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// Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
// Copyright (C) INRIA -
//
// This file must be used under the terms of the CeCILL.
// This source file is licensed as described in the file COPYING, which
// you should have received as part of this distribution. The terms
// are also available at
// http://www.cecill.info/licences/Licence_CeCILL_V2.1-en.txt
function Gt=gtild(G,flag)
// input:
// G(s): a polynomial matrix or a rational matrix
// represented in state-space or in transfer form
//
// Gt=gtild(G) or Gt=gtild(G,'c')
// returns Gt = G(-s)' (in transfer form or in state-space)
// for continuous time system G
//or
// Gt=gtild(G) or Gt=gtild(G,'d')
// returns Gt = z^n * G(1/z)' (n = maximum degree of G)
// for discrete-time matrix polynomials
//!
[lhs,rhs]=argn(0)
if rhs==1 then
if typeof(G)=="rational"
flag=G(4)
elseif typeof(G)=="state-space"
flag=G(7)
elseif typeof(G)=="polynomial"
flag=[]
end
end
select typeof(G)
case "polynomial"
if flag=="c"
Gt=cp_tilde(G);return;
elseif flag=="d"
Gt=dp_tilde(G);return;
elseif flag==[]
error(msprintf(gettext("%s: Wrong value for input argument #%d: Must be in the set {%s}.\n"),..
"gtild",2,"''c'', ''d''"));
end
case "rational"
v=varn([G(2),G(3)]);s=poly(0,v);
if flag=="c"
Gt=horner(G',-s);return;
elseif flag=="d"
Gt=horner(G',1/s);return;
elseif flag==[]
error(msprintf(gettext("%s: Wrong value for input argument #%d: Must be in the set {%s}.\n"),..
"gtild",2,"''c'', ''d''"));
end
case "state-space"
if flag==[] then dom=G(7);else dom=flag;end
[A,B,C,D]=abcd(G);
if dom=="c" then
if typeof(D)=="polynomial"
Dp=horner(D,-poly(0,varn(D)));
Gt=syslin(dom,-A',-C',B',Dp');return;
elseif typeof(D)=="constant"
Gt=syslin(dom,-A',-C',B',D');return
end
elseif dom=="d"
if typeof(G(5))=="polynomial"
Dp=horner(D,1/poly(0,varn(D)));
Dp=tf2ss(Dp);
[A,B,C,D]=abcd(G');
w=tlist(["des","A","B","C","D","E"],eye(A),B,C,0*C*B,A);
z=poly(0,"z");zss=-tf2ss(z);zss(7)="d";
Gt=zss*des2ss(w)+Dp';
elseif typeof(G(5))=="constant"
z=poly(0,"z");zss=-tf2ss(z);zss(7)="d";
[A,B,C,D]=abcd(G'); //lazy way for transposition...
w=tlist(["des","A","B","C","D","E"],eye(A),B,C,0*D,A);
Gt=zss*des2ss(w)+D; //-z*C*inv(I-z*A)*B + D
end
end
//
case "constant"
Gt=G';return;
end
endfunction
function mpt=dp_tilde(mp)
//mp(z) = polynomial matrix
// mpt(i,j)= z^n*conj(mp(j,i))(1/z)
[m,n]=size(mp),z=varn(mp)
//max degree
nmax=max(degree(mp));
for i=1:m
for j=1:n
mpt(j,i)=poly(coeff(conj(mp(i,j)),nmax:-1:0),z,"c")
end
end
endfunction
function mpt=cp_tilde(mp)
//mp(s) = polynomial matrix
// mpt(i,j)= conj(mp(j,i))(s)
s=poly(0,varn(mp));
pr=real(mp);pi=imag(mp);
mpt=horner(pr',-s);
if pi==0*s then return;end
mpt=mpt+%i*horner(pi',-s);
endfunction
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