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