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README.md | ||
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rbang.go | ||
rbang_test.go |
README.md
R!tree
This package provides an in-memory R-Tree implementation for Go. It's designed for Tile38 and is optimized for fast rect inserts and replacements.
Usage
Installing
To start using R!Tree, install Go and run go get
:
$ go get -u github.com/tidwall/rbang
Basic operations
// 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 box
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
Inserting
Same as the original algorithm. From the root to the leaf, the boxes which will incur the least enlargment are chosen. Ties go to boxes with the smallest area.
Deleting
Same as the original algorithm. A target box is deleted directly. When the number of children in a box 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 box has reached it's max number of entries it's largest axis is calculated and the box is split into two smaller boxes, named left
and right
.
Each child boxes is then evaluated to determine which smaller box 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
box.
When the max-dist
is less than min-dist
then the child is placed into the right
box.
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
box is then one-by-one placed in either left
or right
, whichever has less children.
Performance
In my testing:
- Insert show similar performance as the quadratic R-tree and ~1.2x - 1.5x faster than R*tree.
- Search and Delete is ~1.5x - 2x faster than quadratic and about the same as R*tree.
I hope to provide more details in the future.
License
rbang
source code is available under the MIT License.