package ocaml-protoc-plugin
Plugin for protoc protobuf compiler to generate ocaml definitions from a .proto file
Install
Dune Dependency
Authors
Maintainers
Sources
3.0.0.tar.gz
md5=5df02a37850c59cddde10d506e969ef6
sha512=a9f5ae99e77d70d70ba34b0bebe6b50bcbe7ad2192fdd5b9b09b4c738bab5018f87ef7701663e90531e0408b56267d98517181ee79cee8e0c6ab42f8f44f2cd0
doc/src/ocaml-protoc-plugin.google_types/type.ml.html
Source file type.ml
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(************************************************) (* AUTOGENERATED FILE - DO NOT EDIT! *) (************************************************) (* Generated by: ocaml-protoc-plugin *) (* https://github.com/issuu/ocaml-protoc-plugin *) (************************************************) (* Source: google/protobuf/type.proto Syntax: proto3 Parameters: debug=false annot='' opens=[] int64_as_int=true int32_as_int=true fixed_as_int=false singleton_record=false *) open Ocaml_protoc_plugin.Runtime [@@warning "-33"] (**/**) module Imported'modules = struct module Any = Any module Source_context = Source_context end (**/**) module Google = struct module Protobuf = struct module rec Syntax : sig type t = SYNTAX_PROTO2 | SYNTAX_PROTO3 val to_int: t -> int val from_int: int -> (t, [> Runtime'.Result.error]) result end = struct type t = SYNTAX_PROTO2 | SYNTAX_PROTO3 let to_int = function | SYNTAX_PROTO2 -> 0 | SYNTAX_PROTO3 -> 1 let from_int = function | 0 -> Ok SYNTAX_PROTO2 | 1 -> Ok SYNTAX_PROTO3 | n -> Error (`Unknown_enum_value n) end and Type : sig val name': unit -> string type t = { name: string; fields: Field.t list; oneofs: string list; options: Option.t list; source_context: Imported'modules.Source_context.Google.Protobuf.SourceContext.t option; syntax: Syntax.t } val to_proto: t -> Runtime'.Writer.t val from_proto: Runtime'.Reader.t -> (t, [> Runtime'.Result.error]) result end = struct let name' () = "type.google.protobuf.Type" type t = { name: string; fields: Field.t list; oneofs: string list; options: Option.t list; source_context: Imported'modules.Source_context.Google.Protobuf.SourceContext.t option; syntax: Syntax.t } let to_proto = let apply = fun ~f:f' { name; fields; oneofs; options; source_context; syntax } -> f' [] name fields oneofs options source_context syntax in let spec = Runtime'.Serialize.C.( basic (1, string, proto3) ^:: repeated (2, (message (fun t -> Field.to_proto t)), not_packed) ^:: repeated (3, string, packed) ^:: repeated (4, (message (fun t -> Option.to_proto t)), not_packed) ^:: basic_opt (5, (message (fun t -> Imported'modules.Source_context.Google.Protobuf.SourceContext.to_proto t))) ^:: basic (6, (enum Syntax.to_int), proto3) ^:: nil ) in let serialize = Runtime'.Serialize.serialize [] (spec) in fun t -> apply ~f:serialize t let from_proto = let constructor = fun _extensions name fields oneofs options source_context syntax -> { name; fields; oneofs; options; source_context; syntax } in let spec = Runtime'.Deserialize.C.( basic (1, string, proto3) ^:: repeated (2, (message (fun t -> Field.from_proto t)), not_packed) ^:: repeated (3, string, packed) ^:: repeated (4, (message (fun t -> Option.from_proto t)), not_packed) ^:: basic_opt (5, (message (fun t -> Imported'modules.Source_context.Google.Protobuf.SourceContext.from_proto t))) ^:: basic (6, (enum Syntax.from_int), proto3) ^:: nil ) in let deserialize = Runtime'.Deserialize.deserialize [] spec constructor in fun writer -> deserialize writer |> Runtime'.Result.open_error end and Field : sig module rec Kind : sig type t = TYPE_UNKNOWN | TYPE_DOUBLE | TYPE_FLOAT | TYPE_INT64 | TYPE_UINT64 | TYPE_INT32 | TYPE_FIXED64 | TYPE_FIXED32 | TYPE_BOOL | TYPE_STRING | TYPE_GROUP | TYPE_MESSAGE | TYPE_BYTES | TYPE_UINT32 | TYPE_ENUM | TYPE_SFIXED32 | TYPE_SFIXED64 | TYPE_SINT32 | TYPE_SINT64 val to_int: t -> int val from_int: int -> (t, [> Runtime'.Result.error]) result end and Cardinality : sig type t = CARDINALITY_UNKNOWN | CARDINALITY_OPTIONAL | CARDINALITY_REQUIRED | CARDINALITY_REPEATED val to_int: t -> int val from_int: int -> (t, [> Runtime'.Result.error]) result end val name': unit -> string type t = { kind: Field.Kind.t; cardinality: Field.Cardinality.t; number: int; name: string; type_url: string; oneof_index: int; packed: bool; options: Option.t list; json_name: string; default_value: string } val to_proto: t -> Runtime'.Writer.t val from_proto: Runtime'.Reader.t -> (t, [> Runtime'.Result.error]) result end = struct module rec Kind : sig type t = TYPE_UNKNOWN | TYPE_DOUBLE | TYPE_FLOAT | TYPE_INT64 | TYPE_UINT64 | TYPE_INT32 | TYPE_FIXED64 | TYPE_FIXED32 | TYPE_BOOL | TYPE_STRING | TYPE_GROUP | TYPE_MESSAGE | TYPE_BYTES | TYPE_UINT32 | TYPE_ENUM | TYPE_SFIXED32 | TYPE_SFIXED64 | TYPE_SINT32 | TYPE_SINT64 val to_int: t -> int val from_int: int -> (t, [> Runtime'.Result.error]) result end = struct type t = TYPE_UNKNOWN | TYPE_DOUBLE | TYPE_FLOAT | TYPE_INT64 | TYPE_UINT64 | TYPE_INT32 | TYPE_FIXED64 | TYPE_FIXED32 | TYPE_BOOL | TYPE_STRING | TYPE_GROUP | TYPE_MESSAGE | TYPE_BYTES | TYPE_UINT32 | TYPE_ENUM | TYPE_SFIXED32 | TYPE_SFIXED64 | TYPE_SINT32 | TYPE_SINT64 let to_int = function | TYPE_UNKNOWN -> 0 | TYPE_DOUBLE -> 1 | TYPE_FLOAT -> 2 | TYPE_INT64 -> 3 | TYPE_UINT64 -> 4 | TYPE_INT32 -> 5 | TYPE_FIXED64 -> 6 | TYPE_FIXED32 -> 7 | TYPE_BOOL -> 8 | TYPE_STRING -> 9 | TYPE_GROUP -> 10 | TYPE_MESSAGE -> 11 | TYPE_BYTES -> 12 | TYPE_UINT32 -> 13 | TYPE_ENUM -> 14 | TYPE_SFIXED32 -> 15 | TYPE_SFIXED64 -> 16 | TYPE_SINT32 -> 17 | TYPE_SINT64 -> 18 let from_int = function | 0 -> Ok TYPE_UNKNOWN | 1 -> Ok TYPE_DOUBLE | 2 -> Ok TYPE_FLOAT | 3 -> Ok TYPE_INT64 | 4 -> Ok TYPE_UINT64 | 5 -> Ok TYPE_INT32 | 6 -> Ok TYPE_FIXED64 | 7 -> Ok TYPE_FIXED32 | 8 -> Ok TYPE_BOOL | 9 -> Ok TYPE_STRING | 10 -> Ok TYPE_GROUP | 11 -> Ok TYPE_MESSAGE | 12 -> Ok TYPE_BYTES | 13 -> Ok TYPE_UINT32 | 14 -> Ok TYPE_ENUM | 15 -> Ok TYPE_SFIXED32 | 16 -> Ok TYPE_SFIXED64 | 17 -> Ok TYPE_SINT32 | 18 -> Ok TYPE_SINT64 | n -> Error (`Unknown_enum_value n) end and Cardinality : sig type t = CARDINALITY_UNKNOWN | CARDINALITY_OPTIONAL | CARDINALITY_REQUIRED | CARDINALITY_REPEATED val to_int: t -> int val from_int: int -> (t, [> Runtime'.Result.error]) result end = struct type t = CARDINALITY_UNKNOWN | CARDINALITY_OPTIONAL | CARDINALITY_REQUIRED | CARDINALITY_REPEATED let to_int = function | CARDINALITY_UNKNOWN -> 0 | CARDINALITY_OPTIONAL -> 1 | CARDINALITY_REQUIRED -> 2 | CARDINALITY_REPEATED -> 3 let from_int = function | 0 -> Ok CARDINALITY_UNKNOWN | 1 -> Ok CARDINALITY_OPTIONAL | 2 -> Ok CARDINALITY_REQUIRED | 3 -> Ok CARDINALITY_REPEATED | n -> Error (`Unknown_enum_value n) end let name' () = "type.google.protobuf.Field" type t = { kind: Field.Kind.t; cardinality: Field.Cardinality.t; number: int; name: string; type_url: string; oneof_index: int; packed: bool; options: Option.t list; json_name: string; default_value: string } let to_proto = let apply = fun ~f:f' { kind; cardinality; number; name; type_url; oneof_index; packed; options; json_name; default_value } -> f' [] kind cardinality number name type_url oneof_index packed options json_name default_value in let spec = Runtime'.Serialize.C.( basic (1, (enum Field.Kind.to_int), proto3) ^:: basic (2, (enum Field.Cardinality.to_int), proto3) ^:: basic (3, int32_int, proto3) ^:: basic (4, string, proto3) ^:: basic (6, string, proto3) ^:: basic (7, int32_int, proto3) ^:: basic (8, bool, proto3) ^:: repeated (9, (message (fun t -> Option.to_proto t)), not_packed) ^:: basic (10, string, proto3) ^:: basic (11, string, proto3) ^:: nil ) in let serialize = Runtime'.Serialize.serialize [] (spec) in fun t -> apply ~f:serialize t let from_proto = let constructor = fun _extensions kind cardinality number name type_url oneof_index packed options json_name default_value -> { kind; cardinality; number; name; type_url; oneof_index; packed; options; json_name; default_value } in let spec = Runtime'.Deserialize.C.( basic (1, (enum Field.Kind.from_int), proto3) ^:: basic (2, (enum Field.Cardinality.from_int), proto3) ^:: basic (3, int32_int, proto3) ^:: basic (4, string, proto3) ^:: basic (6, string, proto3) ^:: basic (7, int32_int, proto3) ^:: basic (8, bool, proto3) ^:: repeated (9, (message (fun t -> Option.from_proto t)), not_packed) ^:: basic (10, string, proto3) ^:: basic (11, string, proto3) ^:: nil ) in let deserialize = Runtime'.Deserialize.deserialize [] spec constructor in fun writer -> deserialize writer |> Runtime'.Result.open_error end and Enum : sig val name': unit -> string type t = { name: string; enumvalue: EnumValue.t list; options: Option.t list; source_context: Imported'modules.Source_context.Google.Protobuf.SourceContext.t option; syntax: Syntax.t } val to_proto: t -> Runtime'.Writer.t val from_proto: Runtime'.Reader.t -> (t, [> Runtime'.Result.error]) result end = struct let name' () = "type.google.protobuf.Enum" type t = { name: string; enumvalue: EnumValue.t list; options: Option.t list; source_context: Imported'modules.Source_context.Google.Protobuf.SourceContext.t option; syntax: Syntax.t } let to_proto = let apply = fun ~f:f' { name; enumvalue; options; source_context; syntax } -> f' [] name enumvalue options source_context syntax in let spec = Runtime'.Serialize.C.( basic (1, string, proto3) ^:: repeated (2, (message (fun t -> EnumValue.to_proto t)), not_packed) ^:: repeated (3, (message (fun t -> Option.to_proto t)), not_packed) ^:: basic_opt (4, (message (fun t -> Imported'modules.Source_context.Google.Protobuf.SourceContext.to_proto t))) ^:: basic (5, (enum Syntax.to_int), proto3) ^:: nil ) in let serialize = Runtime'.Serialize.serialize [] (spec) in fun t -> apply ~f:serialize t let from_proto = let constructor = fun _extensions name enumvalue options source_context syntax -> { name; enumvalue; options; source_context; syntax } in let spec = Runtime'.Deserialize.C.( basic (1, string, proto3) ^:: repeated (2, (message (fun t -> EnumValue.from_proto t)), not_packed) ^:: repeated (3, (message (fun t -> Option.from_proto t)), not_packed) ^:: basic_opt (4, (message (fun t -> Imported'modules.Source_context.Google.Protobuf.SourceContext.from_proto t))) ^:: basic (5, (enum Syntax.from_int), proto3) ^:: nil ) in let deserialize = Runtime'.Deserialize.deserialize [] spec constructor in fun writer -> deserialize writer |> Runtime'.Result.open_error end and EnumValue : sig val name': unit -> string type t = { name: string; number: int; options: Option.t list } val to_proto: t -> Runtime'.Writer.t val from_proto: Runtime'.Reader.t -> (t, [> Runtime'.Result.error]) result end = struct let name' () = "type.google.protobuf.EnumValue" type t = { name: string; number: int; options: Option.t list } let to_proto = let apply = fun ~f:f' { name; number; options } -> f' [] name number options in let spec = Runtime'.Serialize.C.( basic (1, string, proto3) ^:: basic (2, int32_int, proto3) ^:: repeated (3, (message (fun t -> Option.to_proto t)), not_packed) ^:: nil ) in let serialize = Runtime'.Serialize.serialize [] (spec) in fun t -> apply ~f:serialize t let from_proto = let constructor = fun _extensions name number options -> { name; number; options } in let spec = Runtime'.Deserialize.C.( basic (1, string, proto3) ^:: basic (2, int32_int, proto3) ^:: repeated (3, (message (fun t -> Option.from_proto t)), not_packed) ^:: nil ) in let deserialize = Runtime'.Deserialize.deserialize [] spec constructor in fun writer -> deserialize writer |> Runtime'.Result.open_error end and Option : sig val name': unit -> string type t = { name: string; value: Imported'modules.Any.Google.Protobuf.Any.t option } val to_proto: t -> Runtime'.Writer.t val from_proto: Runtime'.Reader.t -> (t, [> Runtime'.Result.error]) result end = struct let name' () = "type.google.protobuf.Option" type t = { name: string; value: Imported'modules.Any.Google.Protobuf.Any.t option } let to_proto = let apply = fun ~f:f' { name; value } -> f' [] name value in let spec = Runtime'.Serialize.C.( basic (1, string, proto3) ^:: basic_opt (2, (message (fun t -> Imported'modules.Any.Google.Protobuf.Any.to_proto t))) ^:: nil ) in let serialize = Runtime'.Serialize.serialize [] (spec) in fun t -> apply ~f:serialize t let from_proto = let constructor = fun _extensions name value -> { name; value } in let spec = Runtime'.Deserialize.C.( basic (1, string, proto3) ^:: basic_opt (2, (message (fun t -> Imported'modules.Any.Google.Protobuf.Any.from_proto t))) ^:: nil ) in let deserialize = Runtime'.Deserialize.deserialize [] spec constructor in fun writer -> deserialize writer |> Runtime'.Result.open_error end end end
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