package electrod

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Implements the type for concrete (Raw) and abstract (Ast) syntax trees, before inference of De Bruijn indices and simplification into Elo trees.

type ('v, 'i) t = private
  1. | Run of ('v, 'i) block
and ('v, 'i) fml = {
  1. prim_fml : ('v, 'i) prim_fml;
  2. fml_loc : Location.t;
}
and ('v, 'i) prim_fml = private
  1. | True
  2. | False
  3. | Qual of rqualify * ('v, 'i) exp
  4. | RComp of ('v, 'i) exp * comp_op * ('v, 'i) exp
  5. | IComp of ('v, 'i) iexp * icomp_op * ('v, 'i) iexp
  6. | LUn of lunop * ('v, 'i) fml
  7. | LBin of ('v, 'i) fml * lbinop * ('v, 'i) fml
  8. | Quant of quant * ('v, 'i) sim_binding list * ('v, 'i) block
  9. | Let of ('v, 'i) binding list * ('v, 'i) block
  10. | FIte of ('v, 'i) fml * ('v, 'i) fml * ('v, 'i) fml
  11. | Block of ('v, 'i) block
and ('v, 'i) binding = 'v * ('v, 'i) exp
and ('v, 'i) sim_binding = disj * 'v list * ('v, 'i) exp
and disj = bool
and ('v, 'i) block = ('v, 'i) fml list
and quant = private
  1. | All
  2. | Some_
  3. | No
  4. | One
  5. | Lone
and lbinop = private
  1. | And
  2. | Or
  3. | Imp
  4. | Iff
  5. | U
  6. | R
  7. | S
and lunop = private
  1. | F
  2. | G
  3. | Not
  4. | O
  5. | X
  6. | H
  7. | P
and comp_op = private
  1. | In
  2. | NotIn
  3. | REq
  4. | RNEq
and icomp_op = private
  1. | IEq
  2. | INEq
  3. | Lt
  4. | Lte
  5. | Gt
  6. | Gte
and ('v, 'i) exp = {
  1. prim_exp : ('v, 'i) prim_exp;
  2. exp_loc : Location.t;
  3. arity : int option;
}
and ('v, 'i) prim_exp = private
  1. | None_
  2. | Univ
  3. | Iden
  4. | Ident of 'i
  5. | RUn of runop * ('v, 'i) exp
  6. | RBin of ('v, 'i) exp * rbinop * ('v, 'i) exp
  7. | RIte of ('v, 'i) fml * ('v, 'i) exp * ('v, 'i) exp
  8. | BoxJoin of ('v, 'i) exp * ('v, 'i) exp list
  9. | Compr of ('v, 'i) sim_binding list * ('v, 'i) block
  10. | Prime of ('v, 'i) exp
and rqualify = private
  1. | ROne
  2. | RLone
  3. | RSome
  4. | RNo
and runop = private
  1. | Transpose
  2. | TClos
  3. | RTClos
and rbinop = private
  1. | Union
  2. | Inter
  3. | Over
  4. | LProj
  5. | RProj
  6. | Prod
  7. | Diff
  8. | Join
and ('v, 'i) iexp = {
  1. prim_iexp : ('v, 'i) prim_iexp;
  2. iexp_loc : Location.t;
}
and ('v, 'i) prim_iexp = private
  1. | Num of int
  2. | Card of ('v, 'i) exp
  3. | IUn of iunop * ('v, 'i) iexp
  4. | IBin of ('v, 'i) iexp * ibinop * ('v, 'i) iexp
and iunop = private
  1. | Neg
and ibinop = private
  1. | Add
  2. | Sub
class virtual 'c map : object ... end
class virtual 'c fold : object ... end
val true_ : ('a, 'b) prim_fml
val false_ : ('a, 'b) prim_fml
val qual : rqualify -> ('a, 'b) exp -> ('a, 'b) prim_fml
val rcomp : ('a, 'b) exp -> comp_op -> ('a, 'b) exp -> ('a, 'b) prim_fml
val icomp : ('a, 'b) iexp -> icomp_op -> ('a, 'b) iexp -> ('a, 'b) prim_fml
val lbinary : ('a, 'b) fml -> lbinop -> ('a, 'b) fml -> ('a, 'b) prim_fml
val quant : quant -> ('a, 'b) sim_binding list -> ('a, 'b) block -> ('a, 'b) prim_fml
val lunary : lunop -> ('a, 'b) fml -> ('a, 'b) prim_fml
val block : ('a, 'b) block -> ('a, 'b) prim_fml
val fite : ('a, 'b) fml -> ('a, 'b) fml -> ('a, 'b) fml -> ('a, 'b) prim_fml
val let_ : ('a, 'b) binding list -> ('a, 'b) block -> ('a, 'b) prim_fml
val all : quant
val some : quant
val no_ : quant
val lone : quant
val one : quant
val and_ : lbinop
val or_ : lbinop
val impl : lbinop
val iff : lbinop
val until : lbinop
val releases : lbinop
val since : lbinop
val not_ : lunop
val sometime : lunop
val always : lunop
val once : lunop
val next : lunop
val historically : lunop
val previous : lunop
val num : int -> ('a, 'b) prim_iexp
val none : ('a, 'b) prim_exp
val univ : ('a, 'b) prim_exp
val iden : ('a, 'b) prim_exp
val ident : 'a -> ('b, 'a) prim_exp
val runary : runop -> ('a, 'b) exp -> ('a, 'b) prim_exp
val rbinary : ('a, 'b) exp -> rbinop -> ('a, 'b) exp -> ('a, 'b) prim_exp
val rite : ('a, 'b) fml -> ('a, 'b) exp -> ('a, 'b) exp -> ('a, 'b) prim_exp
val boxjoin : ('a, 'b) exp -> ('a, 'b) exp list -> ('a, 'b) prim_exp
val compr : ('a, 'b) sim_binding list -> ('a, 'b) block -> ('a, 'b) prim_exp
val prime : ('a, 'b) exp -> ('a, 'b) prim_exp
val in_ : comp_op
val not_in : comp_op
val req : comp_op
val rneq : comp_op
val ieq : icomp_op
val ineq : icomp_op
val lt : icomp_op
val lte : icomp_op
val gt : icomp_op
val gte : icomp_op
val rone : rqualify
val rsome : rqualify
val rlone : rqualify
val rno : rqualify
val transpose : runop
val tclos : runop
val rtclos : runop
val union : rbinop
val inter : rbinop
val over : rbinop
val lproj : rbinop
val rproj : rbinop
val prod : rbinop
val diff : rbinop
val join : rbinop
val card : ('a, 'b) exp -> ('a, 'b) prim_iexp
val iunary : iunop -> ('a, 'b) iexp -> ('a, 'b) prim_iexp
val ibinary : ('a, 'b) iexp -> ibinop -> ('a, 'b) iexp -> ('a, 'b) prim_iexp
val neg : iunop
val add : ibinop
val sub : ibinop
val fml : Location.t -> ('a, 'b) prim_fml -> ('a, 'b) fml
val exp : int option -> Location.t -> ('a, 'b) prim_exp -> ('a, 'b) exp
val iexp : Location.t -> ('a, 'b) prim_iexp -> ('a, 'b) iexp
val run : ('a, 'b) block -> ('a, 'b) t
val kwd_styled : 'a Fmtc.t -> 'a Fmtc.t
val pp : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> Stdlib.Format.formatter -> ('a, 'b) t -> unit
val pp_fml : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> ('a, 'b) fml Fmtc.t
val pp_prim_fml : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> Stdlib.Format.formatter -> ('a, 'b) prim_fml -> unit
val pp_block : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> ('a, 'b) block Fmtc.t
val pp_rqualify : Stdlib.Format.formatter -> rqualify -> unit
val pp_comp_op : Stdlib.Format.formatter -> comp_op -> unit
val pp_icomp_op : Stdlib.Format.formatter -> icomp_op -> unit
val pp_lunop : Stdlib.Format.formatter -> lunop -> unit
val pp_lbinop : Stdlib.Format.formatter -> lbinop -> unit
val pp_quant : Stdlib.Format.formatter -> quant -> unit
val pp_binding : sep:unit Fmtc.t -> 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> ('a, 'b) binding Fmtc.t
val pp_sim_binding : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> ('a, 'b) sim_binding Fmtc.t
val pp_exp : ?show_arity:disj -> 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> ('a, 'b) exp Fmtc.t
val pp_prim_exp : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> Stdlib.Format.formatter -> ('a, 'b) prim_exp -> unit
val pp_runop : Stdlib.Format.formatter -> runop -> unit
val pp_rbinop : Stdlib.Format.formatter -> rbinop -> unit
val pp_iexp : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> Stdlib.Format.formatter -> ('a, 'b) iexp -> unit
val pp_prim_iexp : 'a Fmtc.t -> (Stdlib.Format.formatter -> 'b -> unit) -> Stdlib.Format.formatter -> ('a, 'b) prim_iexp -> unit
val pp_iunop : Stdlib.Format.formatter -> iunop -> unit
val pp_ibinop : Stdlib.Format.formatter -> ibinop -> unit
OCaml

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