/* autogenerated from "macros/Sinks/CSCOPXY3D.sci" */
function CSCOPXY3D() {
CSCOPXY3D.prototype.define = function CSCOPXY3D() {
win=-1;
clrs=[[1],[2],[3],[4],[5],[6],[7],[13]];
siz=[[1],[1],[1],[1],[1],[1],[1],[1]];
wdim=[[600],[400]];
wpos=[[-1],[-1]];
N=2;
param3ds=[[50],[280]];
vec_x=[[-15],[15]];
vec_y=[[-15],[15]];
vec_z=[[-15],[15]];
nbr_curves=1;
model=scicos_model();
model.sim=list("cscopxy3d",4);
model.in1=[[1],[1],[1]];
model.in2=[[1],[1],[1]];
model.intyp=[[1],[1],[1]];
model.evtin=1;
model.rpar=[[vec_x.slice()],[vec_y.slice()],[vec_z.slice()],[param3ds.slice()]];
model.ipar=[[win],[8],[N],[clrs.slice()],[siz.slice()],[8],[wpos.slice()],[wdim.slice()],[nbr_curves]];
model.blocktype="d";
model.dep_ut=[false,false];
exprs=[[string(nbr_curves)],[strcat(string(clrs)," ")],[strcat(string(siz)," ")],[string(win)],[sci2exp([])],[sci2exp(wdim)],[strcat(string(vec_x)," ")],[strcat(string(vec_y)," ")],[strcat(string(vec_z)," ")],[strcat(string(param3ds)," ")],[string(N)]];
gr_i=[];
x=standard_define([2,2],model,exprs,gr_i);
}
CSCOPXY3D.prototype.details = function CSCOPXY3D() {
}
CSCOPXY3D.prototype.get = function CSCOPXY3D() {
}
CSCOPXY3D.prototype.set = function CSCOPXY3D() {
x=arg1;
graphics=arg1.graphics;
exprs=graphics.exprs;
model=arg1.model;
while (true) {
[ok,nbr_curves,clrs,siz,win,wpos,wdim,vec_x,vec_y,vec_z,param3ds,N,exprs]=scicos_getvalue("Set Scope parameters",[["Number of curves"],["color (>0) or mark (<0)"],["Line or Mark Size"],["Output window number (-1 for automatic)"],["Output window position"],["Output window sizes"],["Xmin and Xmax"],["Ymin and Ymax"],["Zmin and Zmax"],["Alpha and Theta"],["Buffer size"]],list("vec",1,"vec",-1,"vec",-1,"vec",1,"vec",-1,"vec",-1,"vec",2,"vec",2,"vec",2,"vec",2,"vec",1),exprs);
if (!ok) {
break;
}
mess=[];
if (size(wpos,"*")!=0&&size(wpos,"*")!=2) {
mess=[[mess],["Window position must be [] or a 2 vector"],[" "]];
ok=false;
}
if (size(wdim,"*")!=0&&size(wdim,"*")!=2) {
mess=[[mess],["Window dim must be [] or a 2 vector"],[" "]];
ok=false;
}
if (size(clrs,"*")!=size(siz,"*")) {
mess=[[mess],["Colors and Size must have same size"],[" "]];
ok=false;
}
if (nbr_curves<=0) {
mess=[[mess],["Number of curves cannot be negative or null"],[" "]];
ok=false;
}
if (win<-1) {
mess=[[mess],["Window number cannot be inferior than -1"],[" "]];
ok=false;
}
if (N<1) {
mess=[[mess],["Buffer size must be at least 1"],[" "]];
ok=false;
}
if (N<2) {
for (i=1;i<=size(clrs,"*");i+=1) {
if (clrs(i)>0) {
mess=[[mess],["Buffer size must be at least 2 or Change a color (must be >0)"],[" "]];
ok=false;
}
}
}
if (vec_y(1)>=vec_y(2)) {
mess=[[mess],["Ymax must be higher than Ymin"],[" "]];
ok=false;
}
if (vec_x(1)>=vec_x(2)) {
mess=[[mess],["Xmax must be higher than Xmin"],[" "]];
ok=false;
}
if (vec_z(1)>=vec_z(2)) {
mess=[[mess],["Zmax must be higher than Zmin"],[" "]];
ok=false;
}
if (ok) {
in1=nbr_curves*ones(3,1);
in2=ones(3,1);
[model,graphics,ok]=set_io(model,graphics,list([in1,in2],ones(3,1)),list(),ones(1,1),[]);
if (wpos==[]) {
wpos=[[-1],[-1]];
}
if (wdim==[]) {
wdim=[[-1],[-1]];
}
rpar=[[vec_x.slice()],[vec_y.slice()],[vec_z.slice()],[param3ds.slice()]];
size_siz=size(siz,"*");
ipar=[[win],[size_siz],[N],[clrs.slice()],[siz.slice()],[1],[wpos.slice()],[wdim.slice()],[nbr_curves]];
model.rpar=rpar;
model.ipar=ipar;
graphics.exprs=exprs;
x.graphics=graphics;
x.model=model;
break;
} else {
message(mess);
}
}
}
}