ICS 313 Fundamentals of Programming Languages Spring Semester 2004 - 2005 (042) King Fahd University...
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ICS 313Fundamentals of Programming Languages
Spring Semester 2004 - 2005 (042)
King Fahd University of Petroleum & Minerals
Information & Computer Science Department
Spring Semester 2004 - 2005 (042)
King Fahd University of Petroleum & Minerals
Information & Computer Science Department
Section 04, 10:00-11:15am UT, 24:250
• Instructor: Dr. Wasfi Al-Khatib الخطيب وصفي• Office: 22: 133-1• Office Hours: UT: 9:00 - 9:50am and 2:30 – 3:30pm
M: 3:00 - 4:00pm Or by appointment
• Phone: 1715• email: [email protected]• WebCT Page: http://webcourses.kfupm.edu.sa
Catalogue Description
• Concepts of Programming Languages: Syntax and semantics, Data types, Control structures, Subprograms, Exception handling, Run-time storage management. Programming paradigms: Imperative, functional, logical, object-oriented and concurrent programming
Course Objectives
• Outline the history and describe the rationale of different programming languages.
• Describe grammar and syntax specifications and analyze their implementations.
• Describe, analyze and use the various mechanisms in procedural languages; e g. data types, scope, control structures subprograms, etc.
• Describe and use the major programming paradigms: Imperative, Functional, Logical and Object-Oriented.
• Explain and describe how concurrency and exception handling are used in programming Languages
Text Book
• Concepts of Programming Languages, By. R. Sebesta, 6th Ed, Addison Wesley, 2004.
Course Outline1. Preliminaries2. Evolution of the Major Programming languages3. Describing Syntax and Semantics4. Imperative Programming (Introduction to C)5. Functional Programming6. Logic Programming7. Names, Bindings, Type Checking and Scopes8. Data Types9. Expressions and the Assignment Statements10.Statement-Level Control Structure11.Subprograms12.Implementing Subprograms13.Abstract Data Types
Grading Policy
[Programming] Assignments 20%
Pop Quizzes 10%
Major Exam #1 10%
Major Exam #2 15%
Major Exam #3 20%
Final Exam 25%
Important DatesTask Date [and Time] Location Weight
Help Session I TBA TBA N/A
Major Exam I Saturday March 5, 2005 6:30 – 8:00pm TBA 10%
Help Session II TBA TBA N/A
Major Exam II Saturday March 26, 2005 6:30 – 8:00pm TBA 15%
Help Session III TBA TBA N/A
Major Exam III Saturday April 30, 2005 6:30 – 8:00pm TBA 20%
Help Session IV TBA TBA N/A
Final Exam TBA TBA 25%
Attendance Policy
• Attendance will be checked each class. • Unexcused Absences Policies:
– The first THREE absences are FREE of charge.– The fourth absence is worth – 3 points of your overall
score (out of 100). – Each subsequent absence, up to the sixth absence, is
worth -0.75 of your overall score.– The seventh absence will result in an automatic DN grade.– An unexcused absence can become an excused absence
ONLY by an official letter from the Dean of Student’s office.
General Rules
• Students are expected to be courteous toward the instructor and their classmates throughout the duration of this course.
• All cell phones and pagers must be turned off during class and exams.
• Assignments are due at the beginning of class. No late assignment will be accepted. Discussing questions among your classmates is highly encouraged. Copying solutions from each other is NOT permitted and will be considered CHEATING and will be dealt with accordingly.
Pop Quizzes
• 10 minute
• Each covers material given during the current lecture.
• They require you to be attentive during class time as you will be subject at any point in time to answer a pop-quiz.
IMPORTANT RULE
• ZERO-TOLERANCE for CHEATING.
Exam Policies
• 24-Hour Policy: One has 24 hours to object to the score of an assignment, a pop quiz, or a major exam from the end of the class time in which the graded assignment/quiz/exam papers have been distributed. If for some reason you cannot contact me in person within this period, send me an email requesting an appointment. The email should be sent within the 24-hour time period.
• Exams, assignments and pop-quizzes are generally CHALLENGING.
1. Preliminaries
Reasons to study concepts of PLs
• Increased capacity to express programming concepts
• Improved background for choosing appropriate languages
• Increased ability to learn new languages• Understanding the significance of
implementation• Increased ability to design new languages• Overall advancement of computing
Programming Domains
• Scientific applications
• Business applications
• Artificial intelligence
• Systems programming
• Scripting languages
• Special purpose languages
What is a Programming Language
• A programming language is
Programming Language Definition
• Language Syntax– Grammar and punctuation.– Superset of legal languages.
• Language Semantics– What the syntax means.– Restricts syntactically correct programs.
Computer Program Development
Algorithm
Syntax
Computer Program
Problem
Humanbrains
Semantics
Translation
Algorithm
Syntax
Why Take This Course?
• In order to graduate1. True
2. False
3. Not necessarily
4. None of the above
• Learning a new language depends on how many languages you learn
1. True
2. False
3. Not necessarily
4. None of the above
Programming Paradigms
• Imperative – Program = Algorithms + Data
• Functional– Program = Function o Function
• Object-Oriented– Program = Objects + Messages
• Logic– Program = Facts + Rules
• Special-purpose
Imperative Programming
• Oldest style of Programming
• Algorithm is expressed as a sequence of instructions, e.g. assignment, looping, …
• For example, assembly, Fortran, Algol, Pascal, and C.
Example in C
• Finding the greatest common divisor between two elements#include<stdio.h> void main() { int x,y; printf("enter any two numbers"); scanf("%d %d",&x,&y); if(x<0)x=-x; if(y<0)y=-y; while(x!=y) x>y?(x=x-y):(y=y-x); printf("gcd of the numbers is %d",x); }
Functional Programming
• Comes from traditional Mathematics.• Description of computation is based on the
evaluation of functions or the application of functions to known values.
• No notion of variables or assignment to variables!
• Loops are replaced by recursion!• For example Lisp, Scheme, ML, Haskell.
Example in Scheme
• Finding the greatest common divisor between two elements
(define (gcd u v) (if (= v 0) u (gcd v (remainder u v))))
Object Oriented Programming
• Based on class and inheritance
• Instead of applying global functions to variables, “methods” associated with instances are invoked (message passing)
• For example, C++, Java, Smalltalk, …
Example in C++
// gcd.cpp - long integer greatest common divisor class BadGcdArgumentsException{ };
long gcd(long a,long b) // Euclidean algorithm - returns 0 // if a and b are both 0.
{ long r; // First make sure everything is >= 0. if(a < 0) a = -a; if(b < 0) b = -b; // If both arguments are 0, throw an exception. if(a == 0 && b == 0) throw BadGcdArgumentsException(); // Otherwise the gcd of 0 and x is x. if(a == 0) return(b); if(b == 0) return(a); // Keep dividing until we get a zero remainder. The last // nonzero remainder is the gcd. while(b > 0) { r = a % b; a = b; b = r; } return(a); }
• Finding the greatest common divisor between two elements
Logic Programming
• Like functional programming, but through formal logic.
• A program is a set of predicates, i.e. rules governing the problem.
• Either the truthfulness of a given formula or the deduction of new formulae results from running a logic program.
• For example, prolog.
Example in Prolog
• Finding the greatest common divisor between two elements
gcd(U,V,U) :- V=0.gcd(U,V,X) :- V>0, Y is U mod V, gcd(V,Y,X).
Special-Purpose Languages
• Shell, Awk, Perl, Python– System administration– Program configuration
• Postscript, Tex, RTF– Text and document setting
• HTML, XML– Markup Language
Example in Perl• Make up one pdf file from separate postscript files.
# This script takes as input the desired output filename (without the extension) and the # number of input files. It is assumed that the input filenames are of the form 1.ps 2.ps ... # 99.ps and so on and so forth. It then combines all postscript files into one file with a .ps # extension. Finally, it will generate the pdf version of the postscript file.
$Docs_Dir = 'C:\\Program Files\\ScannerU\\';$OutputFile = $ARGV[0];$NumOfInputs = $ARGV[1];
$FileList = "";for ($i = 1; $i <= $NumOfInputs; $i = $i + 1) { $FileList = $FileList . $i . ".ps ";}chdir($Docs_Dir);system("gswin32c -dNOPAUSE -sDEVICE=pswrite -dBATCH -sOutputFile=" . $OutputFile . ".ps " . $FileList);system("ps2pdf -r720 " . $OutputFile . ".ps " . $OutputFile . ".pdf ");
Language Evaluation Criteria• Readability
– The most important criteria– Factors
• Overall simplicity– Too many features is bad– Multiplicity of features is bad
• Orthogonality– Makes the language easy to learn and read– Meaning is context independent
• Control statements• Data type and structures• Syntax considerations
• Writability– Factors
• Simplicity and orthogonality• Support for abstraction• Expressivity
Language Evaluation Criteria (cont.)• Reliability
– Factors• Type checking• Exception handling• Aliasing• Readability and writability
• Cost– Categories
• Programmer training• Software creation• Compilation• Execution• Compiler cost• Poor reliability• Maintenance
• Others: portability, generality, well-definedness
Language Design Trade-offs
• Reliability versus cost of execution
• Writability versus readability
• Flexibility versus safety
Layered View of a Computer
Implementation Methods
• Compilation• Interpretation• Hybrid Implementation Systems
Compilation
• Translate high-level program to machine code
• Slow translation• Fast execution
Interpretation
• No translation• Slow execution• Usually found in
functional and logic-based programming languages.
Hybrid Implementation Systems
• Small translation cost• Medium execution speed
Programming Environments• The collection of tools used in software
development
• UNIX– An old operating system and tool collection
• Borland JBuilder– A PC environment for Java
• Smalltalk– A language processor/environment
• Microsoft Visual C++– A large, complex visual environment