/* autogenerated from "macros/MatrixOp/SUBMAT.sci" */ function SUBMAT() { SUBMAT.prototype.define = function SUBMAT() { this.model = scicos_model(); function_name = "submat"; funtyp = 4; this.model.sim = list(function_name,funtyp); this.model.in1 = 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 = []; this.model.evtout = []; this.model.state = []; this.model.dstate = []; this.model.rpar = []; this.model.ipar = [[1],[1],[1],[1]]; this.model.blocktype = new ScilabString("c"); this.model.firing = []; this.model.dep_ut = [true,false]; label = [[sci2exp(1)],[sci2exp(1)],[sci2exp(1)],[sci2exp(1)],[sci2exp(1)]]; gr_i = []; this.x = standard_define([2.5,2],this.model,label,gr_i); return new BasicBlock(this.x); } SUBMAT.prototype.details = function SUBMAT() { return this.x; } SUBMAT.prototype.get = function SUBMAT() { var options = { typ:["Datatype (1=real double 2=Complex)",this.typ], a:["Starting Row Index",this.a], b:["Ending Row Index",this.b], c:["Starting Column Index",this.c], d:["Ending Column Index",this.d], inp:["Input Dimensions",this.inp], } return options; } SUBMAT.prototype.set = function SUBMAT() { this.typ = inverse(arguments[0]["typ"]) this.a = arguments[0]["a"] this.b = arguments[0]["b"] this.c = arguments[0]["c"] this.d = arguments[0]["d"] this.inp = arguments[0]["inp"] this.x = arg1; graphics = arg1.graphics; label = graphics.exprs; this.model = arg1.model; if (size(label,"*")==5) { label[6-1] = sci2exp([1,1]); } while (true) { [ok,this.typ,this.a,this.b,this.c,this.d,this.inp,exprs] = scicos_getvalue("Set SUBMAT Block",["Datatype (1=real double 2=Complex)","Starting Row Index","Ending Row Index","Starting Column Index","Ending Column Index","Input Dimensions"],list("vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",2),label); if (!ok) { break; } if ((this.typ==1)) { function_name = "submat"; ot = 1; it = 1; } else if ((this.typ==2)) { function_name = "submatz"; ot = 2; it = 2; } else { message("Datatype is not supported"); ok = false; } if ((this.a<=0)||(this.b<=0)||(this.c<=0)||(this.d<=0)) { message("invalid index"); ok = false; } if (this.bthis.inp[1-1]) { message("index of ending row is out of range"); ok = false; } if (this.d>this.inp[2-1]) { message("index of ending column is out of range"); ok = false; } this.model.ipar = [[this.a],[this.b],[this.c],[this.d]]; in1 = [this.inp[1-1],this.inp[2-1]]; out = [(this.b-this.a)+1,(this.d-this.c)+1]; funtyp = 4; label = exprs; if (ok) { [model,graphics,ok] = set_io(this.model,graphics,list(in1,it),list(out,ot),[],[]); this.model.sim = list(function_name,funtyp); graphics.exprs = label; arg1.graphics = graphics; arg1.model = this.model; this.x = arg1; break; } } return new BasicBlock(this.x); } }