460 lines
19 KiB
OCaml
460 lines
19 KiB
OCaml
module RISCSimpleStatements = struct
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type register = {
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index: int
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}
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type t =
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| Nop
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| BRegOp of brop * register * register * register
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| BImmOp of biop * register * int * register
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| URegOp of urop * register * register
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| Load of register * register
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| LoadI of register * int
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| Store of register * register
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and brop =
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| Add
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| Sub
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| Mult
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| Div
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| Mod
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| Pow
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| And
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| Or
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| Eq
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| Less
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| LessEq
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| More
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| MoreEq
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and biop =
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| AddI
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| SubI
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| MultI
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| DivI
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| ModI
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| PowI
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| AndI
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| OrI
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| EqI
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| LessI
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| LessEqI
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| MoreI
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| MoreEqI
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and urop =
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| Not
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| Copy
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| Rand
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let pp (ppf: out_channel) (v: t) : unit =
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let rec pp_t (ppf: out_channel) (v: t) : unit =
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match v with
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Nop -> Printf.fprintf ppf "nop"
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| BRegOp (b, r1, r2, r3) -> Printf.fprintf ppf "%a r%d r%d => r%d" pp_brop b r1.index r2.index r3.index
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| BImmOp (b, r1, i, r3) -> Printf.fprintf ppf "%a r%d %d => r%d" pp_biop b r1.index i r3.index
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| URegOp (u, r1, r2) -> Printf.fprintf ppf "%a r%d => r%d" pp_urop u r1.index r2.index
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| Load (r1, r2) -> Printf.fprintf ppf "load r%d => r%d" r1.index r2.index
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| LoadI (r2, i) -> Printf.fprintf ppf "loadi %d => r%d" i r2.index
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| Store (r1, r2) -> Printf.fprintf ppf "store r%d => r%d" r1.index r2.index
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and pp_brop (ppf: out_channel) (v: brop) : unit =
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match v with
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Add -> Printf.fprintf ppf "Add"
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| Sub -> Printf.fprintf ppf "Sub"
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| Mult -> Printf.fprintf ppf "Mult"
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| Div -> Printf.fprintf ppf "Div"
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| Mod -> Printf.fprintf ppf "Mod"
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| Pow -> Printf.fprintf ppf "Pow"
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| And -> Printf.fprintf ppf "And"
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| Or -> Printf.fprintf ppf "Or"
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| Eq -> Printf.fprintf ppf "Eq"
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| Less -> Printf.fprintf ppf "Less"
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| LessEq -> Printf.fprintf ppf "LessEq"
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| More -> Printf.fprintf ppf "More"
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| MoreEq -> Printf.fprintf ppf "MoreEq"
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and pp_biop (ppf: out_channel) (v: biop) : unit =
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match v with
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AddI -> Printf.fprintf ppf "AddI"
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| SubI -> Printf.fprintf ppf "SubI"
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| MultI -> Printf.fprintf ppf "MultI"
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| DivI -> Printf.fprintf ppf "DivI"
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| ModI -> Printf.fprintf ppf "ModI"
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| PowI -> Printf.fprintf ppf "PowI"
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| AndI -> Printf.fprintf ppf "AndI"
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| OrI -> Printf.fprintf ppf "OrI"
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| EqI -> Printf.fprintf ppf "EqI"
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| LessI -> Printf.fprintf ppf "LessI"
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| LessEqI -> Printf.fprintf ppf "LessEqI"
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| MoreI -> Printf.fprintf ppf "MoreI"
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| MoreEqI -> Printf.fprintf ppf "MoreEqI"
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and pp_urop (ppf: out_channel) (v: urop) : unit =
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match v with
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Not -> Printf.fprintf ppf "Nop"
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| Copy -> Printf.fprintf ppf "Copy"
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| Rand -> Printf.fprintf ppf "Rand"
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in
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pp_t ppf v
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let pplist (ppf: out_channel) (l: t list) : unit =
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List.iter (fun x -> pp ppf x; Printf.printf "; ") l
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end
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module RISCCfg = Cfg.Make(RISCSimpleStatements)
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let globalcounter = ref 0
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module RegisterMap = struct
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type m = {
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assignments: int Types.VariableMap.t
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}
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let _get_opt_register (x: Types.variable) (m: m) : RISCSimpleStatements.register option =
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Option.bind
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(Types.VariableMap.find_opt x m.assignments)
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(fun (x: int) : RISCSimpleStatements.register option -> Some {index = x})
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let get_or_set_register (x: Types.variable) (m: m) : RISCSimpleStatements.register * m =
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match Types.VariableMap.find_opt x m.assignments with
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None ->
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( globalcounter := !globalcounter + 1;
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({index = !globalcounter}, {assignments = Types.VariableMap.add x !globalcounter m.assignments}) )
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| Some i -> ({index = i}, m)
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let get_fresh_register (m: m) : RISCSimpleStatements.register * m * Types.variable =
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globalcounter := !globalcounter + 1;
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let freshvariable = string_of_int !globalcounter in
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({index = !globalcounter},
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{assignments = Types.VariableMap.add freshvariable !globalcounter m.assignments},
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freshvariable)
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let empty : m =
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{assignments = Types.VariableMap.empty}
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(* let pp (ppx) (m: m) : unit = *)
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(* Printf.fprintf ppx "RegisterMap contents: "; *)
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(* List.iter (fun (n, v) -> Printf.fprintf ppx "%s -> %d, " n v) (Types.VariableMap.to_list m.assignments); *)
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(* Printf.fprintf ppx "\n"; *)
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end
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let rec c_ss_t
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(ss: CfgImp.SimpleStatements.t)
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(m: RegisterMap.m)
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(convertedcode: RISCSimpleStatements.t list)
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: RISCSimpleStatements.t list * RegisterMap.m =
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match ss with
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SimpleSkip -> (Nop :: convertedcode, m)
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| SimpleAssignment (v, sa) -> (
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let r1, m = RegisterMap.get_or_set_register v m in
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c_ss_sa sa m convertedcode r1
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)
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| SimpleGuard (b) -> (
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let returnreg, m, _returnregvar = RegisterMap.get_fresh_register m in
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c_ss_sb b m convertedcode returnreg
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)
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and c_ss_sb
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(ss: CfgImp.SimpleStatements.simpleBoolean)
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(m: RegisterMap.m)
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(convertedcode: RISCSimpleStatements.t list)
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(register: RISCSimpleStatements.register)
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: RISCSimpleStatements.t list * RegisterMap.m =
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match ss with
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SimpleBoolean (b) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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if b then
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(LoadI (partialresreg, 1) :: convertedcode, m)
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else
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(LoadI (partialresreg, 0) :: convertedcode, m)
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)
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| SimpleBAnd (b1, b2) -> (
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match (b1, b2) with
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| (SimpleBoolean (true), b)
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| (b, SimpleBoolean (true)) -> (
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c_ss_sb b m convertedcode register
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)
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| (SimpleBoolean (false), _)
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| (_, SimpleBoolean (false)) -> (
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(LoadI (register, 0) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sb b1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sb b2 m convertedcode partialresreg2 in
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(BRegOp (And, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBOr (b1, b2) -> (
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match (b1, b2) with
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| (SimpleBoolean (false), b)
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| (b, SimpleBoolean (false)) -> (
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c_ss_sb b m convertedcode register
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)
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| (SimpleBoolean (true), _)
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| (_, SimpleBoolean (true)) -> (
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(LoadI (register, 1) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sb b1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sb b2 m convertedcode partialresreg2 in
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(BRegOp (Or, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBNot (b) -> (
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match (b) with
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| SimpleBoolean (b) ->(
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if b then
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(LoadI (register, 0) :: convertedcode, m)
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else
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(LoadI (register, 1) :: convertedcode, m)
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)
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| _ -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sb b m convertedcode partialresreg in
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(URegOp (Not, partialresreg, register) :: convertedcode, m)
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)
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)
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| SimpleBCmp (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (EqI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Eq, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBCmpLess (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (MoreI, partialresreg, i, register) :: convertedcode, m)
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)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (LessI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Less, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBCmpLessEq (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (MoreEqI, partialresreg, i, register) :: convertedcode, m)
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)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (LessEqI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (LessEq, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBCmpGreater (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (LessI, partialresreg, i, register) :: convertedcode, m)
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)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (MoreI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (More, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleBCmpGreaterEq (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (LessEqI, partialresreg, i, register) :: convertedcode, m)
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)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (MoreEqI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (MoreEq, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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and c_ss_sa
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(ss: CfgImp.SimpleStatements.simpleArithmetic)
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(m: RegisterMap.m)
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(convertedcode: RISCSimpleStatements.t list)
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(register: RISCSimpleStatements.register)
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: RISCSimpleStatements.t list * RegisterMap.m =
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match ss with
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SimpleVariable (x) -> (
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let r1, m = RegisterMap.get_or_set_register x m in
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(Load (r1, register) :: convertedcode, m)
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)
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| SimpleInteger (i) -> (LoadI (register, i) :: convertedcode, m)
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| SimplePlus (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (AddI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Add, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleMinus (a1, a2) -> (
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match (a1, a2) with
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (SubI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Sub, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleTimes (a1, a2) -> (
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match (a1, a2) with
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| (SimpleInteger (i), a)
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (MultI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Mult, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleDivision (a1, a2) -> (
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match (a1, a2) with
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (DivI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Div, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimpleModulo (a1, a2) -> (
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match (a1, a2) with
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
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(BImmOp (ModI, partialresreg, i, register) :: convertedcode, m)
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)
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| (_, _) -> (
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let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
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let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
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let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
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(BRegOp (Mod, partialresreg1, partialresreg2, register) :: convertedcode, m)
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)
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)
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| SimplePower (a1, a2) -> (
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match (a1, a2) with
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| (a, SimpleInteger (i)) -> (
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let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
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let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
|
|
(BImmOp (PowI, partialresreg, i, register) :: convertedcode, m)
|
|
)
|
|
| (_, _) -> (
|
|
let partialresreg1, m, _partialresvar1 = RegisterMap.get_fresh_register m in
|
|
let partialresreg2, m, _partialresvar2 = RegisterMap.get_fresh_register m in
|
|
let convertedcode, m = c_ss_sa a1 m convertedcode partialresreg1 in
|
|
let convertedcode, m = c_ss_sa a2 m convertedcode partialresreg2 in
|
|
(BRegOp (Pow, partialresreg1, partialresreg2, register) :: convertedcode, m)
|
|
)
|
|
)
|
|
| SimplePowerMod (_a1, _a2, _a3) -> failwith "Not implemented Powermod"
|
|
| SimpleRand (a) -> (
|
|
let partialresreg, m, _partialresvar = RegisterMap.get_fresh_register m in
|
|
let convertedcode, m = c_ss_sa a m convertedcode partialresreg in
|
|
(URegOp (Rand, partialresreg, register) :: convertedcode, m)
|
|
)
|
|
|
|
let convert_ss
|
|
(m: RegisterMap.m)
|
|
(value: CfgImp.SimpleStatements.t list)
|
|
(node: Cfg.Node.t)
|
|
(risccode: RISCSimpleStatements.t list Cfg.NodeMap.t)
|
|
: RISCSimpleStatements.t list Cfg.NodeMap.t * RegisterMap.m =
|
|
let instructions, m = List.fold_right (fun code (convertedcode, m) ->
|
|
c_ss_t code m convertedcode) value ([], m) in
|
|
(Cfg.NodeMap.add node instructions risccode, m)
|
|
|
|
let helper (c: CfgImp.SimpleStatements.t list Cfg.NodeMap.t) (m: RegisterMap.m) : RISCSimpleStatements.t list Cfg.NodeMap.t =
|
|
let risccode, _ = Cfg.NodeMap.fold (fun node value (risccode, m) -> convert_ss m value node risccode) c (Cfg.NodeMap.empty, m) in
|
|
risccode
|
|
|
|
let convert_content (c: CfgImp.SimpleStatements.t list Cfg.NodeMap.t) : RISCSimpleStatements.t list Cfg.NodeMap.t =
|
|
helper c RegisterMap.empty
|
|
|
|
let convert (prg: CfgImp.SSCfg.t) : RISCCfg.t =
|
|
match prg with
|
|
{ empty: bool;
|
|
nodes: Cfg.NodeSet.t;
|
|
edges: (Cfg.Node.t * (Cfg.Node.t option)) Cfg.NodeMap.t;
|
|
reverseEdges: (Cfg.Node.t list) Cfg.NodeMap.t;
|
|
inputVal: int option;
|
|
inputOutputVar: (string * string) option;
|
|
initial: Cfg.Node.t option;
|
|
terminal: Cfg.Node.t option;
|
|
content: CfgImp.SimpleStatements.t list Cfg.NodeMap.t
|
|
} -> { empty = empty;
|
|
nodes = nodes;
|
|
edges = edges;
|
|
reverseEdges = reverseEdges;
|
|
inputVal = inputVal;
|
|
inputOutputVar = inputOutputVar;
|
|
initial = initial;
|
|
terminal = terminal;
|
|
content = convert_content content;
|
|
}
|