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In traditional C++, passing by value into functions and methods is slow for large objects, and is generally frowned upon. Instead, C++ programmers tend to pass references around, which is faster, but which introduces all sorts of complicated questions around ownership and especially around memory management (in the event that the object is heap-allocated)

Now, in C++11, we have Rvalue references and move constructors, which mean that it's possible to implement a large object (like an std::vector) that's cheap to pass by value into and out of a function.

So, does this mean that the default should be to pass by value for instances of types such as std::vector and std::string? What about for custom objects? What's the new best practice?

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16  
pass by reference ... which introduces all sorts of complicated questions around ownership and especially around memory management (in the event that the object is heap-allocated). I don't understand how it's complicated or problematic for ownership? May be I missed something ? –  iammilind Sep 29 '11 at 5:02
1  
@iammilind: An example from personal experience. One thread has a string object. It is passed to a function which spawns another thread, but unknown to the caller the function took the string as const std::string& and not a copy. The first thread then exited... –  Zan Lynx Sep 29 '11 at 5:11
10  
@ZanLynx: That sounds like a function that was clearly never designed to be called as a thread function. –  Nicol Bolas Sep 29 '11 at 5:13
4  
Agreeing with iammilind, I don't see any problem. Passing by const reference should be your default for "large" objects, and by value for smaller objects. I'd put the limit between large and small at around 16 bytes (or 4 pointers on a 32 bit system). –  J.N. Sep 29 '11 at 5:17
    
Herb Sutter's Back to the Basics! Essentials of Modern C++ presentation at CppCon went into quite a bit of detail on this. Video here. –  Chris Drew Oct 2 at 8:08

5 Answers 5

up vote 80 down vote accepted

It's a reasonable default if you need to make a copy inside the body. This is what Dave Abrahams is advocating:

Guideline: Don’t copy your function arguments. Instead, pass them by value and let the compiler do the copying.

In code this means don't do this:

void foo(T const& t)
{
    auto copy = t;
    // ...
}

but do this:

void foo(T t)
{
    // ...
}

which has the advantage that the caller can use foo like so:

T lval;
foo(lval); // copy from lvalue
foo(T {}); // (potential) move from prvalue
foo(std::move(lval)); // (potential) move from xvalue

and only minimal work is done. You'd need two overloads to do the same with references, void foo(T const&); and void foo(T&&);.

With that in mind, I now wrote my valued constructors as such:

class T {
    U u;
    V v;
public:
    T(U u, V v)
        : u(std::move(u))
        , v(std::move(v))
    {}
};

Otherwise, passing by reference to const still is reasonable.

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22  
+1, especially for the last bit :) One should not forget that Move Constructors can only be invoked if the object to move from is not expected to be unchanged afterward: SomeProperty p; for (auto x: vec) { x.foo(p); } does not fit, for example. Also, Move Constructors have a cost (the larger the object, the higher the cost) while const& are essentially free. –  Matthieu M. Sep 29 '11 at 6:10
15  
@MatthieuM. But it's important to know what "the larger the object, the higher the cost" of the move actually means: "larger" actually means "the more member variables it has". For instance, moving an std::vector with a million elements costs the same as moving one with five elements since only the pointer to the array on the heap is moved, not every object in the vector. So it's not actually that big of an issue. –  Lucas Jul 26 '12 at 17:16
    
+1 I also tend to use the pass-by-value-then-move construct since I started using C++11. This makes me feel somewhat uneasy though, since my code now has std::move all over the place.. –  stijn May 28 '13 at 14:01
    
+1 So nothing changed since '93 in regards to this specific case. –  nurettin Oct 11 '13 at 6:11
    
There is one risk with const&, that has tripped me up a few times. void foo(const T&); int main() { S s; foo(s); }. This can compile, even though the types are different, if there is a T constructor that takes an S as argument. This can be slow, because a large T object may be getting constructed. You might think your passing a reference without copying, but may you are. See this answer to a question I asked for more. Basically, & usually binds only to lvalues, but there's an exception for rvalue. There are alternatives. –  Aaron McDaid Oct 22 '13 at 15:05

In almost all cases, your semantics should be either:

bar(foo f); // want to obtain a copy of f
bar(const foo& f); // want to read f
bar(foo& f); // want to modify f

All other signatures should be used only sparingly, and with good justification. The compiler will now pretty much always work these out in the most efficient way. You can just get on with writing your code!

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2  
Although I prefer passing a pointer if I'm going to modify an argument. I agree with the Google style guide that this makes it more obvious that the argument will be modified without needing to double-check the function's signature ( google-styleguide.googlecode.com/svn/trunk/… ). –  Max Lybbert Sep 29 '11 at 7:32
29  
The reason that I dislike passing pointers is that it adds a possible failure state to my functions. I try to write all my functions so that they are provably correct, as it vastly reduces the space for bugs to hide in. foo(bar& x) { x.a = 3; } is a heck of a lot more reliable (and readable!) than foo(bar* x) {if (!x) throw std::invalid_argument("x"); x->a = 3; –  Ayjay Sep 29 '11 at 7:42
15  
@Max Lybbert: With a pointer parameter, you don't need to check the function's signature, but you need to check the documentation to know if you're allowed to pass null pointers, if the function will take ownsership, etc. IMHO, a pointer parameter conveys much less informations than a non-const reference. I agree however that it would be nice to have a visual clue at the call site that the argument may be modified (like the ref keyword in C#). –  Luc Touraille Sep 29 '11 at 7:45
    
Those are both valid points. –  Max Lybbert Sep 29 '11 at 7:51
    
In regards to passing by value and relying on move semantics, I feel these three choices do a better job of explaining the intended use of the parameter. These are the guidelines I always follow as well. –  Trevor Hickey Sep 24 '13 at 23:28

An example from personal experience. One thread has a string object. It is passed to a function which spawns another thread, but unknown to the caller the function took the string as const std::string& and not a copy. The first thread then exited...

for that purposes there is such thing as wrapper function

void original(const std::string & str);

void wrapper(std::string * str) // takes ownership
{
   original(*str);
   delete str;
}

vois thread_mother(...)
{
   //...
   spawn_me_thread(wrapper, new std::string("this string should be used by the thread and i don't care about it anymore"));
   //...
}
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seems like pretty bad, you don't take ownership but make a copy, you can just std::move –  Ion Todirel Oct 11 '12 at 8:20

Pass parameters by value if inside the function body you need a copy of the object or only need to move the object. Pass by const& if you only need non-mutating access to the object.

Object copy example:

void copy_antipattern(T const& t) { // (Don't do this.)
    auto copy = t;
    t.some_mutating_function();
}

void copy_pattern(T t) { // (Do this instead.)
    t.some_mutating_function();
}

Object move example:

std::vector<T> v; 

void move_antipattern(T const& t) {
    v.push_back(t); 
}

void move_pattern(T t) {
    v.push_back(std::move(t)); 
}

Non-mutating access example:

void read_pattern(T const& t) {
    t.some_const_function();
}

For rationale, see these blog posts by Dave Abrahams and Xiang Fan.

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When do we pass arguments by reference or pointer?

1) To modify local variables of the caller function:

A reference (or pointer) allows called function to modify a local variable of the caller function. For example, consider the following example program where fun() is able to modify local variable x of main().

void fun(int &x) {
    x = 20;
}

int main() {
    int x = 10;
    fun(x);
    cout<<"New value of x is "<<x;
    return 0;
}

Output: New value of x is 20


2) For passing large sized arguments:

If an argument is large, passing by reference (or pointer) is more efficient because only an address is really passed, not the entire object. For example, let us consider the following Employee class and a function printEmpDetails() that prints Employee details.

class Employee {
private:
    string name;
    string desig;

    // More attributes and operations
};

void printEmpDetails(Employee emp) {
     cout<<emp.getName();
     cout<<emp.getDesig();

    // Print more attributes
}

The problem with above code is: every time printEmpDetails() is called, a new Employee abject is constructed that involves creating a copy of all data members. So a better implementation would be to pass Employee as a reference.

void printEmpDetails(const Employee &emp) {
     cout<<emp.getName();
     cout<<emp.getDesig();

    // Print more attributes 
}

This point is valid only for struct and class variables as we don’t get any efficiency advantage for basic types like int, char.. etc.


3) To avoid Object Slicing:

If we pass an object of subclass to a function that expects an object of superclass then the passed object is sliced if it is pass by value. For example, consider the following program, it prints “This is Pet Class”.

#include <iostream>
#include<string>

using namespace std;

class Pet {
public:
    virtual string getDescription() const {
        return "This is Pet class";
    }
};

class Dog : public Pet {
public:
    virtual string getDescription() const {
        return "This is Dog class";
    }
};

void describe(Pet p) { // Slices the derived class object
    cout<<p.getDescription()<<endl;
}

int main() {
    Dog d;
    describe(d);
    return 0;
}

Output: This is Pet Class

If we use pass by reference in the above program then it correctly prints “This is Dog Class”. See the following modified program.

#include <iostream>
#include<string>

using namespace std;

class Pet {
public:
    virtual string getDescription() const {
        return "This is Pet class";
    }
};

class Dog : public Pet {
public:
    virtual string getDescription() const {
        return "This is Dog class";
    }
};

void describe(const Pet &p) { // Doesn't slice the derived class object.
    cout<<p.getDescription()<<endl;
}

int main() {
    Dog d;
    describe(d);
    return 0;
}

Output: This is Dog Class

This point is also not valid for basic data types like int, char, .. etc.


4) To achieve Run Time Polymorphism in a function

We can make a function polymorphic by passing objects as reference (or pointer) to it. For example, in the following program, print() receives a reference to the base class object. print() calls the base class function show() if base class object is passed, and derived class function show() if derived class object is passed.

#include<iostream>
using namespace std;

class base {
public:
    virtual void show() {  // Note the virtual keyword here
        cout<<"In base \n";
    }
};


class derived: public base {
public:
    void show() {
        cout<<"In derived \n";
    }
};

// Since we pass b as reference, we achieve run time polymorphism here.
void print(base &b) {
    b.show();
}

int main(void) {
    base b;
    derived d;
    print(b);
    print(d);
    return 0;
}

Output: In base
In derived

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4  
This doesn't mention any C++11 issues. In particular, passing large sized objects by value and move is reasonable. –  Potatoswatter Jul 2 '13 at 8:44

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