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/* autogenerated from "macros/NonLinear/DLRADAPT_f.sci" */
function DLRADAPT_f() {
DLRADAPT_f.prototype.define = function DLRADAPT_f() {
p=[[0],[1]];
rn=[];
rd=[[math.complex(0.2,0.8),math.complex(0.2,-0.8)],[math.complex(0.3,0.7),math.complex(0.3,-0.7)]];
g=[[1],[1]];
last_u=[];
last_y=[[0],[0]];
model=scicos_model();
model.sim="dlradp";
model.in1=[[1],[1]];
model.out=1;
model.evtin=1;
model.dstate=[[last_u],[last_y]];
model.rpar=[[p.slice()],[real(rn.slice())],[imag(rn.slice())],[real(rd.slice())],[imag(rd.slice())],[g.slice()]];
model.ipar=[[0],[2],[2]];
model.blocktype="d";
model.firing=[];
model.dep_ut=[true,false];
exprs=[[sci2exp(p)],[sci2exp(rn)],[sci2exp(rd,0)],[sci2exp(g)],[sci2exp(last_u)],[sci2exp(last_y)]];
gr_i=[];
x=standard_define([2,2],model,exprs,gr_i);
}
DLRADAPT_f.prototype.details = function DLRADAPT_f() {
}
DLRADAPT_f.prototype.get = function DLRADAPT_f() {
}
DLRADAPT_f.prototype.set = function DLRADAPT_f() {
x=arg1;
graphics=arg1.graphics;
exprs=graphics.exprs;
model=arg1.model;
while (true) {
[ok,p,rn,rd,g,last_u,last_y,exprs]=scicos_getvalue("Set block parameters",[["Vector of p mesh points"],["Numerator roots (one line for each mesh)"],["Denominator roots (one line for each mesh)"],["Vector of gain at mesh points"],["past inputs (Num degree values)"],["past outputs (Den degree values)"]],list("vec",-1,"mat",[-1,-1],"mat",["size(%1,\'*\')","-1"],"vec","size(%1,\'*\')","vec","size(%2,2)","vec","size(%3,2)"),exprs);
if (!ok) {
break;
}
m=size(rn,2);
[npt,n]=size(rd);
if (m>=n) {
message("Transfer must be strictly proper");
} else if (size(rn,1)!=0&&size(rn,1)!=size(p,"*")) {
message("Numerator roots matrix row size\'s is incorrect");
} else {
rpar=[[p.slice()],[real(rn.slice())],[imag(rn.slice())],[real(rd.slice())],[imag(rd.slice())],[g.slice()]];
ipar=[[m],[n],[npt]];
model.dstate=[[last_u.slice()],[last_y.slice()]];
model.rpar=rpar;
model.ipar=ipar;
graphics.exprs=exprs;
x.graphics=graphics;
x.model=model;
break;
}
}
}
}
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