Design patterns don't usually appear directly in code; usually the code contains an implementation of a design pattern.
To do such pattern recognition you need:
- The ability to reliably parse the source language
- The ability to recognize low-level code patterns that hint at a higher level pattern
- The ability to tie sets of low-level pattern matches together via proximity or more usually control and data flow
There aren't a lot of tools that can do this. While we have not explicitly hunted for general design patterns, we have built a tool that meets the criteria above: our DMS Software Reengineering Toolkit. DMS can parse C, Java and COBOL at the same level of precision as their compilers, can pattern match using explicit patterns, and computes control and data flow analysis for those languages.
One interesting application of DMS was to recognize the "design pattern" for producing interactive screens in a 35 million line C application. You know this design pattern: "use printf to produce fragments of the screen output". While it is easy to recognize fragments of the pattern (most printf calls are examples), the real problem is to recognize the screen image itself from a tangled pile of code that implements it. The task we accomplished was extracting an image of printed screen output (reported as an XML file containing screen literal text and XML tags representing variable-content output) by tying together the individual printf calls. The details for accomplishing this are pretty complicated; you have to find sequences of printfs that typically cross function calls and are controlled by lots of conditionals (the XML recorded the conditional part of the screens, too). The tool produced screen images for all screens printable by the code starting from main.
If you are hoping to find an easy solution for design pattern recognition, I think you will not have a lot of luck, but it is possible.