Fix float4/8 to handle Infinity and Nan consistently, e.g. Infinity is a

valid result from a computation if one of the input values was infinity. The previous code assumed an operation that returned infinity was an overflow. Handle underflow/overflow consistently, and add checks for aggregate overflow. Consistently prevent Inf/Nan from being cast to integer data types. Fix INT_MIN % -1 to prevent overflow. Update regression results for new error text. Per report from Roman Kononov.

Fix float4/8 to handle Infinity and Nan consistently, e.g. Infinity is a
valid result from a computation if one of the input values was infinity. The previous code assumed an operation that returned infinity was an overflow. Handle underflow/overflow consistently, and add checks for aggregate overflow. Consistently prevent Inf/Nan from being cast to integer data types. Fix INT_MIN % -1 to prevent overflow. Update regression results for new error text. Per report from Roman Kononov.
f9ac414c · Bruce Momjian · 0b56be83 · f9ac414c · f9ac414c · f9ac414c
Commit f9ac414c authored Jan 02, 2007 by Bruce Momjian
9 changed files
--- a/src/backend/utils/adt/float.c
+++ b/src/backend/utils/adt/float.c
@@ -8,52 +8,13 @@
 *
 *
 * IDENTIFICATION
- *	  $PostgreSQL: pgsql/src/backend/utils/adt/float.c,v 1.131 2006/12/23 02:13:24 momjian Exp $
+ *	  $PostgreSQL: pgsql/src/backend/utils/adt/float.c,v 1.132 2007/01/02 20:00:49 momjian Exp $
 *
 *-------------------------------------------------------------------------
 */
-/*----------
- * OLD COMMENTS
- *		Basic float4 ops:
- *		 float4in, float4out, float4recv, float4send
- *		 float4abs, float4um, float4up
- *		Basic float8 ops:
- *		 float8in, float8out, float8recv, float8send
- *		 float8abs, float8um, float8up
- *		Arithmetic operators:
- *		 float4pl, float4mi, float4mul, float4div
- *		 float8pl, float8mi, float8mul, float8div
- *		Comparison operators:
- *		 float4eq, float4ne, float4lt, float4le, float4gt, float4ge, float4cmp
- *		 float8eq, float8ne, float8lt, float8le, float8gt, float8ge, float8cmp
- *		Conversion routines:
- *		 ftod, dtof, i4tod, dtoi4, i2tod, dtoi2, itof, ftoi, i2tof, ftoi2
- *
- *		Random float8 ops:
- *		 dround, dtrunc, dsqrt, dcbrt, dpow, dexp, dlog1
- *		Arithmetic operators:
- *		 float48pl, float48mi, float48mul, float48div
- *		 float84pl, float84mi, float84mul, float84div
- *		Comparison operators:
- *		 float48eq, float48ne, float48lt, float48le, float48gt, float48ge
- *		 float84eq, float84ne, float84lt, float84le, float84gt, float84ge
- *
- *		(You can do the arithmetic and comparison stuff using conversion
- *		 routines, but then you pay the overhead of invoking a separate
- *		 conversion function...)
- *
- * XXX GLUESOME STUFF. FIX IT! -AY '94
- *
- *		Added some additional conversion routines and cleaned up
- *		 a bit of the existing code. Need to change the error checking
- *		 for calls to pow(), exp() since on some machines (my Linux box
- *		 included) these routines do not set errno. - tgl 97/05/10
- *----------
- */
 #include "postgres.h"
 #include <ctype.h>
-#include <float.h>
 #include <math.h>
 #include <limits.h>
 /* for finite() on Solaris */
@@ -91,21 +52,30 @@ static const uint32 nan[2] = {0xffffffff, 0x7fffffff};
 #define MAXFLOATWIDTH	64
 #define MAXDOUBLEWIDTH	128
-/* ========== USER I/O ROUTINES ========== */
+/*
+ * check to see if a float4/8 val has underflowed or overflowed
+ */
+#define CHECKFLOATVAL(val, inf_is_valid, zero_is_valid)			\
+do {															\
+	if (isinf(val) && !(inf_is_valid))							\
+		ereport(ERROR,											\
+				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),	\
+		  errmsg("value out of range: overflow")));				\
+																\
+	if ((val) == 0.0 && !(zero_is_valid))						\
+		ereport(ERROR,											\
+				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),	\
+		 errmsg("value out of range: underflow")));				\
+} while(0)
-#define FLOAT4_MAX		 FLT_MAX
+/* ========== USER I/O ROUTINES ========== */
-#define FLOAT4_MIN		 FLT_MIN
-#define FLOAT8_MAX		 DBL_MAX
-#define FLOAT8_MIN		 DBL_MIN
 /* Configurable GUC parameter */
 int			extra_float_digits = 0;		/* Added to DBL_DIG or FLT_DIG */
-static void CheckFloat4Val(double val);
-static void CheckFloat8Val(double val);
 static int	float4_cmp_internal(float4 a, float4 b);
 static int	float8_cmp_internal(float8 a, float8 b);
@@ -204,44 +174,6 @@ is_infinite(double val)
 }
-/*
- * check to see if a float4 val is outside of the FLOAT4_MIN,
- * FLOAT4_MAX bounds.
- *
- * raise an ereport() error if it is
- */
-static void
-CheckFloat4Val(double val)
-{
-	if (fabs(val) > FLOAT4_MAX)
-		ereport(ERROR,
-				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
-				 errmsg("type \"real\" value out of range: overflow")));
-	if (val != 0.0 && fabs(val) < FLOAT4_MIN)
-		ereport(ERROR,
-				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
-				 errmsg("type \"real\" value out of range: underflow")));
-}
-/*
- * check to see if a float8 val is outside of the FLOAT8_MIN,
- * FLOAT8_MAX bounds.
- *
- * raise an ereport() error if it is
- */
-static void
-CheckFloat8Val(double val)
-{
-	if (fabs(val) > FLOAT8_MAX)
-		ereport(ERROR,
-				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
-		  errmsg("type \"double precision\" value out of range: overflow")));
-	if (val != 0.0 && fabs(val) < FLOAT8_MIN)
-		ereport(ERROR,
-				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
-		 errmsg("type \"double precision\" value out of range: underflow")));
-}
 /*
 *		float4in		- converts "num" to float
 *						  restricted syntax:
@@ -369,8 +301,7 @@ float4in(PG_FUNCTION_ARGS)
 	 * if we get here, we have a legal double, still need to check to see if
 	 * it's a legal float4
 	 */
-	if (!isinf(val))
+	CHECKFLOATVAL((float4) val, isinf(val), val == 0);
-		CheckFloat4Val(val);
 	PG_RETURN_FLOAT4((float4) val);
 }
@@ -558,8 +489,7 @@ float8in(PG_FUNCTION_ARGS)
 			 errmsg("invalid input syntax for type double precision: \"%s\"",
 					orig_num)));
-	if (!isinf(val))
+	CHECKFLOATVAL(val, true, true);
-		CheckFloat8Val(val);
 	PG_RETURN_FLOAT8(val);
 }
@@ -652,8 +582,12 @@ Datum
 float4um(PG_FUNCTION_ARGS)
 {
 	float4		arg1 = PG_GETARG_FLOAT4(0);
+	float4		result;
+	result = ((arg1 != 0) ? -(arg1) : arg1);
-	PG_RETURN_FLOAT4((float4) -arg1);
+	CHECKFLOATVAL(result, isinf(arg1), true);
+	PG_RETURN_FLOAT4(result);
 }
 Datum
@@ -705,12 +639,8 @@ Datum
 float8abs(PG_FUNCTION_ARGS)
 {
 	float8		arg1 = PG_GETARG_FLOAT8(0);
-	float8		result;
-	result = fabs(arg1);
-	CheckFloat8Val(result);
+	PG_RETURN_FLOAT8(fabs(arg1));
-	PG_RETURN_FLOAT8(result);
 }
@@ -725,7 +655,7 @@ float8um(PG_FUNCTION_ARGS)
 	result = ((arg1 != 0) ? -(arg1) : arg1);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -781,13 +711,20 @@ float8smaller(PG_FUNCTION_ARGS)
 Datum
 float4pl(PG_FUNCTION_ARGS)
 {
-	float4		arg1 = PG_GETARG_FLOAT4(0);
+	float8		arg1 = PG_GETARG_FLOAT4(0);
-	float4		arg2 = PG_GETARG_FLOAT4(1);
+	float8		arg2 = PG_GETARG_FLOAT4(1);
-	double		result;
+	float4		result;
 	result = arg1 + arg2;
-	CheckFloat4Val(result);
+	/*
-	PG_RETURN_FLOAT4((float4) result);
+	 *	There isn't any way to check for underflow of addition/subtraction
+	 *	because numbers near the underflow value have been already been
+	 *	to the point where we can't detect the that the two values
+	 *	were originally different, e.g. on x86, '1e-45'::float4 ==
+	 *	'2e-45'::float4 == 1.4013e-45.
+	 */
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
+	PG_RETURN_FLOAT4(result);
 }
 Datum
@@ -795,11 +732,11 @@ float4mi(PG_FUNCTION_ARGS)
 {
 	float4		arg1 = PG_GETARG_FLOAT4(0);
 	float4		arg2 = PG_GETARG_FLOAT4(1);
-	double		result;
+	float4		result;
 	result = arg1 - arg2;
-	CheckFloat4Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
-	PG_RETURN_FLOAT4((float4) result);
+	PG_RETURN_FLOAT4(result);
 }
 Datum
@@ -807,11 +744,12 @@ float4mul(PG_FUNCTION_ARGS)
 {
 	float4		arg1 = PG_GETARG_FLOAT4(0);
 	float4		arg2 = PG_GETARG_FLOAT4(1);
-	double		result;
+	float4		result;
 	result = arg1 * arg2;
-	CheckFloat4Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2),
-	PG_RETURN_FLOAT4((float4) result);
+					arg1 == 0 || arg2 == 0);
+	PG_RETURN_FLOAT4(result);
 }
 Datum
@@ -819,7 +757,7 @@ float4div(PG_FUNCTION_ARGS)
 {
 	float4		arg1 = PG_GETARG_FLOAT4(0);
 	float4		arg2 = PG_GETARG_FLOAT4(1);
-	double		result;
+	float4		result;
 	if (arg2 == 0.0)
 		ereport(ERROR,
@@ -827,10 +765,10 @@ float4div(PG_FUNCTION_ARGS)
 				 errmsg("division by zero")));
 	/* Do division in float8, then check for overflow */
-	result = (float8) arg1 / (float8) arg2;
+	result = arg1 / arg2;
-	CheckFloat4Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), arg1 == 0);
-	PG_RETURN_FLOAT4((float4) result);
+	PG_RETURN_FLOAT4(result);
 }
 /*
@@ -848,7 +786,7 @@ float8pl(PG_FUNCTION_ARGS)
 	result = arg1 + arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -861,7 +799,7 @@ float8mi(PG_FUNCTION_ARGS)
 	result = arg1 - arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -874,7 +812,8 @@ float8mul(PG_FUNCTION_ARGS)
 	result = arg1 * arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2),
+					arg1 == 0 || arg2 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -892,7 +831,7 @@ float8div(PG_FUNCTION_ARGS)
 	result = arg1 / arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1142,7 +1081,7 @@ dtof(PG_FUNCTION_ARGS)
 {
 	float8		num = PG_GETARG_FLOAT8(0);
-	CheckFloat4Val(num);
+	CHECKFLOATVAL((float4) num, isinf(num), num == 0);
 	PG_RETURN_FLOAT4((float4) num);
 }
@@ -1157,7 +1096,8 @@ dtoi4(PG_FUNCTION_ARGS)
 	float8		num = PG_GETARG_FLOAT8(0);
 	int32		result;
-	if (num < INT_MIN || num > INT_MAX)
+	/* 'Inf' is handled by INT_MAX */
+	if (num < INT_MIN || num > INT_MAX || isnan(num))
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("integer out of range")));
@@ -1174,15 +1114,13 @@ Datum
 dtoi2(PG_FUNCTION_ARGS)
 {
 	float8		num = PG_GETARG_FLOAT8(0);
-	int16		result;
-	if (num < SHRT_MIN || num > SHRT_MAX)
+	if (num < SHRT_MIN || num > SHRT_MAX || isnan(num))
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("smallint out of range")));
-	result = (int16) rint(num);
+	PG_RETURN_INT16((int16) rint(num));
-	PG_RETURN_INT16(result);
 }
@@ -1193,10 +1131,8 @@ Datum
 i4tod(PG_FUNCTION_ARGS)
 {
 	int32		num = PG_GETARG_INT32(0);
-	float8		result;
-	result = num;
+	PG_RETURN_FLOAT8((float8) num);
-	PG_RETURN_FLOAT8(result);
 }
@@ -1207,10 +1143,8 @@ Datum
 i2tod(PG_FUNCTION_ARGS)
 {
 	int16		num = PG_GETARG_INT16(0);
-	float8		result;
-	result = num;
+	PG_RETURN_FLOAT8((float8) num);
-	PG_RETURN_FLOAT8(result);
 }
@@ -1221,15 +1155,13 @@ Datum
 ftoi4(PG_FUNCTION_ARGS)
 {
 	float4		num = PG_GETARG_FLOAT4(0);
-	int32		result;
-	if (num < INT_MIN || num > INT_MAX)
+	if (num < INT_MIN || num > INT_MAX || isnan(num))
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("integer out of range")));
-	result = (int32) rint(num);
+	PG_RETURN_INT32((int32) rint(num));
-	PG_RETURN_INT32(result);
 }
@@ -1240,29 +1172,25 @@ Datum
 ftoi2(PG_FUNCTION_ARGS)
 {
 	float4		num = PG_GETARG_FLOAT4(0);
-	int16		result;
-	if (num < SHRT_MIN || num > SHRT_MAX)
+	if (num < SHRT_MIN || num > SHRT_MAX || isnan(num))
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("smallint out of range")));
-	result = (int16) rint(num);
+	PG_RETURN_INT16((int16) rint(num));
-	PG_RETURN_INT16(result);
 }
 /*
- *		i4tof			- converts an int4 number to a float8 number
+ *		i4tof			- converts an int4 number to a float4 number
 */
 Datum
 i4tof(PG_FUNCTION_ARGS)
 {
 	int32		num = PG_GETARG_INT32(0);
-	float4		result;
-	result = num;
+	PG_RETURN_FLOAT4((float4) num);
-	PG_RETURN_FLOAT4(result);
 }
@@ -1273,10 +1201,8 @@ Datum
 i2tof(PG_FUNCTION_ARGS)
 {
 	int16		num = PG_GETARG_INT16(0);
-	float4		result;
-	result = num;
+	PG_RETURN_FLOAT4((float4) num);
-	PG_RETURN_FLOAT4(result);
 }
@@ -1395,11 +1321,8 @@ Datum
 dround(PG_FUNCTION_ARGS)
 {
 	float8		arg1 = PG_GETARG_FLOAT8(0);
-	float8		result;
-	result = rint(arg1);
-	PG_RETURN_FLOAT8(result);
+	PG_RETURN_FLOAT8(rint(arg1));
 }
 /*
@@ -1485,7 +1408,7 @@ dsqrt(PG_FUNCTION_ARGS)
 	result = sqrt(arg1);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1500,6 +1423,7 @@ dcbrt(PG_FUNCTION_ARGS)
 	float8		result;
 	result = cbrt(arg1);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1530,16 +1454,12 @@ dpow(PG_FUNCTION_ARGS)
 	 */
 	errno = 0;
 	result = pow(arg1, arg2);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("result is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1555,21 +1475,16 @@ dexp(PG_FUNCTION_ARGS)
 	/*
 	 * We must check both for errno getting set and for a NaN result, in order
-	 * to deal with the vagaries of different platforms. Also, a zero result
+	 * to deal with the vagaries of different platforms.
-	 * implies unreported underflow.
 	 */
 	errno = 0;
 	result = exp(arg1);
-	if (errno != 0 || result == 0.0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("result is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), false);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1598,7 +1513,7 @@ dlog1(PG_FUNCTION_ARGS)
 	result = log(arg1);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 1);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1628,7 +1543,7 @@ dlog10(PG_FUNCTION_ARGS)
 	result = log10(arg1);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 1);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1644,16 +1559,12 @@ dacos(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = acos(arg1);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1669,16 +1580,12 @@ dasin(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = asin(arg1);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1694,16 +1601,12 @@ datan(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = atan(arg1);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1720,16 +1623,12 @@ datan2(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = atan2(arg1, arg2);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1745,16 +1644,12 @@ dcos(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = cos(arg1);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1770,17 +1665,13 @@ dcot(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = tan(arg1);
-	if (errno != 0 || result == 0.0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
 	result = 1.0 / result;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, true /* cotan(pi/2) == inf */, true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1796,16 +1687,12 @@ dsin(PG_FUNCTION_ARGS)
 	errno = 0;
 	result = sin(arg1);
-	if (errno != 0
+	if (errno != 0)
-#ifdef HAVE_FINITE
-		|| !finite(result)
-#endif
-		)
 		ereport(ERROR,
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1830,7 +1717,7 @@ dtan(PG_FUNCTION_ARGS)
 				(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
 				 errmsg("input is out of range")));
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, true /* tan(pi/2) == Inf */, true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1846,7 +1733,7 @@ degrees(PG_FUNCTION_ARGS)
 	result = arg1 * (180.0 / M_PI);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1872,7 +1759,7 @@ radians(PG_FUNCTION_ARGS)
 	result = arg1 * (M_PI / 180.0);
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -1963,8 +1850,10 @@ float8_accum(PG_FUNCTION_ARGS)
 	N += 1.0;
 	sumX += newval;
+	CHECKFLOATVAL(sumX, isinf(transvalues[1]) || isinf(newval), true);
 	sumX2 += newval * newval;
+	CHECKFLOATVAL(sumX2, isinf(transvalues[2]) || isinf(newval), true);
 	/*
 	 * If we're invoked by nodeAgg, we can cheat and modify our first
 	 * parameter in-place to reduce palloc overhead. Otherwise we construct a
@@ -1999,25 +1888,24 @@ Datum
 float4_accum(PG_FUNCTION_ARGS)
 {
 	ArrayType  *transarray = PG_GETARG_ARRAYTYPE_P(0);
-	float4		newval4 = PG_GETARG_FLOAT4(1);
+	/* do computations as float8 */
+	float8		newval = PG_GETARG_FLOAT4(1);
 	float8	   *transvalues;
 	float8		N,
 				sumX,
-				sumX2,
+				sumX2;
-				newval;
 	transvalues = check_float8_array(transarray, "float4_accum", 3);
 	N = transvalues[0];
 	sumX = transvalues[1];
 	sumX2 = transvalues[2];
-	/* Do arithmetic in float8 for best accuracy */
-	newval = newval4;
 	N += 1.0;
 	sumX += newval;
+	CHECKFLOATVAL(sumX, isinf(transvalues[1]) || isinf(newval), true);
 	sumX2 += newval * newval;
+	CHECKFLOATVAL(sumX2, isinf(transvalues[2]) || isinf(newval), true);
 	/*
 	 * If we're invoked by nodeAgg, we can cheat and modify our first
 	 * parameter in-place to reduce palloc overhead. Otherwise we construct a
@@ -2088,6 +1976,7 @@ float8_var_pop(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numerator, isinf(sumX2) || isinf(sumX), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2116,6 +2005,7 @@ float8_var_samp(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numerator, isinf(sumX2) || isinf(sumX), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2144,6 +2034,7 @@ float8_stddev_pop(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numerator, isinf(sumX2) || isinf(sumX), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2172,6 +2063,7 @@ float8_stddev_samp(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numerator, isinf(sumX2) || isinf(sumX), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2220,11 +2112,17 @@ float8_regr_accum(PG_FUNCTION_ARGS)
 	N += 1.0;
 	sumX += newvalX;
+	CHECKFLOATVAL(sumX, isinf(transvalues[1]) || isinf(newvalX), true);
 	sumX2 += newvalX * newvalX;
+	CHECKFLOATVAL(sumX2, isinf(transvalues[2]) || isinf(newvalX), true);
 	sumY += newvalY;
+	CHECKFLOATVAL(sumY, isinf(transvalues[3]) || isinf(newvalY), true);
 	sumY2 += newvalY * newvalY;
+	CHECKFLOATVAL(sumY2, isinf(transvalues[4]) || isinf(newvalY), true);
 	sumXY += newvalX * newvalY;
+	CHECKFLOATVAL(sumXY, isinf(transvalues[5]) || isinf(newvalX) ||
+					isinf(newvalY), true);
 	/*
 	 * If we're invoked by nodeAgg, we can cheat and modify our first
 	 * parameter in-place to reduce palloc overhead. Otherwise we construct a
@@ -2282,6 +2180,7 @@ float8_regr_sxx(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numerator, isinf(sumX2) || isinf(sumX), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2310,6 +2209,7 @@ float8_regr_syy(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumY2 - sumY * sumY;
+	CHECKFLOATVAL(numerator, isinf(sumY2) || isinf(sumY), true);
 	/* Watch out for roundoff error producing a negative numerator */
 	if (numerator <= 0.0)
@@ -2340,6 +2240,8 @@ float8_regr_sxy(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numerator, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	/* A negative result is valid here */
@@ -2406,6 +2308,8 @@ float8_covar_pop(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numerator, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	PG_RETURN_FLOAT8(numerator / (N * N));
 }
@@ -2432,6 +2336,8 @@ float8_covar_samp(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numerator = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numerator, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	PG_RETURN_FLOAT8(numerator / (N * (N - 1.0)));
 }
@@ -2464,8 +2370,12 @@ float8_corr(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numeratorX = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numeratorX, isinf(sumX2) || isinf(sumX), true);
 	numeratorY = N * sumY2 - sumY * sumY;
+	CHECKFLOATVAL(numeratorY, isinf(sumY2) || isinf(sumY), true);
 	numeratorXY = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numeratorXY, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	if (numeratorX <= 0 || numeratorY <= 0)
 		PG_RETURN_NULL();
@@ -2501,8 +2411,12 @@ float8_regr_r2(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numeratorX = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numeratorX, isinf(sumX2) || isinf(sumX), true);
 	numeratorY = N * sumY2 - sumY * sumY;
+	CHECKFLOATVAL(numeratorY, isinf(sumY2) || isinf(sumY), true);
 	numeratorXY = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numeratorXY, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	if (numeratorX <= 0)
 		PG_RETURN_NULL();
 	/* per spec, horizontal line produces 1.0 */
@@ -2538,7 +2452,10 @@ float8_regr_slope(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numeratorX = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numeratorX, isinf(sumX2) || isinf(sumX), true);
 	numeratorXY = N * sumXY - sumX * sumY;
+	CHECKFLOATVAL(numeratorXY, isinf(sumXY) || isinf(sumX) ||
+					isinf(sumY), true);
 	if (numeratorX <= 0)
 		PG_RETURN_NULL();
@@ -2570,7 +2487,10 @@ float8_regr_intercept(PG_FUNCTION_ARGS)
 		PG_RETURN_NULL();
 	numeratorX = N * sumX2 - sumX * sumX;
+	CHECKFLOATVAL(numeratorX, isinf(sumX2) || isinf(sumX), true);
 	numeratorXXY = sumY * sumX2 - sumX * sumXY;
+	CHECKFLOATVAL(numeratorXXY, isinf(sumY) || isinf(sumX2) ||
+					isinf(sumX) || isinf(sumXY), true);
 	if (numeratorX <= 0)
 		PG_RETURN_NULL();
@@ -2598,7 +2518,7 @@ float48pl(PG_FUNCTION_ARGS)
 	float8		result;
 	result = arg1 + arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2610,7 +2530,7 @@ float48mi(PG_FUNCTION_ARGS)
 	float8		result;
 	result = arg1 - arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2622,7 +2542,8 @@ float48mul(PG_FUNCTION_ARGS)
 	float8		result;
 	result = arg1 * arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2),
+					arg1 == 0 || arg2 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2639,7 +2560,7 @@ float48div(PG_FUNCTION_ARGS)
 				 errmsg("division by zero")));
 	result = arg1 / arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2658,7 +2579,7 @@ float84pl(PG_FUNCTION_ARGS)
 	result = arg1 + arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2671,7 +2592,7 @@ float84mi(PG_FUNCTION_ARGS)
 	result = arg1 - arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), true);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2684,7 +2605,8 @@ float84mul(PG_FUNCTION_ARGS)
 	result = arg1 * arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2),
+					arg1 == 0 || arg2 == 0);
 	PG_RETURN_FLOAT8(result);
 }
@@ -2702,7 +2624,7 @@ float84div(PG_FUNCTION_ARGS)
 	result = arg1 / arg2;
-	CheckFloat8Val(result);
+	CHECKFLOATVAL(result, isinf(arg1) || isinf(arg2), arg1 == 0);
 	PG_RETURN_FLOAT8(result);
 }

--- a/src/backend/utils/adt/int.c
+++ b/src/backend/utils/adt/int.c
@@ -8,7 +8,7 @@
 *
 *
 * IDENTIFICATION
- *	  $PostgreSQL: pgsql/src/backend/utils/adt/int.c,v 1.75 2006/10/04 00:29:59 momjian Exp $
+ *	  $PostgreSQL: pgsql/src/backend/utils/adt/int.c,v 1.76 2007/01/02 20:00:49 momjian Exp $
 *
 *-------------------------------------------------------------------------
 */
@@ -1124,6 +1124,11 @@ int4mod(PG_FUNCTION_ARGS)
 		ereport(ERROR,
 				(errcode(ERRCODE_DIVISION_BY_ZERO),
 				 errmsg("division by zero")));
+	/* SELECT ((-2147483648)::int4) % (-1); causes a floating point exception */
+	if (arg1 == INT_MIN && arg2 == -1)
+		PG_RETURN_INT32(0);
 	/* No overflow is possible */
 	PG_RETURN_INT32(arg1 % arg2);

--- a/src/test/regress/expected/float4-exp-three-digits.out
+++ b/src/test/regress/expected/float4-exp-three-digits.out
@@ -8,14 +8,14 @@ INSERT INTO FLOAT4_TBL(f1) VALUES ('     -34.84    ');
 INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e+20');
 INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e-20');
 -- test for over and under flow 
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e70');
-ERROR:  type "real" value out of range: overflow
+ERROR:  value out of range: overflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e70');
-ERROR:  type "real" value out of range: overflow
+ERROR:  value out of range: overflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-70');
-ERROR:  type "real" value out of range: underflow
+ERROR:  value out of range: underflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-70');
-ERROR:  type "real" value out of range: underflow
+ERROR:  value out of range: underflow
 -- bad input
 INSERT INTO FLOAT4_TBL(f1) VALUES ('');
 ERROR:  invalid input syntax for type real: ""
@@ -72,7 +72,11 @@ ERROR:  invalid input syntax for type real: "NaN x"
 SELECT ' INFINITY    x'::float4;
 ERROR:  invalid input syntax for type real: " INFINITY    x"
 SELECT 'Infinity'::float4 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float4 / 'Infinity'::float4;
 ?column? 
 ----------

--- a/src/test/regress/expected/float4.out
+++ b/src/test/regress/expected/float4.out
@@ -8,14 +8,14 @@ INSERT INTO FLOAT4_TBL(f1) VALUES ('     -34.84    ');
 INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e+20');
 INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e-20');
 -- test for over and under flow 
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e70');
-ERROR:  type "real" value out of range: overflow
+ERROR:  value out of range: overflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e70');
-ERROR:  type "real" value out of range: overflow
+ERROR:  value out of range: overflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-70');
-ERROR:  type "real" value out of range: underflow
+ERROR:  value out of range: underflow
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-70');
-ERROR:  type "real" value out of range: underflow
+ERROR:  value out of range: underflow
 -- bad input
 INSERT INTO FLOAT4_TBL(f1) VALUES ('');
 ERROR:  invalid input syntax for type real: ""
@@ -72,7 +72,11 @@ ERROR:  invalid input syntax for type real: "NaN x"
 SELECT ' INFINITY    x'::float4;
 ERROR:  invalid input syntax for type real: " INFINITY    x"
 SELECT 'Infinity'::float4 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float4 / 'Infinity'::float4;
 ?column? 
 ----------

--- a/src/test/regress/expected/float8-exp-three-digits-win32.out
+++ b/src/test/regress/expected/float8-exp-three-digits-win32.out
@@ -72,7 +72,11 @@ ERROR:  invalid input syntax for type double precision: "NaN x"
 SELECT ' INFINITY    x'::float8;
 ERROR:  invalid input syntax for type double precision: " INFINITY    x"
 SELECT 'Infinity'::float8 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float8 / 'Infinity'::float8;
 ?column? 
 ----------
@@ -342,15 +346,15 @@ UPDATE FLOAT8_TBL
   SET f1 = FLOAT8_TBL.f1 * '-1'
   WHERE FLOAT8_TBL.f1 > '0.0';
 SELECT '' AS bad, f.f1 * '1e200' from FLOAT8_TBL f;
-ERROR:  type "double precision" value out of range: overflow
+ERROR:  value out of range: overflow
 SELECT '' AS bad, f.f1 ^ '1e200' from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: overflow
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 = '0.0' ;
 ERROR:  cannot take logarithm of zero
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 < '0.0' ;
 ERROR:  cannot take logarithm of a negative number
 SELECT '' AS bad, exp(f.f1) from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: underflow
 SELECT '' AS bad, f.f1 / '0.0' from FLOAT8_TBL f;
 ERROR:  division by zero
 SELECT '' AS five, * FROM FLOAT8_TBL;

--- a/src/test/regress/expected/float8-small-is-zero.out
+++ b/src/test/regress/expected/float8-small-is-zero.out
@@ -80,7 +80,11 @@ ERROR:  invalid input syntax for type double precision: "NaN x"
 SELECT ' INFINITY    x'::float8;
 ERROR:  invalid input syntax for type double precision: " INFINITY    x"
 SELECT 'Infinity'::float8 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float8 / 'Infinity'::float8;
 ?column? 
 ----------
@@ -350,15 +354,15 @@ UPDATE FLOAT8_TBL
   SET f1 = FLOAT8_TBL.f1 * '-1'
   WHERE FLOAT8_TBL.f1 > '0.0';
 SELECT '' AS bad, f.f1 * '1e200' from FLOAT8_TBL f;
-ERROR:  type "double precision" value out of range: overflow
+ERROR:  value out of range: overflow
 SELECT '' AS bad, f.f1 ^ '1e200' from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: overflow
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 = '0.0' ;
 ERROR:  cannot take logarithm of zero
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 < '0.0' ;
 ERROR:  cannot take logarithm of a negative number
 SELECT '' AS bad, exp(f.f1) from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: underflow
 SELECT '' AS bad, f.f1 / '0.0' from FLOAT8_TBL f;
 ERROR:  division by zero
 SELECT '' AS five, * FROM FLOAT8_TBL;

--- a/src/test/regress/expected/float8-small-is-zero_1.out
+++ b/src/test/regress/expected/float8-small-is-zero_1.out
@@ -80,7 +80,11 @@ ERROR:  invalid input syntax for type double precision: "NaN x"
 SELECT ' INFINITY    x'::float8;
 ERROR:  invalid input syntax for type double precision: " INFINITY    x"
 SELECT 'Infinity'::float8 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float8 / 'Infinity'::float8;
 ?column? 
 ----------
@@ -350,15 +354,15 @@ UPDATE FLOAT8_TBL
   SET f1 = FLOAT8_TBL.f1 * '-1'
   WHERE FLOAT8_TBL.f1 > '0.0';
 SELECT '' AS bad, f.f1 * '1e200' from FLOAT8_TBL f;
-ERROR:  type "double precision" value out of range: overflow
+ERROR:  value out of range: overflow
 SELECT '' AS bad, f.f1 ^ '1e200' from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: overflow
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 = '0.0' ;
 ERROR:  cannot take logarithm of zero
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 < '0.0' ;
 ERROR:  cannot take logarithm of a negative number
 SELECT '' AS bad, exp(f.f1) from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: underflow
 SELECT '' AS bad, f.f1 / '0.0' from FLOAT8_TBL f;
 ERROR:  division by zero
 SELECT '' AS five, * FROM FLOAT8_TBL;

--- a/src/test/regress/expected/float8.out
+++ b/src/test/regress/expected/float8.out
@@ -72,7 +72,11 @@ ERROR:  invalid input syntax for type double precision: "NaN x"
 SELECT ' INFINITY    x'::float8;
 ERROR:  invalid input syntax for type double precision: " INFINITY    x"
 SELECT 'Infinity'::float8 + 100.0;
-ERROR:  type "double precision" value out of range: overflow
+ ?column? 
+----------
+ Infinity
+(1 row)
 SELECT 'Infinity'::float8 / 'Infinity'::float8;
 ?column? 
 ----------
@@ -342,15 +346,15 @@ UPDATE FLOAT8_TBL
   SET f1 = FLOAT8_TBL.f1 * '-1'
   WHERE FLOAT8_TBL.f1 > '0.0';
 SELECT '' AS bad, f.f1 * '1e200' from FLOAT8_TBL f;
-ERROR:  type "double precision" value out of range: overflow
+ERROR:  value out of range: overflow
 SELECT '' AS bad, f.f1 ^ '1e200' from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: overflow
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 = '0.0' ;
 ERROR:  cannot take logarithm of zero
 SELECT '' AS bad, ln(f.f1) from FLOAT8_TBL f where f.f1 < '0.0' ;
 ERROR:  cannot take logarithm of a negative number
 SELECT '' AS bad, exp(f.f1) from FLOAT8_TBL f;
-ERROR:  result is out of range
+ERROR:  value out of range: underflow
 SELECT '' AS bad, f.f1 / '0.0' from FLOAT8_TBL f;
 ERROR:  division by zero
 SELECT '' AS five, * FROM FLOAT8_TBL;

--- a/src/test/regress/sql/float4.sql
+++ b/src/test/regress/sql/float4.sql
@@ -11,10 +11,10 @@ INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e+20');
 INSERT INTO FLOAT4_TBL(f1) VALUES ('1.2345678901234e-20');
 -- test for over and under flow 
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e70');
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e70');
-INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('10e-70');
-INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-40');
+INSERT INTO FLOAT4_TBL(f1) VALUES ('-10e-70');
 -- bad input
 INSERT INTO FLOAT4_TBL(f1) VALUES ('');