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I'm trying to learn how C++ compilers handle references and pointers, in preparation for a compiler class that I'm taking next semester. I'm specifically interested in how compilers handle references in C++.

The standard specifies that a reference is an "alias," but I don't know exactly what that means at the compiler level. I have two theories:

  1. A non-reference variable has an entry in the symbol table. When a reference to that variable is created, the compiler simply creates another lexeme that "points" to the exact same entry in the symbol table (and not to the non-reference variable's location in memory).

  2. When a reference to that variable is created, the compiler creates a pointer to that variable's location in memory. The limitations on references (no null values, etc.) are handled when parsing the context of the language. In other words, a reference is "syntactic sugar" for a dereferenced pointer.

Both solutions would create an "alias," as far as I can tell. Do compilers use one and not the other? Or is it compiler-dependent?

As an aside, I'm aware that at the machine-language level, both are "pointers" (pretty much everything other than an integer is a "pointer" at the machine level). I'm interested in what the compiler does before the machine code is generated.

EDIT: Part of the reason I am curious is because PHP uses method #1, and I'm wondering if C++ compilers work the same way. Java certainly does not use method #1, and their "references" are in fact dereferenced pointers; see this article by Scott Stanchfield.

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why do you think that compiler cannot use both depend on context? – Slava Jan 15 '14 at 18:17
The standard doesn't require references to even require storage, so either of your two theories could be correct. The only way to really know is to open up the source for your compiler and check (or ask someone who implemented your compiler.) – bstamour Jan 15 '14 at 18:21
@Slava: I suppose it could, I just assumed that treating it one way or the other would make the compiler's code "better" (more consistent, easier to maintain, etc). On the other hand, I don't know what advantages one approach has over the other, or even if there are any. – Karl Giesing Jan 15 '14 at 18:23
@KarlGiesing I would say theory N2 is universal and can be used everywhere, though N1 can be used on special cases for optimization. But compiler developers should know better. – Slava Jan 15 '14 at 18:41

Understanding pointers and references is quite different than implementing the code for them.

I suggest you learn how to use them properly and focus on the core of compiler theory. The fundamental compiler theory class is difficult enough without the concepts of pointers, references and inheritance. Pointers and references are left for a more advanced class.

Simply put: use references when you can, pointers when you must.

Edit 1:
Compilers can implement references and pointers in any way they want as long as their syntax and semantics behave according to the language specification.

A simple implementation is to treat references as pointers with additional attributes.

Everything in memory has a location, i.e. address. The compiler may have to use internal pointers to load from memory into registers and to store register contents into memory. So to refer to a variable in memory, whether by pointer, reference or alias, the compiler needs the address of the variable. (This does not include register variables which are treated differently.) So using pointers for references or aliases saves some coding.

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