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/* autogenerated from "macros/Threshold/GENERAL_f.sci" */
function GENERAL_f() {
GENERAL_f.prototype.define = function GENERAL_f() {
rpar = [[0],[0],[0],[0]];
in1 = 1;
out = 1;
model = scicos_model();
model.sim = list("zcross",1);
model.nzcross = in1;
model.in1 = in1;
model.evtout = ones(out,1);
model.rpar = [[0],[0],[0],[0]];
model.blocktype = "z";
model.firing = -ones(out,1);
model.dep_ut = [true,false];
exprs = [[strcat(sci2exp(in1))],[strcat(sci2exp(out))]];
gr_i = [];
this.x = standard_define([3,2],model,exprs,gr_i);
}
GENERAL_f.prototype.details = function GENERAL_f() {
return this.x;
}
GENERAL_f.prototype.get = function GENERAL_f() {
}
GENERAL_f.prototype.set = function GENERAL_f() {
this.x = arg1;
graphics = arg1.graphics;
exprs = graphics.exprs;
model = arg1.model;
rpar = model.rpar;
in1 = model.in1;
out = model.evtout;
nin = sum(in1);
nout = sum(out);
[ok,in1,out,exprs] = scicos_getvalue("Set General Zero-Crossing parameters",[["Input size"],["Number of event output"]],list("vec",1,"vec",1),exprs);
if (ok) {
[model,graphics,ok] = check_io(model,graphics,in1,[],[],ones(out,1));
if (ok) {
nout1 = out;
nin1 = in1;
if (nout==nout1&&nin==nin1) {
rp = matrix(rpar,nout,2^(2*nin));
} else {
rp = -1*ones(nout1,2^(2*nin1));
}
n = size(rp,2)/2;
result = x_mdialog("routing matrix",string(1,nout1),string(1,2^(2*nin1)),string(rp.slice().slice()));
if (result!=[]) {
rp.slice(1-1,nout1).slice(1-1,2*n) = evstr(result);
model.nzcross = in1;
model.rpar = rp.slice();
model.firing = -ones(out,1);
graphics.exprs = exprs;
this.x.graphics = graphics;
this.x.model = model;
}
}
}
}
}
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