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I'm having a scenario where I need to add a vector as an input/output [reference]parameter to existing legacy code. And in order to avoid any errors, I need to make it a default parameter.

Could someone please suggest how to add a vector as a default parameter to a method. I'm actually dubious if this is possible. Also, if this is possible, with what vallue should the vector be intialized with?

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You might need to rethink your design. If the input/output reference is optional, either make a new function, or just return in from the function instead of passing it as an argument. – rubenvb Aug 4 '11 at 14:44
The problem is not vector; the problem is providing a default value for a reference parameter. You'd have the same issue with an int&. – MSalters Aug 4 '11 at 14:50

6 Answers 6

up vote 5 down vote accepted

I suggest overloading the method:

void foo(double otherParameter);
void foo(double otherParameter, std::vector<int>& vector);

inline void foo(double otherParameter)
    std::vector<int> dummy;
    foo(otherParameter, dummy);

An alternative design, which explicitly says that vector is an option in/out parameter, is:

void foo(double parameter, std::vector<int>* vector = 0);

Yes, a raw pointer -- we're not taking ownership of it, so smart pointers are not really needed.

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Overloading can work to produce the correct result. – Puppy Aug 4 '11 at 14:44
This smells. Your answer is good, but passing the dummy vector to forget it afterwards points how smelly OP's design is. – Alexandre C. Aug 4 '11 at 14:58
@Alexandre C. There is no pleasing some people :P – quant_dev Aug 4 '11 at 14:59
yes. Overloading resolves my issue. One thing I would like to get clarified is that this orignal method is a virtual method. so, should the new overloaded method be virtual too? Correct me, if Im wrong, but I dont think that it need to be right? – Pavan Aug 4 '11 at 16:00
Since it calls the other virtual method, it doesn't have to be. – quant_dev Aug 4 '11 at 16:02

You can't do that, because a mutable lvalue reference will not bind to an rvalue. Either you use const and give up the out part of the param, so you can assign it a default value, or you use a mutable lvalue reference and force the caller to pass something in.

Edit: Or you can write an overload- I hadn't considered that. It's not doable in a single signature, at least.

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This is correct. Why the downvote ? – Alexandre C. Aug 4 '11 at 14:43
@DeadMG If I use a const for the default parameter, then it means that if I chose, to use it, I cannot modify it futher right? – Pavan Aug 7 '11 at 9:38

You can add another overload for the legacy calls.

void f(int param)
    std::vector<type> dummy;

    f(param, dummy);   // call the modified function
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Use a pointer:

void foo(legacy_parameters, std::vector<int>* pv = 0);
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Oh yes, and add a runtime !=0 check. Ugh... – rubenvb Aug 4 '11 at 14:51
@rubenvb: I wouldn't do this in the first place. I'd make a new method foo_ex or foo2 with the extra argument, and pragma-deprecate the other. But since the OP wants pass by reference semantics, the pointer is something clean, since you can test if the caller doesn't want to provide the argument. – Alexandre C. Aug 4 '11 at 14:55

If the default parameter has to be non-const reference type then you can do this:

//original function
void f(std::vector<int> & v) //non-const reference

//just add this overload!
void f()
     std::vector<int> default_parameter;
     //fill the default_parameter

If the default parameter hasn't to be non-const reference then you can do this:

void f(std::vector<int> v = std::vector<int>()); //non-reference
void f(const std::vector<int> & v = std::vector<int>()); //const reference
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He clearly states reference. – Puppy Aug 4 '11 at 14:39
@DeadMG: Ohh... I didn't see that. See the answer now. – Nawaz Aug 4 '11 at 14:44
I'm still going to leave my downvote in place. A static default parameter? Just why? You're throwing thread safety out the window for nothing, not to mention that not re-creating the vector might have nasty side effects, such as a memory leak and an incredible waste of performance resizing it. – Puppy Aug 4 '11 at 14:47
Incomplete code is one thing. Bad code is another. This code is bad and slow in a single-thread and actively crash-my-application wrong in a multi-threaded one. This isn't the first time I've downvoted you for using static variables in completely the wrong places, and that's because they should never, ever, be used except where absolutely called for. This situation does not call for it, in any way whatsoever, and using one is wrong. – Puppy Aug 4 '11 at 14:53
It's bad and slow because when he puts stuff in the vector, it's going to stay there forever, and he's going to leak that memory and have to pay to copy around the contents and resize the buffers for absolutely no benefit or reason. It's bad because static variables are almost impossible to get rid of and a sign of incredibly poor design. It would be faster and better if you made the variable local because the memory would be freed instead of accumulating and he wouldn't be wasting time constantly copying around old results to resize the buffer. – Puppy Aug 4 '11 at 15:06

I think it would be like this but it is ugly.

void SomeFunc(int oldParams,const vector<int>& v = vector<int>())
vector<int>& vp = const_cast<vector<int>& >(v);
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You can't do that.# – Puppy Aug 4 '11 at 14:38
yes. Have edited now. – balki Aug 4 '11 at 14:50
balki: const_cast is just plain evil >:s. This is a recipe for disaster... – rubenvb Aug 4 '11 at 14:59
yes. But in this particular case, there isn't anyother way other than to write another wrapper function. Maybe putting a comment that this const will be be casted away will make it better. – balki Aug 4 '11 at 15:04
Actually, because const_cast exists, the compiler can't make that assumption unless it can prove there are no casts, which is difficult. – jrockway Aug 6 '11 at 0:07

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