Document Parser
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Extract structured text tables and document sections from PDFs and Word files so teams can reuse complex source material without manual cleanup.
File Processing
Overview
Extract structured text tables and document sections from PDFs and Word files so teams can reuse complex source material without manual cleanup.
SKILL.md
Code
---
# ═══════════════════════════════════════════════════════════════════════════════
# CLAUDE OFFICE SKILL - Enhanced Metadata v2.0
# ═══════════════════════════════════════════════════════════════════════════════
# Basic Information
name: doc-parser
description: ">"
version: "1.0"
author: claude-office-skills
license: MIT
# Categorization
category: parsing
tags:
- parsing
- extraction
- layout
- docling
department: All
# AI Model Compatibility
models:
recommended:
- claude-sonnet-4
- claude-opus-4
compatible:
- claude-3-5-sonnet
- gpt-4
- gpt-4o
# MCP Tools Integration
mcp:
server: office-mcp
tools:
- analyze_document_structure
- extract_text_from_pdf
# Skill Capabilities
capabilities:
- document_parsing
- layout_analysis
# Language Support
languages:
- en
- zh
---
# Document Parser Skill
## Overview
This skill enables advanced document parsing using **docling** - IBM's state-of-the-art document understanding library. Parse complex PDFs, Word documents, and images while preserving structure, extracting tables, figures, and handling multi-column layouts.
## How to Use
1. Provide the document to parse
2. Specify what you want to extract (text, tables, figures, etc.)
3. I'll parse it and return structured data
**Example prompts:**
- "Parse this PDF and extract all tables"
- "Convert this academic paper to structured markdown"
- "Extract figures and captions from this document"
- "Parse this report preserving the document structure"
## Domain Knowledge
### docling Fundamentals
```python
from docling.document_converter import DocumentConverter
# Initialize converter
converter = DocumentConverter()
# Convert document
result = converter.convert("document.pdf")
# Access parsed content
doc = result.document
print(doc.export_to_markdown())
```
### Supported Formats
| Format | Extension | Notes |
|--------|-----------|-------|
| PDF | .pdf | Native and scanned |
| Word | .docx | Full structure preserved |
| PowerPoint | .pptx | Slides as sections |
| Images | .png, .jpg | OCR + layout analysis |
| HTML | .html | Structure preserved |
### Basic Usage
```python
from docling.document_converter import DocumentConverter
# Create converter
converter = DocumentConverter()
# Convert single document
result = converter.convert("report.pdf")
# Access document
doc = result.document
# Export options
markdown = doc.export_to_markdown()
text = doc.export_to_text()
json_doc = doc.export_to_dict()
```
### Advanced Configuration
```python
from docling.document_converter import DocumentConverter
from docling.datamodel.base_models import InputFormat
from docling.datamodel.pipeline_options import PdfPipelineOptions
# Configure pipeline
pipeline_options = PdfPipelineOptions()
pipeline_options.do_ocr = True
pipeline_options.do_table_structure = True
pipeline_options.table_structure_options.do_cell_matching = True
# Create converter with options
converter = DocumentConverter(
allowed_formats=[InputFormat.PDF, InputFormat.DOCX],
pdf_backend_options=pipeline_options
)
result = converter.convert("document.pdf")
```
### Document Structure
```python
# Document hierarchy
doc = result.document
# Access metadata
print(doc.name)
print(doc.origin)
# Iterate through content
for element in doc.iterate_items():
print(f"Type: {element.type}")
print(f"Text: {element.text}")
if element.type == "table":
print(f"Rows: {len(element.data.table_cells)}")
```
### Extracting Tables
```python
from docling.document_converter import DocumentConverter
import pandas as pd
def extract_tables(doc_path):
"""Extract all tables from document."""
converter = DocumentConverter()
result = converter.convert(doc_path)
doc = result.document
tables = []
for element in doc.iterate_items():
if element.type == "table":
# Get table data
table_data = element.export_to_dataframe()
tables.append({
'page': element.prov[0].page_no if element.prov else None,
'dataframe': table_data
})
return tables
# Usage
tables = extract_tables("report.pdf")
for i, table in enumerate(tables):
print(f"Table {i+1} on page {table['page']}:")
print(table['dataframe'])
```
### Extracting Figures
```python
def extract_figures(doc_path, output_dir):
"""Extract figures with captions."""
import os
converter = DocumentConverter()
result = converter.convert(doc_path)
doc = result.document
figures = []
os.makedirs(output_dir, exist_ok=True)
for element in doc.iterate_items():
if element.type == "picture":
figure_info = {
'caption': element.caption if hasattr(element, 'caption') else None,
'page': element.prov[0].page_no if element.prov else None,
}
# Save image if available
if hasattr(element, 'image'):
img_path = os.path.join(output_dir, f"figure_{len(figures)+1}.png")
element.image.save(img_path)
figure_info['path'] = img_path
figures.append(figure_info)
return figures
```
### Handling Multi-column Layouts
```python
from docling.document_converter import DocumentConverter
def parse_multicolumn(doc_path):
"""Parse document with multi-column layout."""
converter = DocumentConverter()
result = converter.convert(doc_path)
doc = result.document
# docling automatically handles column detection
# Text is returned in reading order
structured_content = []
for element in doc.iterate_items():
content_item = {
'type': element.type,
'text': element.text if hasattr(element, 'text') else None,
'level': element.level if hasattr(element, 'level') else None,
}
# Add bounding box if available
if element.prov:
content_item['bbox'] = element.prov[0].bbox
content_item['page'] = element.prov[0].page_no
structured_content.append(content_item)
return structured_content
```
### Export Formats
```python
from docling.document_converter import DocumentConverter
converter = DocumentConverter()
result = converter.convert("document.pdf")
doc = result.document
# Markdown export
markdown = doc.export_to_markdown()
with open("output.md", "w") as f:
f.write(markdown)
# Plain text
text = doc.export_to_text()
# JSON/dict format
json_doc = doc.export_to_dict()
# HTML format (if supported)
# html = doc.export_to_html()
```
### Batch Processing
```python
from docling.document_converter import DocumentConverter
from pathlib import Path
from concurrent.futures import ThreadPoolExecutor
def batch_parse(input_dir, output_dir, max_workers=4):
"""Parse multiple documents in parallel."""
input_path = Path(input_dir)
output_path = Path(output_dir)
output_path.mkdir(exist_ok=True)
converter = DocumentConverter()
def process_single(doc_path):
try:
result = converter.convert(str(doc_path))
md = result.document.export_to_markdown()
out_file = output_path / f"{doc_path.stem}.md"
with open(out_file, 'w') as f:
f.write(md)
return {'file': str(doc_path), 'status': 'success'}
except Exception as e:
return {'file': str(doc_path), 'status': 'error', 'error': str(e)}
docs = list(input_path.glob('*.pdf')) + list(input_path.glob('*.docx'))
with ThreadPoolExecutor(max_workers=max_workers) as executor:
results = list(executor.map(process_single, docs))
return results
```
## Best Practices
1. **Use Appropriate Pipeline**: Configure for your document type
2. **Handle Large Documents**: Process in chunks if needed
3. **Verify Table Extraction**: Complex tables may need review
4. **Check OCR Quality**: Enable OCR for scanned documents
5. **Cache Results**: Store parsed documents for reuse
## Common Patterns
### Academic Paper Parser
```python
def parse_academic_paper(pdf_path):
"""Parse academic paper structure."""
converter = DocumentConverter()
result = converter.convert(pdf_path)
doc = result.document
paper = {
'title': None,
'abstract': None,
'sections': [],
'references': [],
'tables': [],
'figures': []
}
current_section = None
for element in doc.iterate_items():
text = element.text if hasattr(element, 'text') else ''
if element.type == 'title':
paper['title'] = text
elif element.type == 'heading':
if 'abstract' in text.lower():
current_section = 'abstract'
elif 'reference' in text.lower():
current_section = 'references'
else:
paper['sections'].append({
'title': text,
'content': ''
})
current_section = 'section'
elif element.type == 'paragraph':
if current_section == 'abstract':
paper['abstract'] = text
elif current_section == 'section' and paper['sections']:
paper['sections'][-1]['content'] += text + '\n'
elif element.type == 'table':
paper['tables'].append({
'caption': element.caption if hasattr(element, 'caption') else None,
'data': element.export_to_dataframe() if hasattr(element, 'export_to_dataframe') else None
})
return paper
```
### Report to Structured Data
```python
def parse_business_report(doc_path):
"""Parse business report into structured format."""
converter = DocumentConverter()
result = converter.convert(doc_path)
doc = result.document
report = {
'metadata': {
'title': None,
'date': None,
'author': None
},
'executive_summary': None,
'sections': [],
'key_metrics': [],
'recommendations': []
}
# Parse document structure
for element in doc.iterate_items():
# Implement parsing logic based on document structure
pass
return report
```
## Examples
### Example 1: Parse Financial Report
```python
from docling.document_converter import DocumentConverter
def parse_financial_report(pdf_path):
"""Extract structured data from financial report."""
converter = DocumentConverter()
result = converter.convert(pdf_path)
doc = result.document
financial_data = {
'income_statement': None,
'balance_sheet': None,
'cash_flow': None,
'notes': []
}
# Extract tables
tables = []
for element in doc.iterate_items():
if element.type == 'table':
table_df = element.export_to_dataframe()
# Identify table type
if 'revenue' in str(table_df).lower() or 'income' in str(table_df).lower():
financial_data['income_statement'] = table_df
elif 'asset' in str(table_df).lower() or 'liabilities' in str(table_df).lower():
financial_data['balance_sheet'] = table_df
elif 'cash' in str(table_df).lower():
financial_data['cash_flow'] = table_df
else:
tables.append(table_df)
# Extract markdown for notes
financial_data['markdown'] = doc.export_to_markdown()
return financial_data
report = parse_financial_report('annual_report.pdf')
print("Income Statement:")
print(report['income_statement'])
```
### Example 2: Technical Documentation Parser
```python
from docling.document_converter import DocumentConverter
def parse_technical_docs(doc_path):
"""Parse technical documentation."""
converter = DocumentConverter()
result = converter.convert(doc_path)
doc = result.document
documentation = {
'title': None,
'version': None,
'sections': [],
'code_blocks': [],
'diagrams': []
}
current_section = None
for element in doc.iterate_items():
if element.type == 'title':
documentation['title'] = element.text
elif element.type == 'heading':
current_section = {
'title': element.text,
'level': element.level if hasattr(element, 'level') else 1,
'content': []
}
documentation['sections'].append(current_section)
elif element.type == 'code':
if current_section:
current_section['content'].append({
'type': 'code',
'content': element.text
})
documentation['code_blocks'].append(element.text)
elif element.type == 'picture':
documentation['diagrams'].append({
'page': element.prov[0].page_no if element.prov else None,
'caption': element.caption if hasattr(element, 'caption') else None
})
return documentation
docs = parse_technical_docs('api_documentation.pdf')
print(f"Title: {docs['title']}")
print(f"Sections: {len(docs['sections'])}")
```
### Example 3: Contract Analysis
```python
from docling.document_converter import DocumentConverter
def analyze_contract(pdf_path):
"""Parse contract document for key clauses."""
converter = DocumentConverter()
result = converter.convert(pdf_path)
doc = result.document
contract = {
'parties': [],
'clauses': [],
'dates': [],
'amounts': [],
'full_text': doc.export_to_text()
}
import re
# Extract dates
date_pattern = r'\b\d{1,2}[/-]\d{1,2}[/-]\d{2,4}\b|\b(?:Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec)[a-z]* \d{1,2},? \d{4}\b'
contract['dates'] = re.findall(date_pattern, contract['full_text'], re.IGNORECASE)
# Extract monetary amounts
amount_pattern = r'\$[\d,]+(?:\.\d{2})?|\b\d+(?:,\d{3})*(?:\.\d{2})?\s*(?:USD|dollars)\b'
contract['amounts'] = re.findall(amount_pattern, contract['full_text'], re.IGNORECASE)
# Parse sections as clauses
for element in doc.iterate_items():
if element.type == 'heading':
contract['clauses'].append({
'title': element.text,
'content': ''
})
elif element.type == 'paragraph' and contract['clauses']:
contract['clauses'][-1]['content'] += element.text + '\n'
return contract
contract_data = analyze_contract('agreement.pdf')
print(f"Key dates: {contract_data['dates']}")
print(f"Amounts: {contract_data['amounts']}")
```
## Limitations
- Very large documents may require chunking
- Handwritten content needs OCR preprocessing
- Complex nested tables may need manual review
- Some PDF types (encrypted) not supported
- GPU recommended for best performance
## Installation
```bash
pip install docling
# For full functionality
pip install docling[all]
# For OCR support
pip install docling[ocr]
```
## Resources
- [docling GitHub](https://github.com/DS4SD/docling)
- [Documentation](https://ds4sd.github.io/docling/)
- [IBM Research Blog](https://research.ibm.com/)
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