pbjs

export const enum Enum { A = "A", B = "B", } export const encodeEnum: { [key: string]: number } = { A: 0, B: 1, }; export const decodeEnum: { [key: number]: Enum } = { 0: Enum.A, 1: Enum.B, }; export interface Nested { x?: number; y?: number; } export function encodeNested(message: Nested): Uint8Array { let bb = newByteBuffer(); // optional float x = 1; let $x = message.x; if ($x !== undefined) { writeVarint32(bb, 13); writeFloat(bb, $x); } // optional float y = 2; let $y = message.y; if ($y !== undefined) { writeVarint32(bb, 21); writeFloat(bb, $y); } return toUint8Array(bb); } export function decodeNested(binary: ByteBuffer | Uint8Array): Nested { let message: Nested = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // optional float x = 1; case 1: { message.x = readFloat(bb); break; } // optional float y = 2; case 2: { message.y = readFloat(bb); break; } default: skipUnknownField(bb, tag & 7); } } return message; } export interface Optional { field_int32?: number; field_int64?: Long; field_uint32?: number; field_uint64?: Long; field_sint32?: number; field_sint64?: Long; field_bool?: boolean; field_fixed64?: Long; field_sfixed64?: Long; field_double?: number; field_string?: string; field_bytes?: Uint8Array; field_fixed32?: number; field_sfixed32?: number; field_float?: number; field_nested?: Nested; } export function encodeOptional(message: Optional): Uint8Array { let bb = newByteBuffer(); // optional int32 field_int32 = 1; let $field_int32 = message.field_int32; if ($field_int32 !== undefined) { writeVarint32(bb, 8); writeVarint64(bb, intToLong($field_int32)); } // optional int64 field_int64 = 2; let $field_int64 = message.field_int64; if ($field_int64 !== undefined) { writeVarint32(bb, 16); writeVarint64(bb, $field_int64); } // optional uint32 field_uint32 = 3; let $field_uint32 = message.field_uint32; if ($field_uint32 !== undefined) { writeVarint32(bb, 24); writeVarint32(bb, $field_uint32); } // optional uint64 field_uint64 = 4; let $field_uint64 = message.field_uint64; if ($field_uint64 !== undefined) { writeVarint32(bb, 32); writeVarint64(bb, $field_uint64); } // optional sint32 field_sint32 = 5; let $field_sint32 = message.field_sint32; if ($field_sint32 !== undefined) { writeVarint32(bb, 40); writeVarint32ZigZag(bb, $field_sint32); } // optional sint64 field_sint64 = 6; let $field_sint64 = message.field_sint64; if ($field_sint64 !== undefined) { writeVarint32(bb, 48); writeVarint64ZigZag(bb, $field_sint64); } // optional bool field_bool = 7; let $field_bool = message.field_bool; if ($field_bool !== undefined) { writeVarint32(bb, 56); writeByte(bb, $field_bool ? 1 : 0); } // optional fixed64 field_fixed64 = 8; let $field_fixed64 = message.field_fixed64; if ($field_fixed64 !== undefined) { writeVarint32(bb, 65); writeInt64(bb, $field_fixed64); } // optional sfixed64 field_sfixed64 = 9; let $field_sfixed64 = message.field_sfixed64; if ($field_sfixed64 !== undefined) { writeVarint32(bb, 73); writeInt64(bb, $field_sfixed64); } // optional double field_double = 10; let $field_double = message.field_double; if ($field_double !== undefined) { writeVarint32(bb, 81); writeDouble(bb, $field_double); } // optional string field_string = 11; let $field_string = message.field_string; if ($field_string !== undefined) { writeVarint32(bb, 90); let nested = utf8Encoder.encode($field_string); writeVarint32(bb, nested.length), writeBytes(bb, nested); } // optional bytes field_bytes = 12; let $field_bytes = message.field_bytes; if ($field_bytes !== undefined) { writeVarint32(bb, 98); writeVarint32(bb, $field_bytes.length), writeBytes(bb, $field_bytes); } // optional fixed32 field_fixed32 = 13; let $field_fixed32 = message.field_fixed32; if ($field_fixed32 !== undefined) { writeVarint32(bb, 109); writeInt32(bb, $field_fixed32); } // optional sfixed32 field_sfixed32 = 14; let $field_sfixed32 = message.field_sfixed32; if ($field_sfixed32 !== undefined) { writeVarint32(bb, 117); writeInt32(bb, $field_sfixed32); } // optional float field_float = 15; let $field_float = message.field_float; if ($field_float !== undefined) { writeVarint32(bb, 125); writeFloat(bb, $field_float); } // optional Nested field_nested = 16; let $field_nested = message.field_nested; if ($field_nested !== undefined) { writeVarint32(bb, 130); let nested = encodeNested($field_nested); writeVarint32(bb, nested.length), writeBytes(bb, nested); } return toUint8Array(bb); } export function decodeOptional(binary: ByteBuffer | Uint8Array): Optional { let message: Optional = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // optional int32 field_int32 = 1; case 1: { message.field_int32 = readVarint32(bb); break; } // optional int64 field_int64 = 2; case 2: { message.field_int64 = readVarint64(bb, /* unsigned */ false); break; } // optional uint32 field_uint32 = 3; case 3: { message.field_uint32 = readVarint32(bb) >>> 0; break; } // optional uint64 field_uint64 = 4; case 4: { message.field_uint64 = readVarint64(bb, /* unsigned */ true); break; } // optional sint32 field_sint32 = 5; case 5: { message.field_sint32 = readVarint32ZigZag(bb); break; } // optional sint64 field_sint64 = 6; case 6: { message.field_sint64 = readVarint64ZigZag(bb); break; } // optional bool field_bool = 7; case 7: { message.field_bool = !!readByte(bb); break; } // optional fixed64 field_fixed64 = 8; case 8: { message.field_fixed64 = readInt64(bb, /* unsigned */ true); break; } // optional sfixed64 field_sfixed64 = 9; case 9: { message.field_sfixed64 = readInt64(bb, /* unsigned */ false); break; } // optional double field_double = 10; case 10: { message.field_double = readDouble(bb); break; } // optional string field_string = 11; case 11: { message.field_string = utf8Decoder.decode(readBytes(bb, readVarint32(bb))); break; } // optional bytes field_bytes = 12; case 12: { message.field_bytes = readBytes(bb, readVarint32(bb)); break; } // optional fixed32 field_fixed32 = 13; case 13: { message.field_fixed32 = readInt32(bb) >>> 0; break; } // optional sfixed32 field_sfixed32 = 14; case 14: { message.field_sfixed32 = readInt32(bb); break; } // optional float field_float = 15; case 15: { message.field_float = readFloat(bb); break; } // optional Nested field_nested = 16; case 16: { let limit = pushTemporaryLength(bb); message.field_nested = decodeNested(bb); bb.limit = limit; break; } default: skipUnknownField(bb, tag & 7); } } return message; } export interface RepeatedUnpacked { field_int32?: number[]; field_int64?: Long[]; field_uint32?: number[]; field_uint64?: Long[]; field_sint32?: number[]; field_sint64?: Long[]; field_bool?: boolean[]; field_fixed64?: Long[]; field_sfixed64?: Long[]; field_double?: number[]; field_string?: string[]; field_bytes?: Uint8Array[]; field_fixed32?: number[]; field_sfixed32?: number[]; field_float?: number[]; field_nested?: Nested[]; } export function encodeRepeatedUnpacked(message: RepeatedUnpacked): Uint8Array { let bb = newByteBuffer(); // repeated int32 field_int32 = 1; let array$field_int32 = message.field_int32; if (array$field_int32 !== undefined) { for (let value of array$field_int32) { writeVarint32(bb, 8); writeVarint64(bb, intToLong(value)); } } // repeated int64 field_int64 = 2; let array$field_int64 = message.field_int64; if (array$field_int64 !== undefined) { for (let value of array$field_int64) { writeVarint32(bb, 16); writeVarint64(bb, value); } } // repeated uint32 field_uint32 = 3; let array$field_uint32 = message.field_uint32; if (array$field_uint32 !== undefined) { for (let value of array$field_uint32) { writeVarint32(bb, 24); writeVarint32(bb, value); } } // repeated uint64 field_uint64 = 4; let array$field_uint64 = message.field_uint64; if (array$field_uint64 !== undefined) { for (let value of array$field_uint64) { writeVarint32(bb, 32); writeVarint64(bb, value); } } // repeated sint32 field_sint32 = 5; let array$field_sint32 = message.field_sint32; if (array$field_sint32 !== undefined) { for (let value of array$field_sint32) { writeVarint32(bb, 40); writeVarint32ZigZag(bb, value); } } // repeated sint64 field_sint64 = 6; let array$field_sint64 = message.field_sint64; if (array$field_sint64 !== undefined) { for (let value of array$field_sint64) { writeVarint32(bb, 48); writeVarint64ZigZag(bb, value); } } // repeated bool field_bool = 7; let array$field_bool = message.field_bool; if (array$field_bool !== undefined) { for (let value of array$field_bool) { writeVarint32(bb, 56); writeByte(bb, value ? 1 : 0); } } // repeated fixed64 field_fixed64 = 8; let array$field_fixed64 = message.field_fixed64; if (array$field_fixed64 !== undefined) { for (let value of array$field_fixed64) { writeVarint32(bb, 65); writeInt64(bb, value); } } // repeated sfixed64 field_sfixed64 = 9; let array$field_sfixed64 = message.field_sfixed64; if (array$field_sfixed64 !== undefined) { for (let value of array$field_sfixed64) { writeVarint32(bb, 73); writeInt64(bb, value); } } // repeated double field_double = 10; let array$field_double = message.field_double; if (array$field_double !== undefined) { for (let value of array$field_double) { writeVarint32(bb, 81); writeDouble(bb, value); } } // repeated string field_string = 11; let array$field_string = message.field_string; if (array$field_string !== undefined) { for (let value of array$field_string) { let nested = utf8Encoder.encode(value); writeVarint32(bb, 90); writeVarint32(bb, nested.length), writeBytes(bb, nested); } } // repeated bytes field_bytes = 12; let array$field_bytes = message.field_bytes; if (array$field_bytes !== undefined) { for (let value of array$field_bytes) { writeVarint32(bb, 98); writeVarint32(bb, value.length), writeBytes(bb, value); } } // repeated fixed32 field_fixed32 = 13; let array$field_fixed32 = message.field_fixed32; if (array$field_fixed32 !== undefined) { for (let value of array$field_fixed32) { writeVarint32(bb, 109); writeInt32(bb, value); } } // repeated sfixed32 field_sfixed32 = 14; let array$field_sfixed32 = message.field_sfixed32; if (array$field_sfixed32 !== undefined) { for (let value of array$field_sfixed32) { writeVarint32(bb, 117); writeInt32(bb, value); } } // repeated float field_float = 15; let array$field_float = message.field_float; if (array$field_float !== undefined) { for (let value of array$field_float) { writeVarint32(bb, 125); writeFloat(bb, value); } } // repeated Nested field_nested = 16; let array$field_nested = message.field_nested; if (array$field_nested !== undefined) { for (let value of array$field_nested) { let nested = encodeNested(value); writeVarint32(bb, 130); writeVarint32(bb, nested.length), writeBytes(bb, nested); } } return toUint8Array(bb); } export function decodeRepeatedUnpacked(binary: ByteBuffer | Uint8Array): RepeatedUnpacked { let message: RepeatedUnpacked = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // repeated int32 field_int32 = 1; case 1: { let values = message.field_int32 || (message.field_int32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32(bb)); } bb.limit = outerLimit; } else { values.push(readVarint32(bb)); } break; } // repeated int64 field_int64 = 2; case 2: { let values = message.field_int64 || (message.field_int64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64(bb, /* unsigned */ false)); } bb.limit = outerLimit; } else { values.push(readVarint64(bb, /* unsigned */ false)); } break; } // repeated uint32 field_uint32 = 3; case 3: { let values = message.field_uint32 || (message.field_uint32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32(bb) >>> 0); } bb.limit = outerLimit; } else { values.push(readVarint32(bb) >>> 0); } break; } // repeated uint64 field_uint64 = 4; case 4: { let values = message.field_uint64 || (message.field_uint64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64(bb, /* unsigned */ true)); } bb.limit = outerLimit; } else { values.push(readVarint64(bb, /* unsigned */ true)); } break; } // repeated sint32 field_sint32 = 5; case 5: { let values = message.field_sint32 || (message.field_sint32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32ZigZag(bb)); } bb.limit = outerLimit; } else { values.push(readVarint32ZigZag(bb)); } break; } // repeated sint64 field_sint64 = 6; case 6: { let values = message.field_sint64 || (message.field_sint64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64ZigZag(bb)); } bb.limit = outerLimit; } else { values.push(readVarint64ZigZag(bb)); } break; } // repeated bool field_bool = 7; case 7: { let values = message.field_bool || (message.field_bool = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(!!readByte(bb)); } bb.limit = outerLimit; } else { values.push(!!readByte(bb)); } break; } // repeated fixed64 field_fixed64 = 8; case 8: { let values = message.field_fixed64 || (message.field_fixed64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt64(bb, /* unsigned */ true)); } bb.limit = outerLimit; } else { values.push(readInt64(bb, /* unsigned */ true)); } break; } // repeated sfixed64 field_sfixed64 = 9; case 9: { let values = message.field_sfixed64 || (message.field_sfixed64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt64(bb, /* unsigned */ false)); } bb.limit = outerLimit; } else { values.push(readInt64(bb, /* unsigned */ false)); } break; } // repeated double field_double = 10; case 10: { let values = message.field_double || (message.field_double = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readDouble(bb)); } bb.limit = outerLimit; } else { values.push(readDouble(bb)); } break; } // repeated string field_string = 11; case 11: { let values = message.field_string || (message.field_string = []); values.push(utf8Decoder.decode(readBytes(bb, readVarint32(bb)))); break; } // repeated bytes field_bytes = 12; case 12: { let values = message.field_bytes || (message.field_bytes = []); values.push(readBytes(bb, readVarint32(bb))); break; } // repeated fixed32 field_fixed32 = 13; case 13: { let values = message.field_fixed32 || (message.field_fixed32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt32(bb) >>> 0); } bb.limit = outerLimit; } else { values.push(readInt32(bb) >>> 0); } break; } // repeated sfixed32 field_sfixed32 = 14; case 14: { let values = message.field_sfixed32 || (message.field_sfixed32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt32(bb)); } bb.limit = outerLimit; } else { values.push(readInt32(bb)); } break; } // repeated float field_float = 15; case 15: { let values = message.field_float || (message.field_float = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readFloat(bb)); } bb.limit = outerLimit; } else { values.push(readFloat(bb)); } break; } // repeated Nested field_nested = 16; case 16: { let limit = pushTemporaryLength(bb); let values = message.field_nested || (message.field_nested = []); values.push(decodeNested(bb)); bb.limit = limit; break; } default: skipUnknownField(bb, tag & 7); } } return message; } export interface RepeatedPacked { field_int32?: number[]; field_int64?: Long[]; field_uint32?: number[]; field_uint64?: Long[]; field_sint32?: number[]; field_sint64?: Long[]; field_bool?: boolean[]; field_fixed64?: Long[]; field_sfixed64?: Long[]; field_double?: number[]; field_string?: string[]; field_bytes?: Uint8Array[]; field_fixed32?: number[]; field_sfixed32?: number[]; field_float?: number[]; field_nested?: Nested[]; } export function encodeRepeatedPacked(message: RepeatedPacked): Uint8Array { let bb = newByteBuffer(); // repeated int32 field_int32 = 1; let array$field_int32 = message.field_int32; if (array$field_int32 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_int32) { writeVarint64(packed, intToLong(value)); } writeVarint32(bb, 10); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated int64 field_int64 = 2; let array$field_int64 = message.field_int64; if (array$field_int64 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_int64) { writeVarint64(packed, value); } writeVarint32(bb, 18); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated uint32 field_uint32 = 3; let array$field_uint32 = message.field_uint32; if (array$field_uint32 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_uint32) { writeVarint32(packed, value); } writeVarint32(bb, 26); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated uint64 field_uint64 = 4; let array$field_uint64 = message.field_uint64; if (array$field_uint64 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_uint64) { writeVarint64(packed, value); } writeVarint32(bb, 34); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated sint32 field_sint32 = 5; let array$field_sint32 = message.field_sint32; if (array$field_sint32 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_sint32) { writeVarint32ZigZag(packed, value); } writeVarint32(bb, 42); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated sint64 field_sint64 = 6; let array$field_sint64 = message.field_sint64; if (array$field_sint64 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_sint64) { writeVarint64ZigZag(packed, value); } writeVarint32(bb, 50); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated bool field_bool = 7; let array$field_bool = message.field_bool; if (array$field_bool !== undefined) { let packed = newByteBuffer(); for (let value of array$field_bool) { writeByte(packed, value ? 1 : 0); } writeVarint32(bb, 58); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated fixed64 field_fixed64 = 8; let array$field_fixed64 = message.field_fixed64; if (array$field_fixed64 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_fixed64) { writeInt64(packed, value); } writeVarint32(bb, 66); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated sfixed64 field_sfixed64 = 9; let array$field_sfixed64 = message.field_sfixed64; if (array$field_sfixed64 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_sfixed64) { writeInt64(packed, value); } writeVarint32(bb, 74); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated double field_double = 10; let array$field_double = message.field_double; if (array$field_double !== undefined) { let packed = newByteBuffer(); for (let value of array$field_double) { writeDouble(packed, value); } writeVarint32(bb, 82); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated string field_string = 11; let array$field_string = message.field_string; if (array$field_string !== undefined) { for (let value of array$field_string) { let nested = utf8Encoder.encode(value); writeVarint32(bb, 90); writeVarint32(bb, nested.length), writeBytes(bb, nested); } } // repeated bytes field_bytes = 12; let array$field_bytes = message.field_bytes; if (array$field_bytes !== undefined) { for (let value of array$field_bytes) { writeVarint32(bb, 98); writeVarint32(bb, value.length), writeBytes(bb, value); } } // repeated fixed32 field_fixed32 = 13; let array$field_fixed32 = message.field_fixed32; if (array$field_fixed32 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_fixed32) { writeInt32(packed, value); } writeVarint32(bb, 106); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated sfixed32 field_sfixed32 = 14; let array$field_sfixed32 = message.field_sfixed32; if (array$field_sfixed32 !== undefined) { let packed = newByteBuffer(); for (let value of array$field_sfixed32) { writeInt32(packed, value); } writeVarint32(bb, 114); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated float field_float = 15; let array$field_float = message.field_float; if (array$field_float !== undefined) { let packed = newByteBuffer(); for (let value of array$field_float) { writeFloat(packed, value); } writeVarint32(bb, 122); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } // repeated Nested field_nested = 16; let array$field_nested = message.field_nested; if (array$field_nested !== undefined) { for (let value of array$field_nested) { let nested = encodeNested(value); writeVarint32(bb, 130); writeVarint32(bb, nested.length), writeBytes(bb, nested); } } return toUint8Array(bb); } export function decodeRepeatedPacked(binary: ByteBuffer | Uint8Array): RepeatedPacked { let message: RepeatedPacked = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // repeated int32 field_int32 = 1; case 1: { let values = message.field_int32 || (message.field_int32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32(bb)); } bb.limit = outerLimit; } else { values.push(readVarint32(bb)); } break; } // repeated int64 field_int64 = 2; case 2: { let values = message.field_int64 || (message.field_int64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64(bb, /* unsigned */ false)); } bb.limit = outerLimit; } else { values.push(readVarint64(bb, /* unsigned */ false)); } break; } // repeated uint32 field_uint32 = 3; case 3: { let values = message.field_uint32 || (message.field_uint32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32(bb) >>> 0); } bb.limit = outerLimit; } else { values.push(readVarint32(bb) >>> 0); } break; } // repeated uint64 field_uint64 = 4; case 4: { let values = message.field_uint64 || (message.field_uint64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64(bb, /* unsigned */ true)); } bb.limit = outerLimit; } else { values.push(readVarint64(bb, /* unsigned */ true)); } break; } // repeated sint32 field_sint32 = 5; case 5: { let values = message.field_sint32 || (message.field_sint32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint32ZigZag(bb)); } bb.limit = outerLimit; } else { values.push(readVarint32ZigZag(bb)); } break; } // repeated sint64 field_sint64 = 6; case 6: { let values = message.field_sint64 || (message.field_sint64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readVarint64ZigZag(bb)); } bb.limit = outerLimit; } else { values.push(readVarint64ZigZag(bb)); } break; } // repeated bool field_bool = 7; case 7: { let values = message.field_bool || (message.field_bool = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(!!readByte(bb)); } bb.limit = outerLimit; } else { values.push(!!readByte(bb)); } break; } // repeated fixed64 field_fixed64 = 8; case 8: { let values = message.field_fixed64 || (message.field_fixed64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt64(bb, /* unsigned */ true)); } bb.limit = outerLimit; } else { values.push(readInt64(bb, /* unsigned */ true)); } break; } // repeated sfixed64 field_sfixed64 = 9; case 9: { let values = message.field_sfixed64 || (message.field_sfixed64 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt64(bb, /* unsigned */ false)); } bb.limit = outerLimit; } else { values.push(readInt64(bb, /* unsigned */ false)); } break; } // repeated double field_double = 10; case 10: { let values = message.field_double || (message.field_double = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readDouble(bb)); } bb.limit = outerLimit; } else { values.push(readDouble(bb)); } break; } // repeated string field_string = 11; case 11: { let values = message.field_string || (message.field_string = []); values.push(utf8Decoder.decode(readBytes(bb, readVarint32(bb)))); break; } // repeated bytes field_bytes = 12; case 12: { let values = message.field_bytes || (message.field_bytes = []); values.push(readBytes(bb, readVarint32(bb))); break; } // repeated fixed32 field_fixed32 = 13; case 13: { let values = message.field_fixed32 || (message.field_fixed32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt32(bb) >>> 0); } bb.limit = outerLimit; } else { values.push(readInt32(bb) >>> 0); } break; } // repeated sfixed32 field_sfixed32 = 14; case 14: { let values = message.field_sfixed32 || (message.field_sfixed32 = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readInt32(bb)); } bb.limit = outerLimit; } else { values.push(readInt32(bb)); } break; } // repeated float field_float = 15; case 15: { let values = message.field_float || (message.field_float = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(readFloat(bb)); } bb.limit = outerLimit; } else { values.push(readFloat(bb)); } break; } // repeated Nested field_nested = 16; case 16: { let limit = pushTemporaryLength(bb); let values = message.field_nested || (message.field_nested = []); values.push(decodeNested(bb)); bb.limit = limit; break; } default: skipUnknownField(bb, tag & 7); } } return message; } export interface EnumTest { a?: Enum; b: Enum; c?: Enum[]; } export function encodeEnumTest(message: EnumTest): Uint8Array { let bb = newByteBuffer(); // optional Enum a = 1; let $a = message.a; if ($a !== undefined) { writeVarint32(bb, 8); writeVarint32(bb, encodeEnum[$a]); } // required Enum b = 2; let $b = message.b; if ($b !== undefined) { writeVarint32(bb, 16); writeVarint32(bb, encodeEnum[$b]); } // repeated Enum c = 3; let array$c = message.c; if (array$c !== undefined) { let packed = newByteBuffer(); for (let value of array$c) { writeVarint32(packed, encodeEnum[value]); } writeVarint32(bb, 26); writeVarint32(bb, packed.offset); writeBytes(bb, toUint8Array(packed)); } return toUint8Array(bb); } export function decodeEnumTest(binary: ByteBuffer | Uint8Array): EnumTest { let message: EnumTest = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // optional Enum a = 1; case 1: { message.a = decodeEnum[readVarint32(bb)]; break; } // required Enum b = 2; case 2: { message.b = decodeEnum[readVarint32(bb)]; break; } // repeated Enum c = 3; case 3: { let values = message.c || (message.c = []); if ((tag & 7) === 2) { let outerLimit = pushTemporaryLength(bb); while (!isAtEnd(bb)) { values.push(decodeEnum[readVarint32(bb)]); } bb.limit = outerLimit; } else { values.push(decodeEnum[readVarint32(bb)]); } break; } default: skipUnknownField(bb, tag & 7); } } if (message.b === undefined) throw new Error("Missing required field: b"); return message; } export interface MapTestIntAndString { field_int32?: { [key: number]: boolean }; field_uint32?: { [key: number]: boolean }; field_sint32?: { [key: number]: boolean }; field_string?: { [key: string]: boolean }; field_fixed32?: { [key: number]: boolean }; field_sfixed32?: { [key: number]: boolean }; } export function encodeMapTestIntAndString(message: MapTestIntAndString): Uint8Array { let bb = newByteBuffer(); // optional map<int32, bool> field_int32 = 1; let map$field_int32 = message.field_int32; if (map$field_int32 !== undefined) { for (let key in map$field_int32) { let nested = newByteBuffer(); let value = map$field_int32[key]; writeVarint32(nested, 8); writeVarint64(nested, intToLong(+key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 10); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<uint32, bool> field_uint32 = 2; let map$field_uint32 = message.field_uint32; if (map$field_uint32 !== undefined) { for (let key in map$field_uint32) { let nested = newByteBuffer(); let value = map$field_uint32[key]; writeVarint32(nested, 8); writeVarint32(nested, +key); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 18); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<sint32, bool> field_sint32 = 3; let map$field_sint32 = message.field_sint32; if (map$field_sint32 !== undefined) { for (let key in map$field_sint32) { let nested = newByteBuffer(); let value = map$field_sint32[key]; writeVarint32(nested, 8); writeVarint32ZigZag(nested, +key); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 26); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<string, bool> field_string = 5; let map$field_string = message.field_string; if (map$field_string !== undefined) { for (let key in map$field_string) { let nested = newByteBuffer(); let value = map$field_string[key]; let nestedKey = utf8Encoder.encode(key); writeVarint32(nested, 10); writeVarint32(nested, nestedKey.length), writeBytes(nested, nestedKey); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 42); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<fixed32, bool> field_fixed32 = 6; let map$field_fixed32 = message.field_fixed32; if (map$field_fixed32 !== undefined) { for (let key in map$field_fixed32) { let nested = newByteBuffer(); let value = map$field_fixed32[key]; writeVarint32(nested, 13); writeInt32(nested, +key); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 50); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<sfixed32, bool> field_sfixed32 = 7; let map$field_sfixed32 = message.field_sfixed32; if (map$field_sfixed32 !== undefined) { for (let key in map$field_sfixed32) { let nested = newByteBuffer(); let value = map$field_sfixed32[key]; writeVarint32(nested, 13); writeInt32(nested, +key); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 58); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } return toUint8Array(bb); } export function decodeMapTestIntAndString(binary: ByteBuffer | Uint8Array): MapTestIntAndString { let message: MapTestIntAndString = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // optional map<int32, bool> field_int32 = 1; case 1: { let values = message.field_int32 || (message.field_int32 = {}); let outerLimit = pushTemporaryLength(bb); let key: number | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readVarint32(bb); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_int32"); values[key] = value; bb.limit = outerLimit; break; } // optional map<uint32, bool> field_uint32 = 2; case 2: { let values = message.field_uint32 || (message.field_uint32 = {}); let outerLimit = pushTemporaryLength(bb); let key: number | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readVarint32(bb) >>> 0; break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_uint32"); values[key] = value; bb.limit = outerLimit; break; } // optional map<sint32, bool> field_sint32 = 3; case 3: { let values = message.field_sint32 || (message.field_sint32 = {}); let outerLimit = pushTemporaryLength(bb); let key: number | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readVarint32ZigZag(bb); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_sint32"); values[key] = value; bb.limit = outerLimit; break; } // optional map<string, bool> field_string = 5; case 5: { let values = message.field_string || (message.field_string = {}); let outerLimit = pushTemporaryLength(bb); let key: string | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = utf8Decoder.decode(readBytes(bb, readVarint32(bb))); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_string"); values[key] = value; bb.limit = outerLimit; break; } // optional map<fixed32, bool> field_fixed32 = 6; case 6: { let values = message.field_fixed32 || (message.field_fixed32 = {}); let outerLimit = pushTemporaryLength(bb); let key: number | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readInt32(bb) >>> 0; break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_fixed32"); values[key] = value; bb.limit = outerLimit; break; } // optional map<sfixed32, bool> field_sfixed32 = 7; case 7: { let values = message.field_sfixed32 || (message.field_sfixed32 = {}); let outerLimit = pushTemporaryLength(bb); let key: number | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readInt32(bb); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_sfixed32"); values[key] = value; bb.limit = outerLimit; break; } default: skipUnknownField(bb, tag & 7); } } return message; } export interface MapTestLongAndBool { field_int64?: { [key: string]: boolean }; field_uint64?: { [key: string]: boolean }; field_sint64?: { [key: string]: boolean }; field_fixed64?: { [key: string]: boolean }; field_sfixed64?: { [key: string]: boolean }; field_bool?: { [key: string]: boolean }; } export function encodeMapTestLongAndBool(message: MapTestLongAndBool): Uint8Array { let bb = newByteBuffer(); // optional map<int64, bool> field_int64 = 1; let map$field_int64 = message.field_int64; if (map$field_int64 !== undefined) { for (let key in map$field_int64) { let nested = newByteBuffer(); let value = map$field_int64[key]; writeVarint32(nested, 8); writeVarint64(nested, stringToLong(key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 10); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<uint64, bool> field_uint64 = 2; let map$field_uint64 = message.field_uint64; if (map$field_uint64 !== undefined) { for (let key in map$field_uint64) { let nested = newByteBuffer(); let value = map$field_uint64[key]; writeVarint32(nested, 8); writeVarint64(nested, stringToLong(key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 18); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<sint64, bool> field_sint64 = 3; let map$field_sint64 = message.field_sint64; if (map$field_sint64 !== undefined) { for (let key in map$field_sint64) { let nested = newByteBuffer(); let value = map$field_sint64[key]; writeVarint32(nested, 8); writeVarint64ZigZag(nested, stringToLong(key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 26); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<fixed64, bool> field_fixed64 = 4; let map$field_fixed64 = message.field_fixed64; if (map$field_fixed64 !== undefined) { for (let key in map$field_fixed64) { let nested = newByteBuffer(); let value = map$field_fixed64[key]; writeVarint32(nested, 9); writeInt64(nested, stringToLong(key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 34); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<sfixed64, bool> field_sfixed64 = 5; let map$field_sfixed64 = message.field_sfixed64; if (map$field_sfixed64 !== undefined) { for (let key in map$field_sfixed64) { let nested = newByteBuffer(); let value = map$field_sfixed64[key]; writeVarint32(nested, 9); writeInt64(nested, stringToLong(key)); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 42); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } // optional map<bool, bool> field_bool = 6; let map$field_bool = message.field_bool; if (map$field_bool !== undefined) { for (let key in map$field_bool) { let nested = newByteBuffer(); let value = map$field_bool[key]; writeVarint32(nested, 8); writeByte(nested, key === "true" ? 1 : 0); writeVarint32(nested, 16); writeByte(nested, value ? 1 : 0); writeVarint32(bb, 50); writeVarint32(bb, nested.offset); writeBytes(bb, toUint8Array(nested)); } } return toUint8Array(bb); } export function decodeMapTestLongAndBool(binary: ByteBuffer | Uint8Array): MapTestLongAndBool { let message: MapTestLongAndBool = {} as any; let bb = binary instanceof Uint8Array ? newByteBuffer(binary) : binary; end_of_message: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_message; // optional map<int64, bool> field_int64 = 1; case 1: { let values = message.field_int64 || (message.field_int64 = {}); let outerLimit = pushTemporaryLength(bb); let key: Long | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readVarint64(bb, /* unsigned */ false); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_int64"); values[longToString(key)] = value; bb.limit = outerLimit; break; } // optional map<uint64, bool> field_uint64 = 2; case 2: { let values = message.field_uint64 || (message.field_uint64 = {}); let outerLimit = pushTemporaryLength(bb); let key: Long | undefined; let value: boolean | undefined; end_of_entry: while (!isAtEnd(bb)) { let tag = readVarint32(bb); switch (tag >>> 3) { case 0: break end_of_entry; case 1: key = readVarint64(bb, /* unsigned */ true); break; case 2: value = !!readByte(bb); break; default: skipUnknownField(bb, tag & 7); } } if (key === undefined || value === undefined) throw new Error("Invalid data for map: field_uint64"); values[longToString(key)] = value; bb.limit = outerLimit; break; } // optional map<sint64, bool> fi