First problem: There's a difference between `(...)`

and `[...]`

. Your regular expressions don't do what you think they do because you're using the wrong punctuation.

Beyond that:

No numeric rule recognizes `0`

.

Both numeric rules require an explicit sign.

Your STRING rule recognizes integers.

So, to start:

`[...]`

encloses a *set* of individual characters or character ranges. It matches a *single character* which is a member of the set.

`(...)`

encloses a regular expression. The parentheses are used for grouping, as in mathematics.

`"..."`

encloses a *sequence* of individual characters, and matches exactly those characters.

With that in mind, let's look at

```
["+"|"-"][1-9]{DIGIT}*
```

The first bracket expression `["+"|"-"]`

is a set of individual characters or ranges. In this case, the set contains: `"`, `+`, `"` (again, which has no effect because a set contains zero or one instances of each member), `|`, and the range `"`-`"`, which is a range whose endpoints are the same character, and consequently only includes that character, `"`, which is already in the set. In short, that was equivalent to `["+|]`

. It will match one of those three characters. It requires one of those three characters, in fact.

The second bracket expression `[1-9]`

matches one character in the range `1`-`9`, so it probably does what you expected. Again, it matches exactly one character.

Finally, `{DIGIT}`

matches the expansion of the name `DIGIT`

. I'll assume that you have the definition:

```
DIGIT [0-9]
```

somewhere in your definitions section. (In passing, I note that you could have just used the character class `[:digit:]`

, which would have been unambiguous, and you would not have needed to define it.) It's followed by a `*`

, which means that it will match zero or more repetitions of the `{DIGIT}`

definition.

Now, an example of a string which matches that pattern:

```
|42
```

And some examples of strings which don't match that pattern:

```
-7 # The pattern must start with |, + or "
42 # Again, the pattern must start with |, + or "
+0 # The character following the + must be in the range [0-9]
```

Similarly, your float pattern, once the `[...]`

expressions are simplified, becomes (writing out the individual pieces one per line, to make it more obvious):

```
["+|] # i.e. the set " + |
["0.|[1-9] # i.e. the set " 0 | [ 1 2 3 4 5 6 7 8 9
{DIGIT}* # Any number of digits
"." # A single period
] # A single ]
{DIGIT}+ # one or more digits
```

So here's a possible match:

```
"..]3
```

I'll skip over writing out the solution because I think you'll benefit more from doing it yourself.

Now, the other issues:

Some rule should match `0`

. If you don't want to allow leading zeros, you'll need to just a it as a separate rule.

Use the optional operator (`?`

) to indicate that the preceding object is optional. eg. `"foo"?`

matches either the three characters `f`, `o`, `o` (in order) or matches the empty string. You can use that to make the sign optional.

The problem is not the matching of `abc123`

, as in your question. (F)lex always gives you the longest possible match, and the only rule which could match the starting character `a`

is the string rule, so it will allow the string rule to continue as long as it can. It will always match all of `abc123`

. However, it will also match `123`

, which you would probably prefer to be matched by your numeric rule. Here, the other (f)lex matching criterion comes into play: when there are two or more rules which could match exactly the same string, and none of the rules can match a longer string, (f)lex chooses the *first rule* in the file. So if you want to give numbers priority over strings, you have to put the number rule earlier in your (f)lex file than the string rule.

I hope that gives you some ideas about how to fix things.