Output File Description ========================= After executing the ``magic-pdf`` command, in addition to outputting files related to markdown, several other files unrelated to markdown will also be generated. These files will be introduced one by one. some_pdf_layout.pdf ~~~~~~~~~~~~~~~~~~~ Each page layout consists of one or more boxes. The number at the top left of each box indicates its sequence number. Additionally, in ``layout.pdf``, different content blocks are highlighted with different background colors. .. figure:: ../../_static/image/layout_example.png :alt: layout example layout example some_pdf_spans.pdf ~~~~~~~~~~~~~~~~~~ All spans on the page are drawn with different colored line frames according to the span type. This file can be used for quality control, allowing for quick identification of issues such as missing text or unrecognized inline formulas. .. figure:: ../../_static/image/spans_example.png :alt: spans example spans example some_pdf_model.json ~~~~~~~~~~~~~~~~~~~ Structure Definition ^^^^^^^^^^^^^^^^^^^^ .. code:: python from pydantic import BaseModel, Field from enum import IntEnum class CategoryType(IntEnum): title = 0 # Title plain_text = 1 # Text abandon = 2 # Includes headers, footers, page numbers, and page annotations figure = 3 # Image figure_caption = 4 # Image description table = 5 # Table table_caption = 6 # Table description table_footnote = 7 # Table footnote isolate_formula = 8 # Block formula formula_caption = 9 # Formula label embedding = 13 # Inline formula isolated = 14 # Block formula text = 15 # OCR recognition result class PageInfo(BaseModel): page_no: int = Field(description="Page number, the first page is 0", ge=0) height: int = Field(description="Page height", gt=0) width: int = Field(description="Page width", ge=0) class ObjectInferenceResult(BaseModel): category_id: CategoryType = Field(description="Category", ge=0) poly: list[float] = Field(description="Quadrilateral coordinates, representing the coordinates of the top-left, top-right, bottom-right, and bottom-left points respectively") score: float = Field(description="Confidence of the inference result") latex: str | None = Field(description="LaTeX parsing result", default=None) html: str | None = Field(description="HTML parsing result", default=None) class PageInferenceResults(BaseModel): layout_dets: list[ObjectInferenceResult] = Field(description="Page recognition results", ge=0) page_info: PageInfo = Field(description="Page metadata") # The inference results of all pages, ordered by page number, are stored in a list as the inference results of MinerU inference_result: list[PageInferenceResults] = [] The format of the poly coordinates is [x0, y0, x1, y1, x2, y2, x3, y3], representing the coordinates of the top-left, top-right, bottom-right, and bottom-left points respectively. |Poly Coordinate Diagram| example ^^^^^^^ .. code:: json [ { "layout_dets": [ { "category_id": 2, "poly": [ 99.1906967163086, 100.3119125366211, 730.3707885742188, 100.3119125366211, 730.3707885742188, 245.81326293945312, 99.1906967163086, 245.81326293945312 ], "score": 0.9999997615814209 } ], "page_info": { "page_no": 0, "height": 2339, "width": 1654 } }, { "layout_dets": [ { "category_id": 5, "poly": [ 99.13092803955078, 2210.680419921875, 497.3183898925781, 2210.680419921875, 497.3183898925781, 2264.78076171875, 99.13092803955078, 2264.78076171875 ], "score": 0.9999997019767761 } ], "page_info": { "page_no": 1, "height": 2339, "width": 1654 } } ] some_pdf_middle.json ~~~~~~~~~~~~~~~~~~~~ +-------+--------------------------------------------------------------+ | Field | Description | | Name | | +=======+==============================================================+ | pdf | list, each element is a dict representing the parsing result | | _info | of each PDF page, see the table below for details | +-------+--------------------------------------------------------------+ | \_ | ocr \| txt, used to indicate the mode used in this | | parse | intermediate parsing state | | _type | | +-------+--------------------------------------------------------------+ | \_ve | string, indicates the version of magic-pdf used in this | | rsion | parsing | | _name | | +-------+--------------------------------------------------------------+ **pdf_info** Field structure description +---------+------------------------------------------------------------+ | Field | Description | | Name | | +=========+============================================================+ | preproc | Intermediate result after PDF preprocessing, not yet | | _blocks | segmented | +---------+------------------------------------------------------------+ | layout | Layout segmentation results, containing layout direction | | _bboxes | (vertical, horizontal), and bbox, sorted by reading order | +---------+------------------------------------------------------------+ | p | Page number, starting from 0 | | age_idx | | +---------+------------------------------------------------------------+ | pa | Page width and height | | ge_size | | +---------+------------------------------------------------------------+ | \_layo | Layout tree structure | | ut_tree | | +---------+------------------------------------------------------------+ | images | list, each element is a dict representing an img_block | +---------+------------------------------------------------------------+ | tables | list, each element is a dict representing a table_block | +---------+------------------------------------------------------------+ | inter | list, each element is a dict representing an | | line_eq | interline_equation_block | | uations | | +---------+------------------------------------------------------------+ | di | List, block information returned by the model that needs | | scarded | to be dropped | | _blocks | | +---------+------------------------------------------------------------+ | para | Result after segmenting preproc_blocks | | _blocks | | +---------+------------------------------------------------------------+ In the above table, ``para_blocks`` is an array of dicts, each dict representing a block structure. A block can support up to one level of nesting. **block** The outer block is referred to as a first-level block, and the fields in the first-level block include: +---------+-------------------------------------------------------------+ | Field | Description | | Name | | +=========+=============================================================+ | type | Block type (table|image) | +---------+-------------------------------------------------------------+ | bbox | Block bounding box coordinates | +---------+-------------------------------------------------------------+ | blocks | list, each element is a dict representing a second-level | | | block | +---------+-------------------------------------------------------------+ There are only two types of first-level blocks: “table” and “image”. All other blocks are second-level blocks. The fields in a second-level block include: +-----+----------------------------------------------------------------+ | Fi | Description | | eld | | | N | | | ame | | +=====+================================================================+ | t | Block type | | ype | | +-----+----------------------------------------------------------------+ | b | Block bounding box coordinates | | box | | +-----+----------------------------------------------------------------+ | li | list, each element is a dict representing a line, used to | | nes | describe the composition of a line of information | +-----+----------------------------------------------------------------+ Detailed explanation of second-level block types ================== ====================== type Description ================== ====================== image_body Main body of the image image_caption Image description text table_body Main body of the table table_caption Table description text table_footnote Table footnote text Text block title Title block interline_equation Block formula ================== ====================== **line** The field format of a line is as follows: +-----+----------------------------------------------------------------+ | Fi | Description | | eld | | | N | | | ame | | +=====+================================================================+ | b | Bounding box coordinates of the line | | box | | +-----+----------------------------------------------------------------+ | sp | list, each element is a dict representing a span, used to | | ans | describe the composition of the smallest unit | +-----+----------------------------------------------------------------+ **span** +----------+-----------------------------------------------------------+ | Field | Description | | Name | | +==========+===========================================================+ | bbox | Bounding box coordinates of the span | +----------+-----------------------------------------------------------+ | type | Type of the span | +----------+-----------------------------------------------------------+ | content | Text spans use content, chart spans use img_path to store | | \| | the actual text or screenshot path information | | img_path | | +----------+-----------------------------------------------------------+ The types of spans are as follows: ================== ============== type Description ================== ============== image Image table Table text Text inline_equation Inline formula interline_equation Block formula ================== ============== **Summary** A span is the smallest storage unit for all elements. The elements stored within para_blocks are block information. The block structure is as follows: First-level block (if any) -> Second-level block -> Line -> Span .. _example-1: example ^^^^^^^ .. code:: json { "pdf_info": [ { "preproc_blocks": [ { "type": "text", "bbox": [ 52, 61.956024169921875, 294, 82.99800872802734 ], "lines": [ { "bbox": [ 52, 61.956024169921875, 294, 72.0000228881836 ], "spans": [ { "bbox": [ 54.0, 61.956024169921875, 296.2261657714844, 72.0000228881836 ], "content": "dependent on the service headway and the reliability of the departure ", "type": "text", "score": 1.0 } ] } ] } ], "layout_bboxes": [ { "layout_bbox": [ 52, 61, 294, 731 ], "layout_label": "V", "sub_layout": [] } ], "page_idx": 0, "page_size": [ 612.0, 792.0 ], "_layout_tree": [], "images": [], "tables": [], "interline_equations": [], "discarded_blocks": [], "para_blocks": [ { "type": "text", "bbox": [ 52, 61.956024169921875, 294, 82.99800872802734 ], "lines": [ { "bbox": [ 52, 61.956024169921875, 294, 72.0000228881836 ], "spans": [ { "bbox": [ 54.0, 61.956024169921875, 296.2261657714844, 72.0000228881836 ], "content": "dependent on the service headway and the reliability of the departure ", "type": "text", "score": 1.0 } ] } ] } ] } ], "_parse_type": "txt", "_version_name": "0.6.1" } .. |Poly Coordinate Diagram| image:: ../../_static/image/poly.png