|CREDITS||12 credits during the 2nd year of 8759 Computer Science (L-31) GENOVA|
|SCIENTIFIC DISCIPLINARY SECTOR||INF/01|
|TEACHING LOCATION||GENOVA (Computer Science)|
Principles of programming languages: syntax, static and dynamic semantics, and intepreters.
Functional programming: OCaml.
Object-oriented programming: Java.
students will extend their skills acquired in the introductory courses on programming in the small, and
learn to develop applications starting from informal requirements and use integrated development environments
Students will acquire the following skills:
Principles of programming languages: overview, programming paradigms; syntax, static and dynamic semantics, development of a semantics-driven interpreter.
Object-oriented paradigm (the Java programming language): objects, classes, inheritance and dynamic binding, casting, overloading, exceptions. Advanced features: generic classes and methods, outline on nested classes and lambda-expressions. Practical uses of the standard API, iterator and visitor design pattern.
Functional paradigm (the OCaml programming language): higher-order and polymorphic functions, polymorphic type inference, currying, functions on lists, user-defined types.
-Davide Ancona, Giovanni Lagorio, Elena Zucca. Linguaggi di Programmazione. Città Studi Edizioni.
-Ken Arnold, James Gosling, and David Holmes. The Java Programming Language, Fourth Edition, Prentice Hall.
-Emmanuel Chailloux, Pascal Manoury, and Bruno Pagano. Developing Applications With Objective Caml.
-Josh Bloch. Effective Java (second edition). Prentice Hall. (advanced, optional)
-Erich Gamma, Richard Helm, Ralph Johnson, John Vlissides. Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley. (advanced, optional)
Office hours: Appointment by email
DAVIDE ANCONA (President)
Prerequisites: basic notions of imperative programming, and algorithms and data structures.
All class schedules are posted on the EasyAcademy portal.
Written and oral test. Final software project.
Use of the basic concepts of the object-oriented paradigm for programming in the small: development of a software project, Java comprehension and programming exercises assigned at the written and oral (if needed) test.
Comprehension, use and implementation of the iterator and visitor design patterns: development of a software project, Java programming exercises assigned at the written and oral (if needed) test.
Use of the basic concepts of the functional paradigm for programming in the small: OCaml programming exercises assigned at the written and oral (if needed) test.
Comprehension of the specification of a programming language and its underlying implementation issues: development of a software project, exercises on regular expressions and context free grammars assigned at the written and oral (if needed) test.
Core knowledge initially required includes imperative programming and data structures and algorithms.