A brief introduction to Haskell: Difference between revisions
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Loading package base-1.0 ... linking ... done. | Loading package base-1.0 ... linking ... done. | ||
Here the incredibly simple Haskell program <hask>let x = 3+4</hask> is | |||
compiled and loaded, and available via the variable <hask>x</hask>. | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
We can ask the system what type it automaticaly inferred for our | |||
variable. <hask>x :: Integer</hask> means that the variable | |||
<hask>x</hask> "has type" <hask>Integer</hask>, the type of unbounded | |||
integer values. | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
A variable evaluates to its value. | |||
variable | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
The variable <hask>x</hask> is in scope, so we can reuse it in later | |||
expressions. | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
Local variables may be bound using <hask>let</hask>, which declares a | |||
new binding for a variable with local scope. | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
Alternatively, declarations | |||
typed in at the top level are like an open-ended let: | typed in at the top level are like an open-ended let: | ||
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== Basic types == | == Basic types == | ||
There is a range of basic types, defined in the language [http://www.cse.unsw.edu.au/~dons/data/Prelude.html Prelude] | There is a range of basic types, defined in the language [http://www.cse.unsw.edu.au/~dons/data/Prelude.html Prelude]. | ||
<haskell> | <haskell> | ||
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=== Libraries === | === Libraries === | ||
* The [http://haskell.org/ghc/docs/latest/html/libraries/base/Prelude.html | * The [http://haskell.org/ghc/docs/latest/html/libraries/base/Prelude.html Prelude] contains the core operations on basic types. It is imported by default into every Haskell module. For example; | ||
Prelude] contains the core operations on basic types. It is imported by | |||
default into every Haskell module. For example; | |||
<haskell> | <haskell> | ||
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</haskell> | </haskell> | ||
Learn the Prelude well. Less basic functions are found in the [http://haskell.org/ghc/docs/latest/html/libraries/ standard libraries]. For data structures such as [http://haskell.org/ghc/docs/latest/html/libraries/base/Data-List.html List], [http://haskell.org/ghc/docs/latest/html/libraries/base/Data-Array.html Array] and [http://haskell.org/ghc/docs/latest/html/libraries/base/Data-Map.html finite maps]. | |||
List], [http://haskell.org/ghc/docs/latest/html/libraries/base/Data-Array.html | |||
Array] and [http://haskell.org/ghc/docs/latest/html/libraries/base/Data-Map.html finite maps]. | |||
To use functions from these modules you have to import them, or in GHCi, | |||
GHCi, refer to the qualified name, for example to use the toUpper | refer to the qualified name, for example to use the toUpper function on | ||
function on Chars: | Chars: | ||
<haskell> | <haskell> | ||
Prelude> Char.toUpper 'x' | Prelude> Char.toUpper 'x' | ||
Revision as of 01:23, 27 October 2006
Haskell is:
- A language developed by the programming languages research community.
- Is a lazy, purely functional language (that also has imperative features such as side effects and mutable state, along with strict evaluation)
- Born as an open source vehicle for programming language research
- One of the youngest children of ML and Lisp
- Particularly useful for programs that manipulate data structures (such as compilers and interpreters), and for concurrent/parallel programming
Inspired by the Introduction to OCaml.
Background
- 1990. Haskell 1.0
- 1991. Haskell 1.1
- 1993. Haskell 1.2
- 1996. Haskell 1.3
- 1997. Haskell 1.4
- 1998. Haskell 98
- 2000-2006. Period of rapid language and community growth
- ~2007. Haskell Prime
Haskell features
Has some novel features relative to Java (and C++).
- Immutable variables by default (mutable state programmed via monads)
- Pure by default (side effects are programmed via monads)
- Lazy evaluation: results are only computed if they're required (strictness optional)
- Everything is an expression
- First-class functions: functions can be defined anywhere, passed as arguments, and returned as values.
- Both compiled and interpreted implementations available
- Full type inference -- type declarations optional
- Pattern matching on data structures -- data structures are first class!
- Parametric polymorphism
- Bounded parametric polymorphism
These are all conceptually more advanced ideas.
Compared to similar functional languages, Haskell differs in that it has support for:
- Lazy evaluation
- Pure functions by default
- Monadic side effects
- Type classes
- Syntax based on layout
The GHC Haskell compiler, in particular, provides some interesting extensions:
- Generalised algebraic data types
- Impredicative types system
- Software transactional memory
- Parallel, SMP runtime system
The Basics
Read the language definition to supplement these notes. For more depth and examples see the Haskell wiki.
Interacting with the language
Haskell is both compiled and interpreted. For exploration purposes, we'll consider interacting with Haskell via the GHCi interpreter:
- expressions are entered at the prompt
- newline signals end of input
Here is a GHCi sessoin, starting from a UNIX prompt.
$ ghci
___ ___ _
/ _ \ /\ /\/ __(_)
/ /_\// /_/ / / | | GHC Interactive, version 6.4.2, for Haskell 98.
/ /_\\/ __ / /___| | http://www.haskell.org/ghc/
\____/\/ /_/\____/|_| Type :? for help.
Loading package base-1.0 ... linking ... done.
Here the incredibly simple Haskell program let x = 3+4 is
compiled and loaded, and available via the variable x.
Prelude> let x = 3 + 4We can ask the system what type it automaticaly inferred for our
variable. x :: Integer means that the variable
x "has type" Integer, the type of unbounded
integer values.
Prelude> :t x
x :: IntegerA variable evaluates to its value.
Prelude> x
7The variable x is in scope, so we can reuse it in later
expressions.
Prelude> x + 4
11Local variables may be bound using let, which declares a
new binding for a variable with local scope.
Prelude> let x = 4 in x + 3
7Alternatively, declarations typed in at the top level are like an open-ended let:
Prelude> let x = 4
Prelude> let y = x + 3
Prelude> x * x
16
Prelude> :t x
x :: Integer
Prelude> :t y
y :: Integer
Prelude> :t x * x
x * x :: IntegerNotice that type inference infers the correct type for all the expressions, without us having to ever specify the type explicitly.
Basic types
There is a range of basic types, defined in the language Prelude.
Int -- bounded, word-sized integers
Integer -- unbounded integers
Double -- floating point values
Char -- characters
String -- strings
() -- the unit type
Bool -- booleans
[a] -- lists
(a,b) -- tuples / product types
Either a b -- sum types
Maybe a -- optional valuesFor example:
7
12312412412412321
3.1415
'x'
"haskell"
()
True, False
[1,2,3,4,5]
('x', 42)
Left True, Right "string"
Nothing, Just TrueThese types have all the usual operations on them, in the standard libraries.
Libraries
- The Prelude contains the core operations on basic types. It is imported by default into every Haskell module. For example;
+ - div mod && || not < > == /=Learn the Prelude well. Less basic functions are found in the standard libraries. For data structures such as List, Array and finite maps.
To use functions from these modules you have to import them, or in GHCi, refer to the qualified name, for example to use the toUpper function on Chars:
Prelude> Char.toUpper 'x'
'X'
Prelude> :m + Char
Prelude Char> toUpper 'y'
'Y'In a source file, you have to import the module explicitly:
import Char