/* autogenerated from "macros/Electrical/Capacitor.sci" */
function Capacitor() {
    Capacitor.prototype.define = function Capacitor() {
        model = scicos_model();
        C = 0.01;
        v = 0;
        model.rpar = [[C],[v]];
        model.sim = "Capacitor";
        model.blocktype = "c";
        model.dep_ut = [true,false];
        mo = modelica();
        mo.model = "Capacitor";
        mo.inputs = "p";
        mo.outputs = "n";
        mo.parameters = list(["C","v"],list(C,v),[0,1]);
        model.equations = mo;
        model.in1 = ones(size(mo.inputs,"*"),1);
        model.out = ones(size(mo.outputs,"*"),1);
        exprs = string([[C],[v]]);
        gr_i = [];
        this.x = standard_define([2,1.1],model,exprs,list(gr_i,0));
        this.x.graphics.in_implicit = ["I"];
        this.x.graphics.out_implicit = ["I"];
    }
    Capacitor.prototype.details = function Capacitor() {
        return this.x;
    }
    Capacitor.prototype.get = function Capacitor() {
    }
    Capacitor.prototype.set = function Capacitor() {
        this.x = arg1;
        graphics = arg1.graphics;
        exprs = graphics.exprs;
        model = arg1.model;
        while (true) {
            [ok,C,v,exprs] = scicos_getvalue("Set Capacitor block parameter",[["C (F)"],["Initial Voltage"]],list("vec",1,"vec",1),exprs);
            if (!ok) {
                break;
            }
            model.rpar = C;
            model.equations.parameters[2-1] = list(C,v);
            graphics.exprs = exprs;
            this.x.graphics = graphics;
            this.x.model = model;
            break;
        }
    }
}