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npm-viz-sdk/google/protobuf/compiler/plugin.ts
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2026-01-16 14:54:00 +00:00

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// @generated by protobuf-ts 2.11.1 with parameter use_proto_field_name
// @generated from protobuf file "google/protobuf/compiler/plugin.proto" (package "google.protobuf.compiler", syntax proto2)
// tslint:disable
//
// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
//
//
// Author: kenton@google.com (Kenton Varda)
//
// protoc (aka the Protocol Compiler) can be extended via plugins. A plugin is
// just a program that reads a CodeGeneratorRequest from stdin and writes a
// CodeGeneratorResponse to stdout.
//
// Plugins written using C++ can use google/protobuf/compiler/plugin.h instead
// of dealing with the raw protocol defined here.
//
// A plugin executable needs only to be placed somewhere in the path. The
// plugin should be named "protoc-gen-$NAME", and will then be used when the
// flag "--${NAME}_out" is passed to protoc.
//
import type { BinaryWriteOptions } from "@protobuf-ts/runtime";
import type { IBinaryWriter } from "@protobuf-ts/runtime";
import { WireType } from "@protobuf-ts/runtime";
import type { BinaryReadOptions } from "@protobuf-ts/runtime";
import type { IBinaryReader } from "@protobuf-ts/runtime";
import { UnknownFieldHandler } from "@protobuf-ts/runtime";
import type { PartialMessage } from "@protobuf-ts/runtime";
import { reflectionMergePartial } from "@protobuf-ts/runtime";
import { MessageType } from "@protobuf-ts/runtime";
import { GeneratedCodeInfo } from "../descriptor";
import { FileDescriptorProto } from "../descriptor";
/**
* The version number of protocol compiler.
*
* @generated from protobuf message google.protobuf.compiler.Version
*/
export interface Version {
/**
* @generated from protobuf field: optional int32 major = 1
*/
major?: number;
/**
* @generated from protobuf field: optional int32 minor = 2
*/
minor?: number;
/**
* @generated from protobuf field: optional int32 patch = 3
*/
patch?: number;
/**
* A suffix for alpha, beta or rc release, e.g., "alpha-1", "rc2". It should
* be empty for mainline stable releases.
*
* @generated from protobuf field: optional string suffix = 4
*/
suffix?: string;
}
/**
* An encoded CodeGeneratorRequest is written to the plugin's stdin.
*
* @generated from protobuf message google.protobuf.compiler.CodeGeneratorRequest
*/
export interface CodeGeneratorRequest {
/**
* The .proto files that were explicitly listed on the command-line. The
* code generator should generate code only for these files. Each file's
* descriptor will be included in proto_file, below.
*
* @generated from protobuf field: repeated string file_to_generate = 1
*/
file_to_generate: string[];
/**
* The generator parameter passed on the command-line.
*
* @generated from protobuf field: optional string parameter = 2
*/
parameter?: string;
/**
* FileDescriptorProtos for all files in files_to_generate and everything
* they import. The files will appear in topological order, so each file
* appears before any file that imports it.
*
* Note: the files listed in files_to_generate will include runtime-retention
* options only, but all other files will include source-retention options.
* The source_file_descriptors field below is available in case you need
* source-retention options for files_to_generate.
*
* protoc guarantees that all proto_files will be written after
* the fields above, even though this is not technically guaranteed by the
* protobuf wire format. This theoretically could allow a plugin to stream
* in the FileDescriptorProtos and handle them one by one rather than read
* the entire set into memory at once. However, as of this writing, this
* is not similarly optimized on protoc's end -- it will store all fields in
* memory at once before sending them to the plugin.
*
* Type names of fields and extensions in the FileDescriptorProto are always
* fully qualified.
*
* @generated from protobuf field: repeated google.protobuf.FileDescriptorProto proto_file = 15
*/
proto_file: FileDescriptorProto[];
/**
* File descriptors with all options, including source-retention options.
* These descriptors are only provided for the files listed in
* files_to_generate.
*
* @generated from protobuf field: repeated google.protobuf.FileDescriptorProto source_file_descriptors = 17
*/
source_file_descriptors: FileDescriptorProto[];
/**
* The version number of protocol compiler.
*
* @generated from protobuf field: optional google.protobuf.compiler.Version compiler_version = 3
*/
compiler_version?: Version;
}
/**
* The plugin writes an encoded CodeGeneratorResponse to stdout.
*
* @generated from protobuf message google.protobuf.compiler.CodeGeneratorResponse
*/
export interface CodeGeneratorResponse {
/**
* Error message. If non-empty, code generation failed. The plugin process
* should exit with status code zero even if it reports an error in this way.
*
* This should be used to indicate errors in .proto files which prevent the
* code generator from generating correct code. Errors which indicate a
* problem in protoc itself -- such as the input CodeGeneratorRequest being
* unparseable -- should be reported by writing a message to stderr and
* exiting with a non-zero status code.
*
* @generated from protobuf field: optional string error = 1
*/
error?: string;
/**
* A bitmask of supported features that the code generator supports.
* This is a bitwise "or" of values from the Feature enum.
*
* @generated from protobuf field: optional uint64 supported_features = 2
*/
supported_features?: bigint;
/**
* The minimum edition this plugin supports. This will be treated as an
* Edition enum, but we want to allow unknown values. It should be specified
* according the edition enum value, *not* the edition number. Only takes
* effect for plugins that have FEATURE_SUPPORTS_EDITIONS set.
*
* @generated from protobuf field: optional int32 minimum_edition = 3
*/
minimum_edition?: number;
/**
* The maximum edition this plugin supports. This will be treated as an
* Edition enum, but we want to allow unknown values. It should be specified
* according the edition enum value, *not* the edition number. Only takes
* effect for plugins that have FEATURE_SUPPORTS_EDITIONS set.
*
* @generated from protobuf field: optional int32 maximum_edition = 4
*/
maximum_edition?: number;
/**
* @generated from protobuf field: repeated google.protobuf.compiler.CodeGeneratorResponse.File file = 15
*/
file: CodeGeneratorResponse_File[];
}
/**
* Represents a single generated file.
*
* @generated from protobuf message google.protobuf.compiler.CodeGeneratorResponse.File
*/
export interface CodeGeneratorResponse_File {
/**
* The file name, relative to the output directory. The name must not
* contain "." or ".." components and must be relative, not be absolute (so,
* the file cannot lie outside the output directory). "/" must be used as
* the path separator, not "\".
*
* If the name is omitted, the content will be appended to the previous
* file. This allows the generator to break large files into small chunks,
* and allows the generated text to be streamed back to protoc so that large
* files need not reside completely in memory at one time. Note that as of
* this writing protoc does not optimize for this -- it will read the entire
* CodeGeneratorResponse before writing files to disk.
*
* @generated from protobuf field: optional string name = 1
*/
name?: string;
/**
* If non-empty, indicates that the named file should already exist, and the
* content here is to be inserted into that file at a defined insertion
* point. This feature allows a code generator to extend the output
* produced by another code generator. The original generator may provide
* insertion points by placing special annotations in the file that look
* like:
* @@protoc_insertion_point(NAME)
* The annotation can have arbitrary text before and after it on the line,
* which allows it to be placed in a comment. NAME should be replaced with
* an identifier naming the point -- this is what other generators will use
* as the insertion_point. Code inserted at this point will be placed
* immediately above the line containing the insertion point (thus multiple
* insertions to the same point will come out in the order they were added).
* The double-@ is intended to make it unlikely that the generated code
* could contain things that look like insertion points by accident.
*
* For example, the C++ code generator places the following line in the
* .pb.h files that it generates:
* // @@protoc_insertion_point(namespace_scope)
* This line appears within the scope of the file's package namespace, but
* outside of any particular class. Another plugin can then specify the
* insertion_point "namespace_scope" to generate additional classes or
* other declarations that should be placed in this scope.
*
* Note that if the line containing the insertion point begins with
* whitespace, the same whitespace will be added to every line of the
* inserted text. This is useful for languages like Python, where
* indentation matters. In these languages, the insertion point comment
* should be indented the same amount as any inserted code will need to be
* in order to work correctly in that context.
*
* The code generator that generates the initial file and the one which
* inserts into it must both run as part of a single invocation of protoc.
* Code generators are executed in the order in which they appear on the
* command line.
*
* If |insertion_point| is present, |name| must also be present.
*
* @generated from protobuf field: optional string insertion_point = 2
*/
insertion_point?: string;
/**
* The file contents.
*
* @generated from protobuf field: optional string content = 15
*/
content?: string;
/**
* Information describing the file content being inserted. If an insertion
* point is used, this information will be appropriately offset and inserted
* into the code generation metadata for the generated files.
*
* @generated from protobuf field: optional google.protobuf.GeneratedCodeInfo generated_code_info = 16
*/
generated_code_info?: GeneratedCodeInfo;
}
/**
* Sync with code_generator.h.
*
* @generated from protobuf enum google.protobuf.compiler.CodeGeneratorResponse.Feature
*/
export enum CodeGeneratorResponse_Feature {
/**
* @generated from protobuf enum value: FEATURE_NONE = 0;
*/
NONE = 0,
/**
* @generated from protobuf enum value: FEATURE_PROTO3_OPTIONAL = 1;
*/
PROTO3_OPTIONAL = 1,
/**
* @generated from protobuf enum value: FEATURE_SUPPORTS_EDITIONS = 2;
*/
SUPPORTS_EDITIONS = 2
}
// @generated message type with reflection information, may provide speed optimized methods
class Version$Type extends MessageType<Version> {
constructor() {
super("google.protobuf.compiler.Version", [
{ no: 1, name: "major", kind: "scalar", opt: true, T: 5 /*ScalarType.INT32*/ },
{ no: 2, name: "minor", kind: "scalar", opt: true, T: 5 /*ScalarType.INT32*/ },
{ no: 3, name: "patch", kind: "scalar", opt: true, T: 5 /*ScalarType.INT32*/ },
{ no: 4, name: "suffix", kind: "scalar", opt: true, T: 9 /*ScalarType.STRING*/ }
]);
}
create(value?: PartialMessage<Version>): Version {
const message = globalThis.Object.create((this.messagePrototype!));
if (value !== undefined)
reflectionMergePartial<Version>(this, message, value);
return message;
}
internalBinaryRead(reader: IBinaryReader, length: number, options: BinaryReadOptions, target?: Version): Version {
let message = target ?? this.create(), end = reader.pos + length;
while (reader.pos < end) {
let [fieldNo, wireType] = reader.tag();
switch (fieldNo) {
case /* optional int32 major */ 1:
message.major = reader.int32();
break;
case /* optional int32 minor */ 2:
message.minor = reader.int32();
break;
case /* optional int32 patch */ 3:
message.patch = reader.int32();
break;
case /* optional string suffix */ 4:
message.suffix = reader.string();
break;
default:
let u = options.readUnknownField;
if (u === "throw")
throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
let d = reader.skip(wireType);
if (u !== false)
(u === true ? UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
}
}
return message;
}
internalBinaryWrite(message: Version, writer: IBinaryWriter, options: BinaryWriteOptions): IBinaryWriter {
/* optional int32 major = 1; */
if (message.major !== undefined)
writer.tag(1, WireType.Varint).int32(message.major);
/* optional int32 minor = 2; */
if (message.minor !== undefined)
writer.tag(2, WireType.Varint).int32(message.minor);
/* optional int32 patch = 3; */
if (message.patch !== undefined)
writer.tag(3, WireType.Varint).int32(message.patch);
/* optional string suffix = 4; */
if (message.suffix !== undefined)
writer.tag(4, WireType.LengthDelimited).string(message.suffix);
let u = options.writeUnknownFields;
if (u !== false)
(u == true ? UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
return writer;
}
}
/**
* @generated MessageType for protobuf message google.protobuf.compiler.Version
*/
export const Version = new Version$Type();
// @generated message type with reflection information, may provide speed optimized methods
class CodeGeneratorRequest$Type extends MessageType<CodeGeneratorRequest> {
constructor() {
super("google.protobuf.compiler.CodeGeneratorRequest", [
{ no: 1, name: "file_to_generate", kind: "scalar", localName: "file_to_generate", repeat: 2 /*RepeatType.UNPACKED*/, T: 9 /*ScalarType.STRING*/ },
{ no: 2, name: "parameter", kind: "scalar", opt: true, T: 9 /*ScalarType.STRING*/ },
{ no: 15, name: "proto_file", kind: "message", localName: "proto_file", repeat: 2 /*RepeatType.UNPACKED*/, T: () => FileDescriptorProto },
{ no: 17, name: "source_file_descriptors", kind: "message", localName: "source_file_descriptors", repeat: 2 /*RepeatType.UNPACKED*/, T: () => FileDescriptorProto },
{ no: 3, name: "compiler_version", kind: "message", localName: "compiler_version", T: () => Version }
]);
}
create(value?: PartialMessage<CodeGeneratorRequest>): CodeGeneratorRequest {
const message = globalThis.Object.create((this.messagePrototype!));
message.file_to_generate = [];
message.proto_file = [];
message.source_file_descriptors = [];
if (value !== undefined)
reflectionMergePartial<CodeGeneratorRequest>(this, message, value);
return message;
}
internalBinaryRead(reader: IBinaryReader, length: number, options: BinaryReadOptions, target?: CodeGeneratorRequest): CodeGeneratorRequest {
let message = target ?? this.create(), end = reader.pos + length;
while (reader.pos < end) {
let [fieldNo, wireType] = reader.tag();
switch (fieldNo) {
case /* repeated string file_to_generate */ 1:
message.file_to_generate.push(reader.string());
break;
case /* optional string parameter */ 2:
message.parameter = reader.string();
break;
case /* repeated google.protobuf.FileDescriptorProto proto_file */ 15:
message.proto_file.push(FileDescriptorProto.internalBinaryRead(reader, reader.uint32(), options));
break;
case /* repeated google.protobuf.FileDescriptorProto source_file_descriptors */ 17:
message.source_file_descriptors.push(FileDescriptorProto.internalBinaryRead(reader, reader.uint32(), options));
break;
case /* optional google.protobuf.compiler.Version compiler_version */ 3:
message.compiler_version = Version.internalBinaryRead(reader, reader.uint32(), options, message.compiler_version);
break;
default:
let u = options.readUnknownField;
if (u === "throw")
throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
let d = reader.skip(wireType);
if (u !== false)
(u === true ? UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
}
}
return message;
}
internalBinaryWrite(message: CodeGeneratorRequest, writer: IBinaryWriter, options: BinaryWriteOptions): IBinaryWriter {
/* repeated string file_to_generate = 1; */
for (let i = 0; i < message.file_to_generate.length; i++)
writer.tag(1, WireType.LengthDelimited).string(message.file_to_generate[i]);
/* optional string parameter = 2; */
if (message.parameter !== undefined)
writer.tag(2, WireType.LengthDelimited).string(message.parameter);
/* optional google.protobuf.compiler.Version compiler_version = 3; */
if (message.compiler_version)
Version.internalBinaryWrite(message.compiler_version, writer.tag(3, WireType.LengthDelimited).fork(), options).join();
/* repeated google.protobuf.FileDescriptorProto proto_file = 15; */
for (let i = 0; i < message.proto_file.length; i++)
FileDescriptorProto.internalBinaryWrite(message.proto_file[i], writer.tag(15, WireType.LengthDelimited).fork(), options).join();
/* repeated google.protobuf.FileDescriptorProto source_file_descriptors = 17; */
for (let i = 0; i < message.source_file_descriptors.length; i++)
FileDescriptorProto.internalBinaryWrite(message.source_file_descriptors[i], writer.tag(17, WireType.LengthDelimited).fork(), options).join();
let u = options.writeUnknownFields;
if (u !== false)
(u == true ? UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
return writer;
}
}
/**
* @generated MessageType for protobuf message google.protobuf.compiler.CodeGeneratorRequest
*/
export const CodeGeneratorRequest = new CodeGeneratorRequest$Type();
// @generated message type with reflection information, may provide speed optimized methods
class CodeGeneratorResponse$Type extends MessageType<CodeGeneratorResponse> {
constructor() {
super("google.protobuf.compiler.CodeGeneratorResponse", [
{ no: 1, name: "error", kind: "scalar", opt: true, T: 9 /*ScalarType.STRING*/ },
{ no: 2, name: "supported_features", kind: "scalar", localName: "supported_features", opt: true, T: 4 /*ScalarType.UINT64*/, L: 0 /*LongType.BIGINT*/ },
{ no: 3, name: "minimum_edition", kind: "scalar", localName: "minimum_edition", opt: true, T: 5 /*ScalarType.INT32*/ },
{ no: 4, name: "maximum_edition", kind: "scalar", localName: "maximum_edition", opt: true, T: 5 /*ScalarType.INT32*/ },
{ no: 15, name: "file", kind: "message", repeat: 2 /*RepeatType.UNPACKED*/, T: () => CodeGeneratorResponse_File }
]);
}
create(value?: PartialMessage<CodeGeneratorResponse>): CodeGeneratorResponse {
const message = globalThis.Object.create((this.messagePrototype!));
message.file = [];
if (value !== undefined)
reflectionMergePartial<CodeGeneratorResponse>(this, message, value);
return message;
}
internalBinaryRead(reader: IBinaryReader, length: number, options: BinaryReadOptions, target?: CodeGeneratorResponse): CodeGeneratorResponse {
let message = target ?? this.create(), end = reader.pos + length;
while (reader.pos < end) {
let [fieldNo, wireType] = reader.tag();
switch (fieldNo) {
case /* optional string error */ 1:
message.error = reader.string();
break;
case /* optional uint64 supported_features */ 2:
message.supported_features = reader.uint64().toBigInt();
break;
case /* optional int32 minimum_edition */ 3:
message.minimum_edition = reader.int32();
break;
case /* optional int32 maximum_edition */ 4:
message.maximum_edition = reader.int32();
break;
case /* repeated google.protobuf.compiler.CodeGeneratorResponse.File file */ 15:
message.file.push(CodeGeneratorResponse_File.internalBinaryRead(reader, reader.uint32(), options));
break;
default:
let u = options.readUnknownField;
if (u === "throw")
throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
let d = reader.skip(wireType);
if (u !== false)
(u === true ? UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
}
}
return message;
}
internalBinaryWrite(message: CodeGeneratorResponse, writer: IBinaryWriter, options: BinaryWriteOptions): IBinaryWriter {
/* optional string error = 1; */
if (message.error !== undefined)
writer.tag(1, WireType.LengthDelimited).string(message.error);
/* optional uint64 supported_features = 2; */
if (message.supported_features !== undefined)
writer.tag(2, WireType.Varint).uint64(message.supported_features);
/* optional int32 minimum_edition = 3; */
if (message.minimum_edition !== undefined)
writer.tag(3, WireType.Varint).int32(message.minimum_edition);
/* optional int32 maximum_edition = 4; */
if (message.maximum_edition !== undefined)
writer.tag(4, WireType.Varint).int32(message.maximum_edition);
/* repeated google.protobuf.compiler.CodeGeneratorResponse.File file = 15; */
for (let i = 0; i < message.file.length; i++)
CodeGeneratorResponse_File.internalBinaryWrite(message.file[i], writer.tag(15, WireType.LengthDelimited).fork(), options).join();
let u = options.writeUnknownFields;
if (u !== false)
(u == true ? UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
return writer;
}
}
/**
* @generated MessageType for protobuf message google.protobuf.compiler.CodeGeneratorResponse
*/
export const CodeGeneratorResponse = new CodeGeneratorResponse$Type();
// @generated message type with reflection information, may provide speed optimized methods
class CodeGeneratorResponse_File$Type extends MessageType<CodeGeneratorResponse_File> {
constructor() {
super("google.protobuf.compiler.CodeGeneratorResponse.File", [
{ no: 1, name: "name", kind: "scalar", opt: true, T: 9 /*ScalarType.STRING*/ },
{ no: 2, name: "insertion_point", kind: "scalar", localName: "insertion_point", opt: true, T: 9 /*ScalarType.STRING*/ },
{ no: 15, name: "content", kind: "scalar", opt: true, T: 9 /*ScalarType.STRING*/ },
{ no: 16, name: "generated_code_info", kind: "message", localName: "generated_code_info", T: () => GeneratedCodeInfo }
]);
}
create(value?: PartialMessage<CodeGeneratorResponse_File>): CodeGeneratorResponse_File {
const message = globalThis.Object.create((this.messagePrototype!));
if (value !== undefined)
reflectionMergePartial<CodeGeneratorResponse_File>(this, message, value);
return message;
}
internalBinaryRead(reader: IBinaryReader, length: number, options: BinaryReadOptions, target?: CodeGeneratorResponse_File): CodeGeneratorResponse_File {
let message = target ?? this.create(), end = reader.pos + length;
while (reader.pos < end) {
let [fieldNo, wireType] = reader.tag();
switch (fieldNo) {
case /* optional string name */ 1:
message.name = reader.string();
break;
case /* optional string insertion_point */ 2:
message.insertion_point = reader.string();
break;
case /* optional string content */ 15:
message.content = reader.string();
break;
case /* optional google.protobuf.GeneratedCodeInfo generated_code_info */ 16:
message.generated_code_info = GeneratedCodeInfo.internalBinaryRead(reader, reader.uint32(), options, message.generated_code_info);
break;
default:
let u = options.readUnknownField;
if (u === "throw")
throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
let d = reader.skip(wireType);
if (u !== false)
(u === true ? UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
}
}
return message;
}
internalBinaryWrite(message: CodeGeneratorResponse_File, writer: IBinaryWriter, options: BinaryWriteOptions): IBinaryWriter {
/* optional string name = 1; */
if (message.name !== undefined)
writer.tag(1, WireType.LengthDelimited).string(message.name);
/* optional string insertion_point = 2; */
if (message.insertion_point !== undefined)
writer.tag(2, WireType.LengthDelimited).string(message.insertion_point);
/* optional string content = 15; */
if (message.content !== undefined)
writer.tag(15, WireType.LengthDelimited).string(message.content);
/* optional google.protobuf.GeneratedCodeInfo generated_code_info = 16; */
if (message.generated_code_info)
GeneratedCodeInfo.internalBinaryWrite(message.generated_code_info, writer.tag(16, WireType.LengthDelimited).fork(), options).join();
let u = options.writeUnknownFields;
if (u !== false)
(u == true ? UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
return writer;
}
}
/**
* @generated MessageType for protobuf message google.protobuf.compiler.CodeGeneratorResponse.File
*/
export const CodeGeneratorResponse_File = new CodeGeneratorResponse_File$Type();
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