Paradigm | Object-oriented |
---|---|
Designed by | Gavin King |
Developer | Eclipse Foundation |
First appeared | 2011 |
Stable release | 1.3.3
/ August 21, 2017 |
Typing discipline | Static, strong, safe |
Platform | Java virtual machine, JavaScript |
License | Apache License 2.0 |
Filename extensions | .ceylon[1] |
Website | ceylon-lang |
Influenced by | |
Java,[2] Scala, Smalltalk, ML,[3] Lisp,[4] Whiley[5] |
Ceylon was an object-oriented, strongly statically typed programming language with an emphasis on immutability, created by Red Hat. Ceylon programs run on the Java virtual machine (JVM), and could be compiled to JavaScript.[6][7] The language design focuses on source code readability, predictability, toolability, modularity, and metaprogrammability.[8]
Important features of Ceylon include:[9]
The name "Ceylon" is an oblique reference to Java, in that Java and Sri Lanka, formerly known as Ceylon, are islands known for growth and export of coffee and tea.
In August 2017, Ceylon was donated to the Eclipse Foundation. Development slowed down and finally stopped in 2020.[13] In April 2023, Eclipse Foundation declared the termination of the transition.[14]
Ceylon is heavily influenced by Java's syntax, but adds many new features.
One of the most novel aspects of Ceylon compared to Java is its type system. Ceylon foregoes Java's primitive types[15] and boxing in favor of a type system composed entirely of first-class objects. While this may cause boxing overhead in some situations, it makes the type system more uniform.
Ceylon allows for union and intersection types, in a similar fashion to TypeScript, Whiley and Flow, which in fact, took the idea from Ceylon.
Union types, written A|B
, allow a variable to have more than one type. The following example shows a Ceylon function which may take either an integer or a string:
shared void integerOrString(Integer|String input) {
if (is Integer input) {
print("Got the integer ``input``");
} else {
print("Got the string '``input``'");
}
}
Intersection types, written A&B
, are the theoretical foundation of flow-sensitive typing:
shared void integerOrString(Integer|String input) {
Integer added = input + 6; // illegal; the + operator is not defined on Integer|String
if (is Integer input) {
Integer added = input + 6; // legal; input is now known to be an Integer
print("Got the integer ``input``");
} else {
print("Got the string '``input``'");
}
}
The condition is Integer input
narrows the type of input
to <Integer|String> & Integer
,
which distributes to Integer&Integer | String&Integer
,
which, as String
and Integer
are disjoint types, is equivalent to Integer&Integer | Nothing
(Nothing
is the empty bottom type),
which simplifies to just Integer
.
Union and intersection types are used to provide null safety.
The top type of the Ceylon type hierarchy is the class Anything
,
which has two subclasses: Object
, the superclass of all normal classes and all interfaces, and Null
, with the only instance null
.
Since Object
and Null
are disjoint types, most regular types like Integer
or List<String>
are not nullable;
a nullable type is the union Integer|Null
, abbreviated Integer?
.[16]
Intersection types can be used to get a non-optional type out of a possibly-optional type, such as a type parameter. For example, the signature of a function that removes null
elements from a stream of values could be:
Iterable<Element&Object> removeNulls<Element>(Iterable<Element> stream);
When removeNulls
is called with a stream of Integer|Null
elements, the result will be a stream of <Integer|Null> & Object
elements, which simplifies to Integer
.
Similarly to many modern languages, Ceylon supports first class functions and higher order functions, including function types and anonymous functions[17]
// A top-level higher-order function using block syntax (not associated with any user-created classes)
String process(String text, String transformString(String toChange)) {
return transformString(text);
}
// A top-level function calling String.reverse in expression form.
String reverse(String text) => text.reversed;
// A function reference to String.reversed but mostly equivalent to the function above.
String(String) reverseFunctionReference = String.reversed;
// An example where the top-level function above is provided as an argument to the higher-order function above
String reversed1 = process("one", reverse);
// An example where an anonymous function - (text) => text+text - is provided to the higher-order function above.
String reversed2 = process("one", (text) => text+text);
Similar to Java and many other languages, and with a similar mechanism as algebraic types, Ceylon supports enumerated types, otherwise known as enums. This is implemented in Ceylon with a pattern of limiting the instances of an abstract class at declaration to a limited set of objects (in this case, singleton instances). Another way to implement this pattern is with the new constructor feature in Ceylon 1.2 where the objects are implemented as different named constructor declarations.[18]
// Traditional syntax for enumerated type, in this case, limiting the instances to three objects(for this purpose: Singletons)
abstract class Vehicle(shared String name) of plane | train | automobile {}
object plane extends Vehicle("plane") {}
object train extends Vehicle("train") {}
object automobile extends Vehicle("automobile") {}
// Compile error: type is not a subtype of any case of enumerated supertype: 'boat' inherits 'Vehicle'
//object boat extends Vehicle("boat") {}
// New (as of Ceylon 1.2.0) constructor-based syntax
class Vehicle of plane | train | automobile {
String name;
abstract new named(String pName) {
name = pName;
}
shared new plane extends named("plane") {}
shared new train extends named("train") {}
shared new automobile extends named("automobile") {}
// Compile error: value constructor does not occur in of clause of non-abstract enumerated class: 'boat' is not listed in the of clause of 'Vehicle'
//shared new boat extends named("boat") {}
}
Ceylon is strongly and statically typed, but also has support for type inference.
The value
keyword is used to infer the type of a variable,
and the function
keyword is used to infer the type of a function.
The following two definition pairs are each equivalent:
Integer i = 3;
value i = 3;
Integer add(Integer i1, Integer i2) {
return i1 + i2;
}
function add(Integer i1, Integer i2) {
return i1 + i2;
}
However, to make single-pass type inference possible, type inference is only allowed for non-toplevel and unshared declarations.[19]
By default the starter (ceylon run
) runs the shared run() function of a module:
/* The classic Hello World program */
shared void run() {
print("Hello, World!");
}
but any other shared function without parameters can be used as main calling the program with the run parameter, like this:
ceylon run --compile=force --run hello default
Versions of Ceylon released:[20]
All parts of Ceylon are available as free software, mostly the Apache License.[21] Part of the source code is licensed under LGPL.
A compilation unit is a text file, with the filename extension .ceylon
.
Ceylon is a new programming language that's deeply influenced by Java