m oops |
m thing |
||
Line 264: | Line 264: | ||
local h = bit32.band(crc, 255) /255; | local h = bit32.band(crc, 255) / 255; | ||
local s = bit32.band(bit32.rshift(crc, 8), 255) /255; | local s = bit32.band(bit32.rshift(crc, 8), 255) /255; | ||
local v = bit32.band(bit32.rshift(crc, 16), 255) /255; | local v = bit32.band(bit32.rshift(crc, 16), 255) /255; | ||
Line 406: | Line 406: | ||
local crc = max | local crc = max | ||
for i = 0, #count do | |||
local byte = string.byte(str, i) | |||
crc = CRC32[bit32.band((crc ^ byte), 255)] ^ crc | |||
count = count - 1 | |||
end | end | ||
Revision as of 03:15, 9 February 2024
This is a test for auto generated colors for nodes using CRC hashing like FrooxEngine does. Here are some examples:
Lua error at line 408: attempt to get length of local 'count' (a number value).
Lua error at line 408: attempt to get length of local 'count' (a number value).
Lua error at line 408: attempt to get length of local 'count' (a number value).
Lua error at line 408: attempt to get length of local 'count' (a number value).
-- Package definition to return to Scribunto - this allows us to define methods that can be called
-- when this module is targeted.
local p = {}
bit32 = require( 'bit32' )
-- Type colors - RGB values to be included in the HTML output when a color is needed. This will be replaced with CSS at some point.
local typeColor =
{
User = '255, 128, 255',
Impulse = '179, 255, 255',
bool = '115, 115, 115',
AsyncImpulse = '204, 179, 255',
String = '245, 31, 31',
Dummy = '255, 0, 255',
colorX = '255, 89, 0',
float3 = '0, 255, 255',
float2 = '0, 255, 255',
ulong = '0, 255, 127',
int = '0, 255, 0',
Continuation = '255, 255, 178',
Slot = '191, 255, 127',
Uri = '123, 49, 186',
int2 = '0, 255, 0',
floatQ = '0, 127, 255'
}
local pack2 = {
"int2",
"float2",
"uint2",
"double2",
"long2",
"ulong2",
"bool2"
}
local pack3 = {
"int3",
"float3",
"uint3",
"double3",
"long3",
"ulong3",
"bool3"
}
local pack4 = {
"int4",
"float4",
"uint4",
"double4",
"long4",
"ulong4",
"bool4"
}
--- Method that generates the HTML output
-- @param frame A Scribunto frame instance. frame.args contains the parameters passed into the module call
function p.GenerateUI( frame )
-- Parse the JSON input, returning an empty array if no argument was passed
local inputs = mw.text.jsonDecode(frame.args.Inputs or '[]')
local outputs = mw.text.jsonDecode(frame.args.Outputs or '[]')
local globals = mw.text.jsonDecode(frame.args.Globals or '[]')
-- Create an HTML div element to contain our node UI
local protofluxContainer = mw.html.create( 'div' )
protofluxContainer
:attr('class', frame.args.Inline and '' or 'floatright')
:cssText('color: rgb(224, 224, 224); background-color: rgb(18, 20, 28); width: 256px; display: flex; flex-direction: column; align-items: stretch;')
:tag('div') -- HTML div to contain the node title
:cssText('padding: 10px 0px 10px 0px; text-align:center; font-weight: bold; background-color: rgb(26, 41, 54); font-size: 18pt; flex-grow: 1;')
:wikitext(frame.args.Name)
:done() -- Close node title div
local processedInputs = {}
local processedOutputs = {}
for i=1,#inputs do
for j=1,(inputs and inputs[i].Multi or 1) do
inputs[i].MultiIndex = j
table.insert(processedInputs, { Name=inputs[i].Name, Type=inputs[i].Type, Multi=inputs[i].Multi, MultiIndex=j })
end
end
for i=1,#outputs do
for j=1,(outputs and outputs[i].Multi or 1) do
table.insert(processedOutputs, { Name=outputs[i].Name, Type=outputs[i].Type, Multi=outputs[i].Multi, MultiIndex=j })
end
end
-- Calculate the larger number of rows required (either for inputs or outputs, if the node is asymmetric)
local maxRows = math.max(#processedInputs, #processedOutputs)
-- Iterate over each row, and populate it with the inputs/outputs. If the node is asymmetric,
-- the value passed for either input or output might be nil.
for i=1,maxRows do
CreateConnectorRow(protofluxContainer, processedInputs[i], processedOutputs[i])
end
-- Iterate over each global value in the node, and create a row. These elements take up the entire width
-- of the node, and so don't need to be balanced in any way.
for i=1,#globals do
CreateGlobalsRow(protofluxContainer, globals[i])
end
protofluxContainer
:tag('div') -- HTML div to contain the node category footer
:cssText('text-align: center; padding: 10px; font-size: 18pt; color: rgb(64,64,64); font-weight: bold;')
:wikitext(frame.args.Category)
:done() -- Close category footer div
-- Return the HTML generated above to the wiki page this script is invoked from.
return tostring(protofluxContainer) .. '[[Category:ProtoFlux:All]]'
end
--- Creates a new ProtoFlux connector row in the output
-- @param Container The Scribunto HTML node we'll be creating this row inside of. Should be a container of some sort.
-- @param Input Table containing a Name and Type for the input on this row. Can be nil if no input is to be placed on this row.
-- @param Output Table containing a Name and Type for the output on this row. Can be nil if no output is to be placed on this row.
function CreateConnectorRow(Container, Input, Output)
local connectorRow = Container
:tag('div') -- HTML div to contain the connector row. We specify a min-height of 70px for consistency.
:cssText('display: flex; min-height: 70px;')
-- Create the input (left) attachement point
CreateConnectorAttachmentPoint(connectorRow, Input, true)
local c = connectorRow
:tag('div') -- HTML div to contain the input and output labels in the connector row
:cssText( 'flex-grow: 2; overflow: hidden; display: flex; flex-direction: column; justify-content: space-between;')
if Input and Input.Multi and Input.MultiIndex == 1 then
c
:tag('div') -- HTML div to contain the input label
:attr('title', Input and (Input.Name .. ' <' .. Input.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: left; overflow: hidden; text-overflow: ellipsis; padding-left: 4px; border-right: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color: transparent;')
:wikitext(Input and Input.Name or '' )
:done() -- Close input label div
elseif Input and Input.Multi and Input.MultiIndex > 1 then
local c2 = c
:tag('div') -- HTML div to contain the input label
:attr('title', Input and (Input.Name .. ' <' .. Input.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: left; padding-left: 4px; border-right: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color: transparent;')
if Input.Multi == Input.MultiIndex then
c2
:tag('div')
:cssText('position:relative; top:2rem; display:flex; gap: 4px;')
:tag('div')
:cssText('font-size: 1.75rem; width: 1em; height: 1em; background-color:grey; border-radius: 2em; display:flex; align-items:center; justify-content:center;')
:wikitext('+')
:done()
:tag('div')
:cssText('font-size: 1.75rem; width: 1em; height: 1em; background-color:grey; border-radius: 2em; display:flex; align-items:center; justify-content:center;')
:wikitext('-')
:done()
end
else
c
:tag('div') -- HTML div to contain the input label
:attr('title', Input and (Input.Name .. ' <' .. Input.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: left; overflow: hidden; text-overflow: ellipsis; padding-left: 4px; border-right: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color:' .. GetTypeColor(Input, 0.6) .. ';')
:wikitext(Input and Input.Name or '' )
:done() -- Close input label div
end
if Output and Output.Multi and Output.MultiIndex == 1 then
c
:tag('div') -- HTML div to contain the output label
:attr('title', Output and (Output.Name .. ' <' .. Output.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: right; overflow: hidden; text-overflow: ellipsis; padding-right: 4px; border-left: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color: transparent;')
:wikitext(Output and Output.Name or '')
:done() -- Close output label div
elseif Output and Output.Multi and Output.MultiIndex > 1 then
local c2 = c
:tag('div') -- HTML div to contain the output label
:attr('title', Output and (Output.Name .. ' <' .. Output.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: right; padding-right: 4px; border-left: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color: transparent;;')
if Output.Multi == Output.MultiIndex then
c2
:tag('div')
:cssText('display:flex; justify-content:flex-end; gap: 4px;')
:tag('div')
:cssText('font-size: 1.75rem; width: 1em; height: 1em; background-color:grey; border-radius: 2em; display:flex; align-items:center; justify-content:center;')
:wikitext('+')
:done()
:tag('div')
:cssText('font-size: 1.75rem; width: 1em; height: 1em; background-color:grey; border-radius: 2em; display:flex; align-items:center; justify-content:center;')
:wikitext('-')
:done()
end
else
c
:tag('div') -- HTML div to contain the output label
:attr('title', Output and (Output.Name .. ' <' .. Output.Type .. '>') or '') -- Add a basic mouseover description
:cssText('text-align: right; overflow: hidden; text-overflow: ellipsis; padding-right: 4px; border-left: 20px solid #11151d; border-bottom: 4px solid #11151d; border-top: 4px solid #11151d; background-color: ' .. GetTypeColor(Output, 0.6) .. ';')
:wikitext(Output and Output.Name or '')
:done() -- Close output label div
end
-- Create the output (right) attachment point
CreateConnectorAttachmentPoint(connectorRow, Output, false);
end
--- Creates a new ProtoFlux global input field row in the output
-- @param Container The Scribunto HTML node we'll be creating this row inside of. Should be a container of some sort.
-- @param Global Table containing a Name and Type for the global field on this row.
function CreateGlobalsRow(Container, Global)
Container
:tag( 'div' )
:attr('title', Global.Name .. ' <' .. Global.Type .. '>') -- Add a basic mouseover description
:cssText('display: flex; min-height: 70px; flex-direction: column; border-left: 10px solid ' .. GetTypeColor(Global, 1.0) .. ';')
:tag( 'div' )
:cssText('display: flex; flex-direction: row; align-items: center; flex-grow:1; overflow: hidden;')
:tag( 'span' )
:cssText('text-align: center; overflow: hidden; text-overflow: ellipsis; font-size: 14pt; font-weight: bold; flex-grow:1;')
:wikitext(Global.Name)
:done()
:done()
:tag( 'div' )
:attr('style', 'display:flex; gap: 10px; flex-grow: 1;')
:tag('div')
:cssText('border-radius: 16px; background-color: #777; font-style: italic; text-align:center; flex-grow: 3; display: flex; flex-direction: column; justify-content: center;')
:tag( 'span' )
:wikitext('null')
:done()
:done()
:tag( 'div')
:cssText('border-radius: 16px; background-color: #333; text-align:center; flex-grow: 1; display: flex; flex-direction: column; justify-content: center;')
:tag ( 'span' )
:wikitext('∅')
end
--- Creates a new input or output attachement point for a connector row.
-- @param Container The Scribunto HTML node we'll be creating this row inside of. Should be a container of some sort.
-- @param Connector Table containing a Name (Optional) and Type (Required) for the input/output attachment point.
-- @param isInput True if this is an input side attachment point, false if it is an output side attachment point.
function CreateConnectorAttachmentPoint(Container, Connector, isInput)
if Connector and (Connector.Type == "Impulse" or Connector.Type == "AsyncImpulse" or Connector.Type == "Continuation") then
Container
:tag( 'div' )
:attr('title', Connector and (Connector.Name .. ' <' .. Connector.Type .. '>') or '') -- Add a basic mouseover description
:cssText('width:30px; background-color: black; fill: ' .. GetTypeColor(Connector, 0.3) .. '; stroke: ' .. GetTypeColor(Connector, 1.0))
:wikitext(mw.getCurrentFrame():expandTemplate({title = 'ProtoFluxConnector', args = {Type="InputArrow"}}))
elseif Connector then
Container
:tag( 'div' )
:attr('title', Connector and (Connector.Name .. ' <' .. Connector.Type .. '>') or '') -- Add a basic mouseover description
:cssText('width:30px; fill: ' .. GetTypeColor(Connector, 0.3) .. '; stroke: ' .. GetTypeColor(Connector, 1.0))
:wikitext(mw.getCurrentFrame():expandTemplate({title = 'ProtoFluxConnector', args = {Type=(isInput and "InputBox" or "OutputBox")}}))
end
end
--- Returns an RGBA value representing the type color within Resonite
-- @param Connector Table containing a Name (Optional) and Type (Required) for the input/output attachment point.
-- @param Alpha The alpha to use in the RGBA value.
function GetTypeColor(Connector, Alpha)
return (Connector and 'rgba(' .. (typeColor[Connector.Type] or hashToColor(Hash(Connector.Type))) .. ',' .. Alpha .. ')' or 'rgba(0, 0, 0, 0)')
end
--- Returns an RGBA value representing the type color within Resonite using CRC hash
--- this code was made using decompiled dlls of Resonite as reference.
-- @param Connector Table containing a Name (Optional) and Type (Required) for the input/output attachment point.
-- @param Alpha The alpha to use in the RGBA value.
function hashToColor(crc)
local h = bit32.band(crc, 255) / 255;
local s = bit32.band(bit32.rshift(crc, 8), 255) /255;
local v = bit32.band(bit32.rshift(crc, 16), 255) /255;
s = lerpunclamped(0.25,0.75,s);
v = lerpunclamped(0.25,1,v);
local r,g,b = hsvToRgb(h, s, v, 1);
return ((r) .. "," .. (g) .. "," .. (b));
end
function lerpunclamped(a, b, lerp)
return a + (b - a) * lerp;
end
-- https://github.com/EmmanuelOga/columns/blob/master/utils/color.lua
function hsvToRgb(h, s, v, a)
local r, g, b
local i = math.floor(h * 6);
local f = h * 6 - i;
local p = v * (1 - s);
local q = v * (1 - f * s);
local t = v * (1 - (1 - f) * s);
i = i % 6
if i == 0 then r, g, b = v, t, p
elseif i == 1 then r, g, b = q, v, p
elseif i == 2 then r, g, b = p, v, t
elseif i == 3 then r, g, b = p, q, v
elseif i == 4 then r, g, b = t, p, v
elseif i == 5 then r, g, b = v, p, q
end
return r * 255, g * 255, b * 255
end
--Copyright (c) 2007-2008 Neil Richardson (nrich@iinet.net.au)
--
--Permission is hereby granted, free of charge, to any person obtaining a copy
--of this software and associated documentation files (the "Software"), to deal
--in the Software without restriction, including without limitation the rights
--to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
--copies of the Software, and to permit persons to whom the Software is
--furnished to do so, subject to the following conditions:
--
--The above copyright notice and this permission notice shall be included in all
--copies or substantial portions of the Software.
--
--THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
--IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
--FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
--AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
--LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
--OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
--IN THE SOFTWARE.
local max = 2^32 -1
local CRC32 = {
0,79764919,159529838,222504665,319059676,
398814059,445009330,507990021,638119352,
583659535,797628118,726387553,890018660,
835552979,1015980042,944750013,1276238704,
1221641927,1167319070,1095957929,1595256236,
1540665371,1452775106,1381403509,1780037320,
1859660671,1671105958,1733955601,2031960084,
2111593891,1889500026,1952343757,2552477408,
2632100695,2443283854,2506133561,2334638140,
2414271883,2191915858,2254759653,3190512472,
3135915759,3081330742,3009969537,2905550212,
2850959411,2762807018,2691435357,3560074640,
3505614887,3719321342,3648080713,3342211916,
3287746299,3467911202,3396681109,4063920168,
4143685023,4223187782,4286162673,3779000052,
3858754371,3904687514,3967668269,881225847,
809987520,1023691545,969234094,662832811,
591600412,771767749,717299826,311336399,
374308984,453813921,533576470,25881363,
88864420,134795389,214552010,2023205639,
2086057648,1897238633,1976864222,1804852699,
1867694188,1645340341,1724971778,1587496639,
1516133128,1461550545,1406951526,1302016099,
1230646740,1142491917,1087903418,2896545431,
2825181984,2770861561,2716262478,3215044683,
3143675388,3055782693,3001194130,2326604591,
2389456536,2200899649,2280525302,2578013683,
2640855108,2418763421,2498394922,3769900519,
3832873040,3912640137,3992402750,4088425275,
4151408268,4197601365,4277358050,3334271071,
3263032808,3476998961,3422541446,3585640067,
3514407732,3694837229,3640369242,1762451694,
1842216281,1619975040,1682949687,2047383090,
2127137669,1938468188,2001449195,1325665622,
1271206113,1183200824,1111960463,1543535498,
1489069629,1434599652,1363369299,622672798,
568075817,748617968,677256519,907627842,
853037301,1067152940,995781531,51762726,
131386257,177728840,240578815,269590778,
349224269,429104020,491947555,4046411278,
4126034873,4172115296,4234965207,3794477266,
3874110821,3953728444,4016571915,3609705398,
3555108353,3735388376,3664026991,3290680682,
3236090077,3449943556,3378572211,3174993278,
3120533705,3032266256,2961025959,2923101090,
2868635157,2813903052,2742672763,2604032198,
2683796849,2461293480,2524268063,2284983834,
2364738477,2175806836,2238787779,1569362073,
1498123566,1409854455,1355396672,1317987909,
1246755826,1192025387,1137557660,2072149281,
2135122070,1912620623,1992383480,1753615357,
1816598090,1627664531,1707420964,295390185,
358241886,404320391,483945776,43990325,
106832002,186451547,266083308,932423249,
861060070,1041341759,986742920,613929101,
542559546,756411363,701822548,3316196985,
3244833742,3425377559,3370778784,3601682597,
3530312978,3744426955,3689838204,3819031489,
3881883254,3928223919,4007849240,4037393693,
4100235434,4180117107,4259748804,2310601993,
2373574846,2151335527,2231098320,2596047829,
2659030626,2470359227,2550115596,2947551409,
2876312838,2788305887,2733848168,3165939309,
3094707162,3040238851,2985771188,
}
function Hash(str)
local count = string.len(tostring(str))
local crc = max
for i = 0, #count do
local byte = string.byte(str, i)
crc = CRC32[bit32.band((crc ^ byte), 255)] ^ crc
count = count - 1
end
return crc
end
return p