The problem is that your code is not retaining the
IAsyncCall interface that is returned by the
//AsyncCall returns an IAsyncCall interface,
//but this code does not take a reference to it
Because of this, the interface that is returned has its reference count decremented to zero as soon as the initialization section completes. This therefore frees the object that implements the interface which does this:
if FCall <> nil then
--> FCall.Sync; // throw raised exceptions here
The key line is the call to
Sync which forces the asynchronous call to be executed to completion. All this happens in the main thread which explains the behaviour that you report.
The solution is that you simply need to keep the
IAsyncCall interface alive by storing it in a variable.
a := AsyncCall(@Load, );
In the real code you need to ensure that
Load had completed before running any code that is reliant on
Load. When your program reached a point where it required
Load to have been called it has to call
Sync on the
So you might write it something like this.
LoadAsyncCall := nil;//this will effect a call to Sync
LoadAsyncCall := AsyncCall(@Load, );
EnsureLoaded from other units that required
Load to have run. Or, alternatively, call
EnsureLoaded from any methods exported by
MyUnit that depended on
Load having run. The latter option has much better encapsulation.