Menu
Home
People
Places
Arts
History
Plants & Animals
Science
Life & Culture
Technology
Reference.org
Q (programming language from Kx Systems)
open-in-new
<h2 id="overview">Overview</h2> <p>The fundamental building blocks of q are <i>atoms</i>, <i>lists</i>, and <i>functions</i>. Atoms are <a href="/facts/Scalar_(computing)/VoCKtwml">scalars</a> and include the <a href="/facts/Data_type/fcx5hgVL">data types</a> numeric, character, date, and time. <a href="/facts/List_(computing)/9tzhAH6M">Lists</a> are ordered collections of atoms (or other lists) upon which the higher level data structures <i><a href="/facts/Associative_array/IFGd2xcP">dictionaries</a></i> and <i><a href="/facts/Table_(database)/5INvK1Vd">tables</a></i> are internally constructed. A dictionary is a map of a list of keys to a list of values. A table is a transposed dictionary of symbol keys and equal length lists (columns) as values. A <i>keyed table</i>, analogous to a table with a <a href="/facts/Unique_key/NKGBxUHR">primary key</a> placed on it, is a dictionary where the keys and values are arranged as two tables. </p><p>The following code demonstrates the relationships of the data structures. Expressions to evaluate appear prefixed with the q) prompt, with the output of the evaluation shown beneath: </p> q)`john / an atom of type symbol `john q)50 / an atom of type integer 50 q)`john`jack / a list of symbols `john`jack q)50 60 / a list of integers 50 60 q)`john`jack!50 60 / a list of symbols and a list of integers combined to form a dictionary john| 50 jack| 60 q)`name`age!(`john`jack;50 60) / an arrangement termed a column dictionary name| john jack age | 50 60 q)flip `name`age!(`john`jack;50 60) / when transposed via the function "flip", the column dictionary becomes a table name age -------- john 50 jack 60 q)(flip (enlist `name)!enlist `john`jack)!flip (enlist `age)!enlist 50 60 / two equal length tables combined as a dictionary become a keyed table name| age ----| --- john| 50 jack| 60 <p>These entities are manipulated via functions, which include the built-in functions that come with Q (which are defined as <a href="/facts/K_(programming_language)/4Apv0CXC">K</a> macros) and user-defined functions. Functions are a data type, and can be placed in lists, dictionaries and tables, or passed to other functions as parameters. </p> <h2 id="examples">Examples</h2> <p>Like K, Q is interpreted and the result of the evaluation of an expression is immediately displayed, unless terminated with a semi-colon. The <a href="/facts/%22Hello,_World!%22_program/vLn0jLlL">Hello world</a> program is thus trivial: </p> q)"Hello world!" "Hello world!" <p>The following expression sorts a list of strings stored in the variable x descending by their lengths: </p> x@idesc count each x <p>The expression is evaluated from right to left as follows: </p> <ol><li>"count each x" returns the length of each word in the list x.</li> <li>"idesc" returns the indices that would sort a list of values in descending order.</li> <li>@ use the integer values on the right to index into the original list of strings.</li></ol> <p>The factorial function can be implemented directly in Q as </p> {prd 1+til x} <p>or recursively as </p> {$[x=0;1;x*.z.s[x-1]]} <p>Note that in both cases the function implicitly takes a single argument called x - in general it is possible to use up to three implicit arguments, named x, y and z, or to give arguments local variable bindings explicitly. </p><p>In the direct implementation, the expression "til x" enumerates the integers from 0 to x-1, "1+" adds 1 to every element of the list and "prd" returns the product of the list. </p><p>In the recursive implementation, the syntax "$[condition; expr1; expr2]" is a ternary conditional - if the condition is true then expr1 is returned; otherwise expr2 is returned. The expression ".z.s" is loosely equivalent to 'this' in Java or 'self' in Python - it is a reference to the containing object, and enables functions in q to call themselves. </p><p>When x is an integer greater than 2, the following function will return 1 if it is a prime, otherwise 0: </p> {min x mod 2_til x} <p>The function is evaluated from right to left: </p> <ol><li>"til x" enumerate the non-negative integers less than x.</li> <li>"2_" drops the first two elements of the enumeration (0 and 1).</li> <li>"x mod" performs modulo division between the original integer and each value in the truncated list.</li> <li>"min" find the minimum value of the list of modulo result.</li></ol> <p>The q programming language contains its own table query syntax called <a href="https://code.kx.com/q/basics/qsql/">qSQL</a>, which resembles traditional <a href="/facts/SQL/UjQLJcYm">SQL</a> but has important differences, mainly due to the fact that the underlying tables are oriented by column, rather than by row. </p> q)show t:([] name:`john`jack`jill`jane; age: 50 60 50 20) / define a simple table and assign to "t" name age -------- john 50 jack 60 jill 50 jane 20 q)select from t where name like "ja*",age>50 name age -------- jack 60 q)select rows:count i by age from t age| rows ---| ---- 20 | 1 50 | 2 60 | 1 <h2 id="further-reading">Further reading</h2> <ul><li>Borror, Jeffry A. <i>Q For Mortals: A Tutorial in Q Programming</i>. <a href="/facts/ISBN_(identifier)/15AdSPa9">ISBN</a> 978-1-4348-2901-6.</li> <li>Psaris, Nick. <i>Q Tips: Fast, Scalable and Maintainable Kdb+</i>. <a href="/facts/ISBN_(identifier)/15AdSPa9">ISBN</a> 978-9-8813-8990-9.</li></ul> <h2 id="external-links">External links</h2> <ul><li><a href="http://kx.com">Official website</a>, Kx Systems</li> <li><a href="http://kx.com/solutions">Official website</a>, kdb+</li> <li><a href="https://code.kx.com/">Online documentation and developer site</a></li> <li><a href="http://www.timestored.com/kdb-guides/">Online kdb Tutorials</a></li> <li><a href="http://www.timestored.com/qstudio">qStudio an IDE with timeseries charting for kdb </a></li> <li><a href="https://code.kx.com/developer/">Kx Developer, an IDE for kdb+ </a></li> <li><a href="http://kxsystems.github.io/">kdb+ repositories on GitHub</a></li> <li><a href="https://code.kx.com/q4m3/">Free online version of <i>Q for Mortals</i></a></li> <li><a href="https://www.youtube.com/watch?v=8eoysfqO3UY"><i>Q for All</i> video tutorials</a></li> <li><a href="https://code.kx.com/q/wp/">Technical Whitepapers</a></li> <li><a href="https://github.com/timestored/jq">jq, an implementation of q on the JVM</a></li></ul> <h2 id="references">References</h2> <ol> <li id="fn:1"><p>"Q Reference Card". Retrieved 15 April 2020. <a href="https://code.kx.com/q/ref/" target="_blank">https://code.kx.com/q/ref/</a> <a href="#fnref:1" class="footnote-back-ref">↩</a></p></li> </ol>