Advanced Bash-Scripting Guide: An in-depth exploration of the art of shell scripting | ||
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Prev | Chapter 12. External Filters, Programs and Commands | Next |
Decompose an integer into prime factors.
bash$ factor 27417 27417: 3 13 19 37 |
Bash can't handle floating point calculations, and it lacks operators for certain important mathematical functions. Fortunately, bc comes to the rescue.
Not just a versatile, arbitrary precision calculation utility, bc offers many of the facilities of a programming language.
bc has a syntax vaguely resembling C.
Since it is a fairly well-behaved UNIX utility, and may therefore be used in a pipe, bc comes in handy in scripts.
Here is a simple template for using bc to calculate a script variable. This uses command substitution.
variable=$(echo "OPTIONS; OPERATIONS" | bc) |
Example 12-39. Monthly Payment on a Mortgage
1 #!/bin/bash 2 # monthlypmt.sh: Calculates monthly payment on a mortgage. 3 4 5 # This is a modification of code in the "mcalc" (mortgage calculator) package, 6 #+ by Jeff Schmidt and Mendel Cooper (yours truly, the author of this document). 7 # http://www.ibiblio.org/pub/Linux/apps/financial/mcalc-1.6.tar.gz [15k] 8 9 echo 10 echo "Given the principal, interest rate, and term of a mortgage," 11 echo "calculate the monthly payment." 12 13 bottom=1.0 14 15 echo 16 echo -n "Enter principal (no commas) " 17 read principal 18 echo -n "Enter interest rate (percent) " # If 12%, enter "12", not ".12". 19 read interest_r 20 echo -n "Enter term (months) " 21 read term 22 23 24 interest_r=$(echo "scale=9; $interest_r/100.0" | bc) # Convert to decimal. 25 # "scale" determines how many decimal places. 26 27 28 interest_rate=$(echo "scale=9; $interest_r/12 + 1.0" | bc) 29 30 31 top=$(echo "scale=9; $principal*$interest_rate^$term" | bc) 32 33 echo; echo "Please be patient. This may take a while." 34 35 let "months = $term - 1" 36 # ==================================================================== 37 for ((x=$months; x > 0; x--)) 38 do 39 bot=$(echo "scale=9; $interest_rate^$x" | bc) 40 bottom=$(echo "scale=9; $bottom+$bot" | bc) 41 # bottom = $(($bottom + $bot")) 42 done 43 # -------------------------------------------------------------------- 44 # Rick Boivie pointed out a more efficient implementation 45 #+ of the above loop, which decreases computation time by 2/3. 46 47 # for ((x=1; x <= $months; x++)) 48 # do 49 # bottom=$(echo "scale=9; $bottom * $interest_rate + 1" | bc) 50 # done 51 52 53 # And then he came up with an even more efficient alternative, 54 #+ one that cuts down the run time by about 95%! 55 56 # bottom=`{ 57 # echo "scale=9; bottom=$bottom; interest_rate=$interest_rate" 58 # for ((x=1; x <= $months; x++)) 59 # do 60 # echo 'bottom = bottom * interest_rate + 1' 61 # done 62 # echo 'bottom' 63 # } | bc` # Embeds a 'for loop' within command substitution. 64 65 # ==================================================================== 66 67 # let "payment = $top/$bottom" 68 payment=$(echo "scale=2; $top/$bottom" | bc) 69 # Use two decimal places for dollars and cents. 70 71 echo 72 echo "monthly payment = \$$payment" # Echo a dollar sign in front of amount. 73 echo 74 75 76 exit 0 77 78 # Exercises: 79 # 1) Filter input to permit commas in principal amount. 80 # 2) Filter input to permit interest to be entered as percent or decimal. 81 # 3) If you are really ambitious, 82 # expand this script to print complete amortization tables. |
Example 12-40. Base Conversion
1 #!/bin/bash 2 ########################################################################## 3 # Shellscript: base.sh - print number to different bases (Bourne Shell) 4 # Author : Heiner Steven (heiner.steven@odn.de) 5 # Date : 07-03-95 6 # Category : Desktop 7 # $Id: base.sh,v 1.2 2000/02/06 19:55:35 heiner Exp $ 8 # ==> Above line is RCS ID info. 9 ########################################################################## 10 # Description 11 # 12 # Changes 13 # 21-03-95 stv fixed error occuring with 0xb as input (0.2) 14 ########################################################################## 15 16 # ==> Used in this document with the script author's permission. 17 # ==> Comments added by document author. 18 19 NOARGS=65 20 PN=`basename "$0"` # Program name 21 VER=`echo '$Revision: 1.2 $' | cut -d' ' -f2` # ==> VER=1.2 22 23 Usage () { 24 echo "$PN - print number to different bases, $VER (stv '95) 25 usage: $PN [number ...] 26 27 If no number is given, the numbers are read from standard input. 28 A number may be 29 binary (base 2) starting with 0b (i.e. 0b1100) 30 octal (base 8) starting with 0 (i.e. 014) 31 hexadecimal (base 16) starting with 0x (i.e. 0xc) 32 decimal otherwise (i.e. 12)" >&2 33 exit $NOARGS 34 } # ==> Function to print usage message. 35 36 Msg () { 37 for i # ==> in [list] missing. 38 do echo "$PN: $i" >&2 39 done 40 } 41 42 Fatal () { Msg "$@"; exit 66; } 43 44 PrintBases () { 45 # Determine base of the number 46 for i # ==> in [list] missing... 47 do # ==> so operates on command line arg(s). 48 case "$i" in 49 0b*) ibase=2;; # binary 50 0x*|[a-f]*|[A-F]*) ibase=16;; # hexadecimal 51 0*) ibase=8;; # octal 52 [1-9]*) ibase=10;; # decimal 53 *) 54 Msg "illegal number $i - ignored" 55 continue;; 56 esac 57 58 # Remove prefix, convert hex digits to uppercase (bc needs this) 59 number=`echo "$i" | sed -e 's:^0[bBxX]::' | tr '[a-f]' '[A-F]'` 60 # ==> Uses ":" as sed separator, rather than "/". 61 62 # Convert number to decimal 63 dec=`echo "ibase=$ibase; $number" | bc` # ==> 'bc' is calculator utility. 64 case "$dec" in 65 [0-9]*) ;; # number ok 66 *) continue;; # error: ignore 67 esac 68 69 # Print all conversions in one line. 70 # ==> 'here document' feeds command list to 'bc'. 71 echo `bc <<! 72 obase=16; "hex="; $dec 73 obase=10; "dec="; $dec 74 obase=8; "oct="; $dec 75 obase=2; "bin="; $dec 76 ! 77 ` | sed -e 's: : :g' 78 79 done 80 } 81 82 while [ $# -gt 0 ] 83 # ==> Is a "while loop" really necessary here, 84 # ==>+ since all the cases either break out of the loop 85 # ==>+ or terminate the script. 86 # ==> (Thanks, Paulo Marcel Coelho Aragao.) 87 do 88 case "$1" in 89 --) shift; break;; 90 -h) Usage;; # ==> Help message. 91 -*) Usage;; 92 *) break;; # first number 93 esac # ==> More error checking for illegal input might be useful. 94 shift 95 done 96 97 if [ $# -gt 0 ] 98 then 99 PrintBases "$@" 100 else # read from stdin 101 while read line 102 do 103 PrintBases $line 104 done 105 fi 106 107 108 exit 0 |
An alternate method of invoking bc involves using a here document embedded within a command substitution block. This is especially appropriate when a script needs to pass a list of options and commands to bc.
1 variable=`bc << LIMIT_STRING 2 options 3 statements 4 operations 5 LIMIT_STRING 6 ` 7 8 ...or... 9 10 11 variable=$(bc << LIMIT_STRING 12 options 13 statements 14 operations 15 LIMIT_STRING 16 ) |
Example 12-41. Invoking bc using a "here document"
1 #!/bin/bash 2 # Invoking 'bc' using command substitution 3 # in combination with a 'here document'. 4 5 6 var1=`bc << EOF 7 18.33 * 19.78 8 EOF 9 ` 10 echo $var1 # 362.56 11 12 13 # $( ... ) notation also works. 14 v1=23.53 15 v2=17.881 16 v3=83.501 17 v4=171.63 18 19 var2=$(bc << EOF 20 scale = 4 21 a = ( $v1 + $v2 ) 22 b = ( $v3 * $v4 ) 23 a * b + 15.35 24 EOF 25 ) 26 echo $var2 # 593487.8452 27 28 29 var3=$(bc -l << EOF 30 scale = 9 31 s ( 1.7 ) 32 EOF 33 ) 34 # Returns the sine of 1.7 radians. 35 # The "-l" option calls the 'bc' math library. 36 echo $var3 # .991664810 37 38 39 # Now, try it in a function... 40 hyp= # Declare global variable. 41 hypotenuse () # Calculate hypotenuse of a right triangle. 42 { 43 hyp=$(bc -l << EOF 44 scale = 9 45 sqrt ( $1 * $1 + $2 * $2 ) 46 EOF 47 ) 48 # Unfortunately, can't return floating point values from a Bash function. 49 } 50 51 hypotenuse 3.68 7.31 52 echo "hypotenuse = $hyp" # 8.184039344 53 54 55 exit 0 |
Example 12-42. Calculating PI
1 #!/bin/bash 2 # cannon.sh: Approximating PI by firing cannonballs. 3 4 # This is a very simple instance of a "Monte Carlo" simulation, 5 #+ a mathematical model of a real-life event, 6 #+ using pseudorandom numbers to emulate random chance. 7 8 # Consider a perfectly square plot of land, 10000 units on a side. 9 # This land has a perfectly circular lake in its center, 10 #+ with a diameter of 10000 units. 11 # The plot is actually all water, except for the four corners. 12 # (Think of it as a square with an inscribed circle.) 13 # 14 # Let us fire iron cannonballs from an old-style cannon 15 #+ at the square of land. 16 # All the shots impact somewhere on the plot of land, 17 #+ either in the lake or on the dry corners. 18 # Since the lake takes up most of the land area, 19 #+ most of the shots will SPLASH! into the water. 20 # Just a few shots will THUD! into solid ground 21 #+ in the four corners of the land. 22 # 23 # If we take enough random, unaimed shots at the plot of land, 24 #+ Then the ratio of SPLASHES to total shots will approximate 25 #+ the value of PI/4. 26 # 27 # The reason for this is that the cannon is actually shooting 28 #+ only at the upper right-hand quadrant of the square, 29 #+ i.e., Quadrant I of the Cartesian coordinate plane. 30 # (The previous explanation was a simplification.) 31 # 32 # Theoretically, the more shots taken, the better the fit. 33 # However, a shell script, as opposed to a compiled language 34 #+ with floating-point math built in, requires a few compromises. 35 # This tends to lower the accuracy of the simulation, unfortunately. 36 37 38 DIMENSION=10000 # Length of each side of the plot of land. 39 # Also sets ceiling for random integers generated. 40 41 MAXSHOTS=1000 # Fire this many shots. 42 # 10000 or more would be better, but would take too long. 43 PMULTIPLIER=4.0 # Scaling factor to approximate PI. 44 45 get_random () 46 { 47 SEED=$(head -1 /dev/urandom | od -N 1 | awk '{ print $2 }') 48 RANDOM=$SEED # From "seeding-random.sh" 49 #+ example script. 50 let "rnum = $RANDOM % $DIMENSION" # Range less than 10000. 51 echo $rnum 52 } 53 54 distance= # Declare global variable. 55 hypotenuse () # Calculate hypotenuse of a right triangle. 56 { # From "alt-bc.sh" example. 57 distance=$(bc -l << EOF 58 scale = 0 59 sqrt ( $1 * $1 + $2 * $2 ) 60 EOF 61 ) 62 # Setting "scale" to zero rounds down result to integer value, 63 #+ a necessary compromise in this script. 64 # This diminshes the accuracy of the simulation, unfortunately. 65 } 66 67 68 # main() { 69 70 # Initialize variables. 71 shots=0 72 splashes=0 73 thuds=0 74 Pi=0 75 76 while [ "$shots" -lt "$MAXSHOTS" ] # Main loop. 77 do 78 79 xCoord=$(get_random) # Get random X and Y coords. 80 yCoord=$(get_random) 81 hypotenuse $xCoord $yCoord # Hypotenuse of right-triangle = 82 #+ distance. 83 ((shots++)) 84 85 printf "#%4d " $shots 86 printf "Xc = %4d " $xCoord 87 printf "Yc = %4d " $yCoord 88 printf "Distance = %5d " $distance # Distance from 89 #+ center of lake, 90 # the "origin," 91 #+ coordinate (0,0). 92 93 if [ "$distance" -le "$DIMENSION" ] 94 then 95 echo -n "SPLASH! " 96 ((splashes++)) 97 else 98 echo -n "THUD! " 99 ((thuds++)) 100 fi 101 102 Pi=$(echo "scale=9; $PMULTIPLIER*$splashes/$shots" | bc) 103 # Multiply ratio by 4.0. 104 echo -n "PI ~ $Pi" 105 echo 106 107 done 108 109 echo 110 echo "After $shots shots, PI looks like approximately $Pi." 111 # Tends to run a bit high . . . 112 # Probably due to round-off error and imperfect randomness of $RANDOM. 113 echo 114 115 # } 116 117 exit 0 118 119 # One might well wonder whether a shell script is appropriate for 120 #+ an application as complex and computation-intensive as a simulation. 121 # 122 # There are at least two justifications. 123 # 1) As a proof of concept: to show it can be done. 124 # 2) To prototype and test the algorithms before rewriting 125 #+ it in a compiled high-level language. |
The dc (desk calculator) utility is stack-oriented and uses RPN ("Reverse Polish Notation"). Like bc, it has much of the power of a programming language.
Most persons avoid dc, since it requires non-intuitive RPN input. Yet it has its uses.
Example 12-43. Converting a decimal number to hexadecimal
1 #!/bin/bash 2 # hexconvert.sh: Convert a decimal number to hexadecimal. 3 4 BASE=16 # Hexadecimal. 5 6 if [ -z "$1" ] 7 then 8 echo "Usage: $0 number" 9 exit $E_NOARGS 10 # Need a command line argument. 11 fi 12 # Exercise: add argument validity checking. 13 14 15 hexcvt () 16 { 17 if [ -z "$1" ] 18 then 19 echo 0 20 return # "Return" 0 if no arg passed to function. 21 fi 22 23 echo ""$1" "$BASE" o p" | dc 24 # "o" sets radix (numerical base) of output. 25 # "p" prints the top of stack. 26 # See 'man dc' for other options. 27 return 28 } 29 30 hexcvt "$1" 31 32 exit 0 |
Studying the info page for dc gives some insight into its intricacies. However, there seems to be a small, select group of dc wizards who delight in showing off their mastery of this powerful, but arcane utility.
Example 12-44. Factoring
1 #!/bin/bash 2 # factr.sh: Factor a number 3 4 MIN=2 # Will not work for number smaller than this. 5 E_NOARGS=65 6 E_TOOSMALL=66 7 8 if [ -z $1 ] 9 then 10 echo "Usage: $0 number" 11 exit $E_NOARGS 12 fi 13 14 if [ "$1" -lt "$MIN" ] 15 then 16 echo "Number to factor must be $MIN or greater." 17 exit $E_TOOSMALL 18 fi 19 20 # Exercise: Add type checking (to reject non-integer arg). 21 22 echo "Factors of $1:" 23 # --------------------------------------------------------------------------------- 24 echo "$1[p]s2[lip/dli%0=1dvsr]s12sid2%0=13sidvsr[dli%0=1lrli2+dsi!>.]ds.xd1<2" | dc 25 # --------------------------------------------------------------------------------- 26 # Above line of code written by Michel Charpentier <charpov@cs.unh.edu>. 27 # Used with permission (thanks). 28 29 exit 0 |
Yet another way of doing floating point math in a script is using awk's built-in math functions in a shell wrapper.
Example 12-45. Calculating the hypotenuse of a triangle
1 #!/bin/bash 2 # hypotenuse.sh: Returns the "hypotenuse" of a right triangle. 3 # ( square root of sum of squares of the "legs") 4 5 ARGS=2 # Script needs sides of triangle passed. 6 E_BADARGS=65 # Wrong number of arguments. 7 8 if [ $# -ne "$ARGS" ] # Test number of arguments to script. 9 then 10 echo "Usage: `basename $0` side_1 side_2" 11 exit $E_BADARGS 12 fi 13 14 15 AWKSCRIPT=' { printf( "%3.7f\n", sqrt($1*$1 + $2*$2) ) } ' 16 # command(s) / parameters passed to awk 17 18 19 echo -n "Hypotenuse of $1 and $2 = " 20 echo $1 $2 | awk "$AWKSCRIPT" 21 22 exit 0 |