Language Definition Guide

Highlighting overview

Programming language code consists of parts with different rules of parsing: keywords like for or if don’t make sense inside strings, strings may contain backslash-escaped symbols like \", and comments usually don’t contain anything interesting except the end of the comment.

In Highlight.js such parts are called “modes”.

Each mode consists of:

  • starting condition

  • ending condition

  • list of contained sub-modes

  • lexing rules and keywords

  • …exotic stuff like another language inside a language

The parser’s work is to look for modes and their keywords. Upon finding them, it wraps them into the markup <span class="...">...</span> and puts the name of the mode (“string”, “comment”, “number”) or a keyword group name (“keyword”, “literal”, “built-in”) as the span’s class name.

General syntax

A language definition is a JavaScript object describing the default parsing mode for the language. This default mode contains sub-modes which in turn contain other sub-modes, effectively making the language definition a tree of modes.

Here’s an example:

{
  case_insensitive: true, // language is case-insensitive
  keywords: 'for if while',
  contains: [
    {
      scope: 'string',
      begin: '"', end: '"'
    },
    hljs.COMMENT(
      '/\\*', // begin
      '\\*/', // end
      {
        contains: [
          {
            scope: 'doc', begin: '@\\w+'
          }
        ]
      }
    )
  ]
}

Usually the default mode accounts for the majority of the code and describes all language keywords. A notable exception here is XML in which a default mode is just a user text that doesn’t contain any keywords, and most interesting parsing happens inside tags.

Keywords

In the simple case language keywords can be defined with a string (space delimited) or array:

{
  keywords: 'else for if while',
  // or with an array
  keywords: ['else', 'for', 'if', 'while']
}

Some languages have different kinds of “keywords” that might not be called as such by the language spec but are very close to them from the point of view of a syntax highlighter. These are all sorts of “literals”, “built-ins”, “symbols” and such. To define such keyword groups, the attribute keywords becomes an object, each property of which defines its own group of keywords:

{
  keywords: {
    keyword: 'else for if while',
    literal: ['false','true','null'],
    _relevance_only: 'one two three four'
  }
}

The group name becomes the class name in the generated markup, enabling different theming for different kinds of keywords. Any property starting with a _ will only use those keywords to increase relevance, they will not be highlighted.

To detect keywords, highlight.js breaks the processed chunk of code into separate words — a process called lexing. By default, “words” are matched with the regexp \w+, and that works well for many languages. Different lexing rules can be defined by the magic $pattern attribute:

{
  keywords: {
    $pattern: /-[a-z]+/,        // allow keywords to begin with dash
    keyword: '-import -export'
  }
}

Note: The older lexemes setting has been deprecated in favor of using keywords.$pattern. They are functionally identical.

Sub-modes

Sub-modes are listed in the contains attribute:

{
  keywords: '...',
  contains: [
    hljs.QUOTE_STRING_MODE,
    hljs.C_LINE_COMMENT,
    { ... custom mode definition ... }
  ]
}

A mode can reference itself in the contains array by using a special keyword 'self’. This is commonly used to define nested modes:

{
  scope: 'object',
  begin: /\{/, end: /\}/,
  contains: [hljs.QUOTE_STRING_MODE, 'self']
}

Note: self may not be used in the root level contains of a language. The root level mode is special and may not be self-referential.

Comments

To define custom comments it is recommended to use a built-in helper function hljs.COMMENT instead of describing the mode directly, as it also defines a few default sub-modes that improve language detection and do other nice things.

Parameters for the function are:

hljs.COMMENT(
  begin,      // begin regex
  end,        // end regex
  extra       // optional object with extra attributes to override defaults
              // (for example {relevance: 0})
)

Markup generation

Modes usually generate actual highlighting markup — <span> elements with specific class names that are defined by the scope attribute:

{
  contains: [
    {
      scope: 'string',
      // ... other attributes
    },
    {
      scope: 'number',
      // ...
    }
  ]
}

Scopes are not required to be unique; it’s quite common to have several definitions with the same scope. For example, many languages have various syntaxes for strings, comments, etc…

Sometimes modes are defined only to support specific parsing rules and aren’t needed in the final markup. A classic example is an escaping sequence inside strings allowing them to contain an ending quote.

{
  scope: 'string',
  begin: '"', end: '"',
  contains: [{begin: '\\\\.'}],
}

For such modes, the scope attribute should be omitted so they won’t generate excessive markup.

For a list of all supported scope names please see the Scopes Reference.

Mode attributes

Other useful attributes are defined in the mode reference.

Relevance

Highlight.js tries to automatically detect the language of a code fragment. The heuristics is essentially simple: it tries to highlight a fragment with all the language definitions and the one that yields most specific modes and keywords wins. The job of a language definition is to help this heuristics by hinting relative relevance (or irrelevance) of modes.

This is best illustrated by example. Python has special kinds of strings defined by prefix letters before the quotes: r"...", u"...". If a code fragment contains such strings there is a good chance that it’s in Python. So these string modes are given high relevance:

{
  scope: 'string',
  begin: 'r"', end: '"',
  relevance: 10
}

On the other hand, conventional strings in plain single or double quotes aren’t specific to any language and it makes sense to bring their relevance to zero to lessen statistical noise:

{
  scope: 'string',
  begin: '"', end: '"',
  relevance: 0
}

The default value for relevance is always 1. When setting an explicit value typically either 10 or 0 is used. A 0 means this match should not be considered for language detection purposes. 0 should be used for very common matches that might be found in ANY language (basic numbers, strings, etc) or things that would otherwise create too many false positives. A 10 means “this is almost guaranteed to be XYZ code”. 10 should be used sparingly.

Keywords also influence relevance. Each of them usually has a relevance of 1, but there are some unique names that aren’t likely to be found outside of their languages, even in the form of variable names. For example just having reinterpret_cast somewhere in the code is a good indicator that we’re looking at C++. It’s worth to set relevance of such keywords a bit higher. This is done with a pipe:

{
  keywords: 'for if reinterpret_cast|10'
}

Illegal symbols

Another way to improve language detection is to define illegal symbols for a mode. For example, in Python the first line of a class definition (class MyClass(object):) cannot contain the symbol { or a newline. The presence of these symbols clearly shows that the language is not Python, and the parser can drop this attempt early.

Illegal symbols are defined using a single regular expression:

{
  scope: 'class',
  illegal: '[${]'
}

Pre-defined modes and regular expressions

Many languages share common modes and regular expressions. These expressions are defined in lib/modes.js and should be used whenever possible.

Regular Expression Features

The goal of Highlight.js is to support whatever regex features our supported JavaScript runtimes universally support. You’re using real regular expressions, use them responsibly. That said, due to the design of the parser, there are some caveats. These are addressed below.

Things we fully support now that we did not always:

  • look-ahead regex matching for begin (#2135)

  • look-ahead regex matching for end (#2237)

  • look-ahead regex matching for illegal (#2135)

  • back-references within your regex matches (#1897)

Things that technically would work, but we do not allow (because Safari does not support look-behind):

  • look-behind matching for begin (#2135)

Things that are not supported because of issues with the parsing engine itself:

  • look-behind matching for end matchers

Contributing

Follow the contributor checklist.