Various events have different degrees of overhead in respect to the execution time of the program being debugged. Some events, like the simplest breakpoints, have practically no overhead. Events based on a single breakpoint have minimal overhead.
Multiple breakpoints such as inclass, that might result in hundreds of breakpoints, have an overhead only during creation time. dbx uses permanent breakpoints, which are retained in the process at all times and are not taken out on every stoppage and put in on every cont command.
In the case of the step command and next command, by default all breakpoints are taken out before the process is resumed and reinserted once the step completes. If you are using many breakpoints or multiple breakpoints on prolific classes, the speed of the step command and next command slows down considerably. Use the dbx step_events environment variable to control whether breakpoints are taken out and reinserted after each step command or next command.
The slowest events are those that use automatic single-stepping. This process might be explicit and obvious as in the trace step command, which single-steps through every source line. Other events, like the stop change or trace cond commands not only single-step automatically but also have to evaluate an expression or a variable at each step.
These events are very slow, but you can often overcome the slowness by bounding the event with a function using the -in modifier. For example:
trace next -in mumble stop change clobbered_variable -in lookup
Do not use trace -in main because the trace is effective in the functions called by main as well. Use this modifier in the cases where you suspect that the lookup() function is corrupting your variable.