It is well known that quick sort works by randomly selecting a 'pivot' element from the array and partitioning the other elements into two sub-arrays, according to whether they are less than or greater than the pivot. But Jellyfish thinks that choosing a random element is just a waste of time, so she always chooses the first element to be the pivot. The time her code needs to run can be calculated by the following pseudocode:

function fun(A)
    if A.length > 0
        let L[1 ... L.length] and R[1 ... R.length] be new arrays
        L.length = R.length = 0
        for i = 2 to A.length
            if A[i] < A[1]
                L.length = L.length + 1
                L[L.length] = A[i]
            else
                R.length = R.length + 1
                R[R.length] = A[i]
        return A.length + fun(L) + fun(R)
    else
        return 0

Now you want to show her that her code is slow. When the function $$$\mathrm{fun(A)}$$$ is greater than or equal to $$$lim$$$, her code will get $$$\text{Time Limit Exceeded}$$$. You want to know how many distinct permutations $$$P$$$ of $$$[1, 2, \dots, n]$$$ satisfies $$$\mathrm{fun(P)} \geq lim$$$. Because the answer may be large, you will only need to find the answer modulo $$$10^9+7$$$.