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v0.31:Flow

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This article is about an older version of DF.

Reading from the raw files you will find that all water and magma/lava in the game are called flows. This however adds a certain amount of confusion since when you trying to Template:L a Template:L you also need to know if your flow of water is flowing. For the purpose of clarity water and magma will instead be referred to as fluids, and flow will be saved for a fluid that is in motion.

Flow is a game mechanic used to simulate the motion of fluids. The two fluids that exist in dwarf fortress currently are Template:L and Template:L. You can identify fluids that are flowing by looking for a tile that is blinking between and ~ tiles. If you have turned on SHOW_FLOW_AMOUNTS you will see the fluid depth instead and will not be able to easily tell if the game considers a tile to be flowing or not. Flow is typically present any time a fluid is in motion, but there are some exceptions which confuse things a bit.

  • Note: In the current release flow does not seem to appear in magma. [Verify]

Basic Fluid Motion

Water and Template:L both move in much the same way following a fairly simple set of rules. The only difference between the motion of Template:L and water is that magma behaves differently with regards to Template:L.

Fluids move mostly as one might expect: Trying to move down and spreading out to the sides until they fill any available area. Fluids can also be under Template:L, which allows them to be pushed back up by the weight of fluid in another area. Fluids can move in 10 directions, which are the 8 directions on the same z-level, and directly up or down. Fluids cannot move diagonally up or down. When fluids have a choice of where to move they select a destination randomly.

Here is a quick example of how fluids can move to adjacent tiles. Also as water moves to an adjacent tile flow is generated in both tiles. This flow will remain for a short time before reverting back to being non-flowing water. In the first example of falling water all of the water is removed from the source tile, so flow only appears below where the water has moved to. In the other two examples flow will appear in both tiles.

           ▒7▒       ▒7▒       ▒
  Before   ▒ ▒       ▒2▒       ▒7
           ▒▒▒       ▒▒▒       ▒▒▒▒▒
           ▒ ▒       ▒2▒       ▒
  After    ▒7▒       ▒7▒       ▒43
           ▒▒▒       ▒▒▒       ▒▒▒▒▒
  • 1. Fluids move down
  • 2. Fluids spread out to the sides

There is however a third rule which greatly complicates everything. And that is fluids moving under Template:L. Fluids moving under pressure can both teleport, and be pushed back up to fill tiles above as well as below and to the sides. Also fluids that are teleporting under pressure still only generates flow in the source and destination tiles which counter-intuitively leaves all the tiles it pushed through untouched and not flowing.

Fluids under pressure aka. Teleportation

This is an aspect of fluid motion that causes a great deal of confusion. Fluids moving under Template:L do not just move to adjacent tiles, they also trace a path through other full tiles of fluid trying to move to more distant tiles. Fluids moving under Template:L can effectively teleport through other tiles that are already filled with fluid. When teleporting, fluids still only generate flow in their source and destination tiles, NOT in any tiles they skipped over to get to their destination. Also fluids that are teleporting will not push objects in tiles they skip over.

               ▒7▒ ▒      ▒~▒ ▒       
  Before       ▒7▒ ▒      ▒~▒ ▒
               ▒777▒      ▒~~~▒                
               ▒▒▒▒▒      ▒▒▒▒▒       
               ▒ ▒ ▒      ▒ ▒ ▒
  After        ▒7▒7▒      ▒~▒≈▒       ≈   flowing fluid
               ▒777▒      ▒~~~▒       ~   non-flowing fluid
               ▒▒▒▒▒      ▒▒▒▒▒

This is a simple u-bend example of how water moves under pressure. However with regards to flow, it does something strange. Notice that flow only occurs in the destination tile here (since the source tile has been removed). The fluids in the bottom of the u-bend are unaffected, and furthermore any objects that happen to be here are not pushed either.

Fluids under pressure still obey the first two rules of fluid mechanics which is to say they try move down first. Failing this they try to fill tiles to the sides. If all possible tiles below and to the sides are filled, a fluid may then move back up. This is our third and final rule of fluid mechanics.

  • 1. Fluids move down
  • 2. Fluids spread out to the sides
  • 3. fluids under pressure may move up

Natural Flow

Many water sources such as Template:Ls and Template:Ls are constantly flowing with natural flow. This is different from other flow effects in that it is always considered to be flowing water. This remains true even when the water flows into a complete dead end channel or even when blocked off with a floodgate. Any channels that link up to a naturally flowing source will soon become naturally flowing water as long as they remain on the same z-level. Diagonal steps have no effect on natural flow although they can be used to change Template:L.

Trying to move natural flow up or down to a different z-level may have unpredictable results but in most cases this will break the natural flow effect resulting in still water that can only be made to flow by artificial means.

Fluid Depth

Fluids can have a depth anywhere from 1 to 7. To see the depth of a tile of fluid you can look at it with k which will reveal the depth in the text at the right. Alternatively you can enable Template:L which will replace the and ~ tiles with a numerical representation of the depth at all times. Turning on Template:L does come with the drawback that you will no longer be able to see if a tile is flowing or not.

Obstructions

Water can be stopped by most solid tiles. These include Template:Ls and Template:Ls as well as closed Template:Ls, Template:Ls, and Template:Les. Exceptions are vertical Template:Ls, vertical Template:L, and Template:Ls, which will allow fluids to pass freely.

Evaporation

Fluids that remain at a depth of 1/7 for long enough will evaporate. Evaporated fluids are simply removed from the game. In hot or scorching environments, Template:Ls can evaporate at greater depths.