src/disassembler_mips.cc - platform/art - Gitiles

 /*
  * Copyright (C) 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "disassembler_mips.h"

 #include <iostream>

 #include "logging.h"
 #include "stringprintf.h"
 #include "thread.h"

 namespace art {
 namespace mips {

 struct MipsInstruction {
   uint32_t mask;
   uint32_t value;
   const char* name;
   const char* args_fmt;

   bool Matches(uint32_t instruction) const {
     return (instruction & mask) == value;
   }
 };

 static const uint32_t kOpcodeShift = 26;

 static const uint32_t kCop1 = (17 << kOpcodeShift);

 static const uint32_t kITypeMask = (0x3f << kOpcodeShift);
 static const uint32_t kJTypeMask = (0x3f << kOpcodeShift);
 static const uint32_t kRTypeMask = ((0x3f << kOpcodeShift) | (0x3f));
 static const uint32_t kSpecial2Mask = (0x3f << kOpcodeShift);
 static const uint32_t kFpMask = kRTypeMask;

 static const MipsInstruction gMipsInstructions[] = {
   // "sll r0, r0, 0" is the canonical "nop", used in delay slots.
   { 0xffffffff, 0, "nop", "" },

   // R-type instructions.
   { kRTypeMask, 0, "sll", "DTA", },
   // 0, 1, movci
   { kRTypeMask, 2, "srl", "DTA", },
   { kRTypeMask, 3, "sra", "DTA", },
   { kRTypeMask, 4, "sllv", "DTS", },
   { kRTypeMask, 6, "srlv", "DTS", },
   { kRTypeMask, 7, "srav", "DTS", },
   { kRTypeMask, 8, "jr", "S", },
   { kRTypeMask | (0x1f << 11), 9 | (31 << 11), "jalr", "S", }, // rd = 31 is implicit.
   { kRTypeMask, 9, "jalr", "DS", }, // General case.
   { kRTypeMask | (0x1f << 6), 10, "movz", "DST", },
   { kRTypeMask | (0x1f << 6), 11, "movn", "DST", },
   { kRTypeMask, 12, "syscall", "", }, // TODO: code
   { kRTypeMask, 13, "break", "", }, // TODO: code
   { kRTypeMask, 15, "sync", "", }, // TODO: type
   { kRTypeMask, 16, "mfhi", "D", },
   { kRTypeMask, 17, "mthi", "S", },
   { kRTypeMask, 18, "mflo", "D", },
   { kRTypeMask, 19, "mtlo", "S", },
   { kRTypeMask, 24, "mult", "ST", },
   { kRTypeMask, 25, "multu", "ST", },
   { kRTypeMask, 26, "div", "ST", },
   { kRTypeMask, 27, "divu", "ST", },
   { kRTypeMask, 32, "add", "DST", },
   { kRTypeMask, 33, "addu", "DST", },
   { kRTypeMask, 34, "sub", "DST", },
   { kRTypeMask, 35, "subu", "DST", },
   { kRTypeMask, 36, "and", "DST", },
   { kRTypeMask, 37, "or", "DST", },
   { kRTypeMask, 38, "xor", "DST", },
   { kRTypeMask, 39, "nor", "DST", },
   { kRTypeMask, 42, "slt", "DST", },
   { kRTypeMask, 43, "sltu", "DST", },
   // 0, 48, tge
   // 0, 49, tgeu
   // 0, 50, tlt
   // 0, 51, tltu
   // 0, 52, teq
   // 0, 54, tne

   // SPECIAL2
   { kSpecial2Mask | 0x7ff, (28 << kOpcodeShift) | 2, "mul", "DST" },
   { kSpecial2Mask | 0x7ff, (28 << kOpcodeShift) | 32, "clz", "DS" },
   { kSpecial2Mask | 0xffff, (28 << kOpcodeShift) | 0, "madd", "ST" },
   { kSpecial2Mask | 0xffff, (28 << kOpcodeShift) | 1, "maddu", "ST" },
   { kSpecial2Mask | 0xffff, (28 << kOpcodeShift) | 2, "mul", "DST" },
   { kSpecial2Mask | 0xffff, (28 << kOpcodeShift) | 4, "msub", "ST" },
   { kSpecial2Mask | 0xffff, (28 << kOpcodeShift) | 5, "msubu", "ST" },
   { kSpecial2Mask | 0x3f, (28 << kOpcodeShift) | 0x3f, "sdbbp", "" }, // TODO: code

   // J-type instructions.
   { kJTypeMask, 2 << kOpcodeShift, "j", "L" },
   { kJTypeMask, 3 << kOpcodeShift, "jal", "L" },

   // I-type instructions.
   { kITypeMask, 4 << kOpcodeShift, "beq", "STB" },
   { kITypeMask, 5 << kOpcodeShift, "bne", "STB" },
   { kITypeMask | (0x1f << 16), 1 << kOpcodeShift | (1 << 16), "bgez", "SB" },
   { kITypeMask | (0x1f << 16), 1 << kOpcodeShift | (0 << 16), "bltz", "SB" },
   { kITypeMask | (0x1f << 16), 1 << kOpcodeShift | (2 << 16), "bltzl", "SB" },
   { kITypeMask | (0x1f << 16), 1 << kOpcodeShift | (16 << 16), "bltzal", "SB" },
   { kITypeMask | (0x1f << 16), 1 << kOpcodeShift | (18 << 16), "bltzall", "SB" },
   { kITypeMask | (0x1f << 16), 6 << kOpcodeShift | (0 << 16), "blez", "SB" },
   { kITypeMask | (0x1f << 16), 7 << kOpcodeShift | (0 << 16), "bgtz", "SB" },

   { 0xffff0000, (4 << kOpcodeShift), "b", "B" },
   { 0xffff0000, (1 << kOpcodeShift) | (17 << 16), "bal", "B" },

   { kITypeMask, 8 << kOpcodeShift, "addi", "TSi", },
   { kITypeMask, 9 << kOpcodeShift, "addiu", "TSi", },
   { kITypeMask, 10 << kOpcodeShift, "slti", "TSi", },
   { kITypeMask, 11 << kOpcodeShift, "sltiu", "TSi", },
   { kITypeMask, 12 << kOpcodeShift, "andi", "TSi", },
   { kITypeMask, 13 << kOpcodeShift, "ori", "TSi", },
   { kITypeMask, 14 << kOpcodeShift, "ori", "TSi", },
   { kITypeMask, 15 << kOpcodeShift, "lui", "TI", },

   { kITypeMask, 32 << kOpcodeShift, "lb", "TO", },
   { kITypeMask, 33 << kOpcodeShift, "lh", "TO", },
   { kITypeMask, 35 << kOpcodeShift, "lw", "TO", },
   { kITypeMask, 36 << kOpcodeShift, "lbu", "TO", },
   { kITypeMask, 37 << kOpcodeShift, "lhu", "TO", },
   { kITypeMask, 40 << kOpcodeShift, "sb", "TO", },
   { kITypeMask, 41 << kOpcodeShift, "sh", "TO", },
   { kITypeMask, 43 << kOpcodeShift, "sw", "TO", },
   { kITypeMask, 49 << kOpcodeShift, "lwc1", "tO", },
   { kITypeMask, 57 << kOpcodeShift, "swc1", "tO", },

   // Floating point.
   { kFpMask,                kCop1 | 0, "add", "fdst" },
   { kFpMask,                kCop1 | 1, "sub", "fdst" },
   { kFpMask,                kCop1 | 2, "mul", "fdst" },
   { kFpMask,                kCop1 | 3, "div", "fdst" },
   { kFpMask | (0x1f << 16), kCop1 | 4, "sqrt", "fdst" },
   { kFpMask | (0x1f << 16), kCop1 | 5, "abs", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 6, "mov", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 7, "neg", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 8, "round.l", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 9, "trunc.l", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 10, "ceil.l", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 11, "floor.l", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 12, "round.w", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 13, "trunc.w", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 14, "ceil.w", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 15, "floor.w", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 32, "cvt.s", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 33, "cvt.d", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 36, "cvt.w", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 37, "cvt.l", "fds" },
   { kFpMask | (0x1f << 16), kCop1 | 38, "cvt.ps", "fds" },
 };

 static uint32_t ReadU32(const uint8_t* ptr) {
   // TODO: MIPS is bi. how do we handle that?
   return ptr[3] | (ptr[2] << 8) | (ptr[1] << 16) | (ptr[0] << 24);
   //return ptr[0] | (ptr[1] << 8) | (ptr[2] << 16) | (ptr[3] << 24);
 }

 static void DumpMips(std::ostream& os, const uint8_t* instr_ptr) {
   uint32_t instruction = ReadU32(instr_ptr);

   uint32_t rs = (instruction >> 21) & 0x1f; // I-type, R-type.
   uint32_t rt = (instruction >> 16) & 0x1f; // I-type, R-type.
   uint32_t rd = (instruction >> 11) & 0x1f; // R-type.
   uint32_t sa = (instruction >>  6) & 0x1f; // R-type.

   std::string opcode;
   std::ostringstream args;

   // TODO: remove this!
   uint32_t op = (instruction >> 26) & 0x3f;
   uint32_t function = (instruction & 0x3f); // R-type.
   opcode = StringPrintf("op=%d fn=%d", op, function);

   for (size_t i = 0; i < arraysize(gMipsInstructions); ++i) {
     if (gMipsInstructions[i].Matches(instruction)) {
       opcode = gMipsInstructions[i].name;
       for (const char* args_fmt = gMipsInstructions[i].args_fmt; *args_fmt; ++args_fmt) {
         switch (*args_fmt) {
           case 'A': // sa (shift amount).
             args << sa;
             break;
           case 'B': // Branch offset.
             {
               int32_t offset = static_cast<int16_t>(instruction & 0xffff);
               offset <<= 2;
               offset += 4; // Delay slot.
               args << StringPrintf("%p  ; %+d", instr_ptr + offset, offset);
             }
             break;
           case 'D': args << 'r' << rd; break;
           case 'd': args << 'f' << rd; break;
           case 'f': // Floating point "fmt".
             {
               size_t fmt = (instruction >> 21) & 0x7; // TODO: other fmts?
               switch (fmt) {
                 case 0: opcode += ".s"; break;
                 case 1: opcode += ".d"; break;
                 case 4: opcode += ".w"; break;
                 case 5: opcode += ".l"; break;
                 case 6: opcode += ".ps"; break;
                 default: opcode += ".?"; break;
               }
               continue; // No ", ".
             }
             break;
           case 'I': // Upper 16-bit immediate.
             args << reinterpret_cast<void*>((instruction & 0xffff) << 16);
             break;
           case 'i': // Sign-extended lower 16-bit immediate.
             args << static_cast<int16_t>(instruction & 0xffff);
             break;
           case 'L': // Jump label.
             {
               // TODO: is this right?
               uint32_t instr_index = (instruction & 0x1ffffff);
               uint32_t target = (instr_index << 2);
               target |= (reinterpret_cast<uintptr_t>(instr_ptr + 4) & 0xf0000000);
               args << reinterpret_cast<void*>(target);
             }
             break;
           case 'O': // +x(rs)
             {
               int32_t offset = static_cast<int16_t>(instruction & 0xffff);
               args << StringPrintf("%+d(r%d)", offset, rs);
               if (rs == 17) {
                 args << "  ; ";
                 Thread::DumpThreadOffset(args, offset, 4);
               }
             }
             break;
           case 'S': args << 'r' << rs; break;
           case 's': args << 'f' << rs; break;
           case 'T': args << 'r' << rt; break;
           case 't': args << 'f' << rt; break;
         }
         if (*(args_fmt + 1)) {
           args << ", ";
         }
       }
       break;
     }
   }

   os << StringPrintf("\t\t\t%p: %08x\t%-7s ", instr_ptr, instruction, opcode.c_str()) << args.str() << '\n';
 }

 DisassemblerMips::DisassemblerMips() {
 }

 void DisassemblerMips::Dump(std::ostream& os, const uint8_t* begin, const uint8_t* end) {
   for (const uint8_t* cur = begin; cur < end; cur += 4) {
     DumpMips(os, cur);
   }
 }

 }  // namespace mips
 }  // namespace art
	/*
	* Copyright (C) 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "disassembler_mips.h"

	#include <iostream>

	#include "logging.h"
	#include "stringprintf.h"
	#include "thread.h"

	namespace art {
	namespace mips {

	struct MipsInstruction {
	uint32_t mask;
	uint32_t value;
	const char* name;
	const char* args_fmt;

	bool Matches(uint32_t instruction) const {
	return (instruction & mask) == value;
	}
	};

	static const uint32_t kOpcodeShift = 26;

	static const uint32_t kCop1 = (17 << kOpcodeShift);

	static const uint32_t kITypeMask = (0x3f << kOpcodeShift);
	static const uint32_t kJTypeMask = (0x3f << kOpcodeShift);
	static const uint32_t kRTypeMask = ((0x3f << kOpcodeShift) \| (0x3f));
	static const uint32_t kSpecial2Mask = (0x3f << kOpcodeShift);
	static const uint32_t kFpMask = kRTypeMask;

	static const MipsInstruction gMipsInstructions[] = {
	// "sll r0, r0, 0" is the canonical "nop", used in delay slots.
	{ 0xffffffff, 0, "nop", "" },

	// R-type instructions.
	{ kRTypeMask, 0, "sll", "DTA", },
	// 0, 1, movci
	{ kRTypeMask, 2, "srl", "DTA", },
	{ kRTypeMask, 3, "sra", "DTA", },
	{ kRTypeMask, 4, "sllv", "DTS", },
	{ kRTypeMask, 6, "srlv", "DTS", },
	{ kRTypeMask, 7, "srav", "DTS", },
	{ kRTypeMask, 8, "jr", "S", },
	{ kRTypeMask \| (0x1f << 11), 9 \| (31 << 11), "jalr", "S", }, // rd = 31 is implicit.
	{ kRTypeMask, 9, "jalr", "DS", }, // General case.
	{ kRTypeMask \| (0x1f << 6), 10, "movz", "DST", },
	{ kRTypeMask \| (0x1f << 6), 11, "movn", "DST", },
	{ kRTypeMask, 12, "syscall", "", }, // TODO: code
	{ kRTypeMask, 13, "break", "", }, // TODO: code
	{ kRTypeMask, 15, "sync", "", }, // TODO: type
	{ kRTypeMask, 16, "mfhi", "D", },
	{ kRTypeMask, 17, "mthi", "S", },
	{ kRTypeMask, 18, "mflo", "D", },
	{ kRTypeMask, 19, "mtlo", "S", },
	{ kRTypeMask, 24, "mult", "ST", },
	{ kRTypeMask, 25, "multu", "ST", },
	{ kRTypeMask, 26, "div", "ST", },
	{ kRTypeMask, 27, "divu", "ST", },
	{ kRTypeMask, 32, "add", "DST", },
	{ kRTypeMask, 33, "addu", "DST", },
	{ kRTypeMask, 34, "sub", "DST", },
	{ kRTypeMask, 35, "subu", "DST", },
	{ kRTypeMask, 36, "and", "DST", },
	{ kRTypeMask, 37, "or", "DST", },
	{ kRTypeMask, 38, "xor", "DST", },
	{ kRTypeMask, 39, "nor", "DST", },
	{ kRTypeMask, 42, "slt", "DST", },
	{ kRTypeMask, 43, "sltu", "DST", },
	// 0, 48, tge
	// 0, 49, tgeu
	// 0, 50, tlt
	// 0, 51, tltu
	// 0, 52, teq
	// 0, 54, tne

	// SPECIAL2
	{ kSpecial2Mask \| 0x7ff, (28 << kOpcodeShift) \| 2, "mul", "DST" },
	{ kSpecial2Mask \| 0x7ff, (28 << kOpcodeShift) \| 32, "clz", "DS" },
	{ kSpecial2Mask \| 0xffff, (28 << kOpcodeShift) \| 0, "madd", "ST" },
	{ kSpecial2Mask \| 0xffff, (28 << kOpcodeShift) \| 1, "maddu", "ST" },
	{ kSpecial2Mask \| 0xffff, (28 << kOpcodeShift) \| 2, "mul", "DST" },
	{ kSpecial2Mask \| 0xffff, (28 << kOpcodeShift) \| 4, "msub", "ST" },
	{ kSpecial2Mask \| 0xffff, (28 << kOpcodeShift) \| 5, "msubu", "ST" },
	{ kSpecial2Mask \| 0x3f, (28 << kOpcodeShift) \| 0x3f, "sdbbp", "" }, // TODO: code

	// J-type instructions.
	{ kJTypeMask, 2 << kOpcodeShift, "j", "L" },
	{ kJTypeMask, 3 << kOpcodeShift, "jal", "L" },

	// I-type instructions.
	{ kITypeMask, 4 << kOpcodeShift, "beq", "STB" },
	{ kITypeMask, 5 << kOpcodeShift, "bne", "STB" },
	{ kITypeMask \| (0x1f << 16), 1 << kOpcodeShift \| (1 << 16), "bgez", "SB" },
	{ kITypeMask \| (0x1f << 16), 1 << kOpcodeShift \| (0 << 16), "bltz", "SB" },
	{ kITypeMask \| (0x1f << 16), 1 << kOpcodeShift \| (2 << 16), "bltzl", "SB" },
	{ kITypeMask \| (0x1f << 16), 1 << kOpcodeShift \| (16 << 16), "bltzal", "SB" },
	{ kITypeMask \| (0x1f << 16), 1 << kOpcodeShift \| (18 << 16), "bltzall", "SB" },
	{ kITypeMask \| (0x1f << 16), 6 << kOpcodeShift \| (0 << 16), "blez", "SB" },
	{ kITypeMask \| (0x1f << 16), 7 << kOpcodeShift \| (0 << 16), "bgtz", "SB" },

	{ 0xffff0000, (4 << kOpcodeShift), "b", "B" },
	{ 0xffff0000, (1 << kOpcodeShift) \| (17 << 16), "bal", "B" },

	{ kITypeMask, 8 << kOpcodeShift, "addi", "TSi", },
	{ kITypeMask, 9 << kOpcodeShift, "addiu", "TSi", },
	{ kITypeMask, 10 << kOpcodeShift, "slti", "TSi", },
	{ kITypeMask, 11 << kOpcodeShift, "sltiu", "TSi", },
	{ kITypeMask, 12 << kOpcodeShift, "andi", "TSi", },
	{ kITypeMask, 13 << kOpcodeShift, "ori", "TSi", },
	{ kITypeMask, 14 << kOpcodeShift, "ori", "TSi", },
	{ kITypeMask, 15 << kOpcodeShift, "lui", "TI", },

	{ kITypeMask, 32 << kOpcodeShift, "lb", "TO", },
	{ kITypeMask, 33 << kOpcodeShift, "lh", "TO", },
	{ kITypeMask, 35 << kOpcodeShift, "lw", "TO", },
	{ kITypeMask, 36 << kOpcodeShift, "lbu", "TO", },
	{ kITypeMask, 37 << kOpcodeShift, "lhu", "TO", },
	{ kITypeMask, 40 << kOpcodeShift, "sb", "TO", },
	{ kITypeMask, 41 << kOpcodeShift, "sh", "TO", },
	{ kITypeMask, 43 << kOpcodeShift, "sw", "TO", },
	{ kITypeMask, 49 << kOpcodeShift, "lwc1", "tO", },
	{ kITypeMask, 57 << kOpcodeShift, "swc1", "tO", },

	// Floating point.
	{ kFpMask, kCop1 \| 0, "add", "fdst" },
	{ kFpMask, kCop1 \| 1, "sub", "fdst" },
	{ kFpMask, kCop1 \| 2, "mul", "fdst" },
	{ kFpMask, kCop1 \| 3, "div", "fdst" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 4, "sqrt", "fdst" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 5, "abs", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 6, "mov", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 7, "neg", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 8, "round.l", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 9, "trunc.l", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 10, "ceil.l", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 11, "floor.l", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 12, "round.w", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 13, "trunc.w", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 14, "ceil.w", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 15, "floor.w", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 32, "cvt.s", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 33, "cvt.d", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 36, "cvt.w", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 37, "cvt.l", "fds" },
	{ kFpMask \| (0x1f << 16), kCop1 \| 38, "cvt.ps", "fds" },
	};

	static uint32_t ReadU32(const uint8_t* ptr) {
	// TODO: MIPS is bi. how do we handle that?
	return ptr[3] \| (ptr[2] << 8) \| (ptr[1] << 16) \| (ptr[0] << 24);
	//return ptr[0] \| (ptr[1] << 8) \| (ptr[2] << 16) \| (ptr[3] << 24);
	}

	static void DumpMips(std::ostream& os, const uint8_t* instr_ptr) {
	uint32_t instruction = ReadU32(instr_ptr);

	uint32_t rs = (instruction >> 21) & 0x1f; // I-type, R-type.
	uint32_t rt = (instruction >> 16) & 0x1f; // I-type, R-type.
	uint32_t rd = (instruction >> 11) & 0x1f; // R-type.
	uint32_t sa = (instruction >> 6) & 0x1f; // R-type.

	std::string opcode;
	std::ostringstream args;

	// TODO: remove this!
	uint32_t op = (instruction >> 26) & 0x3f;
	uint32_t function = (instruction & 0x3f); // R-type.
	opcode = StringPrintf("op=%d fn=%d", op, function);

	for (size_t i = 0; i < arraysize(gMipsInstructions); ++i) {
	if (gMipsInstructions[i].Matches(instruction)) {
	opcode = gMipsInstructions[i].name;
	for (const char* args_fmt = gMipsInstructions[i].args_fmt; *args_fmt; ++args_fmt) {
	switch (*args_fmt) {
	case 'A': // sa (shift amount).
	args << sa;
	break;
	case 'B': // Branch offset.
	{
	int32_t offset = static_cast<int16_t>(instruction & 0xffff);
	offset <<= 2;
	offset += 4; // Delay slot.
	args << StringPrintf("%p ; %+d", instr_ptr + offset, offset);
	}
	break;
	case 'D': args << 'r' << rd; break;
	case 'd': args << 'f' << rd; break;
	case 'f': // Floating point "fmt".
	{
	size_t fmt = (instruction >> 21) & 0x7; // TODO: other fmts?
	switch (fmt) {
	case 0: opcode += ".s"; break;
	case 1: opcode += ".d"; break;
	case 4: opcode += ".w"; break;
	case 5: opcode += ".l"; break;
	case 6: opcode += ".ps"; break;
	default: opcode += ".?"; break;
	}
	continue; // No ", ".
	}
	break;
	case 'I': // Upper 16-bit immediate.
	args << reinterpret_cast<void*>((instruction & 0xffff) << 16);
	break;
	case 'i': // Sign-extended lower 16-bit immediate.
	args << static_cast<int16_t>(instruction & 0xffff);
	break;
	case 'L': // Jump label.
	{
	// TODO: is this right?
	uint32_t instr_index = (instruction & 0x1ffffff);
	uint32_t target = (instr_index << 2);
	target \|= (reinterpret_cast<uintptr_t>(instr_ptr + 4) & 0xf0000000);
	args << reinterpret_cast<void*>(target);
	}
	break;
	case 'O': // +x(rs)
	{
	int32_t offset = static_cast<int16_t>(instruction & 0xffff);
	args << StringPrintf("%+d(r%d)", offset, rs);
	if (rs == 17) {
	args << " ; ";
	Thread::DumpThreadOffset(args, offset, 4);
	}
	}
	break;
	case 'S': args << 'r' << rs; break;
	case 's': args << 'f' << rs; break;
	case 'T': args << 'r' << rt; break;
	case 't': args << 'f' << rt; break;
	}
	if (*(args_fmt + 1)) {
	args << ", ";
	}
	}
	break;
	}
	}

	os << StringPrintf("\t\t\t%p: %08x\t%-7s ", instr_ptr, instruction, opcode.c_str()) << args.str() << '\n';
	}

	DisassemblerMips::DisassemblerMips() {
	}

	void DisassemblerMips::Dump(std::ostream& os, const uint8_t* begin, const uint8_t* end) {
	for (const uint8_t* cur = begin; cur < end; cur += 4) {
	DumpMips(os, cur);
	}
	}

	} // namespace mips
	} // namespace art