- Added an IntegerIterable Transformer.
- Document that these *Iterable transformers work with List/Set/Collection...
In case it wasn't clear.
- Added a sizeHint argument to the createCollectionBuilder method, take
advantage of that in the IntegerIterable since we don't need to do any
work to find the size.
It blows up expecting a column name in the values parenthesis, but the default values string that
postgres was working seems to work. It's not in http://hsqldb.org/doc/guide/ch09.html, but so it
goes.
I would have prefered to only add this support to the Query interface, and not
clutter up DepotRepository with two additional overloaded methods. However,
that would not have been possible without duplicating a bunch of logic from
DepotRepository. Yet another reason why the Query builder approach is awesome
and the fuckloads of overloaded methods approach isn't.
enum, when we need it to be using name() instead. We just take care to send it
the results of name() instead of the enum value itself.
It would be nice to share this code with BuildVisitor.bindValue, but that would
require yet further twisting and factoring of the code, obscuring it even more.
We'll just hope that special cases like Enum and ByteEnum aren't going to keep
cropping up.
it in our internals. We actually do use the toString value, but only in
constructing the cache key for a query, which should generally not result in
badness, unless you override your enums to not return unique strings for
different enum values.
It's looking like the Postgres4 driver calls createArray with an Object[] full
of enums, and it calls toString on the values in the array. I have an idea for
how to fix that, which is coming up next.
depot with a 1.5 compiler is going to blow up with a mismatched version. Go back to 1.5 in build.xml
and pom.xml, but leave Eclipse using a 1.6 JVM. This means if anyone regenerates the m2eclipse
configuration, this will break in Eclipse again. Lame.
in its burning desire to support the amazing four hundred billion rows, returns
a Long for count expressions.
Clients using selectCount() won't be impacted, but clients doing more complex
counting are going to have to sprinkle in some .intValue() calls.
not filled with ideas on how to programmatically verify that the primary key
migration I've just created a test for is actually working. I can visually
inspect the logging output, but that's not useful for catching potential future
regressions.
from Nathan). If we need to add our primary key, we do so, if we need to remove
it, we do so, and only then do we consider whether we need to migrate it (in
which case we drop and re-add it).
1. DateFuncs.dayOfWeek and dayOfMonth can now be used on Timestamp. +FromDate
variants exist for using on Date.
2. hour, minute, second, etc. are now typed Number to cope with differing
opinions on the part of the underlying SQL drivers as to whether to return
Double, Long, Integer or something else.
When we go to bind values in an update statement, we either have:
- field names and a pojo from which to extract them, in which case
transformation happens naturally when we extract the current value from the
pojo
- value expressions (like 1, or "bob") which we were previously just binding
directly to the statement, which was wrong because they need to first be
transformed in the case where the field in question has an @Transform
annotation; now we get the field marshaller for the field in question and
pass the raw value to it, so that it can do the necessary transformations in
writeToStatement()
- other expressions (like LiteralExp("true") or or IntervalExp or anything else
where the database is involved in computing the final value to be assigned to
the column).
This last case still holds the potential for badness with regard to transformed
fields. We can't magically transform the value to be stored into a field if the
database is computing the ultimate value. Say, for a contrived example, that
you had a record where you stored an int column as a String for shits and
giggles:
public class MyRecord {
@Transform(IntToStringTransformer.class)
public int someValue;
}
someValue will be a string column in the database, owing to the
IntToStringTransformer converting the int to a String.
Now you come along and think to yourself, "Hey, I want to store the current
minute in my 'int' field." and you write something like:
updatePartial(MyRecord.class, MyRecord.SOME_VALUE,
DateFuncs.minute(Exps.literal(new Timestamp(System.currentTimeMillis()))));
Well, that's going to end up trying to stuff an int-valued expression (computed
by the database) into a String field, and the shit will hit the fan.
I can't really think of a non-contrived situation where this is likely to bite
us in the ass, but I don't especially like grass covered pits like this lying
around, waiting for someone to unsuspectingly step into them.
I could fail if you try to update a transformed field with anything other than
a ValueExp (or the current value from a pojo), but that would prevent you from
doing something potentially useful and safe like copying one field to another,
which both use the same transformation.
non-persistent type), and transform in getFromSet/writeToStatement, rather than
operate on T (the persistent type) and transform in
getFromObject/writeToObject.
This makes the newly added test in TransformTest work, rather than fail, as it
did previously.