/usr/share/calc/natnumset.cal is in apcalc-common 2.12.5.0-1.
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* natnumset - functions for sets of natural numbers not exceeding a fixed bound
*
* Copyright (C) 1999 Ernest Bowen
*
* Calc is open software; you can redistribute it and/or modify it under
* the terms of the version 2.1 of the GNU Lesser General Public License
* as published by the Free Software Foundation.
*
* Calc is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
* Public License for more details.
*
* A copy of version 2.1 of the GNU Lesser General Public License is
* distributed with calc under the filename COPYING-LGPL. You should have
* received a copy with calc; if not, write to Free Software Foundation, Inc.
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* @(#) $Revision: 30.1 $
* @(#) $Id: natnumset.cal,v 30.1 2007/03/16 11:09:54 chongo Exp $
* @(#) $Source: /usr/local/src/bin/calc/cal/RCS/natnumset.cal,v $
*
* Under source code control: 1997/09/07 23:53:51
* File existed as early as: 1997
*
* Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/
*/
/*
* Functions for sets of natural numbers not exceeding a fixed bound B.
*
* The default value for B is 100; B may be assigned another
* value n by setbound(n); with no argument, setbound() returns the current
* upper bound.
*
* A set S is stored as an object with one element with one component S.s;
* This component is a string of just sufficient size to include m bits,
* where m is the maximum integer in S.
*
* With zero or more integer arguments, set(a, b, ...) returns the set
* whose elements are those of a, b, ... in [0, B]. Note that arguments
* < 0 or > B are ignored.
*
* In an assignment of a set-valued lvalue to an lvalue, as in
*
* A = set(1,2,3);
* B = A;
*
* the sets share the same data string, so a change to either has the effect
* of changing both. A set equal to A but with a different string can be
* created by
*
* B = A | set()
*
* The functions empty() and full() return the empty set and the set of all
* integers in [0,B] respectively.
*
* isset(A) returns 1 or 0 according as A is or is not a set
*
* test(A) returns 0 or 1 according as A is or is not the empty set
*
* isin(A, n) for set A and integer n returns 1 if n is in A, 0 if
* 0 <= n <= B and n is not in A, the null value if n < 0 or n > B.
*
* addmember(A, n) adds n as a member of A, provided n is in [0, B];
* this is also achieved by A |= n.
*
* rmmember(A, n) removes n from A if it is a member; this is also achieved
* by A \= n.
*
* The following unary and binary operations are defined for sets A, B.
* For binary operations with one argument a set and the other an
* integer n, the integer taken to represent set(n).
*
* A | B = union of A and B, integers in at least one of A and B
* A & B = intersection of A and B, integers in both A and B
* A ~ B = symmetric difference (boolean sum) of A and Bi, integers
* in exactly one of A and B
* A \ B = set difference, integers in A but not in B
*
* ~A = complement of A, integers not in A
* #A = number ofintegers in A
* !A = 1 or 0 according as A is empty or not empty
* +A = sum of the members of A
*
* min(A) = least member of A, -1 for empty set
* max(A) = greatest member of A, -1 for empty set
* sum(A) = sum of the members of A
*
* In the following a and b denote arbitrary members of A and B:
*
* A + B = set of sums a + b
* A - B = set of differences a - b
* A * B = set of products a * b
* A ^ n = set of powers a ^ n
* A % m = set of integers congruent to a mod m
*
* A == B returns 1 or not according as A and B are equal or not
* A != B = !(A == B)
* A <= B returns 1 if A is a subset of B, i.e. every member of A is
* a member of B
* A < B = ((A <= B) && (A != B))
* A >= B = (B <= A)
* A > B = (B < A)
*
* Expresssions may be formed from the above "arithmetic" operations in
* the usual way, with parentheses for variations from the usual precedence
* rules. For example
*
* A + 3 * A ^ 2 + (A - B) ^ 3
*
* returns the set of integers expressible as
*
* a_1 + 3 * a_2 ^ 2 + (a_3 - b) ^3
*
* where a_1, a_2, a_3 are in A, and b is in B.
*
* primes(a, b) returns the set of primes between a and b inclusive.
*
* interval(a, b) returns the integers between a and b inclusive
*
* isinterval(A) returns 1 if A is a non-empty interval, 0 otherwise.
*
* randset(n, a, b) returns a random set of n integers between a and b
* inclusive; a defaults to 0, b to N-1. An error occurs if
* n is too large.
*
* polyvals(L, A) for L = list(c_0, c_1, c_2, ...) returns the set of
* values of
*
* c_0 + c_1 * a + c_2 * a^2 + ...
*
* for a in the set A.
*
* polyvals2(L, A, B) returns the set of values of poly(L, i, j) for i in
* A and j in B. Here L is a list whose members are integers or
* lists of integers, the latter representing polynomials in the
* second variable. For example, with L = list(0, list(0, 1), 1),
* polyvals2(L, A, B) will return the values of i^2 + i * j for
* i in A, j in B.
*
*/
static N; /* Number of integers in [0,B], = B + 1 */
static M; /* Maximum string size required, = N // 8 */
obj set {s};
define isset(a) = istype(a, obj set);
define setbound(n)
{
local v;
v = N - 1;
if (isnull(n))
return v;
if (!isint(n) || n < 0)
quit "Bad argument for setbound";
N = n + 1;
M = quo(N, 8, 1); /* M // 8 rounded up */
if (v >= 0)
return v;
}
setbound(100);
define empty() = obj set = {""};
define full()
{
local v;
obj set v;
v.s = M * char(-1);
if (!ismult(N, 8)) v.s[M-1] = 255 >> (8 - N & 7);
return v;
}
define isin(a, b)
{
if (!isset(a) || !isint(b))
quit "Bad argument for isin";
return bit(a.s, b);
}
define addmember(a, n)
{
if (!isset(a) || !isint(n))
quit "Bad argument for addmember";
if (n < N && n >= 0)
setbit(a.s, n);
}
define rmmember(a, n)
{
if (n < N && n >= 0)
setbit(a.s, n, 0);
}
define set()
{
local i, v, s;
s = M * char(0);
for (i = 1; i <= param(0); i++) {
v = param(i);
if (!isint(v))
quit "Non-integral argument for set";
if (v >= 0 && v < N)
setbit(s, v);
}
return mkset(s);
}
define mkset(s)
{
local h, m;
if (!isstr(s))
quit "Non-string argument for mkset";
h = highbit(s);
if (h >= N)
quit "Too-long string for mkset";
m = quo(h + 1, 8, 1);
return obj set = {head(s, m)};
}
define primes(a,b)
{
local i, s, m;
if (isnull(b)) {
if (isnull(a)) {
a = 0;
b = N - 1;
}
else b = 0;
}
if (!isint(a) || !isint(b))
quit "Non-integer argument for primes";
if (a > b)
swap(a,b);
if (b < 0 || a >= N)
return empty();
a = max(a, 0);
b = min(b, N-1);
s = M * char(0);
for (i = a; i <= b; i++)
if (isprime(i))
setbit(s, i);
return mkset(s);
}
define set_max(a) = highbit(a.s);
define set_min(a) = lowbit(a.s);
define set_not(a) = !a.s;
define set_cmp(a,b)
{
if (isset(a) && isset(b))
return a.s != b.s;
return 1;
}
define set_rel(a,b)
{
local c;
if (a == b)
return 0;
if (isset(a)) {
if (isset(b)) {
c = a & b;
if (c == a)
return -1;
if (c == b)
return 1;
return;
}
if (!isint(b))
return set_rel(a, set(b));
}
if (isint(a))
return set_rel(set(a), b);
}
define set_or(a, b)
{
if (isset(a)) {
if (isset(b))
return obj set = {a.s | b.s};
if (isint(b))
return a | set(b);
}
if (isint(a))
return set(a) | b;
return newerror("Bad argument for set_or");
}
define set_and(a, b)
{
if (isint(a))
return set(a) & b;
if (isint(b))
return a & set(b);
if (!isset(a) || !isset(b))
return newerror("Bad argument for set_and");
return mkset(a.s & b.s);
}
define set_comp(a) = full() \ a;
define set_setminus(a,b)
{
if (isint(a))
return set(a) \ b;
if (isint(b))
return a \ set(b);
if (!isset(a) || !isset(b))
return newerror("Bad argument for set_setminus");
return mkset(a.s \ b.s);
}
define set_xor(a,b)
{
if (isint(a))
return set(a) ~ b;
if (isint(b))
return a ~ set(b);
if (!isset(a) || !isset(b))
return newerror("Bad argument for set_xor");
return mkset(a.s ~ b.s);
}
define set_content(a) = #a.s;
define set_add(a, b)
{
local s, i, j, m, n;
if (isint(a))
return set(a) + b;
if (isint(b))
return a + set(b);
if (!isset(a) || !isset(b))
return newerror("Bad argument for set_add");
if (!a || !b)
return empty();
m = highbit(a.s);
n = highbit(b.s);
s = M * char(0);
for (i = 0; i <= m; i++)
if (isin(a, i))
for (j = 0; j <= n && i + j < N; j++)
if (isin(b, j))
setbit(s, i + j);
return mkset(s);
}
define set_sub(a,b)
{
local s, i, j, m, n;
if (isint(b))
return a - set(b);
if (isint(a))
return set(a) - b;
if (isset(a) && isset(b)) {
if (!a || !b)
return empty();
m = highbit(a.s);
n = highbit(b.s);
s = M * char(0);
for (i = 0; i <= m; i++)
if (isin(a, i))
for (j = 0; j <= n && j <= i; j++)
if (isin(b, j))
setbit(s, i - j);
return mkset(s);
}
return newerror("Bad argument for set_sub");
}
define set_mul(a, b)
{
local s, i, j, m, n;
if (isset(a)) {
s = M * char(0);
m = highbit(a.s);
if (isset(b)) {
if (!a || !b)
return empty();
n = highbit(b.s);
for (i = 0; i <= m; ++i)
if (isin(a, i))
for (j = 1; j <= n && i * j < N; ++j)
if (isin(b, j))
setbit(s, i * j);
return mkset(s);
}
if (isint(b)) {
if (b == 0) {
if (a)
return set(0);
return empty();
}
s = M * char(0);
for (i = 0; i <= m && b * i < N; ++i)
if (isin(a, i))
setbit(s, b * i);
return mkset(s);
}
}
if (isint(a))
return b * a;
return newerror("Bad argument for set_mul");
}
define set_square(a)
{
local s, i, m;
s = M * char(0);
m = highbit(a.s);
for (i = 0; i <= m && i^2 < N; ++i)
if (bit(a.s, i))
setbit(s, i^2);
return mkset(s);
}
define set_pow(a, n)
{
local s, i, m;
if (!isint(n) || n < 0)
quit "Bad exponent for set_power";
s = M * char(0);
m = highbit(a.s);
for (i = 0; i <= m && i^n < N; ++i)
if (bit(a.s, i))
setbit(s, i^n);
return mkset(s);
}
define set_sum(a)
{
local v, m, i;
v = 0;
m = highbit(a.s);
for (i = 0; i <= m; ++i)
if (bit(a.s, i))
v += i;
return v;
}
define set_plus(a) = set_sum(a);
define interval(a, b)
{
local i, j, s;
static tail = "\0\1\3\7\17\37\77\177\377";
if (!isint(a) || !isint(b))
quit "Non-integer argument for interval";
if (a > b)
swap(a, b);
if (b < 0 || a >= N)
return empty();
a = max(a, 0);
b = min(b, N-1);
i = quo(a, 8, 0);
j = quo(b, 8, 0);
s = M * char(0);
if (i == j) {
s[i] = tail[b + 1 - 8 * i] \ tail[a - 8 * i];
return mkset(s);
}
s[i] = ~tail[a - 8 * i];
while (++i < j)
s[i] = -1;
s[j] = tail[b + 1 - 8 * j];
return mkset(s);
}
define isinterval(a)
{
local i, max, s;
if (!isset(a))
quit "Non-set argument for isinterval";
s = a.s;
if (!s)
return 0;
for (i = lowbit(s) + 1, max = highbit(s); i < max; i++)
if (!bit(s, i))
return 0;
return 1;
}
define set_mod(a, b)
{
local s, m, i, j;
if (isset(a) && isint(b)) {
s = M * char(0);
m = highbit(a.s);
for (i = 0; i <= m; i++)
if (bit(a.s, i))
for (j = 0; j < N; j++)
if (meq(i, j, b))
setbit(s, j);
return mkset(s);
}
return newerror("Bad argument for set_mod");
}
define randset(n, a, b)
{
local m, s, i;
if (isnull(a))
a = 0;
if (isnull(b))
b = N - 1;
if (!isint(n) || !isint(a) || !isint(b) || n < 0 || a < 0 || b < 0)
quit "Bad argument for randset";
if (a > b)
swap(a, b);
m = b - a + 1;
if (n > m)
return newerror("Too many numbers specified for randset");
if (2 * n > m)
return interval(a,b) \ randset(m - n, a, b);
++b;
s = M * char(0);
while (n-- > 0) {
do
i = rand(a, b);
while
(bit(s, i));
setbit(s, i);
}
return mkset(s);
}
define polyvals(L, A)
{
local s, m, v, i;
if (!islist(L))
quit "Non-list first argument for polyvals";
if (!isset(A))
quit "Non-set second argument for polyvals";
m = highbit(A.s);
s = M * char(0);
for (i = 0; i <= m; i++)
if (bit(A.s, i)) {
v = poly(L,i);
if (v >> 0 && v < N)
setbit(s, v);
}
return mkset(s);
}
define polyvals2(L, A, B)
{
local s1, s2, s, m, n, i, j, v;
s1 = A.s;
s2 = B.s;
m = highbit(s1);
n = highbit(s2);
s = M * char(0);
for (i = 0; i <= m; i++)
if (bit(s1, i))
for (j = 0; j <= n; j++)
if (bit(s2, j)) {
v = poly(L, i, j);
if (v >= 0 && v < N)
setbit(s, v);
}
return mkset(s);
}
define set_print(a)
{
local i, s, m;
s = a.s;
i = lowbit(s);
print "set(":;
if (i >= 0) {
print i:;
m = highbit(s);
while (++i <= m)
if (bit(s, i))
print ",":i:;
}
print ")",;
}
local N, M; /* End scope of static variables N, M */
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