I am about to learn C++.
There are two of the C language's syntax. Pointers and arrays.
They are defined on the C Standard with so many subclauses. I know that C++ is a superset of C(It may be a generalization). Then are these features same as C++? If so, what version of C++ has what version of C?

  • 14
    C++ is not a superset of C. – gspr Sep 17 '20 at 11:28
  • 7
    C and C++ may share some common origins but one is not a subset or superset of the other. They have separate Standards committees and independent standards. – Adrian Mole Sep 17 '20 at 11:29
  • Comments are not for extended discussion; this conversation has been moved to chat. – Makyen Sep 19 '20 at 0:12

Does C++ include C99 or C89?

Currently, C++ includes neither in its entirety, although the common subset of C and C++ is significant. Some features are missing, and there are incompatible differences between the languages. The non-normative sections of the C++ standard "Compatibility / C++ and ISO C [diff.iso]" and "C standard library [diff.library]" lists (some of) the differences.

However, C++ is "based" on the C standard and does refer to it. Here is quote from latest standard draft:


C++ is a general purpose programming language based on the C programming language as described in ISO/IEC 9899:2018 Programming languages — C (hereinafter referred to as the C standard). C++ provides many facilities beyond those provided by C ...


The following documents are referred to in the text in such a way that some or all of their content constitutes requirements of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.

  • ...
  • ISO/IEC 9899:2018, Programming languages — C
  • ...

The library described in ISO/IEC 9899:2018, Clause 7, is hereinafter called the C standard library.

what version of C++ has what version of C?

  • C++20 is based on C18
  • C++17 is based on C11
  • C++14 is based on C99
  • C++11 is based on C99
  • C++03 is based on C89/C90
  • C++98 is based on C89/C90

From historical perspective, (pre-standard) C++ existed before C was standardised and thus originally couldn't have been based on any standard. Both lanuages have evolved from that common root and have diverged into their own directions.

Also, note that even though many C idioms work in C++, they are not idiomatic in C++ and are considered a bad practice. As far as I understand, the reason for the high degree of compatibility (beyond ability to write common headers) is the ease of porting a C program to C++ allowing it to be converted with small incremental steps. For example, there is never a reason to write NULL in C++ and hardly ever a reason to write malloc.


Stroustrup himself addresses this question on his homepage, https://www.stroustrup.com/bs_faq.html#C-is-subset. Key points (emphasis mine):

  • Mostly yes: "Except for a few examples such as the ones shown above (and listed in detail in the C++ standard and in Appendix B of The C++ Programming Language (3rd Edition)), C++ is a superset of C." Most of the incompatibilities are bad style even in C (implicit pointer conversions, missing function prototypes).
  • Regarding your question about which C version would be an ancestor of C++: "Please note that "C" in the paragraphs above refers to Classic C and C89. C++ is not a descendant of C99; C++ and C99 are siblings. C99 introduces several novel opportunities for C/C++ incompatibilities." Chiefly among the new incompatibilities are variable length arrays which are mostly unnecessary in C++ because C++ has vectors (but then, all C++ compilers I know support them because they implement them alreday for their C frontend, so why not).
  • Wasn't it a requirement that C++17 supports C11 with but a few exceptions? – ALX23z Sep 17 '20 at 11:36

C and C++ are different enough that it's best to treat them as completely separate languages, rather than one being a super- or subset of the other. There are an infinite number of legal C programs that are not legal C++ programs, and an infinite number of legal C programs that are also legal C++ programs but behave differently or produce different results. While they do share a large common subset of syntax and semantics, there are enough differences between them that you should never be surprised if the same code gives you different results when compiled as C vs. C++.

A well-designed and well-written C++ program does not look or behave much like a well-designed and well-written C program.


Here's how I'd draw the relationships between the two:

|   Valid C++ Only             |
|                              | 
|      +-----------------------+-------+
|      | Valid C and C++ with  | Valid |
|      | identical behavior    | C     |
|      |                       | Only  |
|      |                       |       |
|      |                       |       |
|      +-----------------------+       |
|      | Valid C and C++ with  |       |
|      | different behavior    |       |
|      +-----------------------+-------+
|                              |
|                              |

The two languages have a very large common subset that behaves the same way between them. There's a smaller common subset that behaves differently. There's relatively little C that isn't also valid C++, but it's enough to cause problems if you're trying to port from C to C++ or support the same code between the two. Again, I think it's just better to treat them as completely separate languages. You're less likely to be surprised that way.

  • There are also an infinite number of programs for which it is impossible to determine whether they ever come to an end or not; and still, in 40 years as a programmer I have never encountered one. – Peter - Reinstate Monica Sep 17 '20 at 18:36
  • Also, if C is by and large a subset of C++ (which, by design and result of C++, it is), it is obvious that idiomatic C++ programs are not C programs. But, and this is relevant to the question, most well-written C programs which do not rely on obscure features are valid C++ programs, which is what the OP was asking about. – Peter - Reinstate Monica Sep 17 '20 at 18:39
  • @Peter-ReinstateMonica: A well-written C program that uses class or new as variable or function names isn't a valid C++ program. A well-written C program that doesn't cast void * to other object pointer types isn't a valid C++ program. And on and on. And a well-written valid C program may also be a valid C++ program with different behavior. Again, they are different enough that we should not treat them as sub- or supersets of each other. The difference isn't as dramatic as with, say, Pascal and Ada, but it's there. – John Bode Sep 17 '20 at 18:56

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