Is the time complexity of the empty algorithm O(0)?

Question

So given the following program:

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Is the time complexity of this program O(0)? In other words, is 0 O(0)?

I thought answering this in a separate question

Answer 1

All of the answers so far address the question as if there is a right and a wrong answer. But there isn't. The question is a matter of definition. Usually in complexity theory the time cost is an integer --- although that too is just a definition. You're free to say that the empty algorithm that quits immediately takes 0 time steps or 1 time step. It's an abstract question because time complexity is an abstract definition. In the real world, you don't even have time steps, you have continuous physical time; it may be true that one CPU has clock cycles, but a parallel computer could easily have asynchronoous clocks and in any case a clock cycle is extremely small.

That said, I would say that it's more reasonable to say that the halt operation takes 1 time step rather than that it takes 0 time steps. It does seem more realistic. For many situations it's arguably very conservative, because the overhead of initialization is typically far greater than executing one arithmetic or logical operation. Giving the empty algorithm 0 time steps would only be reasonable to model, for example, a function call that is deleted by an optimizing compiler that knows that the function won't do anything.