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/* autogenerated from "macros/Hydraulics/Bache.sci" */
function Bache() {
Bache.prototype.define = function Bache() {
var in1 = 2;
var out = 3;
this.model = scicos_model();
this.model.in1 = new ScilabDouble([-transpose([1:in1])]);
this.model.out = new ScilabDouble([-transpose([1:out])]);
this.Patm = 1.013e5;
this.A = 1;
this.ze1 = 40;
this.ze2 = 0;
this.zs1 = 40;
this.zs2 = 0;
this.z0 = 30;
this.T0 = 290;
this.p_rho = 0;
this.model.rpar = new ScilabDouble([this.Patm],[this.A],[this.ze1],[this.ze2],[this.zs1],[this.zs2],[this.z0],[this.T0],[this.p_rho]);
this.model.sim = new ScilabString(["Bache"]);
this.model.blocktype = new ScilabString(["c"]);
this.model.dep_ut = new ScilabDouble([true,false]);
var mo = modelica();
mo.model = "Bache";
mo.inputs = ["Ce1","Ce2"];
mo.outputs = ["Cs1","Cs2","yNiveau"];
mo.parameters = list([["Patm"],["A"],["ze1"],["ze2"],["zs1"],["zs2"],["z0"],["T0"],["p_rho"]],[[this.Patm],[this.A],[this.ze1],[this.ze2],[this.zs1],[this.zs2],[this.z0],[this.T0],[this.p_rho]]);
this.model.equations = new ScilabDouble([mo]);
this.model.in1 = new ScilabDouble([ones(size(mo.inputs,"*"),1)]);
this.model.out = new ScilabDouble([ones(size(mo.outputs,"*"),1)]);
var exprs = [[string(this.Patm)],[string(this.A)],[string(this.ze1)],[string(this.ze2)],[string(this.zs1)],[string(this.zs2)],[string(this.z0)],[string(this.T0)],[string(this.p_rho)]];
var gr_i = [];
this.x = standard_define([2,2],this.model,exprs,list(gr_i,0));
this.x.graphics.in_implicit = [["I"],["I"]];
this.x.graphics.out_implicit = [["I"],["I"],["E"]];
return new BasicBlock(this.x);
}
Bache.prototype.details = function Bache() {
return this.x;
}
Bache.prototype.get = function Bache() {
var options = {
Patm:["Pression dans le ciel de la bache : Patm (Pa)",this.Patm],
A:["Section de la bache : A (m2)",this.A],
ze1:["Altitude du piquage d entrée 1: ze1 (m)",this.ze1],
ze2:["Altitude du piquage d entrée 2: ze2 (m)",this.ze2],
zs1:["Altitude du piquage de sortie 1: zs1 (m)",this.zs1],
zs2:["Altitude du piquage de sortie 2: zs2 (m)",this.zs2],
z0:["Altitude initiale du fluide : z0 (m)",this.z0],
T0:["Température initiale du fluide : T0 (K)",this.T0],
p_rho:["Si >0, masse volumique imposée du fluide : p_rho (kg/m3)",this.p_rho],
}
return options;
}
Bache.prototype.set = function Bache() {
this.Patm = parseFloat(arguments[0]["Patm"])
this.A = parseFloat(arguments[0]["A"])
this.ze1 = parseFloat(arguments[0]["ze1"])
this.ze2 = parseFloat(arguments[0]["ze2"])
this.zs1 = parseFloat(arguments[0]["zs1"])
this.zs2 = parseFloat(arguments[0]["zs2"])
this.z0 = parseFloat(arguments[0]["z0"])
this.T0 = parseFloat(arguments[0]["T0"])
this.p_rho = parseFloat(arguments[0]["p_rho"])
this.x = arg1;
this.graphics = arg1.graphics;
var exprs = this.graphics.exprs;
this.model = arg1.model;
while (true) {
[ok,this.Patm,this.A,this.ze1,this.ze2,this.zs1,this.zs2,this.z0,this.T0,this.p_rho,exprs] = scicos_getvalue("Parametres de la bache",["Pression dans le ciel de la bache : Patm (Pa)","Section de la bache : A (m2)","Altitude du piquage d entrée 1: ze1 (m)","Altitude du piquage d entrée 2: ze2 (m)","Altitude du piquage de sortie 1: zs1 (m)","Altitude du piquage de sortie 2: zs2 (m)","Altitude initiale du fluide : z0 (m)","Température initiale du fluide : T0 (K)","Si >0, masse volumique imposée du fluide : p_rho (kg/m3)"],list("vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1),exprs);
if (!ok) {
break;
}
this.model.rpar = new ScilabDouble([this.Patm],[this.A],[this.ze1],[this.ze2],[this.zs1],[this.zs2],[this.z0],[this.T0],[this.p_rho]);
this.model.equations.parameters[2-1] = list(new ScilabDouble([this.Patm]), new ScilabDouble([this.A]), new ScilabDouble([this.ze1]), new ScilabDouble([this.ze2]), new ScilabDouble([this.zs1]), new ScilabDouble([this.zs2]), new ScilabDouble([this.z0]), new ScilabDouble([this.T0]), new ScilabDouble([this.p_rho]));
this.graphics.exprs = new ScilabDouble([exprs]);
this.x.graphics = this.graphics;
this.x.model = this.model;
break;
}
return new BasicBlock(this.x);
}
}
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