/* -*- C++ -*- * * --------------------------------------------------------------------- * $Id: testmmarray.cpp,v 1.1.2.2 2004/05/05 18:01:40 drory Exp $ * --------------------------------------------------------------------- * * Copyright (C) 2000-2002 Niv Drory * Claus A. Goessl * * This program 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. * * This program 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * * --------------------------------------------------------------------- * */ #define LTL_RANGE_CHECKING #include #include #include #include using namespace ltl; using std::cout; using std::endl; int main(int argc, char **argv) { cerr << "Testing mapped MArray basics ..." << endl; MArray A(3,3,true); A = 42.; LTL_ASSERT_( A(1,1)==42. && A(3,3)==42., "MArray init failed" ); A.setBase(-1,-1); LTL_ASSERT_( A(-1,-1)==42. && A(1,1)==42., "MArray setBase() failed" ); A = A * 2.; A = A - A/2.; LTL_ASSERT_( allof(A==42.), "MArray basic expressions failed" ); A(-1,-1) = 0.; LTL_ASSERT_( !allof(A) && anyof(A) && !noneof(A), "MArray logic expressions failed" ); MArray B = A(-1,Range::all()); B = 1; LTL_ASSERT_( allof(B==1) && allof( A(-1,Range::all())==1 ), "MArray slice failed" ); MArray C = A(Range::all(),1); C = 2; LTL_ASSERT_( allof(C==2) && allof( A(Range::all(),1)==2 ), "MArray slice failed" ); A = 10.0; A = log10(A); LTL_ASSERT_( allof(A==1.0), "MArray basic mathlib expressions failed" ); A = 0.0; A(0,0) = 1; A(-1,0) = 3; MArray::IndexSet l = where( A!=0.0 ); LTL_ASSERT_( l.size() == 2, "MArray where() failed" ); A[l] = 5; LTL_ASSERT_( A(0,0) == 5 && A(-1,0) == 5, "MArray where()/operator[] failed" ); A[l] = 0; LTL_ASSERT_( noneof(A), "MArray where()/operator[] failed" ); A(-1,Range::all()) = 2; A = merge( A, 1./A, -1. ); LTL_ASSERT_( allof( A(-1,Range::all()) == 0.5 ), "MArray merge() failed" ); A(-1,Range::all()) = -1; LTL_ASSERT_( allof( A == -1 ), "MArray merge() failed" ); MArray AA(10,10,10,true); AA = indexPos(AA,1) + 10*indexPos(AA,2) + 100*indexPos(AA,3); LTL_ASSERT_( AA(1,1,1)==111 && AA(6,9,2)==296 && AA(9,9,9)==999 , "MArray indexPos() failed" ); MArray BB = AA(Range(2,7,2),5,Range(3,8,3)); MArray CC(3,2,true); CC = 352,354,356, 652,654,656; LTL_ASSERT_( allof(BB==CC), "MArray subarray failed" ); MArray DD = BB(2,Range::all()); MArray EE(2,true); EE = 354,654; LTL_ASSERT_( allof(DD==EE), "MArray complex slice failed" ); DD = 555; LTL_ASSERT_( allof(DD==555), "MArray complex slice assign failed" ); LTL_ASSERT_( AA(4,5,3)==555 && AA(4,5,6)==555, "MArray complex slice assign failed" ); { MArray MAP(AA.shape(), true, "test.map"); MAP = AA; } { int dims[3] = {10,10,10}; MArray MAP(string("test.map"), dims); LTL_ASSERT_( allof(MAP==AA), "MArray Map read failed." ); } }