Apparatus and method for indicating residual driving range

The invention claimed is: 1. A controller for indicating a residual driving range available in a battery of an electric vehicle, the controller comprising: a first input arranged to receive an input indicative of a state of charge of a battery of the vehicle; a second input arranged to receive a user input; an output arranged to cause an output to be displayed to a user of the vehicle; and a processor arranged to communicate with said first and second inputs and said output, wherein: the controller is operable in a first mode wherein the processor is arranged to instruct the output to display a first output indicative of the total amount of energy remaining in the battery; the controller is operable to switch from the first mode to a second mode upon receipt of a user input via said second input, wherein the second mode is a leisure mode in which a dynamic performance of the vehicle is altered and the user input is indicative of a desire to transition the vehicle into the leisure mode; the controller is operable when switching from the first mode to the second mode to calculate an amount of reserve energy for a return journey to a journey start point based on actual energy usage between the journey start point and activation of the leisure mode; and the controller is operable in the second mode wherein the processor is arranged to instruct the output to display a second output indicative of an amount of energy that may be used while in the leisure mode and prior to the return journey to the journey start point without causing the total amount of energy stored in the battery to reduce below an amount required to undertake the return journey. 2. A controller as claimed in claim 1 , wherein the output indicative of the total amount of energy remaining in the battery comprises an estimate of the total distance that may be driven before the battery is depleted based on the input received via the first input. 3. A controller as claimed in claim 1 , wherein upon receipt of the input from the user of the vehicle, the controller is configured to calculate an amount of energy required to undertake the predetermined journey, and in the second mode, the controller is arranged to instruct the output to display an output indicative of the total amount of energy remaining in the battery less the amount of energy required to undertake the predetermined journey. 4. A controller as claimed in claim 3 , wherein the controller is configured to re-calculate the amount of energy required to undertake the predetermined journey during operation in the second mode. 5. A display system for a vehicle comprising a controller as claimed in claim 1 and a display operable to communicate with the output. 6. A display system as claimed in claim 5 and further comprising a user interface operable by a user to provide said user input. 7. A display system as claimed in claim 6 , wherein the display is a touch screen and the user interface is the touch screen. 8. An electric vehicle comprising a controller as claimed in claim 1 . 9. A method of controlling a display of an electric vehicle, the method comprising: when operating in a first mode, displaying a first output indicative of the total energy remaining in a battery of the vehicle; switching from the first mode to a second mode upon receipt of a user input via said second input, wherein the second mode is a leisure mode in which a dynamic performance of the vehicle is altered and the user input is indicative of a desire to transition the vehicle into the leisure mode; when switching from the first mode to the second mode, calculating an amount of reserve energy for a return journey to a journey start point based on actual energy usage between the journey start point and activation of the leisure mode; and when operating in the second mode, displaying a second output indicative of an amount of energy that may be used while in the leisure mode and prior to the return journey to the journey start point without causing the total amount of energy stored in the battery to reduce below an amount required to undertake the return journey. 10. A method as claimed in claim 9 , wherein the output indicative of the total amount of energy remaining in the battery comprises an estimate of the total distance that may be driven before the battery is depleted based on an input received from a battery controller. 11. A method as claimed in claim 9 , wherein the method comprises calculating an amount of energy required to undertake the predetermined journey upon receipt of the user input, and when operating in the second mode, displaying an output indicative of the total amount of energy remaining in the battery less the amount of energy required to complete the predetermined journey. 12. A method as claimed in claim 11 and comprising re-calculating the amount of energy required to undertake the predetermined journey during operation in the second mode. 13. A method as claimed in claim 9 , wherein the user input is provided via a touch screen. 14. A controller comprising: a processor; and a memory configured to store instructions that, when executed by the processor, cause the processor to: when operating in a first mode, display a first output indicative of the total energy remaining in a battery of the vehicle; switch from the first mode to a second mode upon receipt of a user input via said second input, wherein the second mode is a leisure mode in which a dynamic performance of the vehicle is altered and the user input is indicative of a desire to transition the vehicle into the leisure mode; when switching from the first mode to the second mode to calculate an amount of reserve energy for a return journey to a journey start point based on actual energy usage between the journey start point and activation of the leisure mode; and when operating in a second mode, display a second output indicative of an amount of energy that may be used while in the leisure mode and prior to the return journey to the journey start point without causing the total amount of energy stored in the battery to reduce below an amount required to undertake the return journey.