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I hear a lot that new programming languages are dynamically typed but what does it actually mean when we say a language is dynamically typed vs. statically typed?

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10  
Good question but your accepted answer is not the correct answer. – Jon Harrop Oct 26 '13 at 8:26
12  
can you pls refer something which is correct then ? – Sagiruddin Mondal Jun 10 '15 at 8:03
    
@EricLeschinski I think unit tests help now with that problem and dynamically typed languages such as JavaScript can be coded with reassurance that it will hold up, thus making it eligible for enterprise software development, wouldn't you think? – pixel 67 Jan 11 at 2:58
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At best, those unit tests deteriorate with time and get turned off by co-workers trying to increase job security, at worst, they never get written in the first place. It's like suggesting to a pro mechanic to use duct tape on his customer's cars. Yes junior, using duct tape on this transmission job is a good idea... for you. – Eric Leschinski Jan 11 at 3:23
up vote 274 down vote accepted

A language is statically typed if the type of a variable is known at compile time. This in practice means that you as the programmer must specify what type each variable is. Example: Java, C, C++

The main advantage here is that all kinds of checking can be done by the compiler, and therefore a lot of stupid bugs are caught at a very early stage.

A language is dynamically typed if the type of a variable is interpreted at runtime. This means that you as a programmer can write a little quicker because you do not have to specify type everytime. Example: Perl, Ruby, Python

Most scripting languages have this feature as there is no compiler to do static typechecking anyway, but you may find yourself searching for a bug that is due to the interpreter misinterpreting the type of a variable. Luckily, scripts tend to be small so bugs have not so many places to hide.

Most dynamically typed languages do allow you to provide type information, but do not require it. One language that is currently being developed (Rascal) takes a hybrid approach allowing dynamic typing within functions but enforcing static typing for the function signature.

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46  
Almost. "This in practice means that you as the programmer must specify what type each variable is" is not true for statically typed languages with type inference, like Haskell, OCaml, "Perl 6", etc. – ShreevatsaR Oct 5 '09 at 2:26
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@NomeN Can you name any dynamically typed language which implements HM type inference? – Pete Kirkham Oct 5 '09 at 10:05
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"A language is dynamically typed if the type of a variable is interpreted at runtime": No. A language is dynamically typed if the type is associated with run-time values, and not named variables/fields/etc. – Paul Biggar Oct 5 '09 at 10:48
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Incorrect, static typing means "that a reference value is manifestly (which is not the same as at compile time) constrained with respect to the type of the value it can denote, and that the language implementation, whether it is a compiler or an interpreter, both enforces and uses these constraints as much as possible." cited from : c2.com/cgi/wiki?StaticTyping which, how I understand it, is correct. – Matt Wolf Jan 24 '13 at 1:43
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The thing most obvious about the type systems of Java, C, C++, Pascal, and many other widely-used “industry” languages is not that they are statically typed, but that they are explicitly typed.In other words, they require lots of type declarations. (In the world of less explicitly typed languages, where these declarations are optional, they are often called “type annotations”.) This has nothing to do with static types. continued.. – Vipresh Aug 16 '14 at 10:27

Statically typed programming languages do type checking (the process of verifying and enforcing the constraints of types) at compile-time as opposed to run-time.

Dynamically typed programming languages do type checking at run-time as opposed to Compile-time.

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1  
I think this is the best answer. In particular, the accepted answer is largely factually incorrect. – Jon Harrop Oct 26 '13 at 8:22
    
@JonHarrop In what ways specifically? – 1252748 Dec 8 '14 at 0:20
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@thomas: "This means that you as a programmer can write a little quicker because you do not have to specify type everytime". You do not have to specify the type every time with static typing if you have type inference. See SML, OCaml, F#, Haskell... – Jon Harrop Dec 8 '14 at 22:06

Here is an example contrasting how Python (dynamically typed) and Go (statically typed) handle a type error:

def silly(a):
    if a > 0:
        print 'Hi'
    else:
        print 5 + '3'

Python does type checking at run time, and therefore:

silly(2)

Runs perfectly fine, and produces the expected output Hi. Error is only raised if the problematic line is hit:

silly(-1)

Produces

TypeError: unsupported operand type(s) for +: 'int' and 'str'

because the relevant line was actually executed.

Go on the other hand does type-checking at compile time:

package main

import ("fmt"
)

func silly(a int) {
    if (a > 0) {
        fmt.Println("Hi")
    } else {
        fmt.Println("3" + 5)
    }
}

func main() {
    silly(2)
}

The above will not compile, with the following error:

invalid operation: "3" + 5 (mismatched types string and int)
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Thanks for the tidy example. So I infer that all of the scripting languages are Dynamically typed, as they are not compiled? – CᴴᴀZ Sep 13 '15 at 12:50
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yes. all scripting languages are dynamically typed, because their is no compiler to do static type checking anyway. This point has been illustrated in this article sitepoint.com/typing-versus-dynamic-typing . – Shashi Nov 19 '15 at 8:20
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I upvoted because of the straight to the point example – patentul Dec 14 '15 at 21:32
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Scala can be used as scripting language and it is statically typed! #discussion @Shashi – Sagiruddin Mondal Jan 2 at 9:53
    
@Shashi Compilation doesn't mean statically-typed. Haskell can be interpreted with runhaskell, for example. – BalinKingOfMoria Feb 13 at 15:07

http://en.wikipedia.org/wiki/Type%5Fsystem

Static typing

A programming language is said to use static typing when type checking is performed during compile-time as opposed to run-time. In static typing, types are associated with variables not values. Statically typed languages include Ada, C, C++, C#, JADE, Java, Fortran, Haskell, ML, Pascal, Perl (with respect to distinguishing scalars, arrays, hashes and subroutines) and Scala. Static typing is a limited form of program verification (see type safety): accordingly, it allows many type errors to be caught early in the development cycle. Static type checkers evaluate only the type information that can be determined at compile time, but are able to verify that the checked conditions hold for all possible executions of the program, which eliminates the need to repeat type checks every time the program is executed. Program execution may also be made more efficient (i.e. faster or taking reduced memory) by omitting runtime type checks and enabling other optimizations.

Because they evaluate type information during compilation, and therefore lack type information that is only available at run-time, static type checkers are conservative. They will reject some programs that may be well-behaved at run-time, but that cannot be statically determined to be well-typed. For example, even if an expression always evaluates to true at run-time, a program containing the code

if <complex test> then 42 else <type error>

will be rejected as ill-typed, because a static analysis cannot determine that the else branch won't be taken.[1] The conservative behaviour of static type checkers is advantageous when evaluates to false infrequently: A static type checker can detect type errors in rarely used code paths. Without static type checking, even code coverage tests with 100% code coverage may be unable to find such type errors. Code coverage tests may fail to detect such type errors because the combination of all places where values are created and all places where a certain value is used must be taken into account.

The most widely used statically typed languages are not formally type safe. They have "loopholes" in the programming language specification enabling programmers to write code that circumvents the verification performed by a static type checker and so address a wider range of problems. For example, Java and most C-style languages have type punning, and Haskell has such features as unsafePerformIO: such operations may be unsafe at runtime, in that they can cause unwanted behaviour due to incorrect typing of values when the program runs.

Dynamic typing

A programming language is said to be dynamically typed, or just 'dynamic', when the majority of its type checking is performed at run-time as opposed to at compile-time. In dynamic typing, types are associated with values not variables. Dynamically typed languages include Groovy, JavaScript, Lisp, Lua, Objective-C, Perl (with respect to user-defined types but not built-in types), PHP, Prolog, Python, Ruby, Smalltalk and Tcl. Compared to static typing, dynamic typing can be more flexible (e.g. by allowing programs to generate types and functionality based on run-time data), though at the expense of fewer a priori guarantees. This is because a dynamically typed language accepts and attempts to execute some programs which may be ruled as invalid by a static type checker.

Dynamic typing may result in runtime type errors—that is, at runtime, a value may have an unexpected type, and an operation nonsensical for that type is applied. This operation may occur long after the place where the programming mistake was made—that is, the place where the wrong type of data passed into a place it should not have. This makes the bug difficult to locate.

Dynamically typed language systems, compared to their statically typed cousins, make fewer "compile-time" checks on the source code (but will check, for example, that the program is syntactically correct). Run-time checks can potentially be more sophisticated, since they can use dynamic information as well as any information that was present during compilation. On the other hand, runtime checks only assert that conditions hold in a particular execution of the program, and these checks are repeated for every execution of the program.

Development in dynamically typed languages is often supported by programming practices such as unit testing. Testing is a key practice in professional software development, and is particularly important in dynamically typed languages. In practice, the testing done to ensure correct program operation can detect a much wider range of errors than static type-checking, but conversely cannot search as comprehensively for the errors that both testing and static type checking are able to detect. Testing can be incorporated into the software build cycle, in which case it can be thought of as a "compile-time" check, in that the program user will not have to manually run such tests.

References

  1. Pierce, Benjamin (2002). Types and Programming Languages. MIT Press. ISBN 0-262-16209-1.
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43  
The main idea of SO is to build a body of knowledge, not to provide links to other places. You should try to at least make an excerpt of the wiki that answers the question. – NomeN Oct 4 '09 at 23:13
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It just seemed redundant since it's a link to wikipedia and not some transient website, but I'll remember that next time. – Jacob Oct 5 '09 at 13:24
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Anyway, I've updated the answer as per popular demand. – Jacob Oct 5 '09 at 13:58
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somehow I still cannot think of an example in a dynamically typed language where a type is not clear at compile time but must be figured out at runtime. Could you provide me with some? – Novellizator Apr 18 '14 at 23:54
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@Novellizator Old comment but imagine a scenario where some data is picked up from a remote server then that data is used to pick a property off of an object. Ex: myObject[remoteDataName]. Then there's no way of knowing which property it will pick or even if it's a valid property at all. – Mike C Aug 12 '14 at 14:36

Simply put it this way: in a statically typed language variables' types are static, meaning once you set a variable to a type, you cannot change it. That is because typing is associated with the variable rather than the value it refers to.

For example in Java:

String str = "Hello";  //variable str statically typed as string
str = 5;               //would throw an error since str is supposed to be a string only

Where on the other hand: in a dynamically typed language variables' types are dynamic, meaning after you set a variable to a type, you CAN change it. That is because typing is associated with the value it assumes rather than the variable itself.

For example in Python:

str = "Hello" # variable str is linked to a string value
str = 5       # now it is linked to an integer value; perfectly OK

So in this context, type describes (or should have described) the variables in the language rather than the language itself. It could have been better used as a language with statically typed variables versus a language with dynamically typed variables IMHO.

Statically typed languages are generally compiled languages, thus, the compilers check the types (make perfect sense right? as types are not allowed to be changed later on at run time).

Dynamically typed languages are generally interpreted, thus type checking (if any) happens at run time when they are used.

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This makes a lot of sense. I think it explains at least the reasoning behind the names much better than other answers here. – JamEngulfer Feb 24 at 11:37
    
According to this reference Python is both a statically typed and dynamically typed language: wiki.python.org/moin/… Does anyone know why? – Lucas Apr 25 at 5:12
    
Lucas, To the contrary the document keeps iterating that Python is both strongly and dynamically typed. Where did you see that? Can you quote? – mehmet Apr 26 at 20:00

The terminology "dynamically typed" is unfortunately misleading. All languages are statically typed, and types are properties of expressions (not of values as some think). However, some languages have only one type. These are called uni-typed languages. One example of such a language is the untyped lambda calculus.

In the untyped lambda calculus, all terms are lambda terms, and the only operation that can be performed on a term is applying it to another term. Hence all operations always result in either infinite recursion or a lambda term, but never signal an error.

However, were we to augment the untyped lambda calculus with primitive numbers and arithmetic operations, then we could perform nonsensical operations, such adding two lambda terms together: (λx.x) + (λy.y). One could argue that the only sane thing to do is to signal an error when this happens, but to be able to do this, each value has to be tagged with an indicator that indicates whether the term is a lambda term or a number. The addition operator will then check that indeed both arguments are tagged as numbers, and if they aren't, signal an error. Note that these tags are not types, because types are properties of programs, not of values produced by those programs.

A uni-typed language that does this is called dynamically typed.

Languages such as JavaScript, Python, and Ruby are all uni-typed. Again, the typeof operator in JavaScript and the type function in Python have misleading names; they return the tags associated with the operands, not their types. Similarly, dynamic_cast in C++ and instanceof in Java do not do type checks.

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Awesome answer, thanks for sharing! – Rafael Campos Nunes Mar 8 at 17:08
    
nice answer man +1 – Soumitri Pattnaik May 30 at 7:32

Staticly typed languages type-check at compile time and the type can NOT change. (Don't get cute with type-casting comments, a new variable/reference is created).

Dynamicly typed languages type-check at run-time and the type CAN change.

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In a statically typed language, every variable name is bound both 1.to a type (at compile time, by means of a data declaration) 2.to an object. The binding to an object is optional — if a name is not bound to an object, the name is said to be null. In a dynamically typed language, every variable name is (unless it is null) bound only to an object.

Names are bound to objects at execution time by means of assignment statements, and it is possible to bind a name to objects of different types during the execution of the program.

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Static Typing: The languages such as Java and Scala are static typed.

The variables have to be defined and initialized before they are used in a code.

for ex. int x; x = 10;

System.out.println(x);

Dynamic Typing: Perl is an dynamic typed language.

Variables need not be initialized before they are used in code.

y=10; use this variable in the later part of code

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1  
Well, this answer is not completely right. In both languages, the variables must be intialized before they are used. However, in dynamically typed languages, you may choose to leave out the type where it is used. – darshan Jun 12 '14 at 15:37
    
It looks like you are misusing the term "variables", you should have said "types" instead. – Emir Dec 25 '14 at 10:15

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