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@bandprotocol/bandchain.js

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TypeScript library for Cosmos SDK and BandChain

github.com/bandprotocol/bandchainjs

bandprotocol/bandchain.js

1,243 lines • 133 kB

JavaScript

//@ts-nocheck import { BinaryReader, BinaryWriter } from "../../binary"; import { bytesFromBase64, base64FromBytes } from "../../helpers"; export var FieldDescriptorProto_Type; (function (FieldDescriptorProto_Type) { /** * TYPE_DOUBLE - 0 is reserved for errors. * Order is weird for historical reasons. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_DOUBLE"] = 1] = "TYPE_DOUBLE"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_FLOAT"] = 2] = "TYPE_FLOAT"; /** * TYPE_INT64 - Not ZigZag encoded. Negative numbers take 10 bytes. Use TYPE_SINT64 if * negative values are likely. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_INT64"] = 3] = "TYPE_INT64"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_UINT64"] = 4] = "TYPE_UINT64"; /** * TYPE_INT32 - Not ZigZag encoded. Negative numbers take 10 bytes. Use TYPE_SINT32 if * negative values are likely. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_INT32"] = 5] = "TYPE_INT32"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_FIXED64"] = 6] = "TYPE_FIXED64"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_FIXED32"] = 7] = "TYPE_FIXED32"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_BOOL"] = 8] = "TYPE_BOOL"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_STRING"] = 9] = "TYPE_STRING"; /** * TYPE_GROUP - Tag-delimited aggregate. * Group type is deprecated and not supported in proto3. However, Proto3 * implementations should still be able to parse the group wire format and * treat group fields as unknown fields. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_GROUP"] = 10] = "TYPE_GROUP"; /** TYPE_MESSAGE - Length-delimited aggregate. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_MESSAGE"] = 11] = "TYPE_MESSAGE"; /** TYPE_BYTES - New in version 2. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_BYTES"] = 12] = "TYPE_BYTES"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_UINT32"] = 13] = "TYPE_UINT32"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_ENUM"] = 14] = "TYPE_ENUM"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_SFIXED32"] = 15] = "TYPE_SFIXED32"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_SFIXED64"] = 16] = "TYPE_SFIXED64"; /** TYPE_SINT32 - Uses ZigZag encoding. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_SINT32"] = 17] = "TYPE_SINT32"; /** TYPE_SINT64 - Uses ZigZag encoding. */ FieldDescriptorProto_Type[FieldDescriptorProto_Type["TYPE_SINT64"] = 18] = "TYPE_SINT64"; FieldDescriptorProto_Type[FieldDescriptorProto_Type["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(FieldDescriptorProto_Type || (FieldDescriptorProto_Type = {})); export const FieldDescriptorProto_TypeSDKType = FieldDescriptorProto_Type; export const FieldDescriptorProto_TypeAmino = FieldDescriptorProto_Type; export function fieldDescriptorProto_TypeFromJSON(object) { switch (object) { case 1: case "TYPE_DOUBLE": return FieldDescriptorProto_Type.TYPE_DOUBLE; case 2: case "TYPE_FLOAT": return FieldDescriptorProto_Type.TYPE_FLOAT; case 3: case "TYPE_INT64": return FieldDescriptorProto_Type.TYPE_INT64; case 4: case "TYPE_UINT64": return FieldDescriptorProto_Type.TYPE_UINT64; case 5: case "TYPE_INT32": return FieldDescriptorProto_Type.TYPE_INT32; case 6: case "TYPE_FIXED64": return FieldDescriptorProto_Type.TYPE_FIXED64; case 7: case "TYPE_FIXED32": return FieldDescriptorProto_Type.TYPE_FIXED32; case 8: case "TYPE_BOOL": return FieldDescriptorProto_Type.TYPE_BOOL; case 9: case "TYPE_STRING": return FieldDescriptorProto_Type.TYPE_STRING; case 10: case "TYPE_GROUP": return FieldDescriptorProto_Type.TYPE_GROUP; case 11: case "TYPE_MESSAGE": return FieldDescriptorProto_Type.TYPE_MESSAGE; case 12: case "TYPE_BYTES": return FieldDescriptorProto_Type.TYPE_BYTES; case 13: case "TYPE_UINT32": return FieldDescriptorProto_Type.TYPE_UINT32; case 14: case "TYPE_ENUM": return FieldDescriptorProto_Type.TYPE_ENUM; case 15: case "TYPE_SFIXED32": return FieldDescriptorProto_Type.TYPE_SFIXED32; case 16: case "TYPE_SFIXED64": return FieldDescriptorProto_Type.TYPE_SFIXED64; case 17: case "TYPE_SINT32": return FieldDescriptorProto_Type.TYPE_SINT32; case 18: case "TYPE_SINT64": return FieldDescriptorProto_Type.TYPE_SINT64; case -1: case "UNRECOGNIZED": default: return FieldDescriptorProto_Type.UNRECOGNIZED; } } export function fieldDescriptorProto_TypeToJSON(object) { switch (object) { case FieldDescriptorProto_Type.TYPE_DOUBLE: return "TYPE_DOUBLE"; case FieldDescriptorProto_Type.TYPE_FLOAT: return "TYPE_FLOAT"; case FieldDescriptorProto_Type.TYPE_INT64: return "TYPE_INT64"; case FieldDescriptorProto_Type.TYPE_UINT64: return "TYPE_UINT64"; case FieldDescriptorProto_Type.TYPE_INT32: return "TYPE_INT32"; case FieldDescriptorProto_Type.TYPE_FIXED64: return "TYPE_FIXED64"; case FieldDescriptorProto_Type.TYPE_FIXED32: return "TYPE_FIXED32"; case FieldDescriptorProto_Type.TYPE_BOOL: return "TYPE_BOOL"; case FieldDescriptorProto_Type.TYPE_STRING: return "TYPE_STRING"; case FieldDescriptorProto_Type.TYPE_GROUP: return "TYPE_GROUP"; case FieldDescriptorProto_Type.TYPE_MESSAGE: return "TYPE_MESSAGE"; case FieldDescriptorProto_Type.TYPE_BYTES: return "TYPE_BYTES"; case FieldDescriptorProto_Type.TYPE_UINT32: return "TYPE_UINT32"; case FieldDescriptorProto_Type.TYPE_ENUM: return "TYPE_ENUM"; case FieldDescriptorProto_Type.TYPE_SFIXED32: return "TYPE_SFIXED32"; case FieldDescriptorProto_Type.TYPE_SFIXED64: return "TYPE_SFIXED64"; case FieldDescriptorProto_Type.TYPE_SINT32: return "TYPE_SINT32"; case FieldDescriptorProto_Type.TYPE_SINT64: return "TYPE_SINT64"; case FieldDescriptorProto_Type.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } export var FieldDescriptorProto_Label; (function (FieldDescriptorProto_Label) { /** LABEL_OPTIONAL - 0 is reserved for errors */ FieldDescriptorProto_Label[FieldDescriptorProto_Label["LABEL_OPTIONAL"] = 1] = "LABEL_OPTIONAL"; FieldDescriptorProto_Label[FieldDescriptorProto_Label["LABEL_REQUIRED"] = 2] = "LABEL_REQUIRED"; FieldDescriptorProto_Label[FieldDescriptorProto_Label["LABEL_REPEATED"] = 3] = "LABEL_REPEATED"; FieldDescriptorProto_Label[FieldDescriptorProto_Label["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(FieldDescriptorProto_Label || (FieldDescriptorProto_Label = {})); export const FieldDescriptorProto_LabelSDKType = FieldDescriptorProto_Label; export const FieldDescriptorProto_LabelAmino = FieldDescriptorProto_Label; export function fieldDescriptorProto_LabelFromJSON(object) { switch (object) { case 1: case "LABEL_OPTIONAL": return FieldDescriptorProto_Label.LABEL_OPTIONAL; case 2: case "LABEL_REQUIRED": return FieldDescriptorProto_Label.LABEL_REQUIRED; case 3: case "LABEL_REPEATED": return FieldDescriptorProto_Label.LABEL_REPEATED; case -1: case "UNRECOGNIZED": default: return FieldDescriptorProto_Label.UNRECOGNIZED; } } export function fieldDescriptorProto_LabelToJSON(object) { switch (object) { case FieldDescriptorProto_Label.LABEL_OPTIONAL: return "LABEL_OPTIONAL"; case FieldDescriptorProto_Label.LABEL_REQUIRED: return "LABEL_REQUIRED"; case FieldDescriptorProto_Label.LABEL_REPEATED: return "LABEL_REPEATED"; case FieldDescriptorProto_Label.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } /** Generated classes can be optimized for speed or code size. */ export var FileOptions_OptimizeMode; (function (FileOptions_OptimizeMode) { /** SPEED - Generate complete code for parsing, serialization, */ FileOptions_OptimizeMode[FileOptions_OptimizeMode["SPEED"] = 1] = "SPEED"; /** CODE_SIZE - etc. */ FileOptions_OptimizeMode[FileOptions_OptimizeMode["CODE_SIZE"] = 2] = "CODE_SIZE"; /** LITE_RUNTIME - Generate code using MessageLite and the lite runtime. */ FileOptions_OptimizeMode[FileOptions_OptimizeMode["LITE_RUNTIME"] = 3] = "LITE_RUNTIME"; FileOptions_OptimizeMode[FileOptions_OptimizeMode["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(FileOptions_OptimizeMode || (FileOptions_OptimizeMode = {})); export const FileOptions_OptimizeModeSDKType = FileOptions_OptimizeMode; export const FileOptions_OptimizeModeAmino = FileOptions_OptimizeMode; export function fileOptions_OptimizeModeFromJSON(object) { switch (object) { case 1: case "SPEED": return FileOptions_OptimizeMode.SPEED; case 2: case "CODE_SIZE": return FileOptions_OptimizeMode.CODE_SIZE; case 3: case "LITE_RUNTIME": return FileOptions_OptimizeMode.LITE_RUNTIME; case -1: case "UNRECOGNIZED": default: return FileOptions_OptimizeMode.UNRECOGNIZED; } } export function fileOptions_OptimizeModeToJSON(object) { switch (object) { case FileOptions_OptimizeMode.SPEED: return "SPEED"; case FileOptions_OptimizeMode.CODE_SIZE: return "CODE_SIZE"; case FileOptions_OptimizeMode.LITE_RUNTIME: return "LITE_RUNTIME"; case FileOptions_OptimizeMode.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } export var FieldOptions_CType; (function (FieldOptions_CType) { /** STRING - Default mode. */ FieldOptions_CType[FieldOptions_CType["STRING"] = 0] = "STRING"; FieldOptions_CType[FieldOptions_CType["CORD"] = 1] = "CORD"; FieldOptions_CType[FieldOptions_CType["STRING_PIECE"] = 2] = "STRING_PIECE"; FieldOptions_CType[FieldOptions_CType["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(FieldOptions_CType || (FieldOptions_CType = {})); export const FieldOptions_CTypeSDKType = FieldOptions_CType; export const FieldOptions_CTypeAmino = FieldOptions_CType; export function fieldOptions_CTypeFromJSON(object) { switch (object) { case 0: case "STRING": return FieldOptions_CType.STRING; case 1: case "CORD": return FieldOptions_CType.CORD; case 2: case "STRING_PIECE": return FieldOptions_CType.STRING_PIECE; case -1: case "UNRECOGNIZED": default: return FieldOptions_CType.UNRECOGNIZED; } } export function fieldOptions_CTypeToJSON(object) { switch (object) { case FieldOptions_CType.STRING: return "STRING"; case FieldOptions_CType.CORD: return "CORD"; case FieldOptions_CType.STRING_PIECE: return "STRING_PIECE"; case FieldOptions_CType.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } export var FieldOptions_JSType; (function (FieldOptions_JSType) { /** JS_NORMAL - Use the default type. */ FieldOptions_JSType[FieldOptions_JSType["JS_NORMAL"] = 0] = "JS_NORMAL"; /** JS_STRING - Use JavaScript strings. */ FieldOptions_JSType[FieldOptions_JSType["JS_STRING"] = 1] = "JS_STRING"; /** JS_NUMBER - Use JavaScript numbers. */ FieldOptions_JSType[FieldOptions_JSType["JS_NUMBER"] = 2] = "JS_NUMBER"; FieldOptions_JSType[FieldOptions_JSType["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(FieldOptions_JSType || (FieldOptions_JSType = {})); export const FieldOptions_JSTypeSDKType = FieldOptions_JSType; export const FieldOptions_JSTypeAmino = FieldOptions_JSType; export function fieldOptions_JSTypeFromJSON(object) { switch (object) { case 0: case "JS_NORMAL": return FieldOptions_JSType.JS_NORMAL; case 1: case "JS_STRING": return FieldOptions_JSType.JS_STRING; case 2: case "JS_NUMBER": return FieldOptions_JSType.JS_NUMBER; case -1: case "UNRECOGNIZED": default: return FieldOptions_JSType.UNRECOGNIZED; } } export function fieldOptions_JSTypeToJSON(object) { switch (object) { case FieldOptions_JSType.JS_NORMAL: return "JS_NORMAL"; case FieldOptions_JSType.JS_STRING: return "JS_STRING"; case FieldOptions_JSType.JS_NUMBER: return "JS_NUMBER"; case FieldOptions_JSType.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } /** * Is this method side-effect-free (or safe in HTTP parlance), or idempotent, * or neither? HTTP based RPC implementation may choose GET verb for safe * methods, and PUT verb for idempotent methods instead of the default POST. */ export var MethodOptions_IdempotencyLevel; (function (MethodOptions_IdempotencyLevel) { MethodOptions_IdempotencyLevel[MethodOptions_IdempotencyLevel["IDEMPOTENCY_UNKNOWN"] = 0] = "IDEMPOTENCY_UNKNOWN"; /** NO_SIDE_EFFECTS - implies idempotent */ MethodOptions_IdempotencyLevel[MethodOptions_IdempotencyLevel["NO_SIDE_EFFECTS"] = 1] = "NO_SIDE_EFFECTS"; /** IDEMPOTENT - idempotent, but may have side effects */ MethodOptions_IdempotencyLevel[MethodOptions_IdempotencyLevel["IDEMPOTENT"] = 2] = "IDEMPOTENT"; MethodOptions_IdempotencyLevel[MethodOptions_IdempotencyLevel["UNRECOGNIZED"] = -1] = "UNRECOGNIZED"; })(MethodOptions_IdempotencyLevel || (MethodOptions_IdempotencyLevel = {})); export const MethodOptions_IdempotencyLevelSDKType = MethodOptions_IdempotencyLevel; export const MethodOptions_IdempotencyLevelAmino = MethodOptions_IdempotencyLevel; export function methodOptions_IdempotencyLevelFromJSON(object) { switch (object) { case 0: case "IDEMPOTENCY_UNKNOWN": return MethodOptions_IdempotencyLevel.IDEMPOTENCY_UNKNOWN; case 1: case "NO_SIDE_EFFECTS": return MethodOptions_IdempotencyLevel.NO_SIDE_EFFECTS; case 2: case "IDEMPOTENT": return MethodOptions_IdempotencyLevel.IDEMPOTENT; case -1: case "UNRECOGNIZED": default: return MethodOptions_IdempotencyLevel.UNRECOGNIZED; } } export function methodOptions_IdempotencyLevelToJSON(object) { switch (object) { case MethodOptions_IdempotencyLevel.IDEMPOTENCY_UNKNOWN: return "IDEMPOTENCY_UNKNOWN"; case MethodOptions_IdempotencyLevel.NO_SIDE_EFFECTS: return "NO_SIDE_EFFECTS"; case MethodOptions_IdempotencyLevel.IDEMPOTENT: return "IDEMPOTENT"; case MethodOptions_IdempotencyLevel.UNRECOGNIZED: default: return "UNRECOGNIZED"; } } function createBaseFileDescriptorSet() { return { file: [] }; } export const FileDescriptorSet = { typeUrl: "/google.protobuf.FileDescriptorSet", encode(message, writer = BinaryWriter.create()) { for (const v of message.file) { FileDescriptorProto.encode(v, writer.uint32(10).fork()).ldelim(); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseFileDescriptorSet(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.file.push(FileDescriptorProto.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseFileDescriptorSet(); message.file = object.file?.map(e => FileDescriptorProto.fromPartial(e)) || []; return message; }, fromAmino(object) { const message = createBaseFileDescriptorSet(); message.file = object.file?.map(e => FileDescriptorProto.fromAmino(e)) || []; return message; }, toAmino(message) { const obj = {}; if (message.file) { obj.file = message.file.map(e => e ? FileDescriptorProto.toAmino(e) : undefined); } else { obj.file = message.file; } return obj; }, fromAminoMsg(object) { return FileDescriptorSet.fromAmino(object.value); }, fromProtoMsg(message) { return FileDescriptorSet.decode(message.value); }, toProto(message) { return FileDescriptorSet.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/google.protobuf.FileDescriptorSet", value: FileDescriptorSet.encode(message).finish() }; } }; function createBaseFileDescriptorProto() { return { name: "", package: "", dependency: [], publicDependency: [], weakDependency: [], messageType: [], enumType: [], service: [], extension: [], options: undefined, sourceCodeInfo: undefined, syntax: "" }; } export const FileDescriptorProto = { typeUrl: "/google.protobuf.FileDescriptorProto", encode(message, writer = BinaryWriter.create()) { if (message.name !== "") { writer.uint32(10).string(message.name); } if (message.package !== "") { writer.uint32(18).string(message.package); } for (const v of message.dependency) { writer.uint32(26).string(v); } writer.uint32(82).fork(); for (const v of message.publicDependency) { writer.int32(v); } writer.ldelim(); writer.uint32(90).fork(); for (const v of message.weakDependency) { writer.int32(v); } writer.ldelim(); for (const v of message.messageType) { DescriptorProto.encode(v, writer.uint32(34).fork()).ldelim(); } for (const v of message.enumType) { EnumDescriptorProto.encode(v, writer.uint32(42).fork()).ldelim(); } for (const v of message.service) { ServiceDescriptorProto.encode(v, writer.uint32(50).fork()).ldelim(); } for (const v of message.extension) { FieldDescriptorProto.encode(v, writer.uint32(58).fork()).ldelim(); } if (message.options !== undefined) { FileOptions.encode(message.options, writer.uint32(66).fork()).ldelim(); } if (message.sourceCodeInfo !== undefined) { SourceCodeInfo.encode(message.sourceCodeInfo, writer.uint32(74).fork()).ldelim(); } if (message.syntax !== "") { writer.uint32(98).string(message.syntax); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseFileDescriptorProto(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 2: message.package = reader.string(); break; case 3: message.dependency.push(reader.string()); break; case 10: if ((tag & 7) === 2) { const end2 = reader.uint32() + reader.pos; while (reader.pos < end2) { message.publicDependency.push(reader.int32()); } } else { message.publicDependency.push(reader.int32()); } break; case 11: if ((tag & 7) === 2) { const end2 = reader.uint32() + reader.pos; while (reader.pos < end2) { message.weakDependency.push(reader.int32()); } } else { message.weakDependency.push(reader.int32()); } break; case 4: message.messageType.push(DescriptorProto.decode(reader, reader.uint32())); break; case 5: message.enumType.push(EnumDescriptorProto.decode(reader, reader.uint32())); break; case 6: message.service.push(ServiceDescriptorProto.decode(reader, reader.uint32())); break; case 7: message.extension.push(FieldDescriptorProto.decode(reader, reader.uint32())); break; case 8: message.options = FileOptions.decode(reader, reader.uint32()); break; case 9: message.sourceCodeInfo = SourceCodeInfo.decode(reader, reader.uint32()); break; case 12: message.syntax = reader.string(); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseFileDescriptorProto(); message.name = object.name ?? 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""; message.field = object.field?.map(e => FieldDescriptorProto.fromPartial(e)) || []; message.extension = object.extension?.map(e => FieldDescriptorProto.fromPartial(e)) || []; message.nestedType = object.nestedType?.map(e => DescriptorProto.fromPartial(e)) || []; message.enumType = object.enumType?.map(e => EnumDescriptorProto.fromPartial(e)) || []; message.extensionRange = object.extensionRange?.map(e => DescriptorProto_ExtensionRange.fromPartial(e)) || []; message.oneofDecl = object.oneofDecl?.map(e => OneofDescriptorProto.fromPartial(e)) || []; message.options = object.options !== undefined && object.options !== null ? MessageOptions.fromPartial(object.options) : undefined; message.reservedRange = object.reservedRange?.map(e => DescriptorProto_ReservedRange.fromPartial(e)) || []; message.reservedName = object.reservedName?.map(e => e) || []; return message; }, fromAmino(object) { const message = createBaseDescriptorProto(); if (object.name !== undefined && object.name !== null) { message.name = object.name; } message.field = object.field?.map(e => FieldDescriptorProto.fromAmino(e)) || []; message.extension = object.extension?.map(e => FieldDescriptorProto.fromAmino(e)) || []; message.nestedType = object.nested_type?.map(e => DescriptorProto.fromAmino(e)) || []; message.enumType = object.enum_type?.map(e => EnumDescriptorProto.fromAmino(e)) || []; message.extensionRange = object.extension_range?.map(e => DescriptorProto_ExtensionRange.fromAmino(e)) || []; message.oneofDecl = object.oneof_decl?.map(e => OneofDescriptorProto.fromAmino(e)) || []; if (object.options !== undefined && object.options !== null) { message.options = MessageOptions.fromAmino(object.options); } message.reservedRange = object.reserved_range?.map(e => DescriptorProto_ReservedRange.fromAmino(e)) || []; message.reservedName = object.reserved_name?.map(e => e) || []; return message; }, toAmino(message) { const obj = {}; obj.name = message.name === "" ? undefined : message.name; if (message.field) { obj.field = message.field.map(e => e ? FieldDescriptorProto.toAmino(e) : undefined); } else { obj.field = message.field; } if (message.extension) { obj.extension = message.extension.map(e => e ? FieldDescriptorProto.toAmino(e) : undefined); } else { obj.extension = message.extension; } if (message.nestedType) { obj.nested_type = message.nestedType.map(e => e ? DescriptorProto.toAmino(e) : undefined); } else { obj.nested_type = message.nestedType; } if (message.enumType) { obj.enum_type = message.enumType.map(e => e ? EnumDescriptorProto.toAmino(e) : undefined); } else { obj.enum_type = message.enumType; } if (message.extensionRange) { obj.extension_range = message.extensionRange.map(e => e ? DescriptorProto_ExtensionRange.toAmino(e) : undefined); } else { obj.extension_range = message.extensionRange; } if (message.oneofDecl) { obj.oneof_decl = message.oneofDecl.map(e => e ? OneofDescriptorProto.toAmino(e) : undefined); } else { obj.oneof_decl = message.oneofDecl; } obj.options = message.options ? MessageOptions.toAmino(message.options) : undefined; if (message.reservedRange) { obj.reserved_range = message.reservedRange.map(e => e ? DescriptorProto_ReservedRange.toAmino(e) : undefined); } else { obj.reserved_range = message.reservedRange; } if (message.reservedName) { obj.reserved_name = message.reservedName.map(e => e); } else { obj.reserved_name = message.reservedName; } return obj; }, fromAminoMsg(object) { return DescriptorProto.fromAmino(object.value); }, fromProtoMsg(message) { return DescriptorProto.decode(message.value); }, toProto(message) { return DescriptorProto.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/google.protobuf.DescriptorProto", value: DescriptorProto.encode(message).finish() }; } }; function createBaseDescriptorProto_ExtensionRange() { return { start: 0, end: 0, options: undefined }; } export const DescriptorProto_ExtensionRange = { typeUrl: "/google.protobuf.ExtensionRange", encode(message, writer = BinaryWriter.create()) { if (message.start !== 0) { writer.uint32(8).int32(message.start); } if (message.end !== 0) { writer.uint32(16).int32(message.end); } if (message.options !== undefined) { ExtensionRangeOptions.encode(message.options, writer.uint32(26).fork()).ldelim(); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseDescriptorProto_ExtensionRange(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.start = reader.int32(); break; case 2: message.end = reader.int32(); break; case 3: message.options = ExtensionRangeOptions.decode(reader, reader.uint32()); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseDescriptorProto_ExtensionRange(); message.start = object.start ?? 0; message.end = object.end ?? 0; message.options = object.options !== undefined && object.options !== null ? ExtensionRangeOptions.fromPartial(object.options) : undefined; return message; }, fromAmino(object) { const message = createBaseDescriptorProto_ExtensionRange(); if (object.start !== undefined && object.start !== null) { message.start = object.start; } if (object.end !== undefined && object.end !== null) { message.end = object.end; } if (object.options !== undefined && object.options !== null) { message.options = ExtensionRangeOptions.fromAmino(object.options); } return message; }, toAmino(message) { const obj = {}; obj.start = message.start === 0 ? undefined : message.start; obj.end = message.end === 0 ? undefined : message.end; obj.options = message.options ? ExtensionRangeOptions.toAmino(message.options) : undefined; return obj; }, fromAminoMsg(object) { return DescriptorProto_ExtensionRange.fromAmino(object.value); }, fromProtoMsg(message) { return DescriptorProto_ExtensionRange.decode(message.value); }, toProto(message) { return DescriptorProto_ExtensionRange.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/google.protobuf.ExtensionRange", value: DescriptorProto_ExtensionRange.encode(message).finish() }; } }; function createBaseDescriptorProto_ReservedRange() { return { start: 0, end: 0 }; } export const DescriptorProto_ReservedRange = { typeUrl: "/google.protobuf.ReservedRange", encode(message, writer = BinaryWriter.create()) { if (message.start !== 0) { writer.uint32(8).int32(message.start); } if (message.end !== 0) { writer.uint32(16).int32(message.end); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseDescriptorProto_ReservedRange(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.start = reader.int32(); break; case 2: message.end = reader.int32(); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseDescriptorProto_ReservedRange(); message.start = object.start ?? 0; message.end = object.end ?? 0; return message; }, fromAmino(object) { const message = createBaseDescriptorProto_ReservedRange(); if (object.start !== undefined && object.start !== null) { message.start = object.start; } if (object.end !== undefined && object.end !== null) { message.end = object.end; } return message; }, toAmino(message) { const obj = {}; obj.start = message.start === 0 ? undefined : message.start; obj.end = message.end === 0 ? undefined : message.end; return obj; }, fromAminoMsg(object) { return DescriptorProto_ReservedRange.fromAmino(object.value); }, fromProtoMsg(message) { return DescriptorProto_ReservedRange.decode(message.value); }, toProto(message) { return DescriptorProto_ReservedRange.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/google.protobuf.ReservedRange", value: DescriptorProto_ReservedRange.encode(message).finish() }; } }; function createBaseExtensionRangeOptions() { return { uninterpretedOption: [] }; } export const ExtensionRangeOptions = { typeUrl: "/google.protobuf.ExtensionRangeOptions", encode(message, writer = BinaryWriter.create()) { for (const v of message.uninterpretedOption) { UninterpretedOption.encode(v, writer.uint32(7994).fork()).ldelim(); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseExtensionRangeOptions(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 999: message.uninterpretedOption.push(UninterpretedOption.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseExtensionRangeOptions(); message.uninterpretedOption = object.uninterpretedOption?.map(e => UninterpretedOption.fromPartial(e)) || []; return message; }, fromAmino(object) { const message = createBaseExtensionRangeOptions(); message.uninterpretedOption = object.uninterpreted_option?.map(e => UninterpretedOption.fromAmino(e)) || []; return message; }, toAmino(message) { const obj = {}; if (message.uninterpretedOption) { obj.uninterpreted_option = message.uninterpretedOption.map(e => e ? UninterpretedOption.toAmino(e) : undefined); } else { obj.uninterpreted_option = message.uninterpretedOption; } return obj; }, fromAminoMsg(object) { return ExtensionRangeOptions.fromAmino(object.value); }, fromProtoMsg(message) { return ExtensionRangeOptions.decode(message.value); }, toProto(message) { return ExtensionRangeOptions.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/google.protobuf.ExtensionRangeOptions", value: ExtensionRangeOptions.encode(message).finish() }; } }; function createBaseFieldDescriptorProto() { return { name: "", number: 0, label: 1, type: 1, typeName: "", extendee: "", defaultValue: "", oneofIndex: 0, jsonName: "", options: undefined }; } export const FieldDescriptorProto = { typeUrl: "/google.protobuf.FieldDescriptorProto", encode(message, writer = BinaryWriter.create()) { if (message.name !== "") { writer.uint32(10).string(message.name); } if (message.number !== 0) { writer.uint32(24).int32(message.number); } if (message.label !== 1) { writer.uint32(32).int32(message.label); } if (message.type !== 1) { writer.uint32(40).int32(message.type); } if (message.typeName !== "") { writer.uint32(50).string(message.typeName); } if (message.extendee !== "") { writer.uint32(18).string(message.extendee); } if (message.defaultValue !== "") { writer.uint32(58).string(message.defaultValue); } if (message.oneofIndex !== 0) { writer.uint32(72).int32(message.oneofIndex); } if (message.jsonName !== "") { writer.uint32(82).string(message.jsonName); } if (message.options !== undefined) { FieldOptions.encode(message.options, writer.uint32(66).fork()).ldelim(); } return writer; }, decode(input, length) { const reader = input instanceof BinaryReader ? input : new BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseFieldDescriptorProto(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 3: message.number = reader.int32(); break; case 4: message.label = reader.int32(); break; case 5: message.type = reader.int32(); break; case 6: message.typeName = reader.string(); break; case 2: message.extendee = reader.string(); break; case 7: message.defaultValue = reader.string(); break; case 9: message.oneofIndex = reader.int32(); break; case 10: message.jsonName = reader.string(); break; case 8: message.options = FieldOptions.decode(reader, reader.uint32()); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseFieldDescriptorProto(); message.name = object.name ?? ""; message.number = object.number ?? 0; message.label = object.label ?? 1; message.type = object.type ?? 1; message.typeName = object.typeName ?? ""; message.extendee = object.extendee ?? ""; message.defaultValue = object.defaultValue ?? ""; message.oneofIndex = object.oneofIndex ?? 0; message.jsonName = object.jsonName ?? ""; message.options = object.options !== undefined && object.options !== null ? FieldOptions.fromPartial(object.options) : undefined; return message; }, fromAmino(object) { const message = createBaseFieldDescriptorProto(); if (object.name !== undefined && object.name !== null) { message.name = object.name; } if (object.number !== undefined && object.number !== null) { message.number = object.number; } if (object.label !== undefined && object.label !== null) { message.label = object.label; } if (object.type !== undefined && object.type !== null) { message.type = object.type; } if (object.type_name !== undefined && object.type_name !== null) { message.typeName = object.type_name; } if (object.extendee !== undefined && object.extendee !== null) { message.extendee = object.extendee; } if (object.default_value !== undefined && object.default_value !== null) { message.defaultValue = object.default_value; } if (object.oneof_index !== undefined && object.oneof_index !== null) { message.oneofIndex = object.oneof_index; } if (object.json_name !== undefined && object.json_name !== null) { message.jsonName = object.json_name; } if (object.options !== undefined && object.options !== null) { message.options = FieldOptions.fromAmino(object.options); } return message; }, toAmino(message) { const obj = {}; obj.name = message.name === "" ? undefined : message.name; obj.number = message.number === 0 ? undefined : message.number; obj.label = message.label === 1 ? undefined : message.label; obj.type = message.type === 1 ? undefined : message.type; obj.type_name = message.typeName === "" ? undefined : message.typeName; obj.extendee = message.extendee === "" ? undefined : message.extendee; obj.default_value = message.defaultValue === "" ? undefined : message.defaultValue; obj.oneof_index = message.oneofIndex === 0 ? undefined : message.oneofIndex; obj.json_name = message.jsonName === "" ? undefined : message.jsonName; obj.options = message.options ? FieldOptions.toAmino(m