Java程序设计

前言

　　THE BASis FOR EDucwrlON IN THE last millennium was "reading， writing， and　　arithmetic;" now it is reading， writing， and computing. Learning to program is an　　essential part of the education of every student in the sciences and engineering.　　Beyond direct applications， it is the first step in understanding the nature of　　computer sciences undeniable impact on the modern world. This book aims to teach　　programming to those who need or want to learn it， in a scientific context.　　Our primary goal is to empower students by supplying the experience and　　basic tools necessary to use computation effectiVely. Our approach is to teach　　students that writing a program is a natural， satisfying， and creatiVe experience (not　　an onerous task reserved for experts). We progressiVely introduce essential　　concepts， embrace classic applications from applied mathematics and the sciences to　　illustrate the concepts， and provide opportunities for students to write programs　　to solve engaging problems.　　We use the Java programming language for all of the programs in this book-　　we refer to Java after programming in the title to emphasize the idea that the book　　is about fundamental concepts in programming， not Java per sc. This book teaches　　basic skills for computational problem--solVing that are applicable in many modern　　computing environments， and is a self-contained treatment intended for people　　with no previous experience in programming.　　This book is an interdisciplinary approach to the traditional CSI curriculum，　　where we highlight the role of computing in other disciplines， from materials　　science to genomics to astrophysics to network systems. This approach emphasizes　　for students the essential idea that mathematics， science， engineering， and　　computing are intertwined in the modern world. While it is a CSI textbook designed　　for any first-year college student interested in mathematics， science， or　　engineering (including computer science)， the book also can be used for self--study or as a　　supplement in a course that integrates programming with another field.　　III　　　　Coverage The book is organized around four stages of learning to program：　　babe rhe book is organized around four stages of learning to program：　　ba. 1　　sic elements， functions， object-oriented programming， and algorithms (with data　　　　\　　structures). We provide the basic information readers need to build confidence in　　.. 1 1 1　　writing programs at each level before moving to the next level. An essential feature　　b programs at each level before moving to the next level. An essential feature　　o f our approach is to use example programs that solVe intriguing problems，　　sup.，..　　ported with exercises ranging from self-study drills to challenging problems that　　call for creative solutions.　　Basic elements include variables， assignment statements， built-in types of　　data， flow of control (conditionals and loops)， arrays， and input/output， including　　graphics and sound.　　Functions and modules are the students first exposure to modular　　program1. TI 11r. 1 ...11.lr. ..，r　　ining We build UDon familiarity with mathematical functions to introduce lava　　b. aam build upon familiarity with mathematical functions to introduce Java　　.， 1 1. 1.，..　　static methods， and then consider the implications of programming with　　func..， 1.，.，.　　nons， including libraries of functions and recursion. We stress the fundamental　　idea of diViding a program into comDonents that can be indeDendentlv debugged，　　b a program into components that can be independently debugged，　　.. 1 1　　. 1 1 1　　maintained， and reused.　　Oblect-oriented Droqramminq is our introduction to data abstraction. We　　emject-oriented programming is our introduction to data abstraction. We　　emphasize the concepts of a data type (a set of values and a set of operations on them)　　and an obiect (an entity that holds a data-type value) and their implementation　　)ect (an entity that holds a data-type value) and their implementation　　. X， 1 1. T T 1 1， 1. 1　　using lavas class mechanism. We teach students how to use， create， and design data　　b java s class mechanism. We teach students how to use， create， and design data　　.　　types. Modularity， encapsulation， and other modern programming paradigms are　　the central concepts of this stage.　　Algorithms and data structures combine these modern Drogramming　　Darao programming　　paradigms with classic methods of organizing and processing data that remain　　effec.　　tlve for modern applications. We provide an introduction to classical algorithms　　pplications. We provide an introduction to classical algorithms　　for sorting and searching as well as fundamental data structures (including stacks，　　o b as well as fundamental data structures (including stacks，　　queues， and symbol tables) and their application， emphasizing the use of the　　scientific method to understand performance characteristics of implementations.　　ADDlications in science and engineering are a key feature of the text. We　　motiPPlications in science and engineering are a key feature of the text. We　　mott，. 1，....　　vate each programming concept that we address by examining its impact on　　spe.　　cific applications. We draw examples from applied mathematics， the physical and　　biological sciences， and computer science itself， and include simulation of physical　　.ical sciences， and computer science itself， and include simulation of physical　　.， 1，.，....　　. 1 1 1 1. 1.. 1 1..　　systems， numerical methods， data visualization， sound synthesis， image　　process.　　lug， financial simulation， and information technology. Specific examples include a　　.，　　treatment in the first chapter of Markov chains for web page ranks and case　　studs page ranks and case　　stud.， 1 1.， 1　　ies that address the percolation problem， N-body simulation， and the small-world　　.　　IV　　　　phenomenon. These applications are an integral part of the text. They engage　　students in the material， illustrate the importance of the programming concepts， and　　provide persuasive evidence of the critical role played by computation in modern　　. 1..　　science and enZineering　　bineering.　　Our primary goal is to teach the specific mechanisms and skills that are　　needed to develop effectiVe solutions to any programming problem. We work with　　comp effectiVe solutions to any programming problem. We work with　　complete Java programs and encourage readers to use them. We focus on programming　　by indiViduals， not library programming or programming in the large (which we　　treat brieny in an appendix).　　] in an appendix).　　Use in the Curriculum This book is intended for a first-year college course　　I b　　. 1，...，　　aimed at teaching novices to Drogram in the context of scientific applications.　　b novices to program in the context of scientific applications.　　Taught from this book， prospective maiors in any area of science and　　engineer.ilt from this book， prospective majors in any area of science and　　engineer.. 11 1.　　lug will learn to program in a familiar context. Any student completing a course　　based on this book will be well--prepared to apply their skills in later courses in　　science and engineering and to recognize when further education in comDuter science　　.ineering and to recognize when further education in computer science　　might be beneficial.　　Prospective computer science majors， in particular， can benetit from learning　　pective computer science majors， in particular， can benefit from learning　　.　　to program in the context of scientific applications. A computer scientist needs the　　same basic background in the scientific method and the same exDosure to the role　　.found in the scientific method and the same exposure to the role　　o f computation in science as does a biologist， an engineer， or a physicist.　　Indeed， our interdisciplinary approach enables colleges and uniVersities to　　teach prospectiVe computer science majors and prospective majors in other fields　　o f science and engineering in the same course. We cover the material Drescribed by　　.ineering in the same course. We cover the material prescribed by　　CSI， but our focus on applications brings life to the concepts and motivates　　students to learn them. Our interdisciplinary approach exposes students to problems　　. 1. or 1..，. 1 1. 1. 1 1.　　In many different disciDlines， helping them to more wisely choose a major.　　J pnnes， helping them to more wisely choose a major.　　Whatever the specific mechanism， the use of this book is best positioned early　　..，　　in the curriculum. First， this positioning allows us to leverage familiar material　　in high school mathematics and science. Second， students who learn to program　　.if school mathematics and science. Second， students who learn to program　　early in their coheRe curriculum will then be able to use comDuters more effectiVely　　j D puters more effectiVely　　when movinZ on to courses in their SDecialtv Like reading and writing　　Drogramb pecialty. Like reading and writing，　　program... 1. 1. 1 1　　mlnR is certain to be an essential skill for any scientist or enZineer. Students who　　o is certain to be an essential skill for any scientist or engineer. Students who　　have grasDed the conceDts in this book will continually develoD that skill through a　　hi asped the concepts in this book will continually develop that skill through a　　lifetime， reaping the benefits of exploiting computation to solVe or to better　　understand the problems and projects that arise in their chosen field.　　v　　　　Prerequisites This book is meant to be suitable for typical science and　　engilulsltes This book is meant to be suitable for typical science and　　engi.，.，.　　neerlnR students in their nrst year of coheRe. That is， we do not exDect DreDaration　　b .indents in their first year of college. That is， we do not expect preparation　　beyond what is typically required for other entry-level science and mathematics　　courses.　　Mathematical maturity is important. While we do not dwell on mathematical　　may is important. While we do not dwell on mathematical　　ma. 1　　tenal， we do refer to the mathematics curriculum that students have taken in high　　school， including algebra， geometry， and trigonometry. Most students in our target　　audience (those intending to major in the sciences and engineering) automatically　　，.　　1.　　meet these requirements. Indeed， we take advantage of their familiarity with the　　basic curriculum to introduce basic programming concepts.　　Scientihc curiosity is also an essential ingredient. Science and engineering students　　ilo curiosity is also an essential ingredient. Science and engineering students　　bring with them a sense of fascination in the ability of scientinc inauiry to helD　　exs with them a sense of fascination in the ability of scientific inquiry to help　　explain what goes on in nature. We leverage this predilection with examples of simple　　1 1， 1 1　　-l 1 1 1 1 1 1 1 T　　programs that speak volumes about the natural world. We do not assume any　　specinc knowledge beyond that provided by typical high school courses in　　mathemato Jond that provided by typical high school courses in　　mathemat. 1. 1. 1 1.　　ics， physics， biology， or chemistry.　　Programming experience is not necessary， but also is not harmful. Teaching　　proo o perlence is not necessary， but also is not harmful. Teaching　　pro... 1...　　gramming is our primary goal， so we assume no prior programming experience.　　But writing a Drogram to solVe a new problem is a challenging intellectual task， so　　b a program to solVe a new problem is a challenging intellectual task， so　　， 1..，. 1 1 1 1　　students who have written numerous programs in high school can benefit from　　taking an introductory programming course based on this book (just as students　　o 1 programming course based on this book (just as students　　who have written numerous essays in high school can benent from an introductory　　] a in high school can benefit from an introductory　　... 1 \ h　　writing course in coheRe). The book can support teaching students with varying　　c， o ). foe book can support teaching students with varying　　backgrounds because the applications appeal to both novices and exDerts alike.　　.founds because the applications appeal to both novices and experts alike.　　Experience using a computer is also not necessary， but also is not at all a problem.　　EVery coheRe student nowadays uses a comDuter regularly， to communicate with　　] college student nowadays uses a computer regularly， to communicate with　　friends and relatives， listen to music， process photos， and many other actiVities. The　　realization that they can harness the Dower of their own comDuter in interesting　　] power of their own computer in interesting　　and important ways is an exciting and lasting lesson for most students.　　In summary， virtually all students in science and engineering are prepared to take a　　y， virtually all students in science and engineering are prepared to take a　　1 1 1. 1 1　　course based on this book as a part of their first-semester curriculum.　　　　yi　　　　GOals What can instructors of upper--level courses in science and engineering　　expect of students who have completed a course based on this book　　We cover the CSI curriculum， but anyone who has taught an introductory　　yone who has taught an introductory　　.，，　　programming course knows that expectations of instructors in later courses are　　typically high： each instructor expects all students to be familiar with the computing　　.， 1， 1　　environment and approach that he or she wants to use. A physics professor might　　.，， 1. 1.　　expect some students to design a program over the weekend to run a simulation; an　　..　　r. 1 1 1 1.. 1 1　　engineering professor might expect other students to be using a particular package　　to numerically solVe differential eouations; or a computer science Drofessor might　　j i， or a computer science professor might　　expect knoWledge of the details of a particular programming environment. Is it　　realistic to meet such diVerse expectations Should there be a different introductory　　course for each set of students Colleges and universities have been wrestling with　　b b　　such questions since computers came into widespread use in the latter part of the　　20th century Our answer to them is found in this common introductory treatment　　). j　　of programming， which is analogous to commonly accepted introductory courses　　..　　in mathematics， physics， biology， and chemistry. An introduction to Programming　　..， 1.. 1，， 1..，　　strwes to provide the basic preparation needed by all students in science and　　en.. 1 .1 1. 1 1 1 1. 1 1 1　　gineering， while sending the clear message that there is much more to understand　　about computer science than programming. Instructors teaching students who　　have studied from this book can expect that they have the knowledge and　　expert，，，..　　1 1 -1 1. 1. 1　　ence necessary to enable them to adaDt to new comDutational environments and to　　J to enable them to adapt to new computational environments and to　　effectiVely exDloit comDuters in diVerse aDplications.　　] ploit computers in diVerse applications.　　What can students who have completed a course based on this book expect to　　accomplish in later courses　　Our messaZe is that DroZramminR is not difficult to learn and that　　harnesso programming is not difficult to learn and that　　harness.　　lug the power of the computer is rewarding. Students who master the material in　　this book are prepared to address computational challenges wherever they might　　appear later in their careers. They learn that modern programming environments，　　such as the one provided by Java， help open the door to any computational　　problem they might encounter later， and they Rain the conndence to learn， evaluate，　　j but encounter later， and they gain the confidence to learn， evaluate，　　and use other computational tools. Students interested in computer science will be　　well-prepared to pursue that interest; students in science and engineering will be　　.　　ready to integrate comDutation into their studies.　　j crate computation into their studies.　　-　　yi I　　　　Booksite An extensiVe amount of information that supplements this text may　　be found on the web at　　http： //www. cs. p ri nceton. edu/Int rop rog rammi ng　　For economy， we refer to this site as the booksite throughout. It contains material　　]， we refer to this site as the booksite throughout. It contains material　　for instructors， students， and casual readers of the book. We briefly describe this　　j　　.， 1 1 1 1 1.. 1 1.　　material here， though， as all web users know， it is best surveyed by browsing. With a　　few exceptions to support testing， the material is all publicly available.　　One of the most important implications of the booksite is that it　　empow.，. 1 1，　　ers instructors and students to use their own computers to teach and learn the　　.　　. 1 ^. 1 1 1 1. 1.　　material. Anyone with a comDuter and a browser can begin learninZ to DroZram　　j puter and a browser can begin learning to program　　by following a few instructions on the booksite. The process is no more difficult　　than downloading a media Dlaver or a souR As with any website， our booksite is　　b a media player or a song. As with any website， our booksite is　　. 1 1.，　　continually evolVing it is an essential resource for everyone who owns this book. In　　j b. It is an essential resource for everyone who owns this book. In　　. 1...　　. 1 1 1 1. 1.. 1 1 r 1.　　particular， the supplemental materials are critical to our goal of making computer　　..　　1　　science an integral comDonent of the education of all scientists and engineers.　　.raf component of the education of all scientists and engineers.　　For instructors， the booksite contains information about teaching. This　　information is primarily organized around a teaching style that we have developed　　1 1　　1 1 1 1 re 1 1 1 1.　　over the past decade， where we offer two lectures per week to a large audience，　　past decade， where we offer two lectures per week to a large audience，　　1 1 1 1. 1 1 1. 11　　supplemented by two class sessions per week where students meet in small groups　　.... m　　with instructors or teaching assistants. The booksite has Dresentation slides for the　　b assistants. The booksite has presentation slides for the　　lectures， which set the tone.　　For teaching assistants， the booksite contains detailed problem sets and　　prod [he booksite contains detailed problem sets and　　pro..，. 1　　1. 1 1 1. r 1 1 1 1. 1　　gramming projects， which are based on exercises from the book but contain much　　1 .1 v 1.... 1 1 1 1　　more detail. Each programming assignment is intended to teach a relevant concept　　programming assignment is intended to teach a relevant concept　　.，　　in the context of an interesting application while presenting an inviting and　　engage pplication while presenting an inviting and　　engag. 1 11 1 1 al. r. 1 1.　　lug challenge to each student. The progression of assignments embodies our　　ape 1.. al 1 1.　　proach to teaching programming. The booksite fully specifies all the assignments　　1. 1 1 .1 1 1.　　and provides detailed， structured information to help students complete them in　　the allotted time， including descriptions of suggested approaches and outlines for　　what should be taught in class sessions.　　.lit in class sessions.　　For students， the booksite contains quick access to much of the material in the　　book， including source code， plus extra material to encourage self--learning.　　Solu.. 1 1　　nons are provided for many of the books exercises， including complete program　　1 1 1 al. 1 1 r. r.. 1. 1.　　code and test data. There is a wealth of information associated with programming　　.. 1. 1 1， 1.　　. 1 1. 1 1 1 1 1.　　assignments， including suggested approaches， checklists， FAQs， and test data.　　.nments， including suggested approaches， checklists， FAQs， and test data.　　- -　　yi 11　　　　For casual readers (including instructors， teaching assistants， and students!)，　　the booksite is a resource for accessing all manner of extra information associated　　b all manner of extra information associated　　with the books content. All of the booksite content provides web links and other　　.　　routes to pursue more information about the topic under consideration. There is　　r pie under consideration. There is　　far more information accessible than any indiVidual could fully digest， but our goal　　) indiVidual could fully digest， but our goal　　.. 1.　　is to provide enough to whet any readers appetite for more information about the　　t an to whet any readers appetite for more information about the　　books content.　　Acknowledgements This project has been under development since 1992， so　　a project has been under development since 1992， so　　far too many pooDle have contributed to its success for us to acknowledge them　　] people have contributed to its success for us to acknowledge them　　all here. Special thanks are due to Anne Rogers for helping to start the ball rolling;　　to Dave Hanson， Andrew APpel， and Chris van Wyk， for their patience in　　explain. 1 1. 1，　　lug data abstraction; and to Lisa WOrthington， for being the first to truly relish　　the challenZe of teaching this material to first-year students. We also gratefully　　ace o Lhis material to first-year students. We also gratefully　　acknoWledZe the efforts of /dev/126 (the summer students who have contributed　　b /dev/126 (the summer students who have contributed　　so much of the content); the faculty， graduate students， and teaching staff who　　have dedicated themselVes to teaching this material over the past 15 years here at　　b past 15 years here at　　Princeton; and the thousands of undergraduates who have dedicated themselves to　　learning it.　　b it.　　.　　IX

内容概要

本书由计算机著名专家Robert Sedgewick编写。本书根据学习编程的四个阶段（基本元素、函数、面向对象程序设计、算法和数据结构）来组织。基本元素包括变量、赋值语句、数据的内置类型、控制流（条件和循环）、数组和输入输出、包括图和声音。函数包括库函数和递归函数，将程序划分成可以独立调试、维护和复用的程序段。然后介绍如何使用、创建和设计数据类型。最后介绍了经典的排序和搜索算法，同时也介绍了基本的数据结构（包括堆栈、队列和符号表）及它们的应用，强调了使用科学方法来理解实现的性能特性。本书示例丰富，涉及了Java在各种学科之中的应用，具有很高的参考价值。　　本书适用于高等院校计算机及相关专业的研究生和本科生，以及从事编程工作的专业人员。

作者简介

Robert Sedgewick，普林斯顿大学计算机科学系教授，在美国斯坦福大学获得博士学位，师从算法与程序设计大师Donald E. Knuth教授。他所著作的《算法》系列书在计算机界有着举足轻重的影响力。

书籍目录

PrefaceElements o[Programming　1.1 Your First Program 　1.2 Built-in Types of Data 　1.3 Conditionals and Loops 　1.4 Arrays 　1.5 Input and Output 　1.6 Case Study: Random Web Surfer Functions and Modules　2.1 Static Methods 　2.2 Libraries and Clients 　2.3 Recursion 　2.4 Case Study: Percolation Object-Oriented Programming　3.1 Data Types 　3.2 Creating Data Types 　3.3 Designing Data Types 　3.4 Case study: N-body Simulation Algorithms and Data Structures　4.1 Performance 　4.2 Sorting and Searching   4.3 Stacks and Queues   4.4 SymbolTables   4.5 Case study: small World

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　　按学习编程的四个阶段来组织本书。　　示例丰富，涉及了Java在各种学科之中的应用，具有很高的参考价值。　　内容齐备的配套网址，编码示例、附加练习等内容可以从

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