Table of Contents for
sed & awk, 2nd Edition

Version ebook / Retour

Cover image for bash Cookbook, 2nd Edition sed & awk, 2nd Edition by Arnold Robbins Published by O'Reilly Media, Inc., 1997
  1. sed & awk, 2nd Edition
  2. Cover
  3. sed & awk, 2nd Edition
  4. A Note Regarding Supplemental Files
  5. Dedication
  6. Preface
  7. Scope of This Handbook
  8. Availability of sed and awk
  9. Obtaining Example Source Code
  10. Conventions Used in This Handbook
  11. About the Second Edition
  12. Acknowledgments from the First Edition
  13. Comments and Questions
  14. 1. Power Tools for Editing
  15. 1.1. May You Solve Interesting Problems
  16. 1.2. A Stream Editor
  17. 1.3. A Pattern-Matching Programming Language
  18. 1.4. Four Hurdles to Mastering sed and awk
  19. 2. Understanding Basic Operations
  20. 2.1. Awk, by Sed and Grep, out of Ed
  21. 2.2. Command-Line Syntax
  22. 2.3. Using sed
  23. 2.4. Using awk
  24. 2.5. Using sed and awk Together
  25. 3. Understanding Regular Expression Syntax
  26. 3.1. That’s an Expression
  27. 3.2. A Line-Up of Characters
  28. 3.3. I Never Metacharacter I Didn’t Like
  29. 4. Writing sed Scripts
  30. 4.1. Applying Commands in a Script
  31. 4.2. A Global Perspective on Addressing
  32. 4.3. Testing and Saving Output
  33. 4.4. Four Types of sed Scripts
  34. 4.5. Getting to the PromiSed Land
  35. 5. Basic sed Commands
  36. 5.1. About the Syntax of sed Commands
  37. 5.2. Comment
  38. 5.3. Substitution
  39. 5.4. Delete
  40. 5.5. Append, Insert, and Change
  41. 5.6. List
  42. 5.7. Transform
  43. 5.8. Print
  44. 5.9. Print Line Number
  45. 5.10. Next
  46. 5.11. Reading and Writing Files
  47. 5.12. Quit
  48. 6. Advanced sed Commands
  49. 6.1. Multiline Pattern Space
  50. 6.2. A Case for Study
  51. 6.3. Hold That Line
  52. 6.4. Advanced Flow Control Commands
  53. 6.5. To Join a Phrase
  54. 7. Writing Scripts for awk
  55. 7.1. Playing the Game
  56. 7.2. Hello, World
  57. 7.3. Awk’s Programming Model
  58. 7.4. Pattern Matching
  59. 7.5. Records and Fields
  60. 7.6. Expressions
  61. 7.7. System Variables
  62. 7.8. Relational and Boolean Operators
  63. 7.9. Formatted Printing
  64. 7.10. Passing Parameters Into a Script
  65. 7.11. Information Retrieval
  66. 8. Conditionals, Loops, and Arrays
  67. 8.1. Conditional Statements
  68. 8.2. Looping
  69. 8.3. Other Statements That Affect Flow Control
  70. 8.4. Arrays
  71. 8.5. An Acronym Processor
  72. 8.6. System Variables That Are Arrays
  73. 9. Functions
  74. 9.1. Arithmetic Functions
  75. 9.2. String Functions
  76. 9.3. Writing Your Own Functions
  77. 10. The Bottom Drawer
  78. 10.1. The getline Function
  79. 10.2. The close( ) Function
  80. 10.3. The system( ) Function
  81. 10.4. A Menu-Based Command Generator
  82. 10.5. Directing Output to Files and Pipes
  83. 10.6. Generating Columnar Reports
  84. 10.7. Debugging
  85. 10.8. Limitations
  86. 10.9. Invoking awk Using the #! Syntax
  87. 11. A Flock of awks
  88. 11.1. Original awk
  89. 11.2. Freely Available awks
  90. 11.3. Commercial awks
  91. 11.4. Epilogue
  92. 12. Full-Featured Applications
  93. 12.1. An Interactive Spelling Checker
  94. 12.2. Generating a Formatted Index
  95. 12.3. Spare Details of the masterindex Program
  96. 13. A Miscellany of Scripts
  97. 13.1. uutot.awk—Report UUCP Statistics
  98. 13.2. phonebill—Track Phone Usage
  99. 13.3. combine—Extract Multipart uuencoded Binaries
  100. 13.4. mailavg—Check Size of Mailboxes
  101. 13.5. adj—Adjust Lines for Text Files
  102. 13.6. readsource—Format Program Source Files for troff
  103. 13.7. gent—Get a termcap Entry
  104. 13.8. plpr—lpr Preprocessor
  105. 13.9. transpose—Perform a Matrix Transposition
  106. 13.10. m1—Simple Macro Processor
  107. A. Quick Reference for sed
  108. A.1. Command-Line Syntax
  109. A.2. Syntax of sed Commands
  110. A.3. Command Summary for sed
  111. B. Quick Reference for awk
  112. B.1. Command-Line Syntax
  113. B.2. Language Summary for awk
  114. B.3. Command Summary for awk
  115. C. Supplement for Chapter 12
  116. C.1. Full Listing of spellcheck.awk
  117. C.2. Listing of masterindex Shell Script
  118. C.3. Documentation for masterindex
  119. masterindex
  120. C.3.1. Background Details
  121. C.3.2. Coding Index Entries
  122. C.3.3. Output Format
  123. C.3.4. Compiling a Master Index
  124. Index
  125. About the Authors
  126. Colophon
  127. Copyright

A Pattern-Matching Programming Language

Identifying awk as a programming language scares some people away from it. If you are one of them, consider awk a different approach to problem solving, one in which you have a lot more control over what you want the computer to do.

Sed is easily seen as the flip side of interactive editing. A sed procedure corresponds closely enough to how you would apply the editing commands manually. Sed limits you to the methods you use in a text editor. Awk offers a more general computational model for processing a file.

A typical example of an awk program is one that transforms data into a formatted report. The data might be a log file generated by a UNIX program such as uucp, and the report might summarize the data in a format useful to a system administrator. Another example is a data processing application consisting of separate data entry and data retrieval programs. Data entry is the process of recording data in a structured way. Data retrieval is the process of extracting data from a file and generating a report.

The key to all of these operations is that the data has some kind of structure. Let us illustrate this with the analogy of a bureau. A bureau consists of multiple drawers, and each drawer has a certain set of contents: socks in one drawer, underwear in another, and sweaters in a third drawer. Sometimes drawers have compartments allowing different kinds of things to be stored together. These are all structures that determine where things go—when you are sorting the laundry—and where things can be found—when you are getting dressed. Awk allows you to use the structure of a text file in writing the procedures for putting things in and taking things out.

Thus, the benefits of awk are best realized when the data has some kind of structure. A text file can be loosely or tightly structured. A chapter containing major and minor sections has some structure. We’ll look at a script that extracts section headings and numbers them to produce an outline. A table consisting of tab-separated items in columns might be considered very structured. You could use an awk script to reorder columns of data, or even change columns into rows and rows into columns.

Like sed scripts, awk scripts are typically invoked by means of a shell wrapper. This is a shell script that usually contains the command line that invokes awk as well as the script that awk interprets. Simple one-line awk scripts can be entered from the command line.

Some of the things awk allows you to do are:

  • View a text file as a textual database made up of records and fields.

  • Use variables to manipulate the database.

  • Use arithmetic and string operators.

  • Use common programming constructs such as loops and conditionals.

  • Generate formatted reports.

  • Define functions.

  • Execute UNIX commands from a script.

  • Process the result of UNIX commands.

  • Process command-line arguments more gracefully.

  • Work more easily with multiple input streams.

Because of these features, awk has the power and range that users might rely upon to do the kinds of tasks performed by shell scripts. In this book, you’ll see examples of a menu-based command generator, an interactive spelling checker, and an index processing program, all of which use the features outlined above.

The capabilities of awk extend the idea of text editing into computation, making it possible to perform a variety of data processing tasks, including analysis, extraction, and reporting of data. These are, indeed, the most common uses of awk but there are also many unusual applications: awk has been used to write a Lisp interpreter and even a compiler!