From 7449c12a9f5976d5d9eff74ea4a43741a64e8cb3 Mon Sep 17 00:00:00 2001 From: cott Date: Sun, 24 Oct 2010 13:33:35 +0000 Subject: * add missing routine (sorry!) git-svn-id: http://svn.einsteintoolkit.org/cactus/EinsteinEOS/EOS_Omni/EOS_Omni@10 8e189c6b-2ab8-4400-aa02-70a9cfce18b9 --- src/nuc_eos/linterp.f | 132 +++++++++++++++++++++++++++++++++++++++++++++ src/nuc_eos/make.code.defn | 3 +- 2 files changed, 134 insertions(+), 1 deletion(-) create mode 100644 src/nuc_eos/linterp.f (limited to 'src') diff --git a/src/nuc_eos/linterp.f b/src/nuc_eos/linterp.f new file mode 100644 index 0000000..282d090 --- /dev/null +++ b/src/nuc_eos/linterp.f @@ -0,0 +1,132 @@ + SUBROUTINE intp3d ( x, y, z, f, kt, ft, nx, ny, nz, xt, yt, zt, + . d1, d2, d3 ) +c + implicit none +c +c--------------------------------------------------------------------- +c +c purpose: interpolation of a function of three variables in an +c equidistant(!!!) table. +c +c method: 8-point Lagrange linear interpolation formula +c +c x input vector of first variable +c y input vector of second variable +c z input vector of third variable +c +c f output vector of interpolated function values +c +c kt vector length of input and output vectors +c +c ft 3d array of tabulated function values +c nx x-dimension of table +c ny y-dimension of table +c nz z-dimension of table +c xt vector of x-coordinates of table +c yt vector of y-coordinates of table +c zt vector of z-coordinates of table +c +c d1 centered derivative of ft with respect to x +c d2 centered derivative of ft with respect to y +c d3 centered derivative of ft with respect to z +c Note that d? only make sense when intp3d is called with kt=1 +c--------------------------------------------------------------------- +c +c + +c + integer kt,nx,ny,nz,ktx + double precision x(kt),y(kt),z(kt),f(kt) + double precision xt(nx),yt(ny),zt(nz) + double precision ft(nx,ny,nz) + double precision d1,d2,d3 +c +c + PARAMETER (ktx = 400) + double precision fh(ktx,8), delx(ktx), dely(ktx), delz(ktx), + & a1(ktx), a2(ktx), a3(ktx), a4(ktx), + & a5(ktx), a6(ktx), a7(ktx), a8(ktx) + + double precision dx,dy,dz,dxi,dyi,dzi,dxyi,dxzi,dyzi,dxyzi + integer n,ix,iy,iz + + IF (kt .GT. ktx) STOP'***KTX**' +c +c +c------ determine spacing parameters of (equidistant!!!) table +c + dx = (xt(nx) - xt(1)) / FLOAT(nx-1) + dy = (yt(ny) - yt(1)) / FLOAT(ny-1) + dz = (zt(nz) - zt(1)) / FLOAT(nz-1) +c + dxi = 1. / dx + dyi = 1. / dy + dzi = 1. / dz +c + dxyi = dxi * dyi + dxzi = dxi * dzi + dyzi = dyi * dzi +c + dxyzi = dxi * dyi * dzi +c +c +c------- loop over all points to be interpolated +c + DO n = 1, kt +c +c------- determine location in (equidistant!!!) table +c + ix = 2 + INT( (x(n) - xt(1) - 1.e-10) * dxi ) + iy = 2 + INT( (y(n) - yt(1) - 1.e-10) * dyi ) + iz = 2 + INT( (z(n) - zt(1) - 1.e-10) * dzi ) +c + ix = MAX( 2, MIN( ix, nx ) ) + iy = MAX( 2, MIN( iy, ny ) ) + iz = MAX( 2, MIN( iz, nz ) ) +c +c write(*,*) iy-1,iy,iy+1 +c +c------- set-up auxiliary arrays for Lagrange interpolation +c + delx(n) = xt(ix) - x(n) + dely(n) = yt(iy) - y(n) + delz(n) = zt(iz) - z(n) +c + fh(n,1) = ft(ix , iy , iz ) + fh(n,2) = ft(ix-1, iy , iz ) + fh(n,3) = ft(ix , iy-1, iz ) + fh(n,4) = ft(ix , iy , iz-1) + fh(n,5) = ft(ix-1, iy-1, iz ) + fh(n,6) = ft(ix-1, iy , iz-1) + fh(n,7) = ft(ix , iy-1, iz-1) + fh(n,8) = ft(ix-1, iy-1, iz-1) +c +c------ set up coefficients of the interpolation polynomial and +c evaluate function values +c + a1(n) = fh(n,1) + a2(n) = dxi * ( fh(n,2) - fh(n,1) ) + a3(n) = dyi * ( fh(n,3) - fh(n,1) ) + a4(n) = dzi * ( fh(n,4) - fh(n,1) ) + a5(n) = dxyi * ( fh(n,5) - fh(n,2) - fh(n,3) + fh(n,1) ) + a6(n) = dxzi * ( fh(n,6) - fh(n,2) - fh(n,4) + fh(n,1) ) + a7(n) = dyzi * ( fh(n,7) - fh(n,3) - fh(n,4) + fh(n,1) ) + a8(n) = dxyzi * ( fh(n,8) - fh(n,1) + fh(n,2) + fh(n,3) + + & fh(n,4) - fh(n,5) - fh(n,6) - fh(n,7) ) +c + d1 = -a2(n) + d2 = -a3(n) + d3 = -a4(n) + f(n) = a1(n) + a2(n) * delx(n) + & + a3(n) * dely(n) + & + a4(n) * delz(n) + & + a5(n) * delx(n) * dely(n) + & + a6(n) * delx(n) * delz(n) + & + a7(n) * dely(n) * delz(n) + & + a8(n) * delx(n) * dely(n) * delz(n) +c + ENDDO +c + RETURN + END + diff --git a/src/nuc_eos/make.code.defn b/src/nuc_eos/make.code.defn index 9be5ee3..59c8118 100644 --- a/src/nuc_eos/make.code.defn +++ b/src/nuc_eos/make.code.defn @@ -1,5 +1,6 @@ SRCS = eosmodule.F90 nuc_eos.F90 bisection.F90 \ - findtemp.F90 linterp_many.F90 readtable.F90 + findtemp.F90 linterp_many.F90 readtable.F90 \ + linterp.f SUBDIRS = -- cgit v1.2.3