# ----------------------------------------------------------------------------
#
# Copyright (c) 2018-2020 Aspose Pty Ltd. All rights reserved.
#
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
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# DEALINGS IN THE SOFTWARE.
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# ----------------------------------------------------------------------------
require 'date'
module AsposeEmailCloud
# Mapi pid property descriptor base class
class MapiPidPropertyDescriptor < MapiPropertyDescriptor
def discriminator #getter method
self.class.name.split('::').last
end
def discriminator=(discriminator) #setter method, parameter ignored
@discriminator = self.class.name.split('::').last
end
# The name used to refer to the property in the documentation. The prefix of the canonical name identifies the basic characteristics of a property to the implementer. The canonical naming structure uses three categories that are denoted by the following prefixes to the canonical property name: * PidLid prefix: Properties identified by an unsigned 32-bit quantity along with a property set. * PidName prefix: Properties identified by a string name along with a property set. * PidTag prefix: Properties identified by an unsigned 16-bit quantity.
# @return [String]
attr_accessor :canonical_name
# [MS-OXCDATA]: Data Structures. Enum, available values: Unspecified, Null, Integer16, Integer32, Floating32, Floating64, Currency, FloatingTime, ErrorCode, Boolean, Integer64, String, String8, Time, Guid, ServerId, Restriction, RuleAction, Binary, MultipleInteger16, MultipleInteger32, MultipleFloating32, MultipleFloating64, MultipleCurrency, MultipleFloatingTime, MultipleBoolean, MultipleInteger64, MultipleString, MultipleString8, MultipleTime, MultipleGuid, MultipleBinary, Object
# @return [String]
attr_accessor :data_type
# Indicates if data type contains of multiple values
# @return [BOOLEAN]
attr_accessor :multiple_values_data_type
# A string that identifies the property
# @return [String]
attr_accessor :name
# Attribute mapping from ruby-style variable name to JSON key.
def self.attribute_map
{
:'discriminator' => :'discriminator',
:'canonical_name' => :'canonicalName',
:'data_type' => :'dataType',
:'multiple_values_data_type' => :'multipleValuesDataType',
:'name' => :'name'
}
end
# Attribute type mapping.
def self.swagger_types
{
:'discriminator' => :'String',
:'canonical_name' => :'String',
:'data_type' => :'String',
:'multiple_values_data_type' => :'BOOLEAN',
:'name' => :'String'
}
end
# Initializes the object
# @param [String] canonical_name The name used to refer to the property in the documentation. The prefix of the canonical name identifies the basic characteristics of a property to the implementer. The canonical naming structure uses three categories that are denoted by the following prefixes to the canonical property name: * PidLid prefix: Properties identified by an unsigned 32-bit quantity along with a property set. * PidName prefix: Properties identified by a string name along with a property set. * PidTag prefix: Properties identified by an unsigned 16-bit quantity.
# @param [String] data_type [MS-OXCDATA]: Data Structures. Enum, available values: Unspecified, Null, Integer16, Integer32, Floating32, Floating64, Currency, FloatingTime, ErrorCode, Boolean, Integer64, String, String8, Time, Guid, ServerId, Restriction, RuleAction, Binary, MultipleInteger16, MultipleInteger32, MultipleFloating32, MultipleFloating64, MultipleCurrency, MultipleFloatingTime, MultipleBoolean, MultipleInteger64, MultipleString, MultipleString8, MultipleTime, MultipleGuid, MultipleBinary, Object
# @param [BOOLEAN] multiple_values_data_type Indicates if data type contains of multiple values
# @param [String] name A string that identifies the property
def initialize(#,
canonical_name: nil,
data_type: nil,
multiple_values_data_type: nil,
name: nil)
self.canonical_name = canonical_name if canonical_name
self.data_type = data_type if data_type
self.multiple_values_data_type = multiple_values_data_type if multiple_values_data_type
self.name = name if name
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
if @discriminator.nil?
invalid_properties.push('invalid value for "discriminator", discriminator cannot be nil.')
end
if @data_type.nil?
invalid_properties.push('invalid value for "data_type", data_type cannot be nil.')
end
if @multiple_values_data_type.nil?
invalid_properties.push('invalid value for "multiple_values_data_type", multiple_values_data_type cannot be nil.')
end
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 false if @discriminator.nil?
return false if @data_type.nil?
return false if @multiple_values_data_type.nil?
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 &&
discriminator == o.discriminator &&
canonical_name == o.canonical_name &&
data_type == o.data_type &&
multiple_values_data_type == o.multiple_values_data_type &&
name == o.name
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
[discriminator, canonical_name, data_type, multiple_values_data_type, name].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|
attribute_key = self.class.attribute_map[key]
attribute_key = (attribute_key[0, 1].downcase + attribute_key[1..-1]).to_sym
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[attribute_key].is_a?(Array)
self.send("#{key}=", attributes[attribute_key].map { |v| _deserialize($1, v) })
end
elsif !attributes[attribute_key].nil?
self.send("#{key}=", _deserialize(type, attributes[attribute_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
sub_type = value[:type] || value[:discriminator] || type
if AsposeEmailCloud.const_defined?(sub_type)
type = sub_type
end
temp_model = AsposeEmailCloud.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