I have a homework question I've been having trouble with.
I have to write a function that checks if every alternate digit in a given number has the same parity. For example, both 1 2 3 3 and 2 1 3 3 are valid, but 1324 is not. I have no idea how to go about doing this, though. How do I keep track of previous digits, for one thing? Any help would be much appreciated.
Edit: My efforts so far:
Any number < 100 clearly isn't acceptable (right?) since 'every alternate digit' doesn't really make sense here. For 3-digit numbers, this should work:
function validate(n) {
var i, copy, l = [0, 0];
if (isNaN(n) || (n < 100)) {
return false;
} else {
copy = Math.round(n);
for (i = copy.toString().length; i--; n = Math.floor(n / 10)) {
l[0] = l[1];
l[1] = l[2];
l[2] = n % 10;
}
if ((l[0] % 2) == (l[2] % 2)) return true;
}
}
Edit[2]: Thanks for your help, everybody. I've managed to get an honest-to-goodness real (I think) working function based on Salix alba's first suggestion to save the parities of the first and second digits. The loops run backward over the digits.
For now, this (along with making a couple of minor edits to save the parities of the last and second-last digits instead as Salix alba said, which would make the parity =
lines simpler) is my solution:
function validate(n) {
var copy, len, parity, broke = 0, i = 2;
if (!isNaN(n) || (n >= 100)) {
n = Math.round(n);
len = n.toString().length;
copy = n; // save
parity = Math.floor(n / Math.pow(10, len - 1)) % 2;
n = Math.floor(n / 10);
while (i < len) {
if (parity != ((n % 10) % 2)) {
broke++;
break;
}
i += 2;
n = Math.floor(n / 100);
}
n = copy; // restore
i = 1;
parity = (Math.floor(n / Math.pow(10, len - 2)) % 10) % 2;
while (i < len) {
if (parity != ((n % 10) % 2)) {
broke++;
break;
}
i += 2;
n = Math.floor(n / 100);
}
if (broke != 2) return true;
}
return false;
}
It's a horrible mess, of course. I would really, really appreciate any ideas for make this more efficient, easier to read, etc.
(Also going to try to write another function with jing3142's method of iterating with a flag, which might make the loops simpler.)
var s = n.toString()
then you can work with the individual digitss[0] % 2
. Save the parity of the first digit then loop.