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https://github.com/trustgraph-ai/trustgraph.git
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cd5580be59
1. Shared Provenance Module - URI generators, namespace constants,
triple builders, vocabulary bootstrap
2. Librarian - Emits document metadata to graph on processing
initiation (vocabulary bootstrap + PROV-O triples)
3. PDF Extractor - Saves pages as child documents, emits parent-child
provenance edges, forwards page IDs
4. Chunker - Saves chunks as child documents, emits provenance edges,
forwards chunk ID + content
5. Knowledge Extractors (both definitions and relationships):
- Link entities to chunks via SUBJECT_OF (not top-level document)
- Removed duplicate metadata emission (now handled by librarian)
- Get chunk_doc_id and chunk_uri from incoming Chunk message
6. Embedding Provenance:
- EntityContext schema has chunk_id field
- EntityEmbeddings schema has chunk_id field
- Definitions extractor sets chunk_id when creating EntityContext
- Graph embeddings processor passes chunk_id through to
EntityEmbeddings
Provenance Flow:
Document → Page (PDF) → Chunk → Extracted Facts/Embeddings
↓ ↓ ↓ ↓
librarian librarian librarian (chunk_id reference)
+ graph + graph + graph
Each artifact is stored in librarian with parent-child linking, and PROV-O
edges are emitted to the knowledge graph for full traceability from any
extracted fact back to its source document.
Also, updating tests
195 lines
7.9 KiB
Python
195 lines
7.9 KiB
Python
"""
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Unit tests for trustgraph.decoding.pdf.pdf_decoder
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"""
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import pytest
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import base64
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import tempfile
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from unittest.mock import AsyncMock, MagicMock, patch, call
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from unittest import IsolatedAsyncioTestCase
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from trustgraph.decoding.pdf.pdf_decoder import Processor
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from trustgraph.schema import Document, TextDocument, Metadata
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class MockAsyncProcessor:
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def __init__(self, **params):
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self.config_handlers = []
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self.id = params.get('id', 'test-service')
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self.specifications = []
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self.pubsub = MagicMock()
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self.taskgroup = params.get('taskgroup', MagicMock())
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class TestPdfDecoderProcessor(IsolatedAsyncioTestCase):
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"""Test PDF decoder processor functionality"""
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@patch('trustgraph.base.chunking_service.Consumer')
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@patch('trustgraph.base.chunking_service.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Consumer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Producer')
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@patch('trustgraph.base.async_processor.AsyncProcessor', MockAsyncProcessor)
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async def test_processor_initialization(self, mock_producer, mock_consumer, mock_cs_producer, mock_cs_consumer):
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"""Test PDF decoder processor initialization"""
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config = {
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'id': 'test-pdf-decoder',
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'taskgroup': AsyncMock()
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}
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processor = Processor(**config)
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# Check consumer spec
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consumer_specs = [s for s in processor.specifications if hasattr(s, 'handler')]
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assert len(consumer_specs) >= 1
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assert consumer_specs[0].name == "input"
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assert consumer_specs[0].schema == Document
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@patch('trustgraph.base.chunking_service.Consumer')
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@patch('trustgraph.base.chunking_service.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Consumer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.PyPDFLoader')
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@patch('trustgraph.base.async_processor.AsyncProcessor', MockAsyncProcessor)
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async def test_on_message_success(self, mock_pdf_loader_class, mock_producer, mock_consumer, mock_cs_producer, mock_cs_consumer):
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"""Test successful PDF processing"""
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# Mock PDF content
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pdf_content = b"fake pdf content"
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pdf_base64 = base64.b64encode(pdf_content).decode('utf-8')
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# Mock PyPDFLoader
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mock_loader = MagicMock()
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mock_page1 = MagicMock(page_content="Page 1 content")
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mock_page2 = MagicMock(page_content="Page 2 content")
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mock_loader.load.return_value = [mock_page1, mock_page2]
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mock_pdf_loader_class.return_value = mock_loader
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# Mock message
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mock_metadata = Metadata(id="test-doc")
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mock_document = Document(metadata=mock_metadata, data=pdf_base64)
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mock_msg = MagicMock()
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mock_msg.value.return_value = mock_document
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# Mock flow - separate mocks for output and triples
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mock_output_flow = AsyncMock()
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mock_triples_flow = AsyncMock()
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mock_flow = MagicMock(side_effect=lambda name: {
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"output": mock_output_flow,
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"triples": mock_triples_flow,
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}.get(name))
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config = {
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'id': 'test-pdf-decoder',
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'taskgroup': AsyncMock()
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}
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processor = Processor(**config)
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# Mock save_child_document to avoid waiting for librarian response
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processor.save_child_document = AsyncMock(return_value="mock-doc-id")
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await processor.on_message(mock_msg, None, mock_flow)
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# Verify output was sent for each page
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assert mock_output_flow.send.call_count == 2
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# Verify triples were sent for each page (provenance)
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assert mock_triples_flow.send.call_count == 2
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@patch('trustgraph.base.chunking_service.Consumer')
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@patch('trustgraph.base.chunking_service.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Consumer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.PyPDFLoader')
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@patch('trustgraph.base.async_processor.AsyncProcessor', MockAsyncProcessor)
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async def test_on_message_empty_pdf(self, mock_pdf_loader_class, mock_producer, mock_consumer, mock_cs_producer, mock_cs_consumer):
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"""Test handling of empty PDF"""
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pdf_content = b"fake pdf content"
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pdf_base64 = base64.b64encode(pdf_content).decode('utf-8')
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mock_loader = MagicMock()
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mock_loader.load.return_value = []
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mock_pdf_loader_class.return_value = mock_loader
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mock_metadata = Metadata(id="test-doc")
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mock_document = Document(metadata=mock_metadata, data=pdf_base64)
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mock_msg = MagicMock()
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mock_msg.value.return_value = mock_document
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mock_output_flow = AsyncMock()
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mock_flow = MagicMock(return_value=mock_output_flow)
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config = {
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'id': 'test-pdf-decoder',
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'taskgroup': AsyncMock()
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}
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processor = Processor(**config)
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await processor.on_message(mock_msg, None, mock_flow)
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mock_output_flow.send.assert_not_called()
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@patch('trustgraph.base.chunking_service.Consumer')
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@patch('trustgraph.base.chunking_service.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Consumer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.Producer')
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@patch('trustgraph.decoding.pdf.pdf_decoder.PyPDFLoader')
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@patch('trustgraph.base.async_processor.AsyncProcessor', MockAsyncProcessor)
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async def test_on_message_unicode_content(self, mock_pdf_loader_class, mock_producer, mock_consumer, mock_cs_producer, mock_cs_consumer):
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"""Test handling of unicode content in PDF"""
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pdf_content = b"fake pdf content"
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pdf_base64 = base64.b64encode(pdf_content).decode('utf-8')
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mock_loader = MagicMock()
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mock_page = MagicMock(page_content="Page with unicode: 你好世界 🌍")
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mock_loader.load.return_value = [mock_page]
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mock_pdf_loader_class.return_value = mock_loader
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mock_metadata = Metadata(id="test-doc")
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mock_document = Document(metadata=mock_metadata, data=pdf_base64)
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mock_msg = MagicMock()
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mock_msg.value.return_value = mock_document
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# Mock flow - separate mocks for output and triples
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mock_output_flow = AsyncMock()
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mock_triples_flow = AsyncMock()
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mock_flow = MagicMock(side_effect=lambda name: {
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"output": mock_output_flow,
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"triples": mock_triples_flow,
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}.get(name))
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config = {
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'id': 'test-pdf-decoder',
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'taskgroup': AsyncMock()
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}
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processor = Processor(**config)
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# Mock save_child_document to avoid waiting for librarian response
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processor.save_child_document = AsyncMock(return_value="mock-doc-id")
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await processor.on_message(mock_msg, None, mock_flow)
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mock_output_flow.send.assert_called_once()
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call_args = mock_output_flow.send.call_args[0][0]
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# PDF decoder now forwards document_id, chunker fetches content from librarian
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assert call_args.document_id == "test-doc/p1"
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assert call_args.text == b"" # Content stored in librarian, not inline
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@patch('trustgraph.base.flow_processor.FlowProcessor.add_args')
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def test_add_args(self, mock_parent_add_args):
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"""Test add_args calls parent method"""
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mock_parser = MagicMock()
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Processor.add_args(mock_parser)
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mock_parent_add_args.assert_called_once_with(mock_parser)
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@patch('trustgraph.decoding.pdf.pdf_decoder.Processor.launch')
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def test_run(self, mock_launch):
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"""Test run function"""
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from trustgraph.decoding.pdf.pdf_decoder import run
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run()
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mock_launch.assert_called_once_with("pdf-decoder",
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"\nSimple decoder, accepts PDF documents on input, outputs pages from the\nPDF document as text as separate output objects.\n\nSupports both inline document data and fetching from librarian via Pulsar\nfor large documents.\n")
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if __name__ == '__main__':
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pytest.main([__file__])
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