Hitchhiker trees are a newly invented (by @dgrnbrg) datastructure, synthesizing fractal trees and functional data structures, to create fast, snapshottable, massively scalable databases.
Watch the talk from Strange Loop to learn more, especially about the concept!
The hitchhiker namespaces contain a complete implementation of a persistent, serializable, lazily-loaded hitchhiker tree.
This is a sorted key-value datastructure, like a scalable sorted-map
.
It can incrementally persist and automatically lazily load itself from any backing store which implements a simple protocol.
Outboard is a sample application for the hitchhiker tree. It includes an implementation of the IO subsystem backed by Redis, and it manages all of the incremental serialization and flushing.
The hitchhiker tree is designed very similarly to how Datomic's backing trees must work--I would love to see integration with DataScript for a fully open source Datomic.
Outboard is a simple API for your Clojure applications that enables you to make use of tens of gigabytes of local memory, far beyond what the JVM can manage. Outboard also allows you to restart your application and reuse all of that in-memory data, which dramatic reduces startup times due to data loading.
Outboard has a simple API, which may be familiar if you've ever used Datomic. Unlike Datomic, however, Outboard trees can be "forked" like git repositories, not just transacted upon. Once you've created a tree, you can open a connection to it. The connection mediates all interactions with the outboard data: it can accept transactions, provide snapshots for querying, and be cloned.
(require '[hitchhiker.outboard :as ob])
;; First, we'll create a connection to a new outboard
(def my-outboard (ob/create "first-outboard-tree"))
;; We'll get a snapshot of the outboard's current state, which is empty for now
;; Note that snapshots are only valid for 5 seconds, but making a new snapshot is free
;; It would be easy to write an "extend-life" function for snapshots
(def first-snapshot (ob/snapshot my-outboard))
;; This will insert the pair "hello" "world" only into the snapshot
(-> first-snapshot
(ob/insert "hello" "world")
(ob/lookup "hello"))
;;=> "world"
;; Inserts must be done in a transaction to persist
(-> (ob/snapshot my-outboard)
(ob/lookup "hello"))
;;=> nil
;; We can insert some data into it via a transaction
;; The update! function is atomic, just like swap! for atoms
;; update! will pass its transaction function a snapshot of the outboard
(ob/update! my-outboard (fn [snapshot] (ob/insert snapshot "goodbye" "moon")))
;; Since the insert was transacted, it persists
(-> (ob/snapshot my-outboard)
(ob/lookup "goodbye"))
;;=> "moon"
;; If you'd like, you can "fork" an outboard. Let's fork our outboard.
;; To fork, you just save a snapshot under a new name
(def forked-outboard (ob/save-as (ob/snapshot my-outboard) "forked-outboard"))
;; Now, we can transact into the snapshot, which will not affect other forks
(ob/update! forked-outboard (fn [snapshot] (ob/insert snapshot "goodbye" "sun")))
;; As we can see:
(-> (ob/snapshot my-outboard)
(ob/lookup "goodbye"))
;;=> "moon"
(-> (ob/snapshot forked-outboard)
(ob/lookup "goodbye"))
;;=> "sun"
You should check out the docstrings/usage of these functions, too:
close
will gracefully shut down an outboard connectionopen
will reopen an outboard (you can only create outboards which don't exist)destroy
will delete all data related to the closed, named outboardlookup
and lookup-fwd-iter
provide single and ordered sequence access to snapshotsOutboard is an off-heap functionally persistent sorted map. This map allows your applications to retain huge data structures in memory across process restarts.
Outboard is the the first library to make use of hitchhiker trees. Hitchhiker trees are a functionally persistent, serializable, off-heap fractal B tree. They can be extended to contain a mechanism to make statistical analytics blazingly fast, and to support column-store facilities.
Details about hitchhiker trees, including related work, can be found in docs/hitchhiker.adoc
.
You'l need a local Redis instance running to run the tests. Once you have it, just run
lein test
This library includes a detailed, instrumented benchmarking suite. It's built to enable comparative benchmarks between different parameters or code changes, so that improvements to the structure can be correctly categorized as such, and bottlenecks can be reproduced and fixed.
To try it, just run
lein bench
The benchmark tool supports testing with different parameters, such as:
The benchmarking tool is designed to make it convenient to run several benchmarks;
each benchmark's parameters can be separate by a --
.
This makes it easy to understand the characteristics of the hitchhiker tree over a variety of settings for a parameter.
You can run a more sophisticated experiment benchmark by doing
lein bench OUTPUT_DIR options -- options-for-2nd-experiment -- options-for-3rd-experiment
This generates an Excel workbooks called "analysis.xlsx" with benchmark results. For instance, if you'd like to run experiments to understand the performance difference between various values of B (the branching factor), you can do:
lein bench perf_diff_experiment -b 10 -- -b 20 -- -b 40 -- -b 80 -- -b 160 -- -b 320 -- -b 640
And it will generate lots of data and the Excel workbook for analysis.
If you'd like to see the options for the benchmarking tool, just run lein bench
.
See the doc/
folder for technical details of the hitchhiker tree and Redis garbage collection system.
We have preliminary async support that has to be selected before macro expansion
time by setting hitchhiker.tree.async/*async-backend*
either to none
or
core.async
.
Thanks to the early reviewers, Kovas Boguta & Leif Walsh. Also, thanks to Tom Faulhaber for making the Excel analysis awesome!
Copyright © 2016 David Greenberg
Distributed under the Eclipse Public License version 1.0
Can you improve this documentation?Edit on GitHub
cljdoc is a website building & hosting documentation for Clojure/Script libraries
× close