poemsforaphrodite's picture
Upload folder using huggingface_hub
b72ab63 verified
raw
history blame
52.3 kB
# The contents of this file are automatically written by
# tools/generate_schema_wrapper.py. Do not modify directly.
import collections
import contextlib
import copy
import inspect
import json
import sys
import textwrap
from typing import (
Any,
Sequence,
List,
Dict,
Optional,
DefaultDict,
Tuple,
Iterable,
Type,
Generator,
Union,
overload,
Literal,
TypeVar,
)
from itertools import zip_longest
from importlib.metadata import version as importlib_version
from typing import Final
import jsonschema
import jsonschema.exceptions
import jsonschema.validators
import numpy as np
import pandas as pd
from packaging.version import Version
# This leads to circular imports with the vegalite module. Currently, this works
# but be aware that when you access it in this script, the vegalite module might
# not yet be fully instantiated in case your code is being executed during import time
from altair import vegalite
if sys.version_info >= (3, 11):
from typing import Self
else:
from typing_extensions import Self
TSchemaBase = TypeVar("TSchemaBase", bound=Type["SchemaBase"])
ValidationErrorList = List[jsonschema.exceptions.ValidationError]
GroupedValidationErrors = Dict[str, ValidationErrorList]
# This URI is arbitrary and could be anything else. It just cannot be an empty
# string as we need to reference the schema registered in
# the referencing.Registry.
_VEGA_LITE_ROOT_URI: Final = "urn:vega-lite-schema"
# Ideally, jsonschema specification would be parsed from the current Vega-Lite
# schema instead of being hardcoded here as a default value.
# However, due to circular imports between this module and the altair.vegalite
# modules, this information is not yet available at this point as altair.vegalite
# is only partially loaded. The draft version which is used is unlikely to
# change often so it's ok to keep this. There is also a test which validates
# that this value is always the same as in the Vega-Lite schema.
_DEFAULT_JSON_SCHEMA_DRAFT_URL: Final = "http://json-schema.org/draft-07/schema#"
# If DEBUG_MODE is True, then schema objects are converted to dict and
# validated at creation time. This slows things down, particularly for
# larger specs, but leads to much more useful tracebacks for the user.
# Individual schema classes can override this by setting the
# class-level _class_is_valid_at_instantiation attribute to False
DEBUG_MODE: bool = True
jsonschema_version_str = importlib_version("jsonschema")
def enable_debug_mode() -> None:
global DEBUG_MODE
DEBUG_MODE = True
def disable_debug_mode() -> None:
global DEBUG_MODE
DEBUG_MODE = False
@contextlib.contextmanager
def debug_mode(arg: bool) -> Generator[None, None, None]:
global DEBUG_MODE
original = DEBUG_MODE
DEBUG_MODE = arg
try:
yield
finally:
DEBUG_MODE = original
@overload
def validate_jsonschema(
spec: Dict[str, Any],
schema: Dict[str, Any],
rootschema: Optional[Dict[str, Any]] = ...,
*,
raise_error: Literal[True] = ...,
) -> None: ...
@overload
def validate_jsonschema(
spec: Dict[str, Any],
schema: Dict[str, Any],
rootschema: Optional[Dict[str, Any]] = ...,
*,
raise_error: Literal[False],
) -> Optional[jsonschema.exceptions.ValidationError]: ...
def validate_jsonschema(
spec,
schema,
rootschema=None,
*,
raise_error=True,
):
"""Validates the passed in spec against the schema in the context of the
rootschema. If any errors are found, they are deduplicated and prioritized
and only the most relevant errors are kept. Errors are then either raised
or returned, depending on the value of `raise_error`.
"""
errors = _get_errors_from_spec(spec, schema, rootschema=rootschema)
if errors:
leaf_errors = _get_leaves_of_error_tree(errors)
grouped_errors = _group_errors_by_json_path(leaf_errors)
grouped_errors = _subset_to_most_specific_json_paths(grouped_errors)
grouped_errors = _deduplicate_errors(grouped_errors)
# Nothing special about this first error but we need to choose one
# which can be raised
main_error = list(grouped_errors.values())[0][0]
# All errors are then attached as a new attribute to ValidationError so that
# they can be used in SchemaValidationError to craft a more helpful
# error message. Setting a new attribute like this is not ideal as
# it then no longer matches the type ValidationError. It would be better
# to refactor this function to never raise but only return errors.
main_error._all_errors = grouped_errors
if raise_error:
raise main_error
else:
return main_error
else:
return None
def _get_errors_from_spec(
spec: Dict[str, Any],
schema: Dict[str, Any],
rootschema: Optional[Dict[str, Any]] = None,
) -> ValidationErrorList:
"""Uses the relevant jsonschema validator to validate the passed in spec
against the schema using the rootschema to resolve references.
The schema and rootschema themselves are not validated but instead considered
as valid.
"""
# We don't use jsonschema.validate as this would validate the schema itself.
# Instead, we pass the schema directly to the validator class. This is done for
# two reasons: The schema comes from Vega-Lite and is not based on the user
# input, therefore there is no need to validate it in the first place. Furthermore,
# the "uri-reference" format checker fails for some of the references as URIs in
# "$ref" are not encoded,
# e.g. '#/definitions/ValueDefWithCondition<MarkPropFieldOrDatumDef,
# (Gradient|string|null)>' would be a valid $ref in a Vega-Lite schema but
# it is not a valid URI reference due to the characters such as '<'.
json_schema_draft_url = _get_json_schema_draft_url(rootschema or schema)
validator_cls = jsonschema.validators.validator_for(
{"$schema": json_schema_draft_url}
)
validator_kwargs: Dict[str, Any] = {}
if hasattr(validator_cls, "FORMAT_CHECKER"):
validator_kwargs["format_checker"] = validator_cls.FORMAT_CHECKER
if _use_referencing_library():
schema = _prepare_references_in_schema(schema)
validator_kwargs["registry"] = _get_referencing_registry(
rootschema or schema, json_schema_draft_url
)
else:
# No resolver is necessary if the schema is already the full schema
validator_kwargs["resolver"] = (
jsonschema.RefResolver.from_schema(rootschema)
if rootschema is not None
else None
)
validator = validator_cls(schema, **validator_kwargs)
errors = list(validator.iter_errors(spec))
return errors
def _get_json_schema_draft_url(schema: dict) -> str:
return schema.get("$schema", _DEFAULT_JSON_SCHEMA_DRAFT_URL)
def _use_referencing_library() -> bool:
"""In version 4.18.0, the jsonschema package deprecated RefResolver in
favor of the referencing library."""
return Version(jsonschema_version_str) >= Version("4.18")
def _prepare_references_in_schema(schema: Dict[str, Any]) -> Dict[str, Any]:
# Create a copy so that $ref is not modified in the original schema in case
# that it would still reference a dictionary which might be attached to
# an Altair class _schema attribute
schema = copy.deepcopy(schema)
def _prepare_refs(d: Dict[str, Any]) -> Dict[str, Any]:
"""Add _VEGA_LITE_ROOT_URI in front of all $ref values. This function
recursively iterates through the whole dictionary."""
for key, value in d.items():
if key == "$ref":
d[key] = _VEGA_LITE_ROOT_URI + d[key]
else:
# $ref values can only be nested in dictionaries or lists
# as the passed in `d` dictionary comes from the Vega-Lite json schema
# and in json we only have arrays (-> lists in Python) and objects
# (-> dictionaries in Python) which we need to iterate through.
if isinstance(value, dict):
d[key] = _prepare_refs(value)
elif isinstance(value, list):
prepared_values = []
for v in value:
if isinstance(v, dict):
v = _prepare_refs(v)
prepared_values.append(v)
d[key] = prepared_values
return d
schema = _prepare_refs(schema)
return schema
# We do not annotate the return value here as the referencing library is not always
# available and this function is only executed in those cases.
def _get_referencing_registry(
rootschema: Dict[str, Any], json_schema_draft_url: Optional[str] = None
):
# Referencing is a dependency of newer jsonschema versions, starting with the
# version that is specified in _use_referencing_library and we therefore
# can expect that it is installed if the function returns True.
# We ignore 'import' mypy errors which happen when the referencing library
# is not installed. That's ok as in these cases this function is not called.
# We also have to ignore 'unused-ignore' errors as mypy raises those in case
# referencing is installed.
import referencing # type: ignore[import,unused-ignore]
import referencing.jsonschema # type: ignore[import,unused-ignore]
if json_schema_draft_url is None:
json_schema_draft_url = _get_json_schema_draft_url(rootschema)
specification = referencing.jsonschema.specification_with(json_schema_draft_url)
resource = specification.create_resource(rootschema)
return referencing.Registry().with_resource(
uri=_VEGA_LITE_ROOT_URI, resource=resource
)
def _json_path(err: jsonschema.exceptions.ValidationError) -> str:
"""Drop in replacement for the .json_path property of the jsonschema
ValidationError class, which is not available as property for
ValidationError with jsonschema<4.0.1.
More info, see https://github.com/altair-viz/altair/issues/3038
"""
path = "$"
for elem in err.absolute_path:
if isinstance(elem, int):
path += "[" + str(elem) + "]"
else:
path += "." + elem
return path
def _group_errors_by_json_path(
errors: ValidationErrorList,
) -> GroupedValidationErrors:
"""Groups errors by the `json_path` attribute of the jsonschema ValidationError
class. This attribute contains the path to the offending element within
a chart specification and can therefore be considered as an identifier of an
'issue' in the chart that needs to be fixed.
"""
errors_by_json_path = collections.defaultdict(list)
for err in errors:
err_key = getattr(err, "json_path", _json_path(err))
errors_by_json_path[err_key].append(err)
return dict(errors_by_json_path)
def _get_leaves_of_error_tree(
errors: ValidationErrorList,
) -> ValidationErrorList:
"""For each error in `errors`, it traverses down the "error tree" that is generated
by the jsonschema library to find and return all "leaf" errors. These are errors
which have no further errors that caused it and so they are the most specific errors
with the most specific error messages.
"""
leaves: ValidationErrorList = []
for err in errors:
if err.context:
# This means that the error `err` was caused by errors in subschemas.
# The list of errors from the subschemas are available in the property
# `context`.
leaves.extend(_get_leaves_of_error_tree(err.context))
else:
leaves.append(err)
return leaves
def _subset_to_most_specific_json_paths(
errors_by_json_path: GroupedValidationErrors,
) -> GroupedValidationErrors:
"""Removes key (json path), value (errors) pairs where the json path is fully
contained in another json path. For example if `errors_by_json_path` has two
keys, `$.encoding.X` and `$.encoding.X.tooltip`, then the first one will be removed
and only the second one is returned. This is done under the assumption that
more specific json paths give more helpful error messages to the user.
"""
errors_by_json_path_specific: GroupedValidationErrors = {}
for json_path, errors in errors_by_json_path.items():
if not _contained_at_start_of_one_of_other_values(
json_path, list(errors_by_json_path.keys())
):
errors_by_json_path_specific[json_path] = errors
return errors_by_json_path_specific
def _contained_at_start_of_one_of_other_values(x: str, values: Sequence[str]) -> bool:
# Does not count as "contained at start of other value" if the values are
# the same. These cases should be handled separately
return any(value.startswith(x) for value in values if x != value)
def _deduplicate_errors(
grouped_errors: GroupedValidationErrors,
) -> GroupedValidationErrors:
"""Some errors have very similar error messages or are just in general not helpful
for a user. This function removes as many of these cases as possible and
can be extended over time to handle new cases that come up.
"""
grouped_errors_deduplicated: GroupedValidationErrors = {}
for json_path, element_errors in grouped_errors.items():
errors_by_validator = _group_errors_by_validator(element_errors)
deduplication_functions = {
"enum": _deduplicate_enum_errors,
"additionalProperties": _deduplicate_additional_properties_errors,
}
deduplicated_errors: ValidationErrorList = []
for validator, errors in errors_by_validator.items():
deduplication_func = deduplication_functions.get(validator, None)
if deduplication_func is not None:
errors = deduplication_func(errors)
deduplicated_errors.extend(_deduplicate_by_message(errors))
# Removes any ValidationError "'value' is a required property" as these
# errors are unlikely to be the relevant ones for the user. They come from
# validation against a schema definition where the output of `alt.value`
# would be valid. However, if a user uses `alt.value`, the `value` keyword
# is included automatically from that function and so it's unlikely
# that this was what the user intended if the keyword is not present
# in the first place.
deduplicated_errors = [
err for err in deduplicated_errors if not _is_required_value_error(err)
]
grouped_errors_deduplicated[json_path] = deduplicated_errors
return grouped_errors_deduplicated
def _is_required_value_error(err: jsonschema.exceptions.ValidationError) -> bool:
return err.validator == "required" and err.validator_value == ["value"]
def _group_errors_by_validator(errors: ValidationErrorList) -> GroupedValidationErrors:
"""Groups the errors by the json schema "validator" that casued the error. For
example if the error is that a value is not one of an enumeration in the json schema
then the "validator" is `"enum"`, if the error is due to an unknown property that
was set although no additional properties are allowed then "validator" is
`"additionalProperties`, etc.
"""
errors_by_validator: DefaultDict[str, ValidationErrorList] = (
collections.defaultdict(list)
)
for err in errors:
# Ignore mypy error as err.validator as it wrongly sees err.validator
# as of type Optional[Validator] instead of str which it is according
# to the documentation and all tested cases
errors_by_validator[err.validator].append(err) # type: ignore[index]
return dict(errors_by_validator)
def _deduplicate_enum_errors(errors: ValidationErrorList) -> ValidationErrorList:
"""Deduplicate enum errors by removing the errors where the allowed values
are a subset of another error. For example, if `enum` contains two errors
and one has `validator_value` (i.e. accepted values) ["A", "B"] and the
other one ["A", "B", "C"] then the first one is removed and the final
`enum` list only contains the error with ["A", "B", "C"].
"""
if len(errors) > 1:
# Values (and therefore `validator_value`) of an enum are always arrays,
# see https://json-schema.org/understanding-json-schema/reference/generic.html#enumerated-values
# which is why we can use join below
value_strings = [",".join(err.validator_value) for err in errors]
longest_enums: ValidationErrorList = []
for value_str, err in zip(value_strings, errors):
if not _contained_at_start_of_one_of_other_values(value_str, value_strings):
longest_enums.append(err)
errors = longest_enums
return errors
def _deduplicate_additional_properties_errors(
errors: ValidationErrorList,
) -> ValidationErrorList:
"""If there are multiple additional property errors it usually means that
the offending element was validated against multiple schemas and
its parent is a common anyOf validator.
The error messages produced from these cases are usually
very similar and we just take the shortest one. For example,
the following 3 errors are raised for the `unknown` channel option in
`alt.X("variety", unknown=2)`:
- "Additional properties are not allowed ('unknown' was unexpected)"
- "Additional properties are not allowed ('field', 'unknown' were unexpected)"
- "Additional properties are not allowed ('field', 'type', 'unknown' were unexpected)"
"""
if len(errors) > 1:
# Test if all parent errors are the same anyOf error and only do
# the prioritization in these cases. Can't think of a chart spec where this
# would not be the case but still allow for it below to not break anything.
parent = errors[0].parent
if (
parent is not None
and parent.validator == "anyOf"
# Use [1:] as don't have to check for first error as it was used
# above to define `parent`
and all(err.parent is parent for err in errors[1:])
):
errors = [min(errors, key=lambda x: len(x.message))]
return errors
def _deduplicate_by_message(errors: ValidationErrorList) -> ValidationErrorList:
"""Deduplicate errors by message. This keeps the original order in case
it was chosen intentionally.
"""
return list({e.message: e for e in errors}.values())
def _subclasses(cls: type) -> Generator[type, None, None]:
"""Breadth-first sequence of all classes which inherit from cls."""
seen = set()
current_set = {cls}
while current_set:
seen |= current_set
current_set = set.union(*(set(cls.__subclasses__()) for cls in current_set))
for cls in current_set - seen:
yield cls
def _todict(obj: Any, context: Optional[Dict[str, Any]]) -> Any:
"""Convert an object to a dict representation."""
if isinstance(obj, SchemaBase):
return obj.to_dict(validate=False, context=context)
elif isinstance(obj, (list, tuple, np.ndarray)):
return [_todict(v, context) for v in obj]
elif isinstance(obj, dict):
return {k: _todict(v, context) for k, v in obj.items() if v is not Undefined}
elif hasattr(obj, "to_dict"):
return obj.to_dict()
elif isinstance(obj, np.number):
return float(obj)
elif isinstance(obj, (pd.Timestamp, np.datetime64)):
return pd.Timestamp(obj).isoformat()
else:
return obj
def _resolve_references(
schema: Dict[str, Any], rootschema: Optional[Dict[str, Any]] = None
) -> Dict[str, Any]:
"""Resolve schema references until there is no $ref anymore
in the top-level of the dictionary.
"""
if _use_referencing_library():
registry = _get_referencing_registry(rootschema or schema)
# Using a different variable name to show that this is not the
# jsonschema.RefResolver but instead a Resolver from the referencing
# library
referencing_resolver = registry.resolver()
while "$ref" in schema:
schema = referencing_resolver.lookup(
_VEGA_LITE_ROOT_URI + schema["$ref"]
).contents
else:
resolver = jsonschema.RefResolver.from_schema(rootschema or schema)
while "$ref" in schema:
with resolver.resolving(schema["$ref"]) as resolved:
schema = resolved
return schema
class SchemaValidationError(jsonschema.ValidationError):
"""A wrapper for jsonschema.ValidationError with friendlier traceback"""
def __init__(self, obj: "SchemaBase", err: jsonschema.ValidationError) -> None:
super().__init__(**err._contents())
self.obj = obj
self._errors: GroupedValidationErrors = getattr(
err, "_all_errors", {getattr(err, "json_path", _json_path(err)): [err]}
)
# This is the message from err
self._original_message = self.message
self.message = self._get_message()
def __str__(self) -> str:
return self.message
def _get_message(self) -> str:
def indent_second_line_onwards(message: str, indent: int = 4) -> str:
modified_lines: List[str] = []
for idx, line in enumerate(message.split("\n")):
if idx > 0 and len(line) > 0:
line = " " * indent + line
modified_lines.append(line)
return "\n".join(modified_lines)
error_messages: List[str] = []
# Only show a maximum of 3 errors as else the final message returned by this
# method could get very long.
for errors in list(self._errors.values())[:3]:
error_messages.append(self._get_message_for_errors_group(errors))
message = ""
if len(error_messages) > 1:
error_messages = [
indent_second_line_onwards(f"Error {error_id}: {m}")
for error_id, m in enumerate(error_messages, start=1)
]
message += "Multiple errors were found.\n\n"
message += "\n\n".join(error_messages)
return message
def _get_message_for_errors_group(
self,
errors: ValidationErrorList,
) -> str:
if errors[0].validator == "additionalProperties":
# During development, we only found cases where an additionalProperties
# error was raised if that was the only error for the offending instance
# as identifiable by the json path. Therefore, we just check here the first
# error. However, other constellations might exist in which case
# this should be adapted so that other error messages are shown as well.
message = self._get_additional_properties_error_message(errors[0])
else:
message = self._get_default_error_message(errors=errors)
return message.strip()
def _get_additional_properties_error_message(
self,
error: jsonschema.exceptions.ValidationError,
) -> str:
"""Output all existing parameters when an unknown parameter is specified."""
altair_cls = self._get_altair_class_for_error(error)
param_dict_keys = inspect.signature(altair_cls).parameters.keys()
param_names_table = self._format_params_as_table(param_dict_keys)
# Error messages for these errors look like this:
# "Additional properties are not allowed ('unknown' was unexpected)"
# Line below extracts "unknown" from this string
parameter_name = error.message.split("('")[-1].split("'")[0]
message = f"""\
`{altair_cls.__name__}` has no parameter named '{parameter_name}'
Existing parameter names are:
{param_names_table}
See the help for `{altair_cls.__name__}` to read the full description of these parameters"""
return message
def _get_altair_class_for_error(
self, error: jsonschema.exceptions.ValidationError
) -> Type["SchemaBase"]:
"""Try to get the lowest class possible in the chart hierarchy so
it can be displayed in the error message. This should lead to more informative
error messages pointing the user closer to the source of the issue.
"""
for prop_name in reversed(error.absolute_path):
# Check if str as e.g. first item can be a 0
if isinstance(prop_name, str):
potential_class_name = prop_name[0].upper() + prop_name[1:]
cls = getattr(vegalite, potential_class_name, None)
if cls is not None:
break
else:
# Did not find a suitable class based on traversing the path so we fall
# back on the class of the top-level object which created
# the SchemaValidationError
cls = self.obj.__class__
return cls
@staticmethod
def _format_params_as_table(param_dict_keys: Iterable[str]) -> str:
"""Format param names into a table so that they are easier to read"""
param_names: Tuple[str, ...]
name_lengths: Tuple[int, ...]
param_names, name_lengths = zip(
*[
(name, len(name))
for name in param_dict_keys
if name not in ["kwds", "self"]
]
)
# Worst case scenario with the same longest param name in the same
# row for all columns
max_name_length = max(name_lengths)
max_column_width = 80
# Output a square table if not too big (since it is easier to read)
num_param_names = len(param_names)
square_columns = int(np.ceil(num_param_names**0.5))
columns = min(max_column_width // max_name_length, square_columns)
# Compute roughly equal column heights to evenly divide the param names
def split_into_equal_parts(n: int, p: int) -> List[int]:
return [n // p + 1] * (n % p) + [n // p] * (p - n % p)
column_heights = split_into_equal_parts(num_param_names, columns)
# Section the param names into columns and compute their widths
param_names_columns: List[Tuple[str, ...]] = []
column_max_widths: List[int] = []
last_end_idx: int = 0
for ch in column_heights:
param_names_columns.append(param_names[last_end_idx : last_end_idx + ch])
column_max_widths.append(
max([len(param_name) for param_name in param_names_columns[-1]])
)
last_end_idx = ch + last_end_idx
# Transpose the param name columns into rows to facilitate looping
param_names_rows: List[Tuple[str, ...]] = []
for li in zip_longest(*param_names_columns, fillvalue=""):
param_names_rows.append(li)
# Build the table as a string by iterating over and formatting the rows
param_names_table: str = ""
for param_names_row in param_names_rows:
for num, param_name in enumerate(param_names_row):
# Set column width based on the longest param in the column
max_name_length_column = column_max_widths[num]
column_pad = 3
param_names_table += "{:<{}}".format(
param_name, max_name_length_column + column_pad
)
# Insert newlines and spacing after the last element in each row
if num == (len(param_names_row) - 1):
param_names_table += "\n"
return param_names_table
def _get_default_error_message(
self,
errors: ValidationErrorList,
) -> str:
bullet_points: List[str] = []
errors_by_validator = _group_errors_by_validator(errors)
if "enum" in errors_by_validator:
for error in errors_by_validator["enum"]:
bullet_points.append(f"one of {error.validator_value}")
if "type" in errors_by_validator:
types = [f"'{err.validator_value}'" for err in errors_by_validator["type"]]
point = "of type "
if len(types) == 1:
point += types[0]
elif len(types) == 2:
point += f"{types[0]} or {types[1]}"
else:
point += ", ".join(types[:-1]) + f", or {types[-1]}"
bullet_points.append(point)
# It should not matter which error is specifically used as they are all
# about the same offending instance (i.e. invalid value), so we can just
# take the first one
error = errors[0]
# Add a summary line when parameters are passed an invalid value
# For example: "'asdf' is an invalid value for `stack`
message = f"'{error.instance}' is an invalid value"
if error.absolute_path:
message += f" for `{error.absolute_path[-1]}`"
# Add bullet points
if len(bullet_points) == 0:
message += ".\n\n"
elif len(bullet_points) == 1:
message += f". Valid values are {bullet_points[0]}.\n\n"
else:
# We don't use .capitalize below to make the first letter uppercase
# as that makes the rest of the message lowercase
bullet_points = [point[0].upper() + point[1:] for point in bullet_points]
message += ". Valid values are:\n\n"
message += "\n".join([f"- {point}" for point in bullet_points])
message += "\n\n"
# Add unformatted messages of any remaining errors which were not
# considered so far. This is not expected to be used but more exists
# as a fallback for cases which were not known during development.
for validator, errors in errors_by_validator.items():
if validator not in ("enum", "type"):
message += "\n".join([e.message for e in errors])
return message
class UndefinedType:
"""A singleton object for marking undefined parameters"""
__instance = None
def __new__(cls, *args, **kwargs):
if not isinstance(cls.__instance, cls):
cls.__instance = object.__new__(cls, *args, **kwargs)
return cls.__instance
def __repr__(self):
return "Undefined"
Undefined = UndefinedType()
class SchemaBase:
"""Base class for schema wrappers.
Each derived class should set the _schema class attribute (and optionally
the _rootschema class attribute) which is used for validation.
"""
_schema: Optional[Dict[str, Any]] = None
_rootschema: Optional[Dict[str, Any]] = None
_class_is_valid_at_instantiation: bool = True
def __init__(self, *args: Any, **kwds: Any) -> None:
# Two valid options for initialization, which should be handled by
# derived classes:
# - a single arg with no kwds, for, e.g. {'type': 'string'}
# - zero args with zero or more kwds for {'type': 'object'}
if self._schema is None:
raise ValueError(
"Cannot instantiate object of type {}: "
"_schema class attribute is not defined."
"".format(self.__class__)
)
if kwds:
assert len(args) == 0
else:
assert len(args) in [0, 1]
# use object.__setattr__ because we override setattr below.
object.__setattr__(self, "_args", args)
object.__setattr__(self, "_kwds", kwds)
if DEBUG_MODE and self._class_is_valid_at_instantiation:
self.to_dict(validate=True)
def copy(
self, deep: Union[bool, Iterable] = True, ignore: Optional[list] = None
) -> Self:
"""Return a copy of the object
Parameters
----------
deep : boolean or list, optional
If True (default) then return a deep copy of all dict, list, and
SchemaBase objects within the object structure.
If False, then only copy the top object.
If a list or iterable, then only copy the listed attributes.
ignore : list, optional
A list of keys for which the contents should not be copied, but
only stored by reference.
"""
def _shallow_copy(obj):
if isinstance(obj, SchemaBase):
return obj.copy(deep=False)
elif isinstance(obj, list):
return obj[:]
elif isinstance(obj, dict):
return obj.copy()
else:
return obj
def _deep_copy(obj, ignore: Optional[list] = None):
if ignore is None:
ignore = []
if isinstance(obj, SchemaBase):
args = tuple(_deep_copy(arg) for arg in obj._args)
kwds = {
k: (_deep_copy(v, ignore=ignore) if k not in ignore else v)
for k, v in obj._kwds.items()
}
with debug_mode(False):
return obj.__class__(*args, **kwds)
elif isinstance(obj, list):
return [_deep_copy(v, ignore=ignore) for v in obj]
elif isinstance(obj, dict):
return {
k: (_deep_copy(v, ignore=ignore) if k not in ignore else v)
for k, v in obj.items()
}
else:
return obj
try:
deep = list(deep) # type: ignore[arg-type]
except TypeError:
deep_is_list = False
else:
deep_is_list = True
if deep and not deep_is_list:
return _deep_copy(self, ignore=ignore)
with debug_mode(False):
copy = self.__class__(*self._args, **self._kwds)
if deep_is_list:
# Assert statement is for the benefit of Mypy
assert isinstance(deep, list)
for attr in deep:
copy[attr] = _shallow_copy(copy._get(attr))
return copy
def _get(self, attr, default=Undefined):
"""Get an attribute, returning default if not present."""
attr = self._kwds.get(attr, Undefined)
if attr is Undefined:
attr = default
return attr
def __getattr__(self, attr):
# reminder: getattr is called after the normal lookups
if attr == "_kwds":
raise AttributeError()
if attr in self._kwds:
return self._kwds[attr]
else:
try:
_getattr = super(SchemaBase, self).__getattr__
except AttributeError:
_getattr = super(SchemaBase, self).__getattribute__
return _getattr(attr)
def __setattr__(self, item, val):
self._kwds[item] = val
def __getitem__(self, item):
return self._kwds[item]
def __setitem__(self, item, val):
self._kwds[item] = val
def __repr__(self):
if self._kwds:
args = (
"{}: {!r}".format(key, val)
for key, val in sorted(self._kwds.items())
if val is not Undefined
)
args = "\n" + ",\n".join(args)
return "{0}({{{1}\n}})".format(
self.__class__.__name__, args.replace("\n", "\n ")
)
else:
return "{}({!r})".format(self.__class__.__name__, self._args[0])
def __eq__(self, other):
return (
type(self) is type(other)
and self._args == other._args
and self._kwds == other._kwds
)
def to_dict(
self,
validate: bool = True,
*,
ignore: Optional[List[str]] = None,
context: Optional[Dict[str, Any]] = None,
) -> dict:
"""Return a dictionary representation of the object
Parameters
----------
validate : bool, optional
If True (default), then validate the output dictionary
against the schema.
ignore : list[str], optional
A list of keys to ignore. It is usually not needed
to specify this argument as a user.
context : dict[str, Any], optional
A context dictionary. It is usually not needed
to specify this argument as a user.
Notes
-----
Technical: The ignore parameter will *not* be passed to child to_dict
function calls.
Returns
-------
dict
The dictionary representation of this object
Raises
------
SchemaValidationError :
if validate=True and the dict does not conform to the schema
"""
if context is None:
context = {}
if ignore is None:
ignore = []
if self._args and not self._kwds:
result = _todict(self._args[0], context=context)
elif not self._args:
kwds = self._kwds.copy()
# parsed_shorthand is added by FieldChannelMixin.
# It's used below to replace shorthand with its long form equivalent
# parsed_shorthand is removed from context if it exists so that it is
# not passed to child to_dict function calls
parsed_shorthand = context.pop("parsed_shorthand", {})
# Prevent that pandas categorical data is automatically sorted
# when a non-ordinal data type is specifed manually
# or if the encoding channel does not support sorting
if "sort" in parsed_shorthand and (
"sort" not in kwds or kwds["type"] not in ["ordinal", Undefined]
):
parsed_shorthand.pop("sort")
kwds.update(
{
k: v
for k, v in parsed_shorthand.items()
if kwds.get(k, Undefined) is Undefined
}
)
kwds = {
k: v for k, v in kwds.items() if k not in list(ignore) + ["shorthand"]
}
if "mark" in kwds and isinstance(kwds["mark"], str):
kwds["mark"] = {"type": kwds["mark"]}
result = _todict(
kwds,
context=context,
)
else:
raise ValueError(
"{} instance has both a value and properties : "
"cannot serialize to dict".format(self.__class__)
)
if validate:
try:
self.validate(result)
except jsonschema.ValidationError as err:
# We do not raise `from err` as else the resulting
# traceback is very long as it contains part
# of the Vega-Lite schema. It would also first
# show the less helpful ValidationError instead of
# the more user friendly SchemaValidationError
raise SchemaValidationError(self, err) from None
return result
def to_json(
self,
validate: bool = True,
indent: Optional[Union[int, str]] = 2,
sort_keys: bool = True,
*,
ignore: Optional[List[str]] = None,
context: Optional[Dict[str, Any]] = None,
**kwargs,
) -> str:
"""Emit the JSON representation for this object as a string.
Parameters
----------
validate : bool, optional
If True (default), then validate the output dictionary
against the schema.
indent : int, optional
The number of spaces of indentation to use. The default is 2.
sort_keys : bool, optional
If True (default), sort keys in the output.
ignore : list[str], optional
A list of keys to ignore. It is usually not needed
to specify this argument as a user.
context : dict[str, Any], optional
A context dictionary. It is usually not needed
to specify this argument as a user.
**kwargs
Additional keyword arguments are passed to ``json.dumps()``
Notes
-----
Technical: The ignore parameter will *not* be passed to child to_dict
function calls.
Returns
-------
str
The JSON specification of the chart object.
"""
if ignore is None:
ignore = []
if context is None:
context = {}
dct = self.to_dict(validate=validate, ignore=ignore, context=context)
return json.dumps(dct, indent=indent, sort_keys=sort_keys, **kwargs)
@classmethod
def _default_wrapper_classes(cls) -> Generator[Type["SchemaBase"], None, None]:
"""Return the set of classes used within cls.from_dict()"""
return _subclasses(SchemaBase)
@classmethod
def from_dict(
cls,
dct: dict,
validate: bool = True,
_wrapper_classes: Optional[Iterable[Type["SchemaBase"]]] = None,
# Type hints for this method would get rather complicated
# if we want to provide a more specific return type
) -> "SchemaBase":
"""Construct class from a dictionary representation
Parameters
----------
dct : dictionary
The dict from which to construct the class
validate : boolean
If True (default), then validate the input against the schema.
_wrapper_classes : iterable (optional)
The set of SchemaBase classes to use when constructing wrappers
of the dict inputs. If not specified, the result of
cls._default_wrapper_classes will be used.
Returns
-------
obj : Schema object
The wrapped schema
Raises
------
jsonschema.ValidationError :
if validate=True and dct does not conform to the schema
"""
if validate:
cls.validate(dct)
if _wrapper_classes is None:
_wrapper_classes = cls._default_wrapper_classes()
converter = _FromDict(_wrapper_classes)
return converter.from_dict(dct, cls)
@classmethod
def from_json(
cls,
json_string: str,
validate: bool = True,
**kwargs: Any,
# Type hints for this method would get rather complicated
# if we want to provide a more specific return type
) -> Any:
"""Instantiate the object from a valid JSON string
Parameters
----------
json_string : string
The string containing a valid JSON chart specification.
validate : boolean
If True (default), then validate the input against the schema.
**kwargs :
Additional keyword arguments are passed to json.loads
Returns
-------
chart : Chart object
The altair Chart object built from the specification.
"""
dct = json.loads(json_string, **kwargs)
return cls.from_dict(dct, validate=validate)
@classmethod
def validate(
cls, instance: Dict[str, Any], schema: Optional[Dict[str, Any]] = None
) -> None:
"""
Validate the instance against the class schema in the context of the
rootschema.
"""
if schema is None:
schema = cls._schema
# For the benefit of mypy
assert schema is not None
return validate_jsonschema(
instance, schema, rootschema=cls._rootschema or cls._schema
)
@classmethod
def resolve_references(cls, schema: Optional[dict] = None) -> dict:
"""Resolve references in the context of this object's schema or root schema."""
schema_to_pass = schema or cls._schema
# For the benefit of mypy
assert schema_to_pass is not None
return _resolve_references(
schema=schema_to_pass,
rootschema=(cls._rootschema or cls._schema or schema),
)
@classmethod
def validate_property(
cls, name: str, value: Any, schema: Optional[dict] = None
) -> None:
"""
Validate a property against property schema in the context of the
rootschema
"""
value = _todict(value, context={})
props = cls.resolve_references(schema or cls._schema).get("properties", {})
return validate_jsonschema(
value, props.get(name, {}), rootschema=cls._rootschema or cls._schema
)
def __dir__(self) -> list:
return sorted(list(super().__dir__()) + list(self._kwds.keys()))
def _passthrough(*args, **kwds):
return args[0] if args else kwds
class _FromDict:
"""Class used to construct SchemaBase class hierarchies from a dict
The primary purpose of using this class is to be able to build a hash table
that maps schemas to their wrapper classes. The candidate classes are
specified in the ``class_list`` argument to the constructor.
"""
_hash_exclude_keys = ("definitions", "title", "description", "$schema", "id")
def __init__(self, class_list: Iterable[Type[SchemaBase]]) -> None:
# Create a mapping of a schema hash to a list of matching classes
# This lets us quickly determine the correct class to construct
self.class_dict = collections.defaultdict(list)
for cls in class_list:
if cls._schema is not None:
self.class_dict[self.hash_schema(cls._schema)].append(cls)
@classmethod
def hash_schema(cls, schema: dict, use_json: bool = True) -> int:
"""
Compute a python hash for a nested dictionary which
properly handles dicts, lists, sets, and tuples.
At the top level, the function excludes from the hashed schema all keys
listed in `exclude_keys`.
This implements two methods: one based on conversion to JSON, and one based
on recursive conversions of unhashable to hashable types; the former seems
to be slightly faster in several benchmarks.
"""
if cls._hash_exclude_keys and isinstance(schema, dict):
schema = {
key: val
for key, val in schema.items()
if key not in cls._hash_exclude_keys
}
if use_json:
s = json.dumps(schema, sort_keys=True)
return hash(s)
else:
def _freeze(val):
if isinstance(val, dict):
return frozenset((k, _freeze(v)) for k, v in val.items())
elif isinstance(val, set):
return frozenset(map(_freeze, val))
elif isinstance(val, list) or isinstance(val, tuple):
return tuple(map(_freeze, val))
else:
return val
return hash(_freeze(schema))
def from_dict(
self,
dct: dict,
cls: Optional[Type[SchemaBase]] = None,
schema: Optional[dict] = None,
rootschema: Optional[dict] = None,
default_class=_passthrough,
# Type hints for this method would get rather complicated
# if we want to provide a more specific return type
) -> Any:
"""Construct an object from a dict representation"""
if (schema is None) == (cls is None):
raise ValueError("Must provide either cls or schema, but not both.")
if schema is None:
# Can ignore type errors as cls is not None in case schema is
schema = cls._schema # type: ignore[union-attr]
# For the benefit of mypy
assert schema is not None
if rootschema:
rootschema = rootschema
elif cls is not None and cls._rootschema is not None:
rootschema = cls._rootschema
else:
rootschema = None
rootschema = rootschema or schema
if isinstance(dct, SchemaBase):
return dct
if cls is None:
# If there are multiple matches, we use the first one in the dict.
# Our class dict is constructed breadth-first from top to bottom,
# so the first class that matches is the most general match.
matches = self.class_dict[self.hash_schema(schema)]
if matches:
cls = matches[0]
else:
cls = default_class
schema = _resolve_references(schema, rootschema)
if "anyOf" in schema or "oneOf" in schema:
schemas = schema.get("anyOf", []) + schema.get("oneOf", [])
for possible_schema in schemas:
try:
validate_jsonschema(dct, possible_schema, rootschema=rootschema)
except jsonschema.ValidationError:
continue
else:
return self.from_dict(
dct,
schema=possible_schema,
rootschema=rootschema,
default_class=cls,
)
if isinstance(dct, dict):
# TODO: handle schemas for additionalProperties/patternProperties
props = schema.get("properties", {})
kwds = {}
for key, val in dct.items():
if key in props:
val = self.from_dict(val, schema=props[key], rootschema=rootschema)
kwds[key] = val
return cls(**kwds)
elif isinstance(dct, list):
item_schema = schema.get("items", {})
dct = [
self.from_dict(val, schema=item_schema, rootschema=rootschema)
for val in dct
]
return cls(dct)
else:
return cls(dct)
class _PropertySetter:
def __init__(self, prop: str, schema: dict) -> None:
self.prop = prop
self.schema = schema
def __get__(self, obj, cls):
self.obj = obj
self.cls = cls
# The docs from the encoding class parameter (e.g. `bin` in X, Color,
# etc); this provides a general description of the parameter.
self.__doc__ = self.schema["description"].replace("__", "**")
property_name = f"{self.prop}"[0].upper() + f"{self.prop}"[1:]
if hasattr(vegalite, property_name):
altair_prop = getattr(vegalite, property_name)
# Add the docstring from the helper class (e.g. `BinParams`) so
# that all the parameter names of the helper class are included in
# the final docstring
parameter_index = altair_prop.__doc__.find("Parameters\n")
if parameter_index > -1:
self.__doc__ = (
altair_prop.__doc__[:parameter_index].replace(" ", "")
+ self.__doc__
+ textwrap.dedent(
f"\n\n {altair_prop.__doc__[parameter_index:]}"
)
)
# For short docstrings such as Aggregate, Stack, et
else:
self.__doc__ = (
altair_prop.__doc__.replace(" ", "") + "\n" + self.__doc__
)
# Add signatures and tab completion for the method and parameter names
self.__signature__ = inspect.signature(altair_prop)
self.__wrapped__ = inspect.getfullargspec(altair_prop)
self.__name__ = altair_prop.__name__
else:
# It seems like bandPosition is the only parameter that doesn't
# have a helper class.
pass
return self
def __call__(self, *args, **kwargs):
obj = self.obj.copy()
# TODO: use schema to validate
obj[self.prop] = args[0] if args else kwargs
return obj
def with_property_setters(cls: TSchemaBase) -> TSchemaBase:
"""
Decorator to add property setters to a Schema class.
"""
schema = cls.resolve_references()
for prop, propschema in schema.get("properties", {}).items():
setattr(cls, prop, _PropertySetter(prop, propschema))
return cls