00ff4bc322
This reverts commit 40377a80df
.
1160 lines
34 KiB
OCaml
1160 lines
34 KiB
OCaml
(* Abstract Syntax Tree (AST) for Ligo *)
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(* To disable warning about multiply-defined record labels. *)
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[@@@warning "-30-42"]
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(* Utilities *)
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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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let rec last to_region = function
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[] -> Region.ghost
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| [x] -> to_region x
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| _::t -> last to_region t
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let nseq_to_region to_region (hd,tl) =
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Region.cover (to_region hd) (last to_region tl)
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let nsepseq_to_region to_region (hd,tl) =
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let reg (_, item) = to_region item in
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Region.cover (to_region hd) (last reg tl)
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let sepseq_to_region to_region = function
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None -> Region.ghost
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| Some seq -> nsepseq_to_region to_region seq
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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 variable = string reg
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type fun_name = string reg
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type type_name = string reg
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type field_name = string reg
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type map_name = string reg
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type 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 = {
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types : type_decl reg list;
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constants : const_decl reg list;
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parameter : parameter_decl reg;
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storage : storage_decl reg;
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operations : operations_decl reg;
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lambdas : lambda_decl list;
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block : block reg;
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eof : eof
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}
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and ast = t
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and parameter_decl = {
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kwd_parameter : kwd_parameter;
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name : variable;
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colon : colon;
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param_type : type_expr;
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terminator : semi option
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}
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and storage_decl = {
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kwd_storage : kwd_storage;
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store_type : type_expr;
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terminator : semi option
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}
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and operations_decl = {
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kwd_operations : kwd_operations;
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op_type : type_expr;
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terminator : semi option
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}
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(* Type declarations *)
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and type_decl = {
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kwd_type : kwd_type;
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name : type_name;
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kwd_is : kwd_is;
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type_expr : type_expr;
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terminator : semi option
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}
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and type_expr =
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Prod of cartesian
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| Sum of (variant, vbar) nsepseq reg
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| Record of record_type
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| TypeApp of (type_name * type_tuple) reg
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| ParType of type_expr par
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| TAlias of variable
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and cartesian = (type_expr, times) nsepseq reg
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and variant = (constr * kwd_of * cartesian) reg
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and record_type = (kwd_record * field_decls * kwd_end) reg
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and field_decls = (field_decl, semi) nsepseq
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and field_decl = (variable * colon * type_expr) reg
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and type_tuple = (type_name, comma) nsepseq par
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(* Function and procedure declarations *)
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and lambda_decl =
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FunDecl of fun_decl reg
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| ProcDecl of proc_decl reg
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and fun_decl = {
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kwd_function : kwd_function;
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name : variable;
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param : parameters;
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colon : colon;
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ret_type : type_expr;
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kwd_is : kwd_is;
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local_decls : local_decl list;
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block : block reg;
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kwd_with : kwd_with;
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return : expr;
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terminator : semi option
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}
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and proc_decl = {
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kwd_procedure : kwd_procedure;
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name : variable;
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param : parameters;
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kwd_is : kwd_is;
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local_decls : local_decl list;
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block : block reg;
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terminator : semi option
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}
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and parameters = (param_decl, semi) nsepseq par
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and param_decl =
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ParamConst of param_const
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| ParamVar of param_var
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and param_const = (kwd_const * variable * colon * type_expr) reg
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and param_var = (kwd_var * variable * colon * type_expr) reg
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and block = {
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opening : kwd_begin;
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instr : instructions;
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terminator : semi option;
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close : kwd_end
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}
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and local_decl =
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LocalLam of lambda_decl
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| LocalConst of const_decl reg
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| LocalVar of var_decl reg
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and const_decl = {
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kwd_const : kwd_const;
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name : variable;
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colon : colon;
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vtype : type_expr;
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equal : equal;
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init : expr;
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terminator : semi option
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}
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and var_decl = {
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kwd_var : kwd_var;
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name : variable;
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colon : colon;
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vtype : type_expr;
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ass : ass;
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init : expr;
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terminator : semi option
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}
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and instructions = (instruction, semi) nsepseq reg
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and instruction =
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Single of single_instr
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| Block of block reg
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and single_instr =
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Cond of conditional reg
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| Match of match_instr reg
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| Ass of ass_instr
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| Loop of loop
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| ProcCall of fun_call
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| Null of kwd_null
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| Fail of (kwd_fail * expr) reg
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and conditional = {
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kwd_if : kwd_if;
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test : expr;
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kwd_then : kwd_then;
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ifso : instruction;
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kwd_else : kwd_else;
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ifnot : instruction
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}
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and match_instr = {
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kwd_match : kwd_match;
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expr : expr;
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kwd_with : kwd_with;
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lead_vbar : vbar option;
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cases : cases;
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kwd_end : kwd_end
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}
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and cases = (case, vbar) nsepseq reg
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and case = (pattern * arrow * instruction) reg
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and ass_instr = (variable * ass * expr) reg
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and loop =
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While of while_loop
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| For of for_loop
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and while_loop = (kwd_while * expr * block reg) reg
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and for_loop =
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ForInt of for_int reg
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| ForCollect of for_collect reg
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and for_int = {
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kwd_for : kwd_for;
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ass : ass_instr;
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down : kwd_down option;
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kwd_to : kwd_to;
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bound : expr;
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step : (kwd_step * expr) option;
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block : block reg
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}
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and for_collect = {
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kwd_for : kwd_for;
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var : variable;
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bind_to : (arrow * variable) option;
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kwd_in : kwd_in;
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expr : expr;
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block : block reg
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}
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(* Expressions *)
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and expr =
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Or of (expr * bool_or * expr) reg
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| And of (expr * bool_and * expr) reg
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| Lt of (expr * lt * expr) reg
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| Leq of (expr * leq * expr) reg
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| Gt of (expr * gt * expr) reg
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| Geq of (expr * geq * expr) reg
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| Equal of (expr * equal * expr) reg
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| Neq of (expr * neq * expr) reg
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| Cat of (expr * cat * expr) reg
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| Cons of (expr * cons * expr) reg
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| Add of (expr * plus * expr) reg
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| Sub of (expr * minus * expr) reg
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| Mult of (expr * times * expr) reg
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| Div of (expr * slash * expr) reg
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| Mod of (expr * kwd_mod * expr) reg
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| Neg of (minus * expr) reg
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| Not of (kwd_not * 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 tuple
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| List of (expr, comma) nsepseq brackets
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| EmptyList of empty_list
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| Set of (expr, comma) nsepseq braces
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| EmptySet of empty_set
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| NoneExpr of none_expr
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| FunCall of fun_call
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| ConstrApp of constr_app
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| SomeApp of (c_Some * arguments) reg
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| MapLookUp of map_lookup reg
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| ParExpr of expr par
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and tuple = (expr, comma) nsepseq par
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and empty_list =
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(lbracket * rbracket * colon * type_expr) par
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and empty_set =
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(lbrace * rbrace * colon * type_expr) par
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and none_expr =
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(c_None * colon * type_expr) par
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and fun_call = (fun_name * arguments) reg
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and arguments = tuple
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and constr_app = (constr * arguments) reg
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and map_lookup = {
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map_name : variable;
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selector : dot;
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index : expr brackets
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}
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(* Patterns *)
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and pattern = (core_pattern, cons) nsepseq reg
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and 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 * core_pattern par) reg
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| PList of list_pattern
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| PTuple of (core_pattern, comma) nsepseq par
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and list_pattern =
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Sugar of (core_pattern, comma) sepseq brackets
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| Raw of (core_pattern * cons * pattern) par
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(* Projecting regions *)
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open! Region
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let type_expr_to_region = function
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Prod node -> node.region
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| Sum node -> node.region
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| Record node -> node.region
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| TypeApp node -> node.region
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| ParType node -> node.region
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| TAlias node -> node.region
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let expr_to_region = function
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Or {region; _}
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| And {region; _}
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| Lt {region; _}
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| Leq {region; _}
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| Gt {region; _}
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| Geq {region; _}
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| Equal {region; _}
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| Neq {region; _}
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| Cat {region; _}
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| Cons {region; _}
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| Add {region; _}
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| Sub {region; _}
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| Mult {region; _}
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| Div {region; _}
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| Mod {region; _}
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| Neg {region; _}
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| Not {region; _}
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| Int {region; _}
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| Var {region; _}
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| String {region; _}
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| Bytes {region; _}
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| False region
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| True region
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| Unit region
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| Tuple {region; _}
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| List {region; _}
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| EmptyList {region; _}
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| Set {region; _}
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| EmptySet {region; _}
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| NoneExpr {region; _}
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| FunCall {region; _}
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| ConstrApp {region; _}
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| SomeApp {region; _}
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| MapLookUp {region; _}
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| ParExpr {region; _} -> region
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let instr_to_region = function
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Single Cond {region;_}
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| Single Match {region; _}
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| Single Ass {region; _}
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| Single Loop While {region; _}
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| Single Loop For ForInt {region; _}
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| Single Loop For ForCollect {region; _}
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| Single ProcCall {region; _}
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| Single Null region
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| Single Fail {region; _}
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| Block {region; _} -> region
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let core_pattern_to_region = function
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PVar {region; _}
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| PWild region
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| PInt {region; _}
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| PBytes {region; _}
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| PString {region; _}
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| PUnit region
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| PFalse region
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| PTrue region
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| PNone region
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| PSome {region; _}
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| PList Sugar {region; _}
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| PList Raw {region; _}
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| PTuple {region; _} -> region
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let local_decl_to_region = function
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LocalLam FunDecl {region; _}
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| LocalLam ProcDecl {region; _}
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| LocalConst {region; _}
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| LocalVar {region; _} -> region
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(* Printing the tokens with their source regions *)
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type visitor = {
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ass_instr : ass_instr -> unit;
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bind_to : (region * variable) option -> unit;
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block : block reg -> unit;
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bytes : (string * MBytes.t) reg -> unit;
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cartesian : cartesian -> unit;
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case : case -> unit;
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cases : cases -> unit;
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conditional : conditional -> unit;
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const_decl : const_decl reg -> unit;
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constr : constr -> unit;
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constr_app : constr_app -> unit;
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core_pattern : core_pattern -> unit;
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down : region option -> unit;
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empty_list : empty_list -> unit;
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empty_set : empty_set -> unit;
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expr : expr -> unit;
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fail : (kwd_fail * expr) -> unit;
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field_decl : field_decl -> unit;
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field_decls : field_decls -> unit;
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for_collect : for_collect reg -> unit;
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for_int : for_int reg -> unit;
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for_loop : for_loop -> unit;
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fun_call : fun_call -> unit;
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fun_decl : fun_decl reg -> unit;
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instruction : instruction -> unit;
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instructions : instructions -> unit;
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int : (string * Z.t) reg -> unit;
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lambda_decl : lambda_decl -> unit;
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list : (expr, region) nsepseq brackets -> unit;
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list_pattern : list_pattern -> unit;
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loop : loop -> unit;
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map_lookup : map_lookup reg -> unit;
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match_instr : match_instr -> unit;
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none_expr : none_expr -> unit;
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nsepseq : 'a.string -> ('a -> unit) -> ('a, region) nsepseq -> unit;
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operations_decl : operations_decl reg -> unit;
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par_expr : expr par -> unit;
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par_type : type_expr par -> unit;
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param_decl : param_decl -> unit;
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parameter_decl : parameter_decl reg -> unit;
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parameters : parameters -> unit;
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param_const : param_const -> unit;
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param_var : param_var -> unit;
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pattern : pattern -> unit;
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patterns : core_pattern par -> unit;
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proc_decl : proc_decl reg -> unit;
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psome : (region * core_pattern par) reg -> unit;
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ptuple : (core_pattern, region) nsepseq par -> unit;
|
|
raw : (core_pattern * region * pattern) par -> unit;
|
|
record_type : record_type -> unit;
|
|
sepseq : 'a.string -> ('a -> unit) -> ('a, region) sepseq -> unit;
|
|
set : (expr, region) nsepseq braces -> unit;
|
|
single_instr : single_instr -> unit;
|
|
some_app : (region * arguments) reg -> unit;
|
|
step : (region * expr) option -> unit;
|
|
storage_decl : storage_decl reg -> unit;
|
|
string : string reg -> unit;
|
|
sugar : (core_pattern, region) sepseq brackets -> unit;
|
|
sum_type : (variant, region) nsepseq reg -> unit;
|
|
terminator : semi option -> unit;
|
|
token : region -> string -> unit;
|
|
tuple : arguments -> unit;
|
|
type_app : (type_name * type_tuple) reg -> unit;
|
|
type_decl : type_decl reg -> unit;
|
|
type_expr : type_expr -> unit;
|
|
type_tuple : type_tuple -> unit;
|
|
local_decl : local_decl -> unit;
|
|
local_decls : local_decl list -> unit;
|
|
var : variable -> unit;
|
|
var_decl : var_decl reg -> unit;
|
|
variant : variant -> unit;
|
|
while_loop : while_loop -> unit
|
|
}
|
|
|
|
let printf = Printf.printf
|
|
|
|
let compact (region: Region.t) =
|
|
region#compact ~offsets:EvalOpt.offsets EvalOpt.mode
|
|
|
|
let print_nsepseq :
|
|
string -> ('a -> unit) -> ('a, Region.t) nsepseq -> unit =
|
|
fun sep visit (head, tail) ->
|
|
let print_aux (sep_reg, item) =
|
|
printf "%s: %s\n" (compact sep_reg) sep;
|
|
visit item
|
|
in visit head; List.iter print_aux tail
|
|
|
|
let print_sepseq :
|
|
string -> ('a -> unit) -> ('a, Region.t) sepseq -> unit =
|
|
fun sep visit -> function
|
|
None -> ()
|
|
| Some seq -> print_nsepseq sep visit seq
|
|
|
|
and print_token _visitor region lexeme =
|
|
printf "%s: %s\n"(compact region) lexeme
|
|
|
|
and print_var _visitor {region; value=lexeme} =
|
|
printf "%s: Ident \"%s\"\n" (compact region) lexeme
|
|
|
|
and print_constr _visitor {region; value=lexeme} =
|
|
printf "%s: Constr \"%s\"\n"
|
|
(compact region) lexeme
|
|
|
|
and print_string _visitor {region; value=lexeme} =
|
|
printf "%s: String \"%s\"\n"
|
|
(compact region) lexeme
|
|
|
|
and print_bytes _visitor {region; value = lexeme, abstract} =
|
|
printf "%s: Bytes (\"%s\", \"0x%s\")\n"
|
|
(compact region) lexeme
|
|
(MBytes.to_hex abstract |> Hex.to_string)
|
|
|
|
and print_int _visitor {region; value = lexeme, abstract} =
|
|
printf "%s: Int (\"%s\", %s)\n"
|
|
(compact region) lexeme
|
|
(Z.to_string abstract)
|
|
|
|
(* Main printing function *)
|
|
|
|
and print_tokens (v: visitor) ast =
|
|
List.iter v.type_decl ast.types;
|
|
v.parameter_decl ast.parameter;
|
|
v.storage_decl ast.storage;
|
|
v.operations_decl ast.operations;
|
|
List.iter v.lambda_decl ast.lambdas;
|
|
v.block ast.block;
|
|
v.token ast.eof "EOF"
|
|
|
|
and print_parameter_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_parameter "parameter";
|
|
v.var node.name;
|
|
v.token node.colon ":";
|
|
v.type_expr node.param_type;
|
|
v.terminator node.terminator
|
|
|
|
and print_storage_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_storage "storage";
|
|
v.type_expr node.store_type;
|
|
v.terminator node.terminator
|
|
|
|
and print_operations_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_operations "operations";
|
|
v.type_expr node.op_type;
|
|
v.terminator node.terminator
|
|
|
|
and print_type_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_type "type";
|
|
v.var node.name;
|
|
v.token node.kwd_is "is";
|
|
v.type_expr node.type_expr;
|
|
v.terminator node.terminator
|
|
|
|
and print_type_expr (v: visitor) = function
|
|
Prod cartesian -> v.cartesian cartesian
|
|
| Sum sum_type -> v.sum_type sum_type
|
|
| Record record_type -> v.record_type record_type
|
|
| TypeApp type_app -> v.type_app type_app
|
|
| ParType par_type -> v.par_type par_type
|
|
| TAlias type_alias -> v.var type_alias
|
|
|
|
and print_cartesian (v: visitor) {value=sequence; _} =
|
|
v.nsepseq "*" v.type_expr sequence
|
|
|
|
and print_variant (v: visitor) {value=node; _} =
|
|
let constr, kwd_of, cartesian = node in
|
|
v.constr constr;
|
|
v.token kwd_of "of";
|
|
v.cartesian cartesian
|
|
|
|
and print_sum_type (v: visitor) {value=sequence; _} =
|
|
v.nsepseq "|" v.variant sequence
|
|
|
|
and print_record_type (v: visitor) {value=node; _} =
|
|
let kwd_record, field_decls, kwd_end = node in
|
|
v.token kwd_record "record";
|
|
v.field_decls field_decls;
|
|
v.token kwd_end "end"
|
|
|
|
and print_type_app (v: visitor) {value=node; _} =
|
|
let type_name, type_tuple = node in
|
|
v.var type_name;
|
|
v.type_tuple type_tuple
|
|
|
|
and print_par_type (v: visitor) {value=node; _} =
|
|
let lpar, type_expr, rpar = node in
|
|
v.token lpar "(";
|
|
v.type_expr type_expr;
|
|
v.token rpar ")"
|
|
|
|
and print_field_decls (v: visitor) sequence =
|
|
v.nsepseq ";" v.field_decl sequence
|
|
|
|
and print_field_decl (v: visitor) {value=node; _} =
|
|
let var, colon, type_expr = node in
|
|
v.var var;
|
|
v.token colon ":";
|
|
v.type_expr type_expr
|
|
|
|
and print_type_tuple (v: visitor) {value=node; _} =
|
|
let lpar, sequence, rpar = node in
|
|
v.token lpar "(";
|
|
v.nsepseq "," v.var sequence;
|
|
v.token rpar ")"
|
|
|
|
and print_lambda_decl (v: visitor) = function
|
|
FunDecl fun_decl -> v.fun_decl fun_decl
|
|
| ProcDecl proc_decl -> v.proc_decl proc_decl
|
|
|
|
and print_fun_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_function "function";
|
|
v.var node.name;
|
|
v.parameters node.param;
|
|
v.token node.colon ":";
|
|
v.type_expr node.ret_type;
|
|
v.token node.kwd_is "is";
|
|
v.local_decls node.local_decls;
|
|
v.block node.block;
|
|
v.token node.kwd_with "with";
|
|
v.expr node.return;
|
|
v.terminator node.terminator
|
|
|
|
and print_proc_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_procedure "procedure";
|
|
v.var node.name;
|
|
v.parameters node.param;
|
|
v.token node.kwd_is "is";
|
|
v.local_decls node.local_decls;
|
|
v.block node.block;
|
|
v.terminator node.terminator
|
|
|
|
and print_parameters (v: visitor) {value=node; _} =
|
|
let lpar, sequence, rpar = node in
|
|
v.token lpar "(";
|
|
v.nsepseq ";" v.param_decl sequence;
|
|
v.token rpar ")"
|
|
|
|
and print_param_decl (v: visitor) = function
|
|
ParamConst param_const -> v.param_const param_const
|
|
| ParamVar param_var -> v.param_var param_var
|
|
|
|
and print_param_const (v: visitor) {value=node; _} =
|
|
let kwd_const, variable, colon, type_expr = node in
|
|
v.token kwd_const "const";
|
|
v.var variable;
|
|
v.token colon ":";
|
|
v.type_expr type_expr
|
|
|
|
and print_param_var (v: visitor) {value=node; _} =
|
|
let kwd_var, variable, colon, type_expr = node in
|
|
v.token kwd_var "var";
|
|
v.var variable;
|
|
v.token colon ":";
|
|
v.type_expr type_expr
|
|
|
|
and print_block (v: visitor) {value=node; _} =
|
|
v.token node.opening "begin";
|
|
v.instructions node.instr;
|
|
v.terminator node.terminator;
|
|
v.token node.close "end"
|
|
|
|
and print_local_decls (v: visitor) sequence =
|
|
List.iter v.local_decl sequence
|
|
|
|
and print_local_decl (v: visitor) = function
|
|
LocalLam decl -> v.lambda_decl decl
|
|
| LocalConst decl -> v.const_decl decl
|
|
| LocalVar decl -> v.var_decl decl
|
|
|
|
and print_const_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_const "const";
|
|
v.var node.name;
|
|
v.token node.colon ":";
|
|
v.type_expr node.vtype;
|
|
v.token node.equal "=";
|
|
v.expr node.init;
|
|
v.terminator node.terminator
|
|
|
|
and print_var_decl (v: visitor) {value=node; _} =
|
|
v.token node.kwd_var "var";
|
|
v.var node.name;
|
|
v.token node.colon ":";
|
|
v.type_expr node.vtype;
|
|
v.token node.ass ":=";
|
|
v.expr node.init;
|
|
v.terminator node.terminator
|
|
|
|
and print_instructions (v: visitor) {value=sequence; _} =
|
|
v.nsepseq ";" v.instruction sequence
|
|
|
|
and print_instruction (v: visitor) = function
|
|
Single instr -> v.single_instr instr
|
|
| Block block -> v.block block
|
|
|
|
and print_single_instr (v: visitor) = function
|
|
Cond {value; _} -> v.conditional value
|
|
| Match {value; _} -> v.match_instr value
|
|
| Ass instr -> v.ass_instr instr
|
|
| Loop loop -> v.loop loop
|
|
| ProcCall fun_call -> v.fun_call fun_call
|
|
| Null kwd_null -> v.token kwd_null "null"
|
|
| Fail {value; _} -> v.fail value
|
|
|
|
and print_fail (v: visitor) (kwd_fail, expr) =
|
|
v.token kwd_fail "fail";
|
|
v.expr expr
|
|
|
|
and print_conditional (v: visitor) node =
|
|
v.token node.kwd_if "if";
|
|
v.expr node.test;
|
|
v.token node.kwd_then "then";
|
|
v.instruction node.ifso;
|
|
v.token node.kwd_else "else";
|
|
v.instruction node.ifnot
|
|
|
|
and print_match_instr (v: visitor) node =
|
|
v.token node.kwd_match "match";
|
|
v.expr node.expr;
|
|
v.token node.kwd_with "with";
|
|
v.cases node.cases;
|
|
v.token node.kwd_end "end"
|
|
|
|
and print_cases (v: visitor) {value=sequence; _} =
|
|
v.nsepseq "|" v.case sequence
|
|
|
|
and print_case (v: visitor) {value=node; _} =
|
|
let pattern, arrow, instruction = node in
|
|
v.pattern pattern;
|
|
v.token arrow "->";
|
|
v.instruction instruction
|
|
|
|
and print_ass_instr (v: visitor) {value=node; _} =
|
|
let variable, ass, expr = node in
|
|
v.var variable;
|
|
v.token ass ":=";
|
|
v.expr expr
|
|
|
|
and print_loop (v: visitor) = function
|
|
While while_loop -> v.while_loop while_loop
|
|
| For for_loop -> v.for_loop for_loop
|
|
|
|
and print_while_loop (v: visitor) {value=node; _} =
|
|
let kwd_while, expr, block = node in
|
|
v.token kwd_while "while";
|
|
v.expr expr;
|
|
v.block block
|
|
|
|
and print_for_loop (v: visitor) = function
|
|
ForInt for_int -> v.for_int for_int
|
|
| ForCollect for_collect -> v.for_collect for_collect
|
|
|
|
and print_for_int (v: visitor) ({value=node; _} : for_int reg) =
|
|
v.token node.kwd_for "for";
|
|
v.ass_instr node.ass;
|
|
v.down node.down;
|
|
v.token node.kwd_to "to";
|
|
v.expr node.bound;
|
|
v.step node.step;
|
|
v.block node.block
|
|
|
|
and print_down (v: visitor) = function
|
|
Some kwd_down -> v.token kwd_down "down"
|
|
| None -> ()
|
|
|
|
and print_step (v: visitor) = function
|
|
Some (kwd_step, expr) ->
|
|
v.token kwd_step "step";
|
|
v.expr expr
|
|
| None -> ()
|
|
|
|
and print_for_collect (v: visitor) ({value=node; _} : for_collect reg) =
|
|
v.token node.kwd_for "for";
|
|
v.var node.var;
|
|
v.bind_to node.bind_to;
|
|
v.token node.kwd_in "in";
|
|
v.expr node.expr;
|
|
v.block node.block
|
|
|
|
and print_bind_to (v: visitor) = function
|
|
Some (arrow, variable) ->
|
|
v.token arrow "->";
|
|
v.var variable
|
|
| None -> ()
|
|
|
|
and print_expr (v: visitor) = function
|
|
Or {value = expr1, bool_or, expr2; _} ->
|
|
v.expr expr1; v.token bool_or "||"; v.expr expr2
|
|
| And {value = expr1, bool_and, expr2; _} ->
|
|
v.expr expr1; v.token bool_and "&&"; v.expr expr2
|
|
| Lt {value = expr1, lt, expr2; _} ->
|
|
v.expr expr1; v.token lt "<"; v.expr expr2
|
|
| Leq {value = expr1, leq, expr2; _} ->
|
|
v.expr expr1; v.token leq "<="; v.expr expr2
|
|
| Gt {value = expr1, gt, expr2; _} ->
|
|
v.expr expr1; v.token gt ">"; v.expr expr2
|
|
| Geq {value = expr1, geq, expr2; _} ->
|
|
v.expr expr1; v.token geq ">="; v.expr expr2
|
|
| Equal {value = expr1, equal, expr2; _} ->
|
|
v.expr expr1; v.token equal "="; v.expr expr2
|
|
| Neq {value = expr1, neq, expr2; _} ->
|
|
v.expr expr1; v.token neq "=/="; v.expr expr2
|
|
| Cat {value = expr1, cat, expr2; _} ->
|
|
v.expr expr1; v.token cat "^"; v.expr expr2
|
|
| Cons {value = expr1, cons, expr2; _} ->
|
|
v.expr expr1; v.token cons "<:"; v.expr expr2
|
|
| Add {value = expr1, add, expr2; _} ->
|
|
v.expr expr1; v.token add "+"; v.expr expr2
|
|
| Sub {value = expr1, sub, expr2; _} ->
|
|
v.expr expr1; v.token sub "-"; v.expr expr2
|
|
| Mult {value = expr1, mult, expr2; _} ->
|
|
v.expr expr1; v.token mult "*"; v.expr expr2
|
|
| Div {value = expr1, div, expr2; _} ->
|
|
v.expr expr1; v.token div "/"; v.expr expr2
|
|
| Mod {value = expr1, kwd_mod, expr2; _} ->
|
|
v.expr expr1; v.token kwd_mod "mod"; v.expr expr2
|
|
| Neg {value = minus, expr; _} ->
|
|
v.token minus "-"; v.expr expr
|
|
| Not {value = kwd_not, expr; _} ->
|
|
v.token kwd_not "not"; v.expr expr
|
|
| Int i -> v.int i
|
|
| Var var -> v.var var
|
|
| String s -> v.string s
|
|
| Bytes b -> v.bytes b
|
|
| False region -> v.token region "False"
|
|
| True region -> v.token region "True"
|
|
| Unit region -> v.token region "Unit"
|
|
| Tuple tuple -> v.tuple tuple
|
|
| List list -> v.list list
|
|
| EmptyList elist -> v.empty_list elist
|
|
| Set set -> v.set set
|
|
| EmptySet eset -> v.empty_set eset
|
|
| NoneExpr nexpr -> v.none_expr nexpr
|
|
| FunCall fun_call -> v.fun_call fun_call
|
|
| ConstrApp capp -> v.constr_app capp
|
|
| SomeApp sapp -> v.some_app sapp
|
|
| MapLookUp lookup -> v.map_lookup lookup
|
|
| ParExpr pexpr -> v.par_expr pexpr
|
|
|
|
and print_tuple (v: visitor) {value=node; _} =
|
|
let lpar, sequence, rpar = node in
|
|
v.token lpar "(";
|
|
v.nsepseq "," v.expr sequence;
|
|
v.token rpar ")"
|
|
|
|
and print_list (v: visitor) {value=node; _} =
|
|
let lbra, sequence, rbra = node in
|
|
v.token lbra "[";
|
|
v.nsepseq "," v.expr sequence;
|
|
v.token rbra "]"
|
|
|
|
and print_empty_list (v: visitor) {value=node; _} =
|
|
let lpar, (lbracket, rbracket, colon, type_expr), rpar = node in
|
|
v.token lpar "(";
|
|
v.token lbracket "[";
|
|
v.token rbracket "]";
|
|
v.token colon ":";
|
|
v.type_expr type_expr;
|
|
v.token rpar ")"
|
|
|
|
and print_set (v: visitor) {value=node; _} =
|
|
let lbrace, sequence, rbrace = node in
|
|
v.token lbrace "{";
|
|
v.nsepseq "," v.expr sequence;
|
|
v.token rbrace "}"
|
|
|
|
and print_empty_set (v: visitor) {value=node; _} =
|
|
let lpar, (lbrace, rbrace, colon, type_expr), rpar = node in
|
|
v.token lpar "(";
|
|
v.token lbrace "{";
|
|
v.token rbrace "}";
|
|
v.token colon ":";
|
|
v.type_expr type_expr;
|
|
v.token rpar ")"
|
|
|
|
and print_none_expr (v: visitor) {value=node; _} =
|
|
let lpar, (c_None, colon, type_expr), rpar = node in
|
|
v.token lpar "(";
|
|
v.token c_None "None";
|
|
v.token colon ":";
|
|
v.type_expr type_expr;
|
|
v.token rpar ")"
|
|
|
|
and print_fun_call (v: visitor) {value=node; _} =
|
|
let fun_name, arguments = node in
|
|
v.var fun_name;
|
|
v.tuple arguments
|
|
|
|
and print_constr_app (v: visitor) {value=node; _} =
|
|
let constr, arguments = node in
|
|
v.constr constr;
|
|
v.tuple arguments
|
|
|
|
and print_some_app (v: visitor) {value=node; _} =
|
|
let c_Some, arguments = node in
|
|
v.token c_Some "Some";
|
|
v.tuple arguments
|
|
|
|
and print_map_lookup (v: visitor) {value=node; _} =
|
|
let {value = lbracket, expr, rbracket; _} = node.index in
|
|
v.var node.map_name;
|
|
v.token node.selector ".";
|
|
v.token lbracket "[";
|
|
v.expr expr;
|
|
v.token rbracket "]"
|
|
|
|
and print_par_expr (v: visitor) {value=node; _} =
|
|
let lpar, expr, rpar = node in
|
|
v.token lpar "(";
|
|
v.expr expr;
|
|
v.token rpar ")"
|
|
|
|
and print_pattern (v: visitor) {value=sequence; _} =
|
|
v.nsepseq "<:" v.core_pattern sequence
|
|
|
|
and print_core_pattern (v: visitor) = function
|
|
PVar var -> v.var var
|
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| PWild wild -> v.token wild "_"
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| PInt i -> v.int i
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| PBytes b -> v.bytes b
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| PString s -> v.string s
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|
| PUnit region -> v.token region "Unit"
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|
| PFalse region -> v.token region "False"
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|
| PTrue region -> v.token region "True"
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|
| PNone region -> v.token region "None"
|
|
| PSome psome -> v.psome psome
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| PList pattern -> v.list_pattern pattern
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|
| PTuple ptuple -> v.ptuple ptuple
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|
|
|
and print_psome (v: visitor) {value=node; _} =
|
|
let c_Some, patterns = node in
|
|
v.token c_Some "Some";
|
|
v.patterns patterns
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|
|
|
and print_patterns (v: visitor) {value=node; _} =
|
|
let lpar, core_pattern, rpar = node in
|
|
v.token lpar "(";
|
|
v.core_pattern core_pattern;
|
|
v.token rpar ")"
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|
|
|
and print_list_pattern (v: visitor) = function
|
|
Sugar sugar -> v.sugar sugar
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|
| Raw raw -> v.raw raw
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|
|
|
and print_sugar (v: visitor) {value=node; _} =
|
|
let lbracket, sequence, rbracket = node in
|
|
v.token lbracket "[";
|
|
v.sepseq "," v.core_pattern sequence;
|
|
v.token rbracket "]"
|
|
|
|
and print_raw (v: visitor) {value=node; _} =
|
|
let lpar, (core_pattern, cons, pattern), rpar = node in
|
|
v.token lpar "(";
|
|
v.core_pattern core_pattern;
|
|
v.token cons "<:";
|
|
v.pattern pattern;
|
|
v.token rpar ")"
|
|
|
|
and print_ptuple (v: visitor) {value=node; _} =
|
|
let lpar, sequence, rpar = node in
|
|
v.token lpar "(";
|
|
v.nsepseq "," v.core_pattern sequence;
|
|
v.token rpar ")"
|
|
|
|
and print_terminator (v: visitor) = function
|
|
Some semi -> v.token semi ";"
|
|
| None -> ()
|
|
|
|
let rec visitor () : visitor = {
|
|
nsepseq = print_nsepseq;
|
|
sepseq = print_sepseq;
|
|
token = print_token (visitor ());
|
|
var = print_var (visitor ());
|
|
constr = print_constr (visitor ());
|
|
string = print_string (visitor ());
|
|
bytes = print_bytes (visitor ());
|
|
int = print_int (visitor ());
|
|
|
|
local_decl = print_local_decl (visitor ());
|
|
fail = print_fail (visitor ());
|
|
param_var = print_param_var (visitor ());
|
|
param_const = print_param_const (visitor ());
|
|
const_decl = print_const_decl (visitor ());
|
|
parameter_decl = print_parameter_decl (visitor ());
|
|
storage_decl = print_storage_decl (visitor ());
|
|
operations_decl = print_operations_decl (visitor ());
|
|
type_decl = print_type_decl (visitor ());
|
|
type_expr = print_type_expr (visitor ());
|
|
cartesian = print_cartesian (visitor ());
|
|
variant = print_variant (visitor ());
|
|
sum_type = print_sum_type (visitor ());
|
|
record_type = print_record_type (visitor ());
|
|
type_app = print_type_app (visitor ());
|
|
par_type = print_par_type (visitor ());
|
|
field_decls = print_field_decls (visitor ());
|
|
field_decl = print_field_decl (visitor ());
|
|
type_tuple = print_type_tuple (visitor ());
|
|
lambda_decl = print_lambda_decl (visitor ());
|
|
fun_decl = print_fun_decl (visitor ());
|
|
proc_decl = print_proc_decl (visitor ());
|
|
parameters = print_parameters (visitor ());
|
|
param_decl = print_param_decl (visitor ());
|
|
block = print_block (visitor ());
|
|
local_decls = print_local_decls (visitor ());
|
|
var_decl = print_var_decl (visitor ());
|
|
instructions = print_instructions (visitor ());
|
|
instruction = print_instruction (visitor ());
|
|
single_instr = print_single_instr (visitor ());
|
|
conditional = print_conditional (visitor ());
|
|
match_instr = print_match_instr (visitor ());
|
|
cases = print_cases (visitor ());
|
|
case = print_case (visitor ());
|
|
ass_instr = print_ass_instr (visitor ());
|
|
loop = print_loop (visitor ());
|
|
while_loop = print_while_loop (visitor ());
|
|
for_loop = print_for_loop (visitor ());
|
|
for_int = print_for_int (visitor ());
|
|
down = print_down (visitor ());
|
|
step = print_step (visitor ());
|
|
for_collect = print_for_collect (visitor ());
|
|
bind_to = print_bind_to (visitor ());
|
|
expr = print_expr (visitor ());
|
|
tuple = print_tuple (visitor ());
|
|
list = print_list (visitor ());
|
|
empty_list = print_empty_list (visitor ());
|
|
set = print_set (visitor ());
|
|
empty_set = print_empty_set (visitor ());
|
|
none_expr = print_none_expr (visitor ());
|
|
fun_call = print_fun_call (visitor ());
|
|
constr_app = print_constr_app (visitor ());
|
|
some_app = print_some_app (visitor ());
|
|
map_lookup = print_map_lookup (visitor ());
|
|
par_expr = print_par_expr (visitor ());
|
|
pattern = print_pattern (visitor ());
|
|
core_pattern = print_core_pattern (visitor ());
|
|
psome = print_psome (visitor ());
|
|
patterns = print_patterns (visitor ());
|
|
list_pattern = print_list_pattern (visitor ());
|
|
sugar = print_sugar (visitor ());
|
|
raw = print_raw (visitor ());
|
|
ptuple = print_ptuple (visitor ());
|
|
terminator = print_terminator (visitor ())
|
|
}
|
|
|
|
let print_tokens = print_tokens (visitor ())
|