I'm taking a class on Object Oriented Programming in C++. In a recent assignment I defined a member function within a struct. My instructor explained that, although it's compilable to use member functions within structs, he would prefer we didn't, for backward compatibility with C, and (especially in this beginner class) to practice good data encapsulation- we should use a struct for types that contain mostly data, and a class for applications that benefit from more procedural encapsulation. He indicated that this practice comes from the history of structs/classes in C++, which is what I'd like to know more about.

I know that structs are functionally the same as classes except for default member/inheritance access. My question is:

Why are structs AND classes included in C++? From my background in C#, where structs and classes have important differences, it seems like struct in C++ is just syntactic sugar for defining classes with default public-ness. Is it?

I'm not looking for opinions on when/why one should be used instead of the other- I was born well after these constructs were, and I'm looking for the history of them. Were they conceived together? If so, why? If not, which came first, and why was the second added? I realize that there are many venerable elders within this community who may have living memory of these features' origins, and links to standards publications, or examples of code, where both, one, or the other first appeared, will add to answers' helpfulness.

Please note, this question is not:


4 Answers 4


To ease development of polyglot headers.

C and C++ are separate languages, but the C++ language is designed to provide a large useful common subset with the C language. Several commonly used constructions in the C++ language have the same meaning (or nearly so) as they have in the C language. In the case of struct, the C++ language defines it as syntactic sugar for class that approximates the behavior of a struct in the C language, namely that members are public by default. Thus a program or part thereof can be written in this common subset. This allows, for example, a library to provide a single header file that declares the same API to both programs written in the C language and programs written in the C++ language.

Some differences between the C language and the C++ language are listed in a question that has since been closed as too broad. From the perspective of somebody programming in this common subset language, these differences can be treated as "implementation-defined behavior", where compilers for the C language produce one behavior and compilers for the C++ language produce the other.

In fact, the C++ standard provides mechanisms to aid development of polyglot programs that are valid in both C and C++ languages. The extern "C" linkage specifier allows a program to be written partly in C and partly in C++. And the __cplusplus symbol is used in #ifdef __cplusplus conditions to conditionally enable macros, linkage specifiers, and other specifics that only one of the two languages is supposed to see.

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    Differences are often subtle. It is dangerous to tell a beginner there is a common subset without clarifying which that is (OTOH this would be too broad). It is generally better to treat them as different languages. Oct 6, 2015 at 18:05
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    With the same argument you could say Modula-2 or Java code shares a common subset with C and C++ with all differences being just IDB. Nonsense, you have the last word. Oct 6, 2015 at 18:20
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    @Olaf That's why I emphasized large useful. The common subset between C and Java isn't large enough to be very useful, not nearly so much as the common subset between C and C++ that practically encourages polyglot programming where possible. Oct 6, 2015 at 18:22
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    @tepples: Any non-trivial program will have to use features specific to the language. If you program C-style in C++, you soon will have to rectify why you do not use the features of that language, or why you do not use C with its specific features. For a starter: tentative definitions, prototype-style declarators, VLAs, enums, (not) casting void *, malloc vs. new, const objects, headers, etc. If you have a car with four wheels: do you only use three of them, putting a weight at the right position? Oct 6, 2015 at 18:48
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    @MichaelHoffmann "is polyglot programming between C++ and C encouraged in any standards?" The existence of #ifdef __cplusplus and the extern "C" linkage specifier for use in polyglot headers are evidence of yes. I will update. Oct 6, 2015 at 20:47

In the old days (late 1980s or early 1990s), a C++ compiler (then called cfront) translated C++ code to C code. That C++ was widely different from current C++11 or C++14 (or even old C++03).

I don't remember the details, but it could have happened that struct at that time was parsed completely, but passed unchanged into the generated C code, while class was preprocessed to something different (and was translated to a struct).

I might be completely wrong, this is from my human memory, and I only used (on SunOS3, Sun3/160 workstations) a couple of times that cfront. It left me unimpressed, but interested. At that time, the translation to C code added a significant time to the build process. But things have changed a lot, translating to C makes a lot of sense today...

(In those days, a hello world program in Ada took 5 minutes to compile, and with cfront it might be 3 minutes, but in C it was less than a minute)

Later on, the definition of C++ changed, and struct foo { was indeed equivalent to class foo{ public:, but I am not sure that was the case in the primordial C++ compiler.

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    @dyp: this is not contractory: cfront could have parsed entirely the C++ code and emit struct as identical struct & class as struct Oct 7, 2015 at 5:28

Both were included in the original C++ language, but struct long predates C++ in the C language.

C++ includes structs because it inherited them from C. There was no reason to remove them from C++ and break existing C code bases that may be compiled with a C++ compiler.

C++ introduces class as a new keyword. Presumably the keyword was introduced to provide the option of differentiating newly created C++ classes from existing structs in legacy C code bases.

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    Totally disagree with 'more meaningful'.
    – SergeyA
    Oct 6, 2015 at 18:25
  • I don't know enough to agree/disagree with @SergeyA, but it's unclear to me what you mean by "more meaningful". Would you please elaborate your answer? Oct 6, 2015 at 18:52

C++ is mostly a superset of C. So (mostly) if you can do something in C you can do it in C++. Structs are a C feature and were included in C++. Refer to this for the reasons C++ isn't a true superset: Where is C not a subset of C++?

  • "mostly ..." Not really. Differences are quite subtle sometimes. One should not invoke this impression to a beginner, this leads to more problemss than good. Oct 6, 2015 at 18:08
  • @Olaf Which is why I added the link to show the differences. Oct 6, 2015 at 18:09
  • Ok, I removed the DV. But you did not answer the question actually. Please elaborate. Oct 6, 2015 at 18:10
  • Somehow, this post has made me realise that C++ is the original "Turn it up to 11" by being "one more" than C Oct 6, 2015 at 18:13
  • @user3791372 Always a good day when someone quotes the great Nigel Tufnel. :) Oct 6, 2015 at 18:15

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