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I'm writing a single level cache simulator in C for a homework assignment, and I've been given code that I must work from. In our discussions of the cache, we were told that the way a small cache can hold large addresses is by splitting the large address into the position in the cache and an identifying tag. That is, if you had an 8 slot cache but wanted to store something with address larger than 8, you take the 3 (because 2^3=8) rightmost bits and put the data in that position; so if you had address 22 for example, binary 10110, you would take those 3 rightmost bits 110, which is decimal 5, and put it in slot 5 of the cache. You would also store in this position the tag, which is the remaining bits 10.

One function, cache_load, takes a single argument, and integer pointer. So effectively, I'm being given this int* addr which is an actual address and points to some value. In order to store this value in the cache, I need to split the addr. However, the compiler doesn't like when I try to work with the pointer directly. So, for example, I try to get the position by doing:

The compiler gets angry and gives me errors. I tried casting to an int, but this actually got me the value that the pointer was pointing to, not the numerical address itself. Any help is appreciated, thanks!


int load(int * addr) { 
  int value = (use_memory ? (*addr) : 0);
  intptr_t taddr=(intptr_t) addr;
  int npos=taddr % blocks;
  int ntag=taddr / blocks;
  printf("addr is %p, taddr is %p, npos is %d and ntag is %d\n",addr,taddr,npos,ntag);

When addr is passed in, it's actual address is 58, and it points to a value of 88. The output I'm getting from that printf is:

addr is 58, taddr is 58, npos is 0 and ntag is 11

So it seems taddr is getting 58 (when printed with %p, still shows 88 when printed with %d), but npos and ntag are showing up as 0 and 11 (as though the mathematical operations are being run with 88) instead of 2 and 7 as I'd like.

The code is used like this:

void load_words (int n, int words[]) {
  int i;
  for (i=0; i<n; i++) {
    load( (int *) (words[i] * 4));
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Casting a pointer to an int will not give you the value it's pointing to. However, you should generally cast to intptr_t instead. Also, please post some actual code. –  Matthew Flaschen Apr 28 '10 at 1:24
I put up some code now, as well as the output I'm getting. I want taddr to be the same thing as addr (58), so that I can use modulo and division operators on it. edit Also, am getting "`intptr_t' undeclared (first use in this function)" if I try to cast as such. –  Joseph Apr 28 '10 at 1:32
blocks is just an int. I just updated the code in the original post, with the new output. –  Joseph Apr 28 '10 at 1:39
@Airjoe heh. Beginner mistake: %p prints things out in Hex (base 16) not Decimal (base 10) as %d does. –  Earlz Apr 28 '10 at 1:44
That pastebin link is the "good" code my professor gave me, yes. I have a strong feeling my professor might be off the ball, because he is usually a Java professor and this semester is teaching a low level computer organization class. I really don't understand why the heck he's not using & or why he's multiplying by 4. For now, I'm going to mark this as resolved until I discuss with him. Thank you all for your help, sorry for the time. –  Joseph Apr 28 '10 at 1:58

5 Answers 5

up vote 4 down vote accepted

The C99 standard says that a conversion from a pointer type to an integer type or vice versa is implementation defined behaviour ( and, except where one uses intptr_t or uintptr_t defined in <stdint.h>, however says these two types are not compulsory and an implementation does not need to provide them.

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You should use something like

int *pointer;
intptr_t address=(intptr_t) pointer;

and this is mainly just a correction on @Andrew's post

So your function should become

(oops forgot this was homework. I'll roll back this question in a while. Can't straight give you the answer :) )

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Updated my code as described, still am getting the following output: addr is 58, taddr is 88, npos is 0 and ntag is 11 When I expect npos to be 2 and ntag to be 7. –  Joseph Apr 28 '10 at 1:41
@Air if you go to easycalculation.com/hex-converter.php and put in 58 it will be 88. The values are actually the same, they are just being displayed in a different base. –  Earlz Apr 28 '10 at 1:47
I'm quite sure this is the most standard way of converting a pointer type to an integer type. +1. –  dreamlax Apr 28 '10 at 2:02
int *pointer;
uint32_t address = (uint32_t) pointer;

Except of course, you have no guarantee that an int* fits in an uint32_t, so you need to pick the right types for your platform.

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How can I go about picking the right type for the platform? I'm getting a "`uint32_t' undeclared (first use in this function)" which I assume means it's not the right type. –  Joseph Apr 28 '10 at 1:26
try "uint32" instead. –  mingos Apr 28 '10 at 1:33
@Airjoe, make sure you're including <stdint.h>. –  dreamlax Apr 28 '10 at 1:34

Decimal 88 is 0x58 (hex 58). When you use the %p specifier with printf, the hex representation is printed out. So both addr and taddr are decimal 88, and your calculations are correct.

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Right, Earlz explained this above. So the 58 is not what I thought it was, and my calculations are still wrong. (I thought 58 was the actual address in memory, and I was wondering why it was such a small number...). I need to split the actual memory address, which I guess I can't find at all now. –  Joseph Apr 28 '10 at 1:49
The specification for the %p format specifier says: "The argument shall be a pointer to void. The value of the pointer is converted to a sequence of printing characters, in an implementation-defined manner." It doesn't have to print in hexadecimal, it could print in octal or decimal, but hexadecimal is probably the most common representation. –  dreamlax Apr 28 '10 at 2:00
Something here doesn't add up. Where does the parameter addr come from? What are you passing into the function? I suspect you're doing this: int * value = 88; load(value); Instead, you should be doing the following: int value = 58; load(&value); That will pass the address of the variable value into your function. –  Ray Apr 28 '10 at 2:01

One important thing not already mentioned here. When you print a pointer with the %p specifier, then you should cast the argument:

printf("addr is %p\n", (void *)addr);

%p expects a pointer to void, and a specifier/argument mismatch for printf is undefined behavior.

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