// Adjunct of a matrix #include "stdafx.h" #include "defs.h" void eval_adj(void) { push(cadr(p1)); eval(); adj(); } void adj(void) { int i, j, n; save(); p1 = pop(); if (istensor(p1) && p1->u.tensor->ndim == 2 && p1->u.tensor->dim[0] == p1->u.tensor->dim[1]) ; else stop("adj: square matrix expected"); n = p1->u.tensor->dim[0]; p2 = alloc_tensor(n * n); p2->u.tensor->ndim = 2; p2->u.tensor->dim[0] = n; p2->u.tensor->dim[1] = n; for (i = 0; i < n; i++) for (j = 0; j < n; j++) { cofactor(p1, n, i, j); p2->u.tensor->elem[n * j + i] = pop(); /* transpose */ } push(p2); restore(); } static char *s[] = { "adj(((a,b),(c,d)))", "((d,-b),(-c,a))", "adj(((1,2),(3,4)))", "((4,-2),(-3,1))", "adj(((2,3,-2,5),(6,-2,1,4),(5,10,3,-2),(-1,2,2,3)))", "((-4,-177,-73,194),(-117,117,-99,-27),(310,-129,-44,-374),(-130,-51,71,-211))", }; void test_adj(void) { test(__FILE__, s, sizeof s / sizeof (char *)); }