# frozen_string_literal: true require 'kind' require 'micro/attributes' require 'micro/case/version' module Micro class Case require 'micro/cases/utils' require 'micro/case/utils' require 'micro/case/error' require 'micro/case/result' require 'micro/case/safe' require 'micro/case/strict' require 'micro/case/config' require 'micro/cases' include Micro::Attributes def self.call(input = Kind::Empty::HASH) result = __new__(Result.new, input).__call__ return result unless block_given? result_wrapper = Result::Wrapper.new(result) yield(result_wrapper) result_wrapper.output end INVALID_INVOCATION_OF_THE_THEN_METHOD = Error::InvalidInvocationOfTheThenMethod.new("#{self.name}.") def self.then(use_case = nil, &block) can_yield_self = respond_to?(:yield_self) if block raise INVALID_INVOCATION_OF_THE_THEN_METHOD if use_case raise NotImplementedError if !can_yield_self yield_self(&block) else return yield_self if !use_case && can_yield_self raise INVALID_INVOCATION_OF_THE_THEN_METHOD unless ::Micro.case_or_flow?(use_case) self.call.then(use_case) end end def self.to_proc Proc.new { |arg| call(arg) } end def self.flow(*args) @__flow_use_cases = Cases::Utils.map_use_cases(args) end class << self alias __call__ call def config yield(Config.instance) end def call! self end end def self.inherited(subclass) subclass.__attributes_set_after_inherit__(self.__attributes_data__) subclass.extend ::Micro::Attributes.const_get('Macros::ForSubclasses'.freeze) if self.send(:__flow_use_cases) && !subclass.name.to_s.end_with?(FLOW_STEP) raise "Wooo, you can't do this! Inherits from a use case which has an inner flow violates "\ "one of the project principles: Solve complex business logic, by allowing the composition of use cases. "\ "Instead of doing this, declare a new class/constant with the steps needed.\n\n"\ "Related issue: https://github.com/serradura/u-case/issues/19\n" end end def self.__new__(result, arg) input = result.__set_accessible_attributes__(arg) new(input).__set_result__(result) end private_class_method :new def self.__flow_builder__ Cases::Flow end def self.__flow_get__ return @__flow if defined?(@__flow) end private_class_method def self.__flow_set(args) return if __flow_get__ def self.use_cases; __flow_get__.use_cases; end self.class_eval('def use_cases; self.class.use_cases; end') @__flow = __flow_builder__.build(args) end FLOW_STEP = 'Self'.freeze private_constant :FLOW_STEP def self.__call__! return const_get(FLOW_STEP) if const_defined?(FLOW_STEP, false) class_eval("class #{FLOW_STEP} < #{self.name}; private def __call; __call_use_case; end; end") end private_class_method def self.__flow_use_cases return @__flow_use_cases if defined?(@__flow_use_cases) end private_class_method def self.__flow_use_cases_get Array(__flow_use_cases) .map { |use_case| use_case == self ? self.__call__! : use_case } end def self.__flow_set__! __flow_set(__flow_use_cases_get) if !__flow_get__ && __flow_use_cases end InspectKey = :__inspect_key__ # :nodoc: def self.inspect ids = (Thread.current[InspectKey] ||= []) if ids.include?(object_id) return sprintf('#<%s: ...>', self) end begin ids << object_id if __flow_use_cases return '<%s (%s) use_cases=%s>' % [self, __flow_builder__, @__flow_use_cases] else return '<%s (%s) attributes=%s>' % [self, self.superclass, attributes] end ensure ids.pop end end def initialize(input) __setup_use_case(input) end def call! raise NotImplementedError end def __call__ __call_the_use_case_or_its_flow end def __set_result__(result) raise Error::InvalidResultInstance unless result.is_a?(Result) raise Error::ResultIsAlreadyDefined if defined?(@__result) @__result = result self end private def call(use_case, defaults = Kind::Empty::HASH) raise Error::InvalidUseCase unless ::Micro.case_or_flow?(use_case) input = defaults.empty? ? attributes : attributes.merge(Utils::Hashes.stringify_keys(defaults)) use_case.__new__(@__result, input).__call__ end def apply(name) method(name) end def __call_the_use_case_or_its_flow return __call_the_use_case_flow if __call_the_use_case_flow? __call_use_case end def __setup_use_case(input) self.class.__flow_set__! @__input = input self.attributes = input end def __call_use_case result = call! return result if result.is_a?(Result) raise Error::UnexpectedResult.new("#{self.class.name}#call!") end def __call_the_use_case_flow? self.class.__flow_get__ end def __call_the_use_case_flow self.class.__flow_get__.call(@__input) end def Success(type = :ok, result: nil) value = result || type __get_result(true, value, type) end MapFailureType = -> (value, type) do return type if type != :error return value if value.is_a?(Symbol) return :exception if value.is_a?(Exception) type end def Failure(type = :error, result: nil) value = result || type type = MapFailureType.call(value, type) __get_result(false, value, type) end def Check(type = nil, result: nil, on: Kind::Empty::HASH) result_key = type || :check if value result = on[:success] || { result_key => true } Success(type || :ok, result: result) else result = on[:failure] || { result_key => false } Failure(type || :error, result: result) end end def __get_result(is_success, value, type) @__result.__set__(is_success, value, type, self) end def transaction(adapter = :activerecord) raise NotImplementedError unless adapter == :activerecord result = nil ActiveRecord::Base.transaction do result = yield raise ActiveRecord::Rollback if result.failure? end result end private_constant :MapFailureType, :INVALID_INVOCATION_OF_THE_THEN_METHOD end def self.case?(arg) arg.is_a?(Class) && arg < Case end def self.case_or_flow?(arg) case?(arg) || arg.is_a?(Cases::Flow) end end