It seems the question was partially answered, so I’d like to give it a shot:
I will give you some background on 2. And expand at a later date on 1.
If you want to convert LLVM IR to a high-level language such as C or Java:
You would have to take the LLVM instructions, and abstract that out into its equivalent C code. Then you need to take the remaining features that LLVM does not have an equivalent for (like classes and abstractions for C++) and write a routine that would find those patterns in the LLVM (like reused blocks) and write C. For the basic stuff, its pretty straightforward. But, just follow the train of thought and you quickly find yourself realizing the true difficultly of the problem, after all not everyone writes simple C. To compound the difficulty further, you may not get the same LLVM IR when compiling the generated C! (Consider the resulting feedback loop)
As for Java, you are in for an even harder battle going direct from LLVM IR, and in either case still have the problem you likely won't get the same code compiling to LLVM IR, if one even can do that. Rather, you would translate LLVM IR to JVM Bytecode. Then you could use a reverse compiler to get your Java.
A group of Chinese students was apparently able to do this, but they wondered why such little interest in their research. I would say its bc they don't fully understand just what the LLVM guys have done, and how it is better than the JVM. (In fact, LLVM arguably makes the JVM obsolete ;)
Even though this seems useful in that one can use LLVM as an intermediary between C and Java to convert bidirectionally, this solution is actually of little use because we are asking the wrong question. See, the entire reason you would want that for practical purposes is to have a common code base and increase performance.
But the real problem is that we need a language that has abstracted the common features of modern languages, and that gives you a central language that you can build from. http://julialang.org/ has answered the question 😉