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519 lines
No EOL
20 KiB
Python
519 lines
No EOL
20 KiB
Python
"""
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Contract tests for Cassandra Object Storage
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These tests verify the message contracts and schema compatibility
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for the objects storage processor.
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"""
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import pytest
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import json
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from pulsar.schema import AvroSchema
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from trustgraph.schema import ExtractedObject, Metadata, RowSchema, Field
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from trustgraph.storage.objects.cassandra.write import Processor
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@pytest.mark.contract
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class TestObjectsCassandraContracts:
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"""Contract tests for Cassandra object storage messages"""
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def test_extracted_object_input_contract(self):
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"""Test that ExtractedObject schema matches expected input format"""
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# Create test object with all required fields
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test_metadata = Metadata(
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id="test-doc-001",
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user="test_user",
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collection="test_collection",
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metadata=[]
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)
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test_object = ExtractedObject(
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metadata=test_metadata,
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schema_name="customer_records",
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values=[{
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"customer_id": "CUST123",
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"name": "Test Customer",
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"email": "test@example.com"
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}],
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confidence=0.95,
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source_span="Customer data from document..."
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)
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# Verify all required fields are present
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assert hasattr(test_object, 'metadata')
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assert hasattr(test_object, 'schema_name')
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assert hasattr(test_object, 'values')
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assert hasattr(test_object, 'confidence')
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assert hasattr(test_object, 'source_span')
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# Verify metadata structure
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assert hasattr(test_object.metadata, 'id')
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assert hasattr(test_object.metadata, 'user')
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assert hasattr(test_object.metadata, 'collection')
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assert hasattr(test_object.metadata, 'metadata')
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# Verify types
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assert isinstance(test_object.schema_name, str)
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assert isinstance(test_object.values, list)
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assert isinstance(test_object.confidence, float)
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assert isinstance(test_object.source_span, str)
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def test_row_schema_structure_contract(self):
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"""Test RowSchema structure used for table definitions"""
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# Create test schema
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test_fields = [
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Field(
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name="id",
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type="string",
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size=50,
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primary=True,
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description="Primary key",
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required=True,
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enum_values=[],
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indexed=False
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),
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Field(
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name="status",
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type="string",
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size=20,
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primary=False,
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description="Status field",
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required=False,
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enum_values=["active", "inactive", "pending"],
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indexed=True
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)
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]
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test_schema = RowSchema(
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name="test_table",
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description="Test table schema",
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fields=test_fields
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)
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# Verify schema structure
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assert hasattr(test_schema, 'name')
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assert hasattr(test_schema, 'description')
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assert hasattr(test_schema, 'fields')
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assert isinstance(test_schema.fields, list)
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# Verify field structure
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for field in test_schema.fields:
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assert hasattr(field, 'name')
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assert hasattr(field, 'type')
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assert hasattr(field, 'size')
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assert hasattr(field, 'primary')
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assert hasattr(field, 'description')
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assert hasattr(field, 'required')
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assert hasattr(field, 'enum_values')
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assert hasattr(field, 'indexed')
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def test_schema_config_format_contract(self):
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"""Test the expected configuration format for schemas"""
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# Define expected config structure
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config_format = {
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"schema": {
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"table_name": json.dumps({
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"name": "table_name",
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"description": "Table description",
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"fields": [
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{
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"name": "field_name",
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"type": "string",
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"size": 0,
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"primary_key": True,
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"description": "Field description",
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"required": True,
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"enum": [],
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"indexed": False
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}
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]
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})
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}
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}
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# Verify config can be parsed
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schema_json = json.loads(config_format["schema"]["table_name"])
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assert "name" in schema_json
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assert "fields" in schema_json
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assert isinstance(schema_json["fields"], list)
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# Verify field format
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field = schema_json["fields"][0]
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required_field_keys = {"name", "type"}
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optional_field_keys = {"size", "primary_key", "description", "required", "enum", "indexed"}
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assert required_field_keys.issubset(field.keys())
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assert set(field.keys()).issubset(required_field_keys | optional_field_keys)
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def test_cassandra_type_mapping_contract(self):
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"""Test that all supported field types have Cassandra mappings"""
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processor = Processor.__new__(Processor)
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# All field types that should be supported
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supported_types = [
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("string", "text"),
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("integer", "int"), # or bigint based on size
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("float", "float"), # or double based on size
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("boolean", "boolean"),
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("timestamp", "timestamp"),
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("date", "date"),
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("time", "time"),
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("uuid", "uuid")
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]
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for field_type, expected_cassandra_type in supported_types:
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cassandra_type = processor.get_cassandra_type(field_type)
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# For integer and float, the exact type depends on size
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if field_type in ["integer", "float"]:
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assert cassandra_type in ["int", "bigint", "float", "double"]
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else:
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assert cassandra_type == expected_cassandra_type
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def test_value_conversion_contract(self):
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"""Test value conversion for all supported types"""
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processor = Processor.__new__(Processor)
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# Test conversions maintain data integrity
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test_cases = [
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# (input_value, field_type, expected_output, expected_type)
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("123", "integer", 123, int),
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("123.45", "float", 123.45, float),
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("true", "boolean", True, bool),
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("false", "boolean", False, bool),
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("test string", "string", "test string", str),
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(None, "string", None, type(None)),
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]
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for input_val, field_type, expected_val, expected_type in test_cases:
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result = processor.convert_value(input_val, field_type)
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assert result == expected_val
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assert isinstance(result, expected_type) or result is None
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@pytest.mark.skip(reason="ExtractedObject is a dataclass, not a Pulsar Record type")
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def test_extracted_object_serialization_contract(self):
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"""Test that ExtractedObject can be serialized/deserialized correctly"""
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# Create test object
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original = ExtractedObject(
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metadata=Metadata(
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id="serial-001",
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user="test_user",
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collection="test_coll",
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metadata=[]
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),
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schema_name="test_schema",
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values=[{"field1": "value1", "field2": "123"}],
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confidence=0.85,
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source_span="Test span"
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)
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# Test serialization using schema
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schema = AvroSchema(ExtractedObject)
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# Encode and decode
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encoded = schema.encode(original)
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decoded = schema.decode(encoded)
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# Verify round-trip
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assert decoded.metadata.id == original.metadata.id
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assert decoded.metadata.user == original.metadata.user
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assert decoded.metadata.collection == original.metadata.collection
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assert decoded.schema_name == original.schema_name
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assert decoded.values == original.values
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assert decoded.confidence == original.confidence
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assert decoded.source_span == original.source_span
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def test_cassandra_table_naming_contract(self):
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"""Test Cassandra naming conventions and constraints"""
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processor = Processor.__new__(Processor)
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# Test table naming (always gets o_ prefix)
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table_test_names = [
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("simple_name", "o_simple_name"),
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("Name-With-Dashes", "o_name_with_dashes"),
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("name.with.dots", "o_name_with_dots"),
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("123_numbers", "o_123_numbers"),
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("special!@#chars", "o_special___chars"), # 3 special chars become 3 underscores
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("UPPERCASE", "o_uppercase"),
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("CamelCase", "o_camelcase"),
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("", "o_"), # Edge case - empty string becomes o_
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]
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for input_name, expected_name in table_test_names:
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result = processor.sanitize_table(input_name)
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assert result == expected_name
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# Verify result is valid Cassandra identifier (starts with letter)
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assert result.startswith('o_')
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assert result.replace('o_', '').replace('_', '').isalnum() or result == 'o_'
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# Test regular name sanitization (only adds o_ prefix if starts with number)
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name_test_cases = [
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("simple_name", "simple_name"),
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("Name-With-Dashes", "name_with_dashes"),
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("name.with.dots", "name_with_dots"),
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("123_numbers", "o_123_numbers"), # Only this gets o_ prefix
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("special!@#chars", "special___chars"), # 3 special chars become 3 underscores
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("UPPERCASE", "uppercase"),
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("CamelCase", "camelcase"),
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]
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for input_name, expected_name in name_test_cases:
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result = processor.sanitize_name(input_name)
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assert result == expected_name
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def test_primary_key_structure_contract(self):
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"""Test that primary key structure follows Cassandra best practices"""
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# Verify partition key always includes collection
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processor = Processor.__new__(Processor)
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processor.schemas = {}
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processor.known_keyspaces = set()
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processor.known_tables = {}
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processor.session = None
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# Test schema with primary key
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schema_with_pk = RowSchema(
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name="test",
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fields=[
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Field(name="id", type="string", primary=True),
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Field(name="data", type="string")
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]
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)
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# The primary key should be ((collection, id))
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# This is verified in the implementation where collection
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# is always first in the partition key
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def test_metadata_field_usage_contract(self):
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"""Test that metadata fields are used correctly in storage"""
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# Create test object
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test_obj = ExtractedObject(
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metadata=Metadata(
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id="meta-001",
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user="user123", # -> keyspace
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collection="coll456", # -> partition key
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metadata=[{"key": "value"}]
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),
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schema_name="table789", # -> table name
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values=[{"field": "value"}],
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confidence=0.9,
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source_span="Source"
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)
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# Verify mapping contract:
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# - metadata.user -> Cassandra keyspace
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# - schema_name -> Cassandra table
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# - metadata.collection -> Part of primary key
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assert test_obj.metadata.user # Required for keyspace
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assert test_obj.schema_name # Required for table
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assert test_obj.metadata.collection # Required for partition key
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@pytest.mark.contract
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class TestObjectsCassandraContractsBatch:
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"""Contract tests for Cassandra object storage batch processing"""
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def test_extracted_object_batch_input_contract(self):
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"""Test that batched ExtractedObject schema matches expected input format"""
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# Create test object with multiple values in batch
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test_metadata = Metadata(
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id="batch-doc-001",
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user="test_user",
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collection="test_collection",
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metadata=[]
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)
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batch_object = ExtractedObject(
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metadata=test_metadata,
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schema_name="customer_records",
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values=[
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{
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"customer_id": "CUST123",
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"name": "Test Customer 1",
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"email": "test1@example.com"
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},
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{
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"customer_id": "CUST124",
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"name": "Test Customer 2",
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"email": "test2@example.com"
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},
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{
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"customer_id": "CUST125",
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"name": "Test Customer 3",
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"email": "test3@example.com"
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}
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],
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confidence=0.88,
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source_span="Multiple customer data from document..."
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)
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# Verify batch structure
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assert hasattr(batch_object, 'values')
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assert isinstance(batch_object.values, list)
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assert len(batch_object.values) == 3
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# Verify each batch item is a dict
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for i, batch_item in enumerate(batch_object.values):
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assert isinstance(batch_item, dict)
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assert "customer_id" in batch_item
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assert "name" in batch_item
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assert "email" in batch_item
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assert batch_item["customer_id"] == f"CUST12{3+i}"
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assert f"Test Customer {i+1}" in batch_item["name"]
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def test_extracted_object_empty_batch_contract(self):
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"""Test empty batch ExtractedObject contract"""
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test_metadata = Metadata(
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id="empty-batch-001",
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user="test_user",
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collection="test_collection",
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metadata=[]
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)
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empty_batch_object = ExtractedObject(
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metadata=test_metadata,
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schema_name="empty_schema",
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values=[], # Empty batch
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confidence=1.0,
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source_span="No objects found in document"
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)
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# Verify empty batch structure
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assert hasattr(empty_batch_object, 'values')
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assert isinstance(empty_batch_object.values, list)
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assert len(empty_batch_object.values) == 0
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assert empty_batch_object.confidence == 1.0
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def test_extracted_object_single_item_batch_contract(self):
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"""Test single-item batch (backward compatibility) contract"""
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test_metadata = Metadata(
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id="single-batch-001",
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user="test_user",
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collection="test_collection",
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metadata=[]
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)
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single_batch_object = ExtractedObject(
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metadata=test_metadata,
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schema_name="customer_records",
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values=[{ # Array with single item for backward compatibility
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"customer_id": "CUST999",
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"name": "Single Customer",
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"email": "single@example.com"
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}],
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confidence=0.95,
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source_span="Single customer data from document..."
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)
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# Verify single-item batch structure
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assert isinstance(single_batch_object.values, list)
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assert len(single_batch_object.values) == 1
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assert isinstance(single_batch_object.values[0], dict)
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assert single_batch_object.values[0]["customer_id"] == "CUST999"
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@pytest.mark.skip(reason="ExtractedObject is a dataclass, not a Pulsar Record type")
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def test_extracted_object_batch_serialization_contract(self):
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"""Test that batched ExtractedObject can be serialized/deserialized correctly"""
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# Create batch object
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original = ExtractedObject(
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metadata=Metadata(
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id="batch-serial-001",
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user="test_user",
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collection="test_coll",
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metadata=[]
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),
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schema_name="test_schema",
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values=[
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{"field1": "value1", "field2": "123"},
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{"field1": "value2", "field2": "456"},
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{"field1": "value3", "field2": "789"}
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],
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confidence=0.92,
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source_span="Batch test span"
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)
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# Test serialization using schema
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schema = AvroSchema(ExtractedObject)
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# Encode and decode
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encoded = schema.encode(original)
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decoded = schema.decode(encoded)
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# Verify round-trip for batch
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assert decoded.metadata.id == original.metadata.id
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assert decoded.metadata.user == original.metadata.user
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assert decoded.metadata.collection == original.metadata.collection
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assert decoded.schema_name == original.schema_name
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assert len(decoded.values) == len(original.values)
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assert len(decoded.values) == 3
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# Verify each batch item
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for i in range(3):
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assert decoded.values[i] == original.values[i]
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assert decoded.values[i]["field1"] == f"value{i+1}"
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assert decoded.values[i]["field2"] == f"{123 + i*333}"
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assert decoded.confidence == original.confidence
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assert decoded.source_span == original.source_span
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def test_batch_processing_field_validation_contract(self):
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"""Test that batch processing validates field consistency"""
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# All batch items should have consistent field structure
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# This is a contract that the application should enforce
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# Valid batch - all items have same fields
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valid_batch_values = [
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{"id": "1", "name": "Item 1", "value": "100"},
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{"id": "2", "name": "Item 2", "value": "200"},
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{"id": "3", "name": "Item 3", "value": "300"}
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]
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# Each item has the same field structure
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field_sets = [set(item.keys()) for item in valid_batch_values]
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assert all(fields == field_sets[0] for fields in field_sets), "All batch items should have consistent fields"
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# Invalid batch - inconsistent fields (this would be caught by application logic)
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invalid_batch_values = [
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{"id": "1", "name": "Item 1", "value": "100"},
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{"id": "2", "name": "Item 2"}, # Missing 'value' field
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{"id": "3", "name": "Item 3", "value": "300", "extra": "field"} # Extra field
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]
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# Demonstrate the inconsistency
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invalid_field_sets = [set(item.keys()) for item in invalid_batch_values]
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assert not all(fields == invalid_field_sets[0] for fields in invalid_field_sets), "Invalid batch should have inconsistent fields"
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def test_batch_storage_partition_key_contract(self):
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"""Test that batch objects maintain partition key consistency"""
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# In Cassandra storage, all objects in a batch should:
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# 1. Belong to the same collection (partition key component)
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# 2. Have unique primary keys within the batch
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# 3. Be stored in the same keyspace (user)
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test_metadata = Metadata(
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id="partition-test-001",
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user="consistent_user", # Same keyspace
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collection="consistent_collection", # Same partition
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metadata=[]
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)
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batch_object = ExtractedObject(
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metadata=test_metadata,
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schema_name="partition_test",
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values=[
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{"id": "pk1", "data": "data1"}, # Unique primary key
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{"id": "pk2", "data": "data2"}, # Unique primary key
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{"id": "pk3", "data": "data3"} # Unique primary key
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],
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confidence=0.95,
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source_span="Partition consistency test"
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)
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# Verify consistency contract
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assert batch_object.metadata.user # Must have user for keyspace
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assert batch_object.metadata.collection # Must have collection for partition key
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# Verify unique primary keys in batch
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primary_keys = [item["id"] for item in batch_object.values]
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assert len(primary_keys) == len(set(primary_keys)), "Primary keys must be unique within batch"
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# All batch items will be stored in same keyspace and partition
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# This is enforced by the metadata.user and metadata.collection being shared |