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base: TBNilles:fix/ask-cli-example
Branches Tags
TBNilles:main TBNilles:fix/drop-python39-support TBNilles:add-gh-pat-token-to-workflows TBNilles:feature/add-ty-type-checker TBNilles:feature/custom-folder-multi-vector TBNilles:feature/colqwen-integration TBNilles:feat/add-colqwen2.5-support TBNilles:revert-161-feat/multi-vector-timing-and-dataset-improvements TBNilles:feat/multi-vector-timing-and-dataset-improvements TBNilles:fix/pdf-duplicate-processing-175-clean TBNilles:fix/pdf-duplicate-processing-175 TBNilles:embed-launch TBNilles:issue-159-performance-analysis TBNilles:fix/security-eval-slack-mcp-reader-clean TBNilles:fix/security-eval-slack-mcp-reader TBNilles:fix/chunking-token-limit-behavior TBNilles:fix/chunking-token-limit-behavior-clean TBNilles:feature/optimize-ollama-batching TBNilles:gen-time TBNilles:fix/twitter-bookmarks-anchor-link TBNilles:fix-readme TBNilles:security/enhance-hf-model-loading-security TBNilles:feature/mcp-integration-clean TBNilles:feature/mcp-integration-support TBNilles:feature/imessage-rag-support TBNilles:feature/chatgpt-rag-support TBNilles:fix-update TBNilles:feature/claude-rag-support TBNilles:financebench TBNilles:fix/passage-server-signature TBNilles:colqwen TBNilles:fix/ask-cli-example TBNilles:feat/configurable-local-endpoints TBNilles:dynamic-add TBNilles:feat/add-github-templates TBNilles:fix/astchunk-uv-import TBNilles:ast-fork TBNilles:fix-arm64-linux TBNilles:cli_fix TBNilles:vldb-exp TBNilles:chore/ruff-imports-hnsw TBNilles:arch-eval TBNilles:mcp-fix TBNilles:fix-arch-ci TBNilles:fix/update-diskann-mkl-linking TBNilles:feature/auto-register-app-indexes TBNilles:feature/enhanced-cli-list-remove TBNilles:feature/add-gemini-api-support TBNilles:fix/52-include-hidden-flag TBNilles:fix/empty-chunks-cherry-pick TBNilles:docs/update-readmes-mcp-conclusion TBNilles:feature/skypilot-docs TBNilles:debug/clean-state-investigation TBNilles:clean-state-investigation TBNilles:add-macos15-support TBNilles:feat/multiple-input-formats TBNilles:fix-ollama-embedding-dimension-bug TBNilles:fix-mac-intel-build TBNilles:feature/graph-partition-support TBNilles:fix/claude-code-gitignore-support TBNilles:fix/clean-hang-solution TBNilles:feat/claude-code-refine TBNilles:feature/claude-code-research TBNilles:docs/update-contributors TBNilles:config TBNilles:refactor-app TBNilles:feat/diskann-smart-memory TBNilles:fix-macos-abi TBNilles:fix/openai-embeddings-cosine-distance TBNilles:fix/manylinux-compatibility TBNilles:apps TBNilles:perf-build TBNilles:readme-polish TBNilles:datastore-reproduce TBNilles:fix-all TBNilles:debug_diskann_disable_pipe TBNilles:master
TBNilles:v0.3.5 TBNilles:v0.3.4 TBNilles:v0.3.3 TBNilles:v0.3.2 TBNilles:v0.3.1 TBNilles:v0.3.0 TBNilles:v0.2.9 TBNilles:v0.2.8 TBNilles:v0.2.7 TBNilles:v0.2.6 TBNilles:v0.2.5 TBNilles:v0.2.4 TBNilles:v0.2.2 TBNilles:v0.2.1 TBNilles:v0.2.0 TBNilles:v0.1.16 TBNilles:v0.1.15 TBNilles:v0.1.14 TBNilles:v0.1.13 TBNilles:v0.1.12 TBNilles:v0.1.11 TBNilles:v0.1.10 TBNilles:v0.1.9 TBNilles:v0.1.7 TBNilles:v0.1.5 TBNilles:v0.1.2 TBNilles:v0.1.1 TBNilles:v0.1.0
..
compare: TBNilles:fix/claude-code-gitignore-support
Branches Tags
TBNilles:main TBNilles:fix/drop-python39-support TBNilles:add-gh-pat-token-to-workflows TBNilles:feature/add-ty-type-checker TBNilles:feature/custom-folder-multi-vector TBNilles:feature/colqwen-integration TBNilles:feat/add-colqwen2.5-support TBNilles:revert-161-feat/multi-vector-timing-and-dataset-improvements TBNilles:feat/multi-vector-timing-and-dataset-improvements TBNilles:fix/pdf-duplicate-processing-175-clean TBNilles:fix/pdf-duplicate-processing-175 TBNilles:embed-launch TBNilles:issue-159-performance-analysis TBNilles:fix/security-eval-slack-mcp-reader-clean TBNilles:fix/security-eval-slack-mcp-reader TBNilles:fix/chunking-token-limit-behavior TBNilles:fix/chunking-token-limit-behavior-clean TBNilles:feature/optimize-ollama-batching TBNilles:gen-time TBNilles:fix/twitter-bookmarks-anchor-link TBNilles:fix-readme TBNilles:security/enhance-hf-model-loading-security TBNilles:feature/mcp-integration-clean TBNilles:feature/mcp-integration-support TBNilles:feature/imessage-rag-support TBNilles:feature/chatgpt-rag-support TBNilles:fix-update TBNilles:feature/claude-rag-support TBNilles:financebench TBNilles:fix/passage-server-signature TBNilles:colqwen TBNilles:fix/ask-cli-example TBNilles:feat/configurable-local-endpoints TBNilles:dynamic-add TBNilles:feat/add-github-templates TBNilles:fix/astchunk-uv-import TBNilles:ast-fork TBNilles:fix-arm64-linux TBNilles:cli_fix TBNilles:vldb-exp TBNilles:chore/ruff-imports-hnsw TBNilles:arch-eval TBNilles:mcp-fix TBNilles:fix-arch-ci TBNilles:fix/update-diskann-mkl-linking TBNilles:feature/auto-register-app-indexes TBNilles:feature/enhanced-cli-list-remove TBNilles:feature/add-gemini-api-support TBNilles:fix/52-include-hidden-flag TBNilles:fix/empty-chunks-cherry-pick TBNilles:docs/update-readmes-mcp-conclusion TBNilles:feature/skypilot-docs TBNilles:debug/clean-state-investigation TBNilles:clean-state-investigation TBNilles:add-macos15-support TBNilles:feat/multiple-input-formats TBNilles:fix-ollama-embedding-dimension-bug TBNilles:fix-mac-intel-build TBNilles:feature/graph-partition-support TBNilles:fix/claude-code-gitignore-support TBNilles:fix/clean-hang-solution TBNilles:feat/claude-code-refine TBNilles:feature/claude-code-research TBNilles:docs/update-contributors TBNilles:config TBNilles:refactor-app TBNilles:feat/diskann-smart-memory TBNilles:fix-macos-abi TBNilles:fix/openai-embeddings-cosine-distance TBNilles:fix/manylinux-compatibility TBNilles:apps TBNilles:perf-build TBNilles:readme-polish TBNilles:datastore-reproduce TBNilles:fix-all TBNilles:debug_diskann_disable_pipe TBNilles:master
TBNilles:v0.3.5 TBNilles:v0.3.4 TBNilles:v0.3.3 TBNilles:v0.3.2 TBNilles:v0.3.1 TBNilles:v0.3.0 TBNilles:v0.2.9 TBNilles:v0.2.8 TBNilles:v0.2.7 TBNilles:v0.2.6 TBNilles:v0.2.5 TBNilles:v0.2.4 TBNilles:v0.2.2 TBNilles:v0.2.1 TBNilles:v0.2.0 TBNilles:v0.1.16 TBNilles:v0.1.15 TBNilles:v0.1.14 TBNilles:v0.1.13 TBNilles:v0.1.12 TBNilles:v0.1.11 TBNilles:v0.1.10 TBNilles:v0.1.9 TBNilles:v0.1.7 TBNilles:v0.1.5 TBNilles:v0.1.2 TBNilles:v0.1.1 TBNilles:v0.1.0

1 Commits
fix/ask-cl ... fix/claude

Author SHA1 Message Date
Andy Lee
fe942329d6 fix: improve gitignore and Jupyter notebook support 
- Add nbconvert dependency for .ipynb file support
- Replace manual gitignore parsing with gitignore-parser library
- Proper recursive .gitignore handling (all subdirectories)
- Fix compliance with Git gitignore behavior
- Simplify code and improve reliability

🤖 Generated with [Claude Code](https://claude.ai/code)

Co-Authored-By: Claude <noreply@anthropic.com>
 2025-08-10 18:52:55 -07:00
82 changed files with 2705 additions and 10501 deletions
Expand all files Collapse all files

1
.gitattributes vendored Normal file
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@@ -0,0 +1 @@
paper_plot/data/big_graph_degree_data.npz filter=lfs diff=lfs merge=lfs -text

50
.github/ISSUE_TEMPLATE/bug_report.yml vendored
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@@ -1,50 +0,0 @@
name: Bug Report
description: Report a bug in LEANN
labels: ["bug"]
body:
- type: textarea
id: description
attributes:
label: What happened?
description: A clear description of the bug
validations:
required: true
- type: textarea
id: reproduce
attributes:
label: How to reproduce
placeholder: |
1. Install with...
2. Run command...
3. See error
validations:
required: true
- type: textarea
id: error
attributes:
label: Error message
description: Paste any error messages
render: shell
- type: input
id: version
attributes:
label: LEANN Version
placeholder: "0.1.0"
validations:
required: true
- type: dropdown
id: os
attributes:
label: Operating System
options:
- macOS
- Linux
- Windows
- Docker
validations:
required: true

8
.github/ISSUE_TEMPLATE/config.yml vendored
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@@ -1,8 +0,0 @@
blank_issues_enabled: true
contact_links:
- name: Documentation
url: https://github.com/LEANN-RAG/LEANN-RAG/tree/main/docs
about: Read the docs first
- name: Discussions
url: https://github.com/LEANN-RAG/LEANN-RAG/discussions
about: Ask questions and share ideas

27
.github/ISSUE_TEMPLATE/feature_request.yml vendored
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@@ -1,27 +0,0 @@
name: Feature Request
description: Suggest a new feature for LEANN
labels: ["enhancement"]
body:
- type: textarea
id: problem
attributes:
label: What problem does this solve?
description: Describe the problem or need
validations:
required: true
- type: textarea
id: solution
attributes:
label: Proposed solution
description: How would you like this to work?
validations:
required: true
- type: textarea
id: example
attributes:
label: Example usage
description: Show how the API might look
render: python

13
.github/pull_request_template.md vendored
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@@ -1,13 +0,0 @@
## What does this PR do?
<!-- Brief description of your changes -->
## Related Issues
Fixes #
## Checklist
- [ ] Tests pass (`uv run pytest`)
- [ ] Code formatted (`ruff format` and `ruff check`)
- [ ] Pre-commit hooks pass (`pre-commit run --all-files`)

1
.github/workflows/build-and-publish.yml vendored
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@@ -5,7 +5,6 @@ on:
branches: [ main ]
pull_request:
branches: [ main ]
workflow_dispatch:
jobs:
build:

259
.github/workflows/build-reusable.yml vendored
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@@ -54,51 +54,20 @@ jobs:
python: '3.12'
- os: ubuntu-22.04
python: '3.13'
# ARM64 Linux builds
- os: ubuntu-24.04-arm
- os: macos-latest
python: '3.9'
- os: ubuntu-24.04-arm
- os: macos-latest
python: '3.10'
- os: ubuntu-24.04-arm
- os: macos-latest
python: '3.11'
- os: ubuntu-24.04-arm
- os: macos-latest
python: '3.12'
- os: ubuntu-24.04-arm
- os: macos-latest
python: '3.13'
- os: macos-14
python: '3.9'
- os: macos-14
python: '3.10'
- os: macos-14
python: '3.11'
- os: macos-14
python: '3.12'
- os: macos-14
python: '3.13'
- os: macos-15
python: '3.9'
- os: macos-15
python: '3.10'
- os: macos-15
python: '3.11'
- os: macos-15
python: '3.12'
- os: macos-15
python: '3.13'
- os: macos-13
python: '3.9'
- os: macos-13
python: '3.10'
- os: macos-13
python: '3.11'
- os: macos-13
python: '3.12'
# Note: macos-13 + Python 3.13 excluded due to PyTorch compatibility
# (PyTorch 2.5+ supports Python 3.13 but not Intel Mac x86_64)
runs-on: ${{ matrix.os }}
steps:
- uses: actions/checkout@v5
- uses: actions/checkout@v4
with:
ref: ${{ inputs.ref }}
submodules: recursive
@@ -109,56 +78,21 @@ jobs:
python-version: ${{ matrix.python }}
- name: Install uv
uses: astral-sh/setup-uv@v6
uses: astral-sh/setup-uv@v4
- name: Install system dependencies (Ubuntu)
if: runner.os == 'Linux'
run: |
sudo apt-get update
sudo apt-get install -y libomp-dev libboost-all-dev protobuf-compiler libzmq3-dev \
pkg-config libabsl-dev libaio-dev libprotobuf-dev \
patchelf
pkg-config libopenblas-dev patchelf libabsl-dev libaio-dev libprotobuf-dev
# Debug: Show system information
echo "🔍 System Information:"
echo "Architecture: $(uname -m)"
echo "OS: $(uname -a)"
echo "CPU info: $(lscpu | head -5)"
# Install math library based on architecture
ARCH=$(uname -m)
echo "🔍 Setting up math library for architecture: $ARCH"
if [[ "$ARCH" == "x86_64" ]]; then
# Install Intel MKL for DiskANN on x86_64
echo "📦 Installing Intel MKL for x86_64..."
wget -q https://registrationcenter-download.intel.com/akdlm/IRC_NAS/79153e0f-74d7-45af-b8c2-258941adf58a/intel-onemkl-2025.0.0.940.sh
sudo sh intel-onemkl-2025.0.0.940.sh -a --components intel.oneapi.lin.mkl.devel --action install --eula accept -s
source /opt/intel/oneapi/setvars.sh
echo "MKLROOT=/opt/intel/oneapi/mkl/latest" >> $GITHUB_ENV
echo "LD_LIBRARY_PATH=/opt/intel/oneapi/compiler/latest/linux/compiler/lib/intel64_lin" >> $GITHUB_ENV
echo "LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/opt/intel/oneapi/mkl/latest/lib/intel64" >> $GITHUB_ENV
echo "✅ Intel MKL installed for x86_64"
# Debug: Check MKL installation
echo "🔍 MKL Installation Check:"
ls -la /opt/intel/oneapi/mkl/latest/ || echo "MKL directory not found"
ls -la /opt/intel/oneapi/mkl/latest/lib/ || echo "MKL lib directory not found"
elif [[ "$ARCH" == "aarch64" ]]; then
# Use OpenBLAS for ARM64 (MKL installer not compatible with ARM64)
echo "📦 Installing OpenBLAS for ARM64..."
sudo apt-get install -y libopenblas-dev liblapack-dev liblapacke-dev
echo "✅ OpenBLAS installed for ARM64"
# Debug: Check OpenBLAS installation
echo "🔍 OpenBLAS Installation Check:"
dpkg -l | grep openblas || echo "OpenBLAS package not found"
ls -la /usr/lib/aarch64-linux-gnu/openblas/ || echo "OpenBLAS directory not found"
fi
# Debug: Show final library paths
echo "🔍 Final LD_LIBRARY_PATH: $LD_LIBRARY_PATH"
# Install Intel MKL for DiskANN
wget -q https://registrationcenter-download.intel.com/akdlm/IRC_NAS/79153e0f-74d7-45af-b8c2-258941adf58a/intel-onemkl-2025.0.0.940.sh
sudo sh intel-onemkl-2025.0.0.940.sh -a --components intel.oneapi.lin.mkl.devel --action install --eula accept -s
source /opt/intel/oneapi/setvars.sh
echo "MKLROOT=/opt/intel/oneapi/mkl/latest" >> $GITHUB_ENV
echo "LD_LIBRARY_PATH=/opt/intel/oneapi/mkl/latest/lib/intel64:$LD_LIBRARY_PATH" >> $GITHUB_ENV
- name: Install system dependencies (macOS)
if: runner.os == 'macOS'
@@ -175,73 +109,48 @@ jobs:
uv pip install --system delocate
fi
- name: Set macOS environment variables
if: runner.os == 'macOS'
run: |
# Use brew --prefix to automatically detect Homebrew installation path
HOMEBREW_PREFIX=$(brew --prefix)
echo "HOMEBREW_PREFIX=${HOMEBREW_PREFIX}" >> $GITHUB_ENV
echo "OpenMP_ROOT=${HOMEBREW_PREFIX}/opt/libomp" >> $GITHUB_ENV
# Set CMAKE_PREFIX_PATH to let CMake find all packages automatically
echo "CMAKE_PREFIX_PATH=${HOMEBREW_PREFIX}" >> $GITHUB_ENV
# Set compiler flags for OpenMP (required for both backends)
echo "LDFLAGS=-L${HOMEBREW_PREFIX}/opt/libomp/lib" >> $GITHUB_ENV
echo "CPPFLAGS=-I${HOMEBREW_PREFIX}/opt/libomp/include" >> $GITHUB_ENV
- name: Build packages
run: |
# Build core (platform independent)
cd packages/leann-core
uv build
cd ../..
if [[ "${{ matrix.os }}" == ubuntu-* ]]; then
cd packages/leann-core
uv build
cd ../..
fi
# Build HNSW backend
cd packages/leann-backend-hnsw
if [[ "${{ matrix.os }}" == macos-* ]]; then
# Use system clang for better compatibility
if [ "${{ matrix.os }}" == "macos-latest" ]; then
# Use system clang instead of homebrew LLVM for better compatibility
export CC=clang
export CXX=clang++
# Homebrew libraries on each macOS version require matching minimum version
if [[ "${{ matrix.os }}" == "macos-13" ]]; then
export MACOSX_DEPLOYMENT_TARGET=13.0
elif [[ "${{ matrix.os }}" == "macos-14" ]]; then
export MACOSX_DEPLOYMENT_TARGET=14.0
elif [[ "${{ matrix.os }}" == "macos-15" ]]; then
export MACOSX_DEPLOYMENT_TARGET=15.0
fi
uv build --wheel --python ${{ matrix.python }} --find-links ${GITHUB_WORKSPACE}/packages/leann-core/dist
export MACOSX_DEPLOYMENT_TARGET=11.0
uv build --wheel --python python
else
uv build --wheel --python ${{ matrix.python }} --find-links ${GITHUB_WORKSPACE}/packages/leann-core/dist
uv build --wheel --python python
fi
cd ../..
# Build DiskANN backend
cd packages/leann-backend-diskann
if [[ "${{ matrix.os }}" == macos-* ]]; then
# Use system clang for better compatibility
if [ "${{ matrix.os }}" == "macos-latest" ]; then
# Use system clang instead of homebrew LLVM for better compatibility
export CC=clang
export CXX=clang++
# DiskANN requires macOS 13.3+ for sgesdd_ LAPACK function
# But Homebrew libraries on each macOS version require matching minimum version
if [[ "${{ matrix.os }}" == "macos-13" ]]; then
export MACOSX_DEPLOYMENT_TARGET=13.3
elif [[ "${{ matrix.os }}" == "macos-14" ]]; then
export MACOSX_DEPLOYMENT_TARGET=14.0
elif [[ "${{ matrix.os }}" == "macos-15" ]]; then
export MACOSX_DEPLOYMENT_TARGET=15.0
fi
uv build --wheel --python ${{ matrix.python }} --find-links ${GITHUB_WORKSPACE}/packages/leann-core/dist
export MACOSX_DEPLOYMENT_TARGET=13.3
uv build --wheel --python python
else
uv build --wheel --python ${{ matrix.python }} --find-links ${GITHUB_WORKSPACE}/packages/leann-core/dist
uv build --wheel --python python
fi
cd ../..
# Build meta package (platform independent)
cd packages/leann
uv build
cd ../..
if [[ "${{ matrix.os }}" == ubuntu-* ]]; then
cd packages/leann
uv build
cd ../..
fi
- name: Repair wheels (Linux)
if: runner.os == 'Linux'
@@ -267,24 +176,10 @@ jobs:
- name: Repair wheels (macOS)
if: runner.os == 'macOS'
run: |
# Determine deployment target based on runner OS
# Must match the Homebrew libraries for each macOS version
if [[ "${{ matrix.os }}" == "macos-13" ]]; then
HNSW_TARGET="13.0"
DISKANN_TARGET="13.3"
elif [[ "${{ matrix.os }}" == "macos-14" ]]; then
HNSW_TARGET="14.0"
DISKANN_TARGET="14.0"
elif [[ "${{ matrix.os }}" == "macos-15" ]]; then
HNSW_TARGET="15.0"
DISKANN_TARGET="15.0"
fi
# Repair HNSW wheel
cd packages/leann-backend-hnsw
if [ -d dist ]; then
export MACOSX_DEPLOYMENT_TARGET=$HNSW_TARGET
delocate-wheel -w dist_repaired -v --require-target-macos-version $HNSW_TARGET dist/*.whl
delocate-wheel -w dist_repaired -v dist/*.whl
rm -rf dist
mv dist_repaired dist
fi
@@ -293,8 +188,7 @@ jobs:
# Repair DiskANN wheel
cd packages/leann-backend-diskann
if [ -d dist ]; then
export MACOSX_DEPLOYMENT_TARGET=$DISKANN_TARGET
delocate-wheel -w dist_repaired -v --require-target-macos-version $DISKANN_TARGET dist/*.whl
delocate-wheel -w dist_repaired -v dist/*.whl
rm -rf dist
mv dist_repaired dist
fi
@@ -305,34 +199,39 @@ jobs:
echo "📦 Built packages:"
find packages/*/dist -name "*.whl" -o -name "*.tar.gz" | sort
- name: Install built packages for testing
run: |
# Create a virtual environment with the correct Python version
uv venv --python ${{ matrix.python }}
# Create a virtual environment
uv venv
source .venv/bin/activate || source .venv/Scripts/activate
# Install packages using --find-links to prioritize local builds
uv pip install --find-links packages/leann-core/dist --find-links packages/leann-backend-hnsw/dist --find-links packages/leann-backend-diskann/dist packages/leann-core/dist/*.whl || uv pip install --find-links packages/leann-core/dist packages/leann-core/dist/*.tar.gz
uv pip install --find-links packages/leann-core/dist packages/leann-backend-hnsw/dist/*.whl
uv pip install --find-links packages/leann-core/dist packages/leann-backend-diskann/dist/*.whl
uv pip install packages/leann/dist/*.whl || uv pip install packages/leann/dist/*.tar.gz
# Install the built wheels
# Use --find-links to let uv choose the correct wheel for the platform
if [[ "${{ matrix.os }}" == ubuntu-* ]]; then
uv pip install leann-core --find-links packages/leann-core/dist
uv pip install leann --find-links packages/leann/dist
fi
uv pip install leann-backend-hnsw --find-links packages/leann-backend-hnsw/dist
uv pip install leann-backend-diskann --find-links packages/leann-backend-diskann/dist
# Install test dependencies using extras
uv pip install -e ".[test]"
- name: Run tests with pytest
env:
CI: true
CI: true # Mark as CI environment to skip memory-intensive tests
OPENAI_API_KEY: ${{ secrets.OPENAI_API_KEY }}
HF_HUB_DISABLE_SYMLINKS: 1
TOKENIZERS_PARALLELISM: false
PYTORCH_ENABLE_MPS_FALLBACK: 0
OMP_NUM_THREADS: 1
MKL_NUM_THREADS: 1
PYTORCH_ENABLE_MPS_FALLBACK: 0 # Disable MPS on macOS CI to avoid memory issues
OMP_NUM_THREADS: 1 # Disable OpenMP parallelism to avoid libomp crashes
MKL_NUM_THREADS: 1 # Single thread for MKL operations
run: |
# Activate virtual environment
source .venv/bin/activate || source .venv/Scripts/activate
pytest tests/ -v --tb=short
# Run all tests
pytest tests/
- name: Run sanity checks (optional)
run: |
@@ -350,53 +249,3 @@ jobs:
with:
name: packages-${{ matrix.os }}-py${{ matrix.python }}
path: packages/*/dist/
arch-smoke:
name: Arch Linux smoke test (install & import)
needs: build
runs-on: ubuntu-latest
container:
image: archlinux:latest
steps:
- name: Prepare system
run: |
pacman -Syu --noconfirm
pacman -S --noconfirm python python-pip gcc git zlib openssl
- name: Download ALL wheel artifacts from this run
uses: actions/download-artifact@v5
with:
# Don't specify name, download all artifacts
path: ./wheels
- name: Install uv
uses: astral-sh/setup-uv@v6
- name: Create virtual environment and install wheels
run: |
uv venv
source .venv/bin/activate || source .venv/Scripts/activate
uv pip install --find-links wheels leann-core
uv pip install --find-links wheels leann-backend-hnsw
uv pip install --find-links wheels leann-backend-diskann
uv pip install --find-links wheels leann
- name: Import & tiny runtime check
env:
OMP_NUM_THREADS: 1
MKL_NUM_THREADS: 1
run: |
source .venv/bin/activate || source .venv/Scripts/activate
python - <<'PY'
import leann
import leann_backend_hnsw as h
import leann_backend_diskann as d
from leann import LeannBuilder, LeannSearcher
b = LeannBuilder(backend_name="hnsw")
b.add_text("hello arch")
b.build_index("arch_demo.leann")
s = LeannSearcher("arch_demo.leann")
print("search:", s.search("hello", top_k=1))
PY

2
.github/workflows/link-check.yml vendored
View File

@@ -14,6 +14,6 @@ jobs:
- uses: actions/checkout@v4
- uses: lycheeverse/lychee-action@v2
with:
args: --no-progress --insecure --user-agent 'curl/7.68.0' README.md docs/ apps/ examples/ benchmarks/
args: --no-progress --insecure README.md docs/ apps/ examples/ benchmarks/
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}

9
.gitignore vendored
View File

@@ -18,11 +18,9 @@ demo/experiment_results/**/*.json
*.eml
*.emlx
*.json
!.vscode/*.json
*.sh
*.txt
!CMakeLists.txt
!llms.txt
latency_breakdown*.json
experiment_results/eval_results/diskann/*.json
aws/
@@ -94,10 +92,3 @@ packages/leann-backend-diskann/third_party/DiskANN/_deps/
batchtest.py
tests/__pytest_cache__/
tests/__pycache__/
paru-bin/
CLAUDE.md
CLAUDE.local.md
.claude/*.local.*
.claude/local/*
benchmarks/data/

3
.gitmodules vendored
View File

@@ -14,6 +14,3 @@
[submodule "packages/leann-backend-hnsw/third_party/libzmq"]
path = packages/leann-backend-hnsw/third_party/libzmq
url = https://github.com/zeromq/libzmq.git
[submodule "packages/astchunk-leann"]
path = packages/astchunk-leann
url = https://github.com/yichuan-w/astchunk-leann.git

5
.pre-commit-config.yaml
View File

@@ -1,6 +1,6 @@
repos:
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v5.0.0
rev: v4.5.0
hooks:
- id: trailing-whitespace
- id: end-of-file-fixer
@@ -10,8 +10,7 @@ repos:
- id: debug-statements
- repo: https://github.com/astral-sh/ruff-pre-commit
rev: v0.12.7 # Fixed version to match pyproject.toml
rev: v0.2.1
hooks:
- id: ruff
args: [--fix, --exit-non-zero-on-fix]
- id: ruff-format

5
.vscode/extensions.json vendored
View File

@@ -1,5 +0,0 @@
{
"recommendations": [
"charliermarsh.ruff",
]
}

22
.vscode/settings.json vendored
View File

@@ -1,22 +0,0 @@
{
"python.defaultInterpreterPath": ".venv/bin/python",
"python.terminal.activateEnvironment": true,
"[python]": {
"editor.defaultFormatter": "charliermarsh.ruff",
"editor.formatOnSave": true,
"editor.codeActionsOnSave": {
"source.organizeImports": "explicit",
"source.fixAll": "explicit"
},
"editor.insertSpaces": true,
"editor.tabSize": 4
},
"ruff.enable": true,
"files.watcherExclude": {
"**/.venv/**": true,
"**/__pycache__/**": true,
"**/*.egg-info/**": true,
"**/build/**": true,
"**/dist/**": true
}
}

251
README.md
View File

@@ -3,13 +3,10 @@
</p>
<p align="center">
<img src="https://img.shields.io/badge/Python-3.9%20%7C%203.10%20%7C%203.11%20%7C%203.12%20%7C%203.13-blue.svg" alt="Python Versions">
<img src="https://github.com/yichuan-w/LEANN/actions/workflows/build-and-publish.yml/badge.svg" alt="CI Status">
<img src="https://img.shields.io/badge/Platform-Ubuntu%20%26%20Arch%20%26%20WSL%20%7C%20macOS%20(ARM64%2FIntel)-lightgrey" alt="Platform">
<img src="https://img.shields.io/badge/Python-3.9%2B-blue.svg" alt="Python 3.9+">
<img src="https://img.shields.io/badge/License-MIT-green.svg" alt="MIT License">
<img src="https://img.shields.io/badge/MCP-Native%20Integration-blue" alt="MCP Integration">
<a href="https://join.slack.com/t/leann-e2u9779/shared_invite/zt-3ckd2f6w1-OX08~NN4gkWhh10PRVBj1Q"><img src="https://img.shields.io/badge/Slack-Join-4A154B?logo=slack&logoColor=white" alt="Join Slack">
<a href="assets/wechat_user_group.JPG" title="Join WeChat group"><img src="https://img.shields.io/badge/WeChat-Join-2DC100?logo=wechat&logoColor=white" alt="Join WeChat group"></a>
<img src="https://img.shields.io/badge/Platform-Linux%20%7C%20macOS-lightgrey" alt="Platform">
<img src="https://img.shields.io/badge/MCP-Native%20Integration-blue?style=flat-square" alt="MCP Integration">
</p>
<h2 align="center" tabindex="-1" class="heading-element" dir="auto">
@@ -33,7 +30,7 @@ LEANN achieves this through *graph-based selective recomputation* with *high-deg
<img src="assets/effects.png" alt="LEANN vs Traditional Vector DB Storage Comparison" width="70%">
</p>
> **The numbers speak for themselves:** Index 60 million text chunks in just 6GB instead of 201GB. From emails to browser history, everything fits on your laptop. [See detailed benchmarks for different applications below ↓](#-storage-comparison)
> **The numbers speak for themselves:** Index 60 million text chunks in just 6GB instead of 201GB. From emails to browser history, everything fits on your laptop. [See detailed benchmarks for different applications below ↓](#storage-comparison)
🔒 **Privacy:** Your data never leaves your laptop. No OpenAI, no cloud, no "terms of service".
@@ -72,8 +69,6 @@ uv venv
source .venv/bin/activate
uv pip install leann
```
<!--
> Low-resource? See “Low-resource setups” in the [Configuration Guide](docs/configuration-guide.md#low-resource-setups). -->
<details>
<summary>
@@ -89,60 +84,15 @@ git submodule update --init --recursive
```
**macOS:**
Note: DiskANN requires MacOS 13.3 or later.
```bash
brew install libomp boost protobuf zeromq pkgconf
uv sync --extra diskann
brew install llvm libomp boost protobuf zeromq pkgconf
CC=$(brew --prefix llvm)/bin/clang CXX=$(brew --prefix llvm)/bin/clang++ uv sync
```
**Linux (Ubuntu/Debian):**
Note: On Ubuntu 20.04, you may need to build a newer Abseil and pin Protobuf (e.g., v3.20.x) for building DiskANN. See [Issue #30](https://github.com/yichuan-w/LEANN/issues/30) for a step-by-step note.
You can manually install [Intel oneAPI MKL](https://www.intel.com/content/www/us/en/developer/tools/oneapi/onemkl.html) instead of `libmkl-full-dev` for DiskANN. You can also use `libopenblas-dev` for building HNSW only, by removing `--extra diskann` in the command below.
**Linux:**
```bash
sudo apt-get update && sudo apt-get install -y \
libomp-dev libboost-all-dev protobuf-compiler libzmq3-dev \
pkg-config libabsl-dev libaio-dev libprotobuf-dev \
libmkl-full-dev
uv sync --extra diskann
```
**Linux (Arch Linux):**
```bash
sudo pacman -Syu && sudo pacman -S --needed base-devel cmake pkgconf git gcc \
boost boost-libs protobuf abseil-cpp libaio zeromq
# For MKL in DiskANN
sudo pacman -S --needed base-devel git
git clone https://aur.archlinux.org/paru-bin.git
cd paru-bin && makepkg -si
paru -S intel-oneapi-mkl intel-oneapi-compiler
source /opt/intel/oneapi/setvars.sh
uv sync --extra diskann
```
**Linux (RHEL / CentOS Stream / Oracle / Rocky / AlmaLinux):**
See [Issue #50](https://github.com/yichuan-w/LEANN/issues/50) for more details.
```bash
sudo dnf groupinstall -y "Development Tools"
sudo dnf install -y libomp-devel boost-devel protobuf-compiler protobuf-devel \
abseil-cpp-devel libaio-devel zeromq-devel pkgconf-pkg-config
# For MKL in DiskANN
sudo dnf install -y intel-oneapi-mkl intel-oneapi-mkl-devel \
intel-oneapi-openmp || sudo dnf install -y intel-oneapi-compiler
source /opt/intel/oneapi/setvars.sh
uv sync --extra diskann
sudo apt-get install libomp-dev libboost-all-dev protobuf-compiler libabsl-dev libmkl-full-dev libaio-dev libzmq3-dev
uv sync
```
</details>
@@ -178,8 +128,6 @@ response = chat.ask("How much storage does LEANN save?", top_k=1)
LEANN supports RAG on various data sources including documents (`.pdf`, `.txt`, `.md`), Apple Mail, Google Search History, WeChat, and more.
### Generation Model Setup
LEANN supports multiple LLM providers for text generation (OpenAI API, HuggingFace, Ollama).
@@ -222,8 +170,7 @@ ollama pull llama3.2:1b
</details>
## ⭐ Flexible Configuration
### ⭐ Flexible Configuration
LEANN provides flexible parameters for embedding models, search strategies, and data processing to fit your specific needs.
@@ -236,34 +183,34 @@ All RAG examples share these common parameters. **Interactive mode** is availabl
```bash
# Core Parameters (General preprocessing for all examples)
--index-dir DIR # Directory to store the index (default: current directory)
--query "YOUR QUESTION" # Single query mode. Omit for interactive chat (type 'quit' to exit), and now you can play with your index interactively
--max-items N # Limit data preprocessing (default: -1, process all data)
--force-rebuild # Force rebuild index even if it exists
--index-dir DIR # Directory to store the index (default: current directory)
--query "YOUR QUESTION" # Single query mode. Omit for interactive chat (type 'quit' to exit), and now you can play with your index interactively
--max-items N # Limit data preprocessing (default: -1, process all data)
--force-rebuild # Force rebuild index even if it exists
# Embedding Parameters
--embedding-model MODEL # e.g., facebook/contriever, text-embedding-3-small, mlx-community/Qwen3-Embedding-0.6B-8bit or nomic-embed-text
--embedding-mode MODE # sentence-transformers, openai, mlx, or ollama
--embedding-model MODEL # e.g., facebook/contriever, text-embedding-3-small, nomic-embed-text, mlx-community/Qwen3-Embedding-0.6B-8bit or nomic-embed-text
--embedding-mode MODE # sentence-transformers, openai, mlx, or ollama
# LLM Parameters (Text generation models)
--llm TYPE # LLM backend: openai, ollama, or hf (default: openai)
--llm-model MODEL # Model name (default: gpt-4o) e.g., gpt-4o-mini, llama3.2:1b, Qwen/Qwen2.5-1.5B-Instruct
--thinking-budget LEVEL # Thinking budget for reasoning models: low/medium/high (supported by o3, o3-mini, GPT-Oss:20b, and other reasoning models)
--llm TYPE # LLM backend: openai, ollama, or hf (default: openai)
--llm-model MODEL # Model name (default: gpt-4o) e.g., gpt-4o-mini, llama3.2:1b, Qwen/Qwen2.5-1.5B-Instruct
--thinking-budget LEVEL # Thinking budget for reasoning models: low/medium/high (supported by o3, o3-mini, GPT-Oss:20b, and other reasoning models)
# Search Parameters
--top-k N # Number of results to retrieve (default: 20)
--search-complexity N # Search complexity for graph traversal (default: 32)
--top-k N # Number of results to retrieve (default: 20)
--search-complexity N # Search complexity for graph traversal (default: 32)
# Chunking Parameters
--chunk-size N # Size of text chunks (default varies by source: 256 for most, 192 for WeChat)
--chunk-overlap N # Overlap between chunks (default varies: 25-128 depending on source)
--chunk-size N # Size of text chunks (default varies by source: 256 for most, 192 for WeChat)
--chunk-overlap N # Overlap between chunks (default varies: 25-128 depending on source)
# Index Building Parameters
--backend-name NAME # Backend to use: hnsw or diskann (default: hnsw)
--graph-degree N # Graph degree for index construction (default: 32)
--build-complexity N # Build complexity for index construction (default: 64)
--compact / --no-compact # Use compact storage (default: true). Must be `no-compact` for `no-recompute` build.
--recompute / --no-recompute # Enable/disable embedding recomputation (default: enabled). Should not do a `no-recompute` search in a `recompute` build.
--backend-name NAME # Backend to use: hnsw or diskann (default: hnsw)
--graph-degree N # Graph degree for index construction (default: 32)
--build-complexity N # Build complexity for index construction (default: 64)
--no-compact # Disable compact index storage (compact storage IS enabled to save storage by default)
--no-recompute # Disable embedding recomputation (recomputation IS enabled to save storage by default)
```
</details>
@@ -299,12 +246,6 @@ python -m apps.document_rag --data-dir "~/Documents/Papers" --chunk-size 1024
# Filter only markdown and Python files with smaller chunks
python -m apps.document_rag --data-dir "./docs" --chunk-size 256 --file-types .md .py
# Enable AST-aware chunking for code files
python -m apps.document_rag --enable-code-chunking --data-dir "./my_project"
# Or use the specialized code RAG for better code understanding
python -m apps.code_rag --repo-dir "./my_codebase" --query "How does authentication work?"
```
</details>
@@ -479,34 +420,24 @@ Once the index is built, you can ask questions like:
### 🚀 Claude Code Integration: Transform Your Development Workflow!
<details>
<summary><strong>NEW!! ASTAware Code Chunking</strong></summary>
LEANN features intelligent code chunking that preserves semantic boundaries (functions, classes, methods) for Python, Java, C#, and TypeScript, improving code understanding compared to text-based chunking.
📖 Read the [AST Chunking Guide →](docs/ast_chunking_guide.md)
</details>
**The future of code assistance is here.** Transform your development workflow with LEANN's native MCP integration for Claude Code. Index your entire codebase and get intelligent code assistance directly in your IDE.
**Key features:**
- 🔍 **Semantic code search** across your entire project, fully local index and lightweight
- 🧠 **AST-aware chunking** preserves code structure (functions, classes)
- 🔍 **Semantic code search** across your entire project
- 📚 **Context-aware assistance** for debugging and development
- 🚀 **Zero-config setup** with automatic language detection
```bash
# Install LEANN globally for MCP integration
uv tool install leann-core --with leann
claude mcp add --scope user leann-server -- leann_mcp
uv tool install leann-core
# Setup is automatic - just start using Claude Code!
```
Try our fully agentic pipeline with auto query rewriting, semantic search planning, and more:
![LEANN MCP Integration](assets/mcp_leann.png)
**🔥 Ready to supercharge your coding?** [Complete Setup Guide →](packages/leann-mcp/README.md)
**Ready to supercharge your coding?** [Complete Setup Guide →](packages/leann-mcp/README.md)
## 🖥️ Command Line Interface
@@ -523,8 +454,7 @@ leann --help
**To make it globally available:**
```bash
# Install the LEANN CLI globally using uv tool
uv tool install leann-core --with leann
uv tool install leann
# Now you can use leann from anywhere without activating venv
leann --help
@@ -537,7 +467,7 @@ leann --help
### Usage Examples
```bash
# build from a specific directory, and my_docs is the index name(Here you can also build from multiple dict or multiple files)
# build from a specific directory, and my_docs is the index name
leann build my-docs --docs ./your_documents
# Search your documents
@@ -546,41 +476,32 @@ leann search my-docs "machine learning concepts"
# Interactive chat with your documents
leann ask my-docs --interactive
# Ask a single question (non-interactive)
leann ask my-docs "Where are prompts configured?"
# List all your indexes
leann list
# Remove an index
leann remove my-docs
```
**Key CLI features:**
- Auto-detects document formats (PDF, TXT, MD, DOCX, PPTX + code files)
- **🧠 AST-aware chunking** for Python, Java, C#, TypeScript files
- Smart text chunking with overlap for all other content
- Auto-detects document formats (PDF, TXT, MD, DOCX)
- Smart text chunking with overlap
- Multiple LLM providers (Ollama, OpenAI, HuggingFace)
- Organized index storage in `.leann/indexes/` (project-local)
- Organized index storage in `~/.leann/indexes/`
- Support for advanced search parameters
<details>
<summary><strong>📋 Click to expand: Complete CLI Reference</strong></summary>
You can use `leann --help`, or `leann build --help`, `leann search --help`, `leann ask --help`, `leann list --help`, `leann remove --help` to get the complete CLI reference.
**Build Command:**
```bash
leann build INDEX_NAME --docs DIRECTORY|FILE [DIRECTORY|FILE ...] [OPTIONS]
leann build INDEX_NAME --docs DIRECTORY [OPTIONS]
Options:
--backend {hnsw,diskann} Backend to use (default: hnsw)
--embedding-model MODEL Embedding model (default: facebook/contriever)
--graph-degree N Graph degree (default: 32)
--complexity N Build complexity (default: 64)
--force Force rebuild existing index
--compact / --no-compact Use compact storage (default: true). Must be `no-compact` for `no-recompute` build.
--recompute / --no-recompute Enable recomputation (default: true)
--graph-degree N Graph degree (default: 32)
--complexity N Build complexity (default: 64)
--force Force rebuild existing index
--compact Use compact storage (default: true)
--recompute Enable recomputation (default: true)
```
**Search Command:**
@@ -588,9 +509,9 @@ Options:
leann search INDEX_NAME QUERY [OPTIONS]
Options:
--top-k N Number of results (default: 5)
--complexity N Search complexity (default: 64)
--recompute / --no-recompute Enable/disable embedding recomputation (default: enabled). Should not do a `no-recompute` search in a `recompute` build.
--top-k N Number of results (default: 5)
--complexity N Search complexity (default: 64)
--recompute-embeddings Use recomputation for highest accuracy
--pruning-strategy {global,local,proportional}
```
@@ -605,73 +526,8 @@ Options:
--top-k N Retrieval count (default: 20)
```
**List Command:**
```bash
leann list
# Lists all indexes across all projects with status indicators:
# ✅ - Index is complete and ready to use
# ❌ - Index is incomplete or corrupted
# 📁 - CLI-created index (in .leann/indexes/)
# 📄 - App-created index (*.leann.meta.json files)
```
**Remove Command:**
```bash
leann remove INDEX_NAME [OPTIONS]
Options:
--force, -f Force removal without confirmation
# Smart removal: automatically finds and safely removes indexes
# - Shows all matching indexes across projects
# - Requires confirmation for cross-project removal
# - Interactive selection when multiple matches found
# - Supports both CLI and app-created indexes
```
</details>
## 🚀 Advanced Features
### 🎯 Metadata Filtering
LEANN supports a simple metadata filtering system to enable sophisticated use cases like document filtering by date/type, code search by file extension, and content management based on custom criteria.
```python
# Add metadata during indexing
builder.add_text(
"def authenticate_user(token): ...",
metadata={"file_extension": ".py", "lines_of_code": 25}
)
# Search with filters
results = searcher.search(
query="authentication function",
metadata_filters={
"file_extension": {"==": ".py"},
"lines_of_code": {"<": 100}
}
)
```
**Supported operators**: `==`, `!=`, `<`, `<=`, `>`, `>=`, `in`, `not_in`, `contains`, `starts_with`, `ends_with`, `is_true`, `is_false`
📖 **[Complete Metadata filtering guide →](docs/metadata_filtering.md)**
### 🔍 Grep Search
For exact text matching instead of semantic search, use the `use_grep` parameter:
```python
# Exact text search
results = searcher.search("bananacrocodile", use_grep=True, top_k=1)
```
**Use cases**: Finding specific code patterns, error messages, function names, or exact phrases where semantic similarity isn't needed.
📖 **[Complete grep search guide →](docs/grep_search.md)**
## 🏗️ Architecture & How It Works
<p align="center">
@@ -686,16 +542,12 @@ results = searcher.search("bananacrocodile", use_grep=True, top_k=1)
- **Dynamic batching:** Efficiently batch embedding computations for GPU utilization
- **Two-level search:** Smart graph traversal that prioritizes promising nodes
**Backends:**
- **HNSW** (default): Ideal for most datasets with maximum storage savings through full recomputation
- **DiskANN**: Advanced option with superior search performance, using PQ-based graph traversal with real-time reranking for the best speed-accuracy trade-off
**Backends:** HNSW (default) for most use cases, with optional DiskANN support for billion-scale datasets.
## Benchmarks
**[DiskANN vs HNSW Performance Comparison →](benchmarks/diskann_vs_hnsw_speed_comparison.py)** - Compare search performance between both backends
**[Simple Example: Compare LEANN vs FAISS →](benchmarks/compare_faiss_vs_leann.py)** - See storage savings in action
**[Simple Example: Compare LEANN vs FAISS →](benchmarks/compare_faiss_vs_leann.py)**
### 📊 Storage Comparison
| System | DPR (2.1M) | Wiki (60M) | Chat (400K) | Email (780K) | Browser (38K) |
@@ -711,7 +563,6 @@ results = searcher.search("bananacrocodile", use_grep=True, top_k=1)
```bash
uv pip install -e ".[dev]" # Install dev dependencies
python benchmarks/run_evaluation.py # Will auto-download evaluation data and run benchmarks
python benchmarks/run_evaluation.py benchmarks/data/indices/rpj_wiki/rpj_wiki --num-queries 2000 # After downloading data, you can run the benchmark with our biggest index
```
The evaluation script downloads data automatically on first run. The last three results were tested with partial personal data, and you can reproduce them with your own data!
@@ -751,16 +602,12 @@ MIT License - see [LICENSE](LICENSE) for details.
Core Contributors: [Yichuan Wang](https://yichuan-w.github.io/) & [Zhifei Li](https://github.com/andylizf).
Active Contributors: [Gabriel Dehan](https://github.com/gabriel-dehan)
We welcome more contributors! Feel free to open issues or submit PRs.
This work is done at [**Berkeley Sky Computing Lab**](https://sky.cs.berkeley.edu/).
## Star History
---
[![Star History Chart](https://api.star-history.com/svg?repos=yichuan-w/LEANN&type=Date)](https://www.star-history.com/#yichuan-w/LEANN&Date)
<p align="center">
<strong>⭐ Star us on GitHub if Leann is useful for your research or applications!</strong>
</p>

120
apps/base_rag_example.py
View File

@@ -10,8 +10,7 @@ from typing import Any
import dotenv
from leann.api import LeannBuilder, LeannChat
from leann.registry import register_project_directory
from leann.settings import resolve_ollama_host, resolve_openai_api_key, resolve_openai_base_url
from llama_index.core.node_parser import SentenceSplitter
dotenv.load_dotenv()
@@ -70,32 +69,14 @@ class BaseRAGExample(ABC):
"--embedding-model",
type=str,
default=embedding_model_default,
help=f"Embedding model to use (default: {embedding_model_default}), we provide facebook/contriever, text-embedding-3-small,mlx-community/Qwen3-Embedding-0.6B-8bit or nomic-embed-text",
help=f"Embedding model to use (default: {embedding_model_default})",
)
embedding_group.add_argument(
"--embedding-mode",
type=str,
default="sentence-transformers",
choices=["sentence-transformers", "openai", "mlx", "ollama"],
help="Embedding backend mode (default: sentence-transformers), we provide sentence-transformers, openai, mlx, or ollama",
)
embedding_group.add_argument(
"--embedding-host",
type=str,
default=None,
help="Override Ollama-compatible embedding host",
)
embedding_group.add_argument(
"--embedding-api-base",
type=str,
default=None,
help="Base URL for OpenAI-compatible embedding services",
)
embedding_group.add_argument(
"--embedding-api-key",
type=str,
default=None,
help="API key for embedding service (defaults to OPENAI_API_KEY)",
help="Embedding backend mode (default: sentence-transformers)",
)
# LLM parameters
@@ -105,19 +86,19 @@ class BaseRAGExample(ABC):
type=str,
default="openai",
choices=["openai", "ollama", "hf", "simulated"],
help="LLM backend: openai, ollama, or hf (default: openai)",
help="LLM backend to use (default: openai)",
)
llm_group.add_argument(
"--llm-model",
type=str,
default=None,
help="Model name (default: gpt-4o) e.g., gpt-4o-mini, llama3.2:1b, Qwen/Qwen2.5-1.5B-Instruct",
help="LLM model name (default: gpt-4o for openai, llama3.2:1b for ollama)",
)
llm_group.add_argument(
"--llm-host",
type=str,
default=None,
help="Host for Ollama-compatible APIs (defaults to LEANN_OLLAMA_HOST/OLLAMA_HOST)",
default="http://localhost:11434",
help="Host for Ollama API (default: http://localhost:11434)",
)
llm_group.add_argument(
"--thinking-budget",
@@ -126,50 +107,6 @@ class BaseRAGExample(ABC):
default=None,
help="Thinking budget for reasoning models (low/medium/high). Supported by GPT-Oss:20b and other reasoning models.",
)
llm_group.add_argument(
"--llm-api-base",
type=str,
default=None,
help="Base URL for OpenAI-compatible APIs",
)
llm_group.add_argument(
"--llm-api-key",
type=str,
default=None,
help="API key for OpenAI-compatible APIs (defaults to OPENAI_API_KEY)",
)
# AST Chunking parameters
ast_group = parser.add_argument_group("AST Chunking Parameters")
ast_group.add_argument(
"--use-ast-chunking",
action="store_true",
help="Enable AST-aware chunking for code files (requires astchunk)",
)
ast_group.add_argument(
"--ast-chunk-size",
type=int,
default=512,
help="Maximum characters per AST chunk (default: 512)",
)
ast_group.add_argument(
"--ast-chunk-overlap",
type=int,
default=64,
help="Overlap between AST chunks (default: 64)",
)
ast_group.add_argument(
"--code-file-extensions",
nargs="+",
default=None,
help="Additional code file extensions to process with AST chunking (e.g., .py .java .cs .ts)",
)
ast_group.add_argument(
"--ast-fallback-traditional",
action="store_true",
default=True,
help="Fall back to traditional chunking if AST chunking fails (default: True)",
)
# Search parameters
search_group = parser.add_argument_group("Search Parameters")
@@ -236,18 +173,11 @@ class BaseRAGExample(ABC):
if args.llm == "openai":
config["model"] = args.llm_model or "gpt-4o"
config["base_url"] = resolve_openai_base_url(args.llm_api_base)
resolved_key = resolve_openai_api_key(args.llm_api_key)
if resolved_key:
config["api_key"] = resolved_key
elif args.llm == "ollama":
config["model"] = args.llm_model or "llama3.2:1b"
config["host"] = resolve_ollama_host(args.llm_host)
config["host"] = args.llm_host
elif args.llm == "hf":
config["model"] = args.llm_model or "Qwen/Qwen2.5-1.5B-Instruct"
elif args.llm == "simulated":
# Simulated LLM doesn't need additional configuration
pass
return config
@@ -258,20 +188,10 @@ class BaseRAGExample(ABC):
print(f"\n[Building Index] Creating {self.name} index...")
print(f"Total text chunks: {len(texts)}")
embedding_options: dict[str, Any] = {}
if args.embedding_mode == "ollama":
embedding_options["host"] = resolve_ollama_host(args.embedding_host)
elif args.embedding_mode == "openai":
embedding_options["base_url"] = resolve_openai_base_url(args.embedding_api_base)
resolved_embedding_key = resolve_openai_api_key(args.embedding_api_key)
if resolved_embedding_key:
embedding_options["api_key"] = resolved_embedding_key
builder = LeannBuilder(
backend_name=args.backend_name,
embedding_model=args.embedding_model,
embedding_mode=args.embedding_mode,
embedding_options=embedding_options or None,
graph_degree=args.graph_degree,
complexity=args.build_complexity,
is_compact=not args.no_compact,
@@ -291,11 +211,6 @@ class BaseRAGExample(ABC):
builder.build_index(index_path)
print(f"Index saved to: {index_path}")
# Register project directory so leann list can discover this index
# The index is saved as args.index_dir/index_name.leann
# We want to register the current working directory where the app is run
register_project_directory(Path.cwd())
return index_path
async def run_interactive_chat(self, args, index_path: str):
@@ -344,6 +259,7 @@ class BaseRAGExample(ABC):
chat = LeannChat(
index_path,
llm_config=self.get_llm_config(args),
system_prompt=f"You are a helpful assistant that answers questions about {self.name} data.",
complexity=args.search_complexity,
)
@@ -385,3 +301,21 @@ class BaseRAGExample(ABC):
await self.run_single_query(args, index_path, args.query)
else:
await self.run_interactive_chat(args, index_path)
def create_text_chunks(documents, chunk_size=256, chunk_overlap=25) -> list[str]:
"""Helper function to create text chunks from documents."""
node_parser = SentenceSplitter(
chunk_size=chunk_size,
chunk_overlap=chunk_overlap,
separator=" ",
paragraph_separator="\n\n",
)
all_texts = []
for doc in documents:
nodes = node_parser.get_nodes_from_documents([doc])
if nodes:
all_texts.extend(node.get_content() for node in nodes)
return all_texts

3
apps/browser_rag.py
View File

@@ -10,8 +10,7 @@ from pathlib import Path
# Add parent directory to path for imports
sys.path.insert(0, str(Path(__file__).parent))
from base_rag_example import BaseRAGExample
from chunking import create_text_chunks
from base_rag_example import BaseRAGExample, create_text_chunks
from .history_data.history import ChromeHistoryReader

44
apps/chunking/__init__.py
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@@ -1,44 +0,0 @@
"""Unified chunking utilities facade.
This module re-exports the packaged utilities from `leann.chunking_utils` so
that both repo apps (importing `chunking`) and installed wheels share one
single implementation. When running from the repo without installation, it
adds the `packages/leann-core/src` directory to `sys.path` as a fallback.
"""
import sys
from pathlib import Path
try:
from leann.chunking_utils import (
CODE_EXTENSIONS,
create_ast_chunks,
create_text_chunks,
create_traditional_chunks,
detect_code_files,
get_language_from_extension,
)
except Exception: # pragma: no cover - best-effort fallback for dev environment
repo_root = Path(__file__).resolve().parents[2]
leann_src = repo_root / "packages" / "leann-core" / "src"
if leann_src.exists():
sys.path.insert(0, str(leann_src))
from leann.chunking_utils import (
CODE_EXTENSIONS,
create_ast_chunks,
create_text_chunks,
create_traditional_chunks,
detect_code_files,
get_language_from_extension,
)
else:
raise
__all__ = [
"CODE_EXTENSIONS",
"create_ast_chunks",
"create_text_chunks",
"create_traditional_chunks",
"detect_code_files",
"get_language_from_extension",
]

211
apps/code_rag.py
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@@ -1,211 +0,0 @@
"""
Code RAG example using AST-aware chunking for optimal code understanding.
Specialized for code repositories with automatic language detection and
optimized chunking parameters.
"""
import sys
from pathlib import Path
# Add parent directory to path for imports
sys.path.insert(0, str(Path(__file__).parent))
from base_rag_example import BaseRAGExample
from chunking import CODE_EXTENSIONS, create_text_chunks
from llama_index.core import SimpleDirectoryReader
class CodeRAG(BaseRAGExample):
"""Specialized RAG example for code repositories with AST-aware chunking."""
def __init__(self):
super().__init__(
name="Code",
description="Process and query code repositories with AST-aware chunking",
default_index_name="code_index",
)
# Override defaults for code-specific usage
self.embedding_model_default = "facebook/contriever" # Good for code
self.max_items_default = -1 # Process all code files by default
def _add_specific_arguments(self, parser):
"""Add code-specific arguments."""
code_group = parser.add_argument_group("Code Repository Parameters")
code_group.add_argument(
"--repo-dir",
type=str,
default=".",
help="Code repository directory to index (default: current directory)",
)
code_group.add_argument(
"--include-extensions",
nargs="+",
default=list(CODE_EXTENSIONS.keys()),
help="File extensions to include (default: supported code extensions)",
)
code_group.add_argument(
"--exclude-dirs",
nargs="+",
default=[
".git",
"__pycache__",
"node_modules",
"venv",
".venv",
"build",
"dist",
"target",
],
help="Directories to exclude from indexing",
)
code_group.add_argument(
"--max-file-size",
type=int,
default=1000000, # 1MB
help="Maximum file size in bytes to process (default: 1MB)",
)
code_group.add_argument(
"--include-comments",
action="store_true",
help="Include comments in chunking (useful for documentation)",
)
code_group.add_argument(
"--preserve-imports",
action="store_true",
default=True,
help="Try to preserve import statements in chunks (default: True)",
)
async def load_data(self, args) -> list[str]:
"""Load code files and convert to AST-aware chunks."""
print(f"🔍 Scanning code repository: {args.repo_dir}")
print(f"📁 Including extensions: {args.include_extensions}")
print(f"🚫 Excluding directories: {args.exclude_dirs}")
# Check if repository directory exists
repo_path = Path(args.repo_dir)
if not repo_path.exists():
raise ValueError(f"Repository directory not found: {args.repo_dir}")
# Load code files with filtering
reader_kwargs = {
"recursive": True,
"encoding": "utf-8",
"required_exts": args.include_extensions,
"exclude_hidden": True,
}
# Create exclusion filter
def file_filter(file_path: str) -> bool:
"""Filter out unwanted files and directories."""
path = Path(file_path)
# Check file size
try:
if path.stat().st_size > args.max_file_size:
print(f"⚠️ Skipping large file: {path.name} ({path.stat().st_size} bytes)")
return False
except Exception:
return False
# Check if in excluded directory
for exclude_dir in args.exclude_dirs:
if exclude_dir in path.parts:
return False
return True
try:
# Load documents with file filtering
documents = SimpleDirectoryReader(
args.repo_dir,
file_extractor=None, # Use default extractors
**reader_kwargs,
).load_data(show_progress=True)
# Apply custom filtering
filtered_docs = []
for doc in documents:
file_path = doc.metadata.get("file_path", "")
if file_filter(file_path):
filtered_docs.append(doc)
documents = filtered_docs
except Exception as e:
print(f"❌ Error loading code files: {e}")
return []
if not documents:
print(
f"❌ No code files found in {args.repo_dir} with extensions {args.include_extensions}"
)
return []
print(f"✅ Loaded {len(documents)} code files")
# Show breakdown by language/extension
ext_counts = {}
for doc in documents:
file_path = doc.metadata.get("file_path", "")
if file_path:
ext = Path(file_path).suffix.lower()
ext_counts[ext] = ext_counts.get(ext, 0) + 1
print("📊 Files by extension:")
for ext, count in sorted(ext_counts.items()):
print(f" {ext}: {count} files")
# Use AST-aware chunking by default for code
print(
f"🧠 Using AST-aware chunking (chunk_size: {args.ast_chunk_size}, overlap: {args.ast_chunk_overlap})"
)
all_texts = create_text_chunks(
documents,
chunk_size=256, # Fallback for non-code files
chunk_overlap=64,
use_ast_chunking=True, # Always use AST for code RAG
ast_chunk_size=args.ast_chunk_size,
ast_chunk_overlap=args.ast_chunk_overlap,
code_file_extensions=args.include_extensions,
ast_fallback_traditional=True,
)
# Apply max_items limit if specified
if args.max_items > 0 and len(all_texts) > args.max_items:
print(f"⏳ Limiting to {args.max_items} chunks (from {len(all_texts)})")
all_texts = all_texts[: args.max_items]
print(f"✅ Generated {len(all_texts)} code chunks")
return all_texts
if __name__ == "__main__":
import asyncio
# Example queries for code RAG
print("\n💻 Code RAG Example")
print("=" * 50)
print("\nExample queries you can try:")
print("- 'How does the embedding computation work?'")
print("- 'What are the main classes in this codebase?'")
print("- 'Show me the search implementation'")
print("- 'How is error handling implemented?'")
print("- 'What design patterns are used?'")
print("- 'Explain the chunking logic'")
print("\n🚀 Features:")
print("- ✅ AST-aware chunking preserves code structure")
print("- ✅ Automatic language detection")
print("- ✅ Smart filtering of large files and common excludes")
print("- ✅ Optimized for code understanding")
print("\nUsage examples:")
print(" python -m apps.code_rag --repo-dir ./my_project")
print(
" python -m apps.code_rag --include-extensions .py .js --query 'How does authentication work?'"
)
print("\nOr run without --query for interactive mode\n")
rag = CodeRAG()
asyncio.run(rag.run())

29
apps/document_rag.py
View File

@@ -9,8 +9,7 @@ from pathlib import Path
# Add parent directory to path for imports
sys.path.insert(0, str(Path(__file__).parent))
from base_rag_example import BaseRAGExample
from chunking import create_text_chunks
from base_rag_example import BaseRAGExample, create_text_chunks
from llama_index.core import SimpleDirectoryReader
@@ -45,11 +44,6 @@ class DocumentRAG(BaseRAGExample):
doc_group.add_argument(
"--chunk-overlap", type=int, default=128, help="Text chunk overlap (default: 128)"
)
doc_group.add_argument(
"--enable-code-chunking",
action="store_true",
help="Enable AST-aware chunking for code files in the data directory",
)
async def load_data(self, args) -> list[str]:
"""Load documents and convert to text chunks."""
@@ -82,22 +76,9 @@ class DocumentRAG(BaseRAGExample):
print(f"Loaded {len(documents)} documents")
# Determine chunking strategy
use_ast = args.enable_code_chunking or getattr(args, "use_ast_chunking", False)
if use_ast:
print("Using AST-aware chunking for code files")
# Convert to text chunks with optional AST support
# Convert to text chunks
all_texts = create_text_chunks(
documents,
chunk_size=args.chunk_size,
chunk_overlap=args.chunk_overlap,
use_ast_chunking=use_ast,
ast_chunk_size=getattr(args, "ast_chunk_size", 512),
ast_chunk_overlap=getattr(args, "ast_chunk_overlap", 64),
code_file_extensions=getattr(args, "code_file_extensions", None),
ast_fallback_traditional=getattr(args, "ast_fallback_traditional", True),
documents, chunk_size=args.chunk_size, chunk_overlap=args.chunk_overlap
)
# Apply max_items limit if specified
@@ -121,10 +102,6 @@ if __name__ == "__main__":
print(
"- 'What is the problem of developing pan gu model Huawei meets? (盘古大模型开发中遇到什么问题?)'"
)
print("\n🚀 NEW: Code-aware chunking available!")
print("- Use --enable-code-chunking to enable AST-aware chunking for code files")
print("- Supports Python, Java, C#, TypeScript files")
print("- Better semantic understanding of code structure")
print("\nOr run without --query for interactive mode\n")
rag = DocumentRAG()

3
apps/email_rag.py
View File

@@ -9,8 +9,7 @@ from pathlib import Path
# Add parent directory to path for imports
sys.path.insert(0, str(Path(__file__).parent))
from base_rag_example import BaseRAGExample
from chunking import create_text_chunks
from base_rag_example import BaseRAGExample, create_text_chunks
from .email_data.LEANN_email_reader import EmlxReader

2
apps/history_data/history.py
View File

@@ -74,7 +74,7 @@ class ChromeHistoryReader(BaseReader):
if count >= max_count and max_count > 0:
break
last_visit, url, title, visit_count, typed_count, _hidden = row
last_visit, url, title, visit_count, typed_count, hidden = row
# Create document content with metadata embedded in text
doc_content = f"""

BIN
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19
benchmarks/README.md
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@@ -1,24 +1,9 @@
# 🧪 LEANN Benchmarks & Testing
# 🧪 Leann Sanity Checks
This directory contains performance benchmarks and comprehensive tests for the LEANN system, including backend comparisons and sanity checks across different configurations.
This directory contains comprehensive sanity checks for the Leann system, ensuring all components work correctly across different configurations.
## 📁 Test Files
### `diskann_vs_hnsw_speed_comparison.py`
Performance comparison between DiskANN and HNSW backends:
-**Search latency** comparison with both backends using recompute
-**Index size** and **build time** measurements
-**Score validity** testing (ensures no -inf scores)
-**Configurable dataset sizes** for different scales
```bash
# Quick comparison with 500 docs, 10 queries
python benchmarks/diskann_vs_hnsw_speed_comparison.py
# Large-scale comparison with 2000 docs, 20 queries
python benchmarks/diskann_vs_hnsw_speed_comparison.py 2000 20
```
### `test_distance_functions.py`
Tests all supported distance functions across DiskANN backend:
-**MIPS** (Maximum Inner Product Search)

148
benchmarks/benchmark_no_recompute.py
View File

@@ -1,148 +0,0 @@
import argparse
import os
import time
from pathlib import Path
from leann import LeannBuilder, LeannSearcher
def _meta_exists(index_path: str) -> bool:
p = Path(index_path)
return (p.parent / f"{p.stem}.meta.json").exists()
def ensure_index(index_path: str, backend_name: str, num_docs: int, is_recompute: bool) -> None:
# if _meta_exists(index_path):
# return
kwargs = {}
if backend_name == "hnsw":
kwargs["is_compact"] = is_recompute
builder = LeannBuilder(
backend_name=backend_name,
embedding_model=os.getenv("LEANN_EMBED_MODEL", "facebook/contriever"),
embedding_mode=os.getenv("LEANN_EMBED_MODE", "sentence-transformers"),
graph_degree=32,
complexity=64,
is_recompute=is_recompute,
num_threads=4,
**kwargs,
)
for i in range(num_docs):
builder.add_text(
f"This is a test document number {i}. It contains some repeated text for benchmarking."
)
builder.build_index(index_path)
def _bench_group(
index_path: str,
recompute: bool,
query: str,
repeats: int,
complexity: int = 32,
top_k: int = 10,
) -> float:
# Independent searcher per group; fixed port when recompute
searcher = LeannSearcher(index_path=index_path)
# Warm-up once
_ = searcher.search(
query,
top_k=top_k,
complexity=complexity,
recompute_embeddings=recompute,
)
def _once() -> float:
t0 = time.time()
_ = searcher.search(
query,
top_k=top_k,
complexity=complexity,
recompute_embeddings=recompute,
)
return time.time() - t0
if repeats <= 1:
t = _once()
else:
vals = [_once() for _ in range(repeats)]
vals.sort()
t = vals[len(vals) // 2]
searcher.cleanup()
return t
def main():
parser = argparse.ArgumentParser()
parser.add_argument("--num-docs", type=int, default=5000)
parser.add_argument("--repeats", type=int, default=3)
parser.add_argument("--complexity", type=int, default=32)
args = parser.parse_args()
base = Path.cwd() / ".leann" / "indexes" / f"bench_n{args.num_docs}"
base.parent.mkdir(parents=True, exist_ok=True)
# ---------- Build HNSW variants ----------
hnsw_r = str(base / f"hnsw_recompute_n{args.num_docs}.leann")
hnsw_nr = str(base / f"hnsw_norecompute_n{args.num_docs}.leann")
ensure_index(hnsw_r, "hnsw", args.num_docs, True)
ensure_index(hnsw_nr, "hnsw", args.num_docs, False)
# ---------- Build DiskANN variants ----------
diskann_r = str(base / "diskann_r.leann")
diskann_nr = str(base / "diskann_nr.leann")
ensure_index(diskann_r, "diskann", args.num_docs, True)
ensure_index(diskann_nr, "diskann", args.num_docs, False)
# ---------- Helpers ----------
def _size_for(prefix: str) -> int:
p = Path(prefix)
base_dir = p.parent
stem = p.stem
total = 0
for f in base_dir.iterdir():
if f.is_file() and f.name.startswith(stem):
total += f.stat().st_size
return total
# ---------- HNSW benchmark ----------
t_hnsw_r = _bench_group(
hnsw_r, True, "test document number 42", repeats=args.repeats, complexity=args.complexity
)
t_hnsw_nr = _bench_group(
hnsw_nr, False, "test document number 42", repeats=args.repeats, complexity=args.complexity
)
size_hnsw_r = _size_for(hnsw_r)
size_hnsw_nr = _size_for(hnsw_nr)
print("Benchmark results (HNSW):")
print(f" recompute=True: search_time={t_hnsw_r:.3f}s, size={size_hnsw_r / 1024 / 1024:.1f}MB")
print(
f" recompute=False: search_time={t_hnsw_nr:.3f}s, size={size_hnsw_nr / 1024 / 1024:.1f}MB"
)
print(" Expectation: no-recompute should be faster but larger on disk.")
# ---------- DiskANN benchmark ----------
t_diskann_r = _bench_group(
diskann_r, True, "DiskANN R test doc 123", repeats=args.repeats, complexity=args.complexity
)
t_diskann_nr = _bench_group(
diskann_nr,
False,
"DiskANN NR test doc 123",
repeats=args.repeats,
complexity=args.complexity,
)
size_diskann_r = _size_for(diskann_r)
size_diskann_nr = _size_for(diskann_nr)
print("\nBenchmark results (DiskANN):")
print(f" build(recompute=True, partition): size={size_diskann_r / 1024 / 1024:.1f}MB")
print(f" build(recompute=False): size={size_diskann_nr / 1024 / 1024:.1f}MB")
print(f" search recompute=True (final rerank): {t_diskann_r:.3f}s")
print(f" search recompute=False (PQ only): {t_diskann_nr:.3f}s")
if __name__ == "__main__":
main()

82
benchmarks/data/.gitattributes vendored Normal file
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@@ -0,0 +1,82 @@
*.7z filter=lfs diff=lfs merge=lfs -text
*.arrow filter=lfs diff=lfs merge=lfs -text
*.bin filter=lfs diff=lfs merge=lfs -text
*.bz2 filter=lfs diff=lfs merge=lfs -text
*.ckpt filter=lfs diff=lfs merge=lfs -text
*.ftz filter=lfs diff=lfs merge=lfs -text
*.gz filter=lfs diff=lfs merge=lfs -text
*.h5 filter=lfs diff=lfs merge=lfs -text
*.joblib filter=lfs diff=lfs merge=lfs -text
*.lfs.* filter=lfs diff=lfs merge=lfs -text
*.lz4 filter=lfs diff=lfs merge=lfs -text
*.mds filter=lfs diff=lfs merge=lfs -text
*.mlmodel filter=lfs diff=lfs merge=lfs -text
*.model filter=lfs diff=lfs merge=lfs -text
*.msgpack filter=lfs diff=lfs merge=lfs -text
*.npy filter=lfs diff=lfs merge=lfs -text
*.npz filter=lfs diff=lfs merge=lfs -text
*.onnx filter=lfs diff=lfs merge=lfs -text
*.ot filter=lfs diff=lfs merge=lfs -text
*.parquet filter=lfs diff=lfs merge=lfs -text
*.pb filter=lfs diff=lfs merge=lfs -text
*.pickle filter=lfs diff=lfs merge=lfs -text
*.pkl filter=lfs diff=lfs merge=lfs -text
*.pt filter=lfs diff=lfs merge=lfs -text
*.pth filter=lfs diff=lfs merge=lfs -text
*.rar filter=lfs diff=lfs merge=lfs -text
*.safetensors filter=lfs diff=lfs merge=lfs -text
saved_model/**/* filter=lfs diff=lfs merge=lfs -text
*.tar.* filter=lfs diff=lfs merge=lfs -text
*.tar filter=lfs diff=lfs merge=lfs -text
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*.zip filter=lfs diff=lfs merge=lfs -text
*.zst filter=lfs diff=lfs merge=lfs -text
*tfevents* filter=lfs diff=lfs merge=lfs -text
# Audio files - uncompressed
*.pcm filter=lfs diff=lfs merge=lfs -text
*.sam filter=lfs diff=lfs merge=lfs -text
*.raw filter=lfs diff=lfs merge=lfs -text
# Audio files - compressed
*.aac filter=lfs diff=lfs merge=lfs -text
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*.mp3 filter=lfs diff=lfs merge=lfs -text
*.ogg filter=lfs diff=lfs merge=lfs -text
*.wav filter=lfs diff=lfs merge=lfs -text
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*.bmp filter=lfs diff=lfs merge=lfs -text
*.gif filter=lfs diff=lfs merge=lfs -text
*.png filter=lfs diff=lfs merge=lfs -text
*.tiff filter=lfs diff=lfs merge=lfs -text
# Image files - compressed
*.jpg filter=lfs diff=lfs merge=lfs -text
*.jpeg filter=lfs diff=lfs merge=lfs -text
*.webp filter=lfs diff=lfs merge=lfs -text
# Video files - compressed
*.mp4 filter=lfs diff=lfs merge=lfs -text
*.webm filter=lfs diff=lfs merge=lfs -text
ground_truth/dpr/id_map.json filter=lfs diff=lfs merge=lfs -text
indices/dpr/dpr_diskann.passages.idx filter=lfs diff=lfs merge=lfs -text
indices/dpr/dpr_diskann.passages.jsonl filter=lfs diff=lfs merge=lfs -text
indices/dpr/dpr_diskann_disk.index filter=lfs diff=lfs merge=lfs -text
indices/dpr/leann.labels.map filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/leann.labels.map filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.index filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.0.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.0.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.1.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.1.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.2.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.2.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.3.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.3.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.4.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.4.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.5.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.5.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.6.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.6.jsonl filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.7.idx filter=lfs diff=lfs merge=lfs -text
indices/rpj_wiki/rpj_wiki.passages.7.jsonl filter=lfs diff=lfs merge=lfs -text

44
benchmarks/data/README.md
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@@ -1,44 +0,0 @@
---
license: mit
---
# LEANN-RAG Evaluation Data
This repository contains the necessary data to run the recall evaluation scripts for the [LEANN-RAG](https://huggingface.co/LEANN-RAG) project.
## Dataset Components
This dataset is structured into three main parts:
1. **Pre-built LEANN Indices**:
* `dpr/`: A pre-built index for the DPR dataset.
* `rpj_wiki/`: A pre-built index for the RPJ-Wiki dataset.
These indices were created using the `leann-core` library and are required by the `LeannSearcher`.
2. **Ground Truth Data**:
* `ground_truth/`: Contains the ground truth files (`flat_results_nq_k3.json`) for both the DPR and RPJ-Wiki datasets. These files map queries to the original passage IDs from the Natural Questions benchmark, evaluated using the Contriever model.
3. **Queries**:
* `queries/`: Contains the `nq_open.jsonl` file with the Natural Questions queries used for the evaluation.
## Usage
To use this data, you can download it locally using the `huggingface-hub` library. First, install the library:
```bash
pip install huggingface-hub
```
Then, you can download the entire dataset to a local directory (e.g., `data/`) with the following Python script:
```python
from huggingface_hub import snapshot_download
snapshot_download(
repo_id="LEANN-RAG/leann-rag-evaluation-data",
repo_type="dataset",
local_dir="data"
)
```
This will download all the necessary files into a local `data` folder, preserving the repository structure. The evaluation scripts in the main [LEANN-RAG Space](https://huggingface.co/LEANN-RAG) are configured to work with this data structure.

286
benchmarks/diskann_vs_hnsw_speed_comparison.py
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@@ -1,286 +0,0 @@
#!/usr/bin/env python3
"""
DiskANN vs HNSW Search Performance Comparison
This benchmark compares search performance between DiskANN and HNSW backends:
- DiskANN: With graph partitioning enabled (is_recompute=True)
- HNSW: With recompute enabled (is_recompute=True)
- Tests performance across different dataset sizes
- Measures search latency, recall, and index size
"""
import gc
import multiprocessing as mp
import tempfile
import time
from pathlib import Path
from typing import Any
import numpy as np
# Prefer 'fork' start method to avoid POSIX semaphore leaks on macOS
try:
mp.set_start_method("fork", force=True)
except Exception:
pass
def create_test_texts(n_docs: int) -> list[str]:
"""Create synthetic test documents for benchmarking."""
np.random.seed(42)
topics = [
"machine learning and artificial intelligence",
"natural language processing and text analysis",
"computer vision and image recognition",
"data science and statistical analysis",
"deep learning and neural networks",
"information retrieval and search engines",
"database systems and data management",
"software engineering and programming",
"cybersecurity and network protection",
"cloud computing and distributed systems",
]
texts = []
for i in range(n_docs):
topic = topics[i % len(topics)]
variation = np.random.randint(1, 100)
text = (
f"This is document {i} about {topic}. Content variation {variation}. "
f"Additional information about {topic} with details and examples. "
f"Technical discussion of {topic} including implementation aspects."
)
texts.append(text)
return texts
def benchmark_backend(
backend_name: str, texts: list[str], test_queries: list[str], backend_kwargs: dict[str, Any]
) -> dict[str, float]:
"""Benchmark a specific backend with the given configuration."""
from leann.api import LeannBuilder, LeannSearcher
print(f"\n🔧 Testing {backend_name.upper()} backend...")
with tempfile.TemporaryDirectory() as temp_dir:
index_path = str(Path(temp_dir) / f"benchmark_{backend_name}.leann")
# Build index
print(f"📦 Building {backend_name} index with {len(texts)} documents...")
start_time = time.time()
builder = LeannBuilder(
backend_name=backend_name,
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
**backend_kwargs,
)
for text in texts:
builder.add_text(text)
builder.build_index(index_path)
build_time = time.time() - start_time
# Measure index size
index_dir = Path(index_path).parent
index_files = list(index_dir.glob(f"{Path(index_path).stem}.*"))
total_size = sum(f.stat().st_size for f in index_files if f.is_file())
size_mb = total_size / (1024 * 1024)
print(f" ✅ Build completed in {build_time:.2f}s, index size: {size_mb:.1f}MB")
# Search benchmark
print("🔍 Running search benchmark...")
searcher = LeannSearcher(index_path)
search_times = []
all_results = []
for query in test_queries:
start_time = time.time()
results = searcher.search(query, top_k=5)
search_time = time.time() - start_time
search_times.append(search_time)
all_results.append(results)
avg_search_time = np.mean(search_times) * 1000 # Convert to ms
print(f" ✅ Average search time: {avg_search_time:.1f}ms")
# Check for valid scores (detect -inf issues)
all_scores = [
result.score
for results in all_results
for result in results
if result.score is not None
]
valid_scores = [
score for score in all_scores if score != float("-inf") and score != float("inf")
]
score_validity_rate = len(valid_scores) / len(all_scores) if all_scores else 0
# Clean up (ensure embedding server shutdown and object GC)
try:
if hasattr(searcher, "cleanup"):
searcher.cleanup()
del searcher
del builder
gc.collect()
except Exception as e:
print(f"⚠️ Warning: Resource cleanup error: {e}")
return {
"build_time": build_time,
"avg_search_time_ms": avg_search_time,
"index_size_mb": size_mb,
"score_validity_rate": score_validity_rate,
}
def run_comparison(n_docs: int = 500, n_queries: int = 10):
"""Run performance comparison between DiskANN and HNSW."""
print("🚀 Starting DiskANN vs HNSW Performance Comparison")
print(f"📊 Dataset: {n_docs} documents, {n_queries} test queries")
# Create test data
texts = create_test_texts(n_docs)
test_queries = [
"machine learning algorithms",
"natural language processing",
"computer vision techniques",
"data analysis methods",
"neural network architectures",
"database query optimization",
"software development practices",
"security vulnerabilities",
"cloud infrastructure",
"distributed computing",
][:n_queries]
# HNSW benchmark
hnsw_results = benchmark_backend(
backend_name="hnsw",
texts=texts,
test_queries=test_queries,
backend_kwargs={
"is_recompute": True, # Enable recompute for fair comparison
"M": 16,
"efConstruction": 200,
},
)
# DiskANN benchmark
diskann_results = benchmark_backend(
backend_name="diskann",
texts=texts,
test_queries=test_queries,
backend_kwargs={
"is_recompute": True, # Enable graph partitioning
"num_neighbors": 32,
"search_list_size": 50,
},
)
# Performance comparison
print("\n📈 Performance Comparison Results")
print(f"{'=' * 60}")
print(f"{'Metric':<25} {'HNSW':<15} {'DiskANN':<15} {'Speedup':<10}")
print(f"{'-' * 60}")
# Build time comparison
build_speedup = hnsw_results["build_time"] / diskann_results["build_time"]
print(
f"{'Build Time (s)':<25} {hnsw_results['build_time']:<15.2f} {diskann_results['build_time']:<15.2f} {build_speedup:<10.2f}x"
)
# Search time comparison
search_speedup = hnsw_results["avg_search_time_ms"] / diskann_results["avg_search_time_ms"]
print(
f"{'Search Time (ms)':<25} {hnsw_results['avg_search_time_ms']:<15.1f} {diskann_results['avg_search_time_ms']:<15.1f} {search_speedup:<10.2f}x"
)
# Index size comparison
size_ratio = diskann_results["index_size_mb"] / hnsw_results["index_size_mb"]
print(
f"{'Index Size (MB)':<25} {hnsw_results['index_size_mb']:<15.1f} {diskann_results['index_size_mb']:<15.1f} {size_ratio:<10.2f}x"
)
# Score validity
print(
f"{'Score Validity (%)':<25} {hnsw_results['score_validity_rate'] * 100:<15.1f} {diskann_results['score_validity_rate'] * 100:<15.1f}"
)
print(f"{'=' * 60}")
print("\n🎯 Summary:")
if search_speedup > 1:
print(f" DiskANN is {search_speedup:.2f}x faster than HNSW for search")
else:
print(f" HNSW is {1 / search_speedup:.2f}x faster than DiskANN for search")
if size_ratio > 1:
print(f" DiskANN uses {size_ratio:.2f}x more storage than HNSW")
else:
print(f" DiskANN uses {1 / size_ratio:.2f}x less storage than HNSW")
print(
f" Both backends achieved {min(hnsw_results['score_validity_rate'], diskann_results['score_validity_rate']) * 100:.1f}% score validity"
)
if __name__ == "__main__":
import sys
try:
# Handle help request
if len(sys.argv) > 1 and sys.argv[1] in ["-h", "--help", "help"]:
print("DiskANN vs HNSW Performance Comparison")
print("=" * 50)
print(f"Usage: python {sys.argv[0]} [n_docs] [n_queries]")
print()
print("Arguments:")
print(" n_docs Number of documents to index (default: 500)")
print(" n_queries Number of test queries to run (default: 10)")
print()
print("Examples:")
print(" python benchmarks/diskann_vs_hnsw_speed_comparison.py")
print(" python benchmarks/diskann_vs_hnsw_speed_comparison.py 1000")
print(" python benchmarks/diskann_vs_hnsw_speed_comparison.py 2000 20")
sys.exit(0)
# Parse command line arguments
n_docs = int(sys.argv[1]) if len(sys.argv) > 1 else 500
n_queries = int(sys.argv[2]) if len(sys.argv) > 2 else 10
print("DiskANN vs HNSW Performance Comparison")
print("=" * 50)
print(f"Dataset: {n_docs} documents, {n_queries} queries")
print()
run_comparison(n_docs=n_docs, n_queries=n_queries)
except KeyboardInterrupt:
print("\n⚠️ Benchmark interrupted by user")
sys.exit(130)
except Exception as e:
print(f"\n❌ Benchmark failed: {e}")
sys.exit(1)
finally:
# Ensure clean exit (forceful to prevent rare hangs from atexit/threads)
try:
gc.collect()
print("\n🧹 Cleanup completed")
# Flush stdio to ensure message is visible before hard-exit
try:
import sys as _sys
_sys.stdout.flush()
_sys.stderr.flush()
except Exception:
pass
except Exception:
pass
# Use os._exit to bypass atexit handlers that may hang in rare cases
import os as _os
_os._exit(0)

38
benchmarks/run_evaluation.py
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@@ -12,7 +12,7 @@ import time
from pathlib import Path
import numpy as np
from leann.api import LeannBuilder, LeannChat, LeannSearcher
from leann.api import LeannBuilder, LeannSearcher
def download_data_if_needed(data_root: Path, download_embeddings: bool = False):
@@ -197,25 +197,6 @@ def main():
parser.add_argument(
"--ef-search", type=int, default=120, help="The 'efSearch' parameter for HNSW."
)
parser.add_argument(
"--batch-size",
type=int,
default=0,
help="Batch size for HNSW batched search (0 disables batching)",
)
parser.add_argument(
"--llm-type",
type=str,
choices=["ollama", "hf", "openai", "gemini", "simulated"],
default="ollama",
help="LLM backend type to optionally query during evaluation (default: ollama)",
)
parser.add_argument(
"--llm-model",
type=str,
default="qwen3:1.7b",
help="LLM model identifier for the chosen backend (default: qwen3:1.7b)",
)
args = parser.parse_args()
# --- Path Configuration ---
@@ -337,24 +318,9 @@ def main():
for i in range(num_eval_queries):
start_time = time.time()
new_results = searcher.search(
queries[i],
top_k=args.top_k,
complexity=args.ef_search,
batch_size=args.batch_size,
)
new_results = searcher.search(queries[i], top_k=args.top_k, ef=args.ef_search)
search_times.append(time.time() - start_time)
# Optional: also call the LLM with configurable backend/model (does not affect recall)
llm_config = {"type": args.llm_type, "model": args.llm_model}
chat = LeannChat(args.index_path, llm_config=llm_config, searcher=searcher)
answer = chat.ask(
queries[i],
top_k=args.top_k,
complexity=args.ef_search,
batch_size=args.batch_size,
)
print(f"Answer: {answer}")
# Correct Recall Calculation: Based on TEXT content
new_texts = {result.text for result in new_results}

12
benchmarks/simple_mac_tpt_test.py
View File

@@ -20,7 +20,7 @@ except ImportError:
@dataclass
class BenchmarkConfig:
model_path: str = "facebook/contriever-msmarco"
model_path: str = "facebook/contriever"
batch_sizes: list[int] = None
seq_length: int = 256
num_runs: int = 5
@@ -34,7 +34,7 @@ class BenchmarkConfig:
def __post_init__(self):
if self.batch_sizes is None:
self.batch_sizes = [1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024]
self.batch_sizes = [1, 2, 4, 8, 16, 32, 64]
class MLXBenchmark:
@@ -179,16 +179,10 @@ class Benchmark:
def _run_inference(self, input_ids: torch.Tensor) -> float:
attention_mask = torch.ones_like(input_ids)
# print shape of input_ids and attention_mask
print(f"input_ids shape: {input_ids.shape}")
print(f"attention_mask shape: {attention_mask.shape}")
start_time = time.time()
with torch.no_grad():
self.model(input_ids=input_ids, attention_mask=attention_mask)
if torch.cuda.is_available():
torch.cuda.synchronize()
if torch.backends.mps.is_available():
torch.mps.synchronize()
end_time = time.time()
return end_time - start_time

82
data/huawei_pangu.md
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@@ -1,82 +0,0 @@
# 盘古之殇:华为诺亚盘古大模型研发历程的心酸与黑暗
各位好,
我是一名盘古大模型团队,华为诺亚方舟实验室的员工。
首先为自证身份,列举一些细节:
1. 现诺亚主任,前算法应用部部长,后改名为小模型实验室的主任王云鹤。前诺亚主任:姚骏(大家称姚老师)。几个实验室主任:唐睿明(明哥,明队,已离职),尚利峰,张维(维哥),郝建业(郝老师),刘武龙(称呼为武龙所)等。其他骨干成员和专家陆续有很多人离职。
2. 我们隶属于“四野”这个组织。四野下属有许多纵队,基础语言大模型是四纵。王云鹤的小模型是十六纵队。我们参加过苏州的集结,有各种月份的时间节点。在苏州攻关会颁发任务令,需要在节点前达成目标。苏州集结会把各地的人员都集中在苏州研究所,平常住宾馆,比如在甪直的酒店,与家人孩子天各一方。
3. 在苏州集结的时候周六默认上班,非常辛苦,不过周六有下午茶,有一次还有小龙虾。在苏州研究所的工位搬迁过一次,从一栋楼换到了另一栋。苏州研究所楼栋都是欧式装修,门口有大坡,里面景色很不错。去苏州集结一般至少要去一周,甚至更久,多的人甚至一两个月都回不了家。
4. 诺亚曾经传说是研究型的但是来了之后因为在四野做大模型项目项目成员完全变成了交付型的且充满了例会评审汇报。很多时候做实验都要申请。团队需要对接终端小艺华为云ICT等诸多业务线交付压力不小。
5. 诺亚研发的盘古模型早期内部代号叫做“盘古智子”一开始只有内部需要申请试用的网页版到后续迫于压力在welink上接入和公测开放。
这些天发生关于质疑盘古大模型抄袭千问的事情闹的沸沸扬扬。作为一个盘古团队的成员,我最近夜夜辗转反侧,难以入眠。盘古的品牌受到如此大的影响,一方面,我自私的为我的职业发展担忧,也为自己过去的努力工作感到不值。另一方面,由于有人开始揭露这些事情我内心又感到大快人心。在多少个日日夜夜,我们对内部某些人一次次靠着造假而又获得了无数利益的行为咬牙切齿而又无能为力。这种压抑和羞辱也逐渐消磨了我对华为的感情,让我在这里的时日逐渐浑浑噩噩,迷茫无措,时常怀疑自己的人生和自我价值。
我承认我是一个懦弱的人,作为一个小小的打工人,我不仅不敢和王云鹤等内部手眼通天的人做对,更不敢和华为这样的庞然大物做对。我很怕失去我的工作,毕竟我也有家人和孩子,所以我打心眼里很佩服揭露者。但是,看到内部还在试图洗地掩盖事实,蒙蔽公众的时候,我实在不能容忍了。我也希望勇敢一次,顺从自己本心。就算自损八百,我也希望能伤敌一千。我决定把我在这里的所见所闻(部分来自于同事口述)公布出来,关于盘古大模型的“传奇故事”:
华为确实主要在昇腾卡上训练大模型小模型实验室有不少英伟达的卡他们之前也会用来训练后面转移到昇腾。曾经我被华为“打造世界第二选择”的决心而折服我本身也曾经对华为有深厚的感情。我们陪着昇腾一步步摸爬滚打从充满bug到现在能训出模型付出了巨大的心血和代价。
最初我们的算力非常有限在910A上训练模型。那会只支持fp16训练的稳定性远不如bf16。盘古的moe开始很早23年就主要是训练38Bmoe模型和后续的71B dense模型。71B的dense模型通过扩增变成了第一代的135Bdense模型后面主力模型也逐渐在910B上训练。
71B和135B模型都有一个巨大的硬伤就是tokenizer。当时使用的tokenizer编码效率极低每个单个的符号数字空格乃至汉字都会占用一个token。可想而知这会非常浪费算力且使得模型的效果很差。这时候小模型实验室正好有个自己训的词表。姚老师当时怀疑是不是模型的tokenizer不好虽然事后来看他的怀疑是无疑正确的于是就决定让71B和135B换tokenizer因为小模型实验室曾经尝试过。团队缝合了两个tokenizer开始了tokenizer的更换。71B模型的更换失败了而135B因为采用了更精细的embedding初始化策略续训了至少1T的数据后词表总算更换成功但可想而知效果并不会变好。
于此同期阿里和智谱等国内其他公司在GPU上训练且已经摸索出了正确的方法盘古和竞品的差距越来越大。内部一个230B从头训练的dense模型又因为各种原因训练失败导致项目的状况几乎陷入绝境。面临几个节点的压力以及内部对盘古的强烈质疑时团队的士气低迷到了极点。团队在算力极其有限的时候做出了很多努力和挣扎。比如团队偶然发现当时的38B moe并没有预期moe的效果。于是去掉了moe参数还原为了13B的dense模型。由于38B的moe源自很早的pangu alpha 13B架构相对落后团队进行了一系列的操作比如切换绝对位置编码到rope去掉bias切换为rmsnorm。同时鉴于tokenizer的一些失败和换词表的经验这个模型的词表也更换为了王云鹤的小模型实验室7B模型所使用的词表。后面这个13B模型进行了扩增续训变成了第二代38B dense模型在几个月内这个模型都是主要的盘古中档位模型曾经具有一定的竞争力。但是由于更大的135B模型架构落后且更换词表模型损伤巨大后续分析发现当时更换的缝合词表有更严重的bug续训后也与千问等当时国内领先模型存在很大差距。这时由于内部的质疑声和领导的压力也越来越大。团队的状态几乎陷入了绝境。
在这种情况下王云鹤和他的小模型实验室出手了。他们声称是从旧的135B参数继承改造而来通过训练短短的几百B数据各项指标平均提升了十个点左右。实际上这就是他们套壳应用到大模型的第一次杰作。华为的外行领导内行使得领导完全对于这种扯淡的事情没有概念他们只会觉得肯定是有什么算法创新。经过内部的分析他们实际上是使用Qwen 1.5 110B续训而来通过加层扩增ffn维度添加盘古pi论文的一些机制得来凑够了大概135B的参数。实际上旧的135B有107层而这个模型只有82层各种配置也都不一样。新的来路不明的135B训练完很多参数的分布也和Qwen 110B几乎一模一样。连模型代码的类名当时都是Qwen甚至懒得改名。后续这个模型就是所谓的135B V2。而这个模型当时也提供给了很多下游甚至包括外部客户。
这件事对于我们这些认真诚实做事的同事们带来了巨大的冲击内部很多人其实都知道这件事甚至包括终端和华为云。我们都戏称以后别叫盘古模型了叫千古吧。当时团队成员就想向bcg举报了毕竟这已经是重大的业务造假了。但是后面据说被领导拦了下来因为更高级别的领导比如姚老师以及可能熊总和查老其实后面也知道了但是并不管因为通过套壳拿出好的结果对他们也是有利的。这件事使得当时团队几位最强的同事开始心灰意冷离职跑路也逐渐成为挂在嘴边的事。
此时盘古似乎迎来了转机。由于前面所述的这些盘古模型基本都是续训和改造而来当时诺亚完全没有掌握从头训练的技术何况还是在昇腾的NPU上进行训练。在当时团队的核心成员的极力争取下盘古开始了第三代模型的训练付出了巨大的努力后在数据架构和训练算法方面都与业界逐渐接轨而这其中的艰辛和小模型实验室的人一点关系都没有。
一开始团队成员毫无信心只从一个13B的模型开始训练但是后面发现效果还不错于是这个模型后续再次进行了一次参数扩增变成了第三代的38B代号38B V3。想必很多产品线的兄弟都对这个模型很熟悉。当时这个模型的tokenizer是基于llama的词表进行扩展的也是业界常见的做法。而当时王云鹤的实验室做出来了另一个词表也就是后续pangu系列的词表。当时两个词表还被迫进行了一次赛马最终没有明显的好坏结论。于是领导当即决定应该统一词表使用王云鹤他们的。于是在后续从头训练的135B V3也就是对外的Pangu Ultra便是采用了这个tokenizer。这也解释了很多使用我们模型的兄弟的疑惑为什么当时同为V3代的两个不同档位的模型会使用不同的tokenizer。
我们打心眼里觉得135B V3是我们四纵团队当时的骄傲。这是第一个真正意义上的华为全栈自研正经从头训练的千亿级别的模型且效果与24年同期竞品可比的。写到这里我已经热泪盈眶太不容易了。当时为了稳定训练团队做了大量实验对比并且多次在模型梯度出现异常的时候进行及时回退重启。这个模型真正做到了后面技术报告所说的训练全程没有一个loss spike。我们克服了不知道多少困难我们做到了我们愿用生命和荣誉保证这个模型训练的真实性。多少个凌晨我们为了它的训练而不眠。在被内部心声骂的一文不值的时候我们有多么不甘有多少的委屈我们挺住了。
我们这帮人是真的在为打磨国产算力底座燃烧自己的青春啊……客居他乡,我们放弃了家庭,放弃了假期,放弃了健康,放弃了娱乐,抛头颅洒热血,其中的艰辛与困苦,寥寥数笔不足以概括其万一。在各种动员大会上,当时口号中喊出的盘古必胜,华为必胜,我们心里是真的深深被感动。
然而我们的所有辛苦的成果经常被小模型实验室轻飘飘的拿走了。数据直接要走。代码直接要走还要求我们配合适配到能一键运行。我们当时戏称小模型实验室为点鼠标实验室。我们付出辛苦他们取得荣耀。果然应了那句话你在负重前行是因为有人替你岁月静好。在这种情况下越来越多的战友再也坚持不下去了选择了离开。看到身边那些优秀的同事一个个离职我的内心又感叹又难过。在这种作战一样的环境下我们比起同事来说更像是战友。他们在技术上也有无数值得我学习的地方堪称良师。看到他们去了诸如字节SeedDeepseek月之暗面腾讯和快手等等很多出色的团队我打心眼里为他们高兴和祝福脱离了这个辛苦却肮脏的地方。我至今还对一位离职同事的话记忆犹新ta说“来这里是我技术生涯中的耻辱在这里再呆每一天都是浪费生命”。话虽难听却让我无言以对。我担心我自己技术方面的积累不足以及没法适应互联网公司高淘汰的环境让我多次想离职的心始终没有迈出这一步。
盘古除了dense模型后续也启动了moe的探索。一开始训练的是一个224B的moe模型。而与之平行的小模型实验室也开启了第二次主要的套壳行动次要的插曲可能还包括一些别的模型比如math模型即这次流传甚广的pangu pro moe 72B。这个模型内部自称是从小模型实验室的7B扩增上来的就算如此这也与技术报告不符何况是套壳qwen 2.5的14b续训。还记得他们训了没几天内部的评测就立刻追上了当时的38B V3。AI系统实验室很多兄弟因为需要适配模型都知道他们的套壳行动只是迫于各种原因无法伸张正义。实际上对于后续训了很久很久的这个模型Honestagi能够分析出这个量级的相似性我已经很诧异了因为这个模型为了续训洗参数所付出的算力甚至早就足够从头训一个同档位的模型了。听同事说他们为了洗掉千问的水印采取了不少办法甚至包括故意训了脏数据。这也为学术界研究模型血缘提供了一个前所未有的特殊模范吧。以后新的血缘方法提出可以拿出来溜溜。
24年底和25年初在Deepseek v3和r1发布之后由于其惊艳的技术水平团队受到了巨大的冲击也受到了更大的质疑。于是为了紧跟潮流盘古模仿Deepseek的模型尺寸开启了718B moe的训练。这个时候小模型实验室再次出手了。他们选择了套壳Deepseekv3续训。他们通过冻住Deepseek加载的参数进行训练。连任务加载ckpt的目录都是deepseekv3改都不改何其嚣张与之相反一些有真正技术信仰的同事在从头训练另一个718B的moe。但其中出现了各种各样的问题。但是很显然这个模型怎么可能比直接套壳的好呢如果不是团队leader坚持早就被叫停了。
华为的流程管理之繁重,严重拖累了大模型的研发节奏,例如版本管理,模型血缘,各种流程化,各种可追溯。讽刺的是,小模型实验室的模型似乎从来不受这些流程的约束,想套壳就套壳,想续训就续训,算力源源不断的伸手拿走。这种强烈到近乎魔幻的对比,说明了当前流程管理的情况:只许州官放火,不许百姓点灯。何其可笑?何其可悲?何其可恶?何其可耻!
HonestAGI的事情出来后内部让大家不停的研讨分析如何公关和“回应”。诚然这个原文的分析也许不够有力给了王云鹤与小模型实验室他们狡辩和颠倒黑白的机会。为此这两天我内心感到作呕时时怀疑自己的人生意义以及苍天无眼。我不奉陪了我要离职了同时我也在申请从盘古部分技术报告的作者名单中移除。曾经在这些技术报告上署名是我一生都无法抹除的污点。当时我没想到他们竟然猖狂到敢开源。我没想到他们敢如此愚弄世人大肆宣发。当时我也许是存了侥幸心理没有拒绝署名。我相信很多扎实做事的战友也只是被迫上了贼船或者不知情。但这件事已经无法挽回我希望我的余生能够坚持扎实做真正有意义的事为我当时的软弱和不坚定赎罪。
深夜写到这里,我已经泪流满面,泣不成声。还记得一些出色的同事离职时,我苦笑问他们要不要发个长长的心声惯例帖,揭露一下现状。对方说:不了,浪费时间,而且我也怕揭露出来你们过的更糟。我当时一下黯然神伤,因为曾经共同为了理想奋斗过的战友已经彻底对华为彻底灰心了。当时大家调侃,我们用着当年共产党的小米加步枪,组织却有着堪比当年国民党的作风。
曾几何时,我为我们用着小米加步枪打败洋枪洋炮而自豪。
现在,我累了,我想投降。
其实时至今日我还是真心希望华为能认真吸取教训能做好盘古把盘古做到世界一流把昇腾变成英伟达的水平。内部的劣币驱逐良币使得诺亚乃至华为在短时间内急剧流失了大量出色的大模型人才。相信他们也正在如Deepseek等各个团队闪耀着施展着他们的抱负才华为中美在AI的激烈竞赛中奉献力量。我时常感叹华为不是没有人才而是根本不知道怎么留住人才。如果给这些人合适的环境合适的资源更少的枷锁更少的政治斗争盘古何愁不成
最后:我以生命,人格和荣誉发誓,我写的以上所有内容均为真实(至少在我有限的认知范围内)。我没有那么高的技术水平以及机会去做详尽扎实的分析,也不敢直接用内部记录举证,怕因为信息安全抓到。但是我相信我很多曾经的战友,会为我作证。在华为内部的兄弟,包括我们曾经服务过的产品线兄弟们,相信本文的无数细节能和你们的印象对照,印证我的说法。你们可能也曾经被蒙骗,但这些残酷的真相不会被尘封。我们奋战过的痕迹,也不应该被扭曲和埋葬。
写了这么多,某些人肯定想把我找出来,抹杀掉。公司搞不好也想让我噤声乃至追责。如果真的这样,我,乃至我的家人的人身乃至生命安全可能都会受到威胁。为了自我保护,我近期每天会跟大家报平安。
如果我消失了就当是我为了真理和理想为了华为乃至中国能够更好地发展算力和AI而牺牲了吧我愿埋葬于那片曾经奋斗过的地方。
诺亚,再见
2025年7月6日凌晨 写于深圳
---
各位好,
感谢大家的关心与祝福。我目前暂时安全,但公司应该在进行排查与某些名单收集,后续情况未知。
我补充一些细节,以免某些人继续颠倒黑白。
关于135B V2小模型实验室在迅速地完成套壳并拿完所有套壳带来的好处后比如任务令表彰和及时激励因为不想继续支撑下游应用和模型迭代又把这个烫手山芋甩给了四纵。确实技高一筹直接把四纵的兄弟们拉下水。同事提供过去一个老旧的模型最终拿回了一个当时一个魔改的先进的千问。做大模型的人自己做的模型就像自己孩子一样熟悉不要把别人都当傻子。就像自家儿子出门一趟回来个别人家孩子。
盘古report的署名是不符合学术规范的。例如135B V3有不少有技术贡献的人因为作者名额数量限制劳动成果没有得到应有的回报团队内曾经有不小的意见。这个模型当时是大家智慧和汗水的结晶甚至是团队当时的精神支柱支撑着不少兄弟们继续留在诺亚。所谓的名额限制以及挂名了一些毫无技术贡献的人如一些小模型实验室的人让兄弟们何其心寒。
---
暂时平安。另外,支持我勇于说出真相的战友们 https://github.com/HW-whistleblower/True-Story-of-Pangu/issues/317

143
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@@ -1,143 +0,0 @@
# AST-Aware Code chunking guide
## Overview
This guide covers best practices for using AST-aware code chunking in LEANN. AST chunking provides better semantic understanding of code structure compared to traditional text-based chunking.
## Quick Start
### Basic Usage
```bash
# Enable AST chunking for mixed content (code + docs)
python -m apps.document_rag --enable-code-chunking --data-dir ./my_project
# Specialized code repository indexing
python -m apps.code_rag --repo-dir ./my_codebase
# Global CLI with AST support
leann build my-code-index --docs ./src --use-ast-chunking
```
### Installation
```bash
# Install LEANN with AST chunking support
uv pip install -e "."
```
#### For normal users (PyPI install)
- Use `pip install leann` or `uv pip install leann`.
- `astchunk` is pulled automatically from PyPI as a dependency; no extra steps.
#### For developers (from source, editable)
```bash
git clone https://github.com/yichuan-w/LEANN.git leann
cd leann
git submodule update --init --recursive
uv sync
```
- This repo vendors `astchunk` as a git submodule at `packages/astchunk-leann` (our fork).
- `[tool.uv.sources]` maps the `astchunk` package to that path in editable mode.
- You can edit code under `packages/astchunk-leann` and Python will use your changes immediately (no separate `pip install astchunk` needed).
## Best Practices
### When to Use AST Chunking
**Recommended for:**
- Code repositories with multiple languages
- Mixed documentation and code content
- Complex codebases with deep function/class hierarchies
- When working with Claude Code for code assistance
**Not recommended for:**
- Pure text documents
- Very large files (>1MB)
- Languages not supported by tree-sitter
### Optimal Configuration
```bash
# Recommended settings for most codebases
python -m apps.code_rag \
--repo-dir ./src \
--ast-chunk-size 768 \
--ast-chunk-overlap 96 \
--exclude-dirs .git __pycache__ node_modules build dist
```
### Supported Languages
| Extension | Language | Status |
|-----------|----------|--------|
| `.py` | Python | ✅ Full support |
| `.java` | Java | ✅ Full support |
| `.cs` | C# | ✅ Full support |
| `.ts`, `.tsx` | TypeScript | ✅ Full support |
| `.js`, `.jsx` | JavaScript | ✅ Via TypeScript parser |
## Integration Examples
### Document RAG with Code Support
```python
# Enable code chunking in document RAG
python -m apps.document_rag \
--enable-code-chunking \
--data-dir ./project \
--query "How does authentication work in the codebase?"
```
### Claude Code Integration
When using with Claude Code MCP server, AST chunking provides better context for:
- Code completion and suggestions
- Bug analysis and debugging
- Architecture understanding
- Refactoring assistance
## Troubleshooting
### Common Issues
1. **Fallback to Traditional Chunking**
- Normal behavior for unsupported languages
- Check logs for specific language support
2. **Performance with Large Files**
- Adjust `--max-file-size` parameter
- Use `--exclude-dirs` to skip unnecessary directories
3. **Quality Issues**
- Try different `--ast-chunk-size` values (512, 768, 1024)
- Adjust overlap for better context preservation
### Debug Mode
```bash
export LEANN_LOG_LEVEL=DEBUG
python -m apps.code_rag --repo-dir ./my_code
```
## Migration from Traditional Chunking
Existing workflows continue to work without changes. To enable AST chunking:
```bash
# Before
python -m apps.document_rag --chunk-size 256
# After (maintains traditional chunking for non-code files)
python -m apps.document_rag --enable-code-chunking --chunk-size 256 --ast-chunk-size 768
```
## References
- [astchunk GitHub Repository](https://github.com/yilinjz/astchunk)
- [LEANN MCP Integration](../packages/leann-mcp/README.md)
- [Research Paper](https://arxiv.org/html/2506.15655v1)
---
**Note**: AST chunking maintains full backward compatibility while enhancing code understanding capabilities.

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@@ -52,7 +52,7 @@ Based on our experience developing LEANN, embedding models fall into three categ
### Quick Start: Cloud and Local Embedding Options
**OpenAI Embeddings (Fastest Setup)**
For immediate testing without local model downloads(also if you [do not have GPU](https://github.com/yichuan-w/LEANN/issues/43) and do not care that much about your document leak, you should use this, we compute the embedding and recompute using openai API):
For immediate testing without local model downloads:
```bash
# Set OpenAI embeddings (requires OPENAI_API_KEY)
--embedding-mode openai --embedding-model text-embedding-3-small
@@ -83,81 +83,6 @@ ollama pull nomic-embed-text
</details>
## Local & Remote Inference Endpoints
> Applies to both LLMs (`leann ask`) and embeddings (`leann build`).
LEANN now treats Ollama, LM Studio, and other OpenAI-compatible runtimes as first-class providers. You can point LEANN at any compatible endpoint either on the same machine or across the network with a couple of flags or environment variables.
### One-Time Environment Setup
```bash
# Works for OpenAI-compatible runtimes such as LM Studio, vLLM, SGLang, llamafile, etc.
export OPENAI_API_KEY="your-key" # or leave unset for local servers that do not check keys
export OPENAI_BASE_URL="http://localhost:1234/v1"
# Ollama-compatible runtimes (Ollama, Ollama on another host, llamacpp-server, etc.)
export LEANN_OLLAMA_HOST="http://localhost:11434" # falls back to OLLAMA_HOST or LOCAL_LLM_ENDPOINT
```
LEANN also recognises `LEANN_LOCAL_LLM_HOST` (highest priority), `LEANN_OPENAI_BASE_URL`, and `LOCAL_OPENAI_BASE_URL`, so existing scripts continue to work.
### Passing Hosts Per Command
```bash
# Build an index with a remote embedding server
leann build my-notes \
--docs ./notes \
--embedding-mode openai \
--embedding-model text-embedding-qwen3-embedding-0.6b \
--embedding-api-base http://192.168.1.50:1234/v1 \
--embedding-api-key local-dev-key
# Query using a local LM Studio instance via OpenAI-compatible API
leann ask my-notes \
--llm openai \
--llm-model qwen3-8b \
--api-base http://localhost:1234/v1 \
--api-key local-dev-key
# Query an Ollama instance running on another box
leann ask my-notes \
--llm ollama \
--llm-model qwen3:14b \
--host http://192.168.1.101:11434
```
⚠️ **Make sure the endpoint is reachable**: when your inference server runs on a home/workstation and the index/search job runs in the cloud, the server must be able to reach the host you configured. Typical options include:
- Expose a public IP (and open the relevant port) on the machine that hosts LM Studio/Ollama.
- Configure router or cloud provider port forwarding.
- Tunnel traffic through tools like `tailscale`, `cloudflared`, or `ssh -R`.
When you set these options while building an index, LEANN stores them in `meta.json`. Any subsequent `leann ask` or searcher process automatically reuses the same provider settings even when we spawn background embedding servers. This makes the “server without GPU talking to my local workstation” workflow from [issue #80](https://github.com/yichuan-w/LEANN/issues/80#issuecomment-2287230548) work out-of-the-box.
**Tip:** If your runtime does not require an API key (many local stacks dont), leave `--api-key` unset. LEANN will skip injecting credentials.
### Python API Usage
You can pass the same configuration from Python:
```python
from leann.api import LeannBuilder
builder = LeannBuilder(
backend_name="hnsw",
embedding_mode="openai",
embedding_model="text-embedding-qwen3-embedding-0.6b",
embedding_options={
"base_url": "http://192.168.1.50:1234/v1",
"api_key": "local-dev-key",
},
)
builder.build_index("./indexes/my-notes", chunks)
```
`embedding_options` is persisted to the index `meta.json`, so subsequent `LeannSearcher` or `LeannChat` sessions automatically reuse the same provider settings (the embedding server manager forwards them to the provider for you).
## Index Selection: Matching Your Scale
### HNSW (Hierarchical Navigable Small World)
@@ -172,24 +97,16 @@ builder.build_index("./indexes/my-notes", chunks)
```
### DiskANN
**Best for**: Large datasets, especially when you want `recompute=True`.
**Key advantages:**
- **Faster search** on large datasets (3x+ speedup vs HNSW in many cases)
- **Smart storage**: `recompute=True` enables automatic graph partitioning for smaller indexes
- **Better scaling**: Designed for 100k+ documents
**Recompute behavior:**
- `recompute=True` (recommended): Pure PQ traversal + final reranking - faster and enables partitioning
- `recompute=False`: PQ + partial real distances during traversal - slower but higher accuracy
**Best for**: Large datasets (> 10M vectors, 10GB+ index size) - **⚠️ Beta version, still in active development**
- Uses Product Quantization (PQ) for coarse filtering during graph traversal
- Novel approach: stores only PQ codes, performs rerank with exact computation in final step
- Implements a corner case of double-queue: prunes all neighbors and recomputes at the end
```bash
# Recommended for most use cases
--backend-name diskann --graph-degree 32 --build-complexity 64
# For billion-scale deployments
--backend-name diskann --graph-degree 64 --build-complexity 128
```
**Performance Benchmark**: Run `uv run benchmarks/diskann_vs_hnsw_speed_comparison.py` to compare DiskANN and HNSW on your system.
## LLM Selection: Engine and Model Comparison
### LLM Engines
@@ -342,118 +259,27 @@ Every configuration choice involves trade-offs:
The key is finding the right balance for your specific use case. Start small and simple, measure performance, then scale up only where needed.
## Low-resource setups
## Deep Dive: Critical Configuration Decisions
If you dont have a local GPU or builds/searches are too slow, use one or more of the options below.
### When to Disable Recomputation
### 1) Use OpenAI embeddings (no local compute)
Fastest path with zero local GPU requirements. Set your API key and use OpenAI embeddings during build and search:
LEANN's recomputation feature provides exact distance calculations but can be disabled for extreme QPS requirements:
```bash
export OPENAI_API_KEY=sk-...
# Build with OpenAI embeddings
leann build my-index \
--embedding-mode openai \
--embedding-model text-embedding-3-small
# Search with OpenAI embeddings (recompute at query time)
leann search my-index "your query" \
--recompute
--no-recompute # Disable selective recomputation
```
### 2) Run remote builds with SkyPilot (cloud GPU)
Offload embedding generation and index building to a GPU VM using [SkyPilot](https://skypilot.readthedocs.io/en/latest/). A template is provided at `sky/leann-build.yaml`.
```bash
# One-time: install and configure SkyPilot
pip install skypilot
# Launch with defaults (L4:1) and mount ./data to ~/leann-data; the build runs automatically
sky launch -c leann-gpu sky/leann-build.yaml
# Override parameters via -e key=value (optional)
sky launch -c leann-gpu sky/leann-build.yaml \
-e index_name=my-index \
-e backend=hnsw \
-e embedding_mode=sentence-transformers \
-e embedding_model=Qwen/Qwen3-Embedding-0.6B
# Copy the built index back to your local .leann (use rsync)
rsync -Pavz leann-gpu:~/.leann/indexes/my-index ./.leann/indexes/
```
### 3) Disable recomputation to trade storage for speed
If you need lower latency and have more storage/memory, disable recomputation. This stores full embeddings and avoids recomputing at search time.
```bash
# Build without recomputation (HNSW requires non-compact in this mode)
leann build my-index --no-recompute --no-compact
# Search without recomputation
leann search my-index "your query" --no-recompute
```
When to use:
- Extreme low latency requirements (high QPS, interactive assistants)
- Read-heavy workloads where storage is cheaper than latency
- No always-available GPU
Constraints:
- HNSW: when `--no-recompute` is set, LEANN automatically disables compact mode during build
- DiskANN: supported; `--no-recompute` skips selective recompute during search
Storage impact:
- Storing N embeddings of dimension D with float32 requires approximately N × D × 4 bytes
- Example: 1,000,000 chunks × 768 dims × 4 bytes ≈ 2.86 GB (plus graph/metadata)
Converting an existing index (rebuild required):
```bash
# Rebuild in-place (ensure you still have original docs or can regenerate chunks)
leann build my-index --force --no-recompute --no-compact
```
Python API usage:
```python
from leann import LeannSearcher
searcher = LeannSearcher("/path/to/my-index.leann")
results = searcher.search("your query", top_k=10, recompute_embeddings=False)
```
Trade-offs:
- Lower latency and fewer network hops at query time
- Significantly higher storage (10100× vs selective recomputation)
- Slightly larger memory footprint during build and search
Quick benchmark results (`benchmarks/benchmark_no_recompute.py` with 5k texts, complexity=32):
- HNSW
```text
recompute=True: search_time=0.818s, size=1.1MB
recompute=False: search_time=0.012s, size=16.6MB
```
- DiskANN
```text
recompute=True: search_time=0.041s, size=5.9MB
recompute=False: search_time=0.013s, size=24.6MB
```
Conclusion:
- **HNSW**: `no-recompute` is significantly faster (no embedding recomputation) but requires much more storage (stores all embeddings)
- **DiskANN**: `no-recompute` uses PQ + partial real distances during traversal (slower but higher accuracy), while `recompute=True` uses pure PQ traversal + final reranking (faster traversal, enables build-time partitioning for smaller storage)
**Trade-offs**:
- **With recomputation** (default): Exact distances, best quality, higher latency, minimal storage (only stores metadata, recomputes embeddings on-demand)
- **Without recomputation**: Must store full embeddings, significantly higher memory and storage usage (10-100x more), but faster search
**Disable when**:
- You have abundant storage and memory
- Need extremely low latency (< 100ms)
- Running a read-heavy workload where storage cost is acceptable
## Further Reading
- [Lessons Learned Developing LEANN](https://yichuan-w.github.io/blog/lessons_learned_in_dev_leann/)
- [LEANN Technical Paper](https://arxiv.org/abs/2506.08276)
- [DiskANN Original Paper](https://papers.nips.cc/paper/2019/file/09853c7fb1d3f8ee67a61b6bf4a7f8e6-Paper.pdf)
- [SSD-based Graph Partitioning](https://github.com/SonglinLife/SSD_BASED_PLAN)

1
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View File

@@ -3,7 +3,6 @@
## 🔥 Core Features
- **🔄 Real-time Embeddings** - Eliminate heavy embedding storage with dynamic computation using optimized ZMQ servers and highly optimized search paradigm (overlapping and batching) with highly optimized embedding engine
- **🧠 AST-Aware Code Chunking** - Intelligent code chunking that preserves semantic boundaries (functions, classes, methods) for Python, Java, C#, and TypeScript files
- **📈 Scalable Architecture** - Handles millions of documents on consumer hardware; the larger your dataset, the more LEANN can save
- **🎯 Graph Pruning** - Advanced techniques to minimize the storage overhead of vector search to a limited footprint
- **🏗️ Pluggable Backends** - HNSW/FAISS (default), with optional DiskANN for large-scale deployments

149
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@@ -1,149 +0,0 @@
# LEANN Grep Search Usage Guide
## Overview
LEANN's grep search functionality provides exact text matching for finding specific code patterns, error messages, function names, or exact phrases in your indexed documents.
## Basic Usage
### Simple Grep Search
```python
from leann.api import LeannSearcher
searcher = LeannSearcher("your_index_path")
# Exact text search
results = searcher.search("def authenticate_user", use_grep=True, top_k=5)
for result in results:
print(f"Score: {result.score}")
print(f"Text: {result.text[:100]}...")
print("-" * 40)
```
### Comparison: Semantic vs Grep Search
```python
# Semantic search - finds conceptually similar content
semantic_results = searcher.search("machine learning algorithms", top_k=3)
# Grep search - finds exact text matches
grep_results = searcher.search("def train_model", use_grep=True, top_k=3)
```
## When to Use Grep Search
### Use Cases
- **Code Search**: Finding specific function definitions, class names, or variable references
- **Error Debugging**: Locating exact error messages or stack traces
- **Documentation**: Finding specific API endpoints or exact terminology
### Examples
```python
# Find function definitions
functions = searcher.search("def __init__", use_grep=True)
# Find import statements
imports = searcher.search("from sklearn import", use_grep=True)
# Find specific error types
errors = searcher.search("FileNotFoundError", use_grep=True)
# Find TODO comments
todos = searcher.search("TODO:", use_grep=True)
# Find configuration entries
configs = searcher.search("server_port=", use_grep=True)
```
## Technical Details
### How It Works
1. **File Location**: Grep search operates on the raw text stored in `.jsonl` files
2. **Command Execution**: Uses the system `grep` command with case-insensitive search
3. **Result Processing**: Parses JSON lines and extracts text and metadata
4. **Scoring**: Simple frequency-based scoring based on query term occurrences
### Search Process
```
Query: "def train_model"
grep -i -n "def train_model" documents.leann.passages.jsonl
Parse matching JSON lines
Calculate scores based on term frequency
Return top_k results
```
### Scoring Algorithm
```python
# Term frequency in document
score = text.lower().count(query.lower())
```
Results are ranked by score (highest first), with higher scores indicating more occurrences of the search term.
## Error Handling
### Common Issues
#### Grep Command Not Found
```
RuntimeError: grep command not found. Please install grep or use semantic search.
```
**Solution**: Install grep on your system:
- **Ubuntu/Debian**: `sudo apt-get install grep`
- **macOS**: grep is pre-installed
- **Windows**: Use WSL or install grep via Git Bash/MSYS2
#### No Results Found
```python
# Check if your query exists in the raw data
results = searcher.search("your_query", use_grep=True)
if not results:
print("No exact matches found. Try:")
print("1. Check spelling and case")
print("2. Use partial terms")
print("3. Switch to semantic search")
```
## Complete Example
```python
#!/usr/bin/env python3
"""
Grep Search Example
Demonstrates grep search for exact text matching.
"""
from leann.api import LeannSearcher
def demonstrate_grep_search():
# Initialize searcher
searcher = LeannSearcher("my_index")
print("=== Function Search ===")
functions = searcher.search("def __init__", use_grep=True, top_k=5)
for i, result in enumerate(functions, 1):
print(f"{i}. Score: {result.score}")
print(f" Preview: {result.text[:60]}...")
print()
print("=== Error Search ===")
errors = searcher.search("FileNotFoundError", use_grep=True, top_k=3)
for result in errors:
print(f"Content: {result.text.strip()}")
print("-" * 40)
if __name__ == "__main__":
demonstrate_grep_search()
```

300
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@@ -1,300 +0,0 @@
# LEANN Metadata Filtering Usage Guide
## Overview
Leann possesses metadata filtering capabilities that allow you to filter search results based on arbitrary metadata fields set during chunking. This feature enables use cases like spoiler-free book search, document filtering by date/type, code search by file type, and potentially much more.
## Basic Usage
### Adding Metadata to Your Documents
When building your index, add metadata to each text chunk:
```python
from leann.api import LeannBuilder
builder = LeannBuilder("hnsw")
# Add text with metadata
builder.add_text(
text="Chapter 1: Alice falls down the rabbit hole",
metadata={
"chapter": 1,
"character": "Alice",
"themes": ["adventure", "curiosity"],
"word_count": 150
}
)
builder.build_index("alice_in_wonderland_index")
```
### Searching with Metadata Filters
Use the `metadata_filters` parameter in search calls:
```python
from leann.api import LeannSearcher
searcher = LeannSearcher("alice_in_wonderland_index")
# Search with filters
results = searcher.search(
query="What happens to Alice?",
top_k=10,
metadata_filters={
"chapter": {"<=": 5}, # Only chapters 1-5
"spoiler_level": {"!=": "high"} # No high spoilers
}
)
```
## Filter Syntax
### Basic Structure
```python
metadata_filters = {
"field_name": {"operator": value},
"another_field": {"operator": value}
}
```
### Supported Operators
#### Comparison Operators
- `"=="`: Equal to
- `"!="`: Not equal to
- `"<"`: Less than
- `"<="`: Less than or equal
- `">"`: Greater than
- `">="`: Greater than or equal
```python
# Examples
{"chapter": {"==": 1}} # Exactly chapter 1
{"page": {">": 100}} # Pages after 100
{"rating": {">=": 4.0}} # Rating 4.0 or higher
{"word_count": {"<": 500}} # Short passages
```
#### Membership Operators
- `"in"`: Value is in list
- `"not_in"`: Value is not in list
```python
# Examples
{"character": {"in": ["Alice", "Bob"]}} # Alice OR Bob
{"genre": {"not_in": ["horror", "thriller"]}} # Exclude genres
{"tags": {"in": ["fiction", "adventure"]}} # Any of these tags
```
#### String Operators
- `"contains"`: String contains substring
- `"starts_with"`: String starts with prefix
- `"ends_with"`: String ends with suffix
```python
# Examples
{"title": {"contains": "alice"}} # Title contains "alice"
{"filename": {"ends_with": ".py"}} # Python files
{"author": {"starts_with": "Dr."}} # Authors with "Dr." prefix
```
#### Boolean Operators
- `"is_true"`: Field is truthy
- `"is_false"`: Field is falsy
```python
# Examples
{"is_published": {"is_true": True}} # Published content
{"is_draft": {"is_false": False}} # Not drafts
```
### Multiple Operators on Same Field
You can apply multiple operators to the same field (AND logic):
```python
metadata_filters = {
"word_count": {
">=": 100, # At least 100 words
"<=": 500 # At most 500 words
}
}
```
### Compound Filters
Multiple fields are combined with AND logic:
```python
metadata_filters = {
"chapter": {"<=": 10}, # Up to chapter 10
"character": {"==": "Alice"}, # About Alice
"spoiler_level": {"!=": "high"} # No major spoilers
}
```
## Use Case Examples
### 1. Spoiler-Free Book Search
```python
# Reader has only read up to chapter 5
def search_spoiler_free(query, max_chapter):
return searcher.search(
query=query,
metadata_filters={
"chapter": {"<=": max_chapter},
"spoiler_level": {"in": ["none", "low"]}
}
)
results = search_spoiler_free("What happens to Alice?", max_chapter=5)
```
### 2. Document Management by Date
```python
# Find recent documents
recent_docs = searcher.search(
query="project updates",
metadata_filters={
"date": {">=": "2024-01-01"},
"document_type": {"==": "report"}
}
)
```
### 3. Code Search by File Type
```python
# Search only Python files
python_code = searcher.search(
query="authentication function",
metadata_filters={
"file_extension": {"==": ".py"},
"lines_of_code": {"<": 100}
}
)
```
### 4. Content Filtering by Audience
```python
# Age-appropriate content
family_content = searcher.search(
query="adventure stories",
metadata_filters={
"age_rating": {"in": ["G", "PG"]},
"content_warnings": {"not_in": ["violence", "adult_themes"]}
}
)
```
### 5. Multi-Book Series Management
```python
# Search across first 3 books only
early_series = searcher.search(
query="character development",
metadata_filters={
"series": {"==": "Harry Potter"},
"book_number": {"<=": 3}
}
)
```
## Running the Example
You can see metadata filtering in action with our spoiler-free book RAG example:
```bash
# Don't forget to set up the environment
uv venv
source .venv/bin/activate
# Set your OpenAI API key (required for embeddings, but you can update the example locally and use ollama instead)
export OPENAI_API_KEY="your-api-key-here"
# Run the spoiler-free book RAG example
uv run examples/spoiler_free_book_rag.py
```
This example demonstrates:
- Building an index with metadata (chapter numbers, characters, themes, locations)
- Searching with filters to avoid spoilers (e.g., only show results up to chapter 5)
- Different scenarios for readers at various points in the book
The example uses Alice's Adventures in Wonderland as sample data and shows how you can search for information without revealing plot points from later chapters.
## Advanced Patterns
### Custom Chunking with metadata
```python
def chunk_book_with_metadata(book_text, book_info):
chunks = []
for chapter_num, chapter_text in parse_chapters(book_text):
# Extract entities, themes, etc.
characters = extract_characters(chapter_text)
themes = classify_themes(chapter_text)
spoiler_level = assess_spoiler_level(chapter_text, chapter_num)
# Create chunks with rich metadata
for paragraph in split_paragraphs(chapter_text):
chunks.append({
"text": paragraph,
"metadata": {
"book_title": book_info["title"],
"chapter": chapter_num,
"characters": characters,
"themes": themes,
"spoiler_level": spoiler_level,
"word_count": len(paragraph.split()),
"reading_level": calculate_reading_level(paragraph)
}
})
return chunks
```
## Performance Considerations
### Efficient Filtering Strategies
1. **Post-search filtering**: Applies filters after vector search, which should be efficient for typical result sets (10-100 results).
2. **Metadata design**: Keep metadata fields simple and avoid deeply nested structures.
### Best Practices
1. **Consistent metadata schema**: Use consistent field names and value types across your documents.
2. **Reasonable metadata size**: Keep metadata reasonably sized to avoid storage overhead.
3. **Type consistency**: Use consistent data types for the same fields (e.g., always integers for chapter numbers).
4. **Index multiple granularities**: Consider chunking at different levels (paragraph, section, chapter) with appropriate metadata.
### Adding Metadata to Existing Indices
To add metadata filtering to existing indices, you'll need to rebuild them with metadata:
```python
# Read existing passages and add metadata
def add_metadata_to_existing_chunks(chunks):
for chunk in chunks:
# Extract or assign metadata based on content
chunk["metadata"] = extract_metadata(chunk["text"])
return chunks
# Rebuild index with metadata
enhanced_chunks = add_metadata_to_existing_chunks(existing_chunks)
builder = LeannBuilder("hnsw")
for chunk in enhanced_chunks:
builder.add_text(chunk["text"], chunk["metadata"])
builder.build_index("enhanced_index")
```

0
examples/__init__.py
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404
examples/dynamic_update_no_recompute.py
View File

@@ -1,404 +0,0 @@
"""Dynamic HNSW update demo without compact storage.
This script reproduces the minimal scenario we used while debugging on-the-fly
recompute:
1. Build a non-compact HNSW index from the first few paragraphs of a text file.
2. Print the top results with `recompute_embeddings=True`.
3. Append additional paragraphs with :meth:`LeannBuilder.update_index`.
4. Run the same query again to show the newly inserted passages.
Run it with ``uv`` (optionally pointing LEANN_HNSW_LOG_PATH at a file to inspect
ZMQ activity)::
LEANN_HNSW_LOG_PATH=embedding_fetch.log \
uv run -m examples.dynamic_update_no_recompute \
--index-path .leann/examples/leann-demo.leann
By default the script builds an index from ``data/2501.14312v1 (1).pdf`` and
then updates it with LEANN-related material from ``data/2506.08276v1.pdf``.
It issues the query "What's LEANN?" before and after the update to show how the
new passages become immediately searchable. The script uses the
``sentence-transformers/all-MiniLM-L6-v2`` model with ``is_recompute=True`` so
Faiss pulls existing vectors on demand via the ZMQ embedding server, while
freshly added passages are embedded locally just like the initial build.
To make storage comparisons easy, the script can also build a matching
``is_recompute=False`` baseline (enabled by default) and report the index size
delta after the update. Disable the baseline run with
``--skip-compare-no-recompute`` if you only need the recompute flow.
"""
import argparse
import json
from collections.abc import Iterable
from pathlib import Path
from typing import Any
from leann.api import LeannBuilder, LeannSearcher
from leann.registry import register_project_directory
from apps.chunking import create_text_chunks
REPO_ROOT = Path(__file__).resolve().parents[1]
DEFAULT_QUERY = "What's LEANN?"
DEFAULT_INITIAL_FILES = [REPO_ROOT / "data" / "2501.14312v1 (1).pdf"]
DEFAULT_UPDATE_FILES = [REPO_ROOT / "data" / "2506.08276v1.pdf"]
def load_chunks_from_files(paths: list[Path]) -> list[str]:
from llama_index.core import SimpleDirectoryReader
documents = []
for path in paths:
p = path.expanduser().resolve()
if not p.exists():
raise FileNotFoundError(f"Input path not found: {p}")
if p.is_dir():
reader = SimpleDirectoryReader(str(p), recursive=False)
documents.extend(reader.load_data(show_progress=True))
else:
reader = SimpleDirectoryReader(input_files=[str(p)])
documents.extend(reader.load_data(show_progress=True))
if not documents:
return []
chunks = create_text_chunks(
documents,
chunk_size=512,
chunk_overlap=128,
use_ast_chunking=False,
)
return [c for c in chunks if isinstance(c, str) and c.strip()]
def run_search(index_path: Path, query: str, top_k: int, *, recompute_embeddings: bool) -> list:
searcher = LeannSearcher(str(index_path))
try:
return searcher.search(
query=query,
top_k=top_k,
recompute_embeddings=recompute_embeddings,
batch_size=16,
)
finally:
searcher.cleanup()
def print_results(title: str, results: Iterable) -> None:
print(f"\n=== {title} ===")
res_list = list(results)
print(f"results count: {len(res_list)}")
print("passages:")
if not res_list:
print(" (no passages returned)")
for res in res_list:
snippet = res.text.replace("\n", " ")[:120]
print(f" - {res.id}: {snippet}... (score={res.score:.4f})")
def build_initial_index(
index_path: Path,
paragraphs: list[str],
model_name: str,
embedding_mode: str,
is_recompute: bool,
) -> None:
builder = LeannBuilder(
backend_name="hnsw",
embedding_model=model_name,
embedding_mode=embedding_mode,
is_compact=False,
is_recompute=is_recompute,
)
for idx, passage in enumerate(paragraphs):
builder.add_text(passage, metadata={"id": str(idx)})
builder.build_index(str(index_path))
def update_index(
index_path: Path,
start_id: int,
paragraphs: list[str],
model_name: str,
embedding_mode: str,
is_recompute: bool,
) -> None:
updater = LeannBuilder(
backend_name="hnsw",
embedding_model=model_name,
embedding_mode=embedding_mode,
is_compact=False,
is_recompute=is_recompute,
)
for offset, passage in enumerate(paragraphs, start=start_id):
updater.add_text(passage, metadata={"id": str(offset)})
updater.update_index(str(index_path))
def ensure_index_dir(index_path: Path) -> None:
index_path.parent.mkdir(parents=True, exist_ok=True)
def cleanup_index_files(index_path: Path) -> None:
"""Remove leftover index artifacts for a clean rebuild."""
parent = index_path.parent
if not parent.exists():
return
stem = index_path.stem
for file in parent.glob(f"{stem}*"):
if file.is_file():
file.unlink()
def index_file_size(index_path: Path) -> int:
"""Return the size of the primary .index file for the given index path."""
index_file = index_path.parent / f"{index_path.stem}.index"
return index_file.stat().st_size if index_file.exists() else 0
def load_metadata_snapshot(index_path: Path) -> dict[str, Any] | None:
meta_path = index_path.parent / f"{index_path.name}.meta.json"
if not meta_path.exists():
return None
try:
return json.loads(meta_path.read_text())
except json.JSONDecodeError:
return None
def run_workflow(
*,
label: str,
index_path: Path,
initial_paragraphs: list[str],
update_paragraphs: list[str],
model_name: str,
embedding_mode: str,
is_recompute: bool,
query: str,
top_k: int,
) -> dict[str, Any]:
prefix = f"[{label}] " if label else ""
ensure_index_dir(index_path)
cleanup_index_files(index_path)
print(f"{prefix}Building initial index...")
build_initial_index(
index_path,
initial_paragraphs,
model_name,
embedding_mode,
is_recompute=is_recompute,
)
initial_size = index_file_size(index_path)
before_results = run_search(
index_path,
query,
top_k,
recompute_embeddings=is_recompute,
)
print(f"\n{prefix}Updating index with additional passages...")
update_index(
index_path,
start_id=len(initial_paragraphs),
paragraphs=update_paragraphs,
model_name=model_name,
embedding_mode=embedding_mode,
is_recompute=is_recompute,
)
after_results = run_search(
index_path,
query,
top_k,
recompute_embeddings=is_recompute,
)
updated_size = index_file_size(index_path)
return {
"initial_size": initial_size,
"updated_size": updated_size,
"delta": updated_size - initial_size,
"before_results": before_results,
"after_results": after_results,
"metadata": load_metadata_snapshot(index_path),
}
def main() -> None:
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument(
"--initial-files",
type=Path,
nargs="+",
default=DEFAULT_INITIAL_FILES,
help="Initial document files (PDF/TXT) used to build the base index",
)
parser.add_argument(
"--index-path",
type=Path,
default=Path(".leann/examples/leann-demo.leann"),
help="Destination index path (default: .leann/examples/leann-demo.leann)",
)
parser.add_argument(
"--initial-count",
type=int,
default=8,
help="Number of chunks to use from the initial documents (default: 8)",
)
parser.add_argument(
"--update-files",
type=Path,
nargs="*",
default=DEFAULT_UPDATE_FILES,
help="Additional documents to add during update (PDF/TXT)",
)
parser.add_argument(
"--update-count",
type=int,
default=4,
help="Number of chunks to append from update documents (default: 4)",
)
parser.add_argument(
"--update-text",
type=str,
default=(
"LEANN (Lightweight Embedding ANN) is an indexing toolkit focused on "
"recompute-aware HNSW graphs, allowing embeddings to be regenerated "
"on demand to keep disk usage minimal."
),
help="Fallback text to append if --update-files is omitted",
)
parser.add_argument(
"--top-k",
type=int,
default=4,
help="Number of results to show for each search (default: 4)",
)
parser.add_argument(
"--query",
type=str,
default=DEFAULT_QUERY,
help="Query to run before/after the update",
)
parser.add_argument(
"--embedding-model",
type=str,
default="sentence-transformers/all-MiniLM-L6-v2",
help="Embedding model name",
)
parser.add_argument(
"--embedding-mode",
type=str,
default="sentence-transformers",
choices=["sentence-transformers", "openai", "mlx", "ollama"],
help="Embedding backend mode",
)
parser.add_argument(
"--compare-no-recompute",
dest="compare_no_recompute",
action="store_true",
help="Also run a baseline with is_recompute=False and report its index growth.",
)
parser.add_argument(
"--skip-compare-no-recompute",
dest="compare_no_recompute",
action="store_false",
help="Skip building the no-recompute baseline.",
)
parser.set_defaults(compare_no_recompute=True)
args = parser.parse_args()
ensure_index_dir(args.index_path)
register_project_directory(REPO_ROOT)
initial_chunks = load_chunks_from_files(list(args.initial_files))
if not initial_chunks:
raise ValueError("No text chunks extracted from the initial files.")
initial = initial_chunks[: args.initial_count]
if not initial:
raise ValueError("Initial chunk set is empty after applying --initial-count.")
if args.update_files:
update_chunks = load_chunks_from_files(list(args.update_files))
if not update_chunks:
raise ValueError("No text chunks extracted from the update files.")
to_add = update_chunks[: args.update_count]
else:
if not args.update_text:
raise ValueError("Provide --update-files or --update-text for the update step.")
to_add = [args.update_text]
if not to_add:
raise ValueError("Update chunk set is empty after applying --update-count.")
recompute_stats = run_workflow(
label="recompute",
index_path=args.index_path,
initial_paragraphs=initial,
update_paragraphs=to_add,
model_name=args.embedding_model,
embedding_mode=args.embedding_mode,
is_recompute=True,
query=args.query,
top_k=args.top_k,
)
print_results("initial search", recompute_stats["before_results"])
print_results("after update", recompute_stats["after_results"])
print(
f"\n[recompute] Index file size change: {recompute_stats['initial_size']} -> {recompute_stats['updated_size']} bytes"
f"{recompute_stats['delta']})"
)
if recompute_stats["metadata"]:
meta_view = {k: recompute_stats["metadata"].get(k) for k in ("is_compact", "is_pruned")}
print("[recompute] metadata snapshot:")
print(json.dumps(meta_view, indent=2))
if args.compare_no_recompute:
baseline_path = (
args.index_path.parent / f"{args.index_path.stem}-norecompute{args.index_path.suffix}"
)
baseline_stats = run_workflow(
label="no-recompute",
index_path=baseline_path,
initial_paragraphs=initial,
update_paragraphs=to_add,
model_name=args.embedding_model,
embedding_mode=args.embedding_mode,
is_recompute=False,
query=args.query,
top_k=args.top_k,
)
print(
f"\n[no-recompute] Index file size change: {baseline_stats['initial_size']} -> {baseline_stats['updated_size']} bytes"
f"{baseline_stats['delta']})"
)
after_texts = [res.text for res in recompute_stats["after_results"]]
baseline_after_texts = [res.text for res in baseline_stats["after_results"]]
if after_texts == baseline_after_texts:
print(
"[no-recompute] Search results match recompute baseline; see above for the shared output."
)
else:
print("[no-recompute] WARNING: search results differ from recompute baseline.")
if baseline_stats["metadata"]:
meta_view = {k: baseline_stats["metadata"].get(k) for k in ("is_compact", "is_pruned")}
print("[no-recompute] metadata snapshot:")
print(json.dumps(meta_view, indent=2))
if __name__ == "__main__":
main()

35
examples/grep_search_example.py
View File

@@ -1,35 +0,0 @@
"""
Grep Search Example
Shows how to use grep-based text search instead of semantic search.
Useful when you need exact text matches rather than meaning-based results.
"""
from leann import LeannSearcher
# Load your index
searcher = LeannSearcher("my-documents.leann")
# Regular semantic search
print("=== Semantic Search ===")
results = searcher.search("machine learning algorithms", top_k=3)
for result in results:
print(f"Score: {result.score:.3f}")
print(f"Text: {result.text[:80]}...")
print()
# Grep-based search for exact text matches
print("=== Grep Search ===")
results = searcher.search("def train_model", top_k=3, use_grep=True)
for result in results:
print(f"Score: {result.score}")
print(f"Text: {result.text[:80]}...")
print()
# Find specific error messages
error_results = searcher.search("FileNotFoundError", use_grep=True)
print(f"Found {len(error_results)} files mentioning FileNotFoundError")
# Search for function definitions
func_results = searcher.search("class SearchResult", use_grep=True, top_k=5)
print(f"Found {len(func_results)} class definitions")

250
examples/spoiler_free_book_rag.py
View File

@@ -1,250 +0,0 @@
#!/usr/bin/env python3
"""
Spoiler-Free Book RAG Example using LEANN Metadata Filtering
This example demonstrates how to use LEANN's metadata filtering to create
a spoiler-free book RAG system where users can search for information
up to a specific chapter they've read.
Usage:
python spoiler_free_book_rag.py
"""
import os
import sys
from typing import Any, Optional
# Add LEANN to path (adjust path as needed)
sys.path.insert(0, os.path.join(os.path.dirname(__file__), "../packages/leann-core/src"))
from leann.api import LeannBuilder, LeannSearcher
def chunk_book_with_metadata(book_title: str = "Sample Book") -> list[dict[str, Any]]:
"""
Create sample book chunks with metadata for demonstration.
In a real implementation, this would parse actual book files (epub, txt, etc.)
and extract chapter boundaries, character mentions, etc.
Args:
book_title: Title of the book
Returns:
List of chunk dictionaries with text and metadata
"""
# Sample book chunks with metadata
# In practice, you'd use proper text processing libraries
sample_chunks = [
{
"text": "Alice was beginning to get very tired of sitting by her sister on the bank, and of having nothing to do.",
"metadata": {
"book": book_title,
"chapter": 1,
"page": 1,
"characters": ["Alice", "Sister"],
"themes": ["boredom", "curiosity"],
"location": "riverbank",
},
},
{
"text": "So she was considering in her own mind (as well as she could, for the hot day made her feel very sleepy and stupid), whether the pleasure of making a daisy-chain would be worth the trouble of getting up and picking the daisies, when suddenly a White Rabbit with pink eyes ran close by her.",
"metadata": {
"book": book_title,
"chapter": 1,
"page": 2,
"characters": ["Alice", "White Rabbit"],
"themes": ["decision", "surprise", "magic"],
"location": "riverbank",
},
},
{
"text": "Alice found herself falling down a very deep well. Either the well was very deep, or she fell very slowly, for she had plenty of time as she fell to look about her and to wonder what was going to happen next.",
"metadata": {
"book": book_title,
"chapter": 2,
"page": 15,
"characters": ["Alice"],
"themes": ["falling", "wonder", "transformation"],
"location": "rabbit hole",
},
},
{
"text": "Alice meets the Cheshire Cat, who tells her that everyone in Wonderland is mad, including Alice herself.",
"metadata": {
"book": book_title,
"chapter": 6,
"page": 85,
"characters": ["Alice", "Cheshire Cat"],
"themes": ["madness", "philosophy", "identity"],
"location": "Duchess's house",
},
},
{
"text": "At the Queen's croquet ground, Alice witnesses the absurd trial that reveals the arbitrary nature of Wonderland's justice system.",
"metadata": {
"book": book_title,
"chapter": 8,
"page": 120,
"characters": ["Alice", "Queen of Hearts", "King of Hearts"],
"themes": ["justice", "absurdity", "authority"],
"location": "Queen's court",
},
},
{
"text": "Alice realizes that Wonderland was all a dream, even the Rabbit, as she wakes up on the riverbank next to her sister.",
"metadata": {
"book": book_title,
"chapter": 12,
"page": 180,
"characters": ["Alice", "Sister", "Rabbit"],
"themes": ["revelation", "reality", "growth"],
"location": "riverbank",
},
},
]
return sample_chunks
def build_spoiler_free_index(book_chunks: list[dict[str, Any]], index_name: str) -> str:
"""
Build a LEANN index with book chunks that include spoiler metadata.
Args:
book_chunks: List of book chunks with metadata
index_name: Name for the index
Returns:
Path to the built index
"""
print(f"📚 Building spoiler-free book index: {index_name}")
# Initialize LEANN builder
builder = LeannBuilder(
backend_name="hnsw", embedding_model="text-embedding-3-small", embedding_mode="openai"
)
# Add each chunk with its metadata
for chunk in book_chunks:
builder.add_text(text=chunk["text"], metadata=chunk["metadata"])
# Build the index
index_path = f"{index_name}_book_index"
builder.build_index(index_path)
print(f"✅ Index built successfully: {index_path}")
return index_path
def spoiler_free_search(
index_path: str,
query: str,
max_chapter: int,
character_filter: Optional[list[str]] = None,
) -> list[dict[str, Any]]:
"""
Perform a spoiler-free search on the book index.
Args:
index_path: Path to the LEANN index
query: Search query
max_chapter: Maximum chapter number to include
character_filter: Optional list of characters to focus on
Returns:
List of search results safe for the reader
"""
print(f"🔍 Searching: '{query}' (up to chapter {max_chapter})")
searcher = LeannSearcher(index_path)
metadata_filters = {"chapter": {"<=": max_chapter}}
if character_filter:
metadata_filters["characters"] = {"contains": character_filter[0]}
results = searcher.search(query=query, top_k=10, metadata_filters=metadata_filters)
return results
def demo_spoiler_free_rag():
"""
Demonstrate the spoiler-free book RAG system.
"""
print("🎭 Spoiler-Free Book RAG Demo")
print("=" * 40)
# Step 1: Prepare book data
book_title = "Alice's Adventures in Wonderland"
book_chunks = chunk_book_with_metadata(book_title)
print(f"📖 Loaded {len(book_chunks)} chunks from '{book_title}'")
# Step 2: Build the index (in practice, this would be done once)
try:
index_path = build_spoiler_free_index(book_chunks, "alice_wonderland")
except Exception as e:
print(f"❌ Failed to build index (likely missing dependencies): {e}")
print(
"💡 This demo shows the filtering logic - actual indexing requires LEANN dependencies"
)
return
# Step 3: Demonstrate various spoiler-free searches
search_scenarios = [
{
"description": "Reader who has only read Chapter 1",
"query": "What can you tell me about the rabbit?",
"max_chapter": 1,
},
{
"description": "Reader who has read up to Chapter 5",
"query": "Tell me about Alice's adventures",
"max_chapter": 5,
},
{
"description": "Reader who has read most of the book",
"query": "What does the Cheshire Cat represent?",
"max_chapter": 10,
},
{
"description": "Reader who has read the whole book",
"query": "What can you tell me about the rabbit?",
"max_chapter": 12,
},
]
for scenario in search_scenarios:
print(f"\n📚 Scenario: {scenario['description']}")
print(f" Query: {scenario['query']}")
try:
results = spoiler_free_search(
index_path=index_path,
query=scenario["query"],
max_chapter=scenario["max_chapter"],
)
print(f" 📄 Found {len(results)} results:")
for i, result in enumerate(results[:3], 1): # Show top 3
chapter = result.metadata.get("chapter", "?")
location = result.metadata.get("location", "?")
print(f" {i}. Chapter {chapter} ({location}): {result.text[:80]}...")
except Exception as e:
print(f" ❌ Search failed: {e}")
if __name__ == "__main__":
print("📚 LEANN Spoiler-Free Book RAG Example")
print("=====================================")
try:
demo_spoiler_free_rag()
except ImportError as e:
print(f"❌ Cannot run demo due to missing dependencies: {e}")
except Exception as e:
print(f"❌ Error running demo: {e}")

28
llms.txt
View File

@@ -1,28 +0,0 @@
# llms.txt — LEANN MCP and Agent Integration
product: LEANN
homepage: https://github.com/yichuan-w/LEANN
contact: https://github.com/yichuan-w/LEANN/issues
# Installation
install: uv tool install leann-core --with leann
# MCP Server Entry Point
mcp.server: leann_mcp
mcp.protocol_version: 2024-11-05
# Tools
mcp.tools: leann_list, leann_search
mcp.tool.leann_list.description: List available LEANN indexes
mcp.tool.leann_list.input: {}
mcp.tool.leann_search.description: Semantic search across a named LEANN index
mcp.tool.leann_search.input.index_name: string, required
mcp.tool.leann_search.input.query: string, required
mcp.tool.leann_search.input.top_k: integer, optional, default=5, min=1, max=20
mcp.tool.leann_search.input.complexity: integer, optional, default=32, min=16, max=128
# Notes
note: Build indexes with `leann build <name> --docs <files...>` before searching.
example.add: claude mcp add --scope user leann-server -- leann_mcp
example.verify: claude mcp list | cat

1
packages/astchunk-leann

Submodule packages/astchunk-leann deleted from ad9afa07b9

8
packages/leann-backend-diskann/CMakeLists.txt Normal file
View File

@@ -0,0 +1,8 @@
# packages/leann-backend-diskann/CMakeLists.txt (simplified version)
cmake_minimum_required(VERSION 3.20)
project(leann_backend_diskann_wrapper)
# Tell CMake to directly enter the DiskANN submodule and execute its own CMakeLists.txt
# DiskANN will handle everything itself, including compiling Python bindings
add_subdirectory(src/third_party/DiskANN)

6
packages/leann-backend-diskann/leann_backend_diskann/__init__.py
View File

@@ -1,7 +1 @@
from . import diskann_backend as diskann_backend
from . import graph_partition
# Export main classes and functions
from .graph_partition import GraphPartitioner, partition_graph
__all__ = ["GraphPartitioner", "diskann_backend", "graph_partition", "partition_graph"]

149
packages/leann-backend-diskann/leann_backend_diskann/diskann_backend.py
View File

@@ -4,7 +4,7 @@ import os
import struct
import sys
from pathlib import Path
from typing import Any, Literal, Optional
from typing import Any, Literal
import numpy as np
import psutil
@@ -22,11 +22,6 @@ logger = logging.getLogger(__name__)
@contextlib.contextmanager
def suppress_cpp_output_if_needed():
"""Suppress C++ stdout/stderr based on LEANN_LOG_LEVEL"""
# In CI we avoid fiddling with low-level file descriptors to prevent aborts
if os.getenv("CI") == "true":
yield
return
log_level = os.getenv("LEANN_LOG_LEVEL", "WARNING").upper()
# Only suppress if log level is WARNING or higher (ERROR, CRITICAL)
@@ -142,71 +137,6 @@ class DiskannBuilder(LeannBackendBuilderInterface):
def __init__(self, **kwargs):
self.build_params = kwargs
def _safe_cleanup_after_partition(self, index_dir: Path, index_prefix: str):
"""
Safely cleanup files after partition.
In partition mode, C++ doesn't read _disk.index content,
so we can delete it if all derived files exist.
"""
disk_index_file = index_dir / f"{index_prefix}_disk.index"
beam_search_file = index_dir / f"{index_prefix}_disk_beam_search.index"
# Required files that C++ partition mode needs
# Note: C++ generates these with _disk.index suffix
disk_suffix = "_disk.index"
required_files = [
f"{index_prefix}{disk_suffix}_medoids.bin", # Critical: assert fails if missing
# Note: _centroids.bin is not created in single-shot build - C++ handles this automatically
f"{index_prefix}_pq_pivots.bin", # PQ table
f"{index_prefix}_pq_compressed.bin", # PQ compressed vectors
]
# Check if all required files exist
missing_files = []
for filename in required_files:
file_path = index_dir / filename
if not file_path.exists():
missing_files.append(filename)
if missing_files:
logger.warning(
f"Cannot safely delete _disk.index - missing required files: {missing_files}"
)
logger.info("Keeping all original files for safety")
return
# Calculate space savings
space_saved = 0
files_to_delete = []
if disk_index_file.exists():
space_saved += disk_index_file.stat().st_size
files_to_delete.append(disk_index_file)
if beam_search_file.exists():
space_saved += beam_search_file.stat().st_size
files_to_delete.append(beam_search_file)
# Safe to delete!
for file_to_delete in files_to_delete:
try:
os.remove(file_to_delete)
logger.info(f"✅ Safely deleted: {file_to_delete.name}")
except Exception as e:
logger.warning(f"Failed to delete {file_to_delete.name}: {e}")
if space_saved > 0:
space_saved_mb = space_saved / (1024 * 1024)
logger.info(f"💾 Space saved: {space_saved_mb:.1f} MB")
# Show what files are kept
logger.info("📁 Kept essential files for partition mode:")
for filename in required_files:
file_path = index_dir / filename
if file_path.exists():
size_mb = file_path.stat().st_size / (1024 * 1024)
logger.info(f" - {filename} ({size_mb:.1f} MB)")
def build(self, data: np.ndarray, ids: list[str], index_path: str, **kwargs):
path = Path(index_path)
index_dir = path.parent
@@ -221,17 +151,6 @@ class DiskannBuilder(LeannBackendBuilderInterface):
_write_vectors_to_bin(data, index_dir / data_filename)
build_kwargs = {**self.build_params, **kwargs}
# Extract is_recompute from nested backend_kwargs if needed
is_recompute = build_kwargs.get("is_recompute", False)
if not is_recompute and "backend_kwargs" in build_kwargs:
is_recompute = build_kwargs["backend_kwargs"].get("is_recompute", False)
# Flatten all backend_kwargs parameters to top level for compatibility
if "backend_kwargs" in build_kwargs:
nested_params = build_kwargs.pop("backend_kwargs")
build_kwargs.update(nested_params)
metric_enum = _get_diskann_metrics().get(
build_kwargs.get("distance_metric", "mips").lower()
)
@@ -266,30 +185,6 @@ class DiskannBuilder(LeannBackendBuilderInterface):
build_kwargs.get("pq_disk_bytes", 0),
"",
)
# Auto-partition if is_recompute is enabled
if build_kwargs.get("is_recompute", False):
logger.info("is_recompute=True, starting automatic graph partitioning...")
from .graph_partition import partition_graph
# Partition the index using absolute paths
# Convert to absolute paths to avoid issues with working directory changes
absolute_index_dir = Path(index_dir).resolve()
absolute_index_prefix_path = str(absolute_index_dir / index_prefix)
disk_graph_path, partition_bin_path = partition_graph(
index_prefix_path=absolute_index_prefix_path,
output_dir=str(absolute_index_dir),
partition_prefix=index_prefix,
)
# Safe cleanup: In partition mode, C++ doesn't read _disk.index content
# but still needs the derived files (_medoids.bin, _centroids.bin, etc.)
self._safe_cleanup_after_partition(index_dir, index_prefix)
logger.info("✅ Graph partitioning completed successfully!")
logger.info(f" - Disk graph: {disk_graph_path}")
logger.info(f" - Partition file: {partition_bin_path}")
finally:
temp_data_file = index_dir / data_filename
if temp_data_file.exists():
@@ -318,26 +213,7 @@ class DiskannSearcher(BaseSearcher):
# For DiskANN, we need to reinitialize the index when zmq_port changes
# Store the initialization parameters for later use
# Note: C++ load method expects the BASE path (without _disk.index suffix)
# C++ internally constructs: index_prefix + "_disk.index"
index_name = self.index_path.stem # "simple_test.leann" -> "simple_test"
diskann_index_prefix = str(self.index_dir / index_name) # /path/to/simple_test
full_index_prefix = diskann_index_prefix # /path/to/simple_test (base path)
# Auto-detect partition files and set partition_prefix
partition_graph_file = self.index_dir / f"{index_name}_disk_graph.index"
partition_bin_file = self.index_dir / f"{index_name}_partition.bin"
partition_prefix = ""
if partition_graph_file.exists() and partition_bin_file.exists():
# C++ expects full path prefix, not just filename
partition_prefix = str(self.index_dir / index_name) # /path/to/simple_test
logger.info(
f"✅ Detected partition files, using partition_prefix='{partition_prefix}'"
)
else:
logger.debug("No partition files detected, using standard index files")
full_index_prefix = str(self.index_dir / self.index_path.stem)
self._init_params = {
"metric_enum": metric_enum,
"full_index_prefix": full_index_prefix,
@@ -345,14 +221,8 @@ class DiskannSearcher(BaseSearcher):
"num_nodes_to_cache": kwargs.get("num_nodes_to_cache", 0),
"cache_mechanism": 1,
"pq_prefix": "",
"partition_prefix": partition_prefix,
"partition_prefix": "",
}
# Log partition configuration for debugging
if partition_prefix:
logger.info(
f"✅ Detected partition files, using partition_prefix='{partition_prefix}'"
)
self._diskannpy = diskannpy
self._current_zmq_port = None
self._index = None
@@ -389,7 +259,7 @@ class DiskannSearcher(BaseSearcher):
prune_ratio: float = 0.0,
recompute_embeddings: bool = False,
pruning_strategy: Literal["global", "local", "proportional"] = "global",
zmq_port: Optional[int] = None,
zmq_port: int | None = None,
batch_recompute: bool = False,
dedup_node_dis: bool = False,
**kwargs,
@@ -441,14 +311,9 @@ class DiskannSearcher(BaseSearcher):
else: # "global"
use_global_pruning = True
# Strategy:
# - Traversal always uses PQ distances
# - If recompute_embeddings=True, do a single final rerank via deferred fetch
# (fetch embeddings for the final candidate set only)
# - Do not recompute neighbor distances along the path
use_deferred_fetch = True if recompute_embeddings else False
recompute_neighors = False # Expected typo. For backward compatibility.
# Perform search with suppressed C++ output based on log level
use_deferred_fetch = kwargs.get("USE_DEFERRED_FETCH", True)
recompute_neighors = False
with suppress_cpp_output_if_needed():
labels, distances = self._index.batch_search(
query,

246
packages/leann-backend-diskann/leann_backend_diskann/diskann_embedding_server.py
View File

@@ -10,7 +10,6 @@ import sys
import threading
import time
from pathlib import Path
from typing import Any, Optional
import numpy as np
import zmq
@@ -32,18 +31,8 @@ if not logger.handlers:
logger.propagate = False
_RAW_PROVIDER_OPTIONS = os.getenv("LEANN_EMBEDDING_OPTIONS")
try:
PROVIDER_OPTIONS: dict[str, Any] = (
json.loads(_RAW_PROVIDER_OPTIONS) if _RAW_PROVIDER_OPTIONS else {}
)
except json.JSONDecodeError:
logger.warning("Failed to parse LEANN_EMBEDDING_OPTIONS; ignoring provider options")
PROVIDER_OPTIONS = {}
def create_diskann_embedding_server(
passages_file: Optional[str] = None,
passages_file: str | None = None,
zmq_port: int = 5555,
model_name: str = "sentence-transformers/all-mpnet-base-v2",
embedding_mode: str = "sentence-transformers",
@@ -91,9 +80,10 @@ def create_diskann_embedding_server(
with open(passages_file) as f:
meta = json.load(f)
logger.info(f"Loading PassageManager with metadata_file_path: {passages_file}")
passages = PassageManager(meta["passage_sources"], metadata_file_path=passages_file)
logger.info(f"Loaded PassageManager with {len(passages)} passages from metadata")
passages = PassageManager(meta["passage_sources"])
logger.info(
f"Loaded PassageManager with {len(passages.global_offset_map)} passages from metadata"
)
# Import protobuf after ensuring the path is correct
try:
@@ -111,9 +101,8 @@ def create_diskann_embedding_server(
socket.bind(f"tcp://*:{zmq_port}")
logger.info(f"DiskANN ZMQ REP server listening on port {zmq_port}")
socket.setsockopt(zmq.RCVTIMEO, 1000)
socket.setsockopt(zmq.SNDTIMEO, 1000)
socket.setsockopt(zmq.LINGER, 0)
socket.setsockopt(zmq.RCVTIMEO, 300000)
socket.setsockopt(zmq.SNDTIMEO, 300000)
while True:
try:
@@ -191,12 +180,7 @@ def create_diskann_embedding_server(
logger.debug(f"Text lengths: {[len(t) for t in texts[:5]]}") # Show first 5
# Process embeddings using unified computation
embeddings = compute_embeddings(
texts,
model_name,
mode=embedding_mode,
provider_options=PROVIDER_OPTIONS,
)
embeddings = compute_embeddings(texts, model_name, mode=embedding_mode)
logger.info(
f"Computed embeddings for {len(texts)} texts, shape: {embeddings.shape}"
)
@@ -235,222 +219,30 @@ def create_diskann_embedding_server(
traceback.print_exc()
raise
def zmq_server_thread_with_shutdown(shutdown_event):
"""ZMQ server thread that respects shutdown signal.
This creates its own REP socket, binds to zmq_port, and periodically
checks shutdown_event using recv timeouts to exit cleanly.
"""
logger.info("DiskANN ZMQ server thread started with shutdown support")
context = zmq.Context()
rep_socket = context.socket(zmq.REP)
rep_socket.bind(f"tcp://*:{zmq_port}")
logger.info(f"DiskANN ZMQ REP server listening on port {zmq_port}")
# Set receive timeout so we can check shutdown_event periodically
rep_socket.setsockopt(zmq.RCVTIMEO, 1000) # 1 second timeout
rep_socket.setsockopt(zmq.SNDTIMEO, 1000)
rep_socket.setsockopt(zmq.LINGER, 0)
try:
while not shutdown_event.is_set():
try:
e2e_start = time.time()
# REP socket receives single-part messages
message = rep_socket.recv()
# Check for empty messages - REP socket requires response to every request
if not message:
logger.warning("Received empty message, sending empty response")
rep_socket.send(b"")
continue
# Try protobuf first (same logic as original)
texts = []
is_text_request = False
try:
req_proto = embedding_pb2.NodeEmbeddingRequest()
req_proto.ParseFromString(message)
node_ids = list(req_proto.node_ids)
# Look up texts by node IDs
for nid in node_ids:
try:
passage_data = passages.get_passage(str(nid))
txt = passage_data["text"]
if not txt:
raise RuntimeError(f"FATAL: Empty text for passage ID {nid}")
texts.append(txt)
except KeyError:
raise RuntimeError(f"FATAL: Passage with ID {nid} not found")
logger.info(f"ZMQ received protobuf request for {len(node_ids)} node IDs")
except Exception:
# Fallback to msgpack for text requests
try:
import msgpack
request = msgpack.unpackb(message)
if isinstance(request, list) and all(
isinstance(item, str) for item in request
):
texts = request
is_text_request = True
logger.info(
f"ZMQ received msgpack text request for {len(texts)} texts"
)
else:
raise ValueError("Not a valid msgpack text request")
except Exception:
logger.error("Both protobuf and msgpack parsing failed!")
# Send error response
resp_proto = embedding_pb2.NodeEmbeddingResponse()
rep_socket.send(resp_proto.SerializeToString())
continue
# Process the request
embeddings = compute_embeddings(
texts,
model_name,
mode=embedding_mode,
provider_options=PROVIDER_OPTIONS,
)
logger.info(f"Computed embeddings shape: {embeddings.shape}")
# Validation
if np.isnan(embeddings).any() or np.isinf(embeddings).any():
logger.error("NaN or Inf detected in embeddings!")
# Send error response
if is_text_request:
import msgpack
response_data = msgpack.packb([])
else:
resp_proto = embedding_pb2.NodeEmbeddingResponse()
response_data = resp_proto.SerializeToString()
rep_socket.send(response_data)
continue
# Prepare response based on request type
if is_text_request:
# For direct text requests, return msgpack
import msgpack
response_data = msgpack.packb(embeddings.tolist())
else:
# For protobuf requests, return protobuf
resp_proto = embedding_pb2.NodeEmbeddingResponse()
hidden_contiguous = np.ascontiguousarray(embeddings, dtype=np.float32)
resp_proto.embeddings_data = hidden_contiguous.tobytes()
resp_proto.dimensions.append(hidden_contiguous.shape[0])
resp_proto.dimensions.append(hidden_contiguous.shape[1])
response_data = resp_proto.SerializeToString()
# Send response back to the client
rep_socket.send(response_data)
e2e_end = time.time()
logger.info(f"⏱️ ZMQ E2E time: {e2e_end - e2e_start:.6f}s")
except zmq.Again:
# Timeout - check shutdown_event and continue
continue
except Exception as e:
if not shutdown_event.is_set():
logger.error(f"Error in ZMQ server loop: {e}")
try:
# Send error response for REP socket
resp_proto = embedding_pb2.NodeEmbeddingResponse()
rep_socket.send(resp_proto.SerializeToString())
except Exception:
pass
else:
logger.info("Shutdown in progress, ignoring ZMQ error")
break
finally:
try:
rep_socket.close(0)
except Exception:
pass
try:
context.term()
except Exception:
pass
logger.info("DiskANN ZMQ server thread exiting gracefully")
# Add shutdown coordination
shutdown_event = threading.Event()
def shutdown_zmq_server():
"""Gracefully shutdown ZMQ server."""
logger.info("Initiating graceful shutdown...")
shutdown_event.set()
if zmq_thread.is_alive():
logger.info("Waiting for ZMQ thread to finish...")
zmq_thread.join(timeout=5)
if zmq_thread.is_alive():
logger.warning("ZMQ thread did not finish in time")
# Clean up ZMQ resources
try:
# Note: socket and context are cleaned up by thread exit
logger.info("ZMQ resources cleaned up")
except Exception as e:
logger.warning(f"Error cleaning ZMQ resources: {e}")
# Clean up other resources
try:
import gc
gc.collect()
logger.info("Additional resources cleaned up")
except Exception as e:
logger.warning(f"Error cleaning additional resources: {e}")
logger.info("Graceful shutdown completed")
sys.exit(0)
# Register signal handlers within this function scope
import signal
def signal_handler(sig, frame):
logger.info(f"Received signal {sig}, shutting down gracefully...")
shutdown_zmq_server()
signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
# Start ZMQ thread (NOT daemon!)
zmq_thread = threading.Thread(
target=lambda: zmq_server_thread_with_shutdown(shutdown_event),
daemon=False, # Not daemon - we want to wait for it
)
zmq_thread = threading.Thread(target=zmq_server_thread, daemon=True)
zmq_thread.start()
logger.info(f"Started DiskANN ZMQ server thread on port {zmq_port}")
# Keep the main thread alive
try:
while not shutdown_event.is_set():
time.sleep(0.1) # Check shutdown more frequently
while True:
time.sleep(1)
except KeyboardInterrupt:
logger.info("DiskANN Server shutting down...")
shutdown_zmq_server()
return
# If we reach here, shutdown was triggered by signal
logger.info("Main loop exited, process should be shutting down")
if __name__ == "__main__":
import signal
import sys
# Signal handlers are now registered within create_diskann_embedding_server
def signal_handler(sig, frame):
logger.info(f"Received signal {sig}, shutting down gracefully...")
sys.exit(0)
# Register signal handlers for graceful shutdown
signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
parser = argparse.ArgumentParser(description="DiskANN Embedding service")
parser.add_argument("--zmq-port", type=int, default=5555, help="ZMQ port to run on")

299
packages/leann-backend-diskann/leann_backend_diskann/graph_partition.py
View File

@@ -1,299 +0,0 @@
#!/usr/bin/env python3
"""
Graph Partition Module for LEANN DiskANN Backend
This module provides Python bindings for the graph partition functionality
of DiskANN, allowing users to partition disk-based indices for better
performance.
"""
import os
import shutil
import subprocess
import tempfile
from pathlib import Path
from typing import Optional
class GraphPartitioner:
"""
A Python interface for DiskANN's graph partition functionality.
This class provides methods to partition disk-based indices for improved
search performance and memory efficiency.
"""
def __init__(self, build_type: str = "release"):
"""
Initialize the GraphPartitioner.
Args:
build_type: Build type for the executables ("debug" or "release")
"""
self.build_type = build_type
self._ensure_executables()
def _get_executable_path(self, name: str) -> str:
"""Get the path to a graph partition executable."""
# Get the directory where this Python module is located
module_dir = Path(__file__).parent
# Navigate to the graph_partition directory
graph_partition_dir = module_dir.parent / "third_party" / "DiskANN" / "graph_partition"
executable_path = graph_partition_dir / "build" / self.build_type / "graph_partition" / name
if not executable_path.exists():
raise FileNotFoundError(f"Executable {name} not found at {executable_path}")
return str(executable_path)
def _ensure_executables(self):
"""Ensure that the required executables are built."""
try:
self._get_executable_path("partitioner")
self._get_executable_path("index_relayout")
except FileNotFoundError:
# Try to build the executables automatically
print("Executables not found, attempting to build them...")
self._build_executables()
def _build_executables(self):
"""Build the required executables."""
graph_partition_dir = (
Path(__file__).parent.parent / "third_party" / "DiskANN" / "graph_partition"
)
original_dir = os.getcwd()
try:
os.chdir(graph_partition_dir)
# Clean any existing build
if (graph_partition_dir / "build").exists():
shutil.rmtree(graph_partition_dir / "build")
# Run the build script
cmd = ["./build.sh", self.build_type, "split_graph", "/tmp/dummy"]
subprocess.run(cmd, capture_output=True, text=True, cwd=graph_partition_dir)
# Check if executables were created
partitioner_path = self._get_executable_path("partitioner")
relayout_path = self._get_executable_path("index_relayout")
print(f"✅ Built partitioner: {partitioner_path}")
print(f"✅ Built index_relayout: {relayout_path}")
except Exception as e:
raise RuntimeError(f"Failed to build executables: {e}")
finally:
os.chdir(original_dir)
def partition_graph(
self,
index_prefix_path: str,
output_dir: Optional[str] = None,
partition_prefix: Optional[str] = None,
**kwargs,
) -> tuple[str, str]:
"""
Partition a disk-based index for improved performance.
Args:
index_prefix_path: Path to the index prefix (e.g., "/path/to/index")
output_dir: Output directory for results (defaults to parent of index_prefix_path)
partition_prefix: Prefix for output files (defaults to basename of index_prefix_path)
**kwargs: Additional parameters for graph partitioning:
- gp_times: Number of LDG partition iterations (default: 10)
- lock_nums: Number of lock nodes (default: 10)
- cut: Cut adjacency list degree (default: 100)
- scale_factor: Scale factor (default: 1)
- data_type: Data type (default: "float")
- thread_nums: Number of threads (default: 10)
Returns:
Tuple of (disk_graph_index_path, partition_bin_path)
Raises:
RuntimeError: If the partitioning process fails
"""
# Set default parameters
params = {
"gp_times": 10,
"lock_nums": 10,
"cut": 100,
"scale_factor": 1,
"data_type": "float",
"thread_nums": 10,
**kwargs,
}
# Determine output directory
if output_dir is None:
output_dir = str(Path(index_prefix_path).parent)
# Create output directory if it doesn't exist
Path(output_dir).mkdir(parents=True, exist_ok=True)
# Determine partition prefix
if partition_prefix is None:
partition_prefix = Path(index_prefix_path).name
# Get executable paths
partitioner_path = self._get_executable_path("partitioner")
relayout_path = self._get_executable_path("index_relayout")
# Create temporary directory for processing
with tempfile.TemporaryDirectory() as temp_dir:
# Change to the graph_partition directory for temporary files
graph_partition_dir = (
Path(__file__).parent.parent / "third_party" / "DiskANN" / "graph_partition"
)
original_dir = os.getcwd()
try:
os.chdir(graph_partition_dir)
# Create temporary data directory
temp_data_dir = Path(temp_dir) / "data"
temp_data_dir.mkdir(parents=True, exist_ok=True)
# Set up paths for temporary files
graph_path = temp_data_dir / "starling" / "_M_R_L_B" / "GRAPH"
graph_gp_path = (
graph_path
/ f"GP_TIMES_{params['gp_times']}_LOCK_{params['lock_nums']}_GP_USE_FREQ0_CUT{params['cut']}_SCALE{params['scale_factor']}"
)
graph_gp_path.mkdir(parents=True, exist_ok=True)
# Find input index file
old_index_file = f"{index_prefix_path}_disk_beam_search.index"
if not os.path.exists(old_index_file):
old_index_file = f"{index_prefix_path}_disk.index"
if not os.path.exists(old_index_file):
raise RuntimeError(f"Index file not found: {old_index_file}")
# Run partitioner
gp_file_path = graph_gp_path / "_part.bin"
partitioner_cmd = [
partitioner_path,
"--index_file",
old_index_file,
"--data_type",
params["data_type"],
"--gp_file",
str(gp_file_path),
"-T",
str(params["thread_nums"]),
"--ldg_times",
str(params["gp_times"]),
"--scale",
str(params["scale_factor"]),
"--mode",
"1",
]
print(f"Running partitioner: {' '.join(partitioner_cmd)}")
result = subprocess.run(
partitioner_cmd, capture_output=True, text=True, cwd=graph_partition_dir
)
if result.returncode != 0:
raise RuntimeError(
f"Partitioner failed with return code {result.returncode}.\n"
f"stdout: {result.stdout}\n"
f"stderr: {result.stderr}"
)
# Run relayout
part_tmp_index = graph_gp_path / "_part_tmp.index"
relayout_cmd = [
relayout_path,
old_index_file,
str(gp_file_path),
params["data_type"],
"1",
]
print(f"Running relayout: {' '.join(relayout_cmd)}")
result = subprocess.run(
relayout_cmd, capture_output=True, text=True, cwd=graph_partition_dir
)
if result.returncode != 0:
raise RuntimeError(
f"Relayout failed with return code {result.returncode}.\n"
f"stdout: {result.stdout}\n"
f"stderr: {result.stderr}"
)
# Copy results to output directory
disk_graph_path = Path(output_dir) / f"{partition_prefix}_disk_graph.index"
partition_bin_path = Path(output_dir) / f"{partition_prefix}_partition.bin"
shutil.copy2(part_tmp_index, disk_graph_path)
shutil.copy2(gp_file_path, partition_bin_path)
print(f"Results copied to: {output_dir}")
return str(disk_graph_path), str(partition_bin_path)
finally:
os.chdir(original_dir)
def get_partition_info(self, partition_bin_path: str) -> dict:
"""
Get information about a partition file.
Args:
partition_bin_path: Path to the partition binary file
Returns:
Dictionary containing partition information
"""
if not os.path.exists(partition_bin_path):
raise FileNotFoundError(f"Partition file not found: {partition_bin_path}")
# For now, return basic file information
# In the future, this could parse the binary file for detailed info
stat = os.stat(partition_bin_path)
return {
"file_size": stat.st_size,
"file_path": partition_bin_path,
"modified_time": stat.st_mtime,
}
def partition_graph(
index_prefix_path: str,
output_dir: Optional[str] = None,
partition_prefix: Optional[str] = None,
build_type: str = "release",
**kwargs,
) -> tuple[str, str]:
"""
Convenience function to partition a graph index.
Args:
index_prefix_path: Path to the index prefix
output_dir: Output directory (defaults to parent of index_prefix_path)
partition_prefix: Prefix for output files (defaults to basename of index_prefix_path)
build_type: Build type for executables ("debug" or "release")
**kwargs: Additional parameters for graph partitioning
Returns:
Tuple of (disk_graph_index_path, partition_bin_path)
"""
partitioner = GraphPartitioner(build_type=build_type)
return partitioner.partition_graph(index_prefix_path, output_dir, partition_prefix, **kwargs)
# Example usage:
if __name__ == "__main__":
# Example: partition an index
try:
disk_graph_path, partition_bin_path = partition_graph(
"/path/to/your/index_prefix", gp_times=10, lock_nums=10, cut=100
)
print("Partitioning completed successfully!")
print(f"Disk graph index: {disk_graph_path}")
print(f"Partition binary: {partition_bin_path}")
except Exception as e:
print(f"Partitioning failed: {e}")

8
packages/leann-backend-diskann/pyproject.toml
View File

@@ -1,11 +1,11 @@
[build-system]
requires = ["scikit-build-core>=0.10", "pybind11>=2.12.0", "numpy", "cmake>=3.30"]
requires = ["scikit-build-core>=0.10", "pybind11>=2.12.0", "numpy"]
build-backend = "scikit_build_core.build"
[project]
name = "leann-backend-diskann"
version = "0.3.4"
dependencies = ["leann-core==0.3.4", "numpy", "protobuf>=3.19.0"]
version = "0.2.6"
dependencies = ["leann-core==0.2.6", "numpy", "protobuf>=3.19.0"]
[tool.scikit-build]
# Key: simplified CMake path
@@ -17,5 +17,3 @@ editable.mode = "redirect"
cmake.build-type = "Release"
build.verbose = true
build.tool-args = ["-j8"]
# Let CMake find packages via Homebrew prefix
cmake.define = {CMAKE_PREFIX_PATH = {env = "CMAKE_PREFIX_PATH"}, OpenMP_ROOT = {env = "OpenMP_ROOT"}}

2
packages/leann-backend-diskann/third_party/DiskANN vendored

Submodule packages/leann-backend-diskann/third_party/DiskANN updated: 19f9603c72...b2dc4ea2c7

36
packages/leann-backend-hnsw/CMakeLists.txt
View File

@@ -5,20 +5,11 @@ set(CMAKE_CXX_COMPILER_WORKS 1)
# Set OpenMP path for macOS
if(APPLE)
# Detect Homebrew installation path (Apple Silicon vs Intel)
if(EXISTS "/opt/homebrew/opt/libomp")
set(HOMEBREW_PREFIX "/opt/homebrew")
elseif(EXISTS "/usr/local/opt/libomp")
set(HOMEBREW_PREFIX "/usr/local")
else()
message(FATAL_ERROR "Could not find libomp installation. Please install with: brew install libomp")
endif()
set(OpenMP_C_FLAGS "-Xpreprocessor -fopenmp -I${HOMEBREW_PREFIX}/opt/libomp/include")
set(OpenMP_CXX_FLAGS "-Xpreprocessor -fopenmp -I${HOMEBREW_PREFIX}/opt/libomp/include")
set(OpenMP_C_FLAGS "-Xpreprocessor -fopenmp -I/opt/homebrew/opt/libomp/include")
set(OpenMP_CXX_FLAGS "-Xpreprocessor -fopenmp -I/opt/homebrew/opt/libomp/include")
set(OpenMP_C_LIB_NAMES "omp")
set(OpenMP_CXX_LIB_NAMES "omp")
set(OpenMP_omp_LIBRARY "${HOMEBREW_PREFIX}/opt/libomp/lib/libomp.dylib")
set(OpenMP_omp_LIBRARY "/opt/homebrew/opt/libomp/lib/libomp.dylib")
# Force use of system libc++ to avoid version mismatch
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -stdlib=libc++")
@@ -49,28 +40,9 @@ set(BUILD_TESTING OFF CACHE BOOL "" FORCE)
set(FAISS_ENABLE_C_API OFF CACHE BOOL "" FORCE)
set(FAISS_OPT_LEVEL "generic" CACHE STRING "" FORCE)
# Disable x86-specific SIMD optimizations (important for ARM64 compatibility)
# Disable additional SIMD versions to speed up compilation
set(FAISS_ENABLE_AVX2 OFF CACHE BOOL "" FORCE)
set(FAISS_ENABLE_AVX512 OFF CACHE BOOL "" FORCE)
set(FAISS_ENABLE_SSE4_1 OFF CACHE BOOL "" FORCE)
# ARM64-specific configuration
if(CMAKE_SYSTEM_PROCESSOR MATCHES "aarch64|arm64")
message(STATUS "Configuring Faiss for ARM64 architecture")
if(CMAKE_SYSTEM_NAME STREQUAL "Linux")
# Use SVE optimization level for ARM64 Linux (as seen in Faiss conda build)
set(FAISS_OPT_LEVEL "sve" CACHE STRING "" FORCE)
message(STATUS "Setting FAISS_OPT_LEVEL to 'sve' for ARM64 Linux")
else()
# Use generic optimization for other ARM64 platforms (like macOS)
set(FAISS_OPT_LEVEL "generic" CACHE STRING "" FORCE)
message(STATUS "Setting FAISS_OPT_LEVEL to 'generic' for ARM64 ${CMAKE_SYSTEM_NAME}")
endif()
# ARM64 compatibility: Faiss submodule has been modified to fix x86 header inclusion
message(STATUS "Using ARM64-compatible Faiss submodule")
endif()
# Additional optimization options from INSTALL.md
set(CMAKE_BUILD_TYPE "Release" CACHE STRING "" FORCE)

316
packages/leann-backend-hnsw/leann_backend_hnsw/convert_to_csr.py
View File

@@ -1,21 +1,12 @@
import argparse
import gc # Import garbage collector interface
import logging
import os
import struct
import sys
import time
from dataclasses import dataclass
from typing import Any, Optional
import numpy as np
# Set up logging to avoid print buffer issues
logger = logging.getLogger(__name__)
LOG_LEVEL = os.getenv("LEANN_LOG_LEVEL", "WARNING").upper()
log_level = getattr(logging, LOG_LEVEL, logging.WARNING)
logger.setLevel(log_level)
# --- FourCCs (add more if needed) ---
INDEX_HNSW_FLAT_FOURCC = int.from_bytes(b"IHNf", "little")
# Add other HNSW fourccs if you expect different storage types inside HNSW
@@ -239,288 +230,6 @@ def write_compact_format(
f_out.write(storage_data)
@dataclass
class HNSWComponents:
original_hnsw_data: dict[str, Any]
assign_probas_np: np.ndarray
cum_nneighbor_per_level_np: np.ndarray
levels_np: np.ndarray
is_compact: bool
compact_level_ptr: Optional[np.ndarray] = None
compact_node_offsets_np: Optional[np.ndarray] = None
compact_neighbors_data: Optional[list[int]] = None
offsets_np: Optional[np.ndarray] = None
neighbors_np: Optional[np.ndarray] = None
storage_fourcc: int = NULL_INDEX_FOURCC
storage_data: bytes = b""
def _read_hnsw_structure(f) -> HNSWComponents:
original_hnsw_data: dict[str, Any] = {}
hnsw_index_fourcc = read_struct(f, "<I")
if hnsw_index_fourcc not in EXPECTED_HNSW_FOURCCS:
raise ValueError(
f"Unexpected HNSW FourCC: {hnsw_index_fourcc:08x}. Expected one of {EXPECTED_HNSW_FOURCCS}."
)
original_hnsw_data["index_fourcc"] = hnsw_index_fourcc
original_hnsw_data["d"] = read_struct(f, "<i")
original_hnsw_data["ntotal"] = read_struct(f, "<q")
original_hnsw_data["dummy1"] = read_struct(f, "<q")
original_hnsw_data["dummy2"] = read_struct(f, "<q")
original_hnsw_data["is_trained"] = read_struct(f, "?")
original_hnsw_data["metric_type"] = read_struct(f, "<i")
original_hnsw_data["metric_arg"] = 0.0
if original_hnsw_data["metric_type"] > 1:
original_hnsw_data["metric_arg"] = read_struct(f, "<f")
assign_probas_np = read_numpy_vector(f, np.float64, "d")
cum_nneighbor_per_level_np = read_numpy_vector(f, np.int32, "i")
levels_np = read_numpy_vector(f, np.int32, "i")
ntotal = len(levels_np)
if ntotal != original_hnsw_data["ntotal"]:
original_hnsw_data["ntotal"] = ntotal
pos_before_compact = f.tell()
is_compact_flag = None
try:
is_compact_flag = read_struct(f, "<?")
except EOFError:
is_compact_flag = None
if is_compact_flag:
compact_level_ptr = read_numpy_vector(f, np.uint64, "Q")
compact_node_offsets_np = read_numpy_vector(f, np.uint64, "Q")
original_hnsw_data["entry_point"] = read_struct(f, "<i")
original_hnsw_data["max_level"] = read_struct(f, "<i")
original_hnsw_data["efConstruction"] = read_struct(f, "<i")
original_hnsw_data["efSearch"] = read_struct(f, "<i")
original_hnsw_data["dummy_upper_beam"] = read_struct(f, "<i")
storage_fourcc = read_struct(f, "<I")
compact_neighbors_data_np = read_numpy_vector(f, np.int32, "i")
compact_neighbors_data = compact_neighbors_data_np.tolist()
storage_data = f.read()
return HNSWComponents(
original_hnsw_data=original_hnsw_data,
assign_probas_np=assign_probas_np,
cum_nneighbor_per_level_np=cum_nneighbor_per_level_np,
levels_np=levels_np,
is_compact=True,
compact_level_ptr=compact_level_ptr,
compact_node_offsets_np=compact_node_offsets_np,
compact_neighbors_data=compact_neighbors_data,
storage_fourcc=storage_fourcc,
storage_data=storage_data,
)
# Non-compact case
f.seek(pos_before_compact)
pos_before_probe = f.tell()
try:
suspected_flag = read_struct(f, "<B")
if suspected_flag != 0x00:
f.seek(pos_before_probe)
except EOFError:
f.seek(pos_before_probe)
offsets_np = read_numpy_vector(f, np.uint64, "Q")
neighbors_np = read_numpy_vector(f, np.int32, "i")
original_hnsw_data["entry_point"] = read_struct(f, "<i")
original_hnsw_data["max_level"] = read_struct(f, "<i")
original_hnsw_data["efConstruction"] = read_struct(f, "<i")
original_hnsw_data["efSearch"] = read_struct(f, "<i")
original_hnsw_data["dummy_upper_beam"] = read_struct(f, "<i")
storage_fourcc = NULL_INDEX_FOURCC
storage_data = b""
try:
storage_fourcc = read_struct(f, "<I")
storage_data = f.read()
except EOFError:
storage_fourcc = NULL_INDEX_FOURCC
return HNSWComponents(
original_hnsw_data=original_hnsw_data,
assign_probas_np=assign_probas_np,
cum_nneighbor_per_level_np=cum_nneighbor_per_level_np,
levels_np=levels_np,
is_compact=False,
offsets_np=offsets_np,
neighbors_np=neighbors_np,
storage_fourcc=storage_fourcc,
storage_data=storage_data,
)
def _read_hnsw_structure_from_file(path: str) -> HNSWComponents:
with open(path, "rb") as f:
return _read_hnsw_structure(f)
def write_original_format(
f_out,
original_hnsw_data,
assign_probas_np,
cum_nneighbor_per_level_np,
levels_np,
offsets_np,
neighbors_np,
storage_fourcc,
storage_data,
):
"""Write non-compact HNSW data in original FAISS order."""
f_out.write(struct.pack("<I", original_hnsw_data["index_fourcc"]))
f_out.write(struct.pack("<i", original_hnsw_data["d"]))
f_out.write(struct.pack("<q", original_hnsw_data["ntotal"]))
f_out.write(struct.pack("<q", original_hnsw_data["dummy1"]))
f_out.write(struct.pack("<q", original_hnsw_data["dummy2"]))
f_out.write(struct.pack("<?", original_hnsw_data["is_trained"]))
f_out.write(struct.pack("<i", original_hnsw_data["metric_type"]))
if original_hnsw_data["metric_type"] > 1:
f_out.write(struct.pack("<f", original_hnsw_data["metric_arg"]))
write_numpy_vector(f_out, assign_probas_np, "d")
write_numpy_vector(f_out, cum_nneighbor_per_level_np, "i")
write_numpy_vector(f_out, levels_np, "i")
write_numpy_vector(f_out, offsets_np, "Q")
write_numpy_vector(f_out, neighbors_np, "i")
f_out.write(struct.pack("<i", original_hnsw_data["entry_point"]))
f_out.write(struct.pack("<i", original_hnsw_data["max_level"]))
f_out.write(struct.pack("<i", original_hnsw_data["efConstruction"]))
f_out.write(struct.pack("<i", original_hnsw_data["efSearch"]))
f_out.write(struct.pack("<i", original_hnsw_data["dummy_upper_beam"]))
f_out.write(struct.pack("<I", storage_fourcc))
if storage_fourcc != NULL_INDEX_FOURCC and storage_data:
f_out.write(storage_data)
def prune_hnsw_embeddings(input_filename: str, output_filename: str) -> bool:
"""Rewrite an HNSW index while dropping the embedded storage section."""
start_time = time.time()
try:
with open(input_filename, "rb") as f_in, open(output_filename, "wb") as f_out:
original_hnsw_data: dict[str, Any] = {}
hnsw_index_fourcc = read_struct(f_in, "<I")
if hnsw_index_fourcc not in EXPECTED_HNSW_FOURCCS:
print(
f"Error: Expected HNSW Index FourCC ({list(EXPECTED_HNSW_FOURCCS)}), got {hnsw_index_fourcc:08x}.",
file=sys.stderr,
)
return False
original_hnsw_data["index_fourcc"] = hnsw_index_fourcc
original_hnsw_data["d"] = read_struct(f_in, "<i")
original_hnsw_data["ntotal"] = read_struct(f_in, "<q")
original_hnsw_data["dummy1"] = read_struct(f_in, "<q")
original_hnsw_data["dummy2"] = read_struct(f_in, "<q")
original_hnsw_data["is_trained"] = read_struct(f_in, "?")
original_hnsw_data["metric_type"] = read_struct(f_in, "<i")
original_hnsw_data["metric_arg"] = 0.0
if original_hnsw_data["metric_type"] > 1:
original_hnsw_data["metric_arg"] = read_struct(f_in, "<f")
assign_probas_np = read_numpy_vector(f_in, np.float64, "d")
cum_nneighbor_per_level_np = read_numpy_vector(f_in, np.int32, "i")
levels_np = read_numpy_vector(f_in, np.int32, "i")
ntotal = len(levels_np)
if ntotal != original_hnsw_data["ntotal"]:
original_hnsw_data["ntotal"] = ntotal
pos_before_compact = f_in.tell()
is_compact_flag = None
try:
is_compact_flag = read_struct(f_in, "<?")
except EOFError:
is_compact_flag = None
if is_compact_flag:
compact_level_ptr = read_numpy_vector(f_in, np.uint64, "Q")
compact_node_offsets_np = read_numpy_vector(f_in, np.uint64, "Q")
original_hnsw_data["entry_point"] = read_struct(f_in, "<i")
original_hnsw_data["max_level"] = read_struct(f_in, "<i")
original_hnsw_data["efConstruction"] = read_struct(f_in, "<i")
original_hnsw_data["efSearch"] = read_struct(f_in, "<i")
original_hnsw_data["dummy_upper_beam"] = read_struct(f_in, "<i")
_storage_fourcc = read_struct(f_in, "<I")
compact_neighbors_data_np = read_numpy_vector(f_in, np.int32, "i")
compact_neighbors_data = compact_neighbors_data_np.tolist()
_storage_data = f_in.read()
write_compact_format(
f_out,
original_hnsw_data,
assign_probas_np,
cum_nneighbor_per_level_np,
levels_np,
compact_level_ptr,
compact_node_offsets_np,
compact_neighbors_data,
NULL_INDEX_FOURCC,
b"",
)
else:
f_in.seek(pos_before_compact)
pos_before_probe = f_in.tell()
try:
suspected_flag = read_struct(f_in, "<B")
if suspected_flag != 0x00:
f_in.seek(pos_before_probe)
except EOFError:
f_in.seek(pos_before_probe)
offsets_np = read_numpy_vector(f_in, np.uint64, "Q")
neighbors_np = read_numpy_vector(f_in, np.int32, "i")
original_hnsw_data["entry_point"] = read_struct(f_in, "<i")
original_hnsw_data["max_level"] = read_struct(f_in, "<i")
original_hnsw_data["efConstruction"] = read_struct(f_in, "<i")
original_hnsw_data["efSearch"] = read_struct(f_in, "<i")
original_hnsw_data["dummy_upper_beam"] = read_struct(f_in, "<i")
_storage_fourcc = None
_storage_data = b""
try:
_storage_fourcc = read_struct(f_in, "<I")
_storage_data = f_in.read()
except EOFError:
_storage_fourcc = NULL_INDEX_FOURCC
write_original_format(
f_out,
original_hnsw_data,
assign_probas_np,
cum_nneighbor_per_level_np,
levels_np,
offsets_np,
neighbors_np,
NULL_INDEX_FOURCC,
b"",
)
print(f"[{time.time() - start_time:.2f}s] Pruned embeddings from {input_filename}")
return True
except Exception as exc:
print(f"Failed to prune embeddings: {exc}", file=sys.stderr)
return False
# --- Main Conversion Logic ---
@@ -534,8 +243,6 @@ def convert_hnsw_graph_to_csr(input_filename, output_filename, prune_embeddings=
output_filename: Output CSR index file
prune_embeddings: Whether to prune embedding storage (write NULL storage marker)
"""
# Keep prints simple; rely on CI runner to flush output as needed
print(f"Starting conversion: {input_filename} -> {output_filename}")
start_time = time.time()
original_hnsw_data = {}
@@ -984,29 +691,6 @@ def convert_hnsw_graph_to_csr(input_filename, output_filename, prune_embeddings=
pass
def prune_hnsw_embeddings_inplace(index_filename: str) -> bool:
"""Convenience wrapper to prune embeddings in-place."""
temp_path = f"{index_filename}.prune.tmp"
success = prune_hnsw_embeddings(index_filename, temp_path)
if success:
try:
os.replace(temp_path, index_filename)
except Exception as exc: # pragma: no cover - defensive
logger.error(f"Failed to replace original index with pruned version: {exc}")
try:
os.remove(temp_path)
except OSError:
pass
return False
else:
try:
os.remove(temp_path)
except OSError:
pass
return success
# --- Script Execution ---
if __name__ == "__main__":
parser = argparse.ArgumentParser(

42
packages/leann-backend-hnsw/leann_backend_hnsw/hnsw_backend.py
View File

@@ -1,9 +1,8 @@
import logging
import os
import shutil
import time
from pathlib import Path
from typing import Any, Literal, Optional
from typing import Any, Literal
import numpy as np
from leann.interface import (
@@ -14,7 +13,7 @@ from leann.interface import (
from leann.registry import register_backend
from leann.searcher_base import BaseSearcher
from .convert_to_csr import convert_hnsw_graph_to_csr, prune_hnsw_embeddings_inplace
from .convert_to_csr import convert_hnsw_graph_to_csr
logger = logging.getLogger(__name__)
@@ -55,13 +54,12 @@ class HNSWBuilder(LeannBackendBuilderInterface):
self.efConstruction = self.build_params.setdefault("efConstruction", 200)
self.distance_metric = self.build_params.setdefault("distance_metric", "mips")
self.dimensions = self.build_params.get("dimensions")
if not self.is_recompute and self.is_compact:
# Auto-correct: non-recompute requires non-compact storage for HNSW
logger.warning(
"is_recompute=False requires non-compact HNSW. Forcing is_compact=False."
)
self.is_compact = False
self.build_params["is_compact"] = False
if not self.is_recompute:
if self.is_compact:
# TODO: support this case @andy
raise ValueError(
"is_recompute is False, but is_compact is True. This is not compatible now. change is compact to False and you can use the original HNSW index."
)
def build(self, data: np.ndarray, ids: list[str], index_path: str, **kwargs):
from . import faiss # type: ignore
@@ -92,8 +90,6 @@ class HNSWBuilder(LeannBackendBuilderInterface):
if self.is_compact:
self._convert_to_csr(index_file)
elif self.is_recompute:
prune_hnsw_embeddings_inplace(str(index_file))
def _convert_to_csr(self, index_file: Path):
"""Convert built index to CSR format"""
@@ -135,10 +131,10 @@ class HNSWSearcher(BaseSearcher):
if metric_enum is None:
raise ValueError(f"Unsupported distance_metric '{self.distance_metric}'.")
backend_meta_kwargs = self.meta.get("backend_kwargs", {})
self.is_compact = self.meta.get("is_compact", backend_meta_kwargs.get("is_compact", True))
default_pruned = backend_meta_kwargs.get("is_recompute", self.is_compact)
self.is_pruned = bool(self.meta.get("is_pruned", default_pruned))
self.is_compact, self.is_pruned = (
self.meta.get("is_compact", True),
self.meta.get("is_pruned", True),
)
index_file = self.index_dir / f"{self.index_path.stem}.index"
if not index_file.exists():
@@ -156,7 +152,7 @@ class HNSWSearcher(BaseSearcher):
self,
query: np.ndarray,
top_k: int,
zmq_port: Optional[int] = None,
zmq_port: int | None = None,
complexity: int = 64,
beam_width: int = 1,
prune_ratio: float = 0.0,
@@ -188,11 +184,9 @@ class HNSWSearcher(BaseSearcher):
"""
from . import faiss # type: ignore
if not recompute_embeddings and self.is_pruned:
raise RuntimeError(
"Recompute is required for pruned/compact HNSW index. "
"Re-run search with --recompute, or rebuild with --no-recompute and --no-compact."
)
if not recompute_embeddings:
if self.is_pruned:
raise RuntimeError("Recompute is required for pruned index.")
if recompute_embeddings:
if zmq_port is None:
raise ValueError("zmq_port must be provided if recompute_embeddings is True")
@@ -239,7 +233,6 @@ class HNSWSearcher(BaseSearcher):
distances = np.empty((batch_size_query, top_k), dtype=np.float32)
labels = np.empty((batch_size_query, top_k), dtype=np.int64)
search_time = time.time()
self._index.search(
query.shape[0],
faiss.swig_ptr(query),
@@ -248,8 +241,7 @@ class HNSWSearcher(BaseSearcher):
faiss.swig_ptr(labels),
params,
)
search_time = time.time() - search_time
logger.info(f" Search time in HNSWSearcher.search() backend: {search_time} seconds")
string_labels = [[str(int_label) for int_label in batch_labels] for batch_labels in labels]
return {"labels": string_labels, "distances": distances}

454
packages/leann-backend-hnsw/leann_backend_hnsw/hnsw_embedding_server.py
View File

@@ -10,7 +10,6 @@ import sys
import threading
import time
from pathlib import Path
from typing import Any, Optional
import msgpack
import numpy as np
@@ -24,39 +23,17 @@ logger = logging.getLogger(__name__)
log_level = getattr(logging, LOG_LEVEL, logging.WARNING)
logger.setLevel(log_level)
# Ensure we have handlers if none exist
# Ensure we have a handler if none exists
if not logger.handlers:
stream_handler = logging.StreamHandler()
handler = logging.StreamHandler()
formatter = logging.Formatter("%(asctime)s - %(levelname)s - %(message)s")
stream_handler.setFormatter(formatter)
logger.addHandler(stream_handler)
log_path = os.getenv("LEANN_HNSW_LOG_PATH")
if log_path:
try:
file_handler = logging.FileHandler(log_path, mode="a", encoding="utf-8")
file_formatter = logging.Formatter(
"%(asctime)s - %(levelname)s - [pid=%(process)d] %(message)s"
)
file_handler.setFormatter(file_formatter)
logger.addHandler(file_handler)
except Exception as exc: # pragma: no cover - best effort logging
logger.warning(f"Failed to attach file handler for log path {log_path}: {exc}")
logger.propagate = False
_RAW_PROVIDER_OPTIONS = os.getenv("LEANN_EMBEDDING_OPTIONS")
try:
PROVIDER_OPTIONS: dict[str, Any] = (
json.loads(_RAW_PROVIDER_OPTIONS) if _RAW_PROVIDER_OPTIONS else {}
)
except json.JSONDecodeError:
logger.warning("Failed to parse LEANN_EMBEDDING_OPTIONS; ignoring provider options")
PROVIDER_OPTIONS = {}
handler.setFormatter(formatter)
logger.addHandler(handler)
logger.propagate = False
def create_hnsw_embedding_server(
passages_file: Optional[str] = None,
passages_file: str | None = None,
zmq_port: int = 5555,
model_name: str = "sentence-transformers/all-mpnet-base-v2",
distance_metric: str = "mips",
@@ -104,328 +81,199 @@ def create_hnsw_embedding_server(
with open(passages_file) as f:
meta = json.load(f)
# Let PassageManager handle path resolution uniformly. It supports fallback order:
# 1) path/index_path; 2) *_relative; 3) standard siblings next to meta
passages = PassageManager(meta["passage_sources"], metadata_file_path=passages_file)
# Dimension from metadata for shaping responses
try:
embedding_dim: int = int(meta.get("dimensions", 0))
except Exception:
embedding_dim = 0
logger.info(f"Loaded PassageManager with {len(passages)} passages from metadata")
# Convert relative paths to absolute paths based on metadata file location
metadata_dir = Path(passages_file).parent.parent # Go up one level from the metadata file
passage_sources = []
for source in meta["passage_sources"]:
source_copy = source.copy()
# Convert relative paths to absolute paths
if not Path(source_copy["path"]).is_absolute():
source_copy["path"] = str(metadata_dir / source_copy["path"])
if not Path(source_copy["index_path"]).is_absolute():
source_copy["index_path"] = str(metadata_dir / source_copy["index_path"])
passage_sources.append(source_copy)
# (legacy ZMQ thread removed; using shutdown-capable server only)
def zmq_server_thread_with_shutdown(shutdown_event):
"""ZMQ server thread that respects shutdown signal.
Creates its own REP socket bound to zmq_port and polls with timeouts
to allow graceful shutdown.
"""
logger.info("ZMQ server thread started with shutdown support")
passages = PassageManager(passage_sources)
logger.info(
f"Loaded PassageManager with {len(passages.global_offset_map)} passages from metadata"
)
def zmq_server_thread():
"""ZMQ server thread"""
context = zmq.Context()
rep_socket = context.socket(zmq.REP)
rep_socket.bind(f"tcp://*:{zmq_port}")
logger.info(f"HNSW ZMQ REP server listening on port {zmq_port}")
rep_socket.setsockopt(zmq.RCVTIMEO, 1000)
# Keep sends from blocking during shutdown; fail fast and drop on close
rep_socket.setsockopt(zmq.SNDTIMEO, 1000)
rep_socket.setsockopt(zmq.LINGER, 0)
socket = context.socket(zmq.REP)
socket.bind(f"tcp://*:{zmq_port}")
logger.info(f"HNSW ZMQ server listening on port {zmq_port}")
# Track last request type/length for shape-correct fallbacks
last_request_type = "unknown" # 'text' | 'distance' | 'embedding' | 'unknown'
last_request_length = 0
socket.setsockopt(zmq.RCVTIMEO, 300000)
socket.setsockopt(zmq.SNDTIMEO, 300000)
try:
while not shutdown_event.is_set():
try:
e2e_start = time.time()
logger.debug("🔍 Waiting for ZMQ message...")
request_bytes = rep_socket.recv()
while True:
try:
message_bytes = socket.recv()
logger.debug(f"Received ZMQ request of size {len(message_bytes)} bytes")
# Rest of the processing logic (same as original)
request = msgpack.unpackb(request_bytes)
e2e_start = time.time()
request_payload = msgpack.unpackb(message_bytes)
if len(request) == 1 and request[0] == "__QUERY_MODEL__":
response_bytes = msgpack.packb([model_name])
rep_socket.send(response_bytes)
continue
# Handle direct text embedding request
if (
isinstance(request, list)
and request
and all(isinstance(item, str) for item in request)
):
last_request_type = "text"
last_request_length = len(request)
embeddings = compute_embeddings(
request,
model_name,
mode=embedding_mode,
provider_options=PROVIDER_OPTIONS,
# Handle direct text embedding request
if isinstance(request_payload, list) and len(request_payload) > 0:
# Check if this is a direct text request (list of strings)
if all(isinstance(item, str) for item in request_payload):
logger.info(
f"Processing direct text embedding request for {len(request_payload)} texts in {embedding_mode} mode"
)
rep_socket.send(msgpack.packb(embeddings.tolist()))
# Use unified embedding computation (now with model caching)
embeddings = compute_embeddings(
request_payload, model_name, mode=embedding_mode
)
response = embeddings.tolist()
socket.send(msgpack.packb(response))
e2e_end = time.time()
logger.info(f"⏱️ Text embedding E2E time: {e2e_end - e2e_start:.6f}s")
continue
# Handle distance calculation request: [[ids], [query_vector]]
if (
isinstance(request, list)
and len(request) == 2
and isinstance(request[0], list)
and isinstance(request[1], list)
):
node_ids = request[0]
# Handle nested [[ids]] shape defensively
if len(node_ids) == 1 and isinstance(node_ids[0], list):
node_ids = node_ids[0]
query_vector = np.array(request[1], dtype=np.float32)
last_request_type = "distance"
last_request_length = len(node_ids)
# Handle distance calculation requests
if (
isinstance(request_payload, list)
and len(request_payload) == 2
and isinstance(request_payload[0], list)
and isinstance(request_payload[1], list)
):
node_ids = request_payload[0]
query_vector = np.array(request_payload[1], dtype=np.float32)
logger.debug("Distance calculation request received")
logger.debug(f" Node IDs: {node_ids}")
logger.debug(f" Query vector dim: {len(query_vector)}")
logger.debug("Distance calculation request received")
logger.debug(f" Node IDs: {node_ids}")
logger.debug(f" Query vector dim: {len(query_vector)}")
# Gather texts for found ids
texts: list[str] = []
found_indices: list[int] = []
for idx, nid in enumerate(node_ids):
try:
passage_data = passages.get_passage(str(nid))
txt = passage_data.get("text", "")
if isinstance(txt, str) and len(txt) > 0:
texts.append(txt)
found_indices.append(idx)
else:
logger.error(f"Empty text for passage ID {nid}")
except KeyError:
logger.error(f"Passage ID {nid} not found")
except Exception as e:
logger.error(f"Exception looking up passage ID {nid}: {e}")
# Prepare full-length response with large sentinel values
large_distance = 1e9
response_distances = [large_distance] * len(node_ids)
if texts:
try:
embeddings = compute_embeddings(
texts,
model_name,
mode=embedding_mode,
provider_options=PROVIDER_OPTIONS,
)
logger.info(
f"Computed embeddings for {len(texts)} texts, shape: {embeddings.shape}"
)
if distance_metric == "l2":
partial = np.sum(
np.square(embeddings - query_vector.reshape(1, -1)), axis=1
)
else: # mips or cosine
partial = -np.dot(embeddings, query_vector)
for pos, dval in zip(found_indices, partial.flatten().tolist()):
response_distances[pos] = float(dval)
except Exception as e:
logger.error(f"Distance computation error, using sentinels: {e}")
# Send response in expected shape [[distances]]
rep_socket.send(msgpack.packb([response_distances], use_single_float=True))
e2e_end = time.time()
logger.info(f"⏱️ Distance calculation E2E time: {e2e_end - e2e_start:.6f}s")
continue
# Fallback: treat as embedding-by-id request
if (
isinstance(request, list)
and len(request) == 1
and isinstance(request[0], list)
):
node_ids = request[0]
elif isinstance(request, list):
node_ids = request
else:
node_ids = []
last_request_type = "embedding"
last_request_length = len(node_ids)
logger.info(f"ZMQ received {len(node_ids)} node IDs for embedding fetch")
# Preallocate zero-filled flat data for robustness
if embedding_dim <= 0:
dims = [0, 0]
flat_data: list[float] = []
else:
dims = [len(node_ids), embedding_dim]
flat_data = [0.0] * (dims[0] * dims[1])
# Collect texts for found ids
texts: list[str] = []
found_indices: list[int] = []
for idx, nid in enumerate(node_ids):
# Get embeddings for node IDs
texts = []
for nid in node_ids:
try:
passage_data = passages.get_passage(str(nid))
txt = passage_data.get("text", "")
if isinstance(txt, str) and len(txt) > 0:
texts.append(txt)
found_indices.append(idx)
else:
logger.error(f"Empty text for passage ID {nid}")
txt = passage_data["text"]
texts.append(txt)
except KeyError:
logger.error(f"Passage with ID {nid} not found")
logger.error(f"Passage ID {nid} not found")
raise RuntimeError(f"FATAL: Passage with ID {nid} not found")
except Exception as e:
logger.error(f"Exception looking up passage ID {nid}: {e}")
raise
if texts:
try:
embeddings = compute_embeddings(
texts,
model_name,
mode=embedding_mode,
provider_options=PROVIDER_OPTIONS,
)
logger.info(
f"Computed embeddings for {len(texts)} texts, shape: {embeddings.shape}"
)
# Process embeddings
embeddings = compute_embeddings(texts, model_name, mode=embedding_mode)
logger.info(
f"Computed embeddings for {len(texts)} texts, shape: {embeddings.shape}"
)
if np.isnan(embeddings).any() or np.isinf(embeddings).any():
logger.error(
f"NaN or Inf detected in embeddings! Requested IDs: {node_ids[:5]}..."
)
dims = [0, embedding_dim]
flat_data = []
else:
emb_f32 = np.ascontiguousarray(embeddings, dtype=np.float32)
flat = emb_f32.flatten().tolist()
for j, pos in enumerate(found_indices):
start = pos * embedding_dim
end = start + embedding_dim
if end <= len(flat_data):
flat_data[start:end] = flat[
j * embedding_dim : (j + 1) * embedding_dim
]
except Exception as e:
logger.error(f"Embedding computation error, returning zeros: {e}")
# Calculate distances
if distance_metric == "l2":
distances = np.sum(
np.square(embeddings - query_vector.reshape(1, -1)), axis=1
)
else: # mips or cosine
distances = -np.dot(embeddings, query_vector)
response_payload = [dims, flat_data]
response_bytes = msgpack.packb(response_payload, use_single_float=True)
response_payload = distances.flatten().tolist()
response_bytes = msgpack.packb([response_payload], use_single_float=True)
logger.debug(f"Sending distance response with {len(distances)} distances")
rep_socket.send(response_bytes)
socket.send(response_bytes)
e2e_end = time.time()
logger.info(f"⏱️ ZMQ E2E time: {e2e_end - e2e_start:.6f}s")
except zmq.Again:
# Timeout - check shutdown_event and continue
logger.info(f"⏱️ Distance calculation E2E time: {e2e_end - e2e_start:.6f}s")
continue
except Exception as e:
if not shutdown_event.is_set():
logger.error(f"Error in ZMQ server loop: {e}")
# Shape-correct fallback
try:
if last_request_type == "distance":
large_distance = 1e9
fallback_len = max(0, int(last_request_length))
safe = [[large_distance] * fallback_len]
elif last_request_type == "embedding":
bsz = max(0, int(last_request_length))
dim = max(0, int(embedding_dim))
safe = (
[[bsz, dim], [0.0] * (bsz * dim)] if dim > 0 else [[0, 0], []]
)
elif last_request_type == "text":
safe = [] # direct text embeddings expectation is a flat list
else:
safe = [[0, int(embedding_dim) if embedding_dim > 0 else 0], []]
rep_socket.send(msgpack.packb(safe, use_single_float=True))
except Exception:
pass
else:
logger.info("Shutdown in progress, ignoring ZMQ error")
break
finally:
try:
rep_socket.close(0)
except Exception:
pass
try:
context.term()
except Exception:
pass
logger.info("ZMQ server thread exiting gracefully")
# Standard embedding request (passage ID lookup)
if (
not isinstance(request_payload, list)
or len(request_payload) != 1
or not isinstance(request_payload[0], list)
):
logger.error(
f"Invalid MessagePack request format. Expected [[ids...]] or [texts...], got: {type(request_payload)}"
)
socket.send(msgpack.packb([[], []]))
continue
# Add shutdown coordination
shutdown_event = threading.Event()
node_ids = request_payload[0]
logger.debug(f"Request for {len(node_ids)} node embeddings")
def shutdown_zmq_server():
"""Gracefully shutdown ZMQ server."""
logger.info("Initiating graceful shutdown...")
shutdown_event.set()
# Look up texts by node IDs
texts = []
for nid in node_ids:
try:
passage_data = passages.get_passage(str(nid))
txt = passage_data["text"]
if not txt:
raise RuntimeError(f"FATAL: Empty text for passage ID {nid}")
texts.append(txt)
except KeyError:
raise RuntimeError(f"FATAL: Passage with ID {nid} not found")
except Exception as e:
logger.error(f"Exception looking up passage ID {nid}: {e}")
raise
if zmq_thread.is_alive():
logger.info("Waiting for ZMQ thread to finish...")
zmq_thread.join(timeout=5)
if zmq_thread.is_alive():
logger.warning("ZMQ thread did not finish in time")
# Process embeddings
embeddings = compute_embeddings(texts, model_name, mode=embedding_mode)
logger.info(
f"Computed embeddings for {len(texts)} texts, shape: {embeddings.shape}"
)
# Clean up ZMQ resources
try:
# Note: socket and context are cleaned up by thread exit
logger.info("ZMQ resources cleaned up")
except Exception as e:
logger.warning(f"Error cleaning ZMQ resources: {e}")
# Serialization and response
if np.isnan(embeddings).any() or np.isinf(embeddings).any():
logger.error(
f"NaN or Inf detected in embeddings! Requested IDs: {node_ids[:5]}..."
)
raise AssertionError()
# Clean up other resources
try:
import gc
hidden_contiguous_f32 = np.ascontiguousarray(embeddings, dtype=np.float32)
response_payload = [
list(hidden_contiguous_f32.shape),
hidden_contiguous_f32.flatten().tolist(),
]
response_bytes = msgpack.packb(response_payload, use_single_float=True)
gc.collect()
logger.info("Additional resources cleaned up")
except Exception as e:
logger.warning(f"Error cleaning additional resources: {e}")
socket.send(response_bytes)
e2e_end = time.time()
logger.info(f"⏱️ ZMQ E2E time: {e2e_end - e2e_start:.6f}s")
logger.info("Graceful shutdown completed")
sys.exit(0)
except zmq.Again:
logger.debug("ZMQ socket timeout, continuing to listen")
continue
except Exception as e:
logger.error(f"Error in ZMQ server loop: {e}")
import traceback
# Register signal handlers within this function scope
import signal
traceback.print_exc()
socket.send(msgpack.packb([[], []]))
def signal_handler(sig, frame):
logger.info(f"Received signal {sig}, shutting down gracefully...")
shutdown_zmq_server()
signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
# Pass shutdown_event to ZMQ thread
zmq_thread = threading.Thread(
target=lambda: zmq_server_thread_with_shutdown(shutdown_event),
daemon=False, # Not daemon - we want to wait for it
)
zmq_thread = threading.Thread(target=zmq_server_thread, daemon=True)
zmq_thread.start()
logger.info(f"Started HNSW ZMQ server thread on port {zmq_port}")
# Keep the main thread alive
try:
while not shutdown_event.is_set():
time.sleep(0.1) # Check shutdown more frequently
while True:
time.sleep(1)
except KeyboardInterrupt:
logger.info("HNSW Server shutting down...")
shutdown_zmq_server()
return
# If we reach here, shutdown was triggered by signal
logger.info("Main loop exited, process should be shutting down")
if __name__ == "__main__":
import signal
import sys
# Signal handlers are now registered within create_hnsw_embedding_server
def signal_handler(sig, frame):
logger.info(f"Received signal {sig}, shutting down gracefully...")
sys.exit(0)
# Register signal handlers for graceful shutdown
signal.signal(signal.SIGTERM, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
parser = argparse.ArgumentParser(description="HNSW Embedding service")
parser.add_argument("--zmq-port", type=int, default=5555, help="ZMQ port to run on")

8
packages/leann-backend-hnsw/pyproject.toml
View File

@@ -6,10 +6,10 @@ build-backend = "scikit_build_core.build"
[project]
name = "leann-backend-hnsw"
version = "0.3.4"
version = "0.2.6"
description = "Custom-built HNSW (Faiss) backend for the Leann toolkit."
dependencies = [
"leann-core==0.3.4",
"leann-core==0.2.6",
"numpy",
"pyzmq>=23.0.0",
"msgpack>=1.0.0",
@@ -22,8 +22,6 @@ cmake.build-type = "Release"
build.verbose = true
build.tool-args = ["-j8"]
# CMake definitions to optimize compilation and find Homebrew packages
# CMake definitions to optimize compilation
[tool.scikit-build.cmake.define]
CMAKE_BUILD_PARALLEL_LEVEL = "8"
CMAKE_PREFIX_PATH = {env = "CMAKE_PREFIX_PATH"}
OpenMP_ROOT = {env = "OpenMP_ROOT"}

2
packages/leann-backend-hnsw/third_party/faiss vendored

Submodule packages/leann-backend-hnsw/third_party/faiss updated: 1d51f0c074...ff22e2c86b

6
packages/leann-core/pyproject.toml
View File

@@ -4,7 +4,7 @@ build-backend = "setuptools.build_meta"
[project]
name = "leann-core"
version = "0.3.4"
version = "0.2.6"
description = "Core API and plugin system for LEANN"
readme = "README.md"
requires-python = ">=3.9"
@@ -33,8 +33,8 @@ dependencies = [
"pdfplumber>=0.10.0",
"nbconvert>=7.0.0", # For .ipynb file support
"gitignore-parser>=0.1.12", # For proper .gitignore handling
"mlx>=0.26.3; sys_platform == 'darwin' and platform_machine == 'arm64'",
"mlx-lm>=0.26.0; sys_platform == 'darwin' and platform_machine == 'arm64'",
"mlx>=0.26.3; sys_platform == 'darwin'",
"mlx-lm>=0.26.0; sys_platform == 'darwin'",
]
[project.optional-dependencies]

632
packages/leann-core/src/leann/api.py
View File

@@ -6,22 +6,18 @@ with the correct, original embedding logic from the user's reference code.
import json
import logging
import pickle
import re
import subprocess
import time
import warnings
from dataclasses import dataclass, field
from pathlib import Path
from typing import Any, Literal, Optional, Union
from typing import Any, Literal
import numpy as np
from leann_backend_hnsw.convert_to_csr import prune_hnsw_embeddings_inplace
from leann.interface import LeannBackendSearcherInterface
from .chat import get_llm
from .interface import LeannBackendFactoryInterface
from .metadata_filter import MetadataFilterEngine
from .registry import BACKEND_REGISTRY
logger = logging.getLogger(__name__)
@@ -37,9 +33,8 @@ def compute_embeddings(
model_name: str,
mode: str = "sentence-transformers",
use_server: bool = True,
port: Optional[int] = None,
port: int | None = None,
is_build=False,
provider_options: Optional[dict[str, Any]] = None,
) -> np.ndarray:
"""
Computes embeddings using different backends.
@@ -51,7 +46,6 @@ def compute_embeddings(
- "sentence-transformers": Use sentence-transformers library (default)
- "mlx": Use MLX backend for Apple Silicon
- "openai": Use OpenAI embedding API
- "gemini": Use Google Gemini embedding API
use_server: Whether to use embedding server (True for search, False for build)
Returns:
@@ -73,7 +67,6 @@ def compute_embeddings(
model_name,
mode=mode,
is_build=is_build,
provider_options=provider_options,
)
@@ -122,188 +115,60 @@ class SearchResult:
class PassageManager:
def __init__(
self, passage_sources: list[dict[str, Any]], metadata_file_path: Optional[str] = None
):
self.offset_maps: dict[str, dict[str, int]] = {}
self.passage_files: dict[str, str] = {}
# Avoid materializing a single gigantic global map to reduce memory
# footprint on very large corpora (e.g., 60M+ passages). Instead, keep
# per-shard maps and do a lightweight per-shard lookup on demand.
self._total_count: int = 0
self.filter_engine = MetadataFilterEngine() # Initialize filter engine
# Derive index base name for standard sibling fallbacks, e.g., <index_name>.passages.*
index_name_base = None
if metadata_file_path:
meta_name = Path(metadata_file_path).name
if meta_name.endswith(".meta.json"):
index_name_base = meta_name[: -len(".meta.json")]
def __init__(self, passage_sources: list[dict[str, Any]]):
self.offset_maps = {}
self.passage_files = {}
self.global_offset_map = {} # Combined map for fast lookup
for source in passage_sources:
assert source["type"] == "jsonl", "only jsonl is supported"
passage_file = source.get("path", "")
index_file = source.get("index_path", "") # .idx file
passage_file = source["path"]
index_file = source["index_path"] # .idx file
# Fix path resolution - relative paths should be relative to metadata file directory
def _resolve_candidates(
primary: str,
relative_key: str,
default_name: Optional[str],
source_dict: dict[str, Any],
) -> list[Path]:
"""
Build an ordered list of candidate paths. For relative paths specified in
metadata, prefer resolution relative to the metadata file directory first,
then fall back to CWD-based resolution, and finally to conventional
sibling defaults (e.g., <index_base>.passages.idx / .jsonl).
"""
candidates: list[Path] = []
# 1) Primary path
if primary:
p = Path(primary)
if p.is_absolute():
candidates.append(p)
else:
# Prefer metadata-relative resolution for relative paths
if metadata_file_path:
candidates.append(Path(metadata_file_path).parent / p)
# Also consider CWD-relative as a fallback for legacy layouts
candidates.append(Path.cwd() / p)
# 2) metadata-relative explicit relative key (if present)
if metadata_file_path and source_dict.get(relative_key):
candidates.append(Path(metadata_file_path).parent / source_dict[relative_key])
# 3) metadata-relative standard sibling filename
if metadata_file_path and default_name:
candidates.append(Path(metadata_file_path).parent / default_name)
return candidates
# Build candidate lists and pick first existing; otherwise keep last candidate for error message
idx_default = f"{index_name_base}.passages.idx" if index_name_base else None
idx_candidates = _resolve_candidates(
index_file, "index_path_relative", idx_default, source
)
pas_default = f"{index_name_base}.passages.jsonl" if index_name_base else None
pas_candidates = _resolve_candidates(passage_file, "path_relative", pas_default, source)
def _pick_existing(cands: list[Path]) -> str:
for c in cands:
if c.exists():
return str(c.resolve())
# Fallback to last candidate (best guess) even if not exists; will error below
return str(cands[-1].resolve()) if cands else ""
index_file = _pick_existing(idx_candidates)
passage_file = _pick_existing(pas_candidates)
# Fix path resolution for Colab and other environments
if not Path(index_file).is_absolute():
# If relative path, try to resolve it properly
index_file = str(Path(index_file).resolve())
if not Path(index_file).exists():
raise FileNotFoundError(f"Passage index file not found: {index_file}")
with open(index_file, "rb") as f:
offset_map: dict[str, int] = pickle.load(f)
offset_map = pickle.load(f)
self.offset_maps[passage_file] = offset_map
self.passage_files[passage_file] = passage_file
self._total_count += len(offset_map)
# Build global map for O(1) lookup
for passage_id, offset in offset_map.items():
self.global_offset_map[passage_id] = (passage_file, offset)
def get_passage(self, passage_id: str) -> dict[str, Any]:
# Fast path: check each shard map (there are typically few shards).
# This avoids building a massive combined dict while keeping lookups
# bounded by the number of shards.
for passage_file, offset_map in self.offset_maps.items():
try:
offset = offset_map[passage_id]
with open(passage_file, encoding="utf-8") as f:
f.seek(offset)
return json.loads(f.readline())
except KeyError:
continue
if passage_id in self.global_offset_map:
passage_file, offset = self.global_offset_map[passage_id]
# Lazy file opening - only open when needed
with open(passage_file, encoding="utf-8") as f:
f.seek(offset)
return json.loads(f.readline())
raise KeyError(f"Passage ID not found: {passage_id}")
def filter_search_results(
self,
search_results: list[SearchResult],
metadata_filters: Optional[dict[str, dict[str, Union[str, int, float, bool, list]]]],
) -> list[SearchResult]:
"""
Apply metadata filters to search results.
Args:
search_results: List of SearchResult objects
metadata_filters: Filter specifications to apply
Returns:
Filtered list of SearchResult objects
"""
if not metadata_filters:
return search_results
logger.debug(f"Applying metadata filters to {len(search_results)} results")
# Convert SearchResult objects to dictionaries for the filter engine
result_dicts = []
for result in search_results:
result_dicts.append(
{
"id": result.id,
"score": result.score,
"text": result.text,
"metadata": result.metadata,
}
)
# Apply filters using the filter engine
filtered_dicts = self.filter_engine.apply_filters(result_dicts, metadata_filters)
# Convert back to SearchResult objects
filtered_results = []
for result_dict in filtered_dicts:
filtered_results.append(
SearchResult(
id=result_dict["id"],
score=result_dict["score"],
text=result_dict["text"],
metadata=result_dict["metadata"],
)
)
logger.debug(f"Filtered results: {len(filtered_results)} remaining")
return filtered_results
def __len__(self) -> int:
return self._total_count
class LeannBuilder:
def __init__(
self,
backend_name: str,
embedding_model: str = "facebook/contriever",
dimensions: Optional[int] = None,
dimensions: int | None = None,
embedding_mode: str = "sentence-transformers",
embedding_options: Optional[dict[str, Any]] = None,
**backend_kwargs,
):
self.backend_name = backend_name
# Normalize incompatible combinations early (for consistent metadata)
if backend_name == "hnsw":
is_recompute = backend_kwargs.get("is_recompute", True)
is_compact = backend_kwargs.get("is_compact", True)
if is_recompute is False and is_compact is True:
warnings.warn(
"HNSW with is_recompute=False requires non-compact storage. Forcing is_compact=False.",
UserWarning,
stacklevel=2,
)
backend_kwargs["is_compact"] = False
backend_factory: Optional[LeannBackendFactoryInterface] = BACKEND_REGISTRY.get(backend_name)
backend_factory: LeannBackendFactoryInterface | None = BACKEND_REGISTRY.get(backend_name)
if backend_factory is None:
raise ValueError(f"Backend '{backend_name}' not found or not registered.")
self.backend_factory = backend_factory
self.embedding_model = embedding_model
self.dimensions = dimensions
self.embedding_mode = embedding_mode
self.embedding_options = embedding_options or {}
# Check if we need to use cosine distance for normalized embeddings
normalized_embeddings_models = {
@@ -377,7 +242,7 @@ class LeannBuilder:
self.backend_kwargs = backend_kwargs
self.chunks: list[dict[str, Any]] = []
def add_text(self, text: str, metadata: Optional[dict[str, Any]] = None):
def add_text(self, text: str, metadata: dict[str, Any] | None = None):
if metadata is None:
metadata = {}
passage_id = metadata.get("id", str(len(self.chunks)))
@@ -387,23 +252,6 @@ class LeannBuilder:
def build_index(self, index_path: str):
if not self.chunks:
raise ValueError("No chunks added.")
# Filter out invalid/empty text chunks early to keep passage and embedding counts aligned
valid_chunks: list[dict[str, Any]] = []
skipped = 0
for chunk in self.chunks:
text = chunk.get("text", "")
if isinstance(text, str) and text.strip():
valid_chunks.append(chunk)
else:
skipped += 1
if skipped > 0:
print(
f"Warning: Skipping {skipped} empty/invalid text chunk(s). Processing {len(valid_chunks)} valid chunks"
)
self.chunks = valid_chunks
if not self.chunks:
raise ValueError("All provided chunks are empty or invalid. Nothing to index.")
if self.dimensions is None:
self.dimensions = len(
compute_embeddings(
@@ -411,7 +259,6 @@ class LeannBuilder:
self.embedding_model,
self.embedding_mode,
use_server=False,
provider_options=self.embedding_options,
)[0]
)
path = Path(index_path)
@@ -451,7 +298,6 @@ class LeannBuilder:
self.embedding_mode,
use_server=False,
is_build=True,
provider_options=self.embedding_options,
)
string_ids = [chunk["id"] for chunk in self.chunks]
current_backend_kwargs = {**self.backend_kwargs, "dimensions": self.dimensions}
@@ -468,25 +314,20 @@ class LeannBuilder:
"passage_sources": [
{
"type": "jsonl",
# Preserve existing relative file names (backward-compatible)
"path": passages_file.name,
"index_path": offset_file.name,
# Add optional redundant relative keys for remote build portability (non-breaking)
"path_relative": passages_file.name,
"index_path_relative": offset_file.name,
"path": str(passages_file),
"index_path": str(offset_file),
}
],
}
if self.embedding_options:
meta_data["embedding_options"] = self.embedding_options
# Add storage status flags for HNSW backend
if self.backend_name == "hnsw":
is_compact = self.backend_kwargs.get("is_compact", True)
is_recompute = self.backend_kwargs.get("is_recompute", True)
meta_data["is_compact"] = is_compact
meta_data["is_pruned"] = bool(is_recompute)
meta_data["is_pruned"] = (
is_compact and is_recompute
) # Pruned only if compact and recompute
with open(leann_meta_path, "w", encoding="utf-8") as f:
json.dump(meta_data, f, indent=2)
@@ -589,178 +430,26 @@ class LeannBuilder:
"passage_sources": [
{
"type": "jsonl",
# Preserve existing relative file names (backward-compatible)
"path": passages_file.name,
"index_path": offset_file.name,
# Add optional redundant relative keys for remote build portability (non-breaking)
"path_relative": passages_file.name,
"index_path_relative": offset_file.name,
"path": str(passages_file),
"index_path": str(offset_file),
}
],
"built_from_precomputed_embeddings": True,
"embeddings_source": str(embeddings_file),
}
if self.embedding_options:
meta_data["embedding_options"] = self.embedding_options
# Add storage status flags for HNSW backend
if self.backend_name == "hnsw":
is_compact = self.backend_kwargs.get("is_compact", True)
is_recompute = self.backend_kwargs.get("is_recompute", True)
meta_data["is_compact"] = is_compact
meta_data["is_pruned"] = bool(is_recompute)
meta_data["is_pruned"] = is_compact and is_recompute
with open(leann_meta_path, "w", encoding="utf-8") as f:
json.dump(meta_data, f, indent=2)
logger.info(f"Index built successfully from precomputed embeddings: {index_path}")
def update_index(self, index_path: str):
"""Append new passages and vectors to an existing HNSW index."""
if not self.chunks:
raise ValueError("No new chunks provided for update.")
path = Path(index_path)
index_dir = path.parent
index_name = path.name
index_prefix = path.stem
meta_path = index_dir / f"{index_name}.meta.json"
passages_file = index_dir / f"{index_name}.passages.jsonl"
offset_file = index_dir / f"{index_name}.passages.idx"
index_file = index_dir / f"{index_prefix}.index"
if not meta_path.exists() or not passages_file.exists() or not offset_file.exists():
raise FileNotFoundError("Index metadata or passage files are missing; cannot update.")
if not index_file.exists():
raise FileNotFoundError(f"HNSW index file not found: {index_file}")
with open(meta_path, encoding="utf-8") as f:
meta = json.load(f)
backend_name = meta.get("backend_name")
if backend_name != self.backend_name:
raise ValueError(
f"Index was built with backend '{backend_name}', cannot update with '{self.backend_name}'."
)
meta_backend_kwargs = meta.get("backend_kwargs", {})
index_is_compact = meta.get("is_compact", meta_backend_kwargs.get("is_compact", True))
if index_is_compact:
raise ValueError(
"Compact HNSW indices do not support in-place updates. Rebuild required."
)
distance_metric = meta_backend_kwargs.get(
"distance_metric", self.backend_kwargs.get("distance_metric", "mips")
).lower()
needs_recompute = bool(
meta.get("is_pruned")
or meta_backend_kwargs.get("is_recompute")
or self.backend_kwargs.get("is_recompute")
)
with open(offset_file, "rb") as f:
offset_map: dict[str, int] = pickle.load(f)
existing_ids = set(offset_map.keys())
valid_chunks: list[dict[str, Any]] = []
for chunk in self.chunks:
text = chunk.get("text", "")
if not isinstance(text, str) or not text.strip():
continue
metadata = chunk.setdefault("metadata", {})
passage_id = chunk.get("id") or metadata.get("id")
if passage_id and passage_id in existing_ids:
raise ValueError(f"Passage ID '{passage_id}' already exists in the index.")
valid_chunks.append(chunk)
if not valid_chunks:
raise ValueError("No valid chunks to append.")
texts_to_embed = [chunk["text"] for chunk in valid_chunks]
embeddings = compute_embeddings(
texts_to_embed,
self.embedding_model,
self.embedding_mode,
use_server=False,
is_build=True,
provider_options=self.embedding_options,
)
embedding_dim = embeddings.shape[1]
expected_dim = meta.get("dimensions")
if expected_dim is not None and expected_dim != embedding_dim:
raise ValueError(
f"Dimension mismatch during update: existing index uses {expected_dim}, got {embedding_dim}."
)
from leann_backend_hnsw import faiss # type: ignore
embeddings = np.ascontiguousarray(embeddings, dtype=np.float32)
if distance_metric == "cosine":
norms = np.linalg.norm(embeddings, axis=1, keepdims=True)
norms[norms == 0] = 1
embeddings = embeddings / norms
index = faiss.read_index(str(index_file))
if hasattr(index, "is_recompute"):
index.is_recompute = needs_recompute
if getattr(index, "storage", None) is None:
if index.metric_type == faiss.METRIC_INNER_PRODUCT:
storage_index = faiss.IndexFlatIP(index.d)
else:
storage_index = faiss.IndexFlatL2(index.d)
index.storage = storage_index
index.own_fields = True
if index.d != embedding_dim:
raise ValueError(
f"Existing index dimension ({index.d}) does not match new embeddings ({embedding_dim})."
)
base_id = index.ntotal
for offset, chunk in enumerate(valid_chunks):
new_id = str(base_id + offset)
chunk.setdefault("metadata", {})["id"] = new_id
chunk["id"] = new_id
index.add(embeddings.shape[0], faiss.swig_ptr(embeddings))
faiss.write_index(index, str(index_file))
with open(passages_file, "a", encoding="utf-8") as f:
for chunk in valid_chunks:
offset = f.tell()
json.dump(
{
"id": chunk["id"],
"text": chunk["text"],
"metadata": chunk.get("metadata", {}),
},
f,
ensure_ascii=False,
)
f.write("\n")
offset_map[chunk["id"]] = offset
with open(offset_file, "wb") as f:
pickle.dump(offset_map, f)
meta["total_passages"] = len(offset_map)
with open(meta_path, "w", encoding="utf-8") as f:
json.dump(meta, f, indent=2)
logger.info(
"Appended %d passages to index '%s'. New total: %d",
len(valid_chunks),
index_path,
len(offset_map),
)
self.chunks.clear()
if needs_recompute:
prune_hnsw_embeddings_inplace(str(index_file))
class LeannSearcher:
def __init__(self, index_path: str, enable_warmup: bool = False, **backend_kwargs):
@@ -784,20 +473,12 @@ class LeannSearcher:
self.embedding_model = self.meta_data["embedding_model"]
# Support both old and new format
self.embedding_mode = self.meta_data.get("embedding_mode", "sentence-transformers")
self.embedding_options = self.meta_data.get("embedding_options", {})
# Delegate portability handling to PassageManager
self.passage_manager = PassageManager(
self.meta_data.get("passage_sources", []), metadata_file_path=self.meta_path_str
)
# Preserve backend name for conditional parameter forwarding
self.backend_name = backend_name
self.passage_manager = PassageManager(self.meta_data.get("passage_sources", []))
backend_factory = BACKEND_REGISTRY.get(backend_name)
if backend_factory is None:
raise ValueError(f"Backend '{backend_name}' not found.")
final_kwargs = {**self.meta_data.get("backend_kwargs", {}), **backend_kwargs}
final_kwargs["enable_warmup"] = enable_warmup
if self.embedding_options:
final_kwargs.setdefault("embedding_options", self.embedding_options)
self.backend_impl: LeannBackendSearcherInterface = backend_factory.searcher(
index_path, **final_kwargs
)
@@ -812,49 +493,15 @@ class LeannSearcher:
recompute_embeddings: bool = True,
pruning_strategy: Literal["global", "local", "proportional"] = "global",
expected_zmq_port: int = 5557,
metadata_filters: Optional[dict[str, dict[str, Union[str, int, float, bool, list]]]] = None,
batch_size: int = 0,
use_grep: bool = False,
**kwargs,
) -> list[SearchResult]:
"""
Search for nearest neighbors with optional metadata filtering.
Args:
query: Text query to search for
top_k: Number of nearest neighbors to return
complexity: Search complexity/candidate list size, higher = more accurate but slower
beam_width: Number of parallel search paths/IO requests per iteration
prune_ratio: Ratio of neighbors to prune via approximate distance (0.0-1.0)
recompute_embeddings: Whether to fetch fresh embeddings from server vs use stored codes
pruning_strategy: Candidate selection strategy - "global" (default), "local", or "proportional"
expected_zmq_port: ZMQ port for embedding server communication
metadata_filters: Optional filters to apply to search results based on metadata.
Format: {"field_name": {"operator": value}}
Supported operators:
- Comparison: "==", "!=", "<", "<=", ">", ">="
- Membership: "in", "not_in"
- String: "contains", "starts_with", "ends_with"
Example: {"chapter": {"<=": 5}, "tags": {"in": ["fiction", "drama"]}}
**kwargs: Backend-specific parameters
Returns:
List of SearchResult objects with text, metadata, and similarity scores
"""
# Handle grep search
if use_grep:
return self._grep_search(query, top_k)
logger.info("🔍 LeannSearcher.search() called:")
logger.info(f" Query: '{query}'")
logger.info(f" Top_k: {top_k}")
logger.info(f" Metadata filters: {metadata_filters}")
logger.info(f" Additional kwargs: {kwargs}")
# Smart top_k detection and adjustment
# Use PassageManager length (sum of shard sizes) to avoid
# depending on a massive combined map
total_docs = len(self.passage_manager)
total_docs = len(self.passage_manager.global_offset_map)
original_top_k = top_k
if top_k > total_docs:
top_k = total_docs
@@ -883,41 +530,31 @@ class LeannSearcher:
use_server_if_available=recompute_embeddings,
zmq_port=zmq_port,
)
logger.info(f" Generated embedding shape: {query_embedding.shape}")
embedding_time = time.time() - start_time
logger.info(f" Embedding time: {embedding_time} seconds")
# logger.info(f" Generated embedding shape: {query_embedding.shape}")
time.time() - start_time
# logger.info(f" Embedding time: {embedding_time} seconds")
start_time = time.time()
backend_search_kwargs: dict[str, Any] = {
"complexity": complexity,
"beam_width": beam_width,
"prune_ratio": prune_ratio,
"recompute_embeddings": recompute_embeddings,
"pruning_strategy": pruning_strategy,
"zmq_port": zmq_port,
}
# Only HNSW supports batching; forward conditionally
if self.backend_name == "hnsw":
backend_search_kwargs["batch_size"] = batch_size
# Merge any extra kwargs last
backend_search_kwargs.update(kwargs)
results = self.backend_impl.search(
query_embedding,
top_k,
**backend_search_kwargs,
complexity=complexity,
beam_width=beam_width,
prune_ratio=prune_ratio,
recompute_embeddings=recompute_embeddings,
pruning_strategy=pruning_strategy,
zmq_port=zmq_port,
**kwargs,
)
search_time = time.time() - start_time
logger.info(f" Search time in search() LEANN searcher: {search_time} seconds")
time.time() - start_time
# logger.info(f" Search time: {search_time} seconds")
logger.info(f" Backend returned: labels={len(results.get('labels', [[]])[0])} results")
enriched_results = []
if "labels" in results and "distances" in results:
logger.info(f" Processing {len(results['labels'][0])} passage IDs:")
# Python 3.9 does not support zip(strict=...); lengths are expected to match
for i, (string_id, dist) in enumerate(
zip(results["labels"][0], results["distances"][0])
zip(results["labels"][0], results["distances"][0], strict=False)
):
try:
passage_data = self.passage_manager.get_passage(string_id)
@@ -943,154 +580,23 @@ class LeannSearcher:
)
except KeyError:
RED = "\033[91m"
RESET = "\033[0m"
logger.error(
f" {RED}{RESET} [{i + 1:2d}] ID: '{string_id}' -> {RED}ERROR: Passage not found!{RESET}"
)
# Apply metadata filters if specified
if metadata_filters:
logger.info(f" 🔍 Applying metadata filters: {metadata_filters}")
enriched_results = self.passage_manager.filter_search_results(
enriched_results, metadata_filters
)
# Define color codes outside the loop for final message
GREEN = "\033[92m"
RESET = "\033[0m"
logger.info(f" {GREEN}✓ Final enriched results: {len(enriched_results)} passages{RESET}")
return enriched_results
def _find_jsonl_file(self) -> Optional[str]:
"""Find the .jsonl file containing raw passages for grep search"""
index_path = Path(self.meta_path_str).parent
potential_files = [
index_path / "documents.leann.passages.jsonl",
index_path.parent / "documents.leann.passages.jsonl",
]
for file_path in potential_files:
if file_path.exists():
return str(file_path)
return None
def _grep_search(self, query: str, top_k: int = 5) -> list[SearchResult]:
"""Perform grep-based search on raw passages"""
jsonl_file = self._find_jsonl_file()
if not jsonl_file:
raise FileNotFoundError("No .jsonl passages file found for grep search")
try:
cmd = ["grep", "-i", "-n", query, jsonl_file]
result = subprocess.run(cmd, capture_output=True, text=True, check=False)
if result.returncode == 1:
return []
elif result.returncode != 0:
raise RuntimeError(f"Grep failed: {result.stderr}")
matches = []
for line in result.stdout.strip().split("\n"):
if not line:
continue
parts = line.split(":", 1)
if len(parts) != 2:
continue
try:
data = json.loads(parts[1])
text = data.get("text", "")
score = text.lower().count(query.lower())
matches.append(
SearchResult(
id=data.get("id", parts[0]),
text=text,
metadata=data.get("metadata", {}),
score=float(score),
)
)
except json.JSONDecodeError:
continue
matches.sort(key=lambda x: x.score, reverse=True)
return matches[:top_k]
except FileNotFoundError:
raise RuntimeError(
"grep command not found. Please install grep or use semantic search."
)
def _python_regex_search(self, query: str, top_k: int = 5) -> list[SearchResult]:
"""Fallback regex search"""
jsonl_file = self._find_jsonl_file()
if not jsonl_file:
raise FileNotFoundError("No .jsonl file found")
pattern = re.compile(re.escape(query), re.IGNORECASE)
matches = []
with open(jsonl_file, encoding="utf-8") as f:
for line_num, line in enumerate(f, 1):
if pattern.search(line):
try:
data = json.loads(line.strip())
matches.append(
SearchResult(
id=data.get("id", str(line_num)),
text=data.get("text", ""),
metadata=data.get("metadata", {}),
score=float(len(pattern.findall(data.get("text", "")))),
)
)
except json.JSONDecodeError:
continue
matches.sort(key=lambda x: x.score, reverse=True)
return matches[:top_k]
def cleanup(self):
"""Explicitly cleanup embedding server resources.
This method should be called after you're done using the searcher,
especially in test environments or batch processing scenarios.
"""
backend = getattr(self.backend_impl, "embedding_server_manager", None)
if backend is not None:
backend.stop_server()
# Enable automatic cleanup patterns
def __enter__(self):
return self
def __exit__(self, exc_type, exc, tb):
try:
self.cleanup()
except Exception:
pass
def __del__(self):
try:
self.cleanup()
except Exception:
# Avoid noisy errors during interpreter shutdown
pass
class LeannChat:
def __init__(
self,
index_path: str,
llm_config: Optional[dict[str, Any]] = None,
llm_config: dict[str, Any] | None = None,
enable_warmup: bool = False,
searcher: Optional[LeannSearcher] = None,
**kwargs,
):
if searcher is None:
self.searcher = LeannSearcher(index_path, enable_warmup=enable_warmup, **kwargs)
self._owns_searcher = True
else:
self.searcher = searcher
self._owns_searcher = False
self.searcher = LeannSearcher(index_path, enable_warmup=enable_warmup, **kwargs)
self.llm = get_llm(llm_config)
def ask(
@@ -1102,11 +608,8 @@ class LeannChat:
prune_ratio: float = 0.0,
recompute_embeddings: bool = True,
pruning_strategy: Literal["global", "local", "proportional"] = "global",
llm_kwargs: Optional[dict[str, Any]] = None,
llm_kwargs: dict[str, Any] | None = None,
expected_zmq_port: int = 5557,
metadata_filters: Optional[dict[str, dict[str, Union[str, int, float, bool, list]]]] = None,
batch_size: int = 0,
use_grep: bool = False,
**search_kwargs,
):
if llm_kwargs is None:
@@ -1121,12 +624,10 @@ class LeannChat:
recompute_embeddings=recompute_embeddings,
pruning_strategy=pruning_strategy,
expected_zmq_port=expected_zmq_port,
metadata_filters=metadata_filters,
batch_size=batch_size,
**search_kwargs,
)
search_time = time.time() - search_time
logger.info(f" Search time: {search_time} seconds")
# logger.info(f" Search time: {search_time} seconds")
context = "\n\n".join([r.text for r in results])
prompt = (
"Here is some retrieved context that might help answer your question:\n\n"
@@ -1155,30 +656,3 @@ class LeannChat:
except (KeyboardInterrupt, EOFError):
print("\nGoodbye!")
break
def cleanup(self):
"""Explicitly cleanup embedding server resources.
This method should be called after you're done using the chat interface,
especially in test environments or batch processing scenarios.
"""
# Only stop the embedding server if this LeannChat instance created the searcher.
# When a shared searcher is passed in, avoid shutting down the server to enable reuse.
if getattr(self, "_owns_searcher", False) and hasattr(self.searcher, "cleanup"):
self.searcher.cleanup()
# Enable automatic cleanup patterns
def __enter__(self):
return self
def __exit__(self, exc_type, exc, tb):
try:
self.cleanup()
except Exception:
pass
def __del__(self):
try:
self.cleanup()
except Exception:
pass

115
packages/leann-core/src/leann/chat.py
View File

@@ -8,12 +8,10 @@ import difflib
import logging
import os
from abc import ABC, abstractmethod
from typing import Any, Optional
from typing import Any
import torch
from .settings import resolve_ollama_host, resolve_openai_api_key, resolve_openai_base_url
# Configure logging
logging.basicConfig(level=logging.INFO)
logger = logging.getLogger(__name__)
@@ -312,12 +310,11 @@ def search_hf_models(query: str, limit: int = 10) -> list[str]:
def validate_model_and_suggest(
model_name: str, llm_type: str, host: Optional[str] = None
) -> Optional[str]:
model_name: str, llm_type: str, host: str = "http://localhost:11434"
) -> str | None:
"""Validate model name and provide suggestions if invalid"""
if llm_type == "ollama":
resolved_host = resolve_ollama_host(host)
available_models = check_ollama_models(resolved_host)
available_models = check_ollama_models(host)
if available_models and model_name not in available_models:
error_msg = f"Model '{model_name}' not found in your local Ollama installation."
@@ -425,6 +422,7 @@ class LLMInterface(ABC):
top_k=10,
complexity=64,
beam_width=8,
USE_DEFERRED_FETCH=True,
skip_search_reorder=True,
recompute_beighbor_embeddings=True,
dedup_node_dis=True,
@@ -436,6 +434,7 @@ class LLMInterface(ABC):
Supported kwargs:
- complexity (int): Search complexity parameter (default: 32)
- beam_width (int): Beam width for search (default: 4)
- USE_DEFERRED_FETCH (bool): Enable deferred fetch mode (default: False)
- skip_search_reorder (bool): Skip search reorder step (default: False)
- recompute_beighbor_embeddings (bool): Enable ZMQ embedding server for neighbor recomputation (default: False)
- dedup_node_dis (bool): Deduplicate nodes by distance (default: False)
@@ -460,19 +459,19 @@ class LLMInterface(ABC):
class OllamaChat(LLMInterface):
"""LLM interface for Ollama models."""
def __init__(self, model: str = "llama3:8b", host: Optional[str] = None):
def __init__(self, model: str = "llama3:8b", host: str = "http://localhost:11434"):
self.model = model
self.host = resolve_ollama_host(host)
logger.info(f"Initializing OllamaChat with model='{model}' and host='{self.host}'")
self.host = host
logger.info(f"Initializing OllamaChat with model='{model}' and host='{host}'")
try:
import requests
# Check if the Ollama server is responsive
if self.host:
requests.get(self.host)
if host:
requests.get(host)
# Pre-check model availability with helpful suggestions
model_error = validate_model_and_suggest(model, "ollama", self.host)
model_error = validate_model_and_suggest(model, "ollama", host)
if model_error:
raise ValueError(model_error)
@@ -481,11 +480,9 @@ class OllamaChat(LLMInterface):
"The 'requests' library is required for Ollama. Please install it with 'pip install requests'."
)
except requests.exceptions.ConnectionError:
logger.error(
f"Could not connect to Ollama at {self.host}. Please ensure Ollama is running."
)
logger.error(f"Could not connect to Ollama at {host}. Please ensure Ollama is running.")
raise ConnectionError(
f"Could not connect to Ollama at {self.host}. Please ensure Ollama is running."
f"Could not connect to Ollama at {host}. Please ensure Ollama is running."
)
def ask(self, prompt: str, **kwargs) -> str:
@@ -685,88 +682,24 @@ class HFChat(LLMInterface):
return response.strip()
class GeminiChat(LLMInterface):
"""LLM interface for Google Gemini models."""
def __init__(self, model: str = "gemini-2.5-flash", api_key: Optional[str] = None):
self.model = model
self.api_key = api_key or os.getenv("GEMINI_API_KEY")
if not self.api_key:
raise ValueError(
"Gemini API key is required. Set GEMINI_API_KEY environment variable or pass api_key parameter."
)
logger.info(f"Initializing Gemini Chat with model='{model}'")
try:
import google.genai as genai
self.client = genai.Client(api_key=self.api_key)
except ImportError:
raise ImportError(
"The 'google-genai' library is required for Gemini models. Please install it with 'uv pip install google-genai'."
)
def ask(self, prompt: str, **kwargs) -> str:
logger.info(f"Sending request to Gemini with model {self.model}")
try:
from google.genai.types import GenerateContentConfig
generation_config = GenerateContentConfig(
temperature=kwargs.get("temperature", 0.7),
max_output_tokens=kwargs.get("max_tokens", 1000),
)
# Handle top_p parameter
if "top_p" in kwargs:
generation_config.top_p = kwargs["top_p"]
response = self.client.models.generate_content(
model=self.model,
contents=prompt,
config=generation_config,
)
# Handle potential None response text
response_text = response.text
if response_text is None:
logger.warning("Gemini returned None response text")
return ""
return response_text.strip()
except Exception as e:
logger.error(f"Error communicating with Gemini: {e}")
return f"Error: Could not get a response from Gemini. Details: {e}"
class OpenAIChat(LLMInterface):
"""LLM interface for OpenAI models."""
def __init__(
self,
model: str = "gpt-4o",
api_key: Optional[str] = None,
base_url: Optional[str] = None,
):
def __init__(self, model: str = "gpt-4o", api_key: str | None = None):
self.model = model
self.base_url = resolve_openai_base_url(base_url)
self.api_key = resolve_openai_api_key(api_key)
self.api_key = api_key or os.getenv("OPENAI_API_KEY")
if not self.api_key:
raise ValueError(
"OpenAI API key is required. Set OPENAI_API_KEY environment variable or pass api_key parameter."
)
logger.info(
"Initializing OpenAI Chat with model='%s' and base_url='%s'",
model,
self.base_url,
)
logger.info(f"Initializing OpenAI Chat with model='{model}'")
try:
import openai
self.client = openai.OpenAI(api_key=self.api_key, base_url=self.base_url)
self.client = openai.OpenAI(api_key=self.api_key)
except ImportError:
raise ImportError(
"The 'openai' library is required for OpenAI models. Please install it with 'pip install openai'."
@@ -828,7 +761,7 @@ class SimulatedChat(LLMInterface):
return "This is a simulated answer from the LLM based on the retrieved context."
def get_llm(llm_config: Optional[dict[str, Any]] = None) -> LLMInterface:
def get_llm(llm_config: dict[str, Any] | None = None) -> LLMInterface:
"""
Factory function to get an LLM interface based on configuration.
@@ -856,18 +789,12 @@ def get_llm(llm_config: Optional[dict[str, Any]] = None) -> LLMInterface:
if llm_type == "ollama":
return OllamaChat(
model=model or "llama3:8b",
host=llm_config.get("host"),
host=llm_config.get("host", "http://localhost:11434"),
)
elif llm_type == "hf":
return HFChat(model_name=model or "deepseek-ai/deepseek-llm-7b-chat")
elif llm_type == "openai":
return OpenAIChat(
model=model or "gpt-4o",
api_key=llm_config.get("api_key"),
base_url=llm_config.get("base_url"),
)
elif llm_type == "gemini":
return GeminiChat(model=model or "gemini-2.5-flash", api_key=llm_config.get("api_key"))
return OpenAIChat(model=model or "gpt-4o", api_key=llm_config.get("api_key"))
elif llm_type == "simulated":
return SimulatedChat()
else:

220
packages/leann-core/src/leann/chunking_utils.py
View File

@@ -1,220 +0,0 @@
"""
Enhanced chunking utilities with AST-aware code chunking support.
Packaged within leann-core so installed wheels can import it reliably.
"""
import logging
from pathlib import Path
from typing import Optional
from llama_index.core.node_parser import SentenceSplitter
logger = logging.getLogger(__name__)
# Code file extensions supported by astchunk
CODE_EXTENSIONS = {
".py": "python",
".java": "java",
".cs": "csharp",
".ts": "typescript",
".tsx": "typescript",
".js": "typescript",
".jsx": "typescript",
}
def detect_code_files(documents, code_extensions=None) -> tuple[list, list]:
"""Separate documents into code files and regular text files."""
if code_extensions is None:
code_extensions = CODE_EXTENSIONS
code_docs = []
text_docs = []
for doc in documents:
file_path = doc.metadata.get("file_path", "") or doc.metadata.get("file_name", "")
if file_path:
file_ext = Path(file_path).suffix.lower()
if file_ext in code_extensions:
doc.metadata["language"] = code_extensions[file_ext]
doc.metadata["is_code"] = True
code_docs.append(doc)
else:
doc.metadata["is_code"] = False
text_docs.append(doc)
else:
doc.metadata["is_code"] = False
text_docs.append(doc)
logger.info(f"Detected {len(code_docs)} code files and {len(text_docs)} text files")
return code_docs, text_docs
def get_language_from_extension(file_path: str) -> Optional[str]:
"""Return language string from a filename/extension using CODE_EXTENSIONS."""
ext = Path(file_path).suffix.lower()
return CODE_EXTENSIONS.get(ext)
def create_ast_chunks(
documents,
max_chunk_size: int = 512,
chunk_overlap: int = 64,
metadata_template: str = "default",
) -> list[str]:
"""Create AST-aware chunks from code documents using astchunk.
Falls back to traditional chunking if astchunk is unavailable.
"""
try:
from astchunk import ASTChunkBuilder # optional dependency
except ImportError as e:
logger.error(f"astchunk not available: {e}")
logger.info("Falling back to traditional chunking for code files")
return create_traditional_chunks(documents, max_chunk_size, chunk_overlap)
all_chunks = []
for doc in documents:
language = doc.metadata.get("language")
if not language:
logger.warning("No language detected; falling back to traditional chunking")
all_chunks.extend(create_traditional_chunks([doc], max_chunk_size, chunk_overlap))
continue
try:
configs = {
"max_chunk_size": max_chunk_size,
"language": language,
"metadata_template": metadata_template,
"chunk_overlap": chunk_overlap if chunk_overlap > 0 else 0,
}
repo_metadata = {
"file_path": doc.metadata.get("file_path", ""),
"file_name": doc.metadata.get("file_name", ""),
"creation_date": doc.metadata.get("creation_date", ""),
"last_modified_date": doc.metadata.get("last_modified_date", ""),
}
configs["repo_level_metadata"] = repo_metadata
chunk_builder = ASTChunkBuilder(**configs)
code_content = doc.get_content()
if not code_content or not code_content.strip():
logger.warning("Empty code content, skipping")
continue
chunks = chunk_builder.chunkify(code_content)
for chunk in chunks:
if hasattr(chunk, "text"):
chunk_text = chunk.text
elif isinstance(chunk, dict) and "text" in chunk:
chunk_text = chunk["text"]
elif isinstance(chunk, str):
chunk_text = chunk
else:
chunk_text = str(chunk)
if chunk_text and chunk_text.strip():
all_chunks.append(chunk_text.strip())
logger.info(
f"Created {len(chunks)} AST chunks from {language} file: {doc.metadata.get('file_name', 'unknown')}"
)
except Exception as e:
logger.warning(f"AST chunking failed for {language} file: {e}")
logger.info("Falling back to traditional chunking")
all_chunks.extend(create_traditional_chunks([doc], max_chunk_size, chunk_overlap))
return all_chunks
def create_traditional_chunks(
documents, chunk_size: int = 256, chunk_overlap: int = 128
) -> list[str]:
"""Create traditional text chunks using LlamaIndex SentenceSplitter."""
if chunk_size <= 0:
logger.warning(f"Invalid chunk_size={chunk_size}, using default value of 256")
chunk_size = 256
if chunk_overlap < 0:
chunk_overlap = 0
if chunk_overlap >= chunk_size:
chunk_overlap = chunk_size // 2
node_parser = SentenceSplitter(
chunk_size=chunk_size,
chunk_overlap=chunk_overlap,
separator=" ",
paragraph_separator="\n\n",
)
all_texts = []
for doc in documents:
try:
nodes = node_parser.get_nodes_from_documents([doc])
if nodes:
all_texts.extend(node.get_content() for node in nodes)
except Exception as e:
logger.error(f"Traditional chunking failed for document: {e}")
content = doc.get_content()
if content and content.strip():
all_texts.append(content.strip())
return all_texts
def create_text_chunks(
documents,
chunk_size: int = 256,
chunk_overlap: int = 128,
use_ast_chunking: bool = False,
ast_chunk_size: int = 512,
ast_chunk_overlap: int = 64,
code_file_extensions: Optional[list[str]] = None,
ast_fallback_traditional: bool = True,
) -> list[str]:
"""Create text chunks from documents with optional AST support for code files."""
if not documents:
logger.warning("No documents provided for chunking")
return []
local_code_extensions = CODE_EXTENSIONS.copy()
if code_file_extensions:
ext_mapping = {
".py": "python",
".java": "java",
".cs": "c_sharp",
".ts": "typescript",
".tsx": "typescript",
}
for ext in code_file_extensions:
if ext.lower() not in local_code_extensions:
if ext.lower() in ext_mapping:
local_code_extensions[ext.lower()] = ext_mapping[ext.lower()]
else:
logger.warning(f"Unsupported extension {ext}, will use traditional chunking")
all_chunks = []
if use_ast_chunking:
code_docs, text_docs = detect_code_files(documents, local_code_extensions)
if code_docs:
try:
all_chunks.extend(
create_ast_chunks(
code_docs, max_chunk_size=ast_chunk_size, chunk_overlap=ast_chunk_overlap
)
)
except Exception as e:
logger.error(f"AST chunking failed: {e}")
if ast_fallback_traditional:
all_chunks.extend(
create_traditional_chunks(code_docs, chunk_size, chunk_overlap)
)
else:
raise
if text_docs:
all_chunks.extend(create_traditional_chunks(text_docs, chunk_size, chunk_overlap))
else:
all_chunks = create_traditional_chunks(documents, chunk_size, chunk_overlap)
logger.info(f"Total chunks created: {len(all_chunks)}")
return all_chunks

1355
packages/leann-core/src/leann/cli.py
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553
packages/leann-core/src/leann/embedding_compute.py
View File

@@ -6,14 +6,12 @@ Preserves all optimization parameters to ensure performance
import logging
import os
import time
from typing import Any, Optional
from concurrent.futures import ThreadPoolExecutor, as_completed
from typing import Any
import numpy as np
import torch
from .settings import resolve_ollama_host, resolve_openai_api_key, resolve_openai_base_url
# Set up logger with proper level
logger = logging.getLogger(__name__)
LOG_LEVEL = os.getenv("LEANN_LOG_LEVEL", "WARNING").upper()
@@ -31,9 +29,6 @@ def compute_embeddings(
is_build: bool = False,
batch_size: int = 32,
adaptive_optimization: bool = True,
manual_tokenize: bool = False,
max_length: int = 512,
provider_options: Optional[dict[str, Any]] = None,
) -> np.ndarray:
"""
Unified embedding computation entry point
@@ -49,8 +44,6 @@ def compute_embeddings(
Returns:
Normalized embeddings array, shape: (len(texts), embedding_dim)
"""
provider_options = provider_options or {}
if mode == "sentence-transformers":
return compute_embeddings_sentence_transformers(
texts,
@@ -58,27 +51,13 @@ def compute_embeddings(
is_build=is_build,
batch_size=batch_size,
adaptive_optimization=adaptive_optimization,
manual_tokenize=manual_tokenize,
max_length=max_length,
)
elif mode == "openai":
return compute_embeddings_openai(
texts,
model_name,
base_url=provider_options.get("base_url"),
api_key=provider_options.get("api_key"),
)
return compute_embeddings_openai(texts, model_name)
elif mode == "mlx":
return compute_embeddings_mlx(texts, model_name)
elif mode == "ollama":
return compute_embeddings_ollama(
texts,
model_name,
is_build=is_build,
host=provider_options.get("host"),
)
elif mode == "gemini":
return compute_embeddings_gemini(texts, model_name, is_build=is_build)
return compute_embeddings_ollama(texts, model_name, is_build=is_build)
else:
raise ValueError(f"Unsupported embedding mode: {mode}")
@@ -91,8 +70,6 @@ def compute_embeddings_sentence_transformers(
batch_size: int = 32,
is_build: bool = False,
adaptive_optimization: bool = True,
manual_tokenize: bool = False,
max_length: int = 512,
) -> np.ndarray:
"""
Compute embeddings using SentenceTransformer with model caching and adaptive optimization
@@ -236,130 +213,20 @@ def compute_embeddings_sentence_transformers(
logger.info(f"Model cached: {cache_key}")
# Compute embeddings with optimized inference mode
logger.info(
f"Starting embedding computation... (batch_size: {batch_size}, manual_tokenize={manual_tokenize})"
)
logger.info(f"Starting embedding computation... (batch_size: {batch_size})")
start_time = time.time()
if not manual_tokenize:
# Use SentenceTransformer's optimized encode path (default)
with torch.inference_mode():
embeddings = model.encode(
texts,
batch_size=batch_size,
show_progress_bar=is_build, # Don't show progress bar in server environment
convert_to_numpy=True,
normalize_embeddings=False,
device=device,
)
# Synchronize if CUDA to measure accurate wall time
try:
if torch.cuda.is_available():
torch.cuda.synchronize()
except Exception:
pass
else:
# Manual tokenization + forward pass using HF AutoTokenizer/AutoModel
try:
from transformers import AutoModel, AutoTokenizer # type: ignore
except Exception as e:
raise ImportError(f"transformers is required for manual_tokenize=True: {e}")
# Use torch.inference_mode for optimal performance
with torch.inference_mode():
embeddings = model.encode(
texts,
batch_size=batch_size,
show_progress_bar=is_build, # Don't show progress bar in server environment
convert_to_numpy=True,
normalize_embeddings=False,
device=device,
)
# Cache tokenizer and model
tok_cache_key = f"hf_tokenizer_{model_name}"
mdl_cache_key = f"hf_model_{model_name}_{device}_{use_fp16}"
if tok_cache_key in _model_cache and mdl_cache_key in _model_cache:
hf_tokenizer = _model_cache[tok_cache_key]
hf_model = _model_cache[mdl_cache_key]
logger.info("Using cached HF tokenizer/model for manual path")
else:
logger.info("Loading HF tokenizer/model for manual tokenization path")
hf_tokenizer = AutoTokenizer.from_pretrained(model_name, use_fast=True)
torch_dtype = torch.float16 if (use_fp16 and device == "cuda") else torch.float32
hf_model = AutoModel.from_pretrained(model_name, torch_dtype=torch_dtype)
hf_model.to(device)
hf_model.eval()
# Optional compile on supported devices
if device in ["cuda", "mps"]:
try:
hf_model = torch.compile(hf_model, mode="reduce-overhead", dynamic=True) # type: ignore
except Exception:
pass
_model_cache[tok_cache_key] = hf_tokenizer
_model_cache[mdl_cache_key] = hf_model
all_embeddings: list[np.ndarray] = []
# Progress bar when building or for large inputs
show_progress = is_build or len(texts) > 32
try:
if show_progress:
from tqdm import tqdm # type: ignore
batch_iter = tqdm(
range(0, len(texts), batch_size),
desc="Embedding (manual)",
unit="batch",
)
else:
batch_iter = range(0, len(texts), batch_size)
except Exception:
batch_iter = range(0, len(texts), batch_size)
start_time_manual = time.time()
with torch.inference_mode():
for start_index in batch_iter:
end_index = min(start_index + batch_size, len(texts))
batch_texts = texts[start_index:end_index]
tokenize_start_time = time.time()
inputs = hf_tokenizer(
batch_texts,
padding=True,
truncation=True,
max_length=max_length,
return_tensors="pt",
)
tokenize_end_time = time.time()
logger.info(
f"Tokenize time taken: {tokenize_end_time - tokenize_start_time} seconds"
)
# Print shapes of all input tensors for debugging
for k, v in inputs.items():
print(f"inputs[{k!r}] shape: {getattr(v, 'shape', type(v))}")
to_device_start_time = time.time()
inputs = {k: v.to(device) for k, v in inputs.items()}
to_device_end_time = time.time()
logger.info(
f"To device time taken: {to_device_end_time - to_device_start_time} seconds"
)
forward_start_time = time.time()
outputs = hf_model(**inputs)
forward_end_time = time.time()
logger.info(f"Forward time taken: {forward_end_time - forward_start_time} seconds")
last_hidden_state = outputs.last_hidden_state # (B, L, H)
attention_mask = inputs.get("attention_mask")
if attention_mask is None:
# Fallback: assume all tokens are valid
pooled = last_hidden_state.mean(dim=1)
else:
mask = attention_mask.unsqueeze(-1).to(last_hidden_state.dtype)
masked = last_hidden_state * mask
lengths = mask.sum(dim=1).clamp(min=1)
pooled = masked.sum(dim=1) / lengths
# Move to CPU float32
batch_embeddings = pooled.detach().to("cpu").float().numpy()
all_embeddings.append(batch_embeddings)
embeddings = np.vstack(all_embeddings).astype(np.float32, copy=False)
try:
if torch.cuda.is_available():
torch.cuda.synchronize()
except Exception:
pass
end_time = time.time()
logger.info(f"Manual tokenize time taken: {end_time - start_time_manual} seconds")
end_time = time.time()
logger.info(f"Generated {len(embeddings)} embeddings, dimension: {embeddings.shape[1]}")
logger.info(f"Time taken: {end_time - start_time} seconds")
# Validate results
if np.isnan(embeddings).any() or np.isinf(embeddings).any():
@@ -368,41 +235,26 @@ def compute_embeddings_sentence_transformers(
return embeddings
def compute_embeddings_openai(
texts: list[str],
model_name: str,
base_url: Optional[str] = None,
api_key: Optional[str] = None,
) -> np.ndarray:
def compute_embeddings_openai(texts: list[str], model_name: str) -> np.ndarray:
# TODO: @yichuan-w add progress bar only in build mode
"""Compute embeddings using OpenAI API"""
try:
import os
import openai
except ImportError as e:
raise ImportError(f"OpenAI package not installed: {e}")
# Validate input list
if not texts:
raise ValueError("Cannot compute embeddings for empty text list")
# Extra validation: abort early if any item is empty/whitespace
invalid_count = sum(1 for t in texts if not isinstance(t, str) or not t.strip())
if invalid_count > 0:
raise ValueError(
f"Found {invalid_count} empty/invalid text(s) in input. Upstream should filter before calling OpenAI."
)
resolved_base_url = resolve_openai_base_url(base_url)
resolved_api_key = resolve_openai_api_key(api_key)
if not resolved_api_key:
api_key = os.getenv("OPENAI_API_KEY")
if not api_key:
raise RuntimeError("OPENAI_API_KEY environment variable not set")
# Cache OpenAI client
cache_key = f"openai_client::{resolved_base_url}"
cache_key = "openai_client"
if cache_key in _model_cache:
client = _model_cache[cache_key]
else:
client = openai.OpenAI(api_key=resolved_api_key, base_url=resolved_base_url)
client = openai.OpenAI(api_key=api_key)
_model_cache[cache_key] = client
logger.info("OpenAI client cached")
@@ -412,16 +264,8 @@ def compute_embeddings_openai(
print(f"len of texts: {len(texts)}")
# OpenAI has limits on batch size and input length
max_batch_size = 800 # Conservative batch size because the token limit is 300K
max_batch_size = 1000 # Conservative batch size
all_embeddings = []
# get the avg len of texts
avg_len = sum(len(text) for text in texts) / len(texts)
print(f"avg len of texts: {avg_len}")
# if avg len is less than 1000, use the max batch size
if avg_len > 300:
max_batch_size = 500
# if avg len is less than 1000, use the max batch size
try:
from tqdm import tqdm
@@ -527,21 +371,16 @@ def compute_embeddings_mlx(chunks: list[str], model_name: str, batch_size: int =
def compute_embeddings_ollama(
texts: list[str],
model_name: str,
is_build: bool = False,
host: Optional[str] = None,
texts: list[str], model_name: str, is_build: bool = False, host: str = "http://localhost:11434"
) -> np.ndarray:
"""
Compute embeddings using Ollama API with simplified batch processing.
Uses batch size of 32 for MPS/CPU and 128 for CUDA to optimize performance.
Compute embeddings using Ollama API.
Args:
texts: List of texts to compute embeddings for
model_name: Ollama model name (e.g., "nomic-embed-text", "mxbai-embed-large")
is_build: Whether this is a build operation (shows progress bar)
host: Ollama host URL (defaults to environment or http://localhost:11434)
host: Ollama host URL (default: http://localhost:11434)
Returns:
Normalized embeddings array, shape: (len(texts), embedding_dim)
@@ -556,19 +395,17 @@ def compute_embeddings_ollama(
if not texts:
raise ValueError("Cannot compute embeddings for empty text list")
resolved_host = resolve_ollama_host(host)
logger.info(
f"Computing embeddings for {len(texts)} texts using Ollama API, model: '{model_name}', host: '{resolved_host}'"
f"Computing embeddings for {len(texts)} texts using Ollama API, model: '{model_name}'"
)
# Check if Ollama is running
try:
response = requests.get(f"{resolved_host}/api/version", timeout=5)
response = requests.get(f"{host}/api/version", timeout=5)
response.raise_for_status()
except requests.exceptions.ConnectionError:
error_msg = (
f"❌ Could not connect to Ollama at {resolved_host}.\n\n"
f"❌ Could not connect to Ollama at {host}.\n\n"
"Please ensure Ollama is running:\n"
" • macOS/Linux: ollama serve\n"
" • Windows: Make sure Ollama is running in the system tray\n\n"
@@ -580,7 +417,7 @@ def compute_embeddings_ollama(
# Check if model exists and provide helpful suggestions
try:
response = requests.get(f"{resolved_host}/api/tags", timeout=5)
response = requests.get(f"{host}/api/tags", timeout=5)
response.raise_for_status()
models = response.json()
model_names = [model["name"] for model in models.get("models", [])]
@@ -601,19 +438,12 @@ def compute_embeddings_ollama(
if any(emb in base_name for emb in ["embed", "bge", "minilm", "e5"]):
embedding_models.append(model)
# Check if model exists (handle versioned names) and resolve to full name
resolved_model_name = None
for name in model_names:
# Exact match
if model_name == name:
resolved_model_name = name
break
# Match without version tag (use the versioned name)
elif model_name == name.split(":")[0]:
resolved_model_name = name
break
# Check if model exists (handle versioned names)
model_found = any(
model_name == name.split(":")[0] or model_name == name for name in model_names
)
if not resolved_model_name:
if not model_found:
error_msg = f"❌ Model '{model_name}' not found in local Ollama.\n\n"
# Suggest pulling the model
@@ -635,17 +465,10 @@ def compute_embeddings_ollama(
error_msg += "\n📚 Browse more: https://ollama.com/library"
raise ValueError(error_msg)
# Use the resolved model name for all subsequent operations
if resolved_model_name != model_name:
logger.info(f"Resolved model name '{model_name}' to '{resolved_model_name}'")
model_name = resolved_model_name
# Verify the model supports embeddings by testing it
try:
test_response = requests.post(
f"{resolved_host}/api/embeddings",
json={"model": model_name, "prompt": "test"},
timeout=10,
f"{host}/api/embeddings", json={"model": model_name, "prompt": "test"}, timeout=10
)
if test_response.status_code != 200:
error_msg = (
@@ -662,148 +485,138 @@ def compute_embeddings_ollama(
except requests.exceptions.RequestException as e:
logger.warning(f"Could not verify model existence: {e}")
# Determine batch size based on device availability
# Check for CUDA/MPS availability using torch if available
batch_size = 32 # Default for MPS/CPU
try:
import torch
# Process embeddings with optimized concurrent processing
import requests
if torch.cuda.is_available():
batch_size = 128 # CUDA gets larger batch size
elif hasattr(torch.backends, "mps") and torch.backends.mps.is_available():
batch_size = 32 # MPS gets smaller batch size
except ImportError:
# If torch is not available, use conservative batch size
batch_size = 32
def get_single_embedding(text_idx_tuple):
"""Helper function to get embedding for a single text."""
text, idx = text_idx_tuple
max_retries = 3
retry_count = 0
logger.info(f"Using batch size: {batch_size}")
# Truncate very long texts to avoid API issues
truncated_text = text[:8000] if len(text) > 8000 else text
def get_batch_embeddings(batch_texts):
"""Get embeddings for a batch of texts."""
all_embeddings = []
failed_indices = []
while retry_count < max_retries:
try:
response = requests.post(
f"{host}/api/embeddings",
json={"model": model_name, "prompt": truncated_text},
timeout=30,
)
response.raise_for_status()
for i, text in enumerate(batch_texts):
max_retries = 3
retry_count = 0
result = response.json()
embedding = result.get("embedding")
# Truncate very long texts to avoid API issues
truncated_text = text[:8000] if len(text) > 8000 else text
while retry_count < max_retries:
try:
response = requests.post(
f"{resolved_host}/api/embeddings",
json={"model": model_name, "prompt": truncated_text},
timeout=30,
if embedding is None:
raise ValueError(f"No embedding returned for text {idx}")
return idx, embedding
except requests.exceptions.Timeout:
retry_count += 1
if retry_count >= max_retries:
logger.warning(f"Timeout for text {idx} after {max_retries} retries")
return idx, None
except Exception as e:
if retry_count >= max_retries - 1:
logger.error(f"Failed to get embedding for text {idx}: {e}")
return idx, None
retry_count += 1
return idx, None
# Determine if we should use concurrent processing
use_concurrent = (
len(texts) > 5 and not is_build
) # Don't use concurrent in build mode to avoid overwhelming
max_workers = min(4, len(texts)) # Limit concurrent requests to avoid overwhelming Ollama
all_embeddings = [None] * len(texts) # Pre-allocate list to maintain order
failed_indices = []
if use_concurrent:
logger.info(
f"Using concurrent processing with {max_workers} workers for {len(texts)} texts"
)
with ThreadPoolExecutor(max_workers=max_workers) as executor:
# Submit all tasks
future_to_idx = {
executor.submit(get_single_embedding, (text, idx)): idx
for idx, text in enumerate(texts)
}
# Add progress bar for concurrent processing
try:
if is_build or len(texts) > 10:
from tqdm import tqdm
futures_iterator = tqdm(
as_completed(future_to_idx),
total=len(texts),
desc="Computing Ollama embeddings",
)
response.raise_for_status()
result = response.json()
embedding = result.get("embedding")
if embedding is None:
raise ValueError(f"No embedding returned for text {i}")
if not isinstance(embedding, list) or len(embedding) == 0:
raise ValueError(f"Invalid embedding format for text {i}")
all_embeddings.append(embedding)
break
except requests.exceptions.Timeout:
retry_count += 1
if retry_count >= max_retries:
logger.warning(f"Timeout for text {i} after {max_retries} retries")
failed_indices.append(i)
all_embeddings.append(None)
break
else:
futures_iterator = as_completed(future_to_idx)
except ImportError:
futures_iterator = as_completed(future_to_idx)
# Collect results as they complete
for future in futures_iterator:
try:
idx, embedding = future.result()
if embedding is not None:
all_embeddings[idx] = embedding
else:
failed_indices.append(idx)
except Exception as e:
retry_count += 1
if retry_count >= max_retries:
logger.error(f"Failed to get embedding for text {i}: {e}")
failed_indices.append(i)
all_embeddings.append(None)
break
return all_embeddings, failed_indices
idx = future_to_idx[future]
logger.error(f"Exception for text {idx}: {e}")
failed_indices.append(idx)
# Process texts in batches
all_embeddings = []
all_failed_indices = []
# Setup progress bar if needed
show_progress = is_build or len(texts) > 10
try:
if show_progress:
from tqdm import tqdm
except ImportError:
show_progress = False
# Process batches
num_batches = (len(texts) + batch_size - 1) // batch_size
if show_progress:
batch_iterator = tqdm(range(num_batches), desc="Computing Ollama embeddings")
else:
batch_iterator = range(num_batches)
# Sequential processing with progress bar
show_progress = is_build or len(texts) > 10
for batch_idx in batch_iterator:
start_idx = batch_idx * batch_size
end_idx = min(start_idx + batch_size, len(texts))
batch_texts = texts[start_idx:end_idx]
try:
if show_progress:
from tqdm import tqdm
batch_embeddings, batch_failed = get_batch_embeddings(batch_texts)
iterator = tqdm(
enumerate(texts), total=len(texts), desc="Computing Ollama embeddings"
)
else:
iterator = enumerate(texts)
except ImportError:
iterator = enumerate(texts)
# Adjust failed indices to global indices
global_failed = [start_idx + idx for idx in batch_failed]
all_failed_indices.extend(global_failed)
all_embeddings.extend(batch_embeddings)
for idx, text in iterator:
result_idx, embedding = get_single_embedding((text, idx))
if embedding is not None:
all_embeddings[idx] = embedding
else:
failed_indices.append(idx)
# Handle failed embeddings
if all_failed_indices:
if len(all_failed_indices) == len(texts):
if failed_indices:
if len(failed_indices) == len(texts):
raise RuntimeError("Failed to compute any embeddings")
logger.warning(
f"Failed to compute embeddings for {len(all_failed_indices)}/{len(texts)} texts"
)
logger.warning(f"Failed to compute embeddings for {len(failed_indices)}/{len(texts)} texts")
# Use zero embeddings as fallback for failed ones
valid_embedding = next((e for e in all_embeddings if e is not None), None)
if valid_embedding:
embedding_dim = len(valid_embedding)
for i, embedding in enumerate(all_embeddings):
if embedding is None:
all_embeddings[i] = [0.0] * embedding_dim
for idx in failed_indices:
all_embeddings[idx] = [0.0] * embedding_dim
# Remove None values
# Remove None values and convert to numpy array
all_embeddings = [e for e in all_embeddings if e is not None]
if not all_embeddings:
raise RuntimeError("No valid embeddings were computed")
# Validate embedding dimensions
expected_dim = len(all_embeddings[0])
inconsistent_dims = []
for i, embedding in enumerate(all_embeddings):
if len(embedding) != expected_dim:
inconsistent_dims.append((i, len(embedding)))
if inconsistent_dims:
error_msg = f"Ollama returned inconsistent embedding dimensions. Expected {expected_dim}, but got:\n"
for idx, dim in inconsistent_dims[:10]: # Show first 10 inconsistent ones
error_msg += f" - Text {idx}: {dim} dimensions\n"
if len(inconsistent_dims) > 10:
error_msg += f" ... and {len(inconsistent_dims) - 10} more\n"
error_msg += f"\nThis is likely an Ollama API bug with model '{model_name}'. Please try:\n"
error_msg += "1. Restart Ollama service: 'ollama serve'\n"
error_msg += f"2. Re-pull the model: 'ollama pull {model_name}'\n"
error_msg += (
"3. Use sentence-transformers instead: --embedding-mode sentence-transformers\n"
)
error_msg += "4. Report this issue to Ollama: https://github.com/ollama/ollama/issues"
raise ValueError(error_msg)
# Convert to numpy array and normalize
embeddings = np.array(all_embeddings, dtype=np.float32)
@@ -814,83 +627,3 @@ def compute_embeddings_ollama(
logger.info(f"Generated {len(embeddings)} embeddings, dimension: {embeddings.shape[1]}")
return embeddings
def compute_embeddings_gemini(
texts: list[str], model_name: str = "text-embedding-004", is_build: bool = False
) -> np.ndarray:
"""
Compute embeddings using Google Gemini API.
Args:
texts: List of texts to compute embeddings for
model_name: Gemini model name (default: "text-embedding-004")
is_build: Whether this is a build operation (shows progress bar)
Returns:
Embeddings array, shape: (len(texts), embedding_dim)
"""
try:
import os
import google.genai as genai
except ImportError as e:
raise ImportError(f"Google GenAI package not installed: {e}")
api_key = os.getenv("GEMINI_API_KEY")
if not api_key:
raise RuntimeError("GEMINI_API_KEY environment variable not set")
# Cache Gemini client
cache_key = "gemini_client"
if cache_key in _model_cache:
client = _model_cache[cache_key]
else:
client = genai.Client(api_key=api_key)
_model_cache[cache_key] = client
logger.info("Gemini client cached")
logger.info(
f"Computing embeddings for {len(texts)} texts using Gemini API, model: '{model_name}'"
)
# Gemini supports batch embedding
max_batch_size = 100 # Conservative batch size for Gemini
all_embeddings = []
try:
from tqdm import tqdm
total_batches = (len(texts) + max_batch_size - 1) // max_batch_size
batch_range = range(0, len(texts), max_batch_size)
batch_iterator = tqdm(
batch_range, desc="Computing embeddings", unit="batch", total=total_batches
)
except ImportError:
# Fallback when tqdm is not available
batch_iterator = range(0, len(texts), max_batch_size)
for i in batch_iterator:
batch_texts = texts[i : i + max_batch_size]
try:
# Use the embed_content method from the new Google GenAI SDK
response = client.models.embed_content(
model=model_name,
contents=batch_texts,
config=genai.types.EmbedContentConfig(
task_type="RETRIEVAL_DOCUMENT" # For document embedding
),
)
# Extract embeddings from response
for embedding_data in response.embeddings:
all_embeddings.append(embedding_data.values)
except Exception as e:
logger.error(f"Batch {i} failed: {e}")
raise
embeddings = np.array(all_embeddings, dtype=np.float32)
logger.info(f"Generated {len(embeddings)} embeddings, dimension: {embeddings.shape[1]}")
return embeddings

395
packages/leann-core/src/leann/embedding_server_manager.py
View File

@@ -6,11 +6,8 @@ import subprocess
import sys
import time
from pathlib import Path
from typing import Optional
from .settings import encode_provider_options
# Lightweight, self-contained server manager with no cross-process inspection
import psutil
# Set up logging based on environment variable
LOG_LEVEL = os.getenv("LEANN_LOG_LEVEL", "WARNING").upper()
@@ -45,7 +42,130 @@ def _check_port(port: int) -> bool:
return s.connect_ex(("localhost", port)) == 0
# Note: All cross-process scanning helpers removed for simplicity
def _check_process_matches_config(
port: int, expected_model: str, expected_passages_file: str
) -> bool:
"""
Check if the process using the port matches our expected model and passages file.
Returns True if matches, False otherwise.
"""
try:
for proc in psutil.process_iter(["pid", "cmdline"]):
if not _is_process_listening_on_port(proc, port):
continue
cmdline = proc.info["cmdline"]
if not cmdline:
continue
return _check_cmdline_matches_config(
cmdline, port, expected_model, expected_passages_file
)
logger.debug(f"No process found listening on port {port}")
return False
except Exception as e:
logger.warning(f"Could not check process on port {port}: {e}")
return False
def _is_process_listening_on_port(proc, port: int) -> bool:
"""Check if a process is listening on the given port."""
try:
connections = proc.net_connections()
for conn in connections:
if conn.laddr.port == port and conn.status == psutil.CONN_LISTEN:
return True
return False
except (psutil.NoSuchProcess, psutil.AccessDenied, psutil.ZombieProcess):
return False
def _check_cmdline_matches_config(
cmdline: list, port: int, expected_model: str, expected_passages_file: str
) -> bool:
"""Check if command line matches our expected configuration."""
cmdline_str = " ".join(cmdline)
logger.debug(f"Found process on port {port}: {cmdline_str}")
# Check if it's our embedding server
is_embedding_server = any(
server_type in cmdline_str
for server_type in [
"embedding_server",
"leann_backend_diskann.embedding_server",
"leann_backend_hnsw.hnsw_embedding_server",
]
)
if not is_embedding_server:
logger.debug(f"Process on port {port} is not our embedding server")
return False
# Check model name
model_matches = _check_model_in_cmdline(cmdline, expected_model)
# Check passages file if provided
passages_matches = _check_passages_in_cmdline(cmdline, expected_passages_file)
result = model_matches and passages_matches
logger.debug(
f"model_matches: {model_matches}, passages_matches: {passages_matches}, overall: {result}"
)
return result
def _check_model_in_cmdline(cmdline: list, expected_model: str) -> bool:
"""Check if the command line contains the expected model."""
if "--model-name" not in cmdline:
return False
model_idx = cmdline.index("--model-name")
if model_idx + 1 >= len(cmdline):
return False
actual_model = cmdline[model_idx + 1]
return actual_model == expected_model
def _check_passages_in_cmdline(cmdline: list, expected_passages_file: str) -> bool:
"""Check if the command line contains the expected passages file."""
if "--passages-file" not in cmdline:
return False # Expected but not found
passages_idx = cmdline.index("--passages-file")
if passages_idx + 1 >= len(cmdline):
return False
actual_passages = cmdline[passages_idx + 1]
expected_path = Path(expected_passages_file).resolve()
actual_path = Path(actual_passages).resolve()
return actual_path == expected_path
def _find_compatible_port_or_next_available(
start_port: int, model_name: str, passages_file: str, max_attempts: int = 100
) -> tuple[int, bool]:
"""
Find a port that either has a compatible server or is available.
Returns (port, is_compatible) where is_compatible indicates if we found a matching server.
"""
for port in range(start_port, start_port + max_attempts):
if not _check_port(port):
# Port is available
return port, False
# Port is in use, check if it's compatible
if _check_process_matches_config(port, model_name, passages_file):
logger.info(f"Found compatible server on port {port}")
return port, True
else:
logger.info(f"Port {port} has incompatible server, trying next port...")
raise RuntimeError(
f"Could not find compatible or available port in range {start_port}-{start_port + max_attempts}"
)
class EmbeddingServerManager:
@@ -62,18 +182,9 @@ class EmbeddingServerManager:
e.g., "leann_backend_diskann.embedding_server"
"""
self.backend_module_name = backend_module_name
self.server_process: Optional[subprocess.Popen] = None
self.server_port: Optional[int] = None
# Track last-started config for in-process reuse only
self._server_config: Optional[dict] = None
self.server_process: subprocess.Popen | None = None
self.server_port: int | None = None
self._atexit_registered = False
# Also register a weakref finalizer to ensure cleanup when manager is GC'ed
try:
import weakref
self._finalizer = weakref.finalize(self, self._finalize_process)
except Exception:
self._finalizer = None
def start_server(
self,
@@ -83,65 +194,35 @@ class EmbeddingServerManager:
**kwargs,
) -> tuple[bool, int]:
"""Start the embedding server."""
# passages_file may be present in kwargs for server CLI, but we don't need it here
provider_options = kwargs.pop("provider_options", None)
passages_file = kwargs.get("passages_file")
config_signature = {
"model_name": model_name,
"passages_file": kwargs.get("passages_file", ""),
"embedding_mode": embedding_mode,
"provider_options": provider_options or {},
}
# If this manager already has a live server, just reuse it
if (
self.server_process
and self.server_process.poll() is None
and self.server_port
and self._server_config == config_signature
):
logger.info("Reusing in-process server")
return True, self.server_port
# Configuration changed, stop existing server before starting a new one
if self.server_process and self.server_process.poll() is None:
logger.info("Existing server configuration differs; restarting embedding server")
self.stop_server()
# Check if we have a compatible server already running
if self._has_compatible_running_server(model_name, passages_file):
logger.info("Found compatible running server!")
return True, port
# For Colab environment, use a different strategy
if _is_colab_environment():
logger.info("Detected Colab environment, using alternative startup strategy")
return self._start_server_colab(
port,
model_name,
embedding_mode,
provider_options=provider_options,
**kwargs,
)
return self._start_server_colab(port, model_name, embedding_mode, **kwargs)
# Always pick a fresh available port
try:
actual_port = _get_available_port(port)
except RuntimeError:
logger.error("No available ports found")
return False, port
# Find a compatible port or next available
actual_port, is_compatible = _find_compatible_port_or_next_available(
port, model_name, passages_file
)
if is_compatible:
logger.info(f"Found compatible server on port {actual_port}")
return True, actual_port
# Start a new server
return self._start_new_server(
actual_port,
model_name,
embedding_mode,
provider_options=provider_options,
config_signature=config_signature,
**kwargs,
)
return self._start_new_server(actual_port, model_name, embedding_mode, **kwargs)
def _start_server_colab(
self,
port: int,
model_name: str,
embedding_mode: str = "sentence-transformers",
provider_options: Optional[dict] = None,
**kwargs,
) -> tuple[bool, int]:
"""Start server with Colab-specific configuration."""
@@ -159,34 +240,26 @@ class EmbeddingServerManager:
try:
# In Colab, we'll use a more direct approach
self._launch_server_process_colab(
command,
actual_port,
provider_options=provider_options,
)
started, ready_port = self._wait_for_server_ready_colab(actual_port)
if started:
self._server_config = {
"model_name": model_name,
"passages_file": kwargs.get("passages_file", ""),
"embedding_mode": embedding_mode,
"provider_options": provider_options or {},
}
return started, ready_port
self._launch_server_process_colab(command, actual_port)
return self._wait_for_server_ready_colab(actual_port)
except Exception as e:
logger.error(f"Failed to start embedding server in Colab: {e}")
return False, actual_port
# Note: No compatibility check needed; manager is per-searcher and configs are stable per instance
def _has_compatible_running_server(self, model_name: str, passages_file: str) -> bool:
"""Check if we have a compatible running server."""
if not (self.server_process and self.server_process.poll() is None and self.server_port):
return False
if _check_process_matches_config(self.server_port, model_name, passages_file):
logger.info(f"Existing server process (PID {self.server_process.pid}) is compatible")
return True
logger.info("Existing server process is incompatible. Should start a new server.")
return False
def _start_new_server(
self,
port: int,
model_name: str,
embedding_mode: str,
provider_options: Optional[dict] = None,
config_signature: Optional[dict] = None,
**kwargs,
self, port: int, model_name: str, embedding_mode: str, **kwargs
) -> tuple[bool, int]:
"""Start a new embedding server on the given port."""
logger.info(f"Starting embedding server on port {port}...")
@@ -194,20 +267,8 @@ class EmbeddingServerManager:
command = self._build_server_command(port, model_name, embedding_mode, **kwargs)
try:
self._launch_server_process(
command,
port,
provider_options=provider_options,
)
started, ready_port = self._wait_for_server_ready(port)
if started:
self._server_config = config_signature or {
"model_name": model_name,
"passages_file": kwargs.get("passages_file", ""),
"embedding_mode": embedding_mode,
"provider_options": provider_options or {},
}
return started, ready_port
self._launch_server_process(command, port)
return self._wait_for_server_ready(port)
except Exception as e:
logger.error(f"Failed to start embedding server: {e}")
return False, port
@@ -237,80 +298,27 @@ class EmbeddingServerManager:
return command
def _launch_server_process(
self,
command: list,
port: int,
provider_options: Optional[dict] = None,
) -> None:
def _launch_server_process(self, command: list, port: int) -> None:
"""Launch the server process."""
project_root = Path(__file__).parent.parent.parent.parent.parent
logger.info(f"Command: {' '.join(command)}")
# In CI environment, redirect stdout to avoid buffer deadlock but keep stderr for debugging
# Embedding servers use many print statements that can fill stdout buffers
is_ci = os.environ.get("CI") == "true"
if is_ci:
stdout_target = subprocess.DEVNULL
stderr_target = None # Keep stderr for error debugging in CI
logger.info(
"CI environment detected, redirecting embedding server stdout to DEVNULL, keeping stderr"
)
else:
stdout_target = None # Direct to console for visible logs
stderr_target = None # Direct to console for visible logs
# Start embedding server subprocess
logger.info(f"Starting server process with command: {' '.join(command)}")
env = os.environ.copy()
encoded_options = encode_provider_options(provider_options)
if encoded_options:
env["LEANN_EMBEDDING_OPTIONS"] = encoded_options
# Let server output go directly to console
# The server will respect LEANN_LOG_LEVEL environment variable
self.server_process = subprocess.Popen(
command,
cwd=project_root,
stdout=stdout_target,
stderr=stderr_target,
env=env,
stdout=None, # Direct to console
stderr=None, # Direct to console
)
self.server_port = port
# Record config for in-process reuse (best effort; refined later when ready)
try:
self._server_config = {
"model_name": command[command.index("--model-name") + 1]
if "--model-name" in command
else "",
"passages_file": command[command.index("--passages-file") + 1]
if "--passages-file" in command
else "",
"embedding_mode": command[command.index("--embedding-mode") + 1]
if "--embedding-mode" in command
else "sentence-transformers",
"provider_options": provider_options or {},
}
except Exception:
self._server_config = {
"model_name": "",
"passages_file": "",
"embedding_mode": "sentence-transformers",
"provider_options": provider_options or {},
}
logger.info(f"Server process started with PID: {self.server_process.pid}")
# Register atexit callback only when we actually start a process
if not self._atexit_registered:
# Always attempt best-effort finalize at interpreter exit
atexit.register(self._finalize_process)
# Use a lambda to avoid issues with bound methods
atexit.register(lambda: self.stop_server() if self.server_process else None)
self._atexit_registered = True
# Touch finalizer so it knows there is a live process
if getattr(self, "_finalizer", None) is not None and not self._finalizer.alive:
try:
import weakref
self._finalizer = weakref.finalize(self, self._finalize_process)
except Exception:
pass
def _wait_for_server_ready(self, port: int) -> tuple[bool, int]:
"""Wait for the server to be ready."""
@@ -335,35 +343,24 @@ class EmbeddingServerManager:
if not self.server_process:
return
if self.server_process and self.server_process.poll() is not None:
if self.server_process.poll() is not None:
# Process already terminated
self.server_process = None
self.server_port = None
self._server_config = None
return
logger.info(
f"Terminating server process (PID: {self.server_process.pid}) for backend {self.backend_module_name}..."
)
# Use simple termination first; if the server installed signal handlers,
# it will exit cleanly. Otherwise escalate to kill after a short wait.
try:
self.server_process.terminate()
except Exception:
pass
self.server_process.terminate()
try:
self.server_process.wait(timeout=5) # Give more time for graceful shutdown
logger.info(f"Server process {self.server_process.pid} terminated gracefully.")
self.server_process.wait(timeout=3)
logger.info(f"Server process {self.server_process.pid} terminated.")
except subprocess.TimeoutExpired:
logger.warning(
f"Server process {self.server_process.pid} did not terminate within 5 seconds, force killing..."
f"Server process {self.server_process.pid} did not terminate gracefully within 3 seconds, killing it."
)
try:
self.server_process.kill()
except Exception:
pass
self.server_process.kill()
try:
self.server_process.wait(timeout=2)
logger.info(f"Server process {self.server_process.pid} killed successfully.")
@@ -371,70 +368,34 @@ class EmbeddingServerManager:
logger.error(
f"Failed to kill server process {self.server_process.pid} - it may be hung"
)
# Don't hang indefinitely
# Clean up process resources with timeout to avoid CI hang
# Clean up process resources to prevent resource tracker warnings
try:
# Use shorter timeout in CI environments
is_ci = os.environ.get("CI") == "true"
timeout = 3 if is_ci else 10
self.server_process.wait(timeout=timeout)
logger.info(f"Server process {self.server_process.pid} cleanup completed")
except subprocess.TimeoutExpired:
logger.warning(f"Process cleanup timeout after {timeout}s, proceeding anyway")
except Exception as e:
logger.warning(f"Error during process cleanup: {e}")
finally:
self.server_process = None
self.server_port = None
self._server_config = None
def _finalize_process(self) -> None:
"""Best-effort cleanup used by weakref.finalize/atexit."""
try:
self.stop_server()
self.server_process.wait() # Ensure process is fully cleaned up
except Exception:
pass
def _adopt_existing_server(self, *args, **kwargs) -> None:
# Removed: cross-process adoption no longer supported
return
self.server_process = None
def _launch_server_process_colab(
self,
command: list,
port: int,
provider_options: Optional[dict] = None,
) -> None:
def _launch_server_process_colab(self, command: list, port: int) -> None:
"""Launch the server process with Colab-specific settings."""
logger.info(f"Colab Command: {' '.join(command)}")
# In Colab, we need to be more careful about process management
env = os.environ.copy()
encoded_options = encode_provider_options(provider_options)
if encoded_options:
env["LEANN_EMBEDDING_OPTIONS"] = encoded_options
self.server_process = subprocess.Popen(
command,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
env=env,
)
self.server_port = port
logger.info(f"Colab server process started with PID: {self.server_process.pid}")
# Register atexit callback (unified)
# Register atexit callback
if not self._atexit_registered:
atexit.register(self._finalize_process)
atexit.register(lambda: self.stop_server() if self.server_process else None)
self._atexit_registered = True
# Record config for in-process reuse is best-effort in Colab mode
self._server_config = {
"model_name": "",
"passages_file": "",
"embedding_mode": "sentence-transformers",
"provider_options": provider_options or {},
}
def _wait_for_server_ready_colab(self, port: int) -> tuple[bool, int]:
"""Wait for the server to be ready with Colab-specific timeout."""

10
packages/leann-core/src/leann/interface.py
View File

@@ -1,5 +1,5 @@
from abc import ABC, abstractmethod
from typing import Any, Literal, Optional
from typing import Any, Literal
import numpy as np
@@ -34,9 +34,7 @@ class LeannBackendSearcherInterface(ABC):
pass
@abstractmethod
def _ensure_server_running(
self, passages_source_file: str, port: Optional[int], **kwargs
) -> int:
def _ensure_server_running(self, passages_source_file: str, port: int | None, **kwargs) -> int:
"""Ensure server is running"""
pass
@@ -50,7 +48,7 @@ class LeannBackendSearcherInterface(ABC):
prune_ratio: float = 0.0,
recompute_embeddings: bool = False,
pruning_strategy: Literal["global", "local", "proportional"] = "global",
zmq_port: Optional[int] = None,
zmq_port: int | None = None,
**kwargs,
) -> dict[str, Any]:
"""Search for nearest neighbors
@@ -76,7 +74,7 @@ class LeannBackendSearcherInterface(ABC):
self,
query: str,
use_server_if_available: bool = True,
zmq_port: Optional[int] = None,
zmq_port: int | None = None,
) -> np.ndarray:
"""Compute embedding for a query string

26
packages/leann-core/src/leann/mcp.py
View File

@@ -64,6 +64,19 @@ def handle_request(request):
"required": ["index_name", "query"],
},
},
{
"name": "leann_status",
"description": "📊 Check the health and stats of your code indexes - like a medical checkup for your codebase knowledge!",
"inputSchema": {
"type": "object",
"properties": {
"index_name": {
"type": "string",
"description": "Optional: Name of specific index to check. If not provided, shows status of all indexes.",
}
},
},
},
{
"name": "leann_list",
"description": "📋 Show all your indexed codebases - your personal code library! Use this to see what's available for search.",
@@ -94,7 +107,7 @@ def handle_request(request):
},
}
# Build simplified command with non-interactive flag for MCP compatibility
# Build simplified command
cmd = [
"leann",
"search",
@@ -102,10 +115,19 @@ def handle_request(request):
args["query"],
f"--top-k={args.get('top_k', 5)}",
f"--complexity={args.get('complexity', 32)}",
"--non-interactive",
]
result = subprocess.run(cmd, capture_output=True, text=True)
elif tool_name == "leann_status":
if args.get("index_name"):
# Check specific index status - for now, we'll use leann list and filter
result = subprocess.run(["leann", "list"], capture_output=True, text=True)
# We could enhance this to show more detailed status per index
else:
# Show all indexes status
result = subprocess.run(["leann", "list"], capture_output=True, text=True)
elif tool_name == "leann_list":
result = subprocess.run(["leann", "list"], capture_output=True, text=True)

240
packages/leann-core/src/leann/metadata_filter.py
View File

@@ -1,240 +0,0 @@
"""
Metadata filtering engine for LEANN search results.
This module provides generic metadata filtering capabilities that can be applied
to search results from any LEANN backend. The filtering supports various
operators for different data types including numbers, strings, booleans, and lists.
"""
import logging
from typing import Any, Union
logger = logging.getLogger(__name__)
# Type alias for filter specifications
FilterValue = Union[str, int, float, bool, list]
FilterSpec = dict[str, FilterValue]
MetadataFilters = dict[str, FilterSpec]
class MetadataFilterEngine:
"""
Engine for evaluating metadata filters against search results.
Supports various operators for filtering based on metadata fields:
- Comparison: ==, !=, <, <=, >, >=
- Membership: in, not_in
- String operations: contains, starts_with, ends_with
- Boolean operations: is_true, is_false
"""
def __init__(self):
"""Initialize the filter engine with supported operators."""
self.operators = {
"==": self._equals,
"!=": self._not_equals,
"<": self._less_than,
"<=": self._less_than_or_equal,
">": self._greater_than,
">=": self._greater_than_or_equal,
"in": self._in,
"not_in": self._not_in,
"contains": self._contains,
"starts_with": self._starts_with,
"ends_with": self._ends_with,
"is_true": self._is_true,
"is_false": self._is_false,
}
def apply_filters(
self, search_results: list[dict[str, Any]], metadata_filters: MetadataFilters
) -> list[dict[str, Any]]:
"""
Apply metadata filters to a list of search results.
Args:
search_results: List of result dictionaries, each containing 'metadata' field
metadata_filters: Dictionary of filter specifications
Format: {"field_name": {"operator": value}}
Returns:
Filtered list of search results
"""
if not metadata_filters:
return search_results
logger.debug(f"Applying filters: {metadata_filters}")
logger.debug(f"Input results count: {len(search_results)}")
filtered_results = []
for result in search_results:
if self._evaluate_filters(result, metadata_filters):
filtered_results.append(result)
logger.debug(f"Filtered results count: {len(filtered_results)}")
return filtered_results
def _evaluate_filters(self, result: dict[str, Any], filters: MetadataFilters) -> bool:
"""
Evaluate all filters against a single search result.
All filters must pass (AND logic) for the result to be included.
Args:
result: Full search result dictionary (including metadata, text, etc.)
filters: Filter specifications to evaluate
Returns:
True if all filters pass, False otherwise
"""
for field_name, filter_spec in filters.items():
if not self._evaluate_field_filter(result, field_name, filter_spec):
return False
return True
def _evaluate_field_filter(
self, result: dict[str, Any], field_name: str, filter_spec: FilterSpec
) -> bool:
"""
Evaluate a single field filter against a search result.
Args:
result: Full search result dictionary
field_name: Name of the field to filter on
filter_spec: Filter specification for this field
Returns:
True if the filter passes, False otherwise
"""
# First check top-level fields, then check metadata
field_value = result.get(field_name)
if field_value is None:
# Try to get from metadata if not found at top level
metadata = result.get("metadata", {})
field_value = metadata.get(field_name)
# Handle missing fields - they fail all filters except existence checks
if field_value is None:
logger.debug(f"Field '{field_name}' not found in result or metadata")
return False
# Evaluate each operator in the filter spec
for operator, expected_value in filter_spec.items():
if operator not in self.operators:
logger.warning(f"Unsupported operator: {operator}")
return False
try:
if not self.operators[operator](field_value, expected_value):
logger.debug(
f"Filter failed: {field_name} {operator} {expected_value} "
f"(actual: {field_value})"
)
return False
except Exception as e:
logger.warning(
f"Error evaluating filter {field_name} {operator} {expected_value}: {e}"
)
return False
return True
# Comparison operators
def _equals(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value equals expected value."""
return field_value == expected_value
def _not_equals(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value does not equal expected value."""
return field_value != expected_value
def _less_than(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is less than expected value."""
return self._numeric_compare(field_value, expected_value, lambda a, b: a < b)
def _less_than_or_equal(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is less than or equal to expected value."""
return self._numeric_compare(field_value, expected_value, lambda a, b: a <= b)
def _greater_than(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is greater than expected value."""
return self._numeric_compare(field_value, expected_value, lambda a, b: a > b)
def _greater_than_or_equal(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is greater than or equal to expected value."""
return self._numeric_compare(field_value, expected_value, lambda a, b: a >= b)
# Membership operators
def _in(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is in the expected list/collection."""
if not isinstance(expected_value, (list, tuple, set)):
raise ValueError("'in' operator requires a list, tuple, or set")
return field_value in expected_value
def _not_in(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is not in the expected list/collection."""
if not isinstance(expected_value, (list, tuple, set)):
raise ValueError("'not_in' operator requires a list, tuple, or set")
return field_value not in expected_value
# String operators
def _contains(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value contains the expected substring."""
field_str = str(field_value)
expected_str = str(expected_value)
return expected_str in field_str
def _starts_with(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value starts with the expected prefix."""
field_str = str(field_value)
expected_str = str(expected_value)
return field_str.startswith(expected_str)
def _ends_with(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value ends with the expected suffix."""
field_str = str(field_value)
expected_str = str(expected_value)
return field_str.endswith(expected_str)
# Boolean operators
def _is_true(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is truthy."""
return bool(field_value)
def _is_false(self, field_value: Any, expected_value: Any) -> bool:
"""Check if field value is falsy."""
return not bool(field_value)
# Helper methods
def _numeric_compare(self, field_value: Any, expected_value: Any, compare_func) -> bool:
"""
Helper for numeric comparisons with type coercion.
Args:
field_value: Value from metadata
expected_value: Value to compare against
compare_func: Comparison function to apply
Returns:
Result of comparison
"""
try:
# Try to convert both values to numbers for comparison
if isinstance(field_value, str) and isinstance(expected_value, str):
# String comparison if both are strings
return compare_func(field_value, expected_value)
# Numeric comparison - attempt to convert to float
field_num = (
float(field_value) if not isinstance(field_value, (int, float)) else field_value
)
expected_num = (
float(expected_value)
if not isinstance(expected_value, (int, float))
else expected_value
)
return compare_func(field_num, expected_num)
except (ValueError, TypeError):
# Fall back to string comparison if numeric conversion fails
return compare_func(str(field_value), str(expected_value))

61
packages/leann-core/src/leann/registry.py
View File

@@ -2,17 +2,11 @@
import importlib
import importlib.metadata
import json
import logging
from pathlib import Path
from typing import TYPE_CHECKING, Optional, Union
from typing import TYPE_CHECKING
if TYPE_CHECKING:
from leann.interface import LeannBackendFactoryInterface
# Set up logger for this module
logger = logging.getLogger(__name__)
BACKEND_REGISTRY: dict[str, "LeannBackendFactoryInterface"] = {}
@@ -20,7 +14,7 @@ def register_backend(name: str):
"""A decorator to register a new backend class."""
def decorator(cls):
logger.debug(f"Registering backend '{name}'")
print(f"INFO: Registering backend '{name}'")
BACKEND_REGISTRY[name] = cls
return cls
@@ -45,54 +39,3 @@ def autodiscover_backends():
# print(f"WARN: Could not import backend module '{backend_module_name}': {e}")
pass
# print("INFO: Backend auto-discovery finished.")
def register_project_directory(project_dir: Optional[Union[str, Path]] = None):
"""
Register a project directory in the global LEANN registry.
This allows `leann list` to discover indexes created by apps or other tools.
Args:
project_dir: Directory to register. If None, uses current working directory.
"""
if project_dir is None:
project_dir = Path.cwd()
else:
project_dir = Path(project_dir)
# Only register directories that have some kind of LEANN content
# Either .leann/indexes/ (CLI format) or *.leann.meta.json files (apps format)
has_cli_indexes = (project_dir / ".leann" / "indexes").exists()
has_app_indexes = any(project_dir.rglob("*.leann.meta.json"))
if not (has_cli_indexes or has_app_indexes):
# Don't register if there are no LEANN indexes
return
global_registry = Path.home() / ".leann" / "projects.json"
global_registry.parent.mkdir(exist_ok=True)
project_str = str(project_dir.resolve())
# Load existing registry
projects = []
if global_registry.exists():
try:
with open(global_registry) as f:
projects = json.load(f)
except Exception:
logger.debug("Could not load existing project registry")
projects = []
# Add project if not already present
if project_str not in projects:
projects.append(project_str)
# Save updated registry
try:
with open(global_registry, "w") as f:
json.dump(projects, f, indent=2)
logger.debug(f"Registered project directory: {project_str}")
except Exception as e:
logger.warning(f"Could not save project registry: {e}")

13
packages/leann-core/src/leann/searcher_base.py
View File

@@ -1,7 +1,7 @@
import json
from abc import ABC, abstractmethod
from pathlib import Path
from typing import Any, Literal, Optional
from typing import Any, Literal
import numpy as np
@@ -41,7 +41,6 @@ class BaseSearcher(LeannBackendSearcherInterface, ABC):
print("WARNING: embedding_model not found in meta.json. Recompute will fail.")
self.embedding_mode = self.meta.get("embedding_mode", "sentence-transformers")
self.embedding_options = self.meta.get("embedding_options", {})
self.embedding_server_manager = EmbeddingServerManager(
backend_module_name=backend_module_name,
@@ -78,7 +77,6 @@ class BaseSearcher(LeannBackendSearcherInterface, ABC):
passages_file=passages_source_file,
distance_metric=distance_metric,
enable_warmup=kwargs.get("enable_warmup", False),
provider_options=self.embedding_options,
)
if not server_started:
raise RuntimeError(f"Failed to start embedding server on port {actual_port}")
@@ -127,12 +125,7 @@ class BaseSearcher(LeannBackendSearcherInterface, ABC):
from .embedding_compute import compute_embeddings
embedding_mode = self.meta.get("embedding_mode", "sentence-transformers")
return compute_embeddings(
[query],
self.embedding_model,
embedding_mode,
provider_options=self.embedding_options,
)
return compute_embeddings([query], self.embedding_model, embedding_mode)
def _compute_embedding_via_server(self, chunks: list, zmq_port: int) -> np.ndarray:
"""Compute embeddings using the ZMQ embedding server."""
@@ -176,7 +169,7 @@ class BaseSearcher(LeannBackendSearcherInterface, ABC):
prune_ratio: float = 0.0,
recompute_embeddings: bool = False,
pruning_strategy: Literal["global", "local", "proportional"] = "global",
zmq_port: Optional[int] = None,
zmq_port: int | None = None,
**kwargs,
) -> dict[str, Any]:
"""

74
packages/leann-core/src/leann/settings.py
View File

@@ -1,74 +0,0 @@
"""Runtime configuration helpers for LEANN."""
from __future__ import annotations
import json
import os
from typing import Any
# Default fallbacks to preserve current behaviour while keeping them in one place.
_DEFAULT_OLLAMA_HOST = "http://localhost:11434"
_DEFAULT_OPENAI_BASE_URL = "https://api.openai.com/v1"
def _clean_url(value: str) -> str:
"""Normalize URL strings by stripping trailing slashes."""
return value.rstrip("/") if value else value
def resolve_ollama_host(explicit: str | None = None) -> str:
"""Resolve the Ollama-compatible endpoint to use."""
candidates = (
explicit,
os.getenv("LEANN_LOCAL_LLM_HOST"),
os.getenv("LEANN_OLLAMA_HOST"),
os.getenv("OLLAMA_HOST"),
os.getenv("LOCAL_LLM_ENDPOINT"),
)
for candidate in candidates:
if candidate:
return _clean_url(candidate)
return _clean_url(_DEFAULT_OLLAMA_HOST)
def resolve_openai_base_url(explicit: str | None = None) -> str:
"""Resolve the base URL for OpenAI-compatible services."""
candidates = (
explicit,
os.getenv("LEANN_OPENAI_BASE_URL"),
os.getenv("OPENAI_BASE_URL"),
os.getenv("LOCAL_OPENAI_BASE_URL"),
)
for candidate in candidates:
if candidate:
return _clean_url(candidate)
return _clean_url(_DEFAULT_OPENAI_BASE_URL)
def resolve_openai_api_key(explicit: str | None = None) -> str | None:
"""Resolve the API key for OpenAI-compatible services."""
if explicit:
return explicit
return os.getenv("OPENAI_API_KEY")
def encode_provider_options(options: dict[str, Any] | None) -> str | None:
"""Serialize provider options for child processes."""
if not options:
return None
try:
return json.dumps(options)
except (TypeError, ValueError):
# Fall back to empty payload if serialization fails
return None

90
packages/leann-mcp/README.md
View File

@@ -2,33 +2,29 @@
Transform your development workflow with intelligent code assistance using LEANN's semantic search directly in Claude Code.
For agent-facing discovery details, see `llms.txt` in the repository root.
## Prerequisites
Install LEANN globally for MCP integration (with default backend):
**Step 1:** First, complete the basic LEANN installation following the [📦 Installation guide](../../README.md#installation) in the root README:
```bash
uv tool install leann-core --with leann
uv venv
source .venv/bin/activate
uv pip install leann
```
This installs the `leann` CLI into an isolated tool environment and includes both backends so `leann build` works out-of-the-box.
**Step 2:** Install LEANN globally for MCP integration:
```bash
uv tool install leann-core
```
This makes the `leann` command available system-wide, which `leann_mcp` requires.
## 🚀 Quick Setup
Add the LEANN MCP server to Claude Code. Choose the scope based on how widely you want it available. Below is the command to install it globally; if you prefer a local install, skip this step:
Add the LEANN MCP server to Claude Code:
```bash
# Global (recommended): available in all projects for your user
claude mcp add --scope user leann-server -- leann_mcp
```
- `leann-server`: the display name of the MCP server in Claude Code (you can change it).
- `leann_mcp`: the Python entry point installed with LEANN that starts the MCP server.
Verify it is registered globally:
```bash
claude mcp list | cat
claude mcp add leann-server -- leann_mcp
```
## 🛠️ Available Tools
@@ -37,64 +33,19 @@ Once connected, you'll have access to these powerful semantic search tools in Cl
- **`leann_list`** - List all available indexes across your projects
- **`leann_search`** - Perform semantic searches across code and documents
- **`leann_ask`** - Ask natural language questions and get AI-powered answers from your codebase
## 🎯 Quick Start Example
```bash
# Add locally if you did not add it globally (current folder only; default if --scope is omitted)
claude mcp add leann-server -- leann_mcp
# Build an index for your project (change to your actual path)
# See the advanced examples below for more ways to configure indexing
# Set the index name (replace 'my-project' with your own)
leann build my-project --docs $(git ls-files)
leann build my-project --docs ./
# Start Claude Code
claude
```
## 🚀 Advanced Usage Examples to build the index
### Index Entire Git Repository
```bash
# Index all tracked files in your Git repository.
# Note: submodules are currently skipped; we can add them back if needed.
leann build my-repo --docs $(git ls-files) --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# Index only tracked Python files from Git.
leann build my-python-code --docs $(git ls-files "*.py") --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# If you encounter empty requests caused by empty files (e.g., __init__.py), exclude zero-byte files. Thanks @ww2283 for pointing [that](https://github.com/yichuan-w/LEANN/issues/48) out
leann build leann-prospec-lig --docs $(find ./src -name "*.py" -not -empty) --embedding-mode openai --embedding-model text-embedding-3-small
```
### Multiple Directories and Files
```bash
# Index multiple directories
leann build my-codebase --docs ./src ./tests ./docs ./config --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# Mix files and directories
leann build my-project --docs ./README.md ./src/ ./package.json ./docs/ --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# Specific files only
leann build my-configs --docs ./tsconfig.json ./package.json ./webpack.config.js --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
```
### Advanced Git Integration
```bash
# Index recently modified files
leann build recent-changes --docs $(git diff --name-only HEAD~10..HEAD) --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# Index files matching pattern
leann build frontend --docs $(git ls-files "*.tsx" "*.ts" "*.jsx" "*.js") --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
# Index documentation and config files
leann build docs-and-configs --docs $(git ls-files "*.md" "*.yml" "*.yaml" "*.json" "*.toml") --embedding-mode sentence-transformers --embedding-model all-MiniLM-L6-v2 --backend hnsw
```
## **Try this in Claude Code:**
**Try this in Claude Code:**
```
Help me understand this codebase. List available indexes and search for authentication patterns.
```
@@ -103,7 +54,6 @@ Help me understand this codebase. List available indexes and search for authenti
<img src="../../assets/claude_code_leann.png" alt="LEANN in Claude Code" width="80%">
</p>
If you see a prompt asking whether to proceed with LEANN, you can now use it in your chat!
## 🧠 How It Works
@@ -139,11 +89,3 @@ To remove LEANN
```
uv pip uninstall leann leann-backend-hnsw leann-core
```
To globally remove LEANN (for version update)
```
uv tool list | cat
uv tool uninstall leann-core
command -v leann || echo "leann gone"
command -v leann_mcp || echo "leann_mcp gone"
```

2
packages/leann/pyproject.toml
View File

@@ -4,7 +4,7 @@ build-backend = "setuptools.build_meta"
[project]
name = "leann"
version = "0.3.4"
version = "0.2.6"
description = "LEANN - The smallest vector index in the world. RAG Everything with LEANN!"
readme = "README.md"
requires-python = ">=3.9"

1
packages/wechat-exporter/__init__.py
View File

@@ -1 +0,0 @@
__all__ = []

6
packages/wechat-exporter/main.py
View File

@@ -136,9 +136,5 @@ def export_sqlite(
connection.commit()
def main():
app()
if __name__ == "__main__":
main()
app()

47
pyproject.toml
View File

@@ -10,10 +10,11 @@ requires-python = ">=3.9"
dependencies = [
"leann-core",
"leann-backend-hnsw",
"typer>=0.12.3",
"numpy>=1.26.0",
"torch",
"tqdm",
"flask",
"flask_compress",
"datasets>=2.15.0",
"evaluate",
"colorama",
@@ -39,20 +40,12 @@ dependencies = [
# Other dependencies
"ipykernel==6.29.5",
"msgpack>=1.1.1",
"mlx>=0.26.3; sys_platform == 'darwin' and platform_machine == 'arm64'",
"mlx-lm>=0.26.0; sys_platform == 'darwin' and platform_machine == 'arm64'",
"mlx>=0.26.3; sys_platform == 'darwin'",
"mlx-lm>=0.26.0; sys_platform == 'darwin'",
"psutil>=5.8.0",
"pybind11>=3.0.0",
"pathspec>=0.12.1",
"nbconvert>=7.16.6",
"gitignore-parser>=0.1.12",
# AST-aware code chunking dependencies
"astchunk>=0.1.0",
"tree-sitter>=0.20.0",
"tree-sitter-python>=0.20.0",
"tree-sitter-java>=0.20.0",
"tree-sitter-c-sharp>=0.20.0",
"tree-sitter-typescript>=0.20.0",
]
[project.optional-dependencies]
@@ -61,7 +54,7 @@ dev = [
"pytest-cov>=4.0",
"pytest-xdist>=3.0", # For parallel test execution
"black>=23.0",
"ruff==0.12.7", # Fixed version to ensure consistent formatting across all environments
"ruff>=0.1.0",
"matplotlib",
"huggingface-hub>=0.20.0",
"pre-commit>=3.5.0",
@@ -71,7 +64,9 @@ test = [
"pytest>=7.0",
"pytest-timeout>=2.0",
"llama-index-core>=0.12.0",
"llama-index-readers-file>=0.4.0",
"python-dotenv>=1.0.0",
"sentence-transformers>=2.2.0",
]
diskann = [
@@ -88,24 +83,23 @@ documents = [
[tool.setuptools]
py-modules = []
packages = ["wechat_exporter"]
package-dir = { "wechat_exporter" = "packages/wechat-exporter" }
[project.scripts]
wechat-exporter = "wechat_exporter.main:main"
[tool.uv.sources]
leann-core = { path = "packages/leann-core", editable = true }
leann-backend-diskann = { path = "packages/leann-backend-diskann", editable = true }
leann-backend-hnsw = { path = "packages/leann-backend-hnsw", editable = true }
astchunk = { path = "packages/astchunk-leann", editable = true }
[tool.ruff]
target-version = "py39"
target-version = "py310"
line-length = 100
extend-exclude = ["third_party"]
extend-exclude = [
"third_party",
"*.egg-info",
"__pycache__",
".git",
".venv",
]
[tool.ruff.lint]
select = [
@@ -128,12 +122,21 @@ ignore = [
"RUF012", # mutable class attributes should be annotated with typing.ClassVar
]
[tool.ruff.lint.per-file-ignores]
"test/**/*.py" = ["E402"] # module level import not at top of file (common in tests)
"examples/**/*.py" = ["E402"] # module level import not at top of file (common in examples)
[tool.ruff.format]
quote-style = "double"
indent-style = "space"
skip-magic-trailing-comma = false
line-ending = "auto"
[dependency-groups]
dev = [
"ruff>=0.12.4",
]
[tool.lychee]
accept = ["200", "403", "429", "503"]
timeout = 20
@@ -151,7 +154,7 @@ markers = [
"slow: marks tests as slow (deselect with '-m \"not slow\"')",
"openai: marks tests that require OpenAI API key",
]
timeout = 300 # Reduced from 600s (10min) to 300s (5min) for CI safety
timeout = 600
addopts = [
"-v",
"--tb=short",

76
sky/leann-build.yaml
View File

@@ -1,76 +0,0 @@
name: leann-build
resources:
# Choose a GPU for fast embeddings (examples: L4, A10G, A100). CPU also works but is slower.
accelerators: L4:1
# Optionally pin a cloud, otherwise SkyPilot will auto-select
# cloud: aws
disk_size: 100
envs:
# Build parameters (override with: sky launch -c leann-gpu sky/leann-build.yaml -e key=value)
index_name: my-index
docs: ./data
backend: hnsw # hnsw | diskann
complexity: 64
graph_degree: 32
num_threads: 8
# Embedding selection
embedding_mode: sentence-transformers # sentence-transformers | openai | mlx | ollama
embedding_model: facebook/contriever
# Storage/latency knobs
recompute: true # true => selective recomputation (recommended)
compact: true # for HNSW only
# Optional pass-through
extra_args: ""
# Rebuild control
force: true
# Sync local paths to the remote VM. Adjust as needed.
file_mounts:
# Example: mount your local data directory used for building
~/leann-data: ${docs}
setup: |
set -e
# Install uv (package manager)
curl -LsSf https://astral.sh/uv/install.sh | sh
export PATH="$HOME/.local/bin:$PATH"
# Ensure modern libstdc++ for FAISS (GLIBCXX >= 3.4.30)
sudo apt-get update -y
sudo apt-get install -y libstdc++6 libgomp1
# Also upgrade conda's libstdc++ in base env (Skypilot images include conda)
if command -v conda >/dev/null 2>&1; then
conda install -y -n base -c conda-forge libstdcxx-ng
fi
# Install LEANN CLI and backends into the user environment
uv pip install --upgrade pip
uv pip install leann-core leann-backend-hnsw leann-backend-diskann
run: |
export PATH="$HOME/.local/bin:$PATH"
# Derive flags from env
recompute_flag=""
if [ "${recompute}" = "false" ] || [ "${recompute}" = "0" ]; then
recompute_flag="--no-recompute"
fi
force_flag=""
if [ "${force}" = "true" ] || [ "${force}" = "1" ]; then
force_flag="--force"
fi
# Build command
python -m leann.cli build ${index_name} \
--docs ~/leann-data \
--backend ${backend} \
--complexity ${complexity} \
--graph-degree ${graph_degree} \
--num-threads ${num_threads} \
--embedding-mode ${embedding_mode} \
--embedding-model ${embedding_model} \
${recompute_flag} ${force_flag} ${extra_args}
# Print where the index is stored for downstream rsync
echo "INDEX_OUT_DIR=~/.leann/indexes/${index_name}"

23
tests/README.md
View File

@@ -6,11 +6,10 @@ This directory contains automated tests for the LEANN project using pytest.
### `test_readme_examples.py`
Tests the examples shown in README.md:
- The basic example code that users see first (parametrized for both HNSW and DiskANN backends)
- The basic example code that users see first
- Import statements work correctly
- Different backend options (HNSW, DiskANN)
- Different LLM configuration options (parametrized for both backends)
- **All main README examples are tested with both HNSW and DiskANN backends using pytest parametrization**
- Different LLM configuration options
### `test_basic.py`
Basic functionality tests that verify:
@@ -26,16 +25,6 @@ Tests the document RAG example functionality:
- Tests error handling with invalid parameters
- Verifies that normalized embeddings are detected and cosine distance is used
### `test_diskann_partition.py`
Tests DiskANN graph partitioning functionality:
- Tests DiskANN index building without partitioning (baseline)
- Tests automatic graph partitioning with `is_recompute=True`
- Verifies that partition files are created and large files are cleaned up for storage saving
- Tests search functionality with partitioned indices
- Validates medoid and max_base_norm file generation and usage
- Includes performance comparison between DiskANN (with partition) and HNSW
- **Note**: These tests are skipped in CI due to hardware requirements and computation time
## Running Tests
### Install test dependencies:
@@ -65,23 +54,15 @@ pytest tests/ -m "not openai"
# Skip slow tests
pytest tests/ -m "not slow"
# Run DiskANN partition tests (requires local machine, not CI)
pytest tests/test_diskann_partition.py
```
### Run with specific backend:
```bash
# Test only HNSW backend
pytest tests/test_basic.py::test_backend_basic[hnsw]
pytest tests/test_readme_examples.py::test_readme_basic_example[hnsw]
# Test only DiskANN backend
pytest tests/test_basic.py::test_backend_basic[diskann]
pytest tests/test_readme_examples.py::test_readme_basic_example[diskann]
# All DiskANN tests (parametrized + specialized partition tests)
pytest tests/ -k diskann
```
## CI/CD Integration

397
tests/test_astchunk_integration.py
View File

@@ -1,397 +0,0 @@
"""
Test suite for astchunk integration with LEANN.
Tests AST-aware chunking functionality, language detection, and fallback mechanisms.
"""
import os
import subprocess
import sys
import tempfile
from pathlib import Path
from unittest.mock import patch
import pytest
# Add apps directory to path for imports
sys.path.insert(0, str(Path(__file__).parent.parent / "apps"))
from typing import Optional
from chunking import (
create_ast_chunks,
create_text_chunks,
create_traditional_chunks,
detect_code_files,
get_language_from_extension,
)
class MockDocument:
"""Mock LlamaIndex Document for testing."""
def __init__(self, content: str, file_path: str = "", metadata: Optional[dict] = None):
self.content = content
self.metadata = metadata or {}
if file_path:
self.metadata["file_path"] = file_path
def get_content(self) -> str:
return self.content
class TestCodeFileDetection:
"""Test code file detection and language mapping."""
def test_detect_code_files_python(self):
"""Test detection of Python files."""
docs = [
MockDocument("print('hello')", "/path/to/file.py"),
MockDocument("This is text", "/path/to/file.txt"),
]
code_docs, text_docs = detect_code_files(docs)
assert len(code_docs) == 1
assert len(text_docs) == 1
assert code_docs[0].metadata["language"] == "python"
assert code_docs[0].metadata["is_code"] is True
assert text_docs[0].metadata["is_code"] is False
def test_detect_code_files_multiple_languages(self):
"""Test detection of multiple programming languages."""
docs = [
MockDocument("def func():", "/path/to/script.py"),
MockDocument("public class Test {}", "/path/to/Test.java"),
MockDocument("interface ITest {}", "/path/to/test.ts"),
MockDocument("using System;", "/path/to/Program.cs"),
MockDocument("Regular text content", "/path/to/document.txt"),
]
code_docs, text_docs = detect_code_files(docs)
assert len(code_docs) == 4
assert len(text_docs) == 1
languages = [doc.metadata["language"] for doc in code_docs]
assert "python" in languages
assert "java" in languages
assert "typescript" in languages
assert "csharp" in languages
def test_detect_code_files_no_file_path(self):
"""Test handling of documents without file paths."""
docs = [
MockDocument("some content"),
MockDocument("other content", metadata={"some_key": "value"}),
]
code_docs, text_docs = detect_code_files(docs)
assert len(code_docs) == 0
assert len(text_docs) == 2
for doc in text_docs:
assert doc.metadata["is_code"] is False
def test_get_language_from_extension(self):
"""Test language detection from file extensions."""
assert get_language_from_extension("test.py") == "python"
assert get_language_from_extension("Test.java") == "java"
assert get_language_from_extension("component.tsx") == "typescript"
assert get_language_from_extension("Program.cs") == "csharp"
assert get_language_from_extension("document.txt") is None
assert get_language_from_extension("") is None
class TestChunkingFunctions:
"""Test various chunking functionality."""
def test_create_traditional_chunks(self):
"""Test traditional text chunking."""
docs = [
MockDocument(
"This is a test document. It has multiple sentences. We want to test chunking."
)
]
chunks = create_traditional_chunks(docs, chunk_size=50, chunk_overlap=10)
assert len(chunks) > 0
assert all(isinstance(chunk, str) for chunk in chunks)
assert all(len(chunk.strip()) > 0 for chunk in chunks)
def test_create_traditional_chunks_empty_docs(self):
"""Test traditional chunking with empty documents."""
chunks = create_traditional_chunks([], chunk_size=50, chunk_overlap=10)
assert chunks == []
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip astchunk tests in CI - dependency may not be available",
)
def test_create_ast_chunks_with_astchunk_available(self):
"""Test AST chunking when astchunk is available."""
python_code = '''
def hello_world():
"""Print hello world message."""
print("Hello, World!")
def add_numbers(a, b):
"""Add two numbers and return the result."""
return a + b
class Calculator:
"""A simple calculator class."""
def __init__(self):
self.history = []
def add(self, a, b):
result = a + b
self.history.append(f"{a} + {b} = {result}")
return result
'''
docs = [MockDocument(python_code, "/test/calculator.py", {"language": "python"})]
try:
chunks = create_ast_chunks(docs, max_chunk_size=200, chunk_overlap=50)
# Should have multiple chunks due to different functions/classes
assert len(chunks) > 0
assert all(isinstance(chunk, str) for chunk in chunks)
assert all(len(chunk.strip()) > 0 for chunk in chunks)
# Check that code structure is somewhat preserved
combined_content = " ".join(chunks)
assert "def hello_world" in combined_content
assert "class Calculator" in combined_content
except ImportError:
# astchunk not available, should fall back to traditional chunking
chunks = create_ast_chunks(docs, max_chunk_size=200, chunk_overlap=50)
assert len(chunks) > 0 # Should still get chunks from fallback
def test_create_ast_chunks_fallback_to_traditional(self):
"""Test AST chunking falls back to traditional when astchunk is not available."""
docs = [MockDocument("def test(): pass", "/test/script.py", {"language": "python"})]
# Mock astchunk import to fail
with patch("chunking.create_ast_chunks"):
# First call (actual test) should import astchunk and potentially fail
# Let's call the actual function to test the import error handling
chunks = create_ast_chunks(docs)
# Should return some chunks (either from astchunk or fallback)
assert isinstance(chunks, list)
def test_create_text_chunks_traditional_mode(self):
"""Test text chunking in traditional mode."""
docs = [
MockDocument("def test(): pass", "/test/script.py"),
MockDocument("This is regular text.", "/test/doc.txt"),
]
chunks = create_text_chunks(docs, use_ast_chunking=False, chunk_size=50, chunk_overlap=10)
assert len(chunks) > 0
assert all(isinstance(chunk, str) for chunk in chunks)
def test_create_text_chunks_ast_mode(self):
"""Test text chunking in AST mode."""
docs = [
MockDocument("def test(): pass", "/test/script.py"),
MockDocument("This is regular text.", "/test/doc.txt"),
]
chunks = create_text_chunks(
docs,
use_ast_chunking=True,
ast_chunk_size=100,
ast_chunk_overlap=20,
chunk_size=50,
chunk_overlap=10,
)
assert len(chunks) > 0
assert all(isinstance(chunk, str) for chunk in chunks)
def test_create_text_chunks_custom_extensions(self):
"""Test text chunking with custom code file extensions."""
docs = [
MockDocument("function test() {}", "/test/script.js"), # Not in default extensions
MockDocument("Regular text", "/test/doc.txt"),
]
# First without custom extensions - should treat .js as text
chunks_without = create_text_chunks(docs, use_ast_chunking=True, code_file_extensions=None)
# Then with custom extensions - should treat .js as code
chunks_with = create_text_chunks(
docs, use_ast_chunking=True, code_file_extensions=[".js", ".jsx"]
)
# Both should return chunks
assert len(chunks_without) > 0
assert len(chunks_with) > 0
class TestIntegrationWithDocumentRAG:
"""Integration tests with the document RAG system."""
@pytest.fixture
def temp_code_dir(self):
"""Create a temporary directory with sample code files."""
with tempfile.TemporaryDirectory() as temp_dir:
temp_path = Path(temp_dir)
# Create sample Python file
python_file = temp_path / "example.py"
python_file.write_text('''
def fibonacci(n):
"""Calculate fibonacci number."""
if n <= 1:
return n
return fibonacci(n-1) + fibonacci(n-2)
class MathUtils:
@staticmethod
def factorial(n):
if n <= 1:
return 1
return n * MathUtils.factorial(n-1)
''')
# Create sample text file
text_file = temp_path / "readme.txt"
text_file.write_text("This is a sample text file for testing purposes.")
yield temp_path
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip integration tests in CI to avoid dependency issues",
)
def test_document_rag_with_ast_chunking(self, temp_code_dir):
"""Test document RAG with AST chunking enabled."""
with tempfile.TemporaryDirectory() as index_dir:
cmd = [
sys.executable,
"apps/document_rag.py",
"--llm",
"simulated",
"--embedding-model",
"facebook/contriever",
"--embedding-mode",
"sentence-transformers",
"--index-dir",
index_dir,
"--data-dir",
str(temp_code_dir),
"--enable-code-chunking",
"--query",
"How does the fibonacci function work?",
]
env = os.environ.copy()
env["HF_HUB_DISABLE_SYMLINKS"] = "1"
env["TOKENIZERS_PARALLELISM"] = "false"
try:
result = subprocess.run(
cmd,
capture_output=True,
text=True,
timeout=300, # 5 minutes
env=env,
)
# Should succeed even if astchunk is not available (fallback)
assert result.returncode == 0, f"Command failed: {result.stderr}"
output = result.stdout + result.stderr
assert "Index saved to" in output or "Using existing index" in output
except subprocess.TimeoutExpired:
pytest.skip("Test timed out - likely due to model download in CI")
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip integration tests in CI to avoid dependency issues",
)
def test_code_rag_application(self, temp_code_dir):
"""Test the specialized code RAG application."""
with tempfile.TemporaryDirectory() as index_dir:
cmd = [
sys.executable,
"apps/code_rag.py",
"--llm",
"simulated",
"--embedding-model",
"facebook/contriever",
"--index-dir",
index_dir,
"--repo-dir",
str(temp_code_dir),
"--query",
"What classes are defined in this code?",
]
env = os.environ.copy()
env["HF_HUB_DISABLE_SYMLINKS"] = "1"
env["TOKENIZERS_PARALLELISM"] = "false"
try:
result = subprocess.run(cmd, capture_output=True, text=True, timeout=300, env=env)
# Should succeed
assert result.returncode == 0, f"Command failed: {result.stderr}"
output = result.stdout + result.stderr
assert "Using AST-aware chunking" in output or "traditional chunking" in output
except subprocess.TimeoutExpired:
pytest.skip("Test timed out - likely due to model download in CI")
class TestErrorHandling:
"""Test error handling and edge cases."""
def test_text_chunking_empty_documents(self):
"""Test text chunking with empty document list."""
chunks = create_text_chunks([])
assert chunks == []
def test_text_chunking_invalid_parameters(self):
"""Test text chunking with invalid parameters."""
docs = [MockDocument("test content")]
# Should handle negative chunk sizes gracefully
chunks = create_text_chunks(
docs, chunk_size=0, chunk_overlap=0, ast_chunk_size=0, ast_chunk_overlap=0
)
# Should still return some result
assert isinstance(chunks, list)
def test_create_ast_chunks_no_language(self):
"""Test AST chunking with documents missing language metadata."""
docs = [MockDocument("def test(): pass", "/test/script.py")] # No language set
chunks = create_ast_chunks(docs)
# Should fall back to traditional chunking
assert isinstance(chunks, list)
assert len(chunks) >= 0 # May be empty if fallback also fails
def test_create_ast_chunks_empty_content(self):
"""Test AST chunking with empty content."""
docs = [MockDocument("", "/test/script.py", {"language": "python"})]
chunks = create_ast_chunks(docs)
# Should handle empty content gracefully
assert isinstance(chunks, list)
if __name__ == "__main__":
pytest.main([__file__, "-v"])

5
tests/test_basic.py
View File

@@ -64,9 +64,6 @@ def test_backend_basic(backend_name):
assert isinstance(results[0], SearchResult)
assert "topic 2" in results[0].text or "document" in results[0].text
# Ensure cleanup to avoid hanging background servers
searcher.cleanup()
@pytest.mark.skipif(
os.environ.get("CI") == "true", reason="Skip model tests in CI to avoid MPS memory issues"
@@ -93,5 +90,3 @@ def test_large_index():
searcher = LeannSearcher(index_path)
results = searcher.search(["word10 word20"], top_k=10)
assert len(results[0]) == 10
# Cleanup
searcher.cleanup()

14
tests/test_cli_ask.py
View File

@@ -1,14 +0,0 @@
from leann.cli import LeannCLI
def test_cli_ask_accepts_positional_query(tmp_path, monkeypatch):
monkeypatch.chdir(tmp_path)
cli = LeannCLI()
parser = cli.create_parser()
args = parser.parse_args(["ask", "my-docs", "Where are prompts configured?"])
assert args.command == "ask"
assert args.index_name == "my-docs"
assert args.query == "Where are prompts configured?"

369
tests/test_diskann_partition.py
View File

@@ -1,369 +0,0 @@
"""
Test DiskANN graph partitioning functionality.
Tests the automatic graph partitioning feature that was implemented to save
storage space by partitioning large DiskANN indices and safely deleting
redundant files while maintaining search functionality.
"""
import os
import tempfile
from pathlib import Path
import pytest
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip DiskANN partition tests in CI - requires specific hardware and large memory",
)
def test_diskann_without_partition():
"""Test DiskANN index building without partition (baseline)."""
from leann.api import LeannBuilder, LeannSearcher
with tempfile.TemporaryDirectory() as temp_dir:
index_path = str(Path(temp_dir) / "test_no_partition.leann")
# Test data - enough to trigger index building
texts = [
f"Document {i} discusses topic {i % 10} with detailed analysis of subject {i // 10}."
for i in range(500)
]
# Build without partition (is_recompute=False)
builder = LeannBuilder(
backend_name="diskann",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
num_neighbors=32,
search_list_size=50,
is_recompute=False, # No partition
)
for text in texts:
builder.add_text(text)
builder.build_index(index_path)
# Verify index was created
index_dir = Path(index_path).parent
assert index_dir.exists()
# Check that traditional DiskANN files exist
index_prefix = Path(index_path).stem
# Core DiskANN files (beam search index may not be created for small datasets)
required_files = [
f"{index_prefix}_disk.index",
f"{index_prefix}_pq_compressed.bin",
f"{index_prefix}_pq_pivots.bin",
]
# Check all generated files first for debugging
generated_files = [f.name for f in index_dir.glob(f"{index_prefix}*")]
print(f"Generated files: {generated_files}")
for required_file in required_files:
file_path = index_dir / required_file
assert file_path.exists(), f"Required file {required_file} not found"
# Ensure no partition files exist in non-partition mode
partition_files = [f"{index_prefix}_disk_graph.index", f"{index_prefix}_partition.bin"]
for partition_file in partition_files:
file_path = index_dir / partition_file
assert not file_path.exists(), (
f"Partition file {partition_file} should not exist in non-partition mode"
)
# Test search functionality
searcher = LeannSearcher(index_path)
results = searcher.search("topic 3 analysis", top_k=3)
assert len(results) > 0
assert all(result.score is not None and result.score != float("-inf") for result in results)
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip DiskANN partition tests in CI - requires specific hardware and large memory",
)
def test_diskann_with_partition():
"""Test DiskANN index building with automatic graph partitioning."""
from leann.api import LeannBuilder
with tempfile.TemporaryDirectory() as temp_dir:
index_path = str(Path(temp_dir) / "test_with_partition.leann")
# Test data - enough to trigger partitioning
texts = [
f"Document {i} explores subject {i % 15} with comprehensive coverage of area {i // 15}."
for i in range(500)
]
# Build with partition (is_recompute=True)
builder = LeannBuilder(
backend_name="diskann",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
num_neighbors=32,
search_list_size=50,
is_recompute=True, # Enable automatic partitioning
)
for text in texts:
builder.add_text(text)
builder.build_index(index_path)
# Verify index was created
index_dir = Path(index_path).parent
assert index_dir.exists()
# Check that partition files exist
index_prefix = Path(index_path).stem
partition_files = [
f"{index_prefix}_disk_graph.index", # Partitioned graph
f"{index_prefix}_partition.bin", # Partition metadata
f"{index_prefix}_pq_compressed.bin",
f"{index_prefix}_pq_pivots.bin",
]
for partition_file in partition_files:
file_path = index_dir / partition_file
assert file_path.exists(), f"Expected partition file {partition_file} not found"
# Check that large files were cleaned up (storage saving goal)
large_files = [f"{index_prefix}_disk.index", f"{index_prefix}_disk_beam_search.index"]
for large_file in large_files:
file_path = index_dir / large_file
assert not file_path.exists(), (
f"Large file {large_file} should have been deleted for storage saving"
)
# Verify required auxiliary files for partition mode exist
required_files = [
f"{index_prefix}_disk.index_medoids.bin",
f"{index_prefix}_disk.index_max_base_norm.bin",
]
for req_file in required_files:
file_path = index_dir / req_file
assert file_path.exists(), (
f"Required auxiliary file {req_file} missing for partition mode"
)
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip DiskANN partition tests in CI - requires specific hardware and large memory",
)
def test_diskann_partition_search_functionality():
"""Test that search works correctly with partitioned indices."""
from leann.api import LeannBuilder, LeannSearcher
with tempfile.TemporaryDirectory() as temp_dir:
index_path = str(Path(temp_dir) / "test_partition_search.leann")
# Create diverse test data
texts = [
"LEANN is a storage-efficient approximate nearest neighbor search system.",
"Graph partitioning helps reduce memory usage in large scale vector search.",
"DiskANN provides high-performance disk-based approximate nearest neighbor search.",
"Vector embeddings enable semantic search over unstructured text data.",
"Approximate nearest neighbor algorithms trade accuracy for speed and storage.",
] * 100 # Repeat to get enough data
# Build with partitioning
builder = LeannBuilder(
backend_name="diskann",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
is_recompute=True, # Enable partitioning
)
for text in texts:
builder.add_text(text)
builder.build_index(index_path)
# Test search with partitioned index
searcher = LeannSearcher(index_path)
# Test various queries
test_queries = [
("vector search algorithms", 5),
("LEANN storage efficiency", 3),
("graph partitioning memory", 4),
("approximate nearest neighbor", 7),
]
for query, top_k in test_queries:
results = searcher.search(query, top_k=top_k)
# Verify search results
assert len(results) == top_k, f"Expected {top_k} results for query '{query}'"
assert all(result.score is not None for result in results), (
"All results should have scores"
)
assert all(result.score != float("-inf") for result in results), (
"No result should have -inf score"
)
assert all(result.text is not None for result in results), (
"All results should have text"
)
# Scores should be in descending order (higher similarity first)
scores = [result.score for result in results]
assert scores == sorted(scores, reverse=True), (
"Results should be sorted by score descending"
)
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip DiskANN partition tests in CI - requires specific hardware and large memory",
)
def test_diskann_medoid_and_norm_files():
"""Test that medoid and max_base_norm files are correctly generated and used."""
import struct
from leann.api import LeannBuilder, LeannSearcher
with tempfile.TemporaryDirectory() as temp_dir:
index_path = str(Path(temp_dir) / "test_medoid_norm.leann")
# Small but sufficient dataset
texts = [f"Test document {i} with content about subject {i % 10}." for i in range(200)]
builder = LeannBuilder(
backend_name="diskann",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
is_recompute=True,
)
for text in texts:
builder.add_text(text)
builder.build_index(index_path)
index_dir = Path(index_path).parent
index_prefix = Path(index_path).stem
# Test medoids file
medoids_file = index_dir / f"{index_prefix}_disk.index_medoids.bin"
assert medoids_file.exists(), "Medoids file should be generated"
# Read and validate medoids file format
with open(medoids_file, "rb") as f:
nshards = struct.unpack("<I", f.read(4))[0]
one_val = struct.unpack("<I", f.read(4))[0]
medoid_id = struct.unpack("<I", f.read(4))[0]
assert nshards == 1, "Single-shot build should have 1 shard"
assert one_val == 1, "Expected value should be 1"
assert medoid_id >= 0, "Medoid ID should be valid (not hardcoded 0)"
# Test max_base_norm file
norm_file = index_dir / f"{index_prefix}_disk.index_max_base_norm.bin"
assert norm_file.exists(), "Max base norm file should be generated"
# Read and validate norm file
with open(norm_file, "rb") as f:
npts = struct.unpack("<I", f.read(4))[0]
ndims = struct.unpack("<I", f.read(4))[0]
norm_val = struct.unpack("<f", f.read(4))[0]
assert npts == 1, "Should have 1 norm point"
assert ndims == 1, "Should have 1 dimension"
assert norm_val > 0, "Norm value should be positive"
assert norm_val != float("inf"), "Norm value should be finite"
# Test that search works with these files
searcher = LeannSearcher(index_path)
results = searcher.search("test subject", top_k=3)
# Verify that scores are not -inf (which indicates norm file was loaded correctly)
assert len(results) > 0
assert all(result.score != float("-inf") for result in results), (
"Scores should not be -inf when norm file is correct"
)
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip performance comparison in CI - requires significant compute time",
)
def test_diskann_vs_hnsw_performance():
"""Compare DiskANN (with partition) vs HNSW performance."""
import time
from leann.api import LeannBuilder, LeannSearcher
with tempfile.TemporaryDirectory() as temp_dir:
# Test data
texts = [
f"Performance test document {i} covering topic {i % 20} in detail." for i in range(1000)
]
query = "performance topic test"
# Test DiskANN with partitioning
diskann_path = str(Path(temp_dir) / "perf_diskann.leann")
diskann_builder = LeannBuilder(
backend_name="diskann",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
is_recompute=True,
)
for text in texts:
diskann_builder.add_text(text)
start_time = time.time()
diskann_builder.build_index(diskann_path)
# Test HNSW
hnsw_path = str(Path(temp_dir) / "perf_hnsw.leann")
hnsw_builder = LeannBuilder(
backend_name="hnsw",
embedding_model="facebook/contriever",
embedding_mode="sentence-transformers",
is_recompute=True,
)
for text in texts:
hnsw_builder.add_text(text)
start_time = time.time()
hnsw_builder.build_index(hnsw_path)
# Compare search performance
diskann_searcher = LeannSearcher(diskann_path)
hnsw_searcher = LeannSearcher(hnsw_path)
# Warm up searches
diskann_searcher.search(query, top_k=5)
hnsw_searcher.search(query, top_k=5)
# Timed searches
start_time = time.time()
diskann_results = diskann_searcher.search(query, top_k=10)
diskann_search_time = time.time() - start_time
start_time = time.time()
hnsw_results = hnsw_searcher.search(query, top_k=10)
hnsw_search_time = time.time() - start_time
# Basic assertions
assert len(diskann_results) == 10
assert len(hnsw_results) == 10
assert all(r.score != float("-inf") for r in diskann_results)
assert all(r.score != float("-inf") for r in hnsw_results)
# Performance ratio (informational)
if hnsw_search_time > 0:
speed_ratio = hnsw_search_time / diskann_search_time
print(f"DiskANN search time: {diskann_search_time:.4f}s")
print(f"HNSW search time: {hnsw_search_time:.4f}s")
print(f"DiskANN is {speed_ratio:.2f}x faster than HNSW")

48
tests/test_document_rag.py
View File

@@ -57,55 +57,7 @@ def test_document_rag_simulated(test_data_dir):
assert "This is a simulated answer" in output
@pytest.mark.skipif(
os.environ.get("CI") == "true",
reason="Skip AST chunking tests in CI to avoid dependency issues",
)
def test_document_rag_with_ast_chunking(test_data_dir):
"""Test document_rag with AST-aware chunking enabled."""
with tempfile.TemporaryDirectory() as temp_dir:
# Use a subdirectory that doesn't exist yet to force index creation
index_dir = Path(temp_dir) / "test_ast_index"
cmd = [
sys.executable,
"apps/document_rag.py",
"--llm",
"simulated",
"--embedding-model",
"facebook/contriever",
"--embedding-mode",
"sentence-transformers",
"--index-dir",
str(index_dir),
"--data-dir",
str(test_data_dir),
"--enable-code-chunking", # Enable AST chunking
"--query",
"What is Pride and Prejudice about?",
]
env = os.environ.copy()
env["HF_HUB_DISABLE_SYMLINKS"] = "1"
env["TOKENIZERS_PARALLELISM"] = "false"
result = subprocess.run(cmd, capture_output=True, text=True, timeout=600, env=env)
# Check return code
assert result.returncode == 0, f"Command failed: {result.stderr}"
# Verify output
output = result.stdout + result.stderr
assert "Index saved to" in output or "Using existing index" in output
assert "This is a simulated answer" in output
# Should mention AST chunking if code files are present
# (might not be relevant for the test data, but command should succeed)
@pytest.mark.skipif(not os.environ.get("OPENAI_API_KEY"), reason="OpenAI API key not available")
@pytest.mark.skipif(
os.environ.get("CI") == "true", reason="Skip OpenAI tests in CI to avoid API costs"
)
def test_document_rag_openai(test_data_dir):
"""Test document_rag with OpenAI embeddings."""
with tempfile.TemporaryDirectory() as temp_dir:

365
tests/test_metadata_filtering.py
View File

@@ -1,365 +0,0 @@
"""
Comprehensive tests for metadata filtering functionality.
This module tests the MetadataFilterEngine class and its integration
with the LEANN search system.
"""
import os
# Import the modules we're testing
import sys
from unittest.mock import Mock, patch
sys.path.insert(0, os.path.join(os.path.dirname(__file__), "../packages/leann-core/src"))
from leann.api import PassageManager, SearchResult
from leann.metadata_filter import MetadataFilterEngine
class TestMetadataFilterEngine:
"""Test suite for the MetadataFilterEngine class."""
def setup_method(self):
"""Setup test fixtures."""
self.engine = MetadataFilterEngine()
# Sample search results for testing
self.sample_results = [
{
"id": "doc1",
"score": 0.95,
"text": "This is chapter 1 content",
"metadata": {
"chapter": 1,
"character": "Alice",
"tags": ["adventure", "fantasy"],
"word_count": 150,
"is_published": True,
"genre": "fiction",
},
},
{
"id": "doc2",
"score": 0.87,
"text": "This is chapter 3 content",
"metadata": {
"chapter": 3,
"character": "Bob",
"tags": ["mystery", "thriller"],
"word_count": 250,
"is_published": True,
"genre": "fiction",
},
},
{
"id": "doc3",
"score": 0.82,
"text": "This is chapter 5 content",
"metadata": {
"chapter": 5,
"character": "Alice",
"tags": ["romance", "drama"],
"word_count": 300,
"is_published": False,
"genre": "non-fiction",
},
},
{
"id": "doc4",
"score": 0.78,
"text": "This is chapter 10 content",
"metadata": {
"chapter": 10,
"character": "Charlie",
"tags": ["action", "adventure"],
"word_count": 400,
"is_published": True,
"genre": "fiction",
},
},
]
def test_engine_initialization(self):
"""Test that the filter engine initializes correctly."""
assert self.engine is not None
assert len(self.engine.operators) > 0
assert "==" in self.engine.operators
assert "contains" in self.engine.operators
assert "in" in self.engine.operators
def test_direct_instantiation(self):
"""Test direct instantiation of the engine."""
engine = MetadataFilterEngine()
assert isinstance(engine, MetadataFilterEngine)
def test_no_filters_returns_all_results(self):
"""Test that passing None or empty filters returns all results."""
# Test with None
result = self.engine.apply_filters(self.sample_results, None)
assert len(result) == len(self.sample_results)
# Test with empty dict
result = self.engine.apply_filters(self.sample_results, {})
assert len(result) == len(self.sample_results)
# Test comparison operators
def test_equals_filter(self):
"""Test equals (==) filter."""
filters = {"chapter": {"==": 1}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 1
assert result[0]["id"] == "doc1"
def test_not_equals_filter(self):
"""Test not equals (!=) filter."""
filters = {"genre": {"!=": "fiction"}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 1
assert result[0]["metadata"]["genre"] == "non-fiction"
def test_less_than_filter(self):
"""Test less than (<) filter."""
filters = {"chapter": {"<": 5}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 2
chapters = [r["metadata"]["chapter"] for r in result]
assert all(ch < 5 for ch in chapters)
def test_less_than_or_equal_filter(self):
"""Test less than or equal (<=) filter."""
filters = {"chapter": {"<=": 5}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 3
chapters = [r["metadata"]["chapter"] for r in result]
assert all(ch <= 5 for ch in chapters)
def test_greater_than_filter(self):
"""Test greater than (>) filter."""
filters = {"word_count": {">": 200}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 3 # Documents with word_count 250, 300, 400
word_counts = [r["metadata"]["word_count"] for r in result]
assert all(wc > 200 for wc in word_counts)
def test_greater_than_or_equal_filter(self):
"""Test greater than or equal (>=) filter."""
filters = {"word_count": {">=": 250}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 3
word_counts = [r["metadata"]["word_count"] for r in result]
assert all(wc >= 250 for wc in word_counts)
# Test membership operators
def test_in_filter(self):
"""Test in filter."""
filters = {"character": {"in": ["Alice", "Bob"]}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 3
characters = [r["metadata"]["character"] for r in result]
assert all(ch in ["Alice", "Bob"] for ch in characters)
def test_not_in_filter(self):
"""Test not_in filter."""
filters = {"character": {"not_in": ["Alice", "Bob"]}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 1
assert result[0]["metadata"]["character"] == "Charlie"
# Test string operators
def test_contains_filter(self):
"""Test contains filter."""
filters = {"genre": {"contains": "fiction"}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 4 # Both "fiction" and "non-fiction"
def test_starts_with_filter(self):
"""Test starts_with filter."""
filters = {"genre": {"starts_with": "non"}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 1
assert result[0]["metadata"]["genre"] == "non-fiction"
def test_ends_with_filter(self):
"""Test ends_with filter."""
filters = {"text": {"ends_with": "content"}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 4 # All sample texts end with "content"
# Test boolean operators
def test_is_true_filter(self):
"""Test is_true filter."""
filters = {"is_published": {"is_true": True}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 3
assert all(r["metadata"]["is_published"] for r in result)
def test_is_false_filter(self):
"""Test is_false filter."""
filters = {"is_published": {"is_false": False}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 1
assert not result[0]["metadata"]["is_published"]
# Test compound filters (AND logic)
def test_compound_filters(self):
"""Test multiple filters applied together (AND logic)."""
filters = {"genre": {"==": "fiction"}, "chapter": {"<=": 5}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 2
for r in result:
assert r["metadata"]["genre"] == "fiction"
assert r["metadata"]["chapter"] <= 5
def test_multiple_operators_same_field(self):
"""Test multiple operators on the same field."""
filters = {"word_count": {">=": 200, "<=": 350}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 2
for r in result:
wc = r["metadata"]["word_count"]
assert 200 <= wc <= 350
# Test edge cases
def test_missing_field_fails_filter(self):
"""Test that missing metadata fields fail filters."""
filters = {"nonexistent_field": {"==": "value"}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 0
def test_invalid_operator(self):
"""Test that invalid operators are handled gracefully."""
filters = {"chapter": {"invalid_op": 1}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 0 # Should filter out all results
def test_type_coercion_numeric(self):
"""Test numeric type coercion in comparisons."""
# Add a result with string chapter number
test_results = [
*self.sample_results,
{
"id": "doc5",
"score": 0.75,
"text": "String chapter test",
"metadata": {"chapter": "2", "genre": "test"},
},
]
filters = {"chapter": {"<": 3}}
result = self.engine.apply_filters(test_results, filters)
# Should include doc1 (chapter=1) and doc5 (chapter="2")
assert len(result) == 2
ids = [r["id"] for r in result]
assert "doc1" in ids
assert "doc5" in ids
def test_list_membership_with_nested_tags(self):
"""Test membership operations with list metadata."""
# Note: This tests the metadata structure, not list field filtering
# For list field filtering, we'd need to modify the test data
filters = {"character": {"in": ["Alice"]}}
result = self.engine.apply_filters(self.sample_results, filters)
assert len(result) == 2
assert all(r["metadata"]["character"] == "Alice" for r in result)
def test_empty_results_list(self):
"""Test filtering on empty results list."""
filters = {"chapter": {"==": 1}}
result = self.engine.apply_filters([], filters)
assert len(result) == 0
class TestPassageManagerFiltering:
"""Test suite for PassageManager filtering integration."""
def setup_method(self):
"""Setup test fixtures."""
# Mock the passage manager without actual file I/O
self.passage_manager = Mock(spec=PassageManager)
self.passage_manager.filter_engine = MetadataFilterEngine()
# Sample SearchResult objects
self.search_results = [
SearchResult(
id="doc1",
score=0.95,
text="Chapter 1 content",
metadata={"chapter": 1, "character": "Alice"},
),
SearchResult(
id="doc2",
score=0.87,
text="Chapter 5 content",
metadata={"chapter": 5, "character": "Bob"},
),
SearchResult(
id="doc3",
score=0.82,
text="Chapter 10 content",
metadata={"chapter": 10, "character": "Alice"},
),
]
def test_search_result_filtering(self):
"""Test filtering SearchResult objects."""
# Create a real PassageManager instance just for the filtering method
# We'll mock the file operations
with patch("builtins.open"), patch("json.loads"), patch("pickle.load"):
pm = PassageManager([{"type": "jsonl", "path": "test.jsonl"}])
filters = {"chapter": {"<=": 5}}
result = pm.filter_search_results(self.search_results, filters)
assert len(result) == 2
chapters = [r.metadata["chapter"] for r in result]
assert all(ch <= 5 for ch in chapters)
def test_filter_search_results_no_filters(self):
"""Test that None filters return all results."""
with patch("builtins.open"), patch("json.loads"), patch("pickle.load"):
pm = PassageManager([{"type": "jsonl", "path": "test.jsonl"}])
result = pm.filter_search_results(self.search_results, None)
assert len(result) == len(self.search_results)
def test_filter_maintains_search_result_type(self):
"""Test that filtering returns SearchResult objects."""
with patch("builtins.open"), patch("json.loads"), patch("pickle.load"):
pm = PassageManager([{"type": "jsonl", "path": "test.jsonl"}])
filters = {"character": {"==": "Alice"}}
result = pm.filter_search_results(self.search_results, filters)
assert len(result) == 2
for r in result:
assert isinstance(r, SearchResult)
assert r.metadata["character"] == "Alice"
# Integration tests would go here, but they require actual LEANN backend setup
# These would test the full pipeline from LeannSearcher.search() with metadata_filters
if __name__ == "__main__":
# Run basic smoke tests
engine = MetadataFilterEngine()
sample_data = [
{
"id": "test1",
"score": 0.9,
"text": "Test content",
"metadata": {"chapter": 1, "published": True},
}
]
# Test basic filtering
result = engine.apply_filters(sample_data, {"chapter": {"==": 1}})
assert len(result) == 1
print("✅ Basic filtering test passed")
result = engine.apply_filters(sample_data, {"chapter": {"==": 2}})
assert len(result) == 0
print("✅ No match filtering test passed")
print("🎉 All smoke tests passed!")

37
tests/test_readme_examples.py
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@@ -10,33 +10,29 @@ from pathlib import Path
import pytest
@pytest.mark.parametrize("backend_name", ["hnsw", "diskann"])
def test_readme_basic_example(backend_name):
"""Test the basic example from README.md with both backends."""
def test_readme_basic_example():
"""Test the basic example from README.md."""
# Skip on macOS CI due to MPS environment issues with all-MiniLM-L6-v2
if os.environ.get("CI") == "true" and platform.system() == "Darwin":
pytest.skip("Skipping on macOS CI due to MPS environment issues with all-MiniLM-L6-v2")
# Skip DiskANN on CI (Linux runners) due to C++ extension memory/hardware constraints
if os.environ.get("CI") == "true" and backend_name == "diskann":
pytest.skip("Skip DiskANN tests in CI due to resource constraints and instability")
# This is the exact code from README (with smaller model for CI)
from leann import LeannBuilder, LeannChat, LeannSearcher
from leann.api import SearchResult
with tempfile.TemporaryDirectory() as temp_dir:
INDEX_PATH = str(Path(temp_dir) / f"demo_{backend_name}.leann")
INDEX_PATH = str(Path(temp_dir) / "demo.leann")
# Build an index
# In CI, use a smaller model to avoid memory issues
if os.environ.get("CI") == "true":
builder = LeannBuilder(
backend_name=backend_name,
backend_name="hnsw",
embedding_model="sentence-transformers/all-MiniLM-L6-v2", # Smaller model
dimensions=384, # Smaller dimensions
)
else:
builder = LeannBuilder(backend_name=backend_name)
builder = LeannBuilder(backend_name="hnsw")
builder.add_text("LEANN saves 97% storage compared to traditional vector databases.")
builder.add_text("Tung Tung Tung Sahur called—they need their banana-crocodile hybrid back")
builder.build_index(INDEX_PATH)
@@ -56,15 +52,9 @@ def test_readme_basic_example(backend_name):
# Verify search results
assert len(results) > 0
assert isinstance(results[0], SearchResult)
assert results[0].score != float("-inf"), (
f"should return valid scores, got {results[0].score}"
)
# The second text about banana-crocodile should be more relevant
assert "banana" in results[0].text or "crocodile" in results[0].text
# Ensure we cleanup background embedding server
searcher.cleanup()
# Chat with your data (using simulated LLM to avoid external dependencies)
chat = LeannChat(INDEX_PATH, llm_config={"type": "simulated"})
response = chat.ask("How much storage does LEANN save?", top_k=1)
@@ -72,8 +62,6 @@ def test_readme_basic_example(backend_name):
# Verify chat works
assert isinstance(response, str)
assert len(response) > 0
# Cleanup chat resources
chat.cleanup()
def test_readme_imports():
@@ -122,31 +110,26 @@ def test_backend_options():
assert len(list(Path(diskann_path).parent.glob(f"{Path(diskann_path).stem}.*"))) > 0
@pytest.mark.parametrize("backend_name", ["hnsw", "diskann"])
def test_llm_config_simulated(backend_name):
"""Test simulated LLM configuration option with both backends."""
def test_llm_config_simulated():
"""Test simulated LLM configuration option."""
# Skip on macOS CI due to MPS environment issues with all-MiniLM-L6-v2
if os.environ.get("CI") == "true" and platform.system() == "Darwin":
pytest.skip("Skipping on macOS CI due to MPS environment issues with all-MiniLM-L6-v2")
# Skip DiskANN tests in CI due to hardware requirements
if os.environ.get("CI") == "true" and backend_name == "diskann":
pytest.skip("Skip DiskANN tests in CI - requires specific hardware and large memory")
from leann import LeannBuilder, LeannChat
with tempfile.TemporaryDirectory() as temp_dir:
# Build a simple index
index_path = str(Path(temp_dir) / f"test_{backend_name}.leann")
index_path = str(Path(temp_dir) / "test.leann")
# Use smaller model in CI to avoid memory issues
if os.environ.get("CI") == "true":
builder = LeannBuilder(
backend_name=backend_name,
backend_name="hnsw",
embedding_model="sentence-transformers/all-MiniLM-L6-v2",
dimensions=384,
)
else:
builder = LeannBuilder(backend_name=backend_name)
builder = LeannBuilder(backend_name="hnsw")
builder.add_text("Test document for LLM testing")
builder.build_index(index_path)

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