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Scala ( ) is a
strong Strong may refer to: Education * The Strong, an educational institution in Rochester, New York, United States * Strong Hall (Lawrence, Kansas), an administrative hall of the University of Kansas * Strong School, New Haven, Connecticut, United Sta ...
statically typed In computer programming, a type system is a logical system comprising a set of rules that assigns a property called a type to every "term" (a word, phrase, or other set of symbols). Usually the terms are various constructs of a computer progra ...
general-purpose programming language that supports both
object-oriented programming Object-oriented programming (OOP) is a programming paradigm based on the concept of " objects", which can contain data and code. The data is in the form of fields (often known as attributes or ''properties''), and the code is in the form of ...
and functional programming. Designed to be concise, many of Scala's design decisions are aimed to address criticisms of Java. Scala source code can be compiled to Java bytecode and run on a
Java virtual machine A Java virtual machine (JVM) is a virtual machine that enables a computer to run Java programs as well as programs written in other languages that are also compiled to Java bytecode. The JVM is detailed by a specification that formally describes ...
(JVM). Scala can also be compiled to
JavaScript JavaScript (), often abbreviated as JS, is a programming language that is one of the core technologies of the World Wide Web, alongside HTML and CSS. As of 2022, 98% of Website, websites use JavaScript on the Client (computing), client side ...
to run in a browser, or directly to a native executable. On the JVM Scala provides language interoperability with Java so that libraries written in either language may be referenced directly in Scala or Java code. Like Java, Scala is object-oriented, and uses a
syntax In linguistics, syntax () is the study of how words and morphemes combine to form larger units such as phrases and sentences. Central concerns of syntax include word order, grammatical relations, hierarchical sentence structure ( constituency) ...
termed '' curly-brace'' which is similar to the language C. Since Scala 3, there is also an option to use the off-side rule (indenting) to structure blocks, and its use is advised. Martin Odersky has said that this turned out to be the most productive change introduced in Scala 3. Unlike Java, Scala has many features of functional programming languages (like Scheme,
Standard ML Standard ML (SML) is a general-purpose, modular, functional programming language with compile-time type checking and type inference. It is popular among compiler writers and programming language researchers, as well as in the development of the ...
, and Haskell), including currying, immutability, lazy evaluation, and pattern matching. It also has an advanced type system supporting algebraic data types, covariance and contravariance, higher-order types (but not higher-rank types), anonymous types, operator overloading, optional parameters, named parameters,
raw string A string literal or anonymous string is a string value in the source code of a computer program. Modern programming languages commonly use a quoted sequence of characters, formally " bracketed delimiters", as in x = "foo", where "foo" is a strin ...
s, and an experimental exception-only version of
algebraic effect Algebraic may refer to any subject related to algebra in mathematics and related branches like algebraic number theory and algebraic topology. The word algebra itself has several meanings. Algebraic may also refer to: * Algebraic data type, a data ...
s that can be seen as a more powerful version of Java's
checked exception In computing and computer programming, exception handling is the process of responding to the occurrence of ''exceptions'' – anomalous or exceptional conditions requiring special processing – during the execution of a program. In general, ...
s. The name Scala is a portmanteau of ''scalable'' and ''language'', signifying that it is designed to grow with the demands of its users.


History

The design of Scala started in 2001 at the École Polytechnique Fédérale de Lausanne (EPFL) (in
Lausanne Lausanne ( , , , ) ; it, Losanna; rm, Losanna. is the capital and largest city of the Swiss French speaking canton of Vaud. It is a hilly city situated on the shores of Lake Geneva, about halfway between the Jura Mountains and the Alps, and fac ...
,
Switzerland ; rm, citad federala, links=no). Swiss law does not designate a ''capital'' as such, but the federal parliament and government are installed in Bern, while other federal institutions, such as the federal courts, are in other cities (Bellinzon ...
) by Martin Odersky. It followed on from work on Funnel, a programming language combining ideas from functional programming and Petri nets. Odersky formerly worked on Generic Java, and javac, Sun's Java compiler. After an internal release in late 2003, Scala was released publicly in early 2004 on the Java platform,Martin Odersky, "The Scala Language Specification Version 2.7" A second version (v2.0) followed in March 2006. On 17 January 2011, the Scala team won a five-year research grant of over €2.3 million from the
European Research Council The European Research Council (ERC) is a public body for funding of scientific and technological research conducted within the European Union (EU). Established by the European Commission in 2007, the ERC is composed of an independent Scientific ...
. On 12 May 2011, Odersky and collaborators launched Typesafe Inc. (later renamed
Lightbend Inc. Lightbend, formerly known as Typesafe, is a company founded by Martin Odersky, the creator of the Scala programming language, Jonas Bonér, the creator of the Akka middleware, and Paul Phillips in 2011. It provides an open-source platform for ...
), a company to provide commercial support, training, and services for Scala. Typesafe received a $3 million investment in 2011 from Greylock Partners.


Platforms and license

Scala runs on the Java platform (
Java virtual machine A Java virtual machine (JVM) is a virtual machine that enables a computer to run Java programs as well as programs written in other languages that are also compiled to Java bytecode. The JVM is detailed by a specification that formally describes ...
) and is compatible with existing Java programs. As
Android Android may refer to: Science and technology * Android (robot), a humanoid robot or synthetic organism designed to imitate a human * Android (operating system), Google's mobile operating system ** Bugdroid, a Google mascot sometimes referred to ...
applications are typically written in Java and translated from Java bytecode into Dalvik bytecode (which may be further translated to native machine code during installation) when packaged, Scala's Java compatibility makes it well-suited to Android development, more so when a functional approach is preferred. The reference Scala software distribution, including compiler and libraries, is released under the Apache license.


Other compilers and targets

''Scala.js''
is a Scala compiler that compiles to JavaScript, making it possible to write Scala programs that can run in web browsers or Node.js. The compiler, in development since 2013, was announced as no longer experimental in 2015 (v0.6). Version v1.0.0-M1 was released in June 2018 and version 1.1.1 in September 2020. Scala Native is a Scala
compiler In computing, a compiler is a computer program that translates computer code written in one programming language (the ''source'' language) into another language (the ''target'' language). The name "compiler" is primarily used for programs that ...
that targets the LLVM compiler infrastructure to create executable code that uses a lightweight managed runtime, which uses the Boehm garbage collector. The project is led by Denys Shabalin and had its first release, 0.1, on 14 March 2017. Development of Scala Native began in 2015 with a goal of being faster than
just-in-time compilation In computing, just-in-time (JIT) compilation (also dynamic translation or run-time compilations) is a way of executing computer code that involves compiler, compilation during execution of a program (at run time (program lifecycle phase), run tim ...
for the JVM by eliminating the initial runtime compilation of code and also providing the ability to call native routines directly. A reference Scala compiler targeting the
.NET Framework The .NET Framework (pronounced as "''dot net"'') is a proprietary software framework developed by Microsoft that runs primarily on Microsoft Windows. It was the predominant implementation of the Common Language Infrastructure (CLI) until bein ...
and its Common Language Runtime was released in June 2004, but was officially dropped in 2012.


Examples


"Hello World" example

The Hello World program written in Scala 3 has this form: @main def main() = println("Hello, World!") Unlike the stand-alone Hello World application for Java, there is no class declaration and nothing is declared to be static; a singleton object created with the object keyword is used instead. When the program is stored in file ''HelloWorld.scala'', the user compiles it with the command: $ scalac HelloWorld.scala and runs it with $ scala HelloWorld This is analogous to the process for compiling and running Java code. Indeed, Scala's compiling and executing model is identical to that of Java, making it compatible with Java build tools such as Apache Ant. A shorter version of the "Hello World" Scala program is: println("Hello, World!") Scala includes an interactive shell and scripting support. Saved in a file named HelloWorld2.scala, this can be run as a script using the command: $ scala HelloWorld2.scala Commands can also be entered directly into the Scala interpreter, using the option : $ scala -e 'println("Hello, World!")' Expressions can be entered interactively in the REPL: $ scala Welcome to Scala 2.12.2 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_131). Type in expressions for evaluation. Or try :help. scala> List(1, 2, 3).map(x => x * x) res0: List nt= List(1, 4, 9) scala>


Basic example

The following example shows the differences between Java and Scala syntax. The function mathFunction takes an integer, squares it, and then adds the cube root of that number to the natural log of that number, returning the result (i.e., n^ + \ln(n^2)): Some syntactic differences in this code are: * Scala does not require semicolons to end statements. * Value types are capitalized: Int, Double, Boolean instead of int, double, boolean. * Parameter and return types follow, as in
Pascal Pascal, Pascal's or PASCAL may refer to: People and fictional characters * Pascal (given name), including a list of people with the name * Pascal (surname), including a list of people and fictional characters with the name ** Blaise Pascal, Fren ...
, rather than precede as in C. * Methods must be preceded by def. * Local or class variables must be preceded by val (indicates an
immutable In object-oriented and functional programming, an immutable object (unchangeable object) is an object whose state cannot be modified after it is created.Goetz et al. ''Java Concurrency in Practice''. Addison Wesley Professional, 2006, Section 3.4 ...
variable) or var (indicates a mutable variable). * The return operator is unnecessary in a function (although allowed); the value of the last executed statement or expression is normally the function's value. * Instead of the Java cast operator (Type) foo, Scala uses foo.asInstanceOf ype/code>, or a specialized function such as toDouble or toInt. * Instead of Java's import foo.*;, Scala uses import foo._. * Function or method foo() can also be called as just foo; method thread.send(signo) can also be called as just thread send signo; and method foo.toString() can also be called as just foo toString. These syntactic relaxations are designed to allow support for
domain-specific language A domain-specific language (DSL) is a computer language specialized to a particular application domain. This is in contrast to a general-purpose language (GPL), which is broadly applicable across domains. There are a wide variety of DSLs, rangin ...
s. Some other basic syntactic differences: * Array references are written like function calls, e.g. array(i) rather than array /code>. (Internally in Scala, the former expands into array.apply(i) which returns the reference) * Generic types are written as e.g. List tring/code> rather than Java's List<String>. * Instead of the pseudo-type void, Scala has the actual singleton class Unit (see below).


Example with classes

The following example contrasts the definition of classes in Java and Scala. The code above shows some of the conceptual differences between Java and Scala's handling of classes: * Scala has no static variables or methods. Instead, it has ''singleton objects'', which are essentially classes with only one instance. Singleton objects are declared using object instead of class. It is common to place static variables and methods in a singleton object with the same name as the class name, which is then known as a ''companion object''. (The underlying class for the singleton object has a $ appended. Hence, for class Foo with companion object object Foo, under the hood there's a class Foo$ containing the companion object's code, and one object of this class is created, using the singleton pattern.) * In place of constructor parameters, Scala has ''class parameters'', which are placed on the class, similar to parameters to a function. When declared with a val or var modifier, fields are also defined with the same name, and automatically initialized from the class parameters. (Under the hood, external access to public fields always goes through accessor (getter) and mutator (setter) methods, which are automatically created. The accessor function has the same name as the field, which is why it's unnecessary in the above example to explicitly declare accessor methods.) Note that alternative constructors can also be declared, as in Java. Code that would go into the default constructor (other than initializing the member variables) goes directly at class level. * Default visibility in Scala is public.


Features (with reference to Java)

Scala has the same compiling model as Java and C#, namely separate compiling and dynamic class loading, so that Scala code can call Java libraries. Scala's operational characteristics are the same as Java's. The Scala compiler generates byte code that is nearly identical to that generated by the Java compiler. In fact, Scala code can be decompiled to readable Java code, with the exception of certain constructor operations. To the
Java virtual machine A Java virtual machine (JVM) is a virtual machine that enables a computer to run Java programs as well as programs written in other languages that are also compiled to Java bytecode. The JVM is detailed by a specification that formally describes ...
(JVM), Scala code and Java code are indistinguishable. The only difference is one extra runtime library, scala-library.jar. Scala adds a large number of features compared with Java, and has some fundamental differences in its underlying model of expressions and types, which make the language theoretically cleaner and eliminate several ''
corner cases In engineering, a corner case (or pathological case) involves a problem or situation that occurs only outside normal operating parameters—specifically one that manifests itself when multiple environmental variables or conditions are simultane ...
'' in Java. From the Scala perspective, this is practically important because several added features in Scala are also available in C#.


Syntactic flexibility

As mentioned above, Scala has a good deal of syntactic flexibility, compared with Java. The following are some examples: * Semicolons are unnecessary; lines are automatically joined if they begin or end with a token that cannot normally come in this position, or if there are unclosed parentheses or brackets. * Any method can be used as an infix operator, e.g. "%d apples".format(num) and "%d apples" format num are equivalent. In fact, arithmetic operators like + and << are treated just like any other methods, since function names are allowed to consist of sequences of arbitrary symbols (with a few exceptions made for things like parens, brackets and braces that must be handled specially); the only special treatment that such symbol-named methods undergo concerns the handling of precedence. * Methods apply and update have syntactic short forms. foo()—where foo is a value (singleton object or class instance)—is short for foo.apply(), and foo() = 42 is short for foo.update(42). Similarly, foo(42) is short for foo.apply(42), and foo(4) = 2 is short for foo.update(4, 2). This is used for collection classes and extends to many other cases, such as STM cells. * Scala distinguishes between no-parens (def foo = 42) and empty-parens (def foo() = 42) methods. When calling an empty-parens method, the parentheses may be omitted, which is useful when calling into Java libraries that do not know this distinction, e.g., using foo.toString instead of foo.toString(). By convention, a method should be defined with empty-parens when it performs side effects. * Method names ending in colon (:) expect the argument on the left-hand-side and the receiver on the right-hand-side. For example, the 4 :: 2 :: Nil is the same as Nil.::(2).::(4), the first form corresponding visually to the result (a list with first element 4 and second element 2). * Class body variables can be transparently implemented as separate getter and setter methods. For trait FooLike , an implementation may be . The call site will still be able to use a concise foo.bar = 42. * The use of curly braces instead of parentheses is allowed in method calls. This allows pure library implementations of new control structures. For example, breakable looks as if breakable was a language defined keyword, but really is just a method taking a thunk argument. Methods that take thunks or functions often place these in a second parameter list, allowing to mix parentheses and curly braces syntax: Vector.fill(4) is the same as Vector.fill(4)(math.random). The curly braces variant allows the expression to span multiple lines. *For-expressions (explained further down) can accommodate any type that defines monadic methods such as map, flatMap and filter. By themselves, these may seem like questionable choices, but collectively they serve the purpose of allowing
domain-specific language A domain-specific language (DSL) is a computer language specialized to a particular application domain. This is in contrast to a general-purpose language (GPL), which is broadly applicable across domains. There are a wide variety of DSLs, rangin ...
s to be defined in Scala without needing to extend the compiler. For example, Erlang's special syntax for sending a message to an actor, i.e. actor ! message can be (and is) implemented in a Scala library without needing language extensions.


Unified type system

Java makes a sharp distinction between primitive types (e.g. int and boolean) and reference types (any class). Only reference types are part of the inheritance scheme, deriving from java.lang.Object. In Scala, all types inherit from a top-level class Any, whose immediate children are AnyVal (value types, such as Int and Boolean) and AnyRef (reference types, as in Java). This means that the Java distinction between primitive types and boxed types (e.g. int vs. Integer) is not present in Scala;
boxing Boxing (also known as "Western boxing" or "pugilism") is a combat sport in which two people, usually wearing protective gloves and other protective equipment such as hand wraps and mouthguards, throw punches at each other for a predetermine ...
and unboxing is completely transparent to the user. Scala 2.10 allows for new value types to be defined by the user.


For-expressions

Instead of the Java " foreach" loops for looping through an iterator, Scala has for-expressions, which are similar to list comprehensions in languages such as Haskell, or a combination of list comprehensions and generator expressions in Python. For-expressions using the yield keyword allow a new collection to be generated by iterating over an existing one, returning a new collection of the same type. They are translated by the compiler into a series of map, flatMap and filter calls. Where yield is not used, the code approximates to an imperative-style loop, by translating to foreach. A simple example is: val s = for (x <- 1 to 25 if x*x > 50) yield 2*x The result of running it is the following vector: :Vector(16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50) (Note that the expression 1 to 25 is not special syntax. The method to is rather defined in the standard Scala library as an extension method on integers, using a technique known as implicit conversions that allows new methods to be added to existing types.) A more complex example of iterating over a map is: // Given a map specifying Twitter users mentioned in a set of tweets, // and number of times each user was mentioned, look up the users // in a map of known politicians, and return a new map giving only the // Democratic politicians (as objects, rather than strings). val dem_mentions = for yield (account, times) Expression (mention, times) <- mentions is an example of pattern matching (see below). Iterating over a map returns a set of key-value tuples, and pattern-matching allows the tuples to easily be destructured into separate variables for the key and value. Similarly, the result of the comprehension also returns key-value tuples, which are automatically built back up into a map because the source object (from the variable mentions) is a map. Note that if mentions instead held a list, set, array or other collection of tuples, exactly the same code above would yield a new collection of the same type.


Functional tendencies

While supporting all of the object-oriented features available in Java (and in fact, augmenting them in various ways), Scala also provides a large number of capabilities that are normally found only in functional programming languages. Together, these features allow Scala programs to be written in an almost completely functional style and also allow functional and object-oriented styles to be mixed. Examples are: * No distinction between statements and expressions * Type inference * Anonymous functions with capturing semantics (i.e., closures) *Immutable variables and objects * Lazy evaluation * Delimited continuations (since 2.8) *
Higher-order function In mathematics and computer science, a higher-order function (HOF) is a function that does at least one of the following: * takes one or more functions as arguments (i.e. a procedural parameter, which is a parameter of a procedure that is itself ...
s * Nested functions * Currying * Pattern matching * Algebraic data types (through ''case classes'') * Tuples


Everything is an expression

Unlike C or Java, but similar to languages such as
Lisp A lisp is a speech impairment in which a person misarticulates sibilants (, , , , , , , ). These misarticulations often result in unclear speech. Types * A frontal lisp occurs when the tongue is placed anterior to the target. Interdental lisping ...
, Scala makes no distinction between statements and expressions. All statements are in fact expressions that evaluate to some value. Functions that would be declared as returning void in C or Java, and statements like while that logically do not return a value, are in Scala considered to return the type Unit, which is a singleton type, with only one object of that type. Functions and operators that never return at all (e.g. the throw operator or a function that always exits non-locally using an exception) logically have return type Nothing, a special type containing no objects; that is, a bottom type, i.e. a subclass of every possible type. (This in turn makes type Nothing compatible with every type, allowing type inference to function correctly.) Similarly, an if-then-else "statement" is actually an expression, which produces a value, i.e. the result of evaluating one of the two branches. This means that such a block of code can be inserted wherever an expression is desired, obviating the need for a ternary operator in Scala: For similar reasons, return statements are unnecessary in Scala, and in fact are discouraged. As in Lisp, the last expression in a block of code is the value of that block of code, and if the block of code is the body of a function, it will be returned by the function. To make it clear that all functions are expressions, even methods that return Unit are written with an equals sign def printValue(x: String): Unit = or equivalently (with type inference, and omitting the unnecessary braces): def printValue(x: String) = println("I ate a %s" format x)


Type inference

Due to type inference, the type of variables, function return values, and many other expressions can typically be omitted, as the compiler can deduce it. Examples are val x = "foo" (for an immutable constant or immutable object) or var x = 1.5 (for a variable whose value can later be changed). Type inference in Scala is essentially local, in contrast to the more global Hindley-Milner algorithm used in Haskell, ML and other more purely functional languages. This is done to facilitate object-oriented programming. The result is that certain types still need to be declared (most notably, function parameters, and the return types of recursive functions), e.g. def formatApples(x: Int) = "I ate %d apples".format(x) or (with a return type declared for a recursive function) def factorial(x: Int): Int = if (x

0) 1 else x*factorial(x - 1)


Anonymous functions

In Scala, functions are objects, and a convenient syntax exists for specifying anonymous functions. An example is the expression x => x < 2, which specifies a function with one parameter, that compares its argument to see if it is less than 2. It is equivalent to the Lisp form (lambda (x) (< x 2)). Note that neither the type of x nor the return type need be explicitly specified, and can generally be inferred by type inference; but they can be explicitly specified, e.g. as (x: Int) => x < 2 or even (x: Int) => (x < 2): Boolean. Anonymous functions behave as true closures in that they automatically capture any variables that are lexically available in the environment of the enclosing function. Those variables will be available even after the enclosing function returns, and unlike in the case of Java's ''anonymous inner classes'' do not need to be declared as final. (It is even possible to modify such variables if they are mutable, and the modified value will be available the next time the anonymous function is called.) An even shorter form of anonymous function uses
placeholder Placeholder may refer to: Language * Placeholder name, a term or terms referring to something or somebody whose name is not known or, in that particular context, is not significant or relevant. * Filler text, text generated to fill space or pro ...
variables: For example, the following: :list map can be written more concisely as :list map or even :list map sqrt


Immutability

Scala enforces a distinction between immutable and mutable variables. Mutable variables are declared using the var keyword and immutable values are declared using the val keyword. A variable declared using the val keyword cannot be reassigned in the same way that a variable declared using the final keyword can't be reassigned in Java. vals are only shallowly immutable, that is, an object referenced by a val is not guaranteed to itself be immutable. Immutable classes are encouraged by convention however, and the Scala standard library provides a rich set of immutable collection classes. Scala provides mutable and immutable variants of most collection classes, and the immutable version is always used unless the mutable version is explicitly imported. The immutable variants are persistent data structures that always return an updated copy of an old object instead of updating the old object destructively in place. An example of this is immutable linked lists where prepending an element to a list is done by returning a new list node consisting of the element and a reference to the list tail. Appending an element to a list can only be done by prepending all elements in the old list to a new list with only the new element. In the same way, inserting an element in the middle of a list will copy the first half of the list, but keep a reference to the second half of the list. This is called structural sharing. This allows for very easy concurrency — no locks are needed as no shared objects are ever modified.


Lazy (non-strict) evaluation

Evaluation is strict ("eager") by default. In other words, Scala evaluates expressions as soon as they are available, rather than as needed. However, it is possible to declare a variable non-strict ("lazy") with the lazy keyword, meaning that the code to produce the variable's value will not be evaluated until the first time the variable is referenced. Non-strict collections of various types also exist (such as the type Stream, a non-strict linked list), and any collection can be made non-strict with the view method. Non-strict collections provide a good semantic fit to things like server-produced data, where the evaluation of the code to generate later elements of a list (that in turn triggers a request to a server, possibly located somewhere else on the web) only happens when the elements are actually needed.


Tail recursion

Functional programming languages commonly provide tail call optimization to allow for extensive use of recursion without stack overflow problems. Limitations in Java bytecode complicate tail call optimization on the JVM. In general, a function that calls itself with a tail call can be optimized, but mutually recursive functions cannot. Trampolines have been suggested as a workaround. Trampoline support has been provided by the Scala library with the object scala.util.control.TailCalls since Scala 2.8.0 (released 14 July 2010). A function may optionally be annotated with @tailrec, in which case it will not compile unless it is tail recursive.


Case classes and pattern matching

Scala has built-in support for pattern matching, which can be thought of as a more sophisticated, extensible version of a
switch statement In computer programming languages, a switch statement is a type of selection control mechanism used to allow the value of a variable or expression to change the control flow of program execution via search and map. Switch statements function some ...
, where arbitrary data types can be matched (rather than just simple types like integers, booleans and strings), including arbitrary nesting. A special type of class known as a ''case class'' is provided, which includes automatic support for pattern matching and can be used to model the algebraic data types used in many functional programming languages. (From the perspective of Scala, a case class is simply a normal class for which the compiler automatically adds certain behaviors that could also be provided manually, e.g., definitions of methods providing for deep comparisons and hashing, and destructuring a case class on its constructor parameters during pattern matching.) An example of a definition of the quicksort algorithm using pattern matching is this: def qsort(list: List nt: List nt= list match The idea here is that we partition a list into the elements less than a pivot and the elements not less, recursively sort each part, and paste the results together with the pivot in between. This uses the same divide-and-conquer strategy of mergesort and other fast sorting algorithms. The match operator is used to do pattern matching on the object stored in list. Each case expression is tried in turn to see if it will match, and the first match determines the result. In this case, Nil only matches the literal object Nil, but pivot :: tail matches a non-empty list, and simultaneously ''destructures'' the list according to the pattern given. In this case, the associated code will have access to a local variable named pivot holding the head of the list, and another variable tail holding the tail of the list. Note that these variables are read-only, and are semantically very similar to variable bindings established using the let operator in Lisp and Scheme. Pattern matching also happens in local variable declarations. In this case, the return value of the call to tail.partition is a tuple — in this case, two lists. (Tuples differ from other types of containers, e.g. lists, in that they are always of fixed size and the elements can be of differing types — although here they are both the same.) Pattern matching is the easiest way of fetching the two parts of the tuple. The form _ < pivot is a declaration of an anonymous function with a placeholder variable; see the section above on anonymous functions. The list operators :: (which adds an element onto the beginning of a list, similar to cons in Lisp and Scheme) and ::: (which appends two lists together, similar to append in Lisp and Scheme) both appear. Despite appearances, there is nothing "built-in" about either of these operators. As specified above, any string of symbols can serve as function name, and a method applied to an object can be written "
infix An infix is an affix inserted inside a word stem (an existing word or the core of a family of words). It contrasts with ''adfix,'' a rare term for an affix attached to the outside of a stem, such as a prefix or suffix. When marking text for int ...
"-style without the period or parentheses. The line above as written: ::qsort(smaller) ::: pivot :: qsort(rest) could also be written thus: ::qsort(rest).::(pivot).:::(qsort(smaller)) in more standard method-call notation. (Methods that end with a colon are right-associative and bind to the object to the right.)


Partial functions

In the pattern-matching example above, the body of the match operator is a partial function, which consists of a series of case expressions, with the first matching expression prevailing, similar to the body of a
switch statement In computer programming languages, a switch statement is a type of selection control mechanism used to allow the value of a variable or expression to change the control flow of program execution via search and map. Switch statements function some ...
. Partial functions are also used in the exception-handling portion of a try statement: try catch Finally, a partial function can be used alone, and the result of calling it is equivalent to doing a match over it. For example, the prior code for quicksort can be written thus: val qsort: List nt=> List nt= Here a read-only ''variable'' is declared whose type is a function from lists of integers to lists of integers, and bind it to a partial function. (Note that the single parameter of the partial function is never explicitly declared or named.) However, we can still call this variable exactly as if it were a normal function: scala> qsort(List(6,2,5,9)) res32: List nt= List(2, 5, 6, 9)


Object-oriented extensions

Scala is a pure object-oriented language in the sense that every value is an object. Data types and behaviors of objects are described by classes and traits. Class abstractions are extended by subclassing and by a flexible mixin-based composition mechanism to avoid the problems of multiple inheritance. Traits are Scala's replacement for Java's
interfaces Interface or interfacing may refer to: Academic journals * Interface (journal), ''Interface'' (journal), by the Electrochemical Society * ''Interface, Journal of Applied Linguistics'', now merged with ''ITL International Journal of Applied Lin ...
. Interfaces in Java versions under 8 are highly restricted, able only to contain abstract function declarations. This has led to criticism that providing convenience methods in interfaces is awkward (the same methods must be reimplemented in every implementation), and extending a published interface in a backwards-compatible way is impossible. Traits are similar to mixin classes in that they have nearly all the power of a regular abstract class, lacking only class parameters (Scala's equivalent to Java's constructor parameters), since traits are always mixed in with a class. The super operator behaves specially in traits, allowing traits to be chained using composition in addition to inheritance. The following example is a simple window system: abstract class Window class SimpleWindow extends Window trait WindowDecoration extends Window trait HorizontalScrollbarDecoration extends WindowDecoration trait VerticalScrollbarDecoration extends WindowDecoration trait TitleDecoration extends WindowDecoration A variable may be declared thus: val mywin = new SimpleWindow with VerticalScrollbarDecoration with HorizontalScrollbarDecoration with TitleDecoration The result of calling mywin.draw() is: in TitleDecoration in HorizontalScrollbarDecoration in VerticalScrollbarDecoration in SimpleWindow In other words, the call to draw first executed the code in TitleDecoration (the last trait mixed in), then (through the super() calls) threaded back through the other mixed-in traits and eventually to the code in Window, ''even though none of the traits inherited from one another''. This is similar to the decorator pattern, but is more concise and less error-prone, as it doesn't require explicitly encapsulating the parent window, explicitly forwarding functions whose implementation isn't changed, or relying on run-time initialization of entity relationships. In other languages, a similar effect could be achieved at compile-time with a long linear chain of implementation inheritance, but with the disadvantage compared to Scala that one linear inheritance chain would have to be declared for each possible combination of the mix-ins.


Expressive type system

Scala is equipped with an expressive static type system that mostly enforces the safe and coherent use of abstractions. The type system is, however, not
sound In physics, sound is a vibration that propagates as an acoustic wave, through a transmission medium such as a gas, liquid or solid. In human physiology and psychology, sound is the ''reception'' of such waves and their ''perception'' by ...
. In particular, the type system supports: * Classes and abstract types as object members * Structural types * Path-dependent types * Compound types * Explicitly typed self references * Generic classes * Polymorphic methods * Upper and lower type bounds *
Variance In probability theory and statistics, variance is the expectation of the squared deviation of a random variable from its population mean or sample mean. Variance is a measure of dispersion, meaning it is a measure of how far a set of number ...
* Annotation * Views Scala is able to infer types by use. This makes most static type declarations optional. Static types need not be explicitly declared unless a compiler error indicates the need. In practice, some static type declarations are included for the sake of code clarity.


Type enrichment

A common technique in Scala, known as "enrich my library" (originally termed " pimp my library" by Martin Odersky in 2006; concerns were raised about this phrasing due to its negative connotations and immaturity), allows new methods to be used as if they were added to existing types. This is similar to the C# concept of extension methods but more powerful, because the technique is not limited to adding methods and can, for instance, be used to implement new interfaces. In Scala, this technique involves declaring an implicit conversion from the type "receiving" the method to a new type (typically, a class) that wraps the original type and provides the additional method. If a method cannot be found for a given type, the compiler automatically searches for any applicable implicit conversions to types that provide the method in question. This technique allows new methods to be added to an existing class using an add-on library such that only code that ''imports'' the add-on library gets the new functionality, and all other code is unaffected. The following example shows the enrichment of type Int with methods isEven and isOdd: object MyExtensions import MyExtensions._ // bring implicit enrichment into scope 4.isEven // -> true Importing the members of MyExtensions brings the implicit conversion to extension class IntPredicates into scope.


Concurrency

Scala's standard library includes support for futures and promises, in addition to the standard Java concurrency APIs. Originally, it also included support for the actor model, which is now available as a separate open source platform AkkaWhat is Akka?
Akka online documentation
created by
Lightbend Inc. Lightbend, formerly known as Typesafe, is a company founded by Martin Odersky, the creator of the Scala programming language, Jonas Bonér, the creator of the Akka middleware, and Paul Phillips in 2011. It provides an open-source platform for ...
Akka actors may be distributed or combined with software transactional memory (''transactors''). Alternative communicating sequential processes (CSP) implementations for channel-based message passing are Communicating Scala Objects, or simply via
JCSP JCSP is an implementation of communicating sequential processes (CSP) for the programming language Java. Although CSP is a mathematical system, JCSP does not require in-depth mathematical skill, allowing instead that programmers can achieve well- ...
. An Actor is like a thread instance with a mailbox. It can be created by system.actorOf, overriding the receive method to receive messages and using the ! (exclamation point) method to send a message. The following example shows an EchoServer that can receive messages and then print them. val echoServer = actor(new Act ) echoServer ! "hi" Scala also comes with built-in support for data-parallel programming in the form of Parallel Collections integrated into its Standard Library since version 2.9.0. The following example shows how to use Parallel Collections to improve performance. val urls = List("https://scala-lang.org", "https://github.com/scala/scala") def fromURL(url: String) = scala.io.Source.fromURL(url) .getLines().mkString("\n") val t = System.currentTimeMillis() urls.par.map(fromURL(_)) // par returns parallel implementation of a collection println("time: " + (System.currentTimeMillis - t) + "ms") Besides futures and promises, actor support, and data parallelism, Scala also supports asynchronous programming with software transactional memory, and event streams.


Cluster computing

The most well-known open-source cluster-computing solution written in Scala is Apache Spark. Additionally, Apache Kafka, the publish–subscribe message queue popular with Spark and other stream processing technologies, is written in Scala.


Testing

There are several ways to test code in Scala. ScalaTest supports multiple testing styles and can integrate with Java-based testing frameworks. ScalaCheck is a library similar to Haskell's
QuickCheck QuickCheck is a software library, specifically a combinator library, originally written in the programming language Haskell, designed to assist in software testing by generating test cases for test suites – an approach known as property ...
.
specs2 Specs may refer to: * Colloquial abbreviation for specifications * Colloquial abbreviation for spectacles People * Specs Clark (1889-1943), American pre-Negro league baseball player * Specs Ellis, American former Negro league pitcher * Specs Po ...
is a library for writing executable software specifications. ScalaMock provides support for testing high-order and curried functions. JUnit and TestNG are popular testing frameworks written in Java.


Versions


Comparison with other JVM languages

Scala is often compared with Groovy and Clojure, two other programming languages also using the JVM. Substantial differences between these languages exist in the type system, in the extent to which each language supports object-oriented and functional programming, and in the similarity of their syntax to that of Java. Scala is
statically typed In computer programming, a type system is a logical system comprising a set of rules that assigns a property called a type to every "term" (a word, phrase, or other set of symbols). Usually the terms are various constructs of a computer progra ...
, while both Groovy and Clojure are dynamically typed. This makes the type system more complex and difficult to understand but allows almost all type errors to be caught at compile-time and can result in significantly faster execution. By contrast, dynamic typing requires more testing to ensure program correctness, and thus is generally slower, to allow greater programming flexibility and simplicity. Regarding speed differences, current versions of Groovy and Clojure allow optional type annotations to help programs avoid the overhead of dynamic typing in cases where types are practically static. This overhead is further reduced when using recent versions of the JVM, which has been enhanced with an ''invoke dynamic'' instruction for methods that are defined with dynamically typed arguments. These advances reduce the speed gap between static and dynamic typing, although a statically typed language, like Scala, is still the preferred choice when execution efficiency is very important. Regarding programming paradigms, Scala inherits the object-oriented model of Java and extends it in various ways. Groovy, while also strongly object-oriented, is more focused in reducing verbosity. In Clojure, object-oriented programming is deemphasised with functional programming being the main strength of the language. Scala also has many functional programming facilities, including features found in advanced functional languages like Haskell, and tries to be agnostic between the two paradigms, letting the developer choose between the two paradigms or, more frequently, some combination thereof. Regarding syntax similarity with Java, Scala inherits much of Java's syntax, as is the case with Groovy. Clojure on the other hand follows the
Lisp A lisp is a speech impairment in which a person misarticulates sibilants (, , , , , , , ). These misarticulations often result in unclear speech. Types * A frontal lisp occurs when the tongue is placed anterior to the target. Interdental lisping ...
syntax, which is different in both appearance and philosophy.


Adoption


Language rankings

, JVM-based languages such as Clojure, Groovy, Kotlin, Scala are highly ranked, but still significantly less popular than the original Java language, which is usually ranked in the top three places. The Popularity of Programming Language Index, which tracks searches for language tutorials, ranked Scala 15th in April 2018 with a small downward trend, and 17th in Jan 2021. This makes Scala the 3rd most popular JVM-based language after Java and Kotlin, ranked 12th. The TIOBE index of programming language popularity employs internet search engine rankings and similar publication-counting to determine language popularity. , it shows Scala in 31st place. In this ranking, Scala is ahead of Haskell (38th) and Erlang, but below Go (14th), Swift (15th), and Perl (19th). The RedMonk Programming Language Rankings, which establishes rankings based on the number of GitHub projects and questions asked on Stack Overflow, ranks Scala 14th. Here, Scala is placed inside a second-tier group of languages–ahead of Go, PowerShell, and Haskell, and behind Swift,
Objective-C Objective-C is a general-purpose, object-oriented programming language that adds Smalltalk-style messaging to the C programming language. Originally developed by Brad Cox and Tom Love in the early 1980s, it was selected by NeXT for its N ...
, Typescript, and R. In the 2018 edition of the ''State of Java'' survey, which collected data from 5160 developers on various Java-related topics, Scala places third in terms of use of alternative languages on the JVM. Relative to the prior year's edition of the survey, Scala's use among alternative JVM languages fell from 28.4% to 21.5%, overtaken by Kotlin, which rose from 11.4% in 2017 to 28.8% in 2018. Back in 2013, when Scala was in version 2.10, the ThoughtWorks Technology Radar, which is an opinion based biannual report of a group of senior technologists, recommended Scala adoption in its languages and frameworks category. In July 2014, this assessment was made more specific and now refers to a “Scala, the good parts”, which is described as “To successfully use Scala, you need to research the language and have a very strong opinion on which parts are right for you, creating your own definition of Scala, the good parts.”.


Companies

* In April 2009, Twitter announced that it had switched large portions of its backend from Ruby to Scala and intended to convert the rest. * Gilt uses Scala and Play Framework. * Foursquare uses Scala and Lift. * Coursera uses Scala and Play Framework. * Apple Inc. uses Scala in certain teams, along with Java and the Play framework. * ''
The Guardian ''The Guardian'' is a British daily newspaper A newspaper is a periodical publication containing written information about current events and is often typed in black ink with a white or gray background. Newspapers can cover a wide ...
'' newspaper's high-traffic website guardian.co.uk announced in April 2011 that it was switching from Java to Scala. * ''
The New York Times ''The New York Times'' (''the Times'', ''NYT'', or the Gray Lady) is a daily newspaper based in New York City with a worldwide readership reported in 2020 to comprise a declining 840,000 paid print subscribers, and a growing 6 million paid ...
'' revealed in 2014 that its internal content management system ''Blackbeard'' is built using Scala, Akka, and Play. * The ''
Huffington Post ''HuffPost'' (formerly ''The Huffington Post'' until 2017 and sometimes abbreviated ''HuffPo'') is an American progressive news website, with localized and international editions. The site offers news, satire, blogs, and original content, and ...
'' newspaper started to employ Scala as part of its content delivery system ''Athena'' in 2013. * Swiss bank
UBS UBS Group AG is a multinational Investment banking, investment bank and financial services company founded and based in Switzerland. Co-headquartered in the cities of Zürich and Basel, it maintains a presence in all major financial centres ...
approved Scala for general production use. * LinkedIn uses the
Scalatra Scalatra is a free and open source web application framework written in Scala. It is a port of the Sinatra framework written in Ruby. Scalatra is an alternative to the Lift, Play!, and Unfiltered frameworks. Scalatra is an example of a microfr ...
microframework A microframework is a term used to refer to minimalistic web application frameworks. It is contrasted with full-stack frameworks. It lacks most of the functionality which is common to expect in a full-fledged web application framework, such as: * ...
to power its Signal API. * Meetup uses Unfiltered toolkit for real-time APIs. * Remember the Milk uses Unfiltered toolkit, Scala and Akka for public API and real-time updates. * Verizon seeking to make "a next-generation framework" using Scala. * Airbnb develops open-source machine-learning software "Aerosolve", written in Java and Scala. * Zalando moved its technology stack from Java to Scala and Play. * SoundCloud uses Scala for its back-end, employing technologies such as Finagle (micro services), Scalding and Spark (data processing). * Databricks uses Scala for the Apache Spark Big Data platform. * Morgan Stanley uses Scala extensively in their finance and asset-related projects. * There are teams within
Google Google LLC () is an American Multinational corporation, multinational technology company focusing on Search Engine, search engine technology, online advertising, cloud computing, software, computer software, quantum computing, e-commerce, ar ...
and Alphabet Inc. that use Scala, mostly due to acquisitions such as Firebase and Nest. * Walmart Canada uses Scala for their back-end platform. * Duolingo uses Scala for their back-end module that generates lessons. * HMRC uses Scala for many UK Government tax applications. * M1 Finance uses Scala for their back-end platform.


Criticism

In March 2015, former VP of the Platform Engineering group at Twitter Raffi Krikorian, stated that he would not have chosen Scala in 2011 due to its learning curve. The same month, LinkedIn SVP Kevin Scott stated their decision to "minimize
heir Inheritance is the practice of receiving private property, titles, debts, entitlements, privileges, rights, and obligations upon the death of an individual. The rules of inheritance differ among societies and have changed over time. Official ...
dependence on Scala". In November 2011, Yammer moved away from Scala for reasons that included the learning curve for new team members and incompatibility from one version of the Scala compiler to the next.


See also

* sbt, a widely used build tool for Scala projects * Play!, an open-source Web application framework that supports Scala * Akka, an open-source toolkit for building concurrent and distributed applications * Chisel, an open-source language built on Scala that is used for hardware design and generation.


References


Further reading

* * * * * * {{Authority control Programming languages Articles with example Scala code Concurrent programming languages Free software programmed in Scala Functional languages Java programming language family JVM programming languages Object-oriented programming languages Pattern matching programming languages Programming languages created in 2003 Scripting languages Software using the Apache license Statically typed programming languages 2003 software Cross-platform free software Free compilers and interpreters Source-to-source compilers