/* autogenerated from "macros/Threshold/ZCROSS_f.sci" */ function ZCROSS_f() { ZCROSS_f.prototype.define = function ZCROSS_f() { rpar = [[-1],[-1],[0],[0]]; this.in1 = 1; this.model = scicos_model(); this.model.sim = list(new ScilabString(["zcross"]), new ScilabDouble([1])); this.model.in1 = new ScilabDouble([this.in1]); this.model.nzcross = new ScilabDouble([this.in1]); this.model.evtout = new ScilabDouble([1]); this.model.rpar = [[-1],[-1],[0],[0]]; this.model.blocktype = new ScilabString(["z"]); this.model.firing = new ScilabDouble([-1]); this.model.dep_ut = [true,false]; exprs = strcat(sci2exp(this.in1)); gr_i = []; this.x = standard_define([2,2],this.model,exprs,gr_i); return new BasicBlock(this.x); } ZCROSS_f.prototype.details = function ZCROSS_f() { return this.x; } ZCROSS_f.prototype.get = function ZCROSS_f() { var options = { } return options; } ZCROSS_f.prototype.set = function ZCROSS_f() { this.in1 = parseFloat(arguments[0]["in1"]) this.x = arg1; graphics = arg1.graphics; exprs = graphics.exprs; this.model = arg1.model; while (true) { [ok,this.in1,exprs] = scicos_getvalue([["Set Zero-Crossing parameters"],["All surfaces must cross together"]],"Input size",list("vec",1),exprs); if (!ok) { break; } this.in1 = int(this.in1); if (this.in1<=0) { message("Block must have at least one input"); } else { kk = 0; for (jj=1;jj<=this.in1;jj+=1) { kk = kk+2^(this.in1+jj-1); } this.model.rpar = [[-ones(kk,1)],[zeros(2^(2*this.in1)-kk,1)]]; graphics.exprs = exprs; this.model.in1 = new ScilabDouble([this.in1]); this.model.nzcross = new ScilabDouble([this.in1]); this.model.firing = new ScilabDouble([-1]); this.x.graphics = graphics; this.x.model = this.model; break; } } return new BasicBlock(this.x); } }