Discussion between Code-Guru and Christian Stewart

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00:52

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In java, I'm trying to find a way to generate permutations based on restrictions. How can I generate the number of permutations (with the restrictions in mind), or at least know how many? Edit: Simple Restriction Definition: Possible values: A, B, C Restrictions: a[0] == a[1] and a[0] != [2] ...

Code-Guru

Do you want to generate the permutations or just count them? Do you know how to do either of these by hand? Use your example as a starting point to figure out how to do this with a piece of paper and a pencil.

Christian Stewart

I need to just count them. If possible, it would be good to return them all, and I did do it by hand by doing the example above.

An idea I had was to increment the ones that are supposed to be the same, then skip the values that are not valid

Code-Guru

As a more complex example, how many 4-digit numbers are there with the first two digits the same and the third digit different than the first two? This is harder to list, but you should be able to count them fairly quickly.

Christian Stewart

How about this @Code-Guru - normally the number of permutations for this is 4^3, if you are binding the first two together though, this will instead be 3^3. Okay, this is fine, however I need the != exceptions. How do I calculate these?

Code-Guru

How did you get 4^3?

Christian Stewart

00:52

It is 3^4, my mistake, was typing

Hello

Code-Guru

Howdy

Christian Stewart

soo many comments haha

Code-Guru

so 3^4 is correct when the choices are A, B, C...but what about a 4 digit number?

Christian Stewart

Thanks for popping this open then... anyways, so as I said before, it's 3^4 usually as there are 3 possibilities and 4 slots, if its a 4 digit number it can be anything from 0 to 9, so 10^4

Code-Guru

@ChristianStewart is 0000 a valid 4-digit number?

Christian Stewart

00:54

no... hm

Code-Guru

or even 0400?

Christian Stewart

no, the first number would have to not be 0, thus you'd remove a lot of permutations

Code-Guru

yes

Christian Stewart

but this is pretty simple as it's just the first number

Code-Guru

So how many choices do we have for the first digit?

Christian Stewart

00:56

8

8*9*9*9

Code-Guru

Why 8?

Christian Stewart

!= 0

Code-Guru

And how many choices are left after we throw out zero?

Christian Stewart

5832

Code-Guru

what's the lowest 4 digit number? and whats the highest?

and then how many are in between?

Christian Stewart

00:59

I see your point.... only 1 permutation would be removed because 0001 is valid

Code-Guru

umm...

it is?

Christian Stewart

yeah, by the bounds of what you asked, 0001 is a valid number :)

Code-Guru

I guess it depends on how you define a "4-digit number".

But then 0000 is just as equally valid

Christian Stewart

Very true, was just realizing this... Then again if there are 4 indexes it's very impossible to have null, null, null, one

Code-Guru

So to be clear, let's say a 4-digit number does not have leading zeros

So how many choices are there for the first digit?

Christian Stewart

01:02

well, 8, because no 0

Code-Guru

What are the 8 choices?

Christian Stewart

1,2,3,4,5,6,7,8,9 .... I'm thinking from index 0

9 choices

Code-Guru

there you go!

Christian Stewart

Sorry a bit out of it today

Code-Guru

heh, no problem

so how many 4-digit numbers are there without restrictions?

Christian Stewart

01:03

sec

6561

Code-Guru

how many choices for the second digit?

as a hint, put away your calculator. You shouldn't need it.

Christian Stewart

10..

Code-Guru

2 mins ago, by Code-Guru

so how many 4-digit numbers are there without restrictions?

Christian Stewart

9*10*10*10

Code-Guru

which is?

Christian Stewart

01:05

9k

Code-Guru

The numbers from 1000 to 9999, right? So it should make sense that there are 9k.

So now let's add some restrictions. How many 4-digit numbers are there with the first two digits the same?

Christian Stewart

Exactly... how does this relate? The difference is, I see how you're relating this, but the difference is that there can be a bunch of restrictions here, the first index can not be equal to the 45th index, while the 45th can be equal to the second, while the second cannot be equal to the third and so on

Code-Guru

Do you only have one set of restrictions? And do you need to list them out or just count them?

Christian Stewart

Count them...

Code-Guru

Then let's take the next step: add a simple restriction.

1 min ago, by Code-Guru

So now let's add some restrictions. How many 4-digit numbers are there with the first two digits the same?

Christian Stewart

01:08

I have a set of restrictions, they can be same or different, but they can be from any index to any index

ok

900

Code-Guru

How did you get that?

Christian Stewart

you're removing the entire second index essentially, as it will always be the same as the first... or is this wrong?

Code-Guru

That's one way to think about it, yes

Christian Stewart

Thus 9*10*10, 9 possibilities for the first number, 10 for the second, 10 for the third, eliminating the second

Code-Guru

I think a better way to think about it is 9*1*10*10 since there is only one choice for the second digit.

Thinking in this way will make writing the program easier.

IMO

Christian Stewart

01:10

And how is there 1 choice? hrm

I guess

I see each iteration only 1 choice

Code-Guru

No matter what you pick for the first digit, the second digit must be the same...so there's only one choice

Christian Stewart

Right so you CAN calculate how many based on the same restriction, this is what I had before, lets say first == second and third == fourth, 9*1*9*1 = 81 permutations

Code-Guru

okay, now let's say that the first and third digit must be different.

@ChristianStewart why the second 9?

Christian Stewart

The issue is when you bring in the ones that CANNOT be the same... I suppose you could say that if they're not the same then there are 10-1 possible values

Code-Guru

I think it should be 9*1*10*1=90

Christian Stewart

01:12

I'm writing this quickly, I know there are 10 possibilities there, bear with me

Code-Guru

okay...

just nit picking ;-)

notice: If I get logged out, i'll be back in a few minutes (I hope)

Christian Stewart

So I guess for each number you could have assigned a number of possibilities... For the ones that cannot be the same, grab ONE of them and subtract a possibility count

IF it is greater than 1

Then you multiply together all the values to get the # of permutations?

Code-Guru

@ChristianStewart that sounds like a good start.

Christian Stewart

Check out the long ass answer someone just posted

What do you think of that?

Code-Guru

I can see a couple of issues depending on how complex the restrictions can be.

Christian Stewart

01:16

I am writing up the concept and some example code now.. I'd like it if you posted it so you can get the rep

Code-Guru

@ChristianStewart okay, I'll draft something up. The post by meriton is actually pretty good for generating the sequences.

@ChristianStewart Good luck to you. Gonna leave this chat now ;-)

Christian Stewart

Works perfectly

Thanks a lot!

Code-Guru

Will the restrictions include something like a[1] == a[2], a[2] != a[3], a[2] != a[4], a[2] != a[5], a[2] != a[6], a[2] != a[7], a[2] != a[8]?

Christian Stewart

You mean conflicts? What are you doing here?

Code-Guru

I'm trying to create an example that might give you problems with your condition:

15 mins ago, by Christian Stewart

IF it is greater than 1

hmmm...here's a good example: with your 3 letter alphabet {a, b, c}. How many strings are there with 4 letters where a[0] != a[1], a[1] != a[2], a[2] != a[3]?

@ChristianStewart FWIW This chat will be deleted when it goes inactive for a certain amount of time.

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Discussion between Code-Guru and Chri…