Is it possible to give a default value to a parameter of a function while we are passing the parameter by reference. in C++

For example, when I try to declare a function like:

virtual const ULONG Write(ULONG &State = 0, bool sequence = true);

When I do this it gives an error:

error C2440: 'default argument' : cannot convert from 'const int' to 'unsigned long &' A reference that is not to 'const' cannot be bound to a non-lvalue

  • 113
    Mercifully, we are not bound by the Google style guide.
    – anon
    Commented Jun 29, 2009 at 18:15
  • 28
    "Don't do this. Google style guide (and others) ban non-const pass by reference" i think style guides are known to contain many subjective parts. This looks like one of them. Commented Jun 29, 2009 at 18:16
  • 17
    WxWidgets style guide says "don't use templates" and they have good reasons <- screw std::vector, i say Commented Jun 29, 2009 at 18:17
  • 7
    @jeffamaphone: Google Style Guide also says not to use streams. Will you suggest avoiding them too?
    – rlbond
    Commented Jun 29, 2009 at 18:35
  • 12
    A hammer is a horrible tool to place a screwdriver, but it is quite usable with nails. The fact that you can misuse a feature should only warn you about possible pitfalls but not prohibit its use. Commented Jan 19, 2010 at 15:24

18 Answers 18


You can do it for a const reference, but not for a non-const one. This is because C++ does not allow a temporary (the default value in this case) to be bound to non-const reference.

One way round this would be to use an actual instance as the default:

static int AVAL = 1;

void f( int & x = AVAL ) {
   // stuff

int main() {
     f();       // equivalent to f(AVAL);

but this is of very limited practical use.

  • if i make it const, will it allow me to pass a different address to the function? or will the address of State be always 0 and so meaningless?
    – Sony
    Commented Jun 29, 2009 at 18:10
  • If you are using references, you are not passing addresses.
    – anon
    Commented Jun 29, 2009 at 18:12
  • 3
    boost::array to the rescue void f(int &x = boost::array<int,1>()[0]) { .. } :) Commented Jun 29, 2009 at 18:14
  • 1
    if not addresses what's actually getting passed?
    – Sony
    Commented Jun 29, 2009 at 18:19
  • 2
    @Sony A reference. It is wriong to think of it as an address. If you want an address, use a pointer.
    – anon
    Commented Jun 29, 2009 at 18:20

It has been said in one of the direct comments to your answer already, but just to state it officially. What you want to use is an overload:

virtual const ULONG Write(ULONG &State, bool sequence);
inline const ULONG Write()
  ULONG state;
  bool sequence = true;
  Write (state, sequence);

Using function overloads also have additional benefits. Firstly you can default any argument you wish:

class A {}; 
class B {}; 
class C {};

void foo (A const &, B const &, C const &);
void foo (B const &, C const &); // A defaulted
void foo (A const &, C const &); // B defaulted
void foo (C const &); // A & B defaulted etc...

It is also possible to redefine default arguments to virtual functions in derived class, which overloading avoids:

class Base {
  virtual void f1 (int i = 0);  // default '0'

  virtual void f2 (int);
  inline void f2 () {
    f2(0);                      // equivalent to default of '0'

class Derived : public Base{
  virtual void f1 (int i = 10);  // default '10'

  using Base::f2;
  virtual void f2 (int);

void bar ()
  Derived d;
  Base & b (d);
  d.f1 ();   // '10' used
  b.f1 ();   // '0' used

  d.f2 ();   // f1(int) called with '0' 
  b.f2 ();   // f1(int) called with '0'

There is only one situation where a default really needs to be used, and that is on a constructor. It is not possible to call one constructor from another, and so this technique does not work in that case.

  • 25
    Some people think a default-param is less horrible than a giant multiplication of overloads.
    – Mr. Boy
    Commented Jan 19, 2010 at 15:38
  • 2
    Maybe at the end, you ment: d.f2(); // f2(int) called with '0' b.f2(); // f2(int) called with '0'
    – Pietro
    Commented Jun 19, 2011 at 19:45
  • 4
    On the last statement: from C++ 11 onwards, you can use delegating constructors to call one constructor from the other to avoid code duplication. Commented Nov 17, 2015 at 14:53

There still is the old C way of providing optional arguments: a pointer that can be NULL when not present:

void write( int *optional = 0 ) {
    if (optional) *optional = 5;
  • 1
    I really like this method, very short and simple. Super practical if sometimes you want to return some additional info, statistics, etc. that you usually dont need.
    – uLoop
    Commented Feb 12, 2017 at 14:06

This little template will help you:

template<typename T> class ByRef {
    ByRef() {

    ByRef(const T value) : mValue(value) {

    operator T&() const {

    T mValue;

Then you'll be able to:

virtual const ULONG Write(ULONG &State = ByRef<ULONG>(0), bool sequence = true);
  • 1
    Where does the instantiation of ByRef live, memory-wise? Isn't it a temporary object that would get destroyed upon leaving some scope (like the constructor)? Commented Aug 19, 2014 at 7:23
  • 2
    @AndrewCheong Its entire intent is to be constructed in-spot and destructed when the line is complete. It's a means of exposing a reference for the duration of a call so that a default parameter can be provided even when it expects a reference. This code is used in an active project and functions as expected.
    – Mike Weir
    Commented Aug 19, 2014 at 13:35

There are two reasons to pass an argument by reference: (1) for performance (in which case you want to pass by const reference) and (2) because you need the ability to change the value of the argument inside the function.

I highly doubt that passing an unsigned long on modern architectures is slowing you down too much. So I'm assuming that you're intending to change the value of State inside the method. The compiler is complaining because the constant 0 cannot be changed, as it's an rvalue ("non-lvalue" in the error message) and unchangeable (const in the error message).

Simply put, you want a method that can change the argument passed, but by default you want to pass an argument that can't change.

To put it another way, non-const references have to refer to actual variables. The default value in the function signature (0) is not a real variable. You're running into the same problem as:

struct Foo {
    virtual ULONG Write(ULONG& State, bool sequence = true);

Foo f;
ULONG s = 5;
f.Write(s); // perfectly OK, because s is a real variable
f.Write(0); // compiler error, 0 is not a real variable
            // if the value of 0 were changed in the function,
            // I would have no way to refer to the new value

If you don't actually intend to change State inside the method you can simply change it to a const ULONG&. But you're not going to get a big performance benefit from that, so I would recommend changing it to a non-reference ULONG. I notice that you are already returning a ULONG, and I have a sneaky suspicion that its value is the value of State after any needed modifications. In which case I would simply declare the method as so:

// returns value of State
virtual ULONG Write(ULONG State = 0, bool sequence = true);

Of course, I'm not quite sure what you're writing or to where. But that's another question for another time.


No, it's not possible.

Passing by reference implies that the function might change the value of the parameter. If the parameter is not provided by the caller and comes from the default constant, what is the function supposed to change?

  • 3
    The traditional FORTRAN way would have been to change the value of 0, but that doesn't happen in C++. Commented Jun 29, 2009 at 21:53

You cannot use a constant literal for a default parameter for the same reason you cannot use one as a parameter to the function call. Reference values must have an address, constant references values need not (ie they can be r-values or constant literals).

int* foo (int& i )
   return &i;

foo(0); // compiler error.

const int* bar ( const int& i )
   return &i;

bar(0); // ok.

Ensure that you're default value has an address and you're fine.

int null_object = 0;

int Write(int &state = null_object, bool sequence = true)
   if( &state == &null_object )
      // called with default paramter
      return sequence? 1: rand();
      // called with user parameter
      state += sequence? 1: rand();
      return state;

I've used this pattern a few times where I had a parameter that could be a variable or null. The regular approach is to have the user pass in a pointer this is case. They pass in a NULL pointer if they don't want you to fill in the value. I like to null object approach. It makes the callers life easier without terribly complicating the callee code.

  • IMHO, this style is quite "smelly". The only time a default argument is ever really justifiable is when it's used in a constructor. In every other case function overloads provide exactly the same semantics without any of the other problems associated with defaults. Commented Jun 30, 2009 at 12:59

I think not, and the reason is that default values are evaluated to constants and values passed by reference must be able to change, unless you also declare it to be constant reference.

  • 2
    Default values are not "evaluated as constants".
    – anon
    Commented Jun 29, 2009 at 18:16

Another way could be the following:

virtual const ULONG Write(ULONG &State, bool sequence = true);

// wrapper
const ULONG Write(bool sequence = true)
   ULONG dummy;
   return Write(dummy, sequence);

then the following calls are possible:

ULONG State;
object->Write(State, false); // sequence is false, "returns" State
object->Write(State); // assumes sequence = true, "returns" State
object->Write(false); // sequence is false, no "return"
object->Write(); // assumes sequence = true, no "return"
void f(const double& v = *(double*) NULL)
  if (&v == NULL)
    cout << "default" << endl;
    cout << "other " << v << endl;
  • It works. Basically, it is to access the value-at-reference for checking the NULL pointing reference (logically there is no NULL-reference, only that what you point is NULL). Atop, if you are using some library, which operates on "references", then there will generally be some APIs like "isNull()" for doing the same for the library specific reference variables. And is suggested to use those APIs in such cases.
    – parasrish
    Commented Mar 20, 2016 at 8:03

In case of OO... To say that a Given Class has and "Default" means that this Default (value) must declared acondingly an then may be usd as an Default Parameter ex:

class Pagination {
    int currentPage;
    Pagination() {
        currentPage = 1;
    // your Default Pagination
    static Pagination& Default() {
        static Pagination pag;
        return pag;

On your Method ...

 shared_ptr<vector<Auditoria> > 
 findByFilter(Auditoria& audit, Pagination& pagination = Pagination::Default() ) {

This solutions is quite suitable since in this case, "Global default Pagination" is a single "reference" value. You will also have the power to change default values at runtime like an "gobal-level" configuration ex: user pagination navigation preferences and etc..


It's possible with const qualifier for State:

virtual const ULONG Write(const ULONG &State = 0, bool sequence = true);
  • It's pointless and even ridiculous to pass a long as a const ref, and doesn't achieve what the OP wants.
    – Jim Balter
    Commented Oct 8, 2017 at 20:35

Upgrading our code base from C++17 to C++20 using MSVC, Microsoft now finally enforces this rule.

The semantics for void foo(int& optOutParam = 0) would be optOutParam is an optional output parameter. Often I see this concrete example, where multiple output parameters are required:

bool Initialise(Window& wnd, Context& ctxt, std::string& error = "") {
// ...

The return value indicates whether the function succeeded, while error contains the reason why it might have failed. Unfortunately std::optional is explicitly forbidden for references, or this would be a great solution, too.

std::optional<int&> opt; // compiler error

A good way to refactor is to actually have the function return all values and refrain from using reference parameters as output.

std::tuple<Window, Context, std::string> Initialise();

void modernCpp() {
  auto[wnd, ctxt, errorMsg] = Initialise();
  if(!errorMsg.empty()) {

void olderCpp() {
  Window wnd;
  Context ctxt;
  std::string errorMsg;
  std::tie(wnd, ctxt, errorMsg) = Initialise();

  // or
  tuple<Window, Context, std::string> result = Initialise();

Unfortunately this means having to refactor every call-site as well, which might be a huge job in large code bases. To deal with that case I use an r-value overload, that discards the error message. No call-site has to be changed then.

bool Initialise(Window& wnd, Context& ctxt, std::string& error) {
  // default value removed
bool Initialise(Window& wnd, Context& ctxt, std::string&& discardedErrorMsg = "") {
  // call overload above
  return Initialise(wnd, ctxt, discardedErrorMsg);

This has one major draw-back, namely gathering the info for error message might be very costly. Asking a database what went wrong, for example, may require another network trip. Bear in mind though, that the original function has the same issue, so this is a great micro-optimisation chance.

For the vast majority of new functions with multiple out parameters, I use multiple return values.

void revealSelection(const ScrollAlignment& = ScrollAlignment::alignCenterIfNeeded, bool revealExtent = false);

There is also rather dirty trick for this:

virtual const ULONG Write(ULONG &&State = 0, bool sequence = true);

In this case you have to call it with std::move:

ULONG val = 0;

It is only some funny workaround, I totally do not recommend it using in real code!


I have a workaround for this, see the following example on default value for int&:

class Helper
    int x;
    operator int&() { return x; }

// How to use it:
void foo(int &x = Helper())


You can do it for any trivial data type you want, such as bool, double ...


Define 2 overload functions.

virtual const ULONG Write(ULONG &State, bool sequence = true);

virtual const ULONG Write(bool sequence = true)
    int State = 0;
    return Write(State, sequence);

virtual const ULONG Write(ULONG &State = 0, bool sequence = true);

The answer is quite simple and I am not so good on explaining but if you want to pass a default value to a non-const parameter which probably will be modified in this function is to use it like this:

virtual const ULONG Write(ULONG &State = *(ULONG*)0, bool sequence =
> true);

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