You're going to want to start with the LLVM language reference manual.

You might start by implementing `trunc( )`

like something along these lines (warning, don't actually use this; it's intended as an example, and isn't correct. See discussion below):

```
define float @trunc(float %x) {
%rounded = fptosi float %x to i32
%asFloat = sitofp i32 %rounded to float
ret float %asFloat
}
```

The `fptosi ... to ...`

instruction is documented as rounding a floating-point value to an integer value according to the round-to-zero rounding mode. The `sitofp ... to ...`

instruction converts that value back into a floating-point value to return.

However, there is a problem with this implementation; reading the language reference that I linked to, "the behavior of `fptosi ... to ...`

is undefined if the result of rounding to the nearest integer cannot fit in the destination type."

This is pretty easy to work around, though, because all sufficiently large floating-point numbers are already integers, and don't need to be rounded; if the absolute value of `x`

is greater than or equal to 2^23, you can just return x itself.

(This is all for single precision; for double, you will likely want to use `i64`

, and you will need to use a threshold of 2^52)

For the other operations, like `floor`

and `round`

, you can begin with `trunc`

, then check the residual `x - trunc(x)`

and adjust the result accordingly.

Alternatively, you could call out to your host platform's C library, which already includes these functions. This is an approach taken by many programming languages.