# -*- coding: utf-8 -*- """ pygments.lexers.dotnet ~~~~~~~~~~~~~~~~~~~~~~ Lexers for .net languages. :copyright: Copyright 2006-2014 by the Pygments team, see AUTHORS. :license: BSD, see LICENSE for details. """ import re from pygments.lexer import RegexLexer, DelegatingLexer, bygroups, include, \ using, this from pygments.token import Punctuation, \ Text, Comment, Operator, Keyword, Name, String, Number, Literal, Other from pygments.util import get_choice_opt, iteritems from pygments import unistring as uni from pygments.lexers.web import XmlLexer __all__ = ['CSharpLexer', 'NemerleLexer', 'BooLexer', 'VbNetLexer', 'CSharpAspxLexer', 'VbNetAspxLexer', 'FSharpLexer'] class CSharpLexer(RegexLexer): """ For `C# `_ source code. Additional options accepted: `unicodelevel` Determines which Unicode characters this lexer allows for identifiers. The possible values are: * ``none`` -- only the ASCII letters and numbers are allowed. This is the fastest selection. * ``basic`` -- all Unicode characters from the specification except category ``Lo`` are allowed. * ``full`` -- all Unicode characters as specified in the C# specs are allowed. Note that this means a considerable slowdown since the ``Lo`` category has more than 40,000 characters in it! The default value is ``basic``. .. versionadded:: 0.8 """ name = 'C#' aliases = ['csharp', 'c#'] filenames = ['*.cs'] mimetypes = ['text/x-csharp'] # inferred flags = re.MULTILINE | re.DOTALL | re.UNICODE # for the range of allowed unicode characters in identifiers, # see http://www.ecma-international.org/publications/files/ECMA-ST/Ecma-334.pdf levels = { 'none': '@?[_a-zA-Z][a-zA-Z0-9_]*', 'basic': ('@?[_' + uni.Lu + uni.Ll + uni.Lt + uni.Lm + uni.Nl + ']' + '[' + uni.Lu + uni.Ll + uni.Lt + uni.Lm + uni.Nl + uni.Nd + uni.Pc + uni.Cf + uni.Mn + uni.Mc + ']*'), 'full': ('@?(?:_|[^' + uni.allexcept('Lu', 'Ll', 'Lt', 'Lm', 'Lo', 'Nl') + '])' + '[^' + uni.allexcept('Lu', 'Ll', 'Lt', 'Lm', 'Lo', 'Nl', 'Nd', 'Pc', 'Cf', 'Mn', 'Mc') + ']*'), } tokens = {} token_variants = True for levelname, cs_ident in iteritems(levels): tokens[levelname] = { 'root': [ # method names (r'^([ \t]*(?:' + cs_ident + r'(?:\[\])?\s+)+?)' # return type r'(' + cs_ident + ')' # method name r'(\s*)(\()', # signature start bygroups(using(this), Name.Function, Text, Punctuation)), (r'^\s*\[.*?\]', Name.Attribute), (r'[^\S\n]+', Text), (r'\\\n', Text), # line continuation (r'//.*?\n', Comment.Single), (r'/[*].*?[*]/', Comment.Multiline), (r'\n', Text), (r'[~!%^&*()+=|\[\]:;,.<>/?-]', Punctuation), (r'[{}]', Punctuation), (r'@"(""|[^"])*"', String), (r'"(\\\\|\\"|[^"\n])*["\n]', String), (r"'\\.'|'[^\\]'", String.Char), (r"[0-9](\.[0-9]*)?([eE][+-][0-9]+)?" r"[flFLdD]?|0[xX][0-9a-fA-F]+[Ll]?", Number), (r'#[ \t]*(if|endif|else|elif|define|undef|' r'line|error|warning|region|endregion|pragma)\b.*?\n', Comment.Preproc), (r'\b(extern)(\s+)(alias)\b', bygroups(Keyword, Text, Keyword)), (r'(abstract|as|async|await|base|break|case|catch|' r'checked|const|continue|default|delegate|' r'do|else|enum|event|explicit|extern|false|finally|' r'fixed|for|foreach|goto|if|implicit|in|interface|' r'internal|is|lock|new|null|operator|' r'out|override|params|private|protected|public|readonly|' r'ref|return|sealed|sizeof|stackalloc|static|' r'switch|this|throw|true|try|typeof|' r'unchecked|unsafe|virtual|void|while|' r'get|set|new|partial|yield|add|remove|value|alias|ascending|' r'descending|from|group|into|orderby|select|where|' r'join|equals)\b', Keyword), (r'(global)(::)', bygroups(Keyword, Punctuation)), (r'(bool|byte|char|decimal|double|dynamic|float|int|long|object|' r'sbyte|short|string|uint|ulong|ushort|var)\b\??', Keyword.Type), (r'(class|struct)(\s+)', bygroups(Keyword, Text), 'class'), (r'(namespace|using)(\s+)', bygroups(Keyword, Text), 'namespace'), (cs_ident, Name), ], 'class': [ (cs_ident, Name.Class, '#pop') ], 'namespace': [ (r'(?=\()', Text, '#pop'), # using (resource) ('(' + cs_ident + r'|\.)+', Name.Namespace, '#pop') ] } def __init__(self, **options): level = get_choice_opt(options, 'unicodelevel', list(self.tokens), 'basic') if level not in self._all_tokens: # compile the regexes now self._tokens = self.__class__.process_tokendef(level) else: self._tokens = self._all_tokens[level] RegexLexer.__init__(self, **options) class NemerleLexer(RegexLexer): """ For `Nemerle `_ source code. Additional options accepted: `unicodelevel` Determines which Unicode characters this lexer allows for identifiers. The possible values are: * ``none`` -- only the ASCII letters and numbers are allowed. This is the fastest selection. * ``basic`` -- all Unicode characters from the specification except category ``Lo`` are allowed. * ``full`` -- all Unicode characters as specified in the C# specs are allowed. Note that this means a considerable slowdown since the ``Lo`` category has more than 40,000 characters in it! The default value is ``basic``. .. versionadded:: 1.5 """ name = 'Nemerle' aliases = ['nemerle'] filenames = ['*.n'] mimetypes = ['text/x-nemerle'] # inferred flags = re.MULTILINE | re.DOTALL | re.UNICODE # for the range of allowed unicode characters in identifiers, see # http://www.ecma-international.org/publications/files/ECMA-ST/Ecma-334.pdf levels = dict( none = '@?[_a-zA-Z][a-zA-Z0-9_]*', basic = ('@?[_' + uni.Lu + uni.Ll + uni.Lt + uni.Lm + uni.Nl + ']' + '[' + uni.Lu + uni.Ll + uni.Lt + uni.Lm + uni.Nl + uni.Nd + uni.Pc + uni.Cf + uni.Mn + uni.Mc + ']*'), full = ('@?(?:_|[^' + uni.allexcept('Lu', 'Ll', 'Lt', 'Lm', 'Lo', 'Nl') + '])' + '[^' + uni.allexcept('Lu', 'Ll', 'Lt', 'Lm', 'Lo', 'Nl', 'Nd', 'Pc', 'Cf', 'Mn', 'Mc') + ']*'), ) tokens = {} token_variants = True for levelname, cs_ident in iteritems(levels): tokens[levelname] = { 'root': [ # method names (r'^([ \t]*(?:' + cs_ident + r'(?:\[\])?\s+)+?)' # return type r'(' + cs_ident + ')' # method name r'(\s*)(\()', # signature start bygroups(using(this), Name.Function, Text, Punctuation)), (r'^\s*\[.*?\]', Name.Attribute), (r'[^\S\n]+', Text), (r'\\\n', Text), # line continuation (r'//.*?\n', Comment.Single), (r'/[*].*?[*]/', Comment.Multiline), (r'\n', Text), (r'\$\s*"', String, 'splice-string'), (r'\$\s*<#', String, 'splice-string2'), (r'<#', String, 'recursive-string'), (r'(<\[)\s*(' + cs_ident + ':)?', Keyword), (r'\]\>', Keyword), # quasiquotation only (r'\$' + cs_ident, Name), (r'(\$)(\()', bygroups(Name, Punctuation), 'splice-string-content'), (r'[~!%^&*()+=|\[\]:;,.<>/?-]', Punctuation), (r'[{}]', Punctuation), (r'@"(""|[^"])*"', String), (r'"(\\\\|\\"|[^"\n])*["\n]', String), (r"'\\.'|'[^\\]'", String.Char), (r"0[xX][0-9a-fA-F]+[Ll]?", Number), (r"[0-9](\.[0-9]*)?([eE][+-][0-9]+)?[flFLdD]?", Number), (r'#[ \t]*(if|endif|else|elif|define|undef|' r'line|error|warning|region|endregion|pragma)\b.*?\n', Comment.Preproc), (r'\b(extern)(\s+)(alias)\b', bygroups(Keyword, Text, Keyword)), (r'(abstract|and|as|base|catch|def|delegate|' r'enum|event|extern|false|finally|' r'fun|implements|interface|internal|' r'is|macro|match|matches|module|mutable|new|' r'null|out|override|params|partial|private|' r'protected|public|ref|sealed|static|' r'syntax|this|throw|true|try|type|typeof|' r'virtual|volatile|when|where|with|' r'assert|assert2|async|break|checked|continue|do|else|' r'ensures|for|foreach|if|late|lock|new|nolate|' r'otherwise|regexp|repeat|requires|return|surroundwith|' r'unchecked|unless|using|while|yield)\b', Keyword), (r'(global)(::)', bygroups(Keyword, Punctuation)), (r'(bool|byte|char|decimal|double|float|int|long|object|sbyte|' r'short|string|uint|ulong|ushort|void|array|list)\b\??', Keyword.Type), (r'(:>?)\s*(' + cs_ident + r'\??)', bygroups(Punctuation, Keyword.Type)), (r'(class|struct|variant|module)(\s+)', bygroups(Keyword, Text), 'class'), (r'(namespace|using)(\s+)', bygroups(Keyword, Text), 'namespace'), (cs_ident, Name), ], 'class': [ (cs_ident, Name.Class, '#pop') ], 'namespace': [ (r'(?=\()', Text, '#pop'), # using (resource) ('(' + cs_ident + r'|\.)+', Name.Namespace, '#pop') ], 'splice-string': [ (r'[^"$]', String), (r'\$' + cs_ident, Name), (r'(\$)(\()', bygroups(Name, Punctuation), 'splice-string-content'), (r'\\"', String), (r'"', String, '#pop') ], 'splice-string2': [ (r'[^#<>$]', String), (r'\$' + cs_ident, Name), (r'(\$)(\()', bygroups(Name, Punctuation), 'splice-string-content'), (r'<#', String, '#push'), (r'#>', String, '#pop') ], 'recursive-string': [ (r'[^#<>]', String), (r'<#', String, '#push'), (r'#>', String, '#pop') ], 'splice-string-content': [ (r'if|match', Keyword), (r'[~!%^&*+=|\[\]:;,.<>/?-\\"$ ]', Punctuation), (cs_ident, Name), (r'\d+', Number), (r'\(', Punctuation, '#push'), (r'\)', Punctuation, '#pop') ] } def __init__(self, **options): level = get_choice_opt(options, 'unicodelevel', list(self.tokens), 'basic') if level not in self._all_tokens: # compile the regexes now self._tokens = self.__class__.process_tokendef(level) else: self._tokens = self._all_tokens[level] RegexLexer.__init__(self, **options) class BooLexer(RegexLexer): """ For `Boo `_ source code. """ name = 'Boo' aliases = ['boo'] filenames = ['*.boo'] mimetypes = ['text/x-boo'] tokens = { 'root': [ (r'\s+', Text), (r'(#|//).*$', Comment.Single), (r'/[*]', Comment.Multiline, 'comment'), (r'[]{}:(),.;[]', Punctuation), (r'\\\n', Text), (r'\\', Text), (r'(in|is|and|or|not)\b', Operator.Word), (r'/(\\\\|\\/|[^/\s])/', String.Regex), (r'@/(\\\\|\\/|[^/])*/', String.Regex), (r'=~|!=|==|<<|>>|[-+/*%=<>&^|]', Operator), (r'(as|abstract|callable|constructor|destructor|do|import|' r'enum|event|final|get|interface|internal|of|override|' r'partial|private|protected|public|return|set|static|' r'struct|transient|virtual|yield|super|and|break|cast|' r'continue|elif|else|ensure|except|for|given|goto|if|in|' r'is|isa|not|or|otherwise|pass|raise|ref|try|unless|when|' r'while|from|as)\b', Keyword), (r'def(?=\s+\(.*?\))', Keyword), (r'(def)(\s+)', bygroups(Keyword, Text), 'funcname'), (r'(class)(\s+)', bygroups(Keyword, Text), 'classname'), (r'(namespace)(\s+)', bygroups(Keyword, Text), 'namespace'), (r'(?`_ source code. """ name = 'VB.net' aliases = ['vb.net', 'vbnet'] filenames = ['*.vb', '*.bas'] mimetypes = ['text/x-vbnet', 'text/x-vba'] # (?) flags = re.MULTILINE | re.IGNORECASE tokens = { 'root': [ (r'^\s*<.*?>', Name.Attribute), (r'\s+', Text), (r'\n', Text), (r'rem\b.*?\n', Comment), (r"'.*?\n", Comment), (r'#If\s.*?\sThen|#ElseIf\s.*?\sThen|#End\s+If|#Const|' r'#ExternalSource.*?\n|#End\s+ExternalSource|' r'#Region.*?\n|#End\s+Region|#ExternalChecksum', Comment.Preproc), (r'[\(\){}!#,.:]', Punctuation), (r'Option\s+(Strict|Explicit|Compare)\s+' r'(On|Off|Binary|Text)', Keyword.Declaration), (r'(?>=|<<|>>|:=|' r'<=|>=|<>|[-&*/\\^+=<>]', Operator), ('"', String, 'string'), ('[a-zA-Z_][a-zA-Z0-9_]*[%&@!#$]?', Name), ('#.*?#', Literal.Date), (r'(\d+\.\d*|\d*\.\d+)([fF][+-]?[0-9]+)?', Number.Float), (r'\d+([SILDFR]|US|UI|UL)?', Number.Integer), (r'&H[0-9a-f]+([SILDFR]|US|UI|UL)?', Number.Integer), (r'&O[0-7]+([SILDFR]|US|UI|UL)?', Number.Integer), (r'_\n', Text), # Line continuation ], 'string': [ (r'""', String), (r'"C?', String, '#pop'), (r'[^"]+', String), ], 'dim': [ (r'[a-z_][a-z0-9_]*', Name.Variable, '#pop'), (r'', Text, '#pop'), # any other syntax ], 'funcname': [ (r'[a-z_][a-z0-9_]*', Name.Function, '#pop'), ], 'classname': [ (r'[a-z_][a-z0-9_]*', Name.Class, '#pop'), ], 'namespace': [ (r'[a-z_][a-z0-9_.]*', Name.Namespace, '#pop'), ], 'end': [ (r'\s+', Text), (r'(Function|Sub|Property|Class|Structure|Enum|Module|Namespace)\b', Keyword, '#pop'), (r'', Text, '#pop'), ] } def analyse_text(text): if re.search(r'^\s*#If', text, re.I) or re.search(r'^\s*(Module|Namespace)', re.I): return 0.5 class GenericAspxLexer(RegexLexer): """ Lexer for ASP.NET pages. """ name = 'aspx-gen' filenames = [] mimetypes = [] flags = re.DOTALL tokens = { 'root': [ (r'(<%[@=#]?)(.*?)(%>)', bygroups(Name.Tag, Other, Name.Tag)), (r'()(.*?)()', bygroups(using(XmlLexer), Other, using(XmlLexer))), (r'(.+?)(?=<)', using(XmlLexer)), (r'.+', using(XmlLexer)), ], } #TODO support multiple languages within the same source file class CSharpAspxLexer(DelegatingLexer): """ Lexer for highligting C# within ASP.NET pages. """ name = 'aspx-cs' aliases = ['aspx-cs'] filenames = ['*.aspx', '*.asax', '*.ascx', '*.ashx', '*.asmx', '*.axd'] mimetypes = [] def __init__(self, **options): super(CSharpAspxLexer, self).__init__(CSharpLexer,GenericAspxLexer, **options) def analyse_text(text): if re.search(r'Page\s*Language="C#"', text, re.I) is not None: return 0.2 elif re.search(r'script[^>]+language=["\']C#', text, re.I) is not None: return 0.15 class VbNetAspxLexer(DelegatingLexer): """ Lexer for highligting Visual Basic.net within ASP.NET pages. """ name = 'aspx-vb' aliases = ['aspx-vb'] filenames = ['*.aspx', '*.asax', '*.ascx', '*.ashx', '*.asmx', '*.axd'] mimetypes = [] def __init__(self, **options): super(VbNetAspxLexer, self).__init__(VbNetLexer,GenericAspxLexer, **options) def analyse_text(text): if re.search(r'Page\s*Language="Vb"', text, re.I) is not None: return 0.2 elif re.search(r'script[^>]+language=["\']vb', text, re.I) is not None: return 0.15 # Very close to functional.OcamlLexer class FSharpLexer(RegexLexer): """ For the F# language (version 3.0). .. versionadded:: 1.5 """ name = 'FSharp' aliases = ['fsharp'] filenames = ['*.fs', '*.fsi'] mimetypes = ['text/x-fsharp'] keywords = [ 'abstract', 'as', 'assert', 'base', 'begin', 'class', 'default', 'delegate', 'do!', 'do', 'done', 'downcast', 'downto', 'elif', 'else', 'end', 'exception', 'extern', 'false', 'finally', 'for', 'function', 'fun', 'global', 'if', 'inherit', 'inline', 'interface', 'internal', 'in', 'lazy', 'let!', 'let', 'match', 'member', 'module', 'mutable', 'namespace', 'new', 'null', 'of', 'open', 'override', 'private', 'public', 'rec', 'return!', 'return', 'select', 'static', 'struct', 'then', 'to', 'true', 'try', 'type', 'upcast', 'use!', 'use', 'val', 'void', 'when', 'while', 'with', 'yield!', 'yield', ] # Reserved words; cannot hurt to color them as keywords too. keywords += [ 'atomic', 'break', 'checked', 'component', 'const', 'constraint', 'constructor', 'continue', 'eager', 'event', 'external', 'fixed', 'functor', 'include', 'method', 'mixin', 'object', 'parallel', 'process', 'protected', 'pure', 'sealed', 'tailcall', 'trait', 'virtual', 'volatile', ] keyopts = [ '!=', '#', '&&', '&', '\(', '\)', '\*', '\+', ',', '-\.', '->', '-', '\.\.', '\.', '::', ':=', ':>', ':', ';;', ';', '<-', '<\]', '<', '>\]', '>', '\?\?', '\?', '\[<', '\[\|', '\[', '\]', '_', '`', '{', '\|\]', '\|', '}', '~', '<@@', '<@', '=', '@>', '@@>', ] operators = r'[!$%&*+\./:<=>?@^|~-]' word_operators = ['and', 'or', 'not'] prefix_syms = r'[!?~]' infix_syms = r'[=<>@^|&+\*/$%-]' primitives = [ 'sbyte', 'byte', 'char', 'nativeint', 'unativeint', 'float32', 'single', 'float', 'double', 'int8', 'uint8', 'int16', 'uint16', 'int32', 'uint32', 'int64', 'uint64', 'decimal', 'unit', 'bool', 'string', 'list', 'exn', 'obj', 'enum', ] # See http://msdn.microsoft.com/en-us/library/dd233181.aspx and/or # http://fsharp.org/about/files/spec.pdf for reference. Good luck. tokens = { 'escape-sequence': [ (r'\\[\\\"\'ntbrafv]', String.Escape), (r'\\[0-9]{3}', String.Escape), (r'\\u[0-9a-fA-F]{4}', String.Escape), (r'\\U[0-9a-fA-F]{8}', String.Escape), ], 'root': [ (r'\s+', Text), (r'\(\)|\[\]', Name.Builtin.Pseudo), (r'\b(?