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In this video, taken from Stanford's CS107 lecture, the professor seems to state that casting a void* to a char* will do the same thing in terms of arithmetic as casting it to an unsigned long.

The part in question goes from 44:30 to around 46:00

He says they are "both 4-byte figures"

I understand casting the void* to a char*, because it will assume arithmetic is sizeof(char) = 1. But I don't get how you could do the same thing by casting it to an unsigned long* because the arithmetic will be in units of 4. What am I missing?

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Not unsigned long * - just unsigned long - i.e. treat the pointer as an integer. – Paul R Jun 19 '12 at 7:59
It's not casting to unsigned long*, but casting to unsigned long, the integer type. But it's not guaranteed that unsigned long is sufficiently large to hold all addresses, better to use uintptr_t. – Daniel Fischer Jun 19 '12 at 8:00
Even with uintptr_t, it's not actually guaranteed for a char* p that ((uintptr_t)p)+1 == (uintptr_t)(p+1). It's very likely, though, since you would need some weird hypothetical architecture in order for the "natural" conversion between pointers and integers not to work like that. If the machine had 4-bit addressing, for example, but was forced to "fake up" an 8 bit byte in order to conform to C. – Steve Jessop Jun 19 '12 at 8:36
up vote 2 down vote accepted

He says they are "both 4-byte figures"

This may well be true on a particular platform, but neither is guaranteed to be the case in general.

But I don't get how you could do the same thing by casting it to an unsigned long* because the arithmetic will be in units of 4. What am I missing?

He is not casting to unsigned long*, he is casting to unsigned long.

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Ahh, okay. Wouldn't you be able to cast to an int then? Why specifically unsigned long? – ordinary Jun 19 '12 at 8:09
@AvanishGiri: int is not necessarily pointer-sized; long is the 'traditional' choice for that, and the standard recommends that size_t shall have no greater conversion rank than long if possible; on architectures with a flat address space, this generally means that you can use long to store addresses if the recommendation is followed; however, not all platforms - Win64 probably being the most important one - do follow it; the lack of an integer type of as least pointer size was recognized as a defect and lead to the introduction of (u)intptr_t – Christoph Jun 19 '12 at 8:29

The statement may be true on that professor's particular machine on a particular Tuesday of last year, but in general, it's wrong. If char * and unsigned long could be treated the same, C wouldn't need two distinct types.

What the professor probably wanted to say is the following rule:

For a variable of any pointer type (except void pointers), the following holds: p + 1 == (T*) (((char*)p) + sizeof(*p)) (where T is the type of *p), i.e. adding 1 to a pointer increases it by the size of the type that it points to.

Since sizeof(char) == 1, x+1 will have the same value if x is of type char * or unsigned long, given that sizeof(char *) == sizeof(unsigned long), which is not to assume unless "you know what you're doing".

Note that the actual representation might differ for various reasons, most notably since unsigned long may have padding bits anywhere in its representation.

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Steve: Arr! That's what I meant, but I certainly failed to express it correctly. – Philip Jun 19 '12 at 8:47

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