ocaml/asmcomp/reg.ml

open Cmm

type t =
  { mutable name: string;
    stamp: int;
    typ: Cmm.machtype_component;
    mutable loc: location;
    mutable interf: t list;
    mutable prefer: (t * int) list;
    mutable degree: int;
    mutable spill_cost: int;
    mutable visited: bool }

and location =
    Unknown
  | Reg of int
  | Stack of stack_location

and stack_location =
    Local of int
  | Incoming of int
  | Outgoing of int

type reg = t

let dummy =
  { name = ""; stamp = 0; typ = Int; loc = Unknown;
    interf = []; prefer = []; degree = 0; spill_cost = 0; visited = false }

let currstamp = ref 0
let reg_list = ref([] : t list)

let new ty =
  let r = { name = ""; stamp = !currstamp; typ = ty; loc = Unknown;
            interf = []; prefer = []; degree = 0; spill_cost = 0;
            visited = false } in
  reg_list := r :: !reg_list;
  incr currstamp;
  r

let newv tyv =
  let n = Array.length tyv in
  let rv = Array.new n dummy in
  for i = 0 to n-1 do rv.(i) <- new tyv.(i) done;
  rv

let clone r =
  let nr = new r.typ in
  nr.name <- r.name;
  nr

let at_location ty loc =
  let r = { name = ""; stamp = !currstamp; typ = ty; loc = loc;
            interf = []; prefer = []; degree = 0; spill_cost = 0;
            visited = false } in
  incr currstamp;
  r

let reset() = reg_list := []
let all_registers() = !reg_list
let num_registers() = !currstamp

let reinit_reg r =
  r.loc <- Unknown;
  r.interf <- [];
  r.prefer <- [];
  r.degree <- 0;
  r.spill_cost <- 0

let reinit() =
  List.iter reinit_reg !reg_list

module RegOrder =
  struct
    type t = reg
    let compare r1 r2 = r1.stamp - r2.stamp
  end

module Set = Set.Make(RegOrder)
module Map = Map.Make(RegOrder)

let add_set_array s v =
  match Array.length v with
    0 -> s
  | 1 -> Set.add v.(0) s
  | n -> let rec add_all i =
           if i >= n then s else Set.add v.(i) (add_all(i+1))
         in add_all 0

let diff_set_array s v =
  match Array.length v with
    0 -> s
  | 1 -> Set.remove v.(0) s
  | n -> let rec remove_all i =
           if i >= n then s else Set.remove v.(i) (remove_all(i+1))
         in remove_all 0

let inter_set_array s v =
  match Array.length v with
    0 -> Set.empty
  | 1 -> if Set.mem v.(0) s
         then Set.add v.(0) Set.empty
         else Set.empty
  | n -> let rec inter_all i =
           if i >= n then Set.empty
           else if Set.mem v.(i) s then Set.add v.(i) (inter_all(i+1))
           else inter_all(i+1)
         in inter_all 0

let set_of_array v =
  match Array.length v with
    0 -> Set.empty
  | 1 -> Set.add v.(0) Set.empty
  | n -> let rec add_all i =
           if i >= n then Set.empty else Set.add v.(i) (add_all(i+1))
         in add_all 0
Premiere version. git-svn-id: http://caml.inria.fr/svn/ocaml/trunk@34 f963ae5c-01c2-4b8c-9fe0-0dff7051ff02 1995-06-15 01:17:29 -07:00			`open Cmm`

			`type t =`
			`{ mutable name: string;`
			`stamp: int;`
			`typ: Cmm.machtype_component;`
			`mutable loc: location;`
			`mutable interf: t list;`
			`mutable prefer: (t * int) list;`
			`mutable degree: int;`
			`mutable spill_cost: int;`
			`mutable visited: bool }`

			`and location =`
			`Unknown`
			`\| Reg of int`
			`\| Stack of stack_location`

			`and stack_location =`
			`Local of int`
			`\| Incoming of int`
			`\| Outgoing of int`

			`type reg = t`

			`let dummy =`
			`{ name = ""; stamp = 0; typ = Int; loc = Unknown;`
			`interf = []; prefer = []; degree = 0; spill_cost = 0; visited = false }`

			`let currstamp = ref 0`
			`let reg_list = ref([] : t list)`

			`let new ty =`
			`let r = { name = ""; stamp = !currstamp; typ = ty; loc = Unknown;`
			`interf = []; prefer = []; degree = 0; spill_cost = 0;`
			`visited = false } in`
			`reg_list := r :: !reg_list;`
			`incr currstamp;`
			`r`

			`let newv tyv =`
			`let n = Array.length tyv in`
			`let rv = Array.new n dummy in`
			`for i = 0 to n-1 do rv.(i) <- new tyv.(i) done;`
			`rv`

			`let clone r =`
			`let nr = new r.typ in`
			`nr.name <- r.name;`
			`nr`

			`let at_location ty loc =`
			`let r = { name = ""; stamp = !currstamp; typ = ty; loc = loc;`
			`interf = []; prefer = []; degree = 0; spill_cost = 0;`
			`visited = false } in`
			`incr currstamp;`
			`r`

			`let reset() = reg_list := []`
			`let all_registers() = !reg_list`
			`let num_registers() = !currstamp`

			`let reinit_reg r =`
			`r.loc <- Unknown;`
			`r.interf <- [];`
			`r.prefer <- [];`
			`r.degree <- 0;`
			`r.spill_cost <- 0`

			`let reinit() =`
			`List.iter reinit_reg !reg_list`

			`module RegOrder =`
			`struct`
			`type t = reg`
			`let compare r1 r2 = r1.stamp - r2.stamp`
			`end`

			`module Set = Set.Make(RegOrder)`
			`module Map = Map.Make(RegOrder)`

			`let add_set_array s v =`
			`match Array.length v with`
			`0 -> s`
			`\| 1 -> Set.add v.(0) s`
			`\| n -> let rec add_all i =`
			`if i >= n then s else Set.add v.(i) (add_all(i+1))`
			`in add_all 0`

			`let diff_set_array s v =`
			`match Array.length v with`
			`0 -> s`
			`\| 1 -> Set.remove v.(0) s`
			`\| n -> let rec remove_all i =`
			`if i >= n then s else Set.remove v.(i) (remove_all(i+1))`
			`in remove_all 0`

			`let inter_set_array s v =`
			`match Array.length v with`
			`0 -> Set.empty`
			`\| 1 -> if Set.mem v.(0) s`
			`then Set.add v.(0) Set.empty`
			`else Set.empty`
			`\| n -> let rec inter_all i =`
			`if i >= n then Set.empty`
			`else if Set.mem v.(i) s then Set.add v.(i) (inter_all(i+1))`
			`else inter_all(i+1)`
			`in inter_all 0`

			`let set_of_array v =`
			`match Array.length v with`
			`0 -> Set.empty`
			`\| 1 -> Set.add v.(0) Set.empty`
			`\| n -> let rec add_all i =`
			`if i >= n then Set.empty else Set.add v.(i) (add_all(i+1))`
			`in add_all 0`