Evolving as a Professional Software Developer

Transcript

1. Evolving as a Professional Software Developer Anton Kirillov

2. About Author antonkirillov@ akirillov@ architect@ Ph.D. in CompSci Computer Scientist,

   Distributed Systems Architect and Passionate Programmer

3. Agenda What is this talk about • Developers’ Essence •

   Computer Science • Polyglot Programming • Evolution What is this talk not about • Agile • Soft Skills • How to Sell ABC to XYZ

4. Software Developer A person concerned with facets of the software

   development process. Their work includes researching, designing, implementing, and testing software. A software developer may take part in design, computer programming, or software project management. They may contribute to the overview of the project on the application level rather than component-level or individual programming tasks. Wikipedia

5. Software Engineering The required techniques of effective reasoning are pretty

   formal, but as long as programming is done by people that don't master them, the software crisis will remain with us and will be considered an incurable disease. And you know what incurable diseases do: they invite the quacks and charlatans in, who in this case take the form of Software Engineering gurus. Dijkstra "Answers to questions from students of Software Engineering" (2000)

6. Beauty is more important in computing than anywhere else in

   technology because software is so complicated. Beauty is the ultimate defense against complexity. David Gelernter, “Machine Beauty: Elegance and the Heart of Technology” Beauty?

7. Programming = Art We have seen that computer programming is

   an art, because it applies accumulated knowledge to the world, because it requires skill and ingenuity, and especially because it produces objects of beauty. A programmer who subconsciously views himself as an artist will enjoy what he does and will do it better. D. Knuth, Computer Programming as an Art (1974)

8. Programmers’ Competency Matrix source: http://sijinjoseph.com/programmer-competency-matrix/

9. What’s in the Market

10. Market Requires Tools not Skills

11. Toolset is Legacy “I suppose it is tempting, if the

    only tool you have is a hammer, to treat everything as if it were a nail” ― Abraham Maslow “The tools we use have a profound (and devious!) influence on our thinking habits, and, therefore, on our thinking abilities” ― Edward Dijkstra

12. Skillset

13. Math & Abstraction The effective exploitation of his powers of

    abstraction must be regarded as one of the most vital activities of a competent programmer. E.W. Dijkstra, The Humble Programmer(1972) Abstraction in mathematics is the process of extracting the underlying essence of a mathematical concept, removing any dependence on real world objects with which it might originally have been connected, and generalizing it so that it has wider applications or matching among other abstract descriptions of equivalent phenomena.

14. Abstraction in CompSci • Languages: • OOP • Functional •

    Modern Lisps • Control flow • Abstract Data Types • Lambda Abstraction • Layered Architecture

15. Abstraction Principle Each significant piece of functionality in a program

    should be implemented in just one place in the source code. Where similar functions are carried out by distinct pieces of code, it is generally beneficial to combine them into one by abstracting out the varying parts. Benjamin C. Pierce in Types and Programming Languages (2002)

16. Why Math • Understanding function convexity very deeply • Using

    induction to prove a recursive algorithm • Formal correctness proofs • DFAs, NFAs, Turing Machines, and theoretical computation in general • It makes a lot computer science concepts easier • Specific concepts applicable to computer science are covered arguably more deeply by mathematics • Diversity of paradigms • Precision and skepticism • Math people are really smart =)

17. (Very) Applied Mathematics • (Pure) Functions and State Machines ->

    Stateful/Stateless Services Models • HOF -> DI/IoC • Set Theory -> SQL Joins • Probability Theory -> Load Balancing, Probabilistic Data Structures

18. Comp Sci

19. Theoretical Computer Science

20. Theoretical Computer Science

21. Applied Computer Science

22. Applied Computer Science

23. Applied Computer Science

24. Data Structures & Algorithms Use Cases

25. Why Data Structures & Algorithms • Queues: o Any Queueing

    processes o Distributed Persistent Queues for Event Processing • Bloom filters: o Used by Cassandra to check which SSTables mostly contains the key o Hbase also uses it to optimize the reads • Trees: o KV Database designing o Creating file system (S-Tree in HDFS) o Suffix tree: Genomic sequencing o Zoology: Maintaining the structures of the entire animal & plant kingdom. o Social Networks : Establishing relations between users based on some key • B-Trees (Binary Trees): o E-commerce : while accessing unique keys. B-Trees balanced multi-way search tree of order N. o Searching : Searching quickly for a given element • Skip Lists: o Implementation of ordered sets - Redis datastore

26. Single Example: Graphs • Search (PageRank) • The Facebook news

    feed & Facebook Graph Search. • Google Navigation and Google Directions on top of Google Maps uses some very efficient planar graph shortest path algorithms. • Compilers use graph traversals to find code dependencies. • Graph coloring algorithms are used when optimizing the code for parallel uses of the CPU registers. • CPU layout design problems are modeled as graph problems. • Memory garbage collection strategies may use graph traversals. • Inventory allocation in web advertising can be written as a network flow problem. • Data replication problems frequently use minimal spanning tree algorithms to keep the bandwidth use down • Most big data processing pipelines involve a series of interdependent steps that can be modeled as a directed acyclic graph.

27. Programming Languages

28. Programming Languages About the use of language: it is impossible

    to sharpen a pencil with a blunt axe. It is equally vain to try to do it with ten blunt axes instead. E.W. Dijkstra, How do we tell truths that might hurt?(1975)

29. Why Polyglot Programming Matters • Most interesting open-source projects are

    in different language than yours (Storm, Finagle) • Lay back and relax in Turing’ Tarpit • Concurrency Idioms (Shared Memory, Actors, STM) • Write once - run anywhere! JVM is mature enough to host new languages (and they appear!) • We don’t need most of GoF Patterns in FP! • There are a complete frameworks build around lack of some features in core language (DI containers)

30. Why Polyglot Programming Matters • Another level of abstraction •

    You can borrow design ideas from other languages (e.g. I am a lambda junkie) • Different understanding of things (address arithmetic, OOP, HOF, Monads etc.) • Effective reasoning (map and reduce) • Idiomatic code: ceremony vs. conciseness Abstract away from language!

31. Language Landscape is Changing FORTRAN —"the infantile disorder"—, by now

    nearly 20 years old, is hopelessly inadequate for whatever computer application you have in mind today: it is now too clumsy, too risky, and too expensive to use. PL/I —"the fatal disease"— belongs more to the problem set than to the solution set. It is practically impossible to teach good programming to students that have had a prior exposure to BASIC: as potential programmers they are mentally mutilated beyond hope of regeneration. The use of COBOL cripples the mind; its teaching should, therefore, be regarded as a criminal offence. APL is a mistake, carried through to perfection. It is the language of the future for the programming techniques of the past: it creates a new generation of coding bums.

32. Code Samples

33. FizzBuzz: Java for (int i = 1; i <= 100;

    i++){ if ((i % 15) == 0){ System.out.println("FizzBuzz"); } else if ((i % 3) == 0){ System.out.println("Fizz"); } else if ((i % 5) == 0){ System.out.println("Buzz"); } else { System.out.println(i); } }

34. FizzBuzz: Java for (int i = 1; i <= 100;

    System.out.println(++i % 3 == 0 ? i % 5 == 0 ? "Fizzbuzz" : "Fizz" : i % 5 == 0 ? "Buzz" : i));

35. FizzBuzz: Scala (1 to 100) map { x => (x

    % 3, x % 5) match { case (0,0) => "FizzBuzz" case (0,_) => "Fizz" case (_,0) => "Buzz" case _ => x toString } } foreach println

36. FizzBuzz: Clojure (use '[match.core :only (match)]) (doseq [n (range 1

    101)] (println (match [(mod n 3) (mod n 5)] [0 0] "FizzBuzz" [0 _] "Fizz" [_ 0] "Buzz" :else n)))

37. FizzBuzz: Enterprise Edition LoopComponentFactory myLoopComponentFactory = new LoopComponentFactory(); LoopInitializer myLoopInitializer

    = myLoopComponentFactory.createLoopInitializer(); LoopCondition myLoopCondition = myLoopComponentFactory.createLoopCondition(); LoopStep myLoopStep = myLoopComponentFactory.createLoopStep(); IsEvenlyDivisibleStrategyFactory myFizzStrategyFactory = new FizzStrategyFactory(); IsEvenlyDivisibleStrategy myFizzStrategy = myFizzStrategyFactory.createIsEvenlyDivisibleStrategy(); StringPrinterFactory myFizzStringPrinterFactory = new FizzStringPrinterFactory(); StringPrinter myFizzStringPrinter = myFizzStringPrinterFactory.createStringPrinter(); IsEvenlyDivisibleStrategyFactory myBuzzStrategyFactory = new BuzzStrategyFactory(); IsEvenlyDivisibleStrategy myBuzzStrategy = myBuzzStrategyFactory.createIsEvenlyDivisibleStrategy(); StringPrinterFactory myBuzzStringPrinterFactory = new BuzzStringPrinterFactory(); StringPrinter myBuzzStringPrinter = myBuzzStringPrinterFactory.createStringPrinter(); IsEvenlyDivisibleStrategyFactory myNoFizzNoBuzzStrategyFactory = new NoFizzNoBuzzStrategyFactory(); ….. EnterpriseQualityCoding/FizzBuzzEnterpriseEdition

38. FizzBuzz: Enterprise Edition EnterpriseQualityCoding/FizzBuzzEnterpriseEdition

39. Evolve!

40. Evolve! • Wiki that! • Build a robot! • Attack

    a book! • Compete! • Toy projects! • Open-source! • Coursera?

41. Enjoy the Community! • Attend conferences, check! • Attend meetups

    in Your city • Share Your knowledge, sync with community! Ads =)

42. Recap • Computer programming is the core competency • Don’t

    depend on market • Abstraction as main tool • Choose field, not framework • Be polyglot • Don’t fear to explore

43. First they ignore you, then they laugh at you, then

    they fight you, then you win Mahatma Gandhi

44. {} thisRoom getPeople foreach( person => { shakeHand(person) thanks(person) }

    > ~questions?