Some examples:
int max = _repo.from(TestRecord.class).load(Funcs.max(TestRecord.RECORD_ID));
List<Tuple2<String,Integer>> data = _repo.from(EnumKeyRecord.class).
groupBy(EnumKeyRecord.NAME).ascending(EnumKeyRecord.NAME).
select(EnumKeyRecord.NAME, Funcs.count(EnumKeyRecord.TYPE));
Still no caching integration, but the ratio of utility over boilerplate is
high.
least on something that was Comparable, but unfortunately, the numeric type's
only shared supertype is Number and that is not comparable.
If I require Number, then you can't do greatest(timestamp, timestamp), and if I
require Comparable, then you can't do greatest(int, double) because the
compiler can't unify those types to something that is Comparable.
I could require that you only compare apples with apples (i.e. greatest(int,
int) or greatest(double, double)), but databases will happily compare
greatest(int, double) and people are going to want to do that. I could
introduce some sort of numeric conversion expressions, but I think that's
getting too deeply into the realm of type safety for type safety's sake.
fast-and-looseness by propagating types through foo.eq(bar) expressions,
foo.lessThan(bar) expressions and the like.
This means a few things stopped working, like
StringFuncs.length(MyRecord.BYTE_ARRAY_FIELD), but now there's
Funcs.arrayLength() for that. Also Date functions are looser than I'd like
because there's no supertype between sql.Date and sql.Timestamp (to express a
date having type) and sql.Timestamp and sql.Time (to express a time having
type). So you can still do some foot shooting with those methods, but it's
hardly worth crying over since the foot shooting range was fully open for
business prior to this.
MSOY fixes coming presently. ProjectX fixes shortly thereafter.
List<Tuple2<Integer,EnumKeyRecord.Type>> jdata =
_repo.from(TestRecord.class).
join(TestRecord.NAME, EnumKeyRecord.NAME).
select(TestRecord.RECORD_ID, EnumKeyRecord.TYPE);
This should eliminate the need for pesky one-off computed records when doing
ad-hoc joins.
1. ColumnExp is now parameterized on the type of the column it represents. This
enables item number two.
2. The beginnings of a very primitive implementation of individual field
selection, which looks like:
List<Tuple2<Integer,String>> results = from(FooRecord.class).where(
FooRecord.ID.in(someIds)).select(FooRecord.ID, FooRecord.NAME);
I don't advise using this new functionality just yet, because it's very
primitive and will probably break if you try to do anything fancy. Plus it
doesn't interact with the cache at all yet.
However, I wanted to get the typed ColumnExp bits in there so that I can
migrate all the existing projects over and get that painful business out of the
way. Note for the jumpy: migration in this case means eliminating a bunch of
unchecked type usage warnings, rather than behavioral changes. The existing
Depot functionality continues to work exactly as is. The types are not used
except for in the new individual field selection code.
One bit of code that will break is calls to updatePartial() which used to take
a Map<ColumnExp, ?> and now take a Map<ColumnExp<?>, ?>. Since those were
already in generics land, they won't just fail with an unchecked type warning,
the compiler will reject the old call (the calls are binary compatible, so
unrecompiled code will still work fine). Fortunately the Map-taking
updatePartial is not called that much outside of MSOY, which I have already
migrated to fully parameterized ColumnExp land.
having a separate deleteFrom(record).where(...).delete() builder, but
from(record).where(...).delete() was so much nicer that I decided that
preventing the specification of invalid clauses could be deferred from compile
to runtime.
I could do some fiddly things with return types and have from() return a
builder that then subsequently pigeon-holed you into deletability or not
depending on whether you called things like orderBy(), but to do so in Java
would require that I override every method to specialize its return type, which
presents something of a maintenance annoyance.
With this you can write queries like:
MaxPointsRecord max = from(MaxPointsRecord.class).
override(DailyScoreRecord.class),
where(DailyScoreRecord.KEY.eq(key)).load();
List<DailyLeaderRecord> top = from(DailyLeaderRecord.class).
override(DailyScoreRecord.class).
join(DailyScoreRecord.KNIGHT_ID, KnightRecord.KNIGHT_ID).
where(DailyScoreRecord.KEY.eq(key),
DailyScoreRecord.POINTS.eq(max.maxPoints)).
select();
After configuring your query, you can load(), you can select(), you can
selectKeys() and you can selectCount(). Other improvements include configuring
cache behavior (from(FooRecord.class).noCache().where(...).select()).
random() became randomOrder() because I think that seeing random() stuffed in
the middle of a query is insufficiently communicative.
Next, I'm going to look into extending the query builder to allow things like:
from(MemberRecord.class).
where(MemberRecord.CREATED.greaterThan(date)).
select(MemberRecord.AVATAR_ID, MemberRecord.HOME_SCENE_ID);
// yields List<Tuple2<Integer, Integer>>
which will require adding types to ColumnExp, which I hope to do in a
moderately backwards compatible way. If I can, I may use those types to enforce
type correctness and turn things like the following into a compiler error:
MemberRecord.MEMBER_ID.greaterThan("bob")
If I had a more sophisticated type system, I could even make an attempt to call
greaterThan() on a ColumnExp<String> a compilation error.
If the above doesn't turn out to be a rabbit hole extraordinairre (it probably
will), I'd like to look into obviating the need for most of the FieldOverride
and FromOverride fiddling, and support things like:
from(MemberRecord.class).
where(MemberRecord.CREATED.greaterThan(date)).
select(Exps.max(MemberRecord.SESSIONS));
// yields List<Integer>
which would take Depot in the direction of being a (somewhat) type safe wrapper
around SQL. This would go a long way toward bridging the conceptual gap between
"the SQL I know I want to write" and "how the fuck do I do this with this Java
API".
I don't think I'm going to be able to get too far with the type-safe wrapper
approach without propagating types all over the place, which may result in
backwards compatibility breakage. If things get really bad, I may just have to
pinch off the Depot 1.x series and venture into the green fields of Depot 2.x.
I'll see how far I can get before taking such drastic action, however.
various query clauses.
Something like this:
MaxPointsRecord max = load(MaxPointsRecord.class,
new FromOverride(DailyScoreRecord.class),
new Where(DailyScoreRecord.KEY.eq(key)));
List<DailyLeaderRecord> top = findAll(DailyLeaderRecord.class,
new FromOverride(DailyScoreRecord.class),
DailyScoreRecord.KNIGHT_ID.join(KnightRecord.KNIGHT_ID),
new Where(Ops.and(DailyScoreRecord.KEY.eq(key),
DailyScoreRecord.POINTS.eq(max.maxPoints))));
becomes this:
MaxPointsRecord max = load(MaxPointsRecord.class,
from(DailyScoreRecord.class),
where(DailyScoreRecord.KEY.eq(key)));
List<DailyLeaderRecord> top = findAll(DailyLeaderRecord.class,
from(DailyScoreRecord.class),
join(DailyScoreRecord.KNIGHT_ID, KnightRecord.KNIGHT_ID),
where(DailyScoreRecord.KEY.eq(key),
DailyScoreRecord.POINTS.eq(max.maxPoints)));
and the imports for Where and FromOverride go away. It's a modest improvement
in readability.
Both COL.join(OCOL) and join(COL, OCOL) are supported; one can choose based on
the aesthetic demands of an individual query.
sure what this is really testing. If the CRUD test with CustomType works, then
transforming field marshallers work, so why do we need to make sure they have a
specific class name?