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Studio Developer Manual / Version 2301

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Specifying Strictly Typed Config Objects in TypeScript

Having a Config type allows to specify typed Config objects in TypeScript by using a type assertion (we use the <...> syntax here rather than the as keyword to place the type in front), taking advantage of type checks and IDE support. The following example shows that type errors are detected for existing properties, however, arbitrary undeclared properties can still be added without a type error:

import Config from "@jangaroo/runtime/Config";
import MyClass from "./MyClass";

...
    const myClassConfig = <Config<MyClass>>{
      // inherited from Config<Component>:
      id: "4711",
      // MyClass Config property:
      configOption1: "bar",
      // an undeclared property does *not* lead to a type error:
      untyped: new Date(),
      // type error: '"42" is not assignable to type number[]':
      configOption2: "42",
    };
... 

Example 5.11.  TypeScript detecting type errors for existing properties


Being able to use undeclared properties without warning is not desirable. Fortunately, in TypeScript, it is possible to specify the signature of a generic Config type-check function to prevent using untyped properties. You get access to this function through the same imported Config identifier (remember, TypeScript allows to declare a value and a type with the same identifier).

import Config from "@jangaroo/runtime/Config";
import MyClass from "./MyClass";

...
    // first 'Config' is the utility type, second the utility function:
    const myClassConfig: Config<MyClass> = Config<MyClass>({
      // inherited from Config<Component>:
      id: "4711",
      // MyClass Config property:
      configOption1: "bar",
      // an undeclared property now *does* lead to a type error:
      untyped: new Date(),
      // type error: '"42" is not assignable to type number[]':
      configOption2: "42",
    });
... 

Example 5.12.  Preventing use of untyped properties


We just added a type annotation to myClassConfig for clarity. You can omit it and leave that to TypeScript's type inference.

The first Config (after the colon) is the utility type from above, but the second Config is a call to the generic Config type-check function, which takes as argument a Config object of the corresponding Config type MyClassConfig and returns exactly that Config object.

Since TypeScript is more strict when checking the type of function arguments than when a type assertion is used, this solution prevents accidental access to untyped properties. In the example, the property untyped would now be marked as an error, because it does not exist in the Config type.

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