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"""
    pygments.lexers.julia
    ~~~~~~~~~~~~~~~~~~~~~

    Lexers for the Julia language.

    :copyright: Copyright 2006-2021 by the Pygments team, see AUTHORS.
    :license: BSD, see LICENSE for details.
"""

import re

from pygments.lexer import Lexer, RegexLexer, bygroups, do_insertions, \ 
    words, include 
from pygments.token import Text, Comment, Operator, Keyword, Name, String, \
    Number, Punctuation, Generic
from pygments.util import shebang_matches
from pygments.lexers._julia_builtins import OPERATORS_LIST, DOTTED_OPERATORS_LIST, \
    KEYWORD_LIST, BUILTIN_LIST, LITERAL_LIST

__all__ = ['JuliaLexer', 'JuliaConsoleLexer']

# see https://docs.julialang.org/en/v1/manual/variables/#Allowed-Variable-Names
allowed_variable = \
    '(?:[a-zA-Z_\u00A1-\U0010ffff][a-zA-Z_0-9!\u00A1-\U0010ffff]*)'
# see https://github.com/JuliaLang/julia/blob/master/src/flisp/julia_opsuffs.h
operator_suffixes = r'[²³¹ʰʲʳʷʸˡˢˣᴬᴮᴰᴱᴳᴴᴵᴶᴷᴸᴹᴺᴼᴾᴿᵀᵁᵂᵃᵇᵈᵉᵍᵏᵐᵒᵖᵗᵘᵛᵝᵞᵟᵠᵡᵢᵣᵤᵥᵦᵧᵨᵩᵪᶜᶠᶥᶦᶫᶰᶸᶻᶿ′″‴‵‶‷⁗⁰ⁱ⁴⁵⁶⁷⁸⁹⁺⁻⁼⁽⁾ⁿ₀₁₂₃₄₅₆₇₈₉₊₋₌₍₎ₐₑₒₓₕₖₗₘₙₚₛₜⱼⱽ]*'

class JuliaLexer(RegexLexer):
    """
    For `Julia <http://julialang.org/>`_ source code.

    .. versionadded:: 1.6
    """
 
    name = 'Julia'
    aliases = ['julia', 'jl']
    filenames = ['*.jl']
    mimetypes = ['text/x-julia', 'application/x-julia']

    flags = re.MULTILINE | re.UNICODE

    tokens = {
        'root': [
            (r'\n', Text),
            (r'[^\S\n]+', Text),
            (r'#=', Comment.Multiline, "blockcomment"),
            (r'#.*$', Comment),
            (r'[\[\](),;]', Punctuation),

            # symbols
            #   intercept range expressions first
            (r'(' + allowed_variable + r')(\s*)(:)(' + allowed_variable + ')',
                bygroups(Name, Text, Operator, Name)),
            #   then match :name which does not follow closing brackets, digits, or the
            #   ::, <:, and :> operators
            (r'(?<![\]):<>\d.])(:' + allowed_variable + ')', String.Symbol),

            # type assertions - excludes expressions like ::typeof(sin) and ::avec[1]
            (r'(?<=::)(\s*)(' + allowed_variable + r')\b(?![(\[])', bygroups(Text, Keyword.Type)),
            # type comparisons
            # - MyType <: A or MyType >: A
            ('(' + allowed_variable + r')(\s*)([<>]:)(\s*)(' + allowed_variable + r')\b(?![(\[])',
                bygroups(Keyword.Type, Text, Operator, Text, Keyword.Type)),
            # - <: B or >: B
            (r'([<>]:)(\s*)(' + allowed_variable + r')\b(?![(\[])',
                bygroups(Operator, Text, Keyword.Type)),
            # - A <: or A >:
            (r'\b(' + allowed_variable + r')(\s*)([<>]:)',
                bygroups(Keyword.Type, Text, Operator)),

            # operators
            # Suffixes aren't actually allowed on all operators, but we'll ignore that
            # since those cases are invalid Julia code.
            (words([*OPERATORS_LIST, *DOTTED_OPERATORS_LIST], suffix=operator_suffixes), Operator),
            (words(['.' + o for o in DOTTED_OPERATORS_LIST], suffix=operator_suffixes), Operator),
            (words(['...', '..']), Operator),

            # NOTE 
            # Patterns below work only for definition sites and thus hardly reliable. 
            # 
            # functions
            # (r'(function)(\s+)(' + allowed_variable + ')', 
            #  bygroups(Keyword, Text, Name.Function)), 

            # chars
            (r"'(\\.|\\[0-7]{1,3}|\\x[a-fA-F0-9]{1,3}|\\u[a-fA-F0-9]{1,4}|"
             r"\\U[a-fA-F0-9]{1,6}|[^\\\'\n])'", String.Char),

            # try to match trailing transpose
            (r'(?<=[.\w)\]])(\'' + operator_suffixes + ')+', Operator),

            # raw strings
            (r'(raw)(""")', bygroups(String.Affix, String), 'tqrawstring'),
            (r'(raw)(")', bygroups(String.Affix, String), 'rawstring'),
            # regular expressions 
            (r'(r)(""")', bygroups(String.Affix, String.Regex), 'tqregex'),
            (r'(r)(")', bygroups(String.Affix, String.Regex), 'regex'),
            # other strings
            (r'(' + allowed_variable + ')?(""")', bygroups(String.Affix, String), 'tqstring'),
            (r'(' + allowed_variable + ')?(")', bygroups(String.Affix, String), 'string'),
 
            # backticks 
            (r'(' + allowed_variable + ')?(```)', bygroups(String.Affix, String.Backtick), 'tqcommand'),
            (r'(' + allowed_variable + ')?(`)', bygroups(String.Affix, String.Backtick), 'command'),
 
            # type names
            # - names that begin a curly expression
            ('(' + allowed_variable + r')(\{)',
                bygroups(Keyword.Type, Punctuation), 'curly'),
            # - names as part of bare 'where'
            (r'(where)(\s+)(' + allowed_variable + ')',
                bygroups(Keyword, Text, Keyword.Type)),
            # - curly expressions in general
            (r'(\{)', Punctuation, 'curly'),
            # - names as part of type declaration
            (r'(abstract[ \t]+type|primitive[ \t]+type|mutable[ \t]+struct|struct)([\s()]+)(' +
                allowed_variable + r')', bygroups(Keyword, Text, Keyword.Type)),

            # macros
            (r'@' + allowed_variable, Name.Decorator),
            (words([*OPERATORS_LIST, '..', '.', *DOTTED_OPERATORS_LIST],
                prefix='@', suffix=operator_suffixes), Name.Decorator),

            # keywords
            (words(KEYWORD_LIST, suffix=r'\b'), Keyword),
            # builtin types
            (words(BUILTIN_LIST, suffix=r'\b'), Keyword.Type),
            # builtin literals
            (words(LITERAL_LIST, suffix=r'\b'), Name.Builtin),

            # names
            (allowed_variable, Name), 

            # numbers
            (r'(\d+((_\d+)+)?\.(?!\.)(\d+((_\d+)+)?)?|\.\d+((_\d+)+)?)([eEf][+-]?[0-9]+)?', Number.Float),
            (r'\d+((_\d+)+)?[eEf][+-]?[0-9]+', Number.Float),
            (r'0x[a-fA-F0-9]+((_[a-fA-F0-9]+)+)?(\.([a-fA-F0-9]+((_[a-fA-F0-9]+)+)?)?)?p[+-]?\d+', Number.Float),
            (r'0b[01]+((_[01]+)+)?', Number.Bin),
            (r'0o[0-7]+((_[0-7]+)+)?', Number.Oct),
            (r'0x[a-fA-F0-9]+((_[a-fA-F0-9]+)+)?', Number.Hex),
            (r'\d+((_\d+)+)?', Number.Integer),

            # single dot operator matched last to permit e.g. ".1" as a float
            (words(['.']), Operator),
        ],

        "blockcomment": [
            (r'[^=#]', Comment.Multiline),
            (r'#=', Comment.Multiline, '#push'),
            (r'=#', Comment.Multiline, '#pop'),
            (r'[=#]', Comment.Multiline),
        ],
 
        'curly': [
            (r'\{', Punctuation, '#push'),
            (r'\}', Punctuation, '#pop'),
            (allowed_variable, Keyword.Type),
            include('root'),
        ],

        'tqrawstring': [
            (r'"""', String, '#pop'),
            (r'([^"]|"[^"][^"])+', String),
        ],
        'rawstring': [
            (r'"', String, '#pop'),
            (r'\\"', String.Escape),
            (r'([^"\\]|\\[^"])+', String),
        ],

        # Interpolation is defined as "$" followed by the shortest full expression, which is
        # something we can't parse.
        # Include the most common cases here: $word, and $(paren'd expr).
        'interp': [
            (r'\$' + allowed_variable, String.Interpol),
            (r'(\$)(\()', bygroups(String.Interpol, Punctuation), 'in-intp'),
        ],
        'in-intp': [
            (r'\(', Punctuation, '#push'),
            (r'\)', Punctuation, '#pop'),
            include('root'),
        ],

        'string': [
            (r'(")(' + allowed_variable + r'|\d+)?', bygroups(String, String.Affix), '#pop'),
            # FIXME: This escape pattern is not perfect. 
            (r'\\([\\"\'$nrbtfav]|(x|u|U)[a-fA-F0-9]+|\d+)', String.Escape), 
            include('interp'),
            # @printf and @sprintf formats 
            (r'%[-#0 +]*([0-9]+|[*])?(\.([0-9]+|[*]))?[hlL]?[E-GXc-giorsux%]', 
             String.Interpol), 
            (r'[^"$%\\]+', String),
            (r'.', String),
        ],
        'tqstring': [ 
            (r'(""")(' + allowed_variable + r'|\d+)?', bygroups(String, String.Affix), '#pop'),
            (r'\\([\\"\'$nrbtfav]|(x|u|U)[a-fA-F0-9]+|\d+)', String.Escape), 
            include('interp'),
            (r'[^"$%\\]+', String),
            (r'.', String),
        ], 
 
        'regex': [ 
            (r'(")([imsxa]*)?', bygroups(String.Regex, String.Affix), '#pop'),
            (r'\\"', String.Regex), 
            (r'[^\\"]+', String.Regex),
        ], 
 
        'tqregex': [ 
            (r'(""")([imsxa]*)?', bygroups(String.Regex, String.Affix), '#pop'),
            (r'[^"]+', String.Regex),
        ], 
 
        'command': [ 
            (r'(`)(' + allowed_variable + r'|\d+)?', bygroups(String.Backtick, String.Affix), '#pop'),
            (r'\\[`$]', String.Escape),
            include('interp'),
            (r'[^\\`$]+', String.Backtick),
            (r'.', String.Backtick),
        ], 
        'tqcommand': [
            (r'(```)(' + allowed_variable + r'|\d+)?', bygroups(String.Backtick, String.Affix), '#pop'),
            (r'\\\$', String.Escape),
            include('interp'),
            (r'[^\\`$]+', String.Backtick),
            (r'.', String.Backtick),
        ],
    }

    def analyse_text(text):
        return shebang_matches(text, r'julia')


class JuliaConsoleLexer(Lexer):
    """
    For Julia console sessions. Modeled after MatlabSessionLexer.

    .. versionadded:: 1.6
    """
    name = 'Julia console'
    aliases = ['jlcon', 'julia-repl']

    def get_tokens_unprocessed(self, text):
        jllexer = JuliaLexer(**self.options)
        start = 0 
        curcode = ''
        insertions = []
        output = False 
        error = False 

        for line in text.splitlines(True): 
            if line.startswith('julia>'):
                insertions.append((len(curcode), [(0, Generic.Prompt, line[:6])])) 
                curcode += line[6:]
                output = False 
                error = False 
            elif line.startswith('help?>') or line.startswith('shell>'): 
                yield start, Generic.Prompt, line[:6] 
                yield start + 6, Text, line[6:] 
                output = False 
                error = False 
            elif line.startswith('      ') and not output: 
                insertions.append((len(curcode), [(0, Text, line[:6])])) 
                curcode += line[6:] 
            else:
                if curcode:
                    yield from do_insertions(
                        insertions, jllexer.get_tokens_unprocessed(curcode))
                    curcode = ''
                    insertions = []
                if line.startswith('ERROR: ') or error: 
                    yield start, Generic.Error, line 
                    error = True 
                else: 
                    yield start, Generic.Output, line 
                output = True 
            start += len(line) 

        if curcode: 
            yield from do_insertions(
                insertions, jllexer.get_tokens_unprocessed(curcode))