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420 lines
13 KiB
C
420 lines
13 KiB
C
/*----------------------------------------------------------------------------------*/
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/* Parallel Sparse BLAS v 3.5.0 */
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/* (C) Copyright 2017 Salvatore Filippone */
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/* */
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/* Redistribution and use in source and binary forms, with or without */
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/* modification, are permitted provided that the following conditions */
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/* are met: */
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/* 1. Redistributions of source code must retain the above copyright */
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/* notice, this list of conditions and the following disclaimer. */
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/* 2. Redistributions in binary form must reproduce the above copyright */
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/* notice, this list of conditions, and the following disclaimer in the */
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/* documentation and/or other materials provided with the distribution. */
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/* 3. The name of the PSBLAS group or the names of its contributors may */
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/* not be used to endorse or promote products derived from this */
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/* software without specific written permission. */
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/* */
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/* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS */
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/* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED */
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/* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR */
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/* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS */
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/* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR */
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/* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF */
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/* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS */
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/* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN */
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/* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) */
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/* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE */
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/* POSSIBILITY OF SUCH DAMAGE. */
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/* */
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/* */
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/* File: ppdec.c */
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/* */
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/* Program: ppdec */
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/* This sample program shows how to build and solve a sparse linear */
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/* */
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/* The program solves a linear system based on the partial differential */
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/* equation */
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/* */
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/* */
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/* */
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/* The equation generated is */
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/* */
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/* b1 d d (u) b2 d d (u) a1 d (u)) a2 d (u))) */
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/* - ------ - ------ + ----- + ------ + a3 u = 0 */
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/* dx dx dy dy dx dy */
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/* */
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/* */
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/* with Dirichlet boundary conditions on the unit cube */
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/* */
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/* 0<=x,y,z<=1 */
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/* */
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/* The equation is discretized with finite differences and uniform stepsize; */
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/* the resulting discrete equation is */
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/* */
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/* ( u(x,y,z)(2b1+2b2+a1+a2)+u(x-1,y)(-b1-a1)+u(x,y-1)(-b2-a2)+ */
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/* -u(x+1,y)b1-u(x,y+1)b2)*(1/h**2) */
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/* */
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/* Example adapted from: C.T.Kelley */
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/* Iterative Methods for Linear and Nonlinear Equations */
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/* SIAM 1995 */
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/* */
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/* */
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/* In this sample program the index space of the discretized */
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/* computational domain is first numbered sequentially in a standard way, */
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/* then the corresponding vector is distributed according to an HPF BLOCK */
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/* distribution directive. The discretization ensures there are IDIM */
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/* *internal* points in each direction. */
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/* */
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/*----------------------------------------------------------------------------------*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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#include "psb_base_cbind.h"
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#include "psb_prec_cbind.h"
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#include "psb_krylov_cbind.h"
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#define LINEBUFSIZE 1024
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#define NBMAX 20
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#define DUMPMATRIX 0
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double a1(double x, double y, double z)
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{
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return(1.0/80.0);
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}
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double a2(double x, double y, double z)
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{
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return(1.0/80.0);
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}
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double a3(double x, double y, double z)
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{
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return(1.0/80.0);
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}
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double c(double x, double y, double z)
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{
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return(0.0);
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}
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double b1(double x, double y, double z)
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{
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return(0.0/sqrt(3.0));
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}
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double b2(double x, double y, double z)
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{
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return(0.0/sqrt(3.0));
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}
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double b3(double x, double y, double z)
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{
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return(0.0/sqrt(3.0));
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}
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double g(double x, double y, double z)
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{
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if (x == 1.0) {
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return(1.0);
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} else if (x == 0.0) {
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return( exp(-y*y-z*z));
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} else {
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return(0.0);
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}
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}
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psb_i_t matgen(psb_c_ctxt cctxt, psb_i_t nl, psb_i_t idim, psb_l_t vl[],
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psb_c_dspmat *ah,psb_c_descriptor *cdh,
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psb_c_dvector *xh, psb_c_dvector *bh, psb_c_dvector *rh)
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{
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psb_i_t iam, np;
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psb_l_t ix, iy, iz, el,glob_row;
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psb_i_t i, k, info,ret;
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double x, y, z, deltah, sqdeltah, deltah2;
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double val[10*NBMAX], zt[NBMAX];
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psb_l_t irow[10*NBMAX], icol[10*NBMAX];
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info = 0;
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psb_c_info(cctxt,&iam,&np);
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deltah = (double) 1.0/(idim+1);
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sqdeltah = deltah*deltah;
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deltah2 = 2.0* deltah;
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psb_c_set_index_base(0);
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for (i=0; i<nl; i++) {
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glob_row=vl[i];
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//if ((i%100000 == 0)||(i<10)) fprintf(stderr,"%d: generation loop at %d %ld \n",iam,i,glob_row);
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el=0;
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ix = glob_row/(idim*idim);
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iy = (glob_row-ix*idim*idim)/idim;
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iz = glob_row-ix*idim*idim-iy*idim;
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x=(ix+1)*deltah;
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y=(iy+1)*deltah;
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z=(iz+1)*deltah;
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zt[0] = 0.0;
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/* internal point: build discretization */
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/* term depending on (x-1,y,z) */
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val[el] = -a1(x,y,z)/sqdeltah-b1(x,y,z)/deltah2;
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if (ix==0) {
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zt[0] += g(0.0,y,z)*(-val[el]);
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} else {
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icol[el]=(ix-1)*idim*idim+(iy)*idim+(iz);
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el=el+1;
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}
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/* term depending on (x,y-1,z) */
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val[el] = -a2(x,y,z)/sqdeltah-b2(x,y,z)/deltah2;
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if (iy==0) {
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zt[0] += g(x,0.0,z)*(-val[el]);
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} else {
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icol[el]=(ix)*idim*idim+(iy-1)*idim+(iz);
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el=el+1;
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}
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/* term depending on (x,y,z-1)*/
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val[el]=-a3(x,y,z)/sqdeltah-b3(x,y,z)/deltah2;
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if (iz==0) {
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zt[0] += g(x,y,0.0)*(-val[el]);
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} else {
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icol[el]=(ix)*idim*idim+(iy)*idim+(iz-1);
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el=el+1;
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}
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/* term depending on (x,y,z)*/
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val[el]=2.0*(a1(x,y,z)+a2(x,y,z)+a3(x,y,z))/sqdeltah + c(x,y,z);
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icol[el]=(ix)*idim*idim+(iy)*idim+(iz);
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el=el+1;
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/* term depending on (x,y,z+1) */
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val[el] = -a3(x,y,z)/sqdeltah+b3(x,y,z)/deltah2;
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if (iz==idim-1) {
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zt[0] += g(x,y,1.0)*(-val[el]);
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} else {
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icol[el]=(ix)*idim*idim+(iy)*idim+(iz+1);
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el=el+1;
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}
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/* term depending on (x,y+1,z) */
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val[el] = -a2(x,y,z)/sqdeltah+b2(x,y,z)/deltah2;
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if (iy==idim-1) {
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zt[0] += g(x,1.0,z)*(-val[el]);
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} else {
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icol[el]=(ix)*idim*idim+(iy+1)*idim+(iz);
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el=el+1;
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}
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/* term depending on (x+1,y,z) */
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val[el] = -a1(x,y,z)/sqdeltah+b1(x,y,z)/deltah2;
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if (ix==idim-1) {
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zt[0] += g(1.0,y,z)*(-val[el]);
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} else {
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icol[el]=(ix+1)*idim*idim+(iy)*idim+(iz);
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el=el+1;
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}
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for (k=0; k<el; k++) irow[k]=glob_row;
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if ((ret=psb_c_dspins(el,irow,icol,val,ah,cdh))!=0)
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fprintf(stderr,"From psb_c_dspins: %d\n",ret);
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irow[0] = glob_row;
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psb_c_dgeins(1,irow,zt,bh,cdh);
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zt[0]=0.0;
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psb_c_dgeins(1,irow,zt,xh,cdh);
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}
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if ((info=psb_c_cdasb(cdh))!=0) return(info);
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if ((info=psb_c_dspasb(ah,cdh))!=0) return(info);
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if ((info=psb_c_dgeasb(xh,cdh))!=0) return(info);
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if ((info=psb_c_dgeasb(bh,cdh))!=0) return(info);
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if ((info=psb_c_dgeasb(rh,cdh))!=0) return(info);
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return(info);
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}
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int main(int argc, char *argv[])
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{
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psb_c_ctxt *cctxt;
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psb_i_t iam, np;
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char methd[40], ptype[20], afmt[8], buffer[LINEBUFSIZE+1];
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psb_i_t nparms;
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psb_i_t idim,info,istop,itmax,itrace,irst,iter,ret;
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psb_c_dprec *ph;
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psb_c_dspmat *ah;
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psb_c_dvector *bh, *xh, *rh;
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psb_i_t nb,nlr, nl;
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psb_l_t i,ng, *vl, k;
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double t1,t2,eps,err;
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double *xv, *bv, *rv;
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double one=1.0, zero=0.0, res2;
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psb_c_SolverOptions options;
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psb_c_descriptor *cdh;
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FILE *vectfile;
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cctxt = psb_c_new_ctxt();
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psb_c_init(cctxt);
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psb_c_info(*cctxt,&iam,&np);
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psb_c_barrier(*cctxt);
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if (iam == 0) {
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d ",&nparms);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%s",methd);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%s",ptype);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%s",afmt);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d",&idim);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d",&istop);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d",&itmax);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d",&itrace);
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fgets(buffer,LINEBUFSIZE,stdin);
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sscanf(buffer,"%d",&irst);
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}
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/* Now broadcast the values, and check they're OK */
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psb_c_ibcast(*cctxt,1,&nparms,0);
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psb_c_hbcast(*cctxt,methd,0);
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psb_c_hbcast(*cctxt,ptype,0);
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psb_c_hbcast(*cctxt,afmt,0);
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psb_c_ibcast(*cctxt,1,&idim,0);
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psb_c_ibcast(*cctxt,1,&istop,0);
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psb_c_ibcast(*cctxt,1,&itmax,0);
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psb_c_ibcast(*cctxt,1,&itrace,0);
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psb_c_ibcast(*cctxt,1,&irst,0);
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fprintf(stderr,"%d Check on received: methd %s ptype %s afmt %s\n",
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iam,methd,ptype,afmt);
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fflush(stderr);
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psb_c_barrier(*cctxt);
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cdh=psb_c_new_descriptor();
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psb_c_set_index_base(0);
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/* Simple minded BLOCK data distribution */
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ng = ((psb_l_t) idim)*idim*idim;
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nb = (ng+np-1)/np;
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nl = nb;
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if ( (ng -iam*nb) < nl) nl = ng -iam*nb;
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fprintf(stderr,"%d: Input data %d %ld %d %d\n",iam,idim,ng,nb, nl);
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if ((vl=malloc(nb*sizeof(psb_l_t)))==NULL) {
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fprintf(stderr,"On %d: malloc failure\n",iam);
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psb_c_abort(*cctxt);
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}
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i = ((psb_l_t)iam) * nb;
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for (k=0; k<nl; k++)
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vl[k] = i+k;
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if ((info=psb_c_cdall_vl(nl,vl,*cctxt,cdh))!=0) {
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fprintf(stderr,"From cdall: %d\nBailing out\n",info);
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psb_c_abort(*cctxt);
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}
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bh = psb_c_new_dvector();
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xh = psb_c_new_dvector();
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rh = psb_c_new_dvector();
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ah = psb_c_new_dspmat();
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//fprintf(stderr,"From psb_c_new_dspmat: %p\n",ah);
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/* Allocate mem space for sparse matrix and vectors */
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ret=psb_c_dspall(ah,cdh);
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//fprintf(stderr,"From psb_c_dspall: %d\n",ret);
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psb_c_dgeall(bh,cdh);
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psb_c_dgeall(xh,cdh);
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psb_c_dgeall(rh,cdh);
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/* Matrix generation */
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if (matgen(*cctxt,nl,idim,vl,ah,cdh,xh,bh,rh) != 0) {
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fprintf(stderr,"Error during matrix build loop\n");
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psb_c_abort(*cctxt);
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}
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psb_c_barrier(*cctxt);
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/* Set up the preconditioner */
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ph = psb_c_new_dprec();
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psb_c_dprecinit(*cctxt,ph,ptype);
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ret=psb_c_dprecbld(ah,cdh,ph);
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//fprintf(stderr,"From psb_c_dprecbld: %d\n",ret);
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/* Set up the solver options */
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psb_c_DefaultSolverOptions(&options);
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options.eps = 1.e-9;
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options.itmax = itmax;
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options.irst = irst;
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options.itrace = 1;
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options.istop = istop;
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psb_c_seterraction_ret();
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t1=psb_c_wtime();
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ret=psb_c_dkrylov(methd,ah,ph,bh,xh,cdh,&options);
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t2=psb_c_wtime();
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iter = options.iter;
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err = options.err;
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//fprintf(stderr,"From krylov: %d %lf, %d %d\n",iter,err,ret,psb_c_get_errstatus());
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if (psb_c_get_errstatus() != 0) {
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psb_c_print_errmsg();
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}
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//fprintf(stderr,"After cleanup %d\n",psb_c_get_errstatus());
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/* Check 2-norm of residual on exit */
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psb_c_dgeaxpby(one,bh,zero,rh,cdh);
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psb_c_dspmm(-one,ah,xh,one,rh,cdh);
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res2=psb_c_dgenrm2(rh,cdh);
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if (iam==0) {
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fprintf(stdout,"Time: %lf\n",(t2-t1));
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fprintf(stdout,"Iter: %d\n",iter);
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fprintf(stdout,"Err: %lg\n",err);
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fprintf(stdout,"||r||_2: %lg\n",res2);
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}
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#if DUMPATRIX
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psb_c_dmat_name_print(ah,"cbindmat.mtx");
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nlr = psb_c_cd_get_local_rows(cdh);
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bv = psb_c_dvect_get_cpy(bh);
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vectfile=fopen("cbindb.mtx","w");
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for (i=0;i<nlr; i++)
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fprintf(vectfile,"%lf\n",bv[i]);
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fclose(vectfile);
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xv = psb_c_dvect_get_cpy(xh);
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nlr=psb_c_cd_get_local_rows(cdh);
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for (i=0;i<nlr; i++)
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fprintf(stdout,"SOL: %d %d %lf\n",iam,i,xv[i]);
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rv = psb_c_dvect_get_cpy(rh);
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nlr=psb_c_cd_get_local_rows(cdh);
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for (i=0;i<nlr; i++)
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fprintf(stdout,"RES: %d %d %lf\n",iam,i,rv[i]);
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#endif
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/* Clean up memory */
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if ((info=psb_c_dgefree(xh,cdh))!=0) {
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fprintf(stderr,"From dgefree: %d\nBailing out\n",info);
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psb_c_abort(*cctxt);
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}
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if ((info=psb_c_dgefree(bh,cdh))!=0) {
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fprintf(stderr,"From dgefree: %d\nBailing out\n",info);
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psb_c_abort(*cctxt);
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}
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if ((info=psb_c_dgefree(rh,cdh))!=0) {
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fprintf(stderr,"From dgefree: %d\nBailing out\n",info);
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psb_c_abort(*cctxt);
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}
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if ((info=psb_c_cdfree(cdh))!=0) {
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fprintf(stderr,"From cdfree: %d\nBailing out\n",info);
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psb_c_abort(*cctxt);
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}
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//fprintf(stderr,"pointer from cdfree: %p\n",cdh->descriptor);
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/* Clean up object handles */
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free(ph);
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free(xh);
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free(bh);
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free(ah);
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free(cdh);
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//if (iam == 0) fprintf(stderr,"program completed successfully\n");
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psb_c_barrier(*cctxt);
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psb_c_exit(*cctxt);
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}
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