# Mapping increasing rank to decreasing but non-negative points

I need to create a business logic or php function to compute the following: given some input `\$rank` (which is the alexa ranking) I need to compute some `\$points` in such a way that `\$points` will be high for the top ranking website and will decrease with increasing `\$rank` value.

I imagine something like this:

``````function(\$rank)
{
\$points = x*\$rank;
return \$points;
}
``````

How do I get `\$points` in such a way that

• if the rank is 1 then the points returned is maximum (e.g. 10000).
• if rank is 2 then `\$points` returned will be 9500 or nearby.
• if rank is 4 then `\$points` returned will be 6000 or nearby.
• if rank is 200 `\$points` returned will be 2 or whatever the function will return.

Rule: if `\$rank` is less then `\$points` should be more. Maximal value of `\$points` is 10000 which is for `\$rank=1`.

Now as the `\$rank` increases the `\$points` value should decrease accordingly.

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Do you require `\$points` to be positive, or non-negative? Do you neet it to be integral? –  MvG Nov 14 '12 at 18:23

There are many formulas which might satisfy your requiremements.

# Nested powers

One possibility:

``````\$points = 10000 * pow(0.993575964272119, pow(\$rank, 3.16332422407427) - 1)
``````

This gives you the following results:

``````f(1) = 10000
f(2) = 9500
f(4) = 6000
f(9) = 12.065
f(10) = 0.84341
f(200) = 0
``````

So the three values you fixed (1, 2 and 4) are all satisfied, but the result for 200 indicates that this might not be exactly what you're looking for. The curve looks like this:

By the way, I found this using python and mpmath, by fixing the form of the formula and determining the numbers with the many digits numerically:

``````>>> import mpmath
>>> print(mpmath.findroot((lambda a,b: 10000*a**(2**b - 1) - 9500,
...                        lambda a,b: 10000*a**(4**b - 1) - 6000),
...                       (0.995, 2.7)))
[0.993575964272119]
[ 3.16332422407427]
``````

If you decide on a different form of the function, this approach might be adapted.

# Exp of a polynomial

A possible different form with the desired properties would be this:

``````\$points = exp(9.14265175282929 + \$rank*(0.127179575914116 - \$rank*0.0594909567672230))
``````

This does not decrease quite as quickly as the one above:

``````f(  1) = 10000
f(  2) =  9500
f(  4) =  6000
f( 13) =     2.1002
f( 14) =     0.47852
f(200) =     0
``````

It was obtained by solving this system of equations:

``````a +  b +   c = log(10000)
a + 2b +  4c = log( 9500)
a + 4b + 16c = log( 6000)
``````

to obtain the coefficients a through c for the polynomial. One can add another degree to match `f(200)=2` as well, but in that case, the last coefficient will become positive, which means that points will start to increase with rank for very large ranks.

If you want to match that `f(200)=2` as well, you can do so using

``````\$points = exp(max(8.86291000469285 - \$rank*0.0408488141206645,
9.14265175282929 + \$rank*(0.127179575914116 - \$rank*0.0594909567672230)))
``````

although this will result in a bend in your curve.

To compare these alternatives to the above:

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great help.You rock buddy –  Vaibs Nov 15 '12 at 16:15
@Vaibs, added an alternative to my post. Please do remember to accept an answer eventually. –  MvG Nov 16 '12 at 15:58
``````    function getPoints(\$rank)
{
\$returnValue =  -0.005 * \$rank * \$rank - 0.035 * \$rank + 100.040;
if (\$returnValue < 0) \$returnValue = 0;
return \$returnValue;
}
``````

This was my thinking.

Function is not forking for large values: it should atleast give some small value for large ranks... like if rank is 2000000 then points will be 2. Thnx btw

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