""" pygments.lexers.configs ~~~~~~~~~~~~~~~~~~~~~~~ Lexers for configuration file formats. :copyright: Copyright 2006-2021 by the Pygments team, see AUTHORS. :license: BSD, see LICENSE for details. """ import re from pygments.lexer import RegexLexer, default, words, bygroups, include, using from pygments.token import Text, Comment, Operator, Keyword, Name, String, \ Number, Punctuation, Whitespace, Literal, Generic from pygments.lexers.shell import BashLexer from pygments.lexers.data import JsonLexer __all__ = ['IniLexer', 'RegeditLexer', 'PropertiesLexer', 'KconfigLexer', 'Cfengine3Lexer', 'ApacheConfLexer', 'SquidConfLexer', 'NginxConfLexer', 'LighttpdConfLexer', 'DockerLexer', 'TerraformLexer', 'TermcapLexer', 'TerminfoLexer', 'PkgConfigLexer', 'PacmanConfLexer', 'AugeasLexer', 'TOMLLexer', 'SingularityLexer'] class IniLexer(RegexLexer): """ Lexer for configuration files in INI style. """ name = 'INI' aliases = ['ini', 'cfg', 'dosini'] filenames = ['*.ini', '*.cfg', '*.inf'] mimetypes = ['text/x-ini', 'text/inf'] tokens = { 'root': [ (r'\s+', Text), (r'[;#].*', Comment.Single), (r'\[.*?\]$', Keyword), (r'(.*?)([ \t]*)(=)([ \t]*)([^\t\n]*)', bygroups(Name.Attribute, Text, Operator, Text, String)), # standalone option, supported by some INI parsers (r'(.+?)$', Name.Attribute), ], } def analyse_text(text): npos = text.find('\n') if npos < 3: return False return text[0] == '[' and text[npos-1] == ']' class RegeditLexer(RegexLexer): """ Lexer for `Windows Registry `_ files produced by regedit. .. versionadded:: 1.6 """ name = 'reg' aliases = ['registry'] filenames = ['*.reg'] mimetypes = ['text/x-windows-registry'] tokens = { 'root': [ (r'Windows Registry Editor.*', Text), (r'\s+', Text), (r'[;#].*', Comment.Single), (r'(\[)(-?)(HKEY_[A-Z_]+)(.*?\])$', bygroups(Keyword, Operator, Name.Builtin, Keyword)), # String keys, which obey somewhat normal escaping (r'("(?:\\"|\\\\|[^"])+")([ \t]*)(=)([ \t]*)', bygroups(Name.Attribute, Text, Operator, Text), 'value'), # Bare keys (includes @) (r'(.*?)([ \t]*)(=)([ \t]*)', bygroups(Name.Attribute, Text, Operator, Text), 'value'), ], 'value': [ (r'-', Operator, '#pop'), # delete value (r'(dword|hex(?:\([0-9a-fA-F]\))?)(:)([0-9a-fA-F,]+)', bygroups(Name.Variable, Punctuation, Number), '#pop'), # As far as I know, .reg files do not support line continuation. (r'.+', String, '#pop'), default('#pop'), ] } def analyse_text(text): return text.startswith('Windows Registry Editor') class PropertiesLexer(RegexLexer): """ Lexer for configuration files in Java's properties format. Note: trailing whitespace counts as part of the value as per spec .. versionadded:: 1.4 """ name = 'Properties' aliases = ['properties', 'jproperties'] filenames = ['*.properties'] mimetypes = ['text/x-java-properties'] tokens = { 'root': [ (r'^(\w+)([ \t])(\w+\s*)$', bygroups(Name.Attribute, Text, String)), (r'^\w+(\\[ \t]\w*)*$', Name.Attribute), (r'(^ *)([#!].*)', bygroups(Text, Comment)), # More controversial comments (r'(^ *)((?:;|//).*)', bygroups(Text, Comment)), (r'(.*?)([ \t]*)([=:])([ \t]*)(.*(?:(?<=\\)\n.*)*)', bygroups(Name.Attribute, Text, Operator, Text, String)), (r'\s', Text), ], } def _rx_indent(level): # Kconfig *always* interprets a tab as 8 spaces, so this is the default. # Edit this if you are in an environment where KconfigLexer gets expanded # input (tabs expanded to spaces) and the expansion tab width is != 8, # e.g. in connection with Trac (trac.ini, [mimeviewer], tab_width). # Value range here is 2 <= {tab_width} <= 8. tab_width = 8 # Regex matching a given indentation {level}, assuming that indentation is # a multiple of {tab_width}. In other cases there might be problems. if tab_width == 2: space_repeat = '+' else: space_repeat = '{1,%d}' % (tab_width - 1) if level == 1: level_repeat = '' else: level_repeat = '{%s}' % level return r'(?:\t| %s\t| {%s})%s.*\n' % (space_repeat, tab_width, level_repeat) class KconfigLexer(RegexLexer): """ For Linux-style Kconfig files. .. versionadded:: 1.6 """ name = 'Kconfig' aliases = ['kconfig', 'menuconfig', 'linux-config', 'kernel-config'] # Adjust this if new kconfig file names appear in your environment filenames = ['Kconfig*', '*Config.in*', 'external.in*', 'standard-modules.in'] mimetypes = ['text/x-kconfig'] # No re.MULTILINE, indentation-aware help text needs line-by-line handling flags = 0 def call_indent(level): # If indentation >= {level} is detected, enter state 'indent{level}' return (_rx_indent(level), String.Doc, 'indent%s' % level) def do_indent(level): # Print paragraphs of indentation level >= {level} as String.Doc, # ignoring blank lines. Then return to 'root' state. return [ (_rx_indent(level), String.Doc), (r'\s*\n', Text), default('#pop:2') ] tokens = { 'root': [ (r'\s+', Text), (r'#.*?\n', Comment.Single), (words(( 'mainmenu', 'config', 'menuconfig', 'choice', 'endchoice', 'comment', 'menu', 'endmenu', 'visible if', 'if', 'endif', 'source', 'prompt', 'select', 'depends on', 'default', 'range', 'option'), suffix=r'\b'), Keyword), (r'(---help---|help)[\t ]*\n', Keyword, 'help'), (r'(bool|tristate|string|hex|int|defconfig_list|modules|env)\b', Name.Builtin), (r'[!=&|]', Operator), (r'[()]', Punctuation), (r'[0-9]+', Number.Integer), (r"'(''|[^'])*'", String.Single), (r'"(""|[^"])*"', String.Double), (r'\S+', Text), ], # Help text is indented, multi-line and ends when a lower indentation # level is detected. 'help': [ # Skip blank lines after help token, if any (r'\s*\n', Text), # Determine the first help line's indentation level heuristically(!). # Attention: this is not perfect, but works for 99% of "normal" # indentation schemes up to a max. indentation level of 7. call_indent(7), call_indent(6), call_indent(5), call_indent(4), call_indent(3), call_indent(2), call_indent(1), default('#pop'), # for incomplete help sections without text ], # Handle text for indentation levels 7 to 1 'indent7': do_indent(7), 'indent6': do_indent(6), 'indent5': do_indent(5), 'indent4': do_indent(4), 'indent3': do_indent(3), 'indent2': do_indent(2), 'indent1': do_indent(1), } class Cfengine3Lexer(RegexLexer): """ Lexer for `CFEngine3 `_ policy files. .. versionadded:: 1.5 """ name = 'CFEngine3' aliases = ['cfengine3', 'cf3'] filenames = ['*.cf'] mimetypes = [] tokens = { 'root': [ (r'#.*?\n', Comment), (r'(body)(\s+)(\S+)(\s+)(control)', bygroups(Keyword, Text, Keyword, Text, Keyword)), (r'(body|bundle)(\s+)(\S+)(\s+)(\w+)(\()', bygroups(Keyword, Text, Keyword, Text, Name.Function, Punctuation), 'arglist'), (r'(body|bundle)(\s+)(\S+)(\s+)(\w+)', bygroups(Keyword, Text, Keyword, Text, Name.Function)), (r'(")([^"]+)(")(\s+)(string|slist|int|real)(\s*)(=>)(\s*)', bygroups(Punctuation, Name.Variable, Punctuation, Text, Keyword.Type, Text, Operator, Text)), (r'(\S+)(\s*)(=>)(\s*)', bygroups(Keyword.Reserved, Text, Operator, Text)), (r'"', String, 'string'), (r'(\w+)(\()', bygroups(Name.Function, Punctuation)), (r'([\w.!&|()]+)(::)', bygroups(Name.Class, Punctuation)), (r'(\w+)(:)', bygroups(Keyword.Declaration, Punctuation)), (r'@[{(][^)}]+[})]', Name.Variable), (r'[(){},;]', Punctuation), (r'=>', Operator), (r'->', Operator), (r'\d+\.\d+', Number.Float), (r'\d+', Number.Integer), (r'\w+', Name.Function), (r'\s+', Text), ], 'string': [ (r'\$[{(]', String.Interpol, 'interpol'), (r'\\.', String.Escape), (r'"', String, '#pop'), (r'\n', String), (r'.', String), ], 'interpol': [ (r'\$[{(]', String.Interpol, '#push'), (r'[})]', String.Interpol, '#pop'), (r'[^${()}]+', String.Interpol), ], 'arglist': [ (r'\)', Punctuation, '#pop'), (r',', Punctuation), (r'\w+', Name.Variable), (r'\s+', Text), ], } class ApacheConfLexer(RegexLexer): """ Lexer for configuration files following the Apache config file format. .. versionadded:: 0.6 """ name = 'ApacheConf' aliases = ['apacheconf', 'aconf', 'apache'] filenames = ['.htaccess', 'apache.conf', 'apache2.conf'] mimetypes = ['text/x-apacheconf'] flags = re.MULTILINE | re.IGNORECASE tokens = { 'root': [ (r'\s+', Text), (r'#(.*\\\n)+.*$|(#.*?)$', Comment), (r'(<[^\s>/][^\s>]*)(?:(\s+)(.*))?(>)', bygroups(Name.Tag, Text, String, Name.Tag)), (r'(]+)(>)', bygroups(Name.Tag, Name.Tag)), (r'[a-z]\w*', Name.Builtin, 'value'), (r'\.+', Text), ], 'value': [ (r'\\\n', Text), (r'$', Text, '#pop'), (r'\\', Text), (r'[^\S\n]+', Text), (r'\d+\.\d+\.\d+\.\d+(?:/\d+)?', Number), (r'\d+', Number), (r'/([*a-z0-9][*\w./-]+)', String.Other), (r'(on|off|none|any|all|double|email|dns|min|minimal|' r'os|productonly|full|emerg|alert|crit|error|warn|' r'notice|info|debug|registry|script|inetd|standalone|' r'user|group)\b', Keyword), (r'"([^"\\]*(?:\\(.|\n)[^"\\]*)*)"', String.Double), (r'[^\s"\\]+', Text) ], } class SquidConfLexer(RegexLexer): """ Lexer for `squid `_ configuration files. .. versionadded:: 0.9 """ name = 'SquidConf' aliases = ['squidconf', 'squid.conf', 'squid'] filenames = ['squid.conf'] mimetypes = ['text/x-squidconf'] flags = re.IGNORECASE keywords = ( "access_log", "acl", "always_direct", "announce_host", "announce_period", "announce_port", "announce_to", "anonymize_headers", "append_domain", "as_whois_server", "auth_param_basic", "authenticate_children", "authenticate_program", "authenticate_ttl", "broken_posts", "buffered_logs", "cache_access_log", "cache_announce", "cache_dir", "cache_dns_program", "cache_effective_group", "cache_effective_user", "cache_host", "cache_host_acl", "cache_host_domain", "cache_log", "cache_mem", "cache_mem_high", "cache_mem_low", "cache_mgr", "cachemgr_passwd", "cache_peer", "cache_peer_access", "cahce_replacement_policy", "cache_stoplist", "cache_stoplist_pattern", "cache_store_log", "cache_swap", "cache_swap_high", "cache_swap_log", "cache_swap_low", "client_db", "client_lifetime", "client_netmask", "connect_timeout", "coredump_dir", "dead_peer_timeout", "debug_options", "delay_access", "delay_class", "delay_initial_bucket_level", "delay_parameters", "delay_pools", "deny_info", "dns_children", "dns_defnames", "dns_nameservers", "dns_testnames", "emulate_httpd_log", "err_html_text", "fake_user_agent", "firewall_ip", "forwarded_for", "forward_snmpd_port", "fqdncache_size", "ftpget_options", "ftpget_program", "ftp_list_width", "ftp_passive", "ftp_user", "half_closed_clients", "header_access", "header_replace", "hierarchy_stoplist", "high_response_time_warning", "high_page_fault_warning", "hosts_file", "htcp_port", "http_access", "http_anonymizer", "httpd_accel", "httpd_accel_host", "httpd_accel_port", "httpd_accel_uses_host_header", "httpd_accel_with_proxy", "http_port", "http_reply_access", "icp_access", "icp_hit_stale", "icp_port", "icp_query_timeout", "ident_lookup", "ident_lookup_access", "ident_timeout", "incoming_http_average", "incoming_icp_average", "inside_firewall", "ipcache_high", "ipcache_low", "ipcache_size", "local_domain", "local_ip", "logfile_rotate", "log_fqdn", "log_icp_queries", "log_mime_hdrs", "maximum_object_size", "maximum_single_addr_tries", "mcast_groups", "mcast_icp_query_timeout", "mcast_miss_addr", "mcast_miss_encode_key", "mcast_miss_port", "memory_pools", "memory_pools_limit", "memory_replacement_policy", "mime_table", "min_http_poll_cnt", "min_icp_poll_cnt", "minimum_direct_hops", "minimum_object_size", "minimum_retry_timeout", "miss_access", "negative_dns_ttl", "negative_ttl", "neighbor_timeout", "neighbor_type_domain", "netdb_high", "netdb_low", "netdb_ping_period", "netdb_ping_rate", "never_direct", "no_cache", "passthrough_proxy", "pconn_timeout", "pid_filename", "pinger_program", "positive_dns_ttl", "prefer_direct", "proxy_auth", "proxy_auth_realm", "query_icmp", "quick_abort", "quick_abort_max", "quick_abort_min", "quick_abort_pct", "range_offset_limit", "read_timeout", "redirect_children", "redirect_program", "redirect_rewrites_host_header", "reference_age", "refresh_pattern", "reload_into_ims", "request_body_max_size", "request_size", "request_timeout", "shutdown_lifetime", "single_parent_bypass", "siteselect_timeout", "snmp_access", "snmp_incoming_address", "snmp_port", "source_ping", "ssl_proxy", "store_avg_object_size", "store_objects_per_bucket", "strip_query_terms", "swap_level1_dirs", "swap_level2_dirs", "tcp_incoming_address", "tcp_outgoing_address", "tcp_recv_bufsize", "test_reachability", "udp_hit_obj", "udp_hit_obj_size", "udp_incoming_address", "udp_outgoing_address", "unique_hostname", "unlinkd_program", "uri_whitespace", "useragent_log", "visible_hostname", "wais_relay", "wais_relay_host", "wais_relay_port", ) opts = ( "proxy-only", "weight", "ttl", "no-query", "default", "round-robin", "multicast-responder", "on", "off", "all", "deny", "allow", "via", "parent", "no-digest", "heap", "lru", "realm", "children", "q1", "q2", "credentialsttl", "none", "disable", "offline_toggle", "diskd", ) actions = ( "shutdown", "info", "parameter", "server_list", "client_list", r'squid.conf', ) actions_stats = ( "objects", "vm_objects", "utilization", "ipcache", "fqdncache", "dns", "redirector", "io", "reply_headers", "filedescriptors", "netdb", ) actions_log = ("status", "enable", "disable", "clear") acls = ( "url_regex", "urlpath_regex", "referer_regex", "port", "proto", "req_mime_type", "rep_mime_type", "method", "browser", "user", "src", "dst", "time", "dstdomain", "ident", "snmp_community", ) ip_re = ( r'(?:(?:(?:[3-9]\d?|2(?:5[0-5]|[0-4]?\d)?|1\d{0,2}|0x0*[0-9a-f]{1,2}|' r'0+[1-3]?[0-7]{0,2})(?:\.(?:[3-9]\d?|2(?:5[0-5]|[0-4]?\d)?|1\d{0,2}|' r'0x0*[0-9a-f]{1,2}|0+[1-3]?[0-7]{0,2})){3})|(?!.*::.*::)(?:(?!:)|' r':(?=:))(?:[0-9a-f]{0,4}(?:(?<=::)|(?`_ configuration files. .. versionadded:: 0.11 """ name = 'Nginx configuration file' aliases = ['nginx'] filenames = ['nginx.conf'] mimetypes = ['text/x-nginx-conf'] tokens = { 'root': [ (r'(include)(\s+)([^\s;]+)', bygroups(Keyword, Text, Name)), (r'[^\s;#]+', Keyword, 'stmt'), include('base'), ], 'block': [ (r'\}', Punctuation, '#pop:2'), (r'[^\s;#]+', Keyword.Namespace, 'stmt'), include('base'), ], 'stmt': [ (r'\{', Punctuation, 'block'), (r';', Punctuation, '#pop'), include('base'), ], 'base': [ (r'#.*\n', Comment.Single), (r'on|off', Name.Constant), (r'\$[^\s;#()]+', Name.Variable), (r'([a-z0-9.-]+)(:)([0-9]+)', bygroups(Name, Punctuation, Number.Integer)), (r'[a-z-]+/[a-z-+]+', String), # mimetype # (r'[a-zA-Z._-]+', Keyword), (r'[0-9]+[km]?\b', Number.Integer), (r'(~)(\s*)([^\s{]+)', bygroups(Punctuation, Text, String.Regex)), (r'[:=~]', Punctuation), (r'[^\s;#{}$]+', String), # catch all (r'/[^\s;#]*', Name), # pathname (r'\s+', Text), (r'[$;]', Text), # leftover characters ], } class LighttpdConfLexer(RegexLexer): """ Lexer for `Lighttpd `_ configuration files. .. versionadded:: 0.11 """ name = 'Lighttpd configuration file' aliases = ['lighty', 'lighttpd'] filenames = [] mimetypes = ['text/x-lighttpd-conf'] tokens = { 'root': [ (r'#.*\n', Comment.Single), (r'/\S*', Name), # pathname (r'[a-zA-Z._-]+', Keyword), (r'\d+\.\d+\.\d+\.\d+(?:/\d+)?', Number), (r'[0-9]+', Number), (r'=>|=~|\+=|==|=|\+', Operator), (r'\$[A-Z]+', Name.Builtin), (r'[(){}\[\],]', Punctuation), (r'"([^"\\]*(?:\\.[^"\\]*)*)"', String.Double), (r'\s+', Text), ], } class DockerLexer(RegexLexer): """ Lexer for `Docker `_ configuration files. .. versionadded:: 2.0 """ name = 'Docker' aliases = ['docker', 'dockerfile'] filenames = ['Dockerfile', '*.docker'] mimetypes = ['text/x-dockerfile-config'] _keywords = (r'(?:MAINTAINER|EXPOSE|WORKDIR|USER|STOPSIGNAL)') _bash_keywords = (r'(?:RUN|CMD|ENTRYPOINT|ENV|ARG|LABEL|ADD|COPY)') _lb = r'(?:\s*\\?\s*)' # dockerfile line break regex flags = re.IGNORECASE | re.MULTILINE tokens = { 'root': [ (r'#.*', Comment), (r'(FROM)([ \t]*)(\S*)([ \t]*)(?:(AS)([ \t]*)(\S*))?', bygroups(Keyword, Text, String, Text, Keyword, Text, String)), (r'(ONBUILD)(%s)' % (_lb,), bygroups(Keyword, using(BashLexer))), (r'(HEALTHCHECK)((%s--\w+=\w+%s)*)' % (_lb, _lb), bygroups(Keyword, using(BashLexer))), (r'(VOLUME|ENTRYPOINT|CMD|SHELL)(%s)(\[.*?\])' % (_lb,), bygroups(Keyword, using(BashLexer), using(JsonLexer))), (r'(LABEL|ENV|ARG)((%s\w+=\w+%s)*)' % (_lb, _lb), bygroups(Keyword, using(BashLexer))), (r'(%s|VOLUME)\b(.*)' % (_keywords), bygroups(Keyword, String)), (r'(%s)' % (_bash_keywords,), Keyword), (r'(.*\\\n)*.+', using(BashLexer)), ] } class TerraformLexer(RegexLexer): """ Lexer for `terraformi .tf files `_. .. versionadded:: 2.1 """ name = 'Terraform' aliases = ['terraform', 'tf'] filenames = ['*.tf'] mimetypes = ['application/x-tf', 'application/x-terraform'] embedded_keywords = ('ingress', 'egress', 'listener', 'default', 'connection', 'alias', 'terraform', 'tags', 'vars', 'config', 'lifecycle', 'timeouts') tokens = { 'root': [ include('string'), include('punctuation'), include('curly'), include('basic'), include('whitespace'), (r'[0-9]+', Number), ], 'basic': [ (words(('true', 'false'), prefix=r'\b', suffix=r'\b'), Keyword.Type), (r'\s*/\*', Comment.Multiline, 'comment'), (r'\s*#.*\n', Comment.Single), (r'(.*?)(\s*)(=)', bygroups(Name.Attribute, Text, Operator)), (words(('variable', 'resource', 'provider', 'provisioner', 'module', 'backend', 'data', 'output'), prefix=r'\b', suffix=r'\b'), Keyword.Reserved, 'function'), (words(embedded_keywords, prefix=r'\b', suffix=r'\b'), Keyword.Declaration), (r'\$\{', String.Interpol, 'var_builtin'), ], 'function': [ (r'(\s+)(".*")(\s+)', bygroups(Text, String, Text)), include('punctuation'), include('curly'), ], 'var_builtin': [ (r'\$\{', String.Interpol, '#push'), (words(('concat', 'file', 'join', 'lookup', 'element'), prefix=r'\b', suffix=r'\b'), Name.Builtin), include('string'), include('punctuation'), (r'\s+', Text), (r'\}', String.Interpol, '#pop'), ], 'string': [ (r'(".*")', bygroups(String.Double)), ], 'punctuation': [ (r'[\[\](),.]', Punctuation), ], # Keep this seperate from punctuation - we sometimes want to use different # Tokens for { } 'curly': [ (r'\{', Text.Punctuation), (r'\}', Text.Punctuation), ], 'comment': [ (r'[^*/]', Comment.Multiline), (r'/\*', Comment.Multiline, '#push'), (r'\*/', Comment.Multiline, '#pop'), (r'[*/]', Comment.Multiline) ], 'whitespace': [ (r'\n', Text), (r'\s+', Text), (r'\\\n', Text), ], } class TermcapLexer(RegexLexer): """ Lexer for termcap database source. This is very simple and minimal. .. versionadded:: 2.1 """ name = 'Termcap' aliases = ['termcap'] filenames = ['termcap', 'termcap.src'] mimetypes = [] # NOTE: # * multiline with trailing backslash # * separator is ':' # * to embed colon as data, we must use \072 # * space after separator is not allowed (mayve) tokens = { 'root': [ (r'^#.*$', Comment), (r'^[^\s#:|]+', Name.Tag, 'names'), ], 'names': [ (r'\n', Text, '#pop'), (r':', Punctuation, 'defs'), (r'\|', Punctuation), (r'[^:|]+', Name.Attribute), ], 'defs': [ (r'\\\n[ \t]*', Text), (r'\n[ \t]*', Text, '#pop:2'), (r'(#)([0-9]+)', bygroups(Operator, Number)), (r'=', Operator, 'data'), (r':', Punctuation), (r'[^\s:=#]+', Name.Class), ], 'data': [ (r'\\072', Literal), (r':', Punctuation, '#pop'), (r'[^:\\]+', Literal), # for performance (r'.', Literal), ], } class TerminfoLexer(RegexLexer): """ Lexer for terminfo database source. This is very simple and minimal. .. versionadded:: 2.1 """ name = 'Terminfo' aliases = ['terminfo'] filenames = ['terminfo', 'terminfo.src'] mimetypes = [] # NOTE: # * multiline with leading whitespace # * separator is ',' # * to embed comma as data, we can use \, # * space after separator is allowed tokens = { 'root': [ (r'^#.*$', Comment), (r'^[^\s#,|]+', Name.Tag, 'names'), ], 'names': [ (r'\n', Text, '#pop'), (r'(,)([ \t]*)', bygroups(Punctuation, Text), 'defs'), (r'\|', Punctuation), (r'[^,|]+', Name.Attribute), ], 'defs': [ (r'\n[ \t]+', Text), (r'\n', Text, '#pop:2'), (r'(#)([0-9]+)', bygroups(Operator, Number)), (r'=', Operator, 'data'), (r'(,)([ \t]*)', bygroups(Punctuation, Text)), (r'[^\s,=#]+', Name.Class), ], 'data': [ (r'\\[,\\]', Literal), (r'(,)([ \t]*)', bygroups(Punctuation, Text), '#pop'), (r'[^\\,]+', Literal), # for performance (r'.', Literal), ], } class PkgConfigLexer(RegexLexer): """ Lexer for `pkg-config `_ (see also `manual page `_). .. versionadded:: 2.1 """ name = 'PkgConfig' aliases = ['pkgconfig'] filenames = ['*.pc'] mimetypes = [] tokens = { 'root': [ (r'#.*$', Comment.Single), # variable definitions (r'^(\w+)(=)', bygroups(Name.Attribute, Operator)), # keyword lines (r'^([\w.]+)(:)', bygroups(Name.Tag, Punctuation), 'spvalue'), # variable references include('interp'), # fallback (r'[^${}#=:\n.]+', Text), (r'.', Text), ], 'interp': [ # you can escape literal "$" as "$$" (r'\$\$', Text), # variable references (r'\$\{', String.Interpol, 'curly'), ], 'curly': [ (r'\}', String.Interpol, '#pop'), (r'\w+', Name.Attribute), ], 'spvalue': [ include('interp'), (r'#.*$', Comment.Single, '#pop'), (r'\n', Text, '#pop'), # fallback (r'[^${}#\n]+', Text), (r'.', Text), ], } class PacmanConfLexer(RegexLexer): """ Lexer for `pacman.conf `_. Actually, IniLexer works almost fine for this format, but it yield error token. It is because pacman.conf has a form without assignment like: UseSyslog Color TotalDownload CheckSpace VerbosePkgLists These are flags to switch on. .. versionadded:: 2.1 """ name = 'PacmanConf' aliases = ['pacmanconf'] filenames = ['pacman.conf'] mimetypes = [] tokens = { 'root': [ # comment (r'#.*$', Comment.Single), # section header (r'^\s*\[.*?\]\s*$', Keyword), # variable definitions # (Leading space is allowed...) (r'(\w+)(\s*)(=)', bygroups(Name.Attribute, Text, Operator)), # flags to on (r'^(\s*)(\w+)(\s*)$', bygroups(Text, Name.Attribute, Text)), # built-in special values (words(( '$repo', # repository '$arch', # architecture '%o', # outfile '%u', # url ), suffix=r'\b'), Name.Variable), # fallback (r'.', Text), ], } class AugeasLexer(RegexLexer): """ Lexer for `Augeas `_. .. versionadded:: 2.4 """ name = 'Augeas' aliases = ['augeas'] filenames = ['*.aug'] tokens = { 'root': [ (r'(module)(\s*)([^\s=]+)', bygroups(Keyword.Namespace, Text, Name.Namespace)), (r'(let)(\s*)([^\s=]+)', bygroups(Keyword.Declaration, Text, Name.Variable)), (r'(del|store|value|counter|seq|key|label|autoload|incl|excl|transform|test|get|put)(\s+)', bygroups(Name.Builtin, Text)), (r'(\()([^:]+)(\:)(unit|string|regexp|lens|tree|filter)(\))', bygroups(Punctuation, Name.Variable, Punctuation, Keyword.Type, Punctuation)), (r'\(\*', Comment.Multiline, 'comment'), (r'[*+\-.;=?|]', Operator), (r'[()\[\]{}]', Operator), (r'"', String.Double, 'string'), (r'\/', String.Regex, 'regex'), (r'([A-Z]\w*)(\.)(\w+)', bygroups(Name.Namespace, Punctuation, Name.Variable)), (r'.', Name.Variable), (r'\s', Text), ], 'string': [ (r'\\.', String.Escape), (r'[^"]', String.Double), (r'"', String.Double, '#pop'), ], 'regex': [ (r'\\.', String.Escape), (r'[^/]', String.Regex), (r'\/', String.Regex, '#pop'), ], 'comment': [ (r'[^*)]', Comment.Multiline), (r'\(\*', Comment.Multiline, '#push'), (r'\*\)', Comment.Multiline, '#pop'), (r'[)*]', Comment.Multiline) ], } class TOMLLexer(RegexLexer): """ Lexer for `TOML `_, a simple language for config files. .. versionadded:: 2.4 """ name = 'TOML' aliases = ['toml'] filenames = ['*.toml', 'Pipfile', 'poetry.lock'] tokens = { 'root': [ # Basics, comments, strings (r'\s+', Text), (r'#.*?$', Comment.Single), # Basic string (r'"(\\\\|\\[^\\]|[^"\\])*"', String), # Literal string (r'\'\'\'(.*)\'\'\'', String), (r'\'[^\']*\'', String), (r'(true|false)$', Keyword.Constant), (r'[a-zA-Z_][\w\-]*', Name), (r'\[.*?\]$', Keyword), # Datetime # TODO this needs to be expanded, as TOML is rather flexible: # https://github.com/toml-lang/toml#offset-date-time (r'\d{4}-\d{2}-\d{2}(?:T| )\d{2}:\d{2}:\d{2}(?:Z|[-+]\d{2}:\d{2})', Number.Integer), # Numbers (r'(\d+\.\d*|\d*\.\d+)([eE][+-]?[0-9]+)?j?', Number.Float), (r'\d+[eE][+-]?[0-9]+j?', Number.Float), # Handle +-inf, +-infinity, +-nan (r'[+-]?(?:(inf(?:inity)?)|nan)', Number.Float), (r'[+-]?\d+', Number.Integer), # Punctuation (r'[]{}:(),;[]', Punctuation), (r'\.', Punctuation), # Operators (r'=', Operator) ] } class SingularityLexer(RegexLexer): """ Lexer for `Singularity definition files `_. .. versionadded:: 2.6 """ name = 'Singularity' aliases = ['singularity'] filenames = ['*.def', 'Singularity'] flags = re.IGNORECASE | re.MULTILINE | re.DOTALL _headers = r'^(\s*)(bootstrap|from|osversion|mirrorurl|include|registry|namespace|includecmd)(:)' _section = r'^%(?:pre|post|setup|environment|help|labels|test|runscript|files|startscript)\b' _appsect = r'^%app(?:install|help|run|labels|env|test|files)\b' tokens = { 'root': [ (_section, Generic.Heading, 'script'), (_appsect, Generic.Heading, 'script'), (_headers, bygroups(Text, Keyword, Text)), (r'\s*#.*?\n', Comment), (r'\b(([0-9]+\.?[0-9]*)|(\.[0-9]+))\b', Number), (r'(?!^\s*%).', Text), ], 'script': [ (r'(.+?(?=^\s*%))|(.*)', using(BashLexer), '#pop'), ], } def analyse_text(text): """This is a quite simple script file, but there are a few keywords which seem unique to this language.""" result = 0 if re.search(r'\b(?:osversion|includecmd|mirrorurl)\b', text, re.IGNORECASE): result += 0.5 if re.search(SingularityLexer._section[1:], text): result += 0.49 return result