Your doubt originates on a misunderstanding about how the scopes of a lambda expression and an anonymous class are defined. Below, I will try to clarify this.
Lambda expressions DO NOT introduce a new level of scoping. This means that, inside it, you can only access the same things that you would be able to access in the immediately enclosing code block. See what the docs say:
Lambda expressions are lexically scoped. This means that they do not
inherit any names from a supertype or introduce a new level of
scoping. Declarations in a lambda expression are interpreted just as
they are in the enclosing environment.
Anonymous classes work differently. They do introduce a new level of scoping. They behave much like a local class (a class that you declare inside a block of code), although they can't have constructors. See what the docs say:
Like local classes, anonymous classes can capture variables; they have the same access to local variables of the enclosing scope:
- An anonymous class has access to the members of its enclosing class.
- An anonymous class cannot access local variables in its enclosing scope that are not declared as final or effectively final.
- Like a nested class, a declaration of a type (such as a variable) in an anonymous class shadows any other declarations in the enclosing
scope that have the same name. See Shadowing for more information.
In this context, the anonymous class will act like a local class inside
Thread and, thus, it will be able to access
sleep() directly, since this method will be within its scope. However, in the lambda expression,
sleep() won't be within its scope (you can't call
sleep() on the enclosing environment), so that you must use
Thread.sleep(). Note that this method is static and, therefore, doesn't require an instance of its class in order to be called.