~jaro/balkon

ref: 74594e80185c479dd7d4b10db0864ff580f3cb1d balkon/test/Data/Text/ParagraphLayout/Internal/ZipperSpec.hs -rw-r--r-- 6.5 KiB
74594e80Jaro Use internal library to hide non-public modules. 1 year, 9 months ago
                                                                                
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
module Data.Text.ParagraphLayout.Internal.ZipperSpec (spec) where

import Control.Monad (forM_)
import Data.Text (Text, empty, pack)
import qualified Data.Text as Text

import Test.Hspec
import qualified Data.Text.ParagraphLayout.Internal.Zipper as Zipper

sampleText :: Text
sampleText =
    Text.dropEnd 6 $
    Text.drop 4 $
    pack "xxx Příliš žluťoučký kůň úpěl ďábelské ódy. yyyyy"

sampleLength :: Int
sampleLength = 39

midPositions :: [Int]
midPositions = [1, 2, 5, 8, 38]

preMidPositions :: [Int]
preMidPositions = map pred midPositions

spec :: Spec
spec = do

    describe "start on empty text" $ do
        let z = Zipper.start empty
        it "is at start" $ do
            Zipper.atStart z `shouldBe` True
        it "is at end" $ do
            Zipper.atEnd z `shouldBe` True
        it "has nothing preceding it" $ do
            Zipper.preceding z `shouldBe` empty
        it "has nothing following it" $ do
            Zipper.following z `shouldBe` empty
        it "has no next character" $ do
            Zipper.next z `shouldBe` Nothing
        it "recombines into empty text" $ do
            Zipper.recombine z `shouldBe` empty
        it "unchanged by step" $ do
            Zipper.step z `shouldBe` z
        it "unchanged by advance" $ do
            Zipper.advanceBy 999 z `shouldBe` z

    describe "start" $ do
        let z = Zipper.start sampleText
        it "is at start" $ do
            Zipper.atStart z `shouldBe` True
        it "is not at end" $ do
            Zipper.atEnd z `shouldBe` False
        it "has nothing preceding it" $ do
            Zipper.preceding z `shouldBe` empty
        it "has everything following it" $ do
            Zipper.following z `shouldBe` sampleText
        it "has next character 'P'" $ do
            Zipper.next z `shouldBe` Just 'P'
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    describe "split at zero" $ do
        let z = Zipper.splitAt 0 sampleText
        it "is at start" $ do
            Zipper.atStart z `shouldBe` True
        it "is not at end" $ do
            Zipper.atEnd z `shouldBe` False
        it "has nothing preceding it" $ do
            Zipper.preceding z `shouldBe` empty
        it "has everything following it" $ do
            Zipper.following z `shouldBe` sampleText
        it "has next character 'P'" $ do
            Zipper.next z `shouldBe` Just 'P'
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    describe "split at negative value" $ do
        let z = Zipper.splitAt (-3) sampleText
        it "is at start" $ do
            Zipper.atStart z `shouldBe` True
        it "is not at end" $ do
            Zipper.atEnd z `shouldBe` False
        it "has nothing preceding it" $ do
            Zipper.preceding z `shouldBe` empty
        it "has everything following it" $ do
            Zipper.following z `shouldBe` sampleText
        it "has next character 'P'" $ do
            Zipper.next z `shouldBe` Just 'P'
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    midPositions `forM_` \n ->
        describe ("split at " ++ (show n)) $ do
            let z = Zipper.splitAt n sampleText
            it "is not at start" $ do
                Zipper.atStart z `shouldBe` False
            it "is not at end" $ do
                Zipper.atEnd z `shouldBe` False
            it ("preceding text has length " ++ show n) $ do
                Text.length (Zipper.preceding z) `shouldBe` n
            it ("following text has length " ++ show (sampleLength-n)) $ do
                Text.length (Zipper.following z) `shouldBe` (sampleLength-n)
            it "recombines into original text" $ do
                Zipper.recombine z `shouldBe` sampleText

    preMidPositions `forM_` \n ->
        describe ("split at " ++ (show n) ++ " and step") $ do
            let z = Zipper.step $ Zipper.splitAt n sampleText
            it "is not at start" $ do
                Zipper.atStart z `shouldBe` False
            it "is not at end" $ do
                Zipper.atEnd z `shouldBe` False
            it ("preceding text has length " ++ show (n+1)) $ do
                Text.length (Zipper.preceding z) `shouldBe` (n+1)
            it ("following text has length " ++ show (sampleLength-n-1)) $ do
                Text.length (Zipper.following z) `shouldBe` (sampleLength-n-1)
            it "recombines into original text" $ do
                Zipper.recombine z `shouldBe` sampleText

    describe "start and advance by 3" $ do
        let z = Zipper.advanceBy 3 $ Zipper.start sampleText
        it "should be the same as splitting at 3" $ do
            z `shouldBe` Zipper.splitAt 3 sampleText
        it "has next character 'l'" $ do
            Zipper.next z `shouldBe` Just 'l'
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    describe "split at 4 and advance by 3" $ do
        let z = Zipper.advanceBy 3 $ Zipper.splitAt 4 sampleText
        it "should be the same as splitting at 7" $ do
            z `shouldBe` Zipper.splitAt 7 sampleText
        it "has next character z-caron" $ do
            Zipper.next z `shouldBe` Just 'ž'
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    describe "split past text bounds" $ do
        let z = Zipper.splitAt 999 sampleText
        it "is not at start" $ do
            Zipper.atStart z `shouldBe` False
        it "is at end" $ do
            Zipper.atEnd z `shouldBe` True
        it "has everything preceding it" $ do
            Zipper.preceding z `shouldBe` sampleText
        it "has nothing following it" $ do
            Zipper.following z `shouldBe` empty
        it "has no next character" $ do
            Zipper.next z `shouldBe` Nothing
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText

    describe "split at 3 and advance past text bounds" $ do
        let z = Zipper.advanceBy sampleLength $ Zipper.splitAt 3 sampleText
        it "is not at start" $ do
            Zipper.atStart z `shouldBe` False
        it "is at end" $ do
            Zipper.atEnd z `shouldBe` True
        it "has everything preceding it" $ do
            Zipper.preceding z `shouldBe` sampleText
        it "has nothing following it" $ do
            Zipper.following z `shouldBe` empty
        it "has no next character" $ do
            Zipper.next z `shouldBe` Nothing
        it "recombines into original text" $ do
            Zipper.recombine z `shouldBe` sampleText