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ai-content-maker/.venv/Lib/site-packages/openai/_utils/_utils.py

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2024-05-11 23:00:43 +03:00
from __future__ import annotations
import os
import re
import inspect
import functools
from typing import (
Any,
Tuple,
Mapping,
TypeVar,
Callable,
Iterable,
Sequence,
cast,
overload,
)
from pathlib import Path
from typing_extensions import TypeGuard
import sniffio
from .._types import Headers, NotGiven, FileTypes, NotGivenOr, HeadersLike
from .._compat import parse_date as parse_date, parse_datetime as parse_datetime
_T = TypeVar("_T")
_TupleT = TypeVar("_TupleT", bound=Tuple[object, ...])
_MappingT = TypeVar("_MappingT", bound=Mapping[str, object])
_SequenceT = TypeVar("_SequenceT", bound=Sequence[object])
CallableT = TypeVar("CallableT", bound=Callable[..., Any])
def flatten(t: Iterable[Iterable[_T]]) -> list[_T]:
return [item for sublist in t for item in sublist]
def extract_files(
# TODO: this needs to take Dict but variance issues.....
# create protocol type ?
query: Mapping[str, object],
*,
paths: Sequence[Sequence[str]],
) -> list[tuple[str, FileTypes]]:
"""Recursively extract files from the given dictionary based on specified paths.
A path may look like this ['foo', 'files', '<array>', 'data'].
Note: this mutates the given dictionary.
"""
files: list[tuple[str, FileTypes]] = []
for path in paths:
files.extend(_extract_items(query, path, index=0, flattened_key=None))
return files
def _extract_items(
obj: object,
path: Sequence[str],
*,
index: int,
flattened_key: str | None,
) -> list[tuple[str, FileTypes]]:
try:
key = path[index]
except IndexError:
if isinstance(obj, NotGiven):
# no value was provided - we can safely ignore
return []
# cyclical import
from .._files import assert_is_file_content
# We have exhausted the path, return the entry we found.
assert_is_file_content(obj, key=flattened_key)
assert flattened_key is not None
return [(flattened_key, cast(FileTypes, obj))]
index += 1
if is_dict(obj):
try:
# We are at the last entry in the path so we must remove the field
if (len(path)) == index:
item = obj.pop(key)
else:
item = obj[key]
except KeyError:
# Key was not present in the dictionary, this is not indicative of an error
# as the given path may not point to a required field. We also do not want
# to enforce required fields as the API may differ from the spec in some cases.
return []
if flattened_key is None:
flattened_key = key
else:
flattened_key += f"[{key}]"
return _extract_items(
item,
path,
index=index,
flattened_key=flattened_key,
)
elif is_list(obj):
if key != "<array>":
return []
return flatten(
[
_extract_items(
item,
path,
index=index,
flattened_key=flattened_key + "[]" if flattened_key is not None else "[]",
)
for item in obj
]
)
# Something unexpected was passed, just ignore it.
return []
def is_given(obj: NotGivenOr[_T]) -> TypeGuard[_T]:
return not isinstance(obj, NotGiven)
# Type safe methods for narrowing types with TypeVars.
# The default narrowing for isinstance(obj, dict) is dict[unknown, unknown],
# however this cause Pyright to rightfully report errors. As we know we don't
# care about the contained types we can safely use `object` in it's place.
#
# There are two separate functions defined, `is_*` and `is_*_t` for different use cases.
# `is_*` is for when you're dealing with an unknown input
# `is_*_t` is for when you're narrowing a known union type to a specific subset
def is_tuple(obj: object) -> TypeGuard[tuple[object, ...]]:
return isinstance(obj, tuple)
def is_tuple_t(obj: _TupleT | object) -> TypeGuard[_TupleT]:
return isinstance(obj, tuple)
def is_sequence(obj: object) -> TypeGuard[Sequence[object]]:
return isinstance(obj, Sequence)
def is_sequence_t(obj: _SequenceT | object) -> TypeGuard[_SequenceT]:
return isinstance(obj, Sequence)
def is_mapping(obj: object) -> TypeGuard[Mapping[str, object]]:
return isinstance(obj, Mapping)
def is_mapping_t(obj: _MappingT | object) -> TypeGuard[_MappingT]:
return isinstance(obj, Mapping)
def is_dict(obj: object) -> TypeGuard[dict[object, object]]:
return isinstance(obj, dict)
def is_list(obj: object) -> TypeGuard[list[object]]:
return isinstance(obj, list)
def is_iterable(obj: object) -> TypeGuard[Iterable[object]]:
return isinstance(obj, Iterable)
def deepcopy_minimal(item: _T) -> _T:
"""Minimal reimplementation of copy.deepcopy() that will only copy certain object types:
- mappings, e.g. `dict`
- list
This is done for performance reasons.
"""
if is_mapping(item):
return cast(_T, {k: deepcopy_minimal(v) for k, v in item.items()})
if is_list(item):
return cast(_T, [deepcopy_minimal(entry) for entry in item])
return item
# copied from https://github.com/Rapptz/RoboDanny
def human_join(seq: Sequence[str], *, delim: str = ", ", final: str = "or") -> str:
size = len(seq)
if size == 0:
return ""
if size == 1:
return seq[0]
if size == 2:
return f"{seq[0]} {final} {seq[1]}"
return delim.join(seq[:-1]) + f" {final} {seq[-1]}"
def quote(string: str) -> str:
"""Add single quotation marks around the given string. Does *not* do any escaping."""
return f"'{string}'"
def required_args(*variants: Sequence[str]) -> Callable[[CallableT], CallableT]:
"""Decorator to enforce a given set of arguments or variants of arguments are passed to the decorated function.
Useful for enforcing runtime validation of overloaded functions.
Example usage:
```py
@overload
def foo(*, a: str) -> str:
...
@overload
def foo(*, b: bool) -> str:
...
# This enforces the same constraints that a static type checker would
# i.e. that either a or b must be passed to the function
@required_args(["a"], ["b"])
def foo(*, a: str | None = None, b: bool | None = None) -> str:
...
```
"""
def inner(func: CallableT) -> CallableT:
params = inspect.signature(func).parameters
positional = [
name
for name, param in params.items()
if param.kind
in {
param.POSITIONAL_ONLY,
param.POSITIONAL_OR_KEYWORD,
}
]
@functools.wraps(func)
def wrapper(*args: object, **kwargs: object) -> object:
given_params: set[str] = set()
for i, _ in enumerate(args):
try:
given_params.add(positional[i])
except IndexError:
raise TypeError(
f"{func.__name__}() takes {len(positional)} argument(s) but {len(args)} were given"
) from None
for key in kwargs.keys():
given_params.add(key)
for variant in variants:
matches = all((param in given_params for param in variant))
if matches:
break
else: # no break
if len(variants) > 1:
variations = human_join(
["(" + human_join([quote(arg) for arg in variant], final="and") + ")" for variant in variants]
)
msg = f"Missing required arguments; Expected either {variations} arguments to be given"
else:
assert len(variants) > 0
# TODO: this error message is not deterministic
missing = list(set(variants[0]) - given_params)
if len(missing) > 1:
msg = f"Missing required arguments: {human_join([quote(arg) for arg in missing])}"
else:
msg = f"Missing required argument: {quote(missing[0])}"
raise TypeError(msg)
return func(*args, **kwargs)
return wrapper # type: ignore
return inner
_K = TypeVar("_K")
_V = TypeVar("_V")
@overload
def strip_not_given(obj: None) -> None:
...
@overload
def strip_not_given(obj: Mapping[_K, _V | NotGiven]) -> dict[_K, _V]:
...
@overload
def strip_not_given(obj: object) -> object:
...
def strip_not_given(obj: object | None) -> object:
"""Remove all top-level keys where their values are instances of `NotGiven`"""
if obj is None:
return None
if not is_mapping(obj):
return obj
return {key: value for key, value in obj.items() if not isinstance(value, NotGiven)}
def coerce_integer(val: str) -> int:
return int(val, base=10)
def coerce_float(val: str) -> float:
return float(val)
def coerce_boolean(val: str) -> bool:
return val == "true" or val == "1" or val == "on"
def maybe_coerce_integer(val: str | None) -> int | None:
if val is None:
return None
return coerce_integer(val)
def maybe_coerce_float(val: str | None) -> float | None:
if val is None:
return None
return coerce_float(val)
def maybe_coerce_boolean(val: str | None) -> bool | None:
if val is None:
return None
return coerce_boolean(val)
def removeprefix(string: str, prefix: str) -> str:
"""Remove a prefix from a string.
Backport of `str.removeprefix` for Python < 3.9
"""
if string.startswith(prefix):
return string[len(prefix) :]
return string
def removesuffix(string: str, suffix: str) -> str:
"""Remove a suffix from a string.
Backport of `str.removesuffix` for Python < 3.9
"""
if string.endswith(suffix):
return string[: -len(suffix)]
return string
def file_from_path(path: str) -> FileTypes:
contents = Path(path).read_bytes()
file_name = os.path.basename(path)
return (file_name, contents)
def get_required_header(headers: HeadersLike, header: str) -> str:
lower_header = header.lower()
if isinstance(headers, Mapping):
headers = cast(Headers, headers)
for k, v in headers.items():
if k.lower() == lower_header and isinstance(v, str):
return v
""" to deal with the case where the header looks like Stainless-Event-Id """
intercaps_header = re.sub(r"([^\w])(\w)", lambda pat: pat.group(1) + pat.group(2).upper(), header.capitalize())
for normalized_header in [header, lower_header, header.upper(), intercaps_header]:
value = headers.get(normalized_header)
if value:
return value
raise ValueError(f"Could not find {header} header")
def get_async_library() -> str:
try:
return sniffio.current_async_library()
except Exception:
return "false"
def lru_cache(*, maxsize: int | None = 128) -> Callable[[CallableT], CallableT]:
"""A version of functools.lru_cache that retains the type signature
for the wrapped function arguments.
"""
wrapper = functools.lru_cache( # noqa: TID251
maxsize=maxsize,
)
return cast(Any, wrapper) # type: ignore[no-any-return]