/* test_assmbChv.c */ #include "../Chv.h" #include "../../Drand.h" #include "../../timings.h" /*--------------------------------------------------------------------*/ int main ( int argc, char *argv[] ) /* ------------------------------------ test the Chv_assembleChv() method. created -- 98apr18, cca ------------------------------------ */ { Chv *chvI, *chvJ ; double imag, real, t1, t2 ; double *entriesI, *entriesJ ; Drand *drand ; FILE *msgFile ; int ierr, ii, irow, jcol, lastcol, msglvl, ncolI, ncolJ, nDI, nDJ, nentI, nentJ, nrowI, nrowJ, nUI, nUJ, seed, symflag, type ; int *colindI, *colindJ, *rowindI, *rowindJ, *temp ; if ( argc != 10 ) { fprintf(stdout, "\n\n usage : %s msglvl msgFile nDJ nUJ nDI nUI type symflag seed " "\n msglvl -- message level" "\n msgFile -- message file" "\n nDJ -- # of rows and columns in the (1,1) block" "\n nUJ -- # of columns in the (1,2) block" "\n nDI -- # of rows and columns in the (1,1) block" "\n nUI -- # of columns in the (1,2) block" "\n type -- entries type" "\n 1 --> real" "\n 2 --> complex" "\n symflag -- symmetry flag" "\n 0 --> symmetric" "\n 1 --> hermitian" "\n 2 --> nonsymmetric" "\n seed -- random number seed" "\n", argv[0]) ; return(0) ; } if ( (msglvl = atoi(argv[1])) < 0 ) { fprintf(stderr, "\n message level must be positive\n") ; exit(-1) ; } if ( strcmp(argv[2], "stdout") == 0 ) { msgFile = stdout ; } else if ( (msgFile = fopen(argv[2], "a")) == NULL ) { fprintf(stderr, "\n unable to open file %s\n", argv[2]) ; return(-1) ; } nDJ = atoi(argv[3]) ; nUJ = atoi(argv[4]) ; nDI = atoi(argv[5]) ; nUI = atoi(argv[6]) ; type = atoi(argv[7]) ; symflag = atoi(argv[8]) ; seed = atoi(argv[9]) ; if ( nDJ <= 0 || nUJ < 0 || nDI <= 0 || nUI < 0 || nDI >= nDJ || (nDI + nUI) >= (nDJ + nUJ) || nUI >= (nDJ + nUJ - nDI) || ( symflag != SPOOLES_SYMMETRIC && symflag != SPOOLES_HERMITIAN && symflag != SPOOLES_NONSYMMETRIC) ) { fprintf(stderr, "\n invalid input" "\n nDJ = %d, nUJ = %d, nDI = %d, nUI = %d, symflag = %d\n", nDJ, nUJ, nDI, nUI, symflag) ; exit(-1) ; } /* -------------------------------------- initialize the random number generator -------------------------------------- */ drand = Drand_new() ; Drand_init(drand) ; Drand_setSeed(drand, seed) ; Drand_setUniform(drand, -1.0, 1.0) ; /* ---------------------------- initialize the ChvJ object ---------------------------- */ MARKTIME(t1) ; chvJ = Chv_new() ; Chv_init(chvJ, 0, nDJ, nUJ, nUJ, type, symflag) ; MARKTIME(t2) ; fprintf(msgFile, "\n %% CPU : %.3f to initialize chv object", t2 - t1) ; fflush(msgFile) ; Chv_columnIndices(chvJ, &ncolJ, &colindJ) ; temp = IVinit(2*(nDJ+nUJ), -1) ; IVramp(2*(nDJ+nUJ), temp, 0, 1) ; IVshuffle(2*(nDJ+nUJ), temp, ++seed) ; IVcopy(ncolJ, colindJ, temp) ; IVfree(temp) ; IVqsortUp(ncolJ, colindJ) ; if ( CHV_IS_NONSYMMETRIC(chvJ) ) { Chv_rowIndices(chvJ, &nrowJ, &rowindJ) ; IVcopy(nrowJ, rowindJ, colindJ) ; } if ( msglvl > 2 ) { fprintf(msgFile, "\n %% column indices") ; IVfprintf(msgFile, ncolJ, colindJ) ; } lastcol = colindJ[ncolJ-1] ; nentJ = Chv_nent(chvJ) ; entriesJ = Chv_entries(chvJ) ; if ( CHV_IS_REAL(chvJ) ) { Drand_fillDvector(drand, nentJ, entriesJ) ; } else if ( CHV_IS_COMPLEX(chvJ) ) { Drand_fillDvector(drand, 2*nentJ, entriesJ) ; } if ( CHV_IS_HERMITIAN(chvJ) ) { /* --------------------------------------------------------- hermitian example, set imaginary part of diagonal to zero --------------------------------------------------------- */ for ( irow = 0 ; irow < nDJ ; irow++ ) { Chv_complexEntry(chvJ, irow, irow, &real, &imag) ; Chv_setComplexEntry(chvJ, irow, irow, real, 0.0) ; } } /* --------------------------- initialize the ChvI object --------------------------- */ chvI = Chv_new() ; Chv_init(chvI, 0, nDI, nUI, nUI, type, symflag) ; Chv_columnIndices(chvI, &ncolI, &colindI) ; temp = IVinit(ncolJ, -1) ; IVramp(ncolJ, temp, 0, 1) ; while ( 1 ) { IVshuffle(ncolJ, temp, ++seed) ; IVqsortUp(ncolI, temp) ; if ( temp[0] < nDJ ) { break ; } } for ( ii = 0 ; ii < ncolI ; ii++ ) { colindI[ii] = colindJ[temp[ii]] ; } IVfree(temp) ; if ( CHV_IS_NONSYMMETRIC(chvI) ) { Chv_rowIndices(chvI, &nrowI, &rowindI) ; IVcopy(nrowI, rowindI, colindI) ; } nentI = Chv_nent(chvI) ; entriesI = Chv_entries(chvI) ; if ( CHV_IS_REAL(chvI) ) { Drand_fillDvector(drand, nentI, entriesI) ; } else if ( CHV_IS_COMPLEX(chvI) ) { Drand_fillDvector(drand, 2*nentI, entriesI) ; } if ( CHV_IS_HERMITIAN(chvI) ) { /* --------------------------------------------------------- hermitian example, set imaginary part of diagonal to zero --------------------------------------------------------- */ for ( irow = 0 ; irow < nDI ; irow++ ) { Chv_complexEntry(chvI, irow, irow, &real, &imag) ; Chv_setComplexEntry(chvI, irow, irow, real, 0.0) ; } } /* -------------------------------------------------- write out the two chevron objects to a matlab file -------------------------------------------------- */ if ( msglvl > 1 ) { fprintf(msgFile, "\n a = zeros(%d,%d) ;", lastcol+1, lastcol+1) ; Chv_writeForMatlab(chvJ, "a", msgFile) ; fprintf(msgFile, "\n b = zeros(%d,%d) ;", lastcol+1, lastcol+1) ; Chv_writeForMatlab(chvI, "b", msgFile) ; } /* --------------------------------------------- assemble the chvI object into the chvJ object --------------------------------------------- */ Chv_assembleChv(chvJ, chvI) ; if ( msglvl > 1 ) { fprintf(msgFile, "\n %% after assembly") ; fprintf(msgFile, "\n c = zeros(%d,%d) ;", lastcol+1, lastcol+1) ; Chv_writeForMatlab(chvJ, "c", msgFile) ; } /* ----------------- compute the error ----------------- */ fprintf(msgFile, "\n max(max(abs(c - (b + a))))") ; /* ------------------------ free the working storage ------------------------ */ Chv_free(chvJ) ; Chv_free(chvI) ; Drand_free(drand) ; fprintf(msgFile, "\n") ; return(1) ; } /*--------------------------------------------------------------------*/