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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% PostScript prologue for pst-ode.tex.
% Version 0.14, 2019/03/25
%
% Alexander Grahn (C) 2012--today
%
% This program can be redistributed and/or modified under the terms
% of the LaTeX Project Public License Distributed from CTAN archives:
% http://mirrors.ctan.org/macros/latex/base/lppl.txt
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
/tx@odeDict 1 dict def
tx@odeDict begin
/ode@@dict 1 dict def
/ode@dict {ode@@dict begin} bind def
ode@dict
%some constants for step size calculation
/sfty 0.9 def /pgrow -0.2 def /pshrink -0.25 def
%helper functions
/addvect { % [1 2 3] [4 5 6] addvect => [5 7 9]
ode@dict
aload pop xlength1 -1 roll {xlength1 -1 roll add} forall
xlength array astore
end
} bind def
/subvect { % [1 2 3] [4 5 6] subvect => [-3 -3 -3]
ode@dict
aload pop xlength1 -1 roll {xlength1 -1 roll sub} forall
xlength array astore
end
} bind def
/mulvect { % [1 2 3] 4 mulvect => [4 8 12]
ode@dict /mul cvx 2 array astore cvx forall xlength array astore end
} bind def
/edivvect { % [1 2 3] [4 5 6] edivvect => [0.25 0.4 0.5]
ode@dict
aload pop xlength1 -1 roll {xlength1 -1 roll div} forall
xlength array astore
end
} bind def
/eabsvect { % [-1 2 -3] eabsvect => [1 2 3]
ode@dict {abs} forall xlength array astore end
} bind def
%/revstack { % (a) (b) (c) (d) 3 revstack => (a) (d) (c) (b)
% -1 2 {dup 1 sub neg roll} for
%} bind def
/min { 2 copy gt { exch } if pop } bind def
/max { 2 copy lt { exch } if pop } bind def
%coefficient table (Butcher table) of RKF45
/a41 25 216 div def /a43 1408 2565 div def
/a44 2197 4104 div def /a45 1 5 div neg def
/a51 16 135 div def /a53 6656 12825 div def
/a54 28561 56430 div def /a55 9 50 div neg def
/a56 2 55 div def
/b21 1 4 div def /b31 3 32 div def /b32 9 32 div def
/b41 1932 2197 div def /b42 7200 2197 div neg def /b43 7296 2197 div def
/b51 439 216 div def /b52 8 neg def /b53 3680 513 div def
/b54 845 4104 div neg def /b61 8 27 div neg def /b62 2 def
/b63 3544 2565 div neg def /b64 1859 4104 div def /b65 11 40 div neg def
end
%Runge-Kutta-Fehlberg (RKF45) method
%performs one integration step over tentative step size ddt
%[state vector x(t)] RKF45 => [x(t)] [x(t+ddt) by RKF4] errmax
/RKF45 {
dup
ode@dict tcur end /t exch def
ODESET
ode@dict
ddt mulvect /k1 exch def
dup k1 b21 mulvect addvect
tcur ddt 4 div add
end
/t exch def
ODESET
ode@dict
ddt mulvect /k2 exch def
dup k1 b31 mulvect addvect k2 b32 mulvect addvect
tcur ddt 3 mul 8 div add
end
/t exch def
ODESET
ode@dict
ddt mulvect /k3 exch def
dup k1 b41 mulvect addvect k2 b42 mulvect addvect k3 b43 mulvect addvect
tcur ddt 12 mul 13 div add
end
/t exch def
ODESET
ode@dict
ddt mulvect /k4 exch def
dup k1 b51 mulvect addvect k2 b52 mulvect addvect k3 b53 mulvect addvect
k4 b54 mulvect addvect
tcur ddt add
end
/t exch def
ODESET
ode@dict
ddt mulvect /k5 exch def
dup k1 b61 mulvect addvect k2 b62 mulvect addvect k3 b63 mulvect addvect
k4 b64 mulvect addvect k5 b65 mulvect addvect
tcur ddt 2 div add
end
/t exch def
ODESET
ode@dict
ddt mulvect /k6 exch def % => [x(t)]
%fourth order solution (increment dx)
dup dup k1 a41 mulvect k3 a43 mulvect addvect k4 a44 mulvect addvect
k5 a45 mulvect addvect dup
% => [x(t)] [x(t)] [x(t)] [dx by RKF4] [dx by RKF4]
%fifth order solution (abs. error)
k1 a51 mulvect k3 a53 mulvect addvect k4 a54 mulvect addvect
k5 a55 mulvect addvect k6 a56 mulvect addvect subvect
% => [x(t)] [x(t)] [x(t)] [dx by RKF4] [err]
5 1 roll addvect 4 -2 roll % => [x(t)] [x(t+ddt) by RKF4] [err] [x(t)]
%scaling vector for step size adjustment (Numerical Recipies)
eabsvect k1 eabsvect addvect {1e-30 add} forall xlength array astore
% => [x(t)] [x(t+ddt) by RKF4] [err] [xscale]
edivvect eabsvect 1e-30 exch {max} forall %maximum rel. error
% => [x(t)] [x(t+ddt) by RKF4] errmax
end
} bind def
/ODEINT { % performs integration over output step [t,t+dt]
% [ state vector x(t) ] ODEINT => [ state vector x(t+dt) ]
%decrease overshooting step size
ode@dict
tout tcur sub dup abs ddt abs lt {/ddt exch def}{pop} ifelse
end
RKF45
ode@tol div dup 1 gt {
%failed step -> reduce step size
ode@dict
exch pop pshrink exp 0.1 max sfty mul ddt mul /ddt exch def
ode@dict tcur ddt add tcur end eq {
% error: step size underflow in ODEINT
(! t=) odeprint tcur odeprint
% print & remove previous state vector
(, x=[) odeprint /ode@spc () def
{ode@spc odeprint /ode@spc ( ) def odeprint} forall (]) odeprint
true
}{
(-) odeprint
false
} ifelse
end
% on step size underflow, leave loop over output steps (pst-ode.tex)
{exit} if
ODEINT %repeat step with new ddt
}{
%success
3 -1 roll pop % remove previous state vector
ode@dict
/tcur tcur ddt add def
dup 0 ne {pgrow exp 5 min sfty mul ddt mul /ddt exch def}{pop} ifelse
%output step completed?
tcur tout sub
end
0 eq {
(o) odeprint
ode@dict
/tcur tout def
/outStepCnt outStepCnt 1 add def
/tout tStart dt outStepCnt mul add def
end
}{
(+) odeprint ODEINT %continue integration
} ifelse
}ifelse
} bind def
/writeresult { %write output vector to file
/loopproc load forall
statefile (\n) writestring
} bind def
/loopproc {
0 cvs statefile exch writestring
statefile ( ) writestring
} bind def
/loopproc load 0 256 string put
/assembleresult { %assembles state vector for building table of results
{
dup (t) eq {
pop ode@dict tcur end
}{
ode@laststate exch get
} ifelse
} forall
} bind def
end
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