Module Ppx_sexp_conv_expander__Sexp_grammar_lifter
module Atom : sig ... endtype atom= Atom.ttype var_name= Base.Sexp.Private.Raw_grammar.var_nametype type_name= Base.Sexp.Private.Raw_grammar.type_name
val lift_string : loc:Ppxlib__.Import.location -> string -> Ppxlib__.Import.expressionval lift_var_name : loc:Ppxlib__.Import.location -> string -> Ppxlib__.Import.expressionval lift_type_name : loc:Ppxlib__.Import.location -> string -> Ppxlib__.Import.expression
type 't type_= 't Base.Sexp.Private.Raw_grammar.type_=|Any|Apply of 't type_ * 't type_ Base.list|Atom of atom|Explicit_bind of var_name Base.list * 't type_|Explicit_var of Base.int|Grammar of 't|Implicit_var of Base.int|List of 't sequence_type|Option of 't type_|Record of 't record_type|Recursive of type_name|Union of 't type_ Base.list|Variant of 't variant_typeand 't sequence_type= 't component Base.listand 't component= 't Base.Sexp.Private.Raw_grammar.component=|One of 't type_|Optional of 't type_|Many of 't type_|Fields of 't record_typeand 't variant_type= 't Base.Sexp.Private.Raw_grammar.variant_type={ignore_capitalization : Base.bool;alts : (Ppxlib.label * 't sequence_type) Base.list;}and 't record_type= 't Base.Sexp.Private.Raw_grammar.record_type={allow_extra_fields : Base.bool;fields : (Ppxlib.label * 't field) Base.list;}and 't field= 't Base.Sexp.Private.Raw_grammar.field={optional : Base.bool;args : 't sequence_type;}and t= Base.unit
val lifter : loc:Ppxlib.location -> < array : a. ('a, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift -> ('a array, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; atom : atom -> Ppxlib.expression; bool : (Base.bool, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; char : (char, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; component : a. ('a -> Ppxlib.expression) -> 'a component -> Ppxlib.expression; constr : Base.string -> Ppxlib.expression Base.list -> Ppxlib.expression; field : a. ('a -> Ppxlib.expression) -> 'a field -> Ppxlib.expression; float : (float, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; int : (Base.int, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; int32 : (int32, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; int64 : (int64, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; label : Ppxlib.label -> Ppxlib.expression; list : a. ('a, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift -> ('a Base.list, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; nativeint : (nativeint, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; option : a. ('a, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift -> ('a option, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; other : a. ('a, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; record : (Base.string * Ppxlib.expression) Base.list -> Ppxlib.expression; record_type : a. ('a -> Ppxlib.expression) -> 'a record_type -> Ppxlib.expression; sequence_type : a. ('a -> Ppxlib.expression) -> 'a sequence_type -> Ppxlib.expression; string : (string, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; t : t -> Ppxlib.expression; tuple : Ppxlib.expression Base.list -> Ppxlib.expression; type_ : a. ('a -> Ppxlib.expression) -> 'a type_ -> Ppxlib.expression; type_name : type_name -> Ppxlib.expression; unit : (Base.unit, Ppxlib.expression) Ppxlib_traverse_builtins.T.lift; var_name : var_name -> Ppxlib.expression; variant_type : a. ('a -> Ppxlib.expression) -> 'a variant_type -> Ppxlib.expression; >