Monday, May 1, 2017

How To Add Custom Filters That Are Asynchronous In Dynamics 365 Customer Engagement

Adding custom filters to lookup entities isn’t entirely simple.  It involves adding a trigger to the PreSearch function in which a call is made to set the filter on the control using addCustomFilter. The PreSearch event must be synchronous since it is triggered once the user has selected the lookup, and needs to apply the filter right then. 

But what if you want to do something like query the lookup entity for the given filter, and relax the criteria if nothing is found (i.e. Search by First and Last name, unless no match is found, then search by Last Name only).  That either involves a blocking synchronous call (Yuck), or some form of black magic to make something asynchronous behave synchronously.  Well, maybe not black magic, just 40 lines of TypeScript:

const _preSearchFilters = {} as { [index:string]:string };
 
/**
 * Handles adding a PreSearch that is Asynchronous.  To be called in the onLoad of the form.  This will trigger the getFilter method to attempt to assign the filter.
 * The Lookup Attribute will be disabled until the getFilter method has finished executing
 * @param info Object that contains the following properties:
 *             control - Name of the lookup control to add the PreSearch Filter for.
 *             filteringEntity - If entityLogicalName is not specified, the filter will be applied to all entities valid for the Lookup control.
 *             getFilter - Function that returns the Promise of the filter Xml.
 *             triggeringAttributes - List of attributes, that if changed, will result in the filter needing to be updated.

 */
export function addAsyncPreSearch(info: { control: string, filteringEntity?: string, getFilter: () => Promise<string>, triggeringAttributes?: string[]}) {
    const setAsyncFilter = async () => {
        const enablePostFilter = !Xrm.Page.getControl(info.control).getDisabled();
        if (enablePostFilter) {
            Xrm.Page.getControl(info.control).setDisabled(true);
        }
 
        try {
            _preSearchFilters[info.control] = await info.getFilter();
        } catch (e) {
            console.error(`Error occurred attempting to get the preSearch filter for ${info.control}`, e);
            _preSearchFilters[info.control] = "";
        } finally {
            if (enablePostFilter) {
                Xrm.Page.getControl(info.control).setDisabled(false);
            }
        }
    };
 
    Xrm.Page.getControl(info.control).addPreSearch((context: Xrm.Page.EventContext) => {
        const ctrl = (context.getEventSource() as Xrm.Page.LookupControl);
        if (ctrl && ctrl.addCustomFilter) {
            ctrl.addCustomFilter(_preSearchFilters[ctrl.getName()], info.filteringEntity);
        }
    });
 
    if (info.triggeringAttributes && info.triggeringAttributes.length > 0) {
        for (const att of info.triggeringAttributes) {
            Xrm.Page.getAttribute(att).addOnChange(setAsyncFilter);
        }
    }
 
    setAsyncFilter();
}

That’s a lot of code, let’s walk through it.

First, a module level field (_preSearchFilters) that stores the filters for each control is declared and instantiated (note there is an assumption that you will only ever have one filter per control, which I think is pretty safe).  For those of you new to TypeScript, “{ [index:string]:string }” is how you define that the field is an object, which is indexable by a string, returning string.  This would be equivalent to a C# Dictionary<string,string>.

Next is a nested function “setAsyncFilter” that wraps the async function “getFilter” that is passed in.  It handles 2 things, disabling the control until the async function finishes, and storing the result of the async function in the “_preSearchFilters”.  If the control doesn’t get disabled, then there is a chance that the user could attempt to perform a search the async function determines what the filter should actually be.

After the “setAsyncFilter” definition comes the first code that is actually executed, a call to get the control, and add an anonymous function as a preSearch.  The function just calls “addCustomFilter” on the control that triggered the action, with the optional filteringEntity parameter.

Next to last is an if statement to trigger the “setAsyncFilter” function, each and every time a field is updated that could potentially change the filter.  This if followed by the last step, a call to “setAsyncFilter” to initialize the value in the “_preSearchFilters: field.

To use this function, just call it in the onLoad of the form:

CommonLib.addAsyncPreSearch({
    control: Lead.fields.installFee,
    filteringEntity: "new_installationfee",
    getFilter: getInstallationFilter,
    triggeringAttributes: [Lead.fields.campaign,
                           Lead.fields.callType]
});
The call above adds an Async PreSearch to the installFee control.  The filter is to be applied to the “new_installationfee” entity, and is generated by the Promise returning function, “getInstallationFilter”.  Finally, a trigger is added to refresh the filter whenever the campaign or callType fields are updated.  That's it.

Chalk one up to TypeScript for handling the async/await.  Just don’t forget to polyfill your Promise call, or your IE 11 users won’t be too happy Winking smile

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