241 lines
3.6 KiB
C++
241 lines
3.6 KiB
C++
#include "stdafx.h"
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#include "defs.h"
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// n is the total number of things on the stack. The first thing on the stack
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// is the object to be indexed, followed by the indices themselves.
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void
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index_function(int n)
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{
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int i, k, m, ndim, nelem, t;
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U **s;
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save();
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s = stack + tos - n;
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p1 = s[0];
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// index of scalar ok
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if (!istensor(p1)) {
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tos -= n;
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push(p1);
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restore();
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return;
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}
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ndim = p1->u.tensor->ndim;
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m = n - 1;
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if (m > ndim)
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stop("too many indices for tensor");
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k = 0;
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for (i = 0; i < m; i++) {
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push(s[i + 1]);
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t = pop_integer();
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if (t < 1 || t > p1->u.tensor->dim[i])
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stop("index out of range");
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k = k * p1->u.tensor->dim[i] + t - 1;
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}
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if (ndim == m) {
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tos -= n;
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push(p1->u.tensor->elem[k]);
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restore();
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return;
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}
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for (i = m; i < ndim; i++)
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k = k * p1->u.tensor->dim[i] + 0;
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nelem = 1;
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for (i = m; i < ndim; i++)
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nelem *= p1->u.tensor->dim[i];
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p2 = alloc_tensor(nelem);
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p2->u.tensor->ndim = ndim - m;
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for (i = m; i < ndim; i++)
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p2->u.tensor->dim[i - m] = p1->u.tensor->dim[i];
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for (i = 0; i < nelem; i++)
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p2->u.tensor->elem[i] = p1->u.tensor->elem[k + i];
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tos -= n;
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push(p2);
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restore();
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}
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//-----------------------------------------------------------------------------
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//
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// Input: n Number of args on stack
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//
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// tos-n Right-hand value
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//
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// tos-n+1 Left-hand value
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//
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// tos-n+2 First index
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//
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// .
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// .
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// .
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//
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// tos-1 Last index
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//
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// Output: Result on stack
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//
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//-----------------------------------------------------------------------------
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#define LVALUE p1
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#define RVALUE p2
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#define TMP p3
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void
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set_component(int n)
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{
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int i, k, m, ndim, t;
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U **s;
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save();
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if (n < 3)
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stop("error in indexed assign");
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s = stack + tos - n;
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RVALUE = s[0];
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LVALUE = s[1];
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if (!istensor(LVALUE))
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stop("error in indexed assign");
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ndim = LVALUE->u.tensor->ndim;
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m = n - 2;
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if (m > ndim)
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stop("error in indexed assign");
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k = 0;
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for (i = 0; i < m; i++) {
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push(s[i + 2]);
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t = pop_integer();
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if (t < 1 || t > LVALUE->u.tensor->dim[i])
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stop("error in indexed assign\n");
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k = k * p1->u.tensor->dim[i] + t - 1;
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}
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for (i = m; i < ndim; i++)
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k = k * p1->u.tensor->dim[i] + 0;
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// copy
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TMP = alloc_tensor(LVALUE->u.tensor->nelem);
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TMP->u.tensor->ndim = LVALUE->u.tensor->ndim;
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for (i = 0; i < p1->u.tensor->ndim; i++)
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TMP->u.tensor->dim[i] = LVALUE->u.tensor->dim[i];
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for (i = 0; i < p1->u.tensor->nelem; i++)
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TMP->u.tensor->elem[i] = LVALUE->u.tensor->elem[i];
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LVALUE = TMP;
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if (ndim == m) {
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if (istensor(RVALUE))
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stop("error in indexed assign");
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LVALUE->u.tensor->elem[k] = RVALUE;
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tos -= n;
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push(LVALUE);
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restore();
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return;
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}
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// see if the rvalue matches
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if (!istensor(RVALUE))
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stop("error in indexed assign");
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if (ndim - m != RVALUE->u.tensor->ndim)
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stop("error in indexed assign");
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for (i = 0; i < RVALUE->u.tensor->ndim; i++)
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if (LVALUE->u.tensor->dim[m + i] != RVALUE->u.tensor->dim[i])
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stop("error in indexed assign");
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// copy rvalue
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for (i = 0; i < RVALUE->u.tensor->nelem; i++)
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LVALUE->u.tensor->elem[k + i] = RVALUE->u.tensor->elem[i];
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tos -= n;
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push(LVALUE);
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restore();
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}
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#if SELFTEST
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static char *s[] = {
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"A=((A11,A12),(A21,A22))",
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"",
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"A[1,1]",
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"A11",
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"A[1,2]",
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"A12",
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"A[2,1]",
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"A21",
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"A[2,2]",
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"A22",
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"A[1]",
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"(A11,A12)",
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"A[2]",
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"(A21,A22)",
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"A[1]=(B11,B12)",
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"",
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"A",
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"((B11,B12),(A21,A22))",
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"A[2]=(B21,B22)",
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"",
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"A",
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"((B11,B12),(B21,B22))",
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"A=((0,0),(0,0))",
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"",
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"A[1,1]",
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"0",
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// index of scalar ok
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"1[2]",
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"1",
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};
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void
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test_index(void)
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{
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test(__FILE__, s, sizeof s / sizeof (char *));
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}
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#endif
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