/* autogenerated from "macros/Misc/scifunc_block_m.sci" */ function scifunc_block_m() { scifunc_block_m.prototype.define = function scifunc_block_m() { in1 = 1; out = 1; clkin = []; clkout = []; x0 = []; z0 = []; typ = "c"; auto = []; this.rpar = []; it = 1; model = scicos_model(); model.sim = list("scifunc",3); model.in1 = in1; model.in2 = in1; model.intyp = it; model.out = out; model.out2 = out; model.outtyp = it; model.evtin = clkin; model.evtout = clkout; model.state = x0; model.dstate = z0; model.rpar = this.rpar; model.ipar = 0; model.opar = list(); model.blocktype = typ; model.firing = auto; model.dep_ut = [true,false]; exprs = list([[sci2exp([in1,in1])],[sci2exp([out,out])],[sci2exp(clkin)],[sci2exp(clkout)],[strcat(sci2exp(x0))],[strcat(sci2exp(z0))],[strcat(sci2exp(this.rpar))],[sci2exp(auto)],[sci2exp(0)]],list("y1=sin(u1)"," "," ","y1=sin(u1)"," "," "," ")); gr_i = []; this.x = standard_define([4,2],model,exprs,gr_i); return new BasicBlock(this.x); } scifunc_block_m.prototype.details = function scifunc_block_m() { return this.x; } scifunc_block_m.prototype.get = function scifunc_block_m() { var options = { i:["input ports sizes",this.i], o:["output port sizes",this.o], ci:["input event ports sizes",this.ci], co:["output events ports sizes",this.co], xx:["initial continuous state",this.xx], z:["initial discrete state",this.z], rpar:["System parameters vector",this.rpar], auto0:["initial firing vector (<0 for no firing)",this.auto0], deptime:["is block always active (0:no, 1:yes)",this.deptime], } return options; } scifunc_block_m.prototype.set = function scifunc_block_m() { this.i = arguments[0]["i"] this.o = arguments[0]["o"] this.ci = parseFloat(arguments[0]["ci"]) this.co = parseFloat(arguments[0]["co"]) this.xx = inverse(arguments[0]["xx"]) this.z = inverse(arguments[0]["z"]) this.rpar = inverse(arguments[0]["rpar"]) this.auto0 = arguments[0]["auto0"] this.deptime = arguments[0]["deptime"] this.lab = arguments[0]["lab"] needcompile = 0; this.x = arg1; model = arg1.model; graphics = arg1.graphics; exprs = graphics.exprs; while (true) { [ok,this.i,this.o,this.ci,this.co,this.xx,this.z,this.rpar,this.auto0,this.deptime,this.lab] = scicos_getvalue([["Set scifunc_block parameters"],["only regular blocks supported"]],["input ports sizes","output port sizes","input event ports sizes","output events ports sizes","initial continuous state","initial discrete state","System parameters vector","initial firing vector (<0 for no firing)","is block always active (0:no, 1:yes)"],list("mat",[-1,2],"mat",[-2,2],"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",1),exprs[1-1]); if (!ok) { break; } exprs[1-1] = this.lab; this.xx = this.xx.slice(); this.z = this.z.slice(); this.rpar = this.rpar.slice(); it = ones(1,size(this.i,1)); ot = ones(1,size(this.o,1)); nrp = prod(size(this.rpar)); ni = size(this.i,1); no = size(this.o,1); this.ci = int(this.ci.slice()); nci = size(this.ci,1); this.co = int(this.co.slice()); nco = size(this.co,1); [ok,tt,dep_ut] = genfunc2(exprs[2-1],this.i,this.o,nci,nco,size(this.xx,1),size(this.z,1),nrp,"c"); dep_ut[2-1] = (1==this.deptime); if (!ok) { break; } [model,graphics,ok] = set_io(model,graphics,list(this.i,it),list(this.o,ot),this.ci,this.co); if (ok) { auto = this.auto0; model.state = this.xx; model.dstate = this.z; model.rpar = this.rpar; if (model.ipar!=0) { model.opar = model.ipar; model.ipar = 0; } if (or(model.opar!=tt)) { needcompile = 4; } model.opar = tt; model.firing = auto; model.dep_ut = dep_ut; this.x.model = model; exprs[2-1] = tt; graphics.exprs = exprs; this.x.graphics = graphics; break; } } needcompile = resume(needcompile) return new BasicBlock(this.x); } }