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<html> <!– Google Analytics –> <script type=“text/javascript” charset=“utf-8”> (function(i,s,o,g,r,a,m){i['GoogleAnalyticsObject']=r;i[r]=i[r]||function(){ (i[r].q=i[r].q||[]).push(arguments)},i[r].l=1*new Date();a=s.createElement(o), m=s.getElementsByTagName(o)[0];a.async=1;a.src=g;m.parentNode.insertBefore(a,m) })(window,document,'script','www.google-analytics.com/analytics.js','ga'); ga('create', 'UA-34685760-1', 'auto', 'personalTracker', {'allowLinker': true}); ga('personalTracker.require', 'linker'); ga('personalTracker.linker:autoLink', ['pages.di.unipi.it', 'enforce.di.unipi.it', 'didawiki.di.unipi.it'] ); ga('personalTracker.require', 'displayfeatures'); ga('personalTracker.send', 'pageview', 'ruggieri/teaching/pds/'); setTimeout(“ga('send','event','adjusted bounce rate','30 seconds')”,30000); </script> <!– End Google Analytics –> <!– Capture clicks –> <script> jQuery(document).ready(function(){ jQuery('a[href$=“.pdf”]').click(function() { var fname = this.href.split('/').pop(); ga('personalTracker.send', 'event', 'PDS', 'PDFs', fname); }); jQuery('a[href$=“.r”]').click(function() { var fname = this.href.split('/').pop(); ga('personalTracker.send', 'event', 'PDS', 'Rs', fname); }); jQuery('a[href$=“.zip”]').click(function() { var fname = this.href.split('/').pop(); ga('personalTracker.send', 'event', 'PDS', 'ZIPs', fname); }); jQuery('a[href$=“.mp4”]').click(function() { var fname = this.href.split('/').pop(); ga('personalTracker.send', 'event', 'PDS', 'Videos', fname); }); jQuery('a[href$=“.flv”]').click(function() { var fname = this.href.split('/').pop(); ga('personalTracker.send', 'event', 'PDS', 'Videos', fname); }); }); </script> </html> ====== Programming for Data Science A.Y. 2019/20 ====== This is an introductory course to computer programming and related mathematical/logic background for students without a Bachelor in Computer Science or in Computer Engineering. The objective is to smoothly introduce the student to the programming concepts and tools needed for typical data processing and data analysis tasks. The course consists of lectures and practice in computer labs. Starting from this year, the course is ANNUAL: so, classes will start in September and finish in May. Hence, the first exam date for students attending the course this year for the first time will be at the end of May. =====Instructors===== * Giuseppe Prencipe * Università di Pisa * http://pages.di.unipi.it/prencipe/ * giuseppe [dot] prencipe [at] unipi [dot] it * Giulio Rossetti * Università di Pisa * http://www.giuliorossetti.net/about/ * giulio [dot] rossetti [at] di [dot] unipi [dot] it =====Classes===== ^ Day of Week ^ Hour ^ Room ^ Type ^ | Thursday | 09:00 - 11:00 | <html><a href='https://meet.google.com/rqn-hqca-zep'>Remote lecture</a></html> | Remote lecture | | Friday | 09:00 - 11:00 | <html><a href='https://meet.google.com/rqn-hqca-zep'>Remote lecture</a></html> | Remote lecture | <html> <span style=“color:red”> <b>NEWS:<br> </b> Google Meets link for remote lectures: <a href='https://meet.google.com/rqn-hqca-zep'>Join Class</a></b>.</span><br> </span></html> =====Office hours===== * Prof. Prencipe: by appointment, Department of Computer Science, room 327/DO. * Prof. Rossetti: by appointment. =====Text Books===== * [T] Kenneth H. Rosen. Discrete Mathematics and Its Applications. Seventh Edition, MCGraw-Hill, 2012. Supplement material (including Errata-Corrige). * [P] Pieter Spronck. The Coder’s Apprentice: Learning Programming with Python 3, 2017. Book and supplement material. * [C] Brian W. Kernighan, Dennis M. Ritchie. C Programming Language. Second Edition, Prentice Hall, 1988. * [A] David A. Patterson,‎ John L. Hennessy. Computer Organization and Design. Fifth Edition, The Morgan Kaufmann Series in Computer Architecture and Design, 2014. MKComputerOrganizationAndDesign-1stChapter.pdf * [O-it] Paolo Ancilotti, Maurelio Boari, Anna Ciampolini, Giuseppe Lipari. Sistemi Operativi. McGraw-Hill, 2008 * [O-en] Abraham Silberschatz, Peter B. Galvin, Greg Gagne. Operating System Concepts, 9th Edition International Student Version, 2013 =====Software===== * Python programming: Anaconda distribution of Python 3. Computers at lab rooms include it both on Linux and Windows OS. * C programming (Linux): either gedit (or equivalent text editor) and gcc. If you do not have gcc on your machine, check next item. Gedit and gcc are available on computers at lab room (Linux only). * C programming (Windows) Either DevC++ (already installed on LabMachines) or install CygWin (not on lab machines – on your PC) or install a Virtual Machine (such us VirtualBox) running any Linux distribution. * Editor for C files on Windows Either use the DevC++ editor, or use Notepad++ . * Unix Shell Either use Linux on lab machines, or install CygWin (on your PC). * Python/C online including visualization of memory state PythonTutor. * Jupyter Notebooks shown during theory classes GitHub =====Preliminary program and calendar===== * Preliminary program. * Calendar of lessons. =====Exams (rules valid also for COVID-19 emergency)===== Exams is made out of two parts: - Written part: solve programming exercises in both Python and C (45 minutes). If sufficient, this will give you access to the Oral part of the exam. - Oral part: discussion on both the Written part and on ALL of the topics covered during the course. Registration to exams is mandatory: register here Virtual room for the Written part is the same as the one used for classes. Always check here for specific information on specific sessions. <html> <span style=“color:red”> IMPORTANT: </span></html> To be able to solve the C exercises during the exam, you need to use either the Linux partition or DevC++ installed in the Windows partition of the computers' lab. Please, read carefully the instructions in the Software section above. ^ Day ^ Hour ^ Room ^ Type ^ | 01/06/2020 | 09:00 - | Virtual Room | I summer session | | 22/06/2020 | 09:00 - | Virtual Room | II summer session | | 13/07/2020 | 09:00 - | Virtual Room | III summer session | Students that passed Lab exam of the 16th of June, have to sign here for the oral part: https://agende.unipi.it/eyy-wad-pxg Sample exam texts: 1, 2, 3, 4,5,6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, =====Class calendar===== Recordings of lessons are available, and are password protected. Ask the teachers for credentials. ^ ^ Day ^ Room ^ Topic ^ Learning material ^ Recordings ^ Instructor ^ |1.| 16.9 11:00-13:00 | C1 | Introduction. Propositional logic. | [T: 1.1-1.3] | 20170918.flv 20180917_en.mp4 | Prencipe | |2.| 19.9 09:00-11:00 | H-Lab | Algorithms and programming: notions, programming steps, states, expressions and assignment. Introduction to Python. Data types, expressions using numbers, variables. | [P: 1-4] | 20170920.mp4 20180920_en.mp4 | Prencipe | |3.| 23.9 11:00-13:00 | C1 | Exercises. Rules of inference for propositional logic. | [T: 1.6] | 20170919.flv 20180918_en.mp4 | Prencipe | |4.| 26.9 09:00-11:00 | H-Lab | Exercises and programming practice. Simple functions, input, if-else, if-elif-else. | [P: 1-4] | Esercizi1.pdf
20180926_I_en.mp4
20180926_II_en.mp4 | Prencipe | |5.| 30.9 11:00-13:00 | C1 | while, for. | [P: 4-7] | Esercizi2.pdf
20170926.mp4
20180927_en.mp4 | Prencipe | |6.| 3.10 09:00-11:00 | H-Lab | Lab exercises. | | | Prencipe | |7.| 7.10 11:00-13:00 | C1 | Functions and recursion. | [P: 8-9] | 20171005.mp4
Esercizi3.pdf
EserciziRecursion.pdf
20181004_I_en.mp4
20181004_II_en.mp4 | Prencipe | |8.| 10.10 09:00-11:00 | H-Lab | Lab exercises. | | | De Sensi | |9.| 14.10 11:00-13:00 | C1 | Strings, tuples, lists. | [P: 10-14] | 20171011.mp4 20181010_en.mp4 | Prencipe | |10.| 17.10 09:00-11:00 | H-Lab | Lab exercises. | | | Prencipe | |11.| 21.10 11:00-13:00 | C1 | Dictionaries and sets. | [P: 10-14] | Esercizi4.pdf 20181011_en.mp4 | Prencipe | |12.| 24.10 09:00-11:00 | H-Lab | Lab exercises. | | | Prencipe | |13.| 28.10 11:00-13:00 | C1 | Selection sort and Mergesort, text files, exceptions. | [P: 15-19] | 20171018.mp4 20181017_en.mp4 | Prencipe | |14.| 31.10 09:00-11:00 | H-Lab | Lab exercises. | | | Prencipe | |15.| 04.11 11:00-13:00 | C1 | Binary files, bitwise operators, Debugging. | [P: 15-19] | 20171018.mp4
20181017_en.mp4
Debug.pdf
Esercizi5.pdf
20181018_en.mp4 | Prencipe | |16.| 07.11 09:00-11:00 | H-Lab | Test. | | | Prencipe | |17.| 11.11 11:00-13:00 | C1 | Classes, Object and Overloading. | [P: 20-21] | 20171108.mp4 20181024_en.mp4 | Prencipe | |18.| 14.11 09:00-11:00 | H-Lab | Lab Exercises. | | | Rossetti | |19.| 18.11 11:00-12:00 | C1 | Lesson not held (city closed - flooding). | | | - | |20.| 21.11 09:00-11:00 | H-Lab | Lab Exercises. | | | Prencipe | |21.| 25.11 11:00-13:00 | C1 | First Order Logic: Predicates and Quantifiers, Rules of Inference | [T: 1.4-1.6] | 20180924_en.m4v | Rossetti | |22.| 28.11 09:00-11:00 | H-Lab | Lab Exercises. | | | Prencipe | |23.| 02.12 11:00-13:00 | C1 | Sets and Set Operations | [T: 2.1-2.2] | 20180925_en.m4v | Rossetti | |24.| 05.12 09:00-11:00 | H-Lab | Lab Exercises. | | Esercizi6.pdf | Prencipe | |25.| 09.12 11:00-13:00 | C1 | Inheritance, iterators and generators, command line processing. | [P: 22-24] | Esercizi7.pdf
20171122.mp4
20181025_en.mp4 | Prencipe | |26.| 12.12 09:00-11:00 | H-Lab | Lab Exercises. | | Esercizi13-Classi.pdf Esercizi13-Classi-SketchOfSolutions.zip | Prencipe | |27.| 27.02 09:00-11:00 | L1 | Exercises on Predicate Logic and Sets | | 20181008_en.m4v | Rossetti | |28.| 28.20 9:00-11:00 | L1 | Functions, Sequences, Set Cardinality, Matrices | [T: 2.3-2.6] | 20181009_en.m4v | Rossetti | |29.| 12.03 9:00-11:00 | Google Meet | Exercises on Functions, Sequences, Set Cardinality. High Order Functions. | | 20181015_en.m4v | Rossetti | |30.| 13.03 9:00-11:00 | Google Meet | Divisibility. Primes. Integer Representation. | [T: 4.1, 4.2, 4.3, 4.5] | 20181016_en.m4v | Rossetti | |31.| 19.03 9:00-11:00 | Google Meet | Exercises on Primes, Integer Representation, Divisibility. Induction. | [T: 5.1] | 20181022_en.m4v | Rossetti | |32.| 20.03 9:00-11:00 | Google Meet | Strong Induction, Recursion, Structural Induction. | [T: 5.2, 5.3, 5.4] | 20181023_en.m4v | Rossetti | |33.| 26.03 9:00-11:00 | Google Meet |Basic of counting: The Pigeonhole Principle, Permutations, Combinations, Binomial coefficient. | [T: 6.1, 6.2, 6.3, 6.4] | 20181105_en.m4v | Rossetti | |34.| 27.03 9:00-11:00 | Google Meet | Exercises on induction and recursive programming. | | 20181106_en.m4v | Rossetti | |35.| 02.04 9:00-11:00 | Google Meet | The Unix Shell. Introduction to C: pre-processor, compiler, linker. Structure of a C-program.| [P: 22-24][C: 1-5] | IntroUnix.pdf
introUnix_en.pdf
8-ShellEx_en.pdf
CLanguage-1.mp4 | Prencipe | |36.| 03.04 9:00-11:00 | Google Meet | Introduction to C: pre-processor, compiler, linker. Structure of a C-program, types, if-for, switch. | [C: 1-5] | intro-C_en.pdf 9.1-Cex_en.pdf
9.2-Cex_en.pdf
20181108_en.mp4
CLanguage-2.mp4 | Prencipe | |37.| 09.04 09:00-11:00 | Google Meet | Introduction to C: arrays, functions, scope, pointers and memory. | [C: 1-5] | 20171129.mp4
20181114_en.mp4
20171130.mp4
20181115_en.mp4
CLanguage-3.mp4
Esercizi9_introC_en.zip | Prencipe | |38.| 16.04 09:00-11:00 | Google Meet | Introduction to C: dangling pointers, memory leaks, struct, lists. | [C: 6] | 20181122_en.mp4
20171206.mp4
20181128_en.mp4
CLanguage-4.mp4
Esercizi10_en.zip | Prencipe | |39.| 17.04 09:00-11:00 | Goole Meet | Relations, poset. | [T: 9.1, 9.3, 9.4, 9.6] | 20181112_en.m4v
20181113_en.m4v | Rossetti | |40.| 23.04 09:00-11:00 | Goole Meet | Inclusion-exclusion. Equivalence relations. | [T: 8.5,8.6] | 20181119_en.m4v | Rossetti | |41.| 24.04 09:00-11:00 | Goole Meet | Exercises on relations and posets. Relational operators in Python. | [T: 9.5] | 20181121_en.m4v | Rossetti | |42.| 30.04 09:00-11:00 | Goole Meet | Grammars. | [T: 13.1] | 20181126_en.m4v | Rossetti | |43.| 14.05 09:00-11:00 | Goole Meet | Introduction to C: libraries, strings | [C: 1-6] | 20181129_en.mp4
CLanguage-5 | Prencipe | 2018-2019 ^ ^ Day ^ Room ^ Topic ^ Learning material ^ Recordings ^ Instructor ^ |3.| 19.9 16:00-18:00 | M-Lab | Architectures and hardware design. | [A: 1] | 20171113.pdf 20171114.mp4 20180919_en.mp4 | Prencipe | |6.| 03.10 09:00-11:00 | H-Lab | Concepts of Operating Systems I. | | Lezione9_IntroduzioneOS.pdf Lezione10_FileSystem.pdf 20171207.mp4 | Prencipe | |9.1| 01.10 11:00-13:00 | C1 | Concepts of Operating Systems I. | | Lezione9_IntroduzioneOS_en.pdf Lezione10_FileSystem_en.pdf 20181001_en.mp4 | Prencipe | |–.| 02.10 09:00-11:00 | | Lesson not held. | | |10| 03.10 16:00-18:00 | M-Lab | Concepts of Operating Systems II. | | 20181001_I_en.mp4 20181001_II_en.mp4 | Prencipe | |36.| 27.11 11:00-13:00 | N1 | Finite-state automata, regular expressions. | [T: 13.3, 13.4] | 20181127_en.m4v | Rossetti | |39.| 03.12 11:00-13:00 | C1 | Regular expressions in Python. Syntax and semantics of C expressions. | [P: 25] | | Rossetti | |40.| 04.12 11:00-13:00 | N1 | A Python interpreter of C expressions. Type checking. | | | Rossetti | |41.| 05.12 16:00-18:00 | M-Lab | Fake Test | | 20181205-FakeTest.pdf 20181205-FakeTestSoluzione.pdf | Prencipe | |43.| 10.12 11:00-13:00 | C1 | A Python interpreter of C commands. | | | Rossetti | |44.| 11.12 11:00-13:00 | N1 | A Python interpreter of C commands. Wrap-up on programming languages. | | | Rossetti | =====Previous years===== * Programming s for Data Science A.Y. 2018/19