Introduction

Year:
Semester:
Credits: 3
ECTS: 7,5
Hours/Week: 3h
Lectures: João Correia Lopes (JCL)

Aims

Give the students a global view of the different paradigms with the emphasis on concepts, implementation and suitability to solve the different classes of problems, leading to the understanding of the trade-offs in language design and the advantages and disadvantages of the main languages.

Contents

Introduction and the role of programming languages. Functions, recursion, lists and Lisp. Compilers and syntax,lambda-calculus and denotational semantics. The Algol family and ML. Type systems and type inference. Scope, functions and memory management. Data abstraction and modularity. Concepts in Object-oriented languages, Simula and Smalltalk. Objects and runtime execution in C++. Portability and security in Java. Concurrency and distributed programming. Logic programing and Prolog.

Main Bibliography

Other Bibliography

Teaching Procedures

Lectures include theoretical presentation of the course subjects, discussions and examples of computer programs. Outside classes practical work will take place.

Software

Evaluation Type

Continuous Evaluation with Final Exam.

Evaluation Components

Practical work with 3 assignments and Final Exam.

Frequency Attainment

Minimum required to pass this course: 50% practical assessment, 40% in each practical assignment.

Final Classification

40% * Practical assignments + 60% * Exam.

Special Works and Tests

There are no special work. The practical work is required for all enrolled students and must be submitted before the deadlines advertised.

Special Evaluation (Working Students, etc)

Students taking exams under special regimes are expected to previously submit the practical work required for this course as ordinary students.

Classification Improvement

Students may improve the mark obtained in the practical component in the subject's next edition. Exam marks may be improved in the resit exam period.
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