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241 lines
11 KiB
JavaScript
241 lines
11 KiB
JavaScript
define("dojo/data/util/simpleFetch", ["../../_base/lang", "../../_base/kernel", "./sorter"],
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function(lang, kernel, sorter){
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// module:
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// dojo/data/util/simpleFetch
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// summary:
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// The simpleFetch mixin is designed to serve as a set of function(s) that can
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// be mixed into other datastore implementations to accelerate their development.
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var simpleFetch = {};
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lang.setObject("dojo.data.util.simpleFetch", simpleFetch);
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simpleFetch.errorHandler = function(/*Object*/ errorData, /*Object*/ requestObject){
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// summary:
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// The error handler when there is an error fetching items. This function should not be called
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// directly and is used by simpleFetch.fetch().
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if(requestObject.onError){
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var scope = requestObject.scope || kernel.global;
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requestObject.onError.call(scope, errorData, requestObject);
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}
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};
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simpleFetch.fetchHandler = function(/*Array*/ items, /*Object*/ requestObject){
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// summary:
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// The handler when items are sucessfully fetched. This function should not be called directly
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// and is used by simpleFetch.fetch().
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var oldAbortFunction = requestObject.abort || null,
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aborted = false,
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startIndex = requestObject.start?requestObject.start: 0,
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endIndex = (requestObject.count && (requestObject.count !== Infinity))?(startIndex + requestObject.count):items.length;
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requestObject.abort = function(){
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aborted = true;
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if(oldAbortFunction){
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oldAbortFunction.call(requestObject);
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}
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};
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var scope = requestObject.scope || kernel.global;
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if(!requestObject.store){
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requestObject.store = this;
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}
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if(requestObject.onBegin){
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requestObject.onBegin.call(scope, items.length, requestObject);
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}
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if(requestObject.sort){
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items.sort(sorter.createSortFunction(requestObject.sort, this));
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}
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if(requestObject.onItem){
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for(var i = startIndex; (i < items.length) && (i < endIndex); ++i){
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var item = items[i];
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if(!aborted){
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requestObject.onItem.call(scope, item, requestObject);
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}
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}
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}
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if(requestObject.onComplete && !aborted){
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var subset = null;
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if(!requestObject.onItem){
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subset = items.slice(startIndex, endIndex);
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}
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requestObject.onComplete.call(scope, subset, requestObject);
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}
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};
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simpleFetch.fetch = function(/* Object? */ request){
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// summary:
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// The simpleFetch mixin is designed to serve as a set of function(s) that can
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// be mixed into other datastore implementations to accelerate their development.
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// description:
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// The simpleFetch mixin should work well for any datastore that can respond to a _fetchItems()
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// call by returning an array of all the found items that matched the query. The simpleFetch mixin
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// is not designed to work for datastores that respond to a fetch() call by incrementally
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// loading items, or sequentially loading partial batches of the result
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// set. For datastores that mixin simpleFetch, simpleFetch
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// implements a fetch method that automatically handles eight of the fetch()
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// arguments -- onBegin, onItem, onComplete, onError, start, count, sort and scope
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// The class mixing in simpleFetch should not implement fetch(),
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// but should instead implement a _fetchItems() method. The _fetchItems()
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// method takes three arguments, the keywordArgs object that was passed
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// to fetch(), a callback function to be called when the result array is
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// available, and an error callback to be called if something goes wrong.
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// The _fetchItems() method should ignore any keywordArgs parameters for
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// start, count, onBegin, onItem, onComplete, onError, sort, and scope.
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// The _fetchItems() method needs to correctly handle any other keywordArgs
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// parameters, including the query parameter and any optional parameters
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// (such as includeChildren). The _fetchItems() method should create an array of
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// result items and pass it to the fetchHandler along with the original request object --
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// or, the _fetchItems() method may, if it wants to, create an new request object
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// with other specifics about the request that are specific to the datastore and pass
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// that as the request object to the handler.
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//
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// For more information on this specific function, see dojo/data/api/Read.fetch()
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//
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// request:
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// The keywordArgs parameter may either be an instance of
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// conforming to dojo/data/api/Request or may be a simple anonymous object
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// that may contain any of the following:
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// | {
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// | query: query-object or query-string,
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// | queryOptions: object,
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// | onBegin: Function,
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// | onItem: Function,
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// | onComplete: Function,
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// | onError: Function,
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// | scope: object,
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// | start: int
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// | count: int
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// | sort: array
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// | }
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// All implementations should accept keywordArgs objects with any of
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// the 9 standard properties: query, onBegin, onItem, onComplete, onError
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// scope, sort, start, and count. Some implementations may accept additional
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// properties in the keywordArgs object as valid parameters, such as
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// {includeOutliers:true}.
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//
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// ####The *query* parameter
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//
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// The query may be optional in some data store implementations.
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// The dojo/data/api/Read API does not specify the syntax or semantics
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// of the query itself -- each different data store implementation
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// may have its own notion of what a query should look like.
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// However, as of dojo 0.9, 1.0, and 1.1, all the provided datastores in dojo.data
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// and dojox.data support an object structure query, where the object is a set of
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// name/value parameters such as { attrFoo: valueBar, attrFoo1: valueBar1}. Most of the
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// dijit widgets, such as ComboBox assume this to be the case when working with a datastore
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// when they dynamically update the query. Therefore, for maximum compatibility with dijit
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// widgets the recommended query parameter is a key/value object. That does not mean that the
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// the datastore may not take alternative query forms, such as a simple string, a Date, a number,
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// or a mix of such. Ultimately, The dojo/data/api/Read API is agnostic about what the query
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// format.
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//
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// Further note: In general for query objects that accept strings as attribute
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// value matches, the store should also support basic filtering capability, such as *
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// (match any character) and ? (match single character). An example query that is a query object
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// would be like: { attrFoo: "value*"}. Which generally means match all items where they have
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// an attribute named attrFoo, with a value that starts with 'value'.
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//
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// ####The *queryOptions* parameter
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//
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// The queryOptions parameter is an optional parameter used to specify options that may modify
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// the query in some fashion, such as doing a case insensitive search, or doing a deep search
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// where all items in a hierarchical representation of data are scanned instead of just the root
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// items. It currently defines two options that all datastores should attempt to honor if possible:
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// | {
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// | ignoreCase: boolean, // Whether or not the query should match case sensitively or not. Default behaviour is false.
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// | deep: boolean // Whether or not a fetch should do a deep search of items and all child
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// | // items instead of just root-level items in a datastore. Default is false.
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// | }
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//
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// ####The *onBegin* parameter.
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//
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// function(size, request);
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// If an onBegin callback function is provided, the callback function
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// will be called just once, before the first onItem callback is called.
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// The onBegin callback function will be passed two arguments, the
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// the total number of items identified and the Request object. If the total number is
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// unknown, then size will be -1. Note that size is not necessarily the size of the
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// collection of items returned from the query, as the request may have specified to return only a
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// subset of the total set of items through the use of the start and count parameters.
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//
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// ####The *onItem* parameter.
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//
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// function(item, request);
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//
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// If an onItem callback function is provided, the callback function
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// will be called as each item in the result is received. The callback
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// function will be passed two arguments: the item itself, and the
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// Request object.
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//
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// ####The *onComplete* parameter.
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//
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// function(items, request);
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//
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// If an onComplete callback function is provided, the callback function
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// will be called just once, after the last onItem callback is called.
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// Note that if the onItem callback is not present, then onComplete will be passed
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// an array containing all items which matched the query and the request object.
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// If the onItem callback is present, then onComplete is called as:
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// onComplete(null, request).
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//
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// ####The *onError* parameter.
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//
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// function(errorData, request);
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//
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// If an onError callback function is provided, the callback function
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// will be called if there is any sort of error while attempting to
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// execute the query.
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// The onError callback function will be passed two arguments:
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// an Error object and the Request object.
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//
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// ####The *scope* parameter.
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//
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// If a scope object is provided, all of the callback functions (onItem,
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// onComplete, onError, etc) will be invoked in the context of the scope
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// object. In the body of the callback function, the value of the "this"
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// keyword will be the scope object. If no scope object is provided,
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// the callback functions will be called in the context of dojo.global().
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// For example, onItem.call(scope, item, request) vs.
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// onItem.call(dojo.global(), item, request)
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//
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// ####The *start* parameter.
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//
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// If a start parameter is specified, this is a indication to the datastore to
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// only start returning items once the start number of items have been located and
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// skipped. When this parameter is paired with 'count', the store should be able
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// to page across queries with millions of hits by only returning subsets of the
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// hits for each query
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//
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// ####The *count* parameter.
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//
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// If a count parameter is specified, this is a indication to the datastore to
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// only return up to that many items. This allows a fetch call that may have
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// millions of item matches to be paired down to something reasonable.
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//
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// ####The *sort* parameter.
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//
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// If a sort parameter is specified, this is a indication to the datastore to
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// sort the items in some manner before returning the items. The array is an array of
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// javascript objects that must conform to the following format to be applied to the
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// fetching of items:
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// | {
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// | attribute: attribute || attribute-name-string,
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// | descending: true|false; // Optional. Default is false.
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// | }
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// Note that when comparing attributes, if an item contains no value for the attribute
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// (undefined), then it the default ascending sort logic should push it to the bottom
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// of the list. In the descending order case, it such items should appear at the top of the list.
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request = request || {};
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if(!request.store){
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request.store = this;
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}
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this._fetchItems(request, lang.hitch(this, "fetchHandler"), lang.hitch(this, "errorHandler"));
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return request; // Object
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};
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return simpleFetch;
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});
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