src/cmd/internal/gc/mparith1.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

 import (
 	"cmd/internal/obj"
 	"fmt"
 	"math"
 )

 /// uses arithmetic

 func mpcmpfixflt(a *Mpint, b *Mpflt) int {
 	var buf string
 	var c Mpflt

 	buf = fmt.Sprintf("%v", Bconv(a, 0))
 	mpatoflt(&c, buf)
 	return mpcmpfltflt(&c, b)
 }

 func mpcmpfltfix(a *Mpflt, b *Mpint) int {
 	var buf string
 	var c Mpflt

 	buf = fmt.Sprintf("%v", Bconv(b, 0))
 	mpatoflt(&c, buf)
 	return mpcmpfltflt(a, &c)
 }

 func Mpcmpfixfix(a *Mpint, b *Mpint) int {
 	var c Mpint

 	mpmovefixfix(&c, a)
 	mpsubfixfix(&c, b)
 	return mptestfix(&c)
 }

 func mpcmpfixc(b *Mpint, c int64) int {
 	var c1 Mpint

 	Mpmovecfix(&c1, c)
 	return Mpcmpfixfix(b, &c1)
 }

 func mpcmpfltflt(a *Mpflt, b *Mpflt) int {
 	var c Mpflt

 	mpmovefltflt(&c, a)
 	mpsubfltflt(&c, b)
 	return mptestflt(&c)
 }

 func mpcmpfltc(b *Mpflt, c float64) int {
 	var a Mpflt

 	Mpmovecflt(&a, c)
 	return mpcmpfltflt(b, &a)
 }

 func mpsubfixfix(a *Mpint, b *Mpint) {
 	mpnegfix(a)
 	mpaddfixfix(a, b, 0)
 	mpnegfix(a)
 }

 func mpsubfltflt(a *Mpflt, b *Mpflt) {
 	mpnegflt(a)
 	mpaddfltflt(a, b)
 	mpnegflt(a)
 }

 func mpaddcfix(a *Mpint, c int64) {
 	var b Mpint

 	Mpmovecfix(&b, c)
 	mpaddfixfix(a, &b, 0)
 }

 func mpaddcflt(a *Mpflt, c float64) {
 	var b Mpflt

 	Mpmovecflt(&b, c)
 	mpaddfltflt(a, &b)
 }

 func mpmulcfix(a *Mpint, c int64) {
 	var b Mpint

 	Mpmovecfix(&b, c)
 	mpmulfixfix(a, &b)
 }

 func mpmulcflt(a *Mpflt, c float64) {
 	var b Mpflt

 	Mpmovecflt(&b, c)
 	mpmulfltflt(a, &b)
 }

 func mpdivfixfix(a *Mpint, b *Mpint) {
 	var q Mpint
 	var r Mpint

 	mpdivmodfixfix(&q, &r, a, b)
 	mpmovefixfix(a, &q)
 }

 func mpmodfixfix(a *Mpint, b *Mpint) {
 	var q Mpint
 	var r Mpint

 	mpdivmodfixfix(&q, &r, a, b)
 	mpmovefixfix(a, &r)
 }

 func mpcomfix(a *Mpint) {
 	var b Mpint

 	Mpmovecfix(&b, 1)
 	mpnegfix(a)
 	mpsubfixfix(a, &b)
 }

 func Mpmovefixflt(a *Mpflt, b *Mpint) {
 	a.Val = *b
 	a.Exp = 0
 	mpnorm(a)
 }

 // convert (truncate) b to a.
 // return -1 (but still convert) if b was non-integer.
 func mpexactfltfix(a *Mpint, b *Mpflt) int {
 	var f Mpflt

 	*a = b.Val
 	Mpshiftfix(a, int(b.Exp))
 	if b.Exp < 0 {
 		f.Val = *a
 		f.Exp = 0
 		mpnorm(&f)
 		if mpcmpfltflt(b, &f) != 0 {
 			return -1
 		}
 	}

 	return 0
 }

 func mpmovefltfix(a *Mpint, b *Mpflt) int {
 	var f Mpflt
 	var i int

 	if mpexactfltfix(a, b) == 0 {
 		return 0
 	}

 	// try rounding down a little
 	f = *b

 	f.Val.A[0] = 0
 	if mpexactfltfix(a, &f) == 0 {
 		return 0
 	}

 	// try rounding up a little
 	for i = 1; i < Mpprec; i++ {
 		f.Val.A[i]++
 		if f.Val.A[i] != Mpbase {
 			break
 		}
 		f.Val.A[i] = 0
 	}

 	mpnorm(&f)
 	if mpexactfltfix(a, &f) == 0 {
 		return 0
 	}

 	return -1
 }

 func mpmovefixfix(a *Mpint, b *Mpint) {
 	*a = *b
 }

 func mpmovefltflt(a *Mpflt, b *Mpflt) {
 	*a = *b
 }

 var tab = []float64{1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7}

 func mppow10flt(a *Mpflt, p int) {
 	if p < 0 {
 		panic("abort")
 	}
 	if p < len(tab) {
 		Mpmovecflt(a, tab[p])
 		return
 	}

 	mppow10flt(a, p>>1)
 	mpmulfltflt(a, a)
 	if p&1 != 0 {
 		mpmulcflt(a, 10)
 	}
 }

 func mphextofix(a *Mpint, s string) {
 	var c int8
 	var d int
 	var bit int
 	var hexdigitp int
 	var end int

 	for s != "" && s[0] == '0' {
 		s = s[1:]
 	}

 	// overflow
 	if 4*len(s) > Mpscale*Mpprec {
 		a.Ovf = 1
 		return
 	}

 	end = len(s) - 1
 	for hexdigitp = end; hexdigitp >= 0; hexdigitp-- {
 		c = int8(s[hexdigitp])
 		if c >= '0' && c <= '9' {
 			d = int(c) - '0'
 		} else if c >= 'A' && c <= 'F' {
 			d = int(c) - 'A' + 10
 		} else {
 			d = int(c) - 'a' + 10
 		}

 		bit = 4 * (end - hexdigitp)
 		for d > 0 {
 			if d&1 != 0 {
 				a.A[bit/Mpscale] |= int(1) << uint(bit%Mpscale)
 			}
 			bit++
 			d = d >> 1
 		}
 	}
 }

 //
 // floating point input
 // required syntax is [+-]d*[.]d*[e[+-]d*] or [+-]0xH*[e[+-]d*]
 //
 func mpatoflt(a *Mpflt, as string) {
 	var b Mpflt
 	var dp int
 	var c int
 	var f int
 	var ef int
 	var ex int
 	var eb int
 	var base int
 	var s string
 	var start string

 	for as[0] == ' ' || as[0] == '\t' {
 		as = as[1:]
 	}

 	/* determine base */
 	s = as

 	base = -1
 	for base == -1 {
 		if s == "" {
 			base = 10
 			break
 		}
 		c := s[0]
 		s = s[1:]
 		switch c {
 		case '-',
 			'+':
 			break

 		case '0':
 			if s != "" && s[0] == 'x' {
 				base = 16
 			} else {
 				base = 10
 			}

 		default:
 			base = 10
 		}
 	}

 	s = as
 	dp = 0 /* digits after decimal point */
 	f = 0  /* sign */
 	ex = 0 /* exponent */
 	eb = 0 /* binary point */

 	Mpmovecflt(a, 0.0)
 	if base == 16 {
 		start = ""
 		for {
 			c, _ = intstarstringplusplus(s)
 			if c == '-' {
 				f = 1
 				s = s[1:]
 			} else if c == '+' {
 				s = s[1:]
 			} else if c == '0' && s[1] == 'x' {
 				s = s[2:]
 				start = s
 			} else if (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F') {
 				s = s[1:]
 			} else {
 				break
 			}
 		}

 		if start == "" {
 			Yyerror("malformed hex constant: %s", as)
 			goto bad
 		}

 		mphextofix(&a.Val, start[:len(start)-len(s)])
 		if a.Val.Ovf != 0 {
 			Yyerror("constant too large: %s", as)
 			goto bad
 		}

 		a.Exp = 0
 		mpnorm(a)
 	}

 	for {
 		c, s = intstarstringplusplus(s)
 		switch c {
 		default:
 			Yyerror("malformed constant: %s (at %c)", as, c)
 			goto bad

 		case '-':
 			f = 1
 			fallthrough

 		case ' ',
 			'\t',
 			'+':
 			continue

 		case '.':
 			if base == 16 {
 				Yyerror("decimal point in hex constant: %s", as)
 				goto bad
 			}

 			dp = 1
 			continue

 		case '1',
 			'2',
 			'3',
 			'4',
 			'5',
 			'6',
 			'7',
 			'8',
 			'9',
 			'0':
 			mpmulcflt(a, 10)
 			mpaddcflt(a, float64(c)-'0')
 			if dp != 0 {
 				dp++
 			}
 			continue

 		case 'P',
 			'p':
 			eb = 1
 			fallthrough

 		case 'E',
 			'e':
 			ex = 0
 			ef = 0
 			for {
 				c, s = intstarstringplusplus(s)
 				if c == '+' || c == ' ' || c == '\t' {
 					continue
 				}
 				if c == '-' {
 					ef = 1
 					continue
 				}

 				if c >= '0' && c <= '9' {
 					ex = ex*10 + (c - '0')
 					if ex > 1e8 {
 						Yyerror("constant exponent out of range: %s", as)
 						errorexit()
 					}

 					continue
 				}

 				break
 			}

 			if ef != 0 {
 				ex = -ex
 			}
 			fallthrough

 		case 0:
 			break
 		}

 		break
 	}

 	if eb != 0 {
 		if dp != 0 {
 			Yyerror("decimal point and binary point in constant: %s", as)
 			goto bad
 		}

 		mpsetexp(a, int(a.Exp)+ex)
 		goto out
 	}

 	if dp != 0 {
 		dp--
 	}
 	if mpcmpfltc(a, 0.0) != 0 {
 		if ex >= dp {
 			mppow10flt(&b, ex-dp)
 			mpmulfltflt(a, &b)
 		} else {
 			// 4 approximates least_upper_bound(log2(10)).
 			if dp-ex >= 1<<(32-3) || int(int16(4*(dp-ex))) != 4*(dp-ex) {
 				Mpmovecflt(a, 0.0)
 			} else {
 				mppow10flt(&b, dp-ex)
 				mpdivfltflt(a, &b)
 			}
 		}
 	}

 out:
 	if f != 0 {
 		mpnegflt(a)
 	}
 	return

 bad:
 	Mpmovecflt(a, 0.0)
 }

 //
 // fixed point input
 // required syntax is [+-][0[x]]d*
 //
 func mpatofix(a *Mpint, as string) {
 	var c int
 	var f int
 	var s string
 	var s0 string

 	s = as
 	f = 0
 	Mpmovecfix(a, 0)

 	c, s = intstarstringplusplus(s)
 	switch c {
 	case '-':
 		f = 1
 		fallthrough

 	case '+':
 		c, s = intstarstringplusplus(s)
 		if c != '0' {
 			break
 		}
 		fallthrough

 	case '0':
 		goto oct
 	}

 	for c != 0 {
 		if c >= '0' && c <= '9' {
 			mpmulcfix(a, 10)
 			mpaddcfix(a, int64(c)-'0')
 			c, s = intstarstringplusplus(s)
 			continue
 		}

 		Yyerror("malformed decimal constant: %s", as)
 		goto bad
 	}

 	goto out

 oct:
 	c, s = intstarstringplusplus(s)
 	if c == 'x' || c == 'X' {
 		goto hex
 	}
 	for c != 0 {
 		if c >= '0' && c <= '7' {
 			mpmulcfix(a, 8)
 			mpaddcfix(a, int64(c)-'0')
 			c, s = intstarstringplusplus(s)
 			continue
 		}

 		Yyerror("malformed octal constant: %s", as)
 		goto bad
 	}

 	goto out

 hex:
 	s0 = s
 	c, _ = intstarstringplusplus(s)
 	for c != 0 {
 		if (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F') {
 			s = s[1:]
 			c, _ = intstarstringplusplus(s)
 			continue
 		}

 		Yyerror("malformed hex constant: %s", as)
 		goto bad
 	}

 	mphextofix(a, s0)
 	if a.Ovf != 0 {
 		Yyerror("constant too large: %s", as)
 		goto bad
 	}

 out:
 	if f != 0 {
 		mpnegfix(a)
 	}
 	return

 bad:
 	Mpmovecfix(a, 0)
 }

 func Bconv(xval *Mpint, flag int) string {
 	var buf [500]byte
 	var p int
 	var fp string

 	var q Mpint
 	var r Mpint
 	var ten Mpint
 	var sixteen Mpint
 	var f int
 	var digit int

 	mpmovefixfix(&q, xval)
 	f = 0
 	if mptestfix(&q) < 0 {
 		f = 1
 		mpnegfix(&q)
 	}

 	p = len(buf)
 	if flag&obj.FmtSharp != 0 /*untyped*/ {
 		// Hexadecimal
 		Mpmovecfix(&sixteen, 16)

 		for {
 			mpdivmodfixfix(&q, &r, &q, &sixteen)
 			digit = int(Mpgetfix(&r))
 			if digit < 10 {
 				p--
 				buf[p] = byte(digit + '0')
 			} else {
 				p--
 				buf[p] = byte(digit - 10 + 'A')
 			}
 			if mptestfix(&q) <= 0 {
 				break
 			}
 		}

 		p--
 		buf[p] = 'x'
 		p--
 		buf[p] = '0'
 	} else {
 		// Decimal
 		Mpmovecfix(&ten, 10)

 		for {
 			mpdivmodfixfix(&q, &r, &q, &ten)
 			p--
 			buf[p] = byte(Mpgetfix(&r) + '0')
 			if mptestfix(&q) <= 0 {
 				break
 			}
 		}
 	}

 	if f != 0 {
 		p--
 		buf[p] = '-'
 	}
 	fp += string(buf[p:])
 	return fp
 }

 func Fconv(fvp *Mpflt, flag int) string {
 	var buf string
 	var fp string

 	var fv Mpflt
 	var d float64
 	var dexp float64
 	var exp int

 	if flag&obj.FmtSharp != 0 /*untyped*/ {
 		// alternate form - decimal for error messages.
 		// for well in range, convert to double and use print's %g
 		exp = int(fvp.Exp) + sigfig(fvp)*Mpscale

 		if -900 < exp && exp < 900 {
 			d = mpgetflt(fvp)
 			if d >= 0 && (flag&obj.FmtSign != 0 /*untyped*/) {
 				fp += fmt.Sprintf("+")
 			}
 			fp += fmt.Sprintf("%.6g", d)
 			return fp
 		}

 		// very out of range. compute decimal approximation by hand.
 		// decimal exponent
 		dexp = float64(fvp.Exp) * 0.301029995663981195 // log_10(2)
 		exp = int(dexp)

 		// decimal mantissa
 		fv = *fvp

 		fv.Val.Neg = 0
 		fv.Exp = 0
 		d = mpgetflt(&fv)
 		d *= math.Pow(10, dexp-float64(exp))
 		for d >= 9.99995 {
 			d /= 10
 			exp++
 		}

 		if fvp.Val.Neg != 0 {
 			fp += fmt.Sprintf("-")
 		} else if flag&obj.FmtSign != 0 /*untyped*/ {
 			fp += fmt.Sprintf("+")
 		}
 		fp += fmt.Sprintf("%.5fe+%d", d, exp)
 		return fp
 	}

 	if sigfig(fvp) == 0 {
 		buf = fmt.Sprintf("0p+0")
 		goto out
 	}

 	fv = *fvp

 	for fv.Val.A[0] == 0 {
 		Mpshiftfix(&fv.Val, -Mpscale)
 		fv.Exp += Mpscale
 	}

 	for fv.Val.A[0]&1 == 0 {
 		Mpshiftfix(&fv.Val, -1)
 		fv.Exp += 1
 	}

 	if fv.Exp >= 0 {
 		buf = fmt.Sprintf("%vp+%d", Bconv(&fv.Val, obj.FmtSharp), fv.Exp)
 		goto out
 	}

 	buf = fmt.Sprintf("%vp-%d", Bconv(&fv.Val, obj.FmtSharp), -fv.Exp)

 out:
 	fp += buf
 	return fp
 }
	// 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

	import (
	"cmd/internal/obj"
	"fmt"
	"math"
	)

	/// uses arithmetic

	func mpcmpfixflt(a Mpint, b Mpflt) int {
	var buf string
	var c Mpflt

	buf = fmt.Sprintf("%v", Bconv(a, 0))
	mpatoflt(&c, buf)
	return mpcmpfltflt(&c, b)
	}

	func mpcmpfltfix(a Mpflt, b Mpint) int {
	var buf string
	var c Mpflt

	buf = fmt.Sprintf("%v", Bconv(b, 0))
	mpatoflt(&c, buf)
	return mpcmpfltflt(a, &c)
	}

	func Mpcmpfixfix(a Mpint, b Mpint) int {
	var c Mpint

	mpmovefixfix(&c, a)
	mpsubfixfix(&c, b)
	return mptestfix(&c)
	}

	func mpcmpfixc(b *Mpint, c int64) int {
	var c1 Mpint

	Mpmovecfix(&c1, c)
	return Mpcmpfixfix(b, &c1)
	}

	func mpcmpfltflt(a Mpflt, b Mpflt) int {
	var c Mpflt

	mpmovefltflt(&c, a)
	mpsubfltflt(&c, b)
	return mptestflt(&c)
	}

	func mpcmpfltc(b *Mpflt, c float64) int {
	var a Mpflt

	Mpmovecflt(&a, c)
	return mpcmpfltflt(b, &a)
	}

	func mpsubfixfix(a Mpint, b Mpint) {
	mpnegfix(a)
	mpaddfixfix(a, b, 0)
	mpnegfix(a)
	}

	func mpsubfltflt(a Mpflt, b Mpflt) {
	mpnegflt(a)
	mpaddfltflt(a, b)
	mpnegflt(a)
	}

	func mpaddcfix(a *Mpint, c int64) {
	var b Mpint

	Mpmovecfix(&b, c)
	mpaddfixfix(a, &b, 0)
	}

	func mpaddcflt(a *Mpflt, c float64) {
	var b Mpflt

	Mpmovecflt(&b, c)
	mpaddfltflt(a, &b)
	}

	func mpmulcfix(a *Mpint, c int64) {
	var b Mpint

	Mpmovecfix(&b, c)
	mpmulfixfix(a, &b)
	}

	func mpmulcflt(a *Mpflt, c float64) {
	var b Mpflt

	Mpmovecflt(&b, c)
	mpmulfltflt(a, &b)
	}

	func mpdivfixfix(a Mpint, b Mpint) {
	var q Mpint
	var r Mpint

	mpdivmodfixfix(&q, &r, a, b)
	mpmovefixfix(a, &q)
	}

	func mpmodfixfix(a Mpint, b Mpint) {
	var q Mpint
	var r Mpint

	mpdivmodfixfix(&q, &r, a, b)
	mpmovefixfix(a, &r)
	}

	func mpcomfix(a *Mpint) {
	var b Mpint

	Mpmovecfix(&b, 1)
	mpnegfix(a)
	mpsubfixfix(a, &b)
	}

	func Mpmovefixflt(a Mpflt, b Mpint) {
	a.Val = *b
	a.Exp = 0
	mpnorm(a)
	}

	// convert (truncate) b to a.
	// return -1 (but still convert) if b was non-integer.
	func mpexactfltfix(a Mpint, b Mpflt) int {
	var f Mpflt

	*a = b.Val
	Mpshiftfix(a, int(b.Exp))
	if b.Exp < 0 {
	f.Val = *a
	f.Exp = 0
	mpnorm(&f)
	if mpcmpfltflt(b, &f) != 0 {
	return -1
	}
	}

	return 0
	}

	func mpmovefltfix(a Mpint, b Mpflt) int {
	var f Mpflt
	var i int

	if mpexactfltfix(a, b) == 0 {
	return 0
	}

	// try rounding down a little
	f = *b

	f.Val.A[0] = 0
	if mpexactfltfix(a, &f) == 0 {
	return 0
	}

	// try rounding up a little
	for i = 1; i < Mpprec; i++ {
	f.Val.A[i]++
	if f.Val.A[i] != Mpbase {
	break
	}
	f.Val.A[i] = 0
	}

	mpnorm(&f)
	if mpexactfltfix(a, &f) == 0 {
	return 0
	}

	return -1
	}

	func mpmovefixfix(a Mpint, b Mpint) {
	a = b
	}

	func mpmovefltflt(a Mpflt, b Mpflt) {
	a = b
	}

	var tab = []float64{1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7}

	func mppow10flt(a *Mpflt, p int) {
	if p < 0 {
	panic("abort")
	}
	if p < len(tab) {
	Mpmovecflt(a, tab[p])
	return
	}

	mppow10flt(a, p>>1)
	mpmulfltflt(a, a)
	if p&1 != 0 {
	mpmulcflt(a, 10)
	}
	}

	func mphextofix(a *Mpint, s string) {
	var c int8
	var d int
	var bit int
	var hexdigitp int
	var end int

	for s != "" && s[0] == '0' {
	s = s[1:]
	}

	// overflow
	if 4len(s) > MpscaleMpprec {
	a.Ovf = 1
	return
	}

	end = len(s) - 1
	for hexdigitp = end; hexdigitp >= 0; hexdigitp-- {
	c = int8(s[hexdigitp])
	if c >= '0' && c <= '9' {
	d = int(c) - '0'
	} else if c >= 'A' && c <= 'F' {
	d = int(c) - 'A' + 10
	} else {
	d = int(c) - 'a' + 10
	}

	bit = 4 * (end - hexdigitp)
	for d > 0 {
	if d&1 != 0 {
	a.A[bit/Mpscale] \|= int(1) << uint(bit%Mpscale)
	}
	bit++
	d = d >> 1
	}
	}
	}

	//
	// floating point input
	// required syntax is [+-]d[.]d[e[+-]d] or [+-]0xH[e[+-]d*]
	//
	func mpatoflt(a *Mpflt, as string) {
	var b Mpflt
	var dp int
	var c int
	var f int
	var ef int
	var ex int
	var eb int
	var base int
	var s string
	var start string

	for as[0] == ' ' \|\| as[0] == '\t' {
	as = as[1:]
	}

	/* determine base */
	s = as

	base = -1
	for base == -1 {
	if s == "" {
	base = 10
	break
	}
	c := s[0]
	s = s[1:]
	switch c {
	case '-',
	'+':
	break

	case '0':
	if s != "" && s[0] == 'x' {
	base = 16
	} else {
	base = 10
	}

	default:
	base = 10
	}
	}

	s = as
	dp = 0 /* digits after decimal point */
	f = 0 /* sign */
	ex = 0 /* exponent */
	eb = 0 /* binary point */

	Mpmovecflt(a, 0.0)
	if base == 16 {
	start = ""
	for {
	c, _ = intstarstringplusplus(s)
	if c == '-' {
	f = 1
	s = s[1:]
	} else if c == '+' {
	s = s[1:]
	} else if c == '0' && s[1] == 'x' {
	s = s[2:]
	start = s
	} else if (c >= '0' && c <= '9') \|\| (c >= 'a' && c <= 'f') \|\| (c >= 'A' && c <= 'F') {
	s = s[1:]
	} else {
	break
	}
	}

	if start == "" {
	Yyerror("malformed hex constant: %s", as)
	goto bad
	}

	mphextofix(&a.Val, start[:len(start)-len(s)])
	if a.Val.Ovf != 0 {
	Yyerror("constant too large: %s", as)
	goto bad
	}

	a.Exp = 0
	mpnorm(a)
	}

	for {
	c, s = intstarstringplusplus(s)
	switch c {
	default:
	Yyerror("malformed constant: %s (at %c)", as, c)
	goto bad

	case '-':
	f = 1
	fallthrough

	case ' ',
	'\t',
	'+':
	continue

	case '.':
	if base == 16 {
	Yyerror("decimal point in hex constant: %s", as)
	goto bad
	}

	dp = 1
	continue

	case '1',
	'2',
	'3',
	'4',
	'5',
	'6',
	'7',
	'8',
	'9',
	'0':
	mpmulcflt(a, 10)
	mpaddcflt(a, float64(c)-'0')
	if dp != 0 {
	dp++
	}
	continue

	case 'P',
	'p':
	eb = 1
	fallthrough

	case 'E',
	'e':
	ex = 0
	ef = 0
	for {
	c, s = intstarstringplusplus(s)
	if c == '+' \|\| c == ' ' \|\| c == '\t' {
	continue
	}
	if c == '-' {
	ef = 1
	continue
	}

	if c >= '0' && c <= '9' {
	ex = ex*10 + (c - '0')
	if ex > 1e8 {
	Yyerror("constant exponent out of range: %s", as)
	errorexit()
	}

	continue
	}

	break
	}

	if ef != 0 {
	ex = -ex
	}
	fallthrough

	case 0:
	break
	}

	break
	}

	if eb != 0 {
	if dp != 0 {
	Yyerror("decimal point and binary point in constant: %s", as)
	goto bad
	}

	mpsetexp(a, int(a.Exp)+ex)
	goto out
	}

	if dp != 0 {
	dp--
	}
	if mpcmpfltc(a, 0.0) != 0 {
	if ex >= dp {
	mppow10flt(&b, ex-dp)
	mpmulfltflt(a, &b)
	} else {
	// 4 approximates least_upper_bound(log2(10)).
	if dp-ex >= 1<<(32-3) \|\| int(int16(4(dp-ex))) != 4(dp-ex) {
	Mpmovecflt(a, 0.0)
	} else {
	mppow10flt(&b, dp-ex)
	mpdivfltflt(a, &b)
	}
	}
	}

	out:
	if f != 0 {
	mpnegflt(a)
	}
	return

	bad:
	Mpmovecflt(a, 0.0)
	}

	//
	// fixed point input
	// required syntax is [+-][0[x]]d*
	//
	func mpatofix(a *Mpint, as string) {
	var c int
	var f int
	var s string
	var s0 string

	s = as
	f = 0
	Mpmovecfix(a, 0)

	c, s = intstarstringplusplus(s)
	switch c {
	case '-':
	f = 1
	fallthrough

	case '+':
	c, s = intstarstringplusplus(s)
	if c != '0' {
	break
	}
	fallthrough

	case '0':
	goto oct
	}

	for c != 0 {
	if c >= '0' && c <= '9' {
	mpmulcfix(a, 10)
	mpaddcfix(a, int64(c)-'0')
	c, s = intstarstringplusplus(s)
	continue
	}

	Yyerror("malformed decimal constant: %s", as)
	goto bad
	}

	goto out

	oct:
	c, s = intstarstringplusplus(s)
	if c == 'x' \|\| c == 'X' {
	goto hex
	}
	for c != 0 {
	if c >= '0' && c <= '7' {
	mpmulcfix(a, 8)
	mpaddcfix(a, int64(c)-'0')
	c, s = intstarstringplusplus(s)
	continue
	}

	Yyerror("malformed octal constant: %s", as)
	goto bad
	}

	goto out

	hex:
	s0 = s
	c, _ = intstarstringplusplus(s)
	for c != 0 {
	if (c >= '0' && c <= '9') \|\| (c >= 'a' && c <= 'f') \|\| (c >= 'A' && c <= 'F') {
	s = s[1:]
	c, _ = intstarstringplusplus(s)
	continue
	}

	Yyerror("malformed hex constant: %s", as)
	goto bad
	}

	mphextofix(a, s0)
	if a.Ovf != 0 {
	Yyerror("constant too large: %s", as)
	goto bad
	}

	out:
	if f != 0 {
	mpnegfix(a)
	}
	return

	bad:
	Mpmovecfix(a, 0)
	}

	func Bconv(xval *Mpint, flag int) string {
	var buf [500]byte
	var p int
	var fp string

	var q Mpint
	var r Mpint
	var ten Mpint
	var sixteen Mpint
	var f int
	var digit int

	mpmovefixfix(&q, xval)
	f = 0
	if mptestfix(&q) < 0 {
	f = 1
	mpnegfix(&q)
	}

	p = len(buf)
	if flag&obj.FmtSharp != 0 /untyped/ {
	// Hexadecimal
	Mpmovecfix(&sixteen, 16)

	for {
	mpdivmodfixfix(&q, &r, &q, &sixteen)
	digit = int(Mpgetfix(&r))
	if digit < 10 {
	p--
	buf[p] = byte(digit + '0')
	} else {
	p--
	buf[p] = byte(digit - 10 + 'A')
	}
	if mptestfix(&q) <= 0 {
	break
	}
	}

	p--
	buf[p] = 'x'
	p--
	buf[p] = '0'
	} else {
	// Decimal
	Mpmovecfix(&ten, 10)

	for {
	mpdivmodfixfix(&q, &r, &q, &ten)
	p--
	buf[p] = byte(Mpgetfix(&r) + '0')
	if mptestfix(&q) <= 0 {
	break
	}
	}
	}

	if f != 0 {
	p--
	buf[p] = '-'
	}
	fp += string(buf[p:])
	return fp
	}

	func Fconv(fvp *Mpflt, flag int) string {
	var buf string
	var fp string

	var fv Mpflt
	var d float64
	var dexp float64
	var exp int

	if flag&obj.FmtSharp != 0 /untyped/ {
	// alternate form - decimal for error messages.
	// for well in range, convert to double and use print's %g
	exp = int(fvp.Exp) + sigfig(fvp)*Mpscale

	if -900 < exp && exp < 900 {
	d = mpgetflt(fvp)
	if d >= 0 && (flag&obj.FmtSign != 0 /untyped/) {
	fp += fmt.Sprintf("+")
	}
	fp += fmt.Sprintf("%.6g", d)
	return fp
	}

	// very out of range. compute decimal approximation by hand.
	// decimal exponent
	dexp = float64(fvp.Exp) * 0.301029995663981195 // log_10(2)
	exp = int(dexp)

	// decimal mantissa
	fv = *fvp

	fv.Val.Neg = 0
	fv.Exp = 0
	d = mpgetflt(&fv)
	d *= math.Pow(10, dexp-float64(exp))
	for d >= 9.99995 {
	d /= 10
	exp++
	}

	if fvp.Val.Neg != 0 {
	fp += fmt.Sprintf("-")
	} else if flag&obj.FmtSign != 0 /untyped/ {
	fp += fmt.Sprintf("+")
	}
	fp += fmt.Sprintf("%.5fe+%d", d, exp)
	return fp
	}

	if sigfig(fvp) == 0 {
	buf = fmt.Sprintf("0p+0")
	goto out
	}

	fv = *fvp

	for fv.Val.A[0] == 0 {
	Mpshiftfix(&fv.Val, -Mpscale)
	fv.Exp += Mpscale
	}

	for fv.Val.A[0]&1 == 0 {
	Mpshiftfix(&fv.Val, -1)
	fv.Exp += 1
	}

	if fv.Exp >= 0 {
	buf = fmt.Sprintf("%vp+%d", Bconv(&fv.Val, obj.FmtSharp), fv.Exp)
	goto out
	}

	buf = fmt.Sprintf("%vp-%d", Bconv(&fv.Val, obj.FmtSharp), -fv.Exp)

	out:
	fp += buf
	return fp
	}