Borehole shape characterization

The invention claimed is: 1. A method, comprising: measuring a shape of a borehole with a well-logging tool to provide a measured borehole shape; using a processor and associated memory located downhole, (i) comparing the measured borehole shape against a catalog of hole shapes stored in the downhole memory so as to identify a matching catalog shape, and (ii) determining a size parameter associated with the measured borehole shape, wherein comparing the measured borehole shape against the catalog comprises sequentially comparing the measured borehole shape against a plurality of catalog shapes in an order that depends at least in part on complexity of the catalog shapes. 2. The method of claim 1 , wherein the measuring comprises azimuthally sampling a cross-sectional parameter of the borehole. 3. The method of claim 1 , wherein comparing the measured borehole shape against the catalog comprises computing, for each of a plurality of catalog entries specifying azimuthal data characteristic of a borehole shape, a metric indicative of a difference between the catalog data and the measured azimuthal data, and wherein identifying a matching catalog shape comprises selecting a catalog entry that minimizes the computed metric. 4. The method of claim 1 , wherein comparing the measured borehole shape against the catalog comprises sequentially comparing the measured borehole shape against a plurality of catalog shapes in an order that depends at least in part on a matching catalog shape identified during a previous comparison. 5. The method of claim 1 , wherein the comparing and computing steps are performed in substantially real time during a drilling operation. 6. The method of claim 5 , further comprising transmitting data indicative of the identified matching catalog shape and the size parameter to a surface facility. 7. The method of claim 6 , wherein the data indicative of the identified matching catalog shape comprises a catalog identifier associated therewith. 8. The method of claim 6 , further comprising suspending transmission of the data when the measured borehole shape matches a circular shape and has a diameter matching a diameter of a drill bit used during the drilling operation. 9. The method of claim 6 , wherein the data indicative of the identified matching catalog shape comprises an indication that the borehole shape has not substantially changed relative to a previously identified borehole shape. 10. The method of claim 1 , further comprising modifying a behavior of a downhole tool based on at least one of the identified matching catalog shape or the size parameter. 11. The method of claim 10 , wherein modifying the behavior comprises adjusting a sampling rate of the well-logging tool. 12. The method of claim 11 , wherein modifying the behavior comprises adjusting an operation mode of the well-logging tool. 13. A well-logging tool, comprising: a caliper device for measuring a borehole shape to provide a measured borehole shape; and in communication with the caliper device, a processor and memory, the memory storing a catalog of hole shapes and instructions which, when executed by the processor, cause the processor to (i) compare the measured borehole shape against the catalog of hole shapes so as to identify a matching catalog shape, and (ii) compute a size parameter associated with the measured borehole shape, wherein comparing the measured borehole shape against the catalog comprises sequentially comparing the measured borehole shape against a plurality of catalog shapes in an order that depends at least in part on complexity of the catalog shapes. 14. The tool of claim 13 , wherein the caliper device comprises an ultrasonic caliper. 15. The tool of claim 13 , wherein the caliper device is configured to azimuthally sample a cross-sectional parameter of the borehole. 16. The tool of claim 13 , wherein the catalog of hole shapes comprises entries for a plurality of high-level hole shapes. 17. The tool of claim 16 , wherein the high-level hole shapes comprise at least two of a circle, a breakout shape, a rugose shape, a keyseating shape, and a cave-in shape. 18. The tool of claim 16 , wherein the catalog comprises, for each high-level hole shape, a plurality of entries corresponding to a plurality of values of a parameter associated with the high-level hole shape. 19. The tool of claim 13 , further comprising a telemetry module for transmitting data indicative of the identified matching catalog shape and the size parameter to a surface facility. 20. A method, comprising: measuring a shape of a borehole with a well-logging tool to provide a measured borehole shape; using a processor and associated memory located downhole, (i) comparing the measured borehole shape against a catalog of hole shapes stored in the downhole memory so as to identify a matching catalog shape, and (ii) determining a size parameter associated with the measured borehole shape, wherein comparing the measured borehole shape against the catalog comprises sequentially comparing the measured borehole shape against a plurality of catalog shapes in an order that depends at least in part on a matching catalog shape identified during a previous comparison.