mirror of
https://github.com/autc04/Retro68.git
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401 lines
11 KiB
C
401 lines
11 KiB
C
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/* Disassemble V850 instructions.
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Copyright 1996, 1997, 1998, 2000, 2001, 2002, 2003, 2005, 2007
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Free Software Foundation, Inc.
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This file is part of the GNU opcodes library.
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This library is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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It is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
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License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
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MA 02110-1301, USA. */
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#include <stdio.h>
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#include "sysdep.h"
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#include "opcode/v850.h"
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#include "dis-asm.h"
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#include "opintl.h"
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static const char *const v850_reg_names[] =
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{ "r0", "r1", "r2", "sp", "gp", "r5", "r6", "r7",
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"r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15",
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"r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23",
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"r24", "r25", "r26", "r27", "r28", "r29", "ep", "lp" };
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static const char *const v850_sreg_names[] =
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{ "eipc", "eipsw", "fepc", "fepsw", "ecr", "psw", "sr6", "sr7",
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"sr8", "sr9", "sr10", "sr11", "sr12", "sr13", "sr14", "sr15",
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"ctpc", "ctpsw", "dbpc", "dbpsw", "ctbp", "sr21", "sr22", "sr23",
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"sr24", "sr25", "sr26", "sr27", "sr28", "sr29", "sr30", "sr31",
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"sr16", "sr17", "sr18", "sr19", "sr20", "sr21", "sr22", "sr23",
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"sr24", "sr25", "sr26", "sr27", "sr28", "sr29", "sr30", "sr31" };
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static const char *const v850_cc_names[] =
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{ "v", "c/l", "z", "nh", "s/n", "t", "lt", "le",
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"nv", "nc/nl", "nz", "h", "ns/p", "sa", "ge", "gt" };
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static int
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disassemble (bfd_vma memaddr,
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struct disassemble_info * info,
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unsigned long insn)
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{
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struct v850_opcode * op = (struct v850_opcode *) v850_opcodes;
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const struct v850_operand * operand;
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int match = 0;
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int short_op = ((insn & 0x0600) != 0x0600);
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int bytes_read;
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int target_processor;
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/* Special case: 32 bit MOV. */
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if ((insn & 0xffe0) == 0x0620)
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short_op = 1;
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bytes_read = short_op ? 2 : 4;
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/* If this is a two byte insn, then mask off the high bits. */
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if (short_op)
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insn &= 0xffff;
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switch (info->mach)
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{
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case 0:
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default:
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target_processor = PROCESSOR_V850;
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break;
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case bfd_mach_v850e:
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target_processor = PROCESSOR_V850E;
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break;
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case bfd_mach_v850e1:
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target_processor = PROCESSOR_V850E1;
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break;
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}
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/* Find the opcode. */
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while (op->name)
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{
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if ((op->mask & insn) == op->opcode
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&& (op->processors & target_processor))
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{
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const unsigned char *opindex_ptr;
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unsigned int opnum;
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unsigned int memop;
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match = 1;
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(*info->fprintf_func) (info->stream, "%s\t", op->name);
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memop = op->memop;
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/* Now print the operands.
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MEMOP is the operand number at which a memory
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address specification starts, or zero if this
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instruction has no memory addresses.
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A memory address is always two arguments.
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This information allows us to determine when to
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insert commas into the output stream as well as
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when to insert disp[reg] expressions onto the
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output stream. */
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for (opindex_ptr = op->operands, opnum = 1;
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*opindex_ptr != 0;
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opindex_ptr++, opnum++)
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{
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long value;
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int flag;
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int status;
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bfd_byte buffer[4];
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operand = &v850_operands[*opindex_ptr];
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if (operand->extract)
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value = (operand->extract) (insn, 0);
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else
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{
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if (operand->bits == -1)
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value = (insn & operand->shift);
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else
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value = (insn >> operand->shift) & ((1 << operand->bits) - 1);
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if (operand->flags & V850_OPERAND_SIGNED)
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value = ((long)(value << (32 - operand->bits))
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>> (32 - operand->bits));
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}
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/* The first operand is always output without any
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special handling.
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For the following arguments:
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If memop && opnum == memop + 1, then we need '[' since
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we're about to output the register used in a memory
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reference.
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If memop && opnum == memop + 2, then we need ']' since
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we just finished the register in a memory reference. We
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also need a ',' before this operand.
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Else we just need a comma.
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We may need to output a trailing ']' if the last operand
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in an instruction is the register for a memory address.
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The exception (and there's always an exception) is the
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"jmp" insn which needs square brackets around it's only
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register argument. */
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if (memop && opnum == memop + 1)
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info->fprintf_func (info->stream, "[");
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else if (memop && opnum == memop + 2)
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info->fprintf_func (info->stream, "],");
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else if (memop == 1 && opnum == 1
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&& (operand->flags & V850_OPERAND_REG))
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info->fprintf_func (info->stream, "[");
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else if (opnum > 1)
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info->fprintf_func (info->stream, ", ");
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/* Extract the flags, ignorng ones which
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do not effect disassembly output. */
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flag = operand->flags;
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flag &= ~ V850_OPERAND_SIGNED;
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flag &= ~ V850_OPERAND_RELAX;
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flag &= - flag;
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switch (flag)
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{
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case V850_OPERAND_REG:
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info->fprintf_func (info->stream, "%s", v850_reg_names[value]);
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break;
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case V850_OPERAND_SRG:
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info->fprintf_func (info->stream, "%s", v850_sreg_names[value]);
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break;
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case V850_OPERAND_CC:
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info->fprintf_func (info->stream, "%s", v850_cc_names[value]);
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break;
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case V850_OPERAND_EP:
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info->fprintf_func (info->stream, "ep");
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break;
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default:
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info->fprintf_func (info->stream, "%ld", value);
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break;
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case V850_OPERAND_DISP:
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{
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bfd_vma addr = value + memaddr;
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/* On the v850 the top 8 bits of an address are used by an
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overlay manager. Thus it may happen that when we are
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looking for a symbol to match against an address with
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some of its top bits set, the search fails to turn up an
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exact match. In this case we try to find an exact match
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against a symbol in the lower address space, and if we
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find one, we use that address. We only do this for
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JARL instructions however, as we do not want to
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misinterpret branch instructions. */
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if (operand->bits == 22)
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{
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if ( ! info->symbol_at_address_func (addr, info)
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&& ((addr & 0xFF000000) != 0)
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&& info->symbol_at_address_func (addr & 0x00FFFFFF, info))
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addr &= 0x00FFFFFF;
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}
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info->print_address_func (addr, info);
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break;
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}
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case V850E_PUSH_POP:
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{
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static int list12_regs[32] = { 30, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 31, 29, 28, 23, 22, 21, 20, 27, 26, 25, 24 };
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static int list18_h_regs[32] = { 19, 18, 17, 16, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -1, 30, 31, 29, 28, 23, 22, 21, 20, 27, 26, 25, 24 };
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static int list18_l_regs[32] = { 3, 2, 1, -2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -1, 14, 15, 13, 12, 7, 6, 5, 4, 11, 10, 9, 8 };
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int *regs;
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int i;
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unsigned long int mask = 0;
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int pc = 0;
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int sr = 0;
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switch (operand->shift)
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{
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case 0xffe00001: regs = list12_regs; break;
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case 0xfff8000f: regs = list18_h_regs; break;
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case 0xfff8001f:
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regs = list18_l_regs;
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value &= ~0x10; /* Do not include magic bit. */
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break;
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default:
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/* xgettext:c-format */
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fprintf (stderr, _("unknown operand shift: %x\n"),
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operand->shift);
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abort ();
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}
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for (i = 0; i < 32; i++)
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{
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if (value & (1 << i))
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{
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switch (regs[ i ])
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{
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default: mask |= (1 << regs[ i ]); break;
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/* xgettext:c-format */
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case 0:
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fprintf (stderr, _("unknown pop reg: %d\n"), i );
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abort ();
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case -1: pc = 1; break;
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case -2: sr = 1; break;
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}
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}
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}
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info->fprintf_func (info->stream, "{");
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if (mask || pc || sr)
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{
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if (mask)
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{
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unsigned int bit;
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int shown_one = 0;
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for (bit = 0; bit < 32; bit++)
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if (mask & (1 << bit))
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{
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unsigned long int first = bit;
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unsigned long int last;
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if (shown_one)
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info->fprintf_func (info->stream, ", ");
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else
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shown_one = 1;
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info->fprintf_func (info->stream,
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v850_reg_names[first]);
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for (bit++; bit < 32; bit++)
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if ((mask & (1 << bit)) == 0)
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break;
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last = bit;
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if (last > first + 1)
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info->fprintf_func (info->stream, " - %s",
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v850_reg_names[last - 1]);
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}
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}
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if (pc)
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info->fprintf_func (info->stream, "%sPC", mask ? ", " : "");
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if (sr)
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info->fprintf_func (info->stream, "%sSR", (mask || pc) ? ", " : "");
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}
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info->fprintf_func (info->stream, "}");
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}
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break;
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case V850E_IMMEDIATE16:
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status = info->read_memory_func (memaddr + bytes_read,
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buffer, 2, info);
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if (status == 0)
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{
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bytes_read += 2;
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value = bfd_getl16 (buffer);
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/* If this is a DISPOSE instruction with ff
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set to 0x10, then shift value up by 16. */
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if ((insn & 0x001fffc0) == 0x00130780)
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value <<= 16;
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info->fprintf_func (info->stream, "0x%lx", value);
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}
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else
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info->memory_error_func (status, memaddr + bytes_read,
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info);
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break;
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case V850E_IMMEDIATE32:
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status = info->read_memory_func (memaddr + bytes_read,
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buffer, 4, info);
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if (status == 0)
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{
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bytes_read += 4;
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value = bfd_getl32 (buffer);
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info->fprintf_func (info->stream, "0x%lx", value);
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}
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else
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info->memory_error_func (status, memaddr + bytes_read,
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info);
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break;
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}
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/* Handle jmp correctly. */
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if (memop == 1 && opnum == 1
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&& ((operand->flags & V850_OPERAND_REG) != 0))
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(*info->fprintf_func) (info->stream, "]");
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}
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/* Close any square bracket we left open. */
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if (memop && opnum == memop + 2)
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(*info->fprintf_func) (info->stream, "]");
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/* All done. */
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break;
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}
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op++;
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}
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if (!match)
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{
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if (short_op)
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info->fprintf_func (info->stream, ".short\t0x%04lx", insn);
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else
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info->fprintf_func (info->stream, ".long\t0x%08lx", insn);
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}
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return bytes_read;
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}
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int
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print_insn_v850 (bfd_vma memaddr, struct disassemble_info * info)
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{
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int status;
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bfd_byte buffer[4];
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unsigned long insn = 0;
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/* First figure out how big the opcode is. */
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status = info->read_memory_func (memaddr, buffer, 2, info);
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if (status == 0)
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{
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insn = bfd_getl16 (buffer);
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if ( (insn & 0x0600) == 0x0600
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&& (insn & 0xffe0) != 0x0620)
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{
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/* If this is a 4 byte insn, read 4 bytes of stuff. */
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status = info->read_memory_func (memaddr, buffer, 4, info);
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if (status == 0)
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insn = bfd_getl32 (buffer);
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}
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}
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if (status != 0)
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{
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info->memory_error_func (status, memaddr, info);
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return -1;
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}
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/* Make sure we tell our caller how many bytes we consumed. */
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return disassemble (memaddr, info, insn);
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}
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