Removed multiple-plots.rst
authorPuneeth Chaganti <punchagan@fossee.in>
Wed, 13 Oct 2010 11:15:18 +0530
changeset 316 4bebfa8c9a0a
parent 315 7944a4504769
child 317 c6d31837cb06
Removed multiple-plots.rst
multiple-plots.rst
--- a/multiple-plots.rst	Wed Oct 13 11:14:25 2010 +0530
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,362 +0,0 @@
-Hello friends. Welcome to this spoken tutorial on Multiple plots.
-
-{{{ Show the slide containing the title }}}
-
-{{{ Show the slide containing the outline }}}
-
-In this tutorial, we will learn how to draw more than one plot, how to
-add legends to each plot to indicate what each plot represents. We
-will also learn how to switch between the plots and create multiple
-plots with different regular axes which are also called as subplots.
-
-.. #[Nishanth]: See diff - edited a grammatical mistake
-.. #[Madhu: Done]
-
-{{{ Shift to terminal and start ipython -pylab }}}
-
-To begin with let us start ipython with pylab, by typing::
-
-  ipython -pylab
-
-on the terminal
-
-Let us first create set of points for our plot. For this we will use
-the command called linspace::
-
-  x = linspace(0, 50, 10)
-
-linspace command creates 10 points in the interval between 0 and 50
-both inclusive. We assign these values to a variable called x.
-
-.. #[Nishanth]: pre requisite for this LO is basic plotting which
-                covers linspace and plot. So you may not need to 
-                specify all that again. But not a problem if it is
-                there also.
-.. #[Madhu: Since I thought the LOs are disconnected, I thought it is
-     better to give a very short intro to it]
-
-Now let us draw a plot simple sine plot using these points::
-
-  plot(x, sin(x))
-
-This should give us a nice sine plot.
-
-{{{ Switch to the plot window }}}
-
-Oh! wait! Is that a nice sine plot? Does a sine plot actually look
-like that? We know that a sine plot is a smooth curve. Is it not? What
-really caused this?
-
-.. #[Nishanth]: See diff
-.. #[Madhu: Done]
-
-{{{ pause for a while }}}
-
-A small investigation on linspace tells us that we chose too few
-points in a large interval between 0 and 50 for the curve to be
-smooth. This should also indicate that the plot command actually plots
-the set of points given by x and sin(x) and it doesn't plot the
-analytical function itself i.e. it plots the points given by
-Analytical functions. So now let us use linspace again to get 500
-points between 0 and 100 and draw the sine plot
-
-.. #[Nishanth]: Here specify that when we do plot(x, sin(x) 
-                it is actually plotting two sets of points
-                and not analytical functions. Hence the sharp 
-                curve.
-.. #[Madhu: Incorporated]
-
-{{{ Switch to ipython andtype }}} ::
-
-  y = linspace(0, 50, 500)
-  plot(y, sin(y))
-
-{{{ Change to the plot window }}}
-
-Now we see what we remember as a sine plot. A smooth curve. If we
-carefully notice we also have two plots now one overlaid upon
-another. In pylab, by default all the plots are overlaid.
-
-Since we have two plots now overlaid upon each other we would like to
-have a way to indicate what each plot represents to distinguish
-between them. This is accomplished using legends. Equivalently, the
-legend command does this for us
-
-{{{ Switch to ipython }}}::
-
-  legend(['sin(x)', 'cos(x)'])
-
-.. #[Nishanth]: This legend may go up in the script. May be before 
-                introducing the figure command itself.
-.. #[Madhu: brought up]
-
-The legend command takes a single list of parameters where each
-parameter is the text indicating the plots in the order of their
-serial number.
-
-{{{ Switch to plot window }}}
-
-Now we can see the legends being displayed for the respective sine and
-cosine plots on the plot area.
-
-We have learnt quite a lot of things now, so let us take up an
-exercise problem.
-
-%% 1 %% Draw two plots overlaid upon each other, with the first plot
-   being a parabola of the form y = 4(x ^ 2) and the second being a
-   straight line of the form y = 2x + 3 in the interval -5 to 5. Use
-   colors to differentiate between the plots and use legends to
-   indicate what each plot is doing.
-
-{{{ pause for a while and continue from paused state }}}
-
-We can obtain the two plots in different colors using the following
-commands::
-
-  x = linspace(-5, 5, 100)
-  plot(x, 4 * (x * x), 'b')
-  plot(x, (2 * x) + 3, 'g')
-
-Now we can use the legend command as::
-
-  legend(['Parabola', 'Straight Line'])
-
-Or we can also just give the equations of the plot::
-
-  legend(['y = 4(x ^ 2)', 'y = 2x + 3'])
-
-We now know how to draw multiple plots and use legends to indicate
-which plot represents what function, but we would like to have more
-control over the plots we draw. Like switch between them, perform some
-operations or labelling on them individually and so on. Let us see how
-to accomplish this. Before we move on, let us clear our screen.
-
-{{{ Switch to ipython }}}::
-
-  clf()
-
-To accomplishing more control over individual plots we use the figure
-command::
-
-  x = linspace(0, 50, 500)
-  figure(1)
-  plot(x, sin(x), 'b')
-  figure(2)
-  plot(x, cos(x), 'g')
-
-{{{ Switch to plot window }}}
-
-Now we have two plots, a sine plot and a cosine plot in two different
-figures.
-
-.. #[Nishanth]: figure(1) and figure(2) give two different plots.
-                The remaining script moves on the fact that they 
-                give overlaid plots which is not the case.
-                So clear the figure and plot cos and sin without
-                introducing figure command. Then introduce legend
-                and finish off the everything on legend.
-                Then introduce figure command.
-
-.. #[Madhu: I have just moved up the text about legend command. I
-     think that should take care of what you suggested. If there is
-     some mistake with it, Punch please let me know in your next
-     review.]
-
-{{{ Have both plot window and ipython side by side }}}
-
-The figure command takes an integer as an argument which is the serial
-number of the plot. This selects the corresponding plot. All the plot
-commands we run after this are applied to the selected plot. In this
-example figure 1 is the sine plot and figure 2 is the cosine plot. We
-can, for example, save each plot separately
-
-{{{ Switch to ipython }}}::
-
-  savefig('/home/user/cosine.png')
-  figure(1)
-  title('sin(y)')
-  savefig('/home/user/sine.png')
-
-{{{ Have both plot window and ipython side by side }}}
-
-We also titled the our first plot as 'sin(y)' which we did not do for
-the second plot.
-
-Let us attempt another exercise problem
-
-%% 2 %% Draw a line of the form y = x as one figure and another line
-   of the form y = 2x + 3. Switch back to the first figure, annotate
-   the x and y intercepts. Now switch to the second figure and
-   annotate its x and y intercepts. Save each of them.
-
-{{{ Pause for a while and continue from the paused state }}}
-
-To solve this problem we should first create the first figure using
-the figure command. Before that, let us first run clf command to make
-sure all the previous plots are cleared::
-
-  clf()
-  figure(1)
-  x = linspace(-5, 5, 100)
-  plot(x, x)
-
-Now we can use figure command to create second plotting area and plot
-the figure::
-
-  figure(2)
-  plot(x, ((2 * x) + 3))
-
-Now to switch between the figures we can use figure command. So let us
-switch to figure 1. We are asked to annotate x and y intercepts of the
-figure 1 but since figure 1 passes through origin we will have to
-annotate the origin. We will annotate the intercepts for the second
-figure and save them as follows::
-
-  figure(1)
-  annotate('Origin', xy=(0.0, 0.0)
-  figure(2)
-  annotate('x-intercept', xy=(0, 3))
-  annotate('y-intercept', xy=(0, -1.5))
-  savefig('/home/fossee/plot2.png')
-  figure(1)
-  savefig('/home/fossee/plot1.png')
-
-At times we run into situations where we want to compare two plots and
-in such cases we want to draw both the plots in the same plotting
-area. The situation is such that the two plots have different regular
-axes which means we cannot draw overlaid plots. In such cases we can
-draw subplots.
-
-We use subplot command to accomplish this
-
-{{{ Switch to ipython }}}::
-
-  subplot(2, 1, 1)
-
-subplot command takes three arguments, the first being the number of
-rows of subplots that must be created,
-
-{{{ Have both plot window and ipython side by side }}}
-
-in this case we have 2 so it spilts the plotting area horizontally for
-two subplots. The second argument specifies the number of coloumns of
-subplots that must be created. We passed 1 as the argument so the
-plotting area won't be split vertically and the last argument
-specifies what subplot must be created now in the order of the serial
-number. In this case we passed 1 as the argument, so the first subplot
-that is top half is created. If we execute the subplot command as
-
-{{{ Switch to ipython }}}::
-
-  subplot(2, 1, 2)
-
-{{{ Switch to plot window }}}
-
-The lower subplot is created. Now we can draw plots in each of the
-subplot area using the plot command.
-
-{{{ Switch to ipython }}}::
-
-  x = linspace(0, 50, 500)
-  plot(x, cos(x))
-  subplot(2, 1, 1)
-  y = linspace(0, 5, 100)
-  plot(y, y ** 2)
-
-{{{ Have both plot window and ipython side by side }}}
-
-This created two plots one in each of the subplot area. The top
-subplot holds a parabola and the bottom subplot holds a cosine
-curve.
-
-As seen here we can use subplot command to switch between the subplot
-as well, but we have to use the same arguments as we used to create
-that subplot, otherwise the previous subplot at that place will be
-automatically erased. It is clear from the two subplots that both have
-different regular axes. For the cosine plot x-axis varies from 0 to
-100 and y-axis varies from 0 to 1 where as for the parabolic plot the
-x-axis varies from 0 to 10 and y-axis varies from 0 to 100
-
-.. #[Nishanth]: stress on the similarity between subplot and figure
-     commands
-
-.. #[Madhu: I think they are not really similar. Trying to bring in
-     the similarity will confuse people I think.]
-
-%% 3 %% We know that the Pressure, Volume and Temperatures are held by
-the equation PV = nRT where nR is a constant. Let us assume nR = .01
-Joules/Kelvin and T = 200K. V can be in the range from 21cc to
-100cc. Draw two different plots as subplots, one being the Pressure
-versus Volume plot and the other being Pressure versus Temparature
-plot.
-
-{{{ Pause for a while and continue }}}
-
-To start with, we have been given the range of Volume using which we
-can define the variable V::
-
-  V = linspace(21, 100, 500)
-
-Now we can create first subplot and draw Pressure versus Volume graph
-using this V. We know that nRT is a constant which is equal to 2.0
-since nR = 0.01 Joules/Kelvin and T = 200 Kelvin::
-
-  subplot(2, 1, 1)
-  plot(V, 2.0/V)
-
-Now we can create the second subplot and draw the Pressure versus
-Temparature plot as follows::
-
-  subplot(2, 1, 2)
-  plot(200, 2.0/V)
-
-Unfortunately we have an error now, telling x and y dimensions don't
-match. This is because our V contains a set of values as returned by
-linspace and hence 2.0/V which is the pressure also contains a set of
-values. But the first argument to the plot command is a single
-value. So to plot this data we need to create as many points as there
-are in Pressure or Volume data for Temperature too, all having the
-same value. This can be accomplished using::
-
-  T = linspace(200, 200, 500)
-
-We now have 500 values in T each with the value 200 Kelvin. Plotting
-this data we get the required plot::
-
-  plot(T, 2.0/V)
-
-It is left as a homework to label both X and Y axes for each of the
-two subplots. 
-
-{{{ Show summary slide }}}
-
-.. #[Nishanth]: Exercises are missing in the script
-                one exercise for overlaid plot and legend
-                one for figure command
-                one for subplot must do
-
-This brings us to the end of another session. In this tutorial session
-we learnt
-
- * How to draw multiple plots which are overlaid
- * the figure command
- * the legend command
- * how to switch between the plots and perform some operations on each
-   of them like saving the plots and
- * creating and switching between subplots
-
-.. #[Nishanth]: legend command can be told right after overlaid plots
-.. #[Madhu: Incorporated]
-
-{{{ Show the "sponsored by FOSSEE" slide }}}
-
-This tutorial was created as a part of FOSSEE project, NME ICT, MHRD India
-
-Hope you have enjoyed and found it useful.
-Thankyou
- 
-.. Author              : Madhu
-   Internal Reviewer 1 :         [potential reviewer: Puneeth]
-   Internal Reviewer 2 : Nishanth
-   External Reviewer   :
-