constructor(sourceCollection?: Array<(Partial | T)>, options?: any): CollectionView
Initializes a new instance of the CollectionView class.
Array that serves as a source for this CollectionView.
JavaScript object containing initialization data for the control.
Gets or sets an object where the keys represent calculated fields and the values are expressions (functions or strings).
Calculated fields require proxies. To use them in IE11, you will need a polyfill such as this one: https://www.npmjs.com/package/proxy-polyfill.
Calculated fields can be useful when dealing with external data. For example, you could add a per-capita income field (gnp/pop) or a profit field (revenue-expenses).
Calculated fields are dynamic. If you change the fields used in the calculation, their values are updated automatically. They are also read-only. You may change the value of the properties used to calculate them, but you cannot directly edit the result.
Unlike FlexGrid cellTemplates, calculated fields can be used for sorting, filtering, and grouping. They can also be used with charts and any other Wijmo controls.
Calculated fields can be defined as functions that take a data item as an argument or as strings.
For example, if your data looked like this:
// regular data item
interface IDataItem {
product: string,
brand: string,
unitPrice: number,
qty: number,
shipped: boolean
}
function getData(): IDataItem[] {
return [
{
product: 'Banana',
brand: 'Chiquita',
unitPrice: 45.95,
qty: 12,
discount: .08,
shipped: true
}, ...
]
}
You could add function-based calculated fields this way:
// add calculated properties to IDataItem
interface ICalcDataItem extends IDataItem {
fullName: string;
allCaps: string;
totalPrice: number,
tax: number;
}
let cv = new CollectionView(getData(), {
calculatedFields: {
fullName: ($: ICalcDataItem) => [$.brand, $.product].join(' '),
allCaps: ($: ICalcDataItem) => $.fullName.toUpperCase(),
totalPrice: ($: ICalcDataItem) => ($.unitPrice * $.qty) * (1 - $.discount),
tax: ($: ICalcDataItem) => $.totalPrice * 0.12
}
});
**Function-based calculated fields** are usually a better choice than string-based calculated fields because:
1) They provide design-time error checking and command completion, 2) They run faster, and 3) They do not have any issues with content-security policy (CSP).
Alternatively, you could add string-based calculated fields:
let cv = new CollectionView(getData(), {
calculatedFields: {
fullName: '[$.brand, $.product].join(" ")',
allCaps: '$.fullNameStr.toUpperCase()',
totalPrice: '($.unitPrice * $.qty) * (1 - $.discount)',
tax: '$.totalPrice * 0.12'
});
String expressions may refer to the current item via the context variable '$', which contains the item's original and calculated values.
**String-based calculated fields** have advantages over function-based calculated fields that may be important in some scenarios:
1) They are slightly more concise, and 2) They can be stored as data and easily changed at run-time.
Gets a value that indicates whether a new item can be added to the collection.
Gets a value that indicates whether the collection view can discard pending changes and restore the original values of an edited object.
Gets a value that indicates whether this view supports filtering via the filter property.
This property does not affect the filters property, which are always applied.
Gets a value that indicates whether this view supports grouping via the groupDescriptions property.
Gets a value that indicates whether items can be removed from the collection.
Gets a value that indicates whether this view supports sorting via the sortDescriptions property.
Gets the item that is being added during the current add transaction.
Gets the item that is being edited during the current edit transaction.
Gets or sets the current item in the view.
Gets or sets a callback used to determine if an item is suitable for inclusion in the view.
The callback should return true if the item passed in as a parameter should be included in the view.
The default value for this property is **null**, which means the data is not filtered.
Gets an array of IPredicate functions used as filters on this CollectionView.
To be included in the view, an item has to pass the predicate in the filter property as well as all predicates in the filters collection.
Gets or sets a callback that determines whether a specific property of an item contains validation errors.
The method takes as parameters a data item, the property being validated, and a parsing parameter that describes whether the data has already been parsed and applied to the data item (parsing == false), or whether the user was trying to edit the value and entered a value that could not be parsed into the data type expected (parsing == true).
The method returns a string containing an error message, or null if no errors were detected.
For example,
view = new CollectionView(data, {
getError: (item: any, prop: string, parsing: boolean) => {
// parsing failed, show message
if (parsing) {
if (prop == 'date') {
return 'Please enter a valid date in the format "MM/dd/yyyy"';
} else if (prop == 'id') {
return 'Please enter a positive number';
}
}
// check that stored (parsed) data is valid
if (prop == 'date' && item.date < minDate) {
return 'Please enter a date after ' + Globalize.formatDate(minDate, 'd');
} else if (prop == 'id' && item.id < 0) {
return 'Please enter a positive number';
}
}
});
Gets a collection of GroupDescription objects that describe how the items in the collection are grouped in the view.
Gets an array of CollectionViewGroup objects that represents the top-level groups.
Gets a value that indicates whether notifications are currently suspended (see beginUpdate and endUpdate).
Gets items in the view.
Gets an ObservableArray containing the records that were added to the collection since trackChanges was enabled.
Gets an ObservableArray containing the records that were edited in the collection since trackChanges was enabled.
Gets an ObservableArray containing the records that were removed from the collection since trackChanges was enabled.
Gets or sets a function that creates new items for the collection.
If the creator function is not supplied, the CollectionView will try to create an uninitialized item of the appropriate type.
If the creator function is supplied, it should be a function that takes no parameters and returns an initialized object of the proper type for the collection.
Gets or sets the number of items to display on each page.
The default value for this property is **zero**, which disables paging.
Gets or sets a value that determines whether the CollectionView should automatically refresh its results (by applying the sort, filter, and grouping operations) after items are edited.
The default value for this property is **true**, which ensures the collection is always sorted, filtered, and grouped correctly after any edit operations.
Set it to **false** if you want updates to be deferred when items are edited. In this case, the collection will not be refreshed until the sorting, filtering, and grouping criteria change or until the refresh method is called (Excel behavior).
Gets or sets a function used to compare values when sorting.
If provided, the sort comparer function should take as parameters two values of any type, and should return -1, 0, or +1 to indicate whether the first value is smaller than, equal to, or greater than the second. If the sort comparer returns null, the standard built-in comparer is used.
This sortComparer property allows you to use custom comparison algorithms that in some cases result in sorting sequences that are more consistent with user's expectations than plain string comparisons.
For example, see Dave Koele's Alphanum algorithm. It breaks up strings into chunks composed of strings or numbers, then sorts number chunks in value order and string chunks in ASCII order. Dave calls the result a "natural sorting order".
The example below shows a typical use for the sortComparer property:
import { CollectionView, isString } from '@mescius/wijmo';
// create a CollectionView with a custom sort comparer
const view = new CollectionView(data, {
sortComparer: (a: any, b: any) => {
return isString(a) && isString(b)
? alphanum(a, b) // use custom comparer for strings
: null; // use default comparer for everything else
}
});
The example below shows how you can use an Intl.Collator to control the sort order:
import { CollectionView, isString } from '@mescius/wijmo';
// create a CollectionView that uses an Intl.Collator to sort
const collator = window.Intl ? new Intl.Collator() : null;
let view = new CollectionView(data, {
sortComparer: (a, b) => {
return isString(a) && isString(b) && collator
? collator.compare(a, b) // use collator for strings
: null; // use default comparer for everything else
}
});
Gets or sets a function used to convert values when sorting.
If provided, the function should take as parameters a SortDescription, a data item, and a value to convert, and should return the converted value.
This property provides a way to customize sorting. For example, the FlexGrid control uses it to sort mapped columns by display value instead of by raw value.
For example, the code below causes a CollectionView to sort the 'country' property, which contains country code integers, using the corresponding country names:
const countries = 'US,Germany,UK,Japan,Italy,Greece'.split(',');
view.sortConverter = (sd: SortDescription, item: any, value: any) => {
return sd.property === 'countryMapped'
? countries[value]; // convert country id into name
: value;
}
The next example combines two values so when sorting by country, the view will break ties by city:
view.sortConverter: (sd: SortDescription, item: any, value: any) => {
if (sd.property == 'country') {
value = item.country + '\t' + item.city;
}
return value;
}
Gets an array of SortDescription objects that describe how the items in the collection are sorted in the view.
Gets or sets a value that determines how null values should be sorted.
This property is set to **SortNulls.Last** by default, which causes null values to appear last on the sorted collection, regardless of sort direction. This is also the default behavior in Excel.
Gets or sets the underlying (unfiltered and unsorted) collection.
Gets or sets a value that determines whether the control should track changes to the data.
The default value for this property is **false**, so the CollectionView does not keep track of which data items have changed.
If you set this property to **true**, the CollectionView will keep track of changes to the data and will expose them through the itemsAdded, itemsRemoved, and itemsEdited collections.
Tracking changes is useful in situations where you need to update the server after the user has confirmed that the modifications are valid.
After committing or cancelling changes, use the clearChanges method to clear the itemsAdded, itemsRemoved, and itemsEdited collections.
The CollectionView only tracks changes made when the proper CollectionView methods are used (editItem/commitEdit, addNew/commitNew, and remove). Changes made directly to the data are not tracked.
Gets or sets whether to use a stable sort algorithm.
Stable sorting algorithms maintain the relative order of records with equal keys. For example, consider a collection of objects with an "Amount" field. If you sort the collection by "Amount", a stable sort will keep the original order of records with the same Amount value.
The default value for this property is **false**, which causes the CollectionView to use JavaScript's built-in sort method, which is fast and usually stable.
Chrome provides stable sorting since version 70, and Firefox since version 3. As of ES2019, sort is **required** to be stable. In ECMAScript 1st edition through ES2018, it was allowed to be unstable.
Setting the useStableSort property to true ensures stable sorts on all browsers (even IE 11), but increases sort times by 30% to 50%.
addNew(item?: (Partial | T), commit): void
Adds a new item to the collection.
Calling this methods without any parameters creates a new item, adds it to the collection, and defers refresh operations until the new item is committed using the commitNew method or canceled using the cancelNew method.
The code below shows how the addNew method is typically used:
// create the new item, add it to the collection
var newItem = view.addNew();
// initialize the new item
newItem.id = getFreshId();
newItem.name = 'New Customer';
// commit the new item so the view can be refreshed
view.commitNew();
You can also add new items by pushing them into the sourceCollection and then calling the refresh method. The main advantage of addNew is in user-interactive scenarios (like adding new items in a data grid), because it gives users the ability to cancel the add operation. It also prevents the new item from being sorted or filtered out of view until the transaction is committed.
New items are empty objects by default, unless the colletion has calculatedFields, in which case the new items will have properties set to values that depend on their data types (empty strings for string properties, zero for numeric properties, and null for other data types).
This behavior is convenient since in many cases the calculated fields depend on expressions that rely on strings not being null. But you can customize this behavior by setting the newItemCreator property to a function that creates the new items and initializes them in any way you want.
Item to be added to the collection (optional).
cancelEdit(): void
Ends the current edit transaction and, if possible, restores the original value to the item.
cancelNew(): void
Ends the current add transaction and discards the pending new item.
clearChanges(): void
Clears all changes by removing all items in the itemsAdded, itemsRemoved, and itemsEdited collections.
Call this method after committing changes to the server or after refreshing the data from the server.
commitEdit(): void
Ends the current edit transaction and saves the pending changes.
commitNew(): void
Ends the current add transaction and saves the pending new item.
contains(item: T): boolean
Returns a value indicating whether a given item belongs to this view.
Item to seek.
deferUpdate(fn: Function, force?: boolean): void
Executes a function within a beginUpdate/endUpdate block.
The collection will not be refreshed until the function finishes.
The deferUpdate method ensures endUpdate is called even if the update function throws an exception.
Function to be executed without updates.
Whether to force a refresh when ending the update.
editItem(item: T): void
Begins an edit transaction of the specified item.
Item to be edited.
endUpdate(force?: boolean): void
Resume refreshes suspended by a call to beginUpdate.
Whether to force a refresh when ending the update.
getAggregate(aggType: Aggregate, binding: string, currentPage?: boolean): void
Calculates an aggregate value for the items in this collection.
Type of aggregate to calculate.
Property to aggregate on.
Whether to include only items on the current page.
implementsInterface(interfaceName: string): boolean
Returns true if this object supports a given interface.
Name of the interface to look for.
moveCurrentTo(item: (Partial | T)): boolean
Sets the specified item to be the current item in the view.
Item that will become current.
moveCurrentToFirst(): boolean
Sets the first item in the view as the current item.
moveCurrentToLast(): boolean
Sets the last item in the view as the current item.
moveCurrentToNext(): boolean
Sets the item after the current item in the view as the current item.
moveCurrentToPosition(index: number): boolean
Sets the item at the specified index in the view as the current item.
Index of the item that will become current.
moveCurrentToPrevious(): boolean
Sets the item before the current item in the view as the current item.
moveToPage(index: number): boolean
Moves to the page at the specified index.
Index of the page to move to.
moveToPreviousPage(): boolean
Moves to the page before the current page.
onCollectionChanged(e?: NotifyCollectionChangedEventArgs, clone?: any): void
Raises the collectionChanged event.
Contains a description of the change.
onCurrentChanged(e?: EventArgs): void
Raises the currentChanged event.
onCurrentChanging(e: CancelEventArgs): boolean
Raises the currentChanging event.
CancelEventArgs that contains the event data.
onPageChanged(e?: EventArgs): void
Raises the pageChanged event.
onPageChanging(e: PageChangingEventArgs): boolean
Raises the pageChanging event.
PageChangingEventArgs that contains the event data.
onSourceCollectionChanged(e?: EventArgs): void
Raises the sourceCollectionChanged event.
onSourceCollectionChanging(e: CancelEventArgs): boolean
Raises the sourceCollectionChanging event.
CancelEventArgs that contains the event data.
refresh(): void
Re-creates the view using the current sort, filter, and group parameters.
remove(item: (Partial | T)): void
Removes the specified item from the collection.
Item to be removed from the collection.
Occurs after the value of the sourceCollection property changes.
Occurs before the value of the sourceCollection property changes.
Class that implements the ICollectionView interface to expose data in regular JavaScript arrays.
The CollectionView class implements the following interfaces:
To use the CollectionView class, start by declaring it and passing a regular array as a data source. Then configure the view using the filter, sortDescriptions, groupDescriptions, and pageSize properties. Finally, access the view using the items property. For example:
The example below shows how you can use a CollectionView to provide sorted views of some raw data:
{@sample Core/CollectionView/CreatingViews/Sorting/Overview Example}