rules:
  # A simple 1:1 mapping of 2 inputs
  - name: basic mapping
    type: simple
    input:
      device: right-stick
      button: BTN_BASE6
    output:
      device: main
      button: BTN_BASE6
  # A couple of axis mappings
  - name: x axis
    type: simple
    input:
      device: right-stick
      axis: ABS_X
    output:
      device: main
      axis: ABS_X
  - name: y axis
    type: simple
    input:
      device: right-stick
      axis: ABS_Y
    output:
      device: main
      axis: ABS_Y
  # 3-stage trigger for a VPC Constellation Alpha
  # This only sends a trigger input when the
  # flip trigger is pulled all the way in *and* the inner trigger
  # is activated
  - name: 3 stage trigger
    type: combo
    inputs:
      - device: right-stick
        button: BTN_TRIGGER
        inverted: true
      - device: right-stick
        button: BTN_THUMB
      - device: right-stick
        button: BTN_THUMB2
    output:
      device: main
      button: BTN_TRIGGER
  # Of course, BTN_TRIGGER above is unnecessary, because on the Constellation Alpha
  # it's impossible to press BTN_THUMB without disabling BTN_TRIGGER. So this is a
  # simpler form of the same rule for the left stick
  - name: 2 stage trigger
    type: combo
    inputs:
      - device: left-stick
        button: BTN_THUMB
      - device: left-stick
        button: BTN_THUMB2
    output:
      device: main
      button: BTN_THUMB
  # You can use the same input in multiple rules. Be careful with this!
  # In this example we use the same 2-stage guard, but trigger an additional output
  # when the final stage of the VPC's trigger is depressed
  - name: alternate 2 stage trigger
    type: combo
    inputs:
      - device: left-stick
        button: BTN_THUMB
      - device: left-stick
        button: BTN_TOP
    output:
      device: main
      button: BTN_THUMB2