This problem is essentially the Subset sum problem with a small twist. You can use the same pseudo-polynomial time solution as subset sum: create an array of length "total length" (which we call *n* from now on) and, for each length *k*, add it to every existing length in the array (so if element *m* is populated, create a new entry at *m + k* (if *m + k ≤ n*), but leave the existing one at *m* as well), as well as creating a new array entry at location *k* representing the creation of a new set. You can build up a set of entries at array element *i* to represent the set of lists of length blocks totaling *i*. Each set entry should link back to the array entry it came from, which it can do by simply storing the last length that got you there. This is similar to a question I answered recently here, which you can adjust to allow duplicates as you see fit.

However, you need to modify the above approach to account for the gaps. Let's call the minimum gap between each element *x* and the maximum gap *y*. When adding an entry of length *k*, we include the minimum gap whenever adding it to another entry (so if *m* is populated, we actually create the entry at *m + k + x*). We continue to create the initial entry at *k* because we include the gaps between elements. When we create an entry, we can also determine if it fills the space. Suppose the new entry contains *t* elements and has total *m*. Then it fills the space iff *m ≥ n - t* ( *y - x* ). If it fills the space, we should add it to a solution list. Depending on how many solutions you want, you can terminate the algorithm as soon as enough solutions are found, or let it find all solutions. At the end, simply iterate through the solutions list.

Anything within the range can represent its gaps in any of a number of different ways, but one way that works is to greedily allocate the "slack" - for example, if you are 1000 away from the new total length using your above example, you can pick the first three gaps to be 500 (which is 300 extra slack each, for 900 total extra) and then the fourth to be 300 (for the extra 100 slack, totaling 1000) and every additional gap should be minimum (200).