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Chapter 6: Shell Programming

Chapter 6: Shell Programming. Shell Scripts. Using the UNIX Shell as a Programming Objectives:. After studying this lesson, you should be able to: Learn about shell variables, operators Write simple shell scripts to illustrate programming logic. My first Shell Script. vi myfirstscript.sh

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Chapter 6: Shell Programming

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  1. Chapter 6: Shell Programming Shell Scripts

  2. Using the UNIX Shell as a Programming Objectives: • After studying this lesson, you should be able to: • Learn about shell variables, operators • Write simple shell scripts to illustrate programming logic

  3. My first Shell Script • vi myfirstscript.sh #! /bin/csh set directory=`pwd` echo The date today is `date` echo The current directory is $directory • chmod u+x myfirstscript.sh • myfirstscript.sh

  4. Using UNIX Shell Scripts • UNIX shell scripts are text files that contain sequences of UNIX commands • Like high-level source files, a programmer creates shell scripts with a text editor • Shell scripts do not have to be converted into machine language by a compiler • This is because the UNIX shell acts as an interpreter when reading script files

  5. Using UNIX Shell Scripts Continued • As an interpreter reads the statements in a program file, it immediately translates them into executable instructions, and causes them to run • After you create a shell script, you simply tell the operating system that the file is a program that can be executed • This is accomplished by using the chmodcommand to change the files’ mode

  6. Using UNIX Shell Scripts Continued • Further, the chmod command tells the computer who is allowed to use the file: the owner (u), the group (g), or all otherusers (o) • Shell programs run less quickly than do compiled programs, because the shell must interpret each UNIX command inside the executable script file before it is executed

  7. The Programming Shell Commonly used shell in most variant of UNIX are: • Bourne Shell (sh), first shell developed for UNIX • Bourne Again Shell (bash), written by programmers of Free Software Foundation, open source shell from GNU • Korn Shell (ksh), written by David Korn, superset of Bourne shell, not widely distributed. • C Shell (csh), written by Bill Joy, the author of vi, shared much of the C language structure. • Terminal Based C Shell (tcsh), enhanced version of the Berkeley UNIX C shell csh

  8. The Programming Shell • All Linux versions use the Bash shell (Bourne Again Shell) as the default shell • All UNIX system include C shell and its predecessor Bourne shell.

  9. Shell Programming • programming features of the UNIX shell: • Shell variables • Operators • Logic structures

  10. Shell Programming • programming features of the UNIX shell: • Shell variables: Your scripts often need to keep values in memory for later use. Shell variables are symbolic names that can access values stored in memory • Operators: Shell scripts support many operators, including those for performing mathematical operations • Logic structures: Shell scripts support sequential logic (for performing a series of commands), decision logic (for branching from one point in a script to another), looping logic (for repeating a command several times), and case logic (for choosing an action from several possible alternatives)

  11. Shell Programming • programming features of the UNIX shell: • Shell variables • Operators • Logic structures

  12. Variables • Variables are symbolic names that represent values stored in memory • The three types of variables discussed in this section are configuration variables, environment variables, and shell variables • Use configuration variables to store information about the setup of the operating system, and do not change them • You can set up environment variables with initial values that you can change as needed

  13. Variables Continued • These variables, which UNIX reads when you log in, determine many characteristics of your session • Shell variables are those you create at the command line or in a shell script • Environment and configuration variables bear standard names, such as HOME, PATH, SHELL, USERNAME, and PWD • (Configuration and environment variables are capitalized to distinguish them from user variables)

  14. Variables Continued To see a list of your environment variables: $ printenv or: $ printenv | more

  15. Variables Continued 1. Typical Environment Variables • HOME: pathname of your home directory • PATH: directories where shell is to look for commands • USER: your user name • PWD: your current working directory • MAIL: pathname of your system mailbox • SHELL: pathname of your shell 2. Variable contents are accessed using ‘$’: e.g. $ echo $HOME

  16. Variables Continued • A shell variable take on the generalized form variable=value (except in the C shell). $ x=37; echo $x $ 37 $ unset x; echo $x • The C shell uses the set statement set variables. $ set x = 37 • You can set a pathname or a command to a variable or substitute to set the variable. $ setmydir=`pwd`; echo $mydir

  17. Variables Continued • To create lists: $ set Y = (UNL 123 CS251) • To set a list element: $ set Y[2] = HUSKER • To view a list element: $ echo $Y[2]

  18. Variables Continued • vi myinputs.sh #! /bin/csh echo Total number of inputs: $#argv echo First input: $argv[1] echo Second input: $argv[2] • chmod u+x myinputs.sh • myinputs.sh HUSKER UNL CSE

  19. Shell Programming • programming features of the UNIX shell: • Shell variables • Operators • Logic structures

  20. Shell Operators • The Bash shell operators are divided into three groups: defining and evaluating operators, arithmetic operators, and redirecting and piping operators

  21. Arithmetic Operators • expr supports the following operators: • arithmetic operators: +,-,*,/,% • comparison operators: <, <=, ==, !=, >=, > • boolean/logical operators: &, | • parentheses: (, ) • precedence is the same as C, Java

  22. Arithmetic Operators (example) • vi math.sh #!/bin/csh set count=5 set count=`expr $count + 1` echo $count • chmod u+x math.sh • math.sh

  23. Shell Programming • programming features of the UNIX shell: • Shell variables • Operators • Logic structures

  24. Shell Logic Structures The four basic logic structures needed for program development are: • Sequential logic • Decision logic • Looping logic • Case logic

  25. Sequential Logic • Sequential logic states that commands will be executed in the order in which they appear in the program • The only break in this sequence comes when a branch instruction changes the flow of execution

  26. Decision Logic • Decision logic enables your program to execute a statement or series of statements only if a certain condition exists • The if statement is the primary decision-making control structure in this type of logic

  27. Decision Logic (continued) • if-then if ( expr ) simple-command • if-then-else if ( expr ) then command-set-1 [else command-set-2] endif

  28. Decision Logic (continued) • A simple example #!/bin/csh if ($#argv != 2) then echo $0 needs two parameters! echo You are inputting $#argv parameters. else set par1 = $argv[1] set par2 = $argv[2] endif

  29. Decision Logic (continued) Another example: #! /bin/csh # number is positive, zero or negative echo "enter a number:" set number = $< if ( $number < 0 ) then echo "negative" else if ( $number == 0 ) then echo zero else echo positive endif

  30. Decision Logic (continued) Another example: #!/bin/csh if {( grep UNIX $argv[1] > /dev/null )} then echo UNIX occurs in $argv[1] else echo No! echo UNIX does not occur in $argv[1] endif Redirect intermediate results into >/dev/null, instead of showing on the screen.

  31. Looping Logic • In looping logic, a control structure (or loop) repeats until some condition exists or some action occurs • You will learn two looping mechanisms in this section: the for loop and the while loop • You use the for command for looping through a range of values. • It causes a variable to take on each value in a specified set, one at a time, and perform some action while the variable contains each individual value

  32. The while Loop • A different pattern for looping is created using the while statement • The while statement best illustrates how to set up a loop to test repeatedly for a matching condition • The while loop tests an expression in a manner similar to the if statement • As long as the statement inside the brackets is true, the statements inside the do and done statements repeat

  33. Looping Logic while ( expr ) command_set end foreach var ( worddlist ) command_set end

  34. Looping Logic Program: #!/bin/csh foreach person (Bob Susan Joe Gerry) echo Hello $person end Output: Hello Bob Hello Susan Hello Joe Hello Gerry

  35. Looping Logic • Adding integers from 1 to 10 #!/bin/csh set i=1 set sum=0 while ($i <= 10) echo Adding $i into the sum. set sum=`expr $sum + $i` set i=`expr $i + 1` end echo The sum is $sum.

  36. Switch Logic • The switch logic structure simplifies the selection of a match when you have a list of choices • It allows your program to perform one of many actions, depending upon the value of a variable

  37. Switch Logic switch ( var ) case string1: command_set_1 breaksw case string2: command_set_2 breaksw default command_set_3 endsw

  38. Switch Logic #!/bin/csh if ($#argv == 0 ) then echo "No arguments supplied...exiting" else switch ($argv[1]) case [yY]: echo Argument one is yes. breaksw case [nN]: echo Argument one is no. breaksw default: echo Argument one is neither yes nor no. breaksw endsw endif

  39. Chapter Summary • A high-level language must be converted into a low-level (machine) language before the computer can execute it • The shell interprets UNIX shell scripts • UNIX shell scripts, created with the vi or other editor, contain instructions that do not need to be written from scratch, but rather can be selectively chosen from the operating system’s inventory of executable commands

  40. Chapter Summary Section A Continued • Linux shells are derived from the UNIX Bourne, Korn, and C shells • UNIX keeps three types of variables: • Configuration • Environment • Shell • The shell supports numerous operators, including many for performing arithmetic operations • The logic structures supported by the shell are sequential, decision, looping, and case

  41. Homework 1 • Please refer to handout.

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