# rbang [![GoDoc](https://godoc.org/github.com/tidwall/rbang?status.svg)](https://godoc.org/github.com/tidwall/rbang) This package provides an in-memory R-Tree implementation for Go. It's designed for [Tile38](https://github.com/tidwall/tile38) and is optimized for fast rect inserts and replacements. Cities ## Usage ### Installing To start using rbang, install Go and run `go get`: ```sh $ go get -u github.com/tidwall/rbang ``` ### Basic operations ```go // create a 2D RTree var tr rbang.RTree // insert a point tr.Insert([2]float64{-112.0078, 33.4373}, [2]float64{-112.0078, 33.4373}, "PHX") // insert a rect tr.Insert([2]float64{10, 10}, [2]float64{20, 20}, "rect") // search tr.Search([2]float64{-112.1, 33.4}, [2]float64{-112.0, 33.5}, func(min, max [2]float64, value interface{}) bool { println(value.(string)) // prints "PHX" }, ) // delete tr.Delete([2]float64{-112.0078, 33.4373}, [2]float64{-112.0078, 33.4373}, "PHX") ``` ## Algorithms This implementation is a variant of the original paper: [R-TREES. A DYNAMIC INDEX STRUCTURE FOR SPATIAL SEARCHING](http://www-db.deis.unibo.it/courses/SI-LS/papers/Gut84.pdf) ### Inserting Same as the original algorithm. From the root to the leaf, the rects which will incur the least enlargment are chosen. Ties go to rects with the smallest area. ### Deleting Same as the original algorithm. A target rect is deleted directly. When the number of children in a rect falls below it's minumum entries, it is removed from the tree and it's items are re-inserted. ### Splitting This is a custom algorithm. It attempts to minimize intensive operations such as pre-sorting the children and comparing overlaps & area sizes. The desire is to do simple single axis distance calculations each child only once, with a target 50/50 chance that the child might be moved in-memory. When a rect has reached it's max number of entries it's largest axis is calculated and the rect is split into two smaller rects, named `left` and `right`. Each child rects is then evaluated to determine which smaller rect it should be placed into. Two values, `min-dist` and `max-dist`, are calcuated for each child. - `min-dist` is the distance from the parent's minumum value of it's largest axis to the child's minumum value of the parent largest axis. - `max-dist` is the distance from the parent's maximum value of it's largest axis to the child's maximum value of the parent largest axis. When the `min-dist` is less than `max-dist` then the child is placed into the `left` rect. When the `max-dist` is less than `min-dist` then the child is placed into the `right` rect. When the `min-dist` is equal to `max-dist` then the child is placed into an `equal` bucket until all of the children are evaluated. Each `equal` rect is then one-by-one placed in either `left` or `right`, whichever has less children. ## License rbang source code is available under the MIT License.