433 lines
12 KiB
Go
433 lines
12 KiB
Go
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// Copyright (c) 2013 - Max Persson <max@looplab.se>
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Package fsm implements a finite state machine.
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//
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// It is heavily based on two FSM implementations:
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//
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// Javascript Finite State Machine
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// https://github.com/jakesgordon/javascript-state-machine
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//
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// Fysom for Python
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// https://github.com/oxplot/fysom (forked at https://github.com/mriehl/fysom)
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//
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package fsm
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import (
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"strings"
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"sync"
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)
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// transitioner is an interface for the FSM's transition function.
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type transitioner interface {
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transition(*FSM) error
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}
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// FSM is the state machine that holds the current state.
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//
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// It has to be created with NewFSM to function properly.
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type FSM struct {
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// current is the state that the FSM is currently in.
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current string
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// transitions maps events and source states to destination states.
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transitions map[eKey]string
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// callbacks maps events and targers to callback functions.
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callbacks map[cKey]Callback
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// transition is the internal transition functions used either directly
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// or when Transition is called in an asynchronous state transition.
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transition func()
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// transitionerObj calls the FSM's transition() function.
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transitionerObj transitioner
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// stateMu guards access to the current state.
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stateMu sync.RWMutex
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// eventMu guards access to Event() and Transition().
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eventMu sync.Mutex
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}
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// EventDesc represents an event when initializing the FSM.
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//
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// The event can have one or more source states that is valid for performing
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// the transition. If the FSM is in one of the source states it will end up in
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// the specified destination state, calling all defined callbacks as it goes.
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type EventDesc struct {
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// Name is the event name used when calling for a transition.
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Name string
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// Src is a slice of source states that the FSM must be in to perform a
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// state transition.
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Src []string
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// Dst is the destination state that the FSM will be in if the transition
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// succeds.
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Dst string
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}
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// Callback is a function type that callbacks should use. Event is the current
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// event info as the callback happens.
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type Callback func(*Event)
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// Events is a shorthand for defining the transition map in NewFSM.
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type Events []EventDesc
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// Callbacks is a shorthand for defining the callbacks in NewFSM.a
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type Callbacks map[string]Callback
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// NewFSM constructs a FSM from events and callbacks.
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//
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// The events and transitions are specified as a slice of Event structs
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// specified as Events. Each Event is mapped to one or more internal
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// transitions from Event.Src to Event.Dst.
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//
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// Callbacks are added as a map specified as Callbacks where the key is parsed
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// as the callback event as follows, and called in the same order:
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//
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// 1. before_<EVENT> - called before event named <EVENT>
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//
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// 2. before_event - called before all events
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//
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// 3. leave_<OLD_STATE> - called before leaving <OLD_STATE>
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//
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// 4. leave_state - called before leaving all states
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//
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// 5. enter_<NEW_STATE> - called after entering <NEW_STATE>
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//
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// 6. enter_state - called after entering all states
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//
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// 7. after_<EVENT> - called after event named <EVENT>
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//
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// 8. after_event - called after all events
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//
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// There are also two short form versions for the most commonly used callbacks.
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// They are simply the name of the event or state:
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//
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// 1. <NEW_STATE> - called after entering <NEW_STATE>
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//
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// 2. <EVENT> - called after event named <EVENT>
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//
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// If both a shorthand version and a full version is specified it is undefined
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// which version of the callback will end up in the internal map. This is due
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// to the psuedo random nature of Go maps. No checking for multiple keys is
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// currently performed.
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func NewFSM(initial string, events []EventDesc, callbacks map[string]Callback) *FSM {
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f := &FSM{
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transitionerObj: &transitionerStruct{},
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current: initial,
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transitions: make(map[eKey]string),
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callbacks: make(map[cKey]Callback),
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}
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// Build transition map and store sets of all events and states.
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allEvents := make(map[string]bool)
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allStates := make(map[string]bool)
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for _, e := range events {
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for _, src := range e.Src {
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f.transitions[eKey{e.Name, src}] = e.Dst
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allStates[src] = true
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allStates[e.Dst] = true
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}
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allEvents[e.Name] = true
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}
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// Map all callbacks to events/states.
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for name, fn := range callbacks {
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var target string
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var callbackType int
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switch {
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case strings.HasPrefix(name, "before_"):
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target = strings.TrimPrefix(name, "before_")
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if target == "event" {
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target = ""
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callbackType = callbackBeforeEvent
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} else if _, ok := allEvents[target]; ok {
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callbackType = callbackBeforeEvent
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}
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case strings.HasPrefix(name, "leave_"):
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target = strings.TrimPrefix(name, "leave_")
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if target == "state" {
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target = ""
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callbackType = callbackLeaveState
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} else if _, ok := allStates[target]; ok {
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callbackType = callbackLeaveState
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}
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case strings.HasPrefix(name, "enter_"):
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target = strings.TrimPrefix(name, "enter_")
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if target == "state" {
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target = ""
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callbackType = callbackEnterState
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} else if _, ok := allStates[target]; ok {
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callbackType = callbackEnterState
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}
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case strings.HasPrefix(name, "after_"):
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target = strings.TrimPrefix(name, "after_")
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if target == "event" {
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target = ""
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callbackType = callbackAfterEvent
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} else if _, ok := allEvents[target]; ok {
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callbackType = callbackAfterEvent
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}
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default:
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target = name
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if _, ok := allStates[target]; ok {
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callbackType = callbackEnterState
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} else if _, ok := allEvents[target]; ok {
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callbackType = callbackAfterEvent
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}
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}
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if callbackType != callbackNone {
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f.callbacks[cKey{target, callbackType}] = fn
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}
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}
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return f
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}
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// Current returns the current state of the FSM.
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func (f *FSM) Current() string {
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f.stateMu.RLock()
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defer f.stateMu.RUnlock()
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return f.current
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}
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// Is returns true if state is the current state.
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func (f *FSM) Is(state string) bool {
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f.stateMu.RLock()
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defer f.stateMu.RUnlock()
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return state == f.current
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}
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// SetState allows the user to move to the given state from current state.
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// The call does not trigger any callbacks, if defined.
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func (f *FSM) SetState(state string) {
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f.stateMu.Lock()
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defer f.stateMu.Unlock()
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f.current = state
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}
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// Can returns true if event can occur in the current state.
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func (f *FSM) Can(event string) bool {
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f.stateMu.RLock()
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defer f.stateMu.RUnlock()
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_, ok := f.transitions[eKey{event, f.current}]
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return ok && (f.transition == nil)
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}
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// Cannot returns true if event can not occure in the current state.
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// It is a convenience method to help code read nicely.
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func (f *FSM) Cannot(event string) bool {
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return !f.Can(event)
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}
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// Event initiates a state transition with the named event.
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//
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// The call takes a variable number of arguments that will be passed to the
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// callback, if defined.
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//
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// It will return nil if the state change is ok or one of these errors:
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//
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// - event X inappropriate because previous transition did not complete
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//
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// - event X inappropriate in current state Y
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//
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// - event X does not exist
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//
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// - internal error on state transition
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//
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// The last error should never occur in this situation and is a sign of an
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// internal bug.
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func (f *FSM) Event(event string, args ...interface{}) error {
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f.eventMu.Lock()
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defer f.eventMu.Unlock()
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f.stateMu.RLock()
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defer f.stateMu.RUnlock()
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if f.transition != nil {
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return InTransitionError{event}
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}
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dst, ok := f.transitions[eKey{event, f.current}]
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if !ok {
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for ekey := range f.transitions {
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if ekey.event == event {
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return InvalidEventError{event, f.current}
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}
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}
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return UnknownEventError{event}
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}
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e := &Event{f, event, f.current, dst, nil, args, false, false}
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err := f.beforeEventCallbacks(e)
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if err != nil {
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return err
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}
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if f.current == dst {
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f.afterEventCallbacks(e)
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return NoTransitionError{e.Err}
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}
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// Setup the transition, call it later.
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f.transition = func() {
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f.stateMu.Lock()
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f.current = dst
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f.stateMu.Unlock()
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f.enterStateCallbacks(e)
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f.afterEventCallbacks(e)
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}
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if err = f.leaveStateCallbacks(e); err != nil {
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if _, ok := err.(CanceledError); ok {
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f.transition = nil
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}
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return err
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}
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// Perform the rest of the transition, if not asynchronous.
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f.stateMu.RUnlock()
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err = f.doTransition()
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f.stateMu.RLock()
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if err != nil {
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return InternalError{}
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}
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return e.Err
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}
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// Transition wraps transitioner.transition.
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func (f *FSM) Transition() error {
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f.eventMu.Lock()
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defer f.eventMu.Unlock()
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return f.doTransition()
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}
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// doTransition wraps transitioner.transition.
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func (f *FSM) doTransition() error {
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return f.transitionerObj.transition(f)
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}
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// transitionerStruct is the default implementation of the transitioner
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// interface. Other implementations can be swapped in for testing.
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type transitionerStruct struct{}
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// Transition completes an asynchrounous state change.
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//
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// The callback for leave_<STATE> must prviously have called Async on its
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// event to have initiated an asynchronous state transition.
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func (t transitionerStruct) transition(f *FSM) error {
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if f.transition == nil {
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return NotInTransitionError{}
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}
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f.transition()
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f.transition = nil
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return nil
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}
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// beforeEventCallbacks calls the before_ callbacks, first the named then the
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// general version.
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func (f *FSM) beforeEventCallbacks(e *Event) error {
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if fn, ok := f.callbacks[cKey{e.Event, callbackBeforeEvent}]; ok {
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fn(e)
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if e.canceled {
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return CanceledError{e.Err}
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}
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}
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if fn, ok := f.callbacks[cKey{"", callbackBeforeEvent}]; ok {
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fn(e)
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if e.canceled {
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return CanceledError{e.Err}
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}
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}
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return nil
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}
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// leaveStateCallbacks calls the leave_ callbacks, first the named then the
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// general version.
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func (f *FSM) leaveStateCallbacks(e *Event) error {
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if fn, ok := f.callbacks[cKey{f.current, callbackLeaveState}]; ok {
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fn(e)
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if e.canceled {
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return CanceledError{e.Err}
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} else if e.async {
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return AsyncError{e.Err}
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}
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}
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if fn, ok := f.callbacks[cKey{"", callbackLeaveState}]; ok {
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fn(e)
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if e.canceled {
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return CanceledError{e.Err}
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} else if e.async {
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return AsyncError{e.Err}
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}
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}
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return nil
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}
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// enterStateCallbacks calls the enter_ callbacks, first the named then the
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// general version.
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func (f *FSM) enterStateCallbacks(e *Event) {
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if fn, ok := f.callbacks[cKey{f.current, callbackEnterState}]; ok {
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fn(e)
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}
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if fn, ok := f.callbacks[cKey{"", callbackEnterState}]; ok {
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fn(e)
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}
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}
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// afterEventCallbacks calls the after_ callbacks, first the named then the
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// general version.
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func (f *FSM) afterEventCallbacks(e *Event) {
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if fn, ok := f.callbacks[cKey{e.Event, callbackAfterEvent}]; ok {
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fn(e)
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}
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if fn, ok := f.callbacks[cKey{"", callbackAfterEvent}]; ok {
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fn(e)
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}
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}
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const (
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callbackNone int = iota
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callbackBeforeEvent
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callbackLeaveState
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callbackEnterState
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callbackAfterEvent
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)
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// cKey is a struct key used for keeping the callbacks mapped to a target.
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type cKey struct {
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// target is either the name of a state or an event depending on which
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// callback type the key refers to. It can also be "" for a non-targeted
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// callback like before_event.
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target string
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// callbackType is the situation when the callback will be run.
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callbackType int
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}
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// eKey is a struct key used for storing the transition map.
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type eKey struct {
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// event is the name of the event that the keys refers to.
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event string
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// src is the source from where the event can transition.
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src string
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}
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