mirror of
https://github.com/sinatra/sinatra
synced 2023-03-27 23:18:01 -04:00
318 lines
9 KiB
Ruby
318 lines
9 KiB
Ruby
# frozen_string_literal: true
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#
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# We don't need the full test helper for this standalone class.
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#
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require 'minitest/autorun' unless defined?(Minitest)
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# Suppress the ActiveSupport warning when this test is executed independently,
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# outside of the full suite, on older Rubies.
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ENV['SINATRA_ACTIVESUPPORT_WARNING'] = 'false'
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require_relative '../lib/sinatra/indifferent_hash'
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class TestIndifferentHashBasics < Minitest::Test
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def test_flattened_constructor
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hash = Sinatra::IndifferentHash[:a, 1, ?b, 2]
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assert_equal 1, hash[?a]
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assert_equal 2, hash[?b]
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end
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def test_pairs_constructor
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hash = Sinatra::IndifferentHash[[[:a, 1], [?b, 2]]]
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assert_equal 1, hash[?a]
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assert_equal 2, hash[?b]
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end
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def test_default_block
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hash = Sinatra::IndifferentHash.new { |h, k| h[k] = k.upcase }
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assert_nil hash.default
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assert_equal ?A, hash.default(:a)
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end
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def test_default_object
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hash = Sinatra::IndifferentHash.new(:a=>1, ?b=>2)
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assert_equal({ ?a=>1, ?b=>2 }, hash.default)
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assert_equal({ ?a=>1, ?b=>2 }, hash[:a])
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end
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def test_default_assignment
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hash = Sinatra::IndifferentHash.new
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hash.default = { :a=>1, ?b=>2 }
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assert_equal({ ?a=>1, ?b=>2 }, hash.default)
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assert_equal({ ?a=>1, ?b=>2 }, hash[:a])
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end
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def test_assignment
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hash = Sinatra::IndifferentHash.new
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hash[:a] = :a
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hash[?b] = :b
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hash[3] = 3
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hash[:simple_nested] = { :a=>:a, ?b=>:b }
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assert_equal :a, hash[?a]
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assert_equal :b, hash[?b]
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assert_equal 3, hash[3]
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assert_equal({ ?a=>:a, ?b=>:b }, hash['simple_nested'])
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assert_nil hash[?d]
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end
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def test_merge!
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# merge! is already mostly tested by the different constructors, so we
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# really just need to test the block form here
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hash = Sinatra::IndifferentHash[:a=>'a', ?b=>'b', 3=>3]
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hash.merge!(?a=>'A', :b=>'B', :d=>'D') do |key, oldval, newval|
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"#{oldval}*#{key}*#{newval}"
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end
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assert_equal({ ?a=>'a*a*A', ?b=>'b*b*B', 3=>3, ?d=>'D' }, hash)
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end
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end
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class TestIndifferentHash < Minitest::Test
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def skip_if_lacking(meth)
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skip "Hash##{meth} not supported on this Ruby" unless Hash.method_defined?(meth)
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end
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def setup
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@hash = Sinatra::IndifferentHash[:a=>:a, ?b=>:b, 3=>3,
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:simple_nested=>{ :a=>:a, ?b=>:b },
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:nested=>{ :a=>[{ :a=>:a, ?b=>:b }, :c, 4], ?f=>:f, 7=>7 }
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]
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end
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def test_hash_constructor
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assert_equal :a, @hash[?a]
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assert_equal :b, @hash[?b]
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assert_equal 3, @hash[3]
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assert_equal({ ?a=>:a, ?b=>:b }, @hash['nested'][?a][0])
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assert_equal :c, @hash['nested'][?a][1]
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assert_equal 4, @hash['nested'][?a][2]
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assert_equal :f, @hash['nested'][?f]
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assert_equal 7, @hash['nested'][7]
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assert_equal :a, @hash['simple_nested'][?a]
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assert_equal :b, @hash['simple_nested'][?b]
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assert_nil @hash[?d]
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end
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def test_assoc
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assert_nil @hash.assoc(:d)
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assert_equal [?a, :a], @hash.assoc(:a)
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assert_equal [?b, :b], @hash.assoc(:b)
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end
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def test_rassoc
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assert_nil @hash.rassoc(:d)
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assert_equal [?a, :a], @hash.rassoc(:a)
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assert_equal [?b, :b], @hash.rassoc(:b)
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assert_equal ['simple_nested', { ?a=>:a, ?b=>:b }], @hash.rassoc(:a=>:a, ?b=>:b)
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end
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def test_fetch
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assert_raises(KeyError) { @hash.fetch(:d) }
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assert_equal 1, @hash.fetch(:d, 1)
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assert_equal 2, @hash.fetch(:d) { 2 }
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assert_equal ?d, @hash.fetch(:d) { |k| k }
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assert_equal :a, @hash.fetch(:a, 1)
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assert_equal :a, @hash.fetch(:a) { 2 }
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end
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def test_symbolic_retrieval
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assert_equal :a, @hash[:a]
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assert_equal :b, @hash[:b]
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assert_equal({ ?a=>:a, ?b=>:b }, @hash[:nested][:a][0])
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assert_equal :c, @hash[:nested][:a][1]
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assert_equal 4, @hash[:nested][:a][2]
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assert_equal :f, @hash[:nested][:f]
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assert_equal 7, @hash[:nested][7]
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assert_equal :a, @hash[:simple_nested][:a]
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assert_equal :b, @hash[:simple_nested][:b]
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assert_nil @hash[:d]
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end
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def test_key
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assert_nil @hash.key(:d)
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assert_equal ?a, @hash.key(:a)
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assert_equal 'simple_nested', @hash.key(:a=>:a, ?b=>:b)
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end
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def test_key?
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assert_operator @hash, :key?, :a
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assert_operator @hash, :key?, ?b
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assert_operator @hash, :key?, 3
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refute_operator @hash, :key?, :d
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end
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def test_value?
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assert_operator @hash, :value?, :a
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assert_operator @hash, :value?, :b
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assert_operator @hash, :value?, 3
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assert_operator @hash, :value?, { :a=>:a, ?b=>:b }
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refute_operator @hash, :value?, :d
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end
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def test_delete
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@hash.delete(:a)
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@hash.delete(?b)
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assert_nil @hash[:a]
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assert_nil @hash[?b]
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end
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def test_dig
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skip_if_lacking :dig
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assert_equal :a, @hash.dig(:a)
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assert_equal :b, @hash.dig(?b)
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assert_nil @hash.dig(:d)
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assert_equal :a, @hash.dig(:simple_nested, :a)
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assert_equal :b, @hash.dig('simple_nested', ?b)
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assert_nil @hash.dig('simple_nested', :d)
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assert_equal :a, @hash.dig(:nested, :a, 0, :a)
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assert_equal :b, @hash.dig('nested', ?a, 0, ?b)
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assert_nil @hash.dig('nested', ?a, 0, :d)
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end
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def test_slice
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skip_if_lacking :slice
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assert_equal Sinatra::IndifferentHash[a: :a], @hash.slice(:a)
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assert_equal Sinatra::IndifferentHash[b: :b], @hash.slice(?b)
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assert_equal Sinatra::IndifferentHash[3 => 3], @hash.slice(3)
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assert_equal Sinatra::IndifferentHash.new, @hash.slice(:d)
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assert_equal Sinatra::IndifferentHash[a: :a, b: :b, 3 => 3], @hash.slice(:a, :b, 3)
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assert_equal Sinatra::IndifferentHash[simple_nested: { a: :a, ?b => :b }], @hash.slice(:simple_nested)
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assert_equal Sinatra::IndifferentHash[nested: { a: [{ a: :a, ?b => :b }, :c, 4], ?f => :f, 7 => 7 }], @hash.slice(:nested)
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end
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def test_fetch_values
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skip_if_lacking :fetch_values
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assert_raises(KeyError) { @hash.fetch_values(3, :d) }
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assert_equal [:a, :b, 3, ?D], @hash.fetch_values(:a, ?b, 3, :d) { |k| k.upcase }
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end
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def test_values_at
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assert_equal [:a, :b, 3, nil], @hash.values_at(:a, ?b, 3, :d)
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end
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def test_merge
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# merge just calls merge!, which is already thoroughly tested
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hash2 = @hash.merge(?a=>1, :q=>2) { |key, oldval, newval| "#{oldval}*#{key}*#{newval}" }
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refute_equal @hash, hash2
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assert_equal 'a*a*1', hash2[:a]
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assert_equal 2, hash2[?q]
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end
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def test_merge_with_multiple_argument
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hash = Sinatra::IndifferentHash.new.merge({a: 1}, {b: 2}, {c: 3})
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assert_equal 1, hash[?a]
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assert_equal 2, hash[?b]
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assert_equal 3, hash[?c]
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hash2 = Sinatra::IndifferentHash[d: 4]
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hash3 = {e: 5}
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hash.merge!(hash2, hash3)
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assert_equal 4, hash[?d]
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assert_equal 5, hash[?e]
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end
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def test_replace
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@hash.replace(?a=>1, :q=>2)
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assert_equal({ ?a=>1, ?q=>2 }, @hash)
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end
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def test_transform_values!
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skip_if_lacking :transform_values!
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@hash.transform_values! { |v| v.is_a?(Hash) ? Hash[v.to_a] : v }
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assert_instance_of Sinatra::IndifferentHash, @hash[:simple_nested]
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end
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def test_transform_values
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skip_if_lacking :transform_values
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hash2 = @hash.transform_values { |v| v.respond_to?(:upcase) ? v.upcase : v }
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refute_equal @hash, hash2
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assert_equal :A, hash2[:a]
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assert_equal :A, hash2[?a]
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end
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def test_transform_keys!
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skip_if_lacking :transform_keys!
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@hash.transform_keys! { |k| k.respond_to?(:to_sym) ? k.to_sym : k }
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assert_equal :a, @hash[:a]
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assert_equal :a, @hash[?a]
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end
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def test_transform_keys
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skip_if_lacking :transform_keys
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hash2 = @hash.transform_keys { |k| k.respond_to?(:upcase) ? k.upcase : k }
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refute_equal @hash, hash2
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refute_operator hash2, :key?, :a
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refute_operator hash2, :key?, ?a
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assert_equal :a, hash2[:A]
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assert_equal :a, hash2[?A]
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end
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def test_select
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hash = @hash.select { |k, v| v == :a }
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assert_equal Sinatra::IndifferentHash[a: :a], hash
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assert_instance_of Sinatra::IndifferentHash, hash
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hash2 = @hash.select { |k, v| true }
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assert_equal @hash, hash2
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assert_instance_of Sinatra::IndifferentHash, hash2
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enum = @hash.select
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assert_instance_of Enumerator, enum
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end
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def test_select!
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@hash.select! { |k, v| v == :a }
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assert_equal Sinatra::IndifferentHash[a: :a], @hash
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end
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def test_reject
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hash = @hash.reject { |k, v| v != :a }
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assert_equal Sinatra::IndifferentHash[a: :a], hash
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assert_instance_of Sinatra::IndifferentHash, hash
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hash2 = @hash.reject { |k, v| false }
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assert_equal @hash, hash2
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assert_instance_of Sinatra::IndifferentHash, hash2
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enum = @hash.reject
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assert_instance_of Enumerator, enum
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end
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def test_reject!
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@hash.reject! { |k, v| v != :a }
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assert_equal Sinatra::IndifferentHash[a: :a], @hash
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end
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def test_compact
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skip_if_lacking :compact
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hash_with_nil_values = @hash.merge({?z => nil})
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compacted_hash = hash_with_nil_values.compact
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assert_equal @hash, compacted_hash
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assert_instance_of Sinatra::IndifferentHash, compacted_hash
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empty_hash = Sinatra::IndifferentHash.new
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compacted_hash = empty_hash.compact
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assert_equal empty_hash, compacted_hash
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non_empty_hash = Sinatra::IndifferentHash[a: :a]
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compacted_hash = non_empty_hash.compact
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assert_equal non_empty_hash, compacted_hash
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end
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end
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