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declare.d.ts
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declare namespace declare {
/* dojo/_base/declare */
/**
* dojo/_base/declare() returns a constructor `C`. `new C()` returns an Object with the following
* methods, in addition to the methods and properties specified via the arguments passed to declare().
*/
interface DeclareCreatedObject {
declaredClass: string;
/**
* Calls a super method.
*
* This method is used inside method of classes produced with
* declare() to call a super method (next in the chain). It is
* used for manually controlled chaining. Consider using the regular
* chaining, because it is faster. Use "this.inherited()" only in
* complex cases.
*
* This method cannot me called from automatically chained
* constructors including the case of a special (legacy)
* constructor chaining. It cannot be called from chained methods.
*
* If "this.inherited()" cannot find the next-in-chain method, it
* does nothing and returns "undefined". The last method in chain
* can be a default method implemented in Object, which will be
* called last.
*
* If "name" is specified, it is assumed that the method that
* received "args" is the parent method for this call. It is looked
* up in the chain list and if it is found the next-in-chain method
* is called. If it is not found, the first-in-chain method is
* called.
*
* If "name" is not specified, it will be derived from the calling
* method (using a methoid property "nom").
*/
inherited<U>(args: IArguments, newArgs?: any[]): U;
inherited(args: IArguments, newArgs?: true): Function | void;
inherited<U>(name: string, args: IArguments, newArgs?: any[]): U;
inherited(name: string, args: IArguments, newArgs?: true): Function | void;
/**
* Returns a super method.
*
* This method is a convenience method for "this.inherited()".
* It uses the same algorithm but instead of executing a super
* method, it returns it, or "undefined" if not found.
*/
getInherited(args: IArguments): Function | void;
getInherited(name: string, args: IArguments): Function | void;
/**
* Checks the inheritance chain to see if it is inherited from this class.
*
* This method is used with instances of classes produced with
* declare() to determine of they support a certain interface or
* not. It models "instanceof" operator.
*/
isInstanceOf(cls: any): boolean;
}
interface DeclareConstructor<T> {
new(...args: any[]): T & DeclareCreatedObject;
prototype: T;
/**
* Adds all properties and methods of source to constructor's
* prototype, making them available to all instances created with
* constructor. This method is specific to constructors created with
* declare().
*
* Adds source properties to the constructor's prototype. It can
* override existing properties.
*
* This method is similar to dojo.extend function, but it is specific
* to constructors produced by declare(). It is implemented
* using dojo.safeMixin, and it skips a constructor property,
* and properly decorates copied functions.
*/
extend<U>(source: U): DeclareConstructor<T & U>;
/**
* Create a subclass of the declared class from a list of base classes.
*
* Create a constructor using a compact notation for inheritance and
* prototype extension.
*
* Mixin ancestors provide a type of multiple inheritance.
* Prototypes of mixin ancestors are copied to the new class:
* changes to mixin prototypes will not affect classes to which
* they have been mixed in.
*/
createSubclass<U, V, X>(mixins: [DeclareConstructor<U>, DeclareConstructor<V>], props: X): DeclareConstructor<T & U & V & X>;
createSubclass<U, V>(mixins: [DeclareConstructor<U>], props: V): DeclareConstructor<T & U & V>;
createSubclass<U, V>(mixins: DeclareConstructor<U>, props: V): DeclareConstructor<T & U & V>;
createSubclass<U>(mixins: [DeclareConstructor<U>]): DeclareConstructor<T & U>;
createSubclass<U>(mixins: DeclareConstructor<U>): DeclareConstructor<T & U>;
createSubclass<U>(mixins: any, props: U): DeclareConstructor<T & U>;
}
/**
* Create a feature-rich constructor from compact notation.
*/
interface Declare {
<A, B, C, D>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>, DeclareConstructor<D>]): DeclareConstructor<A & B & C & D>;
<A, B, C>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>]): DeclareConstructor<A & B & C>;
<A, B>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>]): DeclareConstructor<A & B>;
<A>(superClass: DeclareConstructor<A> | [DeclareConstructor<A>]): DeclareConstructor<A>;
<A, B, C, D, E>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>, DeclareConstructor<D>], props: E): DeclareConstructor<A & B & C & D & E>;
<A, B, C, D>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>], props: D): DeclareConstructor<A & B & C & D>;
<A, B, C>(superClass: [DeclareConstructor<A>, DeclareConstructor<B>], props: C): DeclareConstructor<A & B & C>;
<A, B>(superClass: DeclareConstructor<A> | [DeclareConstructor<A>], props: B): DeclareConstructor<A & B>;
<A, B, C, D>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>, DeclareConstructor<D>]): DeclareConstructor<A & B & C & D>;
<A, B, C>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>]): DeclareConstructor<A & B & C>;
<A, B>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>]): DeclareConstructor<A & B>;
<A>(className: string, superClass: DeclareConstructor<A> | [DeclareConstructor<A>]): DeclareConstructor<A>;
<A, B, C, D, E>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>, DeclareConstructor<D>], props: E): DeclareConstructor<A & B & C & D & E>;
<A, B, C, D>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>, DeclareConstructor<C>], props: D): DeclareConstructor<A & B & C & D>;
<A, B, C>(className: string, superClass: [DeclareConstructor<A>, DeclareConstructor<B>], props: C): DeclareConstructor<A & B & C>;
<A, B>(className: string, superClass: DeclareConstructor<A> | [DeclareConstructor<A>], props: B): DeclareConstructor<A & B>;
<A>(className: string, superClass: any, props: A): DeclareConstructor<A>;
(className: string, superClass: any): DeclareConstructor<any>;
<A>(superClass: any, props: A): DeclareConstructor<A>;
(superClass: any): DeclareConstructor<any>;
/**
* Mix in properties skipping a constructor and decorating functions
* like it is done by declare().
*/
safeMixin<A, B>(target: A, source: B): A & B;
}
}
declare const declare: declare.Declare;
export = declare;