00812nam a2200229ui 450099100437323000753620250326131734.0250326s1967 at abc er 001 0 eng dBibl. Dip.le Aggr. Scienze Giuridiche - Sez. Studi GiuridiciitaSocioculturale Scseng919.40423Goodman, Robert B.36647The Australians /[produced and photographed by Robert B. Goodman ; text by George Johnston ; designed by Harry Williamson ; edited by Jonathan Rinehart]2. edAdelaide :Rigby,1967292 p. :ill.28 cmAustraliaCiviltàJohnston, George HenryRinehart, Jonathan991004373230007536Australians4342572UNISALENTO04256nam 2200721 a 450 991102044480332120200520144314.0978661176688797811182108191118210816978128176688512817668879780470385951047038595297804703859440470385944(CKB)1000000000549929(EBL)362061(SSID)ssj0000152654(PQKBManifestationID)11152395(PQKBTitleCode)TC0000152654(PQKBWorkID)10339423(PQKB)11780096(MiAaPQ)EBC362061(MiAaPQ)EBC4445073(CaSebORM)9780470242117(OCoLC)264703259(OCoLC)614432848(OCoLC)ocm614432848 (Perlego)1010258(EXLCZ)99100000000054992920080229d2008 uy 0engur|n|---|||||txtccrF# for scientists /Jon Harrop ; foreword by Don Syme1st editionHoboken, N.J. John Wileyc20081 online resource (370 p.)Description based upon print version of record.9780470242117 0470242116 Includes bibliographical references (p. 325-327) and index.Introduction. Programming guidelines -- A brief history of F# -- Benefits of F# -- Introducing F# -- Imperative programming -- Functional programming -- Program structure. Nesting -- Factoring -- Modules. Objects -- Functional design patterns -- F# development -- Data structures. Algorithmic complexity -- Arrays -- Lists -- Sets -- Hash tables -- Maps -- Choosing a data structure -- Sequences -- Heterogeneous containers -- Trees -- Numerical Analysis. Number -- Algebra --Interpolation -- Quadratic solutions -- Mean and variance -- Other forms of arithmetic -- Input and Output. Printing -- Generic printing -- Reading from and writing to files -- Serialization -- Lexing and parsing -- Simple Examples. Functional -- Numerical -- String related -- List related -- Array related -- Higher order functions -- Visualization. Windows forms -- Managed directX -- Tesselating objects into triangles -- Optimization. Timing -- Profiling -- Algorithmic optimizations -- Lower level optimizations -- Libraries. Loading .NET libraries -- Charting and graphing -- Threads -- Random numbers -- Regular expressions -- Vectors and matrices -- Downloading from the Web -- Compression -- Handling XML -- Calling native libraries -- Fourier transform -- Metaprogramming -- Databases. Protein data bank -- Web services -- Relational databases -- Interoperability. Excel interoperability -- MATLAB interoperability -- Mathematica interoperability -- Complete examples. Fast Fourier transform -- Semicircle law -- Finding nth nearest neighbors -- Logistic map -- Real time particle dynamics -- Appendix A: Troubleshooting.""This work strikes a balance between the pure functional aspects of F# and the object-oriented and imperative features that make it so useful in practice, enable .NET integration, and make large-scale data processing possible.""-Thore Graepel, PhD, Researcher, Microsoft Research Ltd. Over the next five years, F# is expected to become one of the world's most popular functional programming languages for scientists of all disciplines working on the Windows platform. F# is free and, unlike MATLAB® and other software with numerical/scientific origins, is a full-fledged programming language.<F sharp for scientistsF (Computer program language)Functional programming (Computer science)ScienceData processingF (Computer program language)Functional programming (Computer science)ScienceData processing.005.1/14Harrop Jon D1837710MiAaPQMiAaPQMiAaPQBOOK9911020444803321F# for scientists4416505UNINA