ruby-koans/about_hashes.rb at master · BadAllOff/ruby-koans · GitHub

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
require File.expand_path(File.dirname(__FILE__) + '/neo')

class AboutHashes < Neo::Koan
  def test_creating_hashes
    empty_hash = Hash.new
    assert_equal Hash, empty_hash.class
    assert_equal({}, empty_hash)
    assert_equal 0, empty_hash.size
  end

  def test_hash_literals
    hash = { :one => "uno", :two => "dos" }
    assert_equal 2, hash.size
  end

  def test_accessing_hashes
    hash = { :one => "uno", :two => "dos" }
    assert_equal "uno", hash[:one]
    assert_equal "dos", hash[:two]
    assert_equal nil, hash[:doesnt_exist]
  end

  def test_accessing_hashes_with_fetch
    hash = { :one => "uno" }
    assert_equal "uno", hash.fetch(:one)
    assert_raise(KeyError) do
      hash.fetch(:doesnt_exist)
    end

    # THINK ABOUT IT:
    #
    # Why might you want to use #fetch instead of #[] when accessing hash keys?

    # fetch(key_name): get the value if the key exists,
    # raise a KeyError if it doesn't
    # fetch(key_name, default_value): get the value if the key exists,
    # return default_value otherwise
    # fetch(key_name) { |key| "default" }: get the value if the key exists,
    # otherwise run the supplied block and return the value.
  end

  def test_changing_hashes
    hash = { :one => "uno", :two => "dos" }
    hash[:one] = "eins"

    expected = { :one => "eins", :two => "dos" }
    assert_equal expected, hash

    # Bonus Question: Why was "expected" broken out into a variable
    # rather than used as a literal?


    # Because { :one => "eins", :two => "dos" } - this is block for assertation
    # But, of course, you can use
    # assert_equal({ :one => "eins", :two => "dos" }, hash)

  end

  def test_hash_is_unordered
    hash1 = { :one => "uno", :two => "dos" }
    hash2 = { :two => "dos", :one => "uno" }

    assert_equal true, hash1 == hash2
  end

  def test_hash_keys
    hash = { :one => "uno", :two => "dos" }
    assert_equal 2, hash.keys.size
    assert_equal true, hash.keys.include?(:one)
    assert_equal true, hash.keys.include?(:two)
    assert_equal Array, hash.keys.class
  end

  def test_hash_values
    hash = { :one => "uno", :two => "dos" }
    assert_equal 2, hash.values.size
    assert_equal true, hash.values.include?("uno")
    assert_equal true, hash.values.include?("dos")
    assert_equal Array, hash.values.class
  end

  def test_combining_hashes
    hash = { "jim" => 53, "amy" => 20, "dan" => 23 }
    new_hash = hash.merge({ "jim" => 54, "jenny" => 26 })

    assert_equal true, hash != new_hash

    expected = { "jim" => 54, "amy" => 20, "dan" => 23, "jenny" => 26 }
    assert_equal true, expected == new_hash
  end

  def test_default_value
    hash1 = Hash.new
    hash1[:one] = 1

    assert_equal 1, hash1[:one]
    assert_equal nil, hash1[:two]

    hash2 = Hash.new("dos")
    hash2[:one] = 1

    assert_equal 1, hash2[:one]
    assert_equal "dos", hash2[:two]
  end

  def test_default_value_is_the_same_object
    hash = Hash.new([])

    hash[:one] << "uno"
    hash[:two] << "dos"

    assert_equal ["uno", "dos"], hash[:one]
    assert_equal ["uno", "dos"], hash[:two]
    assert_equal ["uno", "dos"], hash[:three]

    assert_equal true, hash[:one].object_id == hash[:two].object_id
  end

  def test_default_value_with_block
    hash = Hash.new {|hash, key| hash[key] = [] }

    hash[:one] << "uno"
    hash[:two] << "dos"

    assert_equal ["uno"], hash[:one]
    assert_equal ["dos"], hash[:two]
    assert_equal [], hash[:three]
  end
end