Elevator and a method of maintaining an elevator

The invention claimed is: 1. An elevator, comprising: a hoistway with a plurality of hoistway sections attached to each other to provide a hoistway with a hoistway space, an elevator car arranged in the hoistway space to be vertically movable in the hoistway space between door openings at landings of a building, and doors at the door openings, wherein the elevator comprises a sensor providing to a control system a signal indicating a level difference between a first reference point fixed to one of the hoistway sections and a second reference point fixed to the building. 2. The elevator of claim 1 , wherein the elevator comprises height adjusters via which the doors are suspended by the hoistway, the height adjusters providing adjustment to the doors in relation to the hoistway. 3. The elevator of claim 1 , wherein the sensor is a force sensor having a first end attached to the first reference point and a second end attached to the second reference point, the force sensor configured to measure tension. 4. The elevator according to claim 1 , wherein the first and second reference points are arranged in an upper part of the hoistway and the building. 5. The elevator according to claim 1 , wherein the elevator is provided with several sensors, each sensor providing to the control system a signal indicating a level difference between a first reference point of the hoistway and a second reference point of the building, wherein the sensors and the corresponding first and second reference points are located at mutually different heights of the hoistway and the building. 6. The elevator according to claim 1 , wherein the hoistway sections are modules arranged on top of each other to carry a weight of hoistway sections arranged at a higher level and to provide a part of the hoistway space. 7. The elevator according to claim 1 , wherein lower located hoistway sections carry a weight of hoistway sections arranged at a higher level. 8. The elevator according to claim 1 , wherein the hoistway sections are steel sections. 9. The elevator according to claim 1 , wherein the control system processes signals obtained from one or more sensors and provides information indicating the level difference in mutual heights of the hoistway and the building. 10. The elevator according to claim 9 , wherein the control system is connected to a communication system and provides the information indicating the level difference by transmitting the information to a service center monitoring the operation of the elevator. 11. The elevator according to claim 10 , wherein the control system provides the information indicating the level on a display located at the installation site of the elevator. 12. A method of maintaining an elevator of a building, wherein the method comprises: providing the elevator with a sensor providing an indication of a level difference between a first reference point fixed to a hoistway section forming an elevator hoistway in a hoistway space of the building, and a second reference point fixed to the building, determining a mutual change of height between the elevator hoistway and the building based on the indication provided by the sensor, and adjusting heights of devices in the elevator to compensate for the mutual change of height. 13. The method of maintaining an elevator according to claim 12 , wherein said adjusting comprises adjusting height adjusters via which doors at landings of the building are suspended by the hoistway to compensate for the determined mutual change of height if the determined mutual change of height has reached a predetermined limit.