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// CodeMirror, copyright (c) by Marijn Haverbeke and others
// Distributed under an MIT license: https://codemirror.net/5/LICENSE
(function(mod) { if (typeof exports == "object" && typeof module == "object") // CommonJS
mod(require("../../lib/codemirror")); else if (typeof define == "function" && define.amd) // AMD
define(["../../lib/codemirror"], mod); else // Plain browser env
mod(CodeMirror); })(function(CodeMirror) { "use strict";
CodeMirror.defineMode("verilog", function(config, parserConfig) {
var indentUnit = config.indentUnit, statementIndentUnit = parserConfig.statementIndentUnit || indentUnit, dontAlignCalls = parserConfig.dontAlignCalls, // compilerDirectivesUseRegularIndentation - If set, Compiler directive
// indentation follows the same rules as everything else. Otherwise if
// false, compiler directives will track their own indentation.
// For example, `ifdef nested inside another `ifndef will be indented,
// but a `ifdef inside a function block may not be indented.
compilerDirectivesUseRegularIndentation = parserConfig.compilerDirectivesUseRegularIndentation, noIndentKeywords = parserConfig.noIndentKeywords || [], multiLineStrings = parserConfig.multiLineStrings, hooks = parserConfig.hooks || {};
function words(str) { var obj = {}, words = str.split(" "); for (var i = 0; i < words.length; ++i) obj[words[i]] = true; return obj; }
/** * Keywords from IEEE 1800-2012 */ var keywords = words( "accept_on alias always always_comb always_ff always_latch and assert assign assume automatic before begin bind " + "bins binsof bit break buf bufif0 bufif1 byte case casex casez cell chandle checker class clocking cmos config " + "const constraint context continue cover covergroup coverpoint cross deassign default defparam design disable " + "dist do edge else end endcase endchecker endclass endclocking endconfig endfunction endgenerate endgroup " + "endinterface endmodule endpackage endprimitive endprogram endproperty endspecify endsequence endtable endtask " + "enum event eventually expect export extends extern final first_match for force foreach forever fork forkjoin " + "function generate genvar global highz0 highz1 if iff ifnone ignore_bins illegal_bins implements implies import " + "incdir include initial inout input inside instance int integer interconnect interface intersect join join_any " + "join_none large let liblist library local localparam logic longint macromodule matches medium modport module " + "nand negedge nettype new nexttime nmos nor noshowcancelled not notif0 notif1 null or output package packed " + "parameter pmos posedge primitive priority program property protected pull0 pull1 pulldown pullup " + "pulsestyle_ondetect pulsestyle_onevent pure rand randc randcase randsequence rcmos real realtime ref reg " + "reject_on release repeat restrict return rnmos rpmos rtran rtranif0 rtranif1 s_always s_eventually s_nexttime " + "s_until s_until_with scalared sequence shortint shortreal showcancelled signed small soft solve specify " + "specparam static string strong strong0 strong1 struct super supply0 supply1 sync_accept_on sync_reject_on " + "table tagged task this throughout time timeprecision timeunit tran tranif0 tranif1 tri tri0 tri1 triand trior " + "trireg type typedef union unique unique0 unsigned until until_with untyped use uwire var vectored virtual void " + "wait wait_order wand weak weak0 weak1 while wildcard wire with within wor xnor xor");
/** Operators from IEEE 1800-2012 unary_operator ::= + | - | ! | ~ | & | ~& | | | ~| | ^ | ~^ | ^~ binary_operator ::= + | - | * | / | % | == | != | === | !== | ==? | !=? | && | || | ** | < | <= | > | >= | & | | | ^ | ^~ | ~^ | >> | << | >>> | <<< | -> | <-> inc_or_dec_operator ::= ++ | -- unary_module_path_operator ::= ! | ~ | & | ~& | | | ~| | ^ | ~^ | ^~ binary_module_path_operator ::= == | != | && | || | & | | | ^ | ^~ | ~^ */ var isOperatorChar = /[\+\-\*\/!~&|^%=?:<>]/; var isBracketChar = /[\[\]{}()]/;
var unsignedNumber = /\d[0-9_]*/; var decimalLiteral = /\d*\s*'s?d\s*\d[0-9_]*/i; var binaryLiteral = /\d*\s*'s?b\s*[xz01][xz01_]*/i; var octLiteral = /\d*\s*'s?o\s*[xz0-7][xz0-7_]*/i; var hexLiteral = /\d*\s*'s?h\s*[0-9a-fxz?][0-9a-fxz?_]*/i; var realLiteral = /(\d[\d_]*(\.\d[\d_]*)?E-?[\d_]+)|(\d[\d_]*\.\d[\d_]*)/i;
var closingBracketOrWord = /^((`?\w+)|[)}\]])/; var closingBracket = /[)}\]]/; var compilerDirectiveRegex = new RegExp( "^(`(?:ifdef|ifndef|elsif|else|endif|undef|undefineall|define|include|begin_keywords|celldefine|default|" + "nettype|end_keywords|endcelldefine|line|nounconnected_drive|pragma|resetall|timescale|unconnected_drive))\\b"); var compilerDirectiveBeginRegex = /^(`(?:ifdef|ifndef|elsif|else))\b/; var compilerDirectiveEndRegex = /^(`(?:elsif|else|endif))\b/;
var curPunc; var curKeyword;
// Block openings which are closed by a matching keyword in the form of ("end" + keyword)
// E.g. "task" => "endtask"
var blockKeywords = words( "case checker class clocking config function generate interface module package " + "primitive program property specify sequence table task" );
// Opening/closing pairs
var openClose = {}; for (var keyword in blockKeywords) { openClose[keyword] = "end" + keyword; } openClose["begin"] = "end"; openClose["casex"] = "endcase"; openClose["casez"] = "endcase"; openClose["do" ] = "while"; openClose["fork" ] = "join;join_any;join_none"; openClose["covergroup"] = "endgroup"; openClose["macro_begin"] = "macro_end";
for (var i in noIndentKeywords) { var keyword = noIndentKeywords[i]; if (openClose[keyword]) { openClose[keyword] = undefined; } }
// Keywords which open statements that are ended with a semi-colon
var statementKeywords = words("always always_comb always_ff always_latch assert assign assume else export for foreach forever if import initial repeat while extern typedef");
function tokenBase(stream, state) { var ch = stream.peek(), style; if (hooks[ch] && (style = hooks[ch](stream, state)) != false) return style; if (hooks.tokenBase && (style = hooks.tokenBase(stream, state)) != false) return style;
if (/[,;:\.]/.test(ch)) { curPunc = stream.next(); return null; } if (isBracketChar.test(ch)) { curPunc = stream.next(); return "bracket"; } // Macros (tick-defines)
if (ch == '`') { stream.next(); if (stream.eatWhile(/[\w\$_]/)) { var cur = stream.current(); curKeyword = cur; // Macros that end in _begin, are start of block and end with _end
if (cur.startsWith("`uvm_") && cur.endsWith("_begin")) { var keywordClose = curKeyword.substr(0,curKeyword.length - 5) + "end"; openClose[cur] = keywordClose; curPunc = "newblock"; } else { stream.eatSpace(); if (stream.peek() == '(') { // Check if this is a block
curPunc = "newmacro"; } var withSpace = stream.current(); // Move the stream back before the spaces
stream.backUp(withSpace.length - cur.length); } return "def"; } else { return null; } } // System calls
if (ch == '$') { stream.next(); if (stream.eatWhile(/[\w\$_]/)) { return "meta"; } else { return null; } } // Time literals
if (ch == '#') { stream.next(); stream.eatWhile(/[\d_.]/); return "def"; } // Event
if (ch == '@') { stream.next(); stream.eatWhile(/[@]/); return "def"; } // Strings
if (ch == '"') { stream.next(); state.tokenize = tokenString(ch); return state.tokenize(stream, state); } // Comments
if (ch == "/") { stream.next(); if (stream.eat("*")) { state.tokenize = tokenComment; return tokenComment(stream, state); } if (stream.eat("/")) { stream.skipToEnd(); return "comment"; } stream.backUp(1); }
// Numeric literals
if (stream.match(realLiteral) || stream.match(decimalLiteral) || stream.match(binaryLiteral) || stream.match(octLiteral) || stream.match(hexLiteral) || stream.match(unsignedNumber) || stream.match(realLiteral)) { return "number"; }
// Operators
if (stream.eatWhile(isOperatorChar)) { curPunc = stream.current(); return "meta"; }
// Keywords / plain variables
if (stream.eatWhile(/[\w\$_]/)) { var cur = stream.current(); if (keywords[cur]) { if (openClose[cur]) { curPunc = "newblock"; if (cur === "fork") { // Fork can be a statement instead of block in cases of:
// "disable fork;" and "wait fork;" (trailing semicolon)
stream.eatSpace() if (stream.peek() == ';') { curPunc = "newstatement"; } stream.backUp(stream.current().length - cur.length); } } if (statementKeywords[cur]) { curPunc = "newstatement"; } curKeyword = cur; return "keyword"; } return "variable"; }
stream.next(); return null; }
function tokenString(quote) { return function(stream, state) { var escaped = false, next, end = false; while ((next = stream.next()) != null) { if (next == quote && !escaped) {end = true; break;} escaped = !escaped && next == "\\"; } if (end || !(escaped || multiLineStrings)) state.tokenize = tokenBase; return "string"; }; }
function tokenComment(stream, state) { var maybeEnd = false, ch; while (ch = stream.next()) { if (ch == "/" && maybeEnd) { state.tokenize = tokenBase; break; } maybeEnd = (ch == "*"); } return "comment"; }
function Context(indented, column, type, scopekind, align, prev) { this.indented = indented; this.column = column; this.type = type; this.scopekind = scopekind; this.align = align; this.prev = prev; } function pushContext(state, col, type, scopekind) { var indent = state.indented; var c = new Context(indent, col, type, scopekind ? scopekind : "", null, state.context); return state.context = c; } function popContext(state) { var t = state.context.type; if (t == ")" || t == "]" || t == "}") { state.indented = state.context.indented; } return state.context = state.context.prev; }
function isClosing(text, contextClosing) { if (text == contextClosing) { return true; } else { // contextClosing may be multiple keywords separated by ;
var closingKeywords = contextClosing.split(";"); for (var i in closingKeywords) { if (text == closingKeywords[i]) { return true; } } return false; } }
function isInsideScopeKind(ctx, scopekind) { if (ctx == null) { return false; } if (ctx.scopekind === scopekind) { return true; } return isInsideScopeKind(ctx.prev, scopekind); }
function buildElectricInputRegEx() { // Reindentation should occur on any bracket char: {}()[]
// or on a match of any of the block closing keywords, at
// the end of a line
var allClosings = []; for (var i in openClose) { if (openClose[i]) { var closings = openClose[i].split(";"); for (var j in closings) { allClosings.push(closings[j]); } } } var re = new RegExp("[{}()\\[\\]]|(" + allClosings.join("|") + ")$"); return re; }
// Interface
return {
// Regex to force current line to reindent
electricInput: buildElectricInputRegEx(),
startState: function(basecolumn) { var state = { tokenize: null, context: new Context((basecolumn || 0) - indentUnit, 0, "top", "top", false), indented: 0, compilerDirectiveIndented: 0, startOfLine: true }; if (hooks.startState) hooks.startState(state); return state; },
token: function(stream, state) { var ctx = state.context; if (stream.sol()) { if (ctx.align == null) ctx.align = false; state.indented = stream.indentation(); state.startOfLine = true; } if (hooks.token) { // Call hook, with an optional return value of a style to override verilog styling.
var style = hooks.token(stream, state); if (style !== undefined) { return style; } } if (stream.eatSpace()) return null; curPunc = null; curKeyword = null; var style = (state.tokenize || tokenBase)(stream, state); if (style == "comment" || style == "meta" || style == "variable") { if (((curPunc === "=") || (curPunc === "<=")) && !isInsideScopeKind(ctx, "assignment")) { // '<=' could be nonblocking assignment or lessthan-equals (which shouldn't cause indent)
// Search through the context to see if we are already in an assignment.
// '=' could be inside port declaration with comma or ')' afterward, or inside for(;;) block.
pushContext(state, stream.column() + curPunc.length, "assignment", "assignment"); if (ctx.align == null) ctx.align = true; } return style; } if (ctx.align == null) ctx.align = true;
var isClosingAssignment = ctx.type == "assignment" && closingBracket.test(curPunc) && ctx.prev && ctx.prev.type === curPunc; if (curPunc == ctx.type || isClosingAssignment) { if (isClosingAssignment) { ctx = popContext(state); } ctx = popContext(state); if (curPunc == ")") { // Handle closing macros, assuming they could have a semicolon or begin/end block inside.
if (ctx && (ctx.type === "macro")) { ctx = popContext(state); while (ctx && (ctx.type == "statement" || ctx.type == "assignment")) ctx = popContext(state); } } else if (curPunc == "}") { // Handle closing statements like constraint block: "foreach () {}" which
// do not have semicolon at end.
if (ctx && (ctx.type === "statement")) { while (ctx && (ctx.type == "statement")) ctx = popContext(state); } } } else if (((curPunc == ";" || curPunc == ",") && (ctx.type == "statement" || ctx.type == "assignment")) || (ctx.type && isClosing(curKeyword, ctx.type))) { ctx = popContext(state); while (ctx && (ctx.type == "statement" || ctx.type == "assignment")) ctx = popContext(state); } else if (curPunc == "{") { pushContext(state, stream.column(), "}"); } else if (curPunc == "[") { pushContext(state, stream.column(), "]"); } else if (curPunc == "(") { pushContext(state, stream.column(), ")"); } else if (ctx && ctx.type == "endcase" && curPunc == ":") { pushContext(state, stream.column(), "statement", "case"); } else if (curPunc == "newstatement") { pushContext(state, stream.column(), "statement", curKeyword); } else if (curPunc == "newblock") { if (curKeyword == "function" && ctx && (ctx.type == "statement" || ctx.type == "endgroup")) { // The 'function' keyword can appear in some other contexts where it actually does not
// indicate a function (import/export DPI and covergroup definitions).
// Do nothing in this case
} else if (curKeyword == "task" && ctx && ctx.type == "statement") { // Same thing for task
} else if (curKeyword == "class" && ctx && ctx.type == "statement") { // Same thing for class (e.g. typedef)
} else { var close = openClose[curKeyword]; pushContext(state, stream.column(), close, curKeyword); } } else if (curPunc == "newmacro" || (curKeyword && curKeyword.match(compilerDirectiveRegex))) { if (curPunc == "newmacro") { // Macros (especially if they have parenthesis) potentially have a semicolon
// or complete statement/block inside, and should be treated as such.
pushContext(state, stream.column(), "macro", "macro"); } if (curKeyword.match(compilerDirectiveEndRegex)) { state.compilerDirectiveIndented -= statementIndentUnit; } if (curKeyword.match(compilerDirectiveBeginRegex)) { state.compilerDirectiveIndented += statementIndentUnit; } }
state.startOfLine = false; return style; },
indent: function(state, textAfter) { if (state.tokenize != tokenBase && state.tokenize != null) return CodeMirror.Pass; if (hooks.indent) { var fromHook = hooks.indent(state); if (fromHook >= 0) return fromHook; } var ctx = state.context, firstChar = textAfter && textAfter.charAt(0); if (ctx.type == "statement" && firstChar == "}") ctx = ctx.prev; var closing = false; var possibleClosing = textAfter.match(closingBracketOrWord); if (possibleClosing) closing = isClosing(possibleClosing[0], ctx.type); if (!compilerDirectivesUseRegularIndentation && textAfter.match(compilerDirectiveRegex)) { if (textAfter.match(compilerDirectiveEndRegex)) { return state.compilerDirectiveIndented - statementIndentUnit; } return state.compilerDirectiveIndented; } if (ctx.type == "statement") return ctx.indented + (firstChar == "{" ? 0 : statementIndentUnit); else if ((closingBracket.test(ctx.type) || ctx.type == "assignment") && ctx.align && !dontAlignCalls) return ctx.column + (closing ? 0 : 1); else if (ctx.type == ")" && !closing) return ctx.indented + statementIndentUnit; else return ctx.indented + (closing ? 0 : indentUnit); },
blockCommentStart: "/*", blockCommentEnd: "*/", lineComment: "//", fold: "indent" }; });
CodeMirror.defineMIME("text/x-verilog", { name: "verilog" });
CodeMirror.defineMIME("text/x-systemverilog", { name: "verilog" });
// TL-Verilog mode.
// See tl-x.org for language spec.
// See the mode in action at makerchip.com.
// Contact: steve.hoover@redwoodeda.com
// TLV Identifier prefixes.
// Note that sign is not treated separately, so "+/-" versions of numeric identifiers
// are included.
var tlvIdentifierStyle = { "|": "link", ">": "property", // Should condition this off for > TLV 1c.
"$": "variable", "$$": "variable", "?$": "qualifier", "?*": "qualifier", "-": "hr", "/": "property", "/-": "property", "@": "variable-3", "@-": "variable-3", "@++": "variable-3", "@+=": "variable-3", "@+=-": "variable-3", "@--": "variable-3", "@-=": "variable-3", "%+": "tag", "%-": "tag", "%": "tag", ">>": "tag", "<<": "tag", "<>": "tag", "#": "tag", // Need to choose a style for this.
"^": "attribute", "^^": "attribute", "^!": "attribute", "*": "variable-2", "**": "variable-2", "\\": "keyword", "\"": "comment" };
// Lines starting with these characters define scope (result in indentation).
var tlvScopePrefixChars = { "/": "beh-hier", ">": "beh-hier", "-": "phys-hier", "|": "pipe", "?": "when", "@": "stage", "\\": "keyword" }; var tlvIndentUnit = 3; var tlvTrackStatements = false; var tlvIdentMatch = /^([~!@#\$%\^&\*-\+=\?\/\\\|'"<>]+)([\d\w_]*)/; // Matches an identifier.
// Note that ':' is excluded, because of it's use in [:].
var tlvFirstLevelIndentMatch = /^[! ] /; var tlvLineIndentationMatch = /^[! ] */; var tlvCommentMatch = /^\/[\/\*]/;
// Returns a style specific to the scope at the given indentation column.
// Type is one of: "indent", "scope-ident", "before-scope-ident".
function tlvScopeStyle(state, indentation, type) { // Begin scope.
var depth = indentation / tlvIndentUnit; // TODO: Pass this in instead.
return "tlv-" + state.tlvIndentationStyle[depth] + "-" + type; }
// Return true if the next thing in the stream is an identifier with a mnemonic.
function tlvIdentNext(stream) { var match; return (match = stream.match(tlvIdentMatch, false)) && match[2].length > 0; }
CodeMirror.defineMIME("text/x-tlv", { name: "verilog",
hooks: {
electricInput: false,
// Return undefined for verilog tokenizing, or style for TLV token (null not used).
// Standard CM styles are used for most formatting, but some TL-Verilog-specific highlighting
// can be enabled with the definition of cm-tlv-* styles, including highlighting for:
// - M4 tokens
// - TLV scope indentation
// - Statement delimitation (enabled by tlvTrackStatements)
token: function(stream, state) { var style = undefined; var match; // Return value of pattern matches.
// Set highlighting mode based on code region (TLV or SV).
if (stream.sol() && ! state.tlvInBlockComment) { // Process region.
if (stream.peek() == '\\') { style = "def"; stream.skipToEnd(); if (stream.string.match(/\\SV/)) { state.tlvCodeActive = false; } else if (stream.string.match(/\\TLV/)){ state.tlvCodeActive = true; } } // Correct indentation in the face of a line prefix char.
if (state.tlvCodeActive && stream.pos == 0 && (state.indented == 0) && (match = stream.match(tlvLineIndentationMatch, false))) { state.indented = match[0].length; }
// Compute indentation state:
// o Auto indentation on next line
// o Indentation scope styles
var indented = state.indented; var depth = indented / tlvIndentUnit; if (depth <= state.tlvIndentationStyle.length) { // not deeper than current scope
var blankline = stream.string.length == indented; var chPos = depth * tlvIndentUnit; if (chPos < stream.string.length) { var bodyString = stream.string.slice(chPos); var ch = bodyString[0]; if (tlvScopePrefixChars[ch] && ((match = bodyString.match(tlvIdentMatch)) && tlvIdentifierStyle[match[1]])) { // This line begins scope.
// Next line gets indented one level.
indented += tlvIndentUnit; // Style the next level of indentation (except non-region keyword identifiers,
// which are statements themselves)
if (!(ch == "\\" && chPos > 0)) { state.tlvIndentationStyle[depth] = tlvScopePrefixChars[ch]; if (tlvTrackStatements) {state.statementComment = false;} depth++; } } } // Clear out deeper indentation levels unless line is blank.
if (!blankline) { while (state.tlvIndentationStyle.length > depth) { state.tlvIndentationStyle.pop(); } } } // Set next level of indentation.
state.tlvNextIndent = indented; }
if (state.tlvCodeActive) { // Highlight as TLV.
var beginStatement = false; if (tlvTrackStatements) { // This starts a statement if the position is at the scope level
// and we're not within a statement leading comment.
beginStatement = (stream.peek() != " ") && // not a space
(style === undefined) && // not a region identifier
!state.tlvInBlockComment && // not in block comment
//!stream.match(tlvCommentMatch, false) && // not comment start
(stream.column() == state.tlvIndentationStyle.length * tlvIndentUnit); // at scope level
if (beginStatement) { if (state.statementComment) { // statement already started by comment
beginStatement = false; } state.statementComment = stream.match(tlvCommentMatch, false); // comment start
} }
var match; if (style !== undefined) { // Region line.
style += " " + tlvScopeStyle(state, 0, "scope-ident") } else if (((stream.pos / tlvIndentUnit) < state.tlvIndentationStyle.length) && (match = stream.match(stream.sol() ? tlvFirstLevelIndentMatch : /^ /))) { // Indentation
style = // make this style distinct from the previous one to prevent
// codemirror from combining spans
"tlv-indent-" + (((stream.pos % 2) == 0) ? "even" : "odd") + // and style it
" " + tlvScopeStyle(state, stream.pos - tlvIndentUnit, "indent"); // Style the line prefix character.
if (match[0].charAt(0) == "!") { style += " tlv-alert-line-prefix"; } // Place a class before a scope identifier.
if (tlvIdentNext(stream)) { style += " " + tlvScopeStyle(state, stream.pos, "before-scope-ident"); } } else if (state.tlvInBlockComment) { // In a block comment.
if (stream.match(/^.*?\*\//)) { // Exit block comment.
state.tlvInBlockComment = false; if (tlvTrackStatements && !stream.eol()) { // Anything after comment is assumed to be real statement content.
state.statementComment = false; } } else { stream.skipToEnd(); } style = "comment"; } else if ((match = stream.match(tlvCommentMatch)) && !state.tlvInBlockComment) { // Start comment.
if (match[0] == "//") { // Line comment.
stream.skipToEnd(); } else { // Block comment.
state.tlvInBlockComment = true; } style = "comment"; } else if (match = stream.match(tlvIdentMatch)) { // looks like an identifier (or identifier prefix)
var prefix = match[1]; var mnemonic = match[2]; if (// is identifier prefix
tlvIdentifierStyle.hasOwnProperty(prefix) && // has mnemonic or we're at the end of the line (maybe it hasn't been typed yet)
(mnemonic.length > 0 || stream.eol())) { style = tlvIdentifierStyle[prefix]; if (stream.column() == state.indented) { // Begin scope.
style += " " + tlvScopeStyle(state, stream.column(), "scope-ident") } } else { // Just swallow one character and try again.
// This enables subsequent identifier match with preceding symbol character, which
// is legal within a statement. (E.g., !$reset). It also enables detection of
// comment start with preceding symbols.
stream.backUp(stream.current().length - 1); style = "tlv-default"; } } else if (stream.match(/^\t+/)) { // Highlight tabs, which are illegal.
style = "tlv-tab"; } else if (stream.match(/^[\[\]{}\(\);\:]+/)) { // [:], (), {}, ;.
style = "meta"; } else if (match = stream.match(/^[mM]4([\+_])?[\w\d_]*/)) { // m4 pre proc
style = (match[1] == "+") ? "tlv-m4-plus" : "tlv-m4"; } else if (stream.match(/^ +/)){ // Skip over spaces.
if (stream.eol()) { // Trailing spaces.
style = "error"; } else { // Non-trailing spaces.
style = "tlv-default"; } } else if (stream.match(/^[\w\d_]+/)) { // alpha-numeric token.
style = "number"; } else { // Eat the next char w/ no formatting.
stream.next(); style = "tlv-default"; } if (beginStatement) { style += " tlv-statement"; } } else { if (stream.match(/^[mM]4([\w\d_]*)/)) { // m4 pre proc
style = "tlv-m4"; } } return style; },
indent: function(state) { return (state.tlvCodeActive == true) ? state.tlvNextIndent : -1; },
startState: function(state) { state.tlvIndentationStyle = []; // Styles to use for each level of indentation.
state.tlvCodeActive = true; // True when we're in a TLV region (and at beginning of file).
state.tlvNextIndent = -1; // The number of spaces to autoindent the next line if tlvCodeActive.
state.tlvInBlockComment = false; // True inside /**/ comment.
if (tlvTrackStatements) { state.statementComment = false; // True inside a statement's header comment.
} }
} }); });
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