""" pygments.lexers.cddl ~~~~~~~~~~~~~~~~~~~~ Lexer for the Concise data definition language (CDDL), a notational convention to express CBOR and JSON data structures. More information: https://datatracker.ietf.org/doc/rfc8610/ :copyright: Copyright 2006-2022 by the Pygments team, see AUTHORS. :license: BSD, see LICENSE for details. """ import re __all__ = ['CddlLexer'] from pygments.lexer import RegexLexer, bygroups, include, words from pygments.token import ( Comment, Error, Keyword, Name, Number, Operator, Punctuation, String, Text, Whitespace, ) class CddlLexer(RegexLexer): """ Lexer for CDDL definitions. .. versionadded:: 2.8 """ name = "CDDL" url = 'https://datatracker.ietf.org/doc/rfc8610/' aliases = ["cddl"] filenames = ["*.cddl"] mimetypes = ["text/x-cddl"] _prelude_types = [ "any", "b64legacy", "b64url", "bigfloat", "bigint", "bignint", "biguint", "bool", "bstr", "bytes", "cbor-any", "decfrac", "eb16", "eb64legacy", "eb64url", "encoded-cbor", "false", "float", "float16", "float16-32", "float32", "float32-64", "float64", "int", "integer", "mime-message", "nil", "nint", "null", "number", "regexp", "tdate", "text", "time", "true", "tstr", "uint", "undefined", "unsigned", "uri", ] _controls = [ ".and", ".bits", ".cbor", ".cborseq", ".default", ".eq", ".ge", ".gt", ".le", ".lt", ".ne", ".regexp", ".size", ".within", ] _re_id = ( r"[$@A-Z_a-z]" r"(?:[\-\.]+(?=[$@0-9A-Z_a-z])|[$@0-9A-Z_a-z])*" ) # While the spec reads more like "an int must not start with 0" we use a # lookahead here that says "after a 0 there must be no digit". This makes the # '0' the invalid character in '01', which looks nicer when highlighted. _re_uint = r"(?:0b[01]+|0x[0-9a-fA-F]+|[1-9]\d*|0(?!\d))" _re_int = r"-?" + _re_uint tokens = { "commentsandwhitespace": [(r"\s+", Whitespace), (r";.+$", Comment.Single)], "root": [ include("commentsandwhitespace"), # tag types (r"#(\d\.{uint})?".format(uint=_re_uint), Keyword.Type), # type or any # occurrence ( r"({uint})?(\*)({uint})?".format(uint=_re_uint), bygroups(Number, Operator, Number), ), (r"\?|\+", Operator), # occurrence (r"\^", Operator), # cuts (r"(\.\.\.|\.\.)", Operator), # rangeop (words(_controls, suffix=r"\b"), Operator.Word), # ctlops # into choice op (r"&(?=\s*({groupname}|\())".format(groupname=_re_id), Operator), (r"~(?=\s*{})".format(_re_id), Operator), # unwrap op (r"//|/(?!/)", Operator), # double und single slash (r"=>|/==|/=|=", Operator), (r"[\[\]{}\(\),<>:]", Punctuation), # Bytestrings (r"(b64)(')", bygroups(String.Affix, String.Single), "bstrb64url"), (r"(h)(')", bygroups(String.Affix, String.Single), "bstrh"), (r"'", String.Single, "bstr"), # Barewords as member keys (must be matched before values, types, typenames, # groupnames). # Token type is String as barewords are always interpreted as such. ( r"({bareword})(\s*)(:)".format(bareword=_re_id), bygroups(String, Whitespace, Punctuation), ), # predefined types ( words(_prelude_types, prefix=r"(?![\-_$@])\b", suffix=r"\b(?![\-_$@])"), Name.Builtin, ), # user-defined groupnames, typenames (_re_id, Name.Class), # values (r"0b[01]+", Number.Bin), (r"0o[0-7]+", Number.Oct), (r"0x[0-9a-fA-F]+(\.[0-9a-fA-F]+)?p[+-]?\d+", Number.Hex), # hexfloat (r"0x[0-9a-fA-F]+", Number.Hex), # hex # Float ( r"{int}(?=(\.\d|e[+-]?\d))(?:\.\d+)?(?:e[+-]?\d+)?".format(int=_re_int), Number.Float, ), # Int (_re_int, Number.Integer), (r'"(\\\\|\\"|[^"])*"', String.Double), ], "bstrb64url": [ (r"'", String.Single, "#pop"), include("commentsandwhitespace"), (r"\\.", String.Escape), (r"[0-9a-zA-Z\-_=]+", String.Single), (r".", Error), # (r";.+$", Token.Other), ], "bstrh": [ (r"'", String.Single, "#pop"), include("commentsandwhitespace"), (r"\\.", String.Escape), (r"[0-9a-fA-F]+", String.Single), (r".", Error), ], "bstr": [ (r"'", String.Single, "#pop"), (r"\\.", String.Escape), (r"[^'\\]+", String.Single), ], }