UPDATE 1 : Function code further streamlined to minimize redundant calculations.

Unless you insist on shell-only purity, here's a fully `POSIX`

-compliant `awk`

-based solution that has built-in leap year calculation while **COMPLETELY** avoiding the need of any lookup tables or reference strings.

*Unlike other suggested solutions, for months other than* **February**, *modulo op is only performed once instead of twice by replacing*

`(mm - 1) % 7 % 2`

*with*

`(odd month) XNOR (before August)`

```
jot -w '2023 %d' 12 | awk '!_; ++$!_' | gsort -k 1,1n -k 2,2n |
```

```
function monyear2numdays(__, ___, _) {
return ((__ = +__) % (_ += _ ^= _<_) == (__++ < _^++_)) + _^_ \
+ (_ - __ ? _ : --__^(___ == "" || (___ = +___) % ++_ \
? !_ : ___ % (_ *= _ * ++_) || ___ % (__ * _ * __) == !_))
}
```

```
awk '$++NF = monyear2numdays($2, $1)'
2023 1 31 2024 1 31
2023 2 28 2024 2 29
2023 3 31 2024 3 31
2023 4 30 2024 4 30
2023 5 31 2024 5 31
2023 6 30 2024 6 30
2023 7 31 2024 7 31
2023 8 31 2024 8 31
2023 9 30 2024 9 30
2023 10 31 2024 10 31
2023 11 30 2024 11 30
2023 12 31 2024 12 31
```

Month field (`__`

) values beyond `[1, 12]`

yield meaningless results. The year field (`___`

) is optional. Empty year inputs defaults to common year values. Zero-padded `YYYY`

values are accepted but completely optional.

The function only requires 1 extra temp variable on top of the 2 mandatory ones for accepting user input to calculate all necessary constants, thresholds, offsets, and leap-year logic on-the-fly.

If, instead, you have a pre-made leap year indicator boolean flag (`"y"`

), then this tiny tiny expression is all you need to calculate number of days

`27+(m-2?(m<8~m%2)+3:m^y)`

— `m^y`

is exponentiation