=begin #Intrinio API #Welcome to the Intrinio API! Through our Financial Data Marketplace, we offer a wide selection of financial data feed APIs sourced by our own proprietary processes as well as from many data vendors. For a complete API request / response reference please view the [Intrinio API documentation](https://docs.intrinio.com/documentation/api_v2). If you need additional help in using the API, please visit the [Intrinio website](https://intrinio.com) and click on the chat icon in the lower right corner. OpenAPI spec version: 2.27.5 Generated by: https://github.com/swagger-api/swagger-codegen.git Swagger Codegen version: unset =end require 'date' module Intrinio # An option price contains price information for a specific options contract. class OptionPrice # The date of the price, in the format YYYY-MM-DD attr_accessor :date # The closing price of the options contract. attr_accessor :close # The closing bid price of the options contract. attr_accessor :close_bid # The closing ask price of the options contract. attr_accessor :close_ask # The cumulative volume of this options contract that traded that day. attr_accessor :volume # The cumulative volume of this options contract that traded on the bid price that day. attr_accessor :volume_bid # The cumulative volume of this options contract that traded on the ask price that day. attr_accessor :volume_ask # The number of trades executed that for this options contract on that day. attr_accessor :trades # The total number of this options contract that are still open. attr_accessor :open_interest # The change in the total number of this options contract that are still open from the previous day. attr_accessor :open_interest_change # The total number of this options contract that are still open at the start of the next day. attr_accessor :next_day_open_interest # The estimated volatility of the Security's price. Volatility is a statistical measure of dispersion of returns for the Security. Standard deviation of a Security's returns and a market index is an example of a measurement of volatility. Implied volatility approximates the future value of an option, and the option's current value takes this into consideration. attr_accessor :implied_volatility # The change in implied volatility for that day. attr_accessor :implied_volatility_change # Delta measures the degree to which an options contract is exposed to shifts in the price of the underlying Security. Values of delta range from 0.0 to 1.0 for call options and -1.0 to 0.0 for put options. For example, if a put option has a delta of -0.50, if the price of the underlying Security increases by $1, the price of the put option will decrease by $0.50. attr_accessor :delta # Attribute mapping from ruby-style variable name to JSON key. def self.attribute_map { :'date' => :'date', :'close' => :'close', :'close_bid' => :'close_bid', :'close_ask' => :'close_ask', :'volume' => :'volume', :'volume_bid' => :'volume_bid', :'volume_ask' => :'volume_ask', :'trades' => :'trades', :'open_interest' => :'open_interest', :'open_interest_change' => :'open_interest_change', :'next_day_open_interest' => :'next_day_open_interest', :'implied_volatility' => :'implied_volatility', :'implied_volatility_change' => :'implied_volatility_change', :'delta' => :'delta' } end # Attribute type mapping. def self.swagger_types { :'date' => :'String', :'close' => :'Float', :'close_bid' => :'Float', :'close_ask' => :'Float', :'volume' => :'Integer', :'volume_bid' => :'Integer', :'volume_ask' => :'Integer', :'trades' => :'Integer', :'open_interest' => :'Integer', :'open_interest_change' => :'Integer', :'next_day_open_interest' => :'Integer', :'implied_volatility' => :'Float', :'implied_volatility_change' => :'Float', :'delta' => :'Float' } end # Initializes the object # @param [Hash] attributes Model attributes in the form of hash def initialize(attributes = {}) return unless attributes.is_a?(Hash) # convert string to symbol for hash key attributes = attributes.each_with_object({}){|(k,v), h| h[k.to_sym] = v} if attributes.has_key?(:'date') self.date = attributes[:'date'] end if attributes.has_key?(:'close') self.close = attributes[:'close'] end if attributes.has_key?(:'close_bid') self.close_bid = attributes[:'close_bid'] end if attributes.has_key?(:'close_ask') self.close_ask = attributes[:'close_ask'] end if attributes.has_key?(:'volume') self.volume = attributes[:'volume'] end if attributes.has_key?(:'volume_bid') self.volume_bid = attributes[:'volume_bid'] end if attributes.has_key?(:'volume_ask') self.volume_ask = attributes[:'volume_ask'] end if attributes.has_key?(:'trades') self.trades = attributes[:'trades'] end if attributes.has_key?(:'open_interest') self.open_interest = attributes[:'open_interest'] end if attributes.has_key?(:'open_interest_change') self.open_interest_change = attributes[:'open_interest_change'] end if attributes.has_key?(:'next_day_open_interest') self.next_day_open_interest = attributes[:'next_day_open_interest'] end if attributes.has_key?(:'implied_volatility') self.implied_volatility = attributes[:'implied_volatility'] end if attributes.has_key?(:'implied_volatility_change') self.implied_volatility_change = attributes[:'implied_volatility_change'] end if attributes.has_key?(:'delta') self.delta = attributes[:'delta'] end end # Show invalid properties with the reasons. Usually used together with valid? # @return Array for valid properties with the reasons def list_invalid_properties invalid_properties = Array.new return invalid_properties end # Check to see if the all the properties in the model are valid # @return true if the model is valid def valid? return true end # Checks equality by comparing each attribute. # @param [Object] Object to be compared def ==(o) return true if self.equal?(o) self.class == o.class && date == o.date && close == o.close && close_bid == o.close_bid && close_ask == o.close_ask && volume == o.volume && volume_bid == o.volume_bid && volume_ask == o.volume_ask && trades == o.trades && open_interest == o.open_interest && open_interest_change == o.open_interest_change && next_day_open_interest == o.next_day_open_interest && implied_volatility == o.implied_volatility && implied_volatility_change == o.implied_volatility_change && delta == o.delta end # @see the `==` method # @param [Object] Object to be compared def eql?(o) self == o end # Calculates hash code according to all attributes. # @return [Fixnum] Hash code def hash [date, close, close_bid, close_ask, volume, volume_bid, volume_ask, trades, open_interest, open_interest_change, next_day_open_interest, implied_volatility, implied_volatility_change, delta].hash end # Builds the object from hash # @param [Hash] attributes Model attributes in the form of hash # @return [Object] Returns the model itself def build_from_hash(attributes) return nil unless attributes.is_a?(Hash) self.class.swagger_types.each_pair do |key, type| if type =~ /\AArray<(.*)>/i # check to ensure the input is an array given that the the attribute # is documented as an array but the input is not if attributes[self.class.attribute_map[key]].is_a?(Array) self.send("#{key}=", attributes[self.class.attribute_map[key]].map{ |v| _deserialize($1, v) } ) end elsif !attributes[self.class.attribute_map[key]].nil? self.send("#{key}=", _deserialize(type, attributes[self.class.attribute_map[key]])) end # or else data not found in attributes(hash), not an issue as the data can be optional end self end # Deserializes the data based on type # @param string type Data type # @param string value Value to be deserialized # @return [Object] Deserialized data def _deserialize(type, value) case type.to_sym when :DateTime DateTime.parse(value) when :Date Date.parse(value) when :String value.to_s when :Integer value.to_i when :Float value.to_f when :BOOLEAN if value.to_s =~ /\A(true|t|yes|y|1)\z/i true else false end when :Object # generic object (usually a Hash), return directly value when /\AArray<(?.+)>\z/ inner_type = Regexp.last_match[:inner_type] value.map { |v| _deserialize(inner_type, v) } when /\AHash<(?.+?), (?.+)>\z/ k_type = Regexp.last_match[:k_type] v_type = Regexp.last_match[:v_type] {}.tap do |hash| value.each do |k, v| hash[_deserialize(k_type, k)] = _deserialize(v_type, v) end end else # model temp_model = Intrinio.const_get(type).new temp_model.build_from_hash(value) end end # Returns the string representation of the object # @return [String] String presentation of the object def to_s to_hash.to_s end # to_body is an alias to to_hash (backward compatibility) # @return [Hash] Returns the object in the form of hash def to_body to_hash end # Returns the object in the form of hash # @return [Hash] Returns the object in the form of hash def to_hash hash = {} self.class.attribute_map.each_pair do |attr, param| value = self.send(attr) next if value.nil? hash[param] = _to_hash(value) end hash end # Outputs non-array value in the form of hash # For object, use to_hash. Otherwise, just return the value # @param [Object] value Any valid value # @return [Hash] Returns the value in the form of hash def _to_hash(value) if value.is_a?(Array) value.compact.map{ |v| _to_hash(v) } elsif value.is_a?(Hash) {}.tap do |hash| value.each { |k, v| hash[k] = _to_hash(v) } end elsif value.respond_to? :to_hash value.to_hash else value end end end end