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	Index: branches/Kmatrix_reloaded/src/omega/src/targets_Kmatrix.ml
	===================================================================
	--- branches/Kmatrix_reloaded/src/omega/src/targets_Kmatrix.ml (revision 4958)
	+++ branches/Kmatrix_reloaded/src/omega/src/targets_Kmatrix.ml (revision 4959)
	@@ -1,619 +1,619 @@
	(* $Id$

	Copyright (C) 1999-2012 by

	Wolfgang Kilian <kilian@physik.uni-siegen.de>
	Thorsten Ohl <ohl@physik.uni-wuerzburg.de>
	Juergen Reuter <juergen.reuter@physik.uni-freiburg.de>
	Christian Speckner <christian.speckner@physik.uni-freiburg.de>

	WHIZARD is free software; you can redistribute it and/or modify it
	under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 2, or (at your option)
	any later version.

	WHIZARD is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. *)

	let rcs_file = RCS.parse "Targets_Kmatrix" ["K-Matrix Support routines"]
	{ RCS.revision = "$Revision$";
	RCS.date = "$Date$";
	RCS.author = "$Author$";
	RCS.source
	= "$URL$" }

	module Fortran =
	struct

	open Format

	let nl = print_newline

	(* Special functions for the K matrix approach. This might be generalized
	to other functions that have to have access to the parameters and
	coupling constants. At the moment, this is hardcoded. *)

	let print pure_functions =
	let pure =
	if pure_functions then
	"pure "
	else
	"" in
	printf " !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"; nl ();
	printf " !!! Special K matrix functions"; nl ();
	printf " !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!"; nl ();
	nl();
	printf " %sfunction width_res (z,res,w_wkm,m,g) result (w)" pure; nl ();
	printf " real(kind=default), intent(in) :: z, w_wkm, m, g"; nl ();
	printf " integer, intent(in) :: res"; nl ();
	printf " real(kind=default) :: w"; nl ();
	printf " if (z.eq.0 .AND. w_wkm.eq.0 ) then"; nl ();
	printf " w = 0"; nl ();
	printf " else"; nl ();
	printf " if (w_wkm.eq.0) then"; nl ();
	printf " select case (res)"; nl ();
	printf " case (1) !!! Scalar isosinglet"; nl ();
	printf " w = 3.g2/32./Pi m3/vev2"; nl ();
	printf " case (2) !!! Scalar isoquintet"; nl ();
	printf " w = g*2/64./Pi m3/vev2"; nl ();
	printf " case (3) !!! Vector isotriplet"; nl ();
	printf " w = g*2/48./Pi m"; nl ();
	printf " case (4) !!! Tensor isosinglet"; nl ();
	printf " w = g*2/320./Pi m3/vev2"; nl ();
	printf " case (5) !!! Tensor isoquintet"; nl ();
	printf " w = g*2/1920./Pi m3/vev2"; nl ();
	printf " case default"; nl ();
	printf " w = 0"; nl ();
	printf " end select"; nl ();
	printf " else"; nl ();
	printf " w = w_wkm"; nl ();
	printf " end if"; nl ();
	printf " end if"; nl ();
	printf " end function width_res"; nl ();
	nl ();
	printf " %sfunction s0stu (s, m) result (s0)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: s0"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " s0 = 0"; nl ();
	printf " else"; nl ();
	printf " s0 = m2 - s/2 + m4/s * log(m2/(s+m2))"; nl ();
	printf " end if"; nl ();
	printf " end function s0stu"; nl();
	nl ();
	printf " %sfunction s1stu (s, m) result (s1)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: s1"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " s1 = 0"; nl ();
	printf " else"; nl ();
	printf " s1 = 2m4/s + s/6 + m4/s2(2m*2+s) &"; nl();
	printf " * log(m2/(s+m2))"; nl ();
	printf " end if"; nl ();
	printf " end function s1stu"; nl();
	nl ();
	printf " %sfunction s2stu (s, m) result (s2)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: s2"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " s2 = 0"; nl ();
	printf " else"; nl ();
	printf " s2 = m4/s2 * (6m2 + 3s) + &"; nl();
	printf " m4/s3 * (6m4 + 6m*2s + s**2) &"; nl();
	printf " * log(m2/(s+m2))"; nl ();
	printf " end if"; nl ();
	printf " end function s2stu"; nl();
	nl ();
	printf " !! %sfunction s3stu (s, m) result (s3)" pure; nl ();
	printf " !! real(kind=default), intent(in) :: s, m"; nl ();
	printf " !! real(kind=default) :: s3"; nl ();
	printf " !! if (m.ge.1.0e08) then"; nl ();
	printf " !! s3 = 0"; nl ();
	printf " !! else"; nl ();
	printf " !! s3 = m4/s3 * (60m4 + 60m*2s+11s*2) + &"; nl();
	printf " !! m4/s4 (2m*2+s) (10m*4 + 10m*2s + s**2) &"; nl();
	printf " !! * log(m2/(s+m2))"; nl ();
	printf " !! end if"; nl ();
	printf " !! end function s3stu"; nl();
	nl ();
	printf " %sfunction p0stu (s, m) result (p0)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: p0"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " p0 = 0"; nl ();
	printf " else"; nl ();
	printf " p0 = 1 + (2s+m2)log(m2/(s+m2))/s"; nl ();
	printf " end if"; nl ();
	printf " end function p0stu"; nl();
	nl ();
	printf " %sfunction p1stu (s, m) result (p1)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: p1"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " p1 = 0"; nl ();
	printf " else"; nl ();
	printf " p1 = (m*2 + 2s)/s*2 (2s+(2m**2+s) &"; nl();
	printf " * log(m2/(s+m2)))"; nl ();
	printf " end if"; nl ();
	printf " end function p1stu"; nl();
	nl ();
	printf " %sfunction d0stu (s, m) result (d0)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: d0"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " d0 = 0"; nl ();
	printf " else"; nl ();
	printf " d0 = (2m2+11s)/2 + (m*4+6m*2s+6s*2) &"; nl();
	printf " /s * log(m2/(s+m2))"; nl ();
	printf " end if"; nl ();
	printf " end function d0stu"; nl();
	nl ();
	printf " %sfunction d1stu (s, m) result (d1)" pure; nl ();
	printf " real(kind=default), intent(in) :: s, m"; nl ();
	printf " real(kind=default) :: d1"; nl ();
	printf " if (m.ge.1.0e08) then"; nl ();
	printf " d1 = 0"; nl ();
	printf " else"; nl ();
	printf " d1 = (s(12m*4 + 72m*2s + 73s*2) &"; nl();
	printf " + 6(2m*2 + s)(m*4 + 6m*2s + 6s*2) &"; nl();
	printf " * log(m2/(s+m2)))/6/s**2"; nl ();
	printf " end if"; nl ();
	printf " end function d1stu"; nl();
	nl ();
	printf " %sfunction da00 (cc, s, m) result (amp_00)" pure; nl ();
	printf " real(kind=default), intent(in) :: s"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: a00_0, a00_1, a00_a, a00_f"; nl ();
	printf " complex(kind=default), dimension(1:7) :: a00"; nl ();
	printf " complex(kind=default) :: ii, jj, amp_00"; nl ();
	printf " real(kind=default) :: kappal, kappam, kappat"; nl ();
	printf " ii = cmplx(0.0,1.0/32.0/Pi,default)"; nl ();
	printf " jj = s2/vev4*ii"; nl ();
	printf " kappal = cc(8)((mass(23)2+mass(24)2)/m(4)2-2mass(23)*2mass(24)2/m(4)4)"; nl ();
	printf " kappam = cc(8)((mass(23)4+mass(24)4)/m(4)2/(mass(23)2+mass(24)*2) &"; nl ();
	printf " - 2mass(23)2mass(24)2/m(4)4)"; nl ();
	printf " kappat = cc(8)mass(23)2mass(24)2/m(4)4"; nl ();
	printf " !!! Longitudinal"; nl ();
	printf " !!! Scalar isosinglet"; nl ();
	printf " a00(1) = -2.0 * cc(1)2/vev2 * s0stu(s,m(1)) "; nl ();
	printf " if (cc(1) /= 0) then"; nl ();
	printf " a00(1) = a00(1) - 3.0cc(1)2/vev2 &"; nl ();
	- printf " s2/cmplx(s-m(1)2,s2/m(1)3*width_res(w_res,1,wkm(1),m(1),cc(1)),default) "; nl ();
	+ printf " s2/cmplx(s-m(1)2,m(1)*width_res(w_res,1,wkm(1),m(1),cc(1)),default) "; nl ();
	printf " end if"; nl ();
	printf " !!! Scalar isoquintet"; nl ();
	printf " a00(2) = -5.0cc(2)2/vev2 s0stu(s,m(2)) / 3.0"; nl ();
	printf " !!! Vector isotriplet"; nl ();
	printf " a00(3) = -cc(3)*2(4.0p0stu(s,m(3)) + 6.0s/m(3)**2)"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a00(4) = -cc(4)2/vev2/3 * (d0stu(s,m(4)) &"; nl ();
	printf " - 2kappals0stu(s,m(4)))"; nl ();
	printf " if ( (cc(4) /= 0).and.(kappal /= 0)) then"; nl ();
	printf " a00(4) = a00(4) - cc(4)2/vev2kappal &"; nl ();
	- printf " s2/cmplx(s-m(4)2,s2/m(4)310kappal* width_res(w_res,4,wkm(4),m(4),cc(4)),default)"; nl ();
	+ printf " s2/cmplx(s-m(4)2,m(4)10kappal* width_res(w_res,4,wkm(4),m(4),cc(4)),default)"; nl ();
	printf " end if"; nl ();
	printf " !!! Tensor isoquintet"; nl ();
	printf " a00(5) = -5.0cc(5)2/vev2(d0stu(s,m(5)) &"; nl ();
	printf " /3.0)/6.0"; nl ();
	printf " !!! Transversal"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a00(6) = - cc(6)2/Pi/vev6mass(23)2mass(24)*2/4 s**2 &"; nl ();
	printf " * ((2-2s/m(4)2+s2/m(4)*4)+kappat/2 )"; nl ();
	printf " if (a00(6) /= 0) then"; nl ();
	printf " a00(6) = a00(6)/cmplx(s-m(4)*2, - w_res/32/Pi realpart(a00(6)),default) "; nl ();
	printf " end if"; nl ();
	printf " a00(6) = a00(6) - cc(6)2/Pi/vev6mass(23)2mass(24)*2/12 (s0stu(s,m(4)) &"; nl ();
	printf " * (3(1+2s/m(4)*2+2s2/m(4)4)+kappat ))"; nl ();
	printf " !!! Mixed"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a00(7) = - cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/4 * s**2 &"; nl ();
	printf " * ((1-4s/m(4)2+2s2/m(4)4)+kappam )"; nl ();
	printf " if (a00(7) /= 0) then"; nl ();
	printf " a00(7) = a00(7)/cmplx(s-m(4)*2, - w_res/32/Pi realpart(a00(7)),default) "; nl ();
	printf " end if"; nl ();
	printf " a00(7) = a00(7) - cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/12 * (s0stu(s,m(4)) &"; nl ();
	printf " * (12s/m(4)2+12s2/m(4)4+2*kappam ))"; nl ();
	printf " !!! Fudge-Higgs"; nl ();
	printf " a00_f = 2.fudge_higgss/vev**2"; nl ();
	printf " a00_f = a00_f !!! - 05.(1-ghvva)2/vev2mass(25)*2"; nl ();
	printf " !!! Low energy theory alphas"; nl ();
	printf " a00_0 = 8.(7.a4 + 11.a5)/3.s2/vev4"; nl ();
	printf " a00_1 = (25.log(lam_reg2/s)/9 + 11./54.0_default)s2/vev4"; nl ();
	printf " a00_a = a00_0 !!! + a00_1/16./Pi**2"; nl ();
	printf " !!! Unitarize"; nl ();
	printf " if (fudge_km /= 0) then"; nl ();
	printf " amp_00 = sum(a00)+a00_f+a00_a"; nl();
	printf " if (amp_00 /= 0) then"; nl ();
	printf " amp_00 = - a00_a - a00_f - part_r * (sum(a00) - a00(3)) + 1/(realpart(1/amp_00)-ii)"; nl();
	printf " end if"; nl ();
	printf " else"; nl ();
	printf " amp_00 = (1-part_r) * sum(a00) + part_r * a00(3) + a00_f"; nl ();
	printf " end if"; nl ();
	printf " amp_00 = vev4/s2 * amp_00"; nl ();
	printf " end function da00"; nl();
	nl ();
	printf " %sfunction da02 (cc, s, m) result (amp_02)" pure; nl ();
	printf " real(kind=default), intent(in) :: s"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: a02_0, a02_1, a02_a"; nl ();
	printf " complex(kind=default), dimension(1:7) :: a02"; nl ();
	printf " complex(kind=default) :: ii, jj, amp_02"; nl ();
	printf " real(kind=default) :: kappal, kappam, kappat"; nl ();
	printf " ii = cmplx(0.0,1.0/32.0/Pi,default)"; nl ();
	printf " jj = s2/vev4*ii"; nl ();
	printf " kappal = cc(8)((mass(23)2+mass(24)2)/m(4)2-2mass(23)*2mass(24)2/m(4)4)"; nl ();
	printf " kappam = cc(8)((mass(23)4+mass(24)4)/m(4)2/(mass(23)2+mass(24)*2) &"; nl ();
	printf " - 2mass(23)2mass(24)2/m(4)4)"; nl ();
	printf " kappat = cc(8)mass(23)2mass(24)2/m(4)4"; nl ();
	printf " !!! Longitudinal"; nl ();
	printf " !!! Scalar isosinglet"; nl ();
	printf " a02(1) = -2.0cc(1)2/vev2 s2stu(s,m(1))"; nl ();
	printf " !!! Scalar isoquintet"; nl ();
	printf " a02(2) = -5.0cc(2)2/vev2 s2stu(s,m(2)) / 3.0"; nl ();
	printf " !!! Vector isotriplet"; nl ();
	printf " a02(3) = -4.0cc(3)2(2s+m(3)2)s2stu(s,m(3))/m(3)**4"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a02(4) = - cc(4)2/vev2/3 * &"; nl ();
	printf " ((1.+6.s/m(4)2+6.s2/m(4)4)-2kappal) s2stu(s,m(4))"; nl ();
	printf " if (cc(4) /= 0) then"; nl ();
	printf " a02(4) = a02(4) - cc(4)2/vev2/10. &"; nl ();
	- printf " * s2/cmplx(s-m(4)2,s2/m(4)3*width_res(w_res,4,wkm(4),m(4),cc(4)),default)"; nl ();
	+ printf " * s2/cmplx(s-m(4)2,m(4)*width_res(w_res,4,wkm(4),m(4),cc(4)),default)"; nl ();
	printf " end if"; nl ();
	printf " !!! Tensor isoquintet"; nl ();
	printf " a02(5) = -cc(5)2/vev2(5.0(1.0+6.0* &"; nl ();
	printf " s/m(5)*2+6.0s2/m(5)4)*s2stu(s,m(5))/3.0 &"; nl ();
	printf " )/6.0"; nl ();
	printf " !!! Transversal"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a02(6) = - cc(6)2/Pi/vev6mass(23)2mass(24)*2/40 s**2"; nl ();
	printf " if (a02(6) /= 0) then"; nl ();
	printf " a02(6) = a02(6)/cmplx(s-m(4)*2, - w_res/32/Pi realpart(a02(6)),default) "; nl ();
	printf " end if"; nl ();
	printf " a02(6) = a02(6) - cc(6)2/Pi/vev6mass(23)2mass(24)*2/12 (s2stu(s,m(4)) &"; nl ();
	printf " * (3(1+2s/m(4)*2+2s2/m(4)4)+kappat ))"; nl ();
	printf " !!! Mixed"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a02(7) = - cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/20 &"; nl ();
	printf " * s**2"; nl ();
	printf " if (a02(7) /= 0) then"; nl ();
	printf " a02(7) = a02(7)/cmplx(s-m(4)*2, - w_res/32/Pi realpart(a02(7)),default) "; nl ();
	printf " end if"; nl ();
	printf " a02(7) = a02(7) - cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/12 * (s2stu(s,m(4)) &"; nl ();
	printf " * (12s/m(4)2+12s2/m(4)4+2*kappam ))"; nl ();
	printf " !!! Low energy theory alphas"; nl ();
	printf " a02_0 = (8.(2.a4 + a5)/15.) * s2/vev4"; nl ();
	printf " a02_1 = (log(lam_reg*2/s)/9. - 7./135.0_default) s2/vev4"; nl ();
	printf " a02_a = a02_0 !!! + a02_1/16/Pi**2"; nl ();
	printf " !!! Unitarize"; nl ();
	printf " if (fudge_km /= 0) then"; nl ();
	printf " amp_02 = sum(a02)+a02_a"; nl();
	printf " if (amp_02 /= 0) then"; nl ();
	printf " amp_02 = - a02_a - part_r * (sum(a02) - a02(3)) + 1/(realpart(1/amp_02)-ii)"; nl();
	printf " end if"; nl ();
	printf " else"; nl ();
	printf " amp_02 = (1-part_r) * sum(a02) + part_r * a02(3)"; nl ();
	printf " end if"; nl ();
	printf " amp_02 = vev4/s2 * amp_02"; nl ();
	printf " end function da02"; nl();
	nl ();
	printf " %sfunction da11 (cc, s, m) result (amp_11)" pure; nl ();
	printf " real(kind=default), intent(in) :: s"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: a11_0, a11_1, a11_a, a11_f"; nl ();
	printf " complex(kind=default), dimension(1:7) :: a11"; nl ();
	printf " complex(kind=default) :: ii, jj, amp_11"; nl ();
	printf " real(kind=default) :: kappal, kappam, kappat"; nl ();
	printf " ii = cmplx(0.0,1.0/32.0/Pi,default)"; nl ();
	printf " jj = s2/vev4*ii"; nl ();
	printf " kappal = cc(8)((mass(23)2+mass(24)2)/m(4)2-2mass(23)*2mass(24)2/m(4)4)"; nl ();
	printf " kappam = cc(8)((mass(23)4+mass(24)4)/m(4)2/(mass(23)2+mass(24)*2) &"; nl ();
	printf " - 2mass(23)2mass(24)2/m(4)4)"; nl ();
	printf " kappat = cc(8)mass(23)2mass(24)2/m(4)4"; nl ();
	printf " !!! Longitudinal"; nl ();
	printf " !!! Scalar isosinglet"; nl ();
	printf " a11(1) = - 2.0cc(1)2/vev2 s1stu(s,m(1))"; nl ();
	printf " !!! Scalar isoquintet"; nl ();
	printf " a11(2) = 5.0cc(2)2/vev2 s1stu(s,m(2)) / 6.0"; nl ();
	printf " !!! Vector isotriplet"; nl ();
	printf " a11(3) = - cc(3)*2 &"; nl ();
	printf " (s/m(3)*2 + 2. p1stu(s,m(3)))"; nl ();
	printf " if (cc(3) /= 0) then"; nl ();
	printf " a11(3) = a11(3) -2./3. * cc(3)*2 &"; nl ();
	- printf " s/cmplx(s-m(3)*2,s/m(3)width_res(w_res,3,wkm(3),m(3),cc(3)),default) "; nl ();
	+ printf " s/cmplx(s-m(3)*2,m(3)width_res(w_res,3,wkm(3),m(3),cc(3)),default) "; nl ();
	printf " end if"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a11(4) = - cc(4)2/vev2(d1stu(s,m(4)-2kappal*s1stu(s,m(4))) &"; nl ();
	printf " /3.0)"; nl ();
	printf " !!! Tensor isoquintet"; nl ();
	printf " a11(5) = 5.0cc(5)2/vev2(d1stu(s,m(5)) &"; nl ();
	printf " )/36.0"; nl ();
	printf " !!! Transversal"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a11(6) = -cc(6)2/Pi/vev6mass(23)2mass(24)*2/12 (s1stu(s,m(4)) * &"; nl ();
	printf " (3(1+2s/m(4)*2+2s2/m(4)4)+kappat ) - (s/m(4)2+s2/m(4)*4)s)"; nl ();
	printf " !!! Mixed"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a11(7) = -cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/12 * (s1stu(s,m(4)) &"; nl ();
	printf " * (12s/m(4)2+12s2/m(4)4+2kappam ) - 2(s/m(4)2+s2/m(4)*4)s)"; nl ();
	printf " !!! Fudge-Higgs"; nl ();
	printf " a11_f = fudge_higgss/3./vev*2"; nl ();
	printf " !!! Low energy theory alphas"; nl ();
	printf " a11_0 = 4.(a4 - 2a5)/3. * s2/vev4 "; nl ();
	printf " a11_1 = - 1.0/54.0_default * s2/vev4"; nl ();
	printf " a11_a = a11_0 !!! + a11_1/16/Pi**2"; nl ();
	printf " !!! Unitarize"; nl ();
	printf " if (fudge_km /= 0) then"; nl ();
	printf " amp_11 = sum(a11)+a11_f+a11_a"; nl();
	printf " if (amp_11 /= 0) then"; nl ();
	printf " amp_11 = - a11_a - part_r * (sum(a11) - a11(3)) + 1/(realpart(1/amp_11)-ii)"; nl();
	printf " end if"; nl ();
	printf " else"; nl ();
	printf " amp_11 = (1-part_r) * sum(a11) + part_r * a11(3) + a11_f"; nl ();
	printf " end if"; nl ();
	printf " amp_11 = vev4/s2 * amp_11"; nl ();
	printf " end function da11"; nl();
	nl ();
	printf " %sfunction da20 (cc, s, m) result (amp_20)" pure; nl ();
	printf " real(kind=default), intent(in) :: s"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: a20_0, a20_1, a20_a, a20_f"; nl ();
	printf " complex(kind=default), dimension(1:7) :: a20"; nl ();
	printf " complex(kind=default) :: ii, jj, amp_20"; nl ();
	printf " real(kind=default) :: kappal, kappam, kappat"; nl ();
	printf " ii = cmplx(0.0,1.0/32.0/Pi,default)"; nl ();
	printf " jj = s2/vev4*ii"; nl ();
	printf " !!! Scalar isosinglet"; nl ();
	printf " kappal = cc(8)((mass(23)2+mass(24)2)/m(4)2-2mass(23)*2mass(24)2/m(4)4)"; nl ();
	printf " kappam = cc(8)((mass(23)4+mass(24)4)/m(4)2/(mass(23)2+mass(24)*2) &"; nl ();
	printf " - 2mass(23)2mass(24)2/m(4)4)"; nl ();
	printf " kappat = cc(8)mass(23)2mass(24)2/m(4)4"; nl ();
	printf " !!! Longitudinal"; nl ();
	printf " a20(1) = -2.0cc(1)2/vev2 s0stu(s,m(1))"; nl ();
	printf " !!! Scalar isoquintet"; nl ();
	printf " a20(2) = - cc(2)2/vev2/6. * s0stu(s,m(2))"; nl ();
	printf " if (cc(2) /= 0) then"; nl ();
	printf " a20(2) = a20(2) - cc(2)2/vev2/2. *&"; nl ();
	- printf " s2/cmplx(s-m(2)2,s2/m(2)3*width_res(w_res,2,wkm(2),m(2),cc(2)),default)"; nl ();
	+ printf " s2/cmplx(s-m(2)2,m(2)*width_res(w_res,2,wkm(2),m(2),cc(2)),default)"; nl ();
	printf " end if"; nl ();
	printf " !!! Vector isotriplet"; nl ();
	printf " a20(3) = cc(3)*2(2.0p0stu(s,m(3)) + 3.0s/m(3)**2)"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a20(4) = - cc(4)2/vev2(d0stu(s,m(4)-2kappal*s0stu(s,m(4))) &"; nl ();
	printf " /3.0)"; nl ();
	printf " !!! Tensor isoquintet"; nl ();
	printf " a20(5) = - cc(5)2/vev2*(d0stu(s,m(5)) &"; nl ();
	printf " )/36.0"; nl ();
	printf " !!! Transversal"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a20(6) = -cc(6)2/Pi/vev6mass(23)2mass(24)*2/12 (s0stu(s,m(4)) &"; nl ();
	printf " * (3(1+2s/m(4)*2+2s2/m(4)4)+kappat ) - 3(s/m(4)2-s2/m(4)4)s)"; nl ();
	printf " !!! Mixed"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a20(7) = -cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/12 * (s0stu(s,m(4)) &"; nl ();
	printf " * (12s/m(4)2+12s2/m(4)4+2kappam ) - 6(s/m(4)2-s2/m(4)*4)s)"; nl ();
	printf " !!! Fudge-Higgs"; nl ();
	printf " a20_f = - fudge_higgss/vev*2"; nl ();
	printf " a20_f = a20_f - 02(1-ghvva)2/vev2mass(25)*2"; nl ();
	printf " !!! Low energy theory alphas"; nl ();
	printf " a20_0 = 16(2a4 + a5)/3s2/vev*4"; nl ();
	printf " a20_1 = (10log(lam_reg2/s)/9 + 25/108.0_default) s2/vev4"; nl ();
	printf " a20_a = a20_0 !!! + a20_1/16/Pi**2"; nl ();
	printf " !!! Unitarize"; nl ();
	printf " if (fudge_km /= 0) then"; nl ();
	printf " amp_20 = sum(a20)+a20_f+a20_a"; nl();
	printf " if (amp_20 /= 0) then"; nl ();
	printf " amp_20 = - a20_a - a20_f - part_r * (sum(a20) - a20(3)) + 1/(realpart(1/amp_20)-ii)"; nl();
	printf " end if"; nl ();
	printf " else"; nl ();
	printf " amp_20 = (1-part_r) * sum(a20) + part_r * a20(3) + a20_f"; nl ();
	printf " end if"; nl ();
	printf " amp_20 = vev4/s2 * amp_20"; nl ();
	printf " end function da20"; nl();
	nl ();
	printf " %sfunction da22 (cc, s, m) result (amp_22)" pure; nl ();
	printf " real(kind=default), intent(in) :: s"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: a22_0, a22_1, a22_a, a22_r"; nl ();
	printf " complex(kind=default), dimension(1:7) :: a22"; nl ();
	printf " complex(kind=default) :: ii, jj, amp_22"; nl ();
	printf " real(kind=default) :: kappal, kappam, kappat"; nl ();
	printf " ii = cmplx(0.0,1.0/32.0/Pi,default)"; nl ();
	printf " jj = s2/vev4*ii"; nl ();
	printf " kappal = cc(8)((mass(23)2+mass(24)2)/m(4)2-2mass(23)*2mass(24)2/m(4)4)"; nl ();
	printf " kappam = cc(8)((mass(23)4+mass(24)4)/m(4)2/(mass(23)2+mass(24)*2) &"; nl ();
	printf " - 2mass(23)2mass(24)2/m(4)4)"; nl ();
	printf " kappat = cc(8)mass(23)2mass(24)2/m(4)4"; nl ();
	printf " !!! Longitudinal"; nl ();
	printf " !!! Scalar isosinglet"; nl ();
	printf " a22(1) = - 2.0cc(1)2/vev2 s2stu(s,m(1))"; nl ();
	printf " !!! Scalar isoquintet"; nl ();
	printf " a22(2) = - cc(2)2/vev2 * s2stu(s,m(2)) / 6.0"; nl ();
	printf " !!! Vector triplet"; nl ();
	printf " a22(3) = 2.0cc(3)2(2s+m(3)2)s2stu(s,m(3))/m(3)**4"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a22(4) = - cc(4)2/vev2((1.0 + 6.0s/m(4)**2 &"; nl ();
	printf " +6.0s2/m(4)4-2kappal)*s2stu(s,m(4))/3.0)"; nl ();
	printf " !!! Tensor isoquintet"; nl ();
	printf " a22(5) = - cc(5)2/vev2/36. * &"; nl ();
	printf " ((1.+6.s/m(5)2+6.s2/m(5)4 ) &"; nl ();
	printf " * s2stu(s,m(5)))"; nl ();
	printf " if (cc(5) /= 0) then"; nl ();
	printf " a22(5) = a22(5) - cc(5)2/vev2/60 * &"; nl ();
	- printf " s2/cmplx(s-m(5)2,s2/m(5)3*width_res(w_res,5,wkm(5),m(5),cc(5)),default)"; nl ();
	+ printf " s2/cmplx(s-m(5)2,m(5)*width_res(w_res,5,wkm(5),m(5),cc(5)),default)"; nl ();
	printf " end if"; nl ();
	printf " !!! Transversal"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a22(6) = -cc(6)2/Pi/vev6mass(23)2mass(24)*2/12 (s2stu(s,m(4)) &"; nl ();
	printf " * (3(1+2s/m(4)*2+2s2/m(4)4)+kappat ))"; nl ();
	printf " !!! Mixed"; nl ();
	printf " !!! Tensor isosinglet"; nl ();
	printf " a22(7) = -cc(7)cc(6)cc(4)/Pi/vev*4(mass(23)2+mass(24)2)/12 * (s2stu(s,m(4)) &"; nl ();
	printf " * (12s/m(4)2+12s2/m(4)4+2*kappam ))"; nl ();
	printf " !!! Low energy theory alphas"; nl ();
	printf " a22_0 = 4(a4 + 2a5)/15s2/vev*4 "; nl ();
	printf " a22_1 = (2log(lam_reg2/s)/45 - 247/5400.0_default)s2/vev4"; nl ();
	printf " a22_a = a22_0 !!! + a22_1/16/Pi**2"; nl ();
	printf " !!! Unitarize"; nl ();
	printf " if (fudge_km /= 0) then"; nl ();
	printf " amp_22 = sum(a22)+a22_a"; nl();
	printf " if (amp_22 /= 0) then"; nl ();
	printf " amp_22 = - a22_a - part_r * (sum(a22) - a22(3)) + 1/(realpart(1/amp_22)-ii)"; nl();
	printf " end if"; nl ();
	printf " else"; nl ();
	printf " amp_22 = (1-part_r) * sum(a22) + part_r * a22(3)"; nl ();
	printf " end if"; nl ();
	printf " amp_22 = vev4/s2 * amp_22"; nl ();
	printf " end function da22"; nl();
	nl ();
	printf " %sfunction dalzz0_s (cc,m,k) result (alzz0_s)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alzz0_s"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alzz0_s = 2g4/costhw2((da00(cc,s,m) &"; nl ();
	printf " - da20(cc,s,m))/24 &"; nl ();
	printf " - (5.)*(da02(cc,s,m) - da22(cc,s,m))/12)"; nl ();
	printf " end function dalzz0_s"; nl ();
	nl ();
	printf " %sfunction dalzz0_t (cc,m,k) result (alzz0_t)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alzz0_t"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alzz0_t = (5.)g4/costhw2(da02(cc,s,m) - &"; nl ();
	printf " da22(cc,s,m))/4"; nl ();
	printf " end function dalzz0_t"; nl ();
	nl ();
	printf " %sfunction dalzz1_s (cc,m,k) result (alzz1_s)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alzz1_s"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alzz1_s = g4/costhw2*(da20(cc,s,m)/8 &"; nl ();
	printf " - (5.)*da22(cc,s,m)/4)"; nl ();
	printf " end function dalzz1_s"; nl ();
	nl ();
	printf " %sfunction dalzz1_t (cc,m,k) result (alzz1_t)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alzz1_t"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alzz1_t = g4/costhw2(- (3.)da11(cc,s,m)/8 &"; nl ();
	printf " + 3(5.)da22(cc,s,m)/8)"; nl ();
	printf " end function dalzz1_t"; nl ();
	nl ();
	printf " %sfunction dalzz1_u (cc,m,k) result (alzz1_u)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alzz1_u"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alzz1_u = g4/costhw2((3.)da11(cc,s,m)/8 &"; nl ();
	printf " + 3(5.)da22(cc,s,m)/8)"; nl ();
	printf " end function dalzz1_u"; nl ();
	nl ();
	printf " %sfunction dalww0_s (cc,m,k) result (alww0_s)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alww0_s"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alww0_s = g*4((2*da00(cc,s,m) + da20(cc,s,m))/24 &"; nl ();
	printf " - (5.)(2da02(cc,s,m) + da22(cc,s,m))/12)"; nl ();
	printf " end function dalww0_s"; nl ();
	nl ();
	printf " %sfunction dalww0_t (cc,m,k) result (alww0_t)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alww0_t"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alww0_t = g*4(2(5.)da02(cc,s,m) - (3.)*da11(cc,s,m) &"; nl ();
	printf " + (5.)*da22(cc,s,m))/8"; nl ();
	printf " end function dalww0_t"; nl ();
	nl ();
	printf " %sfunction dalww0_u (cc,m,k) result (alww0_u)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alww0_u"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alww0_u = g*4(2(5.)da02(cc,s,m) + (3.)*da11(cc,s,m) &"; nl ();
	printf " + (5.)*da22(cc,s,m))/8"; nl ();
	printf " end function dalww0_u"; nl ();
	nl ();
	printf " %sfunction dalww2_s (cc,m,k) result (alww2_s)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alww2_s"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alww2_s = g*4(da20(cc,s,m) - 2(5.)da22(cc,s,m))/4 "; nl ();
	printf " end function dalww2_s"; nl ();
	nl ();
	printf " %sfunction dalww2_t (cc,m,k) result (alww2_t)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alww2_t"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alww2_t = 3(5.)g*4da22(cc,s,m)/4"; nl ();
	printf " end function dalww2_t"; nl ();
	nl ();
	printf " %sfunction dalz4_s (cc,m,k) result (alz4_s)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alz4_s"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alz4_s = g4/costhw4*((da00(cc,s,m) &"; nl ();
	printf " + 2*da20(cc,s,m))/12 &"; nl ();
	printf " - (5.)(da02(cc,s,m)+2da22(cc,s,m))/6)"; nl ();
	printf " end function dalz4_s"; nl ();
	nl ();
	printf " @[<5>";
	printf " %sfunction dalz4_t (cc,m,k) result (alz4_t)" pure; nl ();
	printf " type(momentum), intent(in) :: k"; nl ();
	printf " real(kind=default), dimension(1:8), intent(in) :: cc"; nl ();
	printf " real(kind=default), dimension(1:5), intent(in) :: m"; nl ();
	printf " complex(kind=default) :: alz4_t"; nl ();
	printf " real(kind=default) :: s"; nl ();
	printf " s = k*k"; nl ();
	printf " alz4_t = g4/costhw4(5.)(da02(cc,s,m) &"; nl ();
	printf " + 2*da22(cc,s,m))/4"; nl ();
	printf " end function dalz4_t"; nl ();
	nl ();
	end

	(*i
	* Local Variables:
	* mode:caml
	* indent-tabs-mode:nil
	* page-delimiter:"^(\\* .*\n"
	* End:
	i*)

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