If the text variants are always structed in the same way, regular expressions could be one way to solve this. Basically you'd check each text against a set of expressions and see whether they match or not. Depending on how much the variants differ the expressions could be simple or might need to be more complex.

For the case above, the first expression could look like this:

`COMP 150.00 MG X 20.00 UN`

-> `(identifier) (capsule weight) X (num units)`

From this the following expression could be derived:

`^COMP (\d+(?:\.\d+)?) MG X ([\d]+(?:\.\d+)?) UN$`

(this assumes that the number of spaces are always equal and that you always use `MG`

and `UN`

).

The second expression:

`150 mg comp.rec.x 20`

-> `(capsule weight) comp.rec.x (num packages)`

The following expression could be derived:

`^(\d+(?:\.\d+)?) mg comp\.rec\.x (\d+(?:\.\d+)?)$`

You'll see that both expressions contain the following part twice: `([\d]+(?:\.\d+)?)`

Those parts capture numbers into a group and allow you to then parse that text into a `Double`

, for example.
Here's a short breakdown of that sub-expression:

`( ... )`

is a capturing group, i.e. you can access the part that matches that group directly
`\d+`

means one or more digits
`\.`

is the literal dot
`(?: ... )`

is a non capturing group, i.e. you can apply quantifiers but can't access the matched parts directly

From the above parts you get the following:

`(?:\.\d+)?`

means at most one dot followed by at least one digit. This would match `.123`

but not `.1.2.3`

or `1.`

`(\d+(?:\.\d+)?)`

means at least one digit, optionally followed by a dot which is followed by at least one more digit. This would match `1.23`

, `12.3`

or `123`

but not `1.`

, `.2`

or `1.2.3`

.

If you have those expressions, apply the correct one on the text (if you know it, otherwise test first) and extract both groups. Then compare the values of those groups.

Note: don't forget that in Java strings you have to escape backslashes, thus `\d`

would be written as `"\\d"`

etc.