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author | Hans Hagen <pragma@wxs.nl> | 2013-04-07 01:04:00 +0200 |
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committer | Hans Hagen <pragma@wxs.nl> | 2013-04-07 01:04:00 +0200 |
commit | 7f4dbdc914e16ac532cc389ec9f96373d54b226e (patch) | |
tree | c7f92589b5c4daf5fe9204fcc42587a4b54da8d7 | |
parent | 5c3f898c179a6c289f789148604e66a788ede3ad (diff) | |
download | context-7f4dbdc914e16ac532cc389ec9f96373d54b226e.tar.gz |
beta 2013.04.07 01:04
-rw-r--r-- | metapost/context/base/mp-grap.mpiv | 71 | ||||
-rw-r--r-- | tex/context/base/context-version.pdf | bin | 4141 -> 4134 bytes | |||
-rw-r--r-- | tex/context/base/context-version.png | bin | 40378 -> 39580 bytes | |||
-rw-r--r-- | tex/context/base/status-files.pdf | bin | 24763 -> 24755 bytes | |||
-rw-r--r-- | tex/context/base/status-lua.pdf | bin | 211718 -> 211699 bytes |
5 files changed, 36 insertions, 35 deletions
diff --git a/metapost/context/base/mp-grap.mpiv b/metapost/context/base/mp-grap.mpiv index cce63abe0..6b1f2311f 100644 --- a/metapost/context/base/mp-grap.mpiv +++ b/metapost/context/base/mp-grap.mpiv @@ -223,6 +223,8 @@ def plotsymbol(expr n,c,f) = % (number,color,color|number) fi enddef ; +% The following extensions are not specific to graph and could be moved to metafun... + % convert a polygon path to a smooth path (useful, e.g. as a guide to the eye) def smoothpath (suffix $) = @@ -251,10 +253,10 @@ enddef ; vardef addnoisetopath (suffix p) (text t) = if path p : - hide(pair pi) + hide(pair p_i) (for i=0 upto length p : if i>0 : -- fi - hide(pi := point i of p; x := xpart pi; y := ypart pi)z shifted t + hide(p_i := point i of p; x := xpart p_i; y := ypart p_i)z shifted t endfor) fi enddef ; @@ -274,24 +276,24 @@ enddef ; % % path p[] ; % numeric a[] ; a0 := 1 ; a1 := .1 ; a2 := .01 ; a3 := .001 ; a4 := 0.0001 ; -% p0 := makefunctionpath(0,5,10,poly(a,4,x)) ; +% p0 := makefunctionpath(0,5,10,polynomial_function(a,4,x)) ; % p1 := addnoisetopath(p0,(0,.001normaldeviate)) ; % gdraw p0 ; % gdraw p1 plot plotsymbol(1,black,.5) ; % % numeric b[] ; -% polyfit(p1, b, 4, 1) ; -% gdraw functionpath(p1,poly(b,4,x)) ; +% polynomial_fit(p1, b, 4, 1) ; +% gdraw functionpath(p1,polynomial_function(b,4,x)) ; % % numeric c[] ; -% linefit(p1, c, 1) ; -% gdraw functionpath(p1,line(c,x)) dashed evenly ; +% linear_fit(p1, c, 1) ; +% gdraw functionpath(p1,linear_function(c,x)) dashed evenly ; % a polynomial function: % % y = a0 + a1 * x + a2 * x^2 + ... + a[n] * x^n -vardef poly (suffix $) (expr n, x) = +vardef polynomial_function (suffix $) (expr n, x) = (for j=0 upto n : + $[j]*(x**j) endfor) % no ; enddef ; @@ -335,21 +337,20 @@ vardef det (suffix $) (expr n) = determinant % no ; enddef ; -numeric Gchisq_ ; % global - use graph.mp naming convention (until we clean things up). -% why not grap_pf_temp? answer: because we want this to be available to the user. +numeric fit_chi_squared ; % least-squares fit of a polynomial $ of order n to a path p (unweighted) % % reference: P. R. Bevington, "Data Reduction and Error Analysis for the Physical % Sciences", McGraw-Hill, New York 1969. -vardef polyfit (suffix p, $) (expr n) (text t) = +vardef polynomial_fit (suffix p, $) (expr n) (text t) = if not path p : Gerr(p, "Cannot fit--not a path") ; elseif length p < n : Gerr(p, "Cannot fit--not enough points") ; else : - Gchisq_ := 0 ; + fit_chi_squared := 0 ; % calculate sums of the data save sumx, sumy ; numeric sumx[], sumy[] ; save w ; numeric w ; @@ -372,7 +373,7 @@ vardef polyfit (suffix p, $) (expr n) (text t) = sumy[j] := sumy[j] + y1 ; y1 := y1 * x ; endfor - Gchisq_ := Gchisq_ + y*y*w ; + fit_chi_squared := fit_chi_squared + y*y*w ; endfor % construct matrices and calculate the polynomial coefficients save m ; numeric m[][] ; @@ -384,7 +385,7 @@ vardef polyfit (suffix p, $) (expr n) (text t) = save delta ; numeric delta ; delta := det(m,n) ; % this destroys the matrix m[][], which is OK if delta = 0 : - Gchisq_ := 0 ; + fit_chi_squared := 0 ; for j=0 upto n : $[j] := 0 ; endfor @@ -399,13 +400,13 @@ vardef polyfit (suffix p, $) (expr n) (text t) = $[i] := det(m,n) / delta ; % matrix m[][] gets destroyed... endfor for j=0 upto n : - Gchisq_ := Gchisq_ - 2sumy[j]*$[j] ; + fit_chi_squared := fit_chi_squared - 2sumy[j]*$[j] ; for k=0 upto n : - Gchisq_ := Gchisq_ + $[j]*$[k]*sumx[j+k] ; + fit_chi_squared := fit_chi_squared + $[j]*$[k]*sumx[j+k] ; endfor endfor % normalize by the number of degrees of freedom - Gchisq_ := Gchisq_ / (length(p) - n) ; + fit_chi_squared := fit_chi_squared / (length(p) - n) ; fi fi enddef ; @@ -414,23 +415,23 @@ enddef ; % % of course a line is just a polynomial of order 1 -vardef line (suffix $) (expr x) = poly($,1,x) enddef ; % beware: potential name clash -vardef linefit (suffix p, $) (text t) = polyfit(p, $, 1, t) ; enddef ; +vardef linear_function (suffix $) (expr x) = polynomial_function($,1,x) enddef ; +vardef linear_fit (suffix p, $) (text t) = polynomial_fit(p, $, 1, t) ; enddef ; % and a constant is polynomial of order 0 -vardef const (suffix $) (expr x) = poly($,0,x) enddef ; -vardef constfit (suffix p, $) (text t) = polyfit(p, $, 0, t) ; enddef ; +vardef constant_function (suffix $) (expr x) = polynomial_function($,0,x) enddef ; +vardef constant_fit (suffix p, $) (text t) = polynomial_fit(p, $, 0, t) ; enddef ; % y = a1 * exp(a0*x) % % exp and ln defined in metafun -vardef exponential (suffix $) (expr x) = $1*exp($0*x) enddef ; +vardef exponential_function (suffix $) (expr x) = $1*exp($0*x) enddef ; % since we take a log, this only works for positive ordinates -vardef exponentialfit (suffix p, $) (text t) = +vardef exponential_fit (suffix p, $) (text t) = save a ; numeric a[] ; save q ; path q ; % fit to the log of the ordinate for i=0 upto length p : @@ -438,18 +439,18 @@ vardef exponentialfit (suffix p, $) (text t) = augment.q(xpart(point i of p),ln(ypart(point i of p))) ; fi endfor - linefit(q,a,t) ; + linear_fit(q,a,t) ; $0 := a1 ; $1 := exp(a0) ; enddef ; % y = a1 * x**a0 -vardef power (suffix $) (expr x) = $1*(x**$0) enddef ; +vardef power_law_function (suffix $) (expr x) = $1*(x**$0) enddef ; % since we take logs, this only works for positive abcissae and ordinates -vardef powerfit (suffix p, $) (text t) = +vardef power_law_fit (suffix p, $) (text t) = save a ; numeric a[] ; save q ; path q ; % fit to the logs of the abcissae and ordinates for i=0 upto length p : @@ -457,7 +458,7 @@ vardef powerfit (suffix p, $) (text t) = augment.q(ln(xpart(point i of p)),ln(ypart(point i of p))) ; fi endfor - linefit(q,a,t) ; + linear_fit(q,a,t) ; $0 := a1 ; $1 := exp(a0) ; enddef ; @@ -468,7 +469,7 @@ enddef ; numeric lntwo ; lntwo := ln(2) ; % brrr, why not inline it -vardef gaussian (suffix $) (expr x) = +vardef gaussian_function (suffix $) (expr x) = if $1 = 0 : if x = $0 : $2 else : 0 fi else : @@ -481,7 +482,7 @@ enddef ; % since we take a log, this only works for positive ordinates -vardef gaussianfit (suffix p, $) (text t) = +vardef gaussian_fit (suffix p, $) (text t) = save a ; numeric a[] ; save q ; path q ; % fit to the log of the ordinate for i=0 upto length p : @@ -489,16 +490,16 @@ vardef gaussianfit (suffix p, $) (text t) = augment.q(xpart(point i of p), ln(ypart(point i of p))) ; fi endfor - polyfit(q,a,2,if t > 0 : ln(t) else : 0 fi) ; + polynomial_fit(q,a,2,if t > 0 : ln(t) else : 0 fi) ; $1 := sqrt(-lntwo/a2) ; $0 := -.5a1/a2 ; $2 := exp(a0-.25*a1*a1/a2) ; - $3 := 0 ; % polyfit will NOT work with a non-zero background! + $3 := 0 ; % polynomial_fit will NOT work with a non-zero background! enddef ; % lorentzian: y = a2 / (1 + ((x - a0)/a1)^2) -vardef lorentzian (suffix $) (expr x) = +vardef lorentzian_function (suffix $) (expr x) = if $1 = 0 : if x = $0 : $2 else : 0 fi else : @@ -509,7 +510,7 @@ vardef lorentzian (suffix $) (expr x) = fi enddef ; -vardef lorentzianfit (suffix p, $) (text t) = +vardef lorentzian_fit (suffix p, $) (text t) = save a ; numeric a[] ; save q ; path q ; % fit to the inverse of the ordinate for i=0 upto length p : @@ -517,9 +518,9 @@ vardef lorentzianfit (suffix p, $) (text t) = augment.q(xpart(point i of p), 1/ypart(point i of p)) ; fi endfor - polyfit(q,a,2,if t <> 0 : 1/(t) else : 0 fi) ; + polynomial_fit(q,a,2,if t <> 0 : 1/(t) else : 0 fi) ; $0 := -.5a1/a2 ; $2 := 1/(a0-.25a1*a1/a2) ; $1 := sqrt((a0-.25a1*a1/a2)/a2) ; - $3 := 0 ; % polyfit will NOT work with a non-zero background! + $3 := 0 ; % polynomial_fit will NOT work with a non-zero background! enddef ; diff --git a/tex/context/base/context-version.pdf b/tex/context/base/context-version.pdf Binary files differindex bd0516c33..7da8b1af7 100644 --- a/tex/context/base/context-version.pdf +++ b/tex/context/base/context-version.pdf diff --git a/tex/context/base/context-version.png b/tex/context/base/context-version.png Binary files differindex 723d41b76..42940ea80 100644 --- a/tex/context/base/context-version.png +++ b/tex/context/base/context-version.png diff --git a/tex/context/base/status-files.pdf b/tex/context/base/status-files.pdf Binary files differindex 106a6fc00..2118e9209 100644 --- a/tex/context/base/status-files.pdf +++ b/tex/context/base/status-files.pdf diff --git a/tex/context/base/status-lua.pdf b/tex/context/base/status-lua.pdf Binary files differindex 255636f1c..277288633 100644 --- a/tex/context/base/status-lua.pdf +++ b/tex/context/base/status-lua.pdf |