package protocell
A Protobuf plugin for OCaml
Install
Dune Dependency
Authors
Maintainers
Sources
protocell-1.0.0.tbz
sha256=8296a7b386ad3ceb5e815374e8e4aa608d618869988b6f89b354c46225582fa8
sha512=7e3c758ac59b3a52aa523e1939103e8b4ad6adf8801df0a4bb1f947650e6f626c83ae7c55f1d114bbb652114fd46e88a7ed4835079ba70eaeb137220aefc3189
doc/src/protocell.google/google_protobuf_wrappers_pc.ml.html
Source file google_protobuf_wrappers_pc.ml
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} [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : float; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Double_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Double_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Double_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Double_t _m >>= fun value' -> Ok { value' } end and Float_value : sig type t = { value' : float; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : float; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Float_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Float_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Float_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Float_t _m >>= fun value' -> Ok { value' } end and Int64_value : sig type t = { value' : int; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : int; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Int64_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Int64_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Int64_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Int64_t _m >>= fun value' -> Ok { value' } end and U_int64_value : sig type t = { value' : int; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : int; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Uint64_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Uint64_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Uint64_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Uint64_t _m >>= fun value' -> Ok { value' } end and Int32_value : sig type t = { value' : int; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : int; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Int32_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Int32_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Int32_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Int32_t _m >>= fun value' -> Ok { value' } end and U_int32_value : sig type t = { value' : int; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : int; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Uint32_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Uint32_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Uint32_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Uint32_t _m >>= fun value' -> Ok { value' } end and Bool_value : sig type t = { value' : bool; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : bool; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Bool_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Bool_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Bool_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Bool_t _m >>= fun value' -> Ok { value' } end and String_value : sig type t = { value' : string; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : string; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.String_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.String_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.String_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.String_t _m >>= fun value' -> Ok { value' } end and Bytes_value : sig type t = { value' : string; } [@@deriving eq, show] val to_binary : t -> (string, [> Bin'.serialization_error]) result val of_binary : string -> (t, [> Bin'.deserialization_error]) result val to_text : t -> (string, [> Text'.serialization_error]) result val of_text : string -> (t, [> Text'.deserialization_error]) result end = struct type t = { value' : string; } [@@deriving eq, show] let rec to_binary = fun { value' } -> let _o = Runtime.Byte_output.create () in Bin'.serialize_field 1 Field'.Bytes_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_binary = fun input' -> Ok (Runtime.Byte_input.create input') >>= Bin'.deserialize_message >>= fun _m -> Bin'.decode_field 1 Field'.Bytes_t _m >>= fun value' -> Ok { value' } let rec to_text = fun { value' } -> let _o = Runtime.Byte_output.create () in Text'.serialize_field "value" Field'.Bytes_t value' _o >>= fun () -> Ok (Runtime.Byte_output.contents _o) let rec of_text = fun input' -> Ok (Runtime.Byte_input.create input') >>= Text'.deserialize_message >>= fun _m -> Text'.decode_field "value" Field'.Bytes_t _m >>= fun value' -> Ok { value' } end