Coordinate-measuring machine

What claimed is: 1. A coordinate measuring machine comprising: an optical sensor for optically capturing a workpiece; an illumination device for illuminating the workpiece, a pose determination unit for determining data relating to a workpiece pose including a position and orientation of the workpiece, a storage unit for storing (i) data relating to a reference pose including a position and orientation of a reference workpiece, and (ii) data relating to a reference light setting of the illumination device used for a measurement of the reference workpiece, and a control unit which is configured to control a light setting of the illumination device for a measurement of the workpiece by adapting the reference light setting based on a comparison of the stored data relating to the reference pose with the determined data relating to the workpiece pose. 2. The coordinate measuring machine according to claim 1 , wherein the coordinate measuring machine comprises an actuator for moving the illumination device relative to the workpiece, and wherein the control unit is configured to effect the adaptation of the reference light setting by way of moving the illumination device using the actuator. 3. The coordinate measuring machine according to claim 1 , wherein the illumination device comprises a plurality of illumination segments, whose light intensity may be regulated individually, and wherein the control unit is configured to effect the adaptation of the reference light setting by way of individually regulating the light intensity of the plurality of illumination segments. 4. The coordinate measuring machine according to claim 3 , wherein the data relating to the reference light setting comprise a reference assignment of individual light intensity values for each of the plurality of illumination segments, and wherein the control unit is configured to effect the adaptation of the reference light setting by adapting said reference assignment based on the comparison of the stored data relating to the reference pose with the determined data relating to the workpiece pose. 5. The coordinate measuring machine according to claim 4 , wherein the adaptation of the reference assignment includes an interpolation between light intensity values assigned in said reference assignment to two neighbouring illumination segments of the plurality of illumination segments. 6. The coordinate measuring machine according to claim 3 , wherein each of the plurality of illumination segments is of a circular ring segment shape. 7. The coordinate measuring machine according to claim 3 , wherein each of the plurality of illumination segments has at least one illuminant. 8. The coordinate measuring machine according to claim 3 , wherein each of the plurality of illumination segments has at least one first illuminant for generating light of a first colour and at least one second illuminant or generating light of a second colour. 9. The coordinate measuring machine according to one of claim 1 , wherein the illumination device is arranged coaxially around the optical sensor. 10. The coordinate measuring machine according to claim 1 , wherein the illumination device has a shape of an annulus. 11. The coordinate measuring machine according to claim 1 , wherein the optical sensor is part of the pose determination unit, wherein the data relating to the reference pose comprise image data of the reference workpiece, wherein the data relating to the workpiece pose comprises image data of the workpiece, and wherein the control unit is configured to effect the comparison of the stored data relating to the reference pose with the determined data relating to the workpiece pose by way of comparing the image data of the reference workpiece with the image data of the workpiece. 12. The coordinate measuring machine according to claim 11 , wherein the control unit is configured to compare the image data of the reference workpiece with the image data of the workpiece using a computer-based matching. 13. The coordinate measuring machine according to claim 1 , wherein the pose determination unit comprises a tactile sensor. 14. Method for controlling an illumination device of an optical coordinate measuring machine, comprising the following steps: storing (i) data relating to a reference pose including a position and orientation of a reference workpiece, and (ii) data relating to a reference light setting of the illumination device used for a measurement of the reference workpiece, determining data relating to a workpiece pose including a position and orientation of a workpiece to be measured, and controlling the light setting of the illumination device for a measurement of the workpiece by adapting the reference light setting based on a comparison of the stored data relating to the reference pose with the determined data relating to the workpiece pose.