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Golang Ordered Sets

This package implements ordered sets implemented through Treaps. It accepts any type of key.

The user must specify a function less(k1, k2) which receives a pair of keys and determine whether k1 is or not less than k2. In the less() function, the user can specify access to the key; this is the way as the package can handle arbitrary types of keys.

Given a set, the following operations are supported:

  • Insertion, search, and deletion in O(log n) expected case. The package can handle repeated keys.
  • To know the i-th key inside the order in O(log n) expected case.
  • To know what is the inorder position of any key in O(log n) expected case.
  • To split the set by a key's value or at any specific position in O(log n) expected case.
  • To extract any rank [i, j] of the set in O(log n) where i and j are position respect to the order.
  • Union and interception of sets in O(m log n).
  • Join of rank disjoint sets in O(max(log n, log m)).

Installation

go get -u github.com/geniussportsgroup/treaps

Example

This example shows how to get the 99th percentile of a set

package treaps

import (
    "github.com/stretchr/testify/assert"
    "math/rand"
    "testing"
)

// This example shows how to get the some percentiles of a sample of a ten millions of random heights

// The following type simulate the representation of the height of a person
type Sample struct {
    id     int // id of person
    height int // height in millimeters
}

const N = int(1e7)

func createSamples(n int) *Treap {

    set := NewTreap(func(i1, i2 interface{}) bool {
        p1, ok := i1.(*Sample)
        if !ok {
            panic("First parameter is not of type *Sample")
        }
        p2, ok := i2.(*Sample)
        if !ok {
            panic("Second parameter is not of type *Sample")
        }
        return p1.height < p2.height // sort by height
    })

    // we will generate 1e6 samples of random heights according to a normal dist with mean 1600 mm
    // and standard deviation of 400 mm/
    // Pay attention to the fact that heights can repeat. So we must use InsertDup
    for id := 0; id < n; id++ {
        set.InsertDup(&Sample{
            id:     id,
            height: int(rand.NormFloat64()*400 + 1600),
        })
    }

    return set
}

func TestExample_99Percentiles(t *testing.T) {

    set := createSamples(N)

    posOfPercentile99 := int((set.Size() * 99) / 100) // index of first item belonging to 99 percentile

    // we have two ways for getting the samples included in the 99 percentile

    percentile99Size := set.Size() - posOfPercentile99

    // First we can use the method choose(i) for getting all the samples. This way has complexity
    // O(n log(N)) where n is the n ~ 0.01*N and N is the number of samples, which definitely is faster
    // than O(N log N) in time and O(N) in space if you take the elements and sort them
    p99Slice := make([]Sample, 0)
    for i := posOfPercentile99; i < set.Size(); i++ {
        samplePtr := set.Choose(i)
        p99Slice = append(p99Slice, *samplePtr.(*Sample))
    }

    // The second method is just to extract the whole percentile from the set, with the eventual
    // disadvantage that the set is modified, but with the advantage that the set is gotten in O(log n)
    p99 := set.ExtractRange(posOfPercentile99, set.Size()-1)

    assert.Equal(t, percentile99Size, p99.Size())
    assert.Equal(t, N - p99.Size(), set.Size())

    for i, it := 0, NewIterator(p99); i < len(p99Slice); i, it = i+1, it.Next() {
        assert.Equal(t, p99Slice[i].id, it.GetCurr().(*Sample).id)
    }
}

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Go package ordered sets implemented with balanced binary search trees

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