806 lines
17 KiB
OCaml
806 lines
17 KiB
OCaml
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(* 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 keyword = Region.t
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type kwd_and = Region.t
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type kwd_begin = Region.t
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type kwd_block = Region.t
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type kwd_case = Region.t
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type kwd_const = Region.t
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type kwd_contains = Region.t
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type kwd_down = Region.t
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type kwd_else = Region.t
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type kwd_end = Region.t
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type kwd_entrypoint = Region.t
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type kwd_fail = Region.t
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type kwd_for = Region.t
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type kwd_from = Region.t
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type kwd_function = 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_list = Region.t
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type kwd_map = Region.t
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type kwd_mod = Region.t
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type kwd_nil = Region.t
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type kwd_not = Region.t
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type kwd_of = Region.t
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type kwd_or = Region.t
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type kwd_patch = Region.t
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type kwd_procedure = Region.t
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type kwd_record = Region.t
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type kwd_remove = Region.t
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type kwd_set = Region.t
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type kwd_skip = Region.t
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type kwd_step = Region.t
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type kwd_storage = Region.t
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type kwd_then = Region.t
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type kwd_to = Region.t
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type kwd_type = Region.t
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type kwd_var = 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 assign = Region.t
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type equal = Region.t
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type colon = 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 set_name = string reg
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type constr = string reg
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(* Parentheses *)
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type 'a par = {
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lpar : lpar;
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inside : 'a;
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rpar : rpar
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}
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(* Brackets compounds *)
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type 'a brackets = {
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lbracket : lbracket;
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inside : 'a;
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rbracket : rbracket
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}
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(* Braced compounds *)
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type 'a braces = {
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lbrace : lbrace;
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inside : 'a;
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rbrace : rbrace
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}
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(* The Abstract Syntax Tree *)
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type t = {
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decl : declaration nseq;
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eof : eof
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}
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and ast = t
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and declaration =
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TypeDecl of type_decl reg
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| ConstDecl of const_decl reg
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| LambdaDecl of lambda_decl
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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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const_type : 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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(* 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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TProd of cartesian
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| TSum of (variant reg, vbar) nsepseq reg
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| TRecord of record_type
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| TApp of (type_name * type_tuple) reg
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| TFun of (type_expr * arrow * type_expr) reg
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| TPar of type_expr par reg
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| TAlias of variable
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and cartesian = (type_expr, times) nsepseq reg
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and variant = {
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constr : constr;
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kwd_of : kwd_of;
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product : cartesian
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}
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and record_type = field_decl reg injection reg
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and field_decl = {
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field_name : field_name;
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colon : colon;
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field_type : type_expr
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}
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and type_tuple = (type_expr, comma) nsepseq par reg
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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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| EntryDecl of entry_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 entry_decl = {
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kwd_entrypoint : kwd_entrypoint;
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name : variable;
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param : entry_params;
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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 parameters = (param_decl, semi) nsepseq par reg
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and entry_params = (entry_param_decl, semi) nsepseq par reg
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and entry_param_decl =
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EntryConst of param_const reg
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| EntryVar of param_var reg
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| EntryStore of storage reg
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and storage = {
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kwd_storage : kwd_storage;
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var : variable;
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colon : colon;
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storage_type : type_expr
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}
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and param_decl =
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ParamConst of param_const reg
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| ParamVar of param_var reg
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and param_const = {
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kwd_const : kwd_const;
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var : variable;
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colon : colon;
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param_type : type_expr
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}
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and param_var = {
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kwd_var : kwd_var;
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var : variable;
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colon : colon;
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param_type : type_expr
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}
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and block = {
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opening : block_opening;
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statements : statements;
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terminator : semi option;
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closing : block_closing
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}
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and block_opening =
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Block of kwd_block * lbrace
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| Begin of kwd_begin
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and block_closing =
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Block of rbrace
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| End of kwd_end
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and statements = (statement, semi) nsepseq
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and statement =
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Instr of instruction
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| Data of data_decl
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and local_decl =
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LocalLam of lambda_decl
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| LocalData of data_decl
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and data_decl =
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LocalConst of const_decl reg
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| LocalVar of var_decl reg
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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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var_type : type_expr;
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assign : assign;
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init : expr;
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terminator : semi option
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}
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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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| CaseInstr of instruction case reg
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| Assign of assignment reg
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| Loop of loop
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| ProcCall of fun_call
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| Fail of fail_instr reg
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| Skip of kwd_skip
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| RecordPatch of record_patch reg
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| MapPatch of map_patch reg
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| SetPatch of set_patch reg
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| MapRemove of map_remove reg
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| SetRemove of set_remove reg
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and set_remove = {
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kwd_remove : kwd_remove;
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element : expr;
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kwd_from : kwd_from;
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kwd_set : kwd_set;
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set : path
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}
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and map_remove = {
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kwd_remove : kwd_remove;
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key : expr;
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kwd_from : kwd_from;
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kwd_map : kwd_map;
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map : path
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}
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and set_patch = {
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kwd_patch : kwd_patch;
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path : path;
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kwd_with : kwd_with;
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set_inj : expr injection reg
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}
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and map_patch = {
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kwd_patch : kwd_patch;
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path : path;
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kwd_with : kwd_with;
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map_inj : binding reg injection reg
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}
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and binding = {
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source : expr;
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arrow : arrow;
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image : expr
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}
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and record_patch = {
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kwd_patch : kwd_patch;
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path : path;
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kwd_with : kwd_with;
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record_inj : record_expr
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}
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and fail_instr = {
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kwd_fail : kwd_fail;
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fail_expr : expr
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}
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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 : if_clause;
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terminator : semi option;
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kwd_else : kwd_else;
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ifnot : if_clause
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}
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and if_clause =
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ClauseInstr of instruction
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| ClauseBlock of (statements * semi option) braces reg
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and set_membership = {
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set : expr;
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kwd_contains : kwd_contains;
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element : expr
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}
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and 'a case = {
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kwd_case : kwd_case;
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expr : expr;
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opening : opening;
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lead_vbar : vbar option;
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cases : ('a case_clause reg, vbar) nsepseq reg;
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closing : closing
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}
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and 'a case_clause = {
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pattern : pattern;
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arrow : arrow;
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rhs : 'a
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}
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and assignment = {
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lhs : lhs;
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assign : assign;
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rhs : rhs
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}
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and lhs =
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Path of path
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| MapPath of map_lookup reg
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and rhs =
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Expr of expr
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| NoneExpr of c_None
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and loop =
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While of while_loop reg
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| For of for_loop
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and while_loop = {
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kwd_while : kwd_while;
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cond : expr;
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block : block reg
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}
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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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assign : var_assign reg;
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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 var_assign = {
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name : variable;
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assign : assign;
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expr : expr
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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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| ECase of expr case reg
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| EAnnot of annot_expr reg
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| ELogic of logic_expr
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| EArith of arith_expr
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| EString of string_expr
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| EList of list_expr
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| ESet of set_expr
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| EConstr of constr_expr
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| ERecord of record_expr
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| EProj of projection reg
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| EMap of map_expr
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||
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| EVar of Lexer.lexeme reg
|
||
|
| ECall of fun_call
|
||
|
| EBytes of (Lexer.lexeme * Hex.t) reg
|
||
|
| EUnit of c_Unit
|
||
|
| ETuple of tuple_expr
|
||
|
| EPar of expr par reg
|
||
|
|
||
|
and annot_expr = (expr * type_expr)
|
||
|
|
||
|
and set_expr =
|
||
|
SetInj of expr injection reg
|
||
|
| SetMem of set_membership reg
|
||
|
|
||
|
and 'a injection = {
|
||
|
opening : opening;
|
||
|
elements : ('a, semi) sepseq;
|
||
|
terminator : semi option;
|
||
|
closing : closing
|
||
|
}
|
||
|
|
||
|
and opening =
|
||
|
Kwd of keyword
|
||
|
| KwdBracket of keyword * lbracket
|
||
|
|
||
|
and closing =
|
||
|
End of kwd_end
|
||
|
| RBracket of rbracket
|
||
|
|
||
|
and map_expr =
|
||
|
MapLookUp of map_lookup reg
|
||
|
| MapInj of binding reg injection reg
|
||
|
|
||
|
and map_lookup = {
|
||
|
path : path;
|
||
|
index : expr brackets reg
|
||
|
}
|
||
|
|
||
|
and path =
|
||
|
Name of variable
|
||
|
| Path of projection reg
|
||
|
|
||
|
and logic_expr =
|
||
|
BoolExpr of bool_expr
|
||
|
| CompExpr of comp_expr
|
||
|
|
||
|
and bool_expr =
|
||
|
Or of kwd_or bin_op reg
|
||
|
| And of kwd_and bin_op reg
|
||
|
| Not of kwd_not un_op reg
|
||
|
| False of c_False
|
||
|
| True of c_True
|
||
|
|
||
|
and 'a bin_op = {
|
||
|
op : 'a;
|
||
|
arg1 : expr;
|
||
|
arg2 : expr
|
||
|
}
|
||
|
|
||
|
and 'a un_op = {
|
||
|
op : 'a;
|
||
|
arg : expr
|
||
|
}
|
||
|
|
||
|
and comp_expr =
|
||
|
Lt of lt bin_op reg
|
||
|
| Leq of leq bin_op reg
|
||
|
| Gt of gt bin_op reg
|
||
|
| Geq of geq bin_op reg
|
||
|
| Equal of equal bin_op reg
|
||
|
| Neq of neq bin_op reg
|
||
|
|
||
|
and arith_expr =
|
||
|
Add of plus bin_op reg
|
||
|
| Sub of minus bin_op reg
|
||
|
| Mult of times bin_op reg
|
||
|
| Div of slash bin_op reg
|
||
|
| Mod of kwd_mod bin_op reg
|
||
|
| Neg of minus un_op reg
|
||
|
| Int of (Lexer.lexeme * Z.t) reg
|
||
|
| Nat of (Lexer.lexeme * Z.t) reg
|
||
|
| Mtz of (Lexer.lexeme * Z.t) reg
|
||
|
|
||
|
and string_expr =
|
||
|
Cat of cat bin_op reg
|
||
|
| String of Lexer.lexeme reg
|
||
|
|
||
|
and list_expr =
|
||
|
Cons of cons bin_op reg
|
||
|
| List of expr injection reg
|
||
|
| Nil of nil
|
||
|
|
||
|
and nil = kwd_nil
|
||
|
|
||
|
and constr_expr =
|
||
|
SomeApp of (c_Some * arguments) reg
|
||
|
| NoneExpr of none_expr
|
||
|
| ConstrApp of (constr * arguments) reg
|
||
|
|
||
|
and record_expr = field_assign reg injection reg
|
||
|
|
||
|
and field_assign = {
|
||
|
field_name : field_name;
|
||
|
equal : equal;
|
||
|
field_expr : expr
|
||
|
}
|
||
|
|
||
|
and projection = {
|
||
|
struct_name : variable;
|
||
|
selector : dot;
|
||
|
field_path : (selection, dot) nsepseq
|
||
|
}
|
||
|
|
||
|
and selection =
|
||
|
FieldName of field_name
|
||
|
| Component of (Lexer.lexeme * Z.t) reg
|
||
|
|
||
|
and tuple_expr =
|
||
|
TupleInj of tuple_injection
|
||
|
|
||
|
and tuple_injection = (expr, comma) nsepseq par reg
|
||
|
|
||
|
and none_expr = c_None
|
||
|
|
||
|
and fun_call = (fun_name * arguments) reg
|
||
|
|
||
|
and arguments = tuple_injection
|
||
|
|
||
|
(* Patterns *)
|
||
|
|
||
|
and pattern =
|
||
|
PCons of (pattern, cons) nsepseq reg
|
||
|
| PConstr of (constr * pattern reg) reg
|
||
|
| PVar of Lexer.lexeme reg
|
||
|
| PWild of wild
|
||
|
| PInt of (Lexer.lexeme * Z.t) reg
|
||
|
| PBytes of (Lexer.lexeme * Hex.t) reg
|
||
|
| PString of Lexer.lexeme reg
|
||
|
| PUnit of c_Unit
|
||
|
| PFalse of c_False
|
||
|
| PTrue of c_True
|
||
|
| PNone of c_None
|
||
|
| PSome of (c_Some * pattern par reg) reg
|
||
|
| PList of list_pattern
|
||
|
| PTuple of (pattern, comma) nsepseq par reg
|
||
|
|
||
|
and list_pattern =
|
||
|
Sugar of pattern injection reg
|
||
|
| PNil of kwd_nil
|
||
|
| Raw of (pattern * cons * pattern) par reg
|
||
|
|
||
|
(* Projecting regions *)
|
||
|
|
||
|
open! Region
|
||
|
|
||
|
let type_expr_to_region = function
|
||
|
TProd {region; _}
|
||
|
| TSum {region; _}
|
||
|
| TRecord {region; _}
|
||
|
| TApp {region; _}
|
||
|
| TFun {region; _}
|
||
|
| TPar {region; _}
|
||
|
| TAlias {region; _} -> region
|
||
|
|
||
|
let rec expr_to_region = function
|
||
|
| ELogic e -> logic_expr_to_region e
|
||
|
| EArith e -> arith_expr_to_region e
|
||
|
| EString e -> string_expr_to_region e
|
||
|
| EAnnot e -> annot_expr_to_region e
|
||
|
| EList e -> list_expr_to_region e
|
||
|
| ESet e -> set_expr_to_region e
|
||
|
| EConstr e -> constr_expr_to_region e
|
||
|
| ERecord e -> record_expr_to_region e
|
||
|
| EMap e -> map_expr_to_region e
|
||
|
| ETuple e -> tuple_expr_to_region e
|
||
|
| EProj {region; _}
|
||
|
| EVar {region; _}
|
||
|
| ECall {region; _}
|
||
|
| EBytes {region; _}
|
||
|
| EUnit region
|
||
|
| ECase {region;_}
|
||
|
| EPar {region; _} -> region
|
||
|
|
||
|
and tuple_expr_to_region = function
|
||
|
TupleInj {region; _} -> region
|
||
|
|
||
|
and map_expr_to_region = function
|
||
|
MapLookUp {region; _}
|
||
|
| MapInj {region; _} -> region
|
||
|
|
||
|
and set_expr_to_region = function
|
||
|
SetInj {region; _}
|
||
|
| SetMem {region; _} -> region
|
||
|
|
||
|
and logic_expr_to_region = function
|
||
|
BoolExpr e -> bool_expr_to_region e
|
||
|
| CompExpr e -> comp_expr_to_region e
|
||
|
|
||
|
and bool_expr_to_region = function
|
||
|
Or {region; _}
|
||
|
| And {region; _}
|
||
|
| Not {region; _}
|
||
|
| False region
|
||
|
| True region -> region
|
||
|
|
||
|
and comp_expr_to_region = function
|
||
|
Lt {region; _}
|
||
|
| Leq {region; _}
|
||
|
| Gt {region; _}
|
||
|
| Geq {region; _}
|
||
|
| Equal {region; _}
|
||
|
| Neq {region; _} -> region
|
||
|
|
||
|
and arith_expr_to_region = function
|
||
|
| Add {region; _}
|
||
|
| Sub {region; _}
|
||
|
| Mult {region; _}
|
||
|
| Div {region; _}
|
||
|
| Mod {region; _}
|
||
|
| Neg {region; _}
|
||
|
| Int {region; _}
|
||
|
| Nat {region; _}
|
||
|
| Mtz {region; _} -> region
|
||
|
|
||
|
and string_expr_to_region = function
|
||
|
Cat {region; _}
|
||
|
| String {region; _} -> region
|
||
|
|
||
|
and annot_expr_to_region ({region; _}) = region
|
||
|
|
||
|
and list_expr_to_region = function
|
||
|
Cons {region; _}
|
||
|
| List {region; _}
|
||
|
| Nil region -> region
|
||
|
|
||
|
and constr_expr_to_region = function
|
||
|
NoneExpr region
|
||
|
| ConstrApp {region; _}
|
||
|
| SomeApp {region; _} -> region
|
||
|
|
||
|
and record_expr_to_region {region; _} = region
|
||
|
|
||
|
let path_to_region = function
|
||
|
Name var -> var.region
|
||
|
| Path {region; _} -> region
|
||
|
|
||
|
let instr_to_region = function
|
||
|
Single Cond {region; _}
|
||
|
| Single CaseInstr {region; _}
|
||
|
| Single Assign {region; _}
|
||
|
| Single Loop While {region; _}
|
||
|
| Single Loop For ForInt {region; _}
|
||
|
| Single Loop For ForCollect {region; _}
|
||
|
| Single ProcCall {region; _}
|
||
|
| Single Skip region
|
||
|
| Single Fail {region; _}
|
||
|
| Single RecordPatch {region; _}
|
||
|
| Single MapPatch {region; _}
|
||
|
| Single SetPatch {region; _}
|
||
|
| Single MapRemove {region; _}
|
||
|
| Single SetRemove {region; _}
|
||
|
| Block {region; _} -> region
|
||
|
|
||
|
let if_clause_to_region = function
|
||
|
ClauseInstr instr -> instr_to_region instr
|
||
|
| ClauseBlock {region; _} -> region
|
||
|
|
||
|
let pattern_to_region = function
|
||
|
PCons {region; _}
|
||
|
| PVar {region; _}
|
||
|
| PWild region
|
||
|
| PInt {region; _}
|
||
|
| PBytes {region; _}
|
||
|
| PString {region; _}
|
||
|
| PUnit region
|
||
|
| PFalse region
|
||
|
| PTrue region
|
||
|
| PNone region
|
||
|
| PSome {region; _}
|
||
|
| PList Sugar {region; _}
|
||
|
| PList PNil region
|
||
|
| PList Raw {region; _}
|
||
|
| PConstr {region; _}
|
||
|
| PTuple {region; _} -> region
|
||
|
|
||
|
let local_decl_to_region = function
|
||
|
LocalLam FunDecl {region; _}
|
||
|
| LocalLam ProcDecl {region; _}
|
||
|
| LocalLam EntryDecl {region; _}
|
||
|
| LocalData LocalConst {region; _}
|
||
|
| LocalData LocalVar {region; _} -> region
|
||
|
|
||
|
let lhs_to_region : lhs -> Region.t = function
|
||
|
Path path -> path_to_region path
|
||
|
| MapPath {region; _} -> region
|
||
|
|
||
|
let rhs_to_region = function
|
||
|
Expr e -> expr_to_region e
|
||
|
| NoneExpr r -> r
|
||
|
|
||
|
let selection_to_region = function
|
||
|
FieldName {region; _}
|
||
|
| Component {region; _} -> region
|