/* autogenerated from "macros/NonLinear/LOOKUP2D.sci" */
function LOOKUP2D() {
    LOOKUP2D.prototype.define = function LOOKUP2D() {
model=scicos_model();
xx=[1:4];
yy=[1:3];
zz=[[4,5,6],[16,19,20],[10,18,23],[6,3,-1]];
Method=1;
Graf="n";
Nx=length(xx);
Ny=length(yy);
model.sim=list("lookup2d",4);
model.in1=[[1],[1]];
model.out=1;
model.rpar=[[xx.slice()],[yy.slice()],[zz.slice()]];
model.ipar=[[Nx],[Ny],[Method]];
model.blocktype="c";
model.dep_ut=[true,false];
exprs=list(strcat(sci2exp(xx)),strcat(sci2exp(yy)),strcat(sci2exp(zz)),sci2exp(Method),Graf);
gr_i=[];
x=standard_define([2.5,2],model,exprs,gr_i);
    }
    LOOKUP2D.prototype.details = function LOOKUP2D() {
    }
    LOOKUP2D.prototype.get = function LOOKUP2D() {
    }
    LOOKUP2D.prototype.set = function LOOKUP2D() {
x=arg1;
model=arg1.model;
graphics=arg1.graphics;
exprs=graphics.exprs;
ok=false;
SaveExit=false;
while (true) {
Ask_again=false;
[ok,xx,yy,zz,Method,graf,exprs]=scicos_getvalue("2D Lookup table parameters",[["Row index input values"],["Column index input values"],["Table data"],["Lookup method(1..5)"],["Launch graphic window(y/n)?"]],list("vec",-1,"vec",-1,"mat",[-1,-1],"vec",1,"str",1),exprs);
if (!ok) {
break;
}
mtd=int(Method);
if (mtd<1) {
mtd=1;
}
if (mtd>6) {
mtd=6;
}
if (graf!="y"&&graf!="Y") {
graf="n";
}
exprs[5-1]="n";
exprs[4-1]=sci2exp(mtd);
METHOD=getmethod(mtd);
if (!Ask_again) {
xx=xx.slice();
yy=yy.slice();
[nx,mx]=size(xx);
[ny,my]=size(yy);
[nz,mz]=size(zz);
if (((nx<=1)||(ny<=1))) {
x_message("input row/column data size should be greater than one");
Ask_again=true;
}
if (!((nx==nz)&&(ny==mz))) {
x_message("incompatible size of x and y");
Ask_again=true;
}
[ok]=test_increasing(xx);
if ((!ok)) {
x_message("Row input values must be monotonically increasing");
Ask_again=true;
}
[ok]=test_increasing(yy);
if ((!ok)) {
x_message("Column input values must be monotonically increasing");
Ask_again=true;
}
}
if (!Ask_again) {
if ((graf=="Y"||graf=="y")) {
gh=gcf();
curwin=gh.figure_id;
save_curwin=curwin;
gh2=scf();
curwin=max(winsid())+1;
plot3d(xx,yy,zz,35,45,"X@Y@Z",[5,2,4]);
curwin=save_curwin;
gh.figure_id=curwin;
}
model.rpar=[[xx.slice()],[yy.slice()],[zz.slice()]];
model.ipar=[[nx],[ny],[mtd]];
graphics.exprs=exprs;
x.model=model;
x.graphics=graphics;
break;
}
}
    }
}