Commit graph

10 commits

Author SHA1 Message Date
9ecdd01914
//erode: initial river algorithm implementation 2021-05-30 00:02:21 +01:00
17b8f8a555
erode/snowballs: correct comment 2021-05-29 23:20:34 +01:00
87b7254350
erode: add future comment 2021-05-22 02:36:56 +01:00
8877e356f0
refactor: refactor utils/strings.lua into multiple files 2021-03-20 01:48:56 +00:00
56380f149b
heightmap_size: refactor to use { x, z } instead of [0] / [1] 2021-02-26 02:20:53 +00:00
b303f8758a
//erode snowballs: make tweaks & add new noconv param 2020-08-21 22:01:24 +01:00
fd5804dd9c
//erode: Finish the initial round of bugfixing, but I'm on the fence about it.
Specifically, I'm unsure about whether I'm happy with the effects of the 
algorithm.
Also, we convolve with a 3x3 gaussian kernel after erosion is complete - 
and we have verified that the erosion is having an positive effect at 
"roughening up" a terrain surface.
It seems like the initial blog post was correct: the algorithm does tend 
to make steep surfaces steeper.
It also appears that it's more effective on larger areas, and 'gentler' 
curves. THis might be because the surface normals are more conducive to 
making the snowballs roll.
Finally, we need to decide whether we want to keep the precomputed 
normals as we have now, or whether we want to dynamically compute them 
at the some of request.
2020-08-21 20:59:50 +01:00
997eb4d101
fix all the crashes with the new erosion algorithm
......but it doesn't look like it's functioning as intended just yet
2020-08-21 15:21:10 +01:00
acb288b984
Fix a ton of bugs but there are lots more to go..... 2020-08-21 13:27:40 +01:00
20ccf321ce
Start setting things out to implement erosion
First up, we're going to attempt to implement a snowballs-based 
algorithm.
Reference: https://jobtalle.com/simulating_hydraulic_erosion.html
2020-08-18 02:11:37 +01:00