// source: common/common.proto /** * @fileoverview * @enhanceable * @suppress {messageConventions} JS Compiler reports an error if a variable or * field starts with 'MSG_' and isn't a translatable message. * @public */ // GENERATED CODE -- DO NOT EDIT! var jspb = require('google-protobuf'); var goog = jspb; var global = Function('return this')(); var google_protobuf_timestamp_pb = require('google-protobuf/google/protobuf/timestamp_pb.js'); goog.object.extend(proto, google_protobuf_timestamp_pb); goog.exportSymbol('proto.common.Aggregation', null, global); goog.exportSymbol('proto.common.DeviceClass', null, global); goog.exportSymbol('proto.common.KeyEnvelope', null, global); goog.exportSymbol('proto.common.Location', null, global); goog.exportSymbol('proto.common.LocationSource', null, global); goog.exportSymbol('proto.common.MType', null, global); goog.exportSymbol('proto.common.MacVersion', null, global); goog.exportSymbol('proto.common.Metric', null, global); goog.exportSymbol('proto.common.MetricDataset', null, global); goog.exportSymbol('proto.common.MetricKind', null, global); goog.exportSymbol('proto.common.Modulation', null, global); goog.exportSymbol('proto.common.RegParamsRevision', null, global); goog.exportSymbol('proto.common.Region', null, global); /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.common.Location = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.common.Location, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.common.Location.displayName = 'proto.common.Location'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.common.KeyEnvelope = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.common.KeyEnvelope, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.common.KeyEnvelope.displayName = 'proto.common.KeyEnvelope'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.common.Metric = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, proto.common.Metric.repeatedFields_, null); }; goog.inherits(proto.common.Metric, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.common.Metric.displayName = 'proto.common.Metric'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.common.MetricDataset = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, proto.common.MetricDataset.repeatedFields_, null); }; goog.inherits(proto.common.MetricDataset, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.common.MetricDataset.displayName = 'proto.common.MetricDataset'; } if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.common.Location.prototype.toObject = function(opt_includeInstance) { return proto.common.Location.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.common.Location} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.Location.toObject = function(includeInstance, msg) { var f, obj = { latitude: jspb.Message.getFloatingPointFieldWithDefault(msg, 1, 0.0), longitude: jspb.Message.getFloatingPointFieldWithDefault(msg, 2, 0.0), altitude: jspb.Message.getFloatingPointFieldWithDefault(msg, 3, 0.0), source: jspb.Message.getFieldWithDefault(msg, 4, 0), accuracy: jspb.Message.getFloatingPointFieldWithDefault(msg, 5, 0.0) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.common.Location} */ proto.common.Location.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.common.Location; return proto.common.Location.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.common.Location} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.common.Location} */ proto.common.Location.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {number} */ (reader.readDouble()); msg.setLatitude(value); break; case 2: var value = /** @type {number} */ (reader.readDouble()); msg.setLongitude(value); break; case 3: var value = /** @type {number} */ (reader.readDouble()); msg.setAltitude(value); break; case 4: var value = /** @type {!proto.common.LocationSource} */ (reader.readEnum()); msg.setSource(value); break; case 5: var value = /** @type {number} */ (reader.readFloat()); msg.setAccuracy(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.common.Location.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.common.Location.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.common.Location} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.Location.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getLatitude(); if (f !== 0.0) { writer.writeDouble( 1, f ); } f = message.getLongitude(); if (f !== 0.0) { writer.writeDouble( 2, f ); } f = message.getAltitude(); if (f !== 0.0) { writer.writeDouble( 3, f ); } f = message.getSource(); if (f !== 0.0) { writer.writeEnum( 4, f ); } f = message.getAccuracy(); if (f !== 0.0) { writer.writeFloat( 5, f ); } }; /** * optional double latitude = 1; * @return {number} */ proto.common.Location.prototype.getLatitude = function() { return /** @type {number} */ (jspb.Message.getFloatingPointFieldWithDefault(this, 1, 0.0)); }; /** * @param {number} value * @return {!proto.common.Location} returns this */ proto.common.Location.prototype.setLatitude = function(value) { return jspb.Message.setProto3FloatField(this, 1, value); }; /** * optional double longitude = 2; * @return {number} */ proto.common.Location.prototype.getLongitude = function() { return /** @type {number} */ (jspb.Message.getFloatingPointFieldWithDefault(this, 2, 0.0)); }; /** * @param {number} value * @return {!proto.common.Location} returns this */ proto.common.Location.prototype.setLongitude = function(value) { return jspb.Message.setProto3FloatField(this, 2, value); }; /** * optional double altitude = 3; * @return {number} */ proto.common.Location.prototype.getAltitude = function() { return /** @type {number} */ (jspb.Message.getFloatingPointFieldWithDefault(this, 3, 0.0)); }; /** * @param {number} value * @return {!proto.common.Location} returns this */ proto.common.Location.prototype.setAltitude = function(value) { return jspb.Message.setProto3FloatField(this, 3, value); }; /** * optional LocationSource source = 4; * @return {!proto.common.LocationSource} */ proto.common.Location.prototype.getSource = function() { return /** @type {!proto.common.LocationSource} */ (jspb.Message.getFieldWithDefault(this, 4, 0)); }; /** * @param {!proto.common.LocationSource} value * @return {!proto.common.Location} returns this */ proto.common.Location.prototype.setSource = function(value) { return jspb.Message.setProto3EnumField(this, 4, value); }; /** * optional float accuracy = 5; * @return {number} */ proto.common.Location.prototype.getAccuracy = function() { return /** @type {number} */ (jspb.Message.getFloatingPointFieldWithDefault(this, 5, 0.0)); }; /** * @param {number} value * @return {!proto.common.Location} returns this */ proto.common.Location.prototype.setAccuracy = function(value) { return jspb.Message.setProto3FloatField(this, 5, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.common.KeyEnvelope.prototype.toObject = function(opt_includeInstance) { return proto.common.KeyEnvelope.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.common.KeyEnvelope} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.KeyEnvelope.toObject = function(includeInstance, msg) { var f, obj = { kekLabel: jspb.Message.getFieldWithDefault(msg, 1, ""), aesKey: msg.getAesKey_asB64() }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.common.KeyEnvelope} */ proto.common.KeyEnvelope.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.common.KeyEnvelope; return proto.common.KeyEnvelope.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.common.KeyEnvelope} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.common.KeyEnvelope} */ proto.common.KeyEnvelope.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setKekLabel(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setAesKey(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.common.KeyEnvelope.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.common.KeyEnvelope.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.common.KeyEnvelope} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.KeyEnvelope.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getKekLabel(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getAesKey_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } }; /** * optional string kek_label = 1; * @return {string} */ proto.common.KeyEnvelope.prototype.getKekLabel = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.common.KeyEnvelope} returns this */ proto.common.KeyEnvelope.prototype.setKekLabel = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes aes_key = 2; * @return {string} */ proto.common.KeyEnvelope.prototype.getAesKey = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes aes_key = 2; * This is a type-conversion wrapper around `getAesKey()` * @return {string} */ proto.common.KeyEnvelope.prototype.getAesKey_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getAesKey())); }; /** * optional bytes aes_key = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getAesKey()` * @return {!Uint8Array} */ proto.common.KeyEnvelope.prototype.getAesKey_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getAesKey())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.common.KeyEnvelope} returns this */ proto.common.KeyEnvelope.prototype.setAesKey = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; /** * List of repeated fields within this message type. * @private {!Array} * @const */ proto.common.Metric.repeatedFields_ = [2,3]; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.common.Metric.prototype.toObject = function(opt_includeInstance) { return proto.common.Metric.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.common.Metric} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.Metric.toObject = function(includeInstance, msg) { var f, obj = { name: jspb.Message.getFieldWithDefault(msg, 1, ""), timestampsList: jspb.Message.toObjectList(msg.getTimestampsList(), google_protobuf_timestamp_pb.Timestamp.toObject, includeInstance), datasetsList: jspb.Message.toObjectList(msg.getDatasetsList(), proto.common.MetricDataset.toObject, includeInstance), kind: jspb.Message.getFieldWithDefault(msg, 4, 0) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.common.Metric} */ proto.common.Metric.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.common.Metric; return proto.common.Metric.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.common.Metric} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.common.Metric} */ proto.common.Metric.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setName(value); break; case 2: var value = new google_protobuf_timestamp_pb.Timestamp; reader.readMessage(value,google_protobuf_timestamp_pb.Timestamp.deserializeBinaryFromReader); msg.addTimestamps(value); break; case 3: var value = new proto.common.MetricDataset; reader.readMessage(value,proto.common.MetricDataset.deserializeBinaryFromReader); msg.addDatasets(value); break; case 4: var value = /** @type {!proto.common.MetricKind} */ (reader.readEnum()); msg.setKind(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.common.Metric.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.common.Metric.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.common.Metric} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.Metric.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getName(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getTimestampsList(); if (f.length > 0) { writer.writeRepeatedMessage( 2, f, google_protobuf_timestamp_pb.Timestamp.serializeBinaryToWriter ); } f = message.getDatasetsList(); if (f.length > 0) { writer.writeRepeatedMessage( 3, f, proto.common.MetricDataset.serializeBinaryToWriter ); } f = message.getKind(); if (f !== 0.0) { writer.writeEnum( 4, f ); } }; /** * optional string name = 1; * @return {string} */ proto.common.Metric.prototype.getName = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.setName = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * repeated google.protobuf.Timestamp timestamps = 2; * @return {!Array} */ proto.common.Metric.prototype.getTimestampsList = function() { return /** @type{!Array} */ ( jspb.Message.getRepeatedWrapperField(this, google_protobuf_timestamp_pb.Timestamp, 2)); }; /** * @param {!Array} value * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.setTimestampsList = function(value) { return jspb.Message.setRepeatedWrapperField(this, 2, value); }; /** * @param {!proto.google.protobuf.Timestamp=} opt_value * @param {number=} opt_index * @return {!proto.google.protobuf.Timestamp} */ proto.common.Metric.prototype.addTimestamps = function(opt_value, opt_index) { return jspb.Message.addToRepeatedWrapperField(this, 2, opt_value, proto.google.protobuf.Timestamp, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.clearTimestampsList = function() { return this.setTimestampsList([]); }; /** * repeated MetricDataset datasets = 3; * @return {!Array} */ proto.common.Metric.prototype.getDatasetsList = function() { return /** @type{!Array} */ ( jspb.Message.getRepeatedWrapperField(this, proto.common.MetricDataset, 3)); }; /** * @param {!Array} value * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.setDatasetsList = function(value) { return jspb.Message.setRepeatedWrapperField(this, 3, value); }; /** * @param {!proto.common.MetricDataset=} opt_value * @param {number=} opt_index * @return {!proto.common.MetricDataset} */ proto.common.Metric.prototype.addDatasets = function(opt_value, opt_index) { return jspb.Message.addToRepeatedWrapperField(this, 3, opt_value, proto.common.MetricDataset, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.clearDatasetsList = function() { return this.setDatasetsList([]); }; /** * optional MetricKind kind = 4; * @return {!proto.common.MetricKind} */ proto.common.Metric.prototype.getKind = function() { return /** @type {!proto.common.MetricKind} */ (jspb.Message.getFieldWithDefault(this, 4, 0)); }; /** * @param {!proto.common.MetricKind} value * @return {!proto.common.Metric} returns this */ proto.common.Metric.prototype.setKind = function(value) { return jspb.Message.setProto3EnumField(this, 4, value); }; /** * List of repeated fields within this message type. * @private {!Array} * @const */ proto.common.MetricDataset.repeatedFields_ = [2]; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.common.MetricDataset.prototype.toObject = function(opt_includeInstance) { return proto.common.MetricDataset.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.common.MetricDataset} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.MetricDataset.toObject = function(includeInstance, msg) { var f, obj = { label: jspb.Message.getFieldWithDefault(msg, 1, ""), dataList: (f = jspb.Message.getRepeatedFloatingPointField(msg, 2)) == null ? undefined : f }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.common.MetricDataset} */ proto.common.MetricDataset.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.common.MetricDataset; return proto.common.MetricDataset.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.common.MetricDataset} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.common.MetricDataset} */ proto.common.MetricDataset.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setLabel(value); break; case 2: var value = /** @type {!Array} */ (reader.readPackedFloat()); msg.setDataList(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.common.MetricDataset.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.common.MetricDataset.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.common.MetricDataset} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.common.MetricDataset.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getLabel(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getDataList(); if (f.length > 0) { writer.writePackedFloat( 2, f ); } }; /** * optional string label = 1; * @return {string} */ proto.common.MetricDataset.prototype.getLabel = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.common.MetricDataset} returns this */ proto.common.MetricDataset.prototype.setLabel = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * repeated float data = 2; * @return {!Array} */ proto.common.MetricDataset.prototype.getDataList = function() { return /** @type {!Array} */ (jspb.Message.getRepeatedFloatingPointField(this, 2)); }; /** * @param {!Array} value * @return {!proto.common.MetricDataset} returns this */ proto.common.MetricDataset.prototype.setDataList = function(value) { return jspb.Message.setField(this, 2, value || []); }; /** * @param {number} value * @param {number=} opt_index * @return {!proto.common.MetricDataset} returns this */ proto.common.MetricDataset.prototype.addData = function(value, opt_index) { return jspb.Message.addToRepeatedField(this, 2, value, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.common.MetricDataset} returns this */ proto.common.MetricDataset.prototype.clearDataList = function() { return this.setDataList([]); }; /** * @enum {number} */ proto.common.Modulation = { LORA: 0, FSK: 1, LR_FHSS: 2 }; /** * @enum {number} */ proto.common.Region = { EU868: 0, US915: 2, CN779: 3, EU433: 4, AU915: 5, CN470: 6, AS923: 7, AS923_2: 12, AS923_3: 13, AS923_4: 14, KR920: 8, IN865: 9, RU864: 10, ISM2400: 11 }; /** * @enum {number} */ proto.common.MType = { JOIN_REQUEST: 0, JOIN_ACCEPT: 1, UNCONFIRMED_DATA_UP: 2, UNCONFIRMED_DATA_DOWN: 3, CONFIRMED_DATA_UP: 4, CONFIRMED_DATA_DOWN: 5, REJOIN_REQUEST: 6, PROPRIETARY: 7 }; /** * @enum {number} */ proto.common.MacVersion = { LORAWAN_1_0_0: 0, LORAWAN_1_0_1: 1, LORAWAN_1_0_2: 2, LORAWAN_1_0_3: 3, LORAWAN_1_0_4: 4, LORAWAN_1_1_0: 5 }; /** * @enum {number} */ proto.common.RegParamsRevision = { A: 0, B: 1, RP002_1_0_0: 2, RP002_1_0_1: 3, RP002_1_0_2: 4, RP002_1_0_3: 5 }; /** * @enum {number} */ proto.common.LocationSource = { UNKNOWN: 0, GPS: 1, CONFIG: 2, GEO_RESOLVER_TDOA: 3, GEO_RESOLVER_RSSI: 4, GEO_RESOLVER_GNSS: 5, GEO_RESOLVER_WIFI: 6 }; /** * @enum {number} */ proto.common.Aggregation = { HOUR: 0, DAY: 1, MONTH: 2 }; /** * @enum {number} */ proto.common.MetricKind = { COUNTER: 0, ABSOLUTE: 1, GAUGE: 2 }; /** * @enum {number} */ proto.common.DeviceClass = { CLASS_A: 0, CLASS_B: 1, CLASS_C: 2 }; goog.object.extend(exports, proto.common);