I think the definition by the paper is a bit inaccurate. The terms declaration, implementation, definition, and interface should be used with some rigor. I will try to explain a little bit.
First of all, a class declaration does not specify any interface: it simply states that the class exists. For instance, these are some declarations:
template<typename T> class X;
A class definition on the other hand declares which are the members of a class (functions and data). Without entering too much into details, the term external interface in the sense used by the paper you quote roughly means "a specification of what can be done with objects of that class by code which belongs to functions that are not members of that class".
Here is an example of a class definition:
int bar(int x) const;
The term external interface used in the paper you mention almost certainly refers to the public interface, which is the list of all members of the class which have
public visibility. All member variables and functions of a class can have one of three levels of visibility:
private. I am not delving into details here, but it should be enough to say that
public members (data or functions) are those members that can be accessed from functions which are not themselves members of the class, while
private members can only be accessed from functions which are members of the class. The
protected qualifier is related with inheritance and I don't think that needs to be covered to answer your question.
Now the public interface of class
my_class above declares functions foo() and bar(), but does not yet specify their implementation or, in more formal terms, their definition. In general, member functions are not necessarily defined in a class definition (you can't tell what
foo() does just by looking at the definition of
my_class, can you?). Thus, unless you write the body of a member function directly after its declaration, a separate member function definition is necessary to specify the implementation of that function:
std::cout << "hello, i'm foo" << std::endl;
int my_class::bar(int x)
x * 2 + 1;
std::cout << "doing something..." << std::endl;
Due to the different visibility levels of these functions, a client code from a function external to class
my_class can call functions
bar(), because they belong to the
public interface, but not function
do_something(), which is declared as
private. For instance:
c.foo(); // OK!
c.do_something(); // ERROR!
The rationale behind the fact that some functions can be made accessible from the outside of a class and other cannot is to be found in a good design principle that goes under the name of "information hiding". By exposing to your clients only a set of services and hiding the way those services are actually implemented (e.g. function
bar() invokes the
do_something()), you create a layer of abstraction that protects client code from possible internal changes in the implementation of those services.
So finally, I believe that what the writer of the sentence "A C++ class declaration combines the external interface of an object with the implementation of that interface" actually wants to say is that from the definition of a class you can get a hint on what are the services that class exposes to its clients ("external interface", i.e.
public functions) and what are the functions and variables that are used internally to realize those services ("implementation", i.e.
private functions and member variables).
I apologize if it took a bit long to finally give you the interpretation of that sentence, but I felt like some clarification was in order. Anyway, this was necessarily just a short summary of this articulated topic: I am sure you can find better sources if you google all these terms or if you buy a good book on C++.
P.S.: Also please keep in mind, that formally the term (and keyword!)
interface means something very specific in C++, which requires introducing the notion of pure virtual function. I thought it was not the case of explaining that, as it was likely unrelated with the intended meaning of the word "interface" in the sentence you quoted.