Switch Nim tree-sitter queries to alaviss/tree-sitter-nim (#9722)

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JJ 2024-02-28 17:49:10 -08:00 committed by GitHub
parent 1143f47954
commit e51a1e4e2a
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4 changed files with 329 additions and 286 deletions

View file

@ -50,6 +50,7 @@ metals = { command = "metals", config = { "isHttpEnabled" = true } }
mint = { command = "mint", args = ["ls"] }
nil = { command = "nil" }
nimlangserver = { command = "nimlangserver" }
nimlsp = { command = "nimlsp" }
nls = { command = "nls" }
nu-lsp = { command = "nu", args = [ "--lsp" ] }
ocamllsp = { command = "ocamllsp" }
@ -2858,10 +2859,9 @@ language-servers = [ "nimlangserver" ]
"'" = "'"
'{' = '}'
# Nim's tree-sitter grammar is in heavy development.
[[grammar]]
name = "nim"
source = { git = "https://github.com/aMOPel/tree-sitter-nim", rev = "240239b232550e431d67de250d1b5856209e7f06" }
source = { git = "https://github.com/alaviss/tree-sitter-nim", rev = "c5f0ce3b65222f5dbb1a12f9fe894524881ad590" }
[[language]]
name = "cabal"

View file

@ -1,33 +1,32 @@
;; Constants, Comments, and Literals
(comment) @comment.line
(multilineComment) @comment.block
(docComment) @comment.block.documentation
(multilineDocComment) @comment.block.documentation
; comments
(block_comment) @comment.block
[
(documentation_comment)
(block_documentation_comment)
] @comment.block.documentation
[(literal) (generalizedLit)] @constant
[(nil_lit)] @constant.builtin
[(bool_lit)] @constant.builtin.boolean
[(char_lit)] @constant.character
[(char_esc_seq) (str_esc_seq)] @constant.character.escape
[(custom_numeric_lit)] @constant.numeric
[(int_lit) (int_suffix)] @constant.numeric.integer
[(float_lit) (float_suffix)] @constant.numeric.float
(nil_literal) @constant.builtin
((identifier) @constant.builtin.boolean
(#any-of? @constant.builtin.boolean "true" "false" "on" "off"))
(char_literal) @constant.character
(escape_sequence) @constant.character.escape
(custom_numeric_literal) @constant.numeric
(integer_literal) @constant.numeric.integer
(float_literal) @constant.numeric.float
; literals
; note: somewhat irritatingly for testing, lits have the same syntax highlighting as types
; todo: literal?
[
(str_lit)
(triplestr_lit)
(rstr_lit)
(generalized_str_lit)
(generalized_triplestr_lit)
(interpolated_str_lit)
(interpolated_triplestr_lit)
(long_string_literal)
(raw_string_literal)
(generalized_string)
(interpreted_string_literal)
] @string
; (generalized_string (string_content) @none) ; todo: attempt to un-match string_content
; [] @string.regexp
; string literals
[
"."
@ -44,272 +43,291 @@
"}"
"{."
".}"
"#["
"]#"
] @punctuation.bracket
(interpolated_str_lit "&" @punctuation.special)
(interpolated_str_lit "{" @punctuation.special)
(interpolated_str_lit "}" @punctuation.special)
; punctuation
; todo: interpolated_str_lit?? & { }?
[
"and"
"or"
"xor"
"not"
"in"
"notin"
"is"
"isnot"
"div"
"mod"
"shl"
"shr"
"from"
"as"
"of"
"in"
"notin"
"is"
"isnot"
] @keyword.operator
; operators: we list them explicitly to deliminate them from symbolic operators
[(operator) (opr) "="] @operator
; all operators (must come after @keyword.operator)
(pragma) @attribute
; pragmas
[(operator) "="] @operator
(infix_expression operator: _ @operator)
(prefix_expression operator: _ @operator)
(pragma_list
(identifier)? @attribute
(colon_expression
(identifier) @attribute)?)
;; Imports and Exports
(importStmt
(keyw) @keyword.control.import
(expr (primary (symbol) @namespace))?
(expr (primary (arrayConstr (exprColonExprList (exprColonExpr (expr (primary (symbol) @namespace)))))))?)
(exportStmt
(keyw) @keyword.control.import
(expr (primary (symbol) @namespace))?
(expr (primary (arrayConstr (exprColonExprList (exprColonExpr (expr (primary (symbol) @namespace)))))))?)
(fromStmt
(keyw) @keyword.control.import
(expr (primary (symbol) @namespace))?
(expr (primary (arrayConstr (exprColonExprList (exprColonExpr (expr (primary (symbol) @namespace)))))))?)
(includeStmt
(keyw) @keyword.control.import
(expr (primary (symbol) @namespace))?
(expr (primary (arrayConstr (exprColonExprList (exprColonExpr (expr (primary (symbol) @namespace)))))))?)
(importExceptStmt
(keyw) @keyword.control.import
(expr (primary (symbol) @namespace))?
(expr (primary (arrayConstr (exprColonExprList (exprColonExpr (expr (primary (symbol) @namespace)))))))?)
; import statements
; yeah, this is a bit gross.
[
"import"
"export"
"include"
"from"
] @keyword.control.import
(import_statement
[
(identifier) @namespace
(expression_list (identifier) @namespace)
(except_clause
"except" @keyword.control.import
(expression_list (identifier) @namespace))])
(import_from_statement
(identifier) @namespace
(expression_list (identifier) @namespace))
(include_statement (expression_list (identifier) @namespace))
(export_statement (expression_list (identifier) @namespace))
;; Control Flow
(ifStmt (keyw) @keyword.control.conditional)
(whenStmt (keyw) @keyword.control.conditional)
(elifStmt (keyw) @keyword.control.conditional)
(elseStmt (keyw) @keyword.control.conditional)
(caseStmt (keyw) @keyword.control.conditional)
(ofBranch (keyw) @keyword.control.conditional)
(inlineIfStmt (keyw) @keyword.control.conditional)
(inlineWhenStmt (keyw) @keyword.control.conditional)
[
"if"
"when"
"case"
"elif"
"else"
] @keyword.control.conditional
(of_branch "of" @keyword.control.conditional)
; conditional statements
; todo: do block
(forStmt
. (keyw) @keyword.control.repeat
. (symbol) @variable
. (keyw) @keyword.control.repeat)
(whileStmt (keyw) @keyword.control.repeat)
; loop statements
"block" @keyword.control
(block label: (_) @label)
(returnStmt (keyw) @keyword.control.repeat)
(yieldStmt (keyw) @keyword.control.repeat)
(discardStmt (keyw) @keyword.control.repeat)
(breakStmt (keyw) @keyword.control.repeat)
(continueStmt (keyw) @keyword.control.repeat)
; control flow statements
[
"for"
"while"
"continue"
"break"
] @keyword.control.repeat
(for "in" @keyword.control.repeat)
(raiseStmt (keyw) @keyword.control.exception)
(tryStmt (keyw) @keyword.control.exception)
(tryExceptStmt (keyw) @keyword.control.exception)
(tryFinallyStmt (keyw) @keyword.control.exception)
(inlineTryStmt (keyw) @keyword.control.exception)
; (inlineTryExceptStmt (keyw) @keyword.control.exception)
; (inlineTryFinallyStmt (keyw) @keyword.control.exception)
[
"return"
"yield"
] @keyword.control.return
; return statements
[
"try"
"except"
"finally"
"raise"
] @keyword.control.exception
; exception handling statements
(staticStmt (keyw) @keyword)
(deferStmt (keyw) @keyword)
(asmStmt (keyw) @keyword)
(bindStmt (keyw) @keyword)
(mixinStmt (keyw) @keyword)
; miscellaneous blocks
(blockStmt
(keyw) @keyword.control
(symbol) @label)
; block statements
[
"asm"
"bind"
"mixin"
"defer"
"static"
] @keyword
; miscellaneous keywords
;; Types and Type Declarations
(typeDef
(keyw) @keyword.storage.type
(symbol) @type)
; names of new types type declarations
[
"let"
"var"
"const"
"type"
"object"
"tuple"
"enum"
"concept"
] @keyword.storage.type
(exprColonEqExpr
. (expr (primary (symbol) @variable))
. (expr (primary (symbol) @type)))
; variables in inline tuple declarations
(var_type "var" @keyword.storage.modifier)
(out_type "out" @keyword.storage.modifier)
(distinct_type "distinct" @keyword.storage.modifier)
(ref_type "ref" @keyword.storage.modifier)
(pointer_type "ptr" @keyword.storage.modifier)
(primarySuffix
(indexSuffix
(exprColonEqExprList
(exprColonEqExpr
(expr
(primary
(symbol) @type))))))
; nested types in brackets, i.e. seq[string]
(var_parameter "var" @keyword.storage.modifier)
(type_parameter "type" @keyword.storage.modifier)
(static_parameter "static" @keyword.storage.modifier)
(ref_parameter "ref" @keyword.storage.modifier)
(pointer_parameter "ptr" @keyword.storage.modifier)
; (var_parameter (identifier) @variable.parameter)
; (type_parameter (identifier) @variable.parameter)
; (static_parameter (identifier) @variable.parameter)
; (ref_parameter (identifier) @variable.parameter)
; (pointer_parameter (identifier) @variable.parameter)
; todo: when are these used??
(primaryTypeDef (symbol) @type)
; primary types of type declarations (NOT nested types)
(type_section
(type_declaration
(type_symbol_declaration
name: (_) @type)))
; types in type declarations
(primaryTypeDef (primaryPrefix (keyw) @type))
; for consistency
(enum_field_declaration
(symbol_declaration
name: (_) @type.enum.variant))
; types as enum variants
(primaryTypeDesc (symbol) @type)
; type annotations, on declarations or in objects
(variant_declaration
alternative: (of_branch
values: (expression_list (_) @type.enum.variant)))
; types as object variants
(primaryTypeDesc (primaryPrefix (keyw) @type))
; var types etc
(case
(of_branch
values: (expression_list (_) @constant)))
; case values are guaranteed to be constant
(genericParamList (genericParam (symbol) @type))
; types in generic blocks
(type_expression
[
(identifier) @type
(bracket_expression
[
(identifier) @type
(argument_list (identifier) @type)])
(tuple_construction
[
(identifier) @type
(bracket_expression
[
(identifier) @type
(argument_list (identifier) @type)])])])
; types in type expressions
(enumDecl (keyw) @keyword.storage.type)
(enumElement (symbol) @type.enum.variant)
; enum declarations and elements
(call
function: (bracket_expression
right: (argument_list (identifier) @type)))
; types as generic parameters
(tupleDecl (keyw) @keyword.storage.type)
; tuple declarations
; (dot_generic_call
; generic_arguments: (_) @type)
; ???
(objectDecl (keyw) @keyword.storage.type)
(objectPart (symbol) @variable.other.member)
; object declarations and fields
(objectCase
(keyw) @keyword.control.conditional
(symbol) @variable.other.member)
(objectBranch (keyw) @keyword.control.conditional)
(objectElif (keyw) @keyword.control.conditional)
(objectElse (keyw) @keyword.control.conditional)
(objectWhen (keyw) @keyword.control.conditional)
; variant objects
(conceptDecl (keyw) @keyword.storage.type)
(conceptParam (keyw) @type)
(conceptParam (symbol) @variable)
; concept declarations, parameters, and qualifiers on those parameters
((expr
(primary (symbol))
(operator) @operator
(primary (symbol) @type))
(#match? @operator "is"))
((exprStmt
(primary (symbol))
(operator) @operator
(primary (symbol) @type))
(#match? @operator "is"))
; symbols likely to be types: "x is t" means t is either a type or a type variable
; distinct?
(infix_expression
operator:
[
"is"
"isnot"
]
right: (_) @type)
; types in "is" comparisions
(except_branch
values: (expression_list
[
(identifier) @type
(infix_expression
left: (identifier) @type
operator: "as"
right: (_) @variable)]))
; types in exception branches
;; Functions
(routine
. (keyw) @keyword.function
. (symbol) @function)
; function declarations
[
"proc"
"func"
"method"
"converter"
"iterator"
"template"
"macro"
] @keyword.function
(routineExpr (keyw) @keyword.function)
; discarded function
(exported_symbol "*" @attribute)
(_ "=" @punctuation.delimiter [body: (_) value: (_)])
(routineExprTypeDesc (keyw) @keyword.function)
; function declarations as types
(primary
. (symbol) @function.call
. (primarySuffix (functionCall)))
; regular function calls
(primary
. (symbol) @function.call
. (primarySuffix (cmdCall)))
; function calls without parenthesis
(primary
(primarySuffix (qualifiedSuffix (symbol) @function.call))
. (primarySuffix (functionCall)))
; uniform function call syntax calls
(primary
(primarySuffix (qualifiedSuffix (symbol) @function.call))
. (primarySuffix (cmdCall)))
; just in case
(primary
(symbol) @constructor
(primarySuffix (objectConstr)))
; object constructor
; does not appear to be a way to distinguish these without verbatium matching
; [] @function.builtin
; [] @function.method
; [] @function.macro
; [] @function.special
(proc_declaration name: (_) @function)
(func_declaration name: (_) @function)
(iterator_declaration name: (_) @function)
(converter_declaration name: (_) @function)
(method_declaration name: (_) @function.method)
(template_declaration name: (_) @function.macro)
(macro_declaration name: (_) @function.macro)
(symbol_declaration name: (_) @variable)
(call
function: [
(identifier) @function.call
(dot_expression
right: (identifier) @function.call)
(bracket_expression
left: [
(identifier) @function.call
(dot_expression
right: (identifier) @function.call)])])
(generalized_string
function: [
(identifier) @function.call
(dot_expression
right: (identifier) @function.call)
(bracket_expression
left: [
(identifier) @function.call
(dot_expression
right: (identifier) @function.call)])])
(dot_generic_call function: (_) @function.call)
;; Variables
(paramList (paramColonEquals (symbol) @variable.parameter))
; parameter identifiers
(parameter_declaration
(symbol_declaration_list
(symbol_declaration
name: (_) @variable.parameter)))
(argument_list
(equal_expression
left: (_) @variable.parameter))
(concept_declaration
parameters: (parameter_list (identifier) @variable.parameter))
(identColon (ident) @variable.other.member)
; named parts of tuples
(field_declaration
(symbol_declaration_list
(symbol_declaration
name: (_) @variable.other.member)))
(call
(argument_list
(colon_expression
left: (_) @variable.other.member)))
(tuple_construction
(colon_expression
left: (_) @variable.other.member))
(variant_declaration
(variant_discriminator_declaration
(symbol_declaration_list
(symbol_declaration
name: (_) @variable.other.member))))
(symbolColonExpr (symbol) @variable)
; object constructor parameters
;; Miscellaneous Matches
(symbolEqExpr (symbol) @variable)
; named parameters
[
"cast"
"discard"
"do"
] @keyword
; also: addr end interface using
(variable
(keyw) @keyword.storage.type
(declColonEquals (symbol) @variable))
; let, var, const expressions
(blank_identifier) @variable.builtin
((identifier) @variable.builtin
(#eq? @variable.builtin "result"))
((primary (symbol) @variable.builtin)
(#match? @variable.builtin "result"))
; `result` is an implicit builtin variable inside function scopes
(dot_expression
left: (identifier) @variable
right: (identifier) @variable.other.member)
((primary (symbol) @type)
(#match? @type "^[A-Z]"))
; assume PascalCase identifiers to be types
((primary
(primarySuffix
(qualifiedSuffix
(symbol) @type)))
(#match? @type "^[A-Z]"))
; assume PascalCase member variables to be enum entries
(primary (symbol) @variable)
; overzealous, matches variables
(primary (primarySuffix (qualifiedSuffix (symbol) @variable.other.member)))
; overzealous, matches member variables: i.e. x in foo.x
(keyw) @keyword
; more specific matches are done above whenever possible
(identifier) @variable

View file

@ -1,48 +1,59 @@
[
(typeDef)
(ifStmt)
(whenStmt)
(elifStmt)
(elseStmt)
(ofBranch) ; note: not caseStmt
(whileStmt)
(tryStmt)
(tryExceptStmt)
(tryFinallyStmt)
(forStmt)
(blockStmt)
(staticStmt)
(deferStmt)
(asmStmt)
; exprStmt?
(if)
(when)
(elif_branch)
(else_branch)
(of_branch) ; note: not case_statement
(block)
(while)
(for)
(try)
(except_branch)
(finally_branch)
(defer)
(static_statement)
(proc_declaration)
(func_declaration)
(iterator_declaration)
(converter_declaration)
(method_declaration)
(template_declaration)
(macro_declaration)
(symbol_declaration)
] @indent
;; increase the indentation level
[
(ifStmt)
(whenStmt)
(elifStmt)
(elseStmt)
(ofBranch) ; note: not caseStmt
(whileStmt)
(tryStmt)
(tryExceptStmt)
(tryFinallyStmt)
(forStmt)
(blockStmt)
(staticStmt)
(deferStmt)
(asmStmt)
; exprStmt?
(if)
(when)
(elif_branch)
(else_branch)
(of_branch) ; note: not case_statement
(block)
(while)
(for)
(try)
(except_branch)
(finally_branch)
(defer)
(static_statement)
(proc_declaration)
(func_declaration)
(iterator_declaration)
(converter_declaration)
(method_declaration)
(template_declaration)
(macro_declaration)
(symbol_declaration)
] @extend
;; ???
[
(returnStmt)
(raiseStmt)
(yieldStmt)
(breakStmt)
(continueStmt)
(return_statement)
(raise_statement)
(yield_statement)
(break_statement)
(continue_statement)
] @extend.prevent-once
;; end a level of indentation while staying indented

View file

@ -1,19 +1,33 @@
(routine
(block) @function.inside) @function.around
(proc_declaration
body: (_) @function.inside) @function.around
(func_declaration
body: (_) @function.inside) @function.around
(iterator_declaration
body: (_) @function.inside) @function.around
(converter_declaration
body: (_) @function.inside) @function.around
(method_declaration
body: (_) @function.inside) @function.around
(template_declaration
body: (_) @function.inside) @function.around
(macro_declaration
body: (_) @function.inside) @function.around
; @class.inside (types?)
; @class.around
(type_declaration (_) @class.inside) @class.around
; paramListSuffix is strange and i do not understand it
(paramList
(paramColonEquals) @parameter.inside) @parameter.around
(parameter_declaration
(symbol_declaration_list) @parameter.inside) @parameter.around
(comment) @comment.inside
(multilineComment) @comment.inside
(docComment) @comment.inside
(multilineDocComment) @comment.inside
[
(comment)
(block_comment)
(documentation_comment)
(block_documentation_comment)
] @comment.inside
(comment)+ @comment.around
(multilineComment) @comment.around
(docComment)+ @comment.around
(multilineDocComment) @comment.around
[
(comment)+
(block_comment)
(documentation_comment)+
(block_documentation_comment)+
] @comment.around