*> Generic class
class-id Point3D using T.
*> With constraints
class-id Point3D using T.
constraints.
constrain T implements type IComputable.
*> Generic interface
interface-id IComputable using T.
*> Generic method
method-id MakePoint3D static public using T.
procedure division using by value
x as T y as T z as T
returning ret as type Point3D[T].
*> With constraints
method-id MakePoint3D static public using T.
constraints.
constrain T implements type IComputable.
*> Generic value type
valuetype-id container using T Y.
01 a T public.
01 b Y public.
end valuetype.
*> With constraints
valuetype-id container using T Y.
constraints.
constrain T implements type IComputable.
*> Generic iterator, use a parametrised class
class-id a using T.
iterator-id itg static.
01 val binary-long value 1.
procedure division using by value x as T yielding y as T.
perform until val = 50
add 1 to val
set y to x *> Just for example!
goback
end-perform
end iterator.
end class.
*> To use, parametrise the class
perform varying thg through type a[string]::itg("Dog")
display thg
end-perform
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// Generic class
class Point3D <T>
// Generic class with constraints
class Point3D_c <T extends IComputable>
//Generic interface
interface IComputable<T>
// Generic method
public static <T> Point3D MakePoint3D(T x, T y, T z)
{
return new Point3D(x, y, z);
}
// Generic method with constraints
public static <T extends IComputable> Point3D MakePoint3D(T x, T y, T z)
{
return new Point3D<T>(x, y, z);
}
// No value type in Java, so generic simple class instead
class container<T, Y>
{
public T a;
public Y b;
}
// No value type in Java, so simple generic class with constraints
class container<T extends IComputable, Y>
// Generic iterator, use a parameterised class
class a<T>
{
public static <T> T itg(T x)
{
int val = 1;
while (val < 50)
{
val++;
return x;
}
}
}
for (String dog : a<string>)
System.out.println(dog);
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