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I'm trying to make most efficient algorithm to solve problem of communicating vessels.

Number of vessels (int, 1-200000)
For each vessel - altitude of vessel (int, can be negative)
                  height (int, >1)
                  width (int, >1)
                  depth (int, >1)
Volume of water (int >=0, read to EOF)

Altitude of water surface (double) or "Empty" or "Overflow"

I made a program (in C), that use the bisection method but it sometimes doesn't give the right results (f.e. vessels 1 1 1 1 and 3 3 3 3 and volume 1 gives 2.25 instead of 2.0, or overflow detection problem).

So my algorithm is:

  • Read values
  • Convert them (altitude of bottom, altitude of top, area)
  • qsort (altitude of bottom)
  • SURFACE = (lowest + highest place)/2
  • Compute volume from bottom to SURFACE
  • Is volume equal to desired volume (allow error 0.000001)? Is greater or smaller than desired volume?
  • If greater take bottom half and repeat process, if smaller take upper, save computed volume, repeat process.

I hope it is understandable.

Is there better method to solve this? Or how to improve my method?

Picture of input:

image of input

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closed as unclear what you're asking by Eric Postpischil, chill, enhzflep, lpapp, GuyGreer Mar 1 '14 at 1:43

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

Since you're working with floating point values, you might want to read What Every Computer Scientist Should Know About Floating-Point Arithmetic. Besides that, run the program in a debugger, and step through the code line by line while keeping track of variables and their values. It might help you find if something is odd. –  Joachim Pileborg Nov 10 '13 at 10:01
Your question should be self-contained. It should fully explain the problem you are trying to solve. I don't know what the "problem of communicating vessels" is, so from your explanation and image I have no idea what is going on. –  Robin Green Nov 10 '13 at 10:08
The problem of this method is it simply can't determine right altitude if there is no alt intersestion between vessels. By this method, result in example is right, but not ideal, because right is also 2.20, 2.05 etc. –  Jakub Čech Nov 10 '13 at 10:09

1 Answer 1

If we have the same liquid in the system (so the density of liquids in vessels are the same) - the level in all communicating vessels will be the same.

Step 1. let's calculate some not-changing parameters: the volume of liquid before experiment and the lowest level:

Vbefore = SUM(Hi*Wi), where Hi is height in vessel i and Wi is width of vessel i.

Llowest = MIN(Ai + Di), where Ai is altitude of vessel i and Di is depth of vessel i

The basic equation will be the law of saving volumes (before and after the system is set free):

Vbefore = Vafter + Voverflow

Plus the following obvious conditions must be met:

Voverflow > 0 if Lresult > Llowest

Voverflow = 0 if Lresult <= Llowest

Based on that, we can set the first level, for example, as arithmetic average of levels before and then calculate the difference, check Voverflow, and if doesn't meet conditions, increase and decrease level and reiterate.

Step 2. But I have another idea. Let's check the case when the system is just about the overflow:

Voverflow = 0

Lresult = Llowest

Vafter = SUM((Lresult - Ai)*Wi), but of course for those i where (Lresult - Ai) > 0 because obviously vessel can't hold negative amount of liquid.

And as a result we will have three possible cases:

If Vafter = Vbefore, then Lresult is what we are looking for.

If Vafter > Vbefore, then no overflow occurred and simple reallocation of liquid between vessels occurred. So, we can calculate the result level as:

Lresult = Vbefore/SUM(Wi), for those i where (Lresult - Ai) > 0

If Vafter < Vbefore, then overflow occurred and Lresult = Llowest. The difference Vbefore - Vafter left the system from the open end of the lowest vessel.

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@JakubČech I was too optimistic with the previous solution, hehe ~), –  pmod Nov 13 '13 at 14:00

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