Daz 3D is part of 
Connect
DAZ Productions, Inc.
224 S 200 W, Suite #250
Salt Lake City, UT 84101
Licensing Agreement | Terms of Service | Privacy Policy | EULA
© 2024 Daz Productions Inc. All Rights Reserved.Daz 3D is part of
Connect
DAZ Productions, Inc.
224 S 200 W, Suite #250
Salt Lake City, UT 84101
Licensing Agreement | Terms of Service | Privacy Policy | EULA
© 2024 Daz Productions Inc. All Rights Reserved.
Comments
Thanks for the workaround tips. It appears that the "conform_target" : "name://@selection:", is missing from the scene section of House Brownie Shirt.duf. Adding that line to the file makes the shirt fit to G8M when loaded and makes it autofit to G8F when loaded with her selected. This does not fix the add-on not autofitting, as Mada mentioned. I am going to submit a help request. Maybe Daz will fix the issue with the shirt not conforming. It would be nice to have that working as intended.
Edit: I submitted two bug reports - one for the nonconforming shirt, and one for the dynamic surface add-ons not working after autofit.
51. Dog Leash. I picked up the new Daz Dog 8 as well as Collars and Leashes for Daz Dog(s) 8. The leash has 19 bones with parameters to control the positioning but it can be a lot of work to adjust multiple bones to get the leash in the right spot. Here I used a helper ellipsoid to move the leash into position.
a. Load the dog and the collar/leash as well as other scene elements. Rotate the leash as needed so it is near the figure but not inside the hand.
b. Create a primitive sphere of 16 segments and 16 sides. Elongate it along the Z axis. Scale it so the ellipsoid covers the handle. This is the helper that will move the leash to the figure’s hand.
The reason to cover the handle is to keep it from coming apart during simulation. If only a small sphere is used, you’ll get the result shown in the figure below.
c. Set up an animation with the ellipsoid moving to a position below the hand at frame 8 and into the hand at frame 15. At frame 15, rotate the ellipsoid so it is parallel with the forearm of the figure.
Frame 0:
Frame 8:
Frame 15:
d. Add a dForce dynamic modifier to the leash and then add a dForce modifier weight node. Paint a weight map so the influence is removed from the clasp next to the collar. See image.
e. Hide the figure so it doesn’t interfere with the leash’s movement. Run the simulation. You will see a result like this:
Frame 4:
Frame 8:
Frame 15:
Frame 30:
f. A finished render with the dForced leash.
BRILLIANT!
Yes, it is very clever! But, if the dog were pulling the unicyclist, wouldn't the leash be taught?
If the dog was pulling the unicyclist, the kid would be on his face on the pavement - he's riding as fast as he can to avoid that.
Since the unicylcist is already coming off the front, the tension in the leash has been temporarily released. Plus the dachsund's short legs means they cover much less ground even when running fast.
I think just getting a leash to dforce without a nasty explosion is awesome :)
Since my image with the leash could be interpreted multiple ways, I did another with just a simple walking pose. I do find the fabric sides of this particular leash likes to balloon out. I ended up making them into a separate surface using the geometry editor. I set Dynamic Strength on both the fabric and leather surfaces to 0.86 and Stretch Damping on the cloth surface to 0.5.
52. Effect of Density on Rotating and Horizontal Ropes. I’ve conducted a lot of experiments, some work out and some don’t. This one was to see if you could use a helper sphere to swirl a rope around a central point. I always start with default surface settings to see what happens and then look for adjustments. In this case, it turns out super low density values are the key.
a. Create a central pole with a cylinder of 4 feet length and 4 inch diameter. Create two spheres of 6 inch diameter, 16 segments, and 16 sides. Put one on the pole near its bottom and the other away from the pole. Parent the sphere that is away from the pole to the one on the pole.
b. Create a long cylinder that is 100 feet long, 1 inch diameter, with 100 segments and 6 sides. Position one end of the cylinder into the sphere as shown below. Do not parent the cylinder to the sphere. Add a dForce dynamic modifier to the cylinder. Turn self-collide off in the Surfaces pane.
c. Set up an animation timeline with 32 frames. Set a key frame for the sphere on the pole at frame 0. At frame 32, move the sphere up the pole and set Y-rotate to 1440 (which will give you 4 complete rotations). As the inner sphere rotates, the outer sphere will sweep in a wide arc around the pole, pulling the cylinder (rope) behind it.
d. Run the dForce simulation with default density (180). You will find the rope misbehaves, sticking to the center pole and wrapping up and over itself. The images below show frame 14 and 28 from both a top and side view. You can go here https://vimeo.com/281092215 to see an animated version of these simulations.
e. Density 25. This was the first density where the rope didn’t strike the central pole. The rope swirls around the pole but has an elongated shape.
f. Density 5. The rope mostly follows a circular path.
g. Density 1. The rope follows along a path that’s even tighter than a circle.
h. A density value between 1 and 5 seems to be best. These are much lower values than I would normally expect to use. As I mentioned earlier, an animated version can be see on Vimeo: https://vimeo.com/281092215
i. I set up another scene with just one sphere and the rope embedded in it. I duplicated the rope multiple times and changed the density for each one. Below is an image showing the result of single frame simulations using default gravity and default surface settings, other than Density, which runs from 2 for the top rope (stayed horizontal), to 5, 10, 25, 50, 75, 100, 150, and 180 (default) for the bottom rope.
ADDED: As you can see, the lowest density value of 2 makes the rope fully rigid. Steadily increasing density values cause the rope to sag more near the point of attachment. I’ve noticed this sagging pattern before, where instead of a smooth drape from end to end, you get a lot of draping near the attachment point and a mostly horizontal section away from it. Since these were all done for the same time duration, it’s likely the horizontal section would fall further with added time. This also shows that dForce simulation appears to be working from one end to the other, rather than everywhere at once.
Congrats for your great work RGcincy!
Would it be easy to create a camping tent?
Thanks!
What type of camping tent? If using only primitives, a pup tent should be pretty straightforward (a plane folded over a stretched rope). A square tent with a pyramid top should be possible too. Flaps would be difficult unless you used a modeling program. Early in teh thread I posted a link to a yurt someone made with dForce. I believe they created a frame and then dForce'd the cloth elements.
Maybe something like this: https://www.daz3d.com/happy-camper-essentials-59
or this: https://www.turbosquid.com/3d-models/4-person-cabin-camping-3d-model/1092966
or something more creative you could think
53. Effect of Density on a Rotating Cloth. Before I did the rotating rope discussed in section 52, I had started with a rotating cloth but had difficulty with it collapsing into a thin streamer. After discovering that very low density values helped stiffen the rope, I tried them on the cloth and got better results.
a. Create a 2 foot diameter plane with 50 divisions. Rotate it so it appears like a diamond. Add a dForce dynamic modifier to it.
b. Create a 3 inch cube with 20 divisions. Position it at one corner of the plane. Change the X-scale to be slightly wider than the plane.
c. Add a figure with a dancing pose and fingers pinching together. Parent the cube to the thumbs of the figure. Do not parent the plane to the cube.
d. Set up an animation timeline with the figure doing a 360 degree rotation around the Y-axis. I also moved the arm up at the 180 degree mark and back down at 360.
One thing that affects dForce animations is the speed of movement. If instead of the 360 degrees I used with the figure I used 1400 degrees, as I used with the rope in section 52, the cloth plane stretched and exploded no matter the density settings.
e. Run a dForce simulation at default density (180). The cloth stretches into a thin band (images show frame 16 and 32 of 32).
f. Density 50:
g. Density 25:
h. Density 10:
i. Density 2:
j. Density 1:
k. As you can see, lower density values result in a cloth that stays more spread out, but you can go too far as shown with density value of 1. Best results are between 2 and 10. One place where this could be applied is to create a flowing cape.
An animated GIF of the flowing behavior at a density of 2:
@RAMWolff
Update to 44 Flying Cape
Back in June I covered creating a Flying Cape. I ended up with a mix of settings: (1) for a Shoulder surface I used Stretch Stiffness at 0.1, Buckling Stiffness at 80%, and Buckling Ratio at 5% (2) while for the Main cape surface I used Stretch Stiffness at 0.1, Contraction-Expansion Ratio at 110%, and Buckling Ratio at 5%. With my recent insight on Density, I went back and set everything to default except Density at 15. The animated GIF shows the result. Going lower caused the cape ends to pinch together too much (density 10). Going higher caused a lot more vertical up and down motion.(density 35-50). Using density alone is a lot simpler than the combination I initially had to use to get good results.
THanks so much Rich. I'll make a note of that info! Looks really good!
54. Tie a String. I wondered if one could use helper objects to tie a string in dForce. Turns out you can as I show below! This is an experiment that might not have much use but it was fun to work out.
a. Create a primitive cylinder 12 inches long, 0.25 inches in diameter, X-positive, with 150 segments and 12 sides. I used 150 segments so there would be enough flex in the string and enough vertices so they would grab and not pass through. Add a dynamic modifier.
b. Create a second primitive cylinder 12 inches long, 1 inch in diameter, Z-positive, with 20 segments and 16 sides. Move this cylinder so it is just above and not touching the first cylinder.
c. Create two primitive spheres, 0.5 inch in diameter, X-positive, with 16 segments and 16 sides. Move and embed one sphere on either end of the long cylinder. Do not parent the cylinder to the spheres.
d. Your scene should look something like this:
e. Go to the Surfaces pane and set density to 2. This is important, as otherwise the string has too much flex and will catch and distort.
f. Set up an animation timeline with 32 frames. Just like tying a knot, the two spheres will cross past each other, than one will wrap around, dip down and back through a loop formed by the crossed string. The following series of images show the setup from the front and then the top view, followed by the simulation of the string.
Frame 4:
Frame 8:
Frame 12:
Frame 16:
Frame 20:
Frame 24:
g. It’s probably hard to envision the movement, so here's a GIF so you can see it in motion:
I'd love to see that animation...but there's nothing there but a few underscore characters!
Dana
It should be there now.
Cool!
Dana
Thank you for creating the pdf. I often get confused with the instructions when there are so many comments added.
Thanks for the pdf. Nice job.
Thanks for the updated pdf
Oh goodie gum drops. Thanks for the new updated PDF #2 :-)
How I got dForce Dynamic Surface Add-On working with polygons
@Mada posted several dForce Dynamic Surface Add-On tips in this thread, and she also used the technique in her House Brownie Outfit I purchased that outfit, and it was a good example of what dForce Dynamic Surface Add-On polygons should look like and how they should be positioned. She used them to hold a shirt closed, at the button locations, as if the shirt were really buttoned. This is a summary of what I learned from her generous tips. There may be better ways. I used Blender, and I am NOT a Blender expert, so I might have made things harder than necessary. These steps assume some basic knowledge of exporting and importing OBJ files in Daz Studio, using a modeler like Blender, and using the Transfer Utility.
I did this from memory. I hope I didn't forget any critical steps!
@Barbult Thank you so much!! I finally got a polygon add-on to work! What I was missing before was your step 17.
Your writeup was very complete I think. I used Silo instead of Blender and a primitive cylinder that was split down one side instead of a wardrobe item. An image is attached. Left cylinder has the add-on, the right does not.
Trying the same procedure with polylines did not work. I tested it 3 ways, all using the same exact vertices as the polygon that did work. One way used 2 vertices that were on either side of the split, the second way used all 4 vertices but not in a closed loop, the third way used a close loop. In all cases, the split fell apart. Not sure what's needed.
Daz adds these new features but doesn't tell us how to use them. It is very frustrating. Maybe we don't really understand how to create a "polyline". Maybe Mada will figure it out and give us some more clues.
I agree - details are very sparse on many features.
The details on some of the things are sparse because they're still in development and can change at any time :) so better to keep on developing until its ready for prime time. There are some very exciting features coming though.
@RGcincy - glad you got it to work :)
I would think that features added to a public beta should be documented well enough for the "public" to try those features and provide feedback. Otherwise, why not keep them private?
I am in the group that hopes polylines are leading to dynamic hair and fur. We've been led to believe that more dogs are coming, by the fits in the existing products. Some of those breeds would look pretty lame without some good fur.
Onr day or another someone must do a good DAZ User Manual. With WRITE explanations, not a collection of video tutorials.