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=Erlang Language Programming Tutorials=
=Erlang Language Programming Tutorials=


==Overview==
==History==


==Syntax of functions==
The erlang language was first written in prolog by Joe Armstrong. Ref:audio interview with Joe Armstrong from (http://www.se-radio.net). Joe is a known fan of prolog and borrowed much syntax from prolog in the design of erlang. This first prolog version of erlang was slow and motivated the creation of a virtual machine. Later an emulator called the BEAM(Bogdans's Erlang Abstract Machine, [http://www.erlang.se/publications/icfp97.ps.gz]) was written in C and is about 200,000 lines of code. The language name erlang was most likey used because it is also a (unit of phone connection); because of its original use in the phone company Ericsson.


Functions are defined by the domain of the arguments and the number of arguemnts. A function ends with a period. A function defined over differnt domains are separated by semicolons. A fact function gives an answer that is sensitive to the domain of the input. With strings it gives a fact. With counting numbers it gives the factorial function.
==Overview==


fact("aloha") -> "Aloha is a greating";
Erlang is a language created to do parallel programming with only message passing. Pure message passing makes MIMD ([[Parallel_computation]]) programming almost easy once you get friendy with it. No memory is shared.
  fact(String) when is_a_list(String) ->
Erlang is a concurency oriented language and the primary programming building block is a process.
    "no fact is known about " ++ String;
In erlang, processes are allowed to fail and are simply restarted.
fact(0) -> 1;
   
fact(N) when is_integer(N) and (N > 0) ->
Erlang has a purely functional core. A functional language is one that is based on [[Lambda_calculus]]. In lambda calculus variables have single assignment and behave like mathematical functions and functions are stateless. The advantages of referential transparency(single assignment) are many. Single assignment makes debugging easier(Joe Armstrong http://www.se-radio.net). Statelessness makes hot code swapping easy in erlang(Joe Armstrong). Referential transparency makes editing and code transformation easier(via find and replace). Functional languages have the advantage that syntax and semantics are unified. This unification makes it easier for code to modify itself safely, which facilitates meta-programming. Added benefits of functional programming include the ability to prove things like the correctness and equivalence between programs
    fact(N-1)*N;
(see Functional Programming [http://en.citizendium.org/wiki/Functional_programming])
fact(N) when N < 0 -> error.


Print functions and message passing are side effects and are not part of the purely functional core of erlang.
One of the main ideas in erlang is to make as much of a program purely functional as possible and isolate the
functions that include side effects to improve stability. The theory is that the purely functional part is naturally well behaved.


==Macros==
Erlang has been around for 20 years and has a large library of functions available, especially for networking and the web.


-define(LIKERT_SCALE, lists:seq(1, 5)).
==Basic Erlang==


A = LIKERT_SCALE.
:[[/Command Line|Get to know the Command Line]]
 
:[[/Quick_tips|Quick tips]]
==Simple Types==
:[[/Terms|Terms]]
==Advanced Types==
:[[/Pattern Matching|Pattern Matching]]
:[[/Expressions|Expressions]]
:[[/Functions|Functions]]
:[[/guards|Guards]]
:[[/Modules|Modules]]
:[[/Errors|Errors]] - working with exceptions
:[[/Processes|Processes and Messages]]
:[[/Trap_exit|Trapping Exit Signals]]
:[[/Timeouts|Timeouts]]
:[[/Macros|Macros]]
:[[/Techniques of Recursion|Techniques of Recursion]]
:[[/List Comprehensions|List Comprehensions]]
:[[/List Comments/]]


==Popular Modules==
==Syntax==
===lists===
Functions are defined by the domain of the arguments and the number of arguemnts. A function ends with a period. A function over a particular domain(set of inputs) is separated by a semicolon. The arrow shows how a particular function of a particular value or variable maps to an output.
===regexp===


fact(0) -> 1;
fact(N) when is_integer(N) ->
    fact(N-1)*N.


==Examples==
:[[Erlang_programming_language/Tutorials/Advanced_syntax|Advanced Syntax]]
===Hello World (serial)===


====Code Example====
==Simple Types==


-module(hello).
Basic types in erlang include:
-export([start/0]).
*atom - alice
*integer - 3
start() ->
*float - 3.1415
    io:format("Hello, world!\n").
*pid - a process id number <0.42.0>
*list - [ things in square brackets ]
*tuple - { things in curly braces }


====Analysis of the example====
==Advanced Types==
*binary - a binary data block, <<42>>
*function - a function, F = fun(X) -> X*X end.
*port - a path for data to flow to the outside world
*reference - a unique id over all processes
*record - the standard erlang data structure


The [[Hello World]] program (see above) appears in many programming languages books and articles as a cursory introduction into a language's [[syntax]]. The first hello world program was introduced in the book ''The C Programming Language''<ref name="K&R"/>.
==Modules==


<code>-module(hello)</code> tells the [[compiler]] to create a new module(library) called hello. The code tells us the file name for this code: hello.erl.  
===Adding/Replacing Modules===
Erlang is picky about updating or replacing modules of the same name.
You should completely remove the old module code from the directory tree,
not just rename the containing directory.


<code>-export([start/0]). </code> exports a function named start with 0 arguments to the world outside of this module called hello.
===Popular Modules===
:[[Erlang_programming_language/Tutorials/Math|math]]
:[[Erlang_programming_language/Tutorials/gb_sets|gb_sets]]
:[[Erlang_programming_language/Tutorials/Lists|lists]]
:[[Erlang_programming_language/Tutorials/regexp|regexp: Regular Expressions]]


<code> start() -> </code> tells the compiler that there is a [[function]] named start() with no arguments.
===Nonstandard Modules===
:[[Erlang_programming_language/Tutorials/eunit|Eunit]] Unit Testing Module


<code>io:format("Hello, world!\n").</code> will make the program output <code>Hello, world!</code> and a new line (<code>\n</code>) on the screen.
==Object Oriented Programming with erlang==


===Hello World (parallel)===
Behaviours
:[[Erlang_programming_language/Tutorials/behaviours|Behaviours]]


[[Erlang_programming_language/Tutorials/Tree_Hello|Parallel Hello]]
Nonstandard OOP with erlang
:[[Erlang_programming_language/Tutorials/erlangOOP|Objects with erlang]]


===Prime Sieve (parallel with linda type coordination)===
==Functional Programming with erlang==


[[Erlang_programming_language/Tutorials/Linda_Sieve|Prime Sieve with Linda]]
:[[Erlang_programming_language/Tutorials/Folding|Fun with folding]]
:[[Erlang_programming_language/Tutorials/Iterator|Iterator]]
:[[Erlang_programming_language/Tutorials/Simplify|Simplify Numeric Types]] (auto-demotion of numerical types)


===Autonomous Agents===
==Example programs==
:[[Erlang_programming_language/Tutorials/Hello|Hello World (Serial)]]
:[[Erlang_programming_language/Tutorials/Tree_Hello|Hello World (parallel) ]]
:[[Erlang_programming_language/Tutorials/Linda_Sieve|Prime Sieve with Linda]]
:[[Erlang_programming_language/Tutorials/Agents|Autonomous Agents in Erlang]] -- def: [[Autonomous Agent]].


[[Erlang_programming_language/Tutorials/Agents|Autonomous Agents in Erlang]]
==OTP==
Design of OTP programs
:[[Erlang_programming_language/Tutorials/otp_design|otp_design]]
OTP Behaviours
  client-server
  event-handler
  :[[Erlang_programming_language/Tutorials/gen_server|gen_server]]
  hot-standby
  keep-me-alive
  supervision-tree
  upgrade-handler
  worker-supervisor


See definition of [[Autonomous Agent]].


==Advanced OTP==
==Databases==


===ETS===
:[[Erlang_programming_language/Tutorials/ETS|ETS programming]]
:[[Erlang_programming_language/Tutorials/DETS|DETS programming]]
:[[Erlang_programming_language/Tutorials/Mnesia|Mnesia database]]


[[Erlang_programming_language/Tutorials/ETS|ETS programming]]
==Advanced Erlang==
:[[Erlang_programming_language/Tutorials/Yecc|Making parsers with yecc]]
:[[Erlang_programming_language/Tutorials/Evaluation|Evaluation]]


===Mimsia===
==Glossary of Erlang Terms==
  Call:      a Synchronous message between processes
  Cast:      an Asynchronous message between processes
  Reference: an data type that provides a unique mark of identification
            you can generate an id with the command:
            erlang:make_ref()
 
==Projects using erlang==
*CouchDB - a scalable database for Apache
*Wings3D - a 3-D editor


==References==
==References==


[http://www.erlang.org/doc/man/| 1 - Erlang Man Pages at Erlang,org]
[http://www.erlang.org/doc/man/| 1 - Erlang Man Pages at Erlang,org]

Latest revision as of 14:28, 24 August 2009

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Tutorials relating to the topic of Erlang (programming language).

Erlang Language Programming Tutorials

History

The erlang language was first written in prolog by Joe Armstrong. Ref:audio interview with Joe Armstrong from (http://www.se-radio.net). Joe is a known fan of prolog and borrowed much syntax from prolog in the design of erlang. This first prolog version of erlang was slow and motivated the creation of a virtual machine. Later an emulator called the BEAM(Bogdans's Erlang Abstract Machine, [1]) was written in C and is about 200,000 lines of code. The language name erlang was most likey used because it is also a (unit of phone connection); because of its original use in the phone company Ericsson.

Overview

Erlang is a language created to do parallel programming with only message passing. Pure message passing makes MIMD (Parallel_computation) programming almost easy once you get friendy with it. No memory is shared. Erlang is a concurency oriented language and the primary programming building block is a process. In erlang, processes are allowed to fail and are simply restarted.

Erlang has a purely functional core. A functional language is one that is based on Lambda_calculus. In lambda calculus variables have single assignment and behave like mathematical functions and functions are stateless. The advantages of referential transparency(single assignment) are many. Single assignment makes debugging easier(Joe Armstrong http://www.se-radio.net). Statelessness makes hot code swapping easy in erlang(Joe Armstrong). Referential transparency makes editing and code transformation easier(via find and replace). Functional languages have the advantage that syntax and semantics are unified. This unification makes it easier for code to modify itself safely, which facilitates meta-programming. Added benefits of functional programming include the ability to prove things like the correctness and equivalence between programs (see Functional Programming [2])

Print functions and message passing are side effects and are not part of the purely functional core of erlang. One of the main ideas in erlang is to make as much of a program purely functional as possible and isolate the functions that include side effects to improve stability. The theory is that the purely functional part is naturally well behaved.

Erlang has been around for 20 years and has a large library of functions available, especially for networking and the web.

Basic Erlang

Get to know the Command Line
Quick tips
Terms
Pattern Matching
Expressions
Functions
Guards
Modules
Errors - working with exceptions
Processes and Messages
Trapping Exit Signals
Timeouts
Macros
Techniques of Recursion
List Comprehensions
List Comments

Syntax

Functions are defined by the domain of the arguments and the number of arguemnts. A function ends with a period. A function over a particular domain(set of inputs) is separated by a semicolon. The arrow shows how a particular function of a particular value or variable maps to an output.

fact(0) -> 1;
fact(N) when is_integer(N) -> 
    fact(N-1)*N.
Advanced Syntax

Simple Types

Basic types in erlang include:

  • atom - alice
  • integer - 3
  • float - 3.1415
  • pid - a process id number <0.42.0>
  • list - [ things in square brackets ]
  • tuple - { things in curly braces }

Advanced Types

  • binary - a binary data block, <<42>>
  • function - a function, F = fun(X) -> X*X end.
  • port - a path for data to flow to the outside world
  • reference - a unique id over all processes
  • record - the standard erlang data structure

Modules

Adding/Replacing Modules

Erlang is picky about updating or replacing modules of the same name. You should completely remove the old module code from the directory tree, not just rename the containing directory.

Popular Modules

math
gb_sets
lists
regexp: Regular Expressions

Nonstandard Modules

Eunit Unit Testing Module

Object Oriented Programming with erlang

Behaviours

Behaviours

Nonstandard OOP with erlang

Objects with erlang

Functional Programming with erlang

Fun with folding
Iterator
Simplify Numeric Types (auto-demotion of numerical types)

Example programs

Hello World (Serial)
Hello World (parallel)
Prime Sieve with Linda
Autonomous Agents in Erlang -- def: Autonomous Agent.

OTP

Design of OTP programs

otp_design

OTP Behaviours

 client-server 
 event-handler 
 :gen_server 
 hot-standby 
 keep-me-alive 
 supervision-tree 
 upgrade-handler 
 worker-supervisor 


Databases

ETS programming
DETS programming
Mnesia database

Advanced Erlang

Making parsers with yecc
Evaluation

Glossary of Erlang Terms

 Call:      a Synchronous message between processes
 Cast:      an Asynchronous message between processes
 Reference: an data type that provides a unique mark of identification
            you can generate an id with the command:
            erlang:make_ref()
 

Projects using erlang

  • CouchDB - a scalable database for Apache
  • Wings3D - a 3-D editor

References

1 - Erlang Man Pages at Erlang,org