A statematchine allows you to wrap state with transitions. That means you can protect your logic from running in invalid states of the application.

Create a statemachine

You define a whole namespace as a statemachine, you can have a nested statemachine or you can even put statemachines inside statemachines.

import { statemachine } from 'overmind'

export const state = statemachine({
  UNAUTHENTICATED: ['AUTHENTICATING'],
  AUTHENTICATING: ['UNAUTHENTICATED', 'AUTHENTICATED'],
  AUTHENTICATED: ['UNAUTHENTICATED']
}, {
  state: 'UNAUTHENTICATED'
})

Instead of only defining state, you first define a set of transitions. The key represents a transition state, here UNAUTHENTICATED, AUTHENTICATING and AUTHENTICATED. Then we define an array which shows the next transition state can occur in the given transition state. When UNAUTHENTICATED we can move into the AUTHENTICATING state for example. When in AUTHENTICATING state we can move either back to UNAUTHENTICATED due to an error or we might move to AUTHENTICATED. The point is... when you are UNAUTHENTICATED, you can not run logic related to being AUTHENTICATED. And when AUTHENTICATING you can not run that logic again until you are back in UNAUTHENTICATED.

As actual state values we define the initial transition state of UNAUTHENTICATED.

If we wanted we could extend the state with other values, as normal.

import { statemachine } from 'overmind'

export const state = statemachine({
  UNAUTHENTICATED: ['AUTHENTICATED'],
  AUTHENTICATING: ['UNAUTHENTICATED', 'AUTHENTICATED'],
  AUTHENTICATED: ['UNAUTHENTICATED']
}, {
  state: 'UNAUTHENTICATED',
  todos: {},
  filter: 'all'
})

Transition between states

The transition states are also part of the resulting state object, in this case:

// The resulting state object
export const state = {
  UNAUTHENTICATED: () => {...},
  AUTHENTICATING: () => {...},
  AUTHENTICATED: () => {...},
  state: 'UNAUTHENTICATED',
  todos: {},
  filter: 'all'
}

That means you can call UNAUTHENTICATED, AUTHENTICATING and AUTHENTICATED as functions to transition into the new states. And this is an example of how you would use them:

export const login = ({ state, effects }) => {
  return state.AUTHENTICATING(() => {
    try {
      const user = await effects.api.login()
      return state.AUTHENTICATED(() => {
        state.user = user
      })
    } catch (error) {
      return state.UNAUTHENTICATED(() => {
        state.error = error
      })
    }
  })
}

When a component, or something else, calls the login action it will first try to move into the AUTHENTICATING state. If this is not possible, nothing else will happen. Then we go ahead an login, which returns a user. If we were to try to set the user immediately an error would be thrown, because it is being set "out of scope of the transition" (asynchronously). To actually set the user we first transition to AUTHENTICATED and given that is a valid transition the user will be set.

What we accomplish in practice here is to ensure that changes to state is guarded by these transitions, which results in more predictable and safer code.