savov-compact-tree 1.2.0

Compact, read-only nested dictionary backed by succinct data structures

compact-tree

Compact, read-only nested dictionary backed by succinct data structures.

CompactTree stores a nested Python dict using a LOUDS-encoded trie with DAWG-style key/value deduplication, enabling low-memory random access and efficient serialization.

Features

• Memory-efficient: Uses succinct data structures (LOUDS trie + MarisaTrie deduplication)
• Fast lookups: O(1) rank/select operations via Poppy bit vectors
• High-performance builds: LRU-cached MarisaTrie lookups and O(1) label access for 183x faster construction with key reuse
• Serializable: Save and load from disk with efficient binary format
• Gzip compression: Optional gzip compression for even smaller files on disk
• Pickle support: Fully serializable via Python's pickle module
• Read-only: Optimized for lookup-heavy workloads
• Storage-agnostic: Works with local files and remote storage via fsspec
• Dict-like interface: Supports [], in, len(), iteration, repr(), and str()

Installation

pip install savov-compact-tree

Or install from source:

git clone https://github.com/andrey-savov/compact-tree.git
cd compact-tree
pip install -e .

Quick Start

from compact_tree import CompactTree

# Build from a nested dict
tree = CompactTree.from_dict({
    "a": {
        "x": "1",
        "y": "2"
    },
    "b": "3"
})

# Access like a normal dict
print(tree["a"]["x"])   # "1"
print(tree["b"])        # "3"
print("a" in tree)      # True
print(len(tree))        # 2
print(list(tree))       # ["a", "b"]

# String representations
print(str(tree))        # {'a': {'x': '1', 'y': '2'}, 'b': '3'}
print(repr(tree))       # CompactTree.from_dict({'a': {'x': '1', ...}, 'b': '3'})

# Serialize to file
tree.serialize("tree.ctree")

# Load from file
loaded_tree = CompactTree("tree.ctree")

# Serialize with gzip compression
tree.serialize("tree.ctree.gz", storage_options={"compression": "gzip"})
loaded_gz = CompactTree("tree.ctree.gz", storage_options={"compression": "gzip"})

# Pickle support
import pickle
data = pickle.dumps(tree)
tree2 = pickle.loads(data)

# Convert back to plain dict
plain_dict = loaded_tree.to_dict()

How It Works

LOUDS (Level-Order Unary Degree Sequence)

LOUDS is a succinct tree representation that encodes an ordered tree into a single bit string using roughly 2n bits for n nodes (close to the information-theoretic minimum).

Encoding rule: Traverse the tree in breadth-first (level) order. For each node, write d 1-bits (where d is the node's number of children) followed by a single 0-bit.

Example for a root with children A (2 kids) and B (0 kids):

root  ->  1 1 0      (2 children, then 0-terminator)
A     ->  1 1 0      (2 children)
B     ->  0          (leaf)

Navigation relies on rank and select queries:

Operation	Description
first_child(v)	Find the (v-1)-th 0, check next position
next_sibling(v)	Find the 1-bit for node v, check next position

MarisaTrie

MarisaTrie is a compact word-to-index mapping built on a LOUDS-encoded trie with path compression and minimal perfect hashing (MPH). CompactTree uses two MarisaTrie instances -- one for keys and one for values -- to provide DAWG-style deduplication.

• Path compression: single-child edges are merged for compactness
• Dense indexing: every unique word gets an index in [0, N)
• Reverse lookup: recover the original word from its index

DAWG-Style Deduplication

• Keys are collected, sorted, and deduplicated via a MarisaTrie
• Values (leaves) are similarly deduplicated via a second MarisaTrie
• Edge labels store integer IDs rather than raw strings
• Same key/value appearing multiple times is stored only once

Architecture

CompactTree
  |
  +-- louds      : LOUDS       bit-vector tree topology (Poppy rank/select)
  +-- elbl       : bytes       edge labels  (uint32 key ids, 4 bytes per node)
  +-- vcol       : bytes       value column (uint32: value id or 0xFFFFFFFF for internal nodes)
  +-- _key_trie  : MarisaTrie  key vocabulary (word <-> dense index)
  +-- _val_trie  : MarisaTrie  value vocabulary (word <-> dense index)

Binary Format (v3)

Magic   : 5 bytes   "CTree"
Version : 8 bytes   uint64 LE (always 3)
Header  : 5 x 8 bytes  lengths of: keys, values, louds, vcol, elbl
Payload : keys_bytes | val_bytes | louds_bytes | vcol_bytes | elbl_bytes

keys_bytes and val_bytes are serialised MarisaTrie instances. louds_bytes is the raw bitarray, vcol_bytes and elbl_bytes are packed uint32 arrays.

Dependencies

• bitarray — Mutable bit arrays
• succinct (Poppy) — Rank/select in O(1)
• fsspec — Filesystem abstraction for local and remote storage

Testing

pytest test_compact_tree.py test_marisa_trie.py

Benchmarks

Run performance benchmarks with pytest-benchmark:

pytest test_compact_tree.py::TestLoadPerformance --benchmark-only -v

See BENCHMARK_RESULTS.md for detailed results and OPTIMIZATIONS.md for optimization history.

Contributing

Contributions are welcome! Please see CONTRIBUTING.md for details.

License

This project is licensed under the MIT License - see the LICENSE file for details.

Acknowledgments

• Based on LOUDS (Level-Order Unary Degree Sequence) tree representation
• Uses Poppy rank/select implementation from the succinct library
• Inspired by DAWG (Directed Acyclic Word Graph) compression techniques