I 1000% agree. Though, a favorite early programming memory of mine was when static methods finally clicked and I went back and looked at all that boilerplate that meant nothing to me and it all became crystal clear what it meant and why it had to be like that.
> Still if I need JVM then Scala or Kotlin are still preferable over Java.
That's so 2010. I would avoid Scala like plague. It is a soup of all features imagined and some more. Java is difficult for novice. With Scala even experienced senior devs can look into a snippet and be befuddled. It is designed by academicians who thought clever looking choice is better.
About a decade ago, some Scala library authors thinking that "everything is better as a DSL" gave Scala a reputation for being a hieroglyphics soup, but that cannot be farther from the truth today. It's a really nice language to learn and to use, and the only one in my experience that I would want to take with me to scale from a quick dozen-liner script bash-style to a highly concurrent, highly available server application, from native to jvm to JS.
And the foothold in academics has some practical perks, too, like a sound type system (DOT calculus), compatibility guarantees at a theoretical level (TASTy), and what's cooking in the area of capture checking might be a general solution to many of the industry's biggest challenges (e.g. colorless asynchronous programming, safe errors, safe resource management, ... Think of Rust's borrow checker as a special case of this, and the consequences for scala-native as a systems programming platform).
> It is designed by academicians who thought clever looking choice is better.
That's just not true. That's the typelevel ecosystem. The official Scala toolkit mostly includes haoyi libraries which is pretty much Python like Scala.
For reading it, I believe that. For authoring it, yikes it is slow. I'd guess due to all the implicit and implied and coercion and ... and ... and. Now I'm cognizant that I'm running my mouth without trying it on 1.9.x and a similarly recent IJ so maybe it got infinitely better, but my life experience with languages is that they only get more fancy swooshings not QoL improvements due to Moore's Law and yearly refresh cycles
I was/am always glad to pay that tax because non-null-by-default and the vastly superior val/var keyword pairs are totally worth it but it for sure is not a drop-in replacement in team environments. I am already constantly battling the vscoders (to say nothing of vimers) whining that "IJ is too slow for my eeee-leeeet typin'"
Looking forward to JetBrains proposal to rewrite Java Virtual Machine into Kotlin Virtual Machine, certainly the existing Java codebase would be largely improved.
It's better to just say "we will come to this concept later", rather than make a fake syntax that does this (taken from the JEP) behind the scenes:
new Object() {
// the implicit class's body
}.main();
It adds more confusion, as you are left explaining that you could not really run an instance method without instantiating the class -- it was just something fake for beginners.
I agree. Coming from NodeJS I appreciate how explicit Java is.
The complexity is there either way, but in Java it's right up front where I can see it, not hidden away under layers of abstraction for a supposedly better DX.
My first Java programming course went over in detail about that piece of code and in a couple of hours taught me a lot of important Java concepts right away. Consider me not enthused about it.
Simple code like that kept pulling me back to the JSL 1.0 spec time and time again as my understanding deepened, much like the old singleton pattern debates of old.
This is nice for beginners, but the confusion is only postponed, because then you'd have to learn why you need to write a class as a container for static methods and that these methods must be static. So, the Java developers created another special case in the language.
Compare that with Kotlin where you have top-level functions, so that `main` is just like any other function.
They almost caught up with C#, which ditched requisite class declarations years ago. Although C# went one step further and allowed top-level code outside of methods, so that hello world is now:
You can write write code outside of methods in a Java class, called an initializer block:
class MyClass {
{
System.out.println("Hello World!");
}
}
This will run when an object of the class is instantiated. So not useful for the case in question (you could get rid of the class declaration but would presumably still need a main method).
(It's also pretty poor style, but occasionally useful in a pinch, like when instantiating an anonymous inner class, which has no constructors that take arguments)
That sounds a lot like Top-level Statements in the .Net world. Personally I don’t use that feature because I’m old and get confused if things are magic but can certainly see the benefit for the newer devs.
I’m also a somewhat old school C# dev and the main reason I don’t use top level statements is that they only work in a single file of an application, so that single file is different from every other file in your solution.
It’s okay if you’re only writing a single file, and it really seems intended for beginners or micro applications, but for those of us writing anything besides the most trivial, it’s merely “cute” and just adds inconsistency.
This is exactly what I've been calling the "public static void main problem" for years (and an illustration of why I thought something like BASIC or Python should be everyone's first programming language). Neat to see the Java team come up with a solution for it. But "public static void main" runs deeper, and has to do with immediacy: shortening the time between the programmer giving instructions to the computer and seeing the results of those instructions being executed. It makes the smallest possible Java program greatly simpler and absent unusual comments that beginning programmers might struggle with; but there's the issue of the compilation step as well! If they make Java REPL-driven they might well have a winner!
Java has had the ability to run a single code file directly by running `java <path-to-file.java>` since Java 11 - https://openjdk.org/jeps/330. And it's had a Java REPL since Java 9.
Good that they got rid of the class/public static void/string[] Args boilerplate, but if they just went one step forward and declared implicit main function as top-level scope of a file, we could've got to a Python level of tersity. Just imagine!
With respect, not hostile to beginners but adding complexity to the build to support this kind of implicit sugar, when beginners are 100% going to be using AI to write code and answer questions- seems like not the right tradeoff in 2024.
Spock is also a DSL disaster that's trying to be ScalaTest (https://www.scalatest.org/user_guide/property_based_testing) but in a dynamic language. Every time I use it I have to re-learn the syntax. (I have the same issue with Gradle, so maybe it's just-me?)
A "DSL" like SQL that you use hundreds of times a year you'll learn the model of.
A DSL like groovy that you use once for project setup (and for that you'll one-off it likely and stackoverflow the rest of the question) is not. And it isn't really natural, it's a bunch of arcane steps that at the end might superficially look a bit consistent, but still really isn't.
Groovy really needs an autocompleter or a generator. Or, well, as you say, you stackoverflow for everything outside the very vanilla basics of it.
But good luck getting the right version match to the syntax you need. Christ.
How so? I don't think there are many good things to say about Groovy, but I generally agree with most new features introduced to Java. What do you think Groovy does better?
Oops, sorry those are features java "stole" from groovy.
Java has the nullsafe operator now and the elvis too, doesn't it?
I don't use the spaceship operator much, implicit sorting works pretty well.
Groovy's closures have a lot less GOTCHAs. They simply work as expected, at least to me. Half the time I use java closures and I get complaints in compilation that I don't get in Groovy, but maybe they've improved closures more.
Groovy's GPars library is the bomb for concurrency/parallelism. I don't know if I could function in normal java constructs.
The .with keyword is a sneaky useful technique where you can declare a piece of data like:
It allows chained calls that flow naturally. Groovy generally allows pretty compact flowed calls which makes scripts a lot easier.
Groovy scripting with implicit vars is a lot easier than any java scripting, even with the "simplification" described.
The shorthand access/navigation of nested lists and maps, and the map / list literals (also taken by java at some point I think) are really nice to have. Also a + operator for lists and maps I use a lot
Groovy's ability to generically call methods without mucking through 10 lines of reflection is sometimes nice.
The auto-gen of getter/setters is a must have, I think Kotlin has those too?
CompileStatic lets me selectively use full java speed without groovy overhead.
In general, I like Groovy because it is typing-optional. Python and Javascript suck because they don't really have optional type enforcement. Java sometimes asks for too much typing. Groovy lets me select as needed.
The actual sane = for string assignment and == for sane string comparison is nice.
But honestly, Java with the listed features is a lot better. I'll probably still use groovy for doing what would normally done with bash (UGH) since I have a big CLI/scripting library base that handles argument parsing, json, encode/decode, encrypt/decrypt, zip/unzip, in nice compact syntax.
Groovy is basically a dead language now anyway. The world is overrun by JavaScript and Python, and AI looms to replace us all with horrid AI python or javascript glue code.
You can be really productive, expressive and performant in Groovy. So much of the language still works well with @CompileStatic and doesn’t require dynamic typing. Writing clear code that has decent refactoring support in IntelliJ.
Don’t forget traits! When are we getting traits in Java? Probably never.
Optional semicolons and parentheses to cut the line noise and enable internal DSLs.
Though Java has improved implicit typing with `var` and now we have reasonable lambdas, Java is still not a high-level language, but maybe it is now medium-high.
> Oops, sorry those are features java "stole" from groovy.
Well, yeah? Java's explicit strategy for the last few decades is to let other languages experiment, then implement the ideas that worked out once the dust has settled.
It isn't a "Sexy" PL change, but a full foreign function interface will be a huge change. In my experience, relying on the old java JNI based libraries seems to be one of the biggest things that break in upgrades. So I am hoping this will reduce the maintenance burden of Java.
I see Manifold as a huge leap past previous tools Immutables or Lombok. I understand there's a use case where you want to add these language features to an existing code base. But for the most part if you want the language features on the JVM, you should probably just use Scala. That gives you a set of established patterns, best practices, libraries, and a community of users.
If you want type safe SQL in particular, you can pry JOOQ out of my cold dead hands.
Scala is a dying language, anyone boarding that ship is making a mistake. Anyhow, I prefer Java supplemented with powerful features Scala doesn't have, such as type-safe SQL.
> If you want type safe SQL in particular, you can pry JOOQ out of my cold dead hands.
Jooq isn't bad, but it's not SQL, it's Java trying to be SQL. Manifold lets you write type-safe, native _SQL_ of any complexity directly in your code.
I have never seen anyone use manifold. Are you saying that I should use something like that in a serious production environment over Scala, that is a huge language with people that actually know it?
Especially that you call it a dying language, when it just got reborn, and better than ever with Scala 3.
once you write jvm language you can't really be dying language. how can yoy die if you can use all jvm tech stack. Its just all about syntax. You can write powerful state of the art software even in brainfuck as long as it compiles to jvm bytecode
I'm not 100% sold. I like some of it's features (e.g. the mentioned typed SQL safety) but adding all of it seems super heavy-weight. Lombok took a good time to become widely accepted and I don't think this will ever appeal to more than just a niche audience.
At the very least, I prefer not to have any surprises in my codebase because it looks like Java but isn't quite so really.
The vast majority of people that use it aren't, but that's a feature :)
Manifold isn't an all-or-nothing proposition. It's architecture is modularized so that you can select the parts you want à la carte as separate dependencies in your build.
> At the very least, I prefer not to have any surprises in my codebase
But manifold surprises are pleasant ones :) As with any library or framework, it's a design decision: does it provide enough productivity and opportunities to offset its presence in your project? It's not a panacea.
> Manifold isn't an all-or-nothing proposition. It's architecture is modularized so that you can select the parts you want à la carte as separate dependencies in your build.
Oh that's neat! Didn't sound like it when I was skimming over it. I'll keep it in head next time a pet project comes along :-)
Although I like Kotlin better, I'm really impressed how Oracle continues to improve Java. Some developers think Java is an old, cumbersome language, but it is indeed such a productive language and ecosystem with outstanding quality! Java has quite good support for functional programming, concise and immutable structs (called "records"), pattern matching, string templating, virtual threads, structured concurrency (preview for now), a vast ecosystem with outstanding quality, world class documentation, a fast and robust runtime and so on.
Even after nearly 30 years, Java is still a good choice to start something new (e.g. a startup).
It is very trendy to hate java. Which is actually a good thing, because it means I get to continue to enjoy working with java alongside sensible professional developers, who quitely get on with writing excellent code and creating industry leading systems with java. Less competition for the roles and I don't have to work with fanboy types.
Foreign Function Interface is one of the key advantages what C# had over Java (e.g. against huge APIs like Android or macOS). I am really curious how this JEP turns out.
Small correction: FFI in Android land is abysmal, to get decent performance when accessing all kinds of system APIs you almost always end up having to write helpers in Java, to try to alleviate the pain of JNI as much as possible (it is still significant).
Interop with iOS OTOH is a breeze, some of the APIs may require newer Swift Library Evolution ABI (direct calls to Swift exprots, without going through C/objC) but .NET is getting it in .NET 9 (the first and only platform to have it at the moment of release).
Calling Android "Java" has always been a stretch. Not only has Android never been compatible with any version of Java, the divergence between Android and Java is only growing. JDK 22 is Java; Android is Android.
That is true, for all intents and purposes however the glue code to (insufficiently) reduce marshalling and FFI overhead is written in Java the language, even if it does not use OpenJDK.
Okay, but we're not talking about OpenJDK but about Java, a specification -- not an implementation like the OpenJDK JDK -- that Android has never conformed to and from which it is only growing further apart. I.e. the OpenJDK JDK is an implementation of Java; Android is not (there certainly may be some Java code that happens to behave the same way on Android, but it is not, and has never been, the case for Java code generally). The relationship between Java and Android is similar to that between Linux and Unix -- lots of intended similarities, but there shouldn't be an expectation that a new Linux feature appears in, say, AIX or vice-versa.
At least they were forced to accept how much Android ecosystem depends on Java and now Java 17 LTS is the latest supported version, minus the stuff they never supported like Swing and Java 2D.
Calling Android Java is certainly a stretch, but aside from Sun/Oracle folks, I don't ever see anyone do that. Android is Android, Java is Java, and Android is written in Java.
If the language of the non-standard, deliberately ES262-incompatible NodeJS programming system (and GraalJS, for that matter) is called "JS" without anyone batting an eye—which it does—it's pretty silly to insist the language of Android isn't Java.
I started to tinker with this new API last week. I definitely think it's a lot better than needing to self compile a lot of the bindings yourself which will certainly bring more from the community into the feature than were here before.
That said, you really need to write a bunch of boiler-plate to implement useful things in java-like paradigms in the library today. Just as an example, I wrote up a sane windows _getcwd() stub and it's like 30 lines to implement correctly (properly freeing the buffer when I'm down with it)
My pet project is to see if I can write automatic stubs around calls based on published API info and sources, so that at least some of that platform binding lift isn't just for those with non-trivial knowledge of C. Well, that's the hope anyways.
I've been quite keen on the new FFI too - apologies if this is old news, but have you tried the [0] jextract stuff for some of the boilerplate gubbins?
No! Thanks for the callout! That would certainly help on my path. My main goal was to insulate calls to avoid overly complicated reference counting when integrating large native surfaces into as Java program, but certainly an important aspect is getting the function signatures to target in the first place. I threw something bad together to work sort of like this (testing using proton), but I'm more than happy to bin it for something that just-works.
Have you looked at Microsoft's Win32 API metadata package [0]? They're using it to generate C# and Rust bindings, and other people have targeted other languages.
1. Pointers to the same (and not just references to objects).
2. Unions (via explicit-layout structs)
3. Function pointers.
4. C-style varargs.
To be fair, not all of these have been exposed in C# historically even though CLR had them all along. Most notably, unmanaged function pointers took over 20 years. And since most people look at CLR through the prism of C#, they aren't necessarily aware of these features.
Still, one way or the other, we're at the point where pretty much any C program can be transpiled to C# in a one-to-one mapping of almost every construct (setjmp/longjmp has to be emulated with exceptions), and a very similar performance profile of the resulting code.
5. Stackalloc (C alloca), fixed buffers in structs and inline arrays
6. ref T and Span<T>, which act just like &mut T and &mut [T] in Rust (with the same syntax). They are used in both advanced and most basic APIs alike to provide zero-cost wrapping and/or slicing of arbitrary memory (managed heap, stack, NativeMemory.Alloc'd)
e.g. You can receive byte* and length from FFI and construct a (ReadOnly)Span<byte> from them. That span then can be passed to almost every method that used to work with arrays only during .NET Framework days.
Indeed.
The CLR from its inception implemented a lot of features for helping native inter-op. I would guess that msft did make the effort simply because of their large legacy c/c++/win32 code base.
It's a shame really that msft stewardship of the .net/clr was so lacking. Of all the modern virtual machine clr us pretty much up there
The goal wasn't so much native interop as being the universal VM for different languages. Specifically, they had an explicit requirement that pure CLR bytecode should be a valid compilation target for C++ (among other things - such as what would eventually become F#, hence why CLR also has explicit tailcalls, for example). But, of course, when you have all the necessary abstractions, that also allows for easy interop with the world outside the VM.
It's too bad that this vision was never fully realized - in part, because .NET was not open enough originally, but also because of internal divisions in Microsoft itself. If it did, we could have had the equivalent of both LLVM and WebAssembly much, much earlier.
The internal divisions had more a play into this than anything else, Windows could have evolved into something like Android or Inferno, but that isn't something that those on Sinofsky's team would accept.
Also why we got WinRT being like .NET, but with COM and C++, with .NET Native being a complete difference compiler toolchain, as he got hold of the Windows reigns.
Because it was yet another all-in, where all future Microsoft software was going to be .NET based, but WinDev/Office never played ball.
We just have to go back in time and see all those Visual Studio.NET shows on surviving documents, or how Ext-VOS (what became .NET) was being done at MSR.
We could have had something like Android, Inferno/Limbo in terms of .NET usage across the Windows layers, but it always bumps into the love for COM and C++, which incendently is how many Longhorn ideas were remade in Vista and continues to this day, using COM instead of .NET.
One design iteration already has a working, implemented branch available, it’s just one of the hardest designs to get right, to remain backwards compatible, to have it work nice with generics and all the other features, etc.
So once they actually settle on a design (which they seem to have closed on quite a lot in the last couple of years), it might not take that long to happen.
Noting that Valhalla value types are about guaranteeing object value identity with memory layout and/or flattening supposedly deriving from that.
Modeling unmanaged sequence of bytes within the type system (like receiving a typed buffer from un managed code) might still be challenging
It's definitely exciting and a big step forward from JNI/JNA.
However, I am a little concerned about the heavy emphasis on library unloading in the JEP. Unloading is famously fraught and unsafe for wide swaths of common libraries ... or maybe I'm overfitting due to recent trauma[1] and everything will be fine.
It worked great for me. I had long wanted to rewrite a Python lib in Kotlin, since the Python part of the lib is slow, and it does not support multi-threading.
But the ugliness of JNI stopped me. Then I tried FFI in Java 21, with jextract it was amazing.
I wasn't aware of FFI at first, but the finalized version of virtual threads made me check the Java release notes.
It's kind of startling to see how many places still use Java 8, estimated at ~1/3 of projects according to a survey i just googled. And something like half that still use java 11.
Java 8 is still under Extended Support until 2030 (and indefinite sustaining support). Java 11 left Premier Support September 2023.
"Java SE 8 has gone through the End of Public Updates process for legacy releases. Oracle will continue to provide free public updates and auto updates of Java SE 8 indefinitely for Personal, Development and other Users via java.com".
Oh that’s right. My company didn’t want to pay the insane Oracle fees to keep getting support. I think it wasn’t even a discussion once the saw the number, but that’s basically a rumor.
So we have to stick to OpenJDK which means 8 doesn’t receive security updates and is untenable.
Seems like willful incompetence on the company’s part.
Just for note, JDK 8 came from the same time as Windows XP. Sure, the attack surface is different, but if they have no plans on moving forward and doesn’t even want to pay for support, then frankly fck them. Then they just surprise pikachu when a bunch of their user data leaks.
Wasn't the whole point of Java never releasing a 2.0 that there would never be breaking changes? Seems like something went very very wrong with Java if the state they are in is that the language refuses to make breaking changes and the developers refuse to take up the supposedly non breaking updates due to breaking changes based on the comments I'm seeing here. So the language never improves as much as it can and the developers never update anyway making the whole point of non-breaking changes moot.
Java 8 allows access to unsafe methods, which despite being meant for internal JDK use only, have been widely used in external projects. Newer Java versions do not permit the use of unsafe except for the JDK itself.
It wasn't ever part of the public API that's promised to never break, and JDK developers were annoyed that it being used meant Java got perceived as unstable, and it's gone in more recent versions.
I thought the issue was not Unsafe methods (which are only just now starting to be marked for removal) but rather various bytecode weaving libraries like javassist. As the JDKs progressively enforce bytecode verification more strictly these libraries sometimes run afoul of the new restrictions. (I speak from a little experience here, managed a somewhat involved upgrade path from 7 to 8 way back in the day which had this issue.)
I haven’t ever seen this mentioned. The real culprit was libraries that go into jdk internals when they shouldn’t have so end user applications couldn’t upgrade until those libraries upgraded.
There are barely any breaking changes, I could still run a graphical application written by a prof in early 2000s, served on his website as a jar. No other language comes remotely as close to this level of stability.
As for the changes in 8->9, there was a stagnation period in the last year of Sun, and many people overfitted their libs to 8, by e.g. making use of internal APIs made accessible through reflection. This was never a good idea, and all that is happening now is that you have to explicitly state at invocation what kinds of non-future-proof modules you make use of, so that you are made aware of what could potentially change, plus it disincentivizes libraries from accessing these non-public APIs.
I'm dragging my new company's codebases from 8 to 17 from soup to nuts. It's not always just about the language update, but all the old legacy crust that accumulated since java 8 that prevented anyone else to do it. My PRs are terrible and necessary.
Snark aside, the problem with Java in the enterprise is that Oracle provides support for mind-bogglingly ancient versions (if you're willing to pay them). This disincentivizes companies from upgrading, ends up frustrating their developers, and has probably contributed to the negative reputation that Java has in some corner of the net.
I get that tracking the current version isn't feasible for most companies, especially if software isn't their core business. The Java folks do their best to make upgrades painless, but the longer you wait, the more painful it gets.
Unbelievable! It is a strong signal that people don’t care and technical leadership is bad. Always the nonsense excuses of having to work on a “legacy” codebase for more than ten years with a team of 3 developers and 4 analysts.
In practice, Java is the language of legacy and Android.
Java 8 keeps working, while "modern" Java keeps chasing mistakes like green threads. If anything, I'm more baffled by 9+ having a non-neglegible market share at all.
If by green threads you mean virtual threads in JDK 21 could you please elaborate why they are a mistake? I'm not a Java developer but from what I see new concurrency model allows to write much more efficient network software - OS threads are expensive (in terms of RAM/CPU) and to handle many thousands of network connections (C10k problem) you have to either throw a lot of hardware or use NIO (New/Non-blocking I/O) which is hard to code.
One of reasons why Go become popular - gorutines look like normal threads (relatively easy to code) but more efficient.
There were already "user-mode" implementations of asynchronicity on the JVM for years (like Monix, cats-effect, Pekko (fka Akka), etc).
Loom has a worse API, is hidden from the user (what's preemptible and what will cause OS thread starvation? who knows!), and effectively ends up infecting the whole JVM with its complexity.
Go shares most of those downsides, but as a greenfield project (..heh) there's at least the expectation that all libraries play nice with their scheduler. They also try to hide FFI starvation by effectively running each FFI call in a dedicated OS thread[0].
There's also gevent/greenlet, which tries to bolt "colourless" M:N scheduling onto Python. It hasn't exactly taken the Python world by storm either, despite being far older than their native asyncio support.
Overall, I'd consider all three implementations of the approach to be dead on arrival.
User-mode implementations are very easy to get wrong (you might accidentally call a blocking operation where you shouldn’t), and have indecipherable stack traces. How is Loom’s API bad? It literally reuses basically everything you know about Threads, seamlessly.
Also, Java has the luxury that almost no code makes use of FFI, so their impact is minimal.
Interesting point regarding scheduler and the interruptibility of FFI calls. Just thinking about it I don't see how this can be addressed. So definitely interested in learning here: what is the remedy to your criticism here beyond "document behavior"?
Does it? Preemptability is pretty robustly solved in Go. While it's sometimes less efficient than I'd like, it's a far cry from the initial draft of virtual threads in java where a misplaced "synchronized" could sneakily starve entire executors. Even with CGo pinning (which, as you indicate, is rare due to the bulk of pure-Go libraries) I'm having trouble thinking of reasonable situations where full starvation or deadlock occurs rather than (admittedly unpleasant!) latency and queueing.
That said, Loom is quite new and deliberately iterative in approach, and the Java core folks are quite skilled, so I do expect to see substantial improvements in behavior and issue-detection tooling here over the coming years.
> I'd consider all three implementations of the approach to be dead on arrival
I'd argue that eventlet/greenlet failed for different reasons than the concurrency model or starvation risk (the monkeypatching approach just can't sustainably work in an ecosystem as big and native-code-dependent as Python's), hence Python's falling back to traditional async/await cooperative concurrency.
The Rust folks are struggling with the same choices here as well, further constrained by their requirements of a GC-less runtime with near-zero-overhead C FFI, which precludes them from using Go's approach. There was some great discussion of that here: https://news.ycombinator.com/item?id=39242962
Now this may seem like a silly question, but if I only want to run Java apps on macOS, what should I install from MacPorts? Searching for "JRE" gives no results. Searching for OpenJDK gives various options including:
Usually Java apps come with Java these days, like how there's no independent way to run Electron apps, it just comes with the download of the app itself. There are tools that make it easy like jpackage and (toots my own horn) https://www.hydraulic.dev
If you want to just quickly run a fat jar then any will work. "openjdk21" is fine. The Zulu variant comes with JavaFX which simplifies things if your app needs that.
For sure, Java developers need to use a tool like yours to distribute their app. My experience with some Java applications was that running it triggered an attempt to download (I assume) the JRE, which I cancelled as I didn't know the source of download and didn't want it to download some PUA or malware. (I remember JRE for windows used to bundle some browser toolbar on windows). Hence my attemt to install it myself beforehand. But, since Oracle has stopped distributing latest JRE through Java.com for macOS, I looked for it in MacPorts. And it is really confusing - for example, if you look at the OpenJDK-Zulu port that you recommended - https://ports.macports.org/port/openjdk21-zulu/details/ - it has 4 variants:
1. Applets ( Advertise the JVM capability "Applets".)
2.BundledApp ( Advertise the JVM capability "BundledApp". This is required by some java-based app bundles to recognize and use the JVM.)
3. JNI ( Advertise the JVM capability "JNI". This is required by some java-based app bundles to recognize and use the JVM.)
4. WebStart ( Advertise the JVM capability "WebStart".)
- what the heck? I think I am better off without Java. :)
That's a MacPorts thing, I've not seen that before and the Zulu download doesn't seem to have that. And zulu goes in for variants more than most distributors do.
Is there a timeline on Valhalla? I only loosely follow the Java ecosystem these days, but Valhalla is of particular interest to my performance-oriented mind.
I follow up on valhalla every now and then. It looks few more releases away, probably not before next LTS.
That being said, the amount of rigor with which the JDK devs test their experiments is really something to witness. Its equivalent to old school MS with painstaking maintenance at backwards compatibility, all the while moving the wheel of progress.
Every single change so far has been planned with a decade of advanced planning because that's just how this ecosystem roles.
There are ad-hoc hacks in the JDK to avoid allocation for vectors; once we get some Valhalla features, vectors could be represented as plain value objects.
To me the question "Why would I use X over Y?" in programming space is a bit redundant. Why would I use Kotlin over Closure? Why would I use Groovy over Scala?
Even only considering JVM languages you run in to way too many options for the question in itself to be worth your time as a serious discussion.
IMO - use whatever you and your team like best and that suits your needs. Java is great for hiring new devs and is arguably the most well established in an enterprise settings.
If you want an actual answer: Personal preference.
Android OS layer has zero Kotlin, and Google had to backtrack on their decision to let Java languish, as the Android ecosystem started to lose out on Java ecosystem, thus ART is now updatable via Play Store since Android 12, and Java 17 LTS is the latest supported version.
Kotlin is only used on Jetpack Compose and a couple of AndroidX libraries, that you have to ship alongside the application. And as alternative to Groovy on Gradle build scripts.
I expect this year's GDC to announce Java 21 LTS support.
Interesting, I don't develop for Android so I don't know the details in this space. Surprising to learn that the Android OS layer is 100% Java. In terms of a platform, I was more referring to the mass adoption of Kotlin for Android app development. 95% of the top 1,000 Android apps are written in Kotlin and adoption overall is > 50% according to their overview page https://kotlinlang.org/docs/android-overview.html
IMO those numbers create a lot of staying power for the language.
More like 70%, the remaining 30% are split between Linux kernel (C), Treble drivers written in C++ (Java is also supported), SQLlite (C), and naturally Skia, ART are written in C++. With a couple of newer drivers like the Bluetooth stack, adopting Rust.
However zero Kotlin.
Naturally Kotlin has such an adoption on userspace, Jetpack Compose the new UI framework is written in Kotlin, so already adopting that jumps up the adotption numbers.
It is like measuring Swift adoption by the use of SwiftUI, even if the business logic is still written in Objective-C.
I do agree that Google being Kotlin's godfather, pushing it for new projects, does create a lot of staying power.
However it is also the reason why on JVM, it is only yet another guest language, as there is no one telling Java developers they should not write Java to use framework XYZ.
All those that tried, Grails, Spark, Akka,... eventually lose adoption speed, and got replaced by Java alternatives.
Which Google had to accept, Kotlin's value without the breath of Java written libraries isn't that great any longer, and they aren't going to rewrite the whole Maven Central into Kotlin, as the Java community moves beyond Java 8.
The downvotes are unfortunate. To clarify I wasn't trying to start a flame war.
I was hoping someone would answer with concrete technical tradeoffs and comparisons e.g. compile times, null safety, common footguns, personal experiences, etc.
I was recently asked for a comparison between Kotlin and modern Java by a team that's considering a migration of their legacy Java service. I haven't kept up with Java's changes, so didn't have an offhand unbiased comparison to share.
I've worked on backend Kotlin and Java codebases for the last five years and have introduced Kotlin to dozens of teams across my company. Nobody I've introduced Kotlin to has ever ended up preferring Java or switching back to it. There's been initial skepticism at first (reasonable), but after working in Kotlin for a week or two, I've seen even the staunchest Java devs proclaim they're never going back.
To the point on personal preference, I think it's a factor but I don't think it's _the answer_. It's a blanket statement that ignores important details. Languages have different affordances, features, paradigms, and patterns that lead you to develop and think in different ways. Some differences like null safe types are obvious improvements for a large codebase with many contributors. The feature catches real bugs and makes the system easier to build and maintain.
I think there's a lot of warranted skepticism of JVM languages that aren't Java, but something about Kotlin feels very different. For comparison, I've worked with Scala (Spark) and played around with Clojure in my free time.
I'm not sure what feels so much better compared to other JVM languages, but if I had to guess I'd say it's an emergent quality from a few things JetBrains has done really well. In particular:
- The 100% Java interop claim is real. I've only had minor hiccups with Lombok
- The ability to incrementally adopt Kotlin in an existing Java codebase
- The IDE support in IntelliJ IDEA is unbelievable. The suggested refactorings subtly teach you the language
- Null safety lets you focus on domain modeling and business logic instead of error handling and validation
- Kotlin's backwards compatibility. New versions never seem to break anything. And they even provide refactoring actions in IntelliJ to automatically update deprecated usages
- Very few significant paradigm shifts. Kotlin doesn't force you to totally change your Java code to fit a functional style or anything like that. It just tries to make safer code easier to write
- The political stability and longevity gained from Android's blessing as a first-class language makes Kotlin feel like more than just another JVM language. There's Kotlin running on billions of devices. That's a pretty big ship to turn around, sink, or replace
To summarize, Kotlin just feels like the elephant in the room. Aside from low-level changes like new FFI possibilities and GC improvements, it's not clear to me what value Java upgrades add in comparison to Kotlin—especially in regards to new language features and syntax.
Anyways, hopefully this followup post starts a more fruitful discussion. I asked this question in earnest based on my personal experiences and observations. If you haven't tried Kotlin yet, I'd suggest cracking open an IntelliJ scratch file and test driving it yourself.
I doubt Oracle would fix it, as this is definitely a kernel bug that breaks userspace. It is part of the POSIX spec what the JVM relies on, and MacOS is supposedly POSIX-compliant. So it should be Apple that fixed their bug.
https://openjdk.org/jeps/463
Finally solves the inscrutable Hello World program!
Yes, it's just ergonomics for early beginners. But could be the difference in whether or not someone new to programming sticks with Java or not.