Every so often I get weirdly obsessed with Objective-J, which "has the same relationship to JavaScript as Objective-C has to C". It is (was?) an absolutely bonkers project. I think it has more or less died since 280 North was acquired.
Didn't expect to see cappuccino mentioned ever again. It was so wild, you can use AppKit documentation for cappuccino. Apps were so pretty and yet so fast.
I remember back in 2009 I really liked their coffee machine icon. I emailed the devs, they referred me to some design studio, and then to my surprise they replied and said that it's Francis Francis X1. Now I'm looking at it in my home office.
Holy shit, it’s still being actively developed and maintained https://github.com/cappuccino/cappuccino
More amazingly the guy doing the most recent maintaining[1] is a medical Professor at Freiburg Uni.
And wow, it's basically a web version of Cocoa! Check this out: https://ansb.uniklinik-freiburg.de/ThemeKitchenSinkA3/
Same. I remember when this first came up and I was like "this is so weirdly interesting."
Sad that they got acquired because it was just fascinating what they were doing, even if I was never going to use it.
Anyone know if this is or ever was the basis for Apple's iCloud web apps on iCloud.com (e.g. Keynote / Pages / Notes etc.)? Those apps are heroic attempts to replicate the desktop app experience in the browser. I'm curious what web framework is underlying it. Side note - if I could install 3rd party apps w/ similar UIs in my iCloud dashboard that would be interesting.
I think originally Apple was using SproutCore, which had similar aspirations to produce "desktop quality" web apps, and was one of the early frameworks to implement things like two-way data binding. This was back when iCloud was called MobileMe.
SproutCore 2.0 became Ember.js 1.0, but I don't know if Apple are still using it.
Cappuccino was not an Apple project, so I doubt that is what Apple used to develop those projects. That, and 280 North eventually got acquired by Motorola.
Weren't they acquired by Motorola?
Yes, after which they announced they were canning their "Atlas" project, which was meant to be an Interface Builder for the web. Motorola decided they wanted to keep the technology in house.
No idea if they ever did anything with it!
Best I can tell, it turned into Google Web Designer!
I'm on the outside, but best I can tell:
- You're thinking of a UI design tool called "Ninja"
- Google purchased Motorola Mobility and the Ninja project got cancelled
- Google launched Google Web Designer, that basically had an almost identical UI. As far as I can tell the internals are different, but probably shared some code or at least design work.
I really miss Objective-C, and in the world of Swift craziness [1] I'm reminded often of this blog post [2] wondering what would have happened if Apple hadn't encountered Second System Syndrome for its recommended language.
(There's a decent argument it encountered it in iOS and macOS too.)
[1] https://github.com/swiftlang/swift-evolution/blob/main/propo... -- apologies to the authors, but even as a previous C++ guy, my brain twisted at that. Inside Swift is a slim language waiting to get out... and that slim language is just a safer Objective C.
[2] https://medium.com/goodones/pareto-optimal-apple-devtools-b4...
Obj-C’s simplicity can be nice, but on the other hand I don’t miss having to bring in a laundry list of CocoaPods to have features that are standard in Swift. I don’t miss maintaining header files or having to operate in old codebases that badly manage Obj-C’s looseness either.
You can simply import Swift packages and either they expose an Objc interface or you can provide it yourself – by wrapping it in Swift and exposing the things you need via @objc etc. You can - at the same time - also hide the wrapped framework and make it an impl. detail of the wrapper so that you could switch the wrapped framework while keeping your app code mostly stable. This also reduces the number of imported symbols… import 3rdPartyFramework imports all symbols, extensions, classes, types etc. vs. import MyWrapper only brings in the things you really need.
>[1] https://github.com/swiftlang/swift-evolution/blob/main/propo... -- apologies to the authors, but even as a previous C++ guy, my brain twisted at that. Inside Swift is a slim language waiting to get out... and that slim language is just a safer Objective C.
These kinds of features are not intended for use in daily application development. They're systems-language features designed for building high performance, safe, very-low-level code. It will be entirely optional for the average Swift developer to learn how to use these features, just in the same way that it's optional for someone to learn Rust.
The "Swift has too many keywords now" meme makes me want to go insane. The vast majority of Swift code never runs into any of that stuff; so, what advocates of it are saying is in effect "we don't want Swift to expand into these new areas (that it has potential to be really good at) even if it's in a way that doesn't affect current uses at all."
That said, the Swift 6 / Strict Concurrency transitions truly have been rough and confusing. It's not super clear to me that much of it could have been avoided (maybe if the value of Approachable Concurrency mode had been understood to be important from the beginning?), and the benefits are real, but my gut feeling is that a lot of the "Swift is too complicated" stuff is probably just misplaced annoyance at this.
Swift's concurrency story is what happens when a multi-year project meets Apple's fixed six month Swift release timeline. And being written by highly knowledgeable but low level engineers who've never written an iOS app in their life, means that there was a huge approachability hole they've only recently worked their way out of, but even that has major issues (MainActor default on in Xcode but not Swift itself).
Such a mess. You can tell the people that designed it never wrote a client or an app in their lives. It is pure academic pendatry in display.
I go back and forth. I do miss the simplicity of objc at times though. I think in a short amount of time someone can become close to an expert in objc. Swift is already incredibly complicated and there's no end in sight.
I hate how pendantic and useless some of the features of swift being pushed down by academics that don't write apps or services themselves.
Simple example:
Objective-C
if myObject {
}
in swift if myObject != nil {
}
Also opitionals in swift could have totally be avoided if they adopted a prototype based langue (basically object are never nil). Lua did this, and it is very elegant
But meanwhile, we got a half backed optional system, which is backwards (similiar to Java), and didn't help with the practicality of the language at all, and meanwhile you still can crash an app doing myArray[1]
> Inside Swift is a slim language waiting to get out... and that slim language is just a safer Objective C.
Rust? Rust is basically a simpler Swift. The objective-c bindings are really nice too, and when you're working with obj-c you don't have have worry about lifetimes too much, because you can lean on the objective-c runtime's reference counting.
I think the way to think about it is that with Rust, it's as if all the goodness in Swift was implemented with in the "C" level, and the Objective-C but is still just library-level a runtime layer on top. Whereas Swift brings it's own runtime which greatly complicates things.
Rust is still more complicated than Swift, but you needn't worry - the Swift team is flexing their muscles hard to ensure that Swift becomes the biggest, most complicated language on Earth and wins the complexity, cognitive burden and snail performance once and for all eternity. Their compiler already times out on the language, soon even an M7 will also give up.
I would absolutely not call Rust a simpler Swift. Swift doesn't have and ownership/borrowing system, explicit lifetime for objects, much more expressive (and therefore complex) macro support...
I get that there's a tradeoff. Rust requires you to be way more explicit about what you're intending upfront and that can, in the long term, lead to simpler code -- but there's no dimension (depth-wise or breadth-wise) that I'd call Rust simpler.
> I would absolutely not call Rust a simpler Swift. Swift doesn't have and ownership/borrowing system
Swift already does have those things but unlike Rust, they are opt-in.
Not going to argue which language is simpler, but sorry, you don't seem like someone who knows Swift very well.
While Swift now has the `borrowing` and `consuming` keywords, support for storing references is nonexistent, and the only way to return/store `Span`s, etc, is only possible through using experimental `@lifetime` annotations.
Swift is a nice language, and it's new support for the bare necessity of affine types is a good step forward, but it's not at all comparable with Rust.
One of my recurring language design hot takes is that it's easier to design for speed and then make it easy to use than it is to make it easy to use and then try to speed it up.
C++ is trying to make C easier to use for 40 years, and it's still not there. So I wouldn't call that easier.
C++ is trying to make something EASIER to use?
C++ if any made C user friendly.
Except the entire design of swift is meant to make everything more automated.
* automated exclusivity with value types and value witness tables, classes as arc types (ie Arc<Mutex<T>>)
* automated interop with C/C++/Obj-C through the clang ast importer
Maybe they could have started with rust and added on what they needed, but why not build a new language at that point where things so fundamental are involved?
Source: I worked in lattners org at the time of swifts inception (on an unrelated backend) but that was the motivation. I also worked on the swift compiler for a little bit some years later on in my career.
At this point in my career, I can't go back to a language that doesn't have support for Optionals or compiler validation of nullable types. I can sacrifice async or fancy stream apis, but I will never go back to chasing null pointer exceptions on a daily basis.
Obj-C does have a "nonnull" annotation now (apparently added to assist Swift interop). One of the final jigsaw pieces turning it into a really pleasant language.
It is a really pleasant language, but I think the <nonnull> annotation is for initialization only - compiler checking against initializing an object ptr with a null value - and does not prevent crashing when addressing an already released object
nonnull doesn't really do anything in pure objc. It warns if you assign the nil literal to a nonnull pointer and that's it. The annotation is almost entirely for the sake of Swift interop (where it determines if the pointer is bridged as an Optional or not).
I don't think objc has the equivalent of a null pointer exception. You can freely send messages to a deallocated object. Since ARC, it is rare, at least in my experience, running into any memory related issues with objc.
You can send messages to null, sendings messages to a deallocated pointer is going to be a bad time.
It’s nice not to crash, but unexpected null can still cause bugs in ObjC when the developer isn’t paying attention.
Having done both ObjC with nonnull annotations, and Swift, I agree that it’d be hard to forgo the having first-class support for Optionals
Objective-C did not have null pointer exceptions, though some libraries added them.
If you use Objective-C objects, operations on null pointers are just a no-op, so there is not such thing as chasing exceptions.
IMHO the one great feature of Objective-C (compared to C++) is that it doesn't interfere with any C language features. In C++ the C 'subset' is stuck in the mid-1990s, while Objective-C "just works" with any recent C standard.
Interestingly, I recently auto-translated wget from C to a memory-safe subset of C++ [1], which involves the intermediate step of auto-converting from C to the subset of C that will also compile under clang++. You end up with a bunch of clang++ warnings about various things being C11 extensions and not ISO C++ compliant, but it does compile.
[1] https://duneroadrunner.github.io/scpp_articles/PoC_autotrans...
The one really funny feature of Objective-C++ is that it lets you write C++ using modern C features that haven't been pulled into C++, and you don't have to actually use the Objective part. Designated initializers before C++ got them were the main actually useful application of this.
I think C++ have caught up with C99 already. So it's late 90s, not mid-90s :)
What C features can you not realistically use from C++?
C11 atomics, C11 threads, variable length arrays, safely reading from an inactive union member, designated array initializers, compound struct literals, implicitly converting a void pointer to a typed one, and the list goes on.
People shoudld realize that since long ago C and C++ are not sub/supersets, but interesecting sets.
Wow, I haven't written any Objective-C since around 2012. I just went back and looked at some code I had written back then and that really brought back some memories. I was much happier then. I'm perpetually sad and unemployed now.
That's all. Enjoy yourselves.
I still find Objective-C++ useful for writing MacOS apps that make heavy use of C++ libraries (e.g.; Eigen, OpenCV). The caveat is I have done a lot of Objective-C programming and Swift is still not as seamless as I would like bridging with modern C++ and the the STL.
I've been playing around with low-level Metal a bunch lately, any many of their docs and samples seem still be mostly in Objective-C/C++ and not Swift, so have been forcing myself to get into it.
At first I had the usual revulsion to the syntax, but after a few days getting used to it, I actually don't mind it at all now. (I still wouldn't say it's "elegant", but I can live with it).
Being Metal shader code is basically C++ anyway, and C++ is a language I'm familiar with, having a couple of .mm files to hold the Objective-C++ for API bridging and working in regular .cpp (and .h) files for the rest is pretty straight forward compared to having to learn Swift. (Especially with all the complaints I've heard about its complexity, including from Chris Lattner himself lately, which aligns with some of the other comments here).
Though to be fair, "Swift seems overly complex so use C++ instead" seems like a tough argument to make with a straight face ;-p
Yeah, Objective-C++ is surprisingly great. It sounds like a terrible idea, but the bridging works pretty much seamlessly, and Obj-C and C++ don't actually overlap all that much so they don't step on each other's toes. Each language has strengths that shore up the weak spots in the other.
+1 to Objective-C++. It makes for some surprisingly clean, compact code, best of both worlds, really. And the bridging between ARC and CF types is really quite magical, more languages should have that ability to be expressed in an older language without stripping everything out.
I just wish there were Objective-C bindings for more CF classes without having to mess with C.
Obj-C++ was used for some hall-of-fame OS X apps, e.g. TextMate
I have my suspicion that it is still used heavily inside Apple. It especially caters to programmers that are control freaks like me -- you are a little closer to the metal (pun intended).
I made some camera and GPU-heavy features in the Facebook and Instagram app in ObjC++, and yes, it was nice to have that impedance match.
I don't work there anymore, I wonder if they're using the C++ - Swift interop that now exists.
Good time to check out ObjFW [1], it's a cross platform ObjC framework that's just really awesome
I hadn't come across this. Insane (if true, I've never tried) that GnuStep is not 100% compatible, surely that would be the point.
How easy is it to port, say, a Leopard-era Objective C app to ObjFW?
I tried this with an old iOS only game a few years ago. It is clearly not a heavily used library, but it seemed to work ok
- There was a bug or two I had to patch, but the code is readable, so it wasn't a big deal
- OFString, etc aren't intended to be 1:1 replacements for NSString, etc. This wasn't a real problem. They mostly match, and all I needed to do was write a few categories
- The runtime functions are not compatible at all, but most projects wouldn't touch those
- CoreFoundation and the other C APIs are not there at all, so you'll need replacements
- It is a replacement for Foundation framework, not AppKit, so if it is a GUI app you still have a lot of work to do
This is why I went with GNUstep. All of the APIs are 1:1 with Apple's, including the runtime (which is very important imo). It has AppKit support as well; its AppKit implementation is kind of half-baked, but at least it exists. Also, a lot of the APIs are kind of old. But looking at how Swift evolved over the years, maybe that's not a bad thing.
My main complaint with GNUstep is the licensing. The runtime itself is MIT which is great, but its implementation of Foundation/AppKit is LGPL. ObjFW, including its runtime, is LGPL. At least with GNUstep one day I can create my own version of Foundation based on Cocotron or swift-corelibs-foundation or something, and not need to muck with rpaths + ship a bunch of .dll/.dylib/.so files with my app in order to comply with the license.
Smalltalk is like pizza. Even when it's bad, it's still pretty good.
I really enjoyed Obj-C when I did some iOS work back in 2015/2016. It was my first non-JS language, and it taught me so much that I didn't understand since I started out doing web dev.
I still love Objective-C and you can pry it from my cold dead hands - tho I basically just call in to it from Rust these days for convenience reasons (cargo).
That aside, I was glancing through the source code for the engine and noticed this:
https://codeberg.org/brentsimmons/SalmonBay/src/branch/main/...
I wonder why they opted to do this instead of NSJSONSerialization - maybe I'm just misunderstanding the use for the class tho.
I've always liked Objective-C. Despite me not really liking object-oriented programming, I appreciate that its one of a handful of languages to do actual smalltalk-esque oop
One of the things I miss about Objective C is just how easy it is to call into a C API, or otherwise include a C function if that's the easiest way to call into a C API.
I shipped a cross-platform C# project, and once I realized I could expose "ordinary C" from the Objective C part, it was very easy to integrate the two without using a framework. (It helped that the UI was 100% Objective C, so there wasn't much surface area between the C# and Objective C parts. We initially used MonobjC, but first I had to work around a shortcoming, and then we needed to remove MonobjC due to licensing and some of the newer C# integration layers were not available.)
Someone should vibe code Objective-C 3.0
I recently started writing for macOS in Swift and, holy hell, the debuggability of the windowing toolkits is actually unparalleled. I've never seen something that is this introspectable at runtime, easy to decompile and analyze, intercept and modify, etc. Everything is so modular, with subclassing and delegation patterns everywhere. It seems all because of the Objective-C runtime, as without it you'd end up needing something similar anyway.
You can reach into built-in components and precisely modify just what you want while keeping everything else platform-native and without having to reimplement everything. I've never seen anything like this before, anywhere. Maybe OLE on Windows wanted to be this (I've seen similar capabilities in REALLY OLD software written around OLE!) but the entirety of Windows' interface and shell and user experience was never unified on OLE so its use was always limited to something akin to a plugin layer. (In WordPad, for example)
The only thing that even seems reminiscent is maybe Android Studio, and maybe some "cross-platform" toolkits that are comparatively incredibly immature in other areas. But Android Studio is so largely intolerable that I was never able to dig very far into its debugging capabilities.
I feel like I must be in some sort of honeymoon phase but I 100% completely understand now why many Mac-native apps are Mac-native. I tried to write a WinUI3 app a year or two ago and it was a terrible experience. I tried to get into Android app development some years ago and it was a terrible experience. Writing GUIs for the Linux desktop is also a terrible experience. But macOS? I feel like I want to sleep with it, and I weep for what they've done with liquid glass. I want the perfection that led to Cocoa and all its abstractions. Reading all the really, super old documentation that explains entire subsystems in amazingly technical depth makes me want to SCREAM at how undocumented, unpolished and buggy some of the newer features have gotten.
I've never seen documentation anything like that before, except for Linux, on Raymond Chen's blog, and some reverse-engineering writeups. I do love Linux but its userspace ecosystem just is not for me.
Maybe this is also why Smalltalk fiends are such fans. I should really get into that sometime. Maybe Lisp too.
Writing objective-c code for mac os GUI apps was one of those things that finally made "interfaces"/"protocols" really click for me as a young developer. Just implement (some, not even all) method in "FooWidgetDelegate", and wire your delegate implementation into the existing widget. `willFrobulateTheBar` in your delegate is called just before a thing happens in the UI and you can usually interfere or modify with the behavior before the UI does it. Then `didFrobulateTheBar` is called after with the old and new values or whatever other context makes sense and you can hook in here for doing other updates in response to the UI getting an update. If you don't implement a protocol method, the default behavior happens, and preserving the default behavior is baked into the process, so you don't have to re-implement the whole widget's behavior just to modify part of it.
It's probably one of the better UI frameworks I think I've used (though admittedly a lot of that also is in part due to "InterfaceBuilder" magic and auto-wiring. Still I often wish for that sort of elegant "billions of hooks, but you only have to care about the ones you want to touch" experience when I've had to use other UI libraries.
> Writing GUIs for the Linux desktop is also a terrible experience.
I've found the DX for GTK to be at least tolerable. Not fantastic, but I can at least look at a particular API, guess how the C-based GObject code gets translated by my language bindings of choice, and be correct more often than not. The documentation ranges from serviceable to incomplete, but I can at least find enough discussion online about it to get it to do what I want.
Also, GTK apparently ships with a built-in inspector tool now. Ctrl-Shift-I in basically any GTK app opens it. That alone is extremely useful, and you basically have to do nothing to get it. It's free.
I've never tried Qt. The applications that use it always seem off to me.
As for OLE, you're actually thinking of COM, not OLE. They were co-developed together: COM is a cross-language object system (like GObject), while OLE is a set of COM interfaces for embedding documents in other arbitrary documents. Like, if you want to put a spreadsheet into a Word document, OLE is the way you have to do that. Microsoft even built much of IE[0] on top of OLE to serve as its extension mechanism.
OLE is dead because its use case died. Compound documents as a concept don't really work in the modern era where everything is same-origin or container sandboxed. But COM is still alive and well. It's the glue that holds Windows together - even the Windows desktop shell. All the extension interfaces are just COM. The only difference is that now they started packaging COM objects and interfaces inside of .NET assemblies and calling it "WinRT". But it's the same underlying classes. If you use, say, the Rust windows crate, you're installing a bunch of language bindings built from WinRT metadata that, among other things, call into COM classes that have been there for decades.
Mac apps are Mac native because Apple gives enough of a shit about being visually consistent that anyone using a cross-platform widget toolkit is going to look out of place. Windows abandoned the concept of a unified visual identity when Windows 8 decided to introduce an entirely new visual design built around an entirely new[1] widget toolkit, with no consideration of how you'd apply any of that to apps using USER.dll/Common Controls. As it stands today, Windows does not have a good answer to "what widget toolkit do I use to write my app", and even Microsoft's own software teams either write their own toolkits or just use Electron.
[0] Petition to rename ActiveX to WebOLE
[1] OK, yes, XAML existed in the Vista era, but that was .NET only, and XAML apps didn't look meaningfully different from ones building their own USER.dll window classes like it's 1993.
9front can mount old DOC/XLS documents as OLE 'filesystems' first and then extract the tables/text from them.
As for sandboxing, 9front/plan9 uses namespaces, but shared directories exist, of course. That's the point on computing, the user will want to bridge data in one way or another. Be with pipes, with filesystems/clipboard (or a directory acting as a clipboard with objects, which would be the same in the end).
> As for OLE, you're actually thinking of COM, not OLE. They were co-developed together: COM is a cross-language object system (like GObject), while OLE is a set of COM interfaces for embedding documents in other arbitrary documents. Like, if you want to put a spreadsheet into a Word document, OLE is the way you have to do that. Microsoft even built much of IE[0] on top of OLE to serve as its extension mechanism.
Oops, you are right about COM. I got them mixed up because I was thinking of the integration in WordPad.
> Mac apps are Mac native because Apple gives enough of a shit about being visually consistent that anyone using a cross-platform widget toolkit is going to look out of place. Windows abandoned the concept of a unified visual identity when Windows 8 decided to introduce an entirely new visual design built around an entirely new[1] widget toolkit, with no consideration of how you'd apply any of that to apps using USER.dll/Common Controls. As it stands today, Windows does not have a good answer to "what widget toolkit do I use to write my app", and even Microsoft's own software teams either write their own toolkits or just use Electron.
Mac apps are Mac native because the APIs are amazing and the ROI can be really really good. It takes so much effort to do the same from scratch, especially cross-platform, that, you're right, I can smell anything written in Qt (because the hitboxes and layout are off) or GTK (because the widget rendering is off).
With that said though, wxWidgets seems to translate EXTREMELY well to macOS, though last I used it, it didn't have good support for Mojave's dark mode. Maybe support is better nowadays. For example, Audacity appears to me as just a crammed Mac-native app rather than blatant use of a cross-platform toolkit, and wxPython used well can be completely mistaken for fully native.
wxWidgets calls the underlying native controls directly; Qt uses it to inform how to render but still does its own thing, at least according to a discussion I had with a Qt engineer some years back.
(I am open to being corrected)
wxWidgets has properly supported dark mode for a bit now.
> [[those squareBrackets] lookInsane:YES].
Nah, they are perfectly sane. They look like little ASCII envelopes because that's exactly the metaphor. Square brackets send messages.
They're function calls right? I can't square the "message passing" conceit (implying putting message objects on queues, dequeuing etc) with the claim that Obj-C is just C with some extra stuff.
They're not direct function calls, but sugar for objc_msgSend():
https://developer.apple.com/documentation/ObjectiveC/objc_ms...
Absolutely not. It only sends a message. The receiver doesn't have to have a corresponding method and can do with that message what it will. Objective-C is a 'true' object-oriented language, like Smalltalk.
In the end though most of those 'sending a message' actions are just fancy virtual method calls (e.g. an indirect jump), everything else would be much too slow:
https://www.mikeash.com/pyblog/friday-qa-2017-06-30-dissecti...
IMHO the whole 'message' and 'sending' lingo should be abandondend, the job of objc_msgSend is to look up a function pointer by certain rules. There are no 'messages' involved, and nothing is 'sent'.
> There are no 'messages' involved, and nothing is 'sent'.
The conceptual difference is significant as an object can respond to messages that it doesn't have a method for. You are, conceptually, just sending a message and leave it up to the object what it wants to do with it (e.g. forwardInvocation:). That is, after all, what sets "object-oriented" apart from having objects alone. Optimizations that can be made under the hood don't really affect the language itself.
> can respond to messages that it doesn't have a method for.
Clang produces a warning in that case though (something along the lines of "object might not respond to ..."), I don't think that feature is particularly useful in practice (also because it kills any sort of type safety) :)
And the reason it’s a warning and not an error (like in C++) is that it’s actually possible that the object can respond to such a message but the compiler doesn’t know about it.
It was incredibly useful in the olden days. The NeXT/Apple ecosystem leaned on it heavily.
We have new ways to approach problems nowadays, so it may be fair to say that object-oriented programming is a relic of the past. I mean, it is telling that Smalltalk, Objective-C, and Ruby are the only languages to ever go down that road. Still, if you are using an OO language, then it makes sense to lean into OO features. Otherwise, why not use a language better suited to your problem?
> That is, after all, what sets "object-oriented" apart from having objects alone.
I wouldn't say so, most object-oriented languages don't work like Objective-C/Smalltalk. Today, I think most programmers would agree that inheritance is the defining feature of object-orientation.
Okay, that's what sets what was classically known as "object-oriented" apart.
Understandably, language evolves. If OO means something different today, what do most programmers call what used to be known as OO? I honestly have never heard anyone use anything else. But I am always up for refreshing my lexicon. What did most programmers settle on for this in order to free up OO for other uses?
Then what does it mean if "composition over inheritance" is also taught as a good practice in OO?
That's a rule-of-thumb to help beginners in making judgement calls. It doesn't mean inheritance should never be used.
True, but if the defining feature of something is a feature you should use sparingly, doesn't that mean other features are more definitive?
> a 'true' OOP language, like Smalltalk.
I guess Simula, which is older than Smalltalk, doesn't get a say.
What would it have to say about it? When "object-oriented" was first told, it was said that what defines it is message passing. Simula does not have message passing. It uses function calling. Simula does have objects, but having objects does not imply orientation.
Any popular cross-platform GUI toolkits? How do you find GNUstep?
> you’ll realize how small a language it is, how easy to hold in your palm and turn around and understand all sides of it
I have never programmed in ObjC but was curious to learn how it works, and so I decided to write a ObjC runtime [0]. It took less than 2000 lines, and a large number of them are comments. Now I wonder how easy would it be to do dome lispy symbolic computing in it. Maybe something like a Prolog.
[0] https://gist.github.com/namandixit/76cd084676acdf16cfd014cbb...
I do not get this argument at all. A long time ago I ported a simple sudoku solver to Objective-C by using the foundation classes, like NSMutableArray. It was terribly slow. All those messaging sending just to do what should have been a single instruction (or less!) That’s when I realized that if you want speed in an Objective-C app, you really are going to reach for the C subset. The objective part is really good for building GUIs, but not for pure computation.
That is one advantage of C++ - you can use higher level features like generic data types/algorithms, member functions, constructors, destructors, and iterators and still have performant code. You can use object-orientation without having to heap allocate each object and pay the cost of "virtual" calls. (which many other object-oriented languages couple together)
Yes! The idea of zero cost abstractions became popular in the C++ world. It was never a thing for Objective-C.
When I was writing apps at Apple for the low-integer-version-numbered iOSes, this is what we typically did (since we had a single-core CPU in the MHz and <1GB).
UI shell in UIKit Obj-C, over a C++ or CoreFoundation (C) business layer, talking directly to sqlite.
I haven't seen the source of Apple apps and frameworks in over 10 years now, but I hope for their sake a lot of it has moved to Swift by now.
If I were CFed I'd mandate 2026 as the Year of Claude Code Radar Burndown. Their backlogs are insane and Apple actually addresses maybe 5% of what it knows to be wrong in a given year. Make it 2% when a UI Refresh is mandated.
The most difficult part of Objective-C is its ARC rules, and mixing ARC and non-ARC code in the same project.
I bounced off of Objective-C not because of its message-passing OO. That was the actual cool part. I bounced off because of the insane amount of boilerplate prototyping and headers required to use it.
I think every OO language should be using Smalltalk's message-passing style rather than holding hard references, and Objective-C is a great model. But discard the rest.
Apple should have made a modern Smalltalk on top of the Objective-C object model as a replacement for Objective-C instead of Swift.
I want to love Swift, but the funny thing is that as they solve more problem with Swift they also add so much complexity that you wonder if all the problems they solved just added new problems.
[objC retain]
Hopefully, you're using ARC by now, so that's a no-op!
That's it, I'm pivoting my startup technically and rewriting everything in ObjC! /s
I wonder how well AI generates Obj-C - it might well produce better quality code for your token/buck!
In a previous life, one would select the programming language according how expensive developers were. Nowadays it's the quality that an AI can generate. What a wonderful future we've put together. /s
I've been using Opus 4.6 to make myself a harness for old Macs that uses models offered by the Github Copilot subscription.
From my experience, when it creates working Objective-C, it's great. When it slips up, it slips up majorly.