emaballarin / advanced_programming_2019-20

Clone of the original, with: some additions; exercises; eventual partial reformatting; updated Travis config

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Advanced Programming Build Status

SISSA webpage

The course aims to provide advanced knowledge of both theoretical and practical programming in C++11 and Python3, with particular regard to the principles of object-oriented programming and best practices of software development.

Syllabus:

  • Introduction to C++11. You will learn the logic and the basics of C++11, the built-in data types and how to effectively use them. Best practices in programming will be addressed.
  • Object orientation in C++11. The principles of Object-Oriented programming will be presented with particular attention to their implementations in C++11. Some of the most important Design Patterns will be discussed.
  • Advanced features of C++14/17. Some of the new features of standard C++/14/17 will be introduced and explained.
  • Python3. After a recap of the basics of Python3, you will learn how to program in object-oriented fashion in the Python3 programming language.
  • How to combine the two languages. Several methods to combine the two languages will be presented.

Prerequisites

  • Familiarity with linux terminal and a text editor (e.g., emacs, vim)
  • A bit of knowledge of git is helpful

References

  • Programming: Principles and Practice using C++ (Second Edition), Bjarne Stroustrup, Addison-Wesley 2014, ISBN 978-0-321-99278-9

  • The C++ Programming Language, Bjarne Stroustrup, Addison-Wesley 2013, ISBN 978-0321563842

  • Fluent Pyhton. Clear, concise, and effective programming, Luciano Ramalho, O'Reilly 2015, ISBN 978-1-491-946000-8

Locations

  • Lecture room is 128-129 in the main SISSA building in via Bonomea 265.

How to get the material

Non-experienced git users

  • Very first time (N==0)
    • open a terminal
    • cd in a suitable folder
    • git clone https://github.com/asartori86/advanced_programming_2019-20.git
    • cd advanced-programming_2019-20
    • take a look at software carpentry lecture and pro git book
  • N > 0
    • open a terminal
    • cd to the folder advanced-programming_2019-20
    • git pull --rebase origin master
  • if(conflict)
    • ask

Experienced git users

  • Very first time (N==0)
    • fork the repository
    • clone either your fork or this repository
    • add the other remote
  • N >= 0
    • use branches
    • rebase on the correct master branch
    • merge the branches in your local master
    • push on the master of your fork
  • if(conflict)
    • if(rebase)
      • git add
      • git rebase --continue
      • if(bigger mess)
        • git rebase --abort
    • if(merge)
      • git add
      • git commit
      • git merge --continue
      • if(bigger mess)
        • git merge --abort

About

Clone of the original, with: some additions; exercises; eventual partial reformatting; updated Travis config


Languages

Language:Jupyter Notebook 55.8%Language:C++ 31.7%Language:TeX 5.2%Language:Makefile 4.9%Language:Python 0.9%Language:C 0.9%Language:Assembly 0.5%Language:Fortran 0.1%