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I am reading Ravi Sethi's book about the programming language concepts, and there it says

int *i1;  
int *i2;

After these declarations, the types of i1 and i2 are not name type compatible. In a language that uses name type compatibility, variables i1 and i2 could not be compared or assigned to each other.

I wonder why are not they name compatible? They have the same name type:int. Can somebody explain this and give an example of a valid pure name equivalence? Thanks

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In the context of C++, I don't think this makes any sense... –  Oliver Charlesworth Mar 19 '13 at 0:05
Is this an excerpt of the book by any chance? users.dickinson.edu/~wahlst/356/ch5.pdf –  JBentley Mar 19 '13 at 0:10
@JBentley yes, there is the example –  user2110714 Mar 19 '13 at 0:14
His context seems to be this: A type constructor is an operator that builds new types. For example, in C++ the type constructors include: [], struct, class, union and *. and Name Type Compatibility [...] 2. no constructed type (expression containing a type constructor) is compatible with any other. Perhaps that will help someone else answer your question. –  JBentley Mar 19 '13 at 0:17
So, why are i1 and i2 are incompatible in his context? –  user2110714 Mar 19 '13 at 0:18

1 Answer 1

up vote 2 down vote accepted

Neither of them has the type int. Both are typed as pointer to int. I think Sethi's point is that in a hypothetical language using (only) name equivalence, these two pointer-to-int type expressions create two different types that are not compatible – much like two identical uses of new create distinct, non-equivalent objects.

In a name equivalence language, you have to give a name to a type expression to use it more than once type-compatibly. In C++ syntax, that would require using typedef:

typedef int *intp;
intp i1;
intp i2;

Now, i1 and i2 have name-compatible types.

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