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<TITLE>CLN, a Class Library for Numbers - 1. Introduction</TITLE> </HEAD> <BODY> Go to the first, previous, <A HREF="cln_2.html">next</A>, <A HREF="cln_13.html">last</A> section, <A HREF="cln_toc.html">table of contents</A>. <P><HR><P>
<H1><A NAME="SEC1" HREF="cln_toc.html#TOC1">1. Introduction</A></H1>
<P> CLN is a library for computations with all kinds of numbers. It has a rich set of number classes:
<UL> <LI>
Integers (with unlimited precision),
<LI>
Rational numbers,
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Floating-point numbers:
<UL> <LI>
Short float, <LI>
Single float, <LI>
Double float, <LI>
Long float (with unlimited precision), </UL>
<LI>
Complex numbers,
<LI>
Modular integers (integers modulo a fixed integer),
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Univariate polynomials. </UL>
<P> The subtypes of the complex numbers among these are exactly the types of numbers known to the Common Lisp language. Therefore <CODE>CLN</CODE> can be used for Common Lisp implementations, giving <SAMP>`CLN'</SAMP> another meaning: it becomes an abbreviation of "Common Lisp Numbers".
<P> The CLN package implements
<UL> <LI>
Elementary functions (<CODE>+</CODE>, <CODE>-</CODE>, <CODE>*</CODE>, <CODE>/</CODE>, <CODE>sqrt</CODE>, comparisons, ...),
<LI>
Logical functions (logical <CODE>and</CODE>, <CODE>or</CODE>, <CODE>not</CODE>, ...),
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Transcendental functions (exponential, logarithmic, trigonometric, hyperbolic functions and their inverse functions). </UL>
<P> CLN is a C++ library. Using C++ as an implementation language provides
<UL> <LI>
efficiency: it compiles to machine code, <LI>
type safety: the C++ compiler knows about the number types and complains if, for example, you try to assign a float to an integer variable. <LI>
algebraic syntax: You can use the <CODE>+</CODE>, <CODE>-</CODE>, <CODE>*</CODE>, <CODE>=</CODE>, <CODE>==</CODE>, ... operators as in C or C++. </UL>
<P> CLN is memory efficient:
<UL> <LI>
Small integers and short floats are immediate, not heap allocated. <LI>
Heap-allocated memory is reclaimed through an automatic, non-interruptive garbage collection. </UL>
<P> CLN is speed efficient:
<UL> <LI>
The kernel of CLN has been written in assembly language for some CPUs (<CODE>i386</CODE>, <CODE>m68k</CODE>, <CODE>sparc</CODE>, <CODE>mips</CODE>, <CODE>arm</CODE>). <LI>
<A NAME="IDX1"></A> On all CPUs, CLN may be configured to use the superefficient low-level routines from GNU GMP version 3. <LI>
It uses Karatsuba multiplication, which is significantly faster for large numbers than the standard multiplication algorithm. <LI>
For very large numbers (more than 12000 decimal digits), it uses Sch�nhage-Strassen <A NAME="IDX2"></A> multiplication, which is an asymptotically optimal multiplication algorithm, for multiplication, division and radix conversion. </UL>
<P> CLN aims at being easily integrated into larger software packages:
<UL> <LI>
The garbage collection imposes no burden on the main application. <LI>
The library provides hooks for memory allocation and exceptions. </UL>
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