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Is there a straight-forward way to implement a method with the following signature? At minimum, the implementation would need to handle primitive types (e.g. Double and Integer). Non-primitive types would be a nice bonus.

//Attempt to instantiate an object of type T from the given input string
//Return a default value if parsing fails   
static <T> T fromString(String input, T defaultValue)

Implementation would be trivial for objects that implemented a FromString interface (or equivalent), but I haven't found any such thing. I also haven't found a functional implementation that uses reflection.

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Why are you trying to return <T> T instead of just T? –  Makoto Mar 30 '12 at 21:50
    
@Makoto This is a generic method. <T> declares a type variable for the method. The return type is declared simply as T. –  erickson Mar 30 '12 at 21:53
    
Fair enough. Now I understand, thanks. –  Makoto Mar 30 '12 at 21:54
    
@Caleb: Nothing simple and totally general. –  Louis Wasserman Mar 30 '12 at 22:47

3 Answers 3

up vote 4 down vote accepted

That's only possible if you provide Class<T> as another argument. The T itself does not contain any information about the desired return type.

static <T> T fromString(String input, Class<T> type, T defaultValue)

Then you can figure the type by type. A concrete example can be found in this blog article.

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2  
Yes, the type would be needed, unless the API requires that defaultValue is non-null. –  Dilum Ranatunga Mar 30 '12 at 22:03
    
@DilumRanatunga Can you elaborate? I can see how passing a null value would make type inference impossible, but I don't see how it'd solve the issue of determining the concrete type of T. –  cqcallaw Mar 30 '12 at 22:18
1  
Use defaultValue.getClass() to get the type as Class<T>. –  BalusC Mar 30 '12 at 22:19
1  
Hmm, testing this, defaultValue.getClass() returns an instance of type Class<capture#1-of ? extends Object>. Is the unchecked cast to Class<T> avoidable? –  cqcallaw Mar 30 '12 at 23:02
1  
This information is lost during runtime. Every T is then just Something which extends Object. Just keep the unchecked cast or add a Class<T> argument, it's also nicer and avoids problems with null default value (in your particular case, you namely already know T when you invoke the method, how else would you be able to specify a default value?). –  BalusC Mar 30 '12 at 23:17

You want an object that parses a particular type in a particular way. Obviously it's not possible to determine how to parse an arbitrary type just from the type. Also, you probably want some control over how the parsing is done. Are commas in numbers okay, for example. Should whitespace be trimmed?

interface Parser<T> {
    T fromString(String str, T dftl);
}

Single Abstract Method types should hopefully be less verbose to implement in Java SE 8.

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Fortunately, fine control over the parsing mechanisms is unnecessary for my purposes. It's sufficient to fall back to a default value if parsing fails. –  cqcallaw Apr 1 '12 at 5:50

Perhaps not answering the question how to implement the solution, but there is a library that does just this (i.e has almost an identical API as requested). It's called type-parser and could be used something like this:

TypeParser parser = TypeParser.newBuilder().build();

Integer i = parser.parse("1", Integer.class);
int i2 = parser.parse("42", int.class);
File f = parser.parse("/some/path", File.class);

Set<Integer> setOfInts = parser.parse("1,2,3,4", new GenericType<Set<Integer>>() {});
List<Boolean> listOfBooleans = parser.parse("true, false", new GenericType<List<Boolean>>() {});
float[] arrayOfFloat = parser.parse("1.3, .4, 3.56", float[].class);
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