I read in a lot of books that C is a subset of C++.

Some books say that C is a subset of C++, except for the little details.

What are some cases when code will compile in C, but not C++?

11 Answers 11


If you compare C89 with C++ then here are a couple of things

No tentative definitions in C++

int n;
int n; // ill-formed: n already defined

int[] and int[N] not compatible (no compatible types in C++)

int a[1];
int (*ap)[] = &a; // ill-formed: a does not have type int[]

No K&R function definition style

int b(a) int a; { } // ill-formed: grammar error

Nested struct has class-scope in C++

struct A { struct B { int a; } b; int c; };
struct B b; // ill-formed: b has incomplete type (*not* A::B)

No default int

auto a; // ill-formed: type-specifier missing

C99 adds a whole lot of other cases

No special handling of declaration specifiers in array dimensions of parameters

// ill-formed: invalid syntax
void f(int p[static 100]) { }

No variable length arrays

// ill-formed: n is not a constant expression
int n = 1;
int an[n];

No flexible array member

// ill-formed: fam has incomplete type
struct A { int a; int fam[]; }; 

No restrict qualifier for helping aliasing analysis

// ill-formed: two names for one parameter?
void copy(int *restrict src, int *restrict dst);
  • @mehrdad, thanks. oO didn't know one has to create a variable already when declaring a nested struct in C. Fixed. Jul 29, 2009 at 17:39
  • 4
    There's another (useless) C89 to C++ one: typedef; is a legal TU in C, but not in C++.
    – Flexo
    Jun 13, 2012 at 14:53
  • Notice that auto a; is valid in the newest C++ standard revision.
    – fuz
    Jul 22, 2015 at 15:57
  • 3
    @FUZxxl really? What will be the deduced type of a? Jul 22, 2015 at 16:21
  • 6
    @FUZxxl ah thanks. So auto x; is not valid in the newest revision, but for example auto x = 0; is. I was a bit shocked at first :) Jul 22, 2015 at 20:25

In C, sizeof('a') is equal to sizeof(int).

In C++, sizeof('a') is equal to sizeof(char).

  • 62
    That can be simpified to: In C, 'a' is an int. In C++, 'a' is a char.
    – pmg
    Sep 23, 2010 at 10:32

C++ has new keywords as well. The following is valid C code but won't compile under C++:

int class = 1;
int private = 2;
int public = 3;
int virtual = 4;
  • 1
    it's true, but that's exactly what subset means.
    – yeyeyerman
    Jul 29, 2009 at 17:13
  • 25
    @yeyeyerman: No. For it to be a subset, all C code would have to be valid C++ as well. The code in this example is valid C but not C++. Jul 29, 2009 at 17:19
  • 32
    No, if C was a strict subset of C++, then every C program would be a valid C++ program, but that's not true. The question is why it's not true, and this is one example of why. Jul 29, 2009 at 17:20
  • 1
    Ha! Didn't think about this one!
    – Gab Royer
    Jul 29, 2009 at 17:33

There are plenty of things. Just a simple example (it should be enough to prove C is not a proper subset of C++):

int* test = malloc(100 * sizeof(int));

should compile in C but not in C++.

  • 3
    C++ should require an explicit cast to int*. Jul 29, 2009 at 16:51
  • 13
    Long answer: malloc returns void *, which in C can be assigned to any pointer type, and C++ cannot be assigned to any other pointer type. Jul 29, 2009 at 16:58
  • 5
    Imagist: a C compiler, as defined by ANSI C89 standard, shouldn't complain. Jul 29, 2009 at 17:08
  • 8
    It's legal C. The cast is unnecessary, possible to get wrong, and covers up a failure to include <stdlib.h>. I consider Mehrdad's statement to be the right way to write it in C. Jul 29, 2009 at 17:18
  • 20
    @Imagist: I usually hear the opposite from C programmers. They consider it poor style to add the cast, as it may conceal bugs. Good C code does not use the cast. Jul 29, 2009 at 17:21

In C++, if you declare a struct, union, or enum, its name is immediately accessible without any qualifiers:

struct foo { ... };
foo x; // declare variable

In C, this won't work, because types thus declared live in their own distinct namespaces. Thus, you have to write:

struct foo { ... };
struct foo x; // declare variable

Notice the presence of struct there on the second line. You have to do the same for union and enum (using their respective keywords), or use the typedef trick:

typedef struct { ... } foo;
foo x; // declare variable

Consequently, you can have several types of different kinds named the same in C, since you can disambiguate:

struct foo { ... };
typedef enum { ... } foo;

struct foo x;
foo y;

In C++, however, while you can prefix a struct name with keyword struct whenever you reference it, the namespaces are merged, and so the above C snippet isn't valid. On the other hand, C++ specifically makes an exception to allow a type and a typedef for that type to have the same name (obviously with no effect), to allow the use of typedef trick unchanged from C.

  • 1
    Your last example is invalid C: The three tags (struct, union and enum) share the same namespace. A better example would be struct foo { ... }; typedef enum { ... } foo;
    – schot
    Sep 23, 2010 at 13:06
  • @schot: you're of course right, thank you for the correction. Updated. Sep 23, 2010 at 21:15
  • typedef struct foo *foo; is another good example: if you have a C header file with this line, you cannot #include it in a C++ file and still compile as C++ code (e.g. clang++ reports "error: typedef redefinition with different types ('struct foo *' vs 'foo')"). This can specifically cause problems linking C++ code with C code that does not follow C++'s implicit typedef struct foo foo; convention.
    – hbw
    Jan 23, 2021 at 8:23

This also depends on what variety of C you're using. Stroustrup made C++ as compatible as he could, and no more compatible, with the 1989 ANSI and 1990 ISO standards, and the 1995 version changed nothing. The C committee went in a somewhat different direction with the 1999 standard, and the C++ committee has changed the next C++ standard (probably out next year or so) to conform with some of the changes.

Stroustrup lists incompatibilities with C90/C95 in Appendix B.2 of "The C++ Programming Language", Special Edition (which is 3rd edition with some added material):

'a' is an int in C, a char in C++.

The sizeof an enum is int in C, not necessarily in C++.

C++ has // comments to end of line, C doesn't (although it's a common extension).

In C++, a struct foo { definition puts foo into the global namespace, while in C it would have to be referred to as struct foo. This allows a struct definition to shadow a name in an outer scope, and has a few other consequences. Also, C allows larger scope for struct definitions, and allows them in return type and argument type declarations.

C++ is fussier about types in general. It won't allow an integer to be assigned to an enum, and void * objects cannot be assigned to other pointer types without a cast. In C, it's possible to provide an overlarge initializer (char name[5] = "David" where C will discard the trailing null character).

C89 allowed implicit int in many contexts, and C++ doesn't. This means that all functions must be declared in C++, while in C89 it was often possible to get by with assuming int for everything applicable in the function declaration.

In C, it's possible to jump from outside a block to inside using a labeled statement. In C++, this isn't allowed if it skips an initialization.

C is more liberal in external linkage. In C, a global const variable is implicitly extern, and that's not true in C++. C allows a global data object to be declared several times without an extern, but that's not true in C++.

Many C++ keywords are not keywords in C, or are #defined in standard C headers.

There are also some older features of C that aren't considered good style any more. In C, you can declare a function with the argument definitions after the list of arguments. In C, a declaration like int foo() means that foo() can take any number of any type of arguments, while in C++ it's equivalent to int foo(void).

That seems to cover everything from Stroustrup.

  • Let's not forget the fact that, in C, you must declare variables at the beginning of a scope (i.e., immediately after an opening brace), whereas, C++ allows variable declarations anywhere.
    – RobH
    Jul 29, 2009 at 21:53
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    However, that's something C++ can do that C can't. I think we're looking at things you can do in C but not C++. Jul 29, 2009 at 22:00
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    @RobH: That's true for C89 but not for C99.
    – jamesdlin
    Sep 23, 2010 at 10:08

If you use gcc, you can use the warning -Wc++-compat to give you warnings about C code which is dubious in C++ in some way. Its currently used in gcc itself, and its gotten a lot better recently (maybe try a nightly version to get the best you can).

(This doesn't strictly answer the question, but folk might like it).

  • 1
    I thought I would never upvote a non-answer answer
    – eharo2
    Dec 14, 2019 at 19:43

The single biggest difference I think is that this is a valid C source file:

int main()

Note that I haven't declared foo anywhere.

Aside from language differences, C++ also makes some changes to the library that it inherited from C, e.g. some functions return const char * instead of char *.

  • Right, prototypes are not required in C but it is usually considered bad practice to not use them. Jul 29, 2009 at 17:06
  • 1
    You should do s,C,C89, and note that it is an invalid C99 source file. Jul 29, 2009 at 17:14
  • Is it invalid or just deprecated in C99 though? Jul 29, 2009 at 17:42
  • 2
    @jalf the C99 draft documents the changes to C89, and includes both "remove implicit int" and "remove implicit function declaration". Jul 29, 2009 at 18:06
#include <stdio.h>

int new (int n) {
    return n/2;

int main(void) {
    printf("%d\n", new(10));
    return 0;

See also the C++ FAQ entry.

  • 1
    So you're saying that new is not a reserved keyword in C.
    – MasterHD
    Jul 27, 2022 at 9:23

A number of the answers here cover syntax differences that would cause C++ compilers to fail on C89 (or C99) source code. However, there are some subtle language differences that are legal in both languages but that would produce different behavior. The sizeof (char) difference that Naveen mentioned is one example, but Write a program that will print "C" if compiled as an (ANSI) C program, and "C++" if compiled as a C++ program lists some others.


C compilers generally allowed a little corner cutting that C++ doesn't. C++ is much more strict than C. And generally, some of these differences are compiler-dependant. g++ allows some things that the Intel C++ compiler doesn't, for instance. Even fairly well written C code won't compile with a modern C++ compiler.

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