diff options
Diffstat (limited to 'activesupport/lib/active_support/ordered_hash.rb')
-rw-r--r-- | activesupport/lib/active_support/ordered_hash.rb | 169 |
1 files changed, 1 insertions, 168 deletions
diff --git a/activesupport/lib/active_support/ordered_hash.rb b/activesupport/lib/active_support/ordered_hash.rb index 0264133581..d4f309fbd7 100644 --- a/activesupport/lib/active_support/ordered_hash.rb +++ b/activesupport/lib/active_support/ordered_hash.rb @@ -20,7 +20,7 @@ module ActiveSupport # oh.keys # => [:a, :b], this order is guaranteed # # <tt>ActiveSupport::OrderedHash</tt> is namespaced to prevent conflicts with other implementations. - class OrderedHash < ::Hash #:nodoc: + class OrderedHash < ::Hash def to_yaml_type "!tag:yaml.org,2002:omap" end @@ -51,172 +51,5 @@ module ActiveSupport def extractable_options? true end - - # Hash is ordered in Ruby 1.9! - if RUBY_VERSION < '1.9' - - # In MRI the Hash class is core and written in C. In particular, methods are - # programmed with explicit C function calls and polymorphism is not honored. - # - # For example, []= is crucial in this implementation to maintain the @keys - # array but hash.c invokes rb_hash_aset() originally. This prevents method - # reuse through inheritance and forces us to reimplement stuff. - # - # For instance, we cannot use the inherited #merge! because albeit the algorithm - # itself would work, our []= is not being called at all by the C code. - - def initialize(*args, &block) - super - @keys = [] - end - - def self.[](*args) - ordered_hash = new - - if (args.length == 1 && args.first.is_a?(Array)) - args.first.each do |key_value_pair| - next unless (key_value_pair.is_a?(Array)) - ordered_hash[key_value_pair[0]] = key_value_pair[1] - end - - return ordered_hash - end - - unless (args.size % 2 == 0) - raise ArgumentError.new("odd number of arguments for Hash") - end - - args.each_with_index do |val, ind| - next if (ind % 2 != 0) - ordered_hash[val] = args[ind + 1] - end - - ordered_hash - end - - def initialize_copy(other) - super - # make a deep copy of keys - @keys = other.keys - end - - def []=(key, value) - @keys << key unless has_key?(key) - super - end - - def delete(key) - if has_key? key - index = @keys.index(key) - @keys.delete_at index - end - super - end - - def delete_if - super - sync_keys! - self - end - - def reject! - super - sync_keys! - self - end - - def reject(&block) - dup.reject!(&block) - end - - def keys - @keys.dup - end - - def values - @keys.collect { |key| self[key] } - end - - def to_hash - self - end - - def to_a - @keys.map { |key| [ key, self[key] ] } - end - - def each_key - return to_enum(:each_key) unless block_given? - @keys.each { |key| yield key } - self - end - - def each_value - return to_enum(:each_value) unless block_given? - @keys.each { |key| yield self[key]} - self - end - - def each - return to_enum(:each) unless block_given? - @keys.each {|key| yield [key, self[key]]} - self - end - - def each_pair - return to_enum(:each_pair) unless block_given? - @keys.each {|key| yield key, self[key]} - self - end - - alias_method :select, :find_all - - def clear - super - @keys.clear - self - end - - def shift - k = @keys.first - v = delete(k) - [k, v] - end - - def merge!(other_hash) - if block_given? - other_hash.each { |k, v| self[k] = key?(k) ? yield(k, self[k], v) : v } - else - other_hash.each { |k, v| self[k] = v } - end - self - end - - alias_method :update, :merge! - - def merge(other_hash, &block) - dup.merge!(other_hash, &block) - end - - # When replacing with another hash, the initial order of our keys must come from the other hash -ordered or not. - def replace(other) - super - @keys = other.keys - self - end - - def invert - OrderedHash[self.to_a.map!{|key_value_pair| key_value_pair.reverse}] - end - - def inspect - "#<OrderedHash #{super}>" - end - - private - def sync_keys! - @keys.delete_if {|k| !has_key?(k)} - end - end end end |