was `yes', or was set to `*opcodes*'.
* aclocal.m4: Likewise.
so `--enable-shared=libstdc++' doesn't result in building a shared libopcodes
only an interim fix, this is the incorrect formal approach since alocal.m4
itself is generated via what's in devo/libtool/libtool.m4; we need to find
a way to have that somehow hold the real fix.
* sparc-dis.c (print_insn_sparc): Recognize '_' and '/' for v9a asr's.
(v9a_asr_reg_names): New variable.
Patch from David Miller <davem@vger.rutgers.edu>.
* acconfig.h: New file.
* acinclude.m4: New file.
* stamp-h.in: New file.
* configure.in: Call AM_INIT_AUTOMAKE and AM_PROG_LIBTOOL.
Removed shared library handling; now handled by libtool. Replace
AC_CONFIG_HEADER with AM_CONFIG_HEADER. Call AM_MAINTAINER_MODE,
AM_CYGWIN32, and AM_EXEEXT. Replace AC_PROG_INSTALL with
AM_PROG_INSTALL. Change all .o files to .lo. Remove stamp-h
handling in AC_OUTPUT.
* dep-in.sed: Change .o to .lo.
* Makefile.in: Now built with automake.
* aclocal.m4: Now built with aclocal.
* config.in, configure: Rebuild.
* sparc-dis.c (sorted_opcodes): New static local.
(struct opcode_hash): `opcode' is pointer to const element.
(build_hash): First arg is now table of sorted pointers.
(print_insn_sparc): Sort opcodes by sorting table of pointers.
(compare_opcodes): Update.
(hash_keyword_name): New arg `case_sensitive_p'. Callers updated.
Handle case insensitive hashing.
(hash_keyword_value): Change type of `value' to unsigned int.
precision FP, mark it as such. Likewise for double precision
FP. Mark ISA1 insns. Consolidate duplicate opcodes where
possible.
(mips_builtin_opcodes): Remove non-existant r5900 instructions
toshiba_5900 stuff
* i386-dis.c (dis386[], dis386_twobyte[]): change pushl/popl
to pushS/popS for segment regs and byte constant so that
pushw/popw printed when in 16 bit data mode.
* i386-dis.c (dis386[]): change cwtl, cltd to cWtS, cStd to
print cbtw, cwtd in 16 bit data mode.
* i386-dis.c (putop): extra case W to support above.
* i386-dis.c (print_insn_x86): print addr32 prefix when given
address size prefix in 16 bit address mode.
* configure, config.in: Rebuild.
* sysdep.h: Include <stdlib.h> if it exists.
* sparc-dis.c: Include <stdio.h> and "sysdep.h". Don't include
<string.h>.
* Makefile.in: Rebuild dependencies.
(HFILES): New variable.
(CFILES): Add all C files.
(.dep, .dep1, dep.sed, dep, dep-in): New targets.
Delete old dependencies, and build new ones.
* dep-in.sed: New file.
* i386-dis.c (fetch_data): Add prototype.
* m68k-dis.c (fetch_data): Add prototype.
(dummy_print_address): Add prototype. Make static.
* ppc-opc.c (valid_bo): Add prototype.
* sparc-dis.c (build_hash_table): Add prototype.
(is_delayed_branch, compute_arch_mask): Add prototypes.
(print_insn_sparc): Make several local variables const.
(compare_opcodes): Change arguments to const PTR. Add prototype.
* sparc-opc.c (arg): Change name field to be const.
(lookup_name, lookup_value): Add prototypes. Change table and
name parameters to be const.
(sparc_encode_asi): Change name parameter to be const.
(sparc_encode_membar, sparc_encode_prefetch): Likewise.
(sparc_encode_sparclet_cpreg): Likewise.
(sparc_decode_asi): Change return type to be const.
(sparc_decode_membar, sparc_decode_prefetch): Likewise.
(sparc_decode_sparclet_cpreg): Likewise.
* m68k-dis.c (NEXTSINGLE, NEXTDOUBLE, NEXTEXTEND): Use
floatformat_to_double to make portable.
(print_insn_arg): Use NEXTEXTEND macro when extracting extended
precision float.
(OFF_SL_BR_SCALED): ... to this, and added the flag
TIC80_OPERAND_BASEREL to the flags word.
(tic80_opcodes): Replace all occurances of LSI_SCALED with
OFF_SL_BR_SCALED.
Change mips_opcodes from const array to a pointer,
and change bfd_mips_num_opcodes from const int to int,
so that we can increase the size of the mips opcodes table
dynamically.
store BITNUM values in the table in one's complement form
to match behavior when assembler is given a raw numeric
value for a BITNUM operand.
* tic80-dis.c (print_operand_bitnum): Ditto.
(tic80_opcodes): Sort entries so that long immediate forms
come after short immediate forms, making it easier for
assembler to select the right one for a given operand.
and REG_DEST_E for register operands that have to be
an even numbered register. Add REG_FPA for operands that
are one of the floating point accumulator registers.
Add TIC80_OPERAND_MASK to flags for ENDMASK operand.
(tic80_opcodes): Change entries that need even numbered
register operands to use the new operand table entries.
Add "or" entries that are identical to "or.tt" entries.
disassembler.
* mips-dis.c (print_mips16_insn_arg): Display floating point
registers in operands of exit instruction. Print `$' before
register names in operands of entry and exit instructions.
pairs for all predefined symbols recognized by the assembler.
Also used by the disassembling routines.
(tic80_symbol_to_value): New function.
(tic80_value_to_symbol): New function.
* tic80-dis.c (print_operand_control_register,
print_operand_condition_code, print_operand_bitnum):
Remove private tables and use tic80_value_to_symbol function.
coldfire moveb instruction to not allow an address register as
destination. Although the documentation does not indicate that
this is invalid, experiments uncovered unexpected behavior.
Added a comment explaining the situation. Thanks to Andreas
Schwab for pointing this out to me.
entries are presorted so that entries with the same mnemonic are
adjacent to each other in the table. Sort the entries for each
instruction so that this is true.
function up into several smaller ones and arranged for
the instruction printing function to be callable recursively
to print vector instructions that have both a load and a
math instruction packed into a single opcode.
* tic80-opc.c (tic80_opcodes): Expand comment for vld opcode
to explain why it comes after the other vector opcodes.
* m68k-opc.c (m68k_opcodes): add b, w, or l specifier to coldfire
move insns to handle immediate operands.
From Andreas Schwab:
* m68k-opc.c (m68k_opcodes): Delete duplicate entry for "cmpil".
New macros for building vector instruction opcodes.
(tic80_opcodes): Remove all uses of FMT_SI, FMT_REG, and
FMT_LI, which were unused. The field is now a flags field.
Remove some opcodes that are possible, but illegal, such
as long immediate instructions with doubles for immediate
values. Add "vadd" and "vld" instructions.
the order more logical. Move the shift alias instructions ("rotl",
"shl", "ins", "rotr", "extu", "exts", "srl", and "sra" to be
interspersed with the regular sr.x and sl.x instructions. Add
and test new instruction opcodes for "sl", "sli", "sr", "sri", "st",
"sub", "subu", "swcr", and "trap".
as floats.
* tic80-opc.c (SPFI): Add single precision floating point
immediate operand type.
(ROTATE): Add rotate operand type for shifts.
(ENDMASK): Add for shifts.
(n): Macro for the 'n' bit.
(i): Macro for the 'i' bit.
(PD): Macro for the 'PD' field.
(P2): Macro for the 'P2' field.
(P1): Macro for the 'P1' field.
(tic80_operands): Add entries for "exts", "extu", "fadd",
"fcmp", and "fdiv".
(print_insn_tic80): If R_SCALED then print ":s" modifier for operand.
* tic80-opc.c (REG0, REG22, REG27, SSOFF, LSOFF): Names
changed to REG_0, REG_22, REG_DEST, OFF_SS, OFF_SL respectively.
(SICR, LICR, REGM_SI, REGM_LI): Names changed to CR_SI, CR_LI,
REG_BASE_M_SI, REG_BASE_M_LI respectively.
(REG_SCALED, LSI_SCALED): New operand types.
(E): New macro for 'E' bit at bit 27.
(tic80_opcodes): Add and test dld, dld.u, dst, estop, and etrap
opcodes, including the various size flavors (b,h,w,d) for
the direct load and store instructions.
in an instruction.
* tic80-dis.c (print_insn_tic80): Change comma and paren handling.
Use M_SI and M_LI macros to check for ":m" modifier for GPR operands.
* tic80-opc.c (tic80_operands): Add REGM_SI and REGM_LI operands.
(F, M_REG, M_LI, M_SI, SZ_REG, SZ_LI, SZ_SI, D, S): New bit-twiddlers.
(MASK_LI_M, MASK_SI_M, MASK_REG_M): Remove and replace in opcode
masks with "MASK_* & ~M_*" to get the M bit reset.
(tic80_opcodes): Add bsr, bsr.a, cmnd, cmp, dcachec, and dcachef.
correctly. Add support for printing TIC80_OPERAND_BITNUM and
TIC80_OPERAND_CC, and TIC80_OPERAND_CR operands in symbolic
form.
* tic80-opc.c (tic80_operands): Add SSOFF, LSOFF, BITNUM,
CC, SICR, and LICR table entries.
(tic80_opcodes): Add and test "nop", "br", "bbo", "bbz",
"bcnd", and "brcr" opcodes.
actual fields (no shift field).
* sparc-opc.c (sparc_opcodes): Document why this cannot be "const".
* tic80-dis.c (print_insn_tic80): Replace abort stub with a
partial implementation, work in progress.
* tic80-opc.c (tic80_operands): Begin construction operands table.
(tic80_opcodes): Continue populating opcodes table and start
filling in the operand indices.
(tic80_num_opcodes): Add this.
* disassemble.c (ARCH_tic80): Define if ARCH_all is defined.
(disassembler): Add bfd_arch_tic80 support to set disassemble
to print_insn_tic80.
* tic80-dis.c (print_insn_tic80): Add stub.
* mips16-opc.c: New file.
* mips-dis.c: Include "elf-bfd.h" and "elf/mips.h".
(mips16_reg_names): New static array.
(print_insn_big_mips): Use print_insn_mips16 in 16 bit mode or
after seeing a 16 bit symbol.
(print_insn_little_mips): Likewise.
(print_insn_mips16): New static function.
(print_mips16_insn_arg): New static function.
* mips-opc.c: Add jalx instruction.
* Makefile.in (mips16-opc.o): New target.
* configure.in: Use mips16-opc.o for bfd_mips_arch.
* configure: Rebuild.
specifier of the effective-address operand in immediate forms of
arithmetic instructions. The specifier for the immediate operand
notes how and where the constant will be stored.
addresses symbolically if possible.
* mn10300-opc.c: Distinguish between absolute memory addresses,
pc-relative offsets & random immediates.
More disassembler work.
* mn10300-opc.c (mn10300_opcodes): Fix masks on several insns.
Selects opcodes & consumes bytes. Breaks badly if given data instead of
code. No operands yet.
in MN10300_OPERAND_SPLIT operands for how many bits
appear in the basic insn word. Add IMM32_HIGH24,
IMM32_HIGH24_LOWSHIFT8, IMM8E_SHIFT8.
(mn10300_opcodes): Use new operands as needed.
Support for everything in the basic instruction manual (yippie!)
operands. Update opcode table as appropriate.
(IMM32): Add MN10300_OPERAND_SPLIT flag.
(mn10300_opcodes): Fix single bit error in mov imm32,dn insn.
Cleaning up a little.
Attempting to insert most 32bit operands.
And a bug found by assembler testsuite.
operands (for indexed load/stores). Fix bitpos for DI
operand. Add SN8N_SHIFT8, IMM8_SHIFT8, and D16_SHIFT for the
few instructions that insert immediates/displacements in the
middle of the instruction. Add IMM8E for 8 bit immediate in
the extended part of an instruction.
(mn10300_operands): Use new opcodes as appropriate.
Opcode table changes so we can correctly insert everything except
32bit operands.
a data/address register that appears in register field 0
and register field 1.
(mn10300_opcodes): Use DN01 and AN01 for mov/cmp imm8,DN/AN
Hacking Matsushita again. Yippie!
* alpha-dis.c (print_insn_alpha): Use new NOPAL mask for
standard disassembly.
* alpha-opc.c (alpha_operands): Rearrange flags slot.
(alpha_opcodes): Add new BWX, CIX, and MAX instructions.
Recategorize PALcode instructions.
field for movhu instruction.
Bug found by gas testsuite.
* v850-dis.c (disassemble): For V850_OPERAND_SIGNED operands,
cast value to "long" not "signed long" to keep hpux10
compiler quiet.
Found in an attempt to build the v850 on hpux10 with the HP
compiler.
Fix various typos. Add "PAREN" operand.
(MEM, MEM2): Define.
(mn10300_opcodes): Surround all memory addresses with "PAREN"
operands. Fix several typos.
Should parse all opcodes in the instruction specification, except the
"user extension instructions".
(mn10300_operands): Rough cut. Enough to parse "mov" instructions
at this time.
(mn10300_opcodes): Break opcode format out into its own field.
Update many operand fields to deal with signed vs unsigned
issues. Fix one or two typos in the "mov" instruction
opcode, mask and/or operand fields.
Checkpointing today's work. Matsushita.
']' characters into the output stream.
* v850-opc.c (v850_opcodes: Remove size field from all opcodes.
Add "memop" field to all opcodes (for the disassembler).
Reorder opcodes so that "nop" comes before "mov" and "jr"
comes before "jarl".
Should give us a functional disassembler.