# Static/Dynamic vs Strong/Weak

I see these terms bandied around all over the place in programming and I have a vague notion of what they mean. A search shows me that such things have been asked all over stack overflow in fact. As far as I'm aware Static/Dynamic typing in languages is subtly different to Strong/Weak typing but what that difference is eludes me. Different sources seem to use different different meanings or even use the terms interchangeably. I can't find somewhere that talks about both and actually spells out the difference. What would be nice is if someone could please spell this out clearly here for me and the rest of the world.

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–  nawfal Jul 24 '14 at 9:52

• Static/Dynamic typing is about when type information is aquired (Either at compiletime or at runtime)

• Strong/Weak typing is about how strictly types are distinguished (e.g. whether the language tries to do implicit conversion from strings to numbers).

See the wiki-page for more detailed information.

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Wikipedia has all the answers. Why I've not stumbled across this already I don't know. –  Dan Revell Feb 28 '10 at 13:51
It's a shame many are not aware that static/dynamic is something else than strong/weak... It would really save some bias and discussion. –  Dykam Feb 28 '10 at 13:56
There are different degrees of "type weakness". A strongly-typed language could attempt conversions from strings to numbers. On the other hand, HyperTalk (a language I used decades ago) was so weakly typed that `"12" + "34"` would equal `"46"`, but `"12" + "34Q"` would equal `"1234Q"` [fortunately, one could write `"12" & "34"` if one wanted concatenation]. Curiously, variables holding numbers stored them as double-precision floats, and math on such variables used the floating-point values without string munging, but there was no way to ask whether a variable was a string or number. –  supercat Jun 1 '12 at 15:35

You have discovered a soft spot in the terminology that amateurs use to talk about programming languages. Don't use the terms "strong" and "weak" typing, because they don't have a universally agreed on technical meaning. By contrast, static typing means that programs are checked before being executed, and a program might be rejected before it starts. Dynamic typing means that the types of values are checked during execution, and a poorly typed operation might cause the program to halt or otherwise signal an error at run time. A primary reason for static typing is to rule out programs that might have such "dynamic type errors".

Strong typing generally means that there are no loopholes in the type system, whereas weak typing means the type system can be subverted (invalidating any guarantees). The terms are often used incorrectly to mean static and dynamic typing. To see the difference, think of C: the language is type-checked at compile time (static typing), but there are plenty of loopholes; you can pretty much cast a value of any type to another type of the same size---in particular, you can cast pointer types freely. Pascal was a language that was intended to be strongly typed but famously had an unforeseen loophole: a variant record with no tag.

Implementations of strongly typed languages often acquire loopholes over time, usually so that part of the run-time system can be implemented in the high-level language. For example, Objective Caml has a function called `Obj.magic` which has the run-time effect of simply returning its argument, but at compile time it converts a value of any type to one of any other type. My favorite example is Modula-3, whose designers called their type-casting construct `LOOPHOLE`.

Having said that, you can't count on any two people using the words "strong" and "weak" in exactly the same way. So avoid them.

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(+1) for your suggestion to avoid the terms "strong" and "weak". –  Nico Jul 28 '11 at 6:05
This should be the accepted answer. –  nawfal Jul 24 '14 at 0:06

Weak typing means that the type of an object can change depending on context. For example in a weakly typed language the string "123" may be treated as the number 123 if you add another number to it. Examples of languages with weak typing are bash, awk and PHP.

Another kind of weakly typed language is C, where the data at a memory address can be treated as a different type by casting.

In a strongly typed language the type of an object does not change - an int is always an int and trying to use it as a string will result in an error. Both Java and Python are strongly typed.

The difference between dynamic and static typing is when the type rules are enforced. In a statically typed language the type of every variable and parameter must be declared in the source and is enforced at compile time. In a dynamically typed language the types are only checked when they are used at runtime. So Java is statically typed and Python is dynamically typed.

However the boundaries can be a little blurry at times. For example although Java is statically typed, every time you use reflection or a cast (e.g. when using containers of Objects) they you are deferring the type check to runtime.

Similarly most strongly typed languages will still automatically convert between integers and floats (and in some languages abitrary precision BigInts).

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I can't agree with this sentence - . "In a statically typed language the type of every variable and parameter must be declared in the source" - in SML the types of variables don't have to be declared (how ever they are checked). Lets say function `f` takes argument `x` (`fun f(x)`) [** so no types are declared**] and body of function is `x+1`. With no types declared compiler will figure out that `x` has to be an int. `- fun f x = x + 1;` `val f = fn : int -> int` –  Filip Bartuzi Nov 20 '14 at 15:06

Today researching about this subject I came across this great article http://blogs.perl.org/users/ovid/2010/08/what-to-know-before-debating-type-systems.html It cleared up a lot of things for me and I thought It may add to some of the great answers above.

Strong and Weak Typing:

Probably the most common way type systems are classified is "strong" or "weak." This is unfortunate, since these words have nearly no meaning at all. It is, to a limited extent, possible to compare two languages with very similar type systems, and designate one as having the stronger of those two systems. Beyond that, the words mean nothing at all.

Static and Dynamic Types

This is very nearly the only common classification of type systems that has real meaning. As a matter of fact, it's significance is frequently under-estimated [...] Dynamic and static type systems are two completely different things, whose goals happen to partially overlap.

A static type system is a mechanism by which a compiler examines source code and assigns labels (called "types") to pieces of the syntax, and then uses them to infer something about the program's behavior. A dynamic type system is a mechanism by which a compiler generates code to keep track of the sort of data (coincidentally, also called its "type") used by the program. The use of the same word "type" in each of these two systems is, of course, not really entirely coincidental; yet it is best understood as having a sort of weak historical significance. Great confusion results from trying to find a world view in which "type" really means the same thing in both systems. It doesn't.

Explicit/Implicit Types:

When these terms are used, they refer to the extent to which a compiler will reason about the static types of parts of a program. All programming languages have some form of reasoning about types. Some have more than others. ML and Haskell have implicit types, in that no (or very few, depending on the language and extensions in use) type declarations are needed. Java and Ada have very explicit types, and one is constantly declaring the types of things. All of the above have (relatively, compared to C and C++, for example) strong static type systems.

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I think the other colleagues made a good job esp. explaining the difference between static and dynamic typing. But as far as strong and weak typing is concerned, it should be said that there are different understandings/views.

Here two examples:

• Some say that Haskell is strongly typed, because you are not allowed to make any type conversions.

• Others (e.g. Dario's view) say a language that allows to implicitly convert from string to number on purpose is weakly typed, but even others call this just duck typing.

Both statements highlight not the opposite extremes of a type system, but completely different aspects. So I join Mr. Ramsey's view not to use the terms "strong" and "weak" to distinguish between type systems.

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