Merge branch 'main' into vortechnix

This commit is contained in:
VorTechnix 2021-05-21 09:21:17 -07:00
commit 912ecf09c2
5 changed files with 31 additions and 16 deletions

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@ -14,7 +14,9 @@ Note to self: See the bottom of this file for the release template text.
- Add new universal chance parsing - Add new universal chance parsing
- Any `<chance>` can now either be a 1-in-N number (e.g. `4`, `10`), or a percentage chance (e.g. `50%`, `10%`). - Any `<chance>` can now either be a 1-in-N number (e.g. `4`, `10`), or a percentage chance (e.g. `50%`, `10%`).
- Caveat: Percentages are converted to a 1-in-N chance, but additionally that number is rounded down in some places - Caveat: Percentages are converted to a 1-in-N chance, but additionally that number is rounded down in some places
- `//torus`, `//hollowtorus`: Add optional new axes and hollow (for `//torus`) argument - `//torus`, `//hollowtorus`: Add optional new axes
- `//torus`: Add optional hollow keyword
- `//layers`: Fix crash duee to outdated debug code
## v1.11: The big data update (25th January 2021) ## v1.11: The big data update (25th January 2021)

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@ -127,13 +127,14 @@ Creates a hollow ellipsoid at position 1 with the radius `(rx, ry, rz)`. Works t
## `//torus <major_radius> <minor_radius> <node_name> [<axes=xy> [h[ollow]]]` ## `//torus <major_radius> <minor_radius> <node_name> [<axes=xy> [h[ollow]]]`
Creates a solid torus at position 1 with the specified major and minor radii. The major radius is the distance from the centre of the torus to the centre of the circle bit, and the minor radius is the radius of the circle bit. Creates a solid torus at position 1 with the specified major and minor radii. The major radius is the distance from the centre of the torus to the centre of the circle bit, and the minor radius is the radius of the circle bit.
The optional axes sets the axes upon which the torus will lay flat. Possible values: `xy` (the default), `xz`, `yz`. The optional axes sets the axes upon which the torus will lay flat. Possible values: `xy` (the default), `xz`, `yz`. A single axis may also be specified (i.e. `x`, `y`, or `z`) - this will be interpreted as the axis that runs through the hole in the middle of the torus.
``` ```
//torus 15 5 stone //torus 15 5 stone
//torus 5 3 meselamp x //torus 5 3 meselamp
//torus 10 6 sandstone xz hollow //torus 10 6 sandstone xz
//torus 10 6 wool:red y h //torus 10 6 wool:red y
//torus 25 10 dirt xz hollow
``` ```
## `//hollowtorus <major_radius> <minor_radius> <node_name> [<axes=xy>]` ## `//hollowtorus <major_radius> <minor_radius> <node_name> [<axes=xy>]`

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@ -1,5 +1,5 @@
--- Overlap command. Places a specified node on top of --- Generates torus shapes.
-- @module worldeditadditions.overlay -- @module worldeditadditions.torus
--- Generates a torus shape at the given position with the given parameters. --- Generates a torus shape at the given position with the given parameters.
-- @param position Vector The position at which to generate the torus. -- @param position Vector The position at which to generate the torus.
@ -57,8 +57,8 @@ function worldeditadditions.torus(position, major_radius, minor_radius, target_n
-- (x^2+y^2+z^2-(a^2+b^2))^2-4 a b (b^2-z^2) -- (x^2+y^2+z^2-(a^2+b^2))^2-4 a b (b^2-z^2)
-- Where: -- Where:
-- (x, y, z) is the point -- (x, y, z) is the point
-- a is the major radius (centre to centre of circle) -- a is the major radius (centre of the ring to the centre of the torus)
-- b is the minor radius (radius of circle) -- b is the minor radius (radius of the ring)
local comp_a = (sq.x+sq.y+sq.z - (major_radius_sq+minor_radius_sq)) local comp_a = (sq.x+sq.y+sq.z - (major_radius_sq+minor_radius_sq))
local test_value = comp_a*comp_a - 4*major_radius*minor_radius*(minor_radius_sq-sq.z) local test_value = comp_a*comp_a - 4*major_radius*minor_radius*(minor_radius_sq-sq.z)

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@ -59,7 +59,5 @@ function worldeditadditions.parse.weighted_nodes(parts, as_list, func_normalise)
else result[last_node_name] = 1 end else result[last_node_name] = 1 end
end end
print(worldeditadditions.format.map(result, " "))
return true, result return true, result
end end

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@ -39,8 +39,10 @@ local function parse_params_torus(params_text)
return false, "Error: 2 or less axes must be specified. For example, xy is valid, but xzy is not." return false, "Error: 2 or less axes must be specified. For example, xy is valid, but xzy is not."
end end
local hollow = parts[5] local hollow = false
if hollow == "false" then hollow = false end if parts[5] == "hollow" or parts[5] == "h" then
hollow = true
end
-- Sort the axis names (this is important to ensure we can identify the direction properly) -- Sort the axis names (this is important to ensure we can identify the direction properly)
if axes == "yx" then axes = "xy" end if axes == "yx" then axes = "xy" end
@ -64,7 +66,13 @@ worldedit.register_command("torus", {
end, end,
func = function(name, target_node, major_radius, minor_radius, axes, hollow) func = function(name, target_node, major_radius, minor_radius, axes, hollow)
local start_time = worldeditadditions.get_ms_time() local start_time = worldeditadditions.get_ms_time()
local replaced = worldeditadditions.torus(worldedit.pos1[name], major_radius, minor_radius, target_node, axes, hollow) local replaced = worldeditadditions.torus(
worldedit.pos1[name],
major_radius, minor_radius,
target_node,
axes,
hollow
)
local time_taken = worldeditadditions.get_ms_time() - start_time local time_taken = worldeditadditions.get_ms_time() - start_time
minetest.log("action", name .. " used //torus at " .. worldeditadditions.vector.tostring(worldedit.pos1[name]) .. ", replacing " .. replaced .. " nodes in " .. time_taken .. "s") minetest.log("action", name .. " used //torus at " .. worldeditadditions.vector.tostring(worldedit.pos1[name]) .. ", replacing " .. replaced .. " nodes in " .. time_taken .. "s")
@ -85,9 +93,15 @@ worldedit.register_command("hollowtorus", {
nodes_needed = function(name, target_node, major_radius, minor_radius) nodes_needed = function(name, target_node, major_radius, minor_radius)
return math.ceil(2 * math.pi*math.pi * major_radius * minor_radius*minor_radius) return math.ceil(2 * math.pi*math.pi * major_radius * minor_radius*minor_radius)
end, end,
func = function(name, target_node, major_radius, minor_radius) func = function(name, target_node, major_radius, minor_radius, axes)
local start_time = worldeditadditions.get_ms_time() local start_time = worldeditadditions.get_ms_time()
local replaced = worldeditadditions.torus(worldedit.pos1[name], major_radius, minor_radius, target_node, axes, true) local replaced = worldeditadditions.torus(
worldedit.pos1[name],
major_radius, minor_radius,
target_node,
axes,
true -- hollow
)
local time_taken = worldeditadditions.get_ms_time() - start_time local time_taken = worldeditadditions.get_ms_time() - start_time
minetest.log("action", name .. " used //hollowtorus at " .. worldeditadditions.vector.tostring(worldedit.pos1[name]) .. ", replacing " .. replaced .. " nodes in " .. time_taken .. "s") minetest.log("action", name .. " used //hollowtorus at " .. worldeditadditions.vector.tostring(worldedit.pos1[name]) .. ", replacing " .. replaced .. " nodes in " .. time_taken .. "s")