Syllabus for UCLA Computer Science 131
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Texts
Required text
Topics
Language design issues
- efficiency, safety, convenience
- programming categories
- procedural
- functional
- object-oriented
- declarative
- scripting
- scaling problems
- history and evolution of programming languages
functions
- motivation
- recursion and tail recursion
- activation records
- functions as data
- closures
- debugging via divide and conquer
- persistence
- amortized efficiency
syntax
names
- names, binding, visibility, scope, lifetime
- static vs dynamic scope
types
- type, values, operations
- type checking and conversion
- elementary and structured types
- explicit vs implicit storage management
- stack vs heap
control
- expression evaluation
- rewrite rules
- pattern matching, unification, and backtracking
- structured programs
objects
- object-oriented design
- encapsulation and data abstraction
- separating behavior from implementation
- classes and class hierarchies
- inheritance
- polymorphism
- collections and iteration
exceptions
- design issues
- when not to use exceptions
- case study: exceptions in Java
concurrency
- competition and cooperation
- synchronization
- case study: multithreading in Java
semantics
- lambda calculus
- program verification
Language paradigms
Java
- primitive and reference types
- classes and instances
- variables, methods, constructors, and overloading
- inheritance, abstract classes, final classes, and interfaces
- compilation units, packages and visibility
- the Object class
- Java class library basics
- collections
- exceptions
- threads
OCaml
- type inference and annotations
- pattern matching
- polymorphism
- higher-order functions and currying
- type constructors
Prolog
- propositional logic
- predicate calculus: instantiation, atoms, variables, structures
- clausal form and Horn clauses
- the resolution principle
- depth-first backward chaining with backtracking
- debugging
- memory management
- the closed world assumption
Python
- the Python shell
- scripting
- functional and object-oriented programming
- modules and packages
- Python library basics
- extending and embedding
Scheme
- syntax
- lists
- comparison (e.g., eq? vs equal?)
- syntactic forms: core and extension
- let and lambda
- tail recursion
- continuations
© 2003, 2004–2006, 2010–2011 Paul Eggert.
See copying rules.
$Id: syllabus.html,v 1.18 2015/09/23 17:08:24 eggert Exp $