GENERAL_f
function [x,y,typ]=GENERAL_f(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;
graphics=arg1.graphics;exprs=graphics.exprs
model=arg1.model;rpar=model.rpar
in=model.in;out=model.evtout
nin=sum(in)
nout=sum(out)
[ok,in,out,exprs]=getvalue('Set General Zero-Crossing parameters',..
['Input size';
'Number of event output'],..
list('vec',1,'vec',1),exprs)
if ok then
[model,graphics,ok]=check_io(model,graphics,in,[],[],ones(out,1))
if ok then
nout1=out
nin1=in
if nout==nout1 & nin==nin1 then
rp=matrix(rpar,nout,2^(2*nin));
else
rp=-1*ones(nout1,2^(2*nin1))
end
n=size(rp,2)/2
result=x_mdialog('routing matrix',string(1:nout1),..
string(1:2^(2*nin1)),string(rp(:,:)))
if result<>[] then
rp(1:nout1,1:2*n)=evstr(result)
model.nzcross=in
model.rpar=rp(:)
model.firing=-ones(out,1)
graphics.exprs=exprs
x.graphics=graphics;x.model=model
end
end
end
case 'define' then
rpar=[0;0;0;0]
in=1;out=1;
model=scicos_model()
model.sim=list('zcross',1)
model.nzcross=in
model.in=in
model.evtout=ones(out,1)
model.rpar=[0;0;0;0]
model.blocktype='z'
model.firing=-ones(out,1),
model.dep_ut=[%t %f]
exprs=[strcat(sci2exp(in));strcat(sci2exp(out))]
gr_i=['xstringb(orig(1),orig(2),''GENERAL'',sz(1),sz(2),''fill'');']
x=standard_define([3 2],model,exprs, gr_i)
end
endfunction