/* autogenerated from "macros/Misc/generic_block.sci" */ function generic_block() { generic_block.prototype.define = function generic_block() { model = scicos_model(); this.function_name = "sinblk"; this.funtyp = 1; model.sim = list(this.function_name,this.funtyp); model.in1 = 1; model.out = 1; model.evtin = []; model.evtout = []; model.state = []; model.dstate = []; model.rpar = []; model.ipar = []; model.blocktype = "c"; model.firing = []; model.dep_ut = [true,false]; label = [[this.function_name],[sci2exp(this.funtyp)],[sci2exp(model.in1)],[sci2exp(model.out)],[sci2exp(model.evtin)],[sci2exp(model.evtout)],[sci2exp(model.state)],[sci2exp(model.dstate)],[sci2exp(model.rpar)],[sci2exp(model.ipar)],[sci2exp(model.firing)],["y"],["n"]]; gr_i = []; this.x = standard_define([2,2],model,label,gr_i); return new BasicBlock(this.x); } generic_block.prototype.details = function generic_block() { return this.x; } generic_block.prototype.get = function generic_block() { } generic_block.prototype.set = function generic_block() { this.function_name = parseFloat((arguments[0]["function_name"])) this.funtyp = parseFloat((arguments[0]["funtyp"])) this.i = parseFloat((arguments[0]["i"])) this.o = parseFloat((arguments[0]["o"])) this.ci = parseFloat((arguments[0]["ci"])) this.co = parseFloat((arguments[0]["co"])) this.xx = parseFloat((arguments[0]["xx"])) this.z = parseFloat((arguments[0]["z"])) this.rpar = parseFloat((arguments[0]["rpar"])) this.ipar = parseFloat((arguments[0]["ipar"])) this.auto0 = parseFloat((arguments[0]["auto0"])) this.depu = parseFloat((arguments[0]["depu"])) this.dept = parseFloat((arguments[0]["dept"])) this.lab = parseFloat((arguments[0]["lab"])) this.x = arg1; model = arg1.model; graphics = arg1.graphics; label = graphics.exprs; if (size(label,"*")==14) { label[9-1] = []; } while (true) { [ok,this.function_name,this.funtyp,this.i,this.o,this.ci,this.co,this.xx,this.z,this.rpar,this.ipar,this.auto0,this.depu,this.dept,this.lab] = scicos_getvalue("Set GENERIC block parameters",["simulation function","function type (0,1,2,..)","input ports sizes","output port sizes","input event ports sizes","output events ports sizes","initial continuous state","initial discrete state","Real parameters vector","Integer parameters vector","initial firing vector (<0 for no firing)","direct feedthrough (y or n)","time dependence (y or n)"],list("str",1,"vec",1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec","sum(%6)","str",1,"str",1),label); if (!ok) { break; } label = this.lab; this.function_name = stripblanks(this.function_name); this.xx = this.xx.slice(); this.z = this.z.slice(); this.rpar = this.rpar.slice(); this.ipar = int(this.ipar.slice()); this.i = int(this.i.slice()); this.o = int(this.o.slice()); this.ci = int(this.ci.slice()); this.co = int(this.co.slice()); this.funtyp = int(this.funtyp); if (this.funtyp<0) { message("function type cannot be negative"); ok = false; } if ([[this.ci],[this.co]]!=[]) { if (max([[this.ci],[this.co]])>1) { message("vector event links not supported"); ok = false; } } this.depu = stripblanks(this.depu); if (part(this.depu,1)=="y") { this.depu = true; } else { this.depu = false; } this.dept = stripblanks(this.dept); if (part(this.dept,1)=="y") { this.dept = true; } else { this.dept = false; } dep_ut = [this.depu,this.dept]; if (ok) { [model,graphics,ok] = check_io(model,graphics,this.i,this.o,this.ci,this.co); } if (ok) { if (this.funtyp==3) { needcompile = 4; } model.sim = list(this.function_name,this.funtyp); model.state = this.xx; model.dstate = this.z; model.rpar = this.rpar; model.ipar = this.ipar; model.firing = this.auto0; model.dep_ut = dep_ut; arg1.model = model; graphics.exprs = label; arg1.graphics = graphics; this.x = arg1; break; } } needcompile = resume(needcompile) return new BasicBlock(this.x); } }