Difference between revisions of "Perl programming exercises 2"

#!/usr/bin/perl
use warnings;
use strict;

print("Hello World !\n");

exit();

#!/usr/bin/perl
use warnings;
use strict;

my $line;

$line = <STDIN>;

print( $line, "\n");

exit();

#!/usr/bin/perl
use warnings;
use strict;

while (my $line = <STDIN>) {
    $line = lc($line);
    print( $line, "\n");
}
exit();

#!/usr/bin/perl
use warnings;
use strict;

print("Enter a number: ");            # User inputs
my $input1 = <STDIN>;

print("Enter a second number: ");
my $input2 = <STDIN>;

chomp($input1);                       # Chomp off trailing newline characters
chomp($input2);

if ($input1 > $input2) {
   print("$input1 is larger than $input2.\n");
} elsif ($input1 == $input2) {
   print ("$input1 and $input2 are equal.\n");
} else {
   print ("$input2 is larger than $input1.\n");
}

exit();

#!/usr/bin/perl
use warnings;
use strict;

print("Enter a number: ");                 # User inputs
my $input1 = <STDIN>;

print("Enter a second number: ");
my $input2 = <STDIN>;

if ($input1 eq $input2) {                  # eq: string equal.
   print("Both inputs are equal.\n");
} else { 
   my $larger = compare($input1, $input2); # compare arguments in subroutine
                                           # and return larger value
   print("$larger is larger.\n");
}

exit();

# =======================================================
# Subroutine "compare" returns the larger of two inputs
# or $a if they are equal.
sub compare {

   my ($a, $b) = @_;   # Pass a list of variables into the subroutine

   chomp($a);          # Chomp off trailing newline characters
   chomp($b);          # for numeric comparison

   if ($a >= $b) {     # numeric greater-or-equal
      return($a);
   } else {
      return($b);
   }

} # end subroutine

#!/usr/bin/perl
use warnings;
use strict;

# Constants
my $COUNT = 10;    # Number of times to call randomizing subroutine

# Declare variables
my $stringInput;   # Initial input string
my @stringArray;   # Input string array after splitting into
                   # an array that stores each character in one array element

print("Enter a string to randomize: ");   # Accept user input
$stringInput = <STDIN>;

chomp($stringInput);            # Remove newline character from input string

# Split string input into an array that stores each character as a 
# separate element
@stringArray = split(//, $stringInput);

# Call randomize 10 times in order to return ten random permutations
# of the input string
for (my $i = 0; $i < $COUNT; $i++) {
   # Pass string array to subroutine "randomize"
   printRandomized(@stringArray);
}

exit();

# ===== randomize () =============================
# Subroutine "randomize" loops over every position of the array
# passed to it, and swaps the contents of this position with
# a randomly chosen other position of the array. This implements the
# so-called Fisher-Yates shuffle, an efficient in-place shuffle 
# that gives equal weight to all N! permutations.
sub printRandomized {
   my (@randArray) = @_;

   # get array size: since arrays start from index 0, the size
   # of the array is equal to the index of the last array element plus 1
   # Perl provides three ways to get the array size:
   # "$#Array" is the index of the last element.
   # You can also assign the array to a scalar, you get its size
   # as in "$N_fields = @Array;" This value is one more than "$#Array",
   # since the index of the first element is 0, not 1. 
   # For clean code I prefer the third version: "$size = scalar(@Array);"
   # since it is more explicit.
   my $arraySize = scalar(@randArray);

   # iterate through every element in the array, beginning at
   # the last element and counting down
   for (my $j = $arraySize - 1; $j > 0; $j--) {
      # assign the contents of the first element to a temporary
      # variable
      my $arrayPos1 = $randArray[$j];

      # get random array position less or equal to $j
      my $randInt = int(rand($j + 1));

      # assign the contents of the second element to a temporary
      # variable
      my $arrayPos2 = $randArray[$randInt];

      # swap the contents of the two array positions
      $randArray[$randInt] = $arrayPos1;
      $randArray[$j] = $arrayPos2;
   }  # end for (iterating through elements in the array)


   # print result of the randomization
   for (my $k = 0; $k < $arraySize; $k++) {
      print($randArray[$k]);
   }  # end for (printing randomized array)
   print("\n");

} # end subroutine "printRandomize"

int(rand($j+1))

#!/usr/bin/perl
use warnings;
use strict;

my $count = 10;                       # controls number of anagrams to print

my $string = <STDIN>;                 # retrieve one string
chomp($string);                       # if we would not chomp(), we would 
                                      # swap the linefeed into our anagrams
my $len = length($string);
my $pos;                              # a variable to store a random
                                      # position in the string

for (my $i=0; $i < $count; $i++) {    # for desired number of anagrams ...
    for (my $j=0; $j < $len; $j++) {  # for every character in string ...
        $pos = int(rand($len));       # calculate random position in string
        while ($pos == $j) {          # if this is the same integer  as $j ...
            $pos = int(rand($len));   # ... try again
        }

        my $tmp = substr($string, $j, 1);                  # store character j
        substr($string, $j, 1) = substr($string, $pos, 1); # swap pos to j
        substr($string, $pos, 1) = $tmp;                   # swap tmp to pos
    }
print($string, "\n");                 # print the randomized string
}

exit ();

my $count = 10;

my $count = 1;
if (defined($ARGV[0]) ) { $count = $ARGV[0] };

#!/usr/bin/perl
use warnings;
use strict;

my $index = 0;             # initialize a variable to use as index to array
my $currentInput;          # stores input values from STDIN
my @arrayOfStrings;        # array of strings in their original order
my @sortedArray;           # array of strings sorted in alphabetical order

while ($currentInput = <STDIN>) {               # Retrieve strings from STDIN 
   $arrayOfStrings[$index] = $currentInput;     # Store in array
   $index++;                                    # increment index
}

@sortedArray = sort(@arrayOfStrings);           # Sort array fields

for (my $i = 0; $i < $index; $i++) {            # Print all array fields
   print($sortedArray[$i]);
}

exit();

#!/usr/bin/perl
use warnings;
use strict;

# Declare variables
my $line;            # current line being read in from STDIN
my $char;            # store first character in the line (to test for ">")
my @oneLetterLine;   # split each line of FASTA file into individual letters
my %oneToThree;      # hash that stores mappings from one-letter amino acid
                     # code to three-letter amino acid code

# Initialize the hash mapping
mapOneToThree();


while ($line = <STDIN>) {           # Read input (FASTA format) line by lin
   $line = uc($line);               # Translate to uppercase characters
   $char = substr($line, 0, 1);     # Extract first character

   if ($char ne ">") {              # only if it's not the title line ...
      chomp($line);                 # chomp off the newline character

      # store each character in the line as an element in an array
      @oneLetterLine = split(//,$line);

      # get the size of the array (since arrays start at index 0,
      # the size of the array is the last array index plus 1
      my $arraySize = $#oneLetterLine + 1;

      # print three-letter amino acid code mapping
      for (my $i = 0; $i < $arraySize; $i++) {
         print($oneToThree{$oneLetterLine[$i]}, " ");

      }  # end for
   }  # end if
}  # end while

print("\n");           # Print final newline character

exit();                # Exit the program

# =================================================================
# Subroutine to generate the hash that maps one-letter amino acid
# code to three-letter amino acid code
sub mapOneToThree {

   $oneToThree{'A'} = 'Ala';
   $oneToThree{'C'} = 'Cys';
   $oneToThree{'D'} = 'Asp';
   $oneToThree{'E'} = 'Glu';
   $oneToThree{'F'} = 'Phe';
   $oneToThree{'G'} = 'Gly';
   $oneToThree{'H'} = 'His';
   $oneToThree{'I'} = 'Ile';
   $oneToThree{'K'} = 'Lys';
   $oneToThree{'L'} = 'Leu';
   $oneToThree{'M'} = 'Met';
   $oneToThree{'N'} = 'Asn';
   $oneToThree{'P'} = 'Pro';
   $oneToThree{'Q'} = 'Gln';
   $oneToThree{'R'} = 'Arg';
   $oneToThree{'S'} = 'Ser';
   $oneToThree{'T'} = 'Thr';
   $oneToThree{'V'} = 'Val';
   $oneToThree{'W'} = 'Trp';
   $oneToThree{'Y'} = 'Tyr';

}  # end sub

#!/usr/bin/perl
use warnings;
use strict;

my $number = <STDIN>;       # number is read in from STDIN
chomp($number);             # remove newline
print(fact($number),"\n");  # print statement calls subroutine fact()
exit();

# ========================================================
sub fact {

my ($n) = @_;               # receive argument via @_
my $factorial = 1;

   if ($n < 0) { 
      die("panic: fact($n) negative factorial is undefined. ");
   } elsif ($n == 0 or $n == 1) {
      return 1;
   } else {
      for (my $i = 2; $i <= $n; $i++) {
         $factorial = $factorial * $i;
      }
   }  # end if

   return $factorial;
}  # end sub

#!/usr/bin/perl
use warnings;
use strict;

my $number = <STDIN>;       # number is read in from STDIN
chomp($number);             # remove newline
print(fact($number),"\n");  # print statement calls subroutine fact()
exit();

# ========================================================
sub fact {

my ($n) = @_;

   if ($n < 0) {
      die("panic: fact($n) negative factorial is undefined. ");
   } elsif ($n == 0 or $n == 1) {
      return(1); 
   } else {
      return( $n * fact($n-1) );  # recursive: subroutine calls itself
   }
}  # end sub