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Okay, just about everywhere I read, I read that getters/setters are "evil". Now, as a programmer who uses getters/setters often in PHP / C#, I do not see how they are alive. I have read that they break encapsulation, etc etc, however, here is a simple example.

class Armor{

  int armorValue;
public:
  Armor();
  Armor(int); //int here represents armor value
  int GetArmorValue();
  void SetArmorValue(int);
};

Now, lets say getters and setters are "evil". How are you supposed to change a member variable after initialization.

Example:

Armor arm=Armor(128); //armor with 128 armor value

//for some reason I would like to change this armor value
arm.SetArmorValue(55); //if i do not use getters / setters how is this possible?

Lets say the above is not okay, for whatever reason. What if my game restricts armor values from 1 to 500. (No armor can have a piece that has more than 500 armor or less than 1 armor).

Now my implementation becomes

void Armor::SetArmor(int tArmValue){
      if (tArmValue>=1 && tArmValue<=500)
         armorValue=tArmValue;
      else
         armorValue=1;
}

So, how else would I impose this restriction without using getters/setters? How else would I modify a property without using getters/setters? Should armorValue just be a public member variable in case 1, and the getters/setters used in case 2?

Curious. THanks guys

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Well, lots of things are evil if you are to believe a not insignificant number of programmers. Most of the time "evil" can be substituted for "useful in moderation". One does not have to agree with them :) –  Skurmedel Jan 26 '13 at 18:03

7 Answers 7

up vote 10 down vote accepted

You have misunderstood something. Not using getters/setters breaks encapsulation and exposes implementation details, and can be considered "evil" for some definition of evil.

I guess they can be considered evil in the sense, that without proper IDE/editor support, they are somewhat tediois to write in C++...

One pitfall of C++ is to create non-const reference getter, which allows also modification. That's same as returning a pointer to internal data, and will lock that part of internal implementation, and is really no better than making field public.

Edit: based on comments and other answers, what you heard probably refers to always creating non-private getter and setter for every field. But I would not call that evil either, just stupid ;-)

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1  
Exactly right: getters and setters are less evil than directly accessing public methods, as they define an interface under which your class can change without breaking its dependents. Just don't use them to allow access to members that really, truly should not be accessible to the outside world, and you'll have nailed it. –  Matt Jan 26 '13 at 18:05
    
In my example then, armorValue is accessible to the outside world right? Since I need it to be modified/read? So the whole getters/setters are evil refers to getters/setters being written to modify truly private variables? But in this case, it seems that its the SETTERS that are evil. I mean even some private variables will require read only access. Is this correct? –  Scott Moniz Jan 26 '13 at 18:12
1  
Based on an answer below I think I understand now. If a variable is private, you should only write a getter / setter if it needs to be accessed from the outside world. If a variable is private and is just used internally, getters/setters should not be written because by using the class - based on your getters/setters - people can infer some internals about the class. –  Scott Moniz Jan 26 '13 at 18:20
2  
Yeah, of course having private field with no getters/setters is "best", in a sense. And very often just getter is needed, without setter. The question to ask is, if you change internal implementation, and the field disappears, does getter or setter still make sense? If not, then it should not be part of public API. Also name the getter according to what it does, not what field it gets in initial implementation. –  hyde Jan 26 '13 at 18:28
    
Sorry for being incredibly new to C++, but would using setters be not evil in the case that the private variables need to be changed? For example, if I had the class Person, and that class had the variable int hp; in it, how would I change the hp of a Person object without using some sort of public setter function? –  JaredCubilla Jul 2 at 18:40

Being slightly contrarian: yes, getters and setters (aka accessors and mutators) are mostly evil.

The evil here is not, IMO, so much from "breaking encapsulation", as from simply defining a variable to be of one type (e.g., int) when it's really not that type at all. Looking at your example, you're calling Armor an int, but it's really not. While it's undoubtedly an integer, it's certainly not an int, which (among other things) defines a range. While your type is an integer, it's never intended to support the same range as an int at all. If you want Armor to be of a type integer from 1 to 500, define a type to represent that directly, and define Armor as an instance of that type. In this case, since the invariant you want to enforce is defined as part of the type itself, you don't need to tack a setter onto it to try to enforce it.

template <class T, class less=std::less<T> >
class bounded {
    const T lower_, upper_;
    T val_;

    bool check(T const &value) {
        return less()(value, lower_) || less()(upper_, value);
    }

    void assign(T const &value) {
        if (check(value))
            throw std::domain_error("Out of Range");
        val_ = value;
    }

public:
    bounded(T const &lower, T const &upper) 
        : lower_(lower), upper_(upper) {}

    bounded(bounded const &init) 
        : lower_(init.lower), upper_(init.upper), val_(init.val_)
    { }

    bounded &operator=(T const &v) { assign(v);  return *this; }

    operator T() const { return val_; }

    friend std::istream &operator>>(std::istream &is, bounded &b) {
        T temp;
        is >> temp;

        if (b.check(temp))
            is.setstate(std::ios::failbit);
        else
            b.val_ = temp;
        return is;
    }
};

With this in place, defining some armor with a range of 1..500 becomes utterly trivial:

bounded<int> armor(1, 500);

Depending on the situation, you might prefer to define (for example) a saturating type where attempting to assign an out of range value is fine, but the value that actually is assigned will simply be the nearest value that is within range.

saturating<int> armor(1, 500);

armor = 1000;

std::cout << armor;  // prints "500"

Of course, what I've given above is also a bit bare-bones. For your armor type, it would probably be convenient to support -= (and possibly +=) so an attack would end up something like x.armor -= 10;.

Bottom line: the (or at least "one") major problem with getters and setters is that they usually point to your having defined a variable as being of one type when you really want some other type that happened to be sort of similar in a few ways.

Now, it's true that some languages (e.g., Java) fail to provide the programmer with the tools necessary to write code like that. Here I'm trusting your use of the C++ tag to indicate that you really do want to write C++ though. C++ does provide you with the necessary tools, and (at least IMO) your code will be better off for your making good use of the tools it provides so your type enforces the required semantic constraints while still using clean, natural, readable syntax.

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Got it. Seems like overkill to create a Bounded type. However, I do understand where you are coming from here. I guess it depends how deep you wanna go, I mean, where does it stop? Anyways thanks! –  Scott Moniz Feb 1 '13 at 19:25
    
@ScottMoniz: If you had to create it anew every time you used it, I'd agree. When it becomes a matter of just #include "bounded" and using it, there's little reason not to use it. –  Jerry Coffin Feb 1 '13 at 20:04

In short: they aren't evil.

It's nothing wrong with them as long as they don't leak out the internal representation. I see no problems here.

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Ah okay, so you mean if you write getters/setters for EVERY private variable (even ones who do need to be accessed outside the class) you are basically leaking your internal representation...this makes sense. It seems selective use of getters/setters is not evil indeed. –  Scott Moniz Jan 26 '13 at 18:18
    
Another example would be to leak out references to member variables. –  Karoly Horvath Jan 26 '13 at 18:38

Your getter/setter looks ok.

The alternative to getter/setters is to make member variables public. To be more precise, group variables into structure without member functions. And operate on this structure within your class

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Giving access to members reduces encapsulation, but sometimes it's necessary. And the best way to do it is by means of getters and setters. Some people implement them when no such access is necessary, just because they can and it's a habit.

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how else would I impose this restriction without using getters/setters? How else would I modify a property without using getters/setters?

You can check what you read from the variable and if its value is out of range use a predefined value instead (if possible).

You can also resort to dirty hacks such as protecting the memory underneath the variable from writing, catching write attempts and disallowing/ignoring the ones with invalid values. This is going to be cumbersome to implement and expensive to execute. It may be useful for debugging, though.

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Getters are evil whenever:

  1. They access directly data members of the class
  2. When you have to add new getter every time you add data to the class
  3. The data behaviour is different in each getter

Good getters would thus do the following:

  1. They forward the request to some other object or collect the data from several places
  2. You can fetch large amounts of data using just one getter
  3. All the data you fetch is handled the same way

Setters on the other hand are evil always.

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