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Recently I have read some articles saying that methods having side effects is not good. So I just want to ask if my implementation here can be categorized as having side effect.

Suppose I have a SecurityGuard which checks to see if he should allow a customer to go to the club or not.

The SecurityGuard either has only list of validNames or list of invalidNames, not both.

  • if the SecurityGuard has only validNames, he only allows customer whose name on the list.
  • if the SecurityGuard has only invalidNames, he only allows customer whose name NOT on the list.
  • if the SecurityGuard has no lists at all, he allows everyone.

So to enforce the logic, on setter of each list, I reset the other list if the new list has value.

class SecurityGaurd {
    private List<String> validNames = new ArrayList<>();
    private List<String> invalidNames = new ArrayList<>();

    public void setValidNames(List<String> newValidNames) {
        this.validNames = new ArrayList<>(newValidNames);
        // empty the invalidNames if newValidNames has values
        if (!this.validNames.isEmpty()) {
            this.invalidNames = new ArrayList<>();

    public void setInvalidNames(List<String> newInvalidNames) {
        this.invalidNames = new ArrayList<>(newInvalidNames);
        // empty the validNames if newInvalidNames has values
        if (!this.invalidNames.isEmpty()) {
            this.validNames = new ArrayList<>(); //empty the validNames

    public boolean allowCustomerToPass(String customerName) {
        if (!validNames.isEmpty()) {
            return validNames.contains(customerName);
        return !invalidNames.contains(customerName);

So here you can see the setter methods have an implicit action, it resets the other list.

The question is what I'm doing here could be considered having a side effect? Is it bad enough so that we have to change it? And if yes, how can I improve this?

Thanks in advance.

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Seems fine, should not be a problem. That's what setters() are for! –  Sudhanshu Mar 1 '13 at 4:43
I don't think so, your conditions are well defined. So long as you can support it with documentation for people who might trying to set both methods. The only thing you could do differently is throw an IllegalStateException if the developer tries to set one of the lists while the other exists. –  MadProgrammer Mar 1 '13 at 4:43
Anyway, I would check for null in the setters. Also, creating a new Arraylist that "wraps" the original it's a good practice. In this blog you can see a very good explanation, blog.codejava.net/nam/… –  psabbate Mar 1 '13 at 4:48
@psabbate: I aimed to make the code as simple as possible so I omitted null check here. Thanks for the link. –  Genzer Mar 1 '13 at 5:29

6 Answers 6

up vote 1 down vote accepted

Imagine that the guard just had one SetAdmissionPolicy which accepted a reference to an AdmissionPolicy defined:

interface AdmissionPolicy {
    boolean isAcceptable(String customerName) {

and set the guard's admissionPolicy field to the passed-in reference. The guard's own allowCustomerToPass method simply called admissionPolicy.isAcceptable(customerName);.

Given the above definitions, one can imagine three classes that implement AdmissionPolicy: one would accept a list in its constructor, and isAcceptable would return true for everyone on the list, another would also accept a list in its constructor, but its isAcceptable would return true only for people not on the list. A third would simply return true unconditionally. If the club needs to close occasionally, one might also have a fourth implementation that returned false unconditionally.

Viewed in such a way, setInvalidNames and setValidNames could both be implemented as:

public void setAdmissionPolicyAdmitOnly(List<String> newValidNames) {
    admissionPolicy = new AdmitOnlyPolicy(newValidNames);

public void setAdmissionPolicyAdmitAllBut(List<String> newInvalidNames) {
    admissionPolicy = new AdmitAllButPolicy(newInvalidNames);

With such an implementation, it would be clear that each method was only "setting" one thing; such an implementation is how I would expect a class such as yours to behave.

The behavior of your class as described, however, I would regard as dubious at best. The issue isn't so much that adding admitted items clears out the rejected items, but rather that the behavior when a passed-in list is empty depends upon the earlier state in a rather bizarre fashion. It's hardly intuitive that if everyone but Fred is allowed access, calling setValidNames to nothing should have no effect, but if it's set to only allow George access that same call should grant access to everyone. Further, while it would not be unexpected that setValidNames would remove from invalidNames anyone who was included in the valid-names list nor vice versa, given the way the functions are named, the fact that setting one list removes everyone from the other list is somewhat unexpected (the different behavior with empty lists makes it especially so).

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Your solution is very nice. I didn't expect to receive such a nice answer at this time. Thanks! –  Genzer Dec 30 '13 at 6:46
@Genzer: Glad it was helpful. One other possible change would be to use type HashSet<String> internally rather than List<String>. You could also use Collection<String> as your parameter type rather than List<String> (any class that implements List<> also implements Collection<>), which would allow your methods to accept a HashSet<String> as well as List<String>. –  supercat Dec 30 '13 at 16:37
Actually, the point of my question is whether doing something like this is considered a side-effect. The code is just for example. But with your suggested solution, it can eliminate the side-effect. I actually can remove all the setXXXName and just provide setAdmissionPolicy. –  Genzer Dec 31 '13 at 6:38
@Genzer: My preferred design is to, when practical, define an object's characteristics in terms of independent traits which can be specified independently with defined characteristics for all combinations, and only include "set" methods for those; for other traits, use a different term. For example, if a control's horizontal boundaries are defined in terms of Left and Width, it may have a getRight method, but rather than setRight it should have moveToSetRight and resizeToSetRight. The fact that setLeft and setWidth change the value reported by getRight... –  supercat Jan 1 at 17:18
...would be more a "consequence" than a side-effect; the fact that moveToSetRight would affect Left would be direct effect. Even though that's my preferred design, however, I would not find it overly surprising if, in a library that defined control bounds in terms of Left and Right, setting a control's Right to a value below its left pushed the left edge correspondingly. I wouldn't like such a design, but wouldn't find it astonishing [I'd prefer to instead have defined behavior for when Left is to the left of Right, so they could be set independently]. –  supercat Jan 1 at 17:22

Well, setters themselves have side effects (A value in that instance is left modified after the function ends). So, no, I wouldn't consider it something bad that needs to be changed.

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So under which conditions, we can consider a method having side effects? –  Genzer Mar 1 '13 at 5:34

It does not have any side effect although , its assumed by developers that getters and setters may not have any underlying code apart from getting and setting the variable. Hence when another developer tries to maintain the code , he would probably overlook at your code of the Bean and do the same checks as done by you in the setters - Possible Boiler Plate code as you would call it

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Thanks! Could give some thought what I should do to avoid such boiler plate code? –  Genzer Mar 1 '13 at 5:26

I'd not consider it as a side effect. You are maintaining the underlying assumptions of your object. I'm not sure it's the best design, but it's certainly a working one.

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In this case I don't think changing the other linkedlist will be a side affect, since the scope is within this class.

However, based on your description, maybe it is better design to have one linkedList (called nameList) and a boolean (isValid) that differentiate between a whitelist and a blacklist. This way it is clear that only one type of list be filled at any time.

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Thanks! But I think your solution would make the code more complicated though. P.s: I actually used ArrayList in the example :D –  Genzer Mar 1 '13 at 5:33

I think it's OK. E.g. if you want your class to be immutable the best place to do it is setter:

public void setNames(List<String> names) {
       this.names = names == null ? Collections.emptyList() : Collections.unmodifiableList(names);
share|improve this answer
Actually, I only expose setters here, so making unmodifiableList is not neccesary. But thanks for pointing out I should return a defensive copy of the list to maintain the constraint if I do expose getters. –  Genzer Mar 1 '13 at 5:31
The point is that when you simply copy a reference to a list in setter, the list can be modified outside the class since the reference to the list is exposed –  Evgeniy Dorofeev Mar 1 '13 at 5:45
ah, I see. Thanks! –  Genzer Mar 1 '13 at 5:46

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