How in C/C++ languages can the compiler distinguish when used * as a pointer (MyClass* class) and when we use it as a multiply operator (a * b) or when is a dereferencing operator (*my_var)?

  • 3
    Depending on what's on its left and right? – Tony Tannous Oct 8 '20 at 7:29
  • 2
    Wikipedia has an article on the classic method: lexer hack. – user786653 Oct 8 '20 at 7:32
  • 2
    @user786653 at least in case of gcc that's no longer a thing. C++ is complex enough that classic lexers are inept. G++ uses a hand-written recursive descent parser ( so something similar to what was put into basis of Google translator) instead of bison-based one. But in general it depends on compiler implementation and only few expose that secret – Swift - Friday Pie Oct 8 '20 at 7:40
  • 1
    The same way the compiler distinguishes a & b and &var, +a and a + b, or &&a and a && b: one is a unary and the other is a binary operator. In C++/CLI there are also type ^ vs a ^ b and type % vs a % b – phuclv Oct 8 '20 at 7:51
  • @Swift-FridayPie gcc and clang are open source so there are hardly any secrets here – M.M Oct 25 '20 at 12:47

It depends from the context in which it is used, for a simple resolution it looks at the left and right word to understand what a symbol is.

The language's syntax is defined by a tree of grammatical productions that inherently imbue a priority or "precedence" to the application of certain operators over the application of other operators. This is particular handy when an expression might otherwise be ambiguous (because, say, two operators used are represented by the same lexical token).

But this is just lexing and parsing. Whether any particular operation is actually semantically valid is not decided until later in compilation; in particular, given two pointers x and y, the expression *x *y will fail to compile because you cannot multiply *x by y, not because there was a missing operator in what might otherwise have been a dereference followed by another dereference.

Further read at wikipedia page: Lexer_hack.

Other interesting read at this Lexer-Hack Enacademic link.

  • deferencing * operator is an unary operator so in trivial cases compiler will apply an implicit rule. eg
int a;
int *ptr = &a;
*ptr = 5;
  • multiplication operator * is a binary operator so in trivial cases compiler will apply multiplication provided the operands support it eg:
int a;
int b;
int c = a*b;
  • For more complex operations you might need to help the compiler understand what you mean by using parenthesis if the operators precedence is not enough eg:
  int a = 1;
  int b[2] = {2,3};
  int *aPtr = &a;
  int *bPtr = b;
  int c = *aPtr * *(bPtr+1);
  • 1
    Are parentheses really needed in the last line? (Edit: g++ doesn't seem to need them.) – Peter - Reinstate Monica Oct 8 '20 at 7:46
  • not really.. parent around * usually needed in declaration because direction of parsing reversed from descending to ascending – Swift - Friday Pie Oct 8 '20 at 7:49
  • So don't say that if it's not true ;-). Typically for function pointers you need parentheses because the operator()() has precedence over operator*(), but that is not *-specific. In particular, it is not necessary in order to prevent confusion between dereferencing and multiplication. – Peter - Reinstate Monica Oct 8 '20 at 7:51
  • Hello @Peter-ReinstateMonica . Thx for the comment. I updated the example so that adding or not the parenthesis changes the actual operation – Jean-Marc Volle Oct 8 '20 at 7:53
  • Yeah, it does; but again, there is no danger of confusion between the different semantics of the asterisk. I suppose that confusion is impossible because you cannot multiply pointers (I bet you you could in early -- pre-ANSI -- versions of C). – Peter - Reinstate Monica Oct 8 '20 at 7:56

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