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eval_num.ml
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197 lines (168 loc) · 5.72 KB
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open Types
open Values
(* Int operators *)
module IntOp (IXX : Ixx.S) (Num : NumType with type t = IXX.t) =
struct
open Ast.IntOp
open Num
let unop op =
let f = match op with
| Clz -> IXX.clz
| Ctz -> IXX.ctz
| Popcnt -> IXX.popcnt
| ExtendS sz -> IXX.extend_s (8 * packed_size sz)
in fun v -> to_num (f (of_num 1 v))
let binop op =
let f = match op with
| Add -> IXX.add
| Sub -> IXX.sub
| Mul -> IXX.mul
| DivS -> IXX.div_s
| DivU -> IXX.div_u
| RemS -> IXX.rem_s
| RemU -> IXX.rem_u
| And -> IXX.and_
| Or -> IXX.or_
| Xor -> IXX.xor
| Shl -> IXX.shl
| ShrU -> IXX.shr_u
| ShrS -> IXX.shr_s
| Rotl -> IXX.rotl
| Rotr -> IXX.rotr
in fun v1 v2 -> to_num (f (of_num 1 v1) (of_num 2 v2))
let testop op =
let f = match op with
| Eqz -> IXX.eqz
in fun v -> f (of_num 1 v)
let relop op =
let f = match op with
| Eq -> IXX.eq
| Ne -> IXX.ne
| LtS -> IXX.lt_s
| LtU -> IXX.lt_u
| LeS -> IXX.le_s
| LeU -> IXX.le_u
| GtS -> IXX.gt_s
| GtU -> IXX.gt_u
| GeS -> IXX.ge_s
| GeU -> IXX.ge_u
in fun v1 v2 -> f (of_num 1 v1) (of_num 2 v2)
end
module I32Op = IntOp (I32) (I32Num)
module I64Op = IntOp (I64) (I64Num)
(* Float operators *)
module FloatOp (FXX : Fxx.S) (Num : NumType with type t = FXX.t) =
struct
open Ast.FloatOp
open Num
let unop op =
let f = match op with
| Neg -> FXX.neg
| Abs -> FXX.abs
| Sqrt -> FXX.sqrt
| Ceil -> FXX.ceil
| Floor -> FXX.floor
| Trunc -> FXX.trunc
| Nearest -> FXX.nearest
in fun v -> to_num (f (of_num 1 v))
let binop op =
let f = match op with
| Add -> FXX.add
| Sub -> FXX.sub
| Mul -> FXX.mul
| Div -> FXX.div
| Min -> FXX.min
| Max -> FXX.max
| CopySign -> FXX.copysign
in fun v1 v2 -> to_num (f (of_num 1 v1) (of_num 2 v2))
let testop _op = assert false
let relop op =
let f = match op with
| Eq -> FXX.eq
| Ne -> FXX.ne
| Lt -> FXX.lt
| Le -> FXX.le
| Gt -> FXX.gt
| Ge -> FXX.ge
in fun v1 v2 -> f (of_num 1 v1) (of_num 2 v2)
end
module F32Op = FloatOp (F32) (F32Num)
module F64Op = FloatOp (F64) (F64Num)
(* Conversion operators *)
module I32CvtOp =
struct
open Ast.IntOp
let cvtop op v =
let i = match op with
| WrapI64 -> I32_convert.wrap_i64 (I64Num.of_num 1 v)
| TruncUF32 -> I32_convert.trunc_f32_u (F32Num.of_num 1 v)
| TruncSF32 -> I32_convert.trunc_f32_s (F32Num.of_num 1 v)
| TruncUF64 -> I32_convert.trunc_f64_u (F64Num.of_num 1 v)
| TruncSF64 -> I32_convert.trunc_f64_s (F64Num.of_num 1 v)
| TruncSatUF32 -> I32_convert.trunc_sat_f32_u (F32Num.of_num 1 v)
| TruncSatSF32 -> I32_convert.trunc_sat_f32_s (F32Num.of_num 1 v)
| TruncSatUF64 -> I32_convert.trunc_sat_f64_u (F64Num.of_num 1 v)
| TruncSatSF64 -> I32_convert.trunc_sat_f64_s (F64Num.of_num 1 v)
| ReinterpretFloat -> I32_convert.reinterpret_f32 (F32Num.of_num 1 v)
| ExtendUI32 -> raise (TypeError (1, v, I32Type))
| ExtendSI32 -> raise (TypeError (1, v, I32Type))
in I32Num.to_num i
end
module I64CvtOp =
struct
open Ast.IntOp
let cvtop op v =
let i = match op with
| ExtendUI32 -> I64_convert.extend_i32_u (I32Num.of_num 1 v)
| ExtendSI32 -> I64_convert.extend_i32_s (I32Num.of_num 1 v)
| TruncUF32 -> I64_convert.trunc_f32_u (F32Num.of_num 1 v)
| TruncSF32 -> I64_convert.trunc_f32_s (F32Num.of_num 1 v)
| TruncUF64 -> I64_convert.trunc_f64_u (F64Num.of_num 1 v)
| TruncSF64 -> I64_convert.trunc_f64_s (F64Num.of_num 1 v)
| TruncSatUF32 -> I64_convert.trunc_sat_f32_u (F32Num.of_num 1 v)
| TruncSatSF32 -> I64_convert.trunc_sat_f32_s (F32Num.of_num 1 v)
| TruncSatUF64 -> I64_convert.trunc_sat_f64_u (F64Num.of_num 1 v)
| TruncSatSF64 -> I64_convert.trunc_sat_f64_s (F64Num.of_num 1 v)
| ReinterpretFloat -> I64_convert.reinterpret_f64 (F64Num.of_num 1 v)
| WrapI64 -> raise (TypeError (1, v, I64Type))
in I64Num.to_num i
end
module F32CvtOp =
struct
open Ast.FloatOp
let cvtop op v =
let z = match op with
| DemoteF64 -> F32_convert.demote_f64 (F64Num.of_num 1 v)
| ConvertSI32 -> F32_convert.convert_i32_s (I32Num.of_num 1 v)
| ConvertUI32 -> F32_convert.convert_i32_u (I32Num.of_num 1 v)
| ConvertSI64 -> F32_convert.convert_i64_s (I64Num.of_num 1 v)
| ConvertUI64 -> F32_convert.convert_i64_u (I64Num.of_num 1 v)
| ReinterpretInt -> F32_convert.reinterpret_i32 (I32Num.of_num 1 v)
| PromoteF32 -> raise (TypeError (1, v, F32Type))
in F32Num.to_num z
end
module F64CvtOp =
struct
open Ast.FloatOp
let cvtop op v =
let z = match op with
| PromoteF32 -> F64_convert.promote_f32 (F32Num.of_num 1 v)
| ConvertSI32 -> F64_convert.convert_i32_s (I32Num.of_num 1 v)
| ConvertUI32 -> F64_convert.convert_i32_u (I32Num.of_num 1 v)
| ConvertSI64 -> F64_convert.convert_i64_s (I64Num.of_num 1 v)
| ConvertUI64 -> F64_convert.convert_i64_u (I64Num.of_num 1 v)
| ReinterpretInt -> F64_convert.reinterpret_i64 (I64Num.of_num 1 v)
| DemoteF64 -> raise (TypeError (1, v, F64Type))
in F64Num.to_num z
end
(* Dispatch *)
let op i32 i64 f32 f64 = function
| I32 x -> i32 x
| I64 x -> i64 x
| F32 x -> f32 x
| F64 x -> f64 x
let eval_unop = op I32Op.unop I64Op.unop F32Op.unop F64Op.unop
let eval_binop = op I32Op.binop I64Op.binop F32Op.binop F64Op.binop
let eval_testop = op I32Op.testop I64Op.testop F32Op.testop F64Op.testop
let eval_relop = op I32Op.relop I64Op.relop F32Op.relop F64Op.relop
let eval_cvtop = op I32CvtOp.cvtop I64CvtOp.cvtop F32CvtOp.cvtop F64CvtOp.cvtop