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ExaFMM 1
Fast-multipole Method for exascale systems
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unit_test/ijserialrun.cxx
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00001 /* 00002 Copyright (C) 2011 by Rio Yokota, Simon Layton, Lorena Barba 00003 00004 Permission is hereby granted, free of charge, to any person obtaining a copy 00005 of this software and associated documentation files (the "Software"), to deal 00006 in the Software without restriction, including without limitation the rights 00007 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell 00008 copies of the Software, and to permit persons to whom the Software is 00009 furnished to do so, subject to the following conditions: 00010 00011 The above copyright notice and this permission notice shall be included in 00012 all copies or substantial portions of the Software. 00013 00014 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 00015 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 00016 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE 00017 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 00018 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 00019 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN 00020 THE SOFTWARE. 00021 */ 00022 #include "serialfmm.h" 00023 #ifdef VTK 00024 #include "vtk.h" 00025 #endif 00026 00027 int main() { 00028 const int numBodies = 10000; 00029 const int numTarget = 100; 00030 IMAGES = 0; 00031 THETA = 1 / sqrtf(4); 00032 Bodies bodies(numTarget); 00033 Bodies jbodies(numBodies); 00034 Bodies jbodies2; 00035 Cells cells, jcells; 00036 SerialFMM<Laplace> FMM; 00037 FMM.initialize(); 00038 FMM.printNow = true; 00039 00040 FMM.startTimer("Set bodies "); 00041 FMM.random(bodies,1,1); 00042 FMM.random(jbodies,2,1); 00043 FMM.stopTimer("Set bodies ",FMM.printNow); 00044 FMM.eraseTimer("Set bodies "); 00045 00046 FMM.startTimer("Set domain "); 00047 FMM.setDomain(bodies,0,M_PI); 00048 FMM.stopTimer("Set domain ",FMM.printNow); 00049 FMM.eraseTimer("Set domain "); 00050 00051 #ifdef TOPDOWN 00052 FMM.topdown(bodies,cells); 00053 FMM.topdown(jbodies,jcells); 00054 #else 00055 FMM.bottomup(bodies,cells); 00056 FMM.bottomup(jbodies,jcells); 00057 #endif 00058 FMM.startTimer("Downward "); 00059 FMM.downward(cells,jcells); 00060 FMM.stopTimer("Downward ",FMM.printNow); 00061 FMM.eraseTimer("Downward "); 00062 00063 if( IMAGES != 0 ) { 00064 FMM.startTimer("Set periodic "); 00065 jbodies2 = FMM.periodicBodies(jbodies); 00066 FMM.stopTimer("Set periodic ",FMM.printNow); 00067 FMM.eraseTimer("Set periodic "); 00068 } else { 00069 jbodies2 = jbodies; 00070 } 00071 00072 FMM.startTimer("Direct sum "); 00073 bodies.resize(numTarget); 00074 FMM.buffer = bodies; 00075 FMM.initTarget(FMM.buffer); 00076 FMM.evalP2P(FMM.buffer,jbodies2); 00077 FMM.stopTimer("Direct sum ",FMM.printNow); 00078 FMM.eraseTimer("Direct sum "); 00079 FMM.writeTime(); 00080 FMM.writeTime(); 00081 00082 real diff1 = 0, norm1 = 0, diff2 = 0, norm2 = 0; 00083 FMM.evalError(bodies,FMM.buffer,diff1,norm1,diff2,norm2); 00084 FMM.printError(diff1,norm1,diff2,norm2); 00085 #ifdef VTK 00086 int Ncell = 0; 00087 vtkPlot vtk; 00088 vtk.setDomain(FMM.getR0(),FMM.getX0()); 00089 vtk.setGroupOfPoints(bodies,Ncell); 00090 vtk.plot(Ncell); 00091 #endif 00092 FMM.finalize(); 00093 }
