Fix corner-case loss of precision in numeric_power().

This fixes a loss of precision that occurs when the first input is
very close to 1, so that its logarithm is very small.

Formerly, during the initial low-precision calculation to estimate the
result weight, the logarithm was computed to a local rscale that was
capped to NUMERIC_MAX_DISPLAY_SCALE (1000). However, the base may be
as close as 1e-16383 to 1, hence its logarithm may be as small as
1e-16383, and so the local rscale needs to be allowed to exceed 16383,
otherwise all precision is lost, leading to a poor choice of rscale
for the full-precision calculation.

Fix this by removing the cap on the local rscale during the initial
low-precision calculation, as we already do in the full-precision
calculation. This doesn't change the fact that the initial calculation
is a low-precision approximation, computing the logarithm to around 8
significant digits, which is very fast, especially when the base is
very close to 1.

Patch by me, reviewed by Alvaro Herrera.

Discussion: https://postgr.es/m/CAEZATCV-Ceu%2BHpRMf416yUe4KKFv%3DtdgXQAe5-7S9tD%3D5E-T1g%40mail.gmail.com

1 files changed, 5 insertions, 1 deletions

diff --git a/src/backend/utils/adt/numeric.c b/src/backend/utils/adt/numeric.c
index c4bc665d6a4..4ca13f4f477 100644
--- a/src/backend/utils/adt/numeric.c
+++ b/src/backend/utils/adt/numeric.c
@@ -10227,9 +10227,13 @@ power_var(const NumericVar *base, const NumericVar *exp, NumericVar *result)
 	 */
 	ln_dweight = estimate_ln_dweight(base);
 
+	/*
+	 * Set the scale for the low-precision calculation, computing ln(base) to
+	 * around 8 significant digits.  Note that ln_dweight may be as small as
+	 * -SHRT_MAX, so the scale may exceed NUMERIC_MAX_DISPLAY_SCALE here.
+	 */
 	local_rscale = 8 - ln_dweight;
 	local_rscale = Max(local_rscale, NUMERIC_MIN_DISPLAY_SCALE);
-	local_rscale = Min(local_rscale, NUMERIC_MAX_DISPLAY_SCALE);
 
 	ln_var(base, &ln_base, local_rscale);