/* autogenerated from "macros/NonLinear/SATURATION.sci" */ function SATURATION() { SATURATION.prototype.define = function SATURATION() { this.minp = -1; this.maxp = 1; rpar = [[this.maxp],[this.minp]]; model = scicos_model(); model.sim = list("satur",4); model.in1 = 1; model.nzcross = 2; model.nmode = 1; model.out = 1; model.rpar = rpar; model.blocktype = "c"; model.dep_ut = [true,false]; exprs = [[string(this.maxp)],[string(this.minp)],[string(model.nmode)]]; gr_i = []; this.x = standard_define([2,2],model,exprs,gr_i); return new BasicBlock(this.x); } SATURATION.prototype.details = function SATURATION() { return this.x; } SATURATION.prototype.get = function SATURATION() { var options = { maxp:["Upper limit",this.maxp], minp:["Lower limit",this.minp], zeroc:["zero crossing (0:no, 1:yes)",this.zeroc], } return options; } SATURATION.prototype.set = function SATURATION() { this.maxp = parseFloat((arguments[0]["maxp"])) this.minp = parseFloat((arguments[0]["minp"])) this.zeroc = parseFloat((arguments[0]["zeroc"])) this.x = arg1; graphics = arg1.graphics; exprs = graphics.exprs; model = arg1.model; while (true) { [ok,this.maxp,this.minp,this.zeroc,exprs] = scicos_getvalue("Set Saturation parameters",["Upper limit","Lower limit","zero crossing (0:no, 1:yes)"],list("vec",1,"vec",1,"vec",1),exprs); if (!ok) { break; } if (this.maxp<=this.minp) { message("Upper limit must be > Lower limit"); } else { rpar = [[this.maxp],[this.minp]]; model.rpar = rpar; if (this.zeroc!=0) { model.nzcross = 2; model.nmode = 1; } else { model.nzcross = 0; model.nmode = 0; } graphics.exprs = exprs; this.x.graphics = graphics; this.x.model = model; break; } } return new BasicBlock(this.x); } }