from __future__ import annotations import contextlib import datetime as _datetime from collections.abc import Mapping from typing import IO from typing import Iterable from typing import TypeVar from pipenv.vendor.tomlkit._utils import parse_rfc3339 from pipenv.vendor.tomlkit.container import Container from pipenv.vendor.tomlkit.exceptions import UnexpectedCharError from pipenv.vendor.tomlkit.items import CUSTOM_ENCODERS from pipenv.vendor.tomlkit.items import AoT from pipenv.vendor.tomlkit.items import Array from pipenv.vendor.tomlkit.items import Bool from pipenv.vendor.tomlkit.items import Comment from pipenv.vendor.tomlkit.items import Date from pipenv.vendor.tomlkit.items import DateTime from pipenv.vendor.tomlkit.items import DottedKey from pipenv.vendor.tomlkit.items import Encoder from pipenv.vendor.tomlkit.items import Float from pipenv.vendor.tomlkit.items import InlineTable from pipenv.vendor.tomlkit.items import Integer from pipenv.vendor.tomlkit.items import Item as _Item from pipenv.vendor.tomlkit.items import Key from pipenv.vendor.tomlkit.items import SingleKey from pipenv.vendor.tomlkit.items import String from pipenv.vendor.tomlkit.items import StringType as _StringType from pipenv.vendor.tomlkit.items import Table from pipenv.vendor.tomlkit.items import Time from pipenv.vendor.tomlkit.items import Trivia from pipenv.vendor.tomlkit.items import Whitespace from pipenv.vendor.tomlkit.items import item from pipenv.vendor.tomlkit.parser import Parser from pipenv.vendor.tomlkit.toml_document import TOMLDocument def loads(string: str | bytes) -> TOMLDocument: """ Parses a string into a TOMLDocument. Alias for parse(). """ return parse(string) def dumps(data: Mapping, sort_keys: bool = False) -> str: """ Dumps a TOMLDocument into a string. """ if not isinstance(data, Container) and isinstance(data, Mapping): data = item(dict(data), _sort_keys=sort_keys) try: # data should be a `Container` (and therefore implement `as_string`) # for all type safe invocations of this function return data.as_string() # type: ignore[attr-defined] except AttributeError as ex: msg = f"Expecting Mapping or TOML Container, {type(data)} given" raise TypeError(msg) from ex def load(fp: IO[str] | IO[bytes]) -> TOMLDocument: """ Load toml document from a file-like object. """ return parse(fp.read()) def dump(data: Mapping, fp: IO[str], *, sort_keys: bool = False) -> None: """ Dump a TOMLDocument into a writable file stream. :param data: a dict-like object to dump :param sort_keys: if true, sort the keys in alphabetic order """ fp.write(dumps(data, sort_keys=sort_keys)) def parse(string: str | bytes) -> TOMLDocument: """ Parses a string or bytes into a TOMLDocument. """ return Parser(string).parse() def document() -> TOMLDocument: """ Returns a new TOMLDocument instance. """ return TOMLDocument() # Items def integer(raw: str | int) -> Integer: """Create an integer item from a number or string.""" return item(int(raw)) def float_(raw: str | float) -> Float: """Create an float item from a number or string.""" return item(float(raw)) def boolean(raw: str) -> Bool: """Turn `true` or `false` into a boolean item.""" return item(raw == "true") def string( raw: str, *, literal: bool = False, multiline: bool = False, escape: bool = True, ) -> String: """Create a string item. By default, this function will create *single line basic* strings, but boolean flags (e.g. ``literal=True`` and/or ``multiline=True``) can be used for personalization. For more information, please check the spec: ``__. Common escaping rules will be applied for basic strings. This can be controlled by explicitly setting ``escape=False``. Please note that, if you disable escaping, you will have to make sure that the given strings don't contain any forbidden character or sequence. """ type_ = _StringType.select(literal, multiline) return String.from_raw(raw, type_, escape) def date(raw: str) -> Date: """Create a TOML date.""" value = parse_rfc3339(raw) if not isinstance(value, _datetime.date): raise ValueError("date() only accepts date strings.") return item(value) def time(raw: str) -> Time: """Create a TOML time.""" value = parse_rfc3339(raw) if not isinstance(value, _datetime.time): raise ValueError("time() only accepts time strings.") return item(value) def datetime(raw: str) -> DateTime: """Create a TOML datetime.""" value = parse_rfc3339(raw) if not isinstance(value, _datetime.datetime): raise ValueError("datetime() only accepts datetime strings.") return item(value) def array(raw: str = None) -> Array: """Create an array item for its string representation. :Example: >>> array("[1, 2, 3]") # Create from a string [1, 2, 3] >>> a = array() >>> a.extend([1, 2, 3]) # Create from a list >>> a [1, 2, 3] """ if raw is None: raw = "[]" return value(raw) def table(is_super_table: bool | None = None) -> Table: """Create an empty table. :param is_super_table: if true, the table is a super table :Example: >>> doc = document() >>> foo = table(True) >>> bar = table() >>> bar.update({'x': 1}) >>> foo.append('bar', bar) >>> doc.append('foo', foo) >>> print(doc.as_string()) [foo.bar] x = 1 """ return Table(Container(), Trivia(), False, is_super_table) def inline_table() -> InlineTable: """Create an inline table. :Example: >>> table = inline_table() >>> table.update({'x': 1, 'y': 2}) >>> print(table.as_string()) {x = 1, y = 2} """ return InlineTable(Container(), Trivia(), new=True) def aot() -> AoT: """Create an array of table. :Example: >>> doc = document() >>> aot = aot() >>> aot.append(item({'x': 1})) >>> doc.append('foo', aot) >>> print(doc.as_string()) [[foo]] x = 1 """ return AoT([]) def key(k: str | Iterable[str]) -> Key: """Create a key from a string. When a list of string is given, it will create a dotted key. :Example: >>> doc = document() >>> doc.append(key('foo'), 1) >>> doc.append(key(['bar', 'baz']), 2) >>> print(doc.as_string()) foo = 1 bar.baz = 2 """ if isinstance(k, str): return SingleKey(k) return DottedKey([key(_k) for _k in k]) def value(raw: str) -> _Item: """Parse a simple value from a string. :Example: >>> value("1") 1 >>> value("true") True >>> value("[1, 2, 3]") [1, 2, 3] """ parser = Parser(raw) v = parser._parse_value() if not parser.end(): raise parser.parse_error(UnexpectedCharError, char=parser._current) return v def key_value(src: str) -> tuple[Key, _Item]: """Parse a key-value pair from a string. :Example: >>> key_value("foo = 1") (Key('foo'), 1) """ return Parser(src)._parse_key_value() def ws(src: str) -> Whitespace: """Create a whitespace from a string.""" return Whitespace(src, fixed=True) def nl() -> Whitespace: """Create a newline item.""" return ws("\n") def comment(string: str) -> Comment: """Create a comment item.""" return Comment(Trivia(comment_ws=" ", comment="# " + string)) E = TypeVar("E", bound=Encoder) def register_encoder(encoder: E) -> E: """Add a custom encoder, which should be a function that will be called if the value can't otherwise be converted. It should takes a single value and return a TOMLKit item or raise a ``TypeError``. """ CUSTOM_ENCODERS.append(encoder) return encoder def unregister_encoder(encoder: Encoder) -> None: """Unregister a custom encoder.""" with contextlib.suppress(ValueError): CUSTOM_ENCODERS.remove(encoder)