# include # include # include # include "asa053.h" /******************************************************************************/ void r8mat_print_some ( int m, int n, double a[], int ilo, int jlo, int ihi, int jhi, char *title ) /******************************************************************************/ /* Purpose: r8mat_print_some() prints some of an R8MAT. Discussion: An R8MAT is a doubly dimensioned array of R8 values, stored as a vector in column-major order. Licensing: This code is distributed under the MIT license. Modified: 26 June 2013 Author: John Burkardt Parameters: Input, int M, the number of rows of the matrix. M must be positive. Input, int N, the number of columns of the matrix. N must be positive. Input, double A[M*N], the matrix. Input, int ILO, JLO, IHI, JHI, designate the first row and column, and the last row and column to be printed. Input, char *TITLE, a title. */ { # define INCX 5 int i; int i2hi; int i2lo; int j; int j2hi; int j2lo; fprintf ( stdout, "\n" ); fprintf ( stdout, "%s\n", title ); if ( m <= 0 || n <= 0 ) { fprintf ( stdout, "\n" ); fprintf ( stdout, " (None)\n" ); return; } /* Print the columns of the matrix, in strips of 5. */ for ( j2lo = jlo; j2lo <= jhi; j2lo = j2lo + INCX ) { j2hi = j2lo + INCX - 1; if ( n < j2hi ) { j2hi = n; } if ( jhi < j2hi ) { j2hi = jhi; } fprintf ( stdout, "\n" ); /* For each column J in the current range... Write the header. */ fprintf ( stdout, " Col: "); for ( j = j2lo; j <= j2hi; j++ ) { fprintf ( stdout, " %7d ", j - 1 ); } fprintf ( stdout, "\n" ); fprintf ( stdout, " Row\n" ); fprintf ( stdout, "\n" ); /* Determine the range of the rows in this strip. */ if ( 1 < ilo ) { i2lo = ilo; } else { i2lo = 1; } if ( m < ihi ) { i2hi = m; } else { i2hi = ihi; } for ( i = i2lo; i <= i2hi; i++ ) { /* Print out (up to) 5 entries in row I, that lie in the current strip. */ fprintf ( stdout, "%5d:", i - 1 ); for ( j = j2lo; j <= j2hi; j++ ) { fprintf ( stdout, " %14g", a[i-1+(j-1)*m] ); } fprintf ( stdout, "\n" ); } } return; # undef INCX }