I have been trying to use the `principal-components`

function from Incanter to do PCA and seem to be off track in using it. I found some sample data online from a PCA tutorial and wanted to practice on it:

```
(def data [[0.69 0.49] [-1.31 -1.21] [0.39 0.99] [0.09 0.29] [1.29 1.09]
[0.49 0.79] [0.19 (- 0 0.31)] [(- 0 0.81) (- 0 0.81)]
[(- 0 0.31) (- 0 0.31)] [(- 0 0.71) (- 0 1.01)]])
```

Upon first attempt to implement PCA I tried passing vectors to Incanter's matrix function, but found myself passing it too many arguments. At this point I decided to try a nested vector structure as defined above, but would like to avoid this route.

How would I turn `data`

into a matrix (Incanter) such that it will be accepted as input into Incanter's function `principal-components`

. For simplicity let's call the new matrix fooMatrix.

Once this matrix, fooMatrix, has been constructed the following code should work to extract the first two principal components

```
(def pca (principal-components fooMatrix))
(def components (:rotation pca))
(def pc1 (sel components :cols 0))
(def pc2 (sel components :cols 1))
```

and then the data can be projected on the principal components by

```
(def principal1 (mmult fooMatrix pc1))
(def principal2 (mmult fooMatrix pc2))
```

`data`

into a matrix than can be used by the Incanter function`principal-component`

.@galdre – sunspots Mar 27 '14 at 2:49