--[[ MIT License Copyright (c) 2017 Ryan Ward 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. ]] multi.OnObjectCreated(function(obj) if obj.Type=="loop" then function obj:Act() for i=1,#self.func do self.func[i](self.Parent.clock()-self.Start,self) end end elseif obj.Type=="step" then function obj:Act() if self~=nil then if self.spos==0 then if self.pos==self.start then for fe=1,#self.funcS do self.funcS[fe](self) end end for i=1,#self.func do self.func[i](self.pos,self) end self.pos=self.pos+self.count if self.pos-self.count==self.endAt then self:Pause() for fe=1,#self.funcE do self.funcE[fe](self) end self.pos=self.start end end end self.spos=self.spos+1 if self.spos>=self.skip then self.spos=0 end end elseif obj.Type=="tstep" then function c:Act() if self.clock()-self.timer>=self.set then self:Reset() if self.pos==self.start then for fe=1,#self.funcS do self.funcS[fe](self) end end for i=1,#self.func do self.func[i](self.pos,self) end self.pos=self.pos+self.count if self.pos-self.count==self.endAt then self:Pause() for fe=1,#self.funcE do self.funcE[fe](self) end self.pos=self.start end end end end end) if thread then function multi:newThreadedLoop(name,func) local c=self:newTBase() c.Type='loopThread' c.Start=os.clock() if func then c.func={func} end function c:tofile(path) local m=bin.new() m:addBlock(self.Type) m:addBlock(self.func) m:addBlock(self.Active) m:tofile(path) end function c:Resume() self.rest=false end function c:Pause() self.rest=true end function c:OnLoop(func) table.insert(self.func,func) end c.rest=false c.updaterate=0 c.restRate=.75 multi:newThread(name,function(ref) while true do if c.rest then thread.sleep(c.restRate) else for i=1,#c.func do c.func[i](os.clock()-self.Start,c) end thread.sleep(c.updaterate) end end end) self:create(c) return c end function multi:newThreadedStep(name,start,reset,count,skip) local c=self:newTBase() local think=1 c.Type='stepThread' c.pos=start or 1 c.endAt=reset or math.huge c.skip=skip or 0 c.spos=0 c.count=count or 1*think c.funcE={} c.funcS={} c.start=start or 1 if start~=nil and reset~=nil then if start>reset then think=-1 end end function c:tofile(path) local m=bin.new() m:addBlock(self.Type) m:addBlock(self.func) m:addBlock(self.funcE) m:addBlock(self.funcS) m:addBlock({pos=self.pos,endAt=self.endAt,skip=self.skip,spos=self.spos,count=self.count,start=self.start}) m:addBlock(self.Active) m:tofile(path) end function c:Resume() self.rest=false end function c:Pause() self.rest=true end c.Reset=c.Resume function c:OnStart(func) table.insert(self.funcS,func) end function c:OnStep(func) table.insert(self.func,1,func) end function c:OnEnd(func) table.insert(self.funcE,func) end function c:Break() self.rest=true end function c:Update(start,reset,count,skip) self.start=start or self.start self.endAt=reset or self.endAt self.skip=skip or self.skip self.count=count or self.count self:Resume() end c.updaterate=0 c.restRate=.1 multi:newThread(name,function(ref) while true do if c.rest then ref:sleep(c.restRate) else if c~=nil then if c.spos==0 then if c.pos==c.start then for fe=1,#c.funcS do c.funcS[fe](c) end end for i=1,#c.func do c.func[i](c.pos,c) end c.pos=c.pos+c.count if c.pos-c.count==c.endAt then c:Pause() for fe=1,#c.funcE do c.funcE[fe](c) end c.pos=c.start end end end c.spos=c.spos+1 if c.spos>=c.skip then c.spos=0 end ref:sleep(c.updaterate) end end end) self:create(c) return c end function multi:newThreadedTStep(name,start,reset,count,set) local c=self:newTBase() local think=1 c.Type='tstepThread' c.Priority=self.Priority_Low c.start=start or 1 local reset = reset or math.huge c.endAt=reset c.pos=start or 1 c.skip=skip or 0 c.count=count or 1*think c.funcE={} c.timer=os.clock() c.set=set or 1 c.funcS={} function c:Update(start,reset,count,set) self.start=start or self.start self.pos=self.start self.endAt=reset or self.endAt self.set=set or self.set self.count=count or self.count or 1 self.timer=os.clock() self:Resume() end function c:tofile(path) local m=bin.new() m:addBlock(self.Type) m:addBlock(self.func) m:addBlock(self.funcE) m:addBlock(self.funcS) m:addBlock({pos=self.pos,endAt=self.endAt,skip=self.skip,timer=self.timer,count=self.count,start=self.start,set=self.set}) m:addBlock(self.Active) m:tofile(path) end function c:Resume() self.rest=false end function c:Pause() self.rest=true end function c:OnStart(func) table.insert(self.funcS,func) end function c:OnStep(func) table.insert(self.func,func) end function c:OnEnd(func) table.insert(self.funcE,func) end function c:Break() self.Active=nil end function c:Reset(n) if n then self.set=n end self.timer=os.clock() self:Resume() end c.updaterate=0 c.restRate=0 multi:newThread(name,function(ref) while true do if c.rest then thread.sleep(c.restRate) else if os.clock()-c.timer>=c.set then c:Reset() if c.pos==c.start then for fe=1,#c.funcS do c.funcS[fe](c) end end for i=1,#c.func do c.func[i](c.pos,c) end c.pos=c.pos+c.count if c.pos-c.count==c.endAt then c:Pause() for fe=1,#c.funcE do c.funcE[fe](c) end c.pos=c.start end end thread.skip(c.updaterate) end end end) self:create(c) return c end end