502 lines
14 KiB
OCaml
502 lines
14 KiB
OCaml
(* Abstract Syntax Tree (AST) for Ligo *)
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[@@@warning "-30"]
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open Utils
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(* Regions
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The AST carries all the regions where tokens have been found by the
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lexer, plus additional regions corresponding to whole subtrees
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(like entire expressions, patterns etc.). These regions are needed
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for error reporting and source-to-source transformations. To make
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these pervasive regions more legible, we define singleton types for
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the symbols, keywords etc. with suggestive names like "kwd_and"
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denoting the _region_ of the occurrence of the keyword "and".
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*)
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type 'a reg = 'a Region.reg
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val nseq_to_region : ('a -> Region.t) -> 'a nseq -> Region.t
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val nsepseq_to_region : ('a -> Region.t) -> ('a,'sep) nsepseq -> Region.t
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val sepseq_to_region : ('a -> Region.t) -> ('a,'sep) sepseq -> Region.t
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(* Keywords of Ligo *)
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type kwd_begin = Region.t
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type kwd_const = Region.t
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type kwd_down = Region.t
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type kwd_fail = Region.t
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type kwd_if = Region.t
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type kwd_in = Region.t
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type kwd_is = Region.t
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type kwd_for = Region.t
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type kwd_function = Region.t
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type kwd_parameter = Region.t
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type kwd_storage = Region.t
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type kwd_type = Region.t
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type kwd_of = Region.t
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type kwd_operations = Region.t
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type kwd_var = Region.t
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type kwd_end = Region.t
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type kwd_then = Region.t
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type kwd_else = Region.t
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type kwd_match = Region.t
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type kwd_procedure = Region.t
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type kwd_null = Region.t
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type kwd_record = Region.t
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type kwd_step = Region.t
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type kwd_to = Region.t
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type kwd_mod = Region.t
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type kwd_not = Region.t
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type kwd_while = Region.t
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type kwd_with = Region.t
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(* Data constructors *)
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type c_False = Region.t
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type c_None = Region.t
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type c_Some = Region.t
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type c_True = Region.t
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type c_Unit = Region.t
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(* Symbols *)
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type semi = Region.t
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type comma = Region.t
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type lpar = Region.t
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type rpar = Region.t
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type lbrace = Region.t
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type rbrace = Region.t
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type lbracket = Region.t
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type rbracket = Region.t
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type cons = Region.t
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type vbar = Region.t
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type arrow = Region.t
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type ass = Region.t
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type equal = Region.t
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type colon = Region.t
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type bool_or = Region.t
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type bool_and = Region.t
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type lt = Region.t
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type leq = Region.t
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type gt = Region.t
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type geq = Region.t
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type neq = Region.t
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type plus = Region.t
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type minus = Region.t
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type slash = Region.t
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type times = Region.t
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type dot = Region.t
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type wild = Region.t
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type cat = Region.t
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(* Virtual tokens *)
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type eof = Region.t
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(* Literals *)
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type 'a variable = string reg
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type 'a fun_name = string reg
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type 'a type_name = string reg
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type 'a field_name = string reg
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type 'a map_name = string reg
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type 'a constr = string reg
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(* Comma-separated non-empty lists *)
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type 'a csv = ('a, comma) nsepseq
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(* Bar-separated non-empty lists *)
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type 'a bsv = ('a, vbar) nsepseq
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(* Parentheses *)
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type 'a par = (lpar * 'a * rpar) reg
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(* Brackets compounds *)
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type 'a brackets = (lbracket * 'a * rbracket) reg
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(* Braced compounds *)
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type 'a braces = (lbrace * 'a * rbrace) reg
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(* The Abstract Syntax Tree *)
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type t = < ty:unit > ast
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and 'a ast = {
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types : 'a type_decl reg list;
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constants : 'a const_decl reg list;
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parameter : 'a parameter_decl reg;
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storage : 'a storage_decl reg;
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operations : 'a operations_decl reg;
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lambdas : 'a lambda_decl list;
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block : 'a block reg;
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eof : eof
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}
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and 'a parameter_decl = {
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kwd_parameter : kwd_parameter;
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name : 'a variable;
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colon : colon;
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param_type : 'a type_expr;
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terminator : semi option
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}
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and 'a storage_decl = {
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kwd_storage : kwd_storage;
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store_type : 'a type_expr;
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terminator : semi option
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}
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and 'a operations_decl = {
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kwd_operations : kwd_operations;
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op_type : 'a type_expr;
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terminator : semi option
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}
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(* Type declarations *)
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and 'a type_decl = {
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kwd_type : kwd_type;
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name : 'a type_name;
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kwd_is : kwd_is;
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type_expr : 'a type_expr;
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terminator : semi option
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}
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and 'a type_expr =
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Prod of 'a cartesian
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| Sum of ('a variant, vbar) nsepseq reg
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| Record of 'a record_type
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| TypeApp of ('a type_name * 'a type_tuple) reg
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| ParType of 'a type_expr par
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| TAlias of 'a variable
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and 'a cartesian = ('a type_expr, times) nsepseq reg
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and 'a variant = ('a constr * kwd_of * 'a cartesian) reg
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and 'a record_type = (kwd_record * 'a field_decls * kwd_end) reg
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and 'a field_decls = ('a field_decl, semi) nsepseq
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and 'a field_decl = ('a variable * colon * 'a type_expr) reg
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and 'a type_tuple = ('a type_name, comma) nsepseq par
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(* Function and procedure declarations *)
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and 'a lambda_decl =
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FunDecl of 'a fun_decl reg
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| ProcDecl of 'a proc_decl reg
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and 'a fun_decl = {
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kwd_function : kwd_function;
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name : 'a variable;
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param : 'a parameters;
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colon : colon;
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ret_type : 'a type_expr;
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kwd_is : kwd_is;
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local_decls : 'a local_decl list;
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block : 'a block reg;
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kwd_with : kwd_with;
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return : 'a expr;
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terminator : semi option
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}
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and 'a proc_decl = {
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kwd_procedure : kwd_procedure;
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name : 'a variable;
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param : 'a parameters;
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kwd_is : kwd_is;
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local_decls : 'a local_decl list;
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block : 'a block reg;
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terminator : semi option
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}
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and 'a parameters = ('a param_decl, semi) nsepseq par
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and 'a param_decl =
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ParamConst of 'a param_const
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| ParamVar of 'a param_var
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and 'a param_const = (kwd_const * 'a variable * colon * 'a type_expr) reg
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and 'a param_var = (kwd_var * 'a variable * colon * 'a type_expr) reg
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and 'a block = {
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opening : kwd_begin;
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instr : 'a instructions;
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terminator : semi option;
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close : kwd_end
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}
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and 'a local_decl =
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LocalLam of 'a lambda_decl
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| LocalConst of 'a const_decl reg
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| LocalVar of 'a var_decl reg
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and 'a const_decl = {
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kwd_const : kwd_const;
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name : 'a variable;
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colon : colon;
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vtype : 'a type_expr;
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equal : equal;
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init : 'a expr;
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terminator : semi option
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}
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and 'a var_decl = {
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kwd_var : kwd_var;
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name : 'a variable;
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colon : colon;
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vtype : 'a type_expr;
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ass : ass;
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init : 'a expr;
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terminator : semi option
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}
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and 'a instructions = ('a instruction, semi) nsepseq reg
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and 'a instruction =
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Single of 'a single_instr
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| Block of 'a block reg
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and 'a single_instr =
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Cond of 'a conditional reg
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| Match of 'a match_instr reg
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| Ass of 'a ass_instr
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| Loop of 'a loop
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| ProcCall of 'a fun_call
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| Null of kwd_null
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| Fail of (kwd_fail * 'a expr) reg
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and 'a conditional = {
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kwd_if : kwd_if;
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test : 'a expr;
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kwd_then : kwd_then;
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ifso : 'a instruction;
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kwd_else : kwd_else;
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ifnot : 'a instruction
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}
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and 'a match_instr = {
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kwd_match : kwd_match;
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expr : 'a expr;
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kwd_with : kwd_with;
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lead_vbar : vbar option;
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cases : 'a cases;
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kwd_end : kwd_end
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}
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and 'a cases = ('a case, vbar) nsepseq reg
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and 'a case = ('a pattern * arrow * 'a instruction) reg
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and 'a ass_instr = ('a variable * ass * 'a expr) reg
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and 'a loop =
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While of 'a while_loop
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| For of 'a for_loop
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and 'a while_loop = (kwd_while * 'a expr * 'a block reg) reg
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and 'a for_loop =
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ForInt of 'a for_int reg
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| ForCollect of 'a for_collect reg
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and 'a for_int = {
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kwd_for : kwd_for;
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ass : 'a ass_instr;
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down : kwd_down option;
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kwd_to : kwd_to;
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bound : 'a expr;
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step : (kwd_step * 'a expr) option;
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block : 'a block reg
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}
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and 'a for_collect = {
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kwd_for : kwd_for;
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var : 'a variable;
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bind_to : (arrow * 'a variable) option;
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kwd_in : kwd_in;
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expr : 'a expr;
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block : 'a block reg
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}
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(* Expressions *)
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and 'a expr =
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Or of ('a expr * bool_or * 'a expr) reg
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| And of ('a expr * bool_and * 'a expr) reg
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| Lt of ('a expr * lt * 'a expr) reg
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| Leq of ('a expr * leq * 'a expr) reg
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| Gt of ('a expr * gt * 'a expr) reg
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| Geq of ('a expr * geq * 'a expr) reg
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| Equal of ('a expr * equal * 'a expr) reg
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| Neq of ('a expr * neq * 'a expr) reg
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| Cat of ('a expr * cat * 'a expr) reg
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| Cons of ('a expr * cons * 'a expr) reg
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| Add of ('a expr * plus * 'a expr) reg
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| Sub of ('a expr * minus * 'a expr) reg
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| Mult of ('a expr * times * 'a expr) reg
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| Div of ('a expr * slash * 'a expr) reg
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| Mod of ('a expr * kwd_mod * 'a expr) reg
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| Neg of (minus * 'a expr) reg
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| Not of (kwd_not * 'a expr) reg
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| Int of (Lexer.lexeme * Z.t) reg
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| Var of Lexer.lexeme reg
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| String of Lexer.lexeme reg
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| Bytes of (Lexer.lexeme * MBytes.t) reg
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| False of c_False
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| True of c_True
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| Unit of c_Unit
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| Tuple of 'a tuple
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| List of ('a expr, comma) nsepseq brackets
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| EmptyList of 'a empty_list
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| Set of ('a expr, comma) nsepseq braces
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| EmptySet of 'a empty_set
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| NoneExpr of 'a none_expr
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| FunCall of 'a fun_call
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| ConstrApp of 'a constr_app
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| SomeApp of (c_Some * 'a arguments) reg
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| MapLookUp of 'a map_lookup reg
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| ParExpr of 'a expr par
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and 'a tuple = ('a expr, comma) nsepseq par
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and 'a empty_list =
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(lbracket * rbracket * colon * 'a type_expr) par
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and 'a empty_set =
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(lbrace * rbrace * colon * 'a type_expr) par
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and 'a none_expr =
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(c_None * colon * 'a type_expr) par
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and 'a fun_call = ('a fun_name * 'a arguments) reg
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and 'a arguments = 'a tuple
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and 'a constr_app = ('a constr * 'a arguments) reg
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and 'a map_lookup = {
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map_name : 'a variable;
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selector : dot;
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index : 'a expr brackets
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}
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(* Patterns *)
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and 'a pattern = ('a core_pattern, cons) nsepseq reg
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and 'a core_pattern =
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PVar of Lexer.lexeme reg
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| PWild of wild
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| PInt of (Lexer.lexeme * Z.t) reg
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| PBytes of (Lexer.lexeme * MBytes.t) reg
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| PString of Lexer.lexeme reg
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| PUnit of c_Unit
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| PFalse of c_False
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| PTrue of c_True
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| PNone of c_None
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| PSome of (c_Some * 'a core_pattern par) reg
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| PList of 'a list_pattern
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| PTuple of ('a core_pattern, comma) nsepseq par
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and 'a list_pattern =
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Sugar of ('a core_pattern, comma) sepseq brackets
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| Raw of ('a core_pattern * cons * 'a pattern) par
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(* Projecting regions *)
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val type_expr_to_region : 'a type_expr -> Region.t
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val expr_to_region : 'a expr -> Region.t
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val instr_to_region : 'a instruction -> Region.t
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val core_pattern_to_region : 'a core_pattern -> Region.t
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val local_decl_to_region : 'a local_decl -> Region.t
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type 'a visitor = {
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ass_instr : 'a ass_instr -> unit;
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bind_to : (Region.t * 'a variable) option -> unit;
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block : 'a block reg -> unit;
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bytes : (string * MBytes.t) reg -> unit;
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cartesian : 'a cartesian -> unit;
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case : 'a case -> unit;
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cases : 'a cases -> unit;
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conditional : 'a conditional -> unit;
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const_decl : 'a const_decl reg -> unit;
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constr : 'a constr -> unit;
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constr_app : 'a constr_app -> unit;
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core_pattern : 'a core_pattern -> unit;
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down : Region.t option -> unit;
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empty_list : 'a empty_list -> unit;
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empty_set : 'a empty_set -> unit;
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expr : 'a expr -> unit;
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fail : (kwd_fail * 'a expr) -> unit;
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field_decl : 'a field_decl -> unit;
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field_decls : 'a field_decls -> unit;
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for_collect : 'a for_collect reg -> unit;
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for_int : 'a for_int reg -> unit;
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for_loop : 'a for_loop -> unit;
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fun_call : 'a fun_call -> unit;
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fun_decl : 'a fun_decl reg -> unit;
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instruction : 'a instruction -> unit;
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instructions : 'a instructions -> unit;
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int : (string * Z.t) reg -> unit;
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lambda_decl : 'a lambda_decl -> unit;
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list : ('a expr, Region.t) nsepseq brackets -> unit;
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list_pattern : 'a list_pattern -> unit;
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loop : 'a loop -> unit;
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map_lookup : 'a map_lookup reg -> unit;
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match_instr : 'a match_instr -> unit;
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none_expr : 'a none_expr -> unit;
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nsepseq : 'a.string -> ('a -> unit) -> ('a, Region.t) nsepseq -> unit;
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operations_decl : 'a operations_decl reg -> unit;
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par_expr : 'a expr par -> unit;
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par_type : 'a type_expr par -> unit;
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param_decl : 'a param_decl -> unit;
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parameter_decl : 'a parameter_decl reg -> unit;
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parameters : 'a parameters -> unit;
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param_const : 'a param_const -> unit;
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param_var : 'a param_var -> unit;
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pattern : 'a pattern -> unit;
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patterns : 'a core_pattern par -> unit;
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proc_decl : 'a proc_decl reg -> unit;
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psome : (Region.t * 'a core_pattern par) reg -> unit;
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ptuple : ('a core_pattern, Region.t) nsepseq par -> unit;
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raw : ('a core_pattern * Region.t * 'a pattern) par -> unit;
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record_type : 'a record_type -> unit;
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sepseq : 'a.string -> ('a -> unit) -> ('a, Region.t) sepseq -> unit;
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set : ('a expr, Region.t) nsepseq braces -> unit;
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single_instr : 'a single_instr -> unit;
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some_app : (Region.t * 'a arguments) reg -> unit;
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step : (Region.t * 'a expr) option -> unit;
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storage_decl : 'a storage_decl reg -> unit;
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string : string reg -> unit;
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sugar : ('a core_pattern, Region.t) sepseq brackets -> unit;
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sum_type : ('a variant, Region.t) nsepseq reg -> unit;
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terminator : semi option -> unit;
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token : Region.t -> string -> unit;
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tuple : 'a arguments -> unit;
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type_app : ('a type_name * 'a type_tuple) reg -> unit;
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type_decl : 'a type_decl reg -> unit;
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type_expr : 'a type_expr -> unit;
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type_tuple : 'a type_tuple -> unit;
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local_decl : 'a local_decl -> unit;
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local_decls : 'a local_decl list -> unit;
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var : 'a variable -> unit;
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var_decl : 'a var_decl reg -> unit;
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variant : 'a variant -> unit;
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while_loop : 'a while_loop -> unit
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}
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