"You put your data in it."
HeftyDB is a persistent, sorted, key-value library for the JVM. It was designed with the following goals in mind:
- Be as fast and memory efficient as is feasible on the JVM for random reads, random writes, and range scans.
- Provide a stable base on which to build new and interesting storage systems.
- Provide detailed metrics about what is going on at every level of the stack.
- Have clean, understandable code that others can learn from.
Note: HeftyDB was built primarily for fun and learning. While the code is generally production quality and has extensive test coverage, you probably shouldn't use it in production unless you know what you are doing. So, yea, don't use it in production and lose a bunch of important data, or something.
Supports gets and puts by key as well as ascending and descending iteration from any key.
All write operations are sequential, and are limited by the sequential IO performance of the underlying disk. Tables are written with a full B+tree index for memory efficiency, even at very large table sizes.
Reads and range scans never block writes.
Operations in the critical read and write paths are implemented using off-heap memory wherever possible to reduce GC pressure and memory overhead.
Make use of multiple CPU cores for table writes and table compactions
Provide custom compaction behavior tailored to specific workloads.
https://github.com/jordw/heftydb/wiki/Design-Overview
try {
//Open a HeftyDB in a directory
DB testDB = HeftyDB.open(new Config.Builder().directory(directory).build());
//Write a key
Snapshot snapshot = testDB.put(someByteBufferKey, someByteBufferValue);
//Read a key at a particular snapshot
Record record = testDB.get(someByteBufferKey, snapshot);
//Delete a key
Snapshot deleteSnapshot = testDB.delete(someByteBufferKey);
//Get an ascending iterator of keys greater than or equal
//to the provided key at the provided snapshot
CloseableIterator<Record> ascendingIterator = testDB.ascendingIterator(someByteBufferKey, snapshot);
while (ascendingIterator.hasNext()) {
Record next = ascendingIterator.next();
}
//Get a descending iterator of keys less than or equal
//to the provided key at the provided snapshot
CloseableIterator<Record> descendingIterator = testDB.descendingIterator(someByteBufferKey, snapshot);
while (descendingIterator.hasNext()) {
Record next = descendingIterator.next();
}
//Compact the database
Future<?> compactionFuture = testDB.compact();
compactionFuture.get();
//Close the database
testDB.close();
} catch (IOException e){
Logger.error(e);
}