2010-11-15 07:39:52 +00:00
/ *
Copyright ( c ) 2004 - 2010 , The Dojo Foundation All Rights Reserved .
Available via Academic Free License >= 2.1 OR the modified BSD license .
see : http : //dojotoolkit.org/license for details
* /
2011-03-04 16:02:28 +00:00
if ( ! dojo . _hasResource [ "dojo.data.ItemFileWriteStore" ] ) { //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo . _hasResource [ "dojo.data.ItemFileWriteStore" ] = true ;
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dojo . provide ( "dojo.data.ItemFileWriteStore" ) ;
dojo . require ( "dojo.data.ItemFileReadStore" ) ;
2011-03-04 16:02:28 +00:00
dojo . declare ( "dojo.data.ItemFileWriteStore" , dojo . data . ItemFileReadStore , {
constructor : function ( /* object */ keywordParameters ) {
// keywordParameters: {typeMap: object)
// The structure of the typeMap object is as follows:
// {
// type0: function || object,
// type1: function || object,
// ...
// typeN: function || object
// }
// Where if it is a function, it is assumed to be an object constructor that takes the
// value of _value as the initialization parameters. It is serialized assuming object.toString()
// serialization. If it is an object, then it is assumed
// to be an object of general form:
// {
// type: function, //constructor.
// deserialize: function(value) //The function that parses the value and constructs the object defined by type appropriately.
// serialize: function(object) //The function that converts the object back into the proper file format form.
// }
// ItemFileWriteStore extends ItemFileReadStore to implement these additional dojo.data APIs
this . _features [ 'dojo.data.api.Write' ] = true ;
this . _features [ 'dojo.data.api.Notification' ] = true ;
// For keeping track of changes so that we can implement isDirty and revert
this . _pending = {
_newItems : { } ,
_modifiedItems : { } ,
_deletedItems : { }
} ;
if ( ! this . _datatypeMap [ 'Date' ] . serialize ) {
this . _datatypeMap [ 'Date' ] . serialize = function ( obj ) {
return dojo . date . stamp . toISOString ( obj , { zulu : true } ) ;
} ;
}
//Disable only if explicitly set to false.
if ( keywordParameters && ( keywordParameters . referenceIntegrity === false ) ) {
this . referenceIntegrity = false ;
}
// this._saveInProgress is set to true, briefly, from when save() is first called to when it completes
this . _saveInProgress = false ;
} ,
referenceIntegrity : true , //Flag that defaultly enabled reference integrity tracking. This way it can also be disabled pogrammatially or declaratively.
_assert : function ( /* boolean */ condition ) {
if ( ! condition ) {
throw new Error ( "assertion failed in ItemFileWriteStore" ) ;
}
} ,
_getIdentifierAttribute : function ( ) {
var identifierAttribute = this . getFeatures ( ) [ 'dojo.data.api.Identity' ] ;
// this._assert((identifierAttribute === Number) || (dojo.isString(identifierAttribute)));
return identifierAttribute ;
} ,
/* dojo.data.api.Write */
newItem : function ( /* Object? */ keywordArgs , /* Object? */ parentInfo ) {
// summary: See dojo.data.api.Write.newItem()
this . _assert ( ! this . _saveInProgress ) ;
if ( ! this . _loadFinished ) {
// We need to do this here so that we'll be able to find out what
// identifierAttribute was specified in the data file.
this . _forceLoad ( ) ;
}
if ( typeof keywordArgs != "object" && typeof keywordArgs != "undefined" ) {
throw new Error ( "newItem() was passed something other than an object" ) ;
}
var newIdentity = null ;
var identifierAttribute = this . _getIdentifierAttribute ( ) ;
if ( identifierAttribute === Number ) {
newIdentity = this . _arrayOfAllItems . length ;
} else {
newIdentity = keywordArgs [ identifierAttribute ] ;
if ( typeof newIdentity === "undefined" ) {
throw new Error ( "newItem() was not passed an identity for the new item" ) ;
}
if ( dojo . isArray ( newIdentity ) ) {
throw new Error ( "newItem() was not passed an single-valued identity" ) ;
}
}
// make sure this identity is not already in use by another item, if identifiers were
// defined in the file. Otherwise it would be the item count,
// which should always be unique in this case.
if ( this . _itemsByIdentity ) {
this . _assert ( typeof this . _itemsByIdentity [ newIdentity ] === "undefined" ) ;
}
this . _assert ( typeof this . _pending . _newItems [ newIdentity ] === "undefined" ) ;
this . _assert ( typeof this . _pending . _deletedItems [ newIdentity ] === "undefined" ) ;
var newItem = { } ;
newItem [ this . _storeRefPropName ] = this ;
newItem [ this . _itemNumPropName ] = this . _arrayOfAllItems . length ;
if ( this . _itemsByIdentity ) {
this . _itemsByIdentity [ newIdentity ] = newItem ;
//We have to set the identifier now, otherwise we can't look it
//up at calls to setValueorValues in parentInfo handling.
newItem [ identifierAttribute ] = [ newIdentity ] ;
}
this . _arrayOfAllItems . push ( newItem ) ;
//We need to construct some data for the onNew call too...
var pInfo = null ;
// Now we need to check to see where we want to assign this thingm if any.
if ( parentInfo && parentInfo . parent && parentInfo . attribute ) {
pInfo = {
item : parentInfo . parent ,
attribute : parentInfo . attribute ,
oldValue : undefined
} ;
//See if it is multi-valued or not and handle appropriately
//Generally, all attributes are multi-valued for this store
//So, we only need to append if there are already values present.
var values = this . getValues ( parentInfo . parent , parentInfo . attribute ) ;
if ( values && values . length > 0 ) {
var tempValues = values . slice ( 0 , values . length ) ;
if ( values . length === 1 ) {
pInfo . oldValue = values [ 0 ] ;
} else {
pInfo . oldValue = values . slice ( 0 , values . length ) ;
}
tempValues . push ( newItem ) ;
this . _setValueOrValues ( parentInfo . parent , parentInfo . attribute , tempValues , false ) ;
pInfo . newValue = this . getValues ( parentInfo . parent , parentInfo . attribute ) ;
} else {
this . _setValueOrValues ( parentInfo . parent , parentInfo . attribute , newItem , false ) ;
pInfo . newValue = newItem ;
}
} else {
//Toplevel item, add to both top list as well as all list.
newItem [ this . _rootItemPropName ] = true ;
this . _arrayOfTopLevelItems . push ( newItem ) ;
}
this . _pending . _newItems [ newIdentity ] = newItem ;
//Clone over the properties to the new item
for ( var key in keywordArgs ) {
if ( key === this . _storeRefPropName || key === this . _itemNumPropName ) {
// Bummer, the user is trying to do something like
// newItem({_S:"foo"}). Unfortunately, our superclass,
// ItemFileReadStore, is already using _S in each of our items
// to hold private info. To avoid a naming collision, we
// need to move all our private info to some other property
// of all the items/objects. So, we need to iterate over all
// the items and do something like:
// item.__S = item._S;
// item._S = undefined;
// But first we have to make sure the new "__S" variable is
// not in use, which means we have to iterate over all the
// items checking for that.
throw new Error ( "encountered bug in ItemFileWriteStore.newItem" ) ;
}
var value = keywordArgs [ key ] ;
if ( ! dojo . isArray ( value ) ) {
value = [ value ] ;
}
newItem [ key ] = value ;
if ( this . referenceIntegrity ) {
for ( var i = 0 ; i < value . length ; i ++ ) {
var val = value [ i ] ;
if ( this . isItem ( val ) ) {
this . _addReferenceToMap ( val , newItem , key ) ;
}
}
}
}
this . onNew ( newItem , pInfo ) ; // dojo.data.api.Notification call
return newItem ; // item
} ,
_removeArrayElement : function ( /* Array */ array , /* anything */ element ) {
var index = dojo . indexOf ( array , element ) ;
if ( index != - 1 ) {
array . splice ( index , 1 ) ;
return true ;
}
return false ;
} ,
deleteItem : function ( /* item */ item ) {
// summary: See dojo.data.api.Write.deleteItem()
this . _assert ( ! this . _saveInProgress ) ;
this . _assertIsItem ( item ) ;
// Remove this item from the _arrayOfAllItems, but leave a null value in place
// of the item, so as not to change the length of the array, so that in newItem()
// we can still safely do: newIdentity = this._arrayOfAllItems.length;
var indexInArrayOfAllItems = item [ this . _itemNumPropName ] ;
var identity = this . getIdentity ( item ) ;
//If we have reference integrity on, we need to do reference cleanup for the deleted item
if ( this . referenceIntegrity ) {
//First scan all the attributes of this items for references and clean them up in the map
//As this item is going away, no need to track its references anymore.
//Get the attributes list before we generate the backup so it
//doesn't pollute the attributes list.
var attributes = this . getAttributes ( item ) ;
//Backup the map, we'll have to restore it potentially, in a revert.
if ( item [ this . _reverseRefMap ] ) {
item [ "backup_" + this . _reverseRefMap ] = dojo . clone ( item [ this . _reverseRefMap ] ) ;
}
//TODO: This causes a reversion problem. This list won't be restored on revert since it is
//attached to the 'value'. item, not ours. Need to back tese up somehow too.
//Maybe build a map of the backup of the entries and attach it to the deleted item to be restored
//later. Or just record them and call _addReferenceToMap on them in revert.
dojo . forEach ( attributes , function ( attribute ) {
dojo . forEach ( this . getValues ( item , attribute ) , function ( value ) {
if ( this . isItem ( value ) ) {
//We have to back up all the references we had to others so they can be restored on a revert.
if ( ! item [ "backupRefs_" + this . _reverseRefMap ] ) {
item [ "backupRefs_" + this . _reverseRefMap ] = [ ] ;
}
item [ "backupRefs_" + this . _reverseRefMap ] . push ( { id : this . getIdentity ( value ) , attr : attribute } ) ;
this . _removeReferenceFromMap ( value , item , attribute ) ;
}
} , this ) ;
} , this ) ;
//Next, see if we have references to this item, if we do, we have to clean them up too.
var references = item [ this . _reverseRefMap ] ;
if ( references ) {
//Look through all the items noted as references to clean them up.
for ( var itemId in references ) {
var containingItem = null ;
if ( this . _itemsByIdentity ) {
containingItem = this . _itemsByIdentity [ itemId ] ;
} else {
containingItem = this . _arrayOfAllItems [ itemId ] ;
}
//We have a reference to a containing item, now we have to process the
//attributes and clear all references to the item being deleted.
if ( containingItem ) {
for ( var attribute in references [ itemId ] ) {
var oldValues = this . getValues ( containingItem , attribute ) || [ ] ;
var newValues = dojo . filter ( oldValues , function ( possibleItem ) {
return ! ( this . isItem ( possibleItem ) && this . getIdentity ( possibleItem ) == identity ) ;
} , this ) ;
//Remove the note of the reference to the item and set the values on the modified attribute.
this . _removeReferenceFromMap ( item , containingItem , attribute ) ;
if ( newValues . length < oldValues . length ) {
this . _setValueOrValues ( containingItem , attribute , newValues , true ) ;
}
}
}
}
}
}
this . _arrayOfAllItems [ indexInArrayOfAllItems ] = null ;
item [ this . _storeRefPropName ] = null ;
if ( this . _itemsByIdentity ) {
delete this . _itemsByIdentity [ identity ] ;
}
this . _pending . _deletedItems [ identity ] = item ;
//Remove from the toplevel items, if necessary...
if ( item [ this . _rootItemPropName ] ) {
this . _removeArrayElement ( this . _arrayOfTopLevelItems , item ) ;
}
this . onDelete ( item ) ; // dojo.data.api.Notification call
return true ;
} ,
setValue : function ( /* item */ item , /* attribute-name-string */ attribute , /* almost anything */ value ) {
// summary: See dojo.data.api.Write.set()
return this . _setValueOrValues ( item , attribute , value , true ) ; // boolean
} ,
setValues : function ( /* item */ item , /* attribute-name-string */ attribute , /* array */ values ) {
// summary: See dojo.data.api.Write.setValues()
return this . _setValueOrValues ( item , attribute , values , true ) ; // boolean
} ,
unsetAttribute : function ( /* item */ item , /* attribute-name-string */ attribute ) {
// summary: See dojo.data.api.Write.unsetAttribute()
return this . _setValueOrValues ( item , attribute , [ ] , true ) ;
} ,
_setValueOrValues : function ( /* item */ item , /* attribute-name-string */ attribute , /* anything */ newValueOrValues , /*boolean?*/ callOnSet ) {
this . _assert ( ! this . _saveInProgress ) ;
// Check for valid arguments
this . _assertIsItem ( item ) ;
this . _assert ( dojo . isString ( attribute ) ) ;
this . _assert ( typeof newValueOrValues !== "undefined" ) ;
// Make sure the user isn't trying to change the item's identity
var identifierAttribute = this . _getIdentifierAttribute ( ) ;
if ( attribute == identifierAttribute ) {
throw new Error ( "ItemFileWriteStore does not have support for changing the value of an item's identifier." ) ;
}
// To implement the Notification API, we need to make a note of what
// the old attribute value was, so that we can pass that info when
// we call the onSet method.
var oldValueOrValues = this . _getValueOrValues ( item , attribute ) ;
var identity = this . getIdentity ( item ) ;
if ( ! this . _pending . _modifiedItems [ identity ] ) {
// Before we actually change the item, we make a copy of it to
// record the original state, so that we'll be able to revert if
// the revert method gets called. If the item has already been
// modified then there's no need to do this now, since we already
// have a record of the original state.
var copyOfItemState = { } ;
for ( var key in item ) {
if ( ( key === this . _storeRefPropName ) || ( key === this . _itemNumPropName ) || ( key === this . _rootItemPropName ) ) {
copyOfItemState [ key ] = item [ key ] ;
} else if ( key === this . _reverseRefMap ) {
copyOfItemState [ key ] = dojo . clone ( item [ key ] ) ;
} else {
copyOfItemState [ key ] = item [ key ] . slice ( 0 , item [ key ] . length ) ;
}
}
// Now mark the item as dirty, and save the copy of the original state
this . _pending . _modifiedItems [ identity ] = copyOfItemState ;
}
// Okay, now we can actually change this attribute on the item
var success = false ;
if ( dojo . isArray ( newValueOrValues ) && newValueOrValues . length === 0 ) {
// If we were passed an empty array as the value, that counts
// as "unsetting" the attribute, so we need to remove this
// attribute from the item.
success = delete item [ attribute ] ;
newValueOrValues = undefined ; // used in the onSet Notification call below
if ( this . referenceIntegrity && oldValueOrValues ) {
var oldValues = oldValueOrValues ;
if ( ! dojo . isArray ( oldValues ) ) {
oldValues = [ oldValues ] ;
}
for ( var i = 0 ; i < oldValues . length ; i ++ ) {
var value = oldValues [ i ] ;
if ( this . isItem ( value ) ) {
this . _removeReferenceFromMap ( value , item , attribute ) ;
}
}
}
} else {
var newValueArray ;
if ( dojo . isArray ( newValueOrValues ) ) {
var newValues = newValueOrValues ;
// Unfortunately, it's not safe to just do this:
// newValueArray = newValues;
// Instead, we need to copy the array, which slice() does very nicely.
// This is so that our internal data structure won't
// get corrupted if the user mucks with the values array *after*
// calling setValues().
newValueArray = newValueOrValues . slice ( 0 , newValueOrValues . length ) ;
} else {
newValueArray = [ newValueOrValues ] ;
}
//We need to handle reference integrity if this is on.
//In the case of set, we need to see if references were added or removed
//and update the reference tracking map accordingly.
if ( this . referenceIntegrity ) {
if ( oldValueOrValues ) {
var oldValues = oldValueOrValues ;
if ( ! dojo . isArray ( oldValues ) ) {
oldValues = [ oldValues ] ;
}
//Use an associative map to determine what was added/removed from the list.
//Should be O(n) performant. First look at all the old values and make a list of them
//Then for any item not in the old list, we add it. If it was already present, we remove it.
//Then we pass over the map and any references left it it need to be removed (IE, no match in
//the new values list).
var map = { } ;
dojo . forEach ( oldValues , function ( possibleItem ) {
if ( this . isItem ( possibleItem ) ) {
var id = this . getIdentity ( possibleItem ) ;
map [ id . toString ( ) ] = true ;
}
} , this ) ;
dojo . forEach ( newValueArray , function ( possibleItem ) {
if ( this . isItem ( possibleItem ) ) {
var id = this . getIdentity ( possibleItem ) ;
if ( map [ id . toString ( ) ] ) {
delete map [ id . toString ( ) ] ;
} else {
this . _addReferenceToMap ( possibleItem , item , attribute ) ;
}
}
} , this ) ;
for ( var rId in map ) {
var removedItem ;
if ( this . _itemsByIdentity ) {
removedItem = this . _itemsByIdentity [ rId ] ;
} else {
removedItem = this . _arrayOfAllItems [ rId ] ;
}
this . _removeReferenceFromMap ( removedItem , item , attribute ) ;
}
} else {
//Everything is new (no old values) so we have to just
//insert all the references, if any.
for ( var i = 0 ; i < newValueArray . length ; i ++ ) {
var value = newValueArray [ i ] ;
if ( this . isItem ( value ) ) {
this . _addReferenceToMap ( value , item , attribute ) ;
}
}
}
}
item [ attribute ] = newValueArray ;
success = true ;
}
// Now we make the dojo.data.api.Notification call
if ( callOnSet ) {
this . onSet ( item , attribute , oldValueOrValues , newValueOrValues ) ;
}
return success ; // boolean
} ,
_addReferenceToMap : function ( /*item*/ refItem , /*item*/ parentItem , /*string*/ attribute ) {
// summary:
// Method to add an reference map entry for an item and attribute.
// description:
// Method to add an reference map entry for an item and attribute. //
// refItem:
// The item that is referenced.
// parentItem:
// The item that holds the new reference to refItem.
// attribute:
// The attribute on parentItem that contains the new reference.
var parentId = this . getIdentity ( parentItem ) ;
var references = refItem [ this . _reverseRefMap ] ;
if ( ! references ) {
references = refItem [ this . _reverseRefMap ] = { } ;
}
var itemRef = references [ parentId ] ;
if ( ! itemRef ) {
itemRef = references [ parentId ] = { } ;
}
itemRef [ attribute ] = true ;
} ,
_removeReferenceFromMap : function ( /* item */ refItem , /* item */ parentItem , /*strin*/ attribute ) {
// summary:
// Method to remove an reference map entry for an item and attribute.
// description:
// Method to remove an reference map entry for an item and attribute. This will
// also perform cleanup on the map such that if there are no more references at all to
// the item, its reference object and entry are removed.
//
// refItem:
// The item that is referenced.
// parentItem:
// The item holding a reference to refItem.
// attribute:
// The attribute on parentItem that contains the reference.
var identity = this . getIdentity ( parentItem ) ;
var references = refItem [ this . _reverseRefMap ] ;
var itemId ;
if ( references ) {
for ( itemId in references ) {
if ( itemId == identity ) {
delete references [ itemId ] [ attribute ] ;
if ( this . _isEmpty ( references [ itemId ] ) ) {
delete references [ itemId ] ;
}
}
}
if ( this . _isEmpty ( references ) ) {
delete refItem [ this . _reverseRefMap ] ;
}
}
} ,
_dumpReferenceMap : function ( ) {
// summary:
// Function to dump the reverse reference map of all items in the store for debug purposes.
// description:
// Function to dump the reverse reference map of all items in the store for debug purposes.
var i ;
for ( i = 0 ; i < this . _arrayOfAllItems . length ; i ++ ) {
var item = this . _arrayOfAllItems [ i ] ;
if ( item && item [ this . _reverseRefMap ] ) {
console . log ( "Item: [" + this . getIdentity ( item ) + "] is referenced by: " + dojo . toJson ( item [ this . _reverseRefMap ] ) ) ;
}
}
} ,
_getValueOrValues : function ( /* item */ item , /* attribute-name-string */ attribute ) {
var valueOrValues = undefined ;
if ( this . hasAttribute ( item , attribute ) ) {
var valueArray = this . getValues ( item , attribute ) ;
if ( valueArray . length == 1 ) {
valueOrValues = valueArray [ 0 ] ;
} else {
valueOrValues = valueArray ;
}
}
return valueOrValues ;
} ,
_flatten : function ( /* anything */ value ) {
if ( this . isItem ( value ) ) {
var item = value ;
// Given an item, return an serializable object that provides a
// reference to the item.
// For example, given kermit:
// var kermit = store.newItem({id:2, name:"Kermit"});
// we want to return
// {_reference:2}
var identity = this . getIdentity ( item ) ;
var referenceObject = { _reference : identity } ;
return referenceObject ;
} else {
if ( typeof value === "object" ) {
for ( var type in this . _datatypeMap ) {
var typeMap = this . _datatypeMap [ type ] ;
if ( dojo . isObject ( typeMap ) && ! dojo . isFunction ( typeMap ) ) {
if ( value instanceof typeMap . type ) {
if ( ! typeMap . serialize ) {
throw new Error ( "ItemFileWriteStore: No serializer defined for type mapping: [" + type + "]" ) ;
}
return { _type : type , _value : typeMap . serialize ( value ) } ;
}
} else if ( value instanceof typeMap ) {
//SImple mapping, therefore, return as a toString serialization.
return { _type : type , _value : value . toString ( ) } ;
}
}
}
return value ;
}
} ,
_getNewFileContentString : function ( ) {
// summary:
// Generate a string that can be saved to a file.
// The result should look similar to:
// http://trac.dojotoolkit.org/browser/dojo/trunk/tests/data/countries.json
var serializableStructure = { } ;
var identifierAttribute = this . _getIdentifierAttribute ( ) ;
if ( identifierAttribute !== Number ) {
serializableStructure . identifier = identifierAttribute ;
}
if ( this . _labelAttr ) {
serializableStructure . label = this . _labelAttr ;
}
serializableStructure . items = [ ] ;
for ( var i = 0 ; i < this . _arrayOfAllItems . length ; ++ i ) {
var item = this . _arrayOfAllItems [ i ] ;
if ( item !== null ) {
var serializableItem = { } ;
for ( var key in item ) {
if ( key !== this . _storeRefPropName && key !== this . _itemNumPropName && key !== this . _reverseRefMap && key !== this . _rootItemPropName ) {
var attribute = key ;
var valueArray = this . getValues ( item , attribute ) ;
if ( valueArray . length == 1 ) {
serializableItem [ attribute ] = this . _flatten ( valueArray [ 0 ] ) ;
} else {
var serializableArray = [ ] ;
for ( var j = 0 ; j < valueArray . length ; ++ j ) {
serializableArray . push ( this . _flatten ( valueArray [ j ] ) ) ;
serializableItem [ attribute ] = serializableArray ;
}
}
}
}
serializableStructure . items . push ( serializableItem ) ;
}
}
var prettyPrint = true ;
return dojo . toJson ( serializableStructure , prettyPrint ) ;
} ,
_isEmpty : function ( something ) {
// summary:
// Function to determine if an array or object has no properties or values.
// something:
// The array or object to examine.
var empty = true ;
if ( dojo . isObject ( something ) ) {
var i ;
for ( i in something ) {
empty = false ;
break ;
}
} else if ( dojo . isArray ( something ) ) {
if ( something . length > 0 ) {
empty = false ;
}
}
return empty ; //boolean
} ,
save : function ( /* object */ keywordArgs ) {
// summary: See dojo.data.api.Write.save()
this . _assert ( ! this . _saveInProgress ) ;
// this._saveInProgress is set to true, briefly, from when save is first called to when it completes
this . _saveInProgress = true ;
var self = this ;
var saveCompleteCallback = function ( ) {
self . _pending = {
_newItems : { } ,
_modifiedItems : { } ,
_deletedItems : { }
} ;
self . _saveInProgress = false ; // must come after this._pending is cleared, but before any callbacks
if ( keywordArgs && keywordArgs . onComplete ) {
var scope = keywordArgs . scope || dojo . global ;
keywordArgs . onComplete . call ( scope ) ;
}
} ;
var saveFailedCallback = function ( err ) {
self . _saveInProgress = false ;
if ( keywordArgs && keywordArgs . onError ) {
var scope = keywordArgs . scope || dojo . global ;
keywordArgs . onError . call ( scope , err ) ;
}
} ;
if ( this . _saveEverything ) {
var newFileContentString = this . _getNewFileContentString ( ) ;
this . _saveEverything ( saveCompleteCallback , saveFailedCallback , newFileContentString ) ;
}
if ( this . _saveCustom ) {
this . _saveCustom ( saveCompleteCallback , saveFailedCallback ) ;
}
if ( ! this . _saveEverything && ! this . _saveCustom ) {
// Looks like there is no user-defined save-handler function.
// That's fine, it just means the datastore is acting as a "mock-write"
// store -- changes get saved in memory but don't get saved to disk.
saveCompleteCallback ( ) ;
}
} ,
revert : function ( ) {
// summary: See dojo.data.api.Write.revert()
this . _assert ( ! this . _saveInProgress ) ;
var identity ;
for ( identity in this . _pending . _modifiedItems ) {
// find the original item and the modified item that replaced it
var copyOfItemState = this . _pending . _modifiedItems [ identity ] ;
var modifiedItem = null ;
if ( this . _itemsByIdentity ) {
modifiedItem = this . _itemsByIdentity [ identity ] ;
} else {
modifiedItem = this . _arrayOfAllItems [ identity ] ;
}
// Restore the original item into a full-fledged item again, we want to try to
// keep the same object instance as if we don't it, causes bugs like #9022.
copyOfItemState [ this . _storeRefPropName ] = this ;
for ( key in modifiedItem ) {
delete modifiedItem [ key ] ;
}
dojo . mixin ( modifiedItem , copyOfItemState ) ;
}
var deletedItem ;
for ( identity in this . _pending . _deletedItems ) {
deletedItem = this . _pending . _deletedItems [ identity ] ;
deletedItem [ this . _storeRefPropName ] = this ;
var index = deletedItem [ this . _itemNumPropName ] ;
//Restore the reverse refererence map, if any.
if ( deletedItem [ "backup_" + this . _reverseRefMap ] ) {
deletedItem [ this . _reverseRefMap ] = deletedItem [ "backup_" + this . _reverseRefMap ] ;
delete deletedItem [ "backup_" + this . _reverseRefMap ] ;
}
this . _arrayOfAllItems [ index ] = deletedItem ;
if ( this . _itemsByIdentity ) {
this . _itemsByIdentity [ identity ] = deletedItem ;
}
if ( deletedItem [ this . _rootItemPropName ] ) {
this . _arrayOfTopLevelItems . push ( deletedItem ) ;
}
}
//We have to pass through it again and restore the reference maps after all the
//undeletes have occurred.
for ( identity in this . _pending . _deletedItems ) {
deletedItem = this . _pending . _deletedItems [ identity ] ;
if ( deletedItem [ "backupRefs_" + this . _reverseRefMap ] ) {
dojo . forEach ( deletedItem [ "backupRefs_" + this . _reverseRefMap ] , function ( reference ) {
var refItem ;
if ( this . _itemsByIdentity ) {
refItem = this . _itemsByIdentity [ reference . id ] ;
} else {
refItem = this . _arrayOfAllItems [ reference . id ] ;
}
this . _addReferenceToMap ( refItem , deletedItem , reference . attr ) ;
} , this ) ;
delete deletedItem [ "backupRefs_" + this . _reverseRefMap ] ;
}
}
for ( identity in this . _pending . _newItems ) {
var newItem = this . _pending . _newItems [ identity ] ;
newItem [ this . _storeRefPropName ] = null ;
// null out the new item, but don't change the array index so
// so we can keep using _arrayOfAllItems.length.
this . _arrayOfAllItems [ newItem [ this . _itemNumPropName ] ] = null ;
if ( newItem [ this . _rootItemPropName ] ) {
this . _removeArrayElement ( this . _arrayOfTopLevelItems , newItem ) ;
}
if ( this . _itemsByIdentity ) {
delete this . _itemsByIdentity [ identity ] ;
}
}
this . _pending = {
_newItems : { } ,
_modifiedItems : { } ,
_deletedItems : { }
} ;
return true ; // boolean
} ,
isDirty : function ( /* item? */ item ) {
// summary: See dojo.data.api.Write.isDirty()
if ( item ) {
// return true if the item is dirty
var identity = this . getIdentity ( item ) ;
return new Boolean ( this . _pending . _newItems [ identity ] ||
this . _pending . _modifiedItems [ identity ] ||
this . _pending . _deletedItems [ identity ] ) . valueOf ( ) ; // boolean
} else {
// return true if the store is dirty -- which means return true
// if there are any new items, dirty items, or modified items
if ( ! this . _isEmpty ( this . _pending . _newItems ) ||
! this . _isEmpty ( this . _pending . _modifiedItems ) ||
! this . _isEmpty ( this . _pending . _deletedItems ) ) {
return true ;
}
return false ; // boolean
}
} ,
/* dojo.data.api.Notification */
onSet : function ( /* item */ item ,
/*attribute-name-string*/ attribute ,
/*object | array*/ oldValue ,
/*object | array*/ newValue ) {
// summary: See dojo.data.api.Notification.onSet()
// No need to do anything. This method is here just so that the
// client code can connect observers to it.
} ,
onNew : function ( /* item */ newItem , /*object?*/ parentInfo ) {
// summary: See dojo.data.api.Notification.onNew()
// No need to do anything. This method is here just so that the
// client code can connect observers to it.
} ,
onDelete : function ( /* item */ deletedItem ) {
// summary: See dojo.data.api.Notification.onDelete()
// No need to do anything. This method is here just so that the
// client code can connect observers to it.
} ,
close : function ( /* object? */ request ) {
// summary:
// Over-ride of base close function of ItemFileReadStore to add in check for store state.
// description:
// Over-ride of base close function of ItemFileReadStore to add in check for store state.
// If the store is still dirty (unsaved changes), then an error will be thrown instead of
// clearing the internal state for reload from the url.
//Clear if not dirty ... or throw an error
if ( this . clearOnClose ) {
if ( ! this . isDirty ( ) ) {
this . inherited ( arguments ) ;
} else {
//Only throw an error if the store was dirty and we were loading from a url (cannot reload from url until state is saved).
throw new Error ( "dojo.data.ItemFileWriteStore: There are unsaved changes present in the store. Please save or revert the changes before invoking close." ) ;
}
}
}
} ) ;
2010-11-15 07:39:52 +00:00
}