package octez-l2-libs
Octez layer2 libraries
Install
Dune Dependency
Authors
Maintainers
Sources
tezos-octez-v20.1.tag.bz2
sha256=ddfb5076eeb0b32ac21c1eed44e8fc86a6743ef18ab23fff02d36e365bb73d61
sha512=d22a827df5146e0aa274df48bc2150b098177ff7e5eab52c6109e867eb0a1f0ec63e6bfbb0e3645a6c2112de3877c91a17df32ccbff301891ce4ba630c997a65
doc/src/octez-l2-libs.scoru-wasm/interpreter_encodings.ml.html
Source file interpreter_encodings.ml
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IN NO EVENT SHALL *) (* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*) (* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *) (* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *) (* DEALINGS IN THE SOFTWARE. *) (* *) (*****************************************************************************) open Tezos_webassembly_interpreter open Data_encoding_utils let string_enum cases = let open Data_encoding in match cases with | [(title, value)] -> conv (fun _ -> ()) (fun () -> value) (constant title) | cases -> string_enum cases module Source = struct open Source let phrase_encoding encoding = let open Data_encoding in conv (fun x -> x.it) (fun v -> v @@ no_region) encoding end module Types = struct open Types let i32_case f = ("i32", f I32Type) let i64_case f = ("i64", f I64Type) let num_type_cases f = [i32_case f; i64_case f] let num_type_encoding = string_enum (num_type_cases Fun.id) let v128_case f = ("v128", f V128Type) let vec_type_cases f = [v128_case f] let vec_type_encoding = string_enum (vec_type_cases Fun.id) let funcref_case f = ("funcref", f FuncRefType) let externref_case f = ("externref", f ExternRefType) let ref_type_cases f = [funcref_case f; externref_case f] let ref_type_encoding = string_enum (ref_type_cases Fun.id) let value_type_cases f = num_type_cases (fun nt -> f (NumType nt)) @ vec_type_cases (fun vt -> f (VecType vt)) @ ref_type_cases (fun rt -> f (RefType rt)) let value_type_encoding = string_enum (value_type_cases Fun.id) let result_type_encoding = (* : #3076 Once the AST is adapted this must not be a list but a lazy structure. *) Data_encoding.list value_type_encoding let func_type_encoding ~params_encoding ~result_encoding = let open Data_encoding in conv (fun (FuncType (params, result)) -> (params, result)) (fun (params, result) -> FuncType (params, result)) (obj2 (req "params" params_encoding) (req "result" result_encoding)) let mutability_encoding = string_enum [("mutable", Mutable); ("immutable", Immutable)] let pack_size_encoding = string_enum [ ("Pack8", Pack8); ("Pack16", Pack16); ("Pack32", Pack32); ("Pack64", Pack64); ] let pack_shape_encoding = string_enum [("Pack8x8", Pack8x8); ("Pack16x4", Pack16x4); ("Pack32x2", Pack32x2)] let extension_encoding = string_enum [("SX", SX); ("ZX", ZX)] let vec_extension_encoding = let open Data_encoding in union_incr [ case_incr "ExtLane" (obj2 (req "pack_shape" pack_shape_encoding) (req "extension" extension_encoding)) (function ExtLane (x, y) -> Some (x, y) | _ -> None) (fun (x, y) -> ExtLane (x, y)); unit_case_incr "ExtSplat" ExtSplat; unit_case_incr "ExtZero" ExtZero; ] let global_type_encoding = let open Data_encoding in conv (fun (Types.GlobalType (v, m)) -> (v, m)) (fun (v, m) -> Types.GlobalType (v, m)) (tup2 value_type_encoding mutability_encoding) let limits_encoding value_encoding = let open Data_encoding in conv (fun {min; max} -> (min, max)) (fun (min, max) -> {min; max}) (tup2 value_encoding (option value_encoding)) let table_type_encoding = let open Data_encoding in conv (fun (TableType (l, r)) -> (l, r)) (fun (l, r) -> TableType (l, r)) (tup2 (limits_encoding int32) ref_type_encoding) let memory_type_encoding = let open Data_encoding in conv (fun (MemoryType l) -> l) (fun l -> MemoryType l) (limits_encoding int32) end module Values = struct open Values let op_encoding i32 i64 = union_incr [ case_incr "I32" i32 (function I32 x -> Some x | _ -> None) (fun x -> I32 x); case_incr "I64" i64 (function I64 x -> Some x | _ -> None) (fun x -> I64 x); ] let vecop_encoding v128 = union_incr [case_incr "V128" v128 (function V128 x -> Some x) (fun x -> V128 x)] let num_encoding : num Data_encoding.t = let open Data_encoding in op_encoding int32 int64 let vec_encoding = let open Data_encoding in vecop_encoding (conv V128.to_bits V128.of_bits string) end module V128 = struct open V128 let laneop_encoding i8x16 i16x8 i32x4 i64x2 = union_incr [ case_incr "I8x16" i8x16 (function I8x16 x -> Some x | _ -> None) (fun x -> I8x16 x); case_incr "I16x8" i16x8 (function I16x8 x -> Some x | _ -> None) (fun x -> I16x8 x); case_incr "I32x4" i32x4 (function I32x4 x -> Some x | _ -> None) (fun x -> I32x4 x); case_incr "I64x2" i64x2 (function I64x2 x -> Some x | _ -> None) (fun x -> I64x2 x); ] end module Ast = struct open Ast module IntOp = struct open IntOp let unop_encoding = union_incr [ unit_case_incr "Clz" Clz; unit_case_incr "Ctz" Ctz; unit_case_incr "Popcnt" Popcnt; case_incr "ExtendS" Types.pack_size_encoding (function ExtendS x -> Some x | _ -> None) (fun x -> ExtendS x); ] let binop_encoding = union_incr [ unit_case_incr "Add" Add; unit_case_incr "Sub" Sub; unit_case_incr "Mul" Mul; unit_case_incr "DivS" DivS; unit_case_incr "DivU" DivU; unit_case_incr "RemS" RemS; unit_case_incr "RemU" RemU; unit_case_incr "And" And; unit_case_incr "Or" Or; unit_case_incr "Xor" Xor; unit_case_incr "Shl" Shl; unit_case_incr "ShrS" ShrS; unit_case_incr "ShrU" ShrU; unit_case_incr "Rotl" Rotl; unit_case_incr "Rotr" Rotr; ] let testop_encoding = union_incr [unit_case_incr "Eqz" Ast.IntOp.Eqz] let relop_encoding = union_incr [ unit_case_incr "Eq" Eq; unit_case_incr "Ne" Ne; unit_case_incr "LtS" LtS; unit_case_incr "LtU" LtU; unit_case_incr "GtS" GtS; unit_case_incr "GtU" GtU; unit_case_incr "LeS" LeS; unit_case_incr "LeU" LeU; unit_case_incr "GeS" GeS; unit_case_incr "GeU" GeU; ] let cvtop_encoding = union_incr [ unit_case_incr "ExtendSI32" ExtendSI32; unit_case_incr "ExtendUI32" ExtendUI32; unit_case_incr "WrapI64" WrapI64; unit_case_incr "TruncSF32" TruncSF32; unit_case_incr "TruncUF32" TruncUF32; unit_case_incr "TruncSF64" TruncSF64; unit_case_incr "TruncUF64" TruncUF64; unit_case_incr "TruncSatSF32" TruncSatSF32; unit_case_incr "TruncSatUF32" TruncSatUF32; unit_case_incr "TruncSatSF64" TruncSatSF64; unit_case_incr "TruncSatUF64" TruncSatUF64; unit_case_incr "ReinterpretFloat" ReinterpretFloat; ] end module V128Op = struct open V128Op let itestop_encoding = union_incr [unit_case_incr "AllTrue" AllTrue] let iunop_encoding = union_incr [ unit_case_incr "Abs" (Abs : iunop); unit_case_incr "Neg" (Neg : iunop); unit_case_incr "Popcnt" Popcnt; ] let ibinop_encoding = let open Data_encoding in union_incr [ unit_case_incr "Add" (Add : ibinop); unit_case_incr "Sub" (Sub : ibinop); unit_case_incr "Mul" (Mul : ibinop); unit_case_incr "MinS" MinS; unit_case_incr "MinU" MinU; unit_case_incr "MaxS" MaxS; unit_case_incr "MaxU" MaxU; unit_case_incr "AvgrU" AvgrU; unit_case_incr "AddSatS" AddSatS; unit_case_incr "AddSatU" AddSatU; unit_case_incr "SubSatS" SubSatS; unit_case_incr "SubSatU" SubSatU; unit_case_incr "DotS" DotS; unit_case_incr "Q15MulRSatS" Q15MulRSatS; unit_case_incr "ExtMulLowS" ExtMulLowS; unit_case_incr "ExtMulHighS" ExtMulHighS; unit_case_incr "ExtMulLowU" ExtMulLowU; unit_case_incr "ExtMulHighU" ExtMulHighU; unit_case_incr "Swizzle" Swizzle; case_incr "Shuffle" (list int8) (function Shuffle ints -> Some ints | _ -> None) (fun ints -> Shuffle ints); unit_case_incr "NarrowS" NarrowS; unit_case_incr "NarrowU" NarrowU; ] let irelop_encoding = union_incr [ unit_case_incr "Eq" (Eq : irelop); unit_case_incr "Ne" (Ne : irelop); unit_case_incr "LtS" LtS; unit_case_incr "LtU" LtU; unit_case_incr "LeS" LeS; unit_case_incr "LeU" LeU; unit_case_incr "GtS" GtS; unit_case_incr "GtU" GtU; unit_case_incr "GeS" GeS; unit_case_incr "GeU" GeU; ] let icvtop_encoding = union_incr [ unit_case_incr "ExtendLowS" ExtendLowS; unit_case_incr "ExtendLowU" ExtendLowU; unit_case_incr "ExtendHighS" ExtendHighS; unit_case_incr "ExtendHighU" ExtendHighU; unit_case_incr "ExtAddPairwiseS" ExtAddPairwiseS; unit_case_incr "ExtAddPairwiseU" ExtAddPairwiseU; unit_case_incr "TruncSatSF32x4" TruncSatSF32x4; unit_case_incr "TruncSatUF32x4" TruncSatUF32x4; unit_case_incr "TruncSatSZeroF64x2" TruncSatSZeroF64x2; unit_case_incr "TruncSatUZeroF64x2" TruncSatUZeroF64x2; ] let ishiftop_encoding = union_incr [ unit_case_incr "Shl" Shl; unit_case_incr "ShrS" ShrS; unit_case_incr "ShrU" ShrU; ] let ibitmaskop_encoding = union_incr [unit_case_incr "Bitmask" Bitmask] let vtestop_encoding = union_incr [unit_case_incr "AnyTrue" AnyTrue] let vunop_encoding = union_incr [unit_case_incr "Not" Not] let vbinop_encoding = union_incr [ unit_case_incr "And" And; unit_case_incr "Or" Or; unit_case_incr "Xor" Xor; unit_case_incr "AndNot" AndNot; ] let vternop_encoding = union_incr [unit_case_incr "Bitselect" Bitselect] let testop_encoding : testop Data_encoding.t = V128.laneop_encoding itestop_encoding itestop_encoding itestop_encoding itestop_encoding let unop_encoding : unop Data_encoding.t = V128.laneop_encoding iunop_encoding iunop_encoding iunop_encoding iunop_encoding let binop_encoding : binop Data_encoding.t = V128.laneop_encoding ibinop_encoding ibinop_encoding ibinop_encoding ibinop_encoding let relop_encoding : relop Data_encoding.t = V128.laneop_encoding irelop_encoding irelop_encoding irelop_encoding irelop_encoding let cvtop_encoding : cvtop Data_encoding.t = V128.laneop_encoding icvtop_encoding icvtop_encoding icvtop_encoding icvtop_encoding let shiftop_encoding : shiftop Data_encoding.t = V128.laneop_encoding ishiftop_encoding ishiftop_encoding ishiftop_encoding ishiftop_encoding let bitmaskop_encoding : bitmaskop Data_encoding.t = V128.laneop_encoding ibitmaskop_encoding ibitmaskop_encoding ibitmaskop_encoding ibitmaskop_encoding let nsplatop_encoding = union_incr [unit_case_incr "Splat" Splat] let nextractop_encoding inner = let open Data_encoding in union_incr [ case_incr "Extract" (tup2 Data_encoding.int31 inner) (function Extract (x, y) -> Some (x, y)) (fun (x, y) -> Extract (x, y)); ] let nreplaceop_encoding = union_incr [ case_incr "Replace" Data_encoding.int31 (function Replace x -> Some x) (fun x -> Replace x); ] let splatop_encoding : splatop Data_encoding.t = V128.laneop_encoding nsplatop_encoding nsplatop_encoding nsplatop_encoding nsplatop_encoding let extractop_encoding : extractop Data_encoding.t = let open Data_encoding in V128.laneop_encoding (nextractop_encoding Types.extension_encoding) (nextractop_encoding Types.extension_encoding) (nextractop_encoding unit) (nextractop_encoding unit) let replaceop_encoding : replaceop Data_encoding.t = V128.laneop_encoding nreplaceop_encoding nreplaceop_encoding nreplaceop_encoding nreplaceop_encoding end let testop_encoding : Ast.testop Data_encoding.t = Values.op_encoding IntOp.testop_encoding IntOp.testop_encoding let unop_encoding : Ast.unop Data_encoding.t = Values.op_encoding IntOp.unop_encoding IntOp.unop_encoding let binop_encoding : Ast.binop Data_encoding.t = Values.op_encoding IntOp.binop_encoding IntOp.binop_encoding let relop_encoding : Ast.relop Data_encoding.t = Values.op_encoding IntOp.relop_encoding IntOp.relop_encoding let cvtop_encoding : Ast.cvtop Data_encoding.t = Values.op_encoding IntOp.cvtop_encoding IntOp.cvtop_encoding let vec_testop_encoding = Values.vecop_encoding V128Op.testop_encoding let vec_relop_encoding = Values.vecop_encoding V128Op.relop_encoding let vec_unop_encoding = Values.vecop_encoding V128Op.unop_encoding let vec_binop_encoding = Values.vecop_encoding V128Op.binop_encoding let vec_cvtop_encoding = Values.vecop_encoding V128Op.cvtop_encoding let vec_shiftop_encoding = Values.vecop_encoding V128Op.shiftop_encoding let vec_bitmaskop_encoding = Values.vecop_encoding V128Op.bitmaskop_encoding let vec_vtestop_encoding = Values.vecop_encoding V128Op.vtestop_encoding let vec_vunop_encoding = Values.vecop_encoding V128Op.vunop_encoding let vec_vbinop_encoding = Values.vecop_encoding V128Op.vbinop_encoding let vec_vternop_encoding = Values.vecop_encoding V128Op.vternop_encoding let vec_splatop_encoding = Values.vecop_encoding V128Op.splatop_encoding let vec_extractop_encoding = Values.vecop_encoding V128Op.extractop_encoding let vec_replaceop_encoding = Values.vecop_encoding V128Op.replaceop_encoding let memop_encoding type_ pack = let open Data_encoding in conv (fun Ast.{ty; align; offset; pack} -> (ty, align, offset, pack)) (fun (ty, align, offset, pack) -> Ast.{ty; align; offset; pack}) (obj4 (req "type" type_) (req "align" int31) (req "offset" int32) (req "pack" pack)) let loadop_encoding = let open Data_encoding in memop_encoding Types.num_type_encoding (option (obj2 (req "pack_size" Types.pack_size_encoding) (req "extension" Types.extension_encoding))) let storeop_encoding = let open Data_encoding in memop_encoding Types.num_type_encoding (option Types.pack_size_encoding) let vec_loadop_encoding = let open Data_encoding in memop_encoding Types.vec_type_encoding (option (obj2 (req "pack_size" Types.pack_size_encoding) (req "extension" Types.vec_extension_encoding))) let vec_storeop_encoding = let open Data_encoding in memop_encoding Types.vec_type_encoding unit let vec_laneop_encoding = let open Data_encoding in conv (fun (x, y) -> (x, y)) (fun (x, y) -> (x, y)) (obj2 (req "op" (memop_encoding Types.vec_type_encoding Types.pack_size_encoding)) (req "lane" int31)) let var_encoding = Source.phrase_encoding Data_encoding.int32 let num_encoding = Source.phrase_encoding Values.num_encoding let vec_encoding = Source.phrase_encoding Values.vec_encoding let block_type_encoding = let open Data_encoding in let open Ast in union_incr [ case_incr "VarBlockType" var_encoding (function VarBlockType x -> Some x | _ -> None) (fun var -> VarBlockType var); case_incr "ValBlockType" (option Types.value_type_encoding) (function ValBlockType x -> Some x | _ -> None) (fun var -> ValBlockType var); ] let block_label_encoding = let open Data_encoding in let open Ast in conv (fun (Block_label l) -> l) (fun l -> Block_label l) int32 let data_label_encoding = let open Data_encoding in let open Ast in conv (fun (Data_label l) -> l) (fun l -> Data_label l) int32 let import_desc_encoding = let open Ast in let unannotated_encoding = union_incr [ case_incr "FuncImport" var_encoding (function FuncImport v -> Some v | _ -> None) (fun v -> FuncImport v); case_incr "TableImport" Types.table_type_encoding (function TableImport t -> Some t | _ -> None) (fun t -> TableImport t); case_incr "MemoryImport" Types.memory_type_encoding (function MemoryImport m -> Some m | _ -> None) (fun m -> MemoryImport m); case_incr "GlobalImport" Types.global_type_encoding (function GlobalImport g -> Some g | _ -> None) (fun g -> GlobalImport g); ] in Source.phrase_encoding unannotated_encoding let export_desc_encoding = let open Ast in let unannotated_encoding = union_incr [ case_incr "FuncExport" var_encoding (function FuncExport v -> Some v | _ -> None) (fun v -> FuncExport v); case_incr "TableExport" var_encoding (function TableExport t -> Some t | _ -> None) (fun t -> TableExport t); case_incr "MemoryExport" var_encoding (function MemoryExport m -> Some m | _ -> None) (fun m -> MemoryExport m); case_incr "GlobalExport" var_encoding (function GlobalExport g -> Some g | _ -> None) (fun g -> GlobalExport g); ] in Source.phrase_encoding unannotated_encoding let const_encoding = Source.phrase_encoding block_label_encoding let segment_mode_encoding = let open Data_encoding in let unannotated_encoding = union_incr [ case_incr "Passive" (constant "Passive") (function Ast.Passive -> Some () | _ -> None) (fun () -> Passive); case_incr "Active" (tup2 var_encoding const_encoding) (function | Ast.Active {index; offset} -> Some (index, offset) | _ -> None) (fun (index, offset) -> Active {index; offset}); case_incr "Declarative" (constant "Declarative") (function Ast.Declarative -> Some () | _ -> None) (fun () -> Declarative); ] in Source.phrase_encoding unannotated_encoding let table_encoding = let open Data_encoding in let unannoted_encoding = conv (fun {ttype} -> ttype) (fun ttype -> {ttype}) Types.table_type_encoding in Source.phrase_encoding unannoted_encoding let memory_encoding = let open Data_encoding in let unannoted_encoding = conv (fun {mtype} -> mtype) (fun mtype -> {mtype}) Types.memory_type_encoding in Source.phrase_encoding unannoted_encoding let global_encoding = let open Data_encoding in let unannoted_encoding = conv (fun {gtype; ginit} -> (gtype, ginit)) (fun (gtype, ginit) -> {gtype; ginit}) (tup2 Types.global_type_encoding (Source.phrase_encoding block_label_encoding)) in Source.phrase_encoding unannoted_encoding let start_encoding = let open Data_encoding in let unannoted_encoding = conv (fun {sfunc} -> sfunc) (fun sfunc -> {sfunc}) var_encoding in Source.phrase_encoding unannoted_encoding end