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/* autogenerated from "macros/Misc/generic_block3.sci" */
function generic_block3() {
generic_block3.prototype.define = function generic_block3() {
model = scicos_model();
function_name = "sinblk";
funtyp = 4;
model.sim = list(function_name,funtyp);
model.in1 = 1;
model.in2 = 1;
model.intyp = 1;
model.out = 1;
model.out2 = 1;
model.outtyp = 1;
model.dep_ut = [true,false];
label = [[function_name],[sci2exp(funtyp)],[sci2exp([model.in1,model.in2])],[sci2exp(model.intyp)],[sci2exp([model.out,model.out2]),sci2exp(model.outtyp)],[sci2exp(model.evtin)],[sci2exp(model.evtout)],[sci2exp(model.state)],[sci2exp(model.dstate)],[sci2exp(model.odstate)],[sci2exp(model.rpar)],[sci2exp(model.ipar)],[sci2exp(model.opar)],[sci2exp(model.nmode)],[sci2exp(model.nzcross)],[sci2exp(model.firing)],["y"],["n"]];
gr_i = [];
x = standard_define([4,2],model,label,gr_i);
}
generic_block3.prototype.details = function generic_block3() {
}
generic_block3.prototype.get = function generic_block3() {
}
generic_block3.prototype.set = function generic_block3() {
x = arg1;
model = arg1.model;
graphics = arg1.graphics;
label = graphics.exprs;
if (size(label,"*")==14) {
label[9-1] = [];
}
while (true) {
[ok,function_name,funtyp,in1,it,out,ot,ci,co,xx,z,oz,rpar,ipar,opar,nmode,nzcr,auto0,depu,dept,lab] = scicos_getvalue("Set GENERIC block parameters",[["Simulation function"],["Function type (0,1,2,..)"],["Input ports sizes"],["Input ports type"],["Output port sizes"],["Output ports type"],["Input event ports sizes"],["Output events ports sizes"],["Initial continuous state"],["Initial discrete state"],["Initial object state"],["Real parameters vector"],["Integer parameters vector"],["Object parameters list"],["Number of modes"],["Number of zero crossings"],["Initial firing vector (<0 for no firing)"],["Direct feedthrough (y or n)"],["Time dependence (y or n)"]],list("str",1,"vec",1,"mat",[-1,2],"vec",-1,"mat",[-1,2],"vec",-1,"vec",-1,"vec",-1,"vec",-1,"vec",-1,"lis",-1,"vec",-1,"vec",-1,"lis",-1,"vec",1,"vec",1,"vec","sum(%8)","str",1,"str",1),label);
if (!ok) {
break;
}
label = lab;
function_name = stripblanks(function_name);
xx = xx.slice();
z = z.slice();
rpar = rpar.slice();
ipar = int(ipar.slice());
ci = int(ci.slice());
co = int(co.slice());
funtyp = funtyp;
if (funtyp<0) {
message("function type cannot be negative");
ok = false;
}
if ([[ci],[co]]!=[]) {
if (max([[ci],[co]])>1) {
message("vector event links not supported");
ok = false;
}
}
if (this.type[opar-1]!=15) {
message("object parameter must be a list");
ok = false;
}
if (this.type[oz-1]!=15) {
message("discrete object state must be a list");
ok = false;
}
depu = stripblanks(depu);
if (part(depu,1)=="y") {
depu = true;
} else {
depu = false;
}
dept = stripblanks(dept);
if (part(dept,1)=="y") {
dept = true;
} else {
dept = false;
}
dep_ut = [depu,dept];
if (ok) {
[model,graphics,ok] = set_io(model,graphics,list(in1,it),list(out,ot),ci,co);
}
if (ok) {
if (funtyp==3) {
needcompile = 4;
}
model.sim = list(function_name,funtyp);
model.state = xx;
model.dstate = z;
model.odstate = oz;
model.rpar = rpar;
model.ipar = ipar;
model.opar = opar;
model.firing = auto0;
model.nzcross = nzcr;
model.nmode = nmode;
model.dep_ut = dep_ut;
arg1.model = model;
graphics.exprs = label;
arg1.graphics = graphics;
x = arg1;
break;
}
}
needcompile=resume(needcompile)
}
}
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