package melange
Toolchain to produce JS from Reason/OCaml
Install
Dune Dependency
Authors
Maintainers
Sources
melange-1.0.0.tbz
sha256=01ff3a2711b3812889313288f9e0c8bfe2e17464b6b85282c5113cfc3b740968
sha512=db9ac4554d0c9a8deabbdcd2ae05653964184916982c746ca794df6e2061444adaa6a0367bc1840825a007be3941643abd824aaff737a431b0e5347f7c558378
doc/src/melange.js_parser/flow_ast_utils.ml.html
Source file flow_ast_utils.ml
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_ }) | RestElement (_, { RestElement.argument = p; comments = _ }) -> fold_bindings_of_pattern f acc p ) in let element f acc = Array.( function | Hole _ -> acc | Element (_, { Element.argument = p; default = _ }) | RestElement (_, { RestElement.argument = p; comments = _ }) -> fold_bindings_of_pattern f acc p ) in fun f acc -> function | (_, Identifier { Identifier.name; _ }) -> f acc name | (_, Object { Object.properties; _ }) -> List.fold_left (property f) acc properties | (_, Array { Array.elements; _ }) -> List.fold_left (element f) acc elements (* This is for assignment and default param destructuring `[a.b=1]=c`, ignore these for now. *) | (_, Expression _) -> acc ) let fold_bindings_of_variable_declarations f acc declarations = let open Flow_ast.Statement.VariableDeclaration in List.fold_left (fun acc -> function | (_, { Declarator.id = pattern; _ }) -> let has_anno = (* Only the toplevel annotation in a pattern is meaningful *) let open Flow_ast.Pattern in match pattern with | (_, Array { Array.annot = Flow_ast.Type.Available _; _ }) | (_, Object { Object.annot = Flow_ast.Type.Available _; _ }) | (_, Identifier { Identifier.annot = Flow_ast.Type.Available _; _ }) -> true | _ -> false in fold_bindings_of_pattern (f has_anno) acc pattern) acc declarations let partition_directives statements = let open Flow_ast.Statement in let rec helper directives = function | ((_, Expression { Expression.directive = Some _; _ }) as directive) :: rest -> helper (directive :: directives) rest | rest -> (List.rev directives, rest) in helper [] statements let hoist_function_declarations stmts = let open Flow_ast.Statement in let (func_decs, other_stmts) = List.partition (function (* function f() {} *) | (_, FunctionDeclaration { Flow_ast.Function.id = Some _; _ }) (* export function f() {} *) | ( _, ExportNamedDeclaration { ExportNamedDeclaration.declaration = Some (_, FunctionDeclaration { Flow_ast.Function.id = Some _; _ }); _; } ) (* export default function f() {} *) | ( _, ExportDefaultDeclaration { ExportDefaultDeclaration.declaration = ExportDefaultDeclaration.Declaration (_, FunctionDeclaration { Flow_ast.Function.id = Some _; _ }); _; } ) (* declare function f(): void; *) | (_, DeclareFunction _) (* declare export function f(): void; *) | ( _, DeclareExportDeclaration DeclareExportDeclaration.{ declaration = Some (Function _); _ } ) -> true | _ -> false) stmts in func_decs @ other_stmts let negate_number_literal (value, raw) = let raw_len = String.length raw in let raw = if raw_len > 0 && raw.[0] = '-' then String.sub raw 1 (raw_len - 1) else "-" ^ raw in (~-.value, raw) let is_call_to_invariant callee = match callee with | (_, Expression.Identifier (_, { Identifier.name = "invariant"; _ })) -> true | _ -> false let is_call_to_is_array callee = match callee with | ( _, Flow_ast.Expression.Member { Flow_ast.Expression.Member._object = ( _, Flow_ast.Expression.Identifier (_, { Flow_ast.Identifier.name = "Array"; comments = _ }) ); property = Flow_ast.Expression.Member.PropertyIdentifier (_, { Flow_ast.Identifier.name = "isArray"; comments = _ }); comments = _; } ) -> true | _ -> false let is_call_to_object_dot_freeze callee = match callee with | ( _, Flow_ast.Expression.Member { Flow_ast.Expression.Member._object = ( _, Flow_ast.Expression.Identifier (_, { Flow_ast.Identifier.name = "Object"; comments = _ }) ); property = Flow_ast.Expression.Member.PropertyIdentifier (_, { Flow_ast.Identifier.name = "freeze"; comments = _ }); comments = _; } ) -> true | _ -> false let is_call_to_object_static_method callee = match callee with | ( _, Flow_ast.Expression.Member { Flow_ast.Expression.Member._object = ( _, Flow_ast.Expression.Identifier (_, { Flow_ast.Identifier.name = "Object"; comments = _ }) ); property = Flow_ast.Expression.Member.PropertyIdentifier _; comments = _; } ) -> true | _ -> false let loc_of_statement = fst let loc_of_expression = fst let loc_of_pattern = fst let loc_of_ident = fst let name_of_ident (_, { Identifier.name; comments = _ }) = name let source_of_ident (loc, { Identifier.name; comments = _ }) = (loc, name) let ident_of_source ?comments (loc, name) = (loc, { Identifier.name; comments }) let mk_comments ?(leading = []) ?(trailing = []) a = { Syntax.leading; trailing; internal = a } let mk_comments_opt ?(leading = []) ?(trailing = []) () = match (leading, trailing) with | ([], []) -> None | (_, _) -> Some (mk_comments ~leading ~trailing ()) let mk_comments_with_internal_opt ?(leading = []) ?(trailing = []) ~internal () = match (leading, trailing, internal) with | ([], [], []) -> None | _ -> Some (mk_comments ~leading ~trailing internal) let merge_comments ~inner ~outer = let open Syntax in match (inner, outer) with | (None, c) | (c, None) -> c | (Some inner, Some outer) -> mk_comments_opt ~leading:(outer.leading @ inner.leading) ~trailing:(inner.trailing @ outer.trailing) () let merge_comments_with_internal ~inner ~outer = match (inner, outer) with | (inner, None) -> inner | (None, Some { Syntax.leading; trailing; _ }) -> mk_comments_with_internal_opt ~leading ~trailing ~internal:[] () | ( Some { Syntax.leading = inner_leading; trailing = inner_trailing; internal }, Some { Syntax.leading = outer_leading; trailing = outer_trailing; _ } ) -> mk_comments_with_internal_opt ~leading:(outer_leading @ inner_leading) ~trailing:(inner_trailing @ outer_trailing) ~internal () let split_comments comments = match comments with | None -> (None, None) | Some { Syntax.leading; trailing; _ } -> (mk_comments_opt ~leading (), mk_comments_opt ~trailing ()) let string_of_assignment_operator op = let open Flow_ast.Expression.Assignment in match op with | PlusAssign -> "+=" | MinusAssign -> "-=" | MultAssign -> "*=" | ExpAssign -> "**=" | DivAssign -> "/=" | ModAssign -> "%=" | LShiftAssign -> "<<=" | RShiftAssign -> ">>=" | RShift3Assign -> ">>>=" | BitOrAssign -> "|=" | BitXorAssign -> "^=" | BitAndAssign -> "&=" | NullishAssign -> "??=" | AndAssign -> "&&=" | OrAssign -> "||=" let string_of_binary_operator op = let open Flow_ast.Expression.Binary in match op with | Equal -> "==" | NotEqual -> "!=" | StrictEqual -> "===" | StrictNotEqual -> "!==" | LessThan -> "<" | LessThanEqual -> "<=" | GreaterThan -> ">" | GreaterThanEqual -> ">=" | LShift -> "<<" | RShift -> ">>" | RShift3 -> ">>>" | Plus -> "+" | Minus -> "-" | Mult -> "*" | Exp -> "**" | Div -> "/" | Mod -> "%" | BitOr -> "|" | Xor -> "^" | BitAnd -> "&" | In -> "in" | Instanceof -> "instanceof" module ExpressionSort = struct type t = | Array | ArrowFunction | Assignment | Binary | Call | Class | Comprehension | Conditional | Function | Generator | Identifier | Import | JSXElement | JSXFragment | Literal | Logical | Member | MetaProperty | New | Object | OptionalCall | OptionalMember | Sequence | Super | TaggedTemplate | TemplateLiteral | This | TypeCast | Unary | Update | Yield let to_string = function | Array -> "array" | ArrowFunction -> "arrow function" | Assignment -> "assignment expression" | Binary -> "binary expression" | Call -> "call expression" | Class -> "class" | Comprehension -> "comprehension expression" | Conditional -> "conditional expression" | Function -> "function" | Generator -> "generator" | Identifier -> "identifier" | Import -> "import expression" | JSXElement -> "JSX element" | JSXFragment -> "JSX fragment" | Literal -> "literal" | Logical -> "logical expression" | Member -> "member expression" | MetaProperty -> "metaproperty expression" | New -> "new expression" | Object -> "object" | OptionalCall -> "optional call expression" | OptionalMember -> "optional member expression" | Sequence -> "sequence" | Super -> "`super` reference" | TaggedTemplate -> "tagged template expression" | TemplateLiteral -> "template literal" | This -> "`this` reference" | TypeCast -> "type cast" | Unary -> "unary expression" | Update -> "update expression" | Yield -> "yield expression" end