// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
/**
* @fileoverview Definition of jspb.Message.
*
* @author mwr@google.com (Mark Rawling)
*/
goog.provide('jspb.ExtensionFieldInfo');
goog.provide('jspb.Message');
goog.require('goog.array');
goog.require('goog.asserts');
goog.require('goog.crypt.base64');
goog.require('goog.json');
// Not needed in compilation units that have no protos with xids.
goog.forwardDeclare('xid.String');
/**
* Stores information for a single extension field.
*
* For example, an extension field defined like so:
*
* extend BaseMessage {
* optional MyMessage my_field = 123;
* }
*
* will result in an ExtensionFieldInfo object with these properties:
*
* {
* fieldIndex: 123,
* fieldName: {my_field_renamed: 0},
* ctor: proto.example.MyMessage,
* toObjectFn: proto.example.MyMessage.toObject,
* isRepeated: 0
* }
*
* We include `toObjectFn` to allow the JSCompiler to perform dead-code removal
* on unused toObject() methods.
*
* If an extension field is primitive, ctor and toObjectFn will be null.
* isRepeated should be 0 or 1.
*
* binary{Reader,Writer}Fn and (if message type) binaryMessageSerializeFn are
* always provided. binaryReaderFn and binaryWriterFn are references to the
* appropriate methods on BinaryReader/BinaryWriter to read/write the value of
* this extension, and binaryMessageSerializeFn is a reference to the message
* class's .serializeBinary method, if available.
*
* @param {number} fieldNumber
* @param {Object} fieldName This has the extension field name as a property.
* @param {?function(new: jspb.Message, Array=)} ctor
* @param {?function((boolean|undefined),!jspb.Message):!Object} toObjectFn
* @param {number} isRepeated
* @param {?function(number,?)=} opt_binaryReaderFn
* @param {?function(number,?)|function(number,?,?,?,?,?)=} opt_binaryWriterFn
* @param {?function(?,?)=} opt_binaryMessageSerializeFn
* @param {?function(?,?)=} opt_binaryMessageDeserializeFn
* @param {?boolean=} opt_isPacked
* @constructor
* @struct
* @template T
*/
jspb.ExtensionFieldInfo = function(fieldNumber, fieldName, ctor, toObjectFn,
isRepeated, opt_binaryReaderFn, opt_binaryWriterFn,
opt_binaryMessageSerializeFn, opt_binaryMessageDeserializeFn,
opt_isPacked) {
/** @const */
this.fieldIndex = fieldNumber;
/** @const */
this.fieldName = fieldName;
/** @const */
this.ctor = ctor;
/** @const */
this.toObjectFn = toObjectFn;
/** @const */
this.binaryReaderFn = opt_binaryReaderFn;
/** @const */
this.binaryWriterFn = opt_binaryWriterFn;
/** @const */
this.binaryMessageSerializeFn = opt_binaryMessageSerializeFn;
/** @const */
this.binaryMessageDeserializeFn = opt_binaryMessageDeserializeFn;
/** @const */
this.isRepeated = isRepeated;
/** @const */
this.isPacked = opt_isPacked;
};
/**
* @return {boolean} Does this field represent a sub Message?
*/
jspb.ExtensionFieldInfo.prototype.isMessageType = function() {
return !!this.ctor;
};
/**
* Base class for all JsPb messages.
* @constructor
* @struct
*/
jspb.Message = function() {
};
/**
* @define {boolean} Whether to generate toObject methods for objects. Turn
* this off, if you do not want toObject to be ever used in your project.
* When turning off this flag, consider adding a conformance test that bans
* calling toObject. Enabling this will disable the JSCompiler's ability to
* dead code eliminate fields used in protocol buffers that are never used
* in an application.
*/
goog.define('jspb.Message.GENERATE_TO_OBJECT', true);
/**
* @define {boolean} Whether to generate fromObject methods for objects. Turn
* this off, if you do not want fromObject to be ever used in your project.
* When turning off this flag, consider adding a conformance test that bans
* calling fromObject. Enabling this might disable the JSCompiler's ability
* to dead code eliminate fields used in protocol buffers that are never
* used in an application.
* NOTE: By default no protos actually have a fromObject method. You need to
* add the jspb.generate_from_object options to the proto definition to
* activate the feature.
* By default this is enabled for test code only.
*/
goog.define('jspb.Message.GENERATE_FROM_OBJECT', !goog.DISALLOW_TEST_ONLY_CODE);
/**
* @define {boolean} Turning on this flag does NOT change the behavior of JSPB
* and only affects private internal state. It may, however, break some
* tests that use naive deeply-equals algorithms, because using a proto
* mutates its internal state.
* Projects are advised to turn this flag always on.
*/
goog.define('jspb.Message.MINIMIZE_MEMORY_ALLOCATIONS', COMPILED);
// TODO(b/19419436) Turn this on by default.
/**
* Does this browser support Uint8Aray typed arrays?
* @type {boolean}
* @private
*/
jspb.Message.SUPPORTS_UINT8ARRAY_ = (typeof Uint8Array == 'function');
/**
* The internal data array.
* @type {!Array}
* @protected
*/
jspb.Message.prototype.array;
/**
* Wrappers are the constructed instances of message-type fields. They are built
* on demand from the raw array data. Includes message fields, repeated message
* fields and extension message fields. Indexed by field number.
* @type {Object}
* @private
*/
jspb.Message.prototype.wrappers_;
/**
* The object that contains extension fields, if any. This is an object that
* maps from a proto field number to the field's value.
* @type {Object}
* @private
*/
jspb.Message.prototype.extensionObject_;
/**
* Non-extension fields with a field number at or above the pivot are
* stored in the extension object (in addition to all extension fields).
* @type {number}
* @private
*/
jspb.Message.prototype.pivot_;
/**
* The JsPb message_id of this proto.
* @type {string|undefined} the message id or undefined if this message
* has no id.
* @private
*/
jspb.Message.prototype.messageId_;
/**
* Repeated float or double fields which have been converted to include only
* numbers and not strings holding "NaN", "Infinity" and "-Infinity".
* @private {!Object<number,boolean>|undefined}
*/
jspb.Message.prototype.convertedFloatingPointFields_;
/**
* The xid of this proto type (The same for all instances of a proto). Provides
* a way to identify a proto by stable obfuscated name.
* @see {xid}.
* Available if {@link jspb.generate_xid} is added as a Message option to
* a protocol buffer.
* @const {!xid.String|undefined} The xid or undefined if message is
* annotated to generate the xid.
*/
jspb.Message.prototype.messageXid;
/**
* Returns the JsPb message_id of this proto.
* @return {string|undefined} the message id or undefined if this message
* has no id.
*/
jspb.Message.prototype.getJsPbMessageId = function() {
return this.messageId_;
};
/**
* An offset applied to lookups into this.array to account for the presence or
* absence of a messageId at position 0. For response messages, this will be 0.
* Otherwise, it will be -1 so that the first array position is not wasted.
* @type {number}
* @private
*/
jspb.Message.prototype.arrayIndexOffset_;
/**
* Returns the index into msg.array at which the proto field with tag number
* fieldNumber will be located.
* @param {!jspb.Message} msg Message for which we're calculating an index.
* @param {number} fieldNumber The field number.
* @return {number} The index.
* @private
*/
jspb.Message.getIndex_ = function(msg, fieldNumber) {
return fieldNumber + msg.arrayIndexOffset_;
};
/**
* Initializes a JsPb Message.
* @param {!jspb.Message} msg The JsPb proto to modify.
* @param {Array|undefined} data An initial data array.
* @param {string|number} messageId For response messages, the message id or ''
* if no message id is specified. For non-response messages, 0.
* @param {number} suggestedPivot The field number at which to start putting
* fields into the extension object. This is only used if data does not
* contain an extension object already. -1 if no extension object is
* required for this message type.
* @param {Array<number>} repeatedFields The message's repeated fields.
* @param {Array<!Array<number>>=} opt_oneofFields The fields belonging to
* each of the message's oneof unions.
* @protected
*/
jspb.Message.initialize = function(
msg, data, messageId, suggestedPivot, repeatedFields, opt_oneofFields) {
msg.wrappers_ = jspb.Message.MINIMIZE_MEMORY_ALLOCATIONS ? null : {};
if (!data) {
data = messageId ? [messageId] : [];
}
msg.messageId_ = messageId ? String(messageId) : undefined;
// If the messageId is 0, this message is not a response message, so we shift
// array indices down by 1 so as not to waste the first position in the array,
// which would otherwise go unused.
msg.arrayIndexOffset_ = messageId === 0 ? -1 : 0;
msg.array = data;
jspb.Message.materializeExtensionObject_(msg, suggestedPivot);
msg.convertedFloatingPointFields_ = {};
if (repeatedFields) {
for (var i = 0; i < repeatedFields.length; i++) {
var fieldNumber = repeatedFields[i];
if (fieldNumber < msg.pivot_) {
var index = jspb.Message.getIndex_(msg, fieldNumber);
msg.array[index] = msg.array[index] ||
(jspb.Message.MINIMIZE_MEMORY_ALLOCATIONS ?
jspb.Message.EMPTY_LIST_SENTINEL_ :
[]);
} else {
msg.extensionObject_[fieldNumber] =
msg.extensionObject_[fieldNumber] ||
(jspb.Message.MINIMIZE_MEMORY_ALLOCATIONS ?
jspb.Message.EMPTY_LIST_SENTINEL_ :
[]);
}
}
}
if (opt_oneofFields && opt_oneofFields.length) {
// Compute the oneof case for each union. This ensures only one value is
// set in the union.
goog.array.forEach(
opt_oneofFields, goog.partial(jspb.Message.computeOneofCase, msg));
}
};
/**
* Used to mark empty repeated fields. Serializes to null when serialized
* to JSON.
* When reading a repeated field readers must check the return value against
* this value and return and replace it with a new empty array if it is
* present.
* @private @const {!Object}
*/
jspb.Message.EMPTY_LIST_SENTINEL_ = goog.DEBUG && Object.freeze ?
Object.freeze([]) :
[];
/**
* Ensures that the array contains an extension object if necessary.
* If the array contains an extension object in its last position, then the
* object is kept in place and its position is used as the pivot. If not, then
* create an extension object using suggestedPivot. If suggestedPivot is -1,
* we don't have an extension object at all, in which case all fields are stored
* in the array.
* @param {!jspb.Message} msg The JsPb proto to modify.
* @param {number} suggestedPivot See description for initialize().
* @private
*/
jspb.Message.materializeExtensionObject_ = function(msg, suggestedPivot) {
if (msg.array.length) {
var foundIndex = msg.array.length - 1;
var obj = msg.array[foundIndex];
// Normal fields are never objects, so we can be sure that if we find an
// object here, then it's the extension object. However, we must ensure that
// the object is not an array, since arrays are valid field values.
// NOTE(lukestebbing): We avoid looking at .length to avoid a JIT bug
// in Safari on iOS 8. See the description of CL/86511464 for details.
if (obj && typeof obj == 'object' && !goog.isArray(obj)) {
msg.pivot_ = foundIndex - msg.arrayIndexOffset_;
msg.extensionObject_ = obj;
return;
}
}
// This complexity exists because we keep all extension fields in the
// extensionObject_ regardless of proto field number. Changing this would
// simplify the code here, but it would require changing the serialization
// format from the server, which is not backwards compatible.
// TODO(jshneier): Should we just treat extension fields the same as
// non-extension fields, and select whether they appear in the object or in
// the array purely based on tag number? This would allow simplifying all the
// get/setExtension logic, but it would require the breaking change described
// above.
if (suggestedPivot > -1) {
msg.pivot_ = suggestedPivot;
var pivotIndex = jspb.Message.getIndex_(msg, suggestedPivot);
if (!jspb.Message.MINIMIZE_MEMORY_ALLOCATIONS) {
msg.extensionObject_ = msg.array[pivotIndex] = {};
} else {
// Initialize to null to avoid changing the shape of the proto when it
// gets eventually set.
msg.extensionObject_ = null;
}
} else {
msg.pivot_ = Number.MAX_VALUE;
}
};
/**
* Creates an empty extensionObject_ if non exists.
* @param {!jspb.Message} msg The JsPb proto to modify.
* @private
*/
jspb.Message.maybeInitEmptyExtensionObject_ = function(msg) {
var pivotIndex = jspb.Message.getIndex_(msg, msg.pivot_);
if (!msg.array[pivotIndex]) {
msg.extensionObject_ = msg.array[pivotIndex] = {};
}
};
/**
* Converts a JsPb repeated message field into an object list.
* @param {!Array<T>} field The repeated message field to be
* converted.
* @param {?function(boolean=): Object|
* function((boolean|undefined),T): Object} toObjectFn The toObject
* function for this field. We need to pass this for effective dead code
* removal.
* @param {boolean=} opt_includeInstance Whether to include the JSPB instance
* for transitional soy proto support: http://goto/soy-param-migration
* @return {!Array<Object>} An array of converted message objects.
* @template T
*/
jspb.Message.toObjectList = function(field, toObjectFn, opt_includeInstance) {
// Not using goog.array.map in the generated code to keep it small.
// And not using it here to avoid a function call.
var result = [];
for (var i = 0; i < field.length; i++) {
result[i] = toObjectFn.call(field[i], opt_includeInstance,
/** @type {!jspb.Message} */ (field[i]));
}
return result;
};
/**
* Adds a proto's extension data to a Soy rendering object.
* @param {!jspb.Message} proto The proto whose extensions to convert.
* @param {!Object} obj The Soy object to add converted extension data to.
* @param {!Object} extensions The proto class' registered extensions.
* @param {function(this:?, jspb.ExtensionFieldInfo) : *} getExtensionFn
* The proto class' getExtension function. Passed for effective dead code
* removal.
* @param {boolean=} opt_includeInstance Whether to include the JSPB instance
* for transitional soy proto support: http://goto/soy-param-migration
*/
jspb.Message.toObjectExtension = function(proto, obj, extensions,
getExtensionFn, opt_includeInstance) {
for (var fieldNumber in extensions) {
var fieldInfo = extensions[fieldNumber];
var value = getExtensionFn.call(proto, fieldInfo);
if (value) {
for (var name in fieldInfo.fieldName) {
if (fieldInfo.fieldName.hasOwnProperty(name)) {
break; // the compiled field name
}
}
if (!fieldInfo.toObjectFn) {
obj[name] = value;
} else {
if (fieldInfo.isRepeated) {
obj[name] = jspb.Message.toObjectList(
/** @type {!Array<jspb.Message>} */ (value),
fieldInfo.toObjectFn, opt_includeInstance);
} else {
obj[name] = fieldInfo.toObjectFn(opt_includeInstance, value);
}
}
}
}
};
/**
* Writes a proto's extension data to a binary-format output stream.
* @param {!jspb.Message} proto The proto whose extensions to convert.
* @param {*} writer The binary-format writer to write to.
* @param {!Object} extensions The proto class' registered extensions.
* @param {function(jspb.ExtensionFieldInfo) : *} getExtensionFn The proto
* class' getExtension function. Passed for effective dead code removal.
*/
jspb.Message.serializeBinaryExtensions = function(proto, writer, extensions,
getExtensionFn) {
for (var fieldNumber in extensions) {
var fieldInfo = extensions[fieldNumber];
// The old codegen doesn't add the extra fields to ExtensionFieldInfo, so we
// need to gracefully error-out here rather than produce a null dereference
// below.
if (!fieldInfo.binaryWriterFn) {
throw new Error('Message extension present that was generated ' +
'without binary serialization support');
}
var value = getExtensionFn.call(proto, fieldInfo);
if (value) {
if (fieldInfo.isMessageType()) {
// If the message type of the extension was generated without binary
// support, there may not be a binary message serializer function, and
// we can't know when we codegen the extending message that the extended
// message may require binary support, so we can *only* catch this error
// here, at runtime (and this decoupled codegen is the whole point of
// extensions!).
if (fieldInfo.binaryMessageSerializeFn) {
fieldInfo.binaryWriterFn.call(writer, fieldInfo.fieldIndex,
value, fieldInfo.binaryMessageSerializeFn);
} else {
throw new Error('Message extension present holding submessage ' +
'without binary support enabled, and message is ' +
'being serialized to binary format');
}
} else {
fieldInfo.binaryWriterFn.call(writer, fieldInfo.fieldIndex, value);
}
}
}
};
/**
* Reads an extension field from the given reader and, if a valid extension,
* sets the extension value.
* @param {!jspb.Message} msg A jspb proto.
* @param {{skipField:function(),getFieldNumber:function():number}} reader
* @param {!Object} extensions The extensions object.
* @param {function(jspb.ExtensionFieldInfo)} getExtensionFn
* @param {function(jspb.ExtensionFieldInfo, ?)} setExtensionFn
*/
jspb.Message.readBinaryExtension = function(msg, reader, extensions,
getExtensionFn, setExtensionFn) {
var fieldInfo = extensions[reader.getFieldNumber()];
if (!fieldInfo) {
reader.skipField();
return;
}
if (!fieldInfo.binaryReaderFn) {
throw new Error('Deserializing extension whose generated code does not ' +
'support binary format');
}
var value;
if (fieldInfo.isMessageType()) {
value = new fieldInfo.ctor();
fieldInfo.binaryReaderFn.call(
reader, value, fieldInfo.binaryMessageDeserializeFn);
} else {
// All other types.
value = fieldInfo.binaryReaderFn.call(reader);
}
if (fieldInfo.isRepeated && !fieldInfo.isPacked) {
var currentList = getExtensionFn.call(msg, fieldInfo);
if (!currentList) {
setExtensionFn.call(msg, fieldInfo, [value]);
} else {
currentList.push(value);
}
} else {
setExtensionFn.call(msg, fieldInfo, value);
}
};
/**
* Gets the value of a non-extension field.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @return {string|number|boolean|Uint8Array|Array|null|undefined}
* The field's value.
* @protected
*/
jspb.Message.getField = function(msg, fieldNumber) {
if (fieldNumber < msg.pivot_) {
var index = jspb.Message.getIndex_(msg, fieldNumber);
var val = msg.array[index];
if (val === jspb.Message.EMPTY_LIST_SENTINEL_) {
return msg.array[index] = [];
}
return val;
} else {
var val = msg.extensionObject_[fieldNumber];
if (val === jspb.Message.EMPTY_LIST_SENTINEL_) {
return msg.extensionObject_[fieldNumber] = [];
}
return val;
}
};
/**
* Gets the value of an optional float or double field.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @return {?number|undefined} The field's value.
* @protected
*/
jspb.Message.getOptionalFloatingPointField = function(msg, fieldNumber) {
var value = jspb.Message.getField(msg, fieldNumber);
// Converts "NaN", "Infinity" and "-Infinity" to their corresponding numbers.
return value == null ? value : +value;
};
/**
* Gets the value of a repeated float or double field.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @return {!Array<number>} The field's value.
* @protected
*/
jspb.Message.getRepeatedFloatingPointField = function(msg, fieldNumber) {
var values = jspb.Message.getField(msg, fieldNumber);
if (!msg.convertedFloatingPointFields_) {
msg.convertedFloatingPointFields_ = {};
}
if (!msg.convertedFloatingPointFields_[fieldNumber]) {
for (var i = 0; i < values.length; i++) {
// Converts "NaN", "Infinity" and "-Infinity" to their corresponding
// numbers.
values[i] = +values[i];
}
msg.convertedFloatingPointFields_[fieldNumber] = true;
}
return /** @type {!Array<number>} */ (values);
};
/**
* Coerce a 'bytes' field to a base 64 string.
* @param {string|Uint8Array|null} value
* @return {?string} The field's coerced value.
*/
jspb.Message.bytesAsB64 = function(value) {
if (value == null || goog.isString(value)) {
return value;
}
if (jspb.Message.SUPPORTS_UINT8ARRAY_ && value instanceof Uint8Array) {
return goog.crypt.base64.encodeByteArray(value);
}
goog.asserts.fail('Cannot coerce to b64 string: ' + goog.typeOf(value));
return null;
};
/**
* Coerce a 'bytes' field to a Uint8Array byte buffer.
* Note that Uint8Array is not supported on IE versions before 10 nor on Opera
* Mini. @see http://caniuse.com/Uint8Array
* @param {string|Uint8Array|null} value
* @return {?Uint8Array} The field's coerced value.
*/
jspb.Message.bytesAsU8 = function(value) {
if (value == null || value instanceof Uint8Array) {
return value;
}
if (goog.isString(value)) {
return goog.crypt.base64.decodeStringToUint8Array(value);
}
goog.asserts.fail('Cannot coerce to Uint8Array: ' + goog.typeOf(value));
return null;
};
/**
* Coerce a repeated 'bytes' field to an array of base 64 strings.
* Note: the returned array should be treated as immutable.
* @param {!Array<string>|!Array<!Uint8Array>} value
* @return {!Array<string?>} The field's coerced value.
*/
jspb.Message.bytesListAsB64 = function(value) {
jspb.Message.assertConsistentTypes_(value);
if (!value.length || goog.isString(value[0])) {
return /** @type {!Array<string>} */ (value);
}
return goog.array.map(value, jspb.Message.bytesAsB64);
};
/**
* Coerce a repeated 'bytes' field to an array of Uint8Array byte buffers.
* Note: the returned array should be treated as immutable.
* Note that Uint8Array is not supported on IE versions before 10 nor on Opera
* Mini. @see http://caniuse.com/Uint8Array
* @param {!Array<string>|!Array<!Uint8Array>} value
* @return {!Array<Uint8Array?>} The field's coerced value.
*/
jspb.Message.bytesListAsU8 = function(value) {
jspb.Message.assertConsistentTypes_(value);
if (!value.length || value[0] instanceof Uint8Array) {
return /** @type {!Array<!Uint8Array>} */ (value);
}
return goog.array.map(value, jspb.Message.bytesAsU8);
};
/**
* Asserts that all elements of an array are of the same type.
* @param {Array?} array The array to test.
* @private
*/
jspb.Message.assertConsistentTypes_ = function(array) {
if (goog.DEBUG && array && array.length > 1) {
var expected = goog.typeOf(array[0]);
goog.array.forEach(array, function(e) {
if (goog.typeOf(e) != expected) {
goog.asserts.fail('Inconsistent type in JSPB repeated field array. ' +
'Got ' + goog.typeOf(e) + ' expected ' + expected);
}
});
}
};
/**
* Gets the value of a non-extension primitive field, with proto3 (non-nullable
* primitives) semantics. Returns `defaultValue` if the field is not otherwise
* set.
* @template T
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {T} defaultValue The default value.
* @return {T} The field's value.
* @protected
*/
jspb.Message.getFieldProto3 = function(msg, fieldNumber, defaultValue) {
var value = jspb.Message.getField(msg, fieldNumber);
if (value == null) {
return defaultValue;
} else {
return value;
}
};
/**
* Sets the value of a non-extension field.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {string|number|boolean|Uint8Array|Array|undefined} value New value
* @protected
*/
jspb.Message.setField = function(msg, fieldNumber, value) {
if (fieldNumber < msg.pivot_) {
msg.array[jspb.Message.getIndex_(msg, fieldNumber)] = value;
} else {
msg.extensionObject_[fieldNumber] = value;
}
};
/**
* Sets the value of a field in a oneof union and clears all other fields in
* the union.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {!Array<number>} oneof The fields belonging to the union.
* @param {string|number|boolean|Uint8Array|Array|undefined} value New value
* @protected
*/
jspb.Message.setOneofField = function(msg, fieldNumber, oneof, value) {
var currentCase = jspb.Message.computeOneofCase(msg, oneof);
if (currentCase && currentCase !== fieldNumber && value !== undefined) {
if (msg.wrappers_ && currentCase in msg.wrappers_) {
msg.wrappers_[currentCase] = undefined;
}
jspb.Message.setField(msg, currentCase, undefined);
}
jspb.Message.setField(msg, fieldNumber, value);
};
/**
* Computes the selection in a oneof group for the given message, ensuring
* only one field is set in the process.
*
* According to the protobuf language guide (
* https://developers.google.com/protocol-buffers/docs/proto#oneof), "if the
* parser encounters multiple members of the same oneof on the wire, only the
* last member seen is used in the parsed message." Since JSPB serializes
* messages to a JSON array, the "last member seen" will always be the field
* with the greatest field number (directly corresponding to the greatest
* array index).
*
* @param {!jspb.Message} msg A jspb proto.
* @param {!Array<number>} oneof The field numbers belonging to the union.
* @return {number} The field number currently set in the union, or 0 if none.
* @protected
*/
jspb.Message.computeOneofCase = function(msg, oneof) {
var oneofField;
var oneofValue;
goog.array.forEach(oneof, function(fieldNumber) {
var value = jspb.Message.getField(msg, fieldNumber);
if (goog.isDefAndNotNull(value)) {
oneofField = fieldNumber;
oneofValue = value;
jspb.Message.setField(msg, fieldNumber, undefined);
}
});
if (oneofField) {
// NB: We know the value is unique, so we can call jspb.Message.setField
// directly instead of jpsb.Message.setOneofField. Also, setOneofField
// calls this function.
jspb.Message.setField(msg, oneofField, oneofValue);
return oneofField;
}
return 0;
};
/**
* Gets and wraps a proto field on access.
* @param {!jspb.Message} msg A jspb proto.
* @param {function(new:jspb.Message, Array)} ctor Constructor for the field.
* @param {number} fieldNumber The field number.
* @param {number=} opt_required True (1) if this is a required field.
* @return {jspb.Message} The field as a jspb proto.
* @protected
*/
jspb.Message.getWrapperField = function(msg, ctor, fieldNumber, opt_required) {
// TODO(mwr): Consider copying data and/or arrays.
if (!msg.wrappers_) {
msg.wrappers_ = {};
}
if (!msg.wrappers_[fieldNumber]) {
var data = /** @type {Array} */ (jspb.Message.getField(msg, fieldNumber));
if (opt_required || data) {
// TODO(mwr): Remove existence test for always valid default protos.
msg.wrappers_[fieldNumber] = new ctor(data);
}
}
return /** @type {jspb.Message} */ (msg.wrappers_[fieldNumber]);
};
/**
* Gets and wraps a repeated proto field on access.
* @param {!jspb.Message} msg A jspb proto.
* @param {function(new:jspb.Message, Array)} ctor Constructor for the field.
* @param {number} fieldNumber The field number.
* @return {Array<!jspb.Message>} The repeated field as an array of protos.
* @protected
*/
jspb.Message.getRepeatedWrapperField = function(msg, ctor, fieldNumber) {
if (!msg.wrappers_) {
msg.wrappers_ = {};
}
if (!msg.wrappers_[fieldNumber]) {
var data = jspb.Message.getField(msg, fieldNumber);
for (var wrappers = [], i = 0; i < data.length; i++) {
wrappers[i] = new ctor(data[i]);
}
msg.wrappers_[fieldNumber] = wrappers;
}
var val = msg.wrappers_[fieldNumber];
if (val == jspb.Message.EMPTY_LIST_SENTINEL_) {
val = msg.wrappers_[fieldNumber] = [];
}
return /** @type {Array<!jspb.Message>} */ (val);
};
/**
* Sets a proto field and syncs it to the backing array.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {jspb.Message|undefined} value A new value for this proto field.
* @protected
*/
jspb.Message.setWrapperField = function(msg, fieldNumber, value) {
if (!msg.wrappers_) {
msg.wrappers_ = {};
}
var data = value ? value.toArray() : value;
msg.wrappers_[fieldNumber] = value;
jspb.Message.setField(msg, fieldNumber, data);
};
/**
* Sets a proto field in a oneof union and syncs it to the backing array.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {!Array<number>} oneof The fields belonging to the union.
* @param {jspb.Message|undefined} value A new value for this proto field.
* @protected
*/
jspb.Message.setOneofWrapperField = function(msg, fieldNumber, oneof, value) {
if (!msg.wrappers_) {
msg.wrappers_ = {};
}
var data = value ? value.toArray() : value;
msg.wrappers_[fieldNumber] = value;
jspb.Message.setOneofField(msg, fieldNumber, oneof, data);
};
/**
* Sets a repeated proto field and syncs it to the backing array.
* @param {!jspb.Message} msg A jspb proto.
* @param {number} fieldNumber The field number.
* @param {Array<!jspb.Message>|undefined} value An array of protos.
* @protected
*/
jspb.Message.setRepeatedWrapperField = function(msg, fieldNumber, value) {
if (!msg.wrappers_) {
msg.wrappers_ = {};
}
value = value || [];
for (var data = [], i = 0; i < value.length; i++) {
data[i] = value[i].toArray();
}
msg.wrappers_[fieldNumber] = value;
jspb.Message.setField(msg, fieldNumber, data);
};
/**
* Converts a JsPb repeated message field into a map. The map will contain
* protos unless an optional toObject function is given, in which case it will
* contain objects suitable for Soy rendering.
* @param {!Array<T>} field The repeated message field to be
* converted.
* @param {function() : string?} mapKeyGetterFn The function to get the key of
* the map.
* @param {?function(boolean=): Object|
* function((boolean|undefined),T): Object} opt_toObjectFn The
* toObject function for this field. We need to pass this for effective
* dead code removal.
* @param {boolean=} opt_includeInstance Whether to include the JSPB instance
* for transitional soy proto support: http://goto/soy-param-migration
* @return {!Object.<string, Object>} A map of proto or Soy objects.
* @template T
*/
jspb.Message.toMap = function(
field, mapKeyGetterFn, opt_toObjectFn, opt_includeInstance) {
var result = {};
for (var i = 0; i < field.length; i++) {
result[mapKeyGetterFn.call(field[i])] = opt_toObjectFn ?
opt_toObjectFn.call(field[i], opt_includeInstance,
/** @type {!jspb.Message} */ (field[i])) : field[i];
}
return result;
};
/**
* Returns the internal array of this proto.
* <p>Note: If you use this array to construct a second proto, the content
* would then be partially shared between the two protos.
* @return {!Array} The proto represented as an array.
*/
jspb.Message.prototype.toArray = function() {
return this.array;
};
/**
* Creates a string representation of the internal data array of this proto.
* <p>NOTE: This string is *not* suitable for use in server requests.
* @return {string} A string representation of this proto.
* @override
*/
jspb.Message.prototype.toString = function() {
return this.array.toString();
};
/**
* Gets the value of the extension field from the extended object.
* @param {jspb.ExtensionFieldInfo.<T>} fieldInfo Specifies the field to get.
* @return {T} The value of the field.
* @template T
*/
jspb.Message.prototype.getExtension = function(fieldInfo) {
if (!this.extensionObject_) {
return undefined;
}
if (!this.wrappers_) {
this.wrappers_ = {};
}
var fieldNumber = fieldInfo.fieldIndex;
if (fieldInfo.isRepeated) {
if (fieldInfo.isMessageType()) {
if (!this.wrappers_[fieldNumber]) {
this.wrappers_[fieldNumber] =
goog.array.map(this.extensionObject_[fieldNumber] || [],
function(arr) {
return new fieldInfo.ctor(arr);
});
}
return this.wrappers_[fieldNumber];
} else {
return this.extensionObject_[fieldNumber];
}
} else {
if (fieldInfo.isMessageType()) {
if (!this.wrappers_[fieldNumber] && this.extensionObject_[fieldNumber]) {
this.wrappers_[fieldNumber] = new fieldInfo.ctor(
/** @type {Array|undefined} */ (
this.extensionObject_[fieldNumber]));
}
return this.wrappers_[fieldNumber];
} else {
return this.extensionObject_[fieldNumber];
}
}
};
/**
* Sets the value of the extension field in the extended object.
* @param {jspb.ExtensionFieldInfo} fieldInfo Specifies the field to set.
* @param {jspb.Message|string|Uint8Array|number|boolean|Array?} value The value
* to set.
*/
jspb.Message.prototype.setExtension = function(fieldInfo, value) {
if (!this.wrappers_) {
this.wrappers_ = {};
}
jspb.Message.maybeInitEmptyExtensionObject_(this);
var fieldNumber = fieldInfo.fieldIndex;
if (fieldInfo.isRepeated) {
value = value || [];
if (fieldInfo.isMessageType()) {
this.wrappers_[fieldNumber] = value;
this.extensionObject_[fieldNumber] = goog.array.map(
/** @type {Array<jspb.Message>} */ (value), function(msg) {
return msg.toArray();
});
} else {
this.extensionObject_[fieldNumber] = value;
}
} else {
if (fieldInfo.isMessageType()) {
this.wrappers_[fieldNumber] = value;
this.extensionObject_[fieldNumber] = value ? value.toArray() : value;
} else {
this.extensionObject_[fieldNumber] = value;
}
}
};
/**
* Creates a difference object between two messages.
*
* The result will contain the top-level fields of m2 that differ from those of
* m1 at any level of nesting. No data is cloned, the result object will
* share its top-level elements with m2 (but not with m1).
*
* Note that repeated fields should not have null/undefined elements, but if
* they do, this operation will treat repeated fields of different length as
* the same if the only difference between them is due to trailing
* null/undefined values.
*
* @param {!jspb.Message} m1 The first message object.
* @param {!jspb.Message} m2 The second message object.
* @return {!jspb.Message} The difference returned as a proto message.
* Note that the returned message may be missing required fields. This is
* currently tolerated in Js, but would cause an error if you tried to
* send such a proto to the server. You can access the raw difference
* array with result.toArray().
* @throws {Error} If the messages are responses with different types.
*/
jspb.Message.difference = function(m1, m2) {
if (!(m1 instanceof m2.constructor)) {
throw new Error('Messages have different types.');
}
var arr1 = m1.toArray();
var arr2 = m2.toArray();
var res = [];
var start = 0;
var length = arr1.length > arr2.length ? arr1.length : arr2.length;
if (m1.getJsPbMessageId()) {
res[0] = m1.getJsPbMessageId();
start = 1;
}
for (var i = start; i < length; i++) {
if (!jspb.Message.compareFields(arr1[i], arr2[i])) {
res[i] = arr2[i];
}
}
return new m1.constructor(res);
};
/**
* Tests whether two messages are equal.
* @param {jspb.Message|undefined} m1 The first message object.
* @param {jspb.Message|undefined} m2 The second message object.
* @return {boolean} true if both messages are null/undefined, or if both are
* of the same type and have the same field values.
*/
jspb.Message.equals = function(m1, m2) {
return m1 == m2 || (!!(m1 && m2) && (m1 instanceof m2.constructor) &&
jspb.Message.compareFields(m1.toArray(), m2.toArray()));
};
/**
* Compares two message extension fields recursively.
* @param {!Object} extension1 The first field.
* @param {!Object} extension2 The second field.
* @return {boolean} true if the extensions are null/undefined, or otherwise
* equal.
*/
jspb.Message.compareExtensions = function(extension1, extension2) {
extension1 = extension1 || {};
extension2 = extension2 || {};
var keys = {};
for (var name in extension1) {
keys[name] = 0;
}
for (var name in extension2) {
keys[name] = 0;
}
for (name in keys) {
if (!jspb.Message.compareFields(extension1[name], extension2[name])) {
return false;
}
}
return true;
};
/**
* Compares two message fields recursively.
* @param {*} field1 The first field.
* @param {*} field2 The second field.
* @return {boolean} true if the fields are null/undefined, or otherwise equal.
*/
jspb.Message.compareFields = function(field1, field2) {
// If the fields are trivially equal, they're equal.
if (field1 == field2) return true;
// If the fields aren't trivially equal and one of them isn't an object,
// they can't possibly be equal.
if (!goog.isObject(field1) || !goog.isObject(field2)) {
return false;
}
// We have two objects. If they're different types, they're not equal.
field1 = /** @type {!Object} */(field1);
field2 = /** @type {!Object} */(field2);
if (field1.constructor != field2.constructor) return false;
// If both are Uint8Arrays, compare them element-by-element.
if (jspb.Message.SUPPORTS_UINT8ARRAY_ && field1.constructor === Uint8Array) {
var bytes1 = /** @type {!Uint8Array} */(field1);
var bytes2 = /** @type {!Uint8Array} */(field2);
if (bytes1.length != bytes2.length) return false;
for (var i = 0; i < bytes1.length; i++) {
if (bytes1[i] != bytes2[i]) return false;
}
return true;
}
// If they're both Arrays, compare them element by element except for the
// optional extension objects at the end, which we compare separately.
if (field1.constructor === Array) {
var extension1 = undefined;
var extension2 = undefined;
var length = Math.max(field1.length, field2.length);
for (var i = 0; i < length; i++) {
var val1 = field1[i];
var val2 = field2[i];
if (val1 && (val1.constructor == Object)) {
goog.asserts.assert(extension1 === undefined);
goog.asserts.assert(i === field1.length - 1);
extension1 = val1;
val1 = undefined;
}
if (val2 && (val2.constructor == Object)) {
goog.asserts.assert(extension2 === undefined);
goog.asserts.assert(i === field2.length - 1);
extension2 = val2;
val2 = undefined;
}
if (!jspb.Message.compareFields(val1, val2)) {
return false;
}
}
if (extension1 || extension2) {
extension1 = extension1 || {};
extension2 = extension2 || {};
return jspb.Message.compareExtensions(extension1, extension2);
}
return true;
}
// If they're both plain Objects (i.e. extensions), compare them as
// extensions.
if (field1.constructor === Object) {
return jspb.Message.compareExtensions(field1, field2);
}
throw new Error('Invalid type in JSPB array');
};
/**
* Static clone function. NOTE: A type-safe method called "cloneMessage" exists
* on each generated JsPb class. Do not call this function directly.
* @param {!jspb.Message} msg A message to clone.
* @return {!jspb.Message} A deep clone of the given message.
*/
jspb.Message.clone = function(msg) {
// Although we could include the wrappers, we leave them out here.
return jspb.Message.cloneMessage(msg);
};
/**
* @param {!jspb.Message} msg A message to clone.
* @return {!jspb.Message} A deep clone of the given message.
* @protected
*/
jspb.Message.cloneMessage = function(msg) {
// Although we could include the wrappers, we leave them out here.
return new msg.constructor(jspb.Message.clone_(msg.toArray()));
};
/**
* Takes 2 messages of the same type and copies the contents of the first
* message into the second. After this the 2 messages will equals in terms of
* value semantics but share no state. All data in the destination message will
* be overridden.
*
* @param {MESSAGE} fromMessage Message that will be copied into toMessage.
* @param {MESSAGE} toMessage Message which will receive a copy of fromMessage
* as its contents.
* @template MESSAGE
*/
jspb.Message.copyInto = function(fromMessage, toMessage) {
goog.asserts.assertInstanceof(fromMessage, jspb.Message);
goog.asserts.assertInstanceof(toMessage, jspb.Message);
goog.asserts.assert(fromMessage.constructor == toMessage.constructor,
'Copy source and target message should have the same type.');
var copyOfFrom = jspb.Message.clone(fromMessage);
var to = toMessage.toArray();
var from = copyOfFrom.toArray();
// Empty destination in case it has more values at the end of the array.
to.length = 0;
// and then copy everything from the new to the existing message.
for (var i = 0; i < from.length; i++) {
to[i] = from[i];
}
// This is either null or empty for a fresh copy.
toMessage.wrappers_ = copyOfFrom.wrappers_;
// Just a reference into the shared array.
toMessage.extensionObject_ = copyOfFrom.extensionObject_;
};
/**
* Helper for cloning an internal JsPb object.
* @param {!Object} obj A JsPb object, eg, a field, to be cloned.
* @return {!Object} A clone of the input object.
* @private
*/
jspb.Message.clone_ = function(obj) {
var o;
if (goog.isArray(obj)) {
// Allocate array of correct size.
var clonedArray = new Array(obj.length);
// Use array iteration where possible because it is faster than for-in.
for (var i = 0; i < obj.length; i++) {
if ((o = obj[i]) != null) {
clonedArray[i] = typeof o == 'object' ? jspb.Message.clone_(o) : o;
}
}
return clonedArray;
}
var clone = {};
for (var key in obj) {
if ((o = obj[key]) != null) {
clone[key] = typeof o == 'object' ? jspb.Message.clone_(o) : o;
}
}
return clone;
};
/**
* Registers a JsPb message type id with its constructor.
* @param {string} id The id for this type of message.
* @param {Function} constructor The message constructor.
*/
jspb.Message.registerMessageType = function(id, constructor) {
jspb.Message.registry_[id] = constructor;
// This is needed so we can later access messageId directly on the contructor,
// otherwise it is not available due to 'property collapsing' by the compiler.
constructor.messageId = id;
};
/**
* The registry of message ids to message constructors.
* @private
*/
jspb.Message.registry_ = {};
/**
* The extensions registered on MessageSet. This is a map of extension
* field number to field info object. This should be considered as a
* private API.
*
* This is similar to [jspb class name].extensions object for
* non-MessageSet. We special case MessageSet so that we do not need
* to goog.require MessageSet from classes that extends MessageSet.
*
* @type {!Object.<number, jspb.ExtensionFieldInfo>}
*/
jspb.Message.messageSetExtensions = {};