This section identifies bugs that
might run into in the GCC-3.4.3 version
This includes bugs that are actually in the
back end (GBE) or in
libf2c, because those
sets of code are at least somewhat under the control
of (and necessarily intertwined with)
so it isn't worth separating them out.
For information on bugs in other versions of
see News About GNU Fortran.
There, lists of bugs fixed in various versions of
can help determine what bugs existed in prior versions.
The following information was last updated on 2004-05-18:
g77fails to warn about use of a “live” iterative-DO variable as an implied-DO variable in a
g77's straightforward handling of label references and definitions sometimes prevents the GBE from unrolling loops. Until this is solved, try inserting or removing
CONTINUEstatements as the terminal statement, using the
END DOform instead, and so on.
INCLUDEstatements from within
INTEGER(KIND=1)constants range from -2**31 to 2**31-1 (the range for two's-complement 32-bit values), instead of determining their range from the actual range of the type for the configuration (and, someday, for the constant).
Further, it generally doesn't implement the handling of constants very well in that it makes assumptions about the configuration that it no longer makes regarding variables (types).
Included with this item is the fact that
g77 doesn't recognize
that, on IEEE-754/854-compliant systems, 0./0. should produce a NaN
and no warning instead of the value 0. and a warning.
g77uses way too much memory and CPU time to process large aggregate areas having any initialized elements.
For example, REAL A(1000000) followed by DATA A(1)/1/ takes up way too much time and space, including the size of the generated assembler file.
Version 0.5.18 improves cases like this—specifically, cases of sparse initialization that leave large, contiguous areas uninitialized—significantly. However, even with the improvements, these cases still require too much memory and CPU time.
(Version 0.5.18 also improves cases where the initial values are zero to a much greater degree, so if the above example ends with DATA A(1)/0/, the compile-time performance will be about as good as it will ever get, aside from unrelated improvements to the compiler.)
g77 does display a warning message to
notify the user before the compiler appears to hang.
A warning message is issued when
g77 sees code that provides
initial values (e.g. via
DATA) to an aggregate area (
EQUIVALENCE, or even a large enough array or
that is large enough to increase
g77's compile time by roughly
a factor of 10.
This size currently is quite small, since
currently has a known bug requiring too much memory
and time to handle such cases.
In gcc/gcc/f/data.c, the macro
FFEDATA_sizeTOO_BIG_INIT_ is defined
to the minimum size for the warning to appear.
The size is specified in storage units,
which can be bytes, words, or whatever, on a case-by-case basis.
After changing this macro definition, you must
(of course) rebuild and reinstall
the change to take effect.
Note that, as of version 0.5.18, improvements have
reduced the scope of the problem for sparse
initialization of large arrays, especially those
with large, contiguous uninitialized areas.
However, the warning is issued at a point prior to
g77 knows whether the initialization is sparse,
and delaying the warning could mean it is produced
too late to be helpful.
Therefore, the macro definition should not be adjusted to reflect sparse cases. Instead, adjust it to generate the warning when densely initialized arrays begin to cause responses noticeably slower than linear performance would suggest.
MAIN__doesn't exist) and run the program until it hits the breakpoint. At that point, the main program unit is activated and about to execute its first executable statement, but that's the state in which the debugger should start up, as is the case for languages like C.
g77-compiled code using debuggers other than
gdbis likely not to work.
gdb to work together is a known
g77 to work properly with other
debuggers, for which source code often is unavailable to
developers, seems like a much larger, unknown problem,
and is a lower priority than making
work together properly.
On the other hand, information about problems other debuggers
g77 output might make it easier to properly
g77, and perhaps even improve
gdb, so it
is definitely welcome.
Such information might even lead to all relevant products
working together properly sooner.
g77doesn't work perfectly on 64-bit configurations such as the Digital Semiconductor (“DEC”) Alpha.
This problem is largely resolved as of version 0.5.23.
g77currently inserts needless padding for things like COMMON A,IPAD where A is
CHARACTER*1and IPAD is
INTEGER(KIND=1)on machines like x86, because the back end insists that IPAD be aligned to a 4-byte boundary, but the processor has no such requirement (though it is usually good for performance).
gcc back end needs to provide a wider array
of specifications of alignment requirements and preferences for targets,
and front ends like
g77 should take advantage of this
when it becomes available.
libf2croutines that perform some run-time arithmetic on
COMPLEXoperands were modified circa version 0.5.20 of
g77to work properly even in the presence of aliased operands.
netlib versions of
differ on how this is accomplished,
the main differences are that we believe
g77 version works properly
even in the presence of partially aliased operands.
However, these modifications have reduced performance on targets such as x86, due to the extra copies of operands involved.