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|
%% $Id: pst-fit.tex 673 2012-04-01 09:50:48Z herbert $
%%
%% This is file `pst-fit.tex',
%%
%% IMPORTANT NOTICE:
%%
%% Package `pst-fit.tex'
%%
%% Buddy Ledger <buddyledger@gmail.com>
%% Herbert Voss <hvoss@tug.org>
%%
%% This program can be redistributed and/or modified under the terms
%% of the LaTeX Project Public License Distributed from CTAN archives
%% in directory macros/latex/base/lppl.txt.
%%
%% DESCRIPTION:
%% `pst-fit' is a PSTricks package for curve fitting
%%
\csname PSTfitLoaded\endcsname
\let\PSTfitLoaded\endinput
% Requires PSTricks, pst-plot
\ifx\PSTricksLoaded\endinput\else \input pstricks.tex\fi
\ifx\PSTricksAddLoaded\endinput\else\input pstricks-add.tex\fi
\ifx\PSTXKeyLoaded\endinput\else \input pst-xkey \fi
%
\def\fileversion{0.02}
\def\filedate{2017/08/24}
\message{`PST-fit' v\fileversion, \filedate\space (BL,HV)}
%
\edef\PstAtCode{\the\catcode`\@} \catcode`\@=11\relax
%
\pst@addfams{pst-fit}
%
\define@key[psset]{pst-fit}{symbolFont}{\def\psk@symbolFont{/#1 }}%
\psset[pst-fit]{symbolFont=StandardSymL}
%
\def\beginplot@ErrorLine{\begin@OpenObj}
\def\endplot@ErrorLine{\psErrorLine@ii}
\def\psErrorLine@ii{%
\addto@pscode{
\pst@cp % current point
\psline@iii % arc and lineto type
\tx@ErrorLine
}%
\end@OpenObj%
}
%
\def\tx@ErrorLine{ErrorLine }
\pst@def{ErrorLine}<{
/copypt { dup 3 2 roll dup 4 1 roll exch } def %copy point
NArray n 0 eq not
{ n { \psk@relyerr\space 0 eq not
{copypt copypt dup \psk@relyerr\space mul add ArrowA
dup \psk@relyerr\space mul sub
Lineto
copypt dup \psk@relyerr\space mul sub ArrowB L} if
\psk@relxerr\space 0 eq not
{copypt copypt exch dup \psk@relxerr\space mul add exch ArrowA
exch dup \psk@relxerr\space mul sub exch
Lineto
copypt exch dup \psk@relxerr\space mul sub exch ArrowB L pop pop }
{ pop pop } ifelse } repeat
} if
}>
\define@boolkey[psset]{pst-fit}[Pst@]{ScyBase}[true]{}%
\define@boolkey[psset]{pst-fit}[Pst@]{ScxBase}[true]{}%
\psset{ScyBase=true,ScxBase=true}
\def\pstScalePoints(#1,#2)#3#4{%
% xScale | yScale | xOperator | yOperator
% the operators can be any Postscript code
\pst@def{ScalePoints}<%
/y ED /x ED
/yOper { #4\space y mul #2\space mul } def
/xOper { #3\space x mul #1\space mul } def
counttomark dup dup cvi eq not { exch pop } if
/m exch def /n m 2 div cvi def
n {
#4\space y mul #2\space mul m 1 roll
#3\space x mul #1\space mul m 1 roll
/m m 2 sub
def } repeat>%
}
\def\psLineToXAxis@ii{%
\addto@pscode{\pst@cp \psline@iii \tx@LineToXAxis}%
\end@OpenObj}
\def\tx@LineToXAxis{LineToXAxis }
\pst@def{LineToXAxis}<{%
NArray
n 0 eq not
{ %n 1 eq { 0 0 /n 2 def } if
%ArrowA
%/n n 2 sub def
%2 copy pop 0 \ifPst@ScyBase yOper \fi moveto Lineto
n { 2 copy 2 copy pop 0 \ifPst@ScyBase yOper \fi 4 2 roll ArrowA Lineto
2 copy pop 0 \ifPst@ScyBase yOper \fi ArrowB L pop pop
} repeat
%2 copy moveto pop 0 \ifPst@ScyBase yOper \fi
%L
%pop pop
} if}>
\def\psLineToYAxis@ii{%
\addto@pscode{\pst@cp \psline@iii \tx@LineToYAxis}%
\end@OpenObj}
\def\tx@LineToYAxis{LineToYAxis }
\pst@def{LineToYAxis}<{
NArray
n 0 eq not
{ %n 1 eq { 0 0 /n 2 def } if
%ArrowA
%/n n 2 sub def
%CP 2 copy moveto exch pop 0 \ifPst@ScxBase xOper \fi exch Lineto
n { 2 copy 2 copy exch pop 0 \ifPst@ScxBase xOper \fi exch 4 2 roll ArrowA Lineto
2 copy exch pop 0 \ifPst@ScxBase xOper \fi exch ArrowB L pop pop
} repeat
%2 copy moveto exch pop 0 \ifPst@ScxBase xOper \fi exch
%L
%pop pop
} if}>
%
%%%%%%PREPAREPOINTS
\define@key[psset]{pst-fit}{plotNoTwo}{\def\psk@plotNoTwo{#1}}%
\define@key[psset]{pst-fit}{plotNoTwoFunc}{\def\psk@plotNoTwoFunc{#1}} %Must operate on two stack elements and return one
\psset{plotNoTwo=0,plotNoTwoFunc=dup mul exch dup mul add sqrt}
%\def\tx@PreparePoints{PreparePoints }
\pst@def{PreparePoints}<{%
counttomark /m exch def
\ifPsk@xyValues\else % we have only y values
/mm m def
/M m 1 add def
m { mm exch M 2 roll /M M 1 add def /mm mm 1 sub def } repeat
/m m dup add def
\fi
\ifPst@ChangeOrder
/m0 m def
m \psk@plotNoMax\space 1 add div 1 sub cvi {
m0 \psk@plotNoMax\space 1 add roll /m0 m0 \psk@plotNoMax\space 1 add sub def
} repeat
\fi
/n m \psk@plotNoMax\space 1 add div cvi def
\psk@plotNoMax\space 1 gt {% multiple data files?
n {
\psk@plotNoTwo\space 0 gt {
\psk@plotNoMax\space copy
\psk@plotNoMax\space \psk@plotNoTwo\space 1 sub neg roll % x yNo y yNoTwo y [yNo y yNoTwo y]
\psk@plotNoMax\space 1 sub { pop } repeat % x yNo y yNoTwo y yNoTwo
\psk@plotNoMax\space 1 add 1 roll } if
\psk@plotNoMax\space \psk@plotNo\space 1 sub neg roll % x yNo y y y ...
\psk@plotNoMax\space 1 sub { pop } repeat % x [yNoTwo] yNo
\psk@plotNoTwo\space 0 gt {
\psk@plotNoTwoFunc\space } if %x f(yNo,yNoTwo)
/m m \psk@plotNoMax\space 1 sub sub def
m 2 roll
} repeat
} if % no multiple data files
% counttomark /m exch def
% /n m 2 div cvi def
/xMax -99999 def /yMax -99999 def
/xP 0 def /yP 0 def
m copy
n {
/y exch def /x exch def
xMax x lt { /xMax x def } if
yMax y lt {/yMax y def } if
xP x gt { /xP x def } if
yP y gt { /yP y def } if
} repeat
% m 2 roll
\psk@xStep\space 0 gt \psk@yStep\space 0 gt or (\psk@xStart) length 0 gt or
(\psk@yStart) length 0 gt or (\psk@xEnd) length 0 gt or (\psk@yEnd) length 0 gt or {
%
(\psk@xStart) length 0 gt {\psk@xStart\space }{ xP } ifelse /xStart exch def
(\psk@yStart) length 0 gt {\psk@yStart\space }{ yP } ifelse /yStart exch def
(\psk@xEnd) length 0 gt { \psk@xEnd\space }{ xMax } ifelse /xEnd exch def
(\psk@yEnd) length 0 gt { \psk@yEnd\space }{ yMax } ifelse /yEnd exch def
n {
m -2 roll
2 copy /yVal exch def /xVal exch def
xVal xP ge
yVal yP ge and
xVal xEnd le and
yVal yEnd le and
xVal xStart ge and
yVal yStart ge and {
/xP xP \psk@xStep\space add def
/yP yP \psk@yStep\space add def
}{%
pop pop
/m m 2 sub def
} ifelse
} repeat
}{%
/ncount 0 def
(\psk@nEnd) length 0 gt { \psk@nEnd\space }{ m } ifelse
/nEnd exch def
n {
m -2 roll
\psk@nStep\space 1 gt {
ncount \psk@nStart\space sub \psk@nStep\space mod 0 eq }{ true } ifelse
ncount nEnd le and
ncount \psk@nStart\space ge and not {
pop pop
/m m 2 sub def
} if
/ncount ncount 1 add def
} repeat
} ifelse
}>
%
\def\beginplot@PrintCoor{\begin@SpecialObj}
\def\endplot@PrintCoor{%
\psPrintCoor@ii %\psk@fillstyle\ifpsshadow\pst@closedshadow\fi%
%\pst@stroke
\end@SpecialObj%
}
\define@key[psset]{pst-fit}{relxerr}{\def\psk@relxerr{#1}}
\define@key[psset]{pst-fit}{relyerr}{\def\psk@relyerr{#1}}
\define@key[psset]{pst-fit}{yShift}{\def\psk@yShift{#1}}
\define@boolkey[psset]{pst-fit}[Pst@]{science}[true]{}%
\psset[pst-fit]{science=false,relxerr=0.1,relyerr=0.1,yShift=0}
%Following is new pst-func.tex key which conflicts with mine.
%Must specify [pst-fit] in psset to correct.
%\define@boolkey[psset]{pst-add}[Pst@]{science}[true]{%
% \ifPst@science\def\psk@Scin{true }\else\def\psk@Scin{false }\fi}
\def\psPrintCoor@ii{%
\addto@pscode{%
false
\tx@NArray
\pst@number\psxunit
\pst@number\psyunit
\psPrintCoor@iii
}}
\def\psPrintCoor@iii{%
/mfont { \psk@PSfont\space findfont \psk@fontscale\space scalefont setfont } bind def
/mfontexp { \psk@PSfont\space findfont \psk@fontscale 1.2 div scalefont setfont } bind def
/s1 { \psk@symbolFont\space findfont \psk@fontscale\space scalefont setfont } bind def
/ttxspc \psk@fontscale\space 4 div def
/txspc ttxspc 4 div def
%pop
/ysc ED
/xsc ED
n 0 eq not {%
n {%
ysc div /Yval ED
xsc div /Xval ED
\ifPst@science
%X Coordinate
Xval 0 gt { Xval log floor }{ Xval 0 lt { Xval -1 mul log floor }{ 0 } ifelse } ifelse
cvi /xcoorexp ED
Xval 10 xcoorexp exp div
\psk@decimals\space -1 gt {%
10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /xcoor ED
%Y Coordinate
Yval 0 gt { Yval log floor }{ Yval 0 lt { Yval -1 mul log floor }{ 0 } ifelse } ifelse
cvi /ycoorexp ED
Yval 10 ycoorexp exp div
\psk@decimals\space -1 gt {%
10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /ycoor exch def
%Prep Strings
xcoorexp \psk@valuewidth\space string cvs /xcoorexp ED
ycoorexp \psk@valuewidth\space string cvs /ycoorexp ED
xcoor \psk@valuewidth\space string cvs /xcoor ED
ycoor \psk@valuewidth\space string cvs /ycoor ED
%X Error
\psk@relxerr\space Xval mul /delx ED \psk@relxerr\space 0 ne {%
delx 0 gt { delx log floor }{ delx 0 lt { delx -1 mul log floor }{ 0 } ifelse } ifelse
cvi /delxexp ED
delx 10 delxexp exp div dup mul sqrt
\psk@decimals\space -1 gt {%
10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /delx ED
%Prep Strings
delxexp \psk@valuewidth\space string cvs /delxexp ED
delx \psk@valuewidth\space string cvs /delx ED } if
%Y Error
\psk@relyerr\space Yval mul /dely ED \psk@relyerr\space 0 ne {%
dely 0 gt { dely log floor }{ dely 0 lt { dely -1 mul log floor }{ 0 } ifelse } ifelse
cvi /delyexp ED
dely 10 delyexp exp div dup mul sqrt
\psk@decimals\space -1 gt {%
10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /dely ED
%Prep Strings
delyexp \psk@valuewidth\space string cvs /delyexp ED
dely \psk@valuewidth\space string cvs /dely ED } if
\else
Xval \psk@decimals\space -1 gt
{ 10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq {cvi} if /xcoor ED
Yval \psk@decimals\space -1 gt
{ 10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq {cvi} if /ycoor ED
xcoor \psk@valuewidth\space string cvs /xcoor ED
ycoor \psk@valuewidth\space string cvs /ycoor ED
%
\psk@relxerr\space Xval mul dup mul sqrt
\psk@decimals\space -1 gt
{ 10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq {cvi} if /delx ED
\psk@relyerr\space Yval mul dup mul sqrt
\psk@decimals\space -1 gt
{ 10 \psk@decimals\space exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq {cvi} if /dely ED
delx \psk@valuewidth\space string cvs /delx ED
dely \psk@valuewidth\space string cvs /dely ED
\fi
%
newpath
Xval xsc mul %\psk@xShift\space xsc mul add
Yval ysc mul %\psk@yShift\space ysc mul add
moveto
\Pst@Debug\space 0 gt {
mfont
Xval \psk@valuewidth\space string cvs show (,) show
Yval \psk@valuewidth\space string cvs show }
{s1 (\string\050) show
mfont xcoor show
\ifPst@science
mfont (x) show
mfont (10) show
0 ttxspc rmoveto mfontexp xcoorexp show
\fi
\psk@relxerr\space 0 ne
{ \ifPst@science
0 ttxspc neg rmoveto s1 (\string\261) show
mfont delx show
mfont (x) show
mfont (10) show
0 ttxspc rmoveto mfontexp delxexp show
0 ttxspc neg rmoveto s1 (,) show
\else
s1 (\string\261) show
mfont delx show
s1 (,) show
\fi }
{ \ifPst@science
0 ttxspc neg rmoveto s1 (,) show
\else
s1 (,) show
\fi } ifelse
%start on ycoor
mfont ycoor show
\ifPst@science
mfont (x) show
mfont (10) show
0 ttxspc rmoveto mfontexp ycoorexp show
\fi
\psk@relyerr\space 0 ne
{ \ifPst@science
0 ttxspc neg rmoveto s1 (\string\261) show
mfont dely show
mfont (x) show
mfont (10) show
0 ttxspc rmoveto mfontexp delyexp show
0 ttxspc neg rmoveto s1 (\string\051) show
\else
s1 (\string\261) show
mfont dely show
s1 (\string\051) show
\fi }
{ s1 (\string\051) show } ifelse } ifelse
} repeat } if }
%%%POLY FIT
\define@key[psset]{pst-fit}{EqPos}[{}]{\def\psk@EqPos{#1}}
\define@key[psset]{pst-fit}{MaPos}[{}]{\def\psk@MaPos{#1}}%added Feb3, 2012 Matrix out
\define@key[psset]{pst-fit}{MaScale}[{}]{\def\psk@MaScale{#1}}%added Feb3, 2012 Matrix out
\define@boolkey[psset]{pst-fit}[Pst@]{ShowEq}[true]{}%
\psset{EqPos=,ShowEq=true,MaPos=0 0,MaScale=1}
\define@key[psset]{pst-fit}{PolyOrder}[{}]{\def\psk@PolyOrder{#1}}
\define@boolkey[psset]{pst-fit}[Pst@]{ReduceOrder}[true]{%these percents are critical removal results in shift to in x-dir
\ifPst@ReduceOrder%
\def\psk@ReduceOrder{true}\else\def\psk@ReduceOrder{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{PowerFit}[true]{%these percents are critical removal results in shift to in x-dir
\ifPst@PowerFit%
\def\psk@PowerFit{true}\def\psk@LogEFit{false}%
\def\psk@LogTFit{false}\def\psk@ExpFit{false}%
\def\psk@GaussFit{false}\def\psk@CustomFit{false}\def\psk@RecipFit{false}%
\else\def\psk@PowerFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{LogEFit}[true]{%
\ifPst@LogEFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{true}%
\def\psk@LogTFit{false}\def\psk@ExpFit{false}%
\def\psk@GaussFit{false}\def\psk@CustomFit{false}\def\psk@RecipFit{false}%
\else\def\psk@LogEFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{LogTFit}[true]{%
\ifPst@LogTFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{false}%
\def\psk@LogTFit{true}\def\psk@ExpFit{false}%
\def\psk@GaussFit{false}\def\psk@CustomFit{false}\def\psk@RecipFit{false}%
\else\def\psk@LogTFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{ExpFit}[true]{%
\ifPst@ExpFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{false}%
\def\psk@LogTFit{false}\def\psk@ExpFit{true}%
\def\psk@GaussFit{false}\def\psk@CustomFit{false}\def\psk@RecipFit{false}%
\else\def\psk@ExpFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{GaussFit}[true]{%
\ifPst@GaussFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{false}%
\def\psk@LogTFit{false}\def\psk@ExpFit{false}%
\def\psk@GaussFit{true}\def\psk@CustomFit{false}\def\psk@RecipFit{false}%
\else\def\psk@GaussFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{RecipFit}[true]{%
\ifPst@RecipFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{false}%
\def\psk@LogTFit{false}\def\psk@ExpFit{false}%
\def\psk@GaussFit{false}\def\psk@CustomFit{false}\def\psk@RecipFit{true}%
\else\def\psk@RecipFit{false}\fi}%
\define@boolkey[psset]{pst-fit}[Pst@]{CustomFit}[true]{%
\ifPst@CustomFit%
\def\psk@PowerFit{false}\def\psk@LogEFit{false}%
\def\psk@LogTFit{false}\def\psk@ExpFit{false}%
\def\psk@GaussFit{false}\def\psk@CustomFit{true}\def\psk@RecipFit{false}%
\else\def\psk@CustomFit{false}\fi}%
\define@key[psset]{pst-fit}{FXtrans}[{}]{\def\psk@FXtrans{#1}}
\define@key[psset]{pst-fit}{FYtrans}[{}]{\def\psk@FYtrans{#1}}
\define@key[psset]{pst-fit}{RYtrans}[{}]{\def\psk@RYtrans{#1}}
\define@key[psset]{pst-fit}{Yint}[{}]{\def\psk@Yint{#1}}
\define@key[psset]{pst-fit}{CheckZeroX}[{}]{\def\psk@CheckZeroX{#1}}
\define@key[psset]{pst-fit}{CheckZeroY}[{}]{\def\psk@CheckZeroY{#1}}
\psset{PolyOrder=1,ReduceOrder=false,PowerFit=false,LogEFit=false,LogTFit=false,%
ExpFit=false,GaussFit=false,RecipFit=false,CustomFit=false,%
FXtrans=,FYtrans=,RYtrans=,Yint=,CheckZeroX=,CheckZeroY=}
\def\beginplot@GLLSR{\begin@SpecialObj}
\def\endplot@GLLSR{%
\psGLLSR@ii\psk@fillstyle\ifpsshadow\pst@closedshadow\fi%
\pst@stroke
\end@SpecialObj%
}
\def\psGLLSR@ii{\addto@pscode{false \tx@NArray \psGLLSR@iii }}
\def\psGLLSR@iii{%
%General Fit Model: y = a0 + a1*x + a2*x^2 + ... + an*x^n
%Define Fonts
/mfont { \psk@PSfont\space findfont \psk@fontscale\space scalefont setfont } bind def
/mfontbig { \psk@PSfont\space findfont \psk@fontscale\space 2 mul scalefont setfont } bind def
/mfontexp { \psk@PSfont\space findfont \psk@fontscale\space 2 div scalefont setfont } bind def
mfont
%Default parameters
(\psk@PolyOrder) length 0 gt { \psk@PolyOrder\space /order ED }{ /order 1 def } ifelse
/PolyEq true def
(\psk@Yint) length 0 gt
{\psk@Yint\space /Yint ED /setYint true def /ReduceOrder true def }
{ /Yint 0 def /setYint false def /ReduceOrder false def} ifelse
/CheckZeroX false def
/CheckZeroY false def
/FXtrans {1 mul} def
/FYtrans { Yint sub } def
/RYtrans {1 mul} def
/xPr {(x) show} def
%Special Fit Functions (Linear Transforms)
\psk@PowerFit\space { /order 1 def /CheckZeroX true def /CheckZeroY true def /PolyEq false def
/FXtrans {log} def /FYtrans {Yint sub log} def /RYtrans {10 exch exp Yint add} def /ReduceOrder false def } if
\psk@LogTFit\space { /order 1 def /CheckZeroX true def /PolyEq true def
/xPr { (log) show (\string\050) show (x) show (\string\051) show } def
/FXtrans {log} def /FYtrans {1 mul} def /RYtrans {1 mul} def } if %
\psk@LogEFit\space { /order 1 def /CheckZeroX true def /PolyEq true def
/xPr { (ln) show (\string\050) show (x) show (\string\051) show } def
/FXtrans {ln} def /FYtrans {1 mul} def /RYtrans {1 mul} def } if %
\psk@ExpFit\space { /order 1 def /CheckZeroY true def /PolyEq false def
/FXtrans {1 mul} def /FYtrans {Yint sub ln} def /RYtrans {Euler exch exp Yint add} def /ReduceOrder false def } if %
\psk@GaussFit\space { /order 2 def /CheckZeroY true def /PolyEq false def
/FXtrans {1 mul} def /FYtrans {Yint sub ln} def /RYtrans {Euler exch exp Yint add} def /ReduceOrder false def } if %
\psk@RecipFit\space { /order 1 def /CheckZeroX true def /PolyEq true def
/xPr { (\string\050) show (1) show (\string\244) show (x) show (\string\051) show } def
/FXtrans { 1 exch div } def /FYtrans {1 mul} def /RYtrans {1 mul} def } if
\psk@CustomFit\space { /PolyFit false def
(\psk@FXtrans) length 0 gt { {\psk@FXtrans\space} /FXtrans ED } if
(\psk@FYtrans) length 0 gt { {\psk@FYtrans\space} /FYtrans ED } if
(\psk@RYtrans) length 0 gt { {\psk@RYtrans\space} /RYtrans ED } if
(\psk@CheckZeroX) length 0 gt { {\psk@CheckZeroX\space} /CheckZeroX ED } if
(\psk@CheckZeroY) length 0 gt { {\psk@CheckZeroY\space} /CheckZeroY ED } if
(\psk@ReduceOrder) length 0 gt { {\psk@ReduceOrder\space} /ReduceOrder ED } if } if %
%Initialize Arrays
/A order 1 add order 1 add mul array def
/B order 1 add array def
/ai order 1 add array def
%Coordinate Conversion Operators X Y PLU -> Plot Units (pts), X Y RLU -> Real Units (arbitrary)
/PLU {exch \pst@number\psxunit\space mul exch \pst@number\psyunit\space mul } def
/RLU {exch \pst@number\psxunit\space div exch \pst@number\psyunit\space div } def
/PRA { %Inputs: Array [ #rows #cols X Y Scale boolean(print equal sign) boolean(return) ]
%"pra" prefix has been added to all variables to minimize chance of naming conflicts
% /praSc exch def /praYc exch def /praXc exch def
% /praCol exch def /praRow exch def /praARY exch def
/praTemp exch def /praARY exch def
praTemp length 7 eq {%
%praTemp 4 get /praSc exch def
%praTemp 3 get /praYc exch def
%praTemp 2 get /praXc exch def
%praTemp 1 get /praCol exch def
%praTemp 0 get /praRow exch def pop
/tempfontscale \psk@fontscale praTemp 4 get mul def
%/praXc praTemp 2 get \pst@number\psxunit\space mul def
/praYc praTemp 3 get \pst@number\psyunit\space mul def
/praXmax -999999 def
/praYmin 999999 def
/prafont {\psk@PSfont\space findfont tempfontscale scalefont setfont} bind def
/prasym { \psk@symbolFont\space findfont tempfontscale 2 mul scalefont setfont} bind def
prafont
praTemp 2 get \pst@number\psxunit\space mul praTemp 3 get \pst@number\psyunit\space mul moveto
praARY length praTemp 1 get praTemp 0 get mul eq not { (Row x Col > Vector Dim) show }{%
/praXstart praTemp 2 get \pst@number\psxunit\space mul def
0 1 praTemp 1 get 1 sub {/praj ED
0 1 praTemp 0 get 1 sub {/prai ED /prak praj praTemp 1 get prai mul add def
praARY prak get \psk@valuewidth string cvs show
currentpoint pop dup praXmax gt { /praXmax ED }{ pop } ifelse
currentpoint pop praXstart sub neg tempfontscale 1.5 mul neg rmoveto
} for
currentpoint exch pop dup praYmin lt { /praYmin ED }{ pop } ifelse
/praXstart praXmax tempfontscale 0.75 mul add def
praXstart praTemp 3 get \pst@number\psyunit\space mul moveto
} for
%Brackets
newpath
praTemp 2 get \pst@number\psxunit\space mul tempfontscale 0.125 mul add
praTemp 3 get \pst@number\psyunit\space mul tempfontscale add moveto
praTemp 2 get \pst@number\psxunit\space mul tempfontscale 0.125 mul sub
praTemp 3 get \pst@number\psyunit\space mul tempfontscale add lineto
praTemp 2 get \pst@number\psxunit\space mul tempfontscale 0.125 mul sub
praYmin tempfontscale add lineto
praTemp 2 get \pst@number\psxunit\space mul tempfontscale 0.125 mul add
praYmin tempfontscale add lineto
stroke
newpath
praXmax tempfontscale 0.125 mul sub
praTemp 3 get \pst@number\psyunit\space mul tempfontscale add moveto
praXmax tempfontscale 0.125 mul add
praTemp 3 get \pst@number\psyunit\space mul tempfontscale add lineto
praXmax tempfontscale 0.125 mul add
praYmin tempfontscale add lineto
praXmax tempfontscale 0.125 mul sub
praYmin tempfontscale add lineto
stroke
praTemp 5 get {
praXmax tempfontscale add
praTemp 3 get \pst@number\psyunit\space mul tempfontscale add praYmin add 2 div moveto
prasym (=) show currentpoint pop /praXmax ED} if
%Left Bracket
praTemp 2 get \pst@number\psxunit\space mul praYmin tempfontscale 2 mul sub moveto %Return to bottom left
%the following are defined for use with cascade calls to PRA
% (Xl,Yb) - Print next matrix below last
% (Xr,Yt) - Print next matrix beside last
% (Xr,Yb) - Print next matrix beside and below last
tx@Dict /praYb known {
praYmin tempfontscale 1.5 mul sub \pst@number\psyunit\space div praYb lt {
/praYb praYmin tempfontscale 1.5 mul sub \pst@number\psyunit\space div def } if }
{ /praYb praYmin tempfontscale 1.5 mul sub \pst@number\psyunit\space div def } ifelse
/praYb praYmin tempfontscale 1.5 mul sub \pst@number\psyunit\space div def
%
tx@Dict /praXl known not {/praXl praTemp 2 get def } if
% { praTemp 6 get {/praXl praTemp 2 get def} if } ifelse
tx@Dict /praYt known not {/praYt praTemp 3 get def }
{ praTemp 6 get {/praYt praYb def} if } ifelse
%
tx@Dict /praXr known {
praTemp 6 get { /praXr praXl def }{ /praXr praXmax tempfontscale add \pst@number\psxunit\space div def } ifelse }{%
/praXr praXmax tempfontscale add \pst@number\psxunit\space div def } ifelse
\psk@PSfont\space findfont \psk@fontscale\space scalefont setfont } ifelse
}{ \psk@PSfont\space findfont \psk@fontscale\space scalefont setfont
0 0 moveto (PRA Error Not Enough Parameters) show } ifelse } def
0 1 A length 1 sub { A exch 0 put } for
0 1 B length 1 sub { B exch 0 put } for
0 1 ai length 1 sub { ai exch 0 put } for
%%%%%%%%
%Remove Zero Data (As Required By Transformation Functions)
CheckZeroX CheckZeroY or {
n { /tmpx false def /tmpy false def
CheckZeroY { dup \pst@number\psyunit\space div Yint sub 0 le { /tmpy true def } if } if
CheckZeroX { exch dup \pst@number\psxunit\space div 0 le { /tmpx true def } if exch } if
tmpx tmpy or { pop pop /n n 1 sub def }{ n 2 mul 2 roll } ifelse
} repeat } if
%%%
%%%%
%Determine Max/Min X for Plotting
exch dup dup
\pst@number\psxunit\space div /xEnd ED
\pst@number\psxunit\space div /xStart ED
exch
/ybar 0 def
n { % number of data pairs
dup \pst@number\psyunit\space div ybar add /ybar ED
2 copy %copy point
\pst@number\psyunit\space div /Yval ED
\pst@number\psxunit\space div /Xval ED
Xval xStart lt { /xStart Xval def } if % find the lowest xi
Xval xEnd gt { /xEnd Xval def } if % find the largest xi
n 2 mul 2 roll %roll the original point to the bottom of the stack
} repeat
ybar n div /ybar ED
%Scale X & Y variables and apply Linear Transform if applicable
n {
\pst@number\psyunit\space div FYtrans
n 2 mul 1 roll
\pst@number\psxunit\space div FXtrans
n 2 mul 1 roll
} repeat
%START ASSEMBLY OF LEAST SQUARES MATRIX
1 1 order 1 add { /ci exch def
1 1 ci { /cj exch def
/epk ci cj add 2 sub def
/sum 0 def
n { n 2 mul 1 roll
dup epk exp sum add /sum ED
n 2 mul 1 roll
} repeat
A
ci 1 sub order 1 add mul cj add 1 sub
sum put %i row, j col standard
A
cj 1 sub order 1 add mul ci add 1 sub
sum put %j row, i col reversed
} for
/sum 0 def
1 1 n { /cl exch def
2 copy
exch
ci 1 sub exp mul sum add /sum ED
n 2 mul 2 roll
} for
B
ci 1 sub
sum put
} for
\Pst@Debug\space 1 eq {
%A [ order 1 add order 1 add 5 20 0.5 false false ] PRA
A [ order 1 add order 1 add \psk@MaPos\space \psk@MaScale\space true false ] PRA
B [ order 1 add 1 praXr praYt \psk@MaScale\space false true ] PRA
} if
%END OF ASSEMBLE MATRIX
%REDUCE ORDER FOR Y INTERCEPT FOR MODELS WHICH ARE APPROPRIATE
ReduceOrder {
/elemOld { exch 1 sub order 1 add mul add 1 sub } def
/elemNew { exch 2 sub order mul add 2 sub } def
/dummyA order order mul array def
0 1 dummyA length 1 sub { dummyA exch 0 put } for
/dummyB order array def
0 1 dummyB length 1 sub { dummyB exch 0 put } for
/ai order array def
0 1 ai length 1 sub { ai exch 0 put } for
%Translate A to dummyA
2 1 order 1 add {/ci ED
2 1 order 1 add {/cj ED
dummyA ci cj elemNew
A ci cj elemOld get
put
} for
dummyB ci 2 sub
B ci 1 sub get
put
} for
/order order 1 sub def %temporarily reduce system order
/A order 1 add order 1 add mul array def 0 1 A length 1 sub {/ci ED A ci dummyA ci get put } for %put dummyA in new A
/B order 1 add array def 0 1 B length 1 sub {/ci ED B ci dummyB ci get put } for %put dummyB in new B
\Pst@Debug\space 1 eq {
A [ order 1 add order 1 add praXr praYt \psk@MaScale\space true false ] PRA
B [ order 1 add 1 praXr praYt \psk@MaScale\space false true ] PRA } if
\tx@GaussSolve
/order order 1 add def %restore system order
/m m 1 add def
% \Pst@Debug\space 1 eq {
%ai [ order 1 add 1 praXr praYt \psk@MaScale\space false false ] PRA } if
/dummyai order 1 add array def
0 1 dummyai length 1 sub {/ci ED dummyai ci 0 put } for
0 1 ai length 1 sub {/ci ED dummyai ci 1 add ai ci get put } for
/ai dummyai def
ai 0 Yint put
%ai [ order 2 sub 1 0 0 \psk@MaScale\space true false ] PRA
}{ \tx@GaussSolve } ifelse
%\Pst@Debug\space 1 eq {
%ai [ order 1 add 1 praXr praYt \psk@MaScale\space false false ] PRA } if
%%%%%%%%%%%%%%%%%%%%%%%%%%
%% END SOLVE CURVE FITS %%
%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%
%% PLOT CURVE FITS %%
%%%%%%%%%%%%%%%%%%%%%
newpath
(\psk@xStart) length 0 gt % special start value?
{ \psk@xStart\space /xStart ED } if
(\psk@xEnd) length 0 gt % special end value?
{ \psk@xEnd\space /xEnd ED } if
/xStep xEnd xStart sub \psk@plotpoints\space div def
/Xnow xStart def
/Ynow 0 def
1 1 m { /ci exch def ai ci 1 sub get ci 1 sub { Xnow FXtrans mul } repeat Ynow add /Ynow exch def } for
Xnow Ynow RYtrans PLU moveto
\psk@plotpoints\space cvi
{ /Xnow Xnow xStep add def
/Ynow 0 def
1 1 m { /ci exch def ai ci 1 sub get ci 1 sub { Xnow FXtrans mul } repeat Ynow add /Ynow exch def } for
Xnow Ynow RYtrans PLU lineto
} repeat
%
/yminusdot 0 def
/yminusbar 0 def
n {
2 copy
/Ynow ED
/Xnow ED
/Ydot 0 def
1 1 m { /ci exch def
ai ci 1 sub get ci 1 sub { Xnow mul } repeat Ydot add /Ydot exch def } for %
Ynow Ydot sub dup mul yminusdot add /yminusdot ED
Ynow ybar sub dup mul yminusbar add /yminusbar ED
n 2 mul 2 roll
} repeat
1 yminusdot yminusbar div sub /rsquared ED
%%%%%%%%%%%%%%%%%%%%%%%%%
%% END PLOT CURVE FITS %%
%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% START PRINT EQUATIONS %%
%%%%%%%%%%%%%%%%%%%%%%%%%%%
\ifPst@ShowEq
% Setup Cursor
(\psk@EqPos) length 0 gt
{\psk@EqPos\space PLU }
{2 -5 PLU } ifelse moveto
% Power Fit Equation %
\psk@PowerFit\space {
10 ai 0 get exp
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpA exch def
ai 1 get
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpB exch def
(y = ) show
tmpA \psk@valuewidth string cvs show
(x) show
0 \psk@fontscale 4 div rmoveto
mfontexp tmpB \psk@valuewidth string cvs show mfont
0 \psk@fontscale 4 div neg rmoveto
setYint Yint 0 ne and { Yint 0 gt { (+) show } if Yint \psk@valuewidth string cvs show } if } if
% Exponential Fit Equation %
\psk@ExpFit\space {
Euler ai 0 get exp
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpA exch def
Euler ai 1 get exp
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpB exch def
(y = ) show
(\string\050) show tmpA \psk@valuewidth string cvs show (\string\051) show
%(e) show
(\string\264) show
%0 \psk@fontscale 4 div rmoveto
%mfontexp tmpB \psk@valuewidth string cvs show
(\string\050) show tmpB \psk@valuewidth string cvs show (\string\051) show
0 \psk@fontscale 2 div rmoveto
mfontexp (x) show mfont
0 \psk@fontscale 2 div neg rmoveto
setYint Yint 0 ne and { Yint 0 gt { (+) show } if Yint \psk@valuewidth string cvs show } if} if
% Gaussian Fit Equation %
\psk@GaussFit\space {
/tmpA Euler ai 0 get ai 1 get dup mul 4 div ai 2 get div sub exp def
/tmpB ai 1 get 2 div ai 2 get div def
/tmpC ai 2 get def
tmpA
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpA exch def
tmpB
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpB exch def
tmpC
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /tmpC exch def
(y = ) show
tmpA 30 string cvs show
(e) show
0 \psk@fontscale 4 div rmoveto
mfontexp tmpC \psk@valuewidth string cvs show
(\string\(x) show
tmpB 0 ne { tmpB 0 ge { (+) show } if tmpB \psk@valuewidth string cvs show } if
(\string\)) show
0 \psk@fontscale 4 div rmoveto (2) show mfont
0 \psk@fontscale 2 div neg rmoveto
setYint Yint 0 ne and { Yint 0 gt { (+) show } if Yint \psk@valuewidth string cvs show } if } if
%%%%%%%%%%%%%%%
% Round Coeff %
%%%%%%%%%%%%%%%
0 1 ai length 1 sub {/ci exch def
ai ci get
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if
ai ci 3 -1 roll put } for
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Plot Polynomial (including Linear) Fit %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
PolyEq { (y =) show
1 1 m { /ci exch def
ai ci 1 sub get 30 string cvs show
ci 1 sub 0 gt { xPr } if
ci 1 sub 1 gt {%
0 \psk@fontscale 4 div rmoveto ci 1 sub 30 string cvs show
0 \psk@fontscale 4 div neg rmoveto } if
ci m eq not { ai ci get 0 lt {}{ (+) show } ifelse } if
} for } if
%Print Rsquared
rsquared
\psk@decimals\space -1 gt
{ 10 \psk@decimals exp dup 3 1 roll mul round exch div } if
\psk@decimals\space 0 eq { cvi } if /rsquared exch def
\psk@EqPos\space PLU moveto
0 \psk@fontscale 1.5 mul neg rmoveto
(R) show
0 \psk@fontscale 2 div rmoveto
mfontexp (2) show mfont
0 \psk@fontscale 2 div neg rmoveto
( = ) show
rsquared \psk@valuewidth string cvs show
\fi
}
%
\def\tx@GaussSolve{GaussSolve }
\pst@def{GaussSolve}<{%
%Required Variables
%order,A,B,ai
/er 1 def %
/tol 0.00001 def %
/m order 1 add def %number of equations
/Aout m m mul array def %This is for printing the scaled identity matrix which A becomes
0 1 Aout length 1 sub { Aout exch 0 put } for
/elem { exch 1 sub m mul add 1 sub } def %Array i j
%DETERMINE SCALE FACTORS
/sc m array def %row scale factors
0 1 sc length 1 sub { sc exch 0 put } for
1 1 m { /ci exch def
sc
ci 1 sub
A ci 1 elem get
dup mul sqrt
put
2 1 m { /cj exch def
A ci cj elem get
dup mul sqrt
sc ci 1 sub get gt {%
sc
ci 1 sub
A ci cj elem get
dup mul sqrt
put } if
} for
% 1 ci mul 1 sc ci 1 sub get 30 string cvs show
} for
%END OF SCALE FACTORS
%CALL ELIMINATE
order 1 ge {%
1 1 m 1 sub { /ck exch def
%Call Pivot
/p ck def
A ck ck elem get
sc ck 1 sub get div
dup mul sqrt
/big exch def
ck 1 add 1 m {/cii exch def
A cii ck elem get
sc cii 1 sub get div
dup mul sqrt
/dummy exch def
dummy big gt { /big dummy def /p cii def } if
} for
p ck eq not {
ck 1 m {/cjj exch def
A p cjj elem get
/dummy exch def
A p cjj elem
A ck cjj elem get
put
A ck cjj elem
dummy
put
} for
B p 1 sub get
/dummy exch def
B p 1 sub
B ck 1 sub get
put
B ck 1 sub
dummy
put
sc p 1 sub get
/dummy exch def
sc p 1 sub
sc ck 1 sub get
put
sc ck 1 sub
dummy
put
} if
%End Pivot
%Back to Eliminate
A ck ck elem get
sc ck 1 sub get div
dup mul sqrt tol lt { /er -1 def } if
ck 1 add 1 m { /ci exch def
A ci ck elem get
A ck ck elem get div
/factor exch def
%ck 1 add 1 m { /cj exch def
1 1 m { /cj exch def %Line Changed from above, requires more calcs but allows debugging of matrix ops.
A ci cj elem %index
A ci cj elem get
A ck cj elem get
factor
mul sub %value
put
} for
B ci 1 sub %index
B ci 1 sub get
B ck 1 sub get
factor
mul sub %value
put
} for
} for
\Pst@Debug\space 1 eq {
A [ order 1 add order 1 add praXr praYt \psk@MaScale\space true false ] PRA
B [ order 1 add 1 praXr praYt \psk@MaScale\space false true ] PRA
} if
} if
%Start Back Substitution
%Add Error check for er -1
ai m 1 sub
B m 1 sub get
A m m elem get
div put
%%%%Added for debug
Aout m m elem
A m m elem get dup div
put
%%%%
order 1 ge {%
m 1 sub -1 1 { /ci exch def
/sum 0 def
ci 1 add 1 m { /cj exch def
A ci cj elem get
ai cj 1 sub get
mul sum add
/sum exch def
} for
ai ci 1 sub
B ci 1 sub get
sum sub
A ci ci elem get
div put
%%%%Added for debug
Aout ci ci elem
A ci ci elem get dup div
put
%%%%
} for
A ck ck elem get
sc ck 1 sub get div
dup mul sqrt tol lt { /er -1 def } if
} if
\Pst@Debug\space 1 eq {
Aout [ order 1 add order 1 add praXr praYt \psk@MaScale\space true false ] PRA
ai [ order 1 add 1 praXr praYt \psk@MaScale\space false false ] PRA } if}>
%
\catcode`\@=\PstAtCode\relax
%
%% END: pst-fit.tex
\endinput
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