This section of the user guide covers the basics of matrix creation, manipulation and matrix math. Other sections of the user guide demonstrate how matrices are used by the statistics, probability and machine learning functions.

## Matrix Creation

A matrix can be created with the `matrix`

function. The matrix function is passed a list of `arrays`

with each array representing a **row** in the matrix.

The example below creates a two-by-two matrix.

```
matrix(array(1, 2),
array(4, 5))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"return-value": [
[
1,
2
],
[
4,
5
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
```

## Accessing Rows and Columns

The rows and columns of a matrix can be accessed using the `rowAt`

and `colAt`

functions.

The example below creates a 2 by 2 matrix and returns the second column of the matrix. Notice that the matrix is passed variables in this example rather than directly passed a list of arrays.

```
let(a=array(1, 2),
b=array(4, 5),
c=matrix(a, b),
d=colAt(c, 1))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"d": [
2,
5
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Pair Sorting Vectors

The `pairSort`

function can be used to sort two vectors based on the values in the first vector. The sorting operation maintains the pairing between the two vectors during the sort.

The `pairSort`

function returns a matrix containing the pair sorted vectors. The first row in the matrix is the first vector, the second row in the matrix is the second vector.

The individual vectors can then be accessed using the `rowAt`

function.

The example below performs a pair sort of two vectors and returns the matrix containing the sorted vectors.

let(a=array(10, 2, 1), b=array(100, 200, 300), c=pairSort(a, b))

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"c": [
[
1,
2,
10
],
[
300,
200,
100
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 1
}
]
}
}
```

## Row and Column Labels

A matrix can have column and rows and labels. The functions `setRowLabels`

, `setColumnLabels`

, `getRowLabels`

and `getColumnLabels`

can be used to set and get the labels. The label values are set using string arrays.

The example below sets the row and column labels. In other sections of the user guide examples are shown where functions return matrices with the labels already set.

Below is a simple example of setting and getting row and column labels on a matrix.

```
let(echo="d, e",
a=matrix(array(1, 2),
array(4, 5)),
b=setRowLabels(a, array("row0", "row1")),
c=setColumnLabels(b, array("col0", "col1")),
d=getRowLabels(c),
e=getColumnLabels(c))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"d": [
"row0",
"row1"
],
"e": [
"col0",
"col1"
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Matrix Attributes

A matrix can also have an arbitrary set of named attributes associated with it. Certain functions, such as the `termVectors`

function, return matrices that contain attributes that describe data in the matrix.

Attributes can be retrieved by name using the `getAttribute`

function and the entire attribute map can be returned using the `getAttributes`

function.

## Matrix Dimensions

The dimensions of a matrix can be determined using the `rowCount`

and `columnCount`

functions.

The example below retrieves the dimensions of a matrix.

```
let(echo="b,c",
a=matrix(array(1, 2, 3),
array(4, 5, 6)),
b=rowCount(a),
c=columnCount(a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": 2,
"c": 3
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Matrix Transposition

A matrix can be transposed using the `transpose`

function.

An example of matrix transposition is shown below:

```
let(a=matrix(array(1, 2),
array(4, 5)),
b=transpose(a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": [
[
1,
4
],
[
2,
5
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 24
}
]
}
}
```

## Matrix Summations

The rows and columns of a matrix can be summed with the `sumRows`

and `sumColumns`

functions. Below is an example of the `sumRows`

function which returns an array with the sum of each row.

```
let(a=matrix(array(1, 2, 3),
array(4, 5, 6)),
b=sumRows(a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": [
6,
15
]
},
{
"EOF": true,
"RESPONSE_TIME": 2
}
]
}
}
```

The `grandSum`

function returns the sum of all values in the matrix. Below is an example of the `grandSum`

function:

```
let(a=matrix(array(1, 2, 3),
array(4, 5, 6)),
b=grandSum(a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": 21
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Scalar Matrix Math

The same scalar math functions that apply to vectors can also be applied to matrices: `scalarAdd`

, `scalarSubtract`

, `scalarMultiply`

, `scalarDivide`

. Below is an example of the `scalarAdd`

function which adds a scalar value to each element in a matrix.

```
let(a=matrix(array(1, 2),
array(4, 5)),
b=scalarAdd(10, a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": [
[
11,
12
],
[
14,
15
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Matrix Addition and Subtraction

Two matrices can be added and subtracted using the `ebeAdd`

and `ebeSubtract`

functions, which perform element-by-element addition and subtraction of matrices.

Below is a simple example of an element-by-element addition of a matrix by itself:

```
let(a=matrix(array(1, 2),
array(4, 5)),
b=ebeAdd(a, a))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"b": [
[
2,
4
],
[
8,
10
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```

## Matrix Multiplication

Matrix multiplication can be accomplished using the `matrixMult`

function. Below is a simple example of matrix multiplication:

```
let(a=matrix(array(1, 2),
array(4, 5)),
b=matrix(array(11, 12),
array(14, 15)),
c=matrixMult(a, b))
```

When this expression is sent to the `/stream`

handler it responds with:

```
{
"result-set": {
"docs": [
{
"c": [
[
39,
42
],
[
114,
123
]
]
},
{
"EOF": true,
"RESPONSE_TIME": 0
}
]
}
}
```