# Exhaustive testing and the cost of “Bug Free”

When I was learning software development, we were taught that actual "bug free" software was mathematically impossible for anything but the most trivial programs. For a mathematical mind, it's very simple to see how basic thingslike the number of possible inputs and the variability of platforms makes bug free not only impossible (in realistic time), but economically stupid for anything short of nuclear power generation.

However I'm constantly hearing business people spout off with "It's understood that software will be bug free, and if it's not all bugs should be fixed for free". I typically respond with "No, we'll fix any bugs found in the UAT period of (x) weeks" where x is defined by contract. This leads to a lot of arguments, and loss of work to people who are perfectly willing to promise the impossible.

Does anyone know of (or can express one) a good explanation of why "bug free" is NOT realistic OR standard -- that your average middle manager can understand?

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## 3 Answers

See also Hilbert's second problem

See also Turing: Halting Problem

See also MSFT financial reports for headcount numbers and Microsoft Connect for bug reporting on Microsoft products for a less intellectual explanation.

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Yeah, I'm thinking that Godel's is going to be over the head of anyone in business I talk to. –  Ten Ton Gorilla Mar 11 '10 at 16:26
Do Gödel's incompleteness theorems mean that we can't tell what will be the algorithm outcome? –  Elisha Mar 11 '10 at 16:29
@Elisha: See Alan Turing and Halting Problem link for that. –  Ian Mercer Mar 11 '10 at 16:32
the halting problem means we can't develop an algorithm that determines if any algorithm halts on specific input. Even so, you can still develop a formal proof for any algorithm separately. –  Elisha Mar 11 '10 at 16:38
I'm tempted to downvote this (but won't because these are at least good things to think about.) It is true that in the general case it is impossible to prove software correct. But it is certainly theoretically possible to prove software correct in many of the cases we really care about. The problem is not that it is theoretically impossible to do so, but that even theoretically possible formal proofs of large software systems turn out to be very difficult. And testing by itself can't prove the correctness of very many interesting systems. –  T Duncan Smith Dec 7 '10 at 0:49
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Perhaps the best way to explain it would be to read up a little on places that really, really, really don't want software bugs, and what they do about it. (You can use NASA as an example, and the Ariane 5 first launch as an example of what happens with such software bugs.) Middle managers tend to relate to stories and parallel examples.

Alternately, find out what happens with deals where one side does promise the impossible (and it happens much more often than developers like). If you can show that it doesn't end well for the promisee, that might help.

Also, you might want to go into what you would need as a bare minimum to promise bug-free software, which would be a truly comprehensive spec.

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About that NASA example, see the following link: fastcompany.com/magazine/06/writestuff.html. Also read the first comment... –  user159088 Mar 11 '10 at 16:39
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I usually walk managers through a simple explanation of how most programs are really state engines, and that as soon as you start interfacing with the real world the number of possible input states rapidly reaches infinity: because the user over here is inputting X while Y happens over here within 50ms of Z happening over there... etc, etc.

Granted, after about five minutes of this their eyes tend to glaze over. But at least I tried.

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