Could someone exactly explain the concept of
extern variables in C? The declaration, exact use of
extern and its scope.
Could someone exactly explain the concept of
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It is important to understand the difference between defining a variable and declaring a variable:
You may declare a variable multiple times (though once is sufficient); you may only define it once within a given scope.
Best way to declare and define global variables
Although there are other ways of doing it, the clean, reliable way to declare and define global variables is to use a header file
That's the best way to use them.
Rules to be broken by experts only, and only with good reason:
Not so good way to define global variables
With some (indeed, many) C compilers, you can get away with what's called a 'common' definition of a variable too. 'Common', here, refers to a technique used in Fortran for sharing variables between source files, using a (possibly named) COMMON block. What happens here is that each of a number of files provides a tentative definition of the variable. As long as no more than one file provides an initialized definition, then the various files end up sharing a common single definition of the variable:
This technique does not conform to the letter of the C standard and the 'one definition rule', but the C standard lists it as a common variation on its one definition rule.
Because this technique is not always supported, it is best to avoid using it, especially if your code needs to be portable. Using this technique, you can also end up with unintentional type punning. If one of the files declared
This is mentioned in the C standard in informative Annex J as a common extension:
As noted in comments here, and as stated in my answer to a similar question, using multiple definitions for a global variable leads to undefined behaviour, which is the standard's way of saying "anything could happen". One of the things that can happen is that the program behaves as you expect; and J.5.11 says, approximately, "you might be lucky more often than you deserve". But a program that relies on multiple definitions of an extern variable - with or without the explicit 'extern' keyword - is not a strictly conforming program and not guaranteed to work everywhere. Equivalently: it contains a bug which may or may not show itself.
Violating the guidelines
Note 1: if the header defines the variable without the
Then each file that includes the header creates a tentative definition of the variable.
Note 2: if the header defines and initializes the variable, then only one source file in a given program can use the header:
Note 3: if the header defines a static variable (with or without initialization), then each source file ends up with its own private version of the 'global' variable.
When the variable is actually a complex array, this can lead to extreme duplication of code. It can, very occasionally, be a sensible way to achieve some effect, but that is rather unusual.
Use the header technique I showed first. It works reliably and everywhere. Note, in particular, that the header declaring the
Similar concerns arise with declaring and defining functions - analogous rules apply. But the question was about variables specifically, so I've kept the answer to variables only.
End of Original Answer
Late Major Addition
Avoiding Code Duplication
One concern that is sometimes (and legitimately) raised about the 'declarations in headers, definitions in source' mechanism described here is that there are two files to be kept synchronized - the header and the source. This is usually followed up with an observation that a macro can be used so that the header serves double duty - normally declaring the variables, but when a specific macro is set before the header is included, it defines the variables instead.
Another concern can be that the variables need to be defined in each of a number of 'main programs'. This is normally a spurious concern; you can simply introduce a C source file to define the variables and link the object file produced with each of the programs.
A typical scheme works like this, using the original global variable
The problem with this scheme as shown is that it does not provide for initialization of the global variable. With C99 and variable argument lists for macros, you could define macros to support initialization too. You probably need two such macros, one for simple initializers with no commas, and a second for complex initializers containing commas:
Clearly, the code for the oddball structure is not what you'd normally
write, but it illustrates the point. The first argument to the second invocation of
Any header should be protected against reinclusion, so that type definitions (enum, struct or union types, or typedefs generally) do not cause problems. The standard technique is to wrap the body of the header in a header guard:
The header might be included twice indirectly. For example, if
Further, it starts to get tricky because you might include
So, you need to include the body of
Multiple inclusion with variable definitions
However, it can be done subject to a not too unreasonable constraint. Let's introduce a new set of file names:
In these examples,
The restrictions for this to work are:
This scheme avoids most problems. You only run into a problem if a
header that defines variables (such as
You can partially work around the problem by revising file2c.h to:
file2c.h - revised
The issue becomes 'should the header include
in the source code (so the headers never alter the value of
This is getting a tad convoluted, but seems to be secure (using the
revised version of
However, the problems are relatively unlikely to occur in practice, especially if you take the standard advice to
Avoid global variables
Does this exposition miss anything?
Confession: The 'avoiding duplicated code' scheme outlined here was
developed because the issue affects some code I work on (but don't own),
and is a niggling concern with the scheme outlined in the first part of
the answer. However, the original scheme leaves you with just two
places to modify to keep variable definitions and declarations
synchronized, which is a big step forward over having exernal variable
declarations scattered throughout the code base (which really matters
when there are thousands of files in total). However, the code in the
files with the names
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Say you have two
Extern is the keyword you use to declare that the variable itself resides in another translation unit.
So you can decide to use a variable in a translation unit and then access it from another one, then in the second one you declare it as extern and the symbol will be resolved by the linker.
If you don't declare it as extern you'll get 2 variables named the same but not related at all, and an error of multiple definitions of the variable.
extern tells the compiler to trust you that the memory for this variable is declared elsewhere, so it doesnt try to allocate/check memory.
Therefore, you can compile a file that has reference to an extern, but you can not link if that memory is not declared somewhere.
Useful for global variables and libraries, but dangerous because the linker does not type check.
I like to think of an extern variable as a promise that you make to the compiler.
When encountering an extern, the compiler can only find out its type, not where it "lives", so it can't resolve the reference.
You are telling it, "Trust me. At link time this reference will be resolvable."
The correct interpretation of extern is that you tell something to the compiler. You tell the compiler that, despite not being present right now, the variable declared will somehow be found by the linker (typically in another object (file)). The linker will then be the lucky guy to find everything and put it together, whether you had some extern declarations or not.
extern Allows one module of your program to access a global variable or function declared in another module of your program. You usually have extern variables declared in header files. If you don't want a program to access your variables or functions, you use static which tells the compiler that this variable or function cannot be used outside of this module.
first of extern keyword is not used for defineing variable rather it is used for declaring variable. I can say extern is storage class not datatype.
extern is used to let other c file / externalComponent know know this variable is already defined somewhere, Example if you building a library no need define global variable mandatarily some where in library itself. library will be compiled directly but while linking the file it checks for the definition.
extern keyword is used with the variable for its identification as a global variable.
In C a variable inside a file say example.c is given local scope. The compiler expects that the variable would have its definition inside the same file example.c and when it does not find the same , it would throw an error.A function on the other hand has by default global scope . Thus you do not have to explicitly mention to the compiler "look dude...you might find the definition of this function here". For a function including the file which contains its declaration is enough.(The file which you actually call a header file).
For example consider the following 2 files :
Now when you compile the two files together, using the following commands :
step 1)cc -o ex example.c example1.c step 2)./ex
You get the following output : The value of a is <5>