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/* autogenerated from "macros/MatrixOp/MATRESH.sci" */
function MATRESH() {
MATRESH.prototype.define = function MATRESH() {
this.model = scicos_model();
var function_name = "mat_reshape";
var funtyp = 4;
this.model.sim = list(new ScilabString([function_name]), new ScilabDouble([funtyp]));
this.model.in = new ScilabDouble([-1]);
this.model.in2 = new ScilabDouble([-2]);
this.model.intyp = new ScilabDouble([1]);
this.model.out = new ScilabDouble([-1]);
this.model.out2 = new ScilabDouble([-2]);
this.model.outtyp = new ScilabDouble([1]);
this.model.evtin = new ScilabDouble([]);
this.model.evtout = new ScilabDouble([]);
this.model.state = new ScilabDouble([]);
this.model.dstate = new ScilabDouble([]);
this.model.rpar = new ScilabDouble([]);
this.model.ipar = new ScilabDouble([]);
this.model.blocktype = new ScilabString(["c"]);
this.model.firing = new ScilabDouble([]);
this.model.dep_ut = new ScilabBoolean([true,false]);
var label = [[sci2exp(1)],[sci2exp([1,1])],[sci2exp([1,1])]];
this.gr_i = new ScilabString(["xstringb(orig(1),orig(2),\"MATRESH\",sz(1),sz(2));"]);
this.x = new standard_define(new ScilabDouble([3,2]),this.model,new ScilabDouble(label),this.gr_i);
return new BasicBlock(this.x);
}
MATRESH.prototype.details = function MATRESH() {
return this.x;
}
MATRESH.prototype.get = function MATRESH() {
var options = {
typ:["Datatype(1=real double 2=Complex)",this.typ],
l1:["input size",this.l1],
out:["output size desired",this.out],
}
return options;
}
MATRESH.prototype.set = function MATRESH() {
this.typ = inverse(arguments[0]["typ"])
this.l1 = arguments[0]["l1"]
this.out = arguments[0]["out"]
this.lab = arguments[0]["lab"]
var label = this.graphics.exprs;
if (size(label,"*")==14) {
label[9-1] = [];
}
while (true) {
[ok,this.typ,this.l1,this.out,this.lab] = scicos_getvalue("Set MATRESH block parameters",["Datatype(1=real double 2=Complex)","input size","output size desired"],list("vec",-1,"vec",-1,"vec",-1),label);
if (!ok) {
break;
}
var nout = size(this.out);
var nin = size(this.l1);
if (nout==0) {
message("output must have at least one element");
var ok = false;
}
if (nin==0) {
message("input must have at least one element");
var ok = false;
}
if (ok) {
if (((this.out[1-1]>(this.l1[1-1]*this.l1[2-1])))) {
message("the first dimension of the output is too big");
var ok = false;
}
if (((this.out[2-1]>(this.l1[1-1]*this.l1[2-1])))) {
message("the second dimension of the output is too big");
var ok = false;
}
if ((((this.out[2-1]*this.out[1-1])>(this.l1[1-1]*this.l1[2-1])))) {
message("the dimensions of the output are too big");
var ok = false;
}
}
if ((this.typ==1)) {
var function_name = "mat_reshape";
var ot = 1;
var it = 1;
} else if ((this.typ==2)) {
var function_name = "matz_reshape";
var ot = 2;
var it = 2;
} else {
message("Datatype is not supported");
var ok = false;
}
if (ok) {
var label = this.lab;
var tmpvar0 = set_io(this.model,this.graphics,list(this.l1,it),list(this.out,ot),[],[]);
this.model = tmpvar0[0];
this.graphics = tmpvar0[1];
var ok = tmpvar0[2];
}
if (ok) {
var funtyp = 4;
this.model.sim = list(new ScilabString([function_name]), new ScilabDouble([funtyp]));
this.graphics.exprs = new ScilabDouble([label]);
break;
}
}
needcompile = resume(needcompile)
return new BasicBlock(this.x);
}
}
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