static char rcsid[] = "$Id: H:/drh/idioms/book/RCS/mp.doc,v 1.11 1996/06/26 23:02:01 drh Exp $";
#include <ctype.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include "assert.h"
#include "fmt.h"
#include "mem.h"
#include "xp.h"
#include "mp.h"
#define T MP_T
#define sign(x) ((x)[nbytes-1]>>shift)
#define ones(n) (~(~0UL<<(((n)-1)%8+1)))
#define iszero(x) (XP_length(nbytes,(x))==1 && (x)[0]==0)
#define BASE (1<<8)
#define bitop(op) \
int i; assert(z); assert(x); assert(y); \
for (i = 0; i < nbytes; i++) z[i] = x[i] op y[i]; \
return z
#define bitopi(op) assert(z); assert(x); \
applyu(op, z, x, y); \
return z
#define shft(fill, op) \
assert(x); assert(z); assert(s >= 0); \
if (s >= nbits) memset(z, fill, nbytes); \
else op(nbytes, z, nbytes, x, s, fill); \
z[nbytes-1] &= msb; \
return z
const Except_T MP_Dividebyzero = { "Division by zero" };
const Except_T MP_Overflow = { "Overflow" };
static int nbits = 32;
static int nbytes = (32-1)/8 + 1;
static int shift = (32-1)%8;
static unsigned char msb = 0xFF;
static unsigned char temp[16 + 16 + 16 + 2*16+2];
static T tmp[] = {temp, temp+1*16, temp+2*16, temp+3*16};
static int applyu(T op(T, T, T), T z, T x,
unsigned long u) {
unsigned long carry;
{ T z = tmp[2]; carry = XP_fromint(nbytes, z, u);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb; }
op(z, x, tmp[2]);
return carry != 0;
}
static int apply(T op(T, T, T), T z, T x, long v) {
{ T z = tmp[2]; if (v == LONG_MIN) {
XP_fromint(nbytes, z, LONG_MAX + 1UL);
XP_neg(nbytes, z, z, 1);
} else if (v < 0) {
XP_fromint(nbytes, z, -v);
XP_neg(nbytes, z, z, 1);
} else
XP_fromint(nbytes, z, v);
z[nbytes-1] &= msb; }
op(z, x, tmp[2]);
return (nbits < 8*(int)sizeof (v) &&
(v < -(1L<<(nbits-1)) || v >= (1L<<(nbits-1))));
}
int MP_set(int n) {
int prev = nbits;
assert(n > 1);
nbits = n;
nbytes = (n-1)/8 + 1;
shift = (n-1)%8;
msb = ones(n);
if (tmp[0] != temp)
FREE(tmp[0]);
if (nbytes <= 16)
tmp[0] = temp;
else
tmp[0] = ALLOC(3*nbytes + 2*nbytes + 2);
tmp[1] = tmp[0] + 1*nbytes;
tmp[2] = tmp[0] + 2*nbytes;
tmp[3] = tmp[0] + 3*nbytes;
return prev;
}
T MP_new(unsigned long u) {
return MP_fromintu(ALLOC(nbytes), u);
}
T MP_fromintu(T z, unsigned long u) {
unsigned long carry;
assert(z);
carry = XP_fromint(nbytes, z, u);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (carry)
RAISE(MP_Overflow);
return z;
}
T MP_fromint(T z, long v) {
assert(z);
if (v == LONG_MIN) {
XP_fromint(nbytes, z, LONG_MAX + 1UL);
XP_neg(nbytes, z, z, 1);
} else if (v < 0) {
XP_fromint(nbytes, z, -v);
XP_neg(nbytes, z, z, 1);
} else
XP_fromint(nbytes, z, v);
z[nbytes-1] &= msb;
if ((nbits < 8*(int)sizeof (v) &&
(v < -(1L<<(nbits-1)) || v >= (1L<<(nbits-1)))))
RAISE(MP_Overflow);
return z;
}
long MP_toint(T x) {
unsigned char d[sizeof (unsigned long)];
assert(x);
MP_cvt(8*sizeof d, d, x);
return XP_toint(sizeof d, d);
}
T MP_cvt(int m, T z, T x) {
int fill, i, mbytes = (m - 1)/8 + 1;
assert(m > 1);
assert(x); assert(z);
fill = sign(x) ? 0xFF : 0;
if (m < nbits) {
int carry = (x[mbytes-1]^fill)&~ones(m);
for (i = mbytes; i < nbytes; i++)
carry |= x[i]^fill;
memcpy(z, x, mbytes);
z[mbytes-1] &= ones(m);
if (carry)
RAISE(MP_Overflow);
} else {
memcpy(z, x, nbytes);
z[nbytes-1] |= fill&~msb;
for (i = nbytes; i < mbytes; i++)
z[i] = fill;
z[mbytes-1] &= ones(m);
}
return z;
}
unsigned long MP_tointu(T x) {
unsigned char d[sizeof (unsigned long)];
assert(x);
MP_cvtu(8*sizeof d, d, x);
return XP_toint(sizeof d, d);
}
T MP_cvtu(int m, T z, T x) {
int i, mbytes = (m - 1)/8 + 1;
assert(m > 1);
assert(x); assert(z);
if (m < nbits) {
int carry = x[mbytes-1]&~ones(m);
for (i = mbytes; i < nbytes; i++)
carry |= x[i];
memcpy(z, x, mbytes);
z[mbytes-1] &= ones(m);
if (carry)
RAISE(MP_Overflow);
} else {
memcpy(z, x, nbytes);
for (i = nbytes; i < mbytes; i++)
z[i] = 0;
}
return z;
}
T MP_addu(T z, T x, T y) {
int carry;
assert(x); assert(y); assert(z);
carry = XP_add(nbytes, z, x, y, 0);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (carry)
RAISE(MP_Overflow);
return z;
}
T MP_subu(T z, T x, T y) {
int borrow;
assert(x); assert(y); assert(z);
borrow = XP_sub(nbytes, z, x, y, 0);
borrow |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (borrow)
RAISE(MP_Overflow);
return z;
}
T MP_mul2u(T z, T x, T y) {
assert(x); assert(y); assert(z);
memset(tmp[3], '\0', 2*nbytes);
XP_mul(tmp[3], nbytes, x, nbytes, y);
memcpy(z, tmp[3], (2*nbits - 1)/8 + 1);
return z;
}
T MP_mulu(T z, T x, T y) {
assert(x); assert(y); assert(z);
memset(tmp[3], '\0', 2*nbytes);
XP_mul(tmp[3], nbytes, x, nbytes, y);
memcpy(z, tmp[3], nbytes);
z[nbytes-1] &= msb;
{
int i;
if (tmp[3][nbytes-1]&~msb)
RAISE(MP_Overflow);
for (i = 0; i < nbytes; i++)
if (tmp[3][i+nbytes] != 0)
RAISE(MP_Overflow);
}
return z;
}
T MP_divu(T z, T x, T y) {
assert(x); assert(y); assert(z);
{
memcpy(tmp[1], y, nbytes);
y = tmp[1];
}
if (!XP_div(nbytes, z, x, nbytes, y, tmp[2], tmp[3]))
RAISE(MP_Dividebyzero);
return z;
}
T MP_modu(T z, T x, T y) {
assert(x); assert(y); assert(z);
{
memcpy(tmp[1], y, nbytes);
y = tmp[1];
}
if (!XP_div(nbytes, tmp[2], x, nbytes, y, z, tmp[3]))
RAISE(MP_Dividebyzero);
return z;
}
T MP_add(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
XP_add(nbytes, z, x, y, 0);
z[nbytes-1] &= msb;
if (sx == sy && sy != sign(z))
RAISE(MP_Overflow);
return z;
}
T MP_sub(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
XP_sub(nbytes, z, x, y, 0);
z[nbytes-1] &= msb;
if (sx != sy && sy == sign(z))
RAISE(MP_Overflow);
return z;
}
T MP_neg(T z, T x) {
int sx;
assert(x); assert(z);
sx = sign(x);
XP_neg(nbytes, z, x, 1);
z[nbytes-1] &= msb;
if (sx && sx == sign(z))
RAISE(MP_Overflow);
return z;
}
T MP_mul2(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
if (sy) {
XP_neg(nbytes, tmp[1], y, 1);
y = tmp[1];
y[nbytes-1] &= msb;
}
memset(tmp[3], '\0', 2*nbytes);
XP_mul(tmp[3], nbytes, x, nbytes, y);
if (sx != sy)
XP_neg((2*nbits - 1)/8 + 1, z, tmp[3], 1);
else
memcpy(z, tmp[3], (2*nbits - 1)/8 + 1);
return z;
}
T MP_mul(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
if (sy) {
XP_neg(nbytes, tmp[1], y, 1);
y = tmp[1];
y[nbytes-1] &= msb;
}
memset(tmp[3], '\0', 2*nbytes);
XP_mul(tmp[3], nbytes, x, nbytes, y);
if (sx != sy)
XP_neg(nbytes, z, tmp[3], 1);
else
memcpy(z, tmp[3], nbytes);
z[nbytes-1] &= msb;
{
int i;
if (tmp[3][nbytes-1]&~msb)
RAISE(MP_Overflow);
for (i = 0; i < nbytes; i++)
if (tmp[3][i+nbytes] != 0)
RAISE(MP_Overflow);
}
if (sx == sy && sign(z))
RAISE(MP_Overflow);
return z;
}
T MP_div(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
if (sy) {
XP_neg(nbytes, tmp[1], y, 1);
y = tmp[1];
y[nbytes-1] &= msb;
} else {
memcpy(tmp[1], y, nbytes);
y = tmp[1];
}
if (!XP_div(nbytes, z, x, nbytes, y, tmp[2], tmp[3]))
RAISE(MP_Dividebyzero);
if (sx != sy) {
XP_neg(nbytes, z, z, 1);
if (!iszero(tmp[2]))
XP_diff(nbytes, z, z, 1);
z[nbytes-1] &= msb;
} else if (sx && sign(z))
RAISE(MP_Overflow);
return z;
}
T MP_mod(T z, T x, T y) {
int sx, sy;
assert(x); assert(y); assert(z);
sx = sign(x);
sy = sign(y);
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
if (sy) {
XP_neg(nbytes, tmp[1], y, 1);
y = tmp[1];
y[nbytes-1] &= msb;
} else {
memcpy(tmp[1], y, nbytes);
y = tmp[1];
}
if (!XP_div(nbytes, tmp[2], x, nbytes, y, z, tmp[3]))
RAISE(MP_Dividebyzero);
if (sx != sy) {
if (!iszero(z))
XP_sub(nbytes, z, y, z, 0);
} else if (sx && sign(tmp[2]))
RAISE(MP_Overflow);
return z;
}
T MP_addui(T z, T x, unsigned long y) {
assert(x); assert(z);
if (y < BASE) {
int carry = XP_sum(nbytes, z, x, y);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (carry)
RAISE(MP_Overflow);
} else if (applyu(MP_addu, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_subui(T z, T x, unsigned long y) {
assert(x); assert(z);
if (y < BASE) {
int borrow = XP_diff(nbytes, z, x, y);
borrow |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (borrow)
RAISE(MP_Overflow);
} else if (applyu(MP_subu, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_mului(T z, T x, unsigned long y) {
assert(x); assert(z);
if (y < BASE) {
int carry = XP_product(nbytes, z, x, y);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (carry)
RAISE(MP_Overflow);
if (nbits < 8 && y >= (1U<<nbits))
RAISE(MP_Overflow);
} else if (applyu(MP_mulu, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_divui(T z, T x, unsigned long y) {
assert(x); assert(z);
if (y == 0)
RAISE(MP_Dividebyzero);
else if (y < BASE) {
XP_quotient(nbytes, z, x, y);
if (nbits < 8 && y >= (1U<<nbits))
RAISE(MP_Overflow);
} else if (applyu(MP_divu, z, x, y))
RAISE(MP_Overflow);
return z;
}
unsigned long MP_modui(T x, unsigned long y) {
assert(x);
if (y == 0)
RAISE(MP_Dividebyzero);
else if (y < BASE) {
int r = XP_quotient(nbytes, tmp[2], x, y);
if (nbits < 8 && y >= (1U<<nbits))
RAISE(MP_Overflow);
return r;
} else if (applyu(MP_modu, tmp[2], x, y))
RAISE(MP_Overflow);
return XP_toint(nbytes, tmp[2]);
}
T MP_addi(T z, T x, long y) {
assert(x); assert(z);
if (-BASE < y && y < BASE) {
int sx = sign(x), sy = y < 0;
if (sy)
XP_diff(nbytes, z, x, -y);
else
XP_sum (nbytes, z, x, y);
z[nbytes-1] &= msb;
if (sx == sy && sy != sign(z))
RAISE(MP_Overflow);
if (nbits < 8
&& (y < -(1<<(nbits-1)) || y >= (1<<(nbits-1))))
RAISE(MP_Overflow);
} else if (apply(MP_add, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_subi(T z, T x, long y) {
assert(x); assert(z);
if (-BASE < y && y < BASE) {
int sx = sign(x), sy = y < 0;
if (sy)
XP_sum (nbytes, z, x, -y);
else
XP_diff(nbytes, z, x, y);
z[nbytes-1] &= msb;
if (sx != sy && sy == sign(z))
RAISE(MP_Overflow);
if (nbits < 8
&& (y < -(1<<(nbits-1)) || y >= (1<<(nbits-1))))
RAISE(MP_Overflow);
} else if (apply(MP_sub, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_muli(T z, T x, long y) {
assert(x); assert(z);
if (-BASE < y && y < BASE) {
int sx = sign(x), sy = y < 0;
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
XP_product(nbytes, z, x, sy ? -y : y);
if (sx != sy)
XP_neg(nbytes, z, x, 1);
z[nbytes-1] &= msb;
if (sx == sy && sign(z))
RAISE(MP_Overflow);
if (nbits < 8
&& (y < -(1<<(nbits-1)) || y >= (1<<(nbits-1))))
RAISE(MP_Overflow);
} else if (apply(MP_mul, z, x, y))
RAISE(MP_Overflow);
return z;
}
T MP_divi(T z, T x, long y) {
assert(x); assert(z);
if (y == 0)
RAISE(MP_Dividebyzero);
else if (-BASE < y && y < BASE) {
int r;
int sx = sign(x), sy = y < 0;
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
r = XP_quotient(nbytes, z, x, sy ? -y : y);
if (sx != sy) {
XP_neg(nbytes, z, z, 1);
if (r != 0) {
XP_diff(nbytes, z, z, 1);
r = y - r;
}
z[nbytes-1] &= msb;
} else if (sx && sign(z))
RAISE(MP_Overflow);
if (nbits < 8
&& (y < -(1<<(nbits-1)) || y >= (1<<(nbits-1))))
RAISE(MP_Overflow);
} else if (apply(MP_div, z, x, y))
RAISE(MP_Overflow);
return z;
}
long MP_modi(T x, long y) {
assert(x);
if (y == 0)
RAISE(MP_Dividebyzero);
else if (-BASE < y && y < BASE) {
T z = tmp[2];
int r;
int sx = sign(x), sy = y < 0;
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
r = XP_quotient(nbytes, z, x, sy ? -y : y);
if (sx != sy) {
XP_neg(nbytes, z, z, 1);
if (r != 0) {
XP_diff(nbytes, z, z, 1);
r = y - r;
}
z[nbytes-1] &= msb;
} else if (sx && sign(z))
RAISE(MP_Overflow);
if (nbits < 8
&& (y < -(1<<(nbits-1)) || y >= (1<<(nbits-1))))
RAISE(MP_Overflow);
return r;
} else if (apply(MP_mod, tmp[2], x, y))
RAISE(MP_Overflow);
return MP_toint(tmp[2]);
}
int MP_cmpu(T x, T y) {
assert(x);
assert(y);
return XP_cmp(nbytes, x, y);
}
int MP_cmp(T x, T y) {
int sx, sy;
assert(x);
assert(y);
sx = sign(x);
sy = sign(y);
if (sx != sy)
return sy - sx;
else
return XP_cmp(nbytes, x, y);
}
int MP_cmpui(T x, unsigned long y) {
assert(x);
if ((int)sizeof y >= nbytes) {
unsigned long v = XP_toint(nbytes, x);
if (v < y)
return -1;
else if (v > y)
return 1;
else
return 0;
} else {
XP_fromint(nbytes, tmp[2], y);
return XP_cmp(nbytes, x, tmp[2]);
}
}
int MP_cmpi(T x, long y) {
int sx, sy = y < 0;
assert(x);
sx = sign(x);
if (sx != sy)
return sy - sx;
else if ((int)sizeof y >= nbytes) {
long v = MP_toint(x);
if (v < y)
return -1;
else if (v > y)
return 1;
else
return 0;
} else {
MP_fromint(tmp[2], y);
return XP_cmp(nbytes, x, tmp[2]);
}
}
T MP_and(T z, T x, T y) { bitop(&); }
T MP_or (T z, T x, T y) { bitop(|); }
T MP_xor(T z, T x, T y) { bitop(^); }
T MP_not(T z, T x) {
int i;
assert(x); assert(z);
for (i = 0; i < nbytes; i++)
z[i] = ~x[i];
z[nbytes-1] &= msb;
return z;
}
T MP_andi(T z, T x, unsigned long y) { bitopi(MP_and); }
T MP_ori (T z, T x, unsigned long y) { bitopi(MP_or); }
T MP_xori(T z, T x, unsigned long y) { bitopi(MP_xor); }
T MP_lshift(T z, T x, int s) { shft(0, XP_lshift); }
T MP_rshift(T z, T x, int s) { shft(0, XP_rshift); }
T MP_ashift(T z, T x, int s) { shft(sign(x),XP_rshift); }
T MP_fromstr(T z, const char *str, int base, char **end){
int carry;
assert(z);
memset(z, '\0', nbytes);
carry = XP_fromstr(nbytes, z, str, base, end);
carry |= z[nbytes-1]&~msb;
z[nbytes-1] &= msb;
if (carry)
RAISE(MP_Overflow);
return z;
}
char *MP_tostr(char *str, int size, int base, T x) {
assert(x);
assert(base >= 2 && base <= 36);
assert(str == NULL || size > 1);
if (str == NULL) {
{
int k;
for (k = 5; (1<<k) > base; k--)
;
size = nbits/k + 1 + 1;
}
str = ALLOC(size);
}
memcpy(tmp[1], x, nbytes);
XP_tostr(str, size, base, nbytes, tmp[1]);
return str;
}
void MP_fmtu(int code, va_list *app,
int put(int c, void *cl), void *cl,
unsigned char flags[], int width, int precision) {
T x;
char *buf;
assert(app && flags);
x = va_arg(*app, T);
assert(x);
buf = MP_tostr(NULL, 0, va_arg(*app, int), x);
Fmt_putd(buf, strlen(buf), put, cl, flags,
width, precision);
FREE(buf);
}
void MP_fmt(int code, va_list *app,
int put(int c, void *cl), void *cl,
unsigned char flags[], int width, int precision) {
T x;
int base, size, sx;
char *buf;
assert(app && flags);
x = va_arg(*app, T);
assert(x);
base = va_arg(*app, int);
assert(base >= 2 && base <= 36);
sx = sign(x);
if (sx) {
XP_neg(nbytes, tmp[0], x, 1);
x = tmp[0];
x[nbytes-1] &= msb;
}
{
int k;
for (k = 5; (1<<k) > base; k--)
;
size = nbits/k + 1 + 1;
}
buf = ALLOC(size+1);
if (sx) {
buf[0] = '-';
MP_tostr(buf + 1, size, base, x);
} else
MP_tostr(buf, size + 1, base, x);
Fmt_putd(buf, strlen(buf), put, cl, flags,
width, precision);
FREE(buf);
}