Minor changes to the script 'manipulating lists'.

1 files changed, 153 insertions, 5 deletions

diff --git a/manipulating_lists/script.rst b/manipulating_lists/script.rst
index b8727a9..7fe6aea 100644
--- a/manipulating_lists/script.rst
+++ b/manipulating_lists/script.rst
@@ -19,31 +19,49 @@
 Script
 ------
 
+.. L1
+
 {{{ Show the  first slide containing title, name of the production
 team along with the logo of MHRD }}}
 
+.. R1
+
 Hello friends and Welcome to the tutorial on 'Manipulating Lists'. 
 
+.. L2
+
 {{{ Show the slide containing objectives }}}
 
+.. R2
+
 At the end of this tutorial, you will be able to,
 
   1. Concatenate two lists
   #. Learn the details of slicing and striding of lists
   #. Sort and reverse lists.
 
+.. L3
+
 {{{ Switch to the pre-requisite slide }}}
 
+.. R3
+
 Before beginning this tutorial,we would suggest you to complete the 
 tutorial on "Getting started with Lists".
 
-{{{ Open the terminal and start ipython }}}
+.. L4
 
-let us start ipython on our terminal 
+{{{ Open the terminal and start ipython }}}
 ::
 
     ipython
 
+.. R4
+
+let us start ipython on our terminal 
+
+.. R5
+
 We have already learnt about lists in Python, how to access individual
 elements in the list and some of the functions that can be run on the
 lists like ``max, min, sum, len`` and so on. Now let us learn some of
@@ -53,16 +71,24 @@ We already know how to access individual elements in a List. But what
 if we have a scenario where we need to get a part of the entire list
 or what we call as a slice of the list? Python supports slicing on
 lists. Let us say I have the list,
+
+.. L5
 ::
 
     primes = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29]
 
+.. R6
+
 To obtain all the primes between 10 and 20 from the above list of
 primes we say
+
+.. L6
 ::
 
     primes[4:8]
 
+.. R7
+
 This gives us all the elements in the list starting from the element
 with the index 4, which is 11, upto the element with index 8
 in the list but not including the eighth element. So we obtain a slice
@@ -74,113 +100,187 @@ element with index 8 was excluded.
 
 Pause the video here, try out the following exercise and resume the video.
 
+.. L7
+
+.. L8
+
 {{{ Show slide with exercise 1 }}}
 
+.. R9
+
  Obtain the primes less than 10, from the list ``primes``. 
 
+.. R10
+
 Switch to the terminal for solution
 
+.. L10
+
 {{{continue from paused state}}}
 {{{ Switch to the terminal }}}
 ::
 
     primes[0:4]
 
+.. R11
+
 It give us the primes below 10. 
 
+.. L11
+
+.. L12
+
 {{{ Show the slide containing p[start:stop] }}}
 
+.. R12
+
 Generalizing, we can obtain a slice of the list "p" from the index
 "start" upto the index "end" but excluding "end" with the 
 syntax ``p[start:stop]``
 
+.. L13
+
 {{{ Switch to terminal }}}
 
+.. R13
+
 By default the slice fetches all the elements between start and stop
 including start but not stop. So as to say we obtain all the elements
-between start and stop in steps of one. Python also provides us the
-functionality to specify the steps in which the slice must be
-obtained. Say we have
+between start and stop in steps of one. 
+
+.. R14
+
+Python also provides us the functionality to specify the steps in which 
+the slice must be obtained. Say we have
+
+.. L14
 ::
 
     num = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13]
 
+.. R15
+
 If we want to obtain all the odd numbers less than 10 from the list
 ``num`` we have to start from element with index 1 upto the index 10 in
 steps of 2
+
+.. L15
 ::
 
     num[1:10:2]
 
+.. R16
+
 When no step is specified, it is assumed to be 1. Similarly, there are
 default values for start and stop indices as well. If we don't specify
 the start index, it is implicitly taken as the first element of the
 list
+
+.. L16
 ::
 
     num[:10]
 
+.. R17
+
 This gives us all the elements from the beginning upto the 10th
 element but not including the 10th element in the list. Similarly
 if the stop index is not specified, it is implicitly assumed to be the
 end of the list, including the last element of the list
+
+.. L17
 ::
 
     num[10:]
 
+.. R18
+
 This gives all the elements starting from the 10th element in the list
 "num" upto the final element including that last element. 
 
 
 To get all the even numbers in the list "num", we do
+
+.. L18
 ::
 
     num[::2]
 
+.. R19
+
 Pause the video here, try out the following exercise and resume the video.
 
+.. L19
+
+.. L20
+
 {{{ Show slide with exercise 2 }}}
 
+.. R20
+
  Obtain all the multiples of three from the list ``num``.
 
+.. L21
+
 {{{ Show slide with Solution 2 }}}
 
+.. R21
+
+The solution is on your screen.
+
  ``num[::3]`` gives us all the multiples of 3 from the list, since every 
 third element in it, starting from 0, is divisible by 3. 
 
+.. R22
+
 The other basic operation that we can perform on lists is concatenation
 of two or more lists. We can combine two lists by using the "plus"
 operator. Say we have
 
+.. L22
 ::
 
     a = [1, 2, 3, 4]
     b = [4, 5, 6, 7]
     a + b
 
+.. R23
+
 When we concatenate lists using the "plus" operator we get a new
 list. We can store this list in a new variable,say c,
+
+.. L23
 ::
 
     c = a + b
     c
 
+.. R24
+
 It is important to observe that the "plus" operator always returns a
 new list without altering the lists being concatenated in any way. 
 
 We know that a list is a collection of data. Whenever we have a
 collection, we run into situations where we want to sort the
 collection. Lists support ``sort`` method which sorts the list in place
+
+.. L24
 ::
 
     a = [5, 1, 6, 7, 7, 10]
     a.sort()
 
+.. R25
+
 Now the contents of the list ``a`` will be
+
+.. L25
 ::
 
     a
 
+.. R26
+
 As the ``sort`` method sorts the elements of a list, the original list 
 we had, is overwritten or replaced. We have no way to obtain the 
 original list back. One way to avoid this is to keep a copy of the 
@@ -188,62 +288,99 @@ original list in another variable and run the sort method on the list.
 However Python also provides a built-in function called sorted which 
 sorts the list which is passed as an argument to it and returns a new 
 sorted list
+
+.. L26
 ::
 
     a = [5, 1, 6, 7, 7, 10]
     sorted(a)
+
+.. R27
   
 We can store this sorted list into another list variable
+
+.. L27
 ::
 
     sa = sorted(a)
 
+.. R28
+
 Python also provides the ``reverse`` method which reverses
 the list in place
+
+.. L28
 ::
 
     a = [1, 2, 3, 4, 5]
     a.reverse()
 
+.. R29
+
 the ``reverse`` method reverses the list "a" and stores the reversed 
 list in place i.e. in "a" itself. Lets see the list "a"
+
+.. L29
 ::
 
     a
 
+.. R30
+
 But again the original list is lost. 
 
 To reverse a list, we could use striding with negative indexing.
+
+.. L30
 ::
 
     a[::-1]
 
+.. R31
+
 We can also store this new reversed list in another list variable.
 
  Pause the video here, try out the following exercise and resume the video.
 
+.. L31
+
+.. L32
+
 {{{ Show slide with exercise 3 }}}
 
+.. R32
+
  Given a list of marks of students in an examination, obtain a
  list with marks in descending order.
   marks = [99, 67, 47, 100, 50, 75, 62]
 
+.. R33
+
 Switch to terminal for solution.
 
+.. L33
+
 {{{continue from paused state}}}
 {{{ Switch to the terminal }}}
 ::
 
     sorted(marks)[::-1]
 
+.. R34
+
 OR
 
+.. L34
 ::
   
     sorted(marks, reverse = True)
 
+.. L35
+
 {{{ Show summary slide }}}
 
+.. R35
+
 This brings us to the end of this tutorial. In this tutorial,
 we have learnt to,
 
@@ -252,8 +389,12 @@ we have learnt to,
   #. Sort lists using the ``sort`` method. 
   #. Use the method ``reverse`` to reverse the lists.
 
+.. L36
+
 {{{Show self assessment questions slide}}}
 
+.. R36
+
 Here are some self assessment questions for you to solve
 
 1. Given the list primes, ``primes = [2, 3, 5, 7, 11, 13, 17, 19, 23,
@@ -266,9 +407,12 @@ Here are some self assessment questions for you to solve
   
 3. ``reversed`` function reverses a list in place. True or False?
 
+.. L37
 
 {{{solution of self assessment questions on slide}}}
 
+.. R37
+
 And the answers,
 
 1. The last four primes can be obtained from the given list as,
@@ -283,8 +427,12 @@ And the answers,
 
 3. False. The function ``reverse`` will reverse a list in place.
 
+.. L38
+
 {{{ Show the thank you slide }}}
 
+.. R38
+
 Hope you have enjoyed this tutorial and found it useful.
 Thank you!