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I'm trying to use Matlab for some data plotting. In particular I need to plot a series of lines, some times given two points belonging to it, some times given the orthogonal vector.

I've used the following to obtain the plot of the line:

  1. Line given two points A = [A(1), A(2)] B = [B(1), B(2)]:

    plot([A(1),B(1)],[A(2),B(2)])
    
  2. Line given the vector W = [W(1), W(2)]':

    if( W(1) == 0 )
        plot( [W(1), rand(1)] ,[W(2), W(2)]) 
    else
        plot([W(1), W(1) + (W(2)^2 / W(1))],[W(2),0]) 
    end
    

    where I'm calculating the intersection between the x-axis and the line using the second theorem of Euclid on the triangle rectangle formed by the vector W and the line.

enter image description here

My problem as you can see from the picture above is that the line will only be plotted between the two points and not on all the range of my axis.

I have 2 questions:

  1. How can I have a line going across the whole axis range?
  2. Is there a more easy and direct way (maybe a function?) to plot the line perpendicular to a vector? (An easier and more clean way to solve point 2 above.)

Thanks in advance.

share|improve this question
    
if you have two bounds on the line, you can always use interp1 or another interpolation functions to get values outside/inside of your bounds –  MZimmerman6 Sep 10 '13 at 15:49
    
@MZimmerman6 - Thks for the comment, but I don't understand a thing: I don't need to interpolate them, cause I have the equation of the line so I can know its value on all the axis, I just need to plot it...any idea for that? –  Matteo Sep 10 '13 at 15:54

1 Answer 1

up vote 1 down vote accepted

Do you know the bounds of your axis for displaying the plot? If so, you can specify the range of the plot with the axis([xmin, xmax, ymin, ymax]) function.

So, from your question, if you know the slope m and intercept b, you can make sure your function plots the line across the whole window by specifying:

plot([xmin, xmax], [m*xmin + b, m*xmax + b]);
axis([xmin, xmax, min(m*xmin+b, m*xmax+b), max(m*xmin+b, m*xmax+b)]);

where xmin and xmax are values you specify as the range of your x-axis. This will make your line go from the corner of your plot to the other corner. If you want a buffer in the y-direction, then add one like so:

buffer = 5; % for example, you set this to something that looks good.
axis([xmin, xmax, min(m*xmin+b, m*xmax+b)-buffer, max(m*xmin+b, m*xmax+b)+buffer]);
share|improve this answer
    
thks, that is what I was thinking about as well!what do you mean by buffer? –  Matteo Sep 10 '13 at 16:30
    
any idea for part 2? –  Matteo Sep 10 '13 at 16:30
    
So by buffer, I mean if you don't want the line going from the corners of your plot and instead want a white space buffer above and below the line. –  Mozglubov Sep 10 '13 at 17:34
    
As for the second part, I'm not sure what you mean by a more direct way. If your linear algebra works, why do you need to replace it with a function? –  Mozglubov Sep 10 '13 at 17:37

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