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We have Amdahl's law that basically states that if your program is 10% sequential you can get a maximum 10x performance boost by parallelizing your application.

Another one is Wadler's law which states that

    In any language design, the total time spent discussing
    a feature in this list is proportional to two raised to
    the power of its position.

        0. Semantics
        1. Syntax
        2. Lexical syntax
        3. Lexical syntax of comments

My question is this: What are the most important (or at least significant / funny but true / sad but true) laws of Computer Science and programming?

I want named laws, and not random theorems, So an answer should look something like

Surname's (law|theorem|conjecture|corollary...)

Please state the law in your answer, and not only a link.

Edit: The name of the law does not need to contain it's inventors surname. But I do want to know who stated (and perhaps proved) the law

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Just a comment to Wadler's law (and because I love nitpicking): Time proportional to a constant value is just constant, so this formulation doesn't make sense ... –  MartinStettner May 19 '09 at 6:54
And the obvious answer is haacked.com/archive/2007/07/17/… . –  Michael Myers May 19 '09 at 15:30

51 Answers 51

up vote 94 down vote accepted

Hofstadter's Law:

It always takes longer than you expect, even when you take into account Hofstadter's Law.

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My favorite thing about this law is that it is recursive. –  T.E.D. Jul 14 '09 at 18:35
To understand recursion, you first need to understand recursion –  beryllium Aug 26 '11 at 11:15

Ninety-ninety rule

The first 90% of the code takes 90% of the time. The remaining 10% takes the other 90% of the time.

Attributed to Tom Cargill and popularized by Jon Bentley. Is this superseded by Hofstadter's Law?

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@Jonas - No, it right just the way it is :-) –  ldigas May 19 '09 at 4:51
No. That's the whole point - if people think they're 90% done, they're not even close. –  Sander May 19 '09 at 4:52
Documentation takes the 3rd 90% of the time. –  Carsten Feb 4 '10 at 5:00
@Carsten, What documentation? ;-) –  Nathan Koop Sep 27 '10 at 12:43

Brook's law:

Adding manpower to a late software project makes it later.

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This was shown to be false by a group of MIT students. blog.ksplice.com/2010/03/… –  Andrei Tanasescu Mar 21 '10 at 22:01

Wirth's law states that:

Software gets slower faster than hardware gets faster.

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The Dilbert Principle (corollary to the Peter Principle) - by Scott Adams, of course:

The most ineffective workers are systematically moved to the place where they can do the least damage: management.

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I like the one from Men In Black "A person is smart. People are stupid", though not named and not programming related –  jlarson May 19 '09 at 16:24
My personal favorite wisdom from Dilbert is what I call Wally's Rule: If you wait long enough, most problems take care of themselves. –  T.E.D. May 19 '09 at 17:51
I can assure you that the most ineffective workers are moved to management, but they can still do a hell of a lot of damage. –  Stefano Borini Feb 4 '10 at 4:48
The Dilbert and Peter Principles are superceeded (or at least contested) by the Gervais principle: ''Sociopaths, in their own best interests, knowingly promote over-performing losers into middle-management, groom under-performing losers into sociopaths, and leave the average bare-minimum-effort losers to fend for themselves.'' ribbonfarm.com/2009/10/07/… –  Christoffer Soop Sep 27 '10 at 12:37

Law of Demeter/Principle of Least Knowledge:

An object should only talk to its "neighbors" and not tell its neighbors how to work or invoke methods on a neighbor's neighbor.

In other words (as Wikipedia puts it): tell your dog to walk, not tell a dog's legs to walk.

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There are no silver bullets by Frederick P. Brooks, Jr

There is no single development, in either technology or in management technique, that by itself promises even one orderof- magnitude improvement in productivity, in reliability, in simplicity.

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Try to find the name of the person to whom this is attributed, I know it's known, but can't remember it now –  Robert Gould May 19 '09 at 3:44

Knuth's optimization principle:

We should forget about small efficiencies, say about 97% of the time: premature optimization is the root of all evil.

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This is a full quote from the classic papaer "Structured programming whith goto statements" (1973): pplab.snu.ac.kr/courses/adv_pl05/papers/p261-knuth.pdf, p.268. Maybe Knuth is quoting another source (himself?) at this place - without marking it explicitly as a quote. But then you should blame him for plagiarism ;-) Which other source do you have in mind? –  jens Jun 22 '09 at 5:45

I do a lot of distributed programming, so one of my favorites is Segal's Law:

A man with a watch knows what time it is. A man with two watches is never sure

The application to distributed programming is that you have to either arrange things so that your whole distributed system only has one clock driving things, or you have to accept that processes/events using different clocks are going to be running asynchronous. Two clocks will drift from each other. You can't expect two separate clocks (typcially on two seperate machines) to act in lock-step.

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Conway's Law:

...organizations which design systems ... are constrained to produce designs which are copies of the communication structures of these organizations.

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+1 — I love Conway's Law and the inverse, where organizations can mold to mirror the structure of the software they produce. In my opinion, this is one of the least well-understood phenomena of software which management should definitely understand. –  Quinn Taylor Jun 21 '09 at 21:03
I've always heard this as "four teams of people writing a compiler will produce a four-pass compiler". –  Juliet Nov 11 '09 at 16:14

Peter Principle:

In a Hierarchy Every Employee Tends to Rise to His Level of Incompetence.

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The Pareto principle (also known as the 80-20 rule, the law of the vital few and the principle of factor sparsity) states that, for many events, roughly 80% of the effects come from 20% of the causes.

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And the corollary to that rule: One cannot get away with implementing the most-used 20% of the features and still expect to have 80% of the userbase. –  RCIX Jan 8 '10 at 0:44

Zawinski's Law

Every program attempts to expand until it can read mail. Those programs which cannot so expand are replaced by ones which can.

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A reference to all such laws! en.wikipedia.org/wiki/Adages_named_after_people –  poundifdef May 19 '09 at 3:54
...except Microsoft Outlook –  T.E.D. May 19 '09 at 17:48

Abraham Maslow

If the only tool you have is a hammer, you treat everything like a nail.

So, programmers should learn several languages and learn how to use the strengths of each one effectively. It is no use to learn several languages if you do not respect their differences (Roberto Ierusalimschy, Programming in Lua)

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Alan Turing's proof of the insolvability of the Halting Problem

"Given a program and its input, determine whether the program will complete or run forever."

Cannot be solved in the general case with arbitrary input

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Asimov's three laws:

  1. A robot may not injure a human being or, through inaction, allow a human being to come to harm.
  2. A robot must obey orders given to it by human beings, except where such orders would conflict with the First Law.
  3. A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.
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Godwin's Law:

As a [StackOverflow] discussion grows longer, the probability of a comparison involving Nazis or Hitler approaches 1.

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That's simple infinite monkeys reasoning. As any discussion grows longer, the probability of a comparison involving anything approaches 1. –  Phil H May 19 '09 at 13:40
@Phil H: Logic nazi! –  Michael Myers May 20 '09 at 17:17
Actually, somebody's profile here on SO says: "As a StackOverflow discussion grows longer, the probability of Jon Skeet's name being mentioned approaches 1." I wish I could remember who it was. (It wasn't Jon Skeet.) –  Michael Myers May 20 '09 at 17:20
Aha, here he is: stackoverflow.com/users/3542/Rob –  Michael Myers May 20 '09 at 19:28
@mmyers: you just proved the point! –  RCIX Jan 8 '10 at 0:47

Greenspun's Tenth Rule of Programming:

Any sufficiently complicated C or Fortran program contains an ad hoc, informally-specified, bug-ridden, slow implementation of half of Common Lisp.

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Linus's Law:

Given enough eyeballs, all bugs are shallow.

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Edward V. Berard Law

Walking on water and developing software to specification are easy as long as both are frozen.

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[Sorry couldn't resist]

Stackoverflow law subjective questions:

Each question marked subjective is either closed within minutes
or it collects a large amount of upvotes. (some even both).

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One of my Favourites is

"One in a million is next tuesday"

Larry Osterman.

Basically it states that when dealing with computers, things happen so fast, that even something that happens very rarely, is going to happen within the next few days.

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Gustafson's Law ameliorates the parallelism doom-and-gloom of Amdahl's Law by stating that the problem size tends to increase in time, allowing linear application-level speedups even in the face of imperfect parallelization. The linked Wikipedia article has a much better explanation than I can muster, but here's an example:

Amdahl's Law approximately suggests: “ Suppose a car is traveling between two cities 60 miles apart, and has already spent one hour traveling half the distance at 30 mph. No matter how fast you drive the last half, it is impossible to achieve 90 mph average before reaching the second city. Since it has already taken you 1 hour and you only have a distance of 60 miles total; going infinitely fast you would only achieve 60 mph. ”

Gustafson's Law approximately states: “ Suppose a car has already been traveling for some time at less than 90mph. Given enough time and distance to travel, the car's average speed can always eventually reach 90mph, no matter how long or how slowly it has already traveled. For example, if the car spent one hour at 30 mph, it could achieve this by driving at 120 mph for two additional hours, or at 150 mph for an hour, and so on.

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Von Neumann's minimax theorem:

For every two-person, zero-sum game with finite strategies, there exists a value V and a mixed strategy for each player, such that (a) Given player 2's strategy, the best payoff possible for player 1 is V, and (b) Given player 1's strategy, the best payoff possible for player 2 is -V.

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The Law of Natural Selection: "Natural selection is the process where heritable traits that make it more likely for an organism to survive long enough to reproduce become more common over successive generations of a population. It is a key mechanism of evolution."

This applies to computer systems as well, systems that support the business functions directly related to earning capital are more likely to receive funding and therefore more likely to survive budget cuts. Hence, to survive the tumultuous nature of the software development industry it is logical to concentrate on skill that support those types of applications.

Footnote: Those of us able to apply the aforementioned principal will be more likely to earn more money and thereby be in a better position to procreate. Natural Selection wins again!


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I wish this were even true all the time. Sometimes the department that makes the most money can be such a political whipping boy as to get nearly no staff, attention, and contain the people with the lowest salaries. –  Trampas Kirk May 19 '09 at 18:07

The Steve Rule:

In a random sample of programmers, there will be more named Steve then there will be females.

This can be refined to a more correct and culture-agnostic version:

In a random sample of programmers, the likelihood of there being a male name with more programmers bearing that name than there are female programmers approaches 1 as the sample size increases.

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This is similar to a rebuttal of a major "creation-science" organization's attempt to get 500 scientists to sign a document stating that they didn't believe in evolution by getting 500 scientists named Steve (or derivatives thereof) to sign one stating that they did. –  Chris Lutz Feb 4 '10 at 4:48

There is my Favorite:

Murphys Law

Simplified: "Whatever can go wrong, will go wrong"

However, there is a little more to it Wikipedia

I like this more humanized version best: „If there's more than one possible outcome of a job or task, and one of those outcomes will result in disaster or an undesirable consequence, then somebody will do it that way.“

And of course Moore's law

famous interpretation: "The processing speed of computers will double every two years!"

stated similarly 1975

Again, there's more to it: Wikipedia

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Not computer science or programming specifically, but certainly true:

Anything that can go wrong will go wrong.

I don't believe it's necessary to name this adage. For those few too ashamed to admit they don't know it, here is a link for you to anonymously follow to correct this gaping hole in your knowledge.

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This is Murphy's law. –  Christoffer Soop May 19 '09 at 12:25
And expect it to go wrong at the worst possible moment. –  Toon Krijthe May 19 '09 at 13:13
Also called Sods Law in the UK. –  Omar Kooheji May 19 '09 at 15:21
... and it will happen sooner than you think –  Lasse V. Karlsen Jun 6 '09 at 10:31

Little's Law (queueing theory):

The long-term average number of customers in a stable system L (known as the Offered load), is equal to the long-term average arrival rate, λ, multiplied by the long-term average time a customer spends in the system

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Principle of least astonishment

In user interface design, programming language design, and ergonomics, the principle (or rule or law) of least astonishment (or surprise) states that, when two elements of an interface conflict, or are ambiguous, the behaviour should be that which will least surprise the human user or programmer at the time the conflict arises.

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