module Test (
-- Export everything we need to have fun in GHCi:
-
- -- See the results of examples.
module Test,
+ module TestUtils,
-- Generate instances.
module Instance,
-- Solve instances.
module ProposalMatcher,
- module ProposalMatcherConfig,
+ module PMDefaults,
-- Run randomized things.
module System.Random,
- module RandomizedMonad,
-
- -- Visualize graphs.
- module Data.Graph.Inductive.Graphviz
+ module RandomizedMonad
) where
+import TestUtils
import Instance
import InstanceGenerator
import ProposalMatcher
-import ProposalMatcherConfig
+import PMDefaults
import System.Random
import RandomizedMonad
-import Data.Graph.Inductive.Graphviz
-- Other imports we need
import BellmanFord
-import UnitMinCostFlow
import Data.Array.IArray
import Data.Array.Unboxed
import Data.Graph.Inductive.Graph
import Data.Graph.Inductive.Tree
import ArrayStuff
+-- TESTING GRAPH ALGORITHMS
myGraph = mkGraph [(0, ()), (1, ()), (2, ())]
- [(0, 1, 2), (0, 2, 3), (2, 1, -2)] :: Gr () Double
+ [(0, 1, (0, 2)), (0, 2, (1, 3)), (2, 1, (2, -2))] :: Gr () (Int, Int)
-spTree1 = spTree 0 myGraph
+bfResult = bellmanFord snd 0 myGraph
-(flowVal, flowResid) = umcf 0 1 myGraph
+flowArray = minCostFlow pmDefaults (0, 2) fst (const 1) snd myGraph (0, 1)
+myNCGraph = mkGraph [(0, ())] [(0, 0, -1)] :: Gr () Int
+bfNCResult = bellmanFord id 0 myNCGraph
+
+-- PROPOSAL-MATCHING EXAMPLES
-- Example from idea book p. 425
{-
(myNumRvrs, myNumProps) = (4, 3)
15, 25, 20, 20, 15
] :: UArray (Int, Int) Wt
-myInst = Instance myNumRvrs myNumProps (funcArray (0, myNumRvrs-1) $ const 1) myPrefs
+myInst = Instance myNumRvrs myNumProps (constArray (0, myNumRvrs-1) 1) myPrefs
+
+rdnResult = doReduction pmDefaults myInst
+ReductionResult rrg rrso rrsi rreib rredi = rdnResult
+rdnFlowArray = minCostFlow pmDefaults rreib reIdx reCap reCost rrg (rrso, rrsi)
+rrg2 = flowAnnotate rrg rdnFlowArray
+myMatching = doMatching pmDefaults myInst
-rdnGraph = doReduction myInst
-(rdnFlowVal, rdnFlowResid) = umcf 0 1 rdnGraph
-rdnFlow = flowDiff rdnGraph rdnFlowResid
-myMatching = doMatching myInst
+iGraph = showInstanceAsGraph myInst myMatching -- Visualize me!