This question has been asked many times but I couldn't find a satisfying answer.

I am trying to find a way to handle errors in java 8 without limiting too much the shape of the error.

A generic procedure which retrieves data from different sources and produces a result of type T might look like this:

T procedure(p) {
    A a = sourceA.get(p);
    B b = sourceB.get(p,a);
    C c = sourceC.get(p,a,b)
    return new T(p,a,b,c);

All these sources can fail to return a result, so I am trying to find a "general enough" solution to handle the possible errors.

To choose the "strategy" I am focusing on three main non-indipendent concerns:

  1. how the error is returned to the caller
  2. how the error is handled
  3. how much freedom I have in the representation of the error

There are essentially 2 strategies I can think of:

Result object. This is essentially a wrapper object (Result<E,T> or Result<T>) which contains a "response code" and, optionally, a value of type T if everything worked fine.

This solution allows for the error to be returned in a "procedural" fashion

Result<T> procedure(p) {
    Result<A> resA = sourceA.get(p);
    if (!resA.isOK())
        return Result.of(resA.getCode())
    A a = resA.getValue();
    Result<B> resB = sourceB.get(p,a);
    if (!resB.isOK())
        return Result.of(resB.getCode())
    B b = resB.getValue();
    Result<C> resC = sourceC.get(p,a,b)
    if (!resC.isOK())
        return Result.of(resC.getCode())
    C c = resC.getValue();
    return Result.of(new T(p,a,b,c));

or in a "functional" one.

Result<T> procedure(p) {
    return sourceA.get(p)
        .flatMap(a -> sourceB.get(p,a)
            .flatMap(b -> sourceC.get(p,a,b)
                .flatMap(c -> Result.of(new T(p,a,b,c))));

The functional solution is "conceptually" cleaner but a lot harder to read and i think it looks a bit out of place in java. The procedural one looks fine but it's a lot more prone to programming error considering that no one forces you to check the result with isOK before calling getValue/getCode.

Here the handling depends directly on how I choose to represent the error/status. The simplest solution would be to use an enum. In that case the caller would handle everything with a switch-case

Result<T> procedureResult = precedure(p);
if (procedureResult.isOK()){ ...do stuff... }
else {
    switch(procedureResult.getCode()) {
        case CODE1 : ...
        case CODE2 : ...
        default : ...

This is a bit limiting because enums are not very customizable. If I need different data for different errors, I have to define one class for each error which would not be a problem if it wasn't for the complexity required to handle the cases. The only way to handle errors belonging to different classes I can think of is to use what is essentially a visitor pattern and I would like to avoid it. I am not the only one working on the code and how to use correctly the pattern is something that needs to be learned and I know for a fact no one can be bothered to do it.

A variation on this might be some sort of C-like status:

Status precedure(p, resultContainer)

Or an "inverted" version of the same idea:

Optional<T> precedure(p, statusContainer)

But they present the same issues as Result and more.

Checked Exceptions. Here the errors can have whatever shape they want and are easily returned and handled with the famous goto shenanigans.

T procedure(p) throws SourceAException1, SourceAException2, SourceBException {
    A a = sourceA.get(p);
    B b = sourceB.get(p,a);
    C c = sourceC.get(p,a,b)
    return new T(p,a,b,c);
try {
    T = procedure(p);
catch(SourceAException1 sae1){ ... }
catch(SourceAException2 seae2){ ... }
catch(SourceBException sbe){ ... }

On paper this look like the better solution (note that I like the "errors annotations" in the method signature even if it's a bit verbose) but there are 2 problems:

  1. in java using exception as an "alternative return" is considered bad practice (by some an anti-pattern even) because an exception signals an exceptional occurrence and should not be used for "expected behaviour".

This might actually be just a matter of preference. What worries me is:

  1. the exceptions are slow. From what I found it seems this is caused by the construction of the stack trace. In order to alleviate this problem I found out that you can make the stacktrace non-writable but this looks very non-standard and I am not even sure it would make that much of a difference.

So, at the end of all this, my questions are:

  1. do you know a better solution to a similar problem which solves some of this issues?
  2. Is the checked exceptions with non-writable stacktrace a bad idea?
  • One thing to keep in mind is how often you expect an exception to take place. If it's a common occurrence then I imagine there is an alternate design that could be used. Additionally, will the exception lead to the program's exit, or, is it utilized as a conditional.
    – Reilas
    Commented Jun 2, 2023 at 0:33
  • The question is not exaclty an specific problem. This could end in an opinion based discussion (which I personally like, but this is not the right place). Maybe this answer about "too broad questiosn" could help you. Also, for java 8 you have the library vavr which offers the Try class that if I'm not wrong is doing something similar on what you are asking Commented Jun 2, 2023 at 0:45
  • @Reilas i suppose, if used like this, the exceptions would be used frequently. This is why I think in java it would be considered an "abuse" of the exceptions. But (from a syntactical point of view at least) they look better then the other solutions. Commented Jun 2, 2023 at 12:29
  • @GastónSchabas yes I feared the question was going to be be a bit too broad but I didn't know the other websites. I'll definitly follow your advice and move it somewhere else (softwareengineering looks like the right place). Should I delete this one or leave it? Commented Jun 2, 2023 at 12:30
  • I moved the question to SoftwareEngineering. softwareengineering.stackexchange.com/questions/445866/… Commented Jun 2, 2023 at 18:35


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