Version:

Last Modified: January 12, 2018

Sets one or more elements in **matrix** at the indexes you specify in **index (row)** and **index (col)**.

If you wire scalar values *i* and *j* to **index (row)** and **index (col)**, respectively, these inputs correspond to a single matrix element at location (*i*, *j*).

2D array of any numeric type.

Integer, floating-point numeric, 1D array of integers, or 1D array of a floating-point numeric.

To add additional **index (row)** inputs, resize the node.

**Default: **0

Integer, floating-point numeric, 1D array of integers, or 1D array of a floating-point numeric.

To add additional **index (col)** inputs, resize the node.

**Default: **0

Scalar or 2D array that replaces one or more elements in **matrix**.

To add additional **new element/submatrix** inputs, resize the node.

**matrix** with the new elements. If **matrix** is an empty matrix, **output matrix** resizes to receive the new elements.

To add additional **output matrix** outputs, resize the node.

If you wire a 1D array of numeric data to **index (row)** or **index (col)**, this node sets one matrix element for each location specified. To determine these locations this node pairs each row index in **index (row)** with each column index in **index (col)**. For example, if you pass the array of integers {1, 2, 4} to **index (row)** and the integer {5} to **index (col)**, this node modifies matrix elements at indexes (1, 5), (2, 5), and (4, 5).

If you leave inputs empty or unwired, this node behaves as described in the following table.

Input | Result |
---|---|

You wire an empty 1D array to index (row) or index (col). |
output matrix returns matrix. |

You do not wire index (row) or index (col). |
This node assigns the new element to the input matrix starting at index (0, 0). |

You do not wire an input to new element/submatrix. |
This node sets the element at location (index (row), index (col)) in matrix to 0. |

If you wire certain values to **index (row)** or **index (col)** that are outside the existing elements of **matrix**, output matrix resizes as described in the following table.

Input | Result |
---|---|

You wire a value to index (row) or index (col) that is greater than or equal to the row or column dimension of matrix. |
output matrix resizes to receive elements at the corresponding location. If you increase the row or column dimensions of matrix, this node returns an invalid operation value at each exterior location. |

The location you specify in index (row) and index (col) is outside matrix and all the inputs are non-negative. |
output matrix resizes to accept the new element or matrix. |

If you wire identical values to **index (row)** or **index (col)** and you wire a matrix to **new element/submatrix**, the order in which this node sets the new matrix elements determines **output matrix**.

When you wire inputs to **new element/submatrix**, this node behaves as described in the following table.

Input | Result |
---|---|

You wire a matrix to new element/submatrix that has a dimension larger than matrix. |
output matrix resizes to receive the new matrix elements. If you increase the row or column dimensions of matrix, this node returns 0 at each exterior location. |

You wire a matrix to new element/submatrix that is larger than the largest submatrix at the starting location. |
output matrix resizes to receive the new matrix elements. If you increase the row or column dimensions of matrix, this node returns 0 at each exterior location. |

You wire a matrix to new element/submatrix in which the row or column dimensions exceed the respective number of row indexes in index (row) or column indexes in index (col). |
This node ignores the additional row and column elements. |

You wire a matrix to new element/submatrix in which the number of row indexes is less than the row dimension of output matrix and you wire a 1D array to index (row). |
This node inserts an invalid operation value at each exterior location. |

You wire a matrix to new element/submatrix in which the number of column indexes is less than the column dimension of output matrix and you wire a 1D array to index (col). |
This node inserts an invalid operation value at each exterior location. |

You wire an input to new element/submatrix with a different numeric type than matrix. |
This node converts matrix to a new numeric type if this node cannot set new elements without losing precision. If this node can set new elements without losing precision, the numeric type of new element/submatrix converts to the numeric type of matrix. |

**Where This Node Can Run: **

Desktop OS: Windows

FPGA: Not supported

Web Server: Not supported in VIs that run in a web application