Massage test/.

[haskell/treemap.git] / test / HUnit / Strict.hs

module HUnit.Strict where

import Data.Function (($), id, const)
import Data.Int (Int)
import Data.Monoid ((<>))
import Prelude (Integer, undefined)
import qualified Data.Map.Strict as Map
import qualified Data.Strict.Maybe as Strict

import Test.Tasty
import Test.Tasty.HUnit

import Data.TreeMap.Strict (TreeMap(..), (<|))
import qualified Data.TreeMap.Strict as TreeMap

hunits :: TestTree
hunits = testGroup "Strict"
 [ testGroup "insert"
         [ testCase "[] 0" $
                        TreeMap.insert const ((0::Int)<|[]) () TreeMap.empty
                 @?= (TreeMap $ Map.fromList [ (0::Int, TreeMap.leaf ()) ])
         , testCase "[] 0/1" $
                        TreeMap.insert const ((0::Int)<|[1]) () TreeMap.empty
                 @?=
                        (TreeMap $
                        Map.fromList
                         [ (0::Int, TreeMap.Node
                                 { TreeMap.node_value = Strict.Nothing
                                 , TreeMap.node_size = 1
                                 , TreeMap.node_descendants =
                                        TreeMap.singleton ((1::Int)<|[]) ()
                                 })
                         ])
         ]
 , testGroup "mapByDepthFirst"
         [ testCase "[0, 0/1, 0/1/2, 1, 1/2/3]" $
                        TreeMap.mapByDepthFirst
                         (\descendants value ->
                                Map.foldl'
                                 (\acc v -> (<>) acc $
                                        Strict.fromMaybe undefined $
                                        TreeMap.node_value v
                                 )
                                 (Strict.fromMaybe [] value)
                                 (TreeMap.nodes descendants)
                         )
                        (TreeMap.fromList const
                         [ ((0::Integer)<|[], [0::Integer])
                         , (0<|[1], [0,1])
                         , (0<|[1,2], [0,1,2])
                         , (1<|[], [1])
                         , (1<|[2,3], [1,2,3])
                         ])
                 @?=
                        TreeMap.fromList const
                         [ ((0::Integer)<|[], [0,0,1,0,1,2])
                         , (0<|[1], [0,1,0,1,2])
                         , (0<|[1,2], [0,1,2])
                         , (1<|[], [1,1,2,3])
                         , (1<|[2], [1,2,3])
                         , (1<|[2,3], [1,2,3])
                         ]
         , testCase "[0/0]" $
                        TreeMap.mapByDepthFirst
                         (\descendants value ->
                                Map.foldl'
                                 (\acc v -> (<>) acc $
                                        Strict.fromMaybe undefined $
                                        TreeMap.node_value v
                                 )
                                 (Strict.fromMaybe [] value)
                                 (TreeMap.nodes descendants)
                         )
                        (TreeMap.fromList const
                         [ ((0::Integer)<|[0], [0::Integer,0])
                         ])
                 @?=
                        TreeMap.fromList const
                         [ ((0::Integer)<|[], [0,0])
                         , (0<|[0], [0,0])
                         ]
         ]
 , testGroup "flatten"
         [ testCase "[0, 0/1, 0/1/2]" $
                        TreeMap.flatten id
                        (TreeMap.fromList const
                         [ ((0::Integer)<|[], ())
                         , (0<|[1], ())
                         , (0<|[1,2], ())
                         ])
                 @?=
                        Map.fromList
                         [ ((0::Integer)<|[], ())
                         , (0<|[1], ())
                         , (0<|[1,2], ())
                         ]
         , testCase "[1, 1/2, 1/22, 1/2/3, 1/2/33, 11, 11/2, 11/2/3, 11/2/33]" $
                        TreeMap.flatten id
                        (TreeMap.fromList const
                         [ ((1::Integer)<|[], ())
                         , (1<|[2], ())
                         , (1<|[22], ())
                         , (1<|[2,3], ())
                         , (1<|[2,33], ())
                         , (11<|[], ())
                         , (11<|[2], ())
                         , (11<|[2,3], ())
                         , (11<|[2,33], ())
                         ])
                 @?=
                        Map.fromList
                         [ ((1::Integer)<|[], ())
                         , (1<|[2], ())
                         , (1<|[22], ())
                         , (1<|[2,3], ())
                         , (1<|[2,33], ())
                         , (11<|[], ())
                         , (11<|[2], ())
                         , (11<|[2,3], ())
                         , (11<|[2,33], ())
                         ]
         ]
 , testGroup "lookupAlong"
         [ testCase "0/1/2/3 [0, 0/1, 0/1/2, 0/1/2/3]" $
                        TreeMap.lookupAlong
                         (0<|[1,2,3])
                        (TreeMap.fromList const
                         [ ((0::Integer)<|[], [0])
                         , (0<|[1], [0,1])
                         , (0<|[1,2], [0,1,2])
                         , (0<|[1,2,3], [0,1,2,3])
                         ])
                 @?=
                        [ [0::Integer]
                        , [0,1]
                        , [0,1,2]
                        , [0,1,2,3]
                        ]
         , testCase "0/1/2/3 [0, 0/1]" $
                        TreeMap.lookupAlong
                         (0<|[1,2,3])
                        (TreeMap.fromList const
                         [ ((0::Integer)<|[], [0])
                         , (0<|[1], [0,1])
                         ])
                 @?=
                        [ [0::Integer]
                        , [0,1]
                        ]
         ]
 ]