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function Gyrator () {
Gyrator.prototype.define = function Gyrator() {
this.ModelName = "Gyrator";
this.PrametersValue = [[1],[1]];
this.ParametersName = [["G1"],["G2"]];
this.model = scicos_model();
this.Typein = [];
this.Typeout = [];
this.MI = [];
this.MO = [];
this.P = [[2.5,90,2,0],[2.5,10,2,0],[97.5,90,-2,0],[97.5,10,-2,0]];
this.PortName = [["p1"],["n1"],["p2"],["n2"]];
for (var i=0; i<size(P,"r");i++) {
if (P[i][2]==1) {
this.Typein.push(["E"]);
this.MI.push([this.PortName[i]]);
}
if (P[i][2]==2) {
this.Typein.push(["I"]);
this.MI.push([this.PortName[i]]);
}
if (P[i][2]==-1) {
this.Typeout.push(["E"]);
this.MO.push([this.PortName[i]]);
}
if (P[i][2]==-2) {
this.Typeout.push(["I"]);
this.MO.push([this.PortName[i]]);
}
}
var model=scicos_model();
var mo=modelica();
model.sim=new ScilabString([this.ModelName]);
mo.inputs=new ScilabString([this.MI]);
mo.outputs=new ScilabString([this.MO]);
model.rpar=new ScilabDouble([this.PrametersValue]);
mo.parameters=list(new ScilabString([this.ParametersName]),new ScilabDouble([this.PrametersValue]),new ScilabDouble(...zeros(this.ParametersName)));
exprs=new ScilabString(["1"],["1"]);
gr_i=new ScilabString(["xstringb(orig(1),orig(2),"Gyrator",sz(1),sz(2));"]);
model.blocktype=new ScilabString(["c"]);
model.dep_ut=new ScilabBoolean([false,true]);
mo.model=new ScilabString([this.ModelName]);
model.equations=mo;
model.in=new ScilabDouble(...ones(size(MI,"*"),1));
model.out=new ScilabDouble(...ones(size(MO,"*"),1));
x=standard_define([2,2],model,exprs,list(gr_i,new ScilabDouble([0])));
x.graphics.in_implicit=new ScilabString([this.Typein]);
x.graphics.out_implicit=new ScilabString([this.Typeout]);
return new BasicBlock(this.x);
}
Gyrator.prototype.details = function Gyrator() {
return this.x;
}
}
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