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/* autogenerated from "macros/Misc/RELATIONALOP.sci" */
function RELATIONALOP() {
RELATIONALOP.prototype.define = function RELATIONALOP() {
ipar = [2];
label = "<";
this.model = scicos_model();
this.model.sim = list(new ScilabString(["relationalop"]), new ScilabDouble([4]));
this.model.in1 = [[1],[1]];
this.model.out = new ScilabDouble([1]);
this.model.ipar = ipar;
this.model.blocktype = new ScilabString(["c"]);
this.model.dep_ut = [true,false];
exprs = [[string(ipar)],[string(0)]];
gr_i = [];
this.x = standard_define([2,2],this.model,exprs,gr_i);
this.x.graphics.style = ["fontSize=13;fontStyle=1;displayedLabel="+label];
return new BasicBlock(this.x);
}
RELATIONALOP.prototype.details = function RELATIONALOP() {
return this.x;
}
RELATIONALOP.prototype.get = function RELATIONALOP() {
var options = {
rule:["Operator: == (0), ~= (1), < (2), <= (3), > (4), >= (5)",this.rule],
zcr:["Use zero crossing (no: 0), (yes: 1)",this.zcr],
Datatype:["Datatype (1=double 3=int32 ...)",this.Datatype],
}
return options;
}
RELATIONALOP.prototype.set = function RELATIONALOP() {
this.rule = parseFloat(arguments[0]["rule"])
this.zcr = parseFloat(arguments[0]["zcr"])
this.Datatype = arguments[0]["Datatype"]
this.x = arg1;
graphics = arg1.graphics;
exprs = graphics.exprs;
this.model = arg1.model;
if (size(exprs,1)==2) {
exprs = [[exprs],[sci2exp(1)]];
}
while (true) {
[ok,this.rule,this.zcr,this.Datatype,exprs] = scicos_getvalue("Set parameters",["Operator: == (0), ~= (1), < (2), <= (3), > (4), >= (5)","Use zero crossing (no: 0), (yes: 1)","Datatype (1=double 3=int32 ...)"],list("vec",1,"vec",1,"vec",1),exprs);
if (!ok) {
break;
}
this.rule = int(this.rule);
if (this.zcr!=0) {
this.zcr = 1;
}
if ((this.rule<0)||(this.rule>5)) {
message("Incorrect operator "+string(this.rule)+" ; must be 0 to 5.");
ok = false;
}
if ((this.Datatype==1)) {
this.model.sim = list(new ScilabString(["relational_op"]), new ScilabDouble([4]));
} else if ((this.Datatype==3||this.Datatype==9)) {
this.model.sim = list(new ScilabString(["relational_op_i32"]), new ScilabDouble([4]));
} else if ((this.Datatype==4)) {
this.model.sim = list(new ScilabString(["relational_op_i16"]), new ScilabDouble([4]));
} else if ((this.Datatype==5)) {
this.model.sim = list(new ScilabString(["relational_op_i8"]), new ScilabDouble([4]));
} else if ((this.Datatype==6)) {
this.model.sim = list(new ScilabString(["relational_op_ui32"]), new ScilabDouble([4]));
} else if ((this.Datatype==7)) {
this.model.sim = list(new ScilabString(["relational_op_ui16"]), new ScilabDouble([4]));
} else if ((this.Datatype==8)) {
this.model.sim = list(new ScilabString(["relational_op_ui8"]), new ScilabDouble([4]));
} else {
message("Datatype is not supported");
ok = false;
}
if (ok) {
it = this.Datatype*ones(1,2);
ot = this.Datatype;
in1 = [[-1,-2],[-1,-2]];
out = [-1,-2];
[model,graphics,ok] = set_io(this.model,graphics,list(in1,it),list(out,ot),[],[]);
}
if (ok) {
if (this.rule==0) {
label = "==";
} else if (this.rule==1) {
label = "~=";
} else if (this.rule==2) {
label = "<";
} else if (this.rule==3) {
label = "≤";
} else if (this.rule==4) {
label = ">";
} else if (this.rule==5) {
label = "≥";
}
graphics.exprs = exprs;
graphics.style = ["fontSize=13;fontStyle=1;displayedLabel="+label];
this.model.ipar = [this.rule];
this.model.nzcross = new ScilabDouble([this.zcr]);
this.model.nmode = new ScilabDouble([this.zcr]);
this.x.graphics = graphics;
this.x.model = this.model;
break;
}
}
return new BasicBlock(this.x);
}
}
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