GCC 4.5.0 doesn't change the X either.
The answer is going to lie in how the preprocessor interprets preprocessing tokens - and in the 'maximal munch' rule. The 'maximal munch' rule is what dictates that 'x+++++y' is treated as 'x ++ ++ + y' and hence is erroneous, rather than as 'x ++ + ++ y' which is legitimate.
The issue is why does the preprocessor interpret '1e-X' as a single preprocessing token. Clearly, it will treat '1e-10' as a single token. There is no valid interpretation for '1e-' unless it is followed by a digit once it passes the preprocessor.
So, I have to guess that the preprocessor sees '1e-X' as a single token (actually erroneous). But I have not dissected the correct clauses in the standard to see where it is required. But the definition of a 'preprocessing number' or 'pp-number' in the standard (see below) is somewhat different from the definition of a valid integer or floating point constant and allows many 'pp-numbers' that are not valid as an integer or floating point constant.
If it helps, the output of the Sun C Compiler for 'cc -E -v soq.c' is:
# 1 "soq.c"
"soq.c", line 4: invalid input token: 1e-X
double a = 1e-X ;
#ident "acomp: Sun C 5.9 SunOS_sparc Patch 124867-09 2008/11/25"
cc: acomp failed for soq.c
So, at least one C compiler rejects the code in the preprocessor - it might be that the GCC preprocessor is a little slack (I tried to provoke it into complaining with
gcc -Wall -pedantic -std=c89 -Wextra -E soq.c but it did not utter a squeak). And using 3 X's in both the macro and the '1e-XXX' notation showed that all three X's were consumed by both GCC and Sun C Compiler.
C Standard Definition of Preprocessing Number
From the C Standard - ISO/IEC 9899:1999 §6.4.8 Preprocessing Numbers:
pp-number e sign
pp-number E sign
pp-number p sign
pp-number P sign
Given this, '1e-X' is a valid 'pp-number', and therefore the X is not a separate token (nor is the 'XXX' in '1e-XXX' a separate token). Therefore, the preprocessor cannot expand the X; it isn't a separate token subject to expansion.