LEANN/examples/compare_faiss_vs_leann.py

#!/usr/bin/env python3
"""
Memory comparison between Faiss HNSW and LEANN HNSW backend
"""

import logging
import os
import sys
import time
import psutil
import gc
import subprocess

# Setup logging
logging.basicConfig(stream=sys.stdout, level=logging.INFO)
logger = logging.getLogger(__name__)


def get_memory_usage():
    """Get current memory usage in MB"""
    process = psutil.Process()
    return process.memory_info().rss / 1024 / 1024


def print_memory_stats(stage: str, start_mem: float):
    """Print memory statistics"""
    current_mem = get_memory_usage()
    diff = current_mem - start_mem
    print(f"[{stage}] Memory: {current_mem:.1f} MB (+{diff:.1f} MB)")
    return current_mem


class MemoryTracker:
    def __init__(self, name: str):
        self.name = name
        self.start_mem = get_memory_usage()
        self.stages = []

    def checkpoint(self, stage: str):
        current_mem = print_memory_stats(f"{self.name} - {stage}", self.start_mem)
        self.stages.append((stage, current_mem))
        return current_mem

    def summary(self):
        print(f"\n=== {self.name} Memory Summary ===")
        for stage, mem in self.stages:
            print(f"{stage}: {mem:.1f} MB")
        peak_mem = max(mem for _, mem in self.stages)
        print(f"Peak Memory: {peak_mem:.1f} MB")
        print(f"Total Memory Increase: {peak_mem - self.start_mem:.1f} MB")
        return peak_mem


def test_faiss_hnsw():
    """Test Faiss HNSW Vector Store in subprocess"""
    print("\n" + "=" * 50)
    print("TESTING FAISS HNSW VECTOR STORE")
    print("=" * 50)

    try:
        result = subprocess.run([sys.executable, "examples/test_faiss_only.py"], capture_output=True, text=True, timeout=300)
        
        print(result.stdout)
        if result.stderr:
            print("Stderr:", result.stderr)
            
        if result.returncode != 0:
            return {
                "peak_memory": float("inf"),
                "error": f"Process failed with code {result.returncode}",
            }
            
        # Parse peak memory from output
        lines = result.stdout.split('\n')
        peak_memory = 0.0
        
        for line in lines:
            if "Peak Memory:" in line:
                peak_memory = float(line.split("Peak Memory:")[1].split("MB")[0].strip())
                
        return {"peak_memory": peak_memory}
        
    except Exception as e:
        return {
            "peak_memory": float("inf"),
            "error": str(e),
        }


def test_leann_hnsw():
    """Test LEANN HNSW Backend"""
    print("\n" + "=" * 50)
    print("TESTING LEANN HNSW BACKEND")
    print("=" * 50)

    tracker = MemoryTracker("LEANN HNSW")

    # Import and setup
    tracker.checkpoint("Initial")

    from llama_index.core import SimpleDirectoryReader
    from llama_index.core.node_parser import SentenceSplitter
    from leann.api import LeannBuilder, LeannChat
    from pathlib import Path

    tracker.checkpoint("After imports")

    # Load and parse documents
    documents = SimpleDirectoryReader(
        "examples/data",
        recursive=True,
        encoding="utf-8",
        required_exts=[".pdf", ".txt", ".md"],
    ).load_data()

    tracker.checkpoint("After document loading")

    # Parse into chunks
    node_parser = SentenceSplitter(
        chunk_size=256, chunk_overlap=20, separator=" ", paragraph_separator="\n\n"
    )

    all_texts = []
    for doc in documents:
        nodes = node_parser.get_nodes_from_documents([doc])
        for node in nodes:
            all_texts.append(node.get_content())

    tracker.checkpoint("After text chunking")

    # Build LEANN index
    INDEX_DIR = Path("./test_leann_comparison")
    INDEX_PATH = str(INDEX_DIR / "comparison.leann")

    # Clean up previous index
    import shutil

    if INDEX_DIR.exists():
        shutil.rmtree(INDEX_DIR)

    builder = LeannBuilder(
        backend_name="hnsw",
        embedding_model="facebook/contriever",
        graph_degree=32,
        complexity=64,
        is_compact=True,
        is_recompute=True,
        num_threads=1,
    )

    tracker.checkpoint("After builder setup")

    print("Building LEANN HNSW index...")

    for chunk_text in all_texts:
        builder.add_text(chunk_text)

    builder.build_index(INDEX_PATH)

    tracker.checkpoint("After index building")

    # Ensure any existing embedding server is updated with new data
    print("Ensuring embedding server data synchronization...")
    meta_file = INDEX_DIR / "comparison.leann.meta.json"
    if meta_file.exists():
        from leann.embedding_server_manager import (
            _check_port,
            _update_server_meta_path,
            _check_server_meta_path,
        )

        port = 5557  # Default port for HNSW backend
        if _check_port(port):
            print(f"Updating server meta path to: {meta_file}")
            success = _update_server_meta_path(port, str(meta_file))
            if success:
                print("✅ Server meta path updated successfully")
            else:
                print("❌ Failed to update server meta path")

            # Verify the update and ensure server is ready
            time.sleep(2)  # Give server time to reload data
            max_retries = 5
            for retry in range(max_retries):
                if _check_server_meta_path(port, str(meta_file)):
                    print("✅ Server meta path verification successful")
                    break
                else:
                    print(
                        f"⏳ Server meta path verification failed (attempt {retry + 1}/{max_retries})"
                    )
                    if retry < max_retries - 1:
                        time.sleep(1)
                    else:
                        print(
                            "❌ Server meta path verification failed after all retries - may cause query issues"
                        )
        else:
            print("No existing server found on port 5557")

    # Test queries
    chat = LeannChat(
        index_path=INDEX_PATH, llm_config={"type": "simulated", "model": "test"}
    )

    tracker.checkpoint("After chat setup")

    print("Running queries...")
    queries = [
        "什么是盘古大模型以及盘古开发过程中遇到了什么阴暗面，任务令一般在什么城市颁发",
        "What is LEANN and how does it work?",
        "华为诺亚方舟实验室的主要研究内容",
    ]

    for i, query in enumerate(queries):
        start_time = time.time()
        _ = chat.ask(query, top_k=20, recompute_beighbor_embeddings=True, complexity=32)
        query_time = time.time() - start_time
        print(f"Query {i + 1} time: {query_time:.3f}s")
        tracker.checkpoint(f"After query {i + 1}")

    peak_memory = tracker.summary()

    # Get storage size before cleanup - only index files (exclude text data)
    storage_size = 0
    if INDEX_DIR.exists():
        total_size = 0
        for dirpath, dirnames, filenames in os.walk(str(INDEX_DIR)):
            for filename in filenames:
                # Only count actual index files, skip text data and backups
                if filename.endswith(('.old', '.tmp', '.bak', '.jsonl', '.json')):
                    continue
                # Count .index, .idx, .map files (actual index structures)
                if filename.endswith(('.index', '.idx', '.map')):
                    filepath = os.path.join(dirpath, filename)
                    total_size += os.path.getsize(filepath)
        storage_size = total_size / (1024 * 1024)  # Convert to MB

    # Clean up (but keep directory for storage size comparison)
    del chat, builder
    gc.collect()

    return {
        "peak_memory": peak_memory,
        "storage_size": storage_size,
        "tracker": tracker,
    }


def main():
    """Run comparison tests"""
    print("Memory Usage Comparison: Faiss HNSW vs LEANN HNSW")
    print("=" * 60)

    # Test Faiss HNSW
    faiss_results = test_faiss_hnsw()

    # Force garbage collection
    gc.collect()
    time.sleep(2)

    # Test LEANN HNSW
    leann_results = test_leann_hnsw()

    # Final comparison
    print("\n" + "=" * 60)
    print("FINAL COMPARISON")
    print("=" * 60)

    # Get storage sizes
    faiss_storage_size = 0
    leann_storage_size = leann_results.get("storage_size", 0)

    # Get Faiss storage size using Python
    if os.path.exists("./storage_faiss"):
        total_size = 0
        for dirpath, dirnames, filenames in os.walk("./storage_faiss"):
            for filename in filenames:
                filepath = os.path.join(dirpath, filename)
                total_size += os.path.getsize(filepath)
        faiss_storage_size = total_size / (1024 * 1024)  # Convert to MB

    # LEANN storage size is already captured in leann_results

    print(f"Faiss HNSW:")
    if "error" in faiss_results:
        print(f"  ❌ Failed: {faiss_results['error']}")
    else:
        print(f"  Peak Memory: {faiss_results['peak_memory']:.1f} MB")
        print(f"  Storage Size: {faiss_storage_size:.1f} MB")

    print(f"\nLEANN HNSW:")
    print(f"  Peak Memory: {leann_results['peak_memory']:.1f} MB")
    print(f"  Storage Size: {leann_storage_size:.1f} MB")

    # Calculate improvements only if Faiss test succeeded
    if "error" not in faiss_results:
        memory_ratio = faiss_results["peak_memory"] / leann_results["peak_memory"]
        
        print(f"\nLEANN vs Faiss:")
        print(f"  Memory Usage: {memory_ratio:.1f}x less")
        
        # Storage comparison - be clear about which is larger
        if leann_storage_size > faiss_storage_size:
            storage_ratio = leann_storage_size / faiss_storage_size
            print(f"  Storage Size: {storage_ratio:.1f}x larger (LEANN uses more storage)")
        elif faiss_storage_size > leann_storage_size:
            storage_ratio = faiss_storage_size / leann_storage_size
            print(f"  Storage Size: {storage_ratio:.1f}x smaller (LEANN uses less storage)")
        else:
            print(f"  Storage Size: similar")

        print(f"\nSavings:")
        memory_saving = faiss_results['peak_memory'] - leann_results['peak_memory']
        storage_diff = faiss_storage_size - leann_storage_size
        print(f"  Memory: {memory_saving:.1f} MB")
        if storage_diff >= 0:
            print(f"  Storage: {storage_diff:.1f} MB saved")
        else:
            print(f"  Storage: {abs(storage_diff):.1f} MB additional used")
    else:
        print(f"\n✅ LEANN HNSW ran successfully!")
        print(f"📊 LEANN Memory Usage: {leann_results['peak_memory']:.1f} MB")
        print(f"📊 LEANN Storage Size: {leann_storage_size:.1f} MB")


if __name__ == "__main__":
    main()