Examine the following script. Run it, then explain what it does. Annotate the script and rewrite it in a more compact and elegant manner.
#!/bin/bash MAX=10000 for((nr=1; nr<$MAX; nr++)) do let "t1 = nr % 5" if [ "$t1" -ne 3 ] then continue fi let "t2 = nr % 7" if [ "$t2" -ne 4 ] then continue fi let "t3 = nr % 9" if [ "$t3" -ne 5 ] then continue fi break # What happens when you comment out this line? Why? done echo "Number = $nr" exit 0
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Explain what the following script does. It is really just a parameterized command-line pipe.
#!/bin/bash DIRNAME=/usr/bin FILETYPE="shell script" LOGFILE=logfile file "$DIRNAME"/* | fgrep "$FILETYPE" | tee $LOGFILE | wc -l exit 0
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Examine and explain the following script. For hints, you might refer to the listings for find and stat.
#!/bin/bash # Author: Nathan Coulter # This code is released to the public domain. # The author gave permission to use this code snippet in the ABS Guide. find -maxdepth 1 -type f -printf '%f\000' | { while read -d $'\000'; do mv "$REPLY" "$(date -d "$(stat -c '%y' "$REPLY") " '+%Y%m%d%H%M%S' )-$REPLY" done } # Warning: Test-drive this script in a "scratch" directory. # It will somehow affect all the files there.
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A reader sent in the following code snippet.
while read LINE do echo $LINE done < `tail -f /var/log/messages`
He wished to write a script tracking changes to the system log
file, /var/log/messages
. Unfortunately,
the above code block hangs and does nothing
useful. Why? Fix this so it does work. (Hint:
rather than redirecting the
stdin
of the loop, try a pipe.)
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Analyze the following “one-liner” (here split into two lines for clarity) contributed by Rory Winston:
export SUM=0; for f in $(find src -name "*.java"); do export SUM=$(($SUM + $(wc -l $f | awk '{ print $1 }'))); done; echo $SUM
Hint: First, break the script up into bite-sized sections. Then, carefully examine its use of double-parentheses arithmetic, the export command, the find command, the wc command, and awk.
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Analyze Example A.10, “Game of Life”, and reorganize it in a simplified and more logical style. See how many of the variables can be eliminated, and try to optimize the script to speed up its execution time.
Alter the script so that it accepts any ordinary ASCII
text file as input for its initial “generation”. The
script will read the first $ROW*$COL
characters, and set the occurrences of vowels as
“living” cells. Hint: be sure to translate the
spaces in the input file to underscore characters.