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LIS651 lecture 4 regular expressions

Thomas Krichel 2006-04 -22. LIS651 lecture 4 regular expressions. remember DOS?. DOS had the * character as a wildcard. If you said DIR *.EXE It would list all the files ending with .EXE Thus the * wildcard would mean “all characters except the dot” Similarly, you could say DEL *.*

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LIS651 lecture 4 regular expressions

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  1. Thomas Krichel 2006-04-22 LIS651 lecture 4regular expressions

  2. remember DOS? • DOS had the * character as a wildcard. If you said DIR *.EXE • It would list all the files ending with .EXE • Thus the * wildcard would mean “all characters except the dot” • Similarly, you could say DEL *.* • to delete all your files

  3. regular expression • Is nothing but a fancy wildcard. • There are various flavours of regular expressions. • We will be using POSIX regular expressions here. They themselves come in two flavors • old-style • extended We study extended here aka POSIX 1003.2. • Perl regular expressions are more powerful and more widely used. • POSIX regular expressions are accepted by both PHP and mySQL. Details are to follow.

  4. pattern • The regular expression describes a pattern of characters. • Patters are common in other circumstances. • Query: ‘Krichel Thomas’ in Google • Query: ‘"Thomas Krichel"’ in Google • Dates are of the form yyyy-mm-dd.

  5. pattern matching • We say that a regular expression matches the string if an instance of the pattern described by the regular expression can be found in the string. • If we say “matches in the string” may make it a little more clearer. • Sometimes people also say that the string matches the regular expression. • I am confused.

  6. metacharacters • Instead of just giving the star * special meaning, in a regular expression all the following have special meaning \ ^ $ . | ( ) * + { } ? [ ] • Collectively, these characters are knows as metacharacters. They don't stand for themselves but they mean something else. • For example DEL *.EXE does not mean: delete the file "*.EXE". It means delete anything ending with .EXE.

  7. metacharacters • We are somehow already familiar with metacharacters. • In XML < means start of an element. To use < literally, you have to use &lt; • In PHP the "\n" does not mean backslash and then n. It means the newline character.

  8. simple regular expressions • Characters that are not metacharacters just simply mean themselves ‘good’ does not match in ‘Good Beer’ ‘d B’ matches in ‘Good Beer’ ‘dB’ does not match in ‘Good Beer’ ‘Beer ' does not match in ‘Good Beer’ • If there are serveral matches, the pattern will match at the first occurance ‘o’ matches in ‘Good Beer’

  9. the backslash \ quote • If you want to match a metacharacter in the string, you have to quote it with the backslash ‘a 6+ pack’ does not match in ‘a 6+ pack’ ‘a 6\+ pack’ does match in ‘a 6+ pack’ ‘\’ does not match in ‘a \ against boozing’ ‘\\’ does match in ‘a \ against boozing’

  10. other characters to be quoted • Certain non-metacharacters also need to be quoted. These include some of the usual suspects • \n the newline • \r the carriage return • \t the tabulation character • But this quoting occurs by virtue of PHP, it is not part of the regular expression. • Remember Sandford’s law.

  11. anchor metacharacters ^ and $ • ^ matches at the beginning of the string. • $ matches at the end of the string. ‘keeper’ matches in ‘beerkeeper’ ‘keeper$’ matches in ‘beerkeeper’ ‘^keeper’ does not match in ‘beerkeeper’ ‘^$’ matches in ‘’ • Note that in a double quoted-string an expression starting with $ will be replaced by the variable's string value (or nothing if the variable has not been set).

  12. character classes • We can define a character class by grouping a list of characters between [ and ] ‘b[ie]er’ matches in ‘beer’ ‘b[ie]er’ matches in ‘bier’ ‘[Bb][ie]er’ matches in ‘Bier’ • Within a class, metacharacters need not be escaped. In the class only -, ] and ^ are metacharacters.

  13. - in the character class • Within a character class, the dash - becomes a metacharacter. • You can use to give a range, according to the sequence of characters in the character set you are using. It’s usually alphabetic ‘be[a-e]r’ matches in ‘beer’ ‘be[a-e]r’ matches in ‘becr’ ‘be[a-e]r’ does not match in ‘befr’ • If the dash - is the last character in the class, it is treated like an ordinary character.

  14. ] in the character class • ] gives you the end of the class. But if you put it first, it is treated like an ordinary character, because having it there otherwise would create an empty class, and that would make no sense. ‘be[],]r’ matches in ‘be]r’

  15. ^ in the character class • If the caret ^ appears as the first element in the class, it negates the characters mentioned. ‘be[^i]r’ matches in ‘beer’ ‘b[^ie]er’ does not match in ‘bier’ ‘be[^a-e]r’ does match in ‘befr’ ‘be[e^]r’ matches in ‘beer’ ‘beer[^6-9] matches ‘beer0’ to ‘beer5’ • Otherwise, it is an ordinary character.

  16. standard character classes • The following predefined classes exist [:alnum:] any alphanumeric characters [:digit:] any digits [:punct:] any punctuation characters [:alpha:] any alphabetic characters (letters) [:graph:] any graphic characters [:space:] any space character (blank and \n, \r) [:blank:] any blank character (space and tab) [:lower:] any lowercase character

  17. standard character classes [:upper:] any uppercase character [:cntrl:] any control character [:print:] any printable character [:xdigit:] any character for a hex number • They are locale and operating system dependent. • With this discussion we leave character classes.

  18. The period . metacharacter • The period matches any character bar the newline \n. • The reason why the \n is not counted is historic. In olden days matching was done line by line, because the computer could not hold as much memory. ‘.’ does not match in ‘’; ‘^.$’ does not match in "\n" ‘^.$ matches in ‘a’

  19. alternative operator | • This acts like an or ‘beer|wine’ matches in ‘beer’ ‘beer|wine’ matches in ‘wine’ • Alternatives are performed last, i.e. they take the component alternative as large as they can.

  20. grouping with ( ) • You can use ( ) to group ‘(beer|wine) (glass|)’ matches in ‘beer glass’ ‘(beer|wine) (glass|)’ matches in ‘wine glass’ ‘(beer|wine) (glass|)’ matches in ‘beer ’ ‘(beer|wine) (glass|)’ matches in ‘wine ’ ‘(beer|wine) (glass(es|)|)’ matches in ‘beer glasses’ • Yes, groups can be nested.

  21. repetition operators • * means zero or more times what preceeds it. • + means one or more times what preceeds it. • ? means zero or one time what preceeds it. • The shortest preceding expression is used, i.e. either a single character or a group. (beer )* matches in ‘’ (beer )? matches in ‘’ (beer )+ matches in ‘beer beer beer’ be+r matches in ‘beer’ be+r does not match in ‘bebe’

  22. enumeration • We can use {min,max} to give a minimum min and a maximum max. min and max are positive integers. ‘be{1,3}r’ matches in ‘ber’ ‘be{1,3}r’ matches in ‘beer’ ‘be{1,3}r’ matches in ‘beeer’ ‘be{1,3}r’ does not matches in ‘beeeer’ • ? is just a shorthand for {0,1} • + is just a shorthand for {1,} • * is just a shorthand for {0,}

  23. examples • US zip code ^[0-9]{5}(-[0-9]{4})?$ • something like a current date in ISO form ^(20[0-9]{2})-(0[1-9]|1[0-2])-([12][0-9]|3[01])$ • Something like a Palmer School course code (DIS[89])|(LIS[5-9]))[0-9]{2} • Something like an XML tag </*[:alpha:]+ */*>

  24. not using posix regular expressions • Do not use regular expressions when you want to accomplish a simple for which there is a special PHP function already available. • A special PHP function will usually do the specialized task easier. Parsing and understanding the regular expression takes the machine time.

  25. ereg() • ereg(regex, string) searches for the pattern described in regex within the string string. • It returns the false if no string was found. • If you call the function as ereg(regex, string, matches) the matches will be stored in the array matches. Thus matches will be a numeric array of the grouped parts (something in ()) of the string in the string. The first group match will be $matches[1].

  26. ereg_replace • ereg_replace ( regex, replacement, string ) searches for the pattern described in regex within the string string and replaces occurrences with replacement. It returns the replaced string. • If replacement contains expressions of the form \\number, where number is an integer between 1 and 9, the number sub-expression is used. $better_order=ereg_replace('glass of (Karlsberg|Bruch)', 'pitcher of \\1',$order);

  27. split() • split(regex, string, [max]) splits the string string at the occurrences of the pattern described by the regular expression regex. It returns an array. The matched pattern is not included. • If the optional argument max is given, it means the maximum number of elements in the returned array. The last element then contains the unsplit rest of the string string. • Use explode() if you are not splitting at a regular expression pattern. It is faster.

  28. case-insensitive function • eregi() does the same as ereg() but work case-insensitively. • eregi_replace() does the same as ereg_replace() but work case-insensitively. • spliti() does the same as split() but work case-insensitively.

  29. regular expressions in mySQL • You can use POSIX regular expressions in mySQL in the SELECT command SELECT … WHERE REGEXP ‘regex’ • where regex is a regular expression.

  30. communication with wotan • For file editing and manipulation, we use putty. • For file transfer, we use winscp. • Both are available on the web. • The protocol is ssh, the secure shell, based public-key cryptography.

  31. installing putty • Go to your favorite search engine to search for putty. • If you have administrator rights install the installer version. • Since you have already installed winscp, you should have no further problems.

  32. putty options • In the window/translation choose UTF-8, always. • Find out what the size of your screen is of screen that your are using for the font that you are using, and save that in your session. • For wotan, the port is 22, ssh. • You can choose to disable the annoying bell.

  33. issuing commands • While you are logged in, you talk to the computer by issuing commands. • Your commands are read by command line interpreter. • The command line interpreter is called a shell. • You are using the Bourne Again Shell, bash.

  34. bash features • bash allows to browse the command history with the up/down arrow keys • bash allows to edit commands with the left/right arrow keys • “exit” is the command to leave the shell.

  35. files, directories and links • Files are continuous chunks data on disks that are required for software applications. • Directories are files that contain other files. Microsoft calls them folders. • In UNIX, the directory separator is “/” • The top directory is “/” on its own.

  36. home directory • When you first log in to wotan you are placed in your home directory /home/username • “cd” is the command that gets you back to the home directory. • The home directory is also abbreviated as “~“ • cd ~user gets you to the home of user user. • “cd ~” does what?

  37. ~/public_html • Is your web directory. I created it with “mkdir public_html” in your home directory. • The web server on wotan will map requests to http://wotan.liu.edu/~user to show the file ~user/public_html/index.html • The web server will map requests to http://wotan.liu.edu/~user/file to show the file ~user/public_html/file • The server will do this by virtue of a configuration option.

  38. changing directory, listing files • cd directory changes into the directory directory • the current directory is “.” • its parent directory is “..” • ls lists files

  39. users and groups • “root” is the user name of the superuser. • The superuser has all privileges. • There are other physical users, i.e. persons using the machine • There are users that are virtual, usually created to run a daemon. For example, the web sever in run by a user www-data. • Arbitrary users can be put together in groups.

  40. permission model • Permission of files are given • to the owner of the file • to the the group of the file • and to the rest of the world • A group is a grouping of users. Unix allows to define any number of groups and make users a member of it. • The rest of the world are all other users who have access to the system. That includes www-data!

  41. listing files • “ls” lists files • “ls -l” make a long listing. It contains • elementary type and permissions (see next slide) • owner • group • size • date • name

  42. first element in ls -l • Type indicator • d means directory • l means link • - means ordinary file • 3 letters for permission of owner • 3 letters for permission of group • 3 letters for permission of rest of the world • r means read, w means write, x means execute • Directories need to be executable to get in them…

  43. change permission: chmod • usage: chmod permission file • file is a file • permisson is three numbers, for owner, group and rest of the world. • Each number is sum of elementary numbers • 4 is read • 2 is write • 1 is excute • 0 means no permission. • Example: chmod 764 file

  44. general structure of commands • commandname –flag --option • Where commandname is a name of a command • flag can be a letter • Several letters set several flags at the same time • An option can also be expressed with - - and a word, this is more user-friendly than flags.

  45. example command: ls • ls lists files • ls -l makes a long listing • ls -a lists all files, not only regular files but some hidden files as well • all files that start with a dot are hidden • ls -la lists all files is long listing • ls --all is the same as ls -a. --all is known as a long listing.

  46. copying and removing files • cp file copyfile copies file file to file copyfile. If copyfile is a directory, it copies into the directory. • mv file movedfile moves file file to file movedfile. If movedfile is a directory, it moves into the directory. • rm file removes file,there is no recycling bin!!

  47. directories and files • mkdir directory makes a directory • rmdir directory removes an empty directory • rm -r directory removes a directory and all its files • more file • Pages contents of file, no way back • less file • Pages contents of file, “u” to go back, “q” to quit

  48. soft links • A link is a file that contain the address of another file. Microsoft call it a shortcut. • A soft link can be created with the command • ln -s file link_to_file where file is a file that is already there and link_to_file is the link.

  49. file transfer • You can use winscp to upload and download files to wotan. • If uploaded files in the web directory remain invisible, that is most likely a problem with permission. Refer back to permissions. • chmod 644 * will put it right for the files • chmod 755 . (yes with a dot) will put it right for the current directory • * is a wildcard for all files. • rm -r * is a command to avoid.

  50. editing • There are a plethora of editors available. • For the neophyte, nano works best. • nano file edits the file file. • nano -w switches off line wrapping. • nano shows the commands available at the bottom of the screen. Note that ^letter, where letter is a letter, means pressing CONTROL and the letter letter at the same time.

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