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  1. 19 points
    I thought it fitting to post this here too ;). For better or worse, I'm launching a vfx and animation studio at the end of the week. Some of you may recognize some of the name (if you squint and look at it just right). http://theodstudios.com
  2. 15 points
    Hi everyone, Herer's a little personal project I did over the last year. No keyframes where used for the animation. Each movement is generated through physical simulation or procedural noise. The Bananas and Pears are done in H16.5 using CHOPs controlled Bones and then fed into a FEM simulation. All the other fruits are done using H17 and Vellum. ÖBST: "How would fruits move if they could?" Hope you like it.
  3. 11 points
    nature.hipnc just to say hello and share some stuffs. /cnc_verkstad/ Tesan Srdjan
  4. 9 points
    A lot of people asked me to share this fake fire method.If you interested it, you can will check this simple hip. After rander i used ACES for a better look. fake_fire_rnd.hip
  5. 9 points
    what if the self buttons were creating DOP setups inside one SOP network instead of having a Geometry node, a DOP network for simulation and another Geometry node to import the data and save to disk. It makes much more sense to see the data flow from top to bottom in one network without having to jump to different levels for no reason. maybe it's just me... grains.hipnc
  6. 8 points
    Hi everyone! The past week I worked on a personal project for learn something about hairs - vellum. It's my first project ever with hairs so I guess is nothing special but several people asked to see the hip file so here it is. Final result: Hip file (I had to recreate it but it should be pretty much the same): groom_clumping_03.hipnc
  7. 7 points
    I also moved all the tumblr example files I've been sharing onto my new website that you can find here. https://www.richlord.com/tools
  8. 7 points
    Article on SideFX.com: https://www.sidefx.com/community/houdini-175-launch-event/
  9. 7 points
    There are so many nice example files on this website that I am often searching for. I wanted to use this page as a link page to other posts that I find useful, hopefully you will too. Displaced UV Mapped Tubes Particles Break Fracture Glue Bonds Render Colorized Smoke With OpenGL Rop Moon DEM Data Creates Model Python Script Make A Belly Bounce Helicopter Dust Effect Conform Design To Surface Benjamin Button Intro Sequence UV Style Mapping UV Box and Multiple Projection Styles Ping Pong Frame Expression Instance vs. Copy (Instance Is Faster) Particle Bug Swarm Over Vertical and Horizontal Geometry Rolling Cube Rounded Plexus Style Effect Pyro Smoke UpRes Smoke Trails From Debris Align Object Along Path Fading Trail From Moving Point Swiss Cheese VDB To Polygons Get Rid Of Mushroom Shape In Pyro Sim A Tornado Ball Of Yarn Particles Erode Surface Unroll Paper Burrow Under Brick Road Non Overlapping Copies Build Wall Brick-By-Brick FLIP Fluid Thin Sheets Smoke Colored Like Image Volumetric Spotlight Moving Geometry Using VEX Matt's Galaxy Diego's Vortex Cloud Loopable Flag In Wind Eetu's Lab <--Must See! Wolverine's Claws (Fracture By Impact) Houdini To Clarisse OBJ Exporter Skrinkwrap One Mesh Over Another Differential Growth Over Surface [PYTHON]Post Process OBJ Re-Write Upon Export Rolling Clouds Ramen Noodles Basic Fracture Extrude Match Primitive Number To Point Number Grains Activate In Chunks Fracture Wooden Planks Merge Two Geometry Via Modulus Fill Font With Fluid DNA Over Model Surface VDB Morph From One Shape To Another Bend Font Along Curve Ripple Obstacle Across 3D Surface Arnold Style Light Blocker Sphere Dripping Water (cool) Exploded View Via Name Attribute VEX Get Obj Matrix Parts eetu's inflate cloth Ice Grows Over Fire Flying Bird As Particles DEM Image To Modeled Terrain Pyro Temperature Ignition Extrude Like Blender's Bevel Profile Particles Flock To And Around Obstacles BVH Carnegie Mellon Mocap Tweaker (python script) Rolling FLIP Cube Crowd Agents Follow Paths Keep Particles On Deforming Surface Particle Beam Effect Bendy Mograph Text Font Flay Technique Curly Abstract Geometry Melt Based Upon Temperature Large Ship FLIP Wake (geo driven velocity pumps) Create Holes In Geo At Point Locations Cloth Blown Apart By Wind Cloth Based Paper Confetti Denim Stitching For Fonts Model A Raspberry Crumple Piece Of Paper Instanced Forest Floor Scene FLIP pushes FEM Object Animated Crack Colorize Maya nParticles inside an Alembic Path Grows Inside Shape Steam Train Smoke From Chimney Using Buoyancy Field On RBDs In FLIP Fluid Fracture Along A Path COP Based Comet Trail eetu's Raidal FLIP Pump Drip Down Sides A Simple Tornado Point Cloud Dual Colored Smoke Grenades Particles Generate Pyro Fuel Stick RBDs To Transforming Object Convert Noise To Lines Cloth Weighs Down Wire (with snap back) Create Up Vector For Twisting Curve (i.e. loop-d-loop) VDB Gowth Effect Space Colonization Zombie L-System Vine Growth Over Trunk FLIP Fluid Erosion Of GEO Surface Vein Growth And Space Colonization Force Only Affects Particle Inside Masked Area Water Ball External Velocity Field Changes POP particle direction Bullet-Help Small Pieces Come To A Stop Lightning Around Object Effect Lightning Lies Upon Surface Of Object Fracture Reveals Object Inside Nike Triangle Shoe Effect Smoke Upres Example Julien's 2011 Volcano Rolling Pyroclastic FLIP Fluid Shape Morph (with overshoot) Object Moves Through Snow Or Mud Scene As Python Code Ramp Scale Over Time Tiggered By Effector Lattice Deforms Volume Continuous Geometric Trail Gas Enforce Boundary Mantra 2D And 3D Velocity Pass Monte Carlo Scatter Fill A Shape Crowd Seek Goal Then Stop A Bunch Of Worms Potential Field Lines Around Postive and Negative Charges Earthquake Wall Fracture Instance Animated Geometry (multiple techniques) Flip Fluid Attracted To Geometry Shape Wrap Geo Like Wrap3 Polywire or Curve Taper Number Of Points From Second Input (VEX) Bullet Custom Deformable Metal Constraint Torn Paper Edge Deflate Cube Rotate, Orient and Alignment Examples 3D Lines From 2D Image (designy) Make Curves In VEX Avalanche Smoke Effect Instant Meshes (Auto-Retopo) Duplicate Objects With VEX Polywire Lightning VEX Rotate Instances Along Curved Geometry Dual Wind RBD Leaf Blowing Automatic UV Cubic Projection (works on most shapes) RBD Scatter Over Deforming Person Mesh FLIP Through Outer Barrier To Inner Collider (collision weights) [REDSHIFT] Ground Cover Instancing Setup [REDSHIFT] Volumetric Image Based Spotlight [REDSHIFT] VEX/VOP Noise Attribute Planet [REDSHIFT] Blood Cell Blood Vessel Blood Stream [REDSHIFT] Light Volume By Material Emission Only [REDSHIFT] Python Script Images As Planes (works for Mantra Too!) [REDSHIFT] MTL To Redshift Material [REDSHIFT] Access CHOPs In Volume Material [REDSHIFT] Mesh Light Inherits Color [REDSHIFT] Color Smoke [REDSHIFT] FBX Import Helper [REDSHIFT] Terrain Instancer Height Field By Feature Dragon Smashes Complex Fractured House (wood, bricks, plaster) Controlling Animated Instances Road Through Height Field Based Terrain Tire Tread Creator For Wheels Make A Cloth Card/Sheet Follow A NULL Eye Veins Material Matt Explains Orientation Along A Curve Mesh Based Maelstrom Vortex Spiral Emit Multiple FEM Objects Over Time Pushing FEM With Pyro Spiral Motion For Wrangle Emit Dynamic Strands Pop Grains Slope, Peak and Flat Groups For Terrains Install Carnegie Mellon University BVH Mocap Into MocapBiped1 Ramp Based Taper Line Fast Velocity Smoke Emitter Flip Fill Cup Ice Cubes Float [PYTHON]Export Houdini Particles To Blender .bphys Cache Format Collision Deform Without Solver or Simulation Mograph Lines Around Geometry Waffle Cornetto Ice Cream Cone Ice Cream Cone Top Unroll Road Or Carpet Burning Fuse Ignites Fuel or Painted Fuel Ignition Painted Fuel Combustion Small Dent Impact Deformation Particle Impact Erosion or Denting Of A Surface Helicopter Landing Smoke And Particles Radial Fracture Pieces Explode Outwards Along Normal Tangent Based Rocket Launch Rolling Smoke Field Tear/Rip FLIP (H12 still works in H16) Rain Flows Over Surface Rains Water Drip Surface Splash Smoke Solver Tips & Tricks Folding Smoke Sim VEX Generated Curve For Curling Hair Copy and Align One Shape Or Object To The Primitives Of Another Object (cool setup) A Better Pop Follow Curve Setup FEM Sea Cucumber Moves Through Barrier Fracture Cloth Smoke Confinement Setup Merge multiple .OBJ directly Into A Python Node Blood In Water Smoke Dissipates When Near Collision Object Whirlpool Mesh Surface Whirlpool Velocity Motion For FLIP Simple Bacteria Single Point Falling Dust Stream Flames Flow Outside Windows Gas Blend Density Example Localized Pyro Drag (smoke comes to a stop) Granular Sheet Ripping Post Process An Export (Post Write ROP Event) Corridor Ice Spread or Growth Set Velocity On Pieces When Glue Bonds Break Water Drops Along Surface Condensation Bottle Grains Snow or Wet Sand Starter Scene A Nice Little Dissolver Turn An Image Into Smoke Fading Ripples Grid Example Stranger Things Wall Effect Face Through Rubber Wall [PYTHON]Create Nurbs Hull Shelf Tool [PYTHON] Ramp Parameter Select Outside Points Of Mesh, Honor Interior Holes Sparks Along Fuse With Smoke Umbrella Rig Melt FLIP UVs Tire Burn Out Smoke Sim Flip or Pyro Voxel Estimate Expression Motorcycle or Dirt Bike Kicks Up Sand Particles Push Points Out Of A Volume [PYTHON]Cellular Automata Cave Generator Punch Dent Impact Ripple Wrinkle VEX Rotate Packed Primitive Via Intrinsic Kohuei Nakama's Effect FLIP Fluid Inside Moving Container Particles Avoid Metaball Forces FLIP Divergence Setup FLIP Transfer Color Through Simulation To Surface Morph Between Two Static Shapes As Pyro Emits Constraint Based Car Suspension Pyro Smoke Gas Disturbs Velocity Wire Solver Random Size Self Colliding Cables Fast Cheap Simple Collision Deform CHOP Based Wobble For Animated Character Slow Motion FLIP Whaitewater Avoid Stepping In Fast Pyro Emission FLIP Fluid Fills Object Epic Share Of Softbody/Grain Setups (Must see!) Balloon, Pizza, Sail, Upres Shirt, Paint Brush Create Pop Grain Geometry On-The-Fly In A DOPs Solver Varying Length Trails VEX Based Geometry Transform Determine Volume Minimum and Maximum Values Grain Upres Example Animated pintoanimation For Cloth Sims Batch Render Folder Of OBJ files Vellum Weaving Cloth Fibers Knitting Kaleidoscopic Geometry UV Image Map To Points Or Hair Color Particles Like Trapcode Particular Flat Tank Boat Track With Whitewater Orthographic Angle Font Shadow Select Every Other Primitive or Face? Printer Spits Out Roll Of Paper Unroll Paper, Map, Plans, Scroll Simple Vellum L-System Plant Basic Cancer Cell 2D Vellum Solution Vellum Animated Zero Out Stiffness To Emulate Collapse Whitewater On Pre Deformed Wave Use Google To Discover Attached HIP Files Useful Websites: Tokeru Houdini Houdini Vex Houdini Python FX Thinking iHoudini Qiita Ryoji Video Tutorials: Peter Quint Rohan Dalvi Ben Watts Design Yancy Lindquist Contained Liquids Moving Fem Thing Dent By Rigid Bodies Animating Font Profiles Guillaume Fradin's Mocap Crowd Series(no longer available) Swirly Trails Over Surface http://forums.odforce.net/topic/24861-atoms-video-tutorials/ http://forums.odforce.net/topic/17105-short-and-sweet-op-centric-lessons/page-5#entry127846 Entagma SideFX Go Procedural
  10. 6 points
    More Unlimited Fun nature2 fun.hipnc
  11. 6 points
    Hi. How about computing local space per primitive instead, and then get noise position from point position in the local space? Some sort of edge based UV unwrap. // Primitive wrangle. int pts[] = primpoints(0, @primnum); // Compute averaged primitive normal from point normals computed from their neighbours. vector normals[]; foreach (int pt; pts) { vector normalized_edges[]; vector pt_pos = point(0, "P", pt); foreach (int nb; neighbours(0, pt)) { vector nb_pos = point(0, "P", nb); append(normalized_edges, normalize(pt_pos - nb_pos)); } append(normals, normalize(avg(normalized_edges))); } vector normal = normalize(avg(normals)); // Compute edge tangent. vector pt0 = point(0, "P", pts[0]); vector pt1 = point(0, "P", pts[1]); vector edge = normalize(pt0 - pt1); // Compute bitangent and orthonormalize matrix. vector perp = normalize(cross(normal, edge)); normal = normalize(cross(edge, perp)); 3@tangent_space = set(perp, normal, edge); Final deformation code: // Point wrangle. int prim; xyzdist(1, @P, prim, set(0)); matrix3 tangent_space = prim(1, "tangent_space", prim); vector pos = @P * invert(tangent_space); float deform = noise(pos * {10,1,100}) * 0.05; v@P += v@N * deform; Some image sampling could work too: tangent_space_noise.hipnc
  12. 6 points
    This operator allows you to call a collection of nodes on any data or simply no data (generators). It gives you full control over how the lambda function should be run.
  13. 6 points
    it's pretty straightforward out of the box just use v@N, v@up or p@orient on your instancing points in such a way that resulting reference frame has Y pointing in up-down direction of your ocean (so in normal direction of the ball) and X in the direction you want wind to blow in in your file, since v@N is pointing outwards and v@N defines Z axis, your ocean deforms in a tangential direction and therefore you are seeing weird deformation here is the modified file ts_ocean_on_ball.hip
  14. 5 points
    Hi all, I've made a Color Sampler asset that samples colors from an image. Colors can be sampled with points on a line, on a grid, randomly scattered points or with input points. It's also possible to sample the most frequently occurring colors. The sampled colors are stored in a color ramp which can be randomized. You can download it from https://techie.se/?p=gallery&type=houdini_assets&item_nr=6.
  15. 5 points
    Here's a music video I made using a bunch of the techniques from this thread.
  16. 5 points
    Hi, maybe this approach might work: int count = npoints(1); for (int i = 0; i < count; i++) { vector camP = point(1, "P", i); vector dir = normalize(camP - @P); float bias = 0.01; vector hit_ps[]; int hits = intersect_all(0, @P, dir * 100, hit_ps, {}, {}); if (hits && distance(@P, hit_ps[-1]) > bias) // or just check number of intersections: // if ( length(hits) >1 ) { @Cd *= 0.6; } } cull.hiplc
  17. 5 points
    This is not really on topic given the other stuff on this thread, but I made some growth awhile back, and finally got around to animating it. Attached the hip. Its not very robust, but I got what I needed out of it, so I'm calling it good. 19_03_26_animated_growth.hiplc
  18. 5 points
    Finally after two years of full stagnation I found the energy to fully revamp it using HUGO (which is freaking cool) and update with the very latest projects. Unfortunately 2 projects I have been working I am not allowed to share (yet)… one of them was 8 months of my life so I am pretty gutted but hopefully soon will be ok to say we did it. https://jordibares.com [jordibares.com] Most of it now is Houdini of course… :-)
  19. 5 points
    Hello all. I wanted to share my production library of tools I have posted on Github. Previously a lot of these were posted on Orbolt.com after my 2016 GDC talks. The tools were originally designed to be used in a HOUDINI_PATH style library as opposed to individual hdas. In this manner they can include a larger array of script based tools that don't fall in the paradigm of Orbolt. This toolset is generally complementary to the GameDev, Mops, etc toolset, there are only a few overlaps nowadays. There are two primary libraries of tools. https://github.com/LaidlawFX/LaidlawFX - This is the production library built up over the last decade of work that has been cleansed of studio specific work. This currently contains a set HDA's, a common python library, shelf tools, and example files on how to used the .hdas. Some fun tools in here are an Ivy Generator inspired by Thomas Luft Ivy generator http://graphics.uni-konstanz.de/~luft/ivy_generator/ . File Cache nodes that have been tested on over a dozen productions. RBD to FBX extractors, and an array of ROP tools. Also a module of python code that includes a few sub-modules such as verbosity logging, multiple hda queuing, fbx exporting, file explorer opening, and the large set of options for file caching. Additionally it contains shelf scripts so that you no longer need to use the Material Library, you can just tab and use the shaders like normal nodes. https://github.com/LaidlawFX/HoudiniEngineDev - This is over one hundred hda's to test Houdini Engine implementations in different DCC's and game engine. Each of them test a simple principle from UI parameters to different geometry types and more. Hope they help you at some point. Feel free to branch or leave comments here and I can update the source. Thanks, -Ben
  20. 5 points
    For anyone that is interested: here is a tutorial on the best method I found to get nice motion. I figured I would post this since I still get messaged about this thread. https://youtu.be/DLSmz9HOKlE
  21. 5 points
    Hey guys I interviewed Manuel Tausch (FX TD/co founder of Stormborn Studios) for FX World. The interview went live today. Here's the link! http://fxworld.tv/interview-with-manuel-tausch-pt-1/
  22. 5 points
    Hi, Just posting some of my recent art. Most of it is houdini. Some is a mix of Houdini, Daz and Marvelous Designer. If you see a character, that's definitely from Daz. Everything is rendered in Octane. regards Rohan
  23. 4 points
    Because the three values defines an imaginary line going from 0,0,0 to the position in space described by the 3 values. That point can be far away or i can be close to 0,0,0. This way the 3 values are able to define both a direction and a length. -b
  24. 4 points
    again, not for groups, but if you create primitive string attribute on your geo you can use stylesheets to override cryptomatte property 1. create primitive string attribute that holds your "id" value or unique name (or just convert your groups to name attrib) (in this case I created unique s@name attrib per box) 2. create property on your object (in this case I called it: masks) 3. create stylesheets override for Primitives with Override Script that uses name attribute binding to override your cryptomatte property example file: ts_cryptomatte_from_attribute.hip
  25. 4 points
    "Organics" Houdini 17.5 & Redshift Cheers, Tom
  26. 4 points
    Another version of the same system. Heres the hip. Its a bit bigger because I stashed the growth geo. 19_03_28_green_growth.hiplc
  27. 4 points
    Unwrap the mesh (right) before deformation (left): Assign zigzag UVs to the curve (right) and transfer positions from the mesh based on both UVs (left): spiral_mesh.hipnc
  28. 4 points
    Hey Howard! Sorry about that! Here is the scene, I polyreduced a bit one of the frames of the sim to have a less heavy file to share! By the way, that mesh still has a freeSurface attribute; So you can use that gradient for nice shading effects. I forgot to say that this scene uses Redshift. v2.6.32; H17.459. Cheers! Alejandro FLIP_crown_v005_share.hip
  29. 4 points
    sup bb I'm not sure how you could do this without a solver, since it's accumulating rotation over time based on the speed and direction of motion each frame. I could be all kinds of wrong, though. Here's my method... I'm using the distance traveled and a vector orthogonal to the direction of travel to build an angle/axis quaternion, and adding (qmultiplying) that quaternion to the existing orient for each timestep. It's not perfect but it seems to work pretty well. Since it's basing the rotation angle on cross(dir, up), it might freak out if the ball rolls straight down. Curious if any smart people have a better answer for that. AutoRoll01_toadstorm.hip
  30. 4 points
    Here's an idea : ) fyrework_shapes_johnkunz.v1.hipnc
  31. 4 points
    Hey all, here's a shot I've been working on! Speed Tree, Houdini and Redshift. Have a good one
  32. 4 points
  33. 4 points
    Hard to say witch one is best, both needs some fiddeling. Wire solver isnt that good to interact with other solvers, same goes with vellum. Heres a basic setup comparing them. wire_vs_vellum_01.hip Vellum is blue and wire is red
  34. 4 points
    sticky pillows....ewl.... vu_vellumstickyballs2.hiplc
  35. 4 points
    Here is a concept for turning blueprints into simple 3d meshes. Its basically carving silhouettes into a volume. After getting the aspect ratio for defining the volume´s dimensions ... res_front = hou.imageResolution(img_front) res_side = hou.imageResolution(img_side) res_top = hou.imageResolution(img_top) ratio_side = res_side[1] / float(res_side[0]) ratio_top = res_top[1] / float(res_top[0]) geo.addAttrib(hou.attribType.Global, 'ratio_s', ratio_side, create_local_variable=False) geo.addAttrib(hou.attribType.Global, 'ratio_t', ratio_top, create_local_variable=False) ... a wrangle is carving the silhouettes into the volume from all three sides: vector bbox = relbbox(0, v@P); float mask_front = vector(colormap(image_front, bbox.x, bbox.y)).x; float mask_side = vector(colormap(image_side, bbox.z, bbox.y)).x; float mask_top = vector(colormap(image_top, bbox.x, bbox.z)).x; f@density = min(mask_front, mask_side, mask_top); The rest is a matter of converting to polygons, smoothing and remeshing. blueprint_to_geo.hiplc blueprints.zip
  36. 3 points
    Try dropping down a pointvelocity node, after the create surface. It allows you to add curl noise or bring in your own velocity attribute. ap_fluid_velocity_042119.hiplc
  37. 3 points
    R&D in Mystique type effect - flipping tiles driven by procedural animation. In this case, I used curvature to drive rotation of tiles in copy stamp sop.
  38. 3 points
    Definitely go for a wacom. I've exclusively used a wacom for houdini for a many years now and it's just wonderful, and it's a lot faster getting around and laying down nodes than with a mouse ontop of being ergonomic. If I only have a mouse I can barely get anything done and it's just tedious, I don't know how you people do it. Get a wacom.
  39. 3 points
    Hey all, this is a collaborative project directed by Bobby Beck from Pixar (ex employee) and a bunch of artists from all over the world. My role was FX lead/sup so I did both shot works and lead roles on the FX side. All done in Houdini and rendered in Arnold. Thanks for watching and feel free to share it all over. https://www.youtube.com/watch?v=sl0J4XoARjk
  40. 3 points
    If you need a growth solver you want to customize feel free to use this one of mine. It's vexed based so you'll be able to modify easily, and it's extremely quick. https://github.com/LaidlawFX/LaidlawFX/blob/master/otls/LaidlawFX.sop_ivygenerator_1.0.hda
  41. 3 points
    Here is a breakdown of how I made this bear made out of duplo blocks: The video isn't super comprehensive, I mainly cover setting up the constraints in SOPs, though I briefly touch on some other parts too. But the hip file is available to pick apart! Thanks! duplo_bear.zip
  42. 3 points
    Indeed! quite a production, yes it will be a mix of mapping, leds and some lights that create shapes (not sure how to explain but they are like arrays that make a lot of long lasers wich create some sort of hologram) Here are some tests from today, first ones are super crapy but I want to give some options to the client with chops (still trying to figure out how to chop your setup ), I also tried some grains on the particles, flip modules, and optical flow (client asked me if we can drive the animations with a texture from AE, maybe they will be making stuff ritm with sound keys or something) AG_011_Drops_RD_02_Low.mp4 Sorry for the poor quality Cheers!
  43. 3 points
    please take a look at the attached file. i've slightly modified the old example and now it should work without problems. hth, petz human1.hiplc
  44. 3 points
    Yes its kinda cool. Played around with a similar setup a year ago, maybe i should try to find the files and give it another try. Easy way to kill your machine atleast
  45. 3 points
    I just created a tutorial on how to convert a sequence of slice images to a volume using VEX. slices_to_volume.hiplc
  46. 3 points
    not by default, but just open Hotkey Manager (Edit/Hotkeys..) and set your custom hotkey for Houdini/Panes/Network Editor/Reconnect Around Selected
  47. 3 points
    there is a plugin which reads FBX, and it's up to Adobe to not cripple their software but open it natively to abc/fbx instead of SideFX developing something! use a subnet either click 'move to centroid' and then reset the transform values or make yourself a preset with $CEX, $CEY, $CEZ for pivot. There's no need to cram the interface with a ton of options you can easily make yourself play with screen window size. yes, it's not the most user friendly way but it works lights have a handle to orient them towards a point. (just tried it with point and spotlight but the others have that too i think) Lasso select (F3) when rendering to mplay it shows the rendertime for each frame top right corner use output node
  48. 3 points
    During the last 3 weeks, a did some Rnd and published my results on vimeo . Some people asked me to share my files here, so here we are i hope it will help!
  49. 3 points
    I'm working on something related to art direct the swirly motion of gases; Its an implementation of a custom buoyancy model that let you art direct very easily the general swirly motion of gases without using masks, vorticles, temperature sourcing to have more swirly motion in specific zones, etc. Also it gets rid of the "Mushroom effect" for free with a basic turbulence setup. Here are some example previews. Some with normal motion, others with extreme parameters values to stress the pipeline. For the details is just a simple turbulence + a bit of disturbance in the vel field, nothing complex, because of this the sims are very fast (for constant sources: average voxel count 1.8 billions, vxl size 0.015, sim time 1h:40min (160 frames), for burst sources, vxl size 0.015, sim time 0h:28min). I'm working on a vimeo video to explain more this new buoyancy model that I'm working on. I hope you like it! Cheers, Alejandro constantSource_v004.mp4 constantSource_v002.mp4 burstSource_v004.mp4 constantSource_v001.mp4 burstSource_v002.mp4 burstSource_v003.mp4 burstSource_v001.mp4 constantSource_v003.mp4
  50. 3 points
    Basic: // Primitive wrangle. int pts[] = primpoints(0, @primnum); vector rest = point(0, "P", pts[0]); vector prev_pos = rest; matrix3 frame = ident(); for (int i = 0; i < len(pts); i++) { vector pos = point(0, "P", pts[i]); rotate(frame, 0.1, {0, 0, 1}); vector new_pos = (pos - rest) * frame + prev_pos; rest = pos; prev_pos = new_pos; setpointattrib(0, "P", pts[i], new_pos); } Advanced: // Primitive wrangle. #define TWO_PI 6.2831852 addpointattrib(0, "N", {0, 0, 0}); int pts[] = primpoints(0, @primnum); int npt = len(pts); // Loop variables. vector rest = point(0, "P", pts[0]); vector prev_pos = rest; matrix3 frame = ident(); for (int i = 0; i < npt; i++) { vector pos = point(0, "P", pts[i]); vector delta = pos - rest; rest = pos; // Make normal. Point normals could be used instead. vector normal = normalize(cross(cross({0, 1, 0}, delta), delta)); if (length(normal) == 0) { normal = {0, 0, 1}; } // Drive a shape with ramps and multipliers. vector axis; float ramp, angle; // Twist the bend axis. axis = normalize(delta); ramp = chramp("twist_profile", (float) i / npt); angle = fit01(ramp, -TWO_PI, TWO_PI) * ch("twist") / (npt - 1); rotate(frame, angle, axis); // Bend the curve. axis = normalize(cross(normal, delta)); ramp = chramp("bend_profile", (float) i / npt); angle = fit01(ramp, -TWO_PI, TWO_PI) * ch("bend") / (npt - 1); rotate(frame, angle, axis); // Compute new position and normal. vector new_pos = delta * frame + prev_pos; prev_pos = new_pos; setpointattrib(0, "P", pts[i], new_pos); setpointattrib(0, "N", pts[i], normal * frame); } curl.hipnc
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