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go-datastructure

Package containing some useful datastructures when writing code in Go.

NOTE: only tested with Go 1.3+.

Augmented Tree:

Interval tree for collision in n-dimensional ranges. Implemented via a red-black augmented tree. Extra dimensions are handled in simultaneous inserts/queries to save space although this may result in suboptimal time complexity. Intersection determined using bit arrays. In a single dimension, inserts, deletes, and queries should be in O(log n) time.

Bitarray:

Bitarray used to detect existence without having to resort to hashing with hashmaps. Requires entities have a uint64 unique identifier. Two implementations exist, regular and sparse. Sparse saves a great deal of space but insertions are O(log n). There are some useful functions on the BitArray interface to detect intersection between two bitarrays.

Futures:

A helpful tool to send a "broadcast" message to listeners. Channels have the issue that once one listener takes a message from a channel the other listeners aren't notified. There were many cases when I wanted to notify many listeners of a single event and this package helps.

Graph:

Still pretty specific to gotable, but contains logic required to maintain graph state. Also has logic to flatten graph into executable chunks.

Queue:

Package contains both a normal and priority queue. Both implementations never block on send and grow as much as necessary. Both also only return errors if you attempt to push to a disposed queue and will not panic like sending a message on a closed channel. The priority queue also allows you to place items in priority order inside the queue. If you give a useful hint to the regular queue, it is actually faster than a channel.

Range Tree:

Useful to determine if n-dimensional points fall within an n-dimensional range. Not a typical range tree however, as we are actually using an n-dimensional sorted list of points as this proved to be simpler and faster than attempting a traditional range tree while saving space on any dimension greater than one. Inserts are typical BBST times at O(log n^d) where d is the number of dimensions.

Set:

Self explanatory. Could be further optimized by getting the uintptr of the generic interface{} used and using that as the key as Golang maps handle that much better than the generic struct type.

Threadsafe:

A package that is meant to contain some commonly used items but in a threadsafe way. Example: there's a threadsafe error in there as I commonly found myself wanting to set an error in many threads at the same time (yes, I know, but channels are slow).

Installation

  1. Install Go 1.3 or higher.

  2. Configure git to use SSH instead of HTTPS for github repositories. This allows go get to use private repositories.

    ~/.gitconfig

    [url "git@github.com:"] insteadOf = https://github.com

  3. go get github.com/Workiva/go-datastructures ...

Updating

When new code is merged to master, you can use

go get -u github.com/Workiva/go-datastructures/...

To retrieve the latest version of go-datastructures.

Testing

To run all the unit tests use these commands:

cd $GOPATH/src/github.com/Workiva/go-datastructures
go get -t -u ./...
go test ./...

Once you've done this once, you can simply use

go test ./...

Notice

Requirements to commit here:

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