shithub: femtolisp

ref: 60fc1e71ac62857b59b618ee7c3bcd537b29c4aa
dir: /posix/mp.h/

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#pragma once

#ifdef BITS64
typedef uint64_t mpdigit;
#else
typedef uint32_t mpdigit;
#endif

typedef union FPdbleword FPdbleword;
union FPdbleword
{
	double	x;
	struct {
#if BYTE_ORDER == LITTLE_ENDIAN
		uint32_t lo;
		uint32_t hi;
#else
		uint32_t hi;
		uint32_t lo;
#endif
	};
};

#define mpdighi  (((mpdigit)1)<<(Dbits-1))
#define DIGITS(x) ((int)(x) >= -(Dbits-1) ? ((Dbits - 1 + (x))/Dbits) : 0)

extern	int	dec16(uint8_t*, int, char*, int);
extern	int	enc16(char*, int, uint8_t*, int);
extern	mpdigit	dec16chr(int);
extern	int	enc16chr(int);

/*
 * the code assumes mpdigit to be at least an int
 * mpdigit must be an atomic type.  mpdigit is defined
 * in the architecture specific u.h
 */
typedef struct mpint mpint;

struct mpint
{
	mpdigit	*p;
	uint32_t	size;	/* allocated digits */
	uint32_t	top;	/* significant digits */
	int	sign;	/* +1 or -1 */
	int	flags;
};

enum
{
	MPstatic=	0x01,	/* static constant */
	MPnorm=		0x02,	/* normalization status */
	MPtimesafe=	0x04,	/* request time invariant computation */
	MPfield=	0x08,	/* this mpint is a field modulus */

	Dbytes=		sizeof(mpdigit),	/* bytes per digit */
	Dbits=		Dbytes*8		/* bits per digit */
};

/* allocation */
void	mpsetminbits(int n);	/* newly created mpint's get at least n bits */
mpint*	mpnew(int n);		/* create a new mpint with at least n bits */
void	mpfree(mpint *b);
void	mpbits(mpint *b, int n);	/* ensure that b has at least n bits */
mpint*	mpnorm(mpint *b);		/* dump leading zeros */
mpint*	mpcopy(mpint *b);
void	mpassign(mpint *old, mpint *new);

/* random bits */
mpint*	mprand(int bits, void (*gen)(uint8_t*, int), mpint *b);
/* return uniform random [0..n-1] */
mpint*	mpnrand(mpint *n, void (*gen)(uint8_t*, int), mpint *b);

/* conversion */
mpint*	strtomp(const char*, char**, int, mpint*);	/* ascii */
char*	mptoa(mpint*, int, char*, int);
mpint*	letomp(uint8_t*, uint32_t, mpint*);	/* byte array, little-endian */
int	mptole(mpint*, uint8_t*, uint32_t, uint8_t**);
void	mptolel(mpint *b, uint8_t *p, int n);
mpint*	betomp(uint8_t*, uint32_t, mpint*);	/* byte array, big-endian */
int	mptobe(mpint*, uint8_t*, uint32_t, uint8_t**);
void	mptober(mpint *b, uint8_t *p, int n);
uint32_t	mptoui(mpint*);			/* unsigned int */
mpint*	uitomp(uint32_t, mpint*);
int	mptoi(mpint*);			/* int */
mpint*	itomp(int, mpint*);
uint64_t	mptouv(mpint*);			/* unsigned int64_t */
mpint*	uvtomp(uint64_t, mpint*);
int64_t	mptov(mpint*);			/* int64_t */
mpint*	vtomp(int64_t, mpint*);
double	mptod(mpint*);			/* double */
mpint*	dtomp(double, mpint*);

/* divide 2 digits by one */
void	mpdigdiv(mpdigit *dividend, mpdigit divisor, mpdigit *quotient);

/* in the following, the result mpint may be */
/* the same as one of the inputs. */
void	mpadd(mpint *b1, mpint *b2, mpint *sum);	/* sum = b1+b2 */
void	mpsub(mpint *b1, mpint *b2, mpint *diff);	/* diff = b1-b2 */
void	mpleft(mpint *b, int shift, mpint *res);	/* res = b<<shift */
void	mpright(mpint *b, int shift, mpint *res);	/* res = b>>shift */
void	mpmul(mpint *b1, mpint *b2, mpint *prod);	/* prod = b1*b2 */
void	mpexp(mpint *b, mpint *e, mpint *m, mpint *res);	/* res = b**e mod m */
void	mpmod(mpint *b, mpint *m, mpint *remainder);	/* remainder = b mod m */

/* logical operations */
void	mpand(mpint *b1, mpint *b2, mpint *res);
void	mpbic(mpint *b1, mpint *b2, mpint *res);
void	mpor(mpint *b1, mpint *b2, mpint *res);
void	mpnot(mpint *b, mpint *res);
void	mpxor(mpint *b1, mpint *b2, mpint *res);
void	mpasr(mpint *b, int shift, mpint *res);

/* modular arithmetic, time invariant when 0≤b1≤m-1 and 0≤b2≤m-1 */
void	mpmodadd(mpint *b1, mpint *b2, mpint *m, mpint *sum);	/* sum = b1+b2 % m */
void	mpmodsub(mpint *b1, mpint *b2, mpint *m, mpint *diff);	/* diff = b1-b2 % m */
void	mpmodmul(mpint *b1, mpint *b2, mpint *m, mpint *prod);	/* prod = b1*b2 % m */

/* quotient = dividend/divisor, remainder = dividend % divisor */
void	mpdiv(mpint *dividend, mpint *divisor,  mpint *quotient, mpint *remainder);

/* return neg, 0, pos as b1-b2 is neg, 0, pos */
int	mpcmp(mpint *b1, mpint *b2);

/* res = s != 0 ? b1 : b2 */
void	mpsel(int s, mpint *b1, mpint *b2, mpint *res);

/* extended gcd return d, x, and y, s.t. d = gcd(a,b) and ax+by = d */
void	mpextendedgcd(mpint *a, mpint *b, mpint *d, mpint *x, mpint *y);

/* res = b**-1 mod m */
void	mpinvert(mpint *b, mpint *m, mpint *res);

/* bit counting */
uint32_t	mpsignif(mpint*);	/* number of sigificant bits in mantissa */
uint32_t	mplowbits0(mpint*);	/* k, where n = 2**k * q for odd q */

/* well known constants */
extern mpint	*mpzero, *mpone, *mptwo;

/* sum[0:alen] = a[0:alen-1] + b[0:blen-1] */
/* prereq: alen >= blen, sum has room for alen+1 digits */
void	mpvecadd(mpdigit *a, int alen, mpdigit *b, int blen, mpdigit *sum);

/* diff[0:alen-1] = a[0:alen-1] - b[0:blen-1] */
/* prereq: alen >= blen, diff has room for alen digits */
void	mpvecsub(mpdigit *a, int alen, mpdigit *b, int blen, mpdigit *diff);

/* p[0:n] += m * b[0:n-1] */
/* prereq: p has room for n+1 digits */
void	mpvecdigmuladd(mpdigit *b, int n, mpdigit m, mpdigit *p);

/* p[0:n] -= m * b[0:n-1] */
/* prereq: p has room for n+1 digits */
int	mpvecdigmulsub(mpdigit *b, int n, mpdigit m, mpdigit *p);

/* p[0:alen+blen-1] = a[0:alen-1] * b[0:blen-1] */
/* prereq: alen >= blen, p has room for m*n digits */
void	mpvecmul(mpdigit *a, int alen, mpdigit *b, int blen, mpdigit *p);
void	mpvectsmul(mpdigit *a, int alen, mpdigit *b, int blen, mpdigit *p);

/* sign of a - b or zero if the same */
int	mpveccmp(mpdigit *a, int alen, mpdigit *b, int blen);
int	mpvectscmp(mpdigit *a, int alen, mpdigit *b, int blen);

/* divide the 2 digit dividend by the one digit divisor and stick in quotient */
/* we assume that the result is one digit - overflow is all 1's */
void	mpdigdiv(mpdigit *dividend, mpdigit divisor, mpdigit *quotient);

/* playing with magnitudes */
int	mpmagcmp(mpint *b1, mpint *b2);
void	mpmagadd(mpint *b1, mpint *b2, mpint *sum);	/* sum = b1+b2 */
void	mpmagsub(mpint *b1, mpint *b2, mpint *sum);	/* sum = b1+b2 */

/* chinese remainder theorem */
typedef struct CRTpre	CRTpre;		/* precomputed values for converting */
					/*  twixt residues and mpint */
typedef struct CRTres	CRTres;		/* residue form of an mpint */

struct CRTres
{
	int	n;		/* number of residues */
	mpint	*r[1];		/* residues */
};

CRTpre*	crtpre(int, mpint**);			/* precompute conversion values */
CRTres*	crtin(CRTpre*, mpint*);			/* convert mpint to residues */
void	crtout(CRTpre*, CRTres*, mpint*);	/* convert residues to mpint */
void	crtprefree(CRTpre*);
void	crtresfree(CRTres*);

/* fast field arithmetic */
typedef struct Mfield	Mfield;

struct Mfield
{
	mpint	m;
	int	(*reduce)(Mfield*, mpint*, mpint*);
};

mpint *mpfield(mpint*);

Mfield *gmfield(mpint*);
Mfield *cnfield(mpint*);