require 'set' require 'concurrent/synchronization' module Concurrent # A `TVar` is a transactional variable - a single-element container that # is used as part of a transaction - see `Concurrent::atomically`. # # @!macro thread_safe_variable_comparison # # {include:file:docs-source/tvar.md} class TVar < Synchronization::Object safe_initialization! # Create a new `TVar` with an initial value. def initialize(value) @value = value @version = 0 @lock = Mutex.new end # Get the value of a `TVar`. def value Concurrent::atomically do Transaction::current.read(self) end end # Set the value of a `TVar`. def value=(value) Concurrent::atomically do Transaction::current.write(self, value) end end # @!visibility private def unsafe_value # :nodoc: @value end # @!visibility private def unsafe_value=(value) # :nodoc: @value = value end # @!visibility private def unsafe_version # :nodoc: @version end # @!visibility private def unsafe_increment_version # :nodoc: @version += 1 end # @!visibility private def unsafe_lock # :nodoc: @lock end end # Run a block that reads and writes `TVar`s as a single atomic transaction. # With respect to the value of `TVar` objects, the transaction is atomic, in # that it either happens or it does not, consistent, in that the `TVar` # objects involved will never enter an illegal state, and isolated, in that # transactions never interfere with each other. You may recognise these # properties from database transactions. # # There are some very important and unusual semantics that you must be aware of: # # * Most importantly, the block that you pass to atomically may be executed # more than once. In most cases your code should be free of # side-effects, except for via TVar. # # * If an exception escapes an atomically block it will abort the transaction. # # * It is undefined behaviour to use callcc or Fiber with atomically. # # * If you create a new thread within an atomically, it will not be part of # the transaction. Creating a thread counts as a side-effect. # # Transactions within transactions are flattened to a single transaction. # # @example # a = new TVar(100_000) # b = new TVar(100) # # Concurrent::atomically do # a.value -= 10 # b.value += 10 # end def atomically raise ArgumentError.new('no block given') unless block_given? # Get the current transaction transaction = Transaction::current # Are we not already in a transaction (not nested)? if transaction.nil? # New transaction begin # Retry loop loop do # Create a new transaction transaction = Transaction.new Transaction::current = transaction # Run the block, aborting on exceptions begin result = yield rescue Transaction::AbortError => e transaction.abort result = Transaction::ABORTED rescue Transaction::LeaveError => e transaction.abort break result rescue => e transaction.abort raise e end # If we can commit, break out of the loop if result != Transaction::ABORTED if transaction.commit break result end end end ensure # Clear the current transaction Transaction::current = nil end else # Nested transaction - flatten it and just run the block yield end end # Abort a currently running transaction - see `Concurrent::atomically`. def abort_transaction raise Transaction::AbortError.new end # Leave a transaction without committing or aborting - see `Concurrent::atomically`. def leave_transaction raise Transaction::LeaveError.new end module_function :atomically, :abort_transaction, :leave_transaction private class Transaction ABORTED = ::Object.new ReadLogEntry = Struct.new(:tvar, :version) AbortError = Class.new(StandardError) LeaveError = Class.new(StandardError) def initialize @read_log = [] @write_log = {} end def read(tvar) Concurrent::abort_transaction unless valid? if @write_log.has_key? tvar @write_log[tvar] else @read_log.push(ReadLogEntry.new(tvar, tvar.unsafe_version)) tvar.unsafe_value end end def write(tvar, value) # Have we already written to this TVar? unless @write_log.has_key? tvar # Try to lock the TVar unless tvar.unsafe_lock.try_lock # Someone else is writing to this TVar - abort Concurrent::abort_transaction end # If we previously wrote to it, check the version hasn't changed @read_log.each do |log_entry| if log_entry.tvar == tvar and tvar.unsafe_version > log_entry.version Concurrent::abort_transaction end end end # Record the value written @write_log[tvar] = value end def abort unlock end def commit return false unless valid? @write_log.each_pair do |tvar, value| tvar.unsafe_value = value tvar.unsafe_increment_version end unlock true end def valid? @read_log.each do |log_entry| unless @write_log.has_key? log_entry.tvar if log_entry.tvar.unsafe_version > log_entry.version return false end end end true end def unlock @write_log.each_key do |tvar| tvar.unsafe_lock.unlock end end def self.current Thread.current[:current_tvar_transaction] end def self.current=(transaction) Thread.current[:current_tvar_transaction] = transaction end end end