A fast, simple disk based BTree implementation in Go.
https://pkg.go.dev/github.com/guycipher/btree
- Easy to use API with
Put,Get,Delete,Remove,Iterator,Rangemethods - Disk based storage with underlying pager
- Supports keys with multiple values
- Supports large keys and values
NGetget's keys not equal to the keyNRangeget's keys not equal to provided rangeGreaterThanget's keys greater than the provided keyGreaterThanEqget's keys greater than or equal to the provided keyLessThanget's keys less than the provided keyLessThanEqget's keys less than or equal to the provided key
goos: linux
goarch: amd64
pkg: github.com/guycipher/btree
cpu: 11th Gen Intel(R) Core(TM) i7-11700K @ 3.60GHz
BenchmarkBTree_Put
BenchmarkBTree_Put-16 10000 125006 ns/op
Warning
Not thread safe. You must handle concurrency control yourself.
import "github.com/guycipher/btree"
You can use the Open method to open an existing btree or create a new one.
You can specify the file name, flags, file mode, and the degree of the btree.
bt, err := btree.Open("btree.db", os.O_CREATE|os.O_RDWR, 0644, 3)
if err != nil {
..
}You can insert a value into a key using the Put method. Keys can store many values.
err := bt.Put([]byte("key"), []byte("value"))
if err != nil {
..
}To get a value you can you the Get method. The get method will return all the keys values.
values, err := bt.Get([]byte("key"))
if err != nil {
..
}To get all keys not equal to the key you can use the NGet method.
keys, err := bt.NGet([]byte("key"))
if err != nil {
..
}To get all keys greater than the key you can use the GreaterThan method.
keys, err := bt.GreaterThan([]byte("key"))
if err != nil {
..
}To get all keys greater than or equal to the key you can use the GreaterThanEq method.
keys, err := bt.GreaterThanEq([]byte("key"))
if err != nil {
..
}To get all keys less than the key you can use the LessThan method.
keys, err := bt.LessThan([]byte("key"))
if err != nil {
..
}To get all keys less than or equal to the key you can use the LessThanEq method.
keys, err := bt.LessThanEq([]byte("key"))
if err != nil {
..
}To delete a key and all of it's values you can use the Delete method.
err := bt.Delete([]byte("key"))
if err != nil {
..
}To remove a value from a key you can use the Remove method.
err := bt.Remove([]byte("key"), []byte("value"))
if err != nil {
..
}The iterator is used to iterate over values of a key
iterator := key.Iterator()
for {
value, ok := iterator()
if !ok {
break
}
fmt.Println(string(value))
}Result
value1
value2
value3
Get all keys between key1 and key3
keys, err := bt.Range([]byte("key1"), []byte("key3"))
if err != nil {
..
}Get all keys not between key1 and key3
keys, err := bt.NRange([]byte("key1"), []byte("key3"))
if err != nil {
..
}You can close the BTree by calling the Close function. This will close the underlying file and free up resources.
err := bt.Close()
if err != nil {
..
}This is an on disk btree implementation. This btree has an underlying pager that handles reading and writing nodes to disk as well as overflows. When an overflow is required for a page the overflow is created and the data is split between however many pages. When a page gets deleted its page number gets placed into an in-memory slice as well as gets written to disk. These deleted pages are reused when new pages are needed.
A key on this btree can store many values. Mind you a keys values are read into memory; So if you have a key like A with values Alex, Alice, Adam, and you call Get(A) all of those values will be read into memory. You can use a key iterator to iterate over the values of a key.
The btree is not thread safe. You must handle concurrency control yourself.
You can play with page size and degree(T) to see how it affects performance. My recommendation is a smaller page size and smaller degree for faster reads and writes.
View the LICENSE file