If `A`

and `B`

are tables (or datasets) having the same the same columns (and in the same order), then an expression like `ismember(A(:, somecols), B(:, somecols))`

will produce a boolean array suitable for indexing `A`

with, as in

```
A(ismember(A(:, somecols), B(:, somecols)), :)
```

The line above evaluates to a `table`

(or `dataset`

, depending on the class of `A`

) consisting of those rows of `A`

that match some row of `B`

at the columns specified in `somecols`

.

But now suppose that `B`

has exactly one row. More realistically, suppose that the criterion for selecting rows from `A`

is simply to match *this one single row* of `B`

, say the first one.

One could do this:

```
A(ismember(A(:, somecols), B(1, somecols)), :)
```

The main quibble I have with this is that it is not "semantically clear", because `ismember`

is being used, in effect, to test for equality.

It would be semantically clearer if one could write

```
A(isequal(A(:, somecols), B(1, somecols)), :)
```

but this does line not produce the desired results. (Specifically, it returns no matches even when `A(:, ...)`

contains rows matching `B(1, ...)`

.)

My question is, what is the predicate that will correctly produce the logical vector corresponding to the question "does this row of `A`

match *this* reference row at `somecols`

"?

`eq`

(`==`

), not`isequal`

if you want to index in to the rows of`A`

. These are not equivalent. Unfortunately,`eq`

has not been written for the table type (probably for the same reasons that it isn't supported for`cell`

,`struct`

, etc.). If these seem unwieldy, you might consider making a set of utility functions for yourself that simplify the code you need to write. – horchler Feb 4 '14 at 1:43