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I am reading "Elixir in Action" book by Saša Jurić, and in the first chapter it says:

Erlang processes are completely isolated from each other. They share no memory, and a crash of one process doesn’t cause a crash of other processes.

Isn't that true for Java threads as well? I mean when Java thread crashes, it too does not crash other threads - especially, if we are looking at request-processing threads (lets exclude the main thread from this disucussion)

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    Hm, describes it running hundreds if not thousands, uses scheduler, CPU bound. Looks like "threads" to me.
    – user2982130
    Aug 30, 2015 at 8:07
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    Another comparison is perhaps objects. You cannot change another object unless it has exposed an API to do so (maybe via some Java VM internals, but normally not). Erlang processes are more akin to Java objects in terms of their abstraction, and are often used as such by Erlang programmers. The big difference then is that they can run concurrently. Aug 30, 2015 at 8:28
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    @adam Actually Erlang processes are the only true objects as the inventor of OOP inagined them. Java follows the C++ "blasphemy" :-) Aug 30, 2015 at 11:50
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    Ahhh... I totally "Oh no, this thread again"... but got sucked in to responding anyway. Hopefully I did a balanced job of it.
    – zxq9
    Aug 30, 2015 at 12:30
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    Any uncaught exception from any Java thread will bring down the whole VM. It's just that most thread pool implementations will catch exceptions propagating from tasks in their work queues. Aug 31, 2015 at 6:46

7 Answers 7

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Repeat after me: "These are different paradigms"

Say that aloud 20 times or so -- it is our mantra for the moment.

If we really must compare apples and oranges, let's at least consider where the common aspects of "being fruit" intersect.

Java "objects" are a Java programmer's basic unit of computation. That is, an object (basically a struct with arms and legs that has encapsulation somewhat more strictly enforced than in C++) is the primary tool with which you model the world. You think "This object knows/has Data {X,Y,Z} and performs Functions {A(),B(),C()} over it, carries the Data everywhere it goes, and can communicate with other objects by calling functions/methods defined as part of their public interface. It is a noun, and that noun does stuff.". That is to say, you orient your thought process around these units of computation. The default case is that things that happen amongst the objects occur in sequence, and a crash interrupts that sequence. They are called "objects" and hence (if we disregard Alan Kay's original meaning) we get "object orientation".

Erlang "processes" are an Erlang programmer's basic unit of computation. A process (basically a self-contained sequential program running in its own time and space) is the primary tool with which an Erlanger models the world(1). Similar to how Java objects define a level of encapsulation, Erlang processes also define the level of encapsulation, but in the case of Erlang the units of computation are completely cut off from one another. You cannot call a method or function on another process, nor can you access any data that lives within it, nor does one process even run within the same timing context as any other processes, and there is no guarantee about the ordering of message reception relative to other processes which may be sending messages. They may as well be on different planets entirely (and, come to think of it, this is actually plausible). They can crash independently of one another and the other processes are only impacted if they have deliberately elected to be impacted (and even this involves messaging: essentially registering to receive a suicide note from the dead process which itself is not guaranteed to arrive in any sort of order relative to the system as a whole, to which you may or may not choose to react).

Java deals with complexity directly in compound algorithms: how objects work together to solve a problem. It is designed to do this within a single execution context, and the default case in Java is sequential execution. Multiple threads in Java indicates multiple running contexts and is a very complex topic because of the impact activity in different timing contexts have on one another (and the system as a whole: hence defensive programming, exception schemes, etc.). Saying "multi-threaded" in Java means something different than it does in Erlang, in fact this is never even said in Erlang because it is always the base case. Note here that Java threads imply segregation as pertains to time, not memory or visible references -- visibility in Java is controlled manually by choosing what is private and what is public; universally accessible elements of a system must be either designed to be "threadsafe" and reentrant, sequentialized via queueing mechanisms, or employ locking mechanisms. In short: scheduling is a manually managed issue in threaded/concurrent Java programs.

Erlang separates each processes' running context in terms of execution timing (scheduling), memory access and reference visibility and in doing so simplifies each component of an algorithm by isolating it completely. This is not just the default case, this is the only case available under this model of computation. This comes at the cost of never knowing exactly the sequence of any given operation once a part of your processing sequences crosses a message barrier -- because messages are all essentially network protocols and there are no method calls that can be guaranteed to execute within a given context. This would be analogous to creating a JVM instance per object, and only permitting them to communicate across sockets -- that would be ridiculously cumbersome in Java, but is the way Erlang is designed to work (incidentally, this is also the basis of the concept of writing "Java microservices" if one ditches the web-oriented baggage the buzzword tends to entail -- Erlang programs are, by default, swarms of microservices). Its all about tradeoffs.

These are different paradigms. The closest commonality we can find is to say that from the programmer's perspective, Erlang processes are analogous to Java objects. If we must find something to compare Java threads to... well, we're simply not going to find something like that in Erlang, because there is no such comparable concept in Erlang. To beat a dead horse: these are different paradigms. If you write a few non-trivial programs in Erlang this will become readily apparent.

Note that I'm saying "these are different paradigms" but have not even touched the topic of OOP vs FP. The difference between "thinking in Java" and "thinking in Erlang" is more fundamental than OOP vs FP. (In fact, one could write an OOP language for the Erlang VM that works like Java -- for example: An implementation of OOP objects in Erlang.)

While it is true that Erlang's "concurrency oriented" or "process oriented" foundation is closer to what Alan Kay had in mind when he coined the term "object oriented"(2), that is not really the point here. What Kay was getting at was that one can reduce the cognitive complexity of a system by cutting your computrons into discrete chunks, and isolation is necessary for that. Java accomplishes this in a way that leaves it still fundamentally procedural in nature, but structures code around a special syntax over higher-order dispatching closures called "class definitions". Erlang does this by splitting the running context up per object. This means Erlang thingies can't call methods on one another, but Java thingies can. This means Erlang thingies can crash in isolation but Java thingies can't. A vast number of implications flow from this basic difference -- hence "different paradigms". Tradeoffs.


Footnotes:

  1. Incidentally, Erlang implements a version of "the actor model", but we don't use this terminology as Erlang predates the popularization of this model. Joe was unaware of it when he designed Erlang and wrote his thesis.
  2. Alan Kay has said quite a bit about what he meant when he coined the term "object oriented", the most interesting being his take on messaging (one-way notification from one independent process with its own timing and memory to another) VS calls (function or method calls within a sequential execution context with shared memory) -- and how the lines blur a bit between programming interface as presented by the programming language and the implementation underneath.
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    @WandMaker Great to hear! Oddly enough, the more you think about one paradigm the more you'll understand about others. This is actually super entertaining (to me, at least) if you have time (hint: create a need). Try Prolog! Try Forth! Build OOP in Guile/Scheme/whatever! Then revisit assembler! This stuff is just so much fun the deeper you go -- until it all sort of fades together and you start hating every language, which is where I am now. But the problem solving is still fun! ^.^
    – zxq9
    Aug 30, 2015 at 15:25
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    Nice article, so I said it 21 times. Aug 16, 2017 at 18:47
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Most definitely not. All threads in Java share the same address space so it is possible for one thread to trash things owned by another thread. In the Erlang VM this just isn't possible as each process is isolated from all others. That's the whole point of them. Any time your want to have one process do something with data from another your code has to send a message to the other process. The only things shared between processes are large binary objects and these are immutable.

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    Isn't it actually true that Erlang processes also share address space at the low level (at the language level, "address space" is meaningless anyway)? It's the only way to implement cheap green threads. Isolation is achieved by making sure no pointer observable by a process can dereference to another process's memory block. Aug 30, 2015 at 9:42
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    Java has no concept of an address space. Java threads have access to each others' objects and static fields.
    – user253751
    Aug 30, 2015 at 9:44
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    @immibis It is more appropriate to say that Java has no notion of ownership of objects by threads. By implication, objects are shared between threads. Aug 30, 2015 at 11:00
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Java threads can in fact share memory. For example you can pass the same instance down to two separate threads and both can manipulate its state, leading to potential problems such as deadlocks.

Elixir/Erlang on the other hand addresses this by the concept of immutability, so when you are passing something to a process, it will be a copy of the original value.

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    It's either immutable or copied. In Erlang I guess that means it doesn't need to be copied defensively. Aug 30, 2015 at 11:03
  • That's true, it will actually only be copied if necessary. If a list is for example written once, then only read, afaik the BEAM will reuse the same memory as an optimization. The effect however is the same as if everything would be copied every time. Aug 30, 2015 at 11:43
  • Yes, and sometimes it is copied in an even more essential way: serialized and sent to another computing node. Aug 30, 2015 at 11:45
  • It is worth noting that you can still have deadlocks in Erlang/Elixir, just not because of shared memory issues. Aug 30, 2015 at 11:45
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    Just to clarify as it is possible to misinterpret the first sentence: process is something entirely different to a thread. And yes, the former can communicate but not as easily as by passing objects.
    – ellimilial
    Oct 28, 2019 at 23:07
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when Java thread dies, it too does not impact other threads

Let me ask a counterquestion: why do you think Thread.stop() has been deprecated for more than a decade? The reason why is precisely the negation of your statement above.

To give two specific examples: you stop() a thread while it's executing something as innocuous-sounding as System.out.println() or Math.random(). Result: those two features are now broken for the entire JVM. The same pertains to any other synchronized code your application may execute.

if we are looking at request-processing threads

The application may theoretically be coded such that absolutely no shared resource protected by locks is ever used; however that will only help to point out the exact extent to which Java threads are codependent. And the "independence" achieved will only pertain to the request-processing threads, not to all threads in such an application.

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  • let me rephrase "impact" to "crash"
    – Wand Maker
    Aug 30, 2015 at 9:05
  • Such rephrasing makes the negation even more precisely true. Crashing and infinite blocking are two quite probable outcomes. Aug 30, 2015 at 9:09
  • If you can elaborate your answer, that will help. I was merely suggesting that there is certain similarity between Erlang process and Java threads, may be rest everything is different.
    – Wand Maker
    Aug 30, 2015 at 9:12
  • Similarities between them are superficial and differences fundamental. Two independent JVM processes are a much better analogy. Aug 30, 2015 at 9:14
  • I understood it as BEAM == JVM, Process == Thread You are suggesting that Process == JVM. May be its one way of looking at it.
    – Wand Maker
    Aug 30, 2015 at 9:17
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To complement on previous answers, Java threads have two types: daemon and non daemon.

To change a thread's type you can call .setDaemon(boolean on). The difference is that a daemon thread does not keep the JVM from quitting. As the Javadoc for Thread says:

The Java Virtual Machine exits when the only threads running are all daemon threads.

That means: user threads (those that are not specifically set to be daemon) keeps the JVM from terminating. On the other hand, daemon threads MAY BE RUNNING when all non-daemon threads are finished in which case the JVM will quit. So, to answer your question: you can start a thread that does not quit the JVM when it finishes.

As to the comparison with Erlang/Elixir don't forget: they are different paradigms, as already mentioned.

It is not impossible for the JVM to mimic Erlang's behaviour though it is not for what it was intended to and, therefore, it goes with lots of trade-offs. The following projects tries to accomplish that:

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Isn't that true for Java threads as well? I mean when Java thread crashes, it too does not crash other threads

Yes and No. I explain:

  • Referring to shared memory: Different threads in a Java process share the whole heap, therefore threads can interact in a huge number of planned and unplanned ways. However objects in the stack (e.g. a context you pass down to called method) or a ThreadLocal are their own thread's (unless they start sharing references).

  • Crashing: If a thread crashes in Java (a Throwable is propagated into Thread.run(), or something gets looped or blocked), that mishap might not affect other threads (e.g. a pool of connections in a server will continue to operate). However as different threads interact. Other threads will easily get stranded if one of them ends abnormally (e.g. one thread trying to read from an empty pipe from another thread which did not close its end). So unless the developers are highly paranoid careful, it is very likely that side effects will occur.

I doubt that any other paradigm intends threads to operate as totally independent islands. They must share information and coordinate somehow. And then there will be the chance to mess things up. It is just they will take a more defensive approach that "gives you less rope to hang yourself" (same idiom as with pointers).

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On the outset, the appeal could be like that. And in such a restricted context of contrast("one crashing the other"), they may appear the same. But the moment we set foot into their details and essence, the real difference would surface. @zxq9 has given a fair amount of contrasting details, may it help understand that they indeed are different in details.

-- ErLang is a marvel of engineering, when it comes to distributed systems. It's outlook of the problem domain is truly phenomenal, and it's approach to system resources is indeed a different one. Not to be encountered anywhere else.

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