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* gnu/packages/sagemath.scm (lcalc): New variable. * gnu/packages/patches/lcalc-default-parameters-1.patch, gnu/packages/patches/lcalc-default-parameters-2.patch, gnu/packages/patches/lcalc-lcommon-h.patch, gnu/packages/patches/lcalc-using-namespace-std.patch: New files. * gnu/local.mk (dist_patch_DATA): Register patches.
59 lines
2 KiB
Diff
59 lines
2 KiB
Diff
Patch taken from the Sage packaging system.
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--- lcalc-1.23/include/Lgamma.h 2012-08-08 23:21:55.000000000 +0200
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+++ lcalc-1.23/include/Lgamma.h 2014-05-18 21:15:27.786889718 +0200
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@@ -77,7 +77,7 @@
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//n=0 should just give log_GAMMA(z)... thus making log_GAMMA
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//code obsolete. But leave log_GAMMA intact anyways.
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template <class ttype>
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-precise(ttype) log_GAMMA (ttype z,int n=0)
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+precise(ttype) log_GAMMA (ttype z,int n)
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{
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int M;
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precise(ttype) log_G,r,r2,y;
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@@ -230,7 +230,7 @@
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//value exp_w which holds exp(-w)
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//computes G(z,w), so there's an extra w^(-z) factor.
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template <class ttype>
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-Complex inc_GAMMA (ttype z,ttype w, const char *method="temme", ttype exp_w = 0, bool recycle=false)
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+Complex inc_GAMMA (ttype z,ttype w, const char *method, ttype exp_w, bool recycle)
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{
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Complex G;
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@@ -334,7 +334,7 @@
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template <class ttype>
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-ttype cfrac_GAMMA (ttype z,ttype w, ttype exp_w=0, bool recycle=false) //computes G(z,w) via continued fraction
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+ttype cfrac_GAMMA (ttype z,ttype w, ttype exp_w, bool recycle) //computes G(z,w) via continued fraction
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{
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ttype G;
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@@ -424,7 +424,7 @@
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}
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template <class ttype>
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-ttype asympt_GAMMA (ttype z,ttype w, ttype exp_w = 0, bool recycle=false) //computes G(z,w) via asymptotic series
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+ttype asympt_GAMMA (ttype z,ttype w, ttype exp_w, bool recycle) //computes G(z,w) via asymptotic series
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{
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if(my_verbose>3) cout << "called asympt_GAMMA("<<z<<","<<w<<")"<< endl;
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@@ -446,7 +446,7 @@
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template <class ttype>
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-ttype comp_inc_GAMMA (ttype z,ttype w,ttype exp_w = 0, bool recycle=false) //computes g(z,w)
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+ttype comp_inc_GAMMA (ttype z,ttype w,ttype exp_w, bool recycle) //computes g(z,w)
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{
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ttype g;
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@@ -604,7 +604,7 @@
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}
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template <class ttype>
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-Complex gamma_sum(Complex s, int what_type, ttype *coeff, int N, Double g, Complex l, Double Q, Long Period, Complex delta=1, const char *method="temme")
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+Complex gamma_sum(Complex s, int what_type, ttype *coeff, int N, Double g, Complex l, Double Q, Long Period, Complex delta, const char *method)
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{
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Complex SUM=0;
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