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I want to improve the readability of the code. So I commented the parameter's direction in the code like this:

#define IN
#define OUT

void Add(IN int Para1, IN int Para2, OUT int& Result);

But I think the compiler will replace every instance of IN and OUT with blank and it could be quite a problem some times.

So is there a better way? Thanks.

(I use C++.)

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I suppose once you become a bit more familiar with idiomatic, modern C++ style, you will find less and less need for this very C-style approach. – Kerrek SB Mar 2 '12 at 6:47
Is there really a use for anything but OUT? Almost all function arguments are IN types. Anyway, you can go a long way by using descriptive function names and avoid returning things in arguments. When all else fails, using a type and not a lexical indicator is probably better. (That is, write a utility type that requires the user of the function to type Add(1, 2, out(x)), where out returns some reference wrapper.) – GManNickG Mar 2 '12 at 6:48
Arguably, using such additional adornments decreases readability. The "direction" of the parameters is usually sufficiently expressed by their type, and whether they are pointers, references, etc. In cases of doubt (like a reference, which could be in/out), the name of the parameter should give a good indication (hence Result). – Christian.K Mar 2 '12 at 6:49
Clearly, the int parameters can only be IN parameters. Since the Result is not tagged const, it is probably an OUT parameter (or an INOUT parameter). The comments provide little benefit; they are noise. – Jonathan Leffler Mar 2 '12 at 6:51
As Kerreb wisely said, you will find yourself abandoning such practices as you become more comfortable with idiomatic C++. In fact, with C++11, you'll probably find yourself rarely even taking out parameters, as you have mechanisms like tuple at your disposal combined with efficient move semantics, and that also helps to create correct, thread-safe code. If you still feel so attached to this style though, perhaps a naming convention would be best: in_x, out_y. That's minimally intrusive. – stinky472 Mar 2 '12 at 7:10
up vote 6 down vote accepted

Yes: Forget those things and use constness. That will work as long as you don't have a "in" and "out" parameter, which is and should be rarely used.

void foo(int i, const std::string& s, std::vector<char>& out_buf);
// i and s are obviously "in" variables, while out_buf could be both, 
// but you can easily show that by giving the parameter a proper name.

Edit: And const correctness does not mean to make value parameters const! This doesn't give the caller any additional information at all, since you can't change his variables either way.

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Any time you pass an iostream to a function for it to use, it is an 'inout' parameter; it is used by the function but modified. – Jonathan Leffler Mar 2 '12 at 6:52

You can try to put it in comments. That is much better and readable.

void Add(/*IN*/ int Para1, /*IN*/ int Para2, /*OUT*/ int& Result);
share|improve this answer

I can think of two easy ways for this..


        /*Description : Function for adding the two variables.
        * Returns : Nothing 
        * Parameters : Para1 and Para2  are **IN** parameter and 
        * Result is an **OUT** parameter
        * @author : <put ur name here> 
    void Add(IN int Para1, IN int Para2, OUT int& Result);

apart from this basic information you can also store information such as version number, creation date etc.

2. You can also embed parameter type information with the variable name i.e inPara1, inPara2 and outResult. for example

 void Add(int inPara1,int inPara2,int& outResult);

one more thing I would recommend to use the camel case letters for variable and function name i.e. Para1 can be as para1 etc this will help you in future.

share|improve this answer

I use something like this

void Add(
    /* input parameters */
    int Para1,
    int Para2,
    /* output parameters */
    int& Result

This makes adding new parameters to the function easy since you do not have to mark each of them with input or output, they can just go to the corresponding section.

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You could make the 'IN' variables const, implying that they are never going to be modified, so must be input-only variables. The reference without a const could also signify that it will have its contents modified, so must be an 'OUT' variable. But really, just following a good variable naming convention should be enough. Calling a parameter 'Result' implies that it will be an 'OUT' variable in itself.

EDIT: As has been rightly mentioned by others, passing values like ints as const vars is probably not a good idea. Nonetheless, you should be able to infer whether a variable is an output one or not by the sheer fact that they always need to be references (or pointers). By making references that are input values const, that means all references that aren't const must be output values.

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Honestly, I would find the const irritating, knowing that the caller, would "see" any changes to the int parameters anyway. – Christian.K Mar 2 '12 at 6:51
I know, I wouldn't do it unless passing references personally, but I'm just putting this out there as a possible option... – Alex Z Mar 2 '12 at 6:53
I would have wrote this answer. – iammilind Mar 2 '12 at 6:54
See my post. const for value type parameters is just not really accepted, and should not be shown out of a "should we change this" discussion. However, the information to the caller is clearly given without the const, since you can't change his variables anyway. – cooky451 Mar 2 '12 at 6:55
@Christian.K, You are right this seems unfair use of const. – aProgrammer Mar 2 '12 at 6:56

Given that this is a stylistic question, it's going to provoke some subjective responses, including mine. :-)

There are procedural languages out there that do require that function parameters are defined as being input or output. In C++, that's largely unnecessary.

The general mindset that a modern C++ developer should have is one that focuses more on mutable vs. immutable, and interfaces over raw types and data.

When we look at a function like this:

void f(int x);

... a C++ developer can tell you at a glance that 'x' is used for input. Why? It's being passed by value. There is no way to modify 'x' in a way that has any impact on the caller and thus any argument passed to this function is not going to be modified.

That's also true of any const reference:

void f(const Foo& read_only_foo);

The above is definitely a strict input parameter. When we look at a function like this:

void f(int& x);

We can generally assume that f is going to modify x (it's not guaranteed, but knowing what f does should clear any doubt).

With user-defined types, it becomes a bit more hazy.

ostream& operator<<(ostream& os, const Foo& foo);

Here we know for sure that 'foo' is an input parameter since it is immutable. But what about 'os'? Is it an output parameter, input, both? In strict procedural languages, an output parameter would generally imply that the parameter will be changed, but we're also reading from it here, so it would be both. While we will be invoking methods in 'os' that have an effect on its state, it's not exactly the way we think of an output parameter in the procedural languages that support in/out parameters natively.

The point is that this strict I/O way of thinking about parameters can get downright confusing with these kinds of high-level interfaces and object-oriented design. A more useful way to look at things here tends to be whether the object implementing the interface is mutable or immutable. Here, 'os' is mutable. The function is generally saying that it's going to be invoking some functions that modify its state.

How about this?

// fills the specified list with stuff
void some_list(list<int>& out_list);

Here it tends to go along, perhaps more naturally, with the sort of semantics we expect of an output parameter. With something like filling a list, we tend to think of it more intuitively as the function outputting a result through the list. I even prefixed the name with 'out' to emphasize that. But actually, and especially with C++11, we shouldn't be writing such things as Stroustrup emphasizes:

// returns a new list filled with stuff
list<int> some_list();

That actually leaves very few places left where the in/out distinction could be arguably very useful at all (and not redundant with the means already provided to mark parameters as mutable/immutable, by value, reference, pointer, or r-value reference).

Combined with clear documentation about what the function is doing, there is generally no ambiguity about how it works with its parameters, so in/out conventions tend to do very little but add a lot of extra code, and may promote a more data-oriented mindset which you should be trying to get away from.

All in all, I'd suggest trying to avoid this convention all together. Even if there are good arguments in favor of it, it's just not what people tend to do in C++. And if you want people to enjoy working with your code and not getting frustrated, you have to learn to go along with what the common masses tend to understand and like. Anything too exotic will frighten people away.

If you're absolutely, fanatically attached to designating everything as being in or out, I recommend a minimally intrusive solution like a documentation style or naming convention. Definitely avoid macros that do nothing. That will require your readers to check every time that these macros do, indeed, do nothing. A naming convention or documentation style requires no such checking.

Finally, a little quote from the creator of C++ himself:

The first rule about macros is: Don't use them unless you have to. Almost every macro demonstrates a flaw in the programming language, in the program, or in the programmer. -- Bjarne Stroustrup

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There are two sides to this: the function signature, and the call site. You're focused on the signature, so I'll address that first. Notes:

  • constness communicates and enforces potential modifications by the function
  • Having consistent API conventions for a library can help the library and client-code programmers, e.g.:
    • Returning the output (which may mean having to use a tuple, container or custom struct), while keeping function parameters for inputs.
    • Denoting something about the function through identifiers and parameter ordering; personally, if I write a function that may change a parameter, I tend to name that function loadXXX() and put the output first. Other libraries I've seen consistently put outputs last. It's an arbitrary choice, but consistency helps. Similarly, you could name output parameters differently....
  • Comments / documentation

At the client call site, when passing a non-const argument it's unclear what might happen to it.

  • Again, the loadXXX, group outputs first/last, and prefer-to-return-output(s) - getXXX - conventions mentioned above help the client too.
  • Passing output parameters by pointer is a time-honoured but controvertial practice, which IMO is not particularly popular within current professional C++ programmers, but can read nicely and add genuine value. The C++ FAQ addresses most of the issues, but comes to different conclusions than me.
  • You can cast non-const parameters to const to communicate at the call site that they won't be modified, but that's verbose and tedious, and the practice can't be enforced by the compiler (the compiler will prevent the called function modifying those parameters, but not force a caller providing a parameter the function accepts as const to explicitly cast it to const).

Some of these things can be "forced" with proxy objects, but it would make your code virtually unreadable and unmaintainable.

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Use proper language constructs, not artifacts.

Using IN and OUT doesn't grant they are really IN and OUT. It's like the Hungarian notation, that calls WPARAM something that was a word and today is a long.

  • pass by value (int) is an IN that you can modify
  • pass by const ref (const int&) is an IN that behave as a constant in the function
  • pass by reference (int&) is an OUT that must be there
  • pass a const pointer (const int*) is a IN that can also be not given (null pointer)
  • pass a pointer (int*) is an OUT that can also be not given (null pointer)

The advantage of using proper language construct is that improper usage will result in compilation error (so that you're forced to correct the problem) while IN and OUT will never produce any sort of error in code, and you risk to introduce a formal convention that -after a certain number of maintenance releases- can be even lie to itself.

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