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Rust port of docling (docling.rs): convert PDF/DOCX/HTML/... to Markdown or docling JSON. Python bindings.

Project description

docling-py — Python bindings (PyO3)

A strangler-fig drop-in for Python docling's common conversion path, backed by the Rust docling.rs engine: same call shape, no torch, ~4× faster PDF conversion at a fraction of the memory (see PDF_CONFORMANCE.md).

# was:  from docling.document_converter import DocumentConverter
from docling_rs import DocumentConverter

result = DocumentConverter().convert("document.pdf")
print(result.document.export_to_markdown())
data = result.document.export_to_dict()     # docling-core JSON wire format (schema 1.10.0)

Only the document processor is Rust. The engine parses the input and returns docling-core's JSON wire format; this package validates it into a genuine docling_core.types.doc.DoclingDocument. So result.document is the docling object — export_to_markdown(), export_to_dict(), export_to_doctags(), the serializers, and the chunkers are docling's own Python code, unchanged. docling-core is a runtime dependency; nothing else from docling is required for the declarative path.

Status: experimental. The PyPI distribution name is docling-rs. Releases are cut manually (like the npm package) via the pypi-publish workflow — see Publishing below. The crate is intentionally outside the repo's Cargo workspace and its crates.io publish flow. For development, build and install locally as shown next.

Try it locally

Needs a Rust toolchain (1.82+) and Python ≥ 3.9.

cd crates/docling-py

# 1. Build + install into the CURRENT virtualenv (create one first):
python -m venv .venv && source .venv/bin/activate
pip install maturin
maturin develop --release          # compiles the Rust engine, installs `docling.rs`

# 2. One-time model download (~700 MB → ~/.cache/docling.rs), pure Python —
#    fetched from the repo's models-v1 GitHub release, like docling fetches
#    its artifacts. Declarative formats (DOCX/HTML/XLSX/…) skip this entirely.
python -c "import docling_rs; docling_rs.download_models()"

# 3. Convert:
python - <<'PY'
from docling_rs import DocumentConverter

conv = DocumentConverter()
result = conv.convert("../../tests/data/pdf/sources/2305.03393v1-pg9.pdf")
print(result.status)                            # "success"
print(result.document.export_to_markdown()[:400])
PY

API surface (docling-shaped)

docling.rs docling counterpart notes
DocumentConverter(format_options=None, *, allowed_formats=None, do_ocr=True, do_table_structure=True, do_picture_classification=False, do_code_enrichment=False, do_formula_enrichment=False, fetch_images=False, use_web_browser=False, artifacts_path=None) DocumentConverter(allowed_formats=…, format_options=…) Pass {InputFormat.PDF: PdfFormatOption(pipeline_options=PdfPipelineOptions(…))} or the shorthand kwargs; allowed_formats restricts conversion; artifacts_path overrides the model cache dir.
.convert(path | DocumentStream) -> ConversionResult .convert(source) str / pathlib.Path / DocumentStream. Releases the GIL during conversion.
.convert_all(sources, raises_on_error=True) -> Iterator[ConversionResult] same lazily converts many sources; raises_on_error=False yields a failure result instead of raising
.initialize_pipeline(format=None) same pre-loads the PDF/image ML models so the first conversion isn't slow and later PDFs reuse the warm pipeline (no-op for non-ML formats; needs the models available)
.convert_bytes(name, data) DocumentStream extension of name drives format detection
InputFormat, PdfPipelineOptions, PdfFormatOption, AcceleratorOptions, TableFormerMode, DocumentStream, ImageRefMode same modules docling-shaped config re-exported from docling_rs (see below)
ConversionError docling.exceptions.ConversionError raised on a failed conversion; caught by convert_all(..., raises_on_error=False)
result.status / result.document / result.input.file same .status is a ConversionStatus str-enum ("success" / "partial_success" / "failure"); .document is a genuine docling_core DoclingDocument
document.export_to_markdown(...) same docling-core's own method — all of docling's params (image_placeholder, page_break_placeholder, …) apply
document.export_to_dict() / export_to_json() / export_to_doctags() same docling-core's own serializers over the wire format
document.save_as_markdown(p) / save_as_json(p) / chunkers same anything docling_core offers on a DoclingDocument works, since it is one
docling_rs.download_models() docling-tools models download idempotent; ~/.cache/docling.rs or $DOCLING_RS_CACHE_DIR; INT8 models fetched when hosted and preferred automatically (DOCLING_RS_FP32=1 opts out)

Model/env resolution order: explicit DOCLING_* env vars → the cache dir set by ensure_env() (called by the constructor) → the process CWD (models/, .pdfium/, matching the CLI). pdfium is Linux x64 from the release; on other platforms set PDFIUM_DYNAMIC_LIB_PATH to a local build.

Configuration (docling-shaped)

docling_rs re-exports docling-shaped config objects — same names and fields, so docling code reads unchanged:

from docling_rs import DocumentConverter, InputFormat, PdfFormatOption, PdfPipelineOptions, AcceleratorOptions

opts = PdfPipelineOptions(
    do_ocr=False,                                   # skip OCR on scanned pages
    do_table_structure=True,                        # TableFormer table recovery
    accelerator_options=AcceleratorOptions(num_threads=4),
)
conv = DocumentConverter(format_options={InputFormat.PDF: PdfFormatOption(pipeline_options=opts)})
# shorthand: DocumentConverter(do_ocr=False, do_table_structure=True)

The Rust engine acts on do_ocr, do_table_structure, the opt-in enrichment flags do_picture_classification / do_code_enrichment / do_formula_enrichment (they need the enrichment models — scripts/install/download_dependencies.sh --enrich), and accelerator_options.num_threads (→ ONNX Runtime intra-op threads via DOCLING_RS_PDF_THREADS). The remaining PdfPipelineOptions fields (images_scale, generate_page_images, table_structure_options.mode, …) are accepted for API compatibility but do not change the pipeline. InputFormat, DocumentStream and ImageRefMode are re-exported too (the last straight from docling_core, for export_to_markdown(image_mode=…)). A GPU accelerator_options.device (CUDA/MPS) is accepted but warns and falls back to CPU — the engine runs ONNX Runtime on the CPU execution provider.

Chunking

docling_rs.chunking ships the Rust-native ports of docling's chunkers (docling::chunker), API-shaped like docling.chunking:

from docling_rs import DocumentConverter
from docling_rs.chunking import HierarchicalChunker, HybridChunker, WindowChunker

doc = DocumentConverter().convert("report.docx").document

for chunk in HierarchicalChunker().chunk(doc):        # structure-driven
    print(chunk.meta.headings, chunk.text)

chunker = HybridChunker(tokenizer="tokenizer.json", max_tokens=256)
for chunk in chunker.chunk(doc):                       # tokenization-aware
    embed_me = chunker.contextualize(chunk)            # heading path + text

chunker = WindowChunker(max_words=300, overlap=0.05)   # word-window, no tokenizer
for chunk in chunker.chunk(doc):                       # docling-rag's window chunker
    embed_me = chunker.contextualize(chunk)            # '# path' line + body

WindowChunker is docling-rag's window chunker: the document's Markdown is cut into heading-bounded sections of plain words (markup stripped), and a fixed window of max_words words (default 300) slides over each section with overlap fractional overlap (default 0.05 = 5%). A chunk never crosses a heading, chunk.meta.headings carries the heading path, and contextualize(chunk) renders rag-style — a # Outer > Inner context line, a blank line, then the body. No tokenizer and no ML models are involved, making it the zero-dependency choice when an approximate chunk size is enough (meta.doc_items is empty — it works on the rendered Markdown, not the document tree).

Two deltas from docling: HybridChunker(tokenizer=...) takes a path to a HuggingFace tokenizer.json (loaded natively — no transformers install), and chunk.meta.doc_items holds the items' JSON-pointer refs. With no tokenizer argument it falls back to MiniLM's tokenizer at models/chunk/tokenizer.json (the download script's location) or the package cache — docling_rs.download_models() fetches it with the other assets. Since result.document is a genuine docling_core DoclingDocument, docling's own Python chunkers (pip install "docling-core[chunking]") also keep working on it — the native classes are the faster, dependency-free path.

Streaming

chunk() streams natively: it returns a lazy iterator fed by a Rust background thread, which hands each chunk to Python as the chunkers produce it. The full chunk list is never materialized on either side of the FFI boundary — the first chunk is ready for embedding while the rest of the document is still being chunked, and a slow consumer throttles the producer through a bounded queue instead of buffering unboundedly.

from itertools import islice

from docling_rs import DocumentConverter
from docling_rs.chunking import HybridChunker

doc = DocumentConverter().convert("large.html").document
chunker = HybridChunker(tokenizer="tokenizer.json", max_tokens=512)

# Chunks arrive one by one; embed each as soon as it is produced.
for chunk in chunker.chunk(doc):
    index.add(embed(chunker.contextualize(chunk)))

# Laziness composes: this chunks only far enough to produce 10 chunks.
preview = list(islice(chunker.chunk(doc), 10))

Abandoning the iterator early (break, islice, dropping the generator) cancels the background chunking, and Ctrl-C interrupts a pending next(). Errors (a bad tokenizer path, malformed document JSON) surface on the first next(), not at chunk() call time.

Not covered (yet)

VLM/enrichment pipelines, GPU accelerator devices (the engine is ONNX Runtime on CPU), and per-format backend selection. The document carries rendered text for inline formatting rather than structured formatting fields — see MIGRATION.md §4 for the documented divergences.

Publishing

Releases are manual, mirroring the npm package: the pypi-publish GitHub Actions workflow (workflow_dispatch) builds an abi3 wheel per platform (Linux x86-64/arm64 as manylinux_2_28, Windows x86-64 — one wheel covers every Python ≥ 3.9) plus an sdist, and uploads them to PyPI.

# From the Actions tab, or:
gh workflow run pypi-publish.yml                 # version from pyproject.toml
gh workflow run pypi-publish.yml -f version=0.16.0

No secrets: it publishes via PyPI Trusted Publishing (OIDC), like docling-core — no API token is stored or rotated. This requires a one-time setup on PyPI by the project owner (below); re-runs are idempotent (skip-existing). macOS wheels are omitted (no hosted runners here); macOS users install the sdist, which compiles from source. The ONNX runtime is bundled in the wheel; pdfium is fetched at runtime by download_models().

First-time PyPI setup (project owner)

Trusted Publishing lets this repo's workflow upload to PyPI without any password or API token — GitHub mints a short-lived OIDC token per run and PyPI verifies it against a trusted publisher you register once. Until that publisher exists, the publish job fails with invalid-publisher: valid token, but no corresponding publisher.

Because the docling-rs project does not exist on PyPI yet, register a pending publisher (it both authorizes the workflow and lets the first run create the project):

  1. Sign in to PyPI as the account that will own docling-rs, then open https://pypi.org/manage/account/publishing/.

  2. Under “Add a new pending publisher”, choose GitHub and fill in exactly these values:

    Field Value
    PyPI Project Name docling-rs
    Owner docling-project
    Repository name docling.rs
    Workflow name pypi-publish.yml
    Environment name pypi
  3. Click Add. Then re-run the pypi publish workflow (Actions tab → Run workflow) — the publish job will now succeed and create the project on its first upload.

Notes:

  • The Git branch does not matter: PyPI matches on repository + workflow + environment, not the branch, so publishing works from any branch once the publisher is registered.
  • Environment name must be pypi — it has to match the environment: pypi the publish job runs in.
  • After the first successful publish the project exists; the pending publisher automatically becomes a regular trusted publisher (manage it later at Project → Manage → Publishing). To rotate/add publishers there, use the same five values above.
  • To rehearse without touching production PyPI, register the equivalent pending publisher on TestPyPI (https://test.pypi.org/manage/account/publishing/) and point the workflow's upload at https://test.pypi.org/legacy/.

Test the release build locally

Reproduce what CI does — build the wheel + sdist and verify both install and run — before (or instead of) triggering the workflow. Needs a Rust toolchain and Python ≥ 3.9.

cd crates/docling-py
python -m venv .venv && source .venv/bin/activate
pip install maturin

# 1. Build the same two artifacts the workflow builds.
maturin build --release --out dist      # dist/docling_rs-<v>-cp39-abi3-<platform>.whl
maturin sdist            --out dist      # dist/docling_rs-<v>.tar.gz  (vendors all crates)

# 2. Smoke-test the WHEEL in a clean env — pip pulls docling-core from the
#    wheel's declared dependency, exactly as an end user would get it.
python -m venv /tmp/wheel-test
/tmp/wheel-test/bin/pip install dist/docling_rs-*.whl
/tmp/wheel-test/bin/python - <<'PY'
from docling_rs import DocumentConverter
r = DocumentConverter().convert("../../tests/data/html/sources/hyperlink_03.html")
assert r.status == "success"
assert type(r.document).__module__.startswith("docling_core")   # the real DoclingDocument
print("wheel OK:", len(r.document.export_to_markdown()), "md chars")
PY

# 3. Verify the SDIST is self-contained: pip compiles the Rust engine from source
#    (this is the exact unpack-and-build path cibuildwheel runs in the manylinux
#    containers, so a green result here means the CI wheel build will work too).
python -m venv /tmp/sdist-test
/tmp/sdist-test/bin/pip install dist/docling_rs-*.tar.gz
/tmp/sdist-test/bin/python -c "import docling_rs; print('sdist build OK')"

# 4. Run the declarative-path test suite (no ML models needed).
pip install pytest docling-core
pytest tests/

To exercise the full manylinux wheel build (what pypa/cibuildwheel runs) you need Docker; with a daemon available:

pipx run cibuildwheel==2.21.3 --platform linux --output-dir wheelhouse .
# env: CIBW_BUILD=cp39-* CIBW_SKIP=*-musllinux*  CIBW_BEFORE_ALL_LINUX="curl … rustup … -y"

An optional final rehearsal uploads to TestPyPI (needs a TestPyPI token or a pending publisher there): pip install twine && twine upload --repository testpypi dist/*.

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