=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: 2.70.0 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 OptionPriceEod # 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 price at the beginning of the period attr_accessor :open # The ask at the beginning of the period attr_accessor :open_ask # The bid at the beginning of the period attr_accessor :open_bid # The total number of this options contract that are still open. attr_accessor :open_interest # The highest price over the span of the period attr_accessor :high # The highest price over the span of the period attr_accessor :low # The mid price between the latest bid and ask spread attr_accessor :mark # The highest ask over the span of the period attr_accessor :ask_high # The lowest ask over the span of the period attr_accessor :ask_low # The highest bid over the span of the period attr_accessor :bid_high # The lowest bid over the span of the period attr_accessor :bid_low # The implied volatility of the contract calculated using the Black-Scholes Model. attr_accessor :implied_volatility # Delta represents the rate of change between the option's price and a $1 change in the underlying asset's price. attr_accessor :delta # Gamma represents the rate of change between an option's delta and the underlying asset's price. attr_accessor :gamma # Theta represents the rate of change between the option price and time, or time sensitivity - sometimes known as an option's time decay. attr_accessor :theta # Vega represents the rate of change between an option's value and the underlying asset's implied volatility. attr_accessor :vega # The time of the last trade before close. attr_accessor :close_time # The size of the last trade before close. attr_accessor :close_size # The time of the last bid before close. attr_accessor :close_bid_time # The size of the last bid before close. attr_accessor :close_bid_size # The time of the last ask before close. attr_accessor :close_ask_time # The size of the last ask before close. attr_accessor :close_ask_size # The exercise style. attr_accessor :exercise_style # 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', :'open' => :'open', :'open_ask' => :'open_ask', :'open_bid' => :'open_bid', :'open_interest' => :'open_interest', :'high' => :'high', :'low' => :'low', :'mark' => :'mark', :'ask_high' => :'ask_high', :'ask_low' => :'ask_low', :'bid_high' => :'bid_high', :'bid_low' => :'bid_low', :'implied_volatility' => :'implied_volatility', :'delta' => :'delta', :'gamma' => :'gamma', :'theta' => :'theta', :'vega' => :'vega', :'close_time' => :'close_time', :'close_size' => :'close_size', :'close_bid_time' => :'close_bid_time', :'close_bid_size' => :'close_bid_size', :'close_ask_time' => :'close_ask_time', :'close_ask_size' => :'close_ask_size', :'exercise_style' => :'exercise_style' } end # Attribute type mapping. def self.swagger_types { :'date' => :'String', :'close' => :'Float', :'close_bid' => :'Float', :'close_ask' => :'Float', :'volume' => :'Integer', :'open' => :'Float', :'open_ask' => :'Float', :'open_bid' => :'Float', :'open_interest' => :'Integer', :'high' => :'Float', :'low' => :'Float', :'mark' => :'Float', :'ask_high' => :'Float', :'ask_low' => :'Float', :'bid_high' => :'Float', :'bid_low' => :'Float', :'implied_volatility' => :'Float', :'delta' => :'Float', :'gamma' => :'Float', :'theta' => :'Float', :'vega' => :'Float', :'close_time' => :'DateTime', :'close_size' => :'Integer', :'close_bid_time' => :'DateTime', :'close_bid_size' => :'Integer', :'close_ask_time' => :'DateTime', :'close_ask_size' => :'Integer', :'exercise_style' => :'String' } 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?(:'open') self.open = attributes[:'open'] end if attributes.has_key?(:'open_ask') self.open_ask = attributes[:'open_ask'] end if attributes.has_key?(:'open_bid') self.open_bid = attributes[:'open_bid'] end if attributes.has_key?(:'open_interest') self.open_interest = attributes[:'open_interest'] end if attributes.has_key?(:'high') self.high = attributes[:'high'] end if attributes.has_key?(:'low') self.low = attributes[:'low'] end if attributes.has_key?(:'mark') self.mark = attributes[:'mark'] end if attributes.has_key?(:'ask_high') self.ask_high = attributes[:'ask_high'] end if attributes.has_key?(:'ask_low') self.ask_low = attributes[:'ask_low'] end if attributes.has_key?(:'bid_high') self.bid_high = attributes[:'bid_high'] end if attributes.has_key?(:'bid_low') self.bid_low = attributes[:'bid_low'] end if attributes.has_key?(:'implied_volatility') self.implied_volatility = attributes[:'implied_volatility'] end if attributes.has_key?(:'delta') self.delta = attributes[:'delta'] end if attributes.has_key?(:'gamma') self.gamma = attributes[:'gamma'] end if attributes.has_key?(:'theta') self.theta = attributes[:'theta'] end if attributes.has_key?(:'vega') self.vega = attributes[:'vega'] end if attributes.has_key?(:'close_time') self.close_time = attributes[:'close_time'] end if attributes.has_key?(:'close_size') self.close_size = attributes[:'close_size'] end if attributes.has_key?(:'close_bid_time') self.close_bid_time = attributes[:'close_bid_time'] end if attributes.has_key?(:'close_bid_size') self.close_bid_size = attributes[:'close_bid_size'] end if attributes.has_key?(:'close_ask_time') self.close_ask_time = attributes[:'close_ask_time'] end if attributes.has_key?(:'close_ask_size') self.close_ask_size = attributes[:'close_ask_size'] end if attributes.has_key?(:'exercise_style') self.exercise_style = attributes[:'exercise_style'] 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 && open == o.open && open_ask == o.open_ask && open_bid == o.open_bid && open_interest == o.open_interest && high == o.high && low == o.low && mark == o.mark && ask_high == o.ask_high && ask_low == o.ask_low && bid_high == o.bid_high && bid_low == o.bid_low && implied_volatility == o.implied_volatility && delta == o.delta && gamma == o.gamma && theta == o.theta && vega == o.vega && close_time == o.close_time && close_size == o.close_size && close_bid_time == o.close_bid_time && close_bid_size == o.close_bid_size && close_ask_time == o.close_ask_time && close_ask_size == o.close_ask_size && exercise_style == o.exercise_style 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, open, open_ask, open_bid, open_interest, high, low, mark, ask_high, ask_low, bid_high, bid_low, implied_volatility, delta, gamma, theta, vega, close_time, close_size, close_bid_time, close_bid_size, close_ask_time, close_ask_size, exercise_style].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