Add "ru" entry for the hashtable *index-file-name*
[maxima.git] / share / calculus / pade2.mac
blob79e62fd9d7b896317ead4f0e7da8f05661d3b5d7
2 /*
3 This subroutine computes pade approximants of multivariable functions
4 Copyright (C) 1999  Dan Stanger
6 This library is free software; you can redistribute it and/or modify it
7 under the terms of the GNU Library General Public License as published
8 by the Free Software Foundation; either version 2 of the License, or (at
9 your option) any later version.
11 This library is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
14 Library General Public License for more details.
16 You should have received a copy of the GNU Library General Public
17 License along with this library; if not, write to the Free Software
18 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA
20 Dan Stanger dan.stanger@internut.com
23 /* this macro was defined as length did not work correctly on arrays.
24    put it in your startup file as autoload
25 newArray1(a,i)::=buildq([a,i],(array(a,i),put(a,arrayinfo(a),"arrayinfo")));
26 alength(x):=block([l:get(x,"arrayinfo")],if listp(l) then first(third(l)) else
27    error(x," was not declared with newArray1"))$
30 pade2(f,IndVarList, pointlist, norderlist,dorderlist):=
31 block([atlist,TransIndVarList,transindvar,NumIndVar,norder,
32         dorder,torder,makeIndexList,makeIndexListAux],
33    NumIndVar:length(IndVarList),
34    newArray1(transindvar,NumIndVar),
35    newArray1(norder,length(norderlist)),
36    newArray1(dorder,length(dorderlist)),
37    newArray1(torder,max(length(norderlist),length(dorderlist))),
38    atlist:maplist(lambda([l,r],l=r),IndVarList,pointlist),
39    fillarray(norder,norderlist),
40    fillarray(dorder,dorderlist),
41    fillarray(torder,norderlist+dorderlist),
42    TransIndVarList:maplist(lambda([l,r],l-r),IndVarList,pointlist),
43    fillarray(transindvar,TransIndVarList),
45    makeIndexListAux:lambda([x,c],
46       block([l:[]],for i:0 thru c do
47          block([y:copylist(x)],push(i,y),push(y,l)),l)),
48    makeIndexList:lambda([order],
49       block([l],l:makeIndexListAux([],order[0]),
50          for j:1 thru (alength(order)-1) do
51             block([l1:[]],
52                for i in l do
53                   block(l1:append(l1,makeIndexListAux(i,order[j])),l:l1)),
54                   sort(l))),
55    block([nindexlist:makeIndexList(norder),
56           dindexlist:rest(makeIndexList(dorder)),
57           tindexlist:makeIndexList(torder),
58           dcoeff, ncoeff, rcoeff, lcoeff, p],
59       newArray1(dcoeff,length(dindexlist)),
60       newArray1(ncoeff,length(nindexlist)),
61       newArray1(rcoeff,length(tindexlist)),
62       newArray1(lcoeff,length(tindexlist)),
63       p:block([den:1,num:0,i:1],
64          for d in dindexlist do
65             block(den:den+dcoeff[i]*
66                 apply("*",maplist("^",TransIndVarList,d)),i:i+1),
67          i:0,
68          for n in nindexlist do
69             block(num:num+ncoeff[i]*
70                 apply("*",maplist("^",TransIndVarList,n)),i:i+1),
71         num/den),
72       block([i:0,lf:[f],lp:[p]],
73          for r in tindexlist do
74             block([l:[]],
75                 maplist(lambda([x,y],l:append([x,y],l)),IndVarList,r),
76                 rcoeff[i]:at(apply('diff,append(lf,l)),atlist),
77                 lcoeff[i]:at(apply('diff,append(lp,l)),atlist),
78                 i:i+1)),
79       block([l:[],v:[],s],
80          for i:0 thru alength(rcoeff)-1 do
81                 l:append([lcoeff[i]=rcoeff[i]],l),
82          for i:0 thru alength(ncoeff)-1 do
83                 v:append(v,[ncoeff[i]]),
84          for i:1 thru alength(dcoeff) do
85                 v:append(v,[dcoeff[i]]),
86          s:solve(l,v),
87          at(p,first(s))))
89   
90 /* here is a example and the result
91 pade2(exp(x+y),[x,y],[0,0],[1,1],[1,1])
93 ((((x * y)/4) + (y/2) + (x/2) + 1)/(((x * y)/4) - (y/2) - (x/2) + 1))