Awesome
<p align="center"> <img src="https://i.imgur.com/j1mQdBH.png" alt="redis-rope" width="800"> </p>A fast and versatile rope data type for large strings in Redis, distributed as a native module.
Overview
Ropes are a more efficient data structure for large strings (indexed sequences of bytes). Unlike ordinary strings, ropes let you do some operations up to exponentially faster than their counterparts:
- Add bytes to the beginning, middle, or end — any index you want.
- Delete any rope substring or move it to a different position within the rope.
- Splice / concatenate any substring of a rope with any other rope.
- Read any substring with random access.
The ropes in this module are backed by splay trees, which are a self-adjusting data structure that has logarithmic amortized worst-case performance, while recently-accessed indices are also quick to access in subsequent operations. Each splay tree node stores between 64 and 127 bytes of data.
Design
Some data structures tend to be too theoretical. This module attempts to provide practical guarantees:
- The memory usage of a rope is proportional to its length. It must be a small constant factor more than the number of bytes stored. (Data is stored in chunks; the constant varies based on fragmentation.)
- All operations should be fast in practice. We aim to approach the speed of ordinary strings for simple operations and to be hundreds of times faster for complex operations.
- This module never panics. If a memory allocation fails, it exits gracefully with an error. The database will never be left in a partially modified or inconsistent state.
- Stack size is limited and should not overflow. No operations on arbitrary trees are implemented recursively. We do not create unbounded stack buffers.
- Micro-optimizations are not accepted if they make the code less clear. Safety and correctness is paramount, and code needs to be easily understood by the reader.
Example / Benchmark
Ropes are particularly good at speeding up complex operations on large strings. The following graph shows how performance for ropes scales on 1000 random string SPLICE operations, compared to an equivalent implementation with ordinary Redis strings. (These operations are pipelined to better measure their CPU performance; see the benchmark code in Rust.)
<p align="center"> <img src="https://i.imgur.com/yJHA0xj.png" alt="Latency graph comparing redis-rope and native Redis strings" width="600"> </p>For small strings, there is not much difference. However, each time the length of the string doubles, the basic type gets exponentially slower because it does not scale to large data as well, while the redis-rope
type provided by this module stays fast.
Installation
The redis-rope
module has been tested with Redis 7.0+. To install, download the appropriate shared library libredisrope.so
for your platform and load the module from the command line:
redis-server --loadmodule path/to/libredisrope.so
Or by configuration directive in redis.conf
:
loadmodule path/to/libredisrope.so
Or from the Redis CLI, using the MODULE LOAD
command:
> MODULE LOAD path/to/libredisrope.so
Prebuilt binaries
We will build shared libraries for each version of redis-rope on Linux and macOS, using x86-64 and ARM64 architectures. These files are small, portable artifacts and are available on the releases page.
Building from source
redis-rope
is written in Zig, which makes building the module from source and cross-compiling very fast (<10 seconds). This is a reasonable option, especially if you want to try out the latest version of the module from the main branch.
zig build -Drelease-fast
This requires Zig 0.9, which you can install here. The project can also be built targeting different platforms with a command-line flag, for example:
zig build -Drelease-fast -Dtarget=x86_64-linux-gnu
zig build -Drelease-fast -Dtarget=aarch64-linux-gnu
Build outputs are located in the zig-out/lib
folder.
Commands
Read operations
These are fairly straightfoward: get the length of the rope, any individual byte, or a range of bytes as a string.
ROPE.LEN
key: O(1)ROPE.GET
key index: O(log N)ROPE.GETRANGE
key start stop: O(log N + K), where K is the length of the returned string
All operations support negative indices, which count backward from the end of the rope.
Write operations
The append and insert operations push data to the end of the rope, or at an index in the middle of the rope, while the delrange operation deletes a byte range from the rope.
The splice operation is the most complicated and powerful. Given the keys of two ropes, source
and destination
, it appends destination
to the end of source
and deletes destination
. If start
is provided, the string is inserted at that index rather than appended to the end. If stop
is provided, then the range of bytes from start
to stop
is also deleted from source
and swapped with the rope at destination
.
ROPE.APPEND
key str: O(1)ROPE.INSERT
key index str: O(log N), or O(1) if index is 0ROPE.DELRANGE
key start stop: O(log N)ROPE.SPLICE
source destination [start [stop]]: O(log N)
Despite being quite powerful, each operation above takes logarithmic time, so they will remain fast for arbitrarily long ropes.
Other operations
The rope data type supports exact calculations from the MEMORY USAGE
command, both methods of Redis persistence using RDB and AOF, asynchronous DEL
operations, and primary-replica replication.
Example usage
redis:6379> ROPE.APPEND key1 "hello"
(integer) 5
redis:6379> ROPE.LEN key1
(integer) 5
redis:6379> ROPE.GET key1 2
"l"
redis:6379> ROPE.APPEND key1 " world!"
(integer) 12
redis:6379> ROPE.GETRANGE key1 0 -1
"hello world!"
redis:6379> ROPE.INSERT key1 6 "rope "
(integer) 17
redis:6379> ROPE.GETRANGE key1 0 -1
"hello rope world!"
redis:6379> ROPE.DELRANGE key1 -9 -3
(integer) 10
redis:6379> ROPE.GETRANGE key1 0 -1
"hello rod!"
redis:6379> ROPE.APPEND key2 "goodbye"
(integer) 7
redis:6379> ROPE.SPLICE key1 key2 0 4
1) (integer) 12
2) (integer) 5
redis:6379> ROPE.GETRANGE key1 0 -1
"goodbye rod!"
redis:6379> ROPE.GETRANGE key2 0 -1
"hello"
redis:6379> ROPE.SPLICE key1 key2
1) (integer) 17
2) (integer) 0
redis:6379> ROPE.GETRANGE key1 0 -1
"goodbye rod!hello"
redis:6379> MEMORY USAGE key1
(integer) 128
redis:6379> GET key2
(nil)
redis:6379> DEL key1
(integer) 1
redis:6379> GET key1
(nil)
Acknowledgements
Created by Eric Zhang (@ekzhang1). Licensed under the MIT license.
Thanks to antirez for creating Redis and Sleator & Tarjan for discovering splay trees.