Qt3D-Particle-Framework: Difference between revisions
Sean Harmer (talk | contribs) (Created page with "{{LangSwitch}} == Details == * Summary: Support particle systems in Qt 3D's renderer * Project lead: Paul Lemire * Branch: wip/particles == Goals == To be able to specify...") |
Pasikeranen (talk | contribs) (Added some requirements on the particle system we've received from customer interface.) |
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To be able to specify particle systems at a high level but remain flexible and efficient. | To be able to specify particle systems at a high level but remain flexible and efficient. | ||
Some basic requirements for the particle system is that the particle system supports animations based on the particle lifetime for the following properties with configurable random variance: | |||
* starting and ending geometry (mesh blending) | |||
* trajectory | |||
* velocity | |||
* rotation angle and speed | |||
* scaling | |||
* color & transparency | |||
* Wish: collisions? | |||
* Wish: similar turbulence and other modifiers from the Qt Quick Particles? | |||
== Details == | == Details == |
Revision as of 06:08, 11 October 2016
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Details
- Summary: Support particle systems in Qt 3D's renderer
- Project lead: Paul Lemire
- Branch: wip/particles
Goals
To be able to specify particle systems at a high level but remain flexible and efficient.
Some basic requirements for the particle system is that the particle system supports animations based on the particle lifetime for the following properties with configurable random variance:
- starting and ending geometry (mesh blending)
- trajectory
- velocity
- rotation angle and speed
- scaling
- color & transparency
- Wish: collisions?
- Wish: similar turbulence and other modifiers from the Qt Quick Particles?
Details
Initial aim is to support systems that provide compute shader capabilities as this is where the hardware is going (OpenGL ES 3.1 onwards, OpenGL 4.3 onwards, Vulkan, D3D12, Metal all have native support). Once this is working we can investigate adding some support for older systems based on transform feedback or vertex shader tricks if deemed worthwhile.
Taking inspiration from particle systems in other engines we want the ability to be able to customise: emission, forces, lifetimes, colors, orientations etc. The approach is to have the ParticleSystem component dynamically generate suitable compute shaders that are then used to step the particle simulations and feed data to the renderer for actually displaying the particles.
The rendering part is taken care of by specifying a GeometryRenderer and Material as usual. The ParticleSystem component only steps the particle simulation.
Rendering may be done by building indirect draw call command buffers in the compute shader.