2004-06-16 23:45:52 +02:00
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// Do the inner product of tensors.
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2004-06-12 03:12:13 +02:00
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#include "stdafx.h"
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#include "defs.h"
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static void inner_f(void);
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void
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eval_inner(void)
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{
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p1 = cdr(p1);
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push(car(p1));
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eval();
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p1 = cdr(p1);
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while (iscons(p1)) {
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push(car(p1));
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eval();
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inner();
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p1 = cdr(p1);
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}
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}
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void
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inner(void)
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{
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save();
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p2 = pop();
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p1 = pop();
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if (istensor(p1) && istensor(p2))
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inner_f();
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else {
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push(p1);
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push(p2);
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if (istensor(p1))
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tensor_times_scalar();
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else if (istensor(p2))
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scalar_times_tensor();
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else
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multiply();
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}
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restore();
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}
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// inner product of tensors p1 and p2
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static void
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inner_f(void)
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{
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int ak, bk, i, j, k, n, ndim;
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U **a, **b, **c;
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n = p1->u.tensor->dim[p1->u.tensor->ndim - 1];
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if (n != p2->u.tensor->dim[0])
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stop("inner: tensor dimension check");
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ndim = p1->u.tensor->ndim + p2->u.tensor->ndim - 2;
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if (ndim > MAXDIM)
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stop("inner: rank of result exceeds maximum");
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a = p1->u.tensor->elem;
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b = p2->u.tensor->elem;
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//---------------------------------------------------------------------
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//
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// ak is the number of rows in tensor A
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//
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// bk is the number of columns in tensor B
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//
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// Example:
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//
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// A[3][3][4] B[4][4][3]
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//
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// 3 3 ak = 3 * 3 = 9
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//
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// 4 3 bk = 4 * 3 = 12
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//
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//---------------------------------------------------------------------
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ak = 1;
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for (i = 0; i < p1->u.tensor->ndim - 1; i++)
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ak *= p1->u.tensor->dim[i];
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bk = 1;
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for (i = 1; i < p2->u.tensor->ndim; i++)
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bk *= p2->u.tensor->dim[i];
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p3 = alloc_tensor(ak * bk);
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c = p3->u.tensor->elem;
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// new method copied from ginac
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#if 1
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for (i = 0; i < ak; i++) {
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for (j = 0; j < n; j++) {
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if (iszero(a[i * n + j]))
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continue;
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for (k = 0; k < bk; k++) {
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push(a[i * n + j]);
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push(b[j * bk + k]);
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multiply();
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push(c[i * bk + k]);
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add();
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c[i * bk + k] = pop();
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}
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}
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}
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#else
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for (i = 0; i < ak; i++) {
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for (j = 0; j < bk; j++) {
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2004-06-25 22:45:15 +02:00
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push(zero);
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2004-06-12 03:12:13 +02:00
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for (k = 0; k < n; k++) {
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push(a[i * n + k]);
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push(b[k * bk + j]);
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multiply();
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add();
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}
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c[i * bk + j] = pop();
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}
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}
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#endif
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//---------------------------------------------------------------------
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//
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// Note on understanding "k * bk + j"
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//
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// k * bk because each element of a column is bk locations apart
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//
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// + j because the beginnings of all columns are in the first bk
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// locations
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//
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// Example: n = 2, bk = 6
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//
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// b111 <- 1st element of 1st column
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// b112 <- 1st element of 2nd column
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// b113 <- 1st element of 3rd column
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// b121 <- 1st element of 4th column
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// b122 <- 1st element of 5th column
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// b123 <- 1st element of 6th column
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//
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// b211 <- 2nd element of 1st column
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// b212 <- 2nd element of 2nd column
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// b213 <- 2nd element of 3rd column
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// b221 <- 2nd element of 4th column
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// b222 <- 2nd element of 5th column
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// b223 <- 2nd element of 6th column
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//
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//---------------------------------------------------------------------
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if (ndim == 0)
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push(p3->u.tensor->elem[0]);
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else {
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p3->u.tensor->ndim = ndim;
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for (i = 0; i < p1->u.tensor->ndim - 1; i++)
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p3->u.tensor->dim[i] = p1->u.tensor->dim[i];
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j = i;
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for (i = 0; i < p2->u.tensor->ndim - 1; i++)
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p3->u.tensor->dim[j + i] = p2->u.tensor->dim[i + 1];
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push(p3);
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}
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}
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static char *s[] = {
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"inner(a,b)",
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"a*b",
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"inner(a,(b1,b2))",
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"(a*b1,a*b2)",
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"inner((a1,a2),b)",
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"(a1*b,a2*b)",
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"inner(((a11,a12),(a21,a22)),(x1,x2))",
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"(a11*x1+a12*x2,a21*x1+a22*x2)",
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"inner((1,2),(3,4))",
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"11",
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"inner(inner((1,2),((3,4),(5,6))),(7,8))",
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"219",
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"inner((1,2),inner(((3,4),(5,6)),(7,8)))",
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"219",
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"inner((1,2),((3,4),(5,6)),(7,8))",
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"219",
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};
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void
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test_inner(void)
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{
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test(__FILE__, s, sizeof s / sizeof (char *));
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}
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