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Gain a deeper understanding of software and learn to be a better programmer with this unique book of challenging code exercises.
° Read code, understand code, and IMPROVE code
° Teaches readers to emulate the processor in their minds -- a supremely useful skill no matter what the programming language
° Continuing the tradition of "programmer self-help" books from Addison-Wesley
Finding bugs and understanding what is really happening within code is a lostart. Only truly good programmers are able to emulate the processor in theirown mind (e.g. read the code and understand how it might work without goingto the trouble of running it). Adam Barr wonders how programmers aresupposed to build better programs if they do not know what is going on incode. The true pursuit of most software programmers is not creatingapplications from scratch; the reality of their day-to-day work is that theyusually have to deal with inherited code. This code, likely written by someoneelse, must be optimized, tweaked, and improved. Therefore, programmers whoare adept at reading, understanding, and improving code are in hot demand.These skills are drawn to the forefront with the help of this new book.This book is language-independent. The author borrows from his extensiveexperience at Microsoft Corporation and as an independent consultant to showhow programming skills can be honed by going through the exercise of findingthe bugs in existing code. By teaching programmers how to troubleshoot, it isthe author's belief that programmers will learn how to think like a programmer,and ultimately produce better software in a more timely fashion.
Java Perspective: Cocoa-Java Bridge
Using Bugs To Bring Developers and Testers Closer Together
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Find the Bug in this Java Program
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Preface.
1. Bug Classification.
2. Tips on Walking Through Code.
Split the Code into Sections with Goals.
Identify the Sections in the Code.
Identify Goals for Each Section.
Comments.
Identify the Meaning of Each Variable.
Variable Names.
Look at the Usage of Each Variable.
Restricted Variables.
Invariant Conditions.
Track Changes to Restricted Variables.
Look for Known Gotchas.
Loop Counters.
Same Expression on Left- and Right-Hand Side of Assignment.
Check Paired Operations.
Function Calls.
Return Values.
Code That Is Similar to an Existing Error.
Choose Inputs for Walkthroughs.
Code Coverage.
Empty Input.
Trivial Input.
Already Solved Input.
Error Input.
Loops.
Random Numbers.
Walk Through Each Section.
Track Variables.
Code Layout.
Loops.
Summary.
3. C.
Brief Summary of C.
Data Types and Variables.
Strings.
Pointers.
Structures.
Conditionals.
Loops.
Functions.
Selection Sort.
Linked List Insertion.
Linked List Removal.
Memory Copy.
Parse a String into Substrings.
Memory Allocator.
Memory Free.
Recursive Word Reversal.
Calculate All Possible Routes.
Kanji Backspace.
4. Python.
Brief Summary of Python.
Data Types and Variables.
Strings.
Lists and Tuples.
Dictionaries.
Conditionals.
Loops.
Functions.
Classes.
Exceptions.
Importing Other Code.
Output.
Is a Number Prime?
Find a Substring.
Alphabetize Words.
Encode Strings Using a Character Map.
Print the Month and Day.
Go Fish, Part I: Draw a Card from a Deck.
Go Fish, Part II: Ask if Another Hand Has a Card.
Go Fish, Part III: Play a Full Game.
Parse Numbers Written in English.
Assign Gift Givers.
5. Java.
Brief Summary of Java.
Data Types and Variables.
Strings (and Objects).
Arrays.
Conditionals.
Loops.
Classes.
Exceptions.
Importing Other Code.
Command-Line Applications and Applets.
Is a Year a Leap Year?
Convert a Number to Text.
Draw a Triangle on the Screen, Part I.
Draw a Triangle on the Screen, Part II.
Reverse a Linked List.
Check if a List Has a Loop .
Quicksort.
Play the Game Pong, Part I.
Play the Game Pong, Part II.
Compute Bowling Scores.
6. Perl.
Brief Summary of Perl.
Data Types and Variables.
Strings.
Lists.
Hashes.
Conditionals.
Loops.
Subroutines.
Scalar Versus List Context.
File Handles.
Regular Expressions.
Output.
Command-Line Parameters.
Sort a File by Line Length.
Print the Prime Factors of a Number.
Tab Expansion.
Simple Database.
Find Repeating Part of a Fraction.
Expand Indented File List to Full Paths.
Sort All the Files in a Directory Tree.
Calculate Student Test Averages.
Merge Sort of Multiple Files.
Play the Game Mastermind.
7. x86 Assembly Language.
Brief Summary of x86 Assembly Language.
Data Types and Variables.
Arithmetic Operations.
Flags, Conditionals, and Jumps.
Loops.
Procedures.
Output.
Make Change for a Dollar.
Multiply Two Numbers Using Shifts.
Join Strings with a Delimiter.
Calculate Fibonacci Numbers.
Check if Two Words Are Anagrams.
Convert a 64-Bit Number to a Decimal String.
Sum a Signed Array.
Play the Simulation Game Life.
Check if Parentheses Match in Source Code.
Radix Exchange Sort.
Appendix A. Classification of Bugs.
Syntax Versus Semantics.
Classification Used in This Book.
A—Algorithm.
A.off-by-one.
A.logic.
A.validation.
A.performance.
D—Data.
D.index.
D.limit.
D.number.
D.memory.
F—Forgotten.
F.init.
F.missing.
F.location.
B—Blunder.
B.variable.
B.expression.
B.language.
Summary.
Appendix B. Index of Bugs by Type.
Appendix C. References.
Classification of Bugs.
General Sources for Bug Types.
C.
Python.
Java.
Perl.
x86 Assembly Language.
Index.