/* #include "HEADERS.h" */ /* Copyright 1988, Brown Computer Graphics Group. All Rights Reserved. */ /* -------------------------------------------------------------------------- * This file contains routines that operate solely on matrices. * -------------------------------------------------------------------------*/ #ifdef WIN32 # include /* required for memset() and memcpy() */ #endif #include #include #define USE_MEM /* #include "macros.h" */ /* -------------------------- Static Routines ---------------------------- */ /* ------------------------- Internal Routines --------------------------- */ /* -------------------------- Public Routines ---------------------------- */ /* * Sets a matrix to identity. */ void MAT3identity (register MAT3mat mat) { register int i; #ifdef USE_MEM /* WIN32 */ memset(mat, 0x00, sizeof(MAT3mat)); #else bzero (mat, sizeof(MAT3mat)); #endif for (i = 0; i < 4; i++) mat[i][i] = 1.0; } /* * Sets a matrix to zero. */ void MAT3zero (MAT3mat mat) { #ifdef USE_MEM /* WIN32 */ memset(mat,0x00, sizeof(MAT3mat)); #else bzero (mat, sizeof(MAT3mat)); #endif } /* * Copies one matrix to another. */ void MAT3copy(MAT3mat to, MAT3mat from) { #ifdef USE_MEM /* WIN32 */ memcpy(to, from, sizeof(MAT3mat)); #else bcopy(from, to, sizeof(MAT3mat)); #endif } /* * This multiplies two matrices, producing a third, which may the same as * either of the first two. */ void MAT3mult (double (*result_mat)[4], register double (*mat1)[4], register double (*mat2)[4]) { register int i, j; MAT3mat tmp_mat; for (i = 0; i < 4; i++) for (j = 0; j < 4; j++) tmp_mat[i][j] = (mat1[i][0] * mat2[0][j] + mat1[i][1] * mat2[1][j] + mat1[i][2] * mat2[2][j] + mat1[i][3] * mat2[3][j]); MAT3copy (result_mat, tmp_mat); } /* * This returns the transpose of a matrix. The result matrix may be * the same as the one to transpose. */ void MAT3transpose (double (*result_mat)[4], register double (*mat)[4]) { register int i, j; MAT3mat tmp_mat; for (i = 0; i < 4; i++) for (j = 0; j < 4; j++) tmp_mat[i][j] = mat[j][i]; MAT3copy (result_mat, tmp_mat); } /* * This prints the given matrix to the given file pointer. */ void MAT3print(double (*mat)[4], FILE *fp) { MAT3print_formatted(mat, fp, CNULL, CNULL, CNULL, CNULL); } /* * This prints the given matrix to the given file pointer. * use the format string to pass to fprintf. head and tail * are printed at the beginning and end of each line. */ void MAT3print_formatted(double (*mat)[4], FILE *fp, char *title, char *head, char *format, char *tail) { register int i, j; /* This is to allow this to be called easily from a debugger */ if (fp == NULL) fp = stderr; if (title == NULL) title = "MAT3 matrix:\n"; if (head == NULL) head = " "; if (format == NULL) format = "%#8.4lf "; if (tail == NULL) tail = "\n"; (void) fprintf(fp, title); for (i = 0; i < 4; i++) { (void) fprintf(fp, head); for (j = 0; j < 4; j++) (void) fprintf(fp, format, mat[i][j]); (void) fprintf(fp, tail); } }