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---+ Programming lab, log of the lectures ---++ Lecture 24 Offline lecture (recovery) Read and write json files: https://drive.google.com/file/d/1zYY_0FKsusB0aF8D0woNxN4G59su3awn/view?usp=sharing Exercises with json files: * https://q2a.di.uniroma1.it/assets/eserciziario-python/en/script/zips/32.zip * https://q2a.di.uniroma1.it/assets/eserciziario-python/en/script/zips/39.zip * https://q2a.di.uniroma1.it/assets/eserciziario-python/en/script/zips/40.zip * https://q2a.di.uniroma1.it/assets/eserciziario-python/en/script/zips/34.zip * https://q2a.di.uniroma1.it/assets/eserciziario-python/en/script/zips/72.zip NOTE: the json module will not be an argument of the exam. ---++ Lecture 23 23/12/2020 (recovery) Exam simulation! Zip of the exam folder: [[%ATTACHURL%/esercitazione-23-12-2020.zip][esercitazione-23-12-2020.zip ]](solutions: [[%ATTACHURL%/program.sol.py.txt][program.sol.py]]) ---++ Lecture 22 18/12/2020 Exercise done in class: https://drive.google.com/file/d/1oeXrg9CNCBJSS1ZaBWZK4tz-Kxgynh_Y/view?usp=sharing Code seen in class: [[%ATTACHURL%/prog_lab_lect23.zip][prog_lab_lect22.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1pNRTA8fFHqBd6t7FRbAtMeQ1nzPX6ZtP/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201218-090858_Programming_lab.txt][Chat-transcript-20201218-090858_Programming_lab.txt]] ---++ Lecture 21 16/12/2020 Exercises about recursion, trees and filesystem. Examples: [[%ATTACHURL%/66.zip][66.zip ]] [[%ATTACHURL%/12.zip][12.zip]] Code seen in class: [[%ATTACHURL%/prog_lab_lect21.zip][prog_lab_lect21.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1_4Dg9bBl00wZ0RgBfBV1R93xTFbFU8MZ/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201216-124127_Programming_Lab.txt][Chat-transcript-20201216-124127_Programming_Lab.txt]] ---++ Lecture 20 11/12/2020 Exercises on recursion, recursion limits. Filesystem trees (directory trees). The os module and the os.path module to access the functionalities of the Operating System. Code seen in class: [[%ATTACHURL%/prog_lab_lect20.zip][prog_lab_lect20.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1lj4cn7oX-N3BDYN0onYfufboE0vzASfJ/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201211-093625_Programming_Lab.txt][Chat-transcript-20201211-093625_Programming_Lab.txt]] ---++ Lecture 19 09/12/2020 Homework 8. Binary trees. N-ary trees. Code seen in class: [[%ATTACHURL%/prog_lab_lect19.zip][prog_lab_lect19.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/11lPMsvIKCqWJHQ-MyLEItjeoWCIyK9pw/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201209-124222_Programming_Lab.txt][Chat-transcript-20201209-124222_Programming_Lab.txt]] ---++ Lecture 18 04/12/2020 Binary trees. Code seen in class: [[%ATTACHURL%/prog_lab_lect18.zip][prog_lab_lect18.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1khGav7kS_wNvceWZ21AZ3qjslLNo32tt/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201204-091149_Programming_lab.txt][Chat-transcript-20201204-091149_Programming_lab.txt]] ---+++ Additional exercises 1 Write a recursive function that receives a string and a letter as input and counts how many times the letter is repeated in the string, without using string methods. 1 Write a recursive function that receives a string as input and returns a pair in which the first value is the number of vowels and the second value is the number of consonants present in the string. 1 Write a recursive function that receives two integers as input and returns their product using only additions and subtractions. 1 Write a recursive function that receives an integer as input and returns True if the number is prime, False, otherwise. 1 Write a recursive function that receives a list of integers and returns the minimum value among all the values in the list. 1 Write a recursive function that receives a list of integers and returns a new list in which only the positive values of the original list are present. 1 Write a recursive function that takes a binary tree as input and returns the minimum value among all the values of the nodes of the tree. 1 Write a recursive function that takes a binary tree as input and returns the minimum value among all the values of the tree leaves. 1 Write a recursive function that takes a binary tree as input and prints the values of all leaves from the right to the left. 1 Write a recursive function that takes a binary tree and a level L as input, and returns the sum of the values in the nodes to the L level. ---++ Lecture 17 02/12/2020 Exercises about recursion. Code seen in class: [[%ATTACHURL%/prog_lab_lect17.zip][prog_lab_lect17.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/10vKlTmddJh39PDgPBudAH8wAqtGVZ_vc/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201202-124026_Programming_lab.txt][Chat-transcript-20201202-124026_Programming_lab.txt]] ---++ Lecture 16 27/11/2020 Exercises on images. Try debugging our class code: [[%ATTACHURL%/turtle.py.txt][turtle.py.txt]] (remember to rename it in .py) Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1R4spLdpAjhwm60mS3M_Wbx97Zye0s1NF/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201127-091451_Programming_lab.txt][Chat-transcript-20201127-091451_Programming_lab.txt]] Json example files: https://jsonplaceholder.typicode.com/posts https://jsonplaceholder.typicode.com/users https://jsonplaceholder.typicode.com/comments ---++ Lecture 15 25/11/2020 Example images: <img alt="test.png" src="%ATTACHURL%/test.png" /> <img alt="test2.png" src="%ATTACHURL%/test2.png" /> Discussions about HW6-req. Exercises on images, with recursive and iterative solutions. Code seen in class: [[%ATTACHURL%/prog_lab_lect15.zip][prog_lab_lect15.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1Px82mwsbQb6iVnnDja2YCzjHj1uoKsDq/view?usp=sharing [[%ATTACHURL%/Chat-transcript-GMT20201125-124010_Programming_lab.txt][Chat-transcript-GMT20201125-124010_Programming_lab.txt]] ---++ Lecture 14 20/11/2020 Classes and images. [[%ATTACHURL%/Prog_lab_lect14.zip][Code seen in class:Prog_lab_lect14.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/16GCmZjnMxz_NbPlbkJtkdhUZvvqXPhN8/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201120-091312_Programming_lab.txt][Chat-transcript-20201120-091312_Programming_lab.txt]] ---++ Lecture 13 18/11/2020 Classes and images. Code seen in class: [[%ATTACHURL%/Prog_lab_lect13.zip][Prog_lab_lect13.zip]] Lecture recording (only accessible to registered students): https://drive.google.com/file/d/1v64pZR0Sqix6Tija0NgaJtA-2oXZdJp-/view?usp=sharing [[%ATTACHURL%/Chat-transcript-20201118-124113_Programming_lab.txt][Chat-transcript-20201118-124113_Programming_lab.txt]] ---++ Lecture 12 13/11/2020 Classes. Example: Point and Rectangle classes. Matrices. Code seen in class: [[%ATTACHURL%/Prog_lab_lect12.zip][Prog_lab_lect12.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1jqws-hqrrHAxYp1R85qdD0No05ZPqcn4/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1jqws-hqrrHAxYp1R85qdD0No05ZPqcn4/view?usp=sharing</a> [[%ATTACHURL%/Chat-transcript-20201113-092109_Programmin_lab.txt][Chat-transcript-20201113-092109_Programmin_lab.txt]] ---++ Lecture 11 11/11/2020 Classes. Example: Point class. Code seen in class: [[%ATTACHURL%/Prog_lab_lect11.zip][Prog_lab_lect11.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1jdS4kaeizD0cEvuaWOZjE0Udgchwphjk/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1jdS4kaeizD0cEvuaWOZjE0Udgchwphjk/view?usp=sharing</a> [[%ATTACHURL%/Chat-transcript-20201111-124710_Programming_lab.txt][Chat-transcript-20201111-124710_Programming_lab.txt]] ---+++ Additional exercise Complete the Rectangle class with the required methods. ---++ Lecture 10 6/11/2020 Introduction to HW4-req. Solution of the additional exercise of lecture 9. Code seen in class: [[%ATTACHURL%/Prog_lab_lect10.zip][Prog_lab_lect10.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1g-Hpe6jVazGuEjpT9e0uI9bfVacYFuaK/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1g-Hpe6jVazGuEjpT9e0uI9bfVacYFuaK/view?usp=sharing </a> [[%ATTACHURL%/Chat-transcript-20201106-091602_Programming_lab.txt][Chat-transcript-20201106-091602_Programming_lab.txt]] ---++ Lecture 9 4/11/2020 Understanding the key parameter for the sorting functions. Reading and writing text files. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect09.zip][Prog_lab_lect09.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1yOkpQNocvRf03M4CNyH3mpiYz7zehyfZ/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1yOkpQNocvRf03M4CNyH3mpiYz7zehyfZ/view?usp=sharing</a> [[%ATTACHURL%/Chat-transcript-20201104-123542_Programming_lab.txt][Chat-transcript-20201104-123542_Programming_lab.txt]] ---+++ Additional exercise Write a function that reads the four files in the books.zip file and evaluates the relative frequency of the 26 letters, ignoring the distinction between lower and capital letters. The result has to be a dictionary of dictionaries: for each letter there should be a dictionary associated in which there are the filenames of the books as keys and the relative frequency of the letter for each book. The relative frequency of a letter in a book can be evaluated as the ratio between the occurrences of that letter and the total number of letters in the book. * [[%ATTACHURL%/books.zip][books.zip]] ---++ Lecture 8 30/10/2020 Homework assignment 3 (optional). Reading and writing text files. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect08.zip][Prog_lab_lect08.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1OZY37ENpM0SXCaG2guHKBjBCKvSlCdmz/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1OZY37ENpM0SXCaG2guHKBjBCKvSlCdmz/view?usp=sharing</a> [[%ATTACHURL%/Chat-transcript-20201030-091035_Programming_lab.txt][Chat-transcript-20201030-091035_Programming_lab.txt]] ---+++ Additional exercises 1 Write a function that takes as an input a string containing a series of words separated by spaces and builds a dictionary where the keys are the last letters of the words in the string and the associated values are lists with the words ending with that letter. The lists must be ordered lexicographically.<br />For example, for the string "the only impossible journey is the one you never begin" must return {'e':['the', 'impossible', 'the', 'one'], 'y':['only', 'journey'], 's':['is'], 'u':['you'], 'r':['never'], 'n':['begin']}. 1 Write a function that takes as an input a dictionary in which each key is a string and the value is an integer and returns the ordered list of all keys with a even value.<br />For example, {'mickey mouse':12, 'pluto':3, 'minnie':7, 'goofy':4, 'donald duck':3 } -> ['mickey mouse','goofy']. 1 Write a function that takes as an input a dictionary of the type {key:integer list} and returns a new dictionary with the same keys but as a value the average of the integers in the original dictionary list. 1 Write a function that takes as input two key:list dictionaries and returns a new dictionary with the keys present in both input dictionaries and with values the list given by the merging of the two input lists, associated with the same key. 1 Write a function that takes as an input a string of words separated by spaces and builds a dictionary where the keys are the word lengths and the values are sets with the words that have exactly that length in numbers of characters. ---++ Lecture 7 28/10/2020 Dictionaries, strings and sets. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect07.zip][Prog_lab_lect07.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1G1s9xWXM9Zz9ydtxpfzvcSX2KFtOONNz/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1G1s9xWXM9Zz9ydtxpfzvcSX2KFtOONNz/view?usp=sharing</a> ---++ Lecture 6 23/10/2020 Cyclomatic complexity (aka intricacy), past homework solution (see classroom exercise zip), deleting elements from a list while visiting the list. Classroom exercise (solutions in Prog_lab_lect06.zip file): [[%SCRIPTURL{"view"}%file/ACSAI/Programming/AA2021/Programming_lab_log?filename=classroom_ex06.zip;rev=2][classroom_ex06.zip]] Code seen in class (examples and exercise solutions): [[%ATTACHURL%/Prog_lab_lect06.zip][Prog_lab_lect06.zip]] * past_hw1_1.py: solution where for each grade we count how many students are admitted * past_hw1_2.py: solution where for each grade we sum 1 for the threshold <= than grade * past_hw1_3.py: solution where for exploit that students admitted for threshold t will be admitted also for any threshold < t Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1yepMH4y8RsBX3RMiBqokQvWhje39U0W1/view?usp=sharing" target="_blank"></a><a href="https://drive.google.com/file/d/1yepMH4y8RsBX3RMiBqokQvWhje39U0W1/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1yepMH4y8RsBX3RMiBqokQvWhje39U0W1/view?usp=sharing</a> ---++ Lecture 5 21/10/2020 Timeit magic, string and list methods, map function, random, for vs while, recursion. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect05.zip][Prog_lab_lect05.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1Td7fJ4AwKr1b-TXgZSqPrLTSDcmzWgGu/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1Td7fJ4AwKr1b-TXgZSqPrLTSDcmzWgGu/view?usp=sharing</a> ---++ Lecture 4 16/10/2020 For statement, operations on strings, lists, operations on lists. Homework assignment 1. Code seen in class (examples and exercises): [[%ATTACHURL%/programming_lab_4.zip][programming_lab_4.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1gGZYCXK4d9JftcX3_fF5U2nIkWI1rEKm/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1gGZYCXK4d9JftcX3_fF5U2nIkWI1rEKm/view?usp=sharing</a> ---+++ Additional exercises For exercises with lists, if possible, write both the WITH and WITHOUT "range" version. * Write a function that gets three integers as an input d, m, a (it is assumed that a is always an odd number to avoid leap years) and returns True or False depending on whether the three numbers form a valid date in the "d/m/a" format. Ex: 30/2/2017 False, 1/1/1111 True. * Write a function that gets a list of integers as an input and returns the sum of all even numbers minus the sum of all odd numbers. * Write a function that gets as an input a string of words separated by spaces and returns a list with the lengths of words in the string. * Write a function that checks if a list is sorted in ascending order (<=) (let's suppose that the list contains sortable objects) and, in case, returns True, False otherwise. ---++ Lecture 3 14/10/2020 Comparison operators, if and for statements, lists. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect03.zip][Prog_lab_lect03.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1COb6LzKCzUfRJboUbxEzpFZ_MwkA0EAA/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1COb6LzKCzUfRJboUbxEzpFZ_MwkA0EAA/view?usp=sharing</a> ---++ Lecture 2 9/10/2020 Variable, names, integers, floats, strings, functions. Some exercises. Code seen in class (examples and exercises): [[%ATTACHURL%/Prog_lab_lect02.zip][Prog_lab_lect02.zip]] Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1oZzVo71_P5aJ3sUHRecyvACYw9t05P0v/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1oZzVo71_P5aJ3sUHRecyvACYw9t05P0v/view?usp=sharing</a> ---++ Lecture 1 7/10/2020 Course introduction, computer science to solve problems with computing, terminal and GUI (Graphical User Interface), raw text files and binary files, binary and hexadecimal numeric representation, ASCII and UTF-8 encoding, python interpreter and IDLE, arithmetic expressions, difference between interactive mode and script mode. Lecture recording (only accessible to registered students): <a href="https://drive.google.com/file/d/1QvnYhQEHP0IKnft5KricZXu8LFYwDxwY/view?usp=sharing" target="_blank">https://drive.google.com/file/d/1QvnYhQEHP0IKnft5KricZXu8LFYwDxwY/view?usp=sharing</a> ---+++ Additional exercises * Write a python script that takes in input a float number, calculates its cube root and prints it on screen * Write a python script that takes a person name (name) and the name of a fruit (fruit) and prints: "(name) loves to eat (fruit)". * Write a python script that takes in input two floats a and b and calculates and prints c, corresponding to the hypotenuse of the rectangle triangle having for cathets two sides of length a and b, respectively * Write a python script that takes in input three floats a, b, c, and calculates and prints the expression: <img alt="CodeCogsEqn.gif" height="41" src="%PUBURL%/Programmazione1/AA19_20/DiarioDelleEsercitazioni/CodeCogsEqn.gif" title="CodeCogsEqn.gif" width="176" /> * Write a python script that takes three floats a, b, c, and calculates and prints the two x roots of the equation:<img alt="CodeCogsEqn1.gif" height="18" src="%PUBURL%/Programmazione1/AA19_20/DiarioDelleEsercitazioni/CodeCogsEqn1.gif" title="CodeCogsEqn1.gif" width="130" /> ---++ Lecture 0: getting started. [[getting_started_python][Getting started guide.]] -- %USERSIG{AngeloSpognardi - 2020-09-28}% ---++ Comments %COMMENT% * [[%ATTACHURL%/lab6.zip][lab6.zip]]: lab6.zip *
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Laurea Triennale ...
Laurea Triennale
Algebra
Algoritmi
Introduzione agli algoritmi
Algoritmi 1
Algoritmi 2
Algoritmi per la
visualizzazione
Architetture
Prog. sist. digitali
Architetture 2
Basi di Dati
Basi di Dati 1 Inf.
Basi di Dati 1 T.I.
Basi di Dati (I modulo, A-L)
Basi di Dati (I modulo, M-Z)
Basi di Dati 2
Calcolo
Calcolo differenziale
Calcolo integrale
Calcolo delle Probabilitą
Metodi mat. per l'inf. (ex. Logica)
canale AD
canale PZ
Programmazione
Fond. di Programmazione
Metodologie di Programmazione
Prog. di sistemi multicore
Programmazione 2
AD
EO
PZ
Esercitazioni Prog. 2
Lab. Prog. AD
Lab. Prog. EO
Lab. Prog. 2
Prog. a Oggetti
Reti
Arch. di internet
Lab. di prog. di rete
Programmazione Web
Reti di elaboratori
Sistemi operativi
Sistemi Operativi (12 CFU)
Anni precedenti
Sistemi operativi 1
Sistemi operativi 2
Lab. SO 1
Lab. SO 2
Altri corsi
Automi, Calcolabilitą
e Complessitą
Apprendimento Automatico
Economia Aziendale
Elaborazione Immagini
Fisica 2
Grafica 3D
Informatica Giuridica
Laboratorio di Sistemi Interattivi
Linguaggi di Programmazione 3° anno Matematica
Linguaggi e Compilatori
Sistemi Informativi
Tecniche di Sicurezza dei Sistemi
ACSAI ...
ACSAI
Computer Architectures 1
Programming
Laurea Magistrale ...
Laurea Magistrale
Percorsi di studio
Corsi
Algoritmi Avanzati
Algoritmica
Algoritmi e Strutture Dati
Algoritmi per le reti
Architetture degli elaboratori 3
Architetture avanzate e parallele
Autonomous Networking
Big Data Computing
Business Intelligence
Calcolo Intensivo
Complessitą
Computer Systems and Programming
Concurrent Systems
Crittografia
Elaborazione del Linguaggio Naturale
Estrazione inf. dal web
Fisica 3
Gamification Lab
Information Systems
Ingegneria degli Algoritmi
Interazione Multi Modale
Metodi Formali per il Software
Methods in Computer Science Education: Analysis
Methods in Computer Science Education: Design
Prestazioni dei Sistemi di Rete
Prog. avanzata
Internet of Things
Sistemi Centrali
Reti Wireless
Sistemi Biometrici
Sistemi Distribuiti
Sistemi Informativi Geografici
Sistemi operativi 3
Tecniche di Sicurezza basate sui Linguaggi
Teoria della
Dimostrazione
Verifica del software
Visione artificiale
Attivitą complementari
Biologia Computazionale
Design and development of embedded systems for the Internet of Things
Lego Lab
Logic Programming
Pietre miliari della scienza
Prog. di processori multicore
Sistemi per l'interazione locale e remota
Laboratorio di Cyber-Security
Verifica e Validazione di Software Embedded
Altri Webs ...
Altri Webs
Dottorandi
Commissioni
Comm. Didattica
Comm. Didattica_r
Comm. Dottorato
Comm. Erasmus
Comm. Finanziamenti
Comm. Scientifica
Comm Scientifica_r
Corsi esterni
Sistemi Operativi (Matematica)
Perl e Bioperl
ECDL
Fondamenti 1
(NETTUNO)
Tecniche della Programmazione 1° modulo
(NETTUNO)
Seminars in Artificial Intelligence and Robotics: Natural Language Processing
Informatica generale
Primo canale
Secondo canale
II canale A.A. 10-11
Informatica
Informatica per Statistica
Laboratorio di Strumentazione Elettronica e Informatica
Progetti
Nemo
Quis
Remus
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