function CCS() { CCS.prototype.define = function CCS() { this.ModelName = "CCS"; this.PrametersValue = new ScilabDouble(); this.ParametersName = new ScilabDouble(); var model = scicos_model(); this.Typein = []; this.Typeout = []; this.MI = []; this.MO = []; this.P = [[2,50,1,0],[70,98,2,0],[70,2,-2,0]]; this.PortName = [["Iin"],["p"],["n"]]; for (var i = 0; i < size(this.P, "r"); i++) { if (this.P[i][2] == 1) { this.Typein.push(["E"]); this.MI.push(this.PortName[i]); } if (this.P[i][2] == 2) { this.Typein.push(["I"]); this.MI.push(this.PortName[i]); } if (this.P[i][2] == -1) { this.Typeout.push(["E"]); this.MO.push(this.PortName[i]); } if (this.P[i][2] == -2) { this.Typeout.push(["I"]); this.MO.push(this.PortName[i]); } } var mo = new modelica_function(); model.sim = new ScilabString([this.ModelName]); mo.inputs = new ScilabString(...this.MI); mo.outputs = new ScilabString(...this.MO); model.rpar = this.PrametersValue; mo.parameters = list(this.ParametersName, this.PrametersValue, new ScilabDouble(...zeros(getData(this.ParametersName)))); var exprs = new ScilabDouble(); var gr_i = new ScilabString(["xstringb(orig(1),orig(2),\"CCS\",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(this.MI, "*"), 1)); model.out = new ScilabDouble(...ones(size(this.MO, "*"), 1)); this.x = new standard_define(new ScilabDouble([2.1, 3]), model, exprs, list(new ScilabString([gr_i]), new ScilabDouble([0]))); this.x.graphics.in_implicit = new ScilabDouble(this.Typein); this.x.graphics.out_implicit = new ScilabDouble(this.Typeout); return new BasicBlock(this.x); } CCS.prototype.details = function CCS() { return this.x; } }