its size is unknown. You may declare a pointer of this structure type like
struct myStruct {
int a;
float b;
struct thisStruct *c;
};
because pointer types are always complete types. Their sizes are known.
Otherwise in these declarations
struct myStruct {
int a;
float b;
struct thisStruct c;
};
struct thisStruct {
int d;
float e;
struct myStruct c;
};
you have an infinite recursion. That is the definition of the data member
struct thisStruct c;
includes the definition of the structure thisStruct that in turn again includes the definition of the structure myStruct and so on.
This C code too, like every other C code, can be regarded as parsed from top to bottom. Therefore at the point where you declare struct thisStruct c, the compiler has no idea what that type is, because it has not yet seen that struct definition.
You could declare pointers to structs before the compiler knows what those structs are, by forward declaring the struct:
struct thisStruct;
struct myStruct {
int a;
float b;
struct thisStruct* c;
};
However, this means you have to use pointers.
That being said, a program design of some X containing an Y containing an X is very likely nonsense. I very much doubt there exists a valid scenario where you would need that. Reconsider your design.
As the C compiler does not know the size of the struct or union which was not yet declared it cant place such a struct or union inside other data structure. Only pointer (as size of pointer is known to the compiler) to not yet declared structure or union can be used.
My problem is that car_name_str could not be resolved. Why is it not callable and I want to keep the code structure?
I want to keep the structure as struct with union and enum (different datatypes).
Template: How can mixed data types (int, float, char, etc) be stored in an array?
//car_union.h
typedef struct {
enum { number_of_seats_int, car_cost_float, car_name_str } type;
union {
int number_of_seats;
float car_cost;
char* car_name;
} value;
}Car_data_ex[30][3];
extern Car_data_ex *Car_data[30][3];
//fill_car.c
#include "car_union.h"
Car_data_ex *Car_data[30][3];
Car_data[0][0]->type = car_name_str; //-> because pointer but doesnt work
Car_data[0][0]->value->car_name= "land rover";
Car_data[0][1]->type = car_cost_float; //doesnt work
Car_data[0][1]->value->car_cost= 45000;
Just remove the [30][3] from the type def, like this
#include <stdio.h>
//car_union.h
typedef struct {
enum { number_of_seats_int, car_cost_float, car_name_str } type;
union {
int number_of_seats;
float car_cost;
char* car_name;
} value;
}Car_data_ex;
extern Car_data_ex *Car_data[30][3];
int main() {
Car_data_ex *Car_data[30][3];
Car_data[0][0]->type = car_name_str; //-> because pointer but doesnt work
Car_data[0][0]->value.car_name= "land rover";
Car_data[0][1]->type = car_cost_float; //doesnt work
Car_data[0][1]->value.car_cost= 45000;
}
Regardless of what's in your struct, when you do
typedef struct Car_dataStructTag{
//...
}Car_data_ex[30][3];
(I've tagged the struct so it can be referred to by struct Car_dataStructTag),
then Car_data_ex is a type alias resolving to struct Car_dataStructTag [30][3]
which means
extern Car_data_ex *Car_data[30][3];
is fully equivalent to
extern struct Car_dataStructTag (*Car_data[30][3])[30][3];
which means Car_data[x][y] is a pointer to a two-dimensional array of struct Car_dataStructTag,
which is definitely not something you can apply -> to.
Try:
typedef struct Car_dataStructTag{
//...
}Car_data_ex[30][3];
extern Car_data_ex *Car_data[30][3];
extern struct Car_dataStructTag (*Car_data[30][3])[30][3];
in a compiler -- it gets accepted, confirming the declaration equivalence.
Running into situations such as this one is why it's generally considered ill-advisable to typedef arrays or pointers.
You have over complexified everything.
A typedef is just to give an alias to a (complex) type. Here the type is a struct containing an enum and an union. So it should be:
typedef struct {
enum { number_of_seats_int, car_cost_float, car_name_str } type;
union {
int number_of_seats;
float car_cost;
char* car_name;
} value;
}Car_data_ex;
Next, using an array of pointers can make sense, but provided each pointer in the array does point to a true object. Here you only want a plain (2D) array:
Car_data_ex Car_data[30][3];
Once this has been done, you can write with no error or warning:
Car_data[0][0].type = car_name_str;
Car_data[0][0].value.car_name= "land rover";
Car_data[0][1].type = car_cost_float;
Car_data[0][1].value.car_cost= 45000;
And you should avoid extern Car_data_ex Car_data[30][3];. It declares a global array, that will have to be defined in one single compilation unit (.c file). Here again, it can make sense, but IMHO it is a rather advanced feature that can be hard to correctly use. And nothing in the shown code lets think that is is required...
How can I typedef a struct but still keep the new type namespaced under the keyword 'struct'?
example:
struct foo {
int x;
};
typedef struct foo struct bar;
int main(void) {
struct bar bar;
bar.x = 10;
return 0;
}
but this doesn't work obviously.
Here are the errors if anyone is curious:
main.c:5:20: error: two or more data types in declaration specifiers
typedef struct foo struct bar;
^
main.c:5:27: warning: useless storage class specifier in empty declaration
typedef struct foo struct bar;
^
main.c: In function 'main':
main.c:9:13: error: storage size of 'bar' isn't known
struct bar bar;
How can I typedef a struct but still keep the new type namespaced under the keyword 'struct'?
So, it seems that you want to define a structure alias for another structure type.
This is not possible with typedef as it creates a single word alias. The new alias can't be consisted of multiple white space separated words.
But you can use a single name like struct_bar with struct implemented inside of the name to show that bar is a structure.
#include <stdio.h>
struct foo {
int x;
};
typedef struct foo struct_bar;
int main(void) {
struct_bar bar;
bar.x = 10;
return 0;
}
How can I typedef a struct but still keep the new type namespaced under the keyword 'struct'?.
You cannot. A namespace is a declarative region that provides a scope to the identifiers (names of the types, function, variables etc) inside it. The concept of Namespace as it is defined within C++, is not inherent in C.
So, if you are okay with minor changes in your requirements, instead of doing something unnatural, use a simple typedef:
Instead of this:
struct foo {
int x;
};
do this:
typedef struct {
int x;
}foo;
Then this will work:
typedef foo bar;
int main(void )
{
bar b;
b.x = 10;
return 0;
}
Note: Although namespaces are not inherent in in C, as they are in C++, there are some interpretations eg: as discussed here, that argue the point.
C doesn't have any type of support for namespaces (at least not in the sense that C++ does).
When you create a typedef, the new type name is a single identifier, not multiple words. So struct bar can't be an alias for another type. You would have to call it bar or some other one-word name.
You can't. This isn't how it works.
You cannot "create" a type whose name is more than one word, nor can you refer to a type alias using the keyword struct.
The purpose of writing struct, in this context, is to refer to a struct type by a name that wasn't introduced as an alias. The keyword is there to say that that's what you want to do. But it's not part of the name; it cannot be part of the name.
Fortunately, there's no reason to need or even want this.
I found a solution that works for cygwin:
struct foo {
int x;
};
struct bar {
struct foo;
};
Is the following, at file scope, a type declaration or an unnamed variable?
struct student_s {
char* name;
int age;
double height;
struct student_s* next;
};
If it is a type definition, then what is the difference with:
typedef struct student_s {
char* name;
int age;
double height;
struct student_s* next;
};
?
(Background: see my answer at Changing a variable from global to local - C, where I believe the first introduces an unnamed variable that is then optimized away by the compiler.)
Note: the question has been flagged as a possible duplicate of In what scope is a struct member identifier put? but I believe I am not asking a question about the scope of the members but about what the declarations actually create. However. answers to Difference between 'struct' and 'typedef struct' in C++? do explain my question.
As per the C standard, a structure declaration in the form like
struct student_s {
char* name;
int age;
double height;
struct student_s* next;
};
is the declaration of a type. Quoting C11, chapter ยง6.7.2.1
The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit. The struct-declaration-list is a sequence of declarations for the members of the structure or union. [...]
C standard does not mandate creating a variable (either named or unnamed) for that type.
In your second snippet, you actually (try to) typedef to nothing. However, if you change your snippet to the form of
typedef struct {
//.....members
} student_s ;
you'll be creating a type student_s (typedef to an unnamed structure type) which you can use later.
FWIW, we never talked about a variable being created here, anyways. It's all about types.
First declaration declares a type. After that declaration, the type struct student_s is known, and you can declare variables of that type or pointer to it :
struct student_s student1;
struct student_s *pStudent;
The second declaration is weird even if is compiles. The common usage would be :
typedef struct {
char* name;
int age;
double height;
struct student_s* next;
} studend_t;
which declares an alias student_t to an anonymous struct. It can then be used directly :
student_t student1;
student_t *pStudent;
BUT THE SECOND EXAMPLE DOES COMPILE (even with a warning) AND IS THE SAME AS FIRST ONE !
What it really does is to declare a void alias to struct student_s. The typedef is ignored and produces a warning : typedef requires a name, but as a side effect, the struct is declared, exactly as it was in first example.
So the true answer to the actual question is THERE ARE NO DIFFERENCES except for a warning.
Both are type definitions. The second one is one incomplete. It doesn't supply a name as the the argument of typedef. Much better is to use
typedef struct student_s {
char* name;
int age;
double height;
struct student_s* next;
} student;
Regarding the legality of
typedef struct student_s {
char* name;
int age;
double height;
struct student_s* next;
};
I've asked that as a separate question, Legality of `typedef struct foo {int bar};`
It's a type, and you can't have an anonymous instance of a struct. For comparison, this declares both the type struct_type and an instance struct_instance of that type:
struct struct_type {
/* blah */
} struct_instance;
If you wanted to declare another instance in isolation (from the type decl) you'd use
struct struct_type another_instance;
The use of typedef - if done correctly, unlike your example - just allows you to give the type another name which doesn't require the struct keyword to declare an instance:
typedef struct_type MyStruct;
MyStruct yet_another_instance;
or equivalently
typedef struct struct_type {
/* blah */
} MyStruct;
omitting the name (struct_type) gives you an anonymous struct type which can only referred to by its typedef'd name.
Note 1
Since your original struct contains a next pointer to its own type, that type must have a name at the point the member is declared. So, you cannot declare an anonymous struct with a self-typed pointer. If you give your anonymous struct type a name with typedef, that name doesn't exist until after the member declaration, so can't be used there.
typedef struct /*S*/ {
struct S *next; /* T doesn't exist yet, so without S, you can't declare this */
} T;
Note 2
You can declare an anonymous instance of an anonymous union, as a member:
struct S {
union {
int i;
unsigned u;
};
};
struct S s;
s.i = -1;
printf("%x\n", s.u);
but that's a very special case. I took the remark about this out of the main argument, in case it was misleading.
struct A { ... }
creates struct 'A' visible in struct namespace (which has nothing common with C++ namespaces). So, to access struct you have to use struct keyword;
struct A a;
When defined with typedef struct
typedef struct A { ... } B;
becomes visible and bound to B, and you can easily create struct like common variable of type B
B a;
Please, correct me someone, if I am wrong.
The difference is that with the first example, you have to declare a new variable like this: struct student_s variable;, however with the second example, you may simply do student_s variable;.
I am new to C and I want to know how to access elements inside a structure which is placed inside a structure.
struct profile_t
{
unsigned char length;
unsigned char type;
unsigned char *data;
};
typedef struct profile_datagram_t
{
unsigned char src[4];
unsigned char dst[4];
unsigned char ver;
unsigned char n;
struct profile_t profiles[MAXPROFILES];
} header;
How to access elements inside profile_t??
struct profile_t;
The above statement doesn't create an object of type profile_t. What you need to do is -
struct profile_t inObj ;
Then create object for profile_datagram_t. i.e.,
header outObj ; // header typedef for profile_datagram_t
Now you can access elements like -
outObj.inObj.type = 'a' ; // As an example
In C++, while creation of object for a structure, struct key word isn't necessary.
On your question edit and comment :
struct profile_t profiles[MAXPROFILES];
profiles is an array of objects of type profile_t. To access the individual object, just use the [] operator. i.e.,
header obj ;
obj.profiles[0].type = 'a' ; // Example
obj.profiles[i], where i can take values from 0 to MAXPROFILES - 1, gives the object at index i.
Not sure what happends in C, but in C++, rest of the stuff aside, the following declares two types.
struct profile_datagram_t
{
struct profile_t;
};
One type is named profile_datagram_t and the other is called profile_datagram_t::profile_t. The inner type declaration is just a forward declaration, so you'll need to define the type after.
struct profile_datagram_t::profile_t
{
// ...
};
Then, you can use the struct as follows:
int main ( int, char ** )
{
profile_datagram_t::profile_t profile;
}
Some compilers support a nonstandard extension to the C language (that I actually rather like, despite it being nonstandard) called anonymous structs (or unions). Code demonstration:
struct x {
int i;
};
struct y {
struct x;
};
int main(void)
{
struct y;
y.i = 1; // this accesses member i of the struct x nested in struct y
return 0;
}
In a nutshell, if you don't give the struct (or union) member a name, you can access its members directly from the containing struct (or union). This is useful in situations where you might have given it the name _, and had to do y._.i - the anonymous struct syntax is much simpler. However, it does mean that you have to remember the names of all members of both structs and ensure they never clash.
This is all, of course, a nonstandard extension, and should be used with caution. I believe it works on MSVC and can be enabled in GCC with a switch. Don't know about any other compilers. If you're worried about portability, give the member a proper name.
EDIT: According to the GCC reference (below) this behavior is being added to the upcoming C1X standard, so it won't be nonstandard for long. I doubt MSVC will support C1X since they refuse to support C99 as it is, but at least this feature is becoming part of the standard.
However, the behavior shown above is MSVC only. The C1X (and GCC without the -fms-extensions switch) syntax doesn't allow the unnamed struct member to have a name:
struct y {
struct {
int i;
};
};
int main(void) {
struct y;
y.i = 1; // this accesses member i of the struct x nested in struct y
return 0;
}
References for various compilers (they have different names but are the same concept):
GCC (unnamed fields): http://gcc.gnu.org/onlinedocs/gcc/Unnamed-Fields.html'
MSVC (anonymous structs): http://msdn.microsoft.com/en-us/library/z2cx9y4f.aspx
Basically you can use the following format:
variable = profile_t.element
profile_t.element = ?
EDIT: In your declaration of profile_datagram_t, the proper definition for struct profile_t should be:
struct profile_t someProfile;
Let's say you have:
header profileDiagram1;
struct profile_t profile1;
profileDiagram1.someProfile = profile1;
To access length, type or *data from profile_t:
profileDiagram1.someProfile.type;
profileDiagram1.someProfile.length;
...