Corneal topography measurement and alignment of corneal surgical procedures

What is claimed is: 1. A method comprising: using one or more of an imaging device and a profile measurement device, generating one or more of a first image and a first shape profile of an eye of a patient when no patient interface is either in contact with the eye or located on an optical path between the eye and the one or more of the imaging device and the profile measurement device; thereafter, placing a patient interface in contact with the eye, wherein the patient interface includes a suction ring which is in contact with the eye and an optically transmissive element which is located on the optical path between the eye and the one or more of the imaging device and the profile measurement device when the patient interface is placed in contact with the eye; and generating one or more of a second image and a second shape profile of the eye with the patient interface placed in contact with the eye; comparing the first image with the second image or comparing the first shape profile with the second shape profile to determine one or more of a position and an orientation of the eye when the patient interface is in contact with the eye. 2. The method of claim 1 , wherein the step of generating one or more of a first image and a first shape profile of the eye includes measuring the first shape profile of a cornea of the eye when the patient is supported with a patient support of a laser surgery system; and wherein the second image is generated when the patient is supported with the patient support of the laser surgery system. 3. The method of claim 2 , further comprising determining an axis of treatment of an astigmatism of the eye based on the shape profile, the shape profile comprising one or more of a keratometry reading of the eye, a corneal topography of the eye, an optical coherence tomography of the eye, a Placid disc topography of the eye, a reflection of a plurality of points from the cornea topography of the eye, a grid reflected from the cornea of the eye topography, a Hartmann-Shack topography of the eye, a Scheimpflug image topography of the eye, a confocal tomography of the eye, or a low coherence reflectometry of the eye. 4. The method of claim 2 , further comprising determining an axis of treatment of a plurality of arcuate incisions based on the shape profile, the plurality of arcuate incisions extending along an arc transverse to the axis of treatment. 5. The method of claim 4 , further comprising displaying locations of the plurality of arcuate incisions on the second image of the eye after mapping the locations of the plurality of arcuate incisions from first locations of the first image to second locations of the second image, the second locations being different from the first locations due to distortion of the eye with the patient interface placed in contact with the eye, and wherein the first image and the second image are generated with a camera of the laser surgery system. 6. The method of claim 5 , further comprising applying a plurality of pulsed laser beams to locations of the eye to treat the eye by making the plurality of arcuate incisions. 7. The method of claim 4 , further comprising applying a plurality of pulsed laser beams to locations of the eye to treat the eye by making the plurality of arcuate incisions. 8. The method of claim 1 , further comprising: modifying the first image to provide a distorted first image based on a correlation of the first image with the second image; and providing the distorted first image on a display visible to a user. 9. The method of claim 8 , wherein the modifying step includes the user adjusting one or more of a location or an angle of the first distorted image on the display and wherein locations of a plurality of laser beam pulses are adjusted in response to the location or the angle of the first distorted image on the display. 10. The method of claim 9 , further comprising applying the plurality of pulsed laser beams to locations of the eye to treat the eye. 11. The method of claim 8 , wherein the modifying step includes overlaying the distorted first image on the second image on the display to determine a position and an angle of the eye for treatment, and a processor determining the position and the angle of the distorted first image on the display in response to user input to adjust locations of a plurality of laser beam pulses. 12. The method of claim 11 , further comprising applying the plurality of pulsed laser beams to locations of the eye to treat the eye. 13. The method of claim 1 , further comprising: modifying the second image to provide a corrected second image based on a correlation of the second image with the first image. 14. The method of claim 1 , wherein the patient interface further includes one or more of a liquid or a viscoelastic material disposed between a cornea of the eye and the optically transmissive element and wherein the one or more of the liquid or the viscoelastic is in contact with the cornea. 15. The method of claim 1 , wherein the first image comprises a first plurality of image structures corresponding to a plurality of tissue structures of the eye and located at a first plurality of locations of the first image, and the second image comprises a second plurality of image structures corresponding to the plurality of tissue structures of the eye and located at a second plurality of locations of the second image, wherein the first plurality of locations are different from the second plurality of locations due to distortion of the patient interface. 16. The method of claim 1 , wherein the first image and the second image correspond to a coordinate reference of a laser treatment system, the method further comprising mapping a plurality of locations of the first image from first locations of the coordinate reference of the laser system to second locations of the coordinate reference of the laser system based on a correlation of the first image with the second image. 17. The method of claim 1 , wherein the first image and the second image correspond to a first coordinate reference of an ancillary diagnostic device and a second coordinate reference of a laser treatment system, respectively, the method further comprising mapping a plurality of locations of the first image from first locations of the first coordinate reference to second locations of the second coordinate reference of the laser system based on a correlation of the first image with the second image. 18. The method of claim 1 , wherein the first image of the eye and the second image of the eye comprise images of an iris of the eye and wherein one or more structures of the first image and the second image correspond to one or more structures of the iris. 19. The method of claim 1 , further comprising applying a plurality of pulsed laser beams to locations of the eye to treat the eye, wherein the locations are determined in response to at least one of the first image, first shape profile, second image and second shape profile.