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Grammar-Kit

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An IntelliJ IDEA plugin for language plugin developers.

Adds BNF Grammars and JFlex file editing support, and a parser/PSI code generator.

Quick links: Latest dev build, Changelog, Tutorial, How-to

[!IMPORTANT]

Since 2022.3, Grammar-Kit plugin requires Java 17.

Open-source plugins built with Grammar-Kit:

See also Custom Language Support Tutorial.

General usage instructions

  1. Create grammar *.bnf file, see Grammar.bnf in the plugin code.
  2. Tune the grammar using Live Preview + Structure view (Ctrl-Alt-P / Cmd-Alt-P)
  3. Generate parser/ElementTypes/PSI classes (Ctrl-Shift-G / Cmd-Shift-G)
  4. Generate lexer *.flex file and then run JFlex generator (both via context menu)
  5. Implement ParserDefinition and add the corresponding registrations to the plugin.xml
  6. Mix-in resolve and other non-trivial functionality to PSI

Using with Gradle

Invoking the parser generator from an IDE as described above is the preferred way.<br/> Otherwise use gradle-grammar-kit-plugin if the following limitations are not critical:

Plugin features

Editor support

Syntax overview

See Parsing Expression Grammar (PEG) for basic syntax. Use ::= for ← symbol. You can also use [ .. ] for optional sequences and { | | } for choices as these variants are popular in real-world grammars. Grammar-Kit source code is the main example of Grammar-Kit application. The grammar for BNF parser and PSI generation can be found here.

Here's how it may look like:

// Basic PEG BNF syntax

root_rule ::= rule_A rule_B rule_C rule_D                // sequence expression
rule_A ::= token | 'or_text' | "another_one"             // choice expression
rule_B ::= [ optional_token ] and_another_one?           // optional expression
rule_C ::= &required !forbidden                          // predicate expression
rule_D ::= { can_use_braces + (and_parens) * }           // grouping and repetition

// Grammar-Kit BNF syntax

{ generate=[psi="no"] }                                  // top-level global attributes
private left rule_with_modifier ::= '+'                  // rule modifiers
left rule_with_attributes ::= '?' {elementType=rule_D}   // rule attributes

private meta list ::= <<p>> (',' <<p>>) *                // meta rule with parameters
private list_usage ::= <<list rule_D>>                   // meta rule application

The basic syntax is extended with global attributes and rule attributes. Attributes are specified by the list of name=value pairs enclosed in braces. Rule attributes are placed right after the rule definition. Global attributes are placed on top or separated from a rule definition with a semicolon.

Generator generates a static method for each BNF expression as follows:

static boolean rule_name(..)               // rule top level expression
static boolean rule_name_0(..)             // rule sub-expression
...                                        // ...
static boolean rule_name_N1_N2_..._NX      // rule sub-sub-...-sub-expression

Naming a rule like rule_name_N1_N2_..._NX shall be avoided.

One can specify an attribute for several rules at once in a global attributes block:

{
  extends(".*_expr")=expr        // applies to all .*_expr rules
  pin(".*_list(?:_\d+)*")=1      // applies to all .*_list rules and their sub-expressions
}

Rule modifiers:

  1. private (PSI tree): skip node creation and let its child nodes be included in its parent.

  2. left (PSI tree): take an AST node on the left (previous sibling) and enclose it by becoming its parent.

  3. inner (PSI tree): take an AST node on the left (previous sibling) and inject itself into it by becoming its child.

  4. upper (PSI tree): take the parent node and replace it by adopting all its children.

  5. meta (parser): a parametrized rule; its parse function can take other parse functions as parameters.

  6. external (parser): a rule with a hand-written parse function; no parsing code is generated.

  7. fake (PSI classes): a rule for shaping the generated PSI classes; only PSI classes are generated.

Modifiers can be combined, inner should only be used together with left, private left is equivalent to private left inner, fake should not be combined with private.

By default, rules are public, i.e. non-private, non-fake, etc.

Meta rules & external expressions:

The external expression << ... >> is simply an inline variant of an external rule. It can also be used to specify a meta rule along with arguments.

For example:

meta comma_separated_list ::= <<param>> ( ',' <<param>> ) *
option_list ::= <<comma_separated_list (OPTION1 | OPTION2 | OPTION3)>>

External rule expression syntax is the same as a body of external expression:

 external manually_parsed_rule ::= methodName param1 param2 ...

External expressions and external rules interpret double- and single-quoted strings differently. Generally, anything that appears in an external expression after rule or method name is treated as a parameter and passed "as is" except single-quoted strings which are unquoted first. This helps to pass qualified enum constants, java expressions, etc.

Rule references in parameter list are implemented as GeneratedParserUtilBase.Parser instances.

Tokens:

Explicit tokens are declared via tokens global attribute, e.g. in token_name=token_value form. A token name is for the IElementType token constant, a token value is usually its string representation in single or double-quotes.

Tokens in grammar can be referenced by name or by value in single or double-quotes. It is recommended to use values where possible for better readability. Names can be used to resolve conflicts when there is an unquoted token value that also matches some rule.

Implicit tokens are tokens not specified via tokens attribute. Unquoted implicit tokens (aka keyword tokens) have names equals to their values. Quoted implicit tokens (aka text-matched tokens) are slow because they are matched by text and not by an IElementType constant returned by a lexer. Text-matched tokens can span more than one real token returned by the lexer.

Rules, tokens, and text-matched tokens have different colors.

Attributes for error recovery and reporting:

Generated parser structure:

The generator can split parser code into several classes for better support of large grammars.

In simple cases, a parser will consist just of several generated classes.

The actual error recovery and reporting code as well as the parser-based completion provider support code and the basic token matching code reside in a parserUtilClass class. It may be altered by specifying some other class that extends or mimics the original GeneratedParserUtilBase. There's no need to keep a copy of GeneratedParserUtilBase in a project, it is included in IntelliJ Platform since version 12.1.

The manual parsing code, i.e. external rules must be implemented the same way as generated, by a static method in the parserUtilClass class or any other class that will be imported via parserImports attribute like this:

{
  parserImports=["static org.sample.ManualParsing.*"]
}

Lexer and PSI:

IElementType constants generated by the parser generator have to be recognized and returned by the lexer. The JFlex-based lexer can be generated from a grammar that defines all the required tokens ( Generate JFlex Lexer menu).

Run JFlex Generator menu in a *.flex file calls JFlex to generate lexer java code. Keywords are picked right from usages while tokens like string, identifier and comment can be defined like this (from TUTORIAL):

{
  tokens=[
    ...
    comment='regexp://.*'
    number='regexp:\d+(\.\d*)?'
    id='regexp:\p{Alpha}\w*'
    string="regexp:('([^'\\]|\\.)*'|\"([^\"\\]|\\.)*\")"
    ...
  ]
  ...
}

While Live Preview mode supports full Java RegExp syntax and JFlex supports only a subset (see JFlex documentation) Grammar-Kit tries to perform some obvious conversions.

The lexer can be provided separately or one can use the generated *.flex file as a base.

Parser generator generates token types constants and PSI by default. This can be switched off via generateTokens and generatePSI global boolean attributes respectively.

elementType rule attribute allows mixing the generated code and some existing hand-made PSI.