My advice - learn a subset of Java, then learn some basic algorithms, then figure out where you want to go from there.
You don't need to know all of Java to experiment with implementing algorithms. You will need to be able to wrap a few methods (often only one) in a single class (and even that only because Java insists everything's a class). You'll need conditional and looping constructs and arrays. For data structures, you'll probably need to understand Java references, though you may be able to fake pointers using integers as array subscripts.
The point is that algorithms are important, but on a relatively small scale. Data structures typically need a few algorithms to make them work. But you don't need an understanding of larger-scale issues such as object-oriented design to experiment with algorithms.
From comments, I see that you're already well into the "where to go from there" stage.
Don't forget algorithms (or discrete math) because you don't care about analysis, though. A broad (not necessarily in depth) understanding is a useful resource - they are great for problem-solving methods.
For example, I was recently confused in a dependency-ordering issue about how to deal with cycles. I'd forgotten about "strongly connected components" in digraphs. Once I was reminded, the problem became trivial - no point trying to order within a strongly connected component, but those components form an acyclic digraph. From there, the answer is just a topological sort away.
Knowing about topological sorts makes the last step trivial. Having forgotten about strongly connected components cost me a fair bit of time. Understanding how Tarjans strongly connected components algorithm works... Wikipedia and a few minutes with pen and paper are enough, once you know what to look for.
Actually, I should confess - "I was reminded" means I looked up an old Dr. Dobbs article on topological sorting that used the same approach.