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/* autogenerated from "macros/Linear/INTEGRAL_f.sci" */
function INTEGRAL_f() {
INTEGRAL_f.prototype.define = function INTEGRAL_f() {
this.x0 = 0;
this.model = scicos_model();
this.model.sim = new ScilabString(["integr"]);
this.model.in = new ScilabDouble([1]);
this.model.out = new ScilabDouble([1]);
this.model.state = new ScilabDouble([this.x0]);
this.model.blocktype = new ScilabString(["c"]);
this.model.dep_ut = new ScilabBoolean([false,true]);
this.exprs = strcat(sci2exp(this.x0));
this.gr_i = new ScilabString(["xstringb(orig(1),orig(2),\"INTEGRAL_f\",sz(1),sz(2));"]);
this.x = new standard_define(new ScilabDouble([2,2]),this.model,new ScilabDouble([this.exprs]),this.gr_i);
return new BasicBlock(this.x);
}
INTEGRAL_f.prototype.details = function INTEGRAL_f() {
return this.x;
}
INTEGRAL_f.prototype.get = function INTEGRAL_f() {
var options = {
}
return options;
}
INTEGRAL_f.prototype.set = function INTEGRAL_f() {
this.x0 = parseFloat(arguments[0]["x0"])
this.exprs = arguments[0]["exprs"]
this.exprs = this.graphics.exprs;
while (true) {
[ok,this.x0,this.exprs] = scicos_getvalue("Set continuous linear system parameters","Initial state",list("vec",1),this.exprs);
if (!ok) {
break;
}
this.graphics.exprs = new ScilabDouble([this.exprs]);
this.model.state = new ScilabDouble([this.x0]);
this.x.graphics = this.graphics;
this.x.model = this.model;
break;
}
this.x.model.firing = [];
return new BasicBlock(this.x);
}
}
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