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thayne 2 hours ago [-]
> Go doesn't support such generic interface methods because we don't know how to implement (calls of) them, or at least we don't know how to implement them efficiently.
I don't really understand this argument. I read the discussion linked to[1], and yeah, monomorphization approaches (whether at compile time, link time, or runtime with JIT) are obviously going to be difficult or impossible, but the reason against using runtime reflection is mostly that it's slow. But that runtime reflection is exactly how you would work around it today.
For the Identity example, could the interface be compiled to be basically equivalent to:
Identity(any) any
and then at the callsite add a cast of the return type to T?
I suppose primative non-pointer types add a bit of a wrinkle but even if it generic methods was restricted to pointer types, that's better than nothing. And the number of those types is relatively small, so when the implementation is compiled it could just instantiate method implementations for all the primative types, if they apply, and then maybe remove them if they aren't needed at link time.
Of course it's also possible there is some detail I've missed.
This will finally let me make the monad library I've been dreaming of for years. Be afraid.
bonesss 8 hours ago [-]
A monad library in go can really on have one name… …
oh_fiddlesticks 7 hours ago [-]
Go nad or go home
throwaway894345 4 hours ago [-]
Mongo
zephen 4 hours ago [-]
Mo-go?
dnnddidiej 4 hours ago [-]
Can we have Exception monads? Asking for friend.
assbuttbuttass 2 hours ago [-]
It's (sadly) still not possible to express monads with this change, since generic methods can't implement interfaces. You'd probably want something like:
type Monad[T any] interface {
Bind[U any](func(T) Monad[U])
}
However this requires the Bind method to be generic, which still isn't allowed in an interface
_jackdk_ 11 minutes ago [-]
I am not very familiar with Go and especially not its generics support. Can you implement the "join" version instead of the "bind" version, where you turn a T[T[a]] into a T[a]?
nasretdinov 9 hours ago [-]
We already have monads at home (return X, err)
nasretdinov 13 hours ago [-]
Lack of generic methods was really surprising to me when I was first trying to use generics in Go. Nice to see it being actually implemented
ncruces 12 hours ago [-]
To be replaced by the surprise when you figure out these methods don't implement interfaces.
Still, in this case, half the feature is better than none at all, IMO.
4 hours ago [-]
nasretdinov 11 hours ago [-]
Generic interfaces are going to be implemented later too if I'm reading correctly. So no real surprises there :). I guess the only surprise yet is that generic interfaces aren't supported, so generic methods physically can't satisfy any interface
kbolino 6 hours ago [-]
Generic interfaces already exist. Generic interface methods, which would be relevant, are not planned. The reason is outlined early in the proposal: nobody knows how to implement them efficiently. Rust has the same problem, for what it's worth: dispatchable functions on dyn-compatible traits cannot be generic [1].
Or to look at that from another angle, if you were to define a Trait which has generic methods that Trait won't be "dyn-compatible" meaning that you can't do dynamic dispatch with this trait, which may be irrelevant to you (if you don't want dynamic dispatch anyway) or a showstopper (if you needed it, now your project won't compile).
dwattttt 4 hours ago [-]
That is another way of looking at it, but given the topic, you're gonna have to expand or contextualise that. I Rust a fair bit, and only barely follow.
tialaramex 2 hours ago [-]
Actually in hindsight I think my perspective was less helpful because you can write a dyn compatible trait with a generic method it's just that you can't call the method via the trait objects, dynamic dispatch isn't possible for your function. So the original way to think about it was superior.
EdwardDiego 3 hours ago [-]
Is it because of the kinda built-in duck typing, for want of a better word? The thing where if you have a method (or methods) that matches the signature of method(s) of an interface, you implement the interface without explicitly declaring so?
9rx 2 hours ago [-]
> for want of a better word
Structural typing is the term typically used to describe "static duck typing".
ncruces 9 hours ago [-]
I didn't see anything beyond "this doesn't prevent us from doing it" yet.
Did you?
kardianos 14 hours ago [-]
This is great. Will be useful for data access methods!
As for the detractors, from the first generics proposal this was called out as a "not now", not never. There were questions of implementation. They aren't a super large team, and they try to do things incrementally and do them well.
tczMUFlmoNk 12 hours ago [-]
> As for the detractors, from the first generics proposal this was called out as a "not now", not never.
What? The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods". There is also some similar discussion of the original generics proposal, with language like "then it's much less clear why we need methods at all". (I'm omitting some context, but I don't feel that it changes the meaning.) Those feel much closer to "never" than "not now".)
The post is also subtitled "A change of view".
stouset 10 hours ago [-]
No, you’re clearly wrong; golang was always going to add support for generic functions.
Everyone also wanted and accepted the need for generics. It was always something they wanted to add to the language. Rob Pike never said that that kind of abstraction isn’t what golang is for. It was always just a matter of getting the design right.
Go has always been a systems language. It was one when we thought it was going to fit nicely for low-level, high performance use-cases. Given that the GC, runtime overhead, lack of control over memory layout, and other issues made it a poor fit for what we historically thought were systems language tasks, it’s still a systems language because we’ve grown to understand that the term “systems program” has always meant network middleware that shuttles around JSON and transforms it.
Dependency management too. Modules were something that nobody argued were unnecessary. None of the language developers ever claimed that “you should always build against HEAD, and if upstream breaks you, that’s a coordination problem to be solved socially”. The community didn’t need to independently invent godep, then glide, then govendor, then dep, before the core team finally shipped modules. That was just enthusiastic parallel exploration of a problem space that everyone agreed was a problem.
GOPATH was always understood to be an awkward temporary scaffold that everyone tolerated while the real solution was being designed. The single-workspace model was never defended as philosophically correct or a deliberate feature of the language. When modules arrived, everyone was simply relieved that this obvious stopgap was finally replaced.
The core team always intended to add builtins for min/max. Nobody ever told you to just write `if a > b { return a }; return b` yourself because it was “only two lines.” The fact that every Go codebase in existence had its own copy of this logic, typically buried in a file called util.go, was not evidence of anything being missing from the language.
Range was always a stopgap before iterators could be implemented. Nobody ever argued that iterators were needlessly complicated and went against the spirit of the language. The slices and maps packages provided important missing features that everyone using the language wanted.
Everyone agrees that errors were anemic from the outset. errors.Is/errors.As are nice additions but everything was Just Fine™ before they were added.
Speaking of errors, having two lines of error-handling boilerplate for every line of code is good, and right, and perfect. It’s not verbose; it’s “explicit”. But when that gets changed to be less verbose, we will all agree that it was always a pain and made reading code unnecessarily more difficult and that everyone always expected this to be fixed some day.
I personally can’t wait to see what next development will never have been “against the Go philosophy” and definitely not something that gophers argued was perfect the way it was any time misguided malcontents and rabble-rousers wrongly tried to suggest the language wasn’t perfect the way it was.
jpc0 10 hours ago [-]
> term “systems program” has always meant network middleware that shuttles around JSON and transforms it.
Who are we that has always defined that term that way. For any systems programmer golang has pretty much not been a solution.
Systems is below layer 4 of the network stack, it is building the network stack in the first place.
masklinn 10 hours ago [-]
I think your sarcasm detector has gone missing chief.
Joker_vD 7 hours ago [-]
Um, there is user-level implementation of TCP/IPv4+IPv6 stack in Go [0], developed and used by Google as part of its gVisor.
> I personally can’t wait to see what next development will never have been “against the Go philosophy” and definitely not something that gophers argued was perfect the way it was any time misguided malcontents and rabble-rousers wrongly tried to suggest the language wasn’t perfect the way it was.
I really hope it is more ergonomic error handling. Or maybe sum types/discriminated unions.
stouset 9 hours ago [-]
Those are fine the way they are. I don’t want the language getting more complicated. Rob Pike has said they’ll never happen. Suggestions like this are extremely against the Go way of doing things. Actually the verbosity is a good thing. It’s explicit.
Joker_vD 8 hours ago [-]
> I really hope it is more ergonomic error handling.
They've publicly said no more language changes specifically for better error handling are coming, it will at most be the library-level improvements.
stouset 8 hours ago [-]
So this would be in line, then, with all of the other features they’ve publicly said aren’t coming and aren’t necessary but then do anyway after retconning their original stance?
Joker_vD 7 hours ago [-]
Could esteemed commenters please read the words the Go language team actually wrote?
> Or, we could decide that parameterized methods do not, in fact, implement
interfaces, but then it's much less clear why we need methods at all. If
we disregard interfaces, any parameterized method can be implemented as a
parameterized function.
> So while parameterized methods seem clearly useful at first glance, we
would have to decide what they mean and how to implement that.
Well, they have finally decided what parameterized methods actually mean, and they see how to implement that, and it all seems clearly useful. So...
cyphar 10 hours ago [-]
> The community didn’t need to independently invent godep, then glide, then govendor, then dep, before the core team finally shipped modules. That was just enthusiastic parallel exploration of a problem space that everyone agreed was a problem. When modules arrived, everyone was simply relieved that this obvious stopgap was finally replaced.
And of course, it was replaced with a more correct implementation that was incompatible with that awful stopgap because semantic correctness trumps all. vendor/ trees and GOPATH were never meant to be remotely compatible, and don't you know -- the Go compatibility guarantee(TM) doesn't apply to misuse of GOPATH to work around shortcomings^Wwell-considered designs of Go, even if it breaks the largest Go project at the time!
(/s It still shocks me that they decided to drop "src" from vendor/src and break compatibility when they finally got around to supporting vendoring despite every tool using it. And symlinks don't work because Plan 9 is the future!!)
kardianos 12 hours ago [-]
I could be mis-remembering it. I didn't look up and src it.
dude250711 13 hours ago [-]
Gophers are usually quite fast, perhaps an elderly turtle would be a better mascot?
rob74 13 hours ago [-]
In day-to-day usage, the (fast) compilation speed matters much more than the (slow) implementation of new features.
christophilus 13 hours ago [-]
I totally agree, but I'd go further and argue that slow implementation of new features is itself a desirable trait. It's one of the reasons why why I like both Go and Clojure.
aktau 13 hours ago [-]
Spot on. Heaven forbid it turns into a C++ (I'm not a Rust practitioner but from the outside it seems to accrete features pretty quickly as well).
The ease of grokking Go (both reading and writing) are big advantages, and facilitated by the "small" feature set of Go.
cookiengineer 10 hours ago [-]
> Gophers are usually quite fast, perhaps an elderly turtle would be a better mascot?
The slow turtle wins the race against the overly eager rabbit... so I'm okay with that
h1fra 14 hours ago [-]
slowly implementing all the things they said we didn't need
zarzavat 1 hours ago [-]
Watching Go's development is like reliving the development of Java (which also didn't have generics at first), but over decades instead of years. Cannot wait for Go to implement an error handling system in the 2030s.
CamouflagedKiwi 13 hours ago [-]
They didn't say they never wanted to do generics, but that they did want to take their time and do them right.
Debatable how much they have been "right", although this gets them somewhat closer. And I think they have not been "wrong" in the ways they wanted to avoid (they referenced some issues with Java generics as prior art, although I forget the details).
tines 11 hours ago [-]
From another commenter here:
> The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods".
skywhopper 10 hours ago [-]
Is anyone actually mad about this, or do people just bring it up to stir the pot? Who cares what the FAQ says? They've worked out a way to add it easily in a backwards compatible way that can solve some problems. They had not identified this solution at the time they wrote the FAQ, and Go has been perfectly usable without this feature for 16 years.
tines 9 hours ago [-]
I'm not mad, I'm a proponent of stronger type systems. I'm just correcting the record about
> They didn't say they never wanted to do generics, but that they did want to take their time and do them right.
the_gipsy 5 hours ago [-]
You just can never trust what the go team says.
Matl 5 hours ago [-]
Yeah, because software is not meant to evolve and people are not meant to either.
the_gipsy 4 hours ago [-]
You're not meant to gaslight about the evolution of software.
array_key_first 2 hours ago [-]
Changing your mind is not gaslighting, people just change their mind sometimes.
stouset 9 hours ago [-]
We care that time and time again, when anyone ever brings up a criticism of the language, they’re told that everything is just fine and it’s not a problem and we just don’t get the Go Philosophy. There’s not a problem, stop trying to make Go like every other language, and changing things would make the language more complicated and worse.
Then when the language is inevitably changed for the better, resolving the complaint, suddenly it was always going to happen and it was just a matter of getting the details right.
Every other language community I can think of is more than willing to acknowledge the shortcomings of their language. “Yeah, this kind of sucks in principle but it’s not something that gets in the way in practice” is a fine perspective. So is “this was a tradeoff; we went in this direction and these are the resulting downsides”. But the golang community practically trips over themselves to constantly argue that obvious shortcomings in the language are actually a good thing and we just don’t get it.
Nobody is saying the language shouldn’t improve. We’ve all been begging the language to improve. But we’re also tired of the constant, obvious, and shameless gaslighting from the community whenever things do get better. You aren’t going to like the comparison, but it’s extremely Trumpian.
jamesfinlayson 2 hours ago [-]
Yeah, I worked with a guy in the late 2010s - one of the most painful people I've ever worked with - who would tell anyone that would listen that Go (as it was in 2018) was the perfect programming language - it had all the features you'd ever need - no more, no less. It doesn't need generics, the package management story is fine etc. Thankfully he's been out of my life for a long time now but I believe he's still writing Go, and I bet that he's telling anyone that will listen that Go (as it is in 2026) is the perfect programming language and that its implementation of generics was necessary and perfect etc.
He wasn't the only one but he certainly took it to the extreme.
jaxlfkkgken 9 hours ago [-]
All the butt-hurt oracle trolls that roam hacker news are obviously jealous that a decent language has become more popular than java.
11 hours ago [-]
thayne 9 hours ago [-]
Depends you who "they" is. If you mean the go development team, then yes, they said they wanted to "take their time and do them right"¹. But there are many "gophers" who did say that there was no need for generics, and that it shouldn't be added to the language.
¹ I would argue that it is really, really hard to add generics to a language after it has already matured, and still "do it right" than to add it in the beginning. At least if you care about backwards compatibility. Backwards compatibility adds a lot of constraints to your generics system that will almost certainly lead to a sub-optimal design. And you will be stuck with a standard library, and a lot of existing ecosystem code that would benefit from generics, but don't because generics didn't exist when they were written. This is a lesson I wish go had learned from Java's generics.
someone_19 10 hours ago [-]
I agree that they were clearly not in a hurry. I disagree that they are doing everything right. I am interested to see how they will fix the 'million dollars mistake'.
TheChaplain 14 hours ago [-]
It's not a bad thing to realize that one can be wrong and then strive for change.
a-french-anon 14 hours ago [-]
Maybe, but personally I've become quite tired of programming languages "organically grown" as opposed to properly designed the first time. After a good decade of C then C++, I found ANSI CL (despite being a massive compromise and unfinished) much more coherent and complete than both.
bbkane 14 hours ago [-]
I know Go is justly criticized for many of its design decisions, but it still feels well-designed and "small" to me in day to day usage when many other languages don't.
a-french-anon 12 hours ago [-]
Eh, the thing with generics coming late is pretty much what I meant by "organically grown".
My best litmus test these days is support for multidimensional arrays because it's always needed at some point in general purpose languages. CL and Ada had it right from the start while C++ needed C++23/26 to get std::mdspan and we still need to wrap it to pass the underlying/owned memory pool around (https://rosettacode.org/wiki/Multi-dimensional_array for more).
nish__ 11 hours ago [-]
Doesn't every language support multidimensional arrays? It's just an array of arrays, no? What am I missing?
umanwizard 10 hours ago [-]
An array of arrays is an extremely inefficient and error-prone way to represent multidimensional arrays.
If I want a 1000x1000 array, representing it physically as a single 1000000-element array requires one allocation, and processing it element-by-element (assuming it's stored in the same order we're iterating over it) is sequential in memory and therefore very efficient.
Representing it as 1000 separate 1000-element arrays requires 1000 allocations, and pointer-chasing every time we move from one row to the next.
j_w 8 hours ago [-]
Isn't an array of arrays by definition the sequential implementation?
Otherwise you would have an array of pointers to arrays. The usage (syntax) for them would be the same but the performance would not be.
They also have different uses. You would expect an array of arrays to be an array of arrays which share the same length. For an array of pointers to an array you would expect dynamic length arrays contained within the original array.
Even in c++ could you not just define some int [1000][1000]foo? I've never really used C++ but my C knowledge assumption is that is 1000000 continuous elements.
nish__ 9 hours ago [-]
I see. That makes sense.
xscott 13 hours ago [-]
Scheme is (or at least was) coherent. You don't need to look any further than set/setf/setq to see that Common Lisp is "organically grown" from the fertilizer of a committee. CL does its best to make every other lisp more attractive.
rootnod3 13 hours ago [-]
Which Scheme are we talking about? R5RS? R7RS-small? R6RS? With SRFIs? Without? Which scheme? Is it `(library...)` or `(define-module...)`?
xscott 13 hours ago [-]
Heh, I'd probably take R4RS with define-syntax :-)
rootnod3 10 hours ago [-]
I mean, good choice, but you see the point, right?
As much as ANSI CL has it's flaws, it has a standard, as much of a mixed bag it might be. Scheme is just a general potpourri of "we kinda have a guideline, but do whatever".
I would very much prefer scheme if the different implementations had a working standard. But I can't take my Chez-scheme code and throw it into Guile-scheme.
But pretty good chance I can take my ECL code and throw it into SBCL or LispWorks.
xscott 4 hours ago [-]
> you see the point, right?
Bah, I think this debate was already old when I first saw people arguing it on comp.lang.lisp in the 90s. I don't have a dog in this fight other than to reject the notion that Common Lisp is "coherent" and not "organically grown".
The original Scheme belongs in the category of languages like Standard ML and SmallTalk, where a small, careful, and talented group designed them with focus. Common Lisp seems like a bunch of smart people with competing interest and legacy baselines tried to meet in the middle. To the extent CL is more pragmatic, it's another example of "Worse is Better".
rahen 12 hours ago [-]
Scheme has a coherent and minimalist design, but its ecosystem and abstraction facilities feel too sparse for large applications.
When I started building a Lisp-based machine learning framework, Guile seemed like the right choice because it provides GOOPS and generic functions, yet I still ended up with a lot of boilerplate to compensate for the lack of a strong type system.
Scheme feels to me like C is to C++: not ergonomic for large-scale application development. Go is one of those languages that has both minimalism and productivity.
pizza234 11 hours ago [-]
It isn't realistic to expect a design to be "proper in first place" because requirements change; my opinion is indeed the opposite - I find it natural for programming languages to have a (sort of) lifespan, and for new ones to (sort of) take their place.
array_key_first 2 hours ago [-]
Sure but literally everyone and their mom said these features were needed and then Go team said "nuh uh!!!" But, as it turns out, they are needed because they solve real problems, and are not just fake complexity like some people strawman.
Hopefully next they can add some error handling syntax and controls.
someone_19 10 hours ago [-]
Indeed, in 2012, it was not clear to anyone that generics were needed /s
ndr 14 hours ago [-]
"Any sufficiently complicated C or Fortran program contains an ad hoc, informally-specified, bug-ridden, slow implementation of half of Common Lisp."
-- Greenspun's tenth rule
He had some lack of conviction to scope it so narrowly.
ramon156 14 hours ago [-]
So which language had it right from the start? is there a language that has a very low rewrite status?
poncho_romero 12 hours ago [-]
I think Elixir is a good candidate here. It's small, coherent, and composes well, and (at least to my understanding) the authors consider the language finished, with no new major features planned.
bbkane 14 hours ago [-]
I'd particularly like examples of statically typed languages that "got it right" (since I love me my types)
galangalalgol 13 hours ago [-]
Ocaml maybe? Multi threading didn't seem necessary and introduced the possibility of data races.
maccard 14 hours ago [-]
That’s whataboutism - no language is perfect, but given when go released it’s fair to hold them to a higher standard than languages what were designed 25 years earlier.
As an aside - D, Zig, Rust, even typescript got most of the lessons learned from C right
blanched 12 hours ago [-]
I'm not familiar with D, but Zig and Rust are well-known for continuously evolving.
And besides Rust's high count of RFCs, there are things like async (I'm not complaining about it, but its an obvious large-scale "change"), module system changes, etc.
(To be clear, I like both languages a lot. But I wouldn't call them slow moving or right from the start.)
Maxatar 11 hours ago [-]
D literally can't even maintain backwards compatibility between minor version updates not to mention a big part of the D community left when D reinvented itself with D2. Among languages it's probably the one that is constantly in a state of flux.
rootnod3 13 hours ago [-]
ANSI CL is such a breath of fresh air nowadays. Does what you need, doesn't get in your way, comes with batteries included. And conditions are just god-tier.
iosjunkie 12 hours ago [-]
"properly designed" - ah yes, programming languages are famous for universally agreed upon design philosophies.
boxed 13 hours ago [-]
I liked Objective-C (except the C parts). Such a breath of fresh air coming from C++ which was grown like a cancer with tons of features and you felt trapped by every one of them.
Objective-C in contrast was a very few additions thoughtfully added that composed cleanly and freed the programmer to actually get things done.
skywhopper 10 hours ago [-]
You may be tired of languages evolving over time, but there is no other way to build a rich and useful language.
fhn 11 hours ago [-]
so make your own and let's see how you do
chlorion 8 hours ago [-]
I am actually working on my own language, and getting something better than Go is actually not that difficult!
The hard part about making a language is creating the stdlib and tooling and support for the language, but actually creating a language itself that has more features and better features than go can be done by a single person in a few months or a year probably, depending on how much experience they have.
Generics specifically are a great example here. A single person can implement a language with go-level generics fairly easily.
rootnod3 11 hours ago [-]
Have you?
maccard 14 hours ago [-]
There’s a fine line between being willing to change your mind and getting the basics wrong. Go has repeatedly gotten the basics wrong.
whoiskevin 13 hours ago [-]
Declaring a highly successful language as having the basics wrong means that you are not correct about the basics that were needed.
maccard 13 hours ago [-]
Something can be highly succesful in spite of having glaring design flaws. Nobody is claiming go isn't wildly succesful, but it's _in spite_ of these issues. It was clear over a decade ago that iota, gopath, and lack of generics were massive kneecaps to the language; go changing it's mind on those things isn't progress it's just getting the fundamentals wrong.
A good example of where they're kind of stuck is date formatting - it's stupid, unclear, and likely a mistake, but it's not a fundamental flaw; it's just a quirk.
9rx 13 hours ago [-]
Why is iota a massive kneecap to the language? It is semantically identical to enum in C and Typescript.
The trouble is that Rust is older than Go and it was already confusing people into thinking enums and sum types are the same thing, so by using slightly different syntax, iota, Go avoided the whole confusion of users thinking that enums would behave like sum types instead of actual enums.
Is your attempt at making a point that not having sum types is the massive flaw? Sum types are a useful construct, to be sure, but there are plenty of good languages without them. That's more on the design quirk end, realistically.
maccard 13 hours ago [-]
> Why is iota a massive kneecap to the language? It is semantically identical to enum in C and Typescript.
iota is a massive kneecap _because_ it's semantically identical to enum in C and Typescript.
> Is your argument actually that not having sum types is the massive flaw? Sum types are a useful construct, to be sure, but there are plenty of good languages without them. That's more on the design quirk end, realistically.
In a dream world sure we'd have full blown sum types (and that would give a result type which would also solve a lot of the nil-interface-combined-with-error-handling issues that I've ran into when working with go), but I can forgive that. The problem is this - https://www.zarl.dev/posts/enums
The only case I see made in there is that it doesn't like how Go implicitly converts consts. While that may be a reasonable criticism, it doesn't have anything to do with iota. It is related to the type system and applies in general. Consider the same problem exhibited here:
type Email string
func Send(email Email)
func() { Send("invalid") } // Converted string const does not satisfy Email type expectations
Perhaps you accidentally offered the wrong link?
It was made abundantly clear when Go was released that it was intended to "feel like a dynamically-typed language". Being able to pass arbitrary values is perfectly in line with a dynamically-typed language. Realistically, the type system in Go is there to give the compiler optimization hints, not to offer type safety. Go was targeted at those wanting to use Python, without the programs being painfully slow to run. How much of a kneecap is implicit type conversion, really, when it is already in line with what the target audience is accustomed to? It is a quirk at best.
maccard 9 hours ago [-]
> It was made abundantly clear when Go was released that it was intended to "feel like a dynamically-typed language".
If I google this quote a comment from you comes up here on this exact topic, where you seem to have completely missed the point there too. If I link to the docs [0], the full quote is "It's a fast, statically typed, compiled language that feels like a dynamically typed, interpreted language. " So it is a statically typed language first and foremost. If you want to rehash the discussion and tell people that a flawed type system that people have been asking for a solution to for close to a decade [1] you can just re-read the last time the arugments were made as I don't think I'm going to make any headway there.
> So it is a statically typed language first and foremost.
Right, because that is primarily how it makes things fast. Python is slow largely because it spends an inordinate amount of time trying to figure out what things are. Go knows what things are at compile time because the static type system tells it what things are and thus doesn't have to waste runtime compute on figuring out what things are, aside from when you use the reflect package, like Python does. That was its value-add — that it is kind of like Python, but faster. We already went over this...
> If I link to the docs [0]
I said original announcement, so I'm not sure why you wouldn't look there? Trying to be obtuse on purpose? Regardless, performance was indeed considered more important than being dynamically-typed. After all, if performance wasn't a concern then you'd just use Python. Go exists only because it was solving a problem that wasn't already solved. Slow Python was already solved. Type safety was already solved. It didn't need to go into those territories.
jolux 13 hours ago [-]
Rust is technically older than Go, but who was actually using it when Go 1.0 came out in 2012? Rust 1.0 wasn’t until 2015.
9rx 13 hours ago [-]
The social landscape doesn't depend on anyone actually using it. However, 1.0 isn't a significant milestone like you suggest either. For a current example, Zig is relatively popular today despite not yet reaching 1.0.
stouset 8 hours ago [-]
Do you just forget the things you write in earlier comments?
> Rust is older than Go and it was already confusing people into thinking enums and sum types are the same thing
Of course the social landscape depends on people actually using it. None of the people who weren’t using Rust at the time were magically confused about enums and sum types by the mere existence of some new and experimental language.
Rust barely existed at the time Go was first being developed. And given the history of Go and the notoriety of its core team for flatly ignoring prior work in programming languages, it’s extremely unlikely that Pike et al gave more than a cursory glance to what nascent Rust was doing at the time.
But even if they had, to suggest that they intentionally replicated a dumb thing from C but gave it a different name to avoid users being confused by a different thing from a language that roughly nobody knew about at the time is bananas.
9rx 7 hours ago [-]
> Of course the social landscape depends on people actually using it.
That's nonsense. Brainfuck has shaped the social landscape despite effectively nobody using it, and absolutely nobody using it for any real work. The social landscape is not at all dependent on use.
> And given the history of Go and the notoriety of its core team for flatly ignoring prior work in programming languages
Huh? Go comes straight out of prior work. It is nearly indistinguishable from Alef. What the Go language flatly ignored was being innovative. Reasonably so, of course. It wasn't trying to innovate in programming languages so that we'd have another to throw on the heap of languages nobody uses. It was trying to solve a specific business problem using well-established methods.
stouset 9 hours ago [-]
> Why is iota a massive kneecap to the language? It is semantically identical to enum in C and Typescript.
So is nil. Care to make the same argument?
9rx 8 hours ago [-]
Typescript has something resembling nil as inherited from Javascript, so presumably that's what you are referring to. C and Javascript are the most widely used languages in existence. Clearly they weren't kneecapped. It mightn't be to your preference, but "I don't like it" would be an atypical use for the word "kneecap".
There is a stronger case to be made for the other two. Calling GOPATH a design mistake is a stretch as it was perfectly suited to use within Google, but it didn't fit the typical solo developer's environment. Lack of generics made writing certain types of code difficult. You could be convincing in suggesting that Go did end up being used less than it otherwise would have because of those choices.
iota? It's just a construct that generates numbers (an enum). How does that kneecap anything? If it really bothers you, you can manually number the values by hand instead. Why would anyone reject a language because it allows you to optionally choose to have the compiler assign numbers automatically instead of forcing you to do it manually? The answer is nobody. In fact, most popular languages have something equivalent to iota.
stouset 8 hours ago [-]
Nil exists in C and is widely considered to be a massive mistake in the language. An understandable one at the time, but a mistake nonetheless.
Thus “go borrowed it from C, therefore it can’t have been a mistake” is a pretty lame take. The whole point of a new language is to make improvements on what’s out there already. Go missed an opportunity to fix one of C’s most notorious mistakes. So yes, they kneecapped themselves by forcing all of the users of Go to continue dealing with this well-known footgun.
Does it mean Go isn’t popular? Of course not. C was popular. PHP was popular. JavaScript is popular. Go is popular. This is always in spite of their faults. But Go could have been better.
9rx 8 hours ago [-]
> Nil exists in C and is widely considered to be a massive mistake in the language.
You're almost there, but it is wildly considered to be massive mistake in context of arrays. C has weird array semantics that are confusing and hard to get right, even for seasoned developers. That is where NULL comes to bite people time and time again. Go did not inherit C's arrays. Neither did Javascript. They go out of their way to avoid what C did. In Go, you can come close to the same semantics if you use the unsafe package, but take note the name.
Yes, they still have nil, but the scope is tightly constrained and while it is technically possible to misuse, you have to try pretty hard to do so. There are many other things that are more likely to end up being misused. Those would be the more massive mistakes.
> But Go could have been better.
Obviously. Every language ever created can be better.
stouset 8 hours ago [-]
> You're almost there, but it is wildly considered to be massive mistake in context of arrays.
From Tony Hoare: "I call it my billion-dollar mistake. It was the invention of the null reference in 1965. At that time, I was designing the first comprehensive type system for references in an object-oriented language (ALGOL W). My goal was to ensure that all use of references should be absolutely safe, with checking performed automatically by the compiler. But I couldn't resist the temptation to put in a null reference, simply because it was so easy to implement. This has led to innumerable errors, vulnerabilities, and system crashes, which have probably caused a billion dollars of pain and damage in the last forty years."
Odd that he wouldn't mention the word "array" anywhere in that quote.
> Yes, they still have nil, but the scope is tightly constrained and while it is technically possible to misuse, you have to try pretty hard to do so.
Like by not remembering to check if a pointer is nil? Or actually comparing one typed nil to a different typed nil?
> Obviously. Every language ever created can be better.
Only one of us is arguing that reimplementing C’s mistakes is actually a good thing.
9rx 8 hours ago [-]
> Like by not remembering to check if a pointer is nil?
Rule of thumb is to not introduce values that aren't valid. Equally, don't put in -1 for an age value, even if the language allows you to. You might later forget to validate that the age value is valid.
Yes, mistakes are possible, but these types of mistakes are pretty rare. There is some value in eliminating the possibility of those mistakes, sure, but we cannot pretend that it comes cost-free. There is good reason why almost nobody uses Rocq.
> Or actually comparing one typed nil to a different typed nil?
This is something that is likely to confuse, but not a facet of nil. It is related to interfaces. Let's not flail around like one of those wacky blow up things at the used auto lot.
stouset 6 hours ago [-]
Ah the good old “just be a perfect programmer and you won’t run into any issues” argument. Haven’t heard that one in awhile.
9rx 5 hours ago [-]
If only you had made it to the second paragraph.
Hey, at least we can now understand why you have such a hard time with nil, so that's something.
jeswin 13 hours ago [-]
It's a highly successful language because (1) it was backed by Google, and (2) created by Robert Griesemer, Rob Pike, and Ken Thompson.
If it came out of anywhere else, it might have struggled even to hit the homepage here.
amazingamazing 13 hours ago [-]
This logic is easily shown to not hold. Why isn't Carbon, Dart, etc. not really popular then?
doodpants 12 hours ago [-]
I can't speak about Dart, but Carbon had just barely started development when it was first announced 4 years ago, and is currently presented as an experimental language that is not yet ready for use [0].
Dart was relegated to effectively being Flutter. It was originally intended to supersede JavaScript but no other engine would commit to that. It failed at its initial goal and hasn’t really found a footing outside of Flutter.
Carbon is by its own admittance not ready to use and I think mostly relegated to solving Google’s problems with C++ right now.
Both of them didn’t ship with a standard library as robust as Go’s.
One thing that made Go popular out of the gate is it is extremely good fast to build out robust HTTP services and infrastructure.
This is a very common use case and they tailored Go to be a great fit for it. You can build your entire backend without a single third party module if desired using Go’s standard library and it isn’t terribly complicated to do so.
voidfunc 13 hours ago [-]
Its just bitter dorks bitter their pet language with cutting edge programming abstractions didnt make it to the big leagues.
n6242 13 hours ago [-]
By that logic Windows would be the best operating system ever and perfect in every way, and anyone who disagrees must be wrong about how an OS should be.
hocuspocus 13 hours ago [-]
And Javascript and Python the best languages.
someone_19 10 hours ago [-]
So you mean to say that PHP5 and Js from 2007 had a well-founded design?
The basics of a programming language were wrong. The basics of marketing were very right. Those are not the same.
9rx 13 hours ago [-]
An engineer, of course, understands that there is no such thing as "wrong", only different tradeoffs, but with the rise of "vibe coding" you don't need to be an engineer to play in the world of programming anymore.
OtomotO 13 hours ago [-]
cough JavaScript cough
Jleagle 14 hours ago [-]
Sounds like you want this feature, and you just got it. Not sure how that's wrong. You don't add in every feature from the start.
maccard 14 hours ago [-]
I wanted it 10 years ago.
13 hours ago [-]
tux3 14 hours ago [-]
I don't think anyone admitted any wrong or had any big change in philosophy. It's always a good thing to learn something along the way. But the current message seems to be that this was the plan all along, and it just took some time to design properly.
Of course adding generics is not something that every language needs to do. Scripting languages like Ruby don't really need this style of generics. It doesn't fit the design of the language, and it's not even clear what that would look like in Ruby.
But static typing with generics does solve a recurring problem, and we've seen some real convergence towards type hints and type systems even in staunchly dynamic scripting languages. Modern Javascript is now mostly Typescript, and they've successfully retrofitted a very advanced type system in the last place I would have expected 20 years ago.
galangalalgol 14 hours ago [-]
Type hinting seems like the worst of both. You pay the cost on refactor to go change them all, where dynamic typing or static type inference avoid that. You also don't have any of the benefits of static or dynamic typing. My strong preference is static typing with good inference and an ide that shows the inferred types everywhere when asked. Dynamic typing can make some tasks dramatically easier, I'm just not capable of using them without making hideous mistakes.
ivanjermakov 5 hours ago [-]
Worst thing a programming language can do is introduce core semantics changes after 1.0. See Python 2 -> 3 and Zig's *gates.
metaltyphoon 3 hours ago [-]
Except Zig is not 1.0
layer8 13 hours ago [-]
It’s still annoying ~20 years after Java did the same mistake of not including generics, which was already clear to many people with C++ experience back then.
someone_19 10 hours ago [-]
...and Java didn't even have basic enums or sum types from the beginning. But it had null.
They added enums, they added sealed classes. They're trying to get rid of null (apparently it's really hard). The problem is that in 2012, when go 1.0 was released, this should have been obvious to everyone.
Here's a famous discussion from 2009, three years before the 1.0 release (tldr: facepalm)
I remember back in 1995 thinking that it was stupid for Java not to have generics, so instead you had to always cast Vector/Hashtable elements from Object, or implement your own type-specific container classes for every element type (and there wasn’t even a preprocessor to facilitate the latter).
Sum types I didn’t really miss, because you can implement a type-safe equivalent using the Visitor pattern, and retain an interface-implementation separation that native sum types typically don’t provide.
9rx 14 hours ago [-]
Of course, if you go back and watch the original Go announcement it said that it would need generics once they figured out how to do it. And when the first version of generics landed it was said that generic methods would be added later, once they figured out how to do it. So that isn't applicable here. The need was always recognized.
zarzavat 40 minutes ago [-]
If Go had just taken an off-the-shelf implementation of generics in 2009 then they could have spent the last 16 years deliberating over something useful, rather than attempting to reinvent programming language theory.
The impression I have always gotten from Go's designers is that they are rather arrogant and averse to the idea of using other people's work. They want to develop everything from first principles, but by so doing end up with poor reinventions of well-studied concepts.
fhn 12 hours ago [-]
complaining about things given to you for free
doodpants 11 hours ago [-]
I frankly don't buy into this trope that a lack of monetary cost should shield something from criticism. Anything created by humans for other humans, especially tools meant for getting work done, should certainly be open to evaluation/judgement/critcism, regardless of whether the creator chooses to charge for it.
And it's not like Golang is some freshman student's hobby project; it was created by one of the world's largest tech companies, by people with a strong pedigree in programming language design.
Cthulhu_ 12 hours ago [-]
Where did "they" say "we" didn't need generics? That sounds like a bad faith / misinterpretation / straw man; as someone else pointed out, they postponed generics until they figured out the use cases and whatnot.
Remember that the generics implementations in other languages (like Java) take up half the spec + implementation - that's not something that Go wanted.
tines 11 hours ago [-]
From another commenter here:
> The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods".
entrope 11 hours ago [-]
You keep posting that. Do you understand the difference between that and "we anticipate that Go will never add generic methods"? What they actually said shows epistemic humility and recognizes that they might change their mind.
tines 11 hours ago [-]
Hi! I'm a human being that is trying to understand the world and make friends along the way. I see you are too! Pleased to meet you.
You asked the question
> Where did "they" say "we" didn't need generics?
And I (re)posted a quote from them, which sounds to me like, at the time, they believed that "we" Go users didn't need generics.
They may have changed their mind, which is totally fine! But I do think it sounds like the person you were replying to wasn't commenting in bad faith or misunderstanding or fighting a straw man as you posted. Seems like a reasonable interpretation of what the Go devs had said at one point. To each his own though!
ncruces 9 hours ago [-]
Do you understand the difference between generics and generic methods?
We already had generics when they wrote "we don't anticipate adding generic methods."
tines 9 hours ago [-]
The OP didn't mention generics or generic methods :) They referred to something that was added, after the Go team didn't anticipate adding it. Sounds like a fair point to me!
reactordev 13 hours ago [-]
This resolves a big gap in generics for most people coming from other languages to go so I completely approve this direction. Not saying use it everywhere but if you must use it, it’s better to have it on the struct than call a module level generic func.
mackross 11 hours ago [-]
What a happy surprise today! The amount of times I’ve had to do weird janky package APIs so the API was still reasonable is more than I can count.
samber 12 hours ago [-]
OMG. I'm going to recode some of my libraries.
binary132 13 hours ago [-]
Chasing a perceived gap between language features and user expectations has been and continues to be the greatest error in the leadership of Go.
pizzafeelsright 11 hours ago [-]
The nagging imperative requires a stronger response than the capitulation of identity.
throwpikerob 13 hours ago [-]
A sad day for Go, the pHDs have won, simplicity has died.
sdevonoes 4 hours ago [-]
It certainly makes readability of Go code harder.
EdwardDiego 3 hours ago [-]
If generics replace code generation or hand coding a concrete implementation for specific types or... operating against interface{} and then switching based on runtime type, then I strongly disagree that it makes reading Go code harder, it makes it, IMO, easier.
I don't really understand this argument. I read the discussion linked to[1], and yeah, monomorphization approaches (whether at compile time, link time, or runtime with JIT) are obviously going to be difficult or impossible, but the reason against using runtime reflection is mostly that it's slow. But that runtime reflection is exactly how you would work around it today.
For the Identity example, could the interface be compiled to be basically equivalent to:
Identity(any) any
and then at the callsite add a cast of the return type to T?
I suppose primative non-pointer types add a bit of a wrinkle but even if it generic methods was restricted to pointer types, that's better than nothing. And the number of those types is relatively small, so when the implementation is compiled it could just instantiate method implementations for all the primative types, if they apply, and then maybe remove them if they aren't needed at link time.
Of course it's also possible there is some detail I've missed.
[1]: https://go.googlesource.com/proposal/+/refs/heads/master/des...
Still, in this case, half the feature is better than none at all, IMO.
[1]: https://doc.rust-lang.org/reference/items/traits.html#r-item...
Structural typing is the term typically used to describe "static duck typing".
Did you?
As for the detractors, from the first generics proposal this was called out as a "not now", not never. There were questions of implementation. They aren't a super large team, and they try to do things incrementally and do them well.
What? The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods". There is also some similar discussion of the original generics proposal, with language like "then it's much less clear why we need methods at all". (I'm omitting some context, but I don't feel that it changes the meaning.) Those feel much closer to "never" than "not now".)
The post is also subtitled "A change of view".
Everyone also wanted and accepted the need for generics. It was always something they wanted to add to the language. Rob Pike never said that that kind of abstraction isn’t what golang is for. It was always just a matter of getting the design right.
Go has always been a systems language. It was one when we thought it was going to fit nicely for low-level, high performance use-cases. Given that the GC, runtime overhead, lack of control over memory layout, and other issues made it a poor fit for what we historically thought were systems language tasks, it’s still a systems language because we’ve grown to understand that the term “systems program” has always meant network middleware that shuttles around JSON and transforms it.
Dependency management too. Modules were something that nobody argued were unnecessary. None of the language developers ever claimed that “you should always build against HEAD, and if upstream breaks you, that’s a coordination problem to be solved socially”. The community didn’t need to independently invent godep, then glide, then govendor, then dep, before the core team finally shipped modules. That was just enthusiastic parallel exploration of a problem space that everyone agreed was a problem.
GOPATH was always understood to be an awkward temporary scaffold that everyone tolerated while the real solution was being designed. The single-workspace model was never defended as philosophically correct or a deliberate feature of the language. When modules arrived, everyone was simply relieved that this obvious stopgap was finally replaced.
The core team always intended to add builtins for min/max. Nobody ever told you to just write `if a > b { return a }; return b` yourself because it was “only two lines.” The fact that every Go codebase in existence had its own copy of this logic, typically buried in a file called util.go, was not evidence of anything being missing from the language.
Range was always a stopgap before iterators could be implemented. Nobody ever argued that iterators were needlessly complicated and went against the spirit of the language. The slices and maps packages provided important missing features that everyone using the language wanted.
Everyone agrees that errors were anemic from the outset. errors.Is/errors.As are nice additions but everything was Just Fine™ before they were added.
Speaking of errors, having two lines of error-handling boilerplate for every line of code is good, and right, and perfect. It’s not verbose; it’s “explicit”. But when that gets changed to be less verbose, we will all agree that it was always a pain and made reading code unnecessarily more difficult and that everyone always expected this to be fixed some day.
I personally can’t wait to see what next development will never have been “against the Go philosophy” and definitely not something that gophers argued was perfect the way it was any time misguided malcontents and rabble-rousers wrongly tried to suggest the language wasn’t perfect the way it was.
Who are we that has always defined that term that way. For any systems programmer golang has pretty much not been a solution.
Systems is below layer 4 of the network stack, it is building the network stack in the first place.
[0] https://github.com/google/netstack
I really hope it is more ergonomic error handling. Or maybe sum types/discriminated unions.
They've publicly said no more language changes specifically for better error handling are coming, it will at most be the library-level improvements.
And of course, it was replaced with a more correct implementation that was incompatible with that awful stopgap because semantic correctness trumps all. vendor/ trees and GOPATH were never meant to be remotely compatible, and don't you know -- the Go compatibility guarantee(TM) doesn't apply to misuse of GOPATH to work around shortcomings^Wwell-considered designs of Go, even if it breaks the largest Go project at the time!
(/s It still shocks me that they decided to drop "src" from vendor/src and break compatibility when they finally got around to supporting vendoring despite every tool using it. And symlinks don't work because Plan 9 is the future!!)
The ease of grokking Go (both reading and writing) are big advantages, and facilitated by the "small" feature set of Go.
The slow turtle wins the race against the overly eager rabbit... so I'm okay with that
Debatable how much they have been "right", although this gets them somewhat closer. And I think they have not been "wrong" in the ways they wanted to avoid (they referenced some issues with Java generics as prior art, although I forget the details).
> The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods".
> They didn't say they never wanted to do generics, but that they did want to take their time and do them right.
Then when the language is inevitably changed for the better, resolving the complaint, suddenly it was always going to happen and it was just a matter of getting the details right.
Every other language community I can think of is more than willing to acknowledge the shortcomings of their language. “Yeah, this kind of sucks in principle but it’s not something that gets in the way in practice” is a fine perspective. So is “this was a tradeoff; we went in this direction and these are the resulting downsides”. But the golang community practically trips over themselves to constantly argue that obvious shortcomings in the language are actually a good thing and we just don’t get it.
Nobody is saying the language shouldn’t improve. We’ve all been begging the language to improve. But we’re also tired of the constant, obvious, and shameless gaslighting from the community whenever things do get better. You aren’t going to like the comparison, but it’s extremely Trumpian.
He wasn't the only one but he certainly took it to the extreme.
¹ I would argue that it is really, really hard to add generics to a language after it has already matured, and still "do it right" than to add it in the beginning. At least if you care about backwards compatibility. Backwards compatibility adds a lot of constraints to your generics system that will almost certainly lead to a sub-optimal design. And you will be stuck with a standard library, and a lot of existing ecosystem code that would benefit from generics, but don't because generics didn't exist when they were written. This is a lesson I wish go had learned from Java's generics.
My best litmus test these days is support for multidimensional arrays because it's always needed at some point in general purpose languages. CL and Ada had it right from the start while C++ needed C++23/26 to get std::mdspan and we still need to wrap it to pass the underlying/owned memory pool around (https://rosettacode.org/wiki/Multi-dimensional_array for more).
If I want a 1000x1000 array, representing it physically as a single 1000000-element array requires one allocation, and processing it element-by-element (assuming it's stored in the same order we're iterating over it) is sequential in memory and therefore very efficient.
Representing it as 1000 separate 1000-element arrays requires 1000 allocations, and pointer-chasing every time we move from one row to the next.
Otherwise you would have an array of pointers to arrays. The usage (syntax) for them would be the same but the performance would not be.
They also have different uses. You would expect an array of arrays to be an array of arrays which share the same length. For an array of pointers to an array you would expect dynamic length arrays contained within the original array.
Even in c++ could you not just define some int [1000][1000]foo? I've never really used C++ but my C knowledge assumption is that is 1000000 continuous elements.
I would very much prefer scheme if the different implementations had a working standard. But I can't take my Chez-scheme code and throw it into Guile-scheme.
But pretty good chance I can take my ECL code and throw it into SBCL or LispWorks.
Bah, I think this debate was already old when I first saw people arguing it on comp.lang.lisp in the 90s. I don't have a dog in this fight other than to reject the notion that Common Lisp is "coherent" and not "organically grown".
The original Scheme belongs in the category of languages like Standard ML and SmallTalk, where a small, careful, and talented group designed them with focus. Common Lisp seems like a bunch of smart people with competing interest and legacy baselines tried to meet in the middle. To the extent CL is more pragmatic, it's another example of "Worse is Better".
When I started building a Lisp-based machine learning framework, Guile seemed like the right choice because it provides GOOPS and generic functions, yet I still ended up with a lot of boilerplate to compensate for the lack of a strong type system.
Scheme feels to me like C is to C++: not ergonomic for large-scale application development. Go is one of those languages that has both minimalism and productivity.
Hopefully next they can add some error handling syntax and controls.
-- Greenspun's tenth rule
He had some lack of conviction to scope it so narrowly.
As an aside - D, Zig, Rust, even typescript got most of the lessons learned from C right
Zig has the (in)famous "Writergate": https://github.com/ziglang/zig/pull/24329
And besides Rust's high count of RFCs, there are things like async (I'm not complaining about it, but its an obvious large-scale "change"), module system changes, etc.
(To be clear, I like both languages a lot. But I wouldn't call them slow moving or right from the start.)
Objective-C in contrast was a very few additions thoughtfully added that composed cleanly and freed the programmer to actually get things done.
The hard part about making a language is creating the stdlib and tooling and support for the language, but actually creating a language itself that has more features and better features than go can be done by a single person in a few months or a year probably, depending on how much experience they have.
Generics specifically are a great example here. A single person can implement a language with go-level generics fairly easily.
A good example of where they're kind of stuck is date formatting - it's stupid, unclear, and likely a mistake, but it's not a fundamental flaw; it's just a quirk.
The trouble is that Rust is older than Go and it was already confusing people into thinking enums and sum types are the same thing, so by using slightly different syntax, iota, Go avoided the whole confusion of users thinking that enums would behave like sum types instead of actual enums.
Is your attempt at making a point that not having sum types is the massive flaw? Sum types are a useful construct, to be sure, but there are plenty of good languages without them. That's more on the design quirk end, realistically.
iota is a massive kneecap _because_ it's semantically identical to enum in C and Typescript.
> Is your argument actually that not having sum types is the massive flaw? Sum types are a useful construct, to be sure, but there are plenty of good languages without them. That's more on the design quirk end, realistically.
In a dream world sure we'd have full blown sum types (and that would give a result type which would also solve a lot of the nil-interface-combined-with-error-handling issues that I've ran into when working with go), but I can forgive that. The problem is this - https://www.zarl.dev/posts/enums
The only case I see made in there is that it doesn't like how Go implicitly converts consts. While that may be a reasonable criticism, it doesn't have anything to do with iota. It is related to the type system and applies in general. Consider the same problem exhibited here:
Perhaps you accidentally offered the wrong link?It was made abundantly clear when Go was released that it was intended to "feel like a dynamically-typed language". Being able to pass arbitrary values is perfectly in line with a dynamically-typed language. Realistically, the type system in Go is there to give the compiler optimization hints, not to offer type safety. Go was targeted at those wanting to use Python, without the programs being painfully slow to run. How much of a kneecap is implicit type conversion, really, when it is already in line with what the target audience is accustomed to? It is a quirk at best.
If I google this quote a comment from you comes up here on this exact topic, where you seem to have completely missed the point there too. If I link to the docs [0], the full quote is "It's a fast, statically typed, compiled language that feels like a dynamically typed, interpreted language. " So it is a statically typed language first and foremost. If you want to rehash the discussion and tell people that a flawed type system that people have been asking for a solution to for close to a decade [1] you can just re-read the last time the arugments were made as I don't think I'm going to make any headway there.
[0] https://go.dev/doc/ [1] https://github.com/golang/go/issues/19814
Right, because that is primarily how it makes things fast. Python is slow largely because it spends an inordinate amount of time trying to figure out what things are. Go knows what things are at compile time because the static type system tells it what things are and thus doesn't have to waste runtime compute on figuring out what things are, aside from when you use the reflect package, like Python does. That was its value-add — that it is kind of like Python, but faster. We already went over this...
> If I link to the docs [0]
I said original announcement, so I'm not sure why you wouldn't look there? Trying to be obtuse on purpose? Regardless, performance was indeed considered more important than being dynamically-typed. After all, if performance wasn't a concern then you'd just use Python. Go exists only because it was solving a problem that wasn't already solved. Slow Python was already solved. Type safety was already solved. It didn't need to go into those territories.
> Rust is older than Go and it was already confusing people into thinking enums and sum types are the same thing
Of course the social landscape depends on people actually using it. None of the people who weren’t using Rust at the time were magically confused about enums and sum types by the mere existence of some new and experimental language.
Rust barely existed at the time Go was first being developed. And given the history of Go and the notoriety of its core team for flatly ignoring prior work in programming languages, it’s extremely unlikely that Pike et al gave more than a cursory glance to what nascent Rust was doing at the time.
But even if they had, to suggest that they intentionally replicated a dumb thing from C but gave it a different name to avoid users being confused by a different thing from a language that roughly nobody knew about at the time is bananas.
That's nonsense. Brainfuck has shaped the social landscape despite effectively nobody using it, and absolutely nobody using it for any real work. The social landscape is not at all dependent on use.
> And given the history of Go and the notoriety of its core team for flatly ignoring prior work in programming languages
Huh? Go comes straight out of prior work. It is nearly indistinguishable from Alef. What the Go language flatly ignored was being innovative. Reasonably so, of course. It wasn't trying to innovate in programming languages so that we'd have another to throw on the heap of languages nobody uses. It was trying to solve a specific business problem using well-established methods.
So is nil. Care to make the same argument?
There is a stronger case to be made for the other two. Calling GOPATH a design mistake is a stretch as it was perfectly suited to use within Google, but it didn't fit the typical solo developer's environment. Lack of generics made writing certain types of code difficult. You could be convincing in suggesting that Go did end up being used less than it otherwise would have because of those choices.
iota? It's just a construct that generates numbers (an enum). How does that kneecap anything? If it really bothers you, you can manually number the values by hand instead. Why would anyone reject a language because it allows you to optionally choose to have the compiler assign numbers automatically instead of forcing you to do it manually? The answer is nobody. In fact, most popular languages have something equivalent to iota.
Thus “go borrowed it from C, therefore it can’t have been a mistake” is a pretty lame take. The whole point of a new language is to make improvements on what’s out there already. Go missed an opportunity to fix one of C’s most notorious mistakes. So yes, they kneecapped themselves by forcing all of the users of Go to continue dealing with this well-known footgun.
Does it mean Go isn’t popular? Of course not. C was popular. PHP was popular. JavaScript is popular. Go is popular. This is always in spite of their faults. But Go could have been better.
You're almost there, but it is wildly considered to be massive mistake in context of arrays. C has weird array semantics that are confusing and hard to get right, even for seasoned developers. That is where NULL comes to bite people time and time again. Go did not inherit C's arrays. Neither did Javascript. They go out of their way to avoid what C did. In Go, you can come close to the same semantics if you use the unsafe package, but take note the name.
Yes, they still have nil, but the scope is tightly constrained and while it is technically possible to misuse, you have to try pretty hard to do so. There are many other things that are more likely to end up being misused. Those would be the more massive mistakes.
> But Go could have been better.
Obviously. Every language ever created can be better.
From Tony Hoare: "I call it my billion-dollar mistake. It was the invention of the null reference in 1965. At that time, I was designing the first comprehensive type system for references in an object-oriented language (ALGOL W). My goal was to ensure that all use of references should be absolutely safe, with checking performed automatically by the compiler. But I couldn't resist the temptation to put in a null reference, simply because it was so easy to implement. This has led to innumerable errors, vulnerabilities, and system crashes, which have probably caused a billion dollars of pain and damage in the last forty years."
Odd that he wouldn't mention the word "array" anywhere in that quote.
> Yes, they still have nil, but the scope is tightly constrained and while it is technically possible to misuse, you have to try pretty hard to do so.
Like by not remembering to check if a pointer is nil? Or actually comparing one typed nil to a different typed nil?
> Obviously. Every language ever created can be better.
Only one of us is arguing that reimplementing C’s mistakes is actually a good thing.
Rule of thumb is to not introduce values that aren't valid. Equally, don't put in -1 for an age value, even if the language allows you to. You might later forget to validate that the age value is valid.
Yes, mistakes are possible, but these types of mistakes are pretty rare. There is some value in eliminating the possibility of those mistakes, sure, but we cannot pretend that it comes cost-free. There is good reason why almost nobody uses Rocq.
> Or actually comparing one typed nil to a different typed nil?
This is something that is likely to confuse, but not a facet of nil. It is related to interfaces. Let's not flail around like one of those wacky blow up things at the used auto lot.
Hey, at least we can now understand why you have such a hard time with nil, so that's something.
If it came out of anywhere else, it might have struggled even to hit the homepage here.
0: https://github.com/carbon-language/carbon-lang#project-statu...
Carbon is by its own admittance not ready to use and I think mostly relegated to solving Google’s problems with C++ right now.
Both of them didn’t ship with a standard library as robust as Go’s.
One thing that made Go popular out of the gate is it is extremely good fast to build out robust HTTP services and infrastructure.
This is a very common use case and they tailored Go to be a great fit for it. You can build your entire backend without a single third party module if desired using Go’s standard library and it isn’t terribly complicated to do so.
Of course adding generics is not something that every language needs to do. Scripting languages like Ruby don't really need this style of generics. It doesn't fit the design of the language, and it's not even clear what that would look like in Ruby.
But static typing with generics does solve a recurring problem, and we've seen some real convergence towards type hints and type systems even in staunchly dynamic scripting languages. Modern Javascript is now mostly Typescript, and they've successfully retrofitted a very advanced type system in the last place I would have expected 20 years ago.
They added enums, they added sealed classes. They're trying to get rid of null (apparently it's really hard). The problem is that in 2012, when go 1.0 was released, this should have been obvious to everyone.
Here's a famous discussion from 2009, three years before the 1.0 release (tldr: facepalm)
https://groups.google.com/g/golang-nuts/c/rvGTZSFU8sY
Sum types I didn’t really miss, because you can implement a type-safe equivalent using the Visitor pattern, and retain an interface-implementation separation that native sum types typically don’t provide.
The impression I have always gotten from Go's designers is that they are rather arrogant and averse to the idea of using other people's work. They want to develop everything from first principles, but by so doing end up with poor reinventions of well-studied concepts.
And it's not like Golang is some freshman student's hobby project; it was created by one of the world's largest tech companies, by people with a strong pedigree in programming language design.
Remember that the generics implementations in other languages (like Java) take up half the spec + implementation - that's not something that Go wanted.
> The post quotes the Go FAQ as saying, "we do not anticipate that Go will ever add generic methods".
You asked the question
> Where did "they" say "we" didn't need generics?
And I (re)posted a quote from them, which sounds to me like, at the time, they believed that "we" Go users didn't need generics.
They may have changed their mind, which is totally fine! But I do think it sounds like the person you were replying to wasn't commenting in bad faith or misunderstanding or fighting a straw man as you posted. Seems like a reasonable interpretation of what the Go devs had said at one point. To each his own though!
We already had generics when they wrote "we don't anticipate adding generic methods."
But that's the thing, it's just IMO.