How can one create this matrix, part 2
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In the previous post, I have learned that
[X, Y] = meshgrid(0:.1:0.5);
[X(:), Y(:)]
will create a matrix
0 0
0 0.1
0 0.2
...
Now I want to generalize to
[X, Y, Z] = meshgrid(0:.1:0.5);
[X(:), Y(:), Z(:)]
and it creates a matrix
ans = 216×3
0 0 0
0 0.1000 0
0 0.2000 0
0 0.3000 0
0 0.4000 0
0 0.5000 0
0.1000 0 0
0.1000 0.1000 0
0.1000 0.2000 0
0.1000 0.3000 0
But the matrix I want to create is like
0 0 0
0 0 0.1
0 0 0.2
0 0 0.3
0 0 0.4
0 0 0.5
0 0.1 0.1
0 0.1 0.2
0 0.1 0.3
Please advise.
Réponse acceptée
madhan ravi
le 24 Juil 2020
[X, Y, Z] = ndgrid(0:.1:0.5);
[Z(:), Y(:), X(:)]
5 commentaires
alpedhuez
le 24 Juil 2020
madhan ravi
le 24 Juil 2020
doc ndgrid
Bruno Luong
le 24 Juil 2020
Modifié(e) : Bruno Luong
le 24 Juil 2020
Thank you. But how does it work?
Just think those combinations you look for
(1,1)
(1,2)
...
(1,5)
(2,1)
...
(5,5)
as 2D coordinates of a set of grid points in a rectangles (1:5) x (1:5).
For 3 combinations, it's a 3D coordinates of grid points of a cube (1:5) x (1:5) x (1:5),
ndgrid() function generates grid points in n-dimensional space.
alpedhuez
le 25 Juil 2020
Bruno Luong
le 25 Juil 2020
Modifié(e) : Bruno Luong
le 25 Juil 2020
Because NDGRID returns result such that the first input change first (more rapidly) and you want the opposite, X change most slowly. Actually the code as written by madhan is confusing, it's clearer this way to me:
[Z,Y,X] = ndgrid(0:.1:0.5);
[X(:), Y(:), Z(:)]
You'll see if 1D-grid of X, Y, Z are different and not all equal to 0.0.1:0:5, it makes a whole world less confusing.
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