function [x,y,typ]=generic_block2(job,arg1,arg2) // // Copyright INRIA x=[];y=[];typ=[]; select job case 'plot' then standard_draw(arg1) case 'getinputs' then [x,y,typ]=standard_inputs(arg1) case 'getoutputs' then [x,y,typ]=standard_outputs(arg1) case 'getorigin' then [x,y]=standard_origin(arg1) case 'set' then x=arg1 model=arg1.model;graphics=arg1.graphics;label=graphics.exprs if size(label,'*')==14 then label(9)=[],end //compatiblity while %t do [ok,junction_name,funtyp,i,o,ci,co,xx,z,rpar,ipar,nmode,nzcr,auto0,depu,dept,lab]=.. getvalue('Set GENERIC block parameters',.. ['simulation function'; 'function type (0,1,2,..)'; 'input ports sizes'; 'output port sizes'; 'input event ports sizes'; 'output events ports sizes'; 'initial continuous state'; 'initial discrete state'; 'Real parameters vector'; 'Integer parameters vector'; 'number of modes'; 'number of zero_crossings'; 'initial firing vector (<0 for no firing)'; 'direct feedthrough (y or n)'; 'time dependence (y or n)'],.. list('str',1,'vec',1,'vec',-1,'vec',-1,'vec',-1,'vec',-1,.. 'vec',-1,'vec',-1,'vec',-1,'vec',-1,'vec',1,'vec',1,'vec','sum(%6)',.. 'str',1,'str',1),label) if ~ok then break,end label=lab junction_name=stripblanks(junction_name) xx=xx(:);z=z(:);rpar=rpar(:);ipar=int(ipar(:)); i=int(i(:)); o=int(o(:)); ci=int(ci(:)); co=int(co(:)); funtyp=int(funtyp) if funtyp<0 then message('function type cannot be negative');ok=%f;end if [ci;co]<>[] then if maxi([ci;co])>1 then message('vector event links not supported');ok=%f;end end depu=stripblanks(depu);if part(depu,1)=='y' then depu=%t; else depu=%f;end dept=stripblanks(dept);if part(dept,1)=='y' then dept=%t; else dept=%f;end dep_ut=[depu dept]; if ok then [model,graphics,ok]=check_io(model,graphics,i,o,ci,co) end if ok then // AVERIFIER if funtyp==3 then needcompile=4;end model.sim=list(junction_name,funtyp); model.state=xx model.dstate=z model.rpar=rpar model.ipar=ipar // needcompile=4 AVERIFIER CANEMARCHEQUAVECFORTRAN model.firing=auto0 model.nzcross=nzcr model.nmode=nmode model.dep_ut=dep_ut arg1.model=model graphics.exprs=label arg1.graphics=graphics x=arg1 break end end needcompile=resume(needcompile) case 'define' then model=scicos_model() junction_name='sinblk'; funtyp=1; model.sim=list(junction_name,funtyp) model.in=1 model.out=1 model.evtin=[] model.evtout=[] model.state=[] model.dstate=[] model.rpar=[] model.ipar=[] model.blocktype='c' model.firing=[] model.dep_ut=[%t %f] label=[junction_name;sci2exp(funtyp); sci2exp(model.in);sci2exp(model.out); sci2exp(model.evtin);sci2exp(model.evtout); sci2exp(model.state);sci2exp(model.dstate); sci2exp(model.rpar);sci2exp(model.ipar); sci2exp(model.nmode);sci2exp(model.nzcross); sci2exp(model.firing);'y';'n']; gr_i=['xstringb(orig(1),orig(2),''GENERIC'',sz(1),sz(2),''fill'');'] x=standard_define([2 2],model,label,gr_i) end endfunction