2004-03-03 21:24:06 +01:00
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#include "stdafx.h"
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#include "defs.h"
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#define DEBUG 0
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static void gcd_expr_expr(void);
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static void gcd_expr(U *);
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static void gcd_term_term(void);
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static void gcd_term_factor(void);
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static void gcd_factor_term(void);
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2006-04-25 20:31:30 +02:00
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void
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eval_gcd(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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gcd();
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p1 = cdr(p1);
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}
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}
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2004-03-03 21:24:06 +01:00
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void
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gcd(void)
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{
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int x = expanding;
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save();
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2005-10-27 19:39:15 +02:00
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yygcd();
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2004-03-03 21:24:06 +01:00
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restore();
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expanding = x;
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}
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void
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2005-10-27 19:39:15 +02:00
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yygcd(void)
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2004-03-03 21:24:06 +01:00
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{
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expanding = 1;
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p2 = pop();
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p1 = pop();
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#if DEBUG
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printf("gcd: these are the two operands:\n");
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print(stdout, p1);
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print(stdout, p2);
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#endif
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if (equal(p1, p2)) {
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push(p1);
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return;
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}
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2004-08-08 01:05:33 +02:00
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2005-08-06 22:57:37 +02:00
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if (isrational(p1) && isrational(p2)) {
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2004-03-03 21:24:06 +01:00
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push(p1);
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push(p2);
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gcd_numbers();
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return;
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}
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2004-08-08 01:05:33 +02:00
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2004-03-03 21:24:06 +01:00
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if (car(p1) == symbol(ADD) && car(p2) == symbol(ADD)) {
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gcd_expr_expr();
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return;
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}
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if (car(p1) == symbol(ADD)) {
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gcd_expr(p1);
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p1 = pop();
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}
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if (car(p2) == symbol(ADD)) {
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gcd_expr(p2);
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p2 = pop();
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}
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if (car(p1) == symbol(MULTIPLY) && car(p2) == symbol(MULTIPLY)) {
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gcd_term_term();
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return;
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}
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if (car(p1) == symbol(MULTIPLY)) {
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gcd_term_factor();
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return;
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}
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if (car(p2) == symbol(MULTIPLY)) {
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gcd_factor_term();
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return;
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}
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// gcd of factors
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if (car(p1) == symbol(POWER)) {
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p3 = caddr(p1);
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p1 = cadr(p1);
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} else
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2004-06-25 22:45:15 +02:00
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p3 = one;
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2004-03-03 21:24:06 +01:00
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if (car(p2) == symbol(POWER)) {
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p4 = caddr(p2);
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p2 = cadr(p2);
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} else
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2004-06-25 22:45:15 +02:00
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p4 = one;
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2004-03-03 21:24:06 +01:00
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if (!equal(p1, p2)) {
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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return;
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}
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// are both exponents numerical?
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if (isnum(p3) && isnum(p4)) {
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push(p1);
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if (lessp(p3, p4))
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push(p3);
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else
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push(p4);
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power();
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return;
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}
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// are the exponents multiples of eah other?
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push(p3);
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push(p4);
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divide();
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p5 = pop();
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if (isnum(p5)) {
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push(p1);
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// choose the smallest exponent
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if (car(p3) == symbol(MULTIPLY) && isnum(cadr(p3)))
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p5 = cadr(p3);
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else
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2004-06-25 22:45:15 +02:00
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p5 = one;
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2004-03-03 21:24:06 +01:00
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if (car(p4) == symbol(MULTIPLY) && isnum(cadr(p4)))
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p6 = cadr(p4);
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else
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2004-06-25 22:45:15 +02:00
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p6 = one;
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2004-03-03 21:24:06 +01:00
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if (lessp(p5, p6))
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push(p3);
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else
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push(p4);
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power();
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return;
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}
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push(p3);
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push(p4);
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subtract();
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p5 = pop();
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if (!isnum(p5)) {
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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return;
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}
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// can't be equal because of test near beginning
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push(p1);
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if (isnegativenumber(p5))
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push(p3);
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else
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push(p4);
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power();
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}
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// in this case gcd is used as a composite function, i.e. gcd(gcd(gcd...
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static void
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gcd_expr_expr(void)
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{
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if (length(p1) != length(p2)) {
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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return;
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}
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p3 = cdr(p1);
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push(car(p3));
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p3 = cdr(p3);
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while (iscons(p3)) {
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push(car(p3));
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gcd();
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p3 = cdr(p3);
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}
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p3 = pop();
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p4 = cdr(p2);
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push(car(p4));
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p4 = cdr(p4);
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while (iscons(p4)) {
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push(car(p4));
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gcd();
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p4 = cdr(p4);
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}
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p4 = pop();
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push(p1);
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push(p3);
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divide();
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p5 = pop();
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push(p2);
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push(p4);
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divide();
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p6 = pop();
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if (equal(p5, p6)) {
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push(p5);
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push(p3);
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push(p4);
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gcd();
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multiply();
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} else
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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}
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static void
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gcd_expr(U *p)
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{
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p = cdr(p);
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push(car(p));
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p = cdr(p);
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while (iscons(p)) {
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push(car(p));
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gcd();
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p = cdr(p);
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}
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}
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static void
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gcd_term_term(void)
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{
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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p3 = cdr(p1);
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while (iscons(p3)) {
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p4 = cdr(p2);
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while (iscons(p4)) {
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push(car(p3));
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push(car(p4));
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gcd();
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multiply();
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p4 = cdr(p4);
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}
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p3 = cdr(p3);
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}
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}
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static void
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gcd_term_factor(void)
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{
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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p3 = cdr(p1);
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while (iscons(p3)) {
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push(car(p3));
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push(p2);
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gcd();
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multiply();
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p3 = cdr(p3);
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}
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}
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static void
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gcd_factor_term(void)
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{
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2004-06-25 22:45:15 +02:00
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push(one);
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2004-03-03 21:24:06 +01:00
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p4 = cdr(p2);
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while (iscons(p4)) {
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push(p1);
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push(car(p4));
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gcd();
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multiply();
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p4 = cdr(p4);
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}
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}
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static char *s[] = {
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"gcd(30,42)",
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"6",
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"gcd(42,30)",
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"6",
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"gcd(-30,42)",
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"6",
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"gcd(42,-30)",
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"6",
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"gcd(30,-42)",
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"6",
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"gcd(-42,30)",
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"6",
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"gcd(-30,-42)",
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"6",
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"gcd(-42,-30)",
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"6",
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"gcd(x,x)",
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"x",
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"gcd(-x,x)",
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"x",
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"gcd(x,-x)",
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"x",
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"gcd(-x,-x)",
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"-x",
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"gcd(x^2,x^3)",
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"x^2",
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"gcd(x,y)",
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"1",
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"gcd(y,x)",
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"1",
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"gcd(x*y,y)",
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"y",
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"gcd(x*y,y^2)",
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"y",
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"gcd(x^2*y^2,x^3*y^3)",
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"x^2*y^2",
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"gcd(x^2,x^3)",
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"x^2",
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// gcd of expr
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"gcd(x+y,x+z)",
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"1",
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"gcd(x+y,x+y)",
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"x+y",
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"gcd(x+y,2*x+2*y)",
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"x+y",
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"gcd(-x-y,x+y)",
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"x+y",
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"gcd(4*x+4*y,6*x+6*y)",
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"2*x+2*y",
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"gcd(4*x+4*y+4,6*x+6*y+6)",
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"2+2*x+2*y",
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"gcd(4*x+4*y+4,6*x+6*y+12)",
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"1",
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"gcd(27*t^3+y^3+9*t*y^2+27*t^2*y,t+y)",
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"1",
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// gcd expr factor
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"gcd(2*a^2*x^2+a*x+a*b,a)",
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"a",
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"gcd(2*a^2*x^2+a*x+a*b,a^2)",
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"a",
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"gcd(2*a^2*x^2+2*a*x+2*a*b,a)",
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"a",
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// gcd expr term
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"gcd(2*a^2*x^2+2*a*x+2*a*b,2*a)",
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"2*a",
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"gcd(2*a^2*x^2+2*a*x+2*a*b,3*a)",
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"a",
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"gcd(2*a^2*x^2+2*a*x+2*a*b,4*a)",
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"2*a",
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// gcd factor factor
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"gcd(x,x^2)",
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"x",
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"gcd(x,x^a)",
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"1",
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2006-04-25 20:31:30 +02:00
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// multiple arguments
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"gcd(12,18,9)",
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"3",
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2004-03-03 21:24:06 +01:00
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};
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void
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test_gcd(void)
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{
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test(__FILE__, s, sizeof s / sizeof (char *));
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}
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