// DO NOT EDIT. // swift-format-ignore-file // // Generated by the Swift generator plugin for the protocol buffer compiler. // Source: google/api/http.proto // // For information on using the generated types, please see the documentation: // https://github.com/apple/swift-protobuf/ // Copyright 2015 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. import Foundation import SwiftProtobuf // If the compiler emits an error on this type, it is because this file // was generated by a version of the `protoc` Swift plug-in that is // incompatible with the version of SwiftProtobuf to which you are linking. // Please ensure that you are building against the same version of the API // that was used to generate this file. fileprivate struct _GeneratedWithProtocGenSwiftVersion: SwiftProtobuf.ProtobufAPIVersionCheck { struct _2: SwiftProtobuf.ProtobufAPIVersion_2 {} typealias Version = _2 } /// Defines the HTTP configuration for an API service. It contains a list of /// [HttpRule][google.api.HttpRule], each specifying the mapping of an RPC method /// to one or more HTTP REST API methods. struct Google_Api_Http { // SwiftProtobuf.Message conformance is added in an extension below. See the // `Message` and `Message+*Additions` files in the SwiftProtobuf library for // methods supported on all messages. /// A list of HTTP configuration rules that apply to individual API methods. /// /// **NOTE:** All service configuration rules follow "last one wins" order. var rules: [Google_Api_HttpRule] = [] /// When set to true, URL path parameters will be fully URI-decoded except in /// cases of single segment matches in reserved expansion, where "%2F" will be /// left encoded. /// /// The default behavior is to not decode RFC 6570 reserved characters in multi /// segment matches. var fullyDecodeReservedExpansion: Bool = false var unknownFields = SwiftProtobuf.UnknownStorage() init() {} } /// # gRPC Transcoding /// /// gRPC Transcoding is a feature for mapping between a gRPC method and one or /// more HTTP REST endpoints. It allows developers to build a single API service /// that supports both gRPC APIs and REST APIs. Many systems, including [Google /// APIs](https://github.com/googleapis/googleapis), /// [Cloud Endpoints](https://cloud.google.com/endpoints), [gRPC /// Gateway](https://github.com/grpc-ecosystem/grpc-gateway), /// and [Envoy](https://github.com/envoyproxy/envoy) proxy support this feature /// and use it for large scale production services. /// /// `HttpRule` defines the schema of the gRPC/REST mapping. The mapping specifies /// how different portions of the gRPC request message are mapped to the URL /// path, URL query parameters, and HTTP request body. It also controls how the /// gRPC response message is mapped to the HTTP response body. `HttpRule` is /// typically specified as an `google.api.http` annotation on the gRPC method. /// /// Each mapping specifies a URL path template and an HTTP method. The path /// template may refer to one or more fields in the gRPC request message, as long /// as each field is a non-repeated field with a primitive (non-message) type. /// The path template controls how fields of the request message are mapped to /// the URL path. /// /// Example: /// /// service Messaging { /// rpc GetMessage(GetMessageRequest) returns (Message) { /// option (google.api.http) = { /// get: "/v1/{name=messages/*}" /// }; /// } /// } /// message GetMessageRequest { /// string name = 1; // Mapped to URL path. /// } /// message Message { /// string text = 1; // The resource content. /// } /// /// This enables an HTTP REST to gRPC mapping as below: /// /// HTTP | gRPC /// -----|----- /// `GET /v1/messages/123456` | `GetMessage(name: "messages/123456")` /// /// Any fields in the request message which are not bound by the path template /// automatically become HTTP query parameters if there is no HTTP request body. /// For example: /// /// service Messaging { /// rpc GetMessage(GetMessageRequest) returns (Message) { /// option (google.api.http) = { /// get:"/v1/messages/{message_id}" /// }; /// } /// } /// message GetMessageRequest { /// message SubMessage { /// string subfield = 1; /// } /// string message_id = 1; // Mapped to URL path. /// int64 revision = 2; // Mapped to URL query parameter `revision`. /// SubMessage sub = 3; // Mapped to URL query parameter `sub.subfield`. /// } /// /// This enables a HTTP JSON to RPC mapping as below: /// /// HTTP | gRPC /// -----|----- /// `GET /v1/messages/123456?revision=2&sub.subfield=foo` | /// `GetMessage(message_id: "123456" revision: 2 sub: SubMessage(subfield: /// "foo"))` /// /// Note that fields which are mapped to URL query parameters must have a /// primitive type or a repeated primitive type or a non-repeated message type. /// In the case of a repeated type, the parameter can be repeated in the URL /// as `...?param=A¶m=B`. In the case of a message type, each field of the /// message is mapped to a separate parameter, such as /// `...?foo.a=A&foo.b=B&foo.c=C`. /// /// For HTTP methods that allow a request body, the `body` field /// specifies the mapping. Consider a REST update method on the /// message resource collection: /// /// service Messaging { /// rpc UpdateMessage(UpdateMessageRequest) returns (Message) { /// option (google.api.http) = { /// patch: "/v1/messages/{message_id}" /// body: "message" /// }; /// } /// } /// message UpdateMessageRequest { /// string message_id = 1; // mapped to the URL /// Message message = 2; // mapped to the body /// } /// /// The following HTTP JSON to RPC mapping is enabled, where the /// representation of the JSON in the request body is determined by /// protos JSON encoding: /// /// HTTP | gRPC /// -----|----- /// `PATCH /v1/messages/123456 { "text": "Hi!" }` | `UpdateMessage(message_id: /// "123456" message { text: "Hi!" })` /// /// The special name `*` can be used in the body mapping to define that /// every field not bound by the path template should be mapped to the /// request body. This enables the following alternative definition of /// the update method: /// /// service Messaging { /// rpc UpdateMessage(Message) returns (Message) { /// option (google.api.http) = { /// patch: "/v1/messages/{message_id}" /// body: "*" /// }; /// } /// } /// message Message { /// string message_id = 1; /// string text = 2; /// } /// /// /// The following HTTP JSON to RPC mapping is enabled: /// /// HTTP | gRPC /// -----|----- /// `PATCH /v1/messages/123456 { "text": "Hi!" }` | `UpdateMessage(message_id: /// "123456" text: "Hi!")` /// /// Note that when using `*` in the body mapping, it is not possible to /// have HTTP parameters, as all fields not bound by the path end in /// the body. This makes this option more rarely used in practice when /// defining REST APIs. The common usage of `*` is in custom methods /// which don't use the URL at all for transferring data. /// /// It is possible to define multiple HTTP methods for one RPC by using /// the `additional_bindings` option. Example: /// /// service Messaging { /// rpc GetMessage(GetMessageRequest) returns (Message) { /// option (google.api.http) = { /// get: "/v1/messages/{message_id}" /// additional_bindings { /// get: "/v1/users/{user_id}/messages/{message_id}" /// } /// }; /// } /// } /// message GetMessageRequest { /// string message_id = 1; /// string user_id = 2; /// } /// /// This enables the following two alternative HTTP JSON to RPC mappings: /// /// HTTP | gRPC /// -----|----- /// `GET /v1/messages/123456` | `GetMessage(message_id: "123456")` /// `GET /v1/users/me/messages/123456` | `GetMessage(user_id: "me" message_id: /// "123456")` /// /// ## Rules for HTTP mapping /// /// 1. Leaf request fields (recursive expansion nested messages in the request /// message) are classified into three categories: /// - Fields referred by the path template. They are passed via the URL path. /// - Fields referred by the [HttpRule.body][google.api.HttpRule.body]. They are passed via the HTTP /// request body. /// - All other fields are passed via the URL query parameters, and the /// parameter name is the field path in the request message. A repeated /// field can be represented as multiple query parameters under the same /// name. /// 2. If [HttpRule.body][google.api.HttpRule.body] is "*", there is no URL query parameter, all fields /// are passed via URL path and HTTP request body. /// 3. If [HttpRule.body][google.api.HttpRule.body] is omitted, there is no HTTP request body, all /// fields are passed via URL path and URL query parameters. /// /// ### Path template syntax /// /// Template = "/" Segments [ Verb ] ; /// Segments = Segment { "/" Segment } ; /// Segment = "*" | "**" | LITERAL | Variable ; /// Variable = "{" FieldPath [ "=" Segments ] "}" ; /// FieldPath = IDENT { "." IDENT } ; /// Verb = ":" LITERAL ; /// /// The syntax `*` matches a single URL path segment. The syntax `**` matches /// zero or more URL path segments, which must be the last part of the URL path /// except the `Verb`. /// /// The syntax `Variable` matches part of the URL path as specified by its /// template. A variable template must not contain other variables. If a variable /// matches a single path segment, its template may be omitted, e.g. `{var}` /// is equivalent to `{var=*}`. /// /// The syntax `LITERAL` matches literal text in the URL path. If the `LITERAL` /// contains any reserved character, such characters should be percent-encoded /// before the matching. /// /// If a variable contains exactly one path segment, such as `"{var}"` or /// `"{var=*}"`, when such a variable is expanded into a URL path on the client /// side, all characters except `[-_.~0-9a-zA-Z]` are percent-encoded. The /// server side does the reverse decoding. Such variables show up in the /// [Discovery /// Document](https://developers.google.com/discovery/v1/reference/apis) as /// `{var}`. /// /// If a variable contains multiple path segments, such as `"{var=foo/*}"` /// or `"{var=**}"`, when such a variable is expanded into a URL path on the /// client side, all characters except `[-_.~/0-9a-zA-Z]` are percent-encoded. /// The server side does the reverse decoding, except "%2F" and "%2f" are left /// unchanged. Such variables show up in the /// [Discovery /// Document](https://developers.google.com/discovery/v1/reference/apis) as /// `{+var}`. /// /// ## Using gRPC API Service Configuration /// /// gRPC API Service Configuration (service config) is a configuration language /// for configuring a gRPC service to become a user-facing product. The /// service config is simply the YAML representation of the `google.api.Service` /// proto message. /// /// As an alternative to annotating your proto file, you can configure gRPC /// transcoding in your service config YAML files. You do this by specifying a /// `HttpRule` that maps the gRPC method to a REST endpoint, achieving the same /// effect as the proto annotation. This can be particularly useful if you /// have a proto that is reused in multiple services. Note that any transcoding /// specified in the service config will override any matching transcoding /// configuration in the proto. /// /// Example: /// /// http: /// rules: /// # Selects a gRPC method and applies HttpRule to it. /// - selector: example.v1.Messaging.GetMessage /// get: /v1/messages/{message_id}/{sub.subfield} /// /// ## Special notes /// /// When gRPC Transcoding is used to map a gRPC to JSON REST endpoints, the /// proto to JSON conversion must follow the [proto3 /// specification](https://developers.google.com/protocol-buffers/docs/proto3#json). /// /// While the single segment variable follows the semantics of /// [RFC 6570](https://tools.ietf.org/html/rfc6570) Section 3.2.2 Simple String /// Expansion, the multi segment variable **does not** follow RFC 6570 Section /// 3.2.3 Reserved Expansion. The reason is that the Reserved Expansion /// does not expand special characters like `?` and `#`, which would lead /// to invalid URLs. As the result, gRPC Transcoding uses a custom encoding /// for multi segment variables. /// /// The path variables **must not** refer to any repeated or mapped field, /// because client libraries are not capable of handling such variable expansion. /// /// The path variables **must not** capture the leading "/" character. The reason /// is that the most common use case "{var}" does not capture the leading "/" /// character. For consistency, all path variables must share the same behavior. /// /// Repeated message fields must not be mapped to URL query parameters, because /// no client library can support such complicated mapping. /// /// If an API needs to use a JSON array for request or response body, it can map /// the request or response body to a repeated field. However, some gRPC /// Transcoding implementations may not support this feature. struct Google_Api_HttpRule { // SwiftProtobuf.Message conformance is added in an extension below. See the // `Message` and `Message+*Additions` files in the SwiftProtobuf library for // methods supported on all messages. /// Selects a method to which this rule applies. /// /// Refer to [selector][google.api.DocumentationRule.selector] for syntax details. var selector: String = String() /// Determines the URL pattern is matched by this rules. This pattern can be /// used with any of the {get|put|post|delete|patch} methods. A custom method /// can be defined using the 'custom' field. var pattern: Google_Api_HttpRule.OneOf_Pattern? = nil /// Maps to HTTP GET. Used for listing and getting information about /// resources. var get: String { get { if case .get(let v)? = pattern {return v} return String() } set {pattern = .get(newValue)} } /// Maps to HTTP PUT. Used for replacing a resource. var put: String { get { if case .put(let v)? = pattern {return v} return String() } set {pattern = .put(newValue)} } /// Maps to HTTP POST. Used for creating a resource or performing an action. var post: String { get { if case .post(let v)? = pattern {return v} return String() } set {pattern = .post(newValue)} } /// Maps to HTTP DELETE. Used for deleting a resource. var delete: String { get { if case .delete(let v)? = pattern {return v} return String() } set {pattern = .delete(newValue)} } /// Maps to HTTP PATCH. Used for updating a resource. var patch: String { get { if case .patch(let v)? = pattern {return v} return String() } set {pattern = .patch(newValue)} } /// The custom pattern is used for specifying an HTTP method that is not /// included in the `pattern` field, such as HEAD, or "*" to leave the /// HTTP method unspecified for this rule. The wild-card rule is useful /// for services that provide content to Web (HTML) clients. var custom: Google_Api_CustomHttpPattern { get { if case .custom(let v)? = pattern {return v} return Google_Api_CustomHttpPattern() } set {pattern = .custom(newValue)} } /// The name of the request field whose value is mapped to the HTTP request /// body, or `*` for mapping all request fields not captured by the path /// pattern to the HTTP body, or omitted for not having any HTTP request body. /// /// NOTE: the referred field must be present at the top-level of the request /// message type. var body: String = String() /// Optional. The name of the response field whose value is mapped to the HTTP /// response body. When omitted, the entire response message will be used /// as the HTTP response body. /// /// NOTE: The referred field must be present at the top-level of the response /// message type. var responseBody: String = String() /// Additional HTTP bindings for the selector. Nested bindings must /// not contain an `additional_bindings` field themselves (that is, /// the nesting may only be one level deep). var additionalBindings: [Google_Api_HttpRule] = [] var unknownFields = SwiftProtobuf.UnknownStorage() /// Determines the URL pattern is matched by this rules. This pattern can be /// used with any of the {get|put|post|delete|patch} methods. A custom method /// can be defined using the 'custom' field. enum OneOf_Pattern: Equatable { /// Maps to HTTP GET. Used for listing and getting information about /// resources. case get(String) /// Maps to HTTP PUT. Used for replacing a resource. case put(String) /// Maps to HTTP POST. Used for creating a resource or performing an action. case post(String) /// Maps to HTTP DELETE. Used for deleting a resource. case delete(String) /// Maps to HTTP PATCH. Used for updating a resource. case patch(String) /// The custom pattern is used for specifying an HTTP method that is not /// included in the `pattern` field, such as HEAD, or "*" to leave the /// HTTP method unspecified for this rule. The wild-card rule is useful /// for services that provide content to Web (HTML) clients. case custom(Google_Api_CustomHttpPattern) #if !swift(>=4.1) static func ==(lhs: Google_Api_HttpRule.OneOf_Pattern, rhs: Google_Api_HttpRule.OneOf_Pattern) -> Bool { // The use of inline closures is to circumvent an issue where the compiler // allocates stack space for every case branch when no optimizations are // enabled. https://github.com/apple/swift-protobuf/issues/1034 switch (lhs, rhs) { case (.get, .get): return { guard case .get(let l) = lhs, case .get(let r) = rhs else { preconditionFailure() } return l == r }() case (.put, .put): return { guard case .put(let l) = lhs, case .put(let r) = rhs else { preconditionFailure() } return l == r }() case (.post, .post): return { guard case .post(let l) = lhs, case .post(let r) = rhs else { preconditionFailure() } return l == r }() case (.delete, .delete): return { guard case .delete(let l) = lhs, case .delete(let r) = rhs else { preconditionFailure() } return l == r }() case (.patch, .patch): return { guard case .patch(let l) = lhs, case .patch(let r) = rhs else { preconditionFailure() } return l == r }() case (.custom, .custom): return { guard case .custom(let l) = lhs, case .custom(let r) = rhs else { preconditionFailure() } return l == r }() default: return false } } #endif } init() {} } /// A custom pattern is used for defining custom HTTP verb. struct Google_Api_CustomHttpPattern { // SwiftProtobuf.Message conformance is added in an extension below. See the // `Message` and `Message+*Additions` files in the SwiftProtobuf library for // methods supported on all messages. /// The name of this custom HTTP verb. var kind: String = String() /// The path matched by this custom verb. var path: String = String() var unknownFields = SwiftProtobuf.UnknownStorage() init() {} } #if swift(>=5.5) && canImport(_Concurrency) extension Google_Api_Http: @unchecked Sendable {} extension Google_Api_HttpRule: @unchecked Sendable {} extension Google_Api_HttpRule.OneOf_Pattern: @unchecked Sendable {} extension Google_Api_CustomHttpPattern: @unchecked Sendable {} #endif // swift(>=5.5) && canImport(_Concurrency) // MARK: - Code below here is support for the SwiftProtobuf runtime. fileprivate let _protobuf_package = "google.api" extension Google_Api_Http: SwiftProtobuf.Message, SwiftProtobuf._MessageImplementationBase, SwiftProtobuf._ProtoNameProviding { static let protoMessageName: String = _protobuf_package + ".Http" static let _protobuf_nameMap: SwiftProtobuf._NameMap = [ 1: .same(proto: "rules"), 2: .standard(proto: "fully_decode_reserved_expansion"), ] mutating func decodeMessage(decoder: inout D) throws { while let fieldNumber = try decoder.nextFieldNumber() { // The use of inline closures is to circumvent an issue where the compiler // allocates stack space for every case branch when no optimizations are // enabled. https://github.com/apple/swift-protobuf/issues/1034 switch fieldNumber { case 1: try { try decoder.decodeRepeatedMessageField(value: &self.rules) }() case 2: try { try decoder.decodeSingularBoolField(value: &self.fullyDecodeReservedExpansion) }() default: break } } } func traverse(visitor: inout V) throws { if !self.rules.isEmpty { try visitor.visitRepeatedMessageField(value: self.rules, fieldNumber: 1) } if self.fullyDecodeReservedExpansion != false { try visitor.visitSingularBoolField(value: self.fullyDecodeReservedExpansion, fieldNumber: 2) } try unknownFields.traverse(visitor: &visitor) } static func ==(lhs: Google_Api_Http, rhs: Google_Api_Http) -> Bool { if lhs.rules != rhs.rules {return false} if lhs.fullyDecodeReservedExpansion != rhs.fullyDecodeReservedExpansion {return false} if lhs.unknownFields != rhs.unknownFields {return false} return true } } extension Google_Api_HttpRule: SwiftProtobuf.Message, SwiftProtobuf._MessageImplementationBase, SwiftProtobuf._ProtoNameProviding { static let protoMessageName: String = _protobuf_package + ".HttpRule" static let _protobuf_nameMap: SwiftProtobuf._NameMap = [ 1: .same(proto: "selector"), 2: .same(proto: "get"), 3: .same(proto: "put"), 4: .same(proto: "post"), 5: .same(proto: "delete"), 6: .same(proto: "patch"), 8: .same(proto: "custom"), 7: .same(proto: "body"), 12: .standard(proto: "response_body"), 11: .standard(proto: "additional_bindings"), ] mutating func decodeMessage(decoder: inout D) throws { while let fieldNumber = try decoder.nextFieldNumber() { // The use of inline closures is to circumvent an issue where the compiler // allocates stack space for every case branch when no optimizations are // enabled. https://github.com/apple/swift-protobuf/issues/1034 switch fieldNumber { case 1: try { try decoder.decodeSingularStringField(value: &self.selector) }() case 2: try { var v: String? try decoder.decodeSingularStringField(value: &v) if let v = v { if self.pattern != nil {try decoder.handleConflictingOneOf()} self.pattern = .get(v) } }() case 3: try { var v: String? try decoder.decodeSingularStringField(value: &v) if let v = v { if self.pattern != nil {try decoder.handleConflictingOneOf()} self.pattern = .put(v) } }() case 4: try { var v: String? try decoder.decodeSingularStringField(value: &v) if let v = v { if self.pattern != nil {try decoder.handleConflictingOneOf()} self.pattern = .post(v) } }() case 5: try { var v: String? try decoder.decodeSingularStringField(value: &v) if let v = v { if self.pattern != nil {try decoder.handleConflictingOneOf()} self.pattern = .delete(v) } }() case 6: try { var v: String? try decoder.decodeSingularStringField(value: &v) if let v = v { if self.pattern != nil {try decoder.handleConflictingOneOf()} self.pattern = .patch(v) } }() case 7: try { try decoder.decodeSingularStringField(value: &self.body) }() case 8: try { var v: Google_Api_CustomHttpPattern? var hadOneofValue = false if let current = self.pattern { hadOneofValue = true if case .custom(let m) = current {v = m} } try decoder.decodeSingularMessageField(value: &v) if let v = v { if hadOneofValue {try decoder.handleConflictingOneOf()} self.pattern = .custom(v) } }() case 11: try { try decoder.decodeRepeatedMessageField(value: &self.additionalBindings) }() case 12: try { try decoder.decodeSingularStringField(value: &self.responseBody) }() default: break } } } func traverse(visitor: inout V) throws { // The use of inline closures is to circumvent an issue where the compiler // allocates stack space for every if/case branch local when no optimizations // are enabled. https://github.com/apple/swift-protobuf/issues/1034 and // https://github.com/apple/swift-protobuf/issues/1182 if !self.selector.isEmpty { try visitor.visitSingularStringField(value: self.selector, fieldNumber: 1) } switch self.pattern { case .get?: try { guard case .get(let v)? = self.pattern else { preconditionFailure() } try visitor.visitSingularStringField(value: v, fieldNumber: 2) }() case .put?: try { guard case .put(let v)? = self.pattern else { preconditionFailure() } try visitor.visitSingularStringField(value: v, fieldNumber: 3) }() case .post?: try { guard case .post(let v)? = self.pattern else { preconditionFailure() } try visitor.visitSingularStringField(value: v, fieldNumber: 4) }() case .delete?: try { guard case .delete(let v)? = self.pattern else { preconditionFailure() } try visitor.visitSingularStringField(value: v, fieldNumber: 5) }() case .patch?: try { guard case .patch(let v)? = self.pattern else { preconditionFailure() } try visitor.visitSingularStringField(value: v, fieldNumber: 6) }() default: break } if !self.body.isEmpty { try visitor.visitSingularStringField(value: self.body, fieldNumber: 7) } try { if case .custom(let v)? = self.pattern { try visitor.visitSingularMessageField(value: v, fieldNumber: 8) } }() if !self.additionalBindings.isEmpty { try visitor.visitRepeatedMessageField(value: self.additionalBindings, fieldNumber: 11) } if !self.responseBody.isEmpty { try visitor.visitSingularStringField(value: self.responseBody, fieldNumber: 12) } try unknownFields.traverse(visitor: &visitor) } static func ==(lhs: Google_Api_HttpRule, rhs: Google_Api_HttpRule) -> Bool { if lhs.selector != rhs.selector {return false} if lhs.pattern != rhs.pattern {return false} if lhs.body != rhs.body {return false} if lhs.responseBody != rhs.responseBody {return false} if lhs.additionalBindings != rhs.additionalBindings {return false} if lhs.unknownFields != rhs.unknownFields {return false} return true } } extension Google_Api_CustomHttpPattern: SwiftProtobuf.Message, SwiftProtobuf._MessageImplementationBase, SwiftProtobuf._ProtoNameProviding { static let protoMessageName: String = _protobuf_package + ".CustomHttpPattern" static let _protobuf_nameMap: SwiftProtobuf._NameMap = [ 1: .same(proto: "kind"), 2: .same(proto: "path"), ] mutating func decodeMessage(decoder: inout D) throws { while let fieldNumber = try decoder.nextFieldNumber() { // The use of inline closures is to circumvent an issue where the compiler // allocates stack space for every case branch when no optimizations are // enabled. https://github.com/apple/swift-protobuf/issues/1034 switch fieldNumber { case 1: try { try decoder.decodeSingularStringField(value: &self.kind) }() case 2: try { try decoder.decodeSingularStringField(value: &self.path) }() default: break } } } func traverse(visitor: inout V) throws { if !self.kind.isEmpty { try visitor.visitSingularStringField(value: self.kind, fieldNumber: 1) } if !self.path.isEmpty { try visitor.visitSingularStringField(value: self.path, fieldNumber: 2) } try unknownFields.traverse(visitor: &visitor) } static func ==(lhs: Google_Api_CustomHttpPattern, rhs: Google_Api_CustomHttpPattern) -> Bool { if lhs.kind != rhs.kind {return false} if lhs.path != rhs.path {return false} if lhs.unknownFields != rhs.unknownFields {return false} return true } }