show/hide this revision's text 3 Typo fixed

I thought that the answer you got to your other question was pretty good. But I'll emphasis these points.

Only modify shared state in a critical section (Mutual Exclusion)

Acquire locks in a set order and release them in the opposite order.

Use pre-built abstractions whenever possible (Like the stuff in java.util.concurrent)

Also, some analysis tools can detect some potential issues. For example, FindBugs can find some threading issues in Java programs. Such tools can't find all problems (they aren't silver bullets) but they can help.

As vanslly points out in a comment to this answer, studying well placed logging output can also very helpful, but beware of HiesenbugsHeisenbugs.
show/hide this revision's text 2 added 832 characters in body

I thought that the answer you got to your other question was pretty good. But I'll emphasis these points.

Only modify shared state in a critical section (Mutual Exclusion)

Acquire locks in a set order and release them in the opposite order.

Use pre-built abstractions whenever possible (Like the stuff in java.util.concurrent)

Also, some analysis tools can detect some potential issues. For example, FindBugs can find some threading issues in Java programs. Such tools can't find all problems (they aren't silver bullets) but they can help.

As vanslly points out in a comment to this answer, studying well placed logging output can also very helpful, but beware of Hiesenbugs.
show/hide this revision's text 1

I thought that the answer you got to your other question was pretty good. But I'll emphasis these points.

Only modify shared state in a critical section (Mutual Exclusion)

Acquire locks in a set order and release them in the opposite order.

Use pre-built abstractions whenever possible (Like the stuff in java.util.concurrent)