Is Haskell strongly typed? I.e. is it possible to change the type of a variable after you assigned one? I can't seem to find the answer on the internet.

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    Whether Haskell is strongly typed depends on whether you like its type system or not. See ericlippert.com/2012/10/15/… Dec 15, 2015 at 16:31
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    "Strongly-typed" and "weakly-typed" are ill defined. You probably mean to ask if Haskell is dynamically typed (no, it's not). Dec 15, 2015 at 17:48
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    Note that in Haskell, you can't even change the value of a variable after it's assigned; so even if Haskell were dynamically typed, the runtime-type of a variable would be fixed at assignment.
    – ruakh
    Dec 15, 2015 at 18:05
  • @EricLippert how about mapping weak = type-unsafe and strong = type-safe? how about the rest of my version of the definitions below? however, memsafety, I think — if you mean memory allocation and pointer dereferencing — should be viewed as yet one layer below type safety, which is in turn one layer below static type safety. Dec 16, 2015 at 14:49
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    @ErikAllik: Thank you for so aptly illustrating my central point: that these terms are so ill-defined that you have to have a careful explanation calling out precisely which kinds of safety and guarantees you mean to express. Also, what do you do about languages like C# that are for the most part type safe but have an unsafe subset for interoperating with C programs? Is such a language strongly typed because it is typically typesafe, or weakly typed because it can be type unsafe? Again, we have to carefully delineate what we mean. Dec 16, 2015 at 17:44

4 Answers 4


Static — types are known at compile time. Java and Haskell have static typing. Also C/C++, C#, Go, Scala, Rust, Kotlin, Pascal to list a few more.

A statically typed language might or might not have type inference. Java almost completely lacks type inference (but it's very slowly changing just a little bit); Haskell has full type inference (except with certain very advanced extensions).

(Type inference is when you only have to declare a minimal amount of types by hand, e.g. var isFoo = true and var person = new Person(), instead of bool isFoo = ... and Person person = ....)

Dynamic — Python, JavaScript, Ruby, PHP, Clojure (and Lisps in general), Prolog, Erlang, Groovy etc. Can also be called "unityped"; dynamic typing can be "emulated" in a static setting, but the reverse is not true except by using external static analysis tools. Some languages make it possible to mix dynamic and static (see gradual typing, e.g. https://typedclojure.org/).

Some languages enable static typing for one or more modules, applied at import time, for example: Python+Mypy, Typed Clojure, JavaScript+Flow, PHP+Hack to name a few.

Strong — values that are intended to be treated as Cat always are; trying to treat them like a Dog will cause a loud meeewww... I mean error.

Weak — this effectively boils down to 2 similar but distinct things: type coercion (e.g. "5"+3 equals 8 in PHP — or does it!) and memory reinterpretation (e.g. (int) someCharValue or (bool) somePtr in C, and C++ as well, but C++ wants you to explicitly say reinterpret_cast). So there's really coercion-weak and reinterpretation-weak, and different languages are weak in one or both of these ways.

Interestingly, note that coercion is implicit by nature and memory reinterpretation is explicit (except in Assembly) — so weak typing consists of an implicit and an explicit behavior. Maybe that's even more of a reason to refer to 2 distinct subcategories under weak typing.

There are languages with all 4 possible combinations, and variations/gradations thereof.

Haskell is static+strong; of course it has unsafeCoerce so it can be static+a bit reinterpret-weak at times, but unsafeCoerce is very much frowned upon except in extreme situations where you are sure about something being the case but just can't seem to persuade the compiler without going all the way back and retelling the entire story in a different way.

C is static+weak because all memory can freely be reinterpreted as something it originally was not meant to contain, hence weak. But all of those reinterpretations are kept track of by the type checker, so still fully static too. But C does not do implicit coercions, so it's only reinterpret-weak.

Python is dynamic+almost entirely strong — there are no types known on any given line of code prior to reaching that line during execution, however values that live at runtime do have types associated with them and it's impossible to reinterpret memory. Implicit coercions are also kept to a meaningful minimum, so one might say Python is 99.9% strong and 0.01% coercion-weak.

PHP and JavaScript are dynamic+mostly weak — dynamic, in that nothing has type until you execute and introspect its contents, and also weak in that coercions happen all the time and with things you'd never really expect to be coerced, unless you are only calling methods and functions and not using built-in operations. These coercions are a source of a lot of humor on the internet. There are no memory reinterpretations so PHP and JS are coercion-weak.

Furthermore, some people like to think that static typing is about variables having type, and strong typing is about values having type — this is a very useful way to go about understanding the full picture, but it's not quite true: some dynamically typed languages also allow variables/parameters to be annotated with types/constraints that are enforced at runtime.

In static typing, it's expressions that have a type; the fact of variables having type is only a consequence of variables being used as a means to glue bigger expressions together from smaller ones, so it's not variables per se that have types.

Similarly, in dynamic typing, it's not the variables that lack statically known type — it's all expressions! Variables lacking type is merely a consequence of the expressions they store lacking type.

One final illustration

In dynamic typing, all the cats, dogs and even elephants (in fact entire zoos!) are packaged up in identically sized boxes.

In static typing these boxes look different and have stickers on them saying what's inside.

Some people like it because they can just use a single box form factor and don't have to put any labels on the boxes — it's only the arrangement of boxes with regards to each other that implicitly (and hopefully) provides type sanity.

Some people also like it because it allows them to do all sorts of tricks with tigers temporarily being transported in boxes that smell like lions, and bears put in the same array of interconnected boxes as wolves or deer.

In such label-free setting of transport boxes, all the possible logicistics scenarios need to be played or simulated in order to detect misalignment in the implicit arrangement, like in a stage performance. No reliable guarantees can be given based on reasoning only, generally speaking. (ad-hoc test cases that need for the entire system to be started up for any partial conclusions to be obtained of its soundness)

With labels and explicit rules on how to deal with boxes of various labels, automated/mechanized logical reasoning can be used to draw up conclusions on what the logistics system won't do or will do for sure (static verification, formal proof, or at least pseudo-proof like QuickCheck), Some aspects of the logistics still need to be verified with trial runs, such as whether the logistics team even got the client right. (integration testing, acceptance testing, end user sanity checks).

Moreover, in weak typing dogs can be sliced up and reassembled as frankenstein cats. Whether they like it or not, and whether the result is ugly or not. (weak typing)

But if you add labels to the boxes, it still matters that Frankenstein cats be put in cat boxes. (static+weak typing)

In strong typing, while you can put a cat in the box of a dog, but you can only keep pretending it's a dog until you try to humiliate it by feeding it something only dogs would eat — if that happens, it will scream out loud, but until that time, if you're in dynamic typing, it will silently accept its place (in a static world it would refuse to be put in a dog's box before you can say "kitty").

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    "(e.g. "5"+3==8 in PHP (or does it? ;)))" Was nesting that many parens in an English sentence really necessary? You'll be talking with a Lisp soon... Dec 15, 2015 at 20:40
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    So what's the other 0.89% of Python? ;)
    – Darael
    Dec 15, 2015 at 22:35
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    @Darael: arguing about whether things are Pythonic or not. Dec 15, 2015 at 22:53
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    @Voo: with a sufficiently powerful type system, you can encode business requirements in types. Ocsigen is a web framework written in OCaml, which cannot generate malformed HTML, any attempt to do so would result in a type error. Ur/Web is a web framework written in Ur, which cannot generate malformed HTML, dead links, SQL injections, cross-site scripting attacks, HTML forms without validations, any attempt to do so would result in a type error. Galois is a company using Haskell for government, military, and intelligence software, and they have encoded the rules for distributing classified … Dec 16, 2015 at 0:11
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    … documents in the type system, making it impossible to write code that violates secrecy. Even if an evil attacker were able to inject a plugin into a government CMS by Galois, it would not be possible for that plugin to leak any information, because it wouldn't compile. And this is not even talking about dependent typing in languages like Agda, Idris, Epigram, Coq, Isabelle, where you can encode anything you can express in logic as a type. Dec 16, 2015 at 0:13

You seem to mix up dynamic/static and weak/strong typing.

Dynamic or static typing is about whether the type of a variable can be changed during execution.

Weak or strong typing is about being able to predict type errors just from function signatures.

Haskell is both statically and strongly typed.

However, there is no such thing as variable in Haskell so talking about dynamic or static typing makes no sense since every identifier assigned with a value cannot be changed at execution.

EDIT: But like goldenbull said, those typing notions are not clearly defined.

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    Strong typing on its own does not let you predict anything whatsoever; it only makes sure Cats don't ultimately get treated like Dogs (think how terrible that would be for the cat...). Only static combined with strong provides that; but then again even static+weak offers a lot of predictabity. Dec 15, 2015 at 11:55

It is strongly typed. See section 2.3 here: Why Haskell matters


I think you are talking about two different things.

First, haskell, and most functional programming (FP) languages, do NOT have the concept "variable". Instead, they use the concept "name" and "value", they just "bind" a value to a name. Once the value is bound, you can not bind another value to the same name, this is the key feature of FP.

Strong typing is another topic. Yes, haskell is strongly typed, and so are most FP languages. Strong typing gives FP the ability of "type inference" which is powerful to eliminate hidden bugs in compile time and help reduce the size of the source code.

Maybe you are comparing haskell with python? Python is also strongly typed. The difference between haskell and python is "static typed" and "dynamic typed". The actual meaning of term "Strong type" and "Weak Type" are ambiguous and fuzzy. That is another long story...

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    sorry but you are mixing up strong and static, as well as referring to "type checking" but talking of "type inference" instead: Strong typing gives FP the ability of "type inference" which is powerful to eliminate hidden bugs in compile time and help reduce the size of the source code. Dec 15, 2015 at 11:51
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    We do have the concept of a variable; we just use the word a bit differently. A variable in a functional language is a lot like a mathematical variable.
    – dfeuer
    Dec 15, 2015 at 16:18
  • @goldenbull: by the way the concept of "variable" has more to it than merely the difference you are highlighting — for example mathematical functions have a clear concept of a variable (and parameter and constant); since Haskell is just generalized/abstract algebra really, the line between math and programming is blurred, and hence saying "Haskell does not have variables" is, while not entirely incorrect per se, not too informative. Dec 15, 2015 at 16:20

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