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-- Node texture tests
local S = minetest.get_translator("testnodes")
minetest.register_node("testnodes:6sides", {
description = S("Six Textures Test Node"),
tiles = {
"testnodes_normal1.png",
"testnodes_normal2.png",
"testnodes_normal3.png",
"testnodes_normal4.png",
"testnodes_normal5.png",
"testnodes_normal6.png",
},
groups = { dig_immediate = 2 },
})
minetest.register_node("testnodes:anim", {
description = S("Animated Test Node"),
tiles = {
{ name = "testnodes_anim.png",
animation = {
type = "vertical_frames",
aspect_w = 16,
aspect_h = 16,
length = 4.0,
}, },
},
groups = { dig_immediate = 2 },
})
-- Node texture transparency test
local alphas = { 64, 128, 191 }
for a=1,#alphas do
local alpha = alphas[a]
-- Transparency taken from texture
minetest.register_node("testnodes:alpha_texture_"..alpha, {
description = S("Texture Alpha Test Node (@1)", alpha),
drawtype = "glasslike",
paramtype = "light",
tiles = {
"testnodes_alpha"..alpha..".png",
},
use_texture_alpha = "blend",
groups = { dig_immediate = 3 },
})
-- Transparency set via texture modifier
minetest.register_node("testnodes:alpha_"..alpha, {
description = S("Alpha Test Node (@1)", alpha),
drawtype = "glasslike",
paramtype = "light",
tiles = {
"testnodes_alpha.png^[opacity:" .. alpha,
},
use_texture_alpha = "blend",
groups = { dig_immediate = 3 },
})
end
-- Bumpmapping and Parallax Occlusion
-- This node has a normal map which corresponds to a pyramid with sides tilted
-- by an angle of 45°, i.e. the normal map contains four vectors which point
-- diagonally away from the surface (e.g. (0.7, 0.7, 0)),
-- and the heights in the height map linearly increase towards the centre,
-- so that the surface corresponds to a simple pyramid.
-- The node can help to determine if e.g. tangent space transformations work
-- correctly.
-- If, for example, the light comes from above, then the (tilted) pyramids
-- should look like they're lit from this light direction on all node faces.
-- The white albedo texture has small black indicators which can be used to see
-- how it is transformed ingame (and thus see if there's rotation around the
-- normal vector).
minetest.register_node("testnodes:height_pyramid", {
description = "Bumpmapping and Parallax Occlusion Tester (height pyramid)",
tiles = {"testnodes_height_pyramid.png"},
groups = {dig_immediate = 3},
})
-- The stairs nodes should help to validate if shading works correctly for
-- rotated nodes (which have rotated textures).
stairs.register_stair_and_slab("height_pyramid", "experimantal:height_pyramid",
{dig_immediate = 3},
{"testnodes_height_pyramid.png"},
"Bumpmapping and Parallax Occlusion Tester Stair (height pyramid)",
"Bumpmapping and Parallax Occlusion Tester Slab (height pyramid)")
-- This node has a simple heightmap for parallax occlusion testing and flat
-- normalmap.
-- When parallax occlusion is enabled, the yellow scrawl should stick out of
-- the texture when viewed at an angle.
minetest.register_node("testnodes:parallax_extruded", {
description = "Parallax Occlusion Tester",
tiles = {"testnodes_parallax_extruded.png"},
groups = {dig_immediate = 3},
})
-- Analogously to the height pyramid stairs nodes,
-- these nodes should help to validate if parallax occlusion works correctly for
-- rotated nodes (which have rotated textures).
stairs.register_stair_and_slab("parallax_extruded",
"experimantal:parallax_extruded",
{dig_immediate = 3},
{"testnodes_parallax_extruded.png"},
"Parallax Occlusion Tester Stair",
"Parallax Occlusion Tester Slab")
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