Files
ragflow/deepdoc
Harsh Kashyap 5c96fa51f0 fix(docling): detect chunked response by shape, not request payload (#16921)
Fixes #16917.

## Problem

`deepdoc/parser/docling_parser.py::_parse_pdf_remote` decides whether
the
response is chunked based on which payload was sent, not on what came
back.
Docling Serve silently drops unknown fields such as `do_chunking`
(Pydantic
`extra="ignore"`) and returns a standard `{"document": ..., "status":
...}`
conversion response. The code then:

1. sets `is_chunked_response = True` from the request shape,
2. logs `Successfully used native chunking on: <endpoint>`,
3. extracts 0 chunks from `response_json.get("results", [])`,
4. logs `Native chunks received: 0`,
5. falls through to the existing `md_content` fallback.

The `md_content` fallback path is fine. The misleading log lines are the
problem: operators see "Successfully used native chunking" immediately
followed by "Native chunks received: 0" and "No chunk built", which
looks
like an internal regression rather than a server contract gap.

## Fix

Decide chunked-vs-standard from the **response shape**, not the request:

```python
response_is_chunk = self._looks_like_chunk_response(response_json)
is_chunked_response = chunk_flag and response_is_chunk
```

`_looks_like_chunk_response` returns True iff the response is a
non-empty
list or a dict with a non-empty `results` or `chunks` list. A standard
conversion response (`{"document": ..., "status": ...}`) does not match,
so
a server that ignored the chunking flag is correctly classified as
standard
even when the request payload asked for chunking.

When chunking was requested but the server returned a standard response,
log a single WARNING ("Server ignored chunking request on <endpoint>;
treating response as standard conversion.") instead of the INFO success
line. The misleading "Prioritizes native chunking endpoints" docstring
is
replaced with what the code actually does.

## Tests

`test/unit_test/deepdoc/parser/test_docling_parser_remote.py` (6 tests,
all passing):

- `test_remote_chunked_200_standard_payload_falls_back` (existing —
still
  passes; the `md_content` path is unchanged)
- `test_chunk_shape_helper_recognises_chunk_payloads`
- `test_chunk_shape_helper_rejects_standard_payloads`
- `test_remote_chunked_request_with_results_list_is_treated_as_chunked`
- `test_remote_top_level_list_response_is_treated_as_chunked`
- `test_remote_chunked_request_with_ignored_flag_does_not_log_success`

```
$ uv run pytest test/unit_test/deepdoc/parser/test_docling_parser_remote.py -v
============================== 6 passed in 0.26s ==============================
```

## Files changed

- `deepdoc/parser/docling_parser.py` (+35 / -5)
- `test/unit_test/deepdoc/parser/test_docling_parser_remote.py` (+89 /
-4)

## Backward compatibility

- All four payload/endpoint combinations continue to be tried in the
same order.
- The bundled-docling happy path (`parse_pdf`, not `_parse_pdf_remote`)
is
  untouched.
- A server that returns a real chunked response to a chunked request
still
goes down the chunked branch. A server that returns a standard response
  to a chunked request now goes down the standard branch with
  `is_chunked_response=False` instead of misleadingly logging success.

## Follow-up (out of scope)

Calling the real Docling-Serve native chunk endpoints
(`/v1/chunk/hybrid/source`, `/v1/chunk/hierarchical/source`) with
`HybridChunkerOptions` is a larger feature change and warrants its own
PR after this lands.

Co-authored-by: Harsh23Kashyap <harsh@example.com>
2026-07-16 09:29:09 +08:00
..

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DeepDoc

1. Introduction

With a bunch of documents from various domains with various formats and along with diverse retrieval requirements, an accurate analysis becomes a very challenge task. DeepDoc is born for that purpose. There are 2 parts in DeepDoc so far: vision and parser. You can run the flowing test programs if you're interested in our results of OCR, layout recognition and TSR.

python deepdoc/vision/t_ocr.py -h
usage: t_ocr.py [-h] --inputs INPUTS [--output_dir OUTPUT_DIR]

options:
  -h, --help            show this help message and exit
  --inputs INPUTS       Directory where to store images or PDFs, or a file path to a single image or PDF
  --output_dir OUTPUT_DIR
                        Directory where to store the output images. Default: './ocr_outputs'
python deepdoc/vision/t_recognizer.py -h
usage: t_recognizer.py [-h] --inputs INPUTS [--output_dir OUTPUT_DIR] [--threshold THRESHOLD] [--mode {layout,tsr}]

options:
  -h, --help            show this help message and exit
  --inputs INPUTS       Directory where to store images or PDFs, or a file path to a single image or PDF
  --output_dir OUTPUT_DIR
                        Directory where to store the output images. Default: './layouts_outputs'
  --threshold THRESHOLD
                        A threshold to filter out detections. Default: 0.5
  --mode {layout,tsr}   Task mode: layout recognition or table structure recognition

Our models are served on HuggingFace. If you have trouble downloading HuggingFace models, this might help!!

export HF_ENDPOINT=https://hf-mirror.com

2. Vision

We use vision information to resolve problems as human being.

  • OCR. Since a lot of documents presented as images or at least be able to transform to image, OCR is a very essential and fundamental or even universal solution for text extraction.

        python deepdoc/vision/t_ocr.py --inputs=path_to_images_or_pdfs --output_dir=path_to_store_result
    

    The inputs could be directory to images or PDF, or an image or PDF. You can look into the folder 'path_to_store_result' where has images which demonstrate the positions of results, txt files which contain the OCR text.

  • Layout recognition. Documents from different domain may have various layouts, like, newspaper, magazine, book and résumé are distinct in terms of layout. Only when machine have an accurate layout analysis, it can decide if these text parts are successive or not, or this part needs Table Structure Recognition(TSR) to process, or this part is a figure and described with this caption. We have 10 basic layout components which covers most cases:

    • Text
    • Title
    • Figure
    • Figure caption
    • Table
    • Table caption
    • Header
    • Footer
    • Reference
    • Equation

    Have a try on the following command to see the layout detection results.

       python deepdoc/vision/t_recognizer.py --inputs=path_to_images_or_pdfs --threshold=0.2 --mode=layout --output_dir=path_to_store_result
    

    The inputs could be directory to images or PDF, or an image or PDF. You can look into the folder 'path_to_store_result' where has images which demonstrate the detection results as following:

  • Table Structure Recognition(TSR). Data table is a frequently used structure to present data including numbers or text. And the structure of a table might be very complex, like hierarchy headers, spanning cells and projected row headers. Along with TSR, we also reassemble the content into sentences which could be well comprehended by LLM. We have five labels for TSR task:

    • Column
    • Row
    • Column header
    • Projected row header
    • Spanning cell

    Have a try on the following command to see the layout detection results.

       python deepdoc/vision/t_recognizer.py --inputs=path_to_images_or_pdfs --threshold=0.2 --mode=tsr --output_dir=path_to_store_result
    

    The inputs could be directory to images or PDF, or an image or PDF. You can look into the folder 'path_to_store_result' where has both images and html pages which demonstrate the detection results as following:

  • Table Auto-Rotation. For scanned PDFs where tables may be incorrectly oriented (rotated 90°, 180°, or 270°), the PDF parser automatically detects the best rotation angle using OCR confidence scores before performing table structure recognition. This significantly improves OCR accuracy and table structure detection for rotated tables.

    The feature evaluates 4 rotation angles (0°, 90°, 180°, 270°) and selects the one with highest OCR confidence. After determining the best orientation, it re-performs OCR on the correctly rotated table image.

    This feature is enabled by default. You can control it via environment variable:

    # Disable table auto-rotation
    export TABLE_AUTO_ROTATE=false
    
    # Enable table auto-rotation (default)
    export TABLE_AUTO_ROTATE=true
    

    Or via API parameter:

    from deepdoc.parser import PdfParser
    
    parser = PdfParser()
    # Disable auto-rotation for this call
    boxes, tables = parser(pdf_path, auto_rotate_tables=False)
    

3. Parser

Four kinds of document formats as PDF, DOCX, EXCEL and PPT have their corresponding parser. The most complex one is PDF parser since PDF's flexibility. The output of PDF parser includes:

  • Text chunks with their own positions in PDF(page number and rectangular positions).
  • Tables with cropped image from the PDF, and contents which has already translated into natural language sentences.
  • Figures with caption and text in the figures.

Résumé

The résumé is a very complicated kind of document. A résumé which is composed of unstructured text with various layouts could be resolved into structured data composed of nearly a hundred of fields. We haven't opened the parser yet, as we open the processing method after parsing procedure.