28

I have a method with 195 ifs. Here is a shorter version:

private BigDecimal calculateTax(String country, BigDecimal amount) throws Exception {
    if(country.equals("POLAND")){
        return new BigDecimal(0.23).multiply(amount);
    }
    else if(country.equals("AUSTRIA")) {
        return new BigDecimal(0.20).multiply(amount);
    }
    else if(country.equals("CYPRUS")) {
        return new BigDecimal(0.19).multiply(amount);
    }
    else {
        throw new Exception("Country not supported");
    }
}

I can change ifs to switches:

private BigDecimal calculateTax(String country, BigDecimal amount) throws Exception {
    switch (country) {
        case "POLAND":
            return new BigDecimal(0.23).multiply(amount);
        case "AUSTRIA":
            return new BigDecimal(0.20).multiply(amount);
        case "CYPRUS":
            return new BigDecimal(0.19).multiply(amount);
        default:
            throw new Exception("Country not supported");
    }
}

but 195 cases is still so long. How could I improve readability and length of that method? What pattern would be the best in this case?

9
  • 26
    Use java.util.Map ... ? Jun 13, 2019 at 18:18
  • 1
    Yeah, a map or a dictionary is probably your best bet here.
    – ncbvs
    Jun 13, 2019 at 18:19
  • 13
    Warning: avoid using float point numbers with BigDecimal. BigDecimal(0.23) might not be the same as BigDecimal(23)/BigDecimal(100). The latter is the correct representation of 23%.
    – gudok
    Jun 13, 2019 at 18:29
  • 7
    I'm voting to close this question as off-topic because questions about improving the readability of existing, working code belong on Code Review. Jun 14, 2019 at 3:54
  • 4
    @ncbvs You should definitely not use a map, it'll work for this toy problem, but it's really limited in future expandability (when you want more cases, more payloads in addition to the tax rate, etc.). This is what object orientation is for. See my answer.
    – Alexander
    Jun 14, 2019 at 6:32

7 Answers 7

44

Create a Map<String,Double> that maps country names to their corresponding tax rates:

Map<String,Double> taxRates = new HashMap<> ();
taxRates.put("POLAND",0.23);
...

Use that Map as follows:

private BigDecimal calculateTax(String country, BigDecimal amount) throws Exception {
    if (taxRates.containsKey(country)) {
        return new BigDecimal(taxRates.get(country)).multiply(amount);
    } else {
        throw new Exception("Country not supported");
    }
}
13
  • 3
    This doesn't seem like a reasonable place to throw a checked exception. I know that OP's code does this, but I'd still rather not propagate it.
    – Ben P.
    Jun 13, 2019 at 18:22
  • 10
    @BenP. I see no issue with throwing a checked exception if you receive an unexpected/not supported input. I'd probably use some custom exception and not the base Exception class though.
    – Eran
    Jun 13, 2019 at 18:25
  • 7
    An IllegalArgumentException should be fine, but a plain Exception is a no-go...
    – Marco13
    Jun 13, 2019 at 20:31
  • 1
    You should definitely not use a map, it'll work for this toy problem, but it's really limited in future expandability (when you want more cases, more payloads in addition to the tax rate, etc.). This is what object orientation is for. See my answer.
    – Alexander
    Jun 14, 2019 at 6:33
  • 2
    Small nitpick: Map.ofEntries() is probably nicer than repeating all the put calls. Larger nitpick: That's still too much code duplication, and some of the other commenters are right, IMHO, to factor the data out into a file or database and populate the map from it or query the data source directly. Medium nit: yeah, what others said about exceptions. :)
    – Ray Toal
    Jun 14, 2019 at 7:45
24

Put the data in an XML file or database, then use it to populate a dictionary. That way you can change the data easily, and separate the data from your application logic. Or, just execute a SQL query in your method instead.

14

Don't do this!

As it is right now, your calculateTax method is like a container for four actual calculateTax methods, one for each of the 3 countries, and one for the invalid case. Every other method you make along these lines will be like that. Following this pattern, you'll end up with many switches (checking for the same set of cases) within many methods, where each case contains the specifics of a case. But that's exactly polymorphism does, in a much better way!

Patterns like this are a very strong indication that you're not taking advantage of object orientation, and barring any other reasons not to, you definitely should. It's Java after all, and that's kind of the whole schtick.

Create an interface like TaxPolicy:

interface TaxPolicy {
    BigDecimal calculateTaxFor(BigDecimal saleAmount);
}

Create a class that implements it:

class NationalSalesTaxPolicy implements TaxPolicy  {
    String countryName;
    BigDecimal salesTaxRate;

    // Insert constructor, getters, setters, etc. here

    BigDecimal calculateTaxFor(BigDecimal saleAmount) {
        return saleAmount.multiply(salesTaxRate);         
    }
}

Then, create objects of this class, one per country you wish to support. We can wrap this list into a new class, NationalSalesTaxCalculator, which will be our one-stop-shop for calculating sales tax for any country:

class NationalSalesTaxCalculator {
    static Map<String, NationalSalesTaxPolicy> SUPPORTED_COUNTRIES = Stream.of(
        new NationalSalesTaxPolicy("POLAND", "0.23"),
        new NationalSalesTaxPolicy("AUSTRIA", "0.20"),
        new NationalSalesTaxPolicy("CYPRUS", "0.19")
    ).collect(Collectors.toMap(NationalSalesTaxPolicy::getCountryName, c -> c));

    BigDecimal calculateTaxFor(String countryName, BigDecimal saleAmount) {
        NationalSalesTaxPolicy country = SUPPORTED_COUNTRIES.get(countryName);
        if (country == null) throw new UnsupportedOperationException("Country not supported");

        return country.calculateTaxFor(saleAmount);
    }
}

And we can use it like:

NationalSalesTaxCalculator calculator = new NationalSalesTaxCalculator();
BigDecimal salesTax = calculator.calculateTaxFor("AUSTRIA", new BigDecimal("100"));
System.out.println(salesTax);

Some key benefits to notice:

  1. If you add a new country you want to support, you just have to create a new object. All methods that might need that object, automatically "do the right thing", without needing to manually find them all, in order to add in new if statements.
  2. You have room to adapt functionality as necessary. For example, where I live (Ontario, Canada), sales tax isn't charged for groceries. So I could make my own subclass of NationalSalesTaxPolicy that has more nuanced logic.
  3. There's even some more room for improvement. Notice that NationalSalesTaxCalculator.calculateTaxFor() contains some code specific to handling an unsupported country. If we add in new operations to that class, every method would need the same null check and error throw.

    Instead, that could be refactored into using the null object pattern. You implement an UnsuppoertedTaxPolicy, which is a class that implements all interface methods by throwing exceptions. Like so:

    class UnsuppoertedTaxPolicy implements TaxPolicy {
        public BigDecimal calculateTaxFor(BigDecimal saleAmount) {
            throw new UnsupportedOperationException("Country not supported");
        }
    }
    

    You can then do

    TaxPolicy countryTaxPolicy = Optional
        .ofNullable(SUPPORTED_COUNTRIES.get(countryName))
        .orElse(UNSUPPORTED_COUNTRY);
    return countryTaxPolicy.calculateTaxFor(saleAmount);
    

    This "centralizes" all your exceptions into one place, which makes them easier to find (thus easier to set break points on), easier to edit (in case you ever want to migrate the exception types, or change the message), and it declutters the rest of the code, so that it only needs to worry about the happy case.

Here's a working demo: https://repl.it/@alexandermomchilov/Polymorphism-over-ifswitch

8
  • 6
    The thing is, this isn't really expandable anyway. To add functionality like "don't charge sales tax for groceries in Canada" (or worse, Ontario), you'll need to change the interface anyway. The problem in general calls for OOP, but the only thing you really have here is adding lots of code that doesn't really do anything. You're not saving any development time by changing the code to OO before you have a reason to do so. Of course, as soon as there's such a requirement (like your variable sales tax), this is the way to go. Until then, a simple method works better.
    – Luaan
    Jun 14, 2019 at 8:28
  • 2
    Don't do this either. You still need to hard-code many values which might change in a few months. Writing the data as JSON/Sqlite/XML would be a better choice. Jun 14, 2019 at 9:57
  • 1
    Big nitpick: YAGNI. Small nitpick: Putting (in spirit) "polymorphism is the solution" in the first part doesn't really fit. The "you'll end up with many switches" issue is solved with a Map, just like the accepted answer. Only in the end (as solution to a different problem!), you actually provide "a single interface to entities of different types" (NationalSalesTaxPolicy vs. UnsupportedTaxPolicy). Jun 14, 2019 at 12:17
  • 1
    That's really enterprise quality coding. To some extent, I agree: As a rule of thumb, every switch and even most ifs should at least be considered as a candidate to be implemented with polymorphy. But at this point, the interface is trivially BigDecimal compute(String, BigDecimal). Even if those structures were in place, I'd pull out your usage example into a (private static) method with exactly this signature, where the calculator instance is created. Now you could start with dependency injection...
    – Marco13
    Jun 14, 2019 at 13:08
  • @Marco13 This is one of the places where I see it as most fitting. I'm not a fan of enterprise Java in general, but this domain is particularly fast-changing and warrants it, IMHO.
    – Alexander
    Jun 14, 2019 at 14:25
10

As a frame challenge...

195 cases is not too long if it's clear what they're doing and why, and if the code inside each case is minimal. Yes it's long, but it's perfectly readable because you know exactly what it's doing. Length does not necessarily imply unreadability.

As other answers have said of course, this may be a code smell indicating you're not using OO properly. But on its own, it's just long, not unreadable.

3
  • 2
    The only thing really smelling at all here is the repeated "amount * taxRate". Not only is it easily solved, but it would also make it hard to spot that one case which does something different (which will almost inevitably come at some point).
    – Luaan
    Jun 14, 2019 at 8:39
  • 1
    Actually the 195 is not the real problem. The real problem is, that these numbers are volatile, and change on specific dates (when tax rates changes). So there needs to be a consistent update method/process also allowing to put in future changes. Hard coding this, and changing by hand, probably with a personal calender notification is not a solution. (except for toy programms)
    – lalala
    Jun 14, 2019 at 10:53
  • @Luann I'd think the one case where it's different would stand out more in the code? Of course forgetting to cover that one case from requirements would be all too easy! I agree with everyone else that the OP's specific example has better ways of solving the problem. In general though, I don't share the OP's concern about long functions if what they're doing is clear and hence they can readily be checked for correctness against design/requirements. That's really what matters, and recommendations for function length are just a way to help make that easier.
    – Graham
    Jun 14, 2019 at 11:13
5

If the values are constant and are not meant to be changed regularly (which I doubt). I'd introduce a static metamodel using Enum:

public enum CountryList {

    AUSTRIA(BigDecimal.valueOf(0.20)),
    CYPRUS(BigDecimal.valueOf(0.19)),
    POLAND(BigDecimal.valueOf(0.23));

    private final BigDecimal countryTax;

    CountryList(BigDecimal countryTax) {
        this.countryTax = countryTax;
    }

    public BigDecimal getCountryTax() {
        return countryTax;
    }

    public static BigDecimal countryTaxOf(String countryName) {
        CountryList country = Arrays.stream(CountryList.values())
                .filter(c -> c.name().equalsIgnoreCase(countryName))
                .findAny()
                .orElseThrow(() -> new IllegalArgumentException("Country is not found in the dictionary: " + countryName));

        return country.getCountryTax();
    }
}

Then

private BigDecimal calculateTax(String country, BigDecimal amount) throws Exception {
    return CountryList.countryTaxOf(country).multiply(amount);
}

It's readable, compile time safe, easily extendable with additional metadata per country and less boilerplate.

7
  • 1
    Why the stream? Jun 14, 2019 at 2:40
  • 1
    What's wrong about it? stream() usually faster than for-loop and there's no side effects. Jun 14, 2019 at 7:41
  • 1
    “stream() usually faster than for-loop” — is there any evidence for that? It's likely for parallel streams and very large numbers, but for a small number like 195 the overhead of set-up, heap churn, &c (and, if parallel, synchronisation) is likely to dwarf any potential saving. There are good reasons for using streams, but performance on small numbers isn't one of them!
    – gidds
    Jun 14, 2019 at 8:45
  • is there any evidence for that? How about benchmarking? forEachStream seems to be 1.3 - 1.5 times faster than the same for-loop. I'm not even talking about conciseness/readability. Jun 14, 2019 at 14:07
  • Well, I was also wondering why you didn't use CountryList.valueOf(countryName.toUpperCase(Locale.ROOT)) (make sure to specify locale when doing case insensitive comparisons!) Jun 16, 2019 at 21:32
4

EDIT: missed @Alexander's answer; it might be a bit overkill, but he's hitting the main point as well: use OOP.
EDIT 2: implemented @Luaan's suggestions

I'm probably missing something obvious, and it might be a bit hard to implement at this late a stage, but this looks to me like a perfect case for Object Oriented Programming:

You create a Country class which contains everything pertaining to a country, such as a name and a calculateTax() method and whatnot, and then your caller (calculateTotalAmount(), or whatever) will call country.calculateTax(amount) instead of calculateTax(country, amount), and the entire if/switch construction is just gone.

Besides, when you add support for a new country (say, there's another civil war somewhere and a country splits up), you just add everything for the new country in one single place instead of hunting down a gazillion methods with gigantic if() chains or switch()es...

2
  • 1
    Having a public taxFactor isn't really "OOP", you're basically reinventing procedural/early functional programming (not that there's anything wrong with that). A more OOP approach would be either having the tax calculation in the country object, or having a separate tax calculator object that can be created for a given country (and potentially accept other arguments). This gets especially important when you realize that countries often don't have unified tax rates in the first place.
    – Luaan
    Jun 14, 2019 at 8:36
  • @Luaan You're right, of course: we can calculateTax() in our country object and instead of having the caller perform calculateTax(country, amount) it just calls country.calculateTax(amount). Much better. Will edit (if still possible). Jun 14, 2019 at 8:44
2

If you insist on using switch: since JDK 12, switch expressions potentially improve readability and length of the switch statement by allowing multiple case labels and lambda-style syntax:

private BigDecimal calculateTax(String country, BigDecimal amount) throws Exception {
    double rate = switch(country) {
        case "POLAND", "IRELAND" -> 0.23;
        case "AUSTRIA", "FRANCE" -> 0.20;
        case "CYPRUS", "GERMANY" -> 0.19;
        default -> throw new Exception("Country not supported");
    };
    return new BigDecimal(rate).multiply(amount);
}

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