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Is there a preferred way to return multiple values from a C++ function? For example, imagine a function that divides two integers and returns both the quotient and the remainder. One way I commonly see is to use reference parameters:

void divide(int dividend, int divisor, int& quotient, int& remainder);

A variation is to return one value and pass the other through a reference parameter:

int divide(int dividend, int divisor, int& remainder);

Another way would be to declare a struct to contain all of the results and return that:

struct divide_result {
    int quotient;
    int remainder;

divide_result divide(int dividend, int divisor);

Is one of these ways generally preferred, or are there other suggestions?

Edit: In the real-world code, there may be more than two results. They may also be of different types.

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17 Answers 17

up vote 98 down vote accepted

For returning two values I use a std::pair (usually typedef'd). You should look at boost::tuple (in C++11 and newer, there's std::tuple) for more than two return results.

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+1 for tuple. Keep in mind the performance ramifications of large objects returning in a structure vs. passing by reference. – Marcin Nov 26 '08 at 15:40
If you're going to use tuples, why not use them for pairs as well. Why have a special case? – Ferruccio Nov 26 '08 at 15:44
Fred, yes boost::tuple can do that :) – ᐅ Johannes Schaub - litb ᐊ Nov 26 '08 at 15:51
In C++11, you can use std::tuple. – Ferruccio Oct 20 '11 at 10:32
If you want to accept multiple values from a function, a convenient way of doing this is to use std::tie – user502144 May 12 '14 at 8:44

Personally, I generally dislike return parameters for a number of reasons:

  • it is not always obvious in the invocation which parameters are ins and which are outs
  • you generally have to create a local variable to catch the result, while return values can be used inline (which may or may not be a good idea, but at least you have the option)
  • it seems cleaner to me to have an "in door" and an "out door" to a function -- all the inputs go in here, all the outputs come out there
  • I like to keep my argument lists as short as possible

I also have some reservations about the pair/tuple technique. Mainly, there is often no natural order to the return values. How is the reader of the code to know whether result.first is the quotient or the remainder? And the implementer could change the order, which would break existing code. This is especially insidious if the values are the same type so that no compiler error or warning would be generated. Actually, these arguments apply to return parameters as well.

Here's another code example, this one a bit less trivial:

pair<double,double> calculateResultingVelocity(double windSpeed, double windAzimuth,
                                               double planeAirspeed, double planeCourse);

pair<double,double> result = calculateResultingVelocity(25, 320, 280, 90);
cout << result.first << endl;
cout << result.second << endl;

Does this print groundspeed and course, or course and groundspeed? It's not obvious.

Compare to this:

struct Velocity {
    double speed;
    double azimuth;
Velocity calculateResultingVelocity(double windSpeed, double windAzimuth,
                                    double planeAirspeed, double planeCourse);

Velocity result = calculateResultingVelocity(25, 320, 280, 90);
cout << result.speed << endl;
cout << result.azimuth << endl;

I think this is clearer.

So I think my first choice in general is the struct technique. The pair/tuple idea is likely a great solution in certain cases. I'd like to avoid the return parameters when possible.

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The suggestion to declare a struct like Velocity is a nice one. However, one concern is that it pollutes the namespace. I suppose that with C++11, the struct can have a long type name, and one can use auto result = calculateResultingVelocity(...). – Hugues Feb 12 '13 at 5:06
+1. A function should return one "thing", not a somehow-ordered "tuple of things". – DevSolar May 13 '13 at 7:12

Oftentimes, the preferred way in C++11 will be:

#include <tuple>

using namespace std;

tuple<int, int> divide(int dividend, int divisor)
    return  make_tuple(dividend / divisor, dividend % divisor);

#include <iostream>

int main()
    int quotient, remainder;

    tie(quotient, remainder) = divide(14, 3);

    cout << quotient << ',' << remainder << endl;
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@praful-anand meh, it works on libc++... Someday I may get back here to remove this edit, hopefully. – pepper_chico Jan 28 at 18:32
std::pair<int, int> divide(int dividend, int divisor)
   // :
   return std::make_pair(quotient, remainder);

std::pair<int, int> answer = divide(5,2);
 // answer.first == quotient
 // answer.second == remainder

std::pair is essentially your struct solution, but already defined for you, and ready to adapt to any two data types.

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That'll work for my simple example. In general, however, there may be more than two values returned. – Fred Larson Nov 26 '08 at 15:27
Also not self-documenting. Can you remember which x86 register is the remainder for DIV? – Mark Nov 26 '08 at 15:35
@Mark - I agree that positional solutions can be less maintainable. You can run into the "permute and baffle" problem. – Fred Larson Nov 26 '08 at 15:42

The OO solution for this is to create a ratio class. It wouldn't take any extra code (would save some), would be significantly cleaner/clearer, and would give you some extra refactorings letting you clean up code outside this class as well.

Actually I think someone recommended returning a structure, which is close enough but hides the intent that this needs to be a fully thought-out class with constructor and a few methods, in fact, the "method" that you originally mentioned (as returning the pair) should most likely be a member of this class returning an instance of itself.

I know your example was just an "Example", but the fact is that unless your function is doing way more than any function should be doing, if you want it to return multiple values you are almost certainly missing an object.

Don't be afraid to create these tiny classes to do little pieces of work--that's the magic of OO--you end up breaking it down until every method is very small and simple and every class small and understandable.

Another thing that should have been an indicator that something was wrong: in OO you have essentially no data--OO isn't about passing around data, a class needs to manage and manipulate it's own data internally, any data passing (including accessors) is a sign that you may need to rethink something..

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It's entirely dependent upon the actual function and the meaning of the multiple values, and their sizes:

  • If they're related as in your fraction example, then I'd go with a struct or class instance.
  • If they're not really related and can't be grouped into a class/struct then perhaps you should refactor your method into two.
  • Depending upon the in-memory size of the values you're returning, you may want to return a pointer to a class instance or struct, or use reference parameters.
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I like your answer and your last bullet reminds me of something I just read that passing by value has gotten much faster depending on circumstances making this more complicated... – sage Dec 26 '12 at 19:29

There is precedent for returning structures in the C (and hence C++) standard with the div, ldiv (and, in C99, lldiv) functions from <stdlib.h> (or <cstdlib>).

The 'mix of return value and return parameters' is usually the least clean.

Having a function return a status and return data via return parameters is sensible in C; it is less obviously sensible in C++ where you could use exceptions to relay failure information instead.

If there are more than two return values, then a structure-like mechanism is probably best.

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If your function returns a value via reference, the compiler cannot store it in a register when calling other functions because, theoretically, the first function can save the address of the variable passed to it in a globally accessible variable, and any subsecuently called functions may change it, so the compiler will have (1) save the value from registers back to memory before calling other functions and (2) re-read it when it is needed from the memory again after any of such calls.

If you return by reference, optimization of your program will suffer

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Use a struct or a class for the return value. Using std::pair may work for now, but 1) it's inflexible if you decide later you want more info returned; and 2) it's not very clear from the function's declaration in the header what is being returned and in what order. Returning a structure with self-documenting member variable names will likely be less bug-prone for anyone using your function. Putting my coworker hat on for a moment, your divide_result structure is easy for me, a potential user of your function, to immediately understand after 2 seconds. Messing around with ouput parameters or mysterious pairs and tuples would take more time to read through and may be used incorrectly. And most likely even after using the function a few times I still won't remember the correct order of the arguments.

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I tend to use out-vals in functions like this, because I stick to the paradigm of a function returning success/error codes and I like to keep things uniform.

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Alternatives include arrays, generators, and inversion of control, but none is appropriate here.

Some (e.g. Microsoft in historical Win32) tend to use reference parameters for simplicity, because it's clear who allocates and how it will look on the stack, reduces the proliferation of structures, and allows a separate return value for success.

"Pure" programmers prefer the struct, assuming it is the function value (as is the case here), rather than something that's touched incidentally by the function. If you had a more complicated procedure, or something with state, you'd probably use references (assuming you have a reason for not using a class).

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I'd say there is no preferred method, it all depends on what you're going to do with the response. If the results are going to be used together in further processing then structures make sense, if not I'd tend to pass then as individual references unless the function was going to be used in a composite statement:

x = divide( x, y, z ) + divide( a, b, c );

I often choose to pass 'out structures' by reference in the parameter list rather than having the pass by copy overhead of returning a new structure (but this is sweating the small stuff).

void divide(int dividend, int divisor, Answer &ans)

Are out parameters confusing? A parameter sent as reference suggests the value is going to change (as opposed to a const reference). Sensible naming also removes confusion.

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I think it's a bit confusing. Someone reading code that calls it sees "divide(a,b,c);". There's no indication that c is an outval until they look up the signature. But that's a general fear of non-const reference params, rather than particular to this question. – Steve Jessop Nov 26 '08 at 21:51

Here, i am writing a program that is returning multiple values(more than two values) in c++. This program is executable in c++14 (G++4.9.2). program is like a calculator.

#  include < tuple >
# include < iostream >

using namespace std; 

tuple < int,int,int,int,int >   cal(int n1, int n2)
    return  make_tuple(n1/n2,n1%n2,n1+n2,n1-n2,n1*n2);

int main()
    int qut,rer,add,sub,mul,a,b;
    cout << "quotient= "<<qut<<endl;
    cout << "remainder= "<<rer<<endl;
    cout << "addition= "<<add<<endl;
    cout << "subtraction= "<<sub<<endl;
    cout << "multiplication= "<<mul<<endl;
    return 0;

So, you can clearly understand that in this way you can return multiple values from a function. using std::pair only 2 values can be returned while std::tuple can return more than two values.

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With C++14 you can also use auto return type on cal to make this even cleaner. (IMO). – sfjac Apr 19 at 14:53

Boost tuple would be my preferred choice for a generalized system of returning more than one value from a function.

Possible example:

include "boost/tuple/tuple.hpp"

tuple <int,int> divide( int dividend,int divisor ) 

  return make_tuple(dividend / divisor,dividend % divisor )
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We can declare the function such that, it returns a structure type user defined variable or a pointer to it . And by the property of a structure, we know that a structure in C can hold multiple values of asymmetrical types (i.e. one int variable, four char variables, two float variables and so on…)

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Why do you insist on a function with multiple return values? With OOP you can use a class offering a regular function with a single return value, and any number of additional "return values" like below. The advantage is that the caller has a choice of looking at the extra data members, but is not required to do this. This is the preferred method for complicated data base or networking calls, where lots of additional return info may be needed in case errors occur.

To answer your original question, this example has a method to return the quotient, which is what most callers may need, and additionally, after the method call, you can get the remainder as a data member.

class div{
      int remainder;

      int quotient(int dividend, int divisor){
         remainder = ...;
         return ...;
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Too bad the downvoter did not care to tell us why my solution is not useful. Fortunately, I enjoyed using this method lots of times myself. – Roland Feb 10 at 11:07
I think there are cases where this is inefficient. E.g. you have a single for loop that generates several return values. If you split those values into separate functions you'd need to run through the loop once for each value. – jiggunjer Mar 8 at 17:42
@jiggunjer You could run the loop once and store the several return values in separate class data members. This underscores the flexibility of the OOP concept. – Roland Mar 9 at 12:50
#include <iostream>
#include <string>
#include <tuple>
#include <memory>
#include <utility>

template <class T>
typename std::pointer_traits<T>::element_type dereference_pointer(T pt) {
    return *pt;

#define __r2__(value1,value2,func) \
auto& t##value1##value2 = func;\
std::tuple_element<0, decltype(dereference_pointer(t##value1##value2))>::type value1 = std::get<0>(*t##value1##value2);\
std::tuple_element<1, decltype(dereference_pointer(t##value1##value2))>::type value2 = std::get<1>(*t##value1##value2);

class Person {
    int age = 0;
    std::string name;
    auto __Age__() -> int{
        return age;
    void __Age__(int value) {
        age = value;
    Person() {
        std::cout << "Person()\n";
    void SayHello() {
        std::cout << "hello\n";
    ~Person() {
        std::cout << "~Person()\n";
class Error {

std::shared_ptr<std::tuple<Person*, Error*>> CreatePerson() {
    Person* p = new Person();
    Error* err = nullptr;
    std::shared_ptr<std::tuple<Person*, Error*>> ret(new std::tuple<Person*, Error*>(p, err), [](std::tuple<Person*, Error*>* p) {
        delete std::get<0>(*p);
        delete std::get<1>(*p);
    return ret;
std::shared_ptr<std::tuple<Person*, Error*>> CreatePerson2(int age) {
    auto t = CreatePerson();
    __r2__(p, err, t);
    return t;

int main(int argc, _TCHAR* argv[]) {
    __r2__(p, err, CreatePerson2(10));
    std::cout << p->__Age__();
    return 0;
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That seems like a lot of complex code to accomplish what I did with just a struct. – Fred Larson May 5 at 0:38
If you want return multiple values,a struct is ok,if you want return a struct with error or something,will you put the error into the struct?or if you want return multiple values like golang,what will you return?a reference?a object?a pointer who knows who will delete it. – bitnick May 5 at 1:33

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