| 1 | module Test ( |
| 2 | -- Export everything we need to have fun in GHCi: |
| 3 | |
| 4 | -- See the results of examples. |
| 5 | module Test, |
| 6 | |
| 7 | -- Generate instances. |
| 8 | module Instance, |
| 9 | module InstanceGenerator, |
| 10 | |
| 11 | -- Solve instances. |
| 12 | module ProposalMatcher, |
| 13 | module ProposalMatcherConfig, |
| 14 | |
| 15 | -- Run randomized things. |
| 16 | module System.Random, |
| 17 | module RandomizedMonad, |
| 18 | |
| 19 | -- Visualize graphs. |
| 20 | module Data.Graph.Inductive.Graphviz |
| 21 | ) where |
| 22 | import Instance |
| 23 | import InstanceGenerator |
| 24 | import ProposalMatcher |
| 25 | import ProposalMatcherConfig |
| 26 | import System.Random |
| 27 | import RandomizedMonad |
| 28 | import Data.Graph.Inductive.Graphviz |
| 29 | |
| 30 | -- Other imports we need |
| 31 | import BellmanFord |
| 32 | import NaiveMinCostFlow |
| 33 | import Data.Array.IArray |
| 34 | import Data.Array.Unboxed |
| 35 | import Data.Graph.Inductive.Graph |
| 36 | import Data.Graph.Inductive.Tree |
| 37 | import ArrayStuff |
| 38 | |
| 39 | myGraph = mkGraph [(0, ()), (1, ()), (2, ())] |
| 40 | [(0, 1, (0, 2)), (0, 2, (1, 3)), (2, 1, (2, -2))] :: Gr () (Int, Int) |
| 41 | |
| 42 | bfResult = bellmanFord snd 0 myGraph |
| 43 | |
| 44 | flowArray = minCostFlow (0, 2) fst (const 1) snd myGraph (0, 1) |
| 45 | |
| 46 | myNCGraph = mkGraph [(0, ())] [(0, 0, -1)] :: Gr () Int |
| 47 | bfNCResult = bellmanFord id 0 myNCGraph |
| 48 | |
| 49 | data REdgeF = REdgeF Int Int Int Wt |
| 50 | instance Show REdgeF where |
| 51 | show (REdgeF idx cap flow cost) = "#" ++ (show idx) ++ ": " |
| 52 | ++ (show flow) ++ " of " ++ (show cap) ++ " @ " ++ (show cost) |
| 53 | flowAnnotate g fa = |
| 54 | mkGraph (labNodes g) (map (\(n1, n2, REdge i ca co) -> |
| 55 | (n1, n2, REdgeF i ca (fa ! i) co)) $ labEdges g) :: Gr () REdgeF |
| 56 | |
| 57 | -- Example from idea book p. 425 |
| 58 | {- |
| 59 | (myNumRvrs, myNumProps) = (4, 3) |
| 60 | |
| 61 | myPrefsArray = array ((0,0), (myNumRvrs-1,myNumProps-1)) [ |
| 62 | ((0, 0), 15), ((1, 0), 10), ((2, 0), 15), ((3, 0), 40), |
| 63 | ((0, 1), 30), ((1, 1), 7), ((2, 1), 10), ((3, 1), 15), |
| 64 | ((0, 2), 15), ((1, 2), 25), ((2, 2), 20), ((3, 2), 20) |
| 65 | ] |
| 66 | -} |
| 67 | |
| 68 | (myNumRvrs, myNumProps) = (5, 3) |
| 69 | |
| 70 | myPrefs = transposeArray $ listArray ((0,0), (myNumProps-1,myNumRvrs-1)) [ |
| 71 | 15, 10, 15, 40, 20, |
| 72 | 30, 7, 10, 15, 15, |
| 73 | 15, 25, 20, 20, 15 |
| 74 | ] :: UArray (Int, Int) Wt |
| 75 | |
| 76 | myInst = Instance myNumRvrs myNumProps (funcArray (0, myNumRvrs-1) $ const 1) myPrefs |
| 77 | |
| 78 | rdnResult = doReduction myInst |
| 79 | ReductionResult rrg rrso rrsi rreib rredi = rdnResult |
| 80 | rdnFlowArray = minCostFlow rreib reIdx reCap reCost rrg (rrso, rrsi) |
| 81 | rrg2 = flowAnnotate rrg rdnFlowArray |
| 82 | myMatching = doMatching myInst |