import ceylon.language.meta.model { 
    Applicable,
    FunctionModel,
    Type,
    Qualified,
    IncompatibleTypeException,
    TypeApplicationException
}

"""A function declaration.
   
   <a name="toplevel-sample"></a>
   ### Usage sample for toplevel function
   
   Because some functions have type parameters, getting a model requires applying type arguments to the
   function declaration with [[apply]] in order to be able to invoke that function. For example, here is how you would
   obtain a function model that you can invoke from a toplevel function declaration:
   
       String foo<T>(){
           return "Hello, our T is: ``typeLiteral<T>()``";
       }
       
       void test(){
           // We need to apply the Integer closed type to the foo declaration in order to get the foo<Integer> function model
           Function<String,[]> functionModel = `function foo`.apply<String,[]>(`Integer`);
           // This will print: Hello, our T is: ceylon.language::Integer
           print(functionModel());
       }
   
   <a name="member-sample"></a>
   ### Usage sample for methods
   
   For methods it is a bit longer, because methods need to be applied not only their type arguments but also
   the containing type, so you should use [[memberApply]] and start by giving the containing closed type:
   
       class Outer(){
           shared String hello() => "Hello";
       }
   
       void test(){
           // apply the containing closed type `Outer` to the method declaration `Outer.hello`
           Method<Outer,String,[]> methodModel = `function Outer.hello`.memberApply<Outer,String,[]>(`Outer`);
           // We now have a Method, which needs to be applied to a containing instance in order to become an
           // invokable function:
           Function<String,[]> boundMethodModel = methodModel(Outer());
           // This will print: Hello
           print(boundMethodModel());
       }
   """
shared sealed interface FunctionalDeclaration
        satisfies GenericDeclaration {
    
    "True if the current declaration is an annotation class or function."
    shared formal Boolean annotation;
    
    "The list of parameter declarations for this functional declaration."
    shared formal FunctionOrValueDeclaration[] parameterDeclarations;
    
    "Gets a parameter declaration by name. Returns `null` if no such parameter exists."
    shared formal FunctionOrValueDeclaration? getParameterDeclaration(String name);
    
    
    "Applies the given closed type arguments to this function declaration in order to obtain a function model. 
     See [this code sample](#toplevel-sample) for an example on how to use this."
    throws(`class IncompatibleTypeException`, "If the specified `Return` or `Arguments` type arguments are not compatible with the actual result.")
    throws(`class TypeApplicationException`, "If the specified closed type argument values are not compatible with the actual result's type parameters.")
    since("1.2.0")
    shared formal FunctionModel<Return, Arguments>& Applicable<Return, Arguments> apply<Return=Anything, Arguments=Nothing>(Type<>* typeArguments)
            given Arguments satisfies Anything[];
    
    "Applies the given closed container type and type arguments to this method declaration in order to obtain a method model. 
     See [this code sample](#member-sample) for an example on how to use this."
    throws(`class IncompatibleTypeException`, "If the specified `Container`, `Return` or `Arguments` type arguments are not compatible with the actual result.")
    throws(`class TypeApplicationException`, "If the specified closed container type or type argument values are not compatible with the actual result's container type or type parameters.")
    since("1.2.0")
    shared formal FunctionModel<Return, Arguments>&Qualified<FunctionModel<Return, Arguments>, Container> memberApply<Container=Nothing, Return=Anything, Arguments=Nothing>(Type<Object> containerType, Type<>* typeArguments)
            given Arguments satisfies Anything[];
    //shared formal FunctionModel<Return, Arguments>& Applicable<Return, Arguments>&Qualified<FunctionModel<Return, Arguments>&Applicable<Return, Arguments>, Container> memberApply<Container=Nothing, Return=Anything, Arguments=Nothing>(Type<Object> containerType, Type<>* typeArguments)
            //given Arguments satisfies Anything[];
    
    "Invokes the underlying toplevel function, by applying the specified type arguments and value arguments."
    throws(`class IncompatibleTypeException`, "If the specified type or value arguments are not compatible with this toplevel function.")
    since("1.2.0")
    shared default Anything invoke(Type<>[] typeArguments = [], Anything* arguments)
            => apply<Anything, Nothing>(*typeArguments).apply(*arguments);
    
    "Invokes the underlying method, by applying the specified type arguments and value arguments."
    throws(`class IncompatibleTypeException`, "If the specified container, type or value arguments are not compatible with this method.")
    since("1.2.0")
    shared formal Anything memberInvoke(Object container, Type<>[] typeArguments = [], Anything* arguments)/*
            => memberApply<Nothing, Anything, Nothing>(`Nothing`, *typeArguments).bind(container).apply(*arguments)*/;
}