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In memory operand addressing, which forms of displacement are permitted besides Disp8 is pretty clearly limited - outside of 64-bit mode, Disp16 or Disp32 only, depending on address size (MPX being special in not allowing Disp16), - in 64-bit mode, Disp32s or Disp64 without address size override, and solely Disp32 with one. Adjust assembler and i386-gen to match this, observing that templates already get adjusted before trying to match them against input depending on the presence of an address size prefix. This adjustment logic gets extended to all cases, as certain DispNN values should also be dropped when there's no such prefix. In fact behavior of the assembler, perhaps besides the exact diagnostics wording, should not differ between there being templates applicable to 64-bit and non-64-bit at the same time, or there being fully separate sets of templates, with their DispNN settings already reduced accordingly. This adjustment logic further gets guarded such that there wouldn't be and Disp<N> conversion based on address size prefix when this prefix doesn't control the width of the displacement (on branches other than absolute ones). These adjustments then also allow folding two MOV templates, which had been split between 64-bit and non-64-bits variants so far. Once in this area also - drop the bogus DispNN from JumpByte templates, leaving just the correct Disp8 there (compensated by i386_finalize_displacement() now setting Disp8 on their operands), - add the missing Disp32S to XBEGIN. Note that the changes make it necessary to temporarily mark a test as XFAIL; this will get taken care of by a subsequent patch. The failing parts are entirely bogus and will get replaced.
README for GNU development tools This directory contains various GNU compilers, assemblers, linkers, debuggers, etc., plus their support routines, definitions, and documentation. If you are receiving this as part of a GDB release, see the file gdb/README. If with a binutils release, see binutils/README; if with a libg++ release, see libg++/README, etc. That'll give you info about this package -- supported targets, how to use it, how to report bugs, etc. It is now possible to automatically configure and build a variety of tools with one command. To build all of the tools contained herein, run the ``configure'' script here, e.g.: ./configure make To install them (by default in /usr/local/bin, /usr/local/lib, etc), then do: make install (If the configure script can't determine your type of computer, give it the name as an argument, for instance ``./configure sun4''. You can use the script ``config.sub'' to test whether a name is recognized; if it is, config.sub translates it to a triplet specifying CPU, vendor, and OS.) If you have more than one compiler on your system, it is often best to explicitly set CC in the environment before running configure, and to also set CC when running make. For example (assuming sh/bash/ksh): CC=gcc ./configure make A similar example using csh: setenv CC gcc ./configure make Much of the code and documentation enclosed is copyright by the Free Software Foundation, Inc. See the file COPYING or COPYING.LIB in the various directories, for a description of the GNU General Public License terms under which you can copy the files. REPORTING BUGS: Again, see gdb/README, binutils/README, etc., for info on where and how to report problems.