I'm from the world of C# originally, and I'm learning C++. I've been wondering about get and set functions in C++. In C# usage of these are quite popular, and tools like Visual Studio promote usage by making them very easy and quick to implement. However, this doesn't seem to be the case in the C++ world.

Here's the C# 2.0 code:

public class Foo
    private string bar;

    public string Bar
        get { return bar; }
        set { bar = value; }

Or, in C# 3.0:

public class Foo { get; set; }

May people will say, well whats the point in that? Why not just create a public field and then make it a property later if you need to; honestly, I'm actually not sure. I just do it out of good practice because I've seen it done so many times.

Now because I'm so used to doing it, I feel like I should carry over the habit to my C++ code, but is this really necessary? I don't see it done as often as with C#.

Anyway, here's the C++ from what I gather:

class Foo
    std::string GetBar() const; // Thanks for the tip Earwicker.
    void SetBar(std::string bar);
    std::string bar;

const std::string Foo::GetBar()
    return bar;

void Foo::SetBar(std::string bar)
    // Also, I always wonder if using 'this->' is good practice.
    this->bar = bar;

Now, to me that seems like a whole lot of leg work; considering using Visual Studio's tools the C# implementation would take literally seconds to implement, and the C++ took me a lot longer to type - I feel its not worth the effort, especially when the alternative is 5 lines long:

class Foo
    std::string Bar;

From what I gather, these are the advantages:

  • You can change implementation details for the get and set functions, so instead of returning a private field you can return something more interesting.
  • You can remove a get/set later on and make it read/write only (but for a public facing interface, this seems, not good).

And the disadvantages:

  • Takes ages to type, is this really worth the effort? Generally speaking. In some cases, the advantages make it worth the effort, but I mean, speaking in terms of "good practice", is it?


Why did I choose the answer with less votes? I was actually very close to choosing veefu's answer; however my personal opinion (which is apparently controversial), is that the answer over egged the pudding.

The answer I chose, on the other hand, seems to argue both sides; I think getters and setters are evil if used excessively (by that I mean, when it's not necessary and would break the business model), but why shouldn't we have a function called GetBalance()?

Surely this would be far more versatile than PrintBalance(); what if I wanted to show it to the user in another way than as the class wanted me to? Now, in some sense GetBalance() may not be relevant enough to argue that "getters and setters are good" because it doesn't (or maybe, shouldn't) have an accompanying setter, and speaking of which, a function called SetBalance(float f) could be bad (in my opinion) because it would imply to the implementer of the function that the account must be manipulated out side of the class, which is not a good thing.

  • Note that when passing a std::string into a method, you should use <code>const std::string&</code> rather than plain <code>std::string</code>, to avoid an unneccessary copy; this is a bit of a gotcha if you're coming from a C#/Java background. – tragomaskhalos Apr 10 '09 at 16:26
  • I don't like using this-> to access members. I prefer to prefix all members with m_. It has the same effect, let the reader know where the variable came from. – deft_code Apr 10 '09 at 20:50
  • Caspin: Except that this-> is guaranteed to work no matter naming convention. There's nothing to stop me from creating a local variable or a function parameter with the m_ prefix. ;) And the this-> prefix has the further advantage that I can skip it when it's not necessary. :) – jalf Apr 11 '09 at 0:12

14 Answers 14


I'd argue that providing accessors are more important in C++ than in C#.

C++ has no builtin support for properties. In C# you can change a public field to a property mostly without changing the user code. In C++ this is harder.

For less typing you can implement trivial setters/getters as inline methods:

class Foo
    const std::string& bar() const { return _bar; } 
    void bar(const std::string& bar) { _bar = bar; } 
    std::string _bar;

And don't forget that getters and setters are somewhat evil.

  • You can't use member name bar you should use some different name otherwise in collides with bar() function. ie. you need std::string bar_; – Artyom Apr 10 '09 at 13:12
  • Ehy sre you not returning the string by const reference? – Martin York Apr 10 '09 at 16:50
  • In some ways, it's better to return a copy and not to return a const ref. This allows Foo's implementation to change the internal representation of bar at some point in the future. The downside is that it's more costly in time and space to return a copy. – Mr Fooz Apr 10 '09 at 17:27
  • @Artyom: you're correct, i've fixed that. @Marin: returning a const reference creates a very strong coupling. It makes very hard to change the underlying representation. – mfazekas Apr 10 '09 at 18:50

At the risk of being argumentative, I'll back an opposing point of view I first encountered while reading "Holub on Patterns". It was a point of view that was very challenging, but made sense to me upon reflection:

Getters and Setters are Evil

Use of getters and setters is in opposition to the fundamentals of object oriented design: Data abstraction and encapsulation. Overuse of getters and setters will make your code less agile and maintainable in the long run. They ultimately expose the underlying implementation of your class, locking implementation details into the interface of the class.

Imagine your 'std::string Foo::bar' field needs to change from a std::string to another string class, that, say, is better optimized or supports a different character-set. You'll need to change the private data field, the getter, the setter, and all the client code of this class that calls these getters and setters.

Rather than design your classes to "provide data" and "receive data", design them to "perform operations" or "providide services". Ask yourself why you're writing a "GetBar" function. What are you doing with that data? Perhaps you're displaying that data on or doing some processing on it. Is this process better exposed as a method of Foo?

This not to say that getters and setters don't have their purpose. In C# I believe the fundamental reason for their use is to interface with the Visual Studio GUI-design IDE, but if you find yourself writing them in C++, it's probably best to take a step back, look at your design, and see if something is missing.

I'll try to mock-up an example to illustrate.

// A class that represents a user's bank account
class Account {
    int balance_; // in cents, lets say 
    const int& GetBalance() { return balance_; }
    void SetBalance(int b) { balance_ = b; }

class Deposit {
    int ammount_;
    const int& GetAmount() { return ammount_; }
    void SetAmmount(int a) { _balance = a; }

void DoStuffWithAccount () {
  Account a;
  // print account balance
  int balance = a.GetBalance();
  std::cout << balance;

  // deposit some money into account
  Deposit d(10000);
  a.SetBalance( a.GetBalance() + d.GetValue());

It doesn't take very long to see that this is very poorly designed.

  1. Integers are an awful currency datatype
  2. A Deposit should be a function of the Account

The getters and setters make it more difficult to fix the problems, since the client code DoStuffWithAccount is now bound to the data-type we used to implement the account balance.

So, lets make a pass on this code and see what we can improve

// A class that represents a user's bank account
class Account {
    float balance_;
    void Deposit(float b) { balance_ += b; }
    void Withdraw(float w) { balance_ -= w; }
    void DisplayDeposit(std::ostream &o) { o << balance_; }

void DoStuffWithAccount () {
  Account a;
  // print account balance

  // deposit some money into account
  float depositAmt = 1000.00;

The 'float' is a step in the right direction. Granted, you could have changed the internal type to 'float' and still supported the getter/setter idiom:

class Account {
    // int balance_; // old implementation
    float balance_; 
    // support the old interface
    const int& GetBalance() { return (int) balance_; }
    void SetBalance(int b) { balance_ = b; }
    // provide a new interface for the float type
    const float& GetBalance() { return balance_; } // not legal! how to expose getter for float as well as int??
    void SetBalance(float b) { balance_ = b; }

but it doesn't take long to realize that the getter/setter arrangement is doubling your workload and complicating matters as you need to support both the code that used ints and the new code that will use floats. The Deposit function makes it a bit easier to expand the range of types for depositing.

An Account-like class is probably not the best example, since "getting" the account balance is a natural operation for an Account. The overall point, though, is that you must be careful with getters and setters. Do not get into the habit of writing getters and setters for every data-member. It is quite easy to expose and lock yourself into an implementation if you are not careful.

  • 9
    Getters/Setters for every data member are evil because they expose the implementation, and can constrain your subsequent choice of a different implementation. Getting/Setting properties of the abstraction is appropriate, and moreover, hides the implementation, and is a Good Thing (tm). – dmckee Apr 10 '09 at 13:34
  • 4
    I strongly dislike your example. The fact of a balance, and the power to check it are at the core of the idea "account" (a direct setter would break the security model, natch). These are necessary parts of the abstraction and are not necessarily connected to transactions on the account. – dmckee Apr 10 '09 at 15:31
  • 1
    Don't know what "pure" means here, but const Currency& Balance() const (in C++ idiom) does not lock in my implementation: a naive implementation it just returns a data member, but this is not required and can be changed at a later date. And display is certainly not the job of the modeling layer. – dmckee Apr 10 '09 at 15:57
  • 1
    ::shrug:: One of us is missing the point. C'est la vie. – dmckee Apr 10 '09 at 16:18
  • 5
    I agree float should be take out of answer. Discredits it to me. Wny listen to someone who is using a float for currency and specifically recommends it as being superior to an integer. – Joe McGrath Nov 11 '11 at 7:11

In your example:

class Foo
    const std::string GetBar(); // Should this be const, not sure?

You probably mean this:

std::string GetBar() const;

Putting the const at the end means "This function doesn't modify the Foo instance it is called on", so in a way it marks it as a pure getter.

Pure getters occur frequently in C++. An example in std::ostringstream is the str() function. The Standard library often follows a pattern of using the same function name for a pair of getter/setter functions - str being an example again.

As to whether it's too much work to type out, and is it worth it - that seems an odd question! If you need to give clients access to some information, provide a getter. If you don't, then don't.

  • Re: "that seems an odd question" - Hmm, yes, I felt like I may look a little lazy by saying this; but I was worried about it being pointless and making a fool of myself later in life hehe. – Nick Bolton Apr 10 '09 at 12:06
  • On the whole, don't waste time exposing anything from a class until you find you need it (and always do so grudgingly!) And by the way, almost everything is hard work in C++ compared to C# - but usually for good reasons, given the specific aims of the language. – Daniel Earwicker Apr 10 '09 at 12:08
  • Yes, I've noticed the increased workload, much more typing. What if the field really needs to be get and set, and initially it's only going to be used in your own library, but may become public facing in future? – Nick Bolton Apr 10 '09 at 12:11
  • In C++, if a member variable is truly just a storage slot with no added behaviour, then you can just make it public (there's a reason to not do this in C#, but it doesn't apply in C++). But it's actually very unusual for this to be truly required in a good class design. – Daniel Earwicker Apr 10 '09 at 13:05
  • Exposing data members sets you up for grief latter if the implementation changes. -- The Voice of Bitter Experience – dmckee Apr 10 '09 at 16:03

There is no really strict convention on this, like there is in C# or Java. Many C++ programmers would just make the variable public an save themselves the trouble.

As other answers have said, you shouldn't often need set, and to some extent, get methods.

But if and when you do make them, there's no need to type more than necessary:

class Foo
    std::string Bar() const { return bar; }
    void Bar(const std::string& bar) { this->bar = bar; }
    std::string bar;

Declaring the functions inline in the class saves typing, and hints to the compiler that you'd like the functions inlined. And it's not much more typing than the C# equivalents. One thing to note is that I removed the get/set prefixes. Instead, we just have two Bar() overloads. That's fairly common in C++ (after all, if it doesn't take any arguments, we know it's the getter, and if it takes an argument, it's the setter. We don't need the name to tell us that), and it saves a bit more typing.

  • 2
    About your second sentence: the C++ programmers I know don't believe in public data members, except in POD structs. – David Thornley Apr 10 '09 at 20:03
  • Fair enough. Changed "most" to "many". I just wanted to emphasize that it's less dogmatic than in C#/Java – jalf Apr 10 '09 at 20:21

[edit] It seems I need to emphasize that setters need to validate parameters and enforce invariants, so they are usually not as simple as they are here. [/edit]

Not with all, because fo the extra typing. I tend to use them much more often now that Visual Assist gives me "encapsulate field".

The legwork is not more if you implement just the default setters / getters inline in the class declaration (which I tend to do - more complex setters move to the body, though).

Some notes:

constness: Yes, the getter should be const. It is no use to make the return value const, though, if you return by value. For potentially complex return values you might want to use const & though:

std::string const & GetBar() const { return bar; } 

Setter chaining: Many developers like to modify the setter as such:

Foo & SetBar(std::string const & bar) { this->bar = bar; return *this; }

Which allows calling multiple setters as such:

Foo foo;

It's not universally accepted as a good thing, though.

__declspec(property): Visual C++ provides this non-standard extension so that callers can use property syntax again. This increases legwork in the class a bit, but makes caller code much friendlier looking.

So, in conclusion, there's a little bit of more legwork, but a handful of decisions to make in C++. Typical ;)

  • Re: "you might want to use const & though" - I'm not sure I understand why; I'm quite ropey on pointers and references, but I assume this returns a reference, and without it just returns a value? Perhaps you could expand on this briefly? – Nick Bolton Apr 10 '09 at 12:21
  • this can avoid extra temporaries copies when passing the result as an argument to another function using a const& parameter – fa. Apr 10 '09 at 12:54
  • @r3n - don't return a local variable by reference - the caller will get back a piece of junk with random ("undefined") behaviour. – Daniel Earwicker Apr 10 '09 at 13:07
  • @Earwicker: bar is an instance variable, not a local one. As long as the Foo object isn't a temporary, everything's fine. – Mr Fooz Apr 10 '09 at 17:29

I hardly ever use getters and setters in my own code. Veefu's answer looks good to me.

If you insist on having getters and/or setters, you can use macros to cut down on the boiler-plate.

#define GETTER(T,member) const T& Get##member() const { return member; }
#define SETTER(T,member) void Set##member(const T & value) { member = value; }

class Foo
    GETTER(std::string, bar)
    SETTER(std::string, bar)
    std::string bar;

Getting and setting data members qua data members: Bad.
Getting and setting elements of the abstraction: Good.


The arguments against Get/Set in terms of API design in the banking example are spot on. Dont expose fields or properties if they will allow users to break your business rules.

However, once you have decided that you do need a field or property, always use a property.

The automatic properties in c# are very easy to use, and there are many scenarios (databinding, serialization, etc) that do not work with fields, but require properties.


If you are developing COM components then yes, it is very popular.


get and set are a pain inflicted upon people if you have to use them in any language.

Eiffel has it alot better where all that differs is the amount of information you have to provide to get the answer - a function with 0 parms is the same as accessing a member variable, and you can change freely between them.

When you control both sides of an interface the definition of the interface doesn't seem like such a big issue. However when you want to change implementation details and it inflicts the recompilation of client code as is the common case in C++ you wish to be able to minimise this as much as possible. As such pImpl and get/set would get used more in public APIs to avoid such damage.


Get and Set methods are useful if you have constraints in a variable value. For example, in many mathematical models there is a constraint to keep a certain float variable in the range [0,1]. In this case, Get, and Set (specially Set) can play a nice role:

class Foo{
    float bar() const { return _bar; } 
    void bar(const float& new_bar) { _bar = ((new_bar <= 1) && (new_bar >= 0))?new_bar:_bar; } // Keeps inside [0,1]
    float _bar;     // must be in range [0,1]

Also, some properties must be recalculated before reading. In those cases, it may take a lot of unnecessary computing time to recalculate every cicle. So, a way to optimize it is to recalculate only when reading instead. To do so, overload the Get method in order to update the variable before reading it.

Otherwise, if there is no need to validade input values, or update output values, making the property public is not a crime and you can go along with it.


If you use C++/CLI as your varient of C++, then it has native property support in the language, so you can use

property String^ Name;

This is the same as

String Name{get;set;}

in C#. If you need more precise control over the get/set methods then you can use

property String^ Name
   String^ get();
   void set(String^ newName);

in the header and

String^ ClassName::Name::get()
   return m_name;

void ClassName::Name::set(String^ newName)
   m_name = newName;

in the .cpp file. I can't remember off hand, but I think you can have different access permissions for the get and set methods (public/private etc).



Yes , get and set are popular in the c++ world.

  • 1
    Hmm, can anyone explain why someone would have voted -1 on this? – Nick Bolton Apr 10 '09 at 13:08
  • I belive it's Because I said that it is mandatory , I didn't actualy ment that , What I ment by saying mandatory is that this is the right way to expose internal data. – user88637 Apr 10 '09 at 13:11
  • They're not popular where I hang around, because exposing internal data is normally a Very Bad Idea. – David Thornley Apr 10 '09 at 16:21
  • They're VERY unpopular with me. They show that a programmer doesn't actually understand object orientation. – Rob K Apr 10 '09 at 16:50
  • @Rob K: Writing basic getters and setters for each member variable is a sure sign. However, in many classes, the contents of some variables are relevant by themselves (m_deposit in a bank account class, m_z in a vector class), so some good OO functions reduce to getters. – David Thornley Apr 10 '09 at 20:08

The compiler will emit set_ and get_ if you define a property, so it's really just save some typing.

This has been an interesting discussion. This is something from my favorite book "CLR via C#".

Here is what I quoted.

Personally, I don't like properties and I wish that they were not supported in the Microsoftm.NET Framework and its programming languages. The reason is because properties look like fields but they are methods. This has been known to cause a phenomenal amount of confu-sion. When a programmer sees code that appears to be accessing a field, there are many assumptions that the programmer makes that may not be true for a property. For example,

  • A property may be read-only or write-only; field access is always
    readable and writable. If you define
    a property, it is best to offer both
    get and set accessor methods.
  • A property method may throw an exception; field access never throws
    an exception.

  • A property cannot be passed as an out or ref parameter to a method; a field can.

  • A property method can take a long time to execute; field access always
    completes imme- diately. A common
    reason to use properties is to
    perform thread synchronization, which can stop the thread forever, and
    therefore, a property should not be
    used if thread synchro- nization is
    required. In that situation, a method is preferred. Also, if your class can be accessed remotely (for example,
    your class is derived from
    System.MashalByRefObject), calling
    the property method will be very
    slow, and therefore, a method is
    preferred to a property. In my
    opinion, classes derived from
    MarshalByRefObject should never use

  • If called multiple times in a row, a property method may return
    a different value each time; a
    field returns the same value each
    time. The System.DateTime class has a read- only Now property that returns
    the current date and time. Each time you query this property, it will
    return a different value. This is a
    mistake, and Microsoft wishes that
    they could fix the class by making
    Now a method instead of a property.

  • A property method may cause observable side effects; field access never does. In other words, a user of a type should be able to set various
    properties defined by a type in any
    order he or she chooses without
    noticing any different behavior in
    the type.

  • A property method may require additional memory or return a
    reference to something that is not
    actually part of the object's state, so modifying the returned object has
    no effect on the original object;
    querying a field always returns a
    reference to an object that is
    guaranteed to be part of the original object's state. Working with a
    property that returns a copy can be
    very confusing to developers, and
    this characteristic is frequently not documented.
  • The question was about C++ though. The C# code was just an example. :) – jalf Apr 10 '09 at 13:19

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