this post was submitted on 19 Oct 2024
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[–] [email protected] 0 points 3 weeks ago (2 children)
  1. The whole article overall lacks sources.
  2. That section is completely unsourced.
  3. It doesn't say what you think it says.

You were arguing the definition of "X-bit CPU". We're not talking about "X-bit ALU". It's also not up to contention that "A 64-bit integer is 64 bit wide". So, to the statement:

Also, 64-bit central processing units (CPU) and arithmetic logic units (ALU) are those that are based on processor registers, address buses, or data buses of that size.

This does not say which of "processor register, address buses, or data buses" applies to CPU and which to ALU.

Obviously 64 bits means registers are 64 bit, the addresses are therefore also 64 bit,

Having 64 bit registers doesn't necessitate that you have 64 bit addresses. It's common, incredibly common, for the integer registers to match the pointer width but there's no hard requirement in theory or practice. It's about as arbitrary a rule as "Instruction length must be wider than the register size", so that immediate constants fit into the instruction stream, makes sense doesn't it... and then along come RISC architectures and split load immediate instructions into two.

otherwise it would require type casting every time you need to make calculations on them

Processors don't typecast. Please stop talking.

[–] [email protected] 1 points 3 weeks ago* (last edited 3 weeks ago) (1 children)

Processors don’t typecast. Please stop talking.

Which is why it's such a pain, because you have to do it manually:
https://lemire.me/blog/2021/10/21/converting-binary-floating-point-numbers-to-integers/

[–] [email protected] 0 points 3 weeks ago* (last edited 3 weeks ago) (1 children)

I'm sorry are we somehow assuming floating-point pointers, now, of course you need to convert there. "casting" is a specific thing you do in C which may or may not involve conversion of actual data. Processors don't speak C. Processors don't have a type system.

You can use 32-bit pointers in x86_64 long mode, no issue. You don't even need to bit-fiddle: mov rax, [esi] is perfectly legal. Opcode 0x67488B06. Dereferencing rsi would be 0x488B06.

[–] [email protected] 1 points 3 weeks ago* (last edited 3 weeks ago) (1 children)

I’m sorry are we somehow assuming floating-point pointers, now, of course you need to convert there.

"floating-point pointers" is not a thing:

“casting” is a specific thing you do in C

No it's not:
https://en.wikipedia.org/wiki/Type_conversion

In computer science, type conversion,[1][2] type casting,[1][3] type coercion,[3] and type juggling[4][5] are different ways of changing an expression from one data type to another.

You don't even have a clue, you are just talking trash.

In assembly you don't generally talk about pointers, but address modes. Like register, immediate or memory (indirect).

Have you ever actually been programming any serious assembly? Because you sure don't sound like it.

[–] [email protected] 0 points 3 weeks ago* (last edited 3 weeks ago)

Great! Now please explain how opcodes are expressions. Also, what processor instruction a cast from one pointer type to another pointer type corresponds to.

You are way out of your depth here. Have you even implemented a compiler.


EDIT:

You don’t even have a clue, you are just talking trash.

In assembly you don’t generally talk about pointers, but address modes. Like register, immediate or memory (indirect).

Have you ever actually been programming any serious assembly? Because you sure don’t sound like it.

Oh cute edit to make to make my response look bad retroactively.

But as you wanted to get pedantic: A pointer is a value which is intended to be dereferenced, that (hopefully) corresponds to a valid memory address. "address", "pointer", "reference", it's a matter of taste which one you use. It exists "in assembly" just as "an index" exists in C: Not because it's a language feature, but because it's a concept you use when writing in the language. And yes I speak pretty fluent x86, at least the non-SIMD part. Did I mention that I was there, at ground zero "why is is thing not compiling in 64 bit mode" times, fixing code?

Now, back to my question:

what processor instruction does a cast from one pointer type to another pointer type corresponds to.

Figuring out the answer to that will tell you everything you need to know about where you went wrong. Where you went from talking about actual concepts to arguing semantics.