/* autogenerated from "macros/Linear/GAINBLK.sci" */ function GAINBLK() { GAINBLK.prototype.define = function GAINBLK() { this.gain = 1; in1 = -1; out = -1; in2 = -2; out2 = -2; model = scicos_model(); model.sim = list("gainblk",4); model.in1 = in1; model.out = out; model.in2 = in2; model.out2 = out2; model.rpar = this.gain; model.blocktype = "c"; model.dep_ut = [true,false]; exprs = [strcat(sci2exp(this.gain))]; gr_i = []; this.x = standard_define([2,2],model,exprs,gr_i); return new BasicBlock(this.x); } GAINBLK.prototype.details = function GAINBLK() { return this.x; } GAINBLK.prototype.get = function GAINBLK() { var options = { gain:["Gain",this.gain], over:["Do On Overflow(0=Nothing 1=Saturate 2=Error)",this.over], } return options; } GAINBLK.prototype.set = function GAINBLK() { this.gain = parseFloat((arguments[0]["gain"])) this.over = parseFloat((arguments[0]["over"])) this.x = arg1; graphics = arg1.graphics; exprs = graphics.exprs; model = arg1.model; if (size(exprs,"*")==1) { exprs = [[exprs],[sci2exp(0)]]; } while (true) { [ok,this.gain,this.over,exprs] = scicos_getvalue("Set gain block parameters",["Gain","Do On Overflow(0=Nothing 1=Saturate 2=Error)"],list("mat",[-1,-1],"vec",1),exprs); if (!ok) { break; } if (this.gain==[]) { message("Gain must have at least one element"); } else { if (typeof(this.gain)=="constant") { if (isreal(this.gain)) { it = 1; ot = 1; model.sim = list("gainblk",4); model.rpar = this.gain.slice(); model.opar = list(); } else { message("type is not supported"); ok = false; } } else { if ((this.over==0)) { if ((typeof(this.gain)=="int32")) { ot = 3; model.sim = list("gainblk_i32n",4); } else if ((typeof(this.gain)=="int16")) { ot = 4; model.sim = list("gainblk_i16n",4); } else if ((typeof(this.gain)=="int8")) { ot = 5; model.sim = list("gainblk_i8n",4); } else if ((typeof(this.gain)=="uint32")) { ot = 6; model.sim = list("gainblk_ui32n",4); } else if ((typeof(this.gain)=="uint16")) { ot = 7; model.sim = list("gainblk_ui16n",4); } else if ((typeof(this.gain)=="uint8")) { ot = 8; model.sim = list("gainblk_ui8n",4); } else { message("type is not supported."); ok = false; } } else if ((this.over==1)) { if ((typeof(this.gain)=="int32")) { ot = 3; model.sim = list("gainblk_i32s",4); } else if ((typeof(this.gain)=="int16")) { ot = 4; model.sim = list("gainblk_i16s",4); } else if ((typeof(this.gain)=="int8")) { ot = 5; model.sim = list("gainblk_i8s",4); } else if ((typeof(this.gain)=="uint32")) { ot = 6; model.sim = list("gainblk_ui32s",4); } else if ((typeof(this.gain)=="uint16")) { ot = 7; model.sim = list("gainblk_ui16s",4); } else if ((typeof(this.gain)=="uint8")) { ot = 8; model.sim = list("gainblk_ui8s",4); } else { message("type is not supported."); ok = false; } } else if ((this.over==2)) { if ((typeof(this.gain)=="int32")) { ot = 3; model.sim = list("gainblk_i32e",4); } else if ((typeof(this.gain)=="int16")) { ot = 4; model.sim = list("gainblk_i16e",4); } else if ((typeof(this.gain)=="int8")) { ot = 5; model.sim = list("gainblk_i8e",4); } else if ((typeof(this.gain)=="uint32")) { ot = 6; model.sim = list("gainblk_ui32e",4); } else if ((typeof(this.gain)=="uint16")) { ot = 7; model.sim = list("gainblk_ui16e",4); } else if ((typeof(this.gain)=="uint8")) { ot = 8; model.sim = list("gainblk_ui8e",4); } else { message("type is not an integer."); ok = false; } } else { message("Do on Overflow must be 0,1,2"); ok = false; } model.rpar = []; model.opar = list(this.gain.slice()); } if (ok) { [out,in1] = size(this.gain); if (out*in1!=1) { [model,graphics,ok] = set_io(model,graphics,list([in1,-1],ot),list([out,-1],ot),[],[]); } else { [model,graphics,ok] = set_io(model,graphics,list([-1,-2],ot),list([-1,-2],ot),[],[]); } } if (ok) { graphics.exprs = exprs; this.x.graphics = graphics; this.x.model = model; break; } } } return new BasicBlock(this.x); } }