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f0f4f2b 11 months ago

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	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you under the Apache License, Version 2.0 (the
	# "License"); you may not use this file except in compliance
	# with the License. You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing,
	# software distributed under the License is distributed on an
	# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	# KIND, either express or implied. See the License for the
	# specific language governing permissions and limitations
	# under the License.
	"""
	Contains everything around the name mapping.

	More information can be found on here:
	https://iceberg.apache.org/spec/#name-mapping-serialization
	"""

	from __future__ import annotations

	from abc import ABC, abstractmethod
	from collections import ChainMap
	from functools import cached_property, singledispatch
	from typing import Any, Dict, Generic, Iterator, List, Optional, TypeVar, Union

	from pydantic import Field, conlist, field_validator, model_serializer

	from pyiceberg.schema import Schema, SchemaVisitor, visit
	from pyiceberg.typedef import IcebergBaseModel, IcebergRootModel
	from pyiceberg.types import ListType, MapType, NestedField, PrimitiveType, StructType


	class MappedField(IcebergBaseModel):
	field_id: int = Field(alias="field-id")
	names: List[str] = conlist(str, min_length=1)
	fields: List[MappedField] = Field(default_factory=list)

	@field_validator("fields", mode="before")
	@classmethod
	def convert_null_to_empty_List(cls, v: Any) -> Any:
	return v or []

	@field_validator("names", mode="after")
	@classmethod
	def check_at_least_one(cls, v: List[str]) -> Any:
	"""
	Conlist constraint does not seem to be validating the class on instantiation.

	Adding a custom validator to enforce min_length=1 constraint.
	"""
	if len(v) < 1:
	raise ValueError("At least one mapped name must be provided for the field")
	return v

	@model_serializer
	def ser_model(self) -> Dict[str, Any]:
	"""Set custom serializer to leave out the field when it is empty."""
	fields = {"fields": self.fields} if len(self.fields) > 0 else {}
	return {
	"field-id": self.field_id,
	"names": self.names,
	**fields,
	}

	def __len__(self) -> int:
	"""Return the number of fields."""
	return len(self.fields)

	def __str__(self) -> str:
	"""Convert the mapped-field into a nicely formatted string."""
	# Otherwise the UTs fail because the order of the set can change
	fields_str = ", ".join([str(e) for e in self.fields]) or ""
	fields_str = " " + fields_str if fields_str else ""
	return "([" + ", ".join(self.names) + "] -> " + (str(self.field_id) or "?") + fields_str + ")"


	class NameMapping(IcebergRootModel[List[MappedField]]):
	root: List[MappedField]

	@cached_property
	def _field_by_name(self) -> Dict[str, MappedField]:
	return visit_name_mapping(self, _IndexByName())

	def find(self, *names: str) -> MappedField:
	name = ".".join(names)
	try:
	return self._field_by_name[name]
	except KeyError as e:
	raise ValueError(f"Could not find field with name: {name}") from e

	def __len__(self) -> int:
	"""Return the number of mappings."""
	return len(self.root)

	def __iter__(self) -> Iterator[MappedField]:
	"""Iterate over the mapped fields."""
	return iter(self.root)

	def __str__(self) -> str:
	"""Convert the name-mapping into a nicely formatted string."""
	if len(self.root) == 0:
	return "[]"
	else:
	return "[\n " + "\n ".join([str(e) for e in self.root]) + "\n]"


	S = TypeVar("S")
	T = TypeVar("T")


	class NameMappingVisitor(Generic[S, T], ABC):
	@abstractmethod
	def mapping(self, nm: NameMapping, field_results: S) -> S:
	"""Visit a NameMapping."""

	@abstractmethod
	def fields(self, struct: List[MappedField], field_results: List[T]) -> S:
	"""Visit a List[MappedField]."""

	@abstractmethod
	def field(self, field: MappedField, field_result: S) -> T:
	"""Visit a MappedField."""


	class _IndexByName(NameMappingVisitor[Dict[str, MappedField], Dict[str, MappedField]]):
	def mapping(self, nm: NameMapping, field_results: Dict[str, MappedField]) -> Dict[str, MappedField]:
	return field_results

	def fields(self, struct: List[MappedField], field_results: List[Dict[str, MappedField]]) -> Dict[str, MappedField]:
	return dict(ChainMap(*field_results))

	def field(self, field: MappedField, field_result: Dict[str, MappedField]) -> Dict[str, MappedField]:
	result: Dict[str, MappedField] = {
	f"{field_name}.{key}": result_field for key, result_field in field_result.items() for field_name in field.names
	}

	for name in field.names:
	result[name] = field

	return result


	@singledispatch
	def visit_name_mapping(obj: Union[NameMapping, List[MappedField], MappedField], visitor: NameMappingVisitor[S, T]) -> S:
	"""Traverse the name mapping in post-order traversal."""
	raise NotImplementedError(f"Cannot visit non-type: {obj}")


	@visit_name_mapping.register(NameMapping)
	def _(obj: NameMapping, visitor: NameMappingVisitor[S, T]) -> S:
	return visitor.mapping(obj, visit_name_mapping(obj.root, visitor))


	@visit_name_mapping.register(list)
	def _(fields: List[MappedField], visitor: NameMappingVisitor[S, T]) -> S:
	results = [visitor.field(field, visit_name_mapping(field.fields, visitor)) for field in fields]
	return visitor.fields(fields, results)


	def parse_mapping_from_json(mapping: str) -> NameMapping:
	return NameMapping.model_validate_json(mapping)


	class _CreateMapping(SchemaVisitor[List[MappedField]]):
	def schema(self, schema: Schema, struct_result: List[MappedField]) -> List[MappedField]:
	return struct_result

	def struct(self, struct: StructType, field_results: List[List[MappedField]]) -> List[MappedField]:
	return [
	MappedField(field_id=field.field_id, names=[field.name], fields=result)
	for field, result in zip(struct.fields, field_results)
	]

	def field(self, field: NestedField, field_result: List[MappedField]) -> List[MappedField]:
	return field_result

	def list(self, list_type: ListType, element_result: List[MappedField]) -> List[MappedField]:
	return [MappedField(field_id=list_type.element_id, names=["element"], fields=element_result)]

	def map(self, map_type: MapType, key_result: List[MappedField], value_result: List[MappedField]) -> List[MappedField]:
	return [
	MappedField(field_id=map_type.key_id, names=["key"], fields=key_result),
	MappedField(field_id=map_type.value_id, names=["value"], fields=value_result),
	]

	def primitive(self, primitive: PrimitiveType) -> List[MappedField]:
	return []


	class _UpdateMapping(NameMappingVisitor[List[MappedField], MappedField]):
	_updates: Dict[int, NestedField]
	_adds: Dict[int, List[NestedField]]

	def __init__(self, updates: Dict[int, NestedField], adds: Dict[int, List[NestedField]]):
	self._updates = updates
	self._adds = adds

	@staticmethod
	def _remove_reassigned_names(field: MappedField, assignments: Dict[str, int]) -> Optional[MappedField]:
	removed_names = set()
	for name in field.names:
	if (assigned_id := assignments.get(name)) and assigned_id != field.field_id:
	removed_names.add(name)

	remaining_names = [f for f in field.names if f not in removed_names]
	if remaining_names:
	return MappedField(field_id=field.field_id, names=remaining_names, fields=field.fields)
	else:
	return None

	def _add_new_fields(self, mapped_fields: List[MappedField], parent_id: int) -> List[MappedField]:
	if fields_to_add := self._adds.get(parent_id):
	fields: List[MappedField] = []
	new_fields: List[MappedField] = []

	for add in fields_to_add:
	new_fields.append(
	MappedField(field_id=add.field_id, names=[add.name], fields=visit(add.field_type, _CreateMapping()))
	)

	reassignments = {f.name: f.field_id for f in fields_to_add}
	fields = [
	updated_field
	for field in mapped_fields
	if (updated_field := self._remove_reassigned_names(field, reassignments)) is not None
	] + new_fields
	return fields
	else:
	return mapped_fields

	def mapping(self, nm: NameMapping, field_results: List[MappedField]) -> List[MappedField]:
	return self._add_new_fields(field_results, -1)

	def fields(self, struct: List[MappedField], field_results: List[MappedField]) -> List[MappedField]:
	reassignments: Dict[str, int] = {
	update.name: update.field_id for f in field_results if (update := self._updates.get(f.field_id))
	}
	return [
	updated_field
	for field in field_results
	if (updated_field := self._remove_reassigned_names(field, reassignments)) is not None
	]

	def field(self, field: MappedField, field_result: List[MappedField]) -> MappedField:
	field_names = field.names
	if (update := self._updates.get(field.field_id)) is not None and update.name not in field_names:
	field_names.append(update.name)

	return MappedField(field_id=field.field_id, names=field_names, fields=self._add_new_fields(field_result, field.field_id))


	def create_mapping_from_schema(schema: Schema) -> NameMapping:
	return NameMapping(visit(schema, _CreateMapping()))


	def update_mapping(mapping: NameMapping, updates: Dict[int, NestedField], adds: Dict[int, List[NestedField]]) -> NameMapping:
	return NameMapping(visit_name_mapping(mapping, _UpdateMapping(updates, adds)))