The bottom line is that somewhere, somehow, you need to map the possible return values of MyDto.getType()
to property setting methods of MyBuilder
. Your code does that via a switch
statement, and that's just fine. You can write the reduction as a stream-based pipeline instead, but you still need to incorporate the mapping somehow.
A pretty direct way of doing that would be to construct a literal Map
, which could be made static, final, and unmodifiable. For instance, if you're starting with classes structured like so ...
class Some {
}
class MyBuilder {
void field1(String s) { }
void field2(String s) { }
void field3(String s) { }
Some build() {
return null;
}
}
class ValueType {}
class MyDto {
int type;
ValueType value;
int getType() {
return type;
}
ValueType getValue() {
return value;
}
}
... then you might set up the reduction you describe like this:
public class Reduction {
// Map from DTO types to builder methods
private final static Map<Integer, BiConsumer<MyBuilder, ValueType>> builderMethods;
static {
// one-time map initialization
Map<Integer, BiConsumer<MyBuilder, ValueType>> temp = new HashMap<>();
temp.put(FIELD1, MyBuilder::field1);
temp.put(FIELD2, MyBuilder::field2);
temp.put(FIELD3, MyBuilder::field3);
builderMethods = Collections.unmodifiableMap(temp);
}
public Some reduce(Collection<MyDto> col) {
return col.stream()
// this reduction produces the populated builder
.reduce(new MyBuilder(),
(b, d) -> { builderMethods.get(d.getType()).accept(b, d); return b; })
// obtain the built object
.build();
}
}
That particular implementation uses a new builder every time, but it could be modified to instead use a builder passed into Reduction.reduce()
via a parameter, in case you want to start with some properties pre-populated, and / or retain a record of the properties with which the returned object was built.
Finally, note well that although you can hide the details in one place or another, I don't see any scope to make the overall process any simpler than the switch
-based code you started with.