Nick Silver. Perl tutorial ----- boundary begin ----- Thu Jun 15 18:12:51 BST 1995 This file is compiled automatically from the URLs listed below. Between each page is the line containing only '----- boundary ' followed by the URL of the next page or 'begin' or 'end' followed by ' -----'. The URLs are: http://agora.leeds.ac.uk/nik/Perl/start.html http://agora.leeds.ac.uk/nik/Perl/basic.html http://agora.leeds.ac.uk/nik/Perl/running.html http://agora.leeds.ac.uk/nik/Perl/scalars.html http://agora.leeds.ac.uk/nik/Perl/arrays.html http://agora.leeds.ac.uk/nik/Perl/filehandling.html http://agora.leeds.ac.uk/nik/Perl/control.html http://agora.leeds.ac.uk/nik/Perl/conditionals.html http://agora.leeds.ac.uk/nik/Perl/matching.html http://agora.leeds.ac.uk/nik/Perl/sandtr.html http://agora.leeds.ac.uk/nik/Perl/split.html http://agora.leeds.ac.uk/nik/Perl/associative.html http://agora.leeds.ac.uk/nik/Perl/subroutines.html ----- boundary http://agora.leeds.ac.uk/nik/Perl/start.html ----- _________________________________________________________________  * PERL TUTORIAL: START *  This is the start of a tutorial on Perl, originally run by me, Nik Silver, as the first part of a one-day hands-on workshop at the School of Computer Studies, University of Leeds, in the UK. The second part of the workshop looked at designing pages for the World Wide Web using Perl to deal with buttons and text boxes to generate custom Web pages on the fly. Creating a Web page without all these things is a much easier task. There is information about how to do this at Leeds but otherwise you should look at NCSA's definitive Beginner's Guide to HTML. There are plenty of other Perl tutorials around, and most (if not all) of them can be found at the UF/NA Perl Archive. However I wanted something that included exercises developing a consistent theme; none of the others seemed to do this. This tutorial assumes a very basic knowledge of UNIX and concentrates on how to write basic working perl programs. It does not explain why many things are as they are, nor does it draw generalisations about the language; it is assumed that the reader can make most of these inferences correctly for themselves. You can find more information on those topics elsewhere (see above). Thanks to Neil Bowers whose Perl page is where I ripped off the camel icon (though he ripped it off someone before me, of course) and to our Support team for their technical wizardry. The structure of this tutorial is as follows: * A basic perl program + The first line + Comments and statements + Simple printing * Running the program * Scalar variables + Operations and assignment + Interpolation + Exercise * Array variables + Array assignments + Displaying arrays + Exercise * Filehandling + Exercise * Control structures + foreach + Testing + for + while and until + Exercise * Conditionals + Exercise * String matching + Regular expressions + The $_ special variable + More on REs + Some example REs + Exercise * Substitution and translation + Options + Remembering patterns + Translation + Exercise * Split + Exercise * Associative arrays + Operators + Environment variables * Subroutines + Parameters + Returning values + Local variables _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/basic.html -----  * PERL TUTORIAL: A BASIC PROGRAM *  Here is the basic perl program that we'll use to get started. #!/usr/local/bin/perl # # Program to do the obvious # print 'Hello world.'; # Print a message Each of the parts will be discussed in turn. The first line Every perl program starts off with this as its very first line: #!/usr/local/bin/perl although this may vary from system to system. This line tells the machine what to do with the file when it is executed (ie it tells it to run the file through Perl). Comments and statements Comments can be inserted into a program with the # symbol, and anything from the # to the end of the line is ignored (with the exception of the first line). The only way to stretch comments over several lines is to use a # on each line. Everything else is a Perl statement which must end with a semicolon, like the last line above. Simple printing The print function outputs some information. In the above case it prints out the the literal string Hello world. and of course the statement ends with a semicolon. You may find the above program produces an slightly unexpected result. So the next thing to do is to run it. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/running.html -----  * RUNNING THE PROGRAM *  Type in the example program using a text editor, and save it. Emacs is a good editor to use for this because it has its own Perl mode which formats lines nicely when you hit tab (use `M-x perl-mode'). But as ever, use whichever you're most comfortable with. After you've entered and saved the program make sure the file is executable by using the command chmod u+x progname at the UNIX prompt, where progname is the filename of the program. Now to run the program just type any of the following at the prompt. perl progname ./progname progname If something goes wrong then you may get error messages, or you may get nothing. You can always run the program with warnings using the command perl -w progname at the prompt. This will display warnings and other (hopefully) helpful messages before it tries to execute the program. To run the program with a debugger use the command perl -d progname When the file is executed Perl first compiles it and then executes that compiled version. So after a short pause for compilation the program should run quite quickly. This also explains why you can get compilation errors when you execute a Perl file which consists only of text. Make sure your program works before proceeding. The program's output may be slightly unexpected - at least it isn't very pretty. We'll look next at variables and then tie this in with prettier printing. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/scalars.html -----  * SCALAR VARIABLES *  The most basic kind of variable in Perl is the scalar variable. Scalar variables hold both strings and numbers, and are remarkable in that strings and numbers are completely interchangable. For example, the statement $priority = 9; sets the scalar variable $priority to 9, but you can also assign a string to exactly the same variable: $priority = 'high'; Perl also accepts numbers as strings, like this: $priority = '9'; $default = '0009'; and can still cope with arithmetic and other operations quite happily. In general variable names consists of numbers, letters and underscores, but they should not start with a number and the variable $_ is special, as we'll see later. Also, Perl is case sensitive, so $a and $A are different. Operations and Assignment Perl uses all the usual C arithmetic operators: $a = 1 + 2; # Add 1 and 2 and store in $a $a = 3 - 4; # Subtract 4 from 3 and store in $a $a = 5 * 6; # Multiply 5 and 6 $a = 7 / 8; # Divide 7 by 8 to give 0.875 $a = 9 ** 10; # Nine to the power of 10 $a = 5 % 2; # Remainder of 5 divided by 2 ++$a; # Increment $a and then return it $a++; # Return $a and then increment it --$a; # Decrement $a and then return it $a--; # Return $a and then decrement it and for strings Perl has the following among others: $a = $b . $c; # Concatenate $b and $c $a = $b x $c; # $b repeated $c times To assign values Perl includes $a = $b; # Assign $b to $a $a += $b; # Add $b to $a $a -= $b; # Subtract $b from $a $a .= $b; # Append $b onto $a Note that when Perl assigns a value with $a = $b it makes a copy of $b and then assigns that to $a. Therefore the next time you change $b it will not alter $a. Other operators can be found on the perlop manual page. Type man perlop at the prompt. Interpolation The following code prints apples and pears using concatenation: $a = 'apples'; $b = 'pears'; print $a.' and '.$b; It would be nicer to include only one string in the final print statement, but the line print '$a and $b'; prints literally $a and $b which isn't very helpful. Instead we can use the double quotes in place of the single quotes: print "$a and $b"; The double quotes force interpolation of any codes, including interpreting variables. This is a much nicer than our original statement. Other codes that are interpolated include special characters such as newline and tab. The code \n is a newline and \t is a tab. Exercise This exercise is to rewrite the Hello world program so that (a) the string is assigned to a variable and (b) this variable is then printed with a newline character. Use the double quotes and don't use the concatenation operator. Make sure you can get this to work before proceeding. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/arrays.html -----  * ARRAY VARIABLES *  A slightly more interesting kind of variable is the array variable which is a list of scalars (ie numbers and strings). Array variables have the same format as scalar variables except that they are prefixed by an @ symbol. The statement @food = ("apples", "pears", "eels"); @music = ("whistle", "flute"); assigns a three element list to the array variable @food and a two element list to the array variable @music. The array is accessed by using indices starting from 0, and square brackets are used to specify the index. The expression $food[2] returns eels. Notice that the @ has changed to a $ because eels is a scalar. Array assignments As in all of Perl, the same expression in a different context can produce a different result. The first assignment below explodes the @music variable so that it is equivalent to the second assignment. @moremusic = ("organ", @music, "harp"); @moremusic = ("organ", "whistle", "flute", "harp"); This should suggest a way of adding elements to an array. A neater way of adding elements is to use the statement push(@food, "eggs"); which pushes eggs onto the end of the array @food. To push two or more items onto the array use one of the following forms: push(@food, "eggs", "lard"); push(@food, ("eggs", "lard")); push(@food, @morefood); The push function returns the length of the new list. To remove the last item from a list and return it use the pop function. From our original list the pop function returns eels and @food now has two elements: $grub = pop(@food); # Now $grub = "eels" It is also possible to assign an array to a scalar variable. As usual context is important. The line $f = @food; assigns the length of @food, but $f = "@food"; turns the list into a string with a space between each element. This space can be replaced by any other string by changing the value of the special $" variable. This variable is just one of Perl's many special variables, most of which have odd names. Arrays can also be used to make multiple assignments to scalar variables: ($a, $b) = ($c, $d); # Same as $a=$c; $b=$d; ($a, $b) = @food; # $a and $b are the first two # items of @food. ($a, @somefood) = @food; # $a is the first item of @food # @somefood is a list of the # others. (@somefood, $a) = @food; # @somefood is @food and # $a is undefined. The last assignment occurs because arrays are greedy, and @somefood will swallow up as much of @food as it can. Therefore that form is best avoided. Finally, you may want to find the index of the last element of a list. To do this for the @food array use the expression $#food Displaying arrays Since context is important, it shouldn't be too surprising that the following all produce different results: print @food; # By itself print "@food"; # Embedded in double quotes print @food.""; # In a scalar context Exercise Try out each of the above three print statements to see what they do. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/filehandling.html -----  * FILE HANDLING *  Here is the basic perl program which does the same as the UNIX cat command on a certain file. #!/usr/local/bin/perl # # Program to open the password file, read it in, # print it, and close it again. $file = '/etc/passwd'; # Name the file open(INFO, $file); # Open the file @lines = <INFO>; # Read it into an array close(INFO); # Close the file print @lines; # Print the array The open function opens a file for input (i.e. for reading). The first parameter is the filehandle which allows Perl to refer to the file in future. The second parameter is an expression denoting the filename. If the filename was given in quotes then it is taken literally without shell expansion. So the expression '~/notes/todolist' will not be interpreted successfully. If you want to force shell expansion then use angled brackets: that is, use <~/notes/todolist> instead. The close function tells Perl to finish with that file. There are a few useful points to add to this discussion on filehandling. First, the open statement can also specify a file for output and for appending as well as for input. To do this, prefix the filename with a > for output and a >> for appending: open(INFO, $file); # Open for input open(INFO, ">$file"); # Open for output open(INFO, ">>$file"); # Open for appending open(INFO, "<$file"); # Also open for input Second, if you want to print something to a file you've already opened for output then you can use the print statement with an extra parameter. To print a string to the file with the INFO filehandle use print INFO "This line goes to the file.\n"; Third, you can use the following to open the standard input (usually the keyboard) and standard output (usually the screen) respectively: open(INFO, '-'); # Open standard input open(INFO, '>-'); # Open standard output In the above program the information is read from a file. The file is the INFO file and to read from it Perl uses angled brackets. So the statement @lines = <INFO>; reads the file denoted by the filehandle into the array @lines. Note that the <INFO> expression reads in the file entirely in one go. This because the reading takes place in the context of an array variable. If @lines is replaced by the scalar $lines then only the next one line would be read in. In either case each line is stored complete with its newline character at the end. Exercise Modify the above program so that the entire file is printed with a # symbol at the beginning of each line. You should only have to add one line and modify another. Use the $" variable. Unexpected things can happen with files, so you may find it helpful to use the -w option as mentioned in the section on running Perl programs. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/control.html -----  * CONTROL STRUCTURES *  More interesting possiblities arise when we introduce control structures and looping. Perl supports lots of different kinds of control structures which tend to be like those in C, but are very similar to Pascal, too. Here we discuss a few of them. foreach To go through each line of an array or other list-like structure (such as lines in a file) Perl uses the foreach structure. This has the form foreach $morsel (@food) # Visit each item in turn # and call it $morsel { print "$morsel\n"; # Print the item print "Yum yum\n"; # That was nice } The actions to be performed each time are enclosed in a block of curly braces. The first time through the block $morsel is assigned the value of the first item in the array @food. Next time it is assigned the value of the second item, and so until the end. If @food is empty to start with then the block of statements is never executed. Testing The next few structures rely on a test being true or false. In Perl any non-zero number and non-empty string is counted as true. The number zero, zero by itself in a string, and the empty string are counted as false. Here are some tests on numbers and strings. $a == $b # Is $a numerically equal to $b? # Beware: Don't use the = operator. $a != $b # Is $a numerically unequal to $b? $a eq $b # Is $a string-equal to $b? $a ne $b # Is $a string-unequal to $b? You can also use logical and, or and not: ($a && $b) # Is $a and $b true? ($a || $b) # Is either $a or $b true? !($a) # is $a false? for Perl has a for structure that mimics that of C. It has the form for (initialise; test; inc) { first_action; second_action; etc } First of all the statement initialise is executed. Then while test is true the block of actions is executed. After each time the block is executed inc takes place. Here is an example for loop to print out the numbers 0 to 9. for ($i = 0; $i < 10; ++$i) # Start with $i = 1 # Do it while $i < 10 # Increment $i before repeating { print "$i\n"; } while and until Here is a program that reads some input from the keyboard and won't continue until it is the correct password #!/usr/local/bin/perl print "Password? "; # Ask for input $a = <STDIN>; # Get input chop $a; # Remove the newline at end while ($a ne "fred") # While input is wrong... { print "sorry. Again? "; # Ask again $a = <STDIN>; # Get input again chop $a; # Chop off newline again } The curly-braced block of code is executed while the input does not equal the password. The while structure should be fairly clear, but this is the opportunity to notice several things. First, we can we read from the standard input (the keyboard) without opening the file first. Second, when the password is entered $a is given that value including the newline character at the end. The chop function removes the last character of a string which in this case is the newline. To test the opposite thing we can use the until statement in just the same way. This executes the block repeatedly until the expression is true, not while it is true. Another useful technique is putting the while or until check at the end of the statement block rather than at the beginning. This will require the presence of the do operator to mark the beginning of the block and the test at the end. If we forgo the sorry. Again message in the above password program then it could be written like this. #!/usr/local/bin/perl do { "Password? "; # Ask for input $a = <STDIN>; # Get input chop $a; # Chop off newline } while ($a ne "fred") # Redo while wrong input Exercise Modify the program from the previous exercise so that each line of the file is read in one by one and is output with a line number at the beginning. You should get something like: 1 root:oYpYXm/qRO6N2:0:0:Super-User:/:/bin/csh 2 sysadm:*:0:0:System V Administration:/usr/admin:/bin/sh 3 diag:*:0:996:Hardware Diagnostics:/usr/diags:/bin/csh etc You may find it useful to use the structure while ($line = <INFO>) { ... } When you have done this see if you can alter it so that line numbers are printed as 001, 002, ..., 009, 010, 011, 012, etc. To do this you should only need to change one line by inserting an extra four characters. Perl's clever like that. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/conditionals.html -----  * CONDITIONALS *  Of course Perl also allows if/then/else statements. These are of the following form: if ($a) { print "The string is not empty\n"; } else { print "The string is empty\n"; } For this, remember that an empty string is considered to be false. It will also give an "empty" result if $a is the string 0. It is also possible to include more alternatives in a conditional statement: if (!$a) # The ! is the not operator { print "The string is empty\n"; } elsif (length($a) == 1) # If above fails, try this { print "The string has one character\n"; } elsif (length($a) == 2) # If that fails, try this { print "The string has two characters\n"; } else # Now, everything has failed { print "The string has lots of characters\n"; } In this, it is important to notice that the elsif statement really does have an "e" missing. Exercise Find a fairly large file that contains some text and some blank lines. The file ~nik/WWW/Misc/electricity.txt is pretty good because it's funny apart from anything else. It was originally posted to our local news system by David O'Brien. From the previous exercise you should have a program which prints out the password file with line numbers. Change it so that works with the text file. Now alter the program so that line numbers aren't printed or counted with blank lines, but every line is still printed, including the blank ones. Remember that when a line of the file is read in it will still include its newline character at the end. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/matching.html -----  * STRING MATCHING *  One of the most useful features of Perl (if not the most useful feature) is its powerful string manipulation facilities. At the heart of this is the regular expression (RE) which is shared by many other UNIX utilities. Regular expressions A regular expression is contained in slashes, and matching occurs with the =~ operator. The following expression is true if the string the appears in variable $sentence. $sentence =~ /the/ The RE is case sensitive, so if $sentence = "The quick brown fox"; then the above match will be false. The operator !~ is used for spotting a non-match. In the above example $sentence !~ /the/ is true because the string the does not appear in $sentence. The $_ special variable We could use a conditional as if ($sentence =~ /under/) { print "We're talking about rugby\n"; } which would print out a message if we had either of the following $sentence = "Up and under"; $sentence = "Best winkles in Sunderland"; But it's often much easier if we assign the sentence to the special variable $_ which is of course a scalar. If we do this then we can avoid using the match and non-match operators and the above can be written simply as if (/under/) { print "We're talking about rugby\n"; } The $_ variable is the default for many Perl operations and tends to be used very heavily. More on REs In an RE there are plenty of special characters, and it is these that both give them their power and make them appear very complicated. It's best to build up your use of REs slowly; their creation can be something of an art form. Here are some special RE characters and their meaning . # Any single character except a newline ^ # The beginning of the line or string $ # The end of the line or string * # Zero or more of the last character + # One or more of the last character ? # Zero or one of the last character and here are some example matches. Remember that should be enclosed in /.../ slashes to be used. t.e # t followed by anthing followed by e # This will match the # tre # tle # but not te # tale ^f # f at the beginning of a line ^ftp # ftp at the beginning of a line e$ # e at the end of a line tle$ # tle at the end of a line und* # un followed by zero or more d characters # This will match un # und # undd # unddd (etc) .* # Any string without a newline. This is because # the . matches anything except a newline and # the * means zero or more of these. ^$ # A line with nothing in it. There are even more options. Square brackets are used to match any one of the characters inside them. Inside square brackets a - indicates "between" and a ^ at the beginning means "not": [qjk] # Either q or j or k [^qjk] # Neither q nor j nor k [a-z] # Anything from a to z inclusive [^a-z] # No lower case letters [a-zA-Z] # Any letter [a-z]+ # Any non-zero sequence of lower case letters At this point you can probably skip to the end and do at least most of the exercise. The rest is mostly just for reference. A vertical bar | represents an "or" and parentheses (...) can be used to group things together: jelly|cream # Either jelly or cream (eg|le)gs # Either eggs or legs (da)+ # Either da or dada or dadada or... Here are some more special characters: \n # A newline \t # A tab \w # Any alphanumeric (word) character. # The same as [a-zA-Z0-9_] \W # Any non-word character. # The same as [^a-zA-Z0-9_] \d # Any digit. The same as [0-9] \D # Any non-digit. The same as [^0-9] \s # Any whitespace character: space, # tab, newline, etc \S # Any non-whitespace character \b # A word boundary, outside [] only \B # No word boundary Clearly characters like $, |, [, ), \, / and so on are peculiar cases in regular expressions. If you want to match for one of those then you have to preceed it by a backslash. So: \| # Vertical bar \[ # An open square bracket \) # A closing parenthesis \* # An asterisk \^ # A carat symbol \/ # A slash \\ # A backslash and so on. Some example REs As was mentioned earlier, it's probably best to build up your use of regular expressions slowly. Here are a few examples. Remember that to use them for matching they should be put in /.../ slashes [01] # Either "0" or "1" \/0 # A division by zero: "/0" \/ 0 # A division by zero with a space: "/ 0" \/\s0 # A division by zero with a whitespace: # "/ 0" where the space may be a tab etc. \/ *0 # A division by zero with possibly some # spaces: "/0" or "/ 0" or "/ 0" etc. \/\s*0 # A division by zero with possibly some # whitespace. \/\s*0\.0* # As the previous one, but with decimal # point and maybe some 0s after it. Accepts # "/0." and "/0.0" and "/0.00" etc and # "/ 0." and "/ 0.0" and "/ 0.00" etc. Exercise Previously your program counted non-empty lines. Alter it so that instead of counting non-empty lines it counts only lines with * the letter x * the string the * the string the which may or may not have a capital t * the word the with or without a capital. Use \b to detect word boundaries. In each case the program should print out every line, but it should only number those specified. Try to use the $_ variable to avoid using the =~ match operator explicitly. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/sandtr.html -----  * SUBSTITUTION AND TRANSLATION *  As well as identifying regular expressions Perl can make substitutions based on those matches. The way to do this is to use the s function which is designed to mimic the way substitution is done in the vi text editor. Once again the match operator is used, and once again if it is omitted then the substitution is assumed to take place with the $_ variable. To replace an occurrence of london by London in the string $sentence we use the expression $sentence =~ s/london/London/ and to do the same thing with the $_ variable just s/london/London/ Notice that the two regular expressions (london and London) are surrounded by a total of three slashes. The result of this expression is the number of substitutions made, so it is either 0 (false) or 1 (true) in this case. Options This example only replaces the first occurrence of the string, and it may be that there will be more than one such string we want to replace. To make a global substitution the last slash is followed by a g as follows: s/london/London/g which of course works on the $_ variable. Again the expression returns the number of substitutions made, which is 0 (false) or something greater than 0 (true). If we want to also replace occurrences of lOndon, lonDON, LoNDoN and so on then we could use s/[Ll][Oo][Nn][Dd][Oo][Nn]/London/g but an easier way is to use the i option (for "ignore case"). The expression s/london/London/gi will make a global substitution ignoring case. The i option is also used in the basic /.../ regular expression match. Remembering patterns It's often useful to remember patterns that have been matched so that they can be used again. It just so happens that anything matched in parentheses gets remembered in the variables $1,...,$9. These strings can also be used in the same regular expression (or substitution) by using the special RE codes \1,...,\9. For example $_ = "Lord Whopper of Fibbing"; s/([A-Z])/:\1:/g; print "$_\n"; will replace each upper case letter by that letter surrounded by colons. It will print :L:ord :W:hopper of :F:ibbing. The variables $1,...,$9 are read-only variables; you cannot alter them yourself. As another example, the test if (/(\b.+\b) \1/) { print "Found $1 repeated\n"; } will identify any words repeated. Each \b represents a word boundary and the .+ matches any non-empty string, so \b.+\b matches anything between two word boundaries. This is then remembered by the parentheses and stored as \1 for regular expressions and as $1 for the rest of the program. The following swaps the first and last characters of a line in the $_ variable: s/^(.)(.*)(.)$/\3\2\1/ The ^ and $ match the beginning and end of the line. The \1 code stores the first character; the \2 code stores everything else up the last character which is stored in the \3 code. Then that whole line is replaced with \1 and \3 swapped round. After a match, you can use the special read-only variables $` and $& and $' to find what was matched before, during and after the seach. So after $_ = "Lord Whopper of Fibbing"; /pp/; all of the following are true. (Remember that eq is the string-equality test.) $` eq "Lord Wo"; $& eq "pp"; $' eq "er of Fibbing"; Finally on the subject of remembering patterns it's worth knowing that inside of the slashes of a match or a substitution variables are interpolated. So $search = "the"; s/$search/xxx/g; will replace every occurrence of the with xxx. If you want to replace every occurence of there then you cannot do s/$searchre/xxx/ because this will be interpolated as the variable $searchre. Instead you should put the variable name in curly braces so that the code becomes $search = "the"; s/${search}re/xxx/; Translation The tr function allows character-by-character translation. The following expression replaces each a with e, each b with d, and each c with f in the variable $sentence. The expression returns the number of substitutions made. $sentence =~ tr/abc/edf/ Most of the special RE codes do not apply in the tr function. For example, the statement here counts the number of asterisks in the $sentence variable and stores that in the $count variable. $count = ($sentence =~ tr/*/*/); However, the dash is still used to mean "between". This statement converts $_ to upper case. tr/a-z/A-Z/; Exercise Your current program should count lines of a file which contain a certain string. Modify it so that it counts lines with double letters (or any other double character). Modify it again so that these double letters appear also in parentheses. For example your program would produce a line like this among others: 023 Amp, James Wa(tt), Bob Transformer, etc. These pion(ee)rs conducted many Try to get it so that all pairs of letters are in parentheses, not just the first pair on each line. For a slightly more interesting program you might like to try the following. Suppose your program is called countlines. Then you would call it with ./countlines However, if you call it with several arguments, as in ./countlines first second etc then those arguments are stored in the array @ARGV. In the above example we have $ARGV[0] is first and $ARGV[1] is second and $ARGV[2] is etc. Modify your program so that it accepts one argument and counts only those lines with that string. It should also put occurrences of this string in paretheses. So ./countlines the will output something like this line among others: 019 But (the) greatest Electrical Pioneer of (the)m all was Thomas Edison, who _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/split.html -----  * SPLIT *  A very useful function in Perl is split, which splits up a string and places it into an array. The function uses a regular expression and as usual works on the $_ variable unless otherwise specified. The split function is used like this: $info = "Caine:Michael:Actor:14, Leafy Drive"; @personal = split(/:/, $info); which has the same overall effect as @personal = ("Caine", "Michael", "Actor", "14, Leafy Drive"); If we have the information stored in the $_ variable then we can just use this instead @personal = split(/:/); If the fields are divided by any number of colons then we can use the RE codes to get round this. The code $_ = "Capes:Geoff::Shot putter:::Big Avenue"; @personal = split(/:+/); is the same as @personal = ("Capes", "Geoff", "Shot putter", "Big Avenue"); But this: $_ = "Capes:Geoff::Shot putter:::Big Avenue"; @personal = split(/:/); would be like @personal = ("Capes", "Geoff", "", "Shot putter", "", "", "Big Avenue"); A word can be split into characters, a sentence split into words and a paragraph split into sentences: @chars = split(//, $word); @words = split(/ /, $sentence); @sentences = split(/\./, $paragraph); In the first case the null string is matched between each character, and that is why the @chars array is an array of characters - ie an array of strings of length 1. Exercise A useful tool in natural language processing is concordance. This allows a specific string to be displayed in its immediate context whereever it appears in a text. For example, a concordance program identifying the target string the might produce some of the following output. Notice how the occurrences of the target string line up vertically. discovered (this is the truth) that when he t kinds of metal to the leg of a frog, an e rrent developed and the frog's leg kicked, longer attached to the frog, which was dea normous advances in the field of amphibian ch it hop back into the pond -- almost. Bu ond -- almost. But the greatest Electrical ectrical Pioneer of them all was Thomas Edi This exercise is to write such a program. Here are some tips: * Read the entire file into array (this obviously isn't useful in general because the file may be extremely large, but we won't worry about that here). Each item in the array will be a line of the file. * When the chop function is used on an array it chops off the last character of every item in the array. * Recall that you can join the whole array together with a statement like $text = "@lines"; * Use the target string as delimiter for splitting the text. (Ie, use the target string in place of the colon in our previous examples.) You should then have an array of all the strings between the target strings. * For each array element in turn, print it out, print the target string, and then print the next array element. * Recall that the last element of an array @food has index $#food. As it stands this would be a pretty good program, but the target strings won't line up vertically. To tidy up the strings you'll need the substr function. Here are three examples of its use. substr("Once upon a time", 3, 4); # returns "e up" substr("Once upon a time", 7); # returns "on a time" substr("Once upon a time", -6, 5); # returns "a tim" The first example returns a substring of length 4 starting at position 3. Remember that the first character of a string has index 0. The second example shows that missing out the length gives the substring right to the end of the string The third example shows that you can also index from the end using a negative index. It returns the substring that starts at the 6th character from the end and has length 5. If you use a negative index that extends beyond the beginning of the string then Perl will return nothing or give a warning. To avoid this happening you can pad out the string by using the x operator mentioned earlier. The expression (" "x30) produces 30 spaces, for example. _________________________________________________________________ ----- boundary http://agora.leeds.ac.uk/nik/Perl/associative.html -----  * ASSOCIATIVE ARRAYS *  Ordinary list arrays allow us to access their element by number. The first element of array @food is $food[0]. The second element is $food[1], and so on. But Perl also allows us to create arrays which are accessed by string. These are called associative arrays. To define an associative array we use the usual parenthesis notation, but the array itself is prefixed by a % sign. Suppose we want to create an array of people and their ages. It would look like this: %ages = ("Michael Caine", 39, "Dirty Den", 34, "Angie", 27, "Willy", "21 in dog years", "The Queen Mother", 108); Now we can find the age of people with the following expressions $ages{"Michael Caine"};