src/node/test/math/math_pb.js

/**
 * @fileoverview
 * @enhanceable
 * @public
 */
// GENERATED CODE -- DO NOT EDIT!

var jspb = require('google-protobuf');
var goog = jspb;
var global = Function('return this')();

goog.exportSymbol('proto.math.DivArgs', null, global);
goog.exportSymbol('proto.math.DivReply', null, global);
goog.exportSymbol('proto.math.FibArgs', null, global);
goog.exportSymbol('proto.math.FibReply', null, global);
goog.exportSymbol('proto.math.Num', 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.math.DivArgs = function(opt_data) {
  jspb.Message.initialize(this, opt_data, 0, -1, null, null);
};
goog.inherits(proto.math.DivArgs, jspb.Message);
if (goog.DEBUG && !COMPILED) {
  proto.math.DivArgs.displayName = 'proto.math.DivArgs';
}


if (jspb.Message.GENERATE_TO_OBJECT) {
/**
 * Creates an object representation of this proto suitable for use in Soy templates.
 * Field names that are reserved in JavaScript and will be renamed to pb_name.
 * To access a reserved field use, foo.pb_<name>, eg, foo.pb_default.
 * For the list of reserved names please see:
 *     com.google.apps.jspb.JsClassTemplate.JS_RESERVED_WORDS.
 * @param {boolean=} opt_includeInstance Whether to include the JSPB instance
 *     for transitional soy proto support: http://goto/soy-param-migration
 * @return {!Object}
 */
proto.math.DivArgs.prototype.toObject = function(opt_includeInstance) {
  return proto.math.DivArgs.toObject(opt_includeInstance, this);
};


/**
 * Static version of the {@see toObject} method.
 * @param {boolean|undefined} includeInstance Whether to include the JSPB
 *     instance for transitional soy proto support:
 *     http://goto/soy-param-migration
 * @param {!proto.math.DivArgs} msg The msg instance to transform.
 * @return {!Object}
 */
proto.math.DivArgs.toObject = function(includeInstance, msg) {
  var f, obj = {
    dividend: msg.getDividend(),
    divisor: msg.getDivisor()
  };

  if (includeInstance) {
    obj.$jspbMessageInstance = msg;
  }
  return obj;
};
}


/**
 * Deserializes binary data (in protobuf wire format).
 * @param {jspb.ByteSource} bytes The bytes to deserialize.
 * @return {!proto.math.DivArgs}
 */
proto.math.DivArgs.deserializeBinary = function(bytes) {
  var reader = new jspb.BinaryReader(bytes);
  var msg = new proto.math.DivArgs;
  return proto.math.DivArgs.deserializeBinaryFromReader(msg, reader);
};


/**
 * Deserializes binary data (in protobuf wire format) from the
 * given reader into the given message object.
 * @param {!proto.math.DivArgs} msg The message object to deserialize into.
 * @param {!jspb.BinaryReader} reader The BinaryReader to use.
 * @return {!proto.math.DivArgs}
 */
proto.math.DivArgs.deserializeBinaryFromReader = function(msg, reader) {
  while (reader.nextField()) {
    if (reader.isEndGroup()) {
      break;
    }
    var field = reader.getFieldNumber();
    switch (field) {
    case 1:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setDividend(value);
      break;
    case 2:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setDivisor(value);
      break;
    default:
      reader.skipField();
      break;
    }
  }
  return msg;
};


/**
 * Class method variant: serializes the given message to binary data
 * (in protobuf wire format), writing to the given BinaryWriter.
 * @param {!proto.math.DivArgs} message
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.DivArgs.serializeBinaryToWriter = function(message, writer) {
  message.serializeBinaryToWriter(writer);
};


/**
 * Serializes the message to binary data (in protobuf wire format).
 * @return {!Uint8Array}
 */
proto.math.DivArgs.prototype.serializeBinary = function() {
  var writer = new jspb.BinaryWriter();
  this.serializeBinaryToWriter(writer);
  return writer.getResultBuffer();
};


/**
 * Serializes the message to binary data (in protobuf wire format),
 * writing to the given BinaryWriter.
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.DivArgs.prototype.serializeBinaryToWriter = function (writer) {
  var f = undefined;
  f = this.getDividend();
  if (f !== 0) {
    writer.writeInt64(
      1,
      f
    );
  }
  f = this.getDivisor();
  if (f !== 0) {
    writer.writeInt64(
      2,
      f
    );
  }
};


/**
 * Creates a deep clone of this proto. No data is shared with the original.
 * @return {!proto.math.DivArgs} The clone.
 */
proto.math.DivArgs.prototype.cloneMessage = function() {
  return /** @type {!proto.math.DivArgs} */ (jspb.Message.cloneMessage(this));
};


/**
 * optional int64 dividend = 1;
 * @return {number}
 */
proto.math.DivArgs.prototype.getDividend = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 1, 0));
};


/** @param {number} value  */
proto.math.DivArgs.prototype.setDividend = function(value) {
  jspb.Message.setField(this, 1, value);
};


/**
 * optional int64 divisor = 2;
 * @return {number}
 */
proto.math.DivArgs.prototype.getDivisor = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 2, 0));
};


/** @param {number} value  */
proto.math.DivArgs.prototype.setDivisor = function(value) {
  jspb.Message.setField(this, 2, value);
};



/**
 * 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.math.DivReply = function(opt_data) {
  jspb.Message.initialize(this, opt_data, 0, -1, null, null);
};
goog.inherits(proto.math.DivReply, jspb.Message);
if (goog.DEBUG && !COMPILED) {
  proto.math.DivReply.displayName = 'proto.math.DivReply';
}


if (jspb.Message.GENERATE_TO_OBJECT) {
/**
 * Creates an object representation of this proto suitable for use in Soy templates.
 * Field names that are reserved in JavaScript and will be renamed to pb_name.
 * To access a reserved field use, foo.pb_<name>, eg, foo.pb_default.
 * For the list of reserved names please see:
 *     com.google.apps.jspb.JsClassTemplate.JS_RESERVED_WORDS.
 * @param {boolean=} opt_includeInstance Whether to include the JSPB instance
 *     for transitional soy proto support: http://goto/soy-param-migration
 * @return {!Object}
 */
proto.math.DivReply.prototype.toObject = function(opt_includeInstance) {
  return proto.math.DivReply.toObject(opt_includeInstance, this);
};


/**
 * Static version of the {@see toObject} method.
 * @param {boolean|undefined} includeInstance Whether to include the JSPB
 *     instance for transitional soy proto support:
 *     http://goto/soy-param-migration
 * @param {!proto.math.DivReply} msg The msg instance to transform.
 * @return {!Object}
 */
proto.math.DivReply.toObject = function(includeInstance, msg) {
  var f, obj = {
    quotient: msg.getQuotient(),
    remainder: msg.getRemainder()
  };

  if (includeInstance) {
    obj.$jspbMessageInstance = msg;
  }
  return obj;
};
}


/**
 * Deserializes binary data (in protobuf wire format).
 * @param {jspb.ByteSource} bytes The bytes to deserialize.
 * @return {!proto.math.DivReply}
 */
proto.math.DivReply.deserializeBinary = function(bytes) {
  var reader = new jspb.BinaryReader(bytes);
  var msg = new proto.math.DivReply;
  return proto.math.DivReply.deserializeBinaryFromReader(msg, reader);
};


/**
 * Deserializes binary data (in protobuf wire format) from the
 * given reader into the given message object.
 * @param {!proto.math.DivReply} msg The message object to deserialize into.
 * @param {!jspb.BinaryReader} reader The BinaryReader to use.
 * @return {!proto.math.DivReply}
 */
proto.math.DivReply.deserializeBinaryFromReader = function(msg, reader) {
  while (reader.nextField()) {
    if (reader.isEndGroup()) {
      break;
    }
    var field = reader.getFieldNumber();
    switch (field) {
    case 1:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setQuotient(value);
      break;
    case 2:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setRemainder(value);
      break;
    default:
      reader.skipField();
      break;
    }
  }
  return msg;
};


/**
 * Class method variant: serializes the given message to binary data
 * (in protobuf wire format), writing to the given BinaryWriter.
 * @param {!proto.math.DivReply} message
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.DivReply.serializeBinaryToWriter = function(message, writer) {
  message.serializeBinaryToWriter(writer);
};


/**
 * Serializes the message to binary data (in protobuf wire format).
 * @return {!Uint8Array}
 */
proto.math.DivReply.prototype.serializeBinary = function() {
  var writer = new jspb.BinaryWriter();
  this.serializeBinaryToWriter(writer);
  return writer.getResultBuffer();
};


/**
 * Serializes the message to binary data (in protobuf wire format),
 * writing to the given BinaryWriter.
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.DivReply.prototype.serializeBinaryToWriter = function (writer) {
  var f = undefined;
  f = this.getQuotient();
  if (f !== 0) {
    writer.writeInt64(
      1,
      f
    );
  }
  f = this.getRemainder();
  if (f !== 0) {
    writer.writeInt64(
      2,
      f
    );
  }
};


/**
 * Creates a deep clone of this proto. No data is shared with the original.
 * @return {!proto.math.DivReply} The clone.
 */
proto.math.DivReply.prototype.cloneMessage = function() {
  return /** @type {!proto.math.DivReply} */ (jspb.Message.cloneMessage(this));
};


/**
 * optional int64 quotient = 1;
 * @return {number}
 */
proto.math.DivReply.prototype.getQuotient = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 1, 0));
};


/** @param {number} value  */
proto.math.DivReply.prototype.setQuotient = function(value) {
  jspb.Message.setField(this, 1, value);
};


/**
 * optional int64 remainder = 2;
 * @return {number}
 */
proto.math.DivReply.prototype.getRemainder = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 2, 0));
};


/** @param {number} value  */
proto.math.DivReply.prototype.setRemainder = function(value) {
  jspb.Message.setField(this, 2, value);
};



/**
 * 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.math.FibArgs = function(opt_data) {
  jspb.Message.initialize(this, opt_data, 0, -1, null, null);
};
goog.inherits(proto.math.FibArgs, jspb.Message);
if (goog.DEBUG && !COMPILED) {
  proto.math.FibArgs.displayName = 'proto.math.FibArgs';
}


if (jspb.Message.GENERATE_TO_OBJECT) {
/**
 * Creates an object representation of this proto suitable for use in Soy templates.
 * Field names that are reserved in JavaScript and will be renamed to pb_name.
 * To access a reserved field use, foo.pb_<name>, eg, foo.pb_default.
 * For the list of reserved names please see:
 *     com.google.apps.jspb.JsClassTemplate.JS_RESERVED_WORDS.
 * @param {boolean=} opt_includeInstance Whether to include the JSPB instance
 *     for transitional soy proto support: http://goto/soy-param-migration
 * @return {!Object}
 */
proto.math.FibArgs.prototype.toObject = function(opt_includeInstance) {
  return proto.math.FibArgs.toObject(opt_includeInstance, this);
};


/**
 * Static version of the {@see toObject} method.
 * @param {boolean|undefined} includeInstance Whether to include the JSPB
 *     instance for transitional soy proto support:
 *     http://goto/soy-param-migration
 * @param {!proto.math.FibArgs} msg The msg instance to transform.
 * @return {!Object}
 */
proto.math.FibArgs.toObject = function(includeInstance, msg) {
  var f, obj = {
    limit: msg.getLimit()
  };

  if (includeInstance) {
    obj.$jspbMessageInstance = msg;
  }
  return obj;
};
}


/**
 * Deserializes binary data (in protobuf wire format).
 * @param {jspb.ByteSource} bytes The bytes to deserialize.
 * @return {!proto.math.FibArgs}
 */
proto.math.FibArgs.deserializeBinary = function(bytes) {
  var reader = new jspb.BinaryReader(bytes);
  var msg = new proto.math.FibArgs;
  return proto.math.FibArgs.deserializeBinaryFromReader(msg, reader);
};


/**
 * Deserializes binary data (in protobuf wire format) from the
 * given reader into the given message object.
 * @param {!proto.math.FibArgs} msg The message object to deserialize into.
 * @param {!jspb.BinaryReader} reader The BinaryReader to use.
 * @return {!proto.math.FibArgs}
 */
proto.math.FibArgs.deserializeBinaryFromReader = function(msg, reader) {
  while (reader.nextField()) {
    if (reader.isEndGroup()) {
      break;
    }
    var field = reader.getFieldNumber();
    switch (field) {
    case 1:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setLimit(value);
      break;
    default:
      reader.skipField();
      break;
    }
  }
  return msg;
};


/**
 * Class method variant: serializes the given message to binary data
 * (in protobuf wire format), writing to the given BinaryWriter.
 * @param {!proto.math.FibArgs} message
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.FibArgs.serializeBinaryToWriter = function(message, writer) {
  message.serializeBinaryToWriter(writer);
};


/**
 * Serializes the message to binary data (in protobuf wire format).
 * @return {!Uint8Array}
 */
proto.math.FibArgs.prototype.serializeBinary = function() {
  var writer = new jspb.BinaryWriter();
  this.serializeBinaryToWriter(writer);
  return writer.getResultBuffer();
};


/**
 * Serializes the message to binary data (in protobuf wire format),
 * writing to the given BinaryWriter.
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.FibArgs.prototype.serializeBinaryToWriter = function (writer) {
  var f = undefined;
  f = this.getLimit();
  if (f !== 0) {
    writer.writeInt64(
      1,
      f
    );
  }
};


/**
 * Creates a deep clone of this proto. No data is shared with the original.
 * @return {!proto.math.FibArgs} The clone.
 */
proto.math.FibArgs.prototype.cloneMessage = function() {
  return /** @type {!proto.math.FibArgs} */ (jspb.Message.cloneMessage(this));
};


/**
 * optional int64 limit = 1;
 * @return {number}
 */
proto.math.FibArgs.prototype.getLimit = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 1, 0));
};


/** @param {number} value  */
proto.math.FibArgs.prototype.setLimit = function(value) {
  jspb.Message.setField(this, 1, value);
};



/**
 * 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.math.Num = function(opt_data) {
  jspb.Message.initialize(this, opt_data, 0, -1, null, null);
};
goog.inherits(proto.math.Num, jspb.Message);
if (goog.DEBUG && !COMPILED) {
  proto.math.Num.displayName = 'proto.math.Num';
}


if (jspb.Message.GENERATE_TO_OBJECT) {
/**
 * Creates an object representation of this proto suitable for use in Soy templates.
 * Field names that are reserved in JavaScript and will be renamed to pb_name.
 * To access a reserved field use, foo.pb_<name>, eg, foo.pb_default.
 * For the list of reserved names please see:
 *     com.google.apps.jspb.JsClassTemplate.JS_RESERVED_WORDS.
 * @param {boolean=} opt_includeInstance Whether to include the JSPB instance
 *     for transitional soy proto support: http://goto/soy-param-migration
 * @return {!Object}
 */
proto.math.Num.prototype.toObject = function(opt_includeInstance) {
  return proto.math.Num.toObject(opt_includeInstance, this);
};


/**
 * Static version of the {@see toObject} method.
 * @param {boolean|undefined} includeInstance Whether to include the JSPB
 *     instance for transitional soy proto support:
 *     http://goto/soy-param-migration
 * @param {!proto.math.Num} msg The msg instance to transform.
 * @return {!Object}
 */
proto.math.Num.toObject = function(includeInstance, msg) {
  var f, obj = {
    num: msg.getNum()
  };

  if (includeInstance) {
    obj.$jspbMessageInstance = msg;
  }
  return obj;
};
}


/**
 * Deserializes binary data (in protobuf wire format).
 * @param {jspb.ByteSource} bytes The bytes to deserialize.
 * @return {!proto.math.Num}
 */
proto.math.Num.deserializeBinary = function(bytes) {
  var reader = new jspb.BinaryReader(bytes);
  var msg = new proto.math.Num;
  return proto.math.Num.deserializeBinaryFromReader(msg, reader);
};


/**
 * Deserializes binary data (in protobuf wire format) from the
 * given reader into the given message object.
 * @param {!proto.math.Num} msg The message object to deserialize into.
 * @param {!jspb.BinaryReader} reader The BinaryReader to use.
 * @return {!proto.math.Num}
 */
proto.math.Num.deserializeBinaryFromReader = function(msg, reader) {
  while (reader.nextField()) {
    if (reader.isEndGroup()) {
      break;
    }
    var field = reader.getFieldNumber();
    switch (field) {
    case 1:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setNum(value);
      break;
    default:
      reader.skipField();
      break;
    }
  }
  return msg;
};


/**
 * Class method variant: serializes the given message to binary data
 * (in protobuf wire format), writing to the given BinaryWriter.
 * @param {!proto.math.Num} message
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.Num.serializeBinaryToWriter = function(message, writer) {
  message.serializeBinaryToWriter(writer);
};


/**
 * Serializes the message to binary data (in protobuf wire format).
 * @return {!Uint8Array}
 */
proto.math.Num.prototype.serializeBinary = function() {
  var writer = new jspb.BinaryWriter();
  this.serializeBinaryToWriter(writer);
  return writer.getResultBuffer();
};


/**
 * Serializes the message to binary data (in protobuf wire format),
 * writing to the given BinaryWriter.
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.Num.prototype.serializeBinaryToWriter = function (writer) {
  var f = undefined;
  f = this.getNum();
  if (f !== 0) {
    writer.writeInt64(
      1,
      f
    );
  }
};


/**
 * Creates a deep clone of this proto. No data is shared with the original.
 * @return {!proto.math.Num} The clone.
 */
proto.math.Num.prototype.cloneMessage = function() {
  return /** @type {!proto.math.Num} */ (jspb.Message.cloneMessage(this));
};


/**
 * optional int64 num = 1;
 * @return {number}
 */
proto.math.Num.prototype.getNum = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 1, 0));
};


/** @param {number} value  */
proto.math.Num.prototype.setNum = function(value) {
  jspb.Message.setField(this, 1, value);
};



/**
 * 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.math.FibReply = function(opt_data) {
  jspb.Message.initialize(this, opt_data, 0, -1, null, null);
};
goog.inherits(proto.math.FibReply, jspb.Message);
if (goog.DEBUG && !COMPILED) {
  proto.math.FibReply.displayName = 'proto.math.FibReply';
}


if (jspb.Message.GENERATE_TO_OBJECT) {
/**
 * Creates an object representation of this proto suitable for use in Soy templates.
 * Field names that are reserved in JavaScript and will be renamed to pb_name.
 * To access a reserved field use, foo.pb_<name>, eg, foo.pb_default.
 * For the list of reserved names please see:
 *     com.google.apps.jspb.JsClassTemplate.JS_RESERVED_WORDS.
 * @param {boolean=} opt_includeInstance Whether to include the JSPB instance
 *     for transitional soy proto support: http://goto/soy-param-migration
 * @return {!Object}
 */
proto.math.FibReply.prototype.toObject = function(opt_includeInstance) {
  return proto.math.FibReply.toObject(opt_includeInstance, this);
};


/**
 * Static version of the {@see toObject} method.
 * @param {boolean|undefined} includeInstance Whether to include the JSPB
 *     instance for transitional soy proto support:
 *     http://goto/soy-param-migration
 * @param {!proto.math.FibReply} msg The msg instance to transform.
 * @return {!Object}
 */
proto.math.FibReply.toObject = function(includeInstance, msg) {
  var f, obj = {
    count: msg.getCount()
  };

  if (includeInstance) {
    obj.$jspbMessageInstance = msg;
  }
  return obj;
};
}


/**
 * Deserializes binary data (in protobuf wire format).
 * @param {jspb.ByteSource} bytes The bytes to deserialize.
 * @return {!proto.math.FibReply}
 */
proto.math.FibReply.deserializeBinary = function(bytes) {
  var reader = new jspb.BinaryReader(bytes);
  var msg = new proto.math.FibReply;
  return proto.math.FibReply.deserializeBinaryFromReader(msg, reader);
};


/**
 * Deserializes binary data (in protobuf wire format) from the
 * given reader into the given message object.
 * @param {!proto.math.FibReply} msg The message object to deserialize into.
 * @param {!jspb.BinaryReader} reader The BinaryReader to use.
 * @return {!proto.math.FibReply}
 */
proto.math.FibReply.deserializeBinaryFromReader = function(msg, reader) {
  while (reader.nextField()) {
    if (reader.isEndGroup()) {
      break;
    }
    var field = reader.getFieldNumber();
    switch (field) {
    case 1:
      var value = /** @type {number} */ (reader.readInt64());
      msg.setCount(value);
      break;
    default:
      reader.skipField();
      break;
    }
  }
  return msg;
};


/**
 * Class method variant: serializes the given message to binary data
 * (in protobuf wire format), writing to the given BinaryWriter.
 * @param {!proto.math.FibReply} message
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.FibReply.serializeBinaryToWriter = function(message, writer) {
  message.serializeBinaryToWriter(writer);
};


/**
 * Serializes the message to binary data (in protobuf wire format).
 * @return {!Uint8Array}
 */
proto.math.FibReply.prototype.serializeBinary = function() {
  var writer = new jspb.BinaryWriter();
  this.serializeBinaryToWriter(writer);
  return writer.getResultBuffer();
};


/**
 * Serializes the message to binary data (in protobuf wire format),
 * writing to the given BinaryWriter.
 * @param {!jspb.BinaryWriter} writer
 */
proto.math.FibReply.prototype.serializeBinaryToWriter = function (writer) {
  var f = undefined;
  f = this.getCount();
  if (f !== 0) {
    writer.writeInt64(
      1,
      f
    );
  }
};


/**
 * Creates a deep clone of this proto. No data is shared with the original.
 * @return {!proto.math.FibReply} The clone.
 */
proto.math.FibReply.prototype.cloneMessage = function() {
  return /** @type {!proto.math.FibReply} */ (jspb.Message.cloneMessage(this));
};


/**
 * optional int64 count = 1;
 * @return {number}
 */
proto.math.FibReply.prototype.getCount = function() {
  return /** @type {number} */ (jspb.Message.getFieldProto3(this, 1, 0));
};


/** @param {number} value  */
proto.math.FibReply.prototype.setCount = function(value) {
  jspb.Message.setField(this, 1, value);
};


goog.object.extend(exports, proto.math);