hey tuskiomi

Hello

question for context: stackoverflow.com/questions/72723715/…

the way I think about this is to ask myself "who owns the string?"

start with figuring out who's going to own it. is it do_something(), or is it the caller?

every object has to have an owner

do_something will own it until return reassigns it to the caller, ideally

as long as do_something doesn't start a thread, that should work.

ok yes great

so format!(...) returns an owned String

if you think about it, it's kinda doing the same thing as your function as far as ownership goes

it creates a string "somehow" internally, and then ends up returning a String to you

I follow

it gives ownership to you

ok and then you want to pass ownership to your caller

so like format!, you should also return a String

why can't a &str come with implicit ownership of the underlying data?

or even explicit ownership

right, good question

so... when you return a &str you're saying "I'm not going to let you own this string, but I'll let you borrow it for a while"

but if you're not transferring ownership, that means you still own it

you being do_something

so maybe I'm confusing &str with *str?

but that doesn't work... cause you're returning... you're not going to exist in a few nanoseconds

*str is very similar

or maybe *String? I've never worked with a language with 2 string types...

are you coming from another language? maybe I can make an analogy with C++ or python or JS or whatever

Go?

Objective C as well

lol dang you hit my weak spot. my go is pretty rusty :P

I think go garbage collects everything, and strings are behind references. is that right?

I'm alright with C, if you are as well

Strings are literals in Go, no difference between String and char[]

ok let's see. this doesn't translate directly to C cause C's memory management is quite a manual process

(except syntax)

you know what, my analogy idea isn't working out

VHDL is my best understood language.. idk. longshot

let's go back to "why can't a &str come with implicit ownership of the underlying data?"

sure

I guess that's fundamentally what the distinction is between String and &str

so is String a reference, even if outwardly, it isn't?

in garbage collected languages like Go and Java and Python, strings have more bookkeeping information attached to them than in Rust

I suppose that would make sense as you can dereference a String.

Right, that makes sense

those languages have extra info like reference counts that keep track of who has references to the strings

it makes it easy to pass them around. there's always a bookkeeping cost though. reference counts have to be increased and decreased

and it takes a little extra memory

yes.

rust says, I can keep track of this stuff at compile time so there's zero runtime overhead

it's super fast and cheap

BUT you have to be more explicit about what exactly you want

if you want to OWN a string, you need a String

then you the owner can let other people BORROW your string, you can give them &strs

or you can transfer ownership by giving them the String, and giving up your String

So then why isn't a borrowed value simply denoted by a prefix, like a reference & or a pointer *?

if you let someone borrow your string you are on the hook for keeping that string alive

oh like why isn't it String and &String?

or str and &str?

why does it switch names too?

Not exactly

well, a borrowed value is denoted by a prefix: &

always?

yeah

aren't Vectors borrowed? or am I mistaken

ie: you can't return vec!(4,5,6)

Thing is an owned object, &Thing is an immutable borrow, and &mut Thing is a mutable borrow

Vec is an owned type

huh, and pointers aren't owned?

you can return vec![4,5,6], return type would be Vec<i32>

er, rather pointers cannot be borrowed*?

pointers as in *?

yes

yeah pointers are a whole 'nother thing. they're usually an escape hatch from the borrow checker

usually used in unsafe code

they're not normally used in "regular" rust code, they're more for low-level unsafe stuff. interfacing with C code. or sometimes to get around limitations of the borrow checker people will use pointers

So then is a rust reference the same as a c++ reference then? it really seems like it's not a reference at all, but something to indicate pass-by-reference and data-owned-elsewhere

that's the closest C++ analogue, yeah

C++ doesn't track ownership or borrowing at all though

for example, if you did the equivalent of what you're trying to do in Rust, but in C++

std::string &do_something() {
    return std::string("error!");
}

that will compile. BUT it has the very same ownership problem as the rust code

the std::string is a temporary object that is destroyed when do_something returns

so returning a reference to it is a bad idea

using the return value will almost certainly cause the C++ program to crash

whereas Rust is straight up refusing to let you return a &str

a reference to a string that won't live long enough

it has no issue with string literals

it's only when I format! something

yes indeed. right you are

so who owns that string?

love it. the perfect question

well let me turn it around. can you think of who owns it?

it is indeed owned, and it's not by do_something()

like where in your computer is that string literal stored

If I think about what the compiler would do, I think it would likely inline it to a global static memory space, and... clone(?) it when the function returns with new ownership data?

yes that's it, it's in a global static memory space

it's "owned" by your executable, so to speak

the executable is not going anywhere, so these static strings are never dropped

does that mean that if the caller of the function edits the result via string manipulation, then every return thereafter will be tainted?

yeah

the saving grace is that &str is an immutable reference. it doesn't let you modify the string

you would need a &mut str

oh. right, and most string manipulation makes use of cloning anyways.

so then I take it that a &mut string cannot be literal?

right

is that best practice, or is that enforced?

if you try to do let s: &'static mut str = "literal"; it won't compile

it's enforced. the only way around it is with unsafe

gotcha. so.. there's really no way to manually assign who's borrowing what

there are ways. it's more than I can explain here

but you may have seen things like Rc and Arc -- smart pointers

or things like RefCell and Mutex -- wrappers that allow for interior mutability

I've heard they're related to Cells, but no clue how

yeah I'd say read or re-read the chapters in the Rust Book about this stuff

One last question. can I make a variable un-borrowable?

tbf it took me quite a while to get comfortable with cells and arcs and whatnot

hmmm

(besides wrapping it in another data structure)

why do you ask?

because I like my C references dangit!

haha

hehe

what do you mean by un-borrowable?

hmm

That whoever is borrowing the value is the owner, and passing the value to methods temporarily reassigns ownership until the method exits.

&mut references are essentially that, if I understand you right

a &mut reference lets someone else use your object

and they have exclusive access to it

nobody else can borrow it until they give up the &mut borrow

that's like temporary ownership

I was reading about those today...

and the way they work internally, you'd think that they'd be written as &mut<T> instead of &mut T

mut is treated as a special type-keyword hybrid it seems

anyway, just some random thoughts.

Thank you for the help, I understand a little better.

cool, hope that helps

it took me a long long time to get comfortable with this stuff

With the way I work.. I don't really get comfortable as much as I get complicit

these concepts just don't exist in any other language

heh!

^ You can do lifetimes in VHDL, though they're not annotations, and they're funcitonal

so maybe not lifetimes, then :S

Anyway, thank you again for your help!

yeah cheers!

I just want to hop in here and say that I loved reading the discussion here from afar. @JohnKugelman, you've been an amazing mentor. And @tuskiomi, you've been very receptive and attentive, especially nice to see considering the comments in your question seemed... frustrating. Glad you guys were able to talk things through.

@kmdreko aww <3

Ze hammer ist gud

But if your only tool is a hammer then every problem looks like a nail.

Good thing I have other tools then.