src/cmd/internal/gc/mparith2.go - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package gc

 //
 // return the significant
 // words of the argument
 //
 func mplen(a *Mpint) int {
 	var i int
 	var n int

 	n = -1
 	for i = 0; i < Mpprec; i++ {
 		if a.A[i] != 0 {
 			n = i
 		}
 	}

 	return n + 1
 }

 //
 // left shift mpint by one
 // ignores sign
 //
 func mplsh(a *Mpint, quiet int) {
 	var x int
 	var i int
 	var c int

 	c = 0
 	for i = 0; i < Mpprec; i++ {
 		x = (a.A[i] << 1) + c
 		c = 0
 		if x >= Mpbase {
 			x -= Mpbase
 			c = 1
 		}

 		a.A[i] = x
 	}

 	a.Ovf = uint8(c)
 	if a.Ovf != 0 && quiet == 0 {
 		Yyerror("constant shift overflow")
 	}
 }

 //
 // left shift mpint by Mpscale
 // ignores sign
 //
 func mplshw(a *Mpint, quiet int) {
 	var i int

 	i = Mpprec - 1
 	if a.A[i] != 0 {
 		a.Ovf = 1
 		if quiet == 0 {
 			Yyerror("constant shift overflow")
 		}
 	}

 	for ; i > 0; i-- {
 		a.A[i] = a.A[i-1]
 	}
 	a.A[i] = 0
 }

 //
 // right shift mpint by one
 // ignores sign and overflow
 //
 func mprsh(a *Mpint) {
 	var x int
 	var lo int
 	var i int
 	var c int

 	c = 0
 	lo = a.A[0] & 1
 	for i = Mpprec - 1; i >= 0; i-- {
 		x = a.A[i]
 		a.A[i] = (x + c) >> 1
 		c = 0
 		if x&1 != 0 {
 			c = Mpbase
 		}
 	}

 	if a.Neg != 0 && lo != 0 {
 		mpaddcfix(a, -1)
 	}
 }

 //
 // right shift mpint by Mpscale
 // ignores sign and overflow
 //
 func mprshw(a *Mpint) {
 	var lo int
 	var i int

 	lo = a.A[0]
 	for i = 0; i < Mpprec-1; i++ {
 		a.A[i] = a.A[i+1]
 	}

 	a.A[i] = 0
 	if a.Neg != 0 && lo != 0 {
 		mpaddcfix(a, -1)
 	}
 }

 //
 // return the sign of (abs(a)-abs(b))
 //
 func mpcmp(a *Mpint, b *Mpint) int {
 	var x int
 	var i int

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in cmp")
 		}
 		return 0
 	}

 	for i = Mpprec - 1; i >= 0; i-- {
 		x = a.A[i] - b.A[i]
 		if x > 0 {
 			return +1
 		}
 		if x < 0 {
 			return -1
 		}
 	}

 	return 0
 }

 //
 // negate a
 // ignore sign and ovf
 //
 func mpneg(a *Mpint) {
 	var x int
 	var i int
 	var c int

 	c = 0
 	for i = 0; i < Mpprec; i++ {
 		x = -a.A[i] - c
 		c = 0
 		if x < 0 {
 			x += Mpbase
 			c = 1
 		}

 		a.A[i] = x
 	}
 }

 // shift left by s (or right by -s)
 func Mpshiftfix(a *Mpint, s int) {
 	if s >= 0 {
 		for s >= Mpscale {
 			mplshw(a, 0)
 			s -= Mpscale
 		}

 		for s > 0 {
 			mplsh(a, 0)
 			s--
 		}
 	} else {
 		s = -s
 		for s >= Mpscale {
 			mprshw(a)
 			s -= Mpscale
 		}

 		for s > 0 {
 			mprsh(a)
 			s--
 		}
 	}
 }

 /// implements fix arihmetic

 func mpaddfixfix(a *Mpint, b *Mpint, quiet int) {
 	var i int
 	var c int
 	var x int

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mpaddxx")
 		}
 		a.Ovf = 1
 		return
 	}

 	c = 0
 	if a.Neg != b.Neg {
 		goto sub
 	}

 	// perform a+b
 	for i = 0; i < Mpprec; i++ {
 		x = a.A[i] + b.A[i] + c
 		c = 0
 		if x >= Mpbase {
 			x -= Mpbase
 			c = 1
 		}

 		a.A[i] = x
 	}

 	a.Ovf = uint8(c)
 	if a.Ovf != 0 && quiet == 0 {
 		Yyerror("constant addition overflow")
 	}

 	return

 	// perform a-b
 sub:
 	switch mpcmp(a, b) {
 	case 0:
 		Mpmovecfix(a, 0)

 	case 1:
 		for i = 0; i < Mpprec; i++ {
 			x = a.A[i] - b.A[i] - c
 			c = 0
 			if x < 0 {
 				x += Mpbase
 				c = 1
 			}

 			a.A[i] = x
 		}

 	case -1:
 		a.Neg ^= 1
 		for i = 0; i < Mpprec; i++ {
 			x = b.A[i] - a.A[i] - c
 			c = 0
 			if x < 0 {
 				x += Mpbase
 				c = 1
 			}

 			a.A[i] = x
 		}
 	}
 }

 func mpmulfixfix(a *Mpint, b *Mpint) {
 	var i int
 	var j int
 	var na int
 	var nb int
 	var x int
 	var s Mpint
 	var q Mpint
 	var c *Mpint

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mpmulfixfix")
 		}
 		a.Ovf = 1
 		return
 	}

 	// pick the smaller
 	// to test for bits
 	na = mplen(a)

 	nb = mplen(b)
 	if na > nb {
 		mpmovefixfix(&s, a)
 		c = b
 		na = nb
 	} else {
 		mpmovefixfix(&s, b)
 		c = a
 	}

 	s.Neg = 0

 	Mpmovecfix(&q, 0)
 	for i = 0; i < na; i++ {
 		x = c.A[i]
 		for j = 0; j < Mpscale; j++ {
 			if x&1 != 0 {
 				if s.Ovf != 0 {
 					q.Ovf = 1
 					goto out
 				}

 				mpaddfixfix(&q, &s, 1)
 				if q.Ovf != 0 {
 					goto out
 				}
 			}

 			mplsh(&s, 1)
 			x >>= 1
 		}
 	}

 out:
 	q.Neg = a.Neg ^ b.Neg
 	mpmovefixfix(a, &q)
 	if a.Ovf != 0 {
 		Yyerror("constant multiplication overflow")
 	}
 }

 func mpmulfract(a *Mpint, b *Mpint) {
 	var i int
 	var j int
 	var x int
 	var s Mpint
 	var q Mpint

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mpmulflt")
 		}
 		a.Ovf = 1
 		return
 	}

 	mpmovefixfix(&s, b)
 	s.Neg = 0
 	Mpmovecfix(&q, 0)

 	i = Mpprec - 1
 	x = a.A[i]
 	if x != 0 {
 		Yyerror("mpmulfract not normal")
 	}

 	for i--; i >= 0; i-- {
 		x = a.A[i]
 		if x == 0 {
 			mprshw(&s)
 			continue
 		}

 		for j = 0; j < Mpscale; j++ {
 			x <<= 1
 			if x&Mpbase != 0 {
 				mpaddfixfix(&q, &s, 1)
 			}
 			mprsh(&s)
 		}
 	}

 	q.Neg = a.Neg ^ b.Neg
 	mpmovefixfix(a, &q)
 	if a.Ovf != 0 {
 		Yyerror("constant multiplication overflow")
 	}
 }

 func mporfixfix(a *Mpint, b *Mpint) {
 	var i int
 	var x int

 	x = 0
 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mporfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	if a.Neg != 0 {
 		a.Neg = 0
 		mpneg(a)
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}

 	for i = 0; i < Mpprec; i++ {
 		x = a.A[i] | b.A[i]
 		a.A[i] = x
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}
 	if x&Mpsign != 0 {
 		a.Neg = 1
 		mpneg(a)
 	}
 }

 func mpandfixfix(a *Mpint, b *Mpint) {
 	var i int
 	var x int

 	x = 0
 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mpandfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	if a.Neg != 0 {
 		a.Neg = 0
 		mpneg(a)
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}

 	for i = 0; i < Mpprec; i++ {
 		x = a.A[i] & b.A[i]
 		a.A[i] = x
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}
 	if x&Mpsign != 0 {
 		a.Neg = 1
 		mpneg(a)
 	}
 }

 func mpandnotfixfix(a *Mpint, b *Mpint) {
 	var i int
 	var x int

 	x = 0
 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mpandnotfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	if a.Neg != 0 {
 		a.Neg = 0
 		mpneg(a)
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}

 	for i = 0; i < Mpprec; i++ {
 		x = a.A[i] &^ b.A[i]
 		a.A[i] = x
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}
 	if x&Mpsign != 0 {
 		a.Neg = 1
 		mpneg(a)
 	}
 }

 func mpxorfixfix(a *Mpint, b *Mpint) {
 	var i int
 	var x int

 	x = 0
 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mporfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	if a.Neg != 0 {
 		a.Neg = 0
 		mpneg(a)
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}

 	for i = 0; i < Mpprec; i++ {
 		x = a.A[i] ^ b.A[i]
 		a.A[i] = x
 	}

 	if b.Neg != 0 {
 		mpneg(b)
 	}
 	if x&Mpsign != 0 {
 		a.Neg = 1
 		mpneg(a)
 	}
 }

 func mplshfixfix(a *Mpint, b *Mpint) {
 	var s int64

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mporfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	s = Mpgetfix(b)
 	if s < 0 || s >= Mpprec*Mpscale {
 		Yyerror("stupid shift: %d", s)
 		Mpmovecfix(a, 0)
 		return
 	}

 	Mpshiftfix(a, int(s))
 }

 func mprshfixfix(a *Mpint, b *Mpint) {
 	var s int64

 	if a.Ovf != 0 || b.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("ovf in mprshfixfix")
 		}
 		Mpmovecfix(a, 0)
 		a.Ovf = 1
 		return
 	}

 	s = Mpgetfix(b)
 	if s < 0 || s >= Mpprec*Mpscale {
 		Yyerror("stupid shift: %d", s)
 		if a.Neg != 0 {
 			Mpmovecfix(a, -1)
 		} else {
 			Mpmovecfix(a, 0)
 		}
 		return
 	}

 	Mpshiftfix(a, int(-s))
 }

 func mpnegfix(a *Mpint) {
 	a.Neg ^= 1
 }

 func Mpgetfix(a *Mpint) int64 {
 	var v int64

 	if a.Ovf != 0 {
 		if nsavederrors+nerrors == 0 {
 			Yyerror("constant overflow")
 		}
 		return 0
 	}

 	v = int64(uint64(a.A[0]))
 	v |= int64(uint64(a.A[1]) << Mpscale)
 	v |= int64(uint64(a.A[2]) << (Mpscale + Mpscale))
 	if a.Neg != 0 {
 		v = int64(-uint64(v))
 	}
 	return v
 }

 func Mpmovecfix(a *Mpint, c int64) {
 	var i int
 	var x int64

 	a.Neg = 0
 	a.Ovf = 0

 	x = c
 	if x < 0 {
 		a.Neg = 1
 		x = int64(-uint64(x))
 	}

 	for i = 0; i < Mpprec; i++ {
 		a.A[i] = int(x & Mpmask)
 		x >>= Mpscale
 	}
 }

 func mpdivmodfixfix(q *Mpint, r *Mpint, n *Mpint, d *Mpint) {
 	var i int
 	var ns int
 	var ds int

 	ns = int(n.Neg)
 	ds = int(d.Neg)
 	n.Neg = 0
 	d.Neg = 0

 	mpmovefixfix(r, n)
 	Mpmovecfix(q, 0)

 	// shift denominator until it
 	// is larger than numerator
 	for i = 0; i < Mpprec*Mpscale; i++ {
 		if mpcmp(d, r) > 0 {
 			break
 		}
 		mplsh(d, 1)
 	}

 	// if it never happens
 	// denominator is probably zero
 	if i >= Mpprec*Mpscale {
 		q.Ovf = 1
 		r.Ovf = 1
 		n.Neg = uint8(ns)
 		d.Neg = uint8(ds)
 		Yyerror("constant division overflow")
 		return
 	}

 	// shift denominator back creating
 	// quotient a bit at a time
 	// when done the remaining numerator
 	// will be the remainder
 	for ; i > 0; i-- {
 		mplsh(q, 1)
 		mprsh(d)
 		if mpcmp(d, r) <= 0 {
 			mpaddcfix(q, 1)
 			mpsubfixfix(r, d)
 		}
 	}

 	n.Neg = uint8(ns)
 	d.Neg = uint8(ds)
 	r.Neg = uint8(ns)
 	q.Neg = uint8(ns ^ ds)
 }

 func mpiszero(a *Mpint) bool {
 	var i int

 	for i = Mpprec - 1; i >= 0; i-- {
 		if a.A[i] != 0 {
 			return false
 		}
 	}
 	return true
 }

 func mpdivfract(a *Mpint, b *Mpint) {
 	var n Mpint
 	var d Mpint
 	var i int
 	var j int
 	var neg int
 	var x int

 	mpmovefixfix(&n, a) // numerator
 	mpmovefixfix(&d, b) // denominator

 	neg = int(n.Neg) ^ int(d.Neg)

 	n.Neg = 0
 	d.Neg = 0
 	for i = Mpprec - 1; i >= 0; i-- {
 		x = 0
 		for j = 0; j < Mpscale; j++ {
 			x <<= 1
 			if mpcmp(&d, &n) <= 0 {
 				if !mpiszero(&d) {
 					x |= 1
 				}
 				mpsubfixfix(&n, &d)
 			}

 			mprsh(&d)
 		}

 		a.A[i] = x
 	}

 	a.Neg = uint8(neg)
 }

 func mptestfix(a *Mpint) int {
 	var b Mpint
 	var r int

 	Mpmovecfix(&b, 0)
 	r = mpcmp(a, &b)
 	if a.Neg != 0 {
 		if r > 0 {
 			return -1
 		}
 		if r < 0 {
 			return +1
 		}
 	}

 	return r
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package gc

	//
	// return the significant
	// words of the argument
	//
	func mplen(a *Mpint) int {
	var i int
	var n int

	n = -1
	for i = 0; i < Mpprec; i++ {
	if a.A[i] != 0 {
	n = i
	}
	}

	return n + 1
	}

	//
	// left shift mpint by one
	// ignores sign
	//
	func mplsh(a *Mpint, quiet int) {
	var x int
	var i int
	var c int

	c = 0
	for i = 0; i < Mpprec; i++ {
	x = (a.A[i] << 1) + c
	c = 0
	if x >= Mpbase {
	x -= Mpbase
	c = 1
	}

	a.A[i] = x
	}

	a.Ovf = uint8(c)
	if a.Ovf != 0 && quiet == 0 {
	Yyerror("constant shift overflow")
	}
	}

	//
	// left shift mpint by Mpscale
	// ignores sign
	//
	func mplshw(a *Mpint, quiet int) {
	var i int

	i = Mpprec - 1
	if a.A[i] != 0 {
	a.Ovf = 1
	if quiet == 0 {
	Yyerror("constant shift overflow")
	}
	}

	for ; i > 0; i-- {
	a.A[i] = a.A[i-1]
	}
	a.A[i] = 0
	}

	//
	// right shift mpint by one
	// ignores sign and overflow
	//
	func mprsh(a *Mpint) {
	var x int
	var lo int
	var i int
	var c int

	c = 0
	lo = a.A[0] & 1
	for i = Mpprec - 1; i >= 0; i-- {
	x = a.A[i]
	a.A[i] = (x + c) >> 1
	c = 0
	if x&1 != 0 {
	c = Mpbase
	}
	}

	if a.Neg != 0 && lo != 0 {
	mpaddcfix(a, -1)
	}
	}

	//
	// right shift mpint by Mpscale
	// ignores sign and overflow
	//
	func mprshw(a *Mpint) {
	var lo int
	var i int

	lo = a.A[0]
	for i = 0; i < Mpprec-1; i++ {
	a.A[i] = a.A[i+1]
	}

	a.A[i] = 0
	if a.Neg != 0 && lo != 0 {
	mpaddcfix(a, -1)
	}
	}

	//
	// return the sign of (abs(a)-abs(b))
	//
	func mpcmp(a Mpint, b Mpint) int {
	var x int
	var i int

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in cmp")
	}
	return 0
	}

	for i = Mpprec - 1; i >= 0; i-- {
	x = a.A[i] - b.A[i]
	if x > 0 {
	return +1
	}
	if x < 0 {
	return -1
	}
	}

	return 0
	}

	//
	// negate a
	// ignore sign and ovf
	//
	func mpneg(a *Mpint) {
	var x int
	var i int
	var c int

	c = 0
	for i = 0; i < Mpprec; i++ {
	x = -a.A[i] - c
	c = 0
	if x < 0 {
	x += Mpbase
	c = 1
	}

	a.A[i] = x
	}
	}

	// shift left by s (or right by -s)
	func Mpshiftfix(a *Mpint, s int) {
	if s >= 0 {
	for s >= Mpscale {
	mplshw(a, 0)
	s -= Mpscale
	}

	for s > 0 {
	mplsh(a, 0)
	s--
	}
	} else {
	s = -s
	for s >= Mpscale {
	mprshw(a)
	s -= Mpscale
	}

	for s > 0 {
	mprsh(a)
	s--
	}
	}
	}

	/// implements fix arihmetic

	func mpaddfixfix(a Mpint, b Mpint, quiet int) {
	var i int
	var c int
	var x int

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mpaddxx")
	}
	a.Ovf = 1
	return
	}

	c = 0
	if a.Neg != b.Neg {
	goto sub
	}

	// perform a+b
	for i = 0; i < Mpprec; i++ {
	x = a.A[i] + b.A[i] + c
	c = 0
	if x >= Mpbase {
	x -= Mpbase
	c = 1
	}

	a.A[i] = x
	}

	a.Ovf = uint8(c)
	if a.Ovf != 0 && quiet == 0 {
	Yyerror("constant addition overflow")
	}

	return

	// perform a-b
	sub:
	switch mpcmp(a, b) {
	case 0:
	Mpmovecfix(a, 0)

	case 1:
	for i = 0; i < Mpprec; i++ {
	x = a.A[i] - b.A[i] - c
	c = 0
	if x < 0 {
	x += Mpbase
	c = 1
	}

	a.A[i] = x
	}

	case -1:
	a.Neg ^= 1
	for i = 0; i < Mpprec; i++ {
	x = b.A[i] - a.A[i] - c
	c = 0
	if x < 0 {
	x += Mpbase
	c = 1
	}

	a.A[i] = x
	}
	}
	}

	func mpmulfixfix(a Mpint, b Mpint) {
	var i int
	var j int
	var na int
	var nb int
	var x int
	var s Mpint
	var q Mpint
	var c *Mpint

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mpmulfixfix")
	}
	a.Ovf = 1
	return
	}

	// pick the smaller
	// to test for bits
	na = mplen(a)

	nb = mplen(b)
	if na > nb {
	mpmovefixfix(&s, a)
	c = b
	na = nb
	} else {
	mpmovefixfix(&s, b)
	c = a
	}

	s.Neg = 0

	Mpmovecfix(&q, 0)
	for i = 0; i < na; i++ {
	x = c.A[i]
	for j = 0; j < Mpscale; j++ {
	if x&1 != 0 {
	if s.Ovf != 0 {
	q.Ovf = 1
	goto out
	}

	mpaddfixfix(&q, &s, 1)
	if q.Ovf != 0 {
	goto out
	}
	}

	mplsh(&s, 1)
	x >>= 1
	}
	}

	out:
	q.Neg = a.Neg ^ b.Neg
	mpmovefixfix(a, &q)
	if a.Ovf != 0 {
	Yyerror("constant multiplication overflow")
	}
	}

	func mpmulfract(a Mpint, b Mpint) {
	var i int
	var j int
	var x int
	var s Mpint
	var q Mpint

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mpmulflt")
	}
	a.Ovf = 1
	return
	}

	mpmovefixfix(&s, b)
	s.Neg = 0
	Mpmovecfix(&q, 0)

	i = Mpprec - 1
	x = a.A[i]
	if x != 0 {
	Yyerror("mpmulfract not normal")
	}

	for i--; i >= 0; i-- {
	x = a.A[i]
	if x == 0 {
	mprshw(&s)
	continue
	}

	for j = 0; j < Mpscale; j++ {
	x <<= 1
	if x&Mpbase != 0 {
	mpaddfixfix(&q, &s, 1)
	}
	mprsh(&s)
	}
	}

	q.Neg = a.Neg ^ b.Neg
	mpmovefixfix(a, &q)
	if a.Ovf != 0 {
	Yyerror("constant multiplication overflow")
	}
	}

	func mporfixfix(a Mpint, b Mpint) {
	var i int
	var x int

	x = 0
	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mporfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	if a.Neg != 0 {
	a.Neg = 0
	mpneg(a)
	}

	if b.Neg != 0 {
	mpneg(b)
	}

	for i = 0; i < Mpprec; i++ {
	x = a.A[i] \| b.A[i]
	a.A[i] = x
	}

	if b.Neg != 0 {
	mpneg(b)
	}
	if x&Mpsign != 0 {
	a.Neg = 1
	mpneg(a)
	}
	}

	func mpandfixfix(a Mpint, b Mpint) {
	var i int
	var x int

	x = 0
	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mpandfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	if a.Neg != 0 {
	a.Neg = 0
	mpneg(a)
	}

	if b.Neg != 0 {
	mpneg(b)
	}

	for i = 0; i < Mpprec; i++ {
	x = a.A[i] & b.A[i]
	a.A[i] = x
	}

	if b.Neg != 0 {
	mpneg(b)
	}
	if x&Mpsign != 0 {
	a.Neg = 1
	mpneg(a)
	}
	}

	func mpandnotfixfix(a Mpint, b Mpint) {
	var i int
	var x int

	x = 0
	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mpandnotfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	if a.Neg != 0 {
	a.Neg = 0
	mpneg(a)
	}

	if b.Neg != 0 {
	mpneg(b)
	}

	for i = 0; i < Mpprec; i++ {
	x = a.A[i] &^ b.A[i]
	a.A[i] = x
	}

	if b.Neg != 0 {
	mpneg(b)
	}
	if x&Mpsign != 0 {
	a.Neg = 1
	mpneg(a)
	}
	}

	func mpxorfixfix(a Mpint, b Mpint) {
	var i int
	var x int

	x = 0
	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mporfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	if a.Neg != 0 {
	a.Neg = 0
	mpneg(a)
	}

	if b.Neg != 0 {
	mpneg(b)
	}

	for i = 0; i < Mpprec; i++ {
	x = a.A[i] ^ b.A[i]
	a.A[i] = x
	}

	if b.Neg != 0 {
	mpneg(b)
	}
	if x&Mpsign != 0 {
	a.Neg = 1
	mpneg(a)
	}
	}

	func mplshfixfix(a Mpint, b Mpint) {
	var s int64

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mporfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	s = Mpgetfix(b)
	if s < 0 \|\| s >= Mpprec*Mpscale {
	Yyerror("stupid shift: %d", s)
	Mpmovecfix(a, 0)
	return
	}

	Mpshiftfix(a, int(s))
	}

	func mprshfixfix(a Mpint, b Mpint) {
	var s int64

	if a.Ovf != 0 \|\| b.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("ovf in mprshfixfix")
	}
	Mpmovecfix(a, 0)
	a.Ovf = 1
	return
	}

	s = Mpgetfix(b)
	if s < 0 \|\| s >= Mpprec*Mpscale {
	Yyerror("stupid shift: %d", s)
	if a.Neg != 0 {
	Mpmovecfix(a, -1)
	} else {
	Mpmovecfix(a, 0)
	}
	return
	}

	Mpshiftfix(a, int(-s))
	}

	func mpnegfix(a *Mpint) {
	a.Neg ^= 1
	}

	func Mpgetfix(a *Mpint) int64 {
	var v int64

	if a.Ovf != 0 {
	if nsavederrors+nerrors == 0 {
	Yyerror("constant overflow")
	}
	return 0
	}

	v = int64(uint64(a.A[0]))
	v \|= int64(uint64(a.A[1]) << Mpscale)
	v \|= int64(uint64(a.A[2]) << (Mpscale + Mpscale))
	if a.Neg != 0 {
	v = int64(-uint64(v))
	}
	return v
	}

	func Mpmovecfix(a *Mpint, c int64) {
	var i int
	var x int64

	a.Neg = 0
	a.Ovf = 0

	x = c
	if x < 0 {
	a.Neg = 1
	x = int64(-uint64(x))
	}

	for i = 0; i < Mpprec; i++ {
	a.A[i] = int(x & Mpmask)
	x >>= Mpscale
	}
	}

	func mpdivmodfixfix(q Mpint, r Mpint, n Mpint, d Mpint) {
	var i int
	var ns int
	var ds int

	ns = int(n.Neg)
	ds = int(d.Neg)
	n.Neg = 0
	d.Neg = 0

	mpmovefixfix(r, n)
	Mpmovecfix(q, 0)

	// shift denominator until it
	// is larger than numerator
	for i = 0; i < Mpprec*Mpscale; i++ {
	if mpcmp(d, r) > 0 {
	break
	}
	mplsh(d, 1)
	}

	// if it never happens
	// denominator is probably zero
	if i >= Mpprec*Mpscale {
	q.Ovf = 1
	r.Ovf = 1
	n.Neg = uint8(ns)
	d.Neg = uint8(ds)
	Yyerror("constant division overflow")
	return
	}

	// shift denominator back creating
	// quotient a bit at a time
	// when done the remaining numerator
	// will be the remainder
	for ; i > 0; i-- {
	mplsh(q, 1)
	mprsh(d)
	if mpcmp(d, r) <= 0 {
	mpaddcfix(q, 1)
	mpsubfixfix(r, d)
	}
	}

	n.Neg = uint8(ns)
	d.Neg = uint8(ds)
	r.Neg = uint8(ns)
	q.Neg = uint8(ns ^ ds)
	}

	func mpiszero(a *Mpint) bool {
	var i int

	for i = Mpprec - 1; i >= 0; i-- {
	if a.A[i] != 0 {
	return false
	}
	}
	return true
	}

	func mpdivfract(a Mpint, b Mpint) {
	var n Mpint
	var d Mpint
	var i int
	var j int
	var neg int
	var x int

	mpmovefixfix(&n, a) // numerator
	mpmovefixfix(&d, b) // denominator

	neg = int(n.Neg) ^ int(d.Neg)

	n.Neg = 0
	d.Neg = 0
	for i = Mpprec - 1; i >= 0; i-- {
	x = 0
	for j = 0; j < Mpscale; j++ {
	x <<= 1
	if mpcmp(&d, &n) <= 0 {
	if !mpiszero(&d) {
	x \|= 1
	}
	mpsubfixfix(&n, &d)
	}

	mprsh(&d)
	}

	a.A[i] = x
	}

	a.Neg = uint8(neg)
	}

	func mptestfix(a *Mpint) int {
	var b Mpint
	var r int

	Mpmovecfix(&b, 0)
	r = mpcmp(a, &b)
	if a.Neg != 0 {
	if r > 0 {
	return -1
	}
	if r < 0 {
	return +1
	}
	}

	return r
	}