Regardless of provided convenience of references over pointers such as needleless of dereferencing and rules specific to use of each ,

is there any logical reason to provide two language constructs as pointers and references or is it just a syntactic sugar?

(I guess the ultimate underlying implementation that compiler would use the same steps for references as do for pointers with implying/checking for rules defined for references by a language.)

NOTE : the question is not about rules have defined by languages on references such as "references are not allowed to assign NULL in C++ but pointers" etc.

  • In C++, a reference is an alias for an object. It goes well beyond syntactic sugar: it always refers to one and the same object, and it does not support pointer arithmetic. – juanchopanza Jul 7 '13 at 11:25
  • This sounds like an interesting question, but I can't quite figure out what you're asking. How do Go and C++ play a role? What exact "difference" are you looking for? Could you please clarify the question? – Kerrek SB Jul 7 '13 at 11:40
  • @Kerrek Go and C++ have included to make the question to be specific hence allow to provide concrete answers.Further both languges have same semantics for refs and pointers. – nish1013 Jul 7 '13 at 12:35
up vote 3 down vote accepted

You are asking two questions, if I understand correctly

  1. What is the difference between pointers and references
  2. Why support both data types

Here goes:

  1. A pointer refers to a location in memory where a datatype resides. The size of a pointer is fixed, given the underlying hardware, generally 4 or 8 bytes - totally regardless of what it is in fact pointing to. Furthermore, a pointer can be passed to a function using an invalid value - foo(reintepret_cast<int *>(0xDEADBEEF) );. In contrast, a reference ensures that the underlying data is valid - since the reference is an alias the the object itself and can't be moved from being so (providing the the referenced object is still in scope - edited per remark below).
  2. There are reasons to support both types. The first reason is to ensure that data that is passed to functions is valid - without wasting cycles on testing pointer validity (not NULL). The second reason is that one can be sure that not only is the data pointing to a valid location, it is also pointing at a valid data object. But the main reason is that a reference allows us to enjoy the benefit of calling a function without passing arguments by value, yet still maintaining a guarantee that the argument refers to a valid value.
  • @levngli. Very constructive answers , many thanks for that. Would you be able to elloborate 'alias' concept as a part of this answer to make this answer futher valuable. – nish1013 Jul 7 '13 at 12:44
  • Sure, the meaning of alias is that the reference refers to the exact object. In other words, if you have an object such as int foo and a function with the signature bar(int &rZog) and you call bar(foo), within bar - rZog and foo are the same. The ramification is that changes to rZog will be valid in foo after leaving bar. Should bar be implemented as void bar(int &rZog) {rZog *= 2;}; once called, foo itself will have been multiplied by 2. – levengli Jul 7 '13 at 16:28
  • 1
    "In contrast, a reference ensures that the underlying data is valid" Not true. If you have a reference to a variable that is then out of scope, it is no longer valid. If you pass that reference, it is still invalid. – newacct Jul 9 '13 at 22:13

You should ask Bjarne Stroustrup why C++ has references. Amongst other places, he provides his rationale in Section 7.7 References, The C++ Programming Language, Fourth Edition on page 189. See also p. 86 of The Design and Evolution of C++.

  • would you able to provide a summary here? – nish1013 Jul 7 '13 at 19:22

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.