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Given This Input:

[2,2,2,1], [4,3,0,0]

Output: Steps to transform list

Move 2 from C_to_A
Move 1 from D_to_B

The lists could be referenced in this manner for ease:

[A, B, C, D] #Just some means to reference the to and from of the move.

What I have so far:

    locations = {
        0: "A",
        1: "B",
        2: "C",
        3: "D"
    }

def get_steps_for_distribution(c, d):
    print 'current: {} desired: {}'.format(c, d)
    for i in range(0, len(c)):
        diff = c[i] - d[i]        
        while diff > 0:
            for j in range(1, len(c)):
                next_index = (i + j) % len(c)
                importer_diff = c[next_index] - d[next_index]
                if importer_diff < 0:
                    number_to_move = min(diff, (0 - importer_diff))
                    diff -= number_to_move
                    importer_diff += number_to_move
                    c[i] -= number_to_move
                    d[i] += number_to_move
                    print_move_line(number_to_move, i, next_index)

One problem, for example, is given this set:

get_steps([2,2,2,1], [4,3,0,0])

Currently it provides steps to shift everything to location A, resulting in this, which is not an accurate representation of the second list provided.:

>>>Move 2 from C_to_A
>>>Move 0 from C_to_B
>>>Move 1 from D_to_A
>>>Move 0 from D_to_B
7
  • 1
    What do you mean by print steps? You can do print( "my step1, data1 = " + str( data1 ) )
    – user
    Mar 23 '17 at 23:27
  • Yes, simply printing the steps would be sufficient. It would be a set of instructions like "Move 1 from A to B, Move 2 from D to C" etc. Mar 23 '17 at 23:28
  • wasnt the answers from your last question helpful? stackoverflow.com/questions/42868457/…
    – Taku
    Mar 23 '17 at 23:30
  • So, you have to write it down, verbosely. Example: print( "Move 1 from A to B" ), before the instruction which does B = A
    – user
    Mar 23 '17 at 23:31
  • 1
    @user: Kenny has made a good stab at implementing the algorithm I outlined in the previous question. He has a flaw in one detail, and is asking for help. In the case he gives, the step "Move 1 from D to A" should, instead, move that unit to B, not A.
    – Prune
    Mar 23 '17 at 23:48
1

I found it. The problem is that you don't update the master list of needs (c) and resource (d). In the bottom of your code, add a couple of lines to effect those updates:

               diff -= number_to_move
               importer_diff += number_to_move
               c[i] -= number_to_move
               d[i] += number_to_move

This gradually updates the resource list until it's equal to the needs list.


Note: there are a number of things you can improve, once you get this working:

  • Variable names: make them more descriptive, and correspond nicely between "export" and "import", as well as within each group.
  • Simplify your next_index computation with modulus:

    next_index = (i + j) % len(c)

  • You don't need to update importer_diff; you recompute it on the next loop, anyway.


MY SOLUTION

This produces the desired output:

locations = {
    0: "A",
    1: "B",
    2: "C",
    3: "D"
}

def print_move_line(number_to_move, exporter, importer):
    line = "Move " + str(number_to_move) + " from " + locations.get(exporter, "bad location") + "_to_" + locations.get(importer, "bad location")
    print line


def get_steps(have, want):
    for exporter_index in range(0, len(have)):
        diff = have[exporter_index] - want[exporter_index]

        # Move 'diff' units from bin 'exporter_index' to others;
        #   offer valid only while supplies last.
        while diff > 0:
            for j in range(1, len(have)):
                # Start next to the exporter and wrap around.
                importer_index = (exporter_index + j) % len(have)
                print("  DEBUG: have", have, "want", want, "\t", exporter_index, "to", importer_index)
                importer_diff = have[importer_index] - want[importer_index]

                # If this bin needs units, move what we have.
                if importer_diff < 0:
                    number_to_move = min(diff, (-importer_diff))
                    print("  DEBUG: bin", importer_index, "needs", importer_diff, "donor has", diff)
                    diff -= number_to_move
                    have[exporter_index] -= number_to_move
                    importer_diff -= number_to_move
                    have[importer_index] += number_to_move
                    print_move_line(number_to_move, exporter_index, importer_index)

get_steps([2, 2, 2, 1], [4, 3, 0, 0])

Output:

('  DEBUG: have', [2, 2, 2, 1], 'want', [4, 3, 0, 0], '\t', 2, 'to', 3)
('  DEBUG: have', [2, 2, 2, 1], 'want', [4, 3, 0, 0], '\t', 2, 'to', 0)
('  DEBUG: bin', 0, 'needs', -2, 'donor has', 2)
Move 2 from C_to_A
('  DEBUG: have', [2, 2, 4, 1], 'want', [2, 3, 0, 0], '\t', 2, 'to', 1)
('  DEBUG: bin', 1, 'needs', -1, 'donor has', 0)
Move 0 from C_to_B
('  DEBUG: have', [2, 2, 4, 1], 'want', [2, 3, 0, 0], '\t', 3, 'to', 0)
('  DEBUG: have', [2, 2, 4, 1], 'want', [2, 3, 0, 0], '\t', 3, 'to', 1)
('  DEBUG: bin', 1, 'needs', -1, 'donor has', 1)
Move 1 from D_to_B
('  DEBUG: have', [2, 2, 4, 2], 'want', [2, 2, 0, 0], '\t', 3, 'to', 2)
[wdwickar@wdwickar-ws pyside]$ python so.py
('  DEBUG: have', [2, 2, 2, 1], 'want', [4, 3, 0, 0], '\t', 2, 'to', 3)
('  DEBUG: have', [2, 2, 2, 1], 'want', [4, 3, 0, 0], '\t', 2, 'to', 0)
('  DEBUG: bin', 0, 'needs', -2, 'donor has', 2)
Move 2 from C_to_A
('  DEBUG: have', [4, 2, 0, 1], 'want', [4, 3, 0, 0], '\t', 2, 'to', 1)
('  DEBUG: bin', 1, 'needs', -1, 'donor has', 0)
Move 0 from C_to_B
('  DEBUG: have', [4, 2, 0, 1], 'want', [4, 3, 0, 0], '\t', 3, 'to', 0)
('  DEBUG: have', [4, 2, 0, 1], 'want', [4, 3, 0, 0], '\t', 3, 'to', 1)
('  DEBUG: bin', 1, 'needs', -1, 'donor has', 1)
Move 1 from D_to_B
('  DEBUG: have', [4, 3, 0, 0], 'want', [4, 3, 0, 0], '\t', 3, 'to', 2)
2
  • I made the changes you suggested and merged them into the question, to the degree I understood your response. Oddly, though, it's still distributing them incorrectly. It's adding an extra item to A, for a total of [5, 3, 0, 0]; (2 from C to A, and 1 from D to A). This is in reference to the problem set of: current: [2, 2, 2, 1] desired: [4, 3, 0, 0]. Mar 24 '17 at 2:12
  • Thanks! I like the debug break down, that's really helpful. Hopefully this helps someone in the future. Also, +1 for the comments humor. :-) Mar 24 '17 at 2:32

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