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ceriel il y a 35 ans
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a70a30805e

+ 18 - 0
modules/src/flt_arith/.distr

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+Makefile
+b64_add.c
+b64_sft.c
+flt_add.c
+flt_arith.h
+flt_arith2flt.c
+flt_chk.c
+flt_cmp.c
+flt_div.c
+flt_flt2arith.c
+flt_modf.c
+flt_mul.c
+flt_nrm.c
+flt_str2flt.c
+misc.h
+ucmp.c
+flt_arith.3
+

+ 68 - 0
modules/src/flt_arith/Makefile

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+# $Header$
+EMHOME = ../../..
+MODDIR=$(EMHOME)/modules
+INSTALL = $(MODDIR)/install
+COMPARE = $(MODDIR)/compare
+INCLUDES = -I. -I$(MODDIR)/h
+CFLAGS = -O $(INCLUDES) $(COPT)
+AR = ar
+SUF = o
+LIBSUF = a
+
+LIBFLT = libflt.$(LIBSUF)
+
+SRC =	b64_add.c flt_arith2flt.c flt_div.c flt_nrm.c b64_sft.c flt_chk.c \
+	flt_flt2arith.c	flt_str2flt.c flt_add.c flt_cmp.c flt_mul.c ucmp.c \
+	flt_modf.c
+OBJ =	b64_add.$(SUF) flt_arith2flt.$(SUF) flt_div.$(SUF) flt_nrm.$(SUF) \
+	b64_sft.$(SUF) flt_chk.$(SUF) flt_flt2arith.$(SUF) flt_str2flt.$(SUF) \
+	flt_add.$(SUF) flt_cmp.$(SUF) flt_mul.$(SUF) ucmp.$(SUF) \
+	flt_modf.$(SUF)
+
+.SUFFIXES:	.$(SUF)
+.c.$(SUF):
+	$(CC) -c $(CFLAGS) $*.c
+
+all:		$(LIBFLT)
+
+$(LIBFLT):	$(OBJ)
+		rm -f $(LIBFLT)
+		$(AR) r $(LIBFLT) $(OBJ)
+		-sh -c 'ranlib $(LIBFLT)'
+
+install:	all
+		$(INSTALL) lib/$(LIBFLT)
+		$(INSTALL) h/flt_arith.h
+		$(INSTALL) man/flt_arith.3
+
+cmp:		all
+		-$(COMPARE) lib/$(LIBFLT)
+		-$(COMPARE) h/flt_arith.h
+		-$(COMPARE) man/flt_arith.3
+
+pr:
+		@pr Makefile $(SRC)
+
+opr:
+		make pr | opr
+
+clean:
+		rm -f *.$(SUF) $(LIBFLT)
+
+lintlib:
+		lint $(INCLUDES) -Cflt $(SRC)
+		mv llib-lflt.ln $(MODDIR)/lib
+
+b64_add.$(SUF):	misc.h flt_arith.h
+flt_arith2flt.$(SUF):	misc.h flt_arith.h
+flt_div.$(SUF):	misc.h flt_arith.h
+flt_nrm.$(SUF):	misc.h flt_arith.h
+b64_sft.$(SUF):	misc.h flt_arith.h
+flt_chk.$(SUF):	misc.h flt_arith.h
+flt_flt2arith.$(SUF):	misc.h flt_arith.h
+flt_str2flt.$(SUF):	misc.h flt_arith.h
+flt_add.$(SUF):	misc.h flt_arith.h
+flt_cmp.$(SUF):	misc.h flt_arith.h
+flt_mul.$(SUF):	misc.h flt_arith.h
+flt_modf.$(SUF):	misc.h flt_arith.h
+ucmp.$(SUF):	misc.h flt_arith.h

+ 30 - 0
modules/src/flt_arith/b64_add.c

@@ -0,0 +1,30 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+# include "misc.h"
+
+int
+b64_add(e1,e2)
+	register struct _mantissa *e1,*e2;
+{
+	int	overflow;
+	int	carry;
+
+	/* add higher pair of 32 bits */
+	overflow = ucmp(0xFFFFFFFF - e1->flt_h_32, e2->flt_h_32) < 0;
+	e1->flt_h_32 += e2->flt_h_32;
+
+	/* add lower pair of 32 bits */
+	carry = ucmp(0xFFFFFFFF - e1->flt_l_32, e2->flt_l_32) < 0;
+	e1->flt_l_32 += e2->flt_l_32;
+
+	if ((carry) && ((++e1->flt_h_32 &~0xFFFFFFFF) || e1->flt_h_32 == 0)) {
+		e1->flt_h_32 = 0;
+		return(1);		/* had a 64 bit overflow */
+	}
+	return(overflow);	/* return status from higher add */
+}

+ 75 - 0
modules/src/flt_arith/b64_sft.c

@@ -0,0 +1,75 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+b64_sft(e,n)
+	register struct _mantissa *e;
+	register int n;
+{
+	if (n > 0) {
+		if (n > 63) {
+			e->flt_l_32 = 0;
+			e->flt_h_32 = 0;
+			return;
+		}
+		if (n >= 32) {
+			e->flt_l_32 = e->flt_h_32;
+			e->flt_h_32 = 0;
+			n -= 32;
+		}
+		if (n > 0) {
+			e->flt_l_32 = (e->flt_l_32 >> 1) & 0x7FFFFFFF;
+			e->flt_l_32 >>= (n - 1);
+			if (e->flt_h_32 != 0) {
+				e->flt_l_32 |= (e->flt_h_32 << (32 - n)) & 0xFFFFFFFF;
+				e->flt_h_32 = (e->flt_h_32 >> 1) & 0x7FFFFFFF;
+				e->flt_h_32 >>= (n - 1);
+			}
+		}
+		return;
+	}
+	n = -n;
+	if (n > 0) {
+		if (n > 63) {
+			e->flt_l_32 = 0;
+			e->flt_h_32 = 0;
+			return;
+		}
+		if (n >= 32) {
+			e->flt_h_32 = e->flt_l_32;
+			e->flt_l_32 = 0;
+			n -= 32;
+		}
+		if (n > 0) {
+			e->flt_h_32 = (e->flt_h_32 << n) & 0xFFFFFFFF;
+			if (e->flt_l_32 != 0) {
+				long l = (e->flt_l_32 >> 1) & 0x7FFFFFFF;
+				e->flt_h_32 |= (l >> (31 - n));
+				e->flt_l_32 = (e->flt_l_32 << n) & 0xFFFFFFFF;
+			}
+		}
+	}
+}
+
+b64_lsft(e)
+	register struct _mantissa *e;
+{
+	/*	shift left 1 bit */
+	e->flt_h_32 = (e->flt_h_32 << 1) & 0xFFFFFFFF;
+	if (e->flt_l_32 & 0x80000000L) e->flt_h_32 |= 1;
+	e->flt_l_32 = (e->flt_l_32 << 1) & 0xFFFFFFFF;
+}
+
+b64_rsft(e)
+	register struct _mantissa *e;
+{
+	/*	shift right 1 bit */
+	e->flt_l_32 = (e->flt_l_32 >> 1) & 0x7FFFFFFF;
+	if (e->flt_h_32 & 1) e->flt_l_32 |= 0x80000000L;
+	e->flt_h_32 = (e->flt_h_32 >> 1) & 0x7FFFFFFF;
+}

+ 82 - 0
modules/src/flt_arith/flt_add.c

@@ -0,0 +1,82 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+flt_add(e1,e2,e3)
+	register flt_arith *e1,*e2,*e3;
+{
+	/*	Add two extended numbers e1 and e2, and put the result
+		in e3
+	*/
+	flt_arith ce2;
+	int diff;
+
+	flt_status = 0;
+	if ((e2->m1 | e2->m2) == 0L) {
+		*e3 = *e1;
+		return;
+	}
+	if ((e1->m1 | e1->m2) == 0L) {
+		*e3 = *e2;
+		return;
+	}
+	ce2 = *e2;
+	*e3 = *e1;
+	e1 = &ce2;
+
+	/* adjust mantissas to equal power */
+	diff = e3->flt_exp - e1->flt_exp;
+	if (diff < 0) {
+		diff = -diff;
+		e3->flt_exp += diff;
+		b64_sft(&(e3->flt_mantissa), diff);
+	}
+	else if (diff > 0) {
+		e1->flt_exp += diff;
+		b64_sft(&(e1->flt_mantissa), diff);
+	}
+	if (e1->flt_sign != e3->flt_sign) {
+		/* e3 + e1 = e3 - (-e1) */
+		int tmp = ucmp(e1->m1, e3->m1);
+		int tmp2 = ucmp(e1->m2, e3->m2);
+		if (tmp > 0 || (tmp == 0 && tmp2 > 0)) {
+                	/*      abs(e1) > abs(e3) */
+                	if (tmp2 < 0) {
+                        	e1->m1 -= 1;    /* carry in */
+                	}
+                	e1->m1 -= e3->m1;
+                	e1->m2 -= e3->m2;
+                	*e3 = *e1;
+        	}
+        	else {
+                	if (tmp2 > 0)
+                        	e3->m1 -= 1;    /* carry in */
+                	e3->m1 -= e1->m1;
+                	e3->m2 -= e1->m2;
+        	}
+	}
+	else {
+		if (b64_add(&e3->flt_mantissa,&e1->flt_mantissa)) {/* addition carry */
+			b64_sft(&e3->flt_mantissa,1);/* shift mantissa one bit RIGHT */
+			e3->m1 |= 0x80000000L;	/* set max bit	*/
+			e3->flt_exp++;		/* increase the exponent */
+		}
+	}
+	flt_nrm(e3);
+	flt_chk(e3);
+}
+
+flt_sub(e1,e2,e3)
+	flt_arith *e1,*e2,*e3;
+{
+	flt_arith ce2;
+
+	ce2 = *e2;
+	ce2.flt_sign = ! ce2.flt_sign;
+	flt_add(e1,&ce2,e3);
+}

+ 48 - 0
modules/src/flt_arith/flt_ar2flt.c

@@ -0,0 +1,48 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+#include <em_arith.h>
+
+flt_arith2flt(n, e)
+	register arith n;
+	register flt_arith *e;
+{
+	/*	Convert the arith "n" to a flt_arith "e".
+	*/
+	register int i;
+
+	if (n == 0) {
+		e->flt_exp = 0;
+		e->flt_sign = 0;
+		e->m1 = e->m2 = 0;
+		return;
+	}
+	if (n < 0) {
+		e->flt_sign = 1;
+		n = -n;
+	}
+	else	e->flt_sign = 0;
+	e->flt_exp = 63;
+	e->m1 = e->m2 = 0;
+	if (n < 0) {
+		n = 0x40000000;
+		while ((n << 1) > 0) n <<= 1;
+		e->flt_exp++;
+	}
+	for (i = 64; i > 0 && n != 0; i--) {
+		b64_rsft(&(e->flt_mantissa));
+		e->m1 |= (n & 1) << 31;
+		n >>= 1;
+	}
+
+	if (i > 0) {
+		b64_sft(&(e->flt_mantissa), i);
+	}
+	flt_status = 0;
+	flt_nrm(e);
+}

+ 206 - 0
modules/src/flt_arith/flt_arith.3

@@ -0,0 +1,206 @@
+.TH FLT_ARITH 3ACK " Fri June 30 1989"
+.ad
+.SH NAME
+flt_arith \- high precision floating point arithmetic
+.SH SYNOPSIS
+.nf
+.B #include <flt_arith.h>
+.PP
+.B flt_add(e1, e2, e3)
+.B flt_arith *e1, *e2, *e3;
+.PP
+.B flt_mul(e1, e2, e3)
+.B flt_arith *e1, *e2, *e3;
+.PP
+.B flt_sub(e1, e2, e3)
+.B flt_arith *e1, *e2, *e3;
+.PP
+.B flt_div(e1, e2, e3)
+.B flt_arith *e1, *e2, *e3;
+.PP
+.B flt_modf(e1, intpart, fractpart)
+.B flt_arith *e1, *intpart, *fractpart;
+.PP
+.B int flt_cmp(e1, e2)
+.B flt_arith *e1, *e2;
+.PP
+.B int flt_str2flt(s, e)
+.B char *s;
+.B flt_arith *e;
+.PP
+.B flt_flt2str(e, buf, bufsize)
+.B flt_arith *e;
+.B char *buf;
+.B int bufsize;
+.PP
+.B int flt_status;
+.PP
+.B #include <em_arith.h>
+.B flt_arith2flt(n, e)
+.B arith n;
+.B flt_arith *e;
+.PP
+.B arith flt_flt2arith(e)
+.B flt_arith *e;
+.SH DESCRIPTION
+This set of routines emulates floating point arithmetic, in a high
+precision. It is intended primarily for compilers that need to evaluate
+floating point expressions at compile-time. It could be argued that this
+should be done in the floating point arithmetic of the target machine,
+but EM does not define its floating point arithmetic.
+.PP
+.B flt_add
+adds the numbers indicated by
+.I e1
+and
+.I e2
+and stores the result indirectly through
+.IR e3 .
+.PP
+.B flt_mul
+multiplies the numbers indicated by
+.I e1
+and
+.I e2
+and stores the result indirectly through
+.IR e3 .
+.PP
+.B flt_sub
+subtracts the number indicated by
+.I e2
+from the one indicated by
+.I e1
+and stores the result indirectly through
+.IR e3 .
+.PP
+.B flt_div
+divides the number indicated by
+.I e1
+by the one indicated by
+.I e2
+and stores the result indirectly through
+.IR e3 .
+.PP
+.B flt_modf
+splits the number indicated by
+.I e
+in an integer and a fraction part, and stores the integer part through
+.I intpart
+and the fraction part through
+.IR fractpart .
+So, adding the numbers indicated by
+.I intpart
+and
+.I fractpart
+results (in the absence of rounding error) in the number
+indicated by
+.IR e .
+Also, the absolute value of the number indicated by
+.I intpart
+is less than or equal to the absolute value of the number indicated by
+.IR e .
+The absolute value of the number indicated by
+.I fractpart
+is less than 1.
+.PP
+.B flt_cmp
+compares the numbers indicated by
+.I e1
+and
+.I e2
+and returns -1 if
+.I e1
+<
+.IR e2 ,
+0 if
+.I e1
+=
+.IR e2 ,
+and 1 if
+.I e1
+>
+.IR e2 .
+.PP
+.B flt_str2flt
+converts the string indicated by
+.I s
+to a floating point number, and stores this number through
+.IR e.
+The string should contain a floating point constant, which consists of
+an integer part, a decimal point, a fraction part, an \f(CWe\fP or an
+\f(CWE\fP, and an optionally signed integer exponent. The integer and
+fraction parts both consist of a sequence of digits. They may not both be
+missing. The decimal point, the \f(CWe\fP and the exponent may be
+missing.
+.PP
+.B flt_flt2str
+converts the number indicated by
+.I e
+into a string, in a scientific notation acceptable for EM. The result is
+stored in
+.IR buf .
+At most
+.I bufsize
+characters are stored.
+.PP
+.B flt_arith2flt
+converts the number
+.I n
+to the floating point format use in this package and returns the result
+in
+.IR e .
+.PP
+.B flt_flt2arith
+truncates the number indicated by
+.I e
+to the largest integer value smaller than or equal to the number indicated by
+.IR e .
+It returns this value.
+.PP
+Before each operation, the
+.I flt_status
+variable is reset to 0. After an operation, it can be checked for one
+of the following values:
+.IP FLT_OVFL
+.br
+an overflow occurred. The result is a large value with the correct sign.
+This can occur with the routines
+.IR flt_add ,
+.IR flt_sub ,
+.IR flt_div ,
+.IR flt_mul ,
+.IR flt_flt2arith ,
+and
+.IR flt_str2flt .
+.IP FLT_UNFL
+.br
+an underflow occurred. The result is 0.
+This can occur with the routines
+.IR flt_div ,
+.IR flt_mul ,
+.IR flt_sub ,
+.IR flt_add ,
+and
+.IR flt_str2flt .
+.IP FLT_DIV0
+.br
+divide by 0. The result is a large value with the sign of the dividend.
+This can only occur with the routine
+.IR flt_div .
+.IP FLT_NOFLT
+.br
+indicates that the string did not represent a floating point number. The
+result is 0.
+This can only occur with the routine
+.IR flt_str2flt .
+.IP FLT_BTSM
+.br
+indicates that the buffer is too small. The contents of the buffer is
+undefined. This can only occur with the routine
+.IR flt_flt2str .
+.SH FILES
+~em/modules/h/flt_arith.h
+.br
+~em/modules/h/em_arith.h
+.br
+~em/modules/lib/libflt.a

+ 30 - 0
modules/src/flt_arith/flt_arith.h

@@ -0,0 +1,30 @@
+/*
+ * (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+ * See the copyright notice in the ACK home directory, in the file "Copyright".
+ */
+/* $Header$ */
+
+#ifndef __FLT_INCLUDED__
+#define __FLT_INCLUDED__
+
+struct _mantissa {
+	long	flt_h_32;
+	long	flt_l_32;
+};
+
+struct _EXTEND {
+	short	flt_sign;
+	short	flt_exp;
+	struct _mantissa flt_mantissa;
+};
+
+typedef struct _EXTEND flt_arith;
+
+extern int	flt_status;
+#define FLT_OVFL	001
+#define FLT_UNFL	002
+#define FLT_DIV0	004
+#define	FLT_NOFLT	010
+#define FLT_BTSM	020
+
+#endif __FLT_INCLUDED__

+ 26 - 0
modules/src/flt_arith/flt_chk.c

@@ -0,0 +1,26 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+int	flt_status = 0;
+
+flt_chk(e)
+	register flt_arith *e;
+{
+	if (e->flt_exp >= EXT_MAX) {
+		flt_status = FLT_OVFL;
+		e->flt_exp = EXT_MAX;
+		e->m1 = e->m2 = 0;
+	}
+	if (e->flt_exp <= EXT_MIN) {
+		flt_status = FLT_UNFL;
+		e->flt_exp = 0;
+		e->m1 = e->m2 = 0;
+		e->flt_sign = 0;
+	}
+}

+ 26 - 0
modules/src/flt_arith/flt_cmp.c

@@ -0,0 +1,26 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include	"misc.h"
+
+int
+flt_cmp(e1, e2)
+	register flt_arith *e1, *e2;
+{
+	int sign = e1->flt_sign ? -1 : 1;
+	int tmp;
+
+	if (e1->flt_sign > e2->flt_sign) return -1;
+	if (e1->flt_sign < e2->flt_sign) return 1;
+	if (e1->flt_exp < e2->flt_exp) return -sign;
+	if (e1->flt_exp > e2->flt_exp) return sign;
+	if ((tmp = ucmp(e1->m1, e2->m1)) < 0) return -sign;
+	if (tmp > 0) return sign;
+	if ((tmp = ucmp(e1->m2, e2->m2)) < 0) return -sign;
+	if (tmp > 0) return sign;
+	return 0;
+}

+ 131 - 0
modules/src/flt_arith/flt_div.c

@@ -0,0 +1,131 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+flt_div(e1,e2,e3)
+	register flt_arith *e1,*e2,*e3;
+{
+	short	error = 0;
+	long	result[2];
+	register long	*lp;
+	unsigned short u[9], v[5];
+	register int j;
+	register unsigned short *u_p = u;
+	int maxv = 4;
+
+	flt_status = 0;
+	e3->flt_sign = e1->flt_sign ^ e2->flt_sign;
+	if ((e2->m1 | e2->m2) == 0) {
+		flt_status = FLT_DIV0;
+		e3->flt_exp = EXT_MAX;
+		e3->m1 = e3->m2 = 0L;
+		return;
+	}
+	if ((e1->m1 | e1->m2) == 0) {	/* 0 / anything == 0 */
+		e3->flt_exp = 0;	/* make sure */
+		e3->m1 = e3->m2 = 0L;
+		e3->flt_sign = 0;
+		return;
+	}
+	e3->flt_exp = e1->flt_exp - e2->flt_exp + 2;
+
+	u[4] = (e1->m2 & 1) << 15;
+	b64_rsft(&(e1->flt_mantissa));
+	u[0] = (e1->m1 >> 16) & 0xFFFF;
+	u[1] = e1->m1 & 0xFFFF;
+	u[2] = (e1->m2 >> 16) & 0xFFFF;
+	u[3] = e1->m2 & 0xFFFF;
+	u[5] = 0; u[6] = 0; u[7] = 0;
+	v[1] = (e2->m1 >> 16) & 0xFFFF;
+	v[2] = e2->m1 & 0xFFFF;
+	v[3] = (e2->m2 >> 16) & 0xFFFF;
+	v[4] = e2->m2 & 0xFFFF;
+	while (! v[maxv]) maxv--;
+	result[0] = 0;
+	result[1] = 0;
+	lp = result;
+
+	/*
+	 * Use an algorithm of Knuth (The art of programming, Seminumerical
+	 * algorithms), to divide u by v. u and v are both seen as numbers
+	 * with base 65536. 
+	 */
+	for (j = 0; j <= 3; j++, u_p++) {
+		long q_est, temp;
+
+		if (j == 2) lp++;
+		if (u_p[0] == 0 && u_p[1] < v[1]) continue;
+		temp = ((long)u_p[0] << 16) + u_p[1];
+		if (u_p[0] >= v[1]) {
+			q_est = 0x0000FFFF;
+		}
+		else if (v[1] == 1) {
+			q_est = temp;
+		}
+		else if (temp >= 0) {
+			q_est = temp / v[1];
+		}
+		else {
+			long rem;
+			q_est = (0x7FFFFFFF/v[1])+((temp&0x7FFFFFFF)/v[1]);
+			rem = (0x7FFFFFFF%v[1])+((temp&0x7FFFFFFF)%v[1])+1;
+			while (rem > v[1]) {
+				q_est++;
+				rem -= v[1];
+			}
+		}
+		temp -= q_est * v[1];
+		while (!(temp&0xFFFF0000) && ucmp(v[2]*q_est,((temp<<16)+u_p[2])) > 0) {
+			q_est--;
+			temp += v[1];
+		}
+		/*	Now, according to Knuth, we have an estimate of the
+			quotient, that is either correct or one too big, but
+			almost always correct.
+		*/
+		if (q_est != 0)  {
+			int i;
+			long k = 0;
+			int borrow = 0;
+
+			for (i = maxv; i > 0; i--) {
+				long tmp = q_est * v[i] + k + borrow;
+				unsigned short md = tmp & 0xFFFF;
+
+				borrow = (md > u_p[i]);
+				u_p[i] -= md;
+				k = (tmp >> 16) & 0xFFFF;
+			}
+			k += borrow;
+			borrow = u_p[0] < k;
+			u_p[0] -= k;
+
+			if (borrow) {
+				/* So, this does not happen often; the estimate
+				   was one too big; correct this
+				*/
+				*lp |= (j & 1) ? (q_est - 1) : ((q_est-1)<<16);
+				borrow = 0;
+				for (i = maxv; i > 0; i--) {
+					long tmp 
+					    = v[i]+(long)u_p[i]+borrow;
+					
+					u_p[i] = tmp & 0xFFFF;
+					borrow = (tmp >> 16) & 0xFFFF;
+				}
+				u_p[0] += borrow;
+			}
+			else *lp |= (j & 1) ? q_est : (q_est<<16);
+		}
+	}
+	e3->m1 = result[0];
+	e3->m2 = result[1];
+
+	flt_nrm(e3);
+	flt_chk(e3);
+}

+ 55 - 0
modules/src/flt_arith/flt_flt2ar.c

@@ -0,0 +1,55 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+#include <em_arith.h>
+
+arith
+flt_flt2arith(e)
+	register flt_arith *e;
+{
+	/*	Convert the flt_arith "n" to an arith.
+	*/
+	arith	n;
+	struct _mantissa a;
+
+	flt_status = 0;
+	if (e->flt_exp < 0) {
+		/* absolute value of result < 1.
+		   Return value only depends on sign:
+		*/
+		return -e->flt_sign;
+	}
+
+	if (e->flt_exp > (8*sizeof(arith)-2)) {
+		/* probably overflow, but there is one exception:
+		*/
+		if (e->flt_sign) {
+			n = 0x80;
+			while (n << 8) n <<= 8;
+			if (e->flt_exp == 8*sizeof(arith)-1 &&
+			    e->m2 == 0 &&
+			    e->m1 == 0x80000000) {
+				/* No overflow in this case */
+			}
+			else flt_status = FLT_OVFL;
+			return n;
+		}
+		n = 0x7F;
+		while ((n << 8) > 0) {
+			n <<= 8;
+			n |= 0xFF;
+		}
+		return n;
+	}
+	
+	a = e->flt_mantissa;
+	b64_sft(&a, 63-e->flt_exp);
+	n = a.flt_l_32 | ((a.flt_h_32 << 16) << 16);
+	/* not << 32; this could be an undefined operation */
+	return n;
+}

+ 32 - 0
modules/src/flt_arith/flt_modf.c

@@ -0,0 +1,32 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+flt_modf(e, ipart, fpart)
+	register flt_arith *e, *ipart, *fpart;
+{
+	if (e->flt_exp < 0) {
+		*fpart = *e;
+		ipart->flt_sign = 0;
+		ipart->flt_exp = 0;
+		ipart->m1 = ipart->m2 = 0;
+		return;
+	}
+	if (e->flt_exp >= 63) {
+		fpart->flt_sign = 0;
+		fpart->flt_exp = 0;
+		fpart->m1 = fpart->m2 = 0;
+		*ipart = *e;
+		return;
+	}
+	*ipart = *e;
+	/* "loose" low order bits */
+	b64_sft(&(ipart->flt_mantissa), 63 - e->flt_exp);
+	b64_sft(&(ipart->flt_mantissa), e->flt_exp - 63);
+	flt_sub(e, ipart, fpart);
+}

+ 83 - 0
modules/src/flt_arith/flt_mul.c

@@ -0,0 +1,83 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+flt_mul(e1,e2,e3)
+	register flt_arith *e1,*e2,*e3;
+{
+	/*	Multiply the extended numbers e1 and e2, and put the
+		result in e3.
+	*/
+	register int	i,j;		/* loop control	*/
+	unsigned short	mp[4];
+	unsigned short	mc[4];
+	unsigned short	result[8];	/* result */
+
+	register unsigned short *pres;
+
+	flt_status = 0;
+
+	/* first save the sign (XOR)			*/
+	e3->flt_sign = e1->flt_sign ^ e2->flt_sign;
+
+	/* compute new exponent */
+	e3->flt_exp = e1->flt_exp + e2->flt_exp + 1;
+
+	/* 128 bit multiply of mantissas	*/
+
+	/* assign unknown long formats		*/
+	/* to known unsigned word formats	*/
+	mp[0] = (e1->m1 >> 16) & 0xFFFF;
+	mp[1] = e1->m1 & 0xFFFF;
+	mp[2] = (e1->m2 >> 16) & 0xFFFF;
+	mp[3] = e1->m2 & 0xFFFF;
+	mc[0] = (e2->m1 >> 16) & 0xFFFF;
+	mc[1] = e2->m1 & 0xFFFF;
+	mc[2] = (e2->m2 >> 16) & 0xFFFF;
+	mc[3] = e2->m2 & 0xFFFF;
+	for (i = 8; i--;) {
+		result[i] = 0;
+	}
+	/*
+	 *	fill registers with their components
+	 */
+	for(i=4, pres = &result[4];i--;pres--) if (mp[i]) {
+		unsigned short k = 0;
+		long mpi = mp[i];
+		for(j=4;j--;) {
+			long tmp = (long)pres[j] + k;
+			if (mc[j]) tmp += mpi * mc[j];
+			pres[j] = tmp & 0xFFFF;
+			k = (tmp >> 16) & 0xFFFF;
+		}
+		pres[-1] = k;
+	}
+
+	if (! (result[0] & 0x8000)) {
+		e3->flt_exp--;
+		for (i = 0; i <= 3; i++) {
+			result[i] <<= 1;
+			if (result[i+1]&0x8000) result[i] |= 1;
+		}
+		result[4] <<= 1;
+	}	
+	/*
+	 *	combine the registers to a total
+	 */
+	e3->m1 = ((long)result[0] << 16) + result[1];
+	e3->m2 = ((long)result[2] << 16) + result[3];
+	if (result[4] & 0x8000) {
+		if (++e3->m2 == 0) {
+			if (++e3->m1 == 0) {
+				e3->m1 = 0x80000000;
+				e3->flt_exp++;
+			}
+		}
+	}
+	flt_chk(e3);
+}

+ 34 - 0
modules/src/flt_arith/flt_nrm.c

@@ -0,0 +1,34 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+flt_nrm(e)
+	register flt_arith *e;
+{
+	if ((e->m1 | e->m2) == 0L)
+		return;
+
+	/* if top word is zero mov low word	*/
+	/* to top word, adjust exponent value	*/
+	if (e->m1 == 0L)	{
+		e->m1 = e->m2;
+		e->m2 = 0L;
+		e->flt_exp -= 32;
+	}
+	if ((e->m1 & 0x80000000) == 0) {
+		long l = 0x40000000;
+		int cnt = -1;
+
+		while (! (l & e->m1)) {
+			l >>= 1;
+			cnt--;
+		}
+		e->flt_exp += cnt;
+		b64_sft(&(e->flt_mantissa), cnt);
+	}
+}

+ 443 - 0
modules/src/flt_arith/flt_str2fl.c

@@ -0,0 +1,443 @@
+/*
+  (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+/* The following tables can be computed with the following bc(1)
+   program:
+
+obase=16
+scale=0
+define t(x){
+	auto a, b, c
+	a=2;b=1;c=2^32;n=1
+	while(a<x) {
+		b=a;n+=n;a*=a
+	}
+	n/=2
+	a=b
+	while(b<x) {
+		a=b;b*=c;n+=32
+	}
+	n-=32
+	b=a
+	while(a<x) {
+		b=a;a+=a;n+=1
+	}
+	n-=1
+	x*=16^16
+	b=x%a
+	x/=a
+	if(a<=(2*b)) x+=1
+	obase=10
+	n
+	obase=16
+	return(x)
+}
+for (i=1;i<28;i++) {
+	t(10^i)
+}
+0
+for (i=1;i<20;i++) {
+	t(10^(28*i))
+}
+0
+define r(x){
+	auto a, b, c
+	a=2;b=1;c=2^32;n=1
+	while(a<x) {
+		b=a;n+=n;a*=a
+	}
+	n/=2
+	a=b
+	while(b<x) {
+		a=b;b*=c;n+=32
+	}
+	n-=32
+	b=a
+	while(a<x) {
+		b=a;a+=a;n+=1
+	}
+	a=b
+	a*=16^16
+	b=a%x
+	a/=x
+	if(x<=(2*b)) a+=1
+	obase=10
+	-n
+	obase=16
+	return(a)
+}
+for (i=1;i<28;i++) {
+	r(10^i)
+}
+0
+for (i=1;i<20;i++) {
+	r(10^(28*i))
+}
+0
+
+*/
+static flt_arith s10pow[] = {	/* representation of 10 ** i */
+	{ 0,	0,	0x80000000,	0 },
+	{ 0,	3,	0xA0000000,	0 },
+	{ 0,	6,	0xC8000000,	0 },
+	{ 0,	9,	0xFA000000,	0 },
+	{ 0,	13,	0x9C400000,	0 },
+	{ 0,	16,	0xC3500000,	0 },
+	{ 0,	19,	0xF4240000,	0 },
+	{ 0,	23,	0x98968000,	0 },
+	{ 0,	26,	0xBEBC2000,	0 },
+	{ 0,	29,	0xEE6B2800,	0 },
+	{ 0,	33,	0x9502F900,	0 },
+	{ 0,	36,	0xBA43B740,	0 },
+	{ 0,	39,	0xE8D4A510,	0 },
+	{ 0,	43,	0x9184E72A,	0 },
+	{ 0,	46,	0xB5E620F4,	0x80000000 },
+	{ 0,	49,	0xE35FA931,	0xA0000000 },
+	{ 0,	53,	0x8E1BC9BF,	0x04000000 },
+	{ 0,	56,	0xB1A2BC2E,	0xC5000000 },
+	{ 0,	59,	0xDE0B6B3A,	0x76400000 },
+	{ 0,	63,	0x8AC72304,	0x89E80000 },
+	{ 0,	66,	0xAD78EBC5,	0xAC620000 },
+	{ 0,	69,	0xD8D726B7,	0x177A8000 },
+	{ 0,	73,	0x87867832,	0x6EAC9000 },
+	{ 0,	76,	0xA968163F,	0x0A57B400 },
+	{ 0,	79,	0xD3C21BCE,	0xCCEDA100 },
+	{ 0,	83,	0x84595161,	0x401484A0 },
+	{ 0,	86,	0xA56FA5B9,	0x9019A5C8 },
+	{ 0,	89,	0xCECB8F27,	0xF4200F3A }
+};
+static flt_arith big_10pow[] = {  /* representation of 10 ** (28*i) */
+	{ 0,	0,	0x80000000,	0 },
+	{ 0,	93,	0x813F3978,	0xF8940984 },
+	{ 0,	186,	0x82818F12,	0x81ED44A0 },
+	{ 0,	279,	0x83C7088E,	0x1AAB65DB },
+	{ 0,	372,	0x850FADC0,	0x9923329E },
+	{ 0,	465,	0x865B8692,	0x5B9BC5C2 },
+	{ 0,	558,	0x87AA9AFF,	0x79042287 },
+	{ 0,	651,	0x88FCF317,	0xF22241E2 },
+	{ 0,	744,	0x8A5296FF,	0xE33CC930 },
+	{ 0,	837,	0x8BAB8EEF,	0xB6409C1A },
+	{ 0,	930,	0x8D07E334,	0x55637EB3 },
+	{ 0,	1023,	0x8E679C2F,	0x5E44FF8F },
+	{ 0,	1116,	0x8FCAC257,	0x558EE4E6 },
+	{ 0,	1209,	0x91315E37,	0xDB165AA9 },
+	{ 0,	1302,	0x929B7871,	0xDE7F22B9 },
+	{ 0,	1395,	0x940919BB,	0xD4620B6D },
+	{ 0,	1488,	0x957A4AE1,	0xEBF7F3D4 },
+	{ 0,	1581,	0x96EF14C6,	0x454AA840 },
+	{ 0,	1674,	0x98678061,	0x27ECE4F5 },
+	{ 0,	1767,	0x99E396C1,	0x3A3ACFF2 }
+};
+
+static flt_arith r_10pow[] = { /* representation of 10 ** -i */
+	{ 0,	0,	0x80000000,	0 },
+	{ 0,	-4,	0xCCCCCCCC,	0xCCCCCCCD },
+	{ 0,	-7,	0xA3D70A3D,	0x70A3D70A },
+	{ 0,	-10,	0x83126E97,	0x8D4FDF3B },
+	{ 0,	-14,	0xD1B71758,	0xE219652C },
+	{ 0,	-17,	0xA7C5AC47,	0x1B478423 },
+	{ 0,	-20,	0x8637BD05,	0xAF6C69B6 },
+	{ 0,	-24,	0xD6BF94D5,	0xE57A42BC },
+	{ 0,	-27,	0xABCC7711,	0x8461CEFD },
+	{ 0,	-30,	0x89705F41,	0x36B4A597 },
+	{ 0,	-34,	0xDBE6FECE,	0xBDEDD5BF },
+	{ 0,	-37,	0xAFEBFF0B,	0xCB24AAFF },
+	{ 0,	-40,	0x8CBCCC09,	0x6F5088CC },
+	{ 0,	-44,	0xE12E1342,	0x4BB40E13 },
+	{ 0,	-47,	0xB424DC35,	0x095CD80F },
+	{ 0,	-50,	0x901D7CF7,	0x3AB0ACD9 },
+	{ 0,	-54,	0xE69594BE,	0xC44DE15B },
+	{ 0,	-57,	0xB877AA32,	0x36A4B449 },
+	{ 0,	-60,	0x9392EE8E,	0x921D5D07 },
+	{ 0,	-64,	0xEC1E4A7D,	0xB69561A5 },
+	{ 0,	-67,	0xBCE50864,	0x92111AEB },
+	{ 0,	-70,	0x971DA050,	0x74DA7BEF },
+	{ 0,	-74,	0xF1C90080,	0xBAF72CB1 },
+	{ 0,	-77,	0xC16D9A00,	0x95928A27 },
+	{ 0,	-80,	0x9ABE14CD,	0x44753B53 },
+	{ 0,	-84,	0xF79687AE,	0xD3EEC551 },
+	{ 0,	-87,	0xC6120625,	0x76589DDB },
+	{ 0,	-90,	0x9E74D1B7,	0x91E07E48 }
+};
+
+static flt_arith r_big_10pow[] = { /* representation of 10 ** -(28*i) */
+	{ 0,	0,	0x80000000,	0 },
+	{ 0,	-94,	0xFD87B5F2,	0x8300CA0E },
+	{ 0,	-187,	0xFB158592,	0xBE068D2F },
+	{ 0,	-280,	0xF8A95FCF,	0x88747D94 },
+	{ 0,	-373,	0xF64335BC,	0xF065D37D },
+	{ 0,	-466,	0xF3E2F893,	0xDEC3F126 },
+	{ 0,	-559,	0xF18899B1,	0xBC3F8CA2 },
+	{ 0,	-652,	0xEF340A98,	0x172AACE5 },
+	{ 0,	-745,	0xECE53CEC,	0x4A314EBE },
+	{ 0,	-838,	0xEA9C2277,	0x23EE8BCB },
+	{ 0,	-931,	0xE858AD24,	0x8F5C22CA },
+	{ 0,	-1024,	0xE61ACF03,	0x3D1A45DF },
+	{ 0,	-1117,	0xE3E27A44,	0x4D8D98B8 },
+	{ 0,	-1210,	0xE1AFA13A,	0xFBD14D6E },
+	{ 0,	-1303,	0xDF82365C,	0x497B5454 },
+	{ 0,	-1396,	0xDD5A2C3E,	0xAB3097CC },
+	{ 0,	-1489,	0xDB377599,	0xB6074245 },
+	{ 0,	-1582,	0xD91A0545,	0xCDB51186 },
+	{ 0,	-1675,	0xD701CE3B,	0xD387BF48 },
+	{ 0,	-1768,	0xD4EEC394,	0xD6258BF8 }
+};
+
+static
+add_exponent(e, exp)
+	register flt_arith *e;
+{
+	int neg = exp < 0;
+	int divsz, modsz;
+	flt_arith x;
+
+	if (neg) exp = -exp;
+	divsz = exp / (sizeof(s10pow)/sizeof(s10pow[0]));
+	modsz = exp % (sizeof(s10pow)/sizeof(s10pow[0]));
+	if (neg) {
+		flt_mul(e, &r_10pow[modsz], &x);
+		while (divsz >= sizeof(r_big_10pow)/sizeof(r_big_10pow[0])) {
+			flt_mul(&x, &r_big_10pow[sizeof(r_big_10pow)/sizeof(r_big_10pow[0])-1],&x);
+			divsz -= sizeof(r_big_10pow)/sizeof(r_big_10pow[0])-1;
+			flt_chk(e);
+			if (flt_status != 0) return;
+		}
+		flt_mul(&x, &r_big_10pow[divsz], e);
+	}
+	else {
+		flt_mul(e, &s10pow[modsz], &x);
+		while (divsz >= sizeof(big_10pow)/sizeof(big_10pow[0])) {
+			flt_mul(&x, &big_10pow[sizeof(big_10pow)/sizeof(big_10pow[0])-1],&x);
+			divsz -= sizeof(big_10pow)/sizeof(big_10pow[0])-1;
+			flt_chk(e);
+			if (flt_status != 0) return;
+		}
+		flt_mul(&x, &big_10pow[divsz], e);
+	}
+}
+
+flt_str2flt(s, e)
+	register char		*s;
+	register flt_arith	*e;
+{
+	register int	c;
+	int		dotseen = 0;
+	int		digitseen = 0;
+	int		exp = 0;
+
+	while (isspace(*s)) s++;
+
+	flt_status = 0;
+
+	e->flt_sign = 0;
+	e->flt_exp = 0;
+	e->m1 = e->m2 = 0;
+
+	c = *s;
+	switch(c) {
+	case '-':
+		e->flt_sign = 1;
+	case '+':
+		s++;
+	}
+	while (c = *s++, isdigit(c) || (c == '.' && ! dotseen++)) {
+		if (c == '.') continue;
+		digitseen = 1;
+		if (e->m1 <= 0x7FFFFFFF/5) {
+			struct _mantissa	a1;
+
+			a1 = e->flt_mantissa;
+			b64_sft(&(e->flt_mantissa), -3);
+			b64_sft(&a1, -1);
+			b64_add(&(e->flt_mantissa), &a1);
+			a1.flt_h_32 = 0;
+			a1.flt_l_32 = c - '0';
+			b64_add(&(e->flt_mantissa), &a1);
+		}
+		else exp++;
+		if (dotseen) exp--;
+	}
+	if (! digitseen) {
+		flt_status = FLT_NOFLT;
+		return;
+	}
+
+	if (c == 'E' || c == 'e') {
+		int	exp1 = 0;
+		int	sign = 1;
+
+		switch(*s) {
+		case '-':
+			sign = -1;
+		case '+':
+			s++;
+		}
+		if (c = *s, isdigit(c)) {
+			do {
+				exp1 = 10 * exp1 + (c - '0');
+			} while (c = *++s, isdigit(c));
+		}
+		exp += sign * exp1;
+	}
+	if (e->m1 == 0 && e->m2 == 0) return;
+	e->flt_exp = 63;
+	flt_nrm(e);
+	add_exponent(e, exp);
+	flt_chk(e);
+}
+
+#define NDIGITS 128
+
+static char *
+flt_ecvt(e, ndigit, decpt, sign)
+	register flt_arith *e;
+	int ndigit, *decpt, *sign;
+{
+	/*	Like ecvt(), but for extended precision */
+
+	static char buf[NDIGITS+1];
+	register char *p = buf;
+	register char *pe;
+
+	if (ndigit < 0) ndigit = 0;
+	if (ndigit > NDIGITS) ndigit = NDIGITS;
+	pe = &buf[ndigit];
+	buf[0] = '\0';
+
+	*sign = 0;
+	if (e->flt_sign) {
+		*sign = 1;
+		e->flt_sign = 0;
+	}
+
+	*decpt = 0;
+	if (e->m1 != 0) {
+#define BIGSZ	(sizeof(big_10pow)/sizeof(big_10pow[0]))
+#define SMALLSZ	(sizeof(s10pow)/sizeof(s10pow[0]))
+		register flt_arith *pp = &big_10pow[1];
+
+		while (flt_cmp(e, &big_10pow[BIGSZ-1]) >= 0) {
+			flt_mul(e,&r_big_10pow[BIGSZ-1],e);
+			*decpt += (BIGSZ-1)*SMALLSZ;
+		}
+		while (flt_cmp(e,pp) >= 0) {
+			pp++;
+		}
+		pp--;
+		flt_mul(e,&r_big_10pow[pp-big_10pow],e);
+		*decpt += (pp - big_10pow)*SMALLSZ;
+		pp = &s10pow[1];
+		while (pp < &s10pow[SMALLSZ] && cmp_ext(e, pp) >= 0) pp++;
+		pp--;
+		flt_mul(e, &r_10pow[pp-s10pow], e);
+		*decpt += pp - s10pow;
+
+		if (cmp_ext(e, &s10pow[0]) < 0) {
+                	while (flt_cmp(e, &r_big_10pow[BIGSZ-1]) < 0) { 
+                        	flt_mul(e,&big_10pow[BIGSZ-1],e);
+                        	*decpt -= (BIGSZ-1)*SMALLSZ;
+                	}
+			pp = &r_big_10pow[1];
+			while(cmp_ext(e,pp) < 0) pp++;
+			pp--;
+			flt_mul(e,&big_10pow[pp-r_big_10pow],e);
+			*decpt -= (pp - r_big_10pow)*SMALLSZ;
+			/* here, value >= 10 ** -28 */
+			flt_mul(e, &s10pow[1], e);
+			(*decpt)--;
+			pp = &r_10pow[0];
+			while(cmp_ext(e, pp) < 0) pp++;
+			flt_mul(e, &s10pow[pp-r_10pow], e);
+			*decpt -= pp - r_10pow;
+		}
+		(*decpt)++;	/* because now value in [1.0, 10.0) */
+	}
+	while (p <= pe) {
+		if (e->flt_exp >= 0) {
+			flt_arith x;
+
+			x.m2 = 0; x.flt_exp = e->flt_exp;
+			x.flt_sign = 1;
+			x.m1 = e->m1>>(31-e->flt_exp);
+			*p++ = (x.m1) + '0';
+			x.m1 = x.m1 << (31-e->flt_exp);
+			add_ext(e, &x, e);
+		}
+		else *p++ = '0';
+		flt_mul(e, &s10pow[1], e);
+	}
+	if (pe >= buf) {
+		p = pe;
+		*p += 5;	/* round of at the end */
+		while (*p > '9') {
+			*p = '0';
+			if (p > buf) ++*--p;
+			else {
+				*p = '1';
+				++*decpt;
+			}
+		}
+		*pe = '\0';
+	}
+	return buf;
+}
+
+flt_flt2str(e, buf, bufsize)
+	flt_arith *e;
+	char *buf;
+{
+
+#define NDIG	25
+	int sign, dp;
+	register int i;
+	register char *s1;
+	char Xbuf[NDIG+12];
+	register char *s = Xbuf;
+
+	flt_status = 0;
+	s1 = flt_ecvt(e,NDIG,&dp,&sign);
+        if (sign)
+                *s++ = '-';
+        *s++ = *s1++;
+        *s++ = '.';
+        for (i = NDIG-1; i > 0; i--) {
+                if (*s1) *s++ = *s1++;
+                else *s++ = '0';
+	}
+        if ((e->m1 | e->m2) || e->flt_exp == EXT_MIN || e->flt_exp == EXT_MAX) {
+		--dp ;
+	}
+	if (dp == 0) {
+		*s = 0;
+		return;
+	}
+        *s++ = 'e';
+        if ( dp<0 ) {
+                *s++ = '-' ; dp= -dp ;
+        } else {
+                *s++ = '+' ;
+        }
+	s1 = &Xbuf[NDIG+12];
+	*--s1 = '\0';
+	do {
+		*--s1 = dp % 10 + '0';
+		dp /= 10;
+	} while (dp != 0);
+	while (*s1) *s++ = *s1++;
+	*s++ = '\0';
+	if (s - Xbuf > bufsize) {
+		flt_status = FLT_BTSM;
+		return;
+	}
+	s = Xbuf;
+	s1 = buf;
+	do {
+		*s1++ = *s++;
+	} while (*s);
+}

+ 24 - 0
modules/src/flt_arith/misc.h

@@ -0,0 +1,24 @@
+/*
+ * (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+ * See the copyright notice in the ACK home directory, in the file "Copyright".
+ */
+/* $Header$ */
+
+#include <flt_arith.h>
+
+/* some short-hands ... */
+#define m1 flt_mantissa.flt_h_32
+#define m2 flt_mantissa.flt_l_32
+
+/* some constants */
+#define EXT_MAX		16384		/* max exponent */
+#define EXT_MIN		(-16384)	/* min exponent */
+
+/* hiding of names: */
+#define ucmp		flt__ucmp
+#define flt_nrm		flt__nrm
+#define flt_chk		flt__chk
+#define b64_add		flt__64add
+#define b64_sft		flt__64sft
+#define b64_rsft	flt__64rsft
+#define b64_lsft	flt__64lsft

+ 21 - 0
modules/src/flt_arith/ucmp.c

@@ -0,0 +1,21 @@
+/*
+  (c) copyright 1989 by the Vrije Universiteit, Amsterdam, The Netherlands.
+  See the copyright notice in the ACK home directory, in the file "Copyright".
+*/
+
+/* $Header$ */
+
+#include "misc.h"
+
+int
+ucmp(l1,l2)
+	long l1,l2;
+{
+	if (l1 == l2) return 0;
+	if (l2 >= 0) {
+		if (l1 > l2) return 1;
+		return -1;
+	}
+	if (l1 > 0 || l1 < l2) return -1;
+	return 1;
+}