I am reading some code where a class has private const data members, and then a whole bunch of public methods that provide read-only access to those data members.

What is the point of this? Why not just make those private data members public? They are const, so the access is by definition read-only, and people can access them via theClass.theMember rather than theClass.getTheMember(), which is easier, plus you avoid having to create all those public methods in the first place. One for each member variable, meaning that's O(n) inefficiency!

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    Congratulations, you stumbled upon an "OOP" cargo cult. – StoryTeller Oct 17 '18 at 12:06
  • In practice inline getters that return a const ref are no different to direct member access in terms of efficiency. Personally I only bother with a getter if it's something that's going to be called a lot, just makes debugging in vs a little easier. You could insert one after the fact for debugging but if you're working in a large code base and the file you're changing has been included all over the shop, then you're gonna have to wait... and wait... and wait... to compile. – George Oct 17 '18 at 12:11
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    @George I think OP means efficiency in writing code, otherwise it would be O(1), not O(n). – Quentin Oct 17 '18 at 12:14
  • @StoryTeller that belongs as an answer – Caleth Oct 17 '18 at 13:45
  • @Caleth - I'll just be paraphrasing Bo Persson here. I was actually trying to find this dupe and then was called away. Oh well. – StoryTeller Oct 17 '18 at 13:48

Well, it is just style. For your concrete example, it might make sense to declare them as public.

However, it's a practice to provide get and set methods which may or may not be doing something additional to the fields.
Consider if there is a change of the requirement or something.

Also, it's probably more convenient for the programmers who are introduced to the code.
Most of them have this concept of accessing through getters so they expect the code to be like this.


Unless the accessor methods actually do something other than providing a reference, they are indeed superfluous.

This something can be, for instance:

  • Setter: Checking that the given value is actually valid.

  • Getter: Derive the requested value on the fly from something else.

  • Setter: Ensure that the given value is consistent with other data members.

  • Setter: Notify some data consumer(s) of the change

  • ...

However, if you are writing stuff like

    const int _foo;

    const int& foo() const { return _foo; }

there is no advantage over writing

    const int foo;

instead. You cannot do anything with the later that you can't do with the former.

Likewise, the code

    int _foo;

    int& foo() { return _foo; }
    const int& foo() const { return _foo; }

provides no benefit over

    int foo;

because any user can set _foo to any value they like without the object even noticing it.

So, my advice would be:

  • Declare data members private by default.

  • If you need read-only access but the data member is mutable, provide a getter.

  • If the data member is const and readable, use public: const

  • If users are to be allowed to just supply any value at any time, go ahead and make the member public. That's just being honest: The class itself has no control over the member's value, whatsoever.

    Note that this also happens extremely infrequently. In the vast majority of cases, you want your class to provide some abstraction, which means that it's not just a bunch of public data members. A well-written class should implement some needed behavior, not just be a collection of data. Also, if the class where just a bunch of public data members, you would declare it as a struct, wouldn't you?

  • If you find that you need the class to do something when a public variable is accessed, turn it into a private one, provide the relevant accessors, and let your compiler point you to all the places in the code that need to be updated.

    This also happens very infrequently, but it will force you to actually look at all the uses of the data member before you change the behavior of its access. This may be a good thing as it gives you a chance to spot problems with the changed behavior before they show up in the tests and/or production. You won't be forced to revisit the calling sites if you already provided the vanilla accessors for the variable.

  • The class vs. struct thing is just a convention as well. In reality, classes and structs are the same in C++, except for the default access modifier. – Mário Feroldi Oct 17 '18 at 12:41
  • @MárioFeroldi Perfectly true. However, it's a very strong signal to the reader when some object is declared as struct Foo { int _member1; ... }. That says loud and clearly: This is just plain data, there are no consistency guarantees, whatsoever. – cmaster Oct 17 '18 at 12:44

I think it's generally considered a good practice to provide getters (and setters where appropriate) for class members. The rationale is that it makes it easier to change the class's representation later, since you can do so without breaking any client code.


As @PetarVelev point out it is style. For many people having setters and getters is a boiler plate code, but usually they forgot why this was invented.

And this was invented to make maintenance of code easy. Imagine some class with some properties. This property is used all over the project. Now requirement has changed and you have to do something every time property is accessed something must happen. For example when value is changed notification should be sent (setters should be updated). Or you have noticed that calculating some property is costly, so it has to be lazy evaluated (getter should be corrected).

When you write this property (class field) you didn't know that there will be such issues to solve. If you expose this as public field then to resolve this issue you have to spend hours to find every use of this value and correct it. On other hand if this is done by using setter and getter you will spend 5-10 minutes to fix it including adding a tests.

So having setters and getters is a good practice, where you will lose 10 seconds to write them as boiler plate code, but save lots of time if some radical change is needed. Good example is Qt freamework.

So if you are sure that requirement will not change there is no point to use getter setter, but if you have doubts it is better to use them.

Now in your case where constant filed is exposed by getter is a bit strange. I'm suspecting that this is some example of functional programing, but without seeing actual code is hard to tell.

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