Because the contest is judged based on correct solutions submitted in the least amount of time, it is important to read through all the problems, and decide which problem is the easiest to solve with the least amount of thought and code. That problem is usually given to the strongest coder (participant A) who sits alone at the machine and begins implementing the solution, designing on the fly. The next two ranking problems are solved on paper by the other two participants (B and C). The algorithms are exchanged by the other two participants for review. If review is satisfactory, both work on implementation of the same problem on paper. If A is not yet done with the machine, the next problem is solved on paper by B and C. By this time, A should be done with coding the solution and is submitted. B can begin implementing one of the solutions on the machine, while A and C follow a similar collaboration process as described before to solve the remaining problems.
This means that while debugging on the machine is important, it is more important to be able to logically reason out a correct solution on paper in a way that is easy to transform into code. This is something that should be practiced by the team before attending the contest, and is what will be critical to winning the competition.
When debugging the program on the machine, use assertions and
cerr output. That way you don't have to spend time stripping out your debugging statements before submitting the solution. However, using a suitable macro for debugging statements so that they can all be easily disabled can be useful if you added debugging statements in a critical loop.
Another trap of the contest is that while brute force solutions will often cause your program to exceed the running time limit for the program, it is also not wise to pursue the most optimal solution. You just need a solution that is better than brute force. Unless the optimal solution is seen quickly and easily understood by at least two team members. An easier solution that is less optimal can usually be debugged more quickly than an optimal but more complex solution.