Objects Floating in Water: Difference between revisions

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''By Geep, based on 2019-2020 forum research and experiments done to help create "Away 1 - Air Pocket" ''
''By Geep, based on 2019-2020 forum research and experiments done to help create "Away 1 - Air Pocket". Treatment of cadavers is beyond the scope of this article; see [[Ragdoll Corpses in Water]]''


== Two Methods at a Glance ==
== Two Methods at a Glance ==
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=== Getting the Placed Object to Activate ===
=== Getting the Placed Object to Activate ===
Unfortunately, the object will not rise off the sea floor, or if at the surface, begin bobbing, until after the player activates it by bumping and/or frobbing it.
Unfortunately, the object will not rise off the sea floor, or if at the surface, begin bobbing, until after the player activates it by bumping it (perhaps indirectly) or frobbing it. Clever game design may sometimes get around this. For instance, a floating rowboat (i.e., Moveables/Nautical/atdm:moveable_boat2) could be activated by spawning the player directly into it.


Clever game design may get around this, e.g., in the case of a floating rowboat (i.e., Moveables/Nautical/atdm:moveable_boat2), spawning the player directly into it.
It is unclear if there is a direct way to activate moveable objects by triggers/scripting. An indirect way to so activate and keep them activated is suggested in [[Func Forcefields]]: envelop them in a force field. This can be triggered on and off. If the field strength was minimal, object pileup would be delayed. Or perhaps two co-located force fields, only one of which is turned at any time, could be used to slosh activated objects back and forth.
 
(Is there a way to activate moveable objects by triggers/scripting? Don't know.)


=== Plausible Behaviors When First Activated ===
=== Plausible Behaviors When First Activated ===
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Based on a [http://forums.thedarkmod.com/topic/5502|forum post by Ishtvan], [[Func Forcefields]] includes simulating floating objects, potentially many, being transported by current or wind.
Based on a [http://forums.thedarkmod.com/topic/5502|forum post by Ishtvan], [[Func Forcefields]] includes simulating floating objects, potentially many, being transported by current or wind.


[[Func Forcefields]] mentions a known problem: a dead body in a river will probably move much too fast, because the water physics code reduces the effective mass of an articulated figure in water. Consequently, impulses applied on AFs in water send them flying.
== See More ==
Forum thread [http://forums.thedarkmod.com/index.php?/topic/17828-water/|"Water"], begun by Destined in March, 2016, is the starting point for information here.
 
[[Moveables]] and the older  [[DEF Files]] contain info about intended use of the mass and density spawnargs.


Treatment of cadavers is beyond the scope of this article.
[[Swimmable Water]] by Angua describes setting up water features.


=== See More ===
[[Ragdoll Corpses in Water]]
Forum thread [http://forums.thedarkmod.com/index.php?/topic/17828-water/|"Water"], begun by Destined in March, 2016, is the starting point for information here.


[[Moveables]] and the older  [[DEF Files]] contain info about intended use of the mass and density spawnargs.
[[Force Fields]] and [[Func Forcefields]] about AI and cadavers in flowing water.


[[Swimmable Water]] by Angua, under [[Water Tutorials]], describes setting up water features.
{{tutorial-water|sort=Floating}}

Latest revision as of 23:21, 14 December 2021

By Geep, based on 2019-2020 forum research and experiments done to help create "Away 1 - Air Pocket". Treatment of cadavers is beyond the scope of this article; see Ragdoll Corpses in Water

Two Methods at a Glance

The table below compares the two easy methods to achieve a floating effect. Other methods are mentioned at the end of the page.

Aspect Moveable Objects Bobbing Objects
Class atdm:moveable... func_bobbing
Initial placement important yes yes
Controlled by density, via mass speed,height,phase,axis
Physics engine? yes no
Moving at worldspawn? no yes
Player affects motion? yes no
Stops moving? on timeout no
Tumbles, rotates, ricochets? yes no
Can sink to seafloor? yes, if heavy not really
Can shoot above surface? yes, if light not really
Has splash/ripple effects yes no
Player can stand on? sometimes yes


Method 1 - Use Moveable Objects

Entities found in the “Moveables” folder - such as atdm:moveable_crate01, that inherits from moveable_base - will float dynamically in water if their calculated density is light enough. But there are issues.

Adjust the “Mass”, Ignore “Density”

To control floating and underwater behavior (detailed below), you may wish to inspect and override the inherited “mass” spawnarg value. If a mass value is defined (and it always is if you use a standard moveable class), then the “density” spawnarg is algorithmically ignored… so you can ignore it too. Remember that the mass of an object can affect non-water aspects of game play.

Desired Initial Placement of an Object

Here, let's restate general considerations when placing a Moveable in the map, but in a water context.

In the Water, but Above the Sea Floor. By “sea floor”, we just mean the first solid object encountered directly below the object. Place the moveable object where you wish (below, at, or slightly above the water surface), and set its “nodrop” spawnarg to “1”. On worldspawn, it will stay where you placed it, awaiting activation by the player.

On the Sea Floor. Like the above, but make sure nodrop = 0 (the usual default). On worldspawn, the moveable will move immediately to the sea floor (without special effects), awaiting activation by the player.

Far Above the Water. If the object is placed far above the water or any other floor, it just hangs there (awaiting player activation), no matter the nodrop value. If the player is swimming, the object will be out of reach.

Getting the Placed Object to Activate

Unfortunately, the object will not rise off the sea floor, or if at the surface, begin bobbing, until after the player activates it by bumping it (perhaps indirectly) or frobbing it. Clever game design may sometimes get around this. For instance, a floating rowboat (i.e., Moveables/Nautical/atdm:moveable_boat2) could be activated by spawning the player directly into it.

It is unclear if there is a direct way to activate moveable objects by triggers/scripting. An indirect way to so activate and keep them activated is suggested in Func Forcefields: envelop them in a force field. This can be triggered on and off. If the field strength was minimal, object pileup would be delayed. Or perhaps two co-located force fields, only one of which is turned at any time, could be used to slosh activated objects back and forth.

Plausible Behaviors When First Activated

Objects initially placed above the water surface or higher in the water than they would normally float may trigger splash sound and visual effects, and plunge below the surface (before arising if buoyant). Similarly, initially underwater objects that are highly buoyant may pop above the surface, with effects. As in real life, the presence and extent of such behaviors is presumably influenced by the momentum at surface penetration. But the engine likely scants object shape and orientation.

Effect of Mass on Buoyancy and Floating Behavior

The mass divided by the calculated (or estimated) volume gives a calculated density, which affects how high in the water an object sits and (along with mass) how vigorous any bobbing and roll-about may be.

The following summary table gives rules of thumb, based on experiments (not shown). For box-shaped objects it is possible for both you and the physics engine to easily calculate the volume, and from that (given the mass) the density. For other shapes, the engine likely deploys shortcut estimates (perhaps using the collision model) with ad-hoc fudge factors. Rather than attempt to mimic that, or guesstimate appropriate volumes for complex shapes, it is suggested that you use the table as follows:

  1. Observe the object’s floating behavior, and from that, impute its approximate density.
  2. Compare that to the desired behavior, and scale the mass value proportionally.
  3. Iterate until happy.
Estimated density Underwater: Sink (-) or Rise (+) Float Behavior at Surface
1.8 --- Doesn’t float
1.6 -- Doesn’t float
1.5 - Doesn’t float
1.4 (-) Awash (top at surface)
1.2 Rides low (near-awash)
1.0 (+) Rides mid-low (more below water)
0.8 + Rides midline
0.5 ++ Rides mid-high (more above water)
0.3 +++ Rides high (most above water)
0.1 ++++ Sits on surface

The chosen waviness of the water surface can affect surface behavior. For instance, consider the “Wasser” gui texture. The wave chop of this will cause the small cloth package (which rides on the surface if the default mass is unchanged) to be perhaps-unrealistically bouncy. (Aside: Moveables have a “bouncyness” spawnarg, but presumably this does not influence behavior in water.)

When choosing a mass value, larger values affect not only the sink rate, but how easy it is to move the object underwater. Conversely, a very light mass value will not only cause the object to sit on the surface, but also bob too-vigorously to ripples (as mentioned). A mass value of 0 is not recommended, because the object not only “disappears” (launches?) but the subsequent frame rate deteriorates. Amusingly, a negative mass (e.g., -1) creates a special hydrophobic effect – the object has a “toe” (corner) in the water, and can skip around on the surface.

When estimating the density, the physics engine considers only the mass of the floating object alone, not what may be atop of or within it, e.g., contents of a boat, including the player.

Caveats

The foregoing assumes this is true for the engine:

  • The given mass value is always considered; and
  • The given density value (i.e., stated, not calculated) is always ignored (when there’s a mass value, per DEF Files)

Experiments conducted by Geep with crates are consistent with that. However, the 2016 “Water” thread did report an effect of changing the “density” spawnarg value for a boat. Reason for this discrepancy of findings is unknown.

Method 2 - Bobbing to Simulate Floating

Instead of a “moveable” entity, we start with a brush or model. There is no “nodrop” to consider in this case, and player activation of motion is not an issue...the motion starts immediately and runs forever. However, since the physics engine is not involved, the bobbing object will not get out of the way of the player; the player can stand and ride on it instead. (Presumably, the bobbing can inflict damage if the player gets pinched between the bobber and some other immoveable.) No splash sound effects or visuals, either. Nor circular ripples emanating.

Starting with a Brush. Imagine a brush textured as a crate (e.g., using Texture Browser/”crate01” and Surface Browser/Texture Operations/Fit). Then with the brush selected, right-click and choose “create entity”.

Starting with a Model. In the Entity inspector, select the classname, and then “Choose entity class…”.

In either case, from the tree of Entities, under “Func” select “func_bobbing”. Spawnargs of particular interest are:

  • Speed. Seconds to complete a bob cycle.
  • Height. Amplitude of bob

Values of 2 for each is a good starting point. (Oscillating will be axis-aligned; default z-axis is your friend.) Also, you’ll probably want to change the name, e.g., to “func_bobbing_mycrate”.

If you have multiple nearby independent objects bobbing, consider making the movements non-synchronized, by

  • varying their speeds (e.g., with non-integers or values that are not multiples of each other)
  • playing with the additional spawnarg “phase”.

Conversely, if your func_bobbing entity has something associated with it that should also bob with it (e.g., a sign decal; an object on a raft), remember to use “bind” on the latter to attach it.

Instead of up-and-down motion, func_bobbing can also be used to give slight lateral movement to underwater objects, e.g., a fish, though it is limited to world-axis-aligned X or Y directions. Keep the movement slight... nobody wants to see a fish swimming backwards a long distance.

Advanced Methods

In the forum thread "Water", Moonbo suggests (in addition to func_bobbing discussed above) the use of func_mover. Func_mover and associated scripting can be considered if a complex programmatic movement is required, such as also having lateral motion due to a current, eddy, or whirlpool. Or having a fish swim a route.

Based on a post by Ishtvan, Func Forcefields includes simulating floating objects, potentially many, being transported by current or wind.

See More

Forum thread "Water", begun by Destined in March, 2016, is the starting point for information here.

Moveables and the older DEF Files contain info about intended use of the mass and density spawnargs.

Swimmable Water by Angua describes setting up water features.

Ragdoll Corpses in Water

Force Fields and Func Forcefields about AI and cadavers in flowing water.