Automatic door operator for a swing door assembly

The invention claimed is: 1. An automatic door operator for a swing door assembly having a door leaf rotationally supported by a door frame and a linkage mechanism connecting the automatic door operator to the door, the automatic door operator comprising: a motor for causing opening of the door leaf with respect to the door frame and a controller being configured for performing a plurality of functions of the automatic door operator and for storing a respective plurality of predefined movement trajecctories of the door leaf, ones of the functions being associated with respective ones of the predefined movement trajectories, characterized in that the controller is configured to: detect a manual movement trajectory of the door leaf, wherein the manual movement trajectory is not caused by said motor; identify a one of the predefined movement trajectories matching the detected manual, movement trajectory; determine, among said plurality of functions, a selected function being associated with the one predefined movement trajectory; and cause performance of the selected function, wherein the automatic door operator further comprises a forced closed arrangement adapted to provide mechanical energy via a transfer mechanism to the linkage to cause a forced closing of the door leaf with respect to the door frame in response to a fire-alarm, and whereinn the selected function resets the automatic door operator after the fire alarm has been detected. 2. The automatic door operator as defined in claim 1 , wherein the manual movement trajectory represents an intentional manual movement of the door leaf by human intervention. 3. The automatic door operator as defined in claim 1 , further comprising a memory, the memory being adapted to store trajectory parameters of the plurality of predefined movement trajectories, wherein the trajactory parameters comprise a defined door leaf angle expressed as an absolute angle between the door leaf and the door frame, as a relative angle between the door leaf and the reference door leaf angle representing either an open position or a closed position of the door leaf with respect to the door frame. 4. The automatic door operator as defined in claim 3 , wherein the memory is adapted to store the trajectory parameters of the plurality of predefined movement trajectories and function parameters of the plurality of functions being associated therewith, and wherein the controller is configured to compare the manual movement trajectory to the trajectory parameters of the plurality of predefined movement trajectories, and identify the one predefined movement trajectory. 5. The automatic door operator as defined in claim 3 , wherein the controller is configured to determine a current angular position of the door leaf and to use the current angular position for detecting the manual movement trajectory of the door leaf. 6. The automatic door operator as defined in claim 5 , further comprising a revolution counter for the motor, the revolution counter being connected to an input of the controller, wherein the controller is configured to use one or more readings of the revolution counter for determining the current angular position of the door leaf. 7. The automatic door operator as defined in claim 5 , wherein the controller determines a time duration (t dur ) during which the current angular position of the door leaf corresponds to the defined door leaf angle and performs the selected function only if the time duration (t dur ) exceeds a threshold time (t min ). 8. The automatic door operator as defined in claim 1 , wherein the selected function comprises a command for initiating, modifying or aborting another one of the plurality of functions of the automatic door operator performable by the controller. 9. The automatic door operator as defined in claim 1 , wherein the controller is configured to receive an external fire alarm signal. 10. The automatic door operator as defined in claim 1 , wherein the plurality of functions of the automatic door operator performable by the controller include generation of the fire alarm. 11. The automatic door operator as defined in claim 1 , wherein the swing door assembly comprises a single door leaf and wherein the manual movement trajectory is detected for said single door leaf. 12. The automatic door operator as defined in claim 1 , wherein the swing door assembly comprises a pair of door leaves and wherein the manual movement trajectory is detected for one of the door leaves in said pair. 13. An automatic door operator for a swing door assembly having a door leaf rotationally supported by a door frame and a linkage mechanism connecting the automatic door operator to the door leaf, the automatic door operator comprising: a motor for causing opening of the door leaf with respect to the door frame; and a controller being configured for performing a plurality of functions of the automatic door operator, characterized in that the controller is configured to: detect a manual movement trajectory of the door leaf, wherein the manual movement trajectory is not caused by said motor; identify a predefined movement trajectory matching the detected manual movement trajectory; determine, among said plurality of functions, a selected function being associated with the predefined movement trajectory; and cause performance of the selected function, wherein the automatic door operator comprises a forced closed arrangement adapted to provide mechanical energy via a transfer mechanism to the linkage mechanism, so as to cause a forced closing of the door leaf with respect to the door frame, and wherein the plurality of functions of the automatic door operator performable by the controller include generation of a fire alarm, and wherein the selected function generates the fire alarm and causes the forced closing of the door leaf with respect to the door frame. 14. The automatic door operator as defined in claim 13 , wherein the manual movement trajectory represents an intentional manual movement of the door leaf by human intervention. 15. The automatic door operator as defined in claim 13 , further comprising a memory, the memory being adapted to store trajectory parameters of the predefined movement trajectory, wherein the trajectory parameters comprise data representing a defined door leaf angle expressed as an absolute angle between the door leaf and the door frame, or as a relative angle between the door leaf and a reference door leaf angle representing either an open position or a closed position of the door leaf with respect to the door frame. 16. A method for providing user interaction with an automatic door operator in a door operating system comprising a door frame, a swing door assembly having a door leaf rotationally supported by the door frame, a linkage mechanism connecting the automatic door operator to the door leaf, a motor and a forced close arrangement adapted to provide mechanical energy via a transfer mechanism to the linkage mechanism so as to cause a forced closing of the door leaf with respect to the door frame in response to a fire alarm, the method comprising: detecting a manual movement trajectory of the door leaf, wherein the manual movement trajectory is not caused by the motor of said automatic door operator; identifying a predefined movement trajectory matching the manual movement trajectory; determining, among a plurality of functions of the automatic door operator, a selected function being associated with the predefined movement trajectory; causing performance of the selected function; and causing the forced closing