1

i have found in the c167 Dokumentation a note on arithmetic of pointers. There are two macros _huge and _shuge.

A cite from the Doku:

_huge or _shuge. Huge data may be anywhere in memory and you can

also reference it using a 24 bit address. However, address arithmetic is

done using the complete address (24 bit). Shuge data may also be

anywhere in memory and you can also reference it using a 24 bit address.

However, address arithmetic is done using a 16 bit address.

So what is the difference in the usage of _huge vs _shuge? In my understanding the arithmetic of pointers is using an offset from a start address

Example of what I understood so far:

&a[0] + 1 where one element of a is int32 &a[0] gives me the address of the first element thi s would be equal to 0x1234211 + 32Bit for example.**

Is there a difference considering the Note from above and what is the difference in _huge and _shuge?

best regards

2 Answers 2

1

Huge was used in the (good?) old 8086 family mode addressing. These were 16 bit processors with a 24 bits address bus. A full address was given by a segment (16 bits) address and an offset (again 16 bits), with the following formula:

linear_address = segment * 16 + offset

The difference between 2 _huge adresses was computed by first converting both to 24 bits linear addresses and substracting that value, while for _shuge one, segment and offset were separately substracted.

Example 0010:1236 - 0011:1234 would give 0000:0012 (18) if computed as _huge and 0001:0002 as _shuge

2
  • Hello Serge, I honestly dont understand your example: Due to your explaination I converted 0x00101236 and 0x00111234 to decimal. 1053238 - 1118772 = -65534 converting this in hex is something like FFFF FFFF FFFF 0002 in 32bit May 25, 2020 at 12:52
  • Now i got it you mean logical address on the architecture written as segment:offset May 25, 2020 at 12:56
1

It's obliquely explained on the 17th page (labeled as page 7) of this PDF: https://www.tasking.com/support/c166/c166_user_guide_v4.0.pdf

By default all __far pointer arithmetic is 14-bit. This implies that comparison of __far pointers is also done in 14-bit. For __shuge the same is true, but then with 16-bit arithmetic.This saves code significantly, but has the following implications:

• Comparing pointers to different objects is not reliable. It is only reliable when it is known that these objects are located in the same page.

• Comparing with NULL is not reliable. Objects that are located in another page at offset 0x0000 have the low 14 bits (the page offset) zero and will also be evaluated as NULL.

In other words, _shuge pointers' bits above the lowest 16 are ignored except when dereferencing them. You may also note that _shuge pointers have 16-bit alignment, meaning their lowest 4 bits are always zero and therefore only 12 bits need to be considered in comparison or subtraction.

2
  • Does this mean in some strange szenario when I use a Pointer as reference to call an Object I might get a "wild pointer" since the bits above the lowest 16bit are ignored? Or is this only true for arithmetic operations? that the bits are ignored? May 25, 2020 at 12:30
  • It's only true for arithmetic, not for dereferencing, as I mentioned. May 26, 2020 at 5:05

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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