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"""Item: an individual entry in the dataset.""" | |
import csv | |
import io | |
from collections import deque | |
from datetime import datetime | |
from enum import Enum | |
from typing import Any, Optional, Union, cast | |
import pyarrow as pa | |
from pydantic import BaseModel, StrictInt, StrictStr, validator | |
MANIFEST_FILENAME = 'manifest.json' | |
PARQUET_FILENAME_PREFIX = 'data' | |
# We choose `__rowid__` inspired by the standard `rowid` pseudocolumn in DBs: | |
# https://docs.oracle.com/cd/B19306_01/server.102/b14200/pseudocolumns008.htm | |
UUID_COLUMN = '__rowid__' | |
PATH_WILDCARD = '*' | |
VALUE_KEY = '__value__' | |
SIGNAL_METADATA_KEY = '__metadata__' | |
TEXT_SPAN_START_FEATURE = 'start' | |
TEXT_SPAN_END_FEATURE = 'end' | |
# Python doesn't work with recursive types. These types provide some notion of type-safety. | |
Scalar = Union[bool, datetime, int, float, str, bytes] | |
Item = Any | |
# Contains a string field name, a wildcard for repeateds, or a specific integer index for repeateds. | |
# This path represents a path to a particular column. | |
# Examples: | |
# ['article', 'field'] represents {'article': {'field': VALUES}} | |
# ['article', '*', 'field'] represents {'article': [{'field': VALUES}, {'field': VALUES}]} | |
# ['article', '0', 'field'] represents {'article': {'field': VALUES}} | |
PathTuple = tuple[StrictStr, ...] | |
Path = Union[PathTuple, StrictStr] | |
PathKeyedItem = tuple[Path, Item] | |
# These fields are for for python only and not written to a schema. | |
RichData = Union[str, bytes] | |
VectorKey = tuple[Union[StrictStr, StrictInt], ...] | |
class DataType(str, Enum): | |
"""Enum holding the dtype for a field.""" | |
STRING = 'string' | |
# Contains {start, end} offset integers with a reference_column. | |
STRING_SPAN = 'string_span' | |
BOOLEAN = 'boolean' | |
# Ints. | |
INT8 = 'int8' | |
INT16 = 'int16' | |
INT32 = 'int32' | |
INT64 = 'int64' | |
UINT8 = 'uint8' | |
UINT16 = 'uint16' | |
UINT32 = 'uint32' | |
UINT64 = 'uint64' | |
# Floats. | |
FLOAT16 = 'float16' | |
FLOAT32 = 'float32' | |
FLOAT64 = 'float64' | |
### Time ### | |
# Time of day (no time zone). | |
TIME = 'time' | |
# Calendar date (year, month, day), no time zone. | |
DATE = 'date' | |
# An "Instant" stored as number of microseconds (µs) since 1970-01-01 00:00:00+00 (UTC time zone). | |
TIMESTAMP = 'timestamp' | |
# Time span, stored as microseconds. | |
INTERVAL = 'interval' | |
BINARY = 'binary' | |
EMBEDDING = 'embedding' | |
NULL = 'null' | |
def __repr__(self) -> str: | |
return self.value | |
class SignalInputType(str, Enum): | |
"""Enum holding the signal input type.""" | |
TEXT = 'text' | |
TEXT_EMBEDDING = 'text_embedding' | |
IMAGE = 'image' | |
def __repr__(self) -> str: | |
return self.value | |
SIGNAL_COMPUTE_TYPE_TO_VALID_DTYPES: dict[SignalInputType, list[DataType]] = { | |
SignalInputType.TEXT: [DataType.STRING, DataType.STRING_SPAN], | |
SignalInputType.TEXT_EMBEDDING: [DataType.EMBEDDING], | |
SignalInputType.IMAGE: [DataType.BINARY], | |
} | |
def signal_compute_type_supports_dtype(input_type: SignalInputType, dtype: DataType) -> bool: | |
"""Returns True if the signal compute type supports the dtype.""" | |
return dtype in SIGNAL_COMPUTE_TYPE_TO_VALID_DTYPES[input_type] | |
Bin = tuple[str, Optional[Union[float, int]], Optional[Union[float, int]]] | |
class Field(BaseModel): | |
"""Holds information for a field in the schema.""" | |
repeated_field: Optional['Field'] = None | |
fields: Optional[dict[str, 'Field']] = None | |
dtype: Optional[DataType] = None | |
# Defined as the serialized signal when this field is the root result of a signal. | |
signal: Optional[dict[str, Any]] = None | |
# Maps a named bin to a tuple of (start, end) values. | |
bins: Optional[list[Bin]] = None | |
categorical: Optional[bool] = None | |
def either_fields_or_repeated_field_is_defined( | |
cls, fields: Optional[dict[str, 'Field']], values: dict[str, | |
Any]) -> Optional[dict[str, 'Field']]: | |
"""Error if both `fields` and `repeated_fields` are defined.""" | |
if not fields: | |
return fields | |
if values.get('repeated_field'): | |
raise ValueError('Both "fields" and "repeated_field" should not be defined') | |
if VALUE_KEY in fields: | |
raise ValueError(f'{VALUE_KEY} is a reserved field name.') | |
return fields | |
def infer_default_dtype(cls, dtype: Optional[DataType], values: dict[str, | |
Any]) -> Optional[DataType]: | |
"""Infers the default value for dtype if not explicitly provided.""" | |
if dtype and values.get('repeated_field'): | |
raise ValueError('dtype and repeated_field cannot both be defined.') | |
if not values.get('repeated_field') and not values.get('fields') and not dtype: | |
raise ValueError('One of "fields", "repeated_field", or "dtype" should be defined') | |
return dtype | |
def validate_bins(cls, bins: list[Bin]) -> list[Bin]: | |
"""Validate the bins.""" | |
if len(bins) < 2: | |
raise ValueError('Please specify at least two bins.') | |
_, first_start, _ = bins[0] | |
if first_start is not None: | |
raise ValueError('The first bin should have a `None` start value.') | |
_, _, last_end = bins[-1] | |
if last_end is not None: | |
raise ValueError('The last bin should have a `None` end value.') | |
for i, (_, start, _) in enumerate(bins): | |
if i == 0: | |
continue | |
prev_bin = bins[i - 1] | |
_, _, prev_end = prev_bin | |
if start != prev_end: | |
raise ValueError( | |
f'Bin {i} start ({start}) should be equal to the previous bin end {prev_end}.') | |
return bins | |
def validate_categorical(cls, categorical: bool, values: dict[str, Any]) -> bool: | |
"""Validate the categorical field.""" | |
if categorical and is_float(values['dtype']): | |
raise ValueError('Categorical fields cannot be float dtypes.') | |
return categorical | |
def __str__(self) -> str: | |
return _str_field(self, indent=0) | |
def __repr__(self) -> str: | |
return f' {self.__class__.__name__}::{self.json(exclude_none=True, indent=2)}' | |
class Schema(BaseModel): | |
"""Database schema.""" | |
fields: dict[str, Field] | |
# Cached leafs. | |
_leafs: Optional[dict[PathTuple, Field]] = None | |
class Config: | |
arbitrary_types_allowed = True | |
underscore_attrs_are_private = True | |
def leafs(self) -> dict[PathTuple, Field]: | |
"""Return all the leaf fields in the schema. A leaf is defined as a node that contains a value. | |
NOTE: Leafs may contain children. Leafs can be found as any node that has a dtype defined. | |
""" | |
if self._leafs: | |
return self._leafs | |
result: dict[PathTuple, Field] = {} | |
q: deque[tuple[PathTuple, Field]] = deque([((), Field(fields=self.fields))]) | |
while q: | |
path, field = q.popleft() | |
if field.dtype: | |
# Nodes with dtypes act as leafs. They also may have children. | |
result[path] = field | |
if field.fields: | |
for name, child_field in field.fields.items(): | |
child_path = (*path, name) | |
q.append((child_path, child_field)) | |
elif field.repeated_field: | |
child_path = (*path, PATH_WILDCARD) | |
q.append((child_path, field.repeated_field)) | |
self._leafs = result | |
return result | |
def has_field(self, path: PathTuple) -> bool: | |
"""Returns if the field is found at the given path.""" | |
field = cast(Field, self) | |
for path_part in path: | |
if field.fields: | |
field = cast(Field, field.fields.get(path_part)) | |
if not field: | |
return False | |
elif field.repeated_field: | |
if path_part != PATH_WILDCARD: | |
return False | |
field = field.repeated_field | |
else: | |
return False | |
return True | |
def get_field(self, path: PathTuple) -> Field: | |
"""Returns the field at the given path.""" | |
field = cast(Field, self) | |
for name in path: | |
if field.fields: | |
if name not in field.fields: | |
raise ValueError(f'Path {path} not found in schema') | |
field = field.fields[name] | |
elif field.repeated_field: | |
if name != PATH_WILDCARD: | |
raise ValueError(f'Invalid path {path}') | |
field = field.repeated_field | |
else: | |
raise ValueError(f'Invalid path {path}') | |
return field | |
def __str__(self) -> str: | |
return _str_fields(self.fields, indent=0) | |
def __repr__(self) -> str: | |
return self.json(exclude_none=True, indent=2) | |
def schema(schema_like: object) -> Schema: | |
"""Parse a schema-like object to a Schema object.""" | |
field = _parse_field_like(schema_like) | |
if not field.fields: | |
raise ValueError('Schema must have fields') | |
return Schema(fields=field.fields) | |
def field( | |
dtype: Optional[Union[DataType, str]] = None, | |
signal: Optional[dict] = None, | |
fields: Optional[object] = None, | |
bins: Optional[list[Bin]] = None, | |
categorical: Optional[bool] = None, | |
) -> Field: | |
"""Parse a field-like object to a Field object.""" | |
field = _parse_field_like(fields or {}, dtype) | |
if signal: | |
field.signal = signal | |
if dtype: | |
if isinstance(dtype, str): | |
dtype = DataType(dtype) | |
field.dtype = dtype | |
if bins: | |
field.bins = bins | |
if categorical is not None: | |
field.categorical = categorical | |
return field | |
def _parse_field_like(field_like: object, dtype: Optional[Union[DataType, str]] = None) -> Field: | |
if isinstance(field_like, Field): | |
return field_like | |
elif isinstance(field_like, dict): | |
fields: dict[str, Field] = {} | |
for k, v in field_like.items(): | |
fields[k] = _parse_field_like(v) | |
if isinstance(dtype, str): | |
dtype = DataType(dtype) | |
return Field(fields=fields or None, dtype=dtype) | |
elif isinstance(field_like, str): | |
return Field(dtype=DataType(field_like)) | |
elif isinstance(field_like, list): | |
return Field(repeated_field=_parse_field_like(field_like[0], dtype=dtype)) | |
else: | |
raise ValueError(f'Cannot parse field like: {field_like}') | |
def child_item_from_column_path(item: Item, path: Path) -> Item: | |
"""Return the last (child) item from a column path.""" | |
child_item_value = item | |
for path_part in path: | |
if path_part == PATH_WILDCARD: | |
raise ValueError( | |
'child_item_from_column_path cannot be called with a path that contains a repeated ' | |
f'wildcard: "{path}"') | |
# path_part can either be an integer or a string for a dictionary, both of which we can | |
# directly index with. | |
child_path = int(path_part) if path_part.isdigit() else path_part | |
child_item_value = child_item_value[child_path] | |
return child_item_value | |
def column_paths_match(path_match: Path, specific_path: Path) -> bool: | |
"""Test whether two column paths match. | |
Args: | |
path_match: A column path that contains wildcards, and sub-paths. This path will be used for | |
testing the second specific path. | |
specific_path: A column path that specifically identifies an field. | |
Returns | |
Whether specific_path matches the path_match. This will only match when the | |
paths are equal length. If a user wants to enrich everything with an array, they must use the | |
path wildcard '*' in their patch match. | |
""" | |
if isinstance(path_match, str): | |
path_match = (path_match,) | |
if isinstance(specific_path, str): | |
specific_path = (specific_path,) | |
if len(path_match) != len(specific_path): | |
return False | |
for path_match_p, specific_path_p in zip(path_match, specific_path): | |
if path_match_p == PATH_WILDCARD: | |
continue | |
if path_match_p != specific_path_p: | |
return False | |
return True | |
def normalize_path(path: Path) -> PathTuple: | |
"""Normalizes a dot seperated path, but ignores dots inside quotes, like regular SQL. | |
Examples | |
- 'a.b.c' will be parsed as ('a', 'b', 'c'). | |
- '"a.b".c' will be parsed as ('a.b', 'c'). | |
- '"a".b.c' will be parsed as ('a', 'b', 'c'). | |
""" | |
if isinstance(path, str): | |
return tuple(next(csv.reader(io.StringIO(path), delimiter='.'))) | |
return path | |
class ImageInfo(BaseModel): | |
"""Info about an individual image.""" | |
path: Path | |
class SourceManifest(BaseModel): | |
"""The manifest that describes the dataset run, including schema and parquet files.""" | |
# List of a parquet filepaths storing the data. The paths can be relative to `manifest.json`. | |
files: list[str] | |
# The data schema. | |
data_schema: Schema | |
# Image information for the dataset. | |
images: Optional[list[ImageInfo]] = None | |
def _str_fields(fields: dict[str, Field], indent: int) -> str: | |
prefix = ' ' * indent | |
out: list[str] = [] | |
for name, field in fields.items(): | |
out.append(f'{prefix}{name}:{_str_field(field, indent=indent + 2)}') | |
return '\n'.join(out) | |
def _str_field(field: Field, indent: int) -> str: | |
if field.fields: | |
prefix = '\n' if indent > 0 else '' | |
return f'{prefix}{_str_fields(field.fields, indent)}' | |
if field.repeated_field: | |
return f' list({_str_field(field.repeated_field, indent)})' | |
return f' {cast(DataType, field.dtype)}' | |
def dtype_to_arrow_schema(dtype: DataType) -> Union[pa.Schema, pa.DataType]: | |
"""Convert the dtype to an arrow dtype.""" | |
if dtype == DataType.STRING: | |
return pa.string() | |
elif dtype == DataType.BOOLEAN: | |
return pa.bool_() | |
elif dtype == DataType.FLOAT16: | |
return pa.float16() | |
elif dtype == DataType.FLOAT32: | |
return pa.float32() | |
elif dtype == DataType.FLOAT64: | |
return pa.float64() | |
elif dtype == DataType.INT8: | |
return pa.int8() | |
elif dtype == DataType.INT16: | |
return pa.int16() | |
elif dtype == DataType.INT32: | |
return pa.int32() | |
elif dtype == DataType.INT64: | |
return pa.int64() | |
elif dtype == DataType.UINT8: | |
return pa.uint8() | |
elif dtype == DataType.UINT16: | |
return pa.uint16() | |
elif dtype == DataType.UINT32: | |
return pa.uint32() | |
elif dtype == DataType.UINT64: | |
return pa.uint64() | |
elif dtype == DataType.BINARY: | |
return pa.binary() | |
elif dtype == DataType.TIME: | |
return pa.time64() | |
elif dtype == DataType.DATE: | |
return pa.date64() | |
elif dtype == DataType.TIMESTAMP: | |
return pa.timestamp('us') | |
elif dtype == DataType.INTERVAL: | |
return pa.duration('us') | |
elif dtype == DataType.EMBEDDING: | |
# We reserve an empty column for embeddings in parquet files so they can be queried. | |
# The values are *not* filled out. If parquet and duckdb support embeddings in the future, we | |
# can set this dtype to the relevant pyarrow type. | |
return pa.null() | |
elif dtype == DataType.STRING_SPAN: | |
return pa.struct({ | |
VALUE_KEY: pa.struct({ | |
TEXT_SPAN_START_FEATURE: pa.int32(), | |
TEXT_SPAN_END_FEATURE: pa.int32() | |
}) | |
}) | |
elif dtype == DataType.NULL: | |
return pa.null() | |
else: | |
raise ValueError(f'Can not convert dtype "{dtype}" to arrow dtype') | |
def schema_to_arrow_schema(schema: Union[Schema, Field]) -> pa.Schema: | |
"""Convert our schema to arrow schema.""" | |
arrow_schema = cast(pa.Schema, _schema_to_arrow_schema_impl(schema)) | |
arrow_fields = {field.name: field.type for field in arrow_schema} | |
return pa.schema(arrow_fields) | |
def _schema_to_arrow_schema_impl(schema: Union[Schema, Field]) -> Union[pa.Schema, pa.DataType]: | |
"""Convert a schema to an apache arrow schema.""" | |
if schema.fields: | |
arrow_fields: dict[str, Union[pa.Schema, pa.DataType]] = {} | |
for name, field in schema.fields.items(): | |
if name == UUID_COLUMN: | |
arrow_schema = dtype_to_arrow_schema(cast(DataType, field.dtype)) | |
else: | |
arrow_schema = _schema_to_arrow_schema_impl(field) | |
arrow_fields[name] = arrow_schema | |
if isinstance(schema, Schema): | |
# Top-level schemas do not have __value__ fields. | |
return pa.schema(arrow_fields) | |
else: | |
# When nodes have both dtype and children, we add __value__ alongside the fields. | |
if schema.dtype: | |
value_schema = dtype_to_arrow_schema(schema.dtype) | |
if schema.dtype == DataType.STRING_SPAN: | |
value_schema = value_schema[VALUE_KEY].type | |
arrow_fields[VALUE_KEY] = value_schema | |
return pa.struct(arrow_fields) | |
field = cast(Field, schema) | |
if field.repeated_field: | |
return pa.list_(_schema_to_arrow_schema_impl(field.repeated_field)) | |
return dtype_to_arrow_schema(cast(DataType, field.dtype)) | |
def arrow_dtype_to_dtype(arrow_dtype: pa.DataType) -> DataType: | |
"""Convert arrow dtype to our dtype.""" | |
# Ints. | |
if arrow_dtype == pa.int8(): | |
return DataType.INT8 | |
elif arrow_dtype == pa.int16(): | |
return DataType.INT16 | |
elif arrow_dtype == pa.int32(): | |
return DataType.INT32 | |
elif arrow_dtype == pa.int64(): | |
return DataType.INT64 | |
elif arrow_dtype == pa.uint8(): | |
return DataType.UINT8 | |
elif arrow_dtype == pa.uint16(): | |
return DataType.UINT16 | |
elif arrow_dtype == pa.uint32(): | |
return DataType.UINT32 | |
elif arrow_dtype == pa.uint64(): | |
return DataType.UINT64 | |
# Floats. | |
elif arrow_dtype == pa.float16(): | |
return DataType.FLOAT16 | |
elif arrow_dtype == pa.float32(): | |
return DataType.FLOAT32 | |
elif arrow_dtype == pa.float64(): | |
return DataType.FLOAT64 | |
# Time. | |
elif pa.types.is_time(arrow_dtype): | |
return DataType.TIME | |
elif pa.types.is_date(arrow_dtype): | |
return DataType.DATE | |
elif pa.types.is_timestamp(arrow_dtype): | |
return DataType.TIMESTAMP | |
elif pa.types.is_duration(arrow_dtype): | |
return DataType.INTERVAL | |
# Others. | |
elif arrow_dtype == pa.string(): | |
return DataType.STRING | |
elif pa.types.is_binary(arrow_dtype) or pa.types.is_fixed_size_binary(arrow_dtype): | |
return DataType.BINARY | |
elif pa.types.is_boolean(arrow_dtype): | |
return DataType.BOOLEAN | |
elif arrow_dtype == pa.null(): | |
return DataType.NULL | |
else: | |
raise ValueError(f'Can not convert arrow dtype "{arrow_dtype}" to our dtype') | |
def arrow_schema_to_schema(schema: pa.Schema) -> Schema: | |
"""Convert arrow schema to our schema.""" | |
# TODO(nsthorat): Change this implementation to allow more complicated reading of arrow schemas | |
# into our schema by inferring values when {__value__: value} is present in the pyarrow schema. | |
# This isn't necessary today as this util is only needed by sources which do not have data in the | |
# lilac format. | |
return cast(Schema, _arrow_schema_to_schema_impl(schema)) | |
def _arrow_schema_to_schema_impl(schema: Union[pa.Schema, pa.DataType]) -> Union[Schema, Field]: | |
"""Convert an apache arrow schema to our schema.""" | |
if isinstance(schema, (pa.Schema, pa.StructType)): | |
fields: dict[str, Field] = { | |
field.name: cast(Field, _arrow_schema_to_schema_impl(field.type)) for field in schema | |
} | |
return Schema(fields=fields) if isinstance(schema, pa.Schema) else Field(fields=fields) | |
elif isinstance(schema, pa.ListType): | |
return Field(repeated_field=cast(Field, _arrow_schema_to_schema_impl(schema.value_field.type))) | |
else: | |
return Field(dtype=arrow_dtype_to_dtype(schema)) | |
def is_float(dtype: DataType) -> bool: | |
"""Check if a dtype is a float dtype.""" | |
return dtype in [DataType.FLOAT16, DataType.FLOAT32, DataType.FLOAT64] | |
def is_integer(dtype: DataType) -> bool: | |
"""Check if a dtype is an integer dtype.""" | |
return dtype in [ | |
DataType.INT8, DataType.INT16, DataType.INT32, DataType.INT64, DataType.UINT8, DataType.UINT16, | |
DataType.UINT32, DataType.UINT64 | |
] | |
def is_temporal(dtype: DataType) -> bool: | |
"""Check if a dtype is a temporal dtype.""" | |
return dtype in [DataType.TIME, DataType.DATE, DataType.TIMESTAMP, DataType.INTERVAL] | |
def is_ordinal(dtype: DataType) -> bool: | |
"""Check if a dtype is an ordinal dtype.""" | |
return is_float(dtype) or is_integer(dtype) or is_temporal(dtype) | |