You are being hit by the fact that Lua uses (IEEE 754) 64-bit double-precision floating point numbers.

Look at the following examples

`> print(0.3 == 0.3)`

`true`

`> print(0.3 <= 0.3)`

`true`

`> print(0.3 >= 0.3)`

`true`

The actual value of `0.3`

in memory is:

`> print(string.format("%1.64f",math.abs(-0.3)))`

`0.2999999999999999888977697537484345957636833190917968750000000000`

Now look at you example:

`> print(math.abs(29.7-30) == 0.3)`

`false`

`> print(math.abs(29.7-30) >= 0.3)`

`true`

`> print(math.abs(29.7-30) <= 0.3)`

`false`

The actual value of `29.7-30`

is:

`> print(string.format("%1.64f",29.7-30))`

`-0.3000000000000007105427357601001858711242675781250000000000000000`

The actual value of `math.abs(29.7-30)`

is:

`> print(string.format("%1.64f", math.abs(29.7-30))`

`0.3000000000000007105427357601001858711242675781250000000000000000`

And just for fun the value of `math.abs(-0.3)`

is:

`> print(string.format("%1.64f", math.abs(-0.3)))`

`0.2999999999999999888977697537484345957636833190917968750000000000`

There are two solutions to you problem, the first is read What Every Computer Scientist Should Know About Floating-Point Arithmetic, and understand it :-). The second solution is to configure Lua to use another type for numbers, see Values and Types for hints.

**Edit**
I just thought of another way of "solving" the problem, but it is a bit of a hack, and not guarantied to always work. You can use fixed point numbers in lua by first converting the float to a string with a fixed precision.

In your case that would look something like:

```
a = string.format("%1.1f", math.abs(29.7 - 30))
print(a == "0.3")
```

or a bit more robust:

```
a = string.format("%1.1f", math.abs(29.7 - 30))
print(a == string.format("%1.1f", 0.3))
```

However you must make sure that you use a precision that is both adequate and the same for all you comparisons.