| Index: src/mips/disasm-mips.cc
|
| diff --git a/src/mips/disasm-mips.cc b/src/mips/disasm-mips.cc
|
| index b7ceb2b1153d0f6b03b31f500c1902a37e7ef6cd..7df5c4175fda90f8a7737887009dc33014ff9675 100644
|
| --- a/src/mips/disasm-mips.cc
|
| +++ b/src/mips/disasm-mips.cc
|
| @@ -1,4 +1,4 @@
|
| -// Copyright 2010 the V8 project authors. All rights reserved.
|
| +// Copyright 2011 the V8 project authors. All rights reserved.
|
| // Redistribution and use in source and binary forms, with or without
|
| // modification, are permitted provided that the following conditions are
|
| // met:
|
| @@ -33,7 +33,7 @@
|
| //
|
| // NameConverter converter;
|
| // Disassembler d(converter);
|
| -// for (byte_* pc = begin; pc < end;) {
|
| +// for (byte* pc = begin; pc < end;) {
|
| // v8::internal::EmbeddedVector<char, 256> buffer;
|
| // byte* prev_pc = pc;
|
| // pc += d.InstructionDecode(buffer, pc);
|
| @@ -85,7 +85,7 @@ class Decoder {
|
|
|
| // Writes one disassembled instruction into 'buffer' (0-terminated).
|
| // Returns the length of the disassembled machine instruction in bytes.
|
| - int InstructionDecode(byte_* instruction);
|
| + int InstructionDecode(byte* instruction);
|
|
|
| private:
|
| // Bottleneck functions to print into the out_buffer.
|
| @@ -103,6 +103,8 @@ class Decoder {
|
| void PrintFd(Instruction* instr);
|
| void PrintSa(Instruction* instr);
|
| void PrintSd(Instruction* instr);
|
| + void PrintSs1(Instruction* instr);
|
| + void PrintSs2(Instruction* instr);
|
| void PrintBc(Instruction* instr);
|
| void PrintCc(Instruction* instr);
|
| void PrintFunction(Instruction* instr);
|
| @@ -212,13 +214,29 @@ void Decoder::PrintSa(Instruction* instr) {
|
| }
|
|
|
|
|
| -// Print the integer value of the rd field, (when it is not used as reg).
|
| +// Print the integer value of the rd field, when it is not used as reg.
|
| void Decoder::PrintSd(Instruction* instr) {
|
| int sd = instr->RdValue();
|
| out_buffer_pos_ += OS::SNPrintF(out_buffer_ + out_buffer_pos_, "%d", sd);
|
| }
|
|
|
|
|
| +// Print the integer value of the rd field, when used as 'ext' size.
|
| +void Decoder::PrintSs1(Instruction* instr) {
|
| + int ss = instr->RdValue();
|
| + out_buffer_pos_ += OS::SNPrintF(out_buffer_ + out_buffer_pos_, "%d", ss + 1);
|
| +}
|
| +
|
| +
|
| +// Print the integer value of the rd field, when used as 'ins' size.
|
| +void Decoder::PrintSs2(Instruction* instr) {
|
| + int ss = instr->RdValue();
|
| + int pos = instr->SaValue();
|
| + out_buffer_pos_ +=
|
| + OS::SNPrintF(out_buffer_ + out_buffer_pos_, "%d", ss - pos + 1);
|
| +}
|
| +
|
| +
|
| // Print the integer value of the cc field for the bc1t/f instructions.
|
| void Decoder::PrintBc(Instruction* instr) {
|
| int cc = instr->FBccValue();
|
| @@ -242,7 +260,7 @@ void Decoder::PrintUImm16(Instruction* instr) {
|
|
|
| // Print 16-bit signed immediate value.
|
| void Decoder::PrintSImm16(Instruction* instr) {
|
| - int32_t imm = ((instr->Imm16Value())<<16)>>16;
|
| + int32_t imm = ((instr->Imm16Value()) << 16) >> 16;
|
| out_buffer_pos_ += OS::SNPrintF(out_buffer_ + out_buffer_pos_, "%d", imm);
|
| }
|
|
|
| @@ -298,15 +316,15 @@ void Decoder::PrintInstructionName(Instruction* instr) {
|
| // complexity of FormatOption.
|
| int Decoder::FormatRegister(Instruction* instr, const char* format) {
|
| ASSERT(format[0] == 'r');
|
| - if (format[1] == 's') { // 'rs: Rs register
|
| + if (format[1] == 's') { // 'rs: Rs register.
|
| int reg = instr->RsValue();
|
| PrintRegister(reg);
|
| return 2;
|
| - } else if (format[1] == 't') { // 'rt: rt register
|
| + } else if (format[1] == 't') { // 'rt: rt register.
|
| int reg = instr->RtValue();
|
| PrintRegister(reg);
|
| return 2;
|
| - } else if (format[1] == 'd') { // 'rd: rd register
|
| + } else if (format[1] == 'd') { // 'rd: rd register.
|
| int reg = instr->RdValue();
|
| PrintRegister(reg);
|
| return 2;
|
| @@ -320,15 +338,15 @@ int Decoder::FormatRegister(Instruction* instr, const char* format) {
|
| // complexity of FormatOption.
|
| int Decoder::FormatFPURegister(Instruction* instr, const char* format) {
|
| ASSERT(format[0] == 'f');
|
| - if (format[1] == 's') { // 'fs: fs register
|
| + if (format[1] == 's') { // 'fs: fs register.
|
| int reg = instr->FsValue();
|
| PrintFPURegister(reg);
|
| return 2;
|
| - } else if (format[1] == 't') { // 'ft: ft register
|
| + } else if (format[1] == 't') { // 'ft: ft register.
|
| int reg = instr->FtValue();
|
| PrintFPURegister(reg);
|
| return 2;
|
| - } else if (format[1] == 'd') { // 'fd: fd register
|
| + } else if (format[1] == 'd') { // 'fd: fd register.
|
| int reg = instr->FdValue();
|
| PrintFPURegister(reg);
|
| return 2;
|
| @@ -345,12 +363,12 @@ int Decoder::FormatFPURegister(Instruction* instr, const char* format) {
|
| // characters that were consumed from the formatting string.
|
| int Decoder::FormatOption(Instruction* instr, const char* format) {
|
| switch (format[0]) {
|
| - case 'c': { // 'code for break or trap instructions
|
| + case 'c': { // 'code for break or trap instructions.
|
| ASSERT(STRING_STARTS_WITH(format, "code"));
|
| PrintCode(instr);
|
| return 4;
|
| }
|
| - case 'i': { // 'imm16u or 'imm26
|
| + case 'i': { // 'imm16u or 'imm26.
|
| if (format[3] == '1') {
|
| ASSERT(STRING_STARTS_WITH(format, "imm16"));
|
| if (format[5] == 's') {
|
| @@ -370,13 +388,13 @@ int Decoder::FormatOption(Instruction* instr, const char* format) {
|
| return 5;
|
| }
|
| }
|
| - case 'r': { // 'r: registers
|
| + case 'r': { // 'r: registers.
|
| return FormatRegister(instr, format);
|
| }
|
| - case 'f': { // 'f: FPUregisters
|
| + case 'f': { // 'f: FPUregisters.
|
| return FormatFPURegister(instr, format);
|
| }
|
| - case 's': { // 'sa
|
| + case 's': { // 'sa.
|
| switch (format[1]) {
|
| case 'a': {
|
| ASSERT(STRING_STARTS_WITH(format, "sa"));
|
| @@ -388,6 +406,17 @@ int Decoder::FormatOption(Instruction* instr, const char* format) {
|
| PrintSd(instr);
|
| return 2;
|
| }
|
| + case 's': {
|
| + if (format[2] == '1') {
|
| + ASSERT(STRING_STARTS_WITH(format, "ss1")); /* ext size */
|
| + PrintSs1(instr);
|
| + return 3;
|
| + } else {
|
| + ASSERT(STRING_STARTS_WITH(format, "ss2")); /* ins size */
|
| + PrintSs2(instr);
|
| + return 3;
|
| + }
|
| + }
|
| }
|
| }
|
| case 'b': { // 'bc - Special for bc1 cc field.
|
| @@ -432,29 +461,29 @@ void Decoder::Unknown(Instruction* instr) {
|
|
|
| void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| switch (instr->OpcodeFieldRaw()) {
|
| - case COP1: // Coprocessor instructions
|
| + case COP1: // Coprocessor instructions.
|
| switch (instr->RsFieldRaw()) {
|
| case BC1: // bc1 handled in DecodeTypeImmediate.
|
| UNREACHABLE();
|
| break;
|
| case MFC1:
|
| - Format(instr, "mfc1 'rt, 'fs");
|
| + Format(instr, "mfc1 'rt, 'fs");
|
| break;
|
| case MFHC1:
|
| - Format(instr, "mfhc1 'rt, 'fs");
|
| + Format(instr, "mfhc1 'rt, 'fs");
|
| break;
|
| case MTC1:
|
| - Format(instr, "mtc1 'rt, 'fs");
|
| + Format(instr, "mtc1 'rt, 'fs");
|
| break;
|
| // These are called "fs" too, although they are not FPU registers.
|
| case CTC1:
|
| - Format(instr, "ctc1 'rt, 'fs");
|
| + Format(instr, "ctc1 'rt, 'fs");
|
| break;
|
| case CFC1:
|
| - Format(instr, "cfc1 'rt, 'fs");
|
| + Format(instr, "cfc1 'rt, 'fs");
|
| break;
|
| case MTHC1:
|
| - Format(instr, "mthc1 'rt, 'fs");
|
| + Format(instr, "mthc1 'rt, 'fs");
|
| break;
|
| case D:
|
| switch (instr->FunctionFieldRaw()) {
|
| @@ -480,7 +509,7 @@ void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| Format(instr, "neg.d 'fd, 'fs");
|
| break;
|
| case SQRT_D:
|
| - Format(instr, "sqrt.d 'fd, 'fs");
|
| + Format(instr, "sqrt.d 'fd, 'fs");
|
| break;
|
| case CVT_W_D:
|
| Format(instr, "cvt.w.d 'fd, 'fs");
|
| @@ -592,134 +621,134 @@ void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| case SPECIAL:
|
| switch (instr->FunctionFieldRaw()) {
|
| case JR:
|
| - Format(instr, "jr 'rs");
|
| + Format(instr, "jr 'rs");
|
| break;
|
| case JALR:
|
| - Format(instr, "jalr 'rs");
|
| + Format(instr, "jalr 'rs");
|
| break;
|
| case SLL:
|
| if ( 0x0 == static_cast<int>(instr->InstructionBits()))
|
| Format(instr, "nop");
|
| else
|
| - Format(instr, "sll 'rd, 'rt, 'sa");
|
| + Format(instr, "sll 'rd, 'rt, 'sa");
|
| break;
|
| case SRL:
|
| if (instr->RsValue() == 0) {
|
| - Format(instr, "srl 'rd, 'rt, 'sa");
|
| + Format(instr, "srl 'rd, 'rt, 'sa");
|
| } else {
|
| if (mips32r2) {
|
| - Format(instr, "rotr 'rd, 'rt, 'sa");
|
| + Format(instr, "rotr 'rd, 'rt, 'sa");
|
| } else {
|
| Unknown(instr);
|
| }
|
| }
|
| break;
|
| case SRA:
|
| - Format(instr, "sra 'rd, 'rt, 'sa");
|
| + Format(instr, "sra 'rd, 'rt, 'sa");
|
| break;
|
| case SLLV:
|
| - Format(instr, "sllv 'rd, 'rt, 'rs");
|
| + Format(instr, "sllv 'rd, 'rt, 'rs");
|
| break;
|
| case SRLV:
|
| if (instr->SaValue() == 0) {
|
| - Format(instr, "srlv 'rd, 'rt, 'rs");
|
| + Format(instr, "srlv 'rd, 'rt, 'rs");
|
| } else {
|
| if (mips32r2) {
|
| - Format(instr, "rotrv 'rd, 'rt, 'rs");
|
| + Format(instr, "rotrv 'rd, 'rt, 'rs");
|
| } else {
|
| Unknown(instr);
|
| }
|
| }
|
| break;
|
| case SRAV:
|
| - Format(instr, "srav 'rd, 'rt, 'rs");
|
| + Format(instr, "srav 'rd, 'rt, 'rs");
|
| break;
|
| case MFHI:
|
| - Format(instr, "mfhi 'rd");
|
| + Format(instr, "mfhi 'rd");
|
| break;
|
| case MFLO:
|
| - Format(instr, "mflo 'rd");
|
| + Format(instr, "mflo 'rd");
|
| break;
|
| case MULT:
|
| - Format(instr, "mult 'rs, 'rt");
|
| + Format(instr, "mult 'rs, 'rt");
|
| break;
|
| case MULTU:
|
| - Format(instr, "multu 'rs, 'rt");
|
| + Format(instr, "multu 'rs, 'rt");
|
| break;
|
| case DIV:
|
| - Format(instr, "div 'rs, 'rt");
|
| + Format(instr, "div 'rs, 'rt");
|
| break;
|
| case DIVU:
|
| - Format(instr, "divu 'rs, 'rt");
|
| + Format(instr, "divu 'rs, 'rt");
|
| break;
|
| case ADD:
|
| - Format(instr, "add 'rd, 'rs, 'rt");
|
| + Format(instr, "add 'rd, 'rs, 'rt");
|
| break;
|
| case ADDU:
|
| - Format(instr, "addu 'rd, 'rs, 'rt");
|
| + Format(instr, "addu 'rd, 'rs, 'rt");
|
| break;
|
| case SUB:
|
| - Format(instr, "sub 'rd, 'rs, 'rt");
|
| + Format(instr, "sub 'rd, 'rs, 'rt");
|
| break;
|
| case SUBU:
|
| - Format(instr, "sub 'rd, 'rs, 'rt");
|
| + Format(instr, "subu 'rd, 'rs, 'rt");
|
| break;
|
| case AND:
|
| - Format(instr, "and 'rd, 'rs, 'rt");
|
| + Format(instr, "and 'rd, 'rs, 'rt");
|
| break;
|
| case OR:
|
| if (0 == instr->RsValue()) {
|
| - Format(instr, "mov 'rd, 'rt");
|
| + Format(instr, "mov 'rd, 'rt");
|
| } else if (0 == instr->RtValue()) {
|
| - Format(instr, "mov 'rd, 'rs");
|
| + Format(instr, "mov 'rd, 'rs");
|
| } else {
|
| - Format(instr, "or 'rd, 'rs, 'rt");
|
| + Format(instr, "or 'rd, 'rs, 'rt");
|
| }
|
| break;
|
| case XOR:
|
| - Format(instr, "xor 'rd, 'rs, 'rt");
|
| + Format(instr, "xor 'rd, 'rs, 'rt");
|
| break;
|
| case NOR:
|
| - Format(instr, "nor 'rd, 'rs, 'rt");
|
| + Format(instr, "nor 'rd, 'rs, 'rt");
|
| break;
|
| case SLT:
|
| - Format(instr, "slt 'rd, 'rs, 'rt");
|
| + Format(instr, "slt 'rd, 'rs, 'rt");
|
| break;
|
| case SLTU:
|
| - Format(instr, "sltu 'rd, 'rs, 'rt");
|
| + Format(instr, "sltu 'rd, 'rs, 'rt");
|
| break;
|
| case BREAK:
|
| Format(instr, "break, code: 'code");
|
| break;
|
| case TGE:
|
| - Format(instr, "tge 'rs, 'rt, code: 'code");
|
| + Format(instr, "tge 'rs, 'rt, code: 'code");
|
| break;
|
| case TGEU:
|
| - Format(instr, "tgeu 'rs, 'rt, code: 'code");
|
| + Format(instr, "tgeu 'rs, 'rt, code: 'code");
|
| break;
|
| case TLT:
|
| - Format(instr, "tlt 'rs, 'rt, code: 'code");
|
| + Format(instr, "tlt 'rs, 'rt, code: 'code");
|
| break;
|
| case TLTU:
|
| - Format(instr, "tltu 'rs, 'rt, code: 'code");
|
| + Format(instr, "tltu 'rs, 'rt, code: 'code");
|
| break;
|
| case TEQ:
|
| - Format(instr, "teq 'rs, 'rt, code: 'code");
|
| + Format(instr, "teq 'rs, 'rt, code: 'code");
|
| break;
|
| case TNE:
|
| - Format(instr, "tne 'rs, 'rt, code: 'code");
|
| + Format(instr, "tne 'rs, 'rt, code: 'code");
|
| break;
|
| case MOVZ:
|
| - Format(instr, "movz 'rd, 'rs, 'rt");
|
| + Format(instr, "movz 'rd, 'rs, 'rt");
|
| break;
|
| case MOVN:
|
| - Format(instr, "movn 'rd, 'rs, 'rt");
|
| + Format(instr, "movn 'rd, 'rs, 'rt");
|
| break;
|
| case MOVCI:
|
| if (instr->Bit(16)) {
|
| - Format(instr, "movt 'rd, 'rs, 'Cc");
|
| + Format(instr, "movt 'rd, 'rs, 'bc");
|
| } else {
|
| - Format(instr, "movf 'rd, 'rs, 'Cc");
|
| + Format(instr, "movf 'rd, 'rs, 'bc");
|
| }
|
| break;
|
| default:
|
| @@ -729,10 +758,10 @@ void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| case SPECIAL2:
|
| switch (instr->FunctionFieldRaw()) {
|
| case MUL:
|
| - Format(instr, "mul 'rd, 'rs, 'rt");
|
| + Format(instr, "mul 'rd, 'rs, 'rt");
|
| break;
|
| case CLZ:
|
| - Format(instr, "clz 'rd, 'rs");
|
| + Format(instr, "clz 'rd, 'rs");
|
| break;
|
| default:
|
| UNREACHABLE();
|
| @@ -742,7 +771,7 @@ void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| switch (instr->FunctionFieldRaw()) {
|
| case INS: {
|
| if (mips32r2) {
|
| - Format(instr, "ins 'rt, 'rs, 'sd, 'sa");
|
| + Format(instr, "ins 'rt, 'rs, 'sa, 'ss2");
|
| } else {
|
| Unknown(instr);
|
| }
|
| @@ -750,7 +779,7 @@ void Decoder::DecodeTypeRegister(Instruction* instr) {
|
| }
|
| case EXT: {
|
| if (mips32r2) {
|
| - Format(instr, "ext 'rt, 'rs, 'sd, 'sa");
|
| + Format(instr, "ext 'rt, 'rs, 'sa, 'ss1");
|
| } else {
|
| Unknown(instr);
|
| }
|
| @@ -785,16 +814,16 @@ void Decoder::DecodeTypeImmediate(Instruction* instr) {
|
| case REGIMM:
|
| switch (instr->RtFieldRaw()) {
|
| case BLTZ:
|
| - Format(instr, "bltz 'rs, 'imm16u");
|
| + Format(instr, "bltz 'rs, 'imm16u");
|
| break;
|
| case BLTZAL:
|
| - Format(instr, "bltzal 'rs, 'imm16u");
|
| + Format(instr, "bltzal 'rs, 'imm16u");
|
| break;
|
| case BGEZ:
|
| - Format(instr, "bgez 'rs, 'imm16u");
|
| + Format(instr, "bgez 'rs, 'imm16u");
|
| break;
|
| case BGEZAL:
|
| - Format(instr, "bgezal 'rs, 'imm16u");
|
| + Format(instr, "bgezal 'rs, 'imm16u");
|
| break;
|
| default:
|
| UNREACHABLE();
|
| @@ -802,90 +831,90 @@ void Decoder::DecodeTypeImmediate(Instruction* instr) {
|
| break; // Case REGIMM.
|
| // ------------- Branch instructions.
|
| case BEQ:
|
| - Format(instr, "beq 'rs, 'rt, 'imm16u");
|
| + Format(instr, "beq 'rs, 'rt, 'imm16u");
|
| break;
|
| case BNE:
|
| - Format(instr, "bne 'rs, 'rt, 'imm16u");
|
| + Format(instr, "bne 'rs, 'rt, 'imm16u");
|
| break;
|
| case BLEZ:
|
| - Format(instr, "blez 'rs, 'imm16u");
|
| + Format(instr, "blez 'rs, 'imm16u");
|
| break;
|
| case BGTZ:
|
| - Format(instr, "bgtz 'rs, 'imm16u");
|
| + Format(instr, "bgtz 'rs, 'imm16u");
|
| break;
|
| // ------------- Arithmetic instructions.
|
| case ADDI:
|
| - Format(instr, "addi 'rt, 'rs, 'imm16s");
|
| + Format(instr, "addi 'rt, 'rs, 'imm16s");
|
| break;
|
| case ADDIU:
|
| - Format(instr, "addiu 'rt, 'rs, 'imm16s");
|
| + Format(instr, "addiu 'rt, 'rs, 'imm16s");
|
| break;
|
| case SLTI:
|
| - Format(instr, "slti 'rt, 'rs, 'imm16s");
|
| + Format(instr, "slti 'rt, 'rs, 'imm16s");
|
| break;
|
| case SLTIU:
|
| - Format(instr, "sltiu 'rt, 'rs, 'imm16u");
|
| + Format(instr, "sltiu 'rt, 'rs, 'imm16u");
|
| break;
|
| case ANDI:
|
| - Format(instr, "andi 'rt, 'rs, 'imm16x");
|
| + Format(instr, "andi 'rt, 'rs, 'imm16x");
|
| break;
|
| case ORI:
|
| - Format(instr, "ori 'rt, 'rs, 'imm16x");
|
| + Format(instr, "ori 'rt, 'rs, 'imm16x");
|
| break;
|
| case XORI:
|
| - Format(instr, "xori 'rt, 'rs, 'imm16x");
|
| + Format(instr, "xori 'rt, 'rs, 'imm16x");
|
| break;
|
| case LUI:
|
| - Format(instr, "lui 'rt, 'imm16x");
|
| + Format(instr, "lui 'rt, 'imm16x");
|
| break;
|
| // ------------- Memory instructions.
|
| case LB:
|
| - Format(instr, "lb 'rt, 'imm16s('rs)");
|
| + Format(instr, "lb 'rt, 'imm16s('rs)");
|
| break;
|
| case LH:
|
| - Format(instr, "lh 'rt, 'imm16s('rs)");
|
| + Format(instr, "lh 'rt, 'imm16s('rs)");
|
| break;
|
| case LWL:
|
| - Format(instr, "lwl 'rt, 'imm16s('rs)");
|
| + Format(instr, "lwl 'rt, 'imm16s('rs)");
|
| break;
|
| case LW:
|
| - Format(instr, "lw 'rt, 'imm16s('rs)");
|
| + Format(instr, "lw 'rt, 'imm16s('rs)");
|
| break;
|
| case LBU:
|
| - Format(instr, "lbu 'rt, 'imm16s('rs)");
|
| + Format(instr, "lbu 'rt, 'imm16s('rs)");
|
| break;
|
| case LHU:
|
| - Format(instr, "lhu 'rt, 'imm16s('rs)");
|
| + Format(instr, "lhu 'rt, 'imm16s('rs)");
|
| break;
|
| case LWR:
|
| - Format(instr, "lwr 'rt, 'imm16s('rs)");
|
| + Format(instr, "lwr 'rt, 'imm16s('rs)");
|
| break;
|
| case SB:
|
| - Format(instr, "sb 'rt, 'imm16s('rs)");
|
| + Format(instr, "sb 'rt, 'imm16s('rs)");
|
| break;
|
| case SH:
|
| - Format(instr, "sh 'rt, 'imm16s('rs)");
|
| + Format(instr, "sh 'rt, 'imm16s('rs)");
|
| break;
|
| case SWL:
|
| - Format(instr, "swl 'rt, 'imm16s('rs)");
|
| + Format(instr, "swl 'rt, 'imm16s('rs)");
|
| break;
|
| case SW:
|
| - Format(instr, "sw 'rt, 'imm16s('rs)");
|
| + Format(instr, "sw 'rt, 'imm16s('rs)");
|
| break;
|
| case SWR:
|
| - Format(instr, "swr 'rt, 'imm16s('rs)");
|
| + Format(instr, "swr 'rt, 'imm16s('rs)");
|
| break;
|
| case LWC1:
|
| - Format(instr, "lwc1 'ft, 'imm16s('rs)");
|
| + Format(instr, "lwc1 'ft, 'imm16s('rs)");
|
| break;
|
| case LDC1:
|
| - Format(instr, "ldc1 'ft, 'imm16s('rs)");
|
| + Format(instr, "ldc1 'ft, 'imm16s('rs)");
|
| break;
|
| case SWC1:
|
| - Format(instr, "swc1 'ft, 'imm16s('rs)");
|
| + Format(instr, "swc1 'ft, 'imm16s('rs)");
|
| break;
|
| case SDC1:
|
| - Format(instr, "sdc1 'ft, 'imm16s('rs)");
|
| + Format(instr, "sdc1 'ft, 'imm16s('rs)");
|
| break;
|
| default:
|
| UNREACHABLE();
|
| @@ -897,10 +926,10 @@ void Decoder::DecodeTypeImmediate(Instruction* instr) {
|
| void Decoder::DecodeTypeJump(Instruction* instr) {
|
| switch (instr->OpcodeFieldRaw()) {
|
| case J:
|
| - Format(instr, "j 'imm26");
|
| + Format(instr, "j 'imm26");
|
| break;
|
| case JAL:
|
| - Format(instr, "jal 'imm26");
|
| + Format(instr, "jal 'imm26");
|
| break;
|
| default:
|
| UNREACHABLE();
|
| @@ -909,7 +938,7 @@ void Decoder::DecodeTypeJump(Instruction* instr) {
|
|
|
|
|
| // Disassemble the instruction at *instr_ptr into the output buffer.
|
| -int Decoder::InstructionDecode(byte_* instr_ptr) {
|
| +int Decoder::InstructionDecode(byte* instr_ptr) {
|
| Instruction* instr = Instruction::At(instr_ptr);
|
| // Print raw instruction bytes.
|
| out_buffer_pos_ += OS::SNPrintF(out_buffer_ + out_buffer_pos_,
|
| @@ -944,15 +973,13 @@ int Decoder::InstructionDecode(byte_* instr_ptr) {
|
|
|
| namespace disasm {
|
|
|
| -using v8::internal::byte_;
|
| -
|
| -const char* NameConverter::NameOfAddress(byte_* addr) const {
|
| +const char* NameConverter::NameOfAddress(byte* addr) const {
|
| v8::internal::OS::SNPrintF(tmp_buffer_, "%p", addr);
|
| return tmp_buffer_.start();
|
| }
|
|
|
|
|
| -const char* NameConverter::NameOfConstant(byte_* addr) const {
|
| +const char* NameConverter::NameOfConstant(byte* addr) const {
|
| return NameOfAddress(addr);
|
| }
|
|
|
| @@ -968,12 +995,12 @@ const char* NameConverter::NameOfXMMRegister(int reg) const {
|
|
|
|
|
| const char* NameConverter::NameOfByteCPURegister(int reg) const {
|
| - UNREACHABLE(); // MIPS does not have the concept of a byte register
|
| + UNREACHABLE(); // MIPS does not have the concept of a byte register.
|
| return "nobytereg";
|
| }
|
|
|
|
|
| -const char* NameConverter::NameInCode(byte_* addr) const {
|
| +const char* NameConverter::NameInCode(byte* addr) const {
|
| // The default name converter is called for unknown code. So we will not try
|
| // to access any memory.
|
| return "";
|
| @@ -990,25 +1017,25 @@ Disassembler::~Disassembler() {}
|
|
|
|
|
| int Disassembler::InstructionDecode(v8::internal::Vector<char> buffer,
|
| - byte_* instruction) {
|
| + byte* instruction) {
|
| v8::internal::Decoder d(converter_, buffer);
|
| return d.InstructionDecode(instruction);
|
| }
|
|
|
|
|
| // The MIPS assembler does not currently use constant pools.
|
| -int Disassembler::ConstantPoolSizeAt(byte_* instruction) {
|
| +int Disassembler::ConstantPoolSizeAt(byte* instruction) {
|
| return -1;
|
| }
|
|
|
|
|
| -void Disassembler::Disassemble(FILE* f, byte_* begin, byte_* end) {
|
| +void Disassembler::Disassemble(FILE* f, byte* begin, byte* end) {
|
| NameConverter converter;
|
| Disassembler d(converter);
|
| - for (byte_* pc = begin; pc < end;) {
|
| + for (byte* pc = begin; pc < end;) {
|
| v8::internal::EmbeddedVector<char, 128> buffer;
|
| buffer[0] = '\0';
|
| - byte_* prev_pc = pc;
|
| + byte* prev_pc = pc;
|
| pc += d.InstructionDecode(buffer, pc);
|
| fprintf(f, "%p %08x %s\n",
|
| prev_pc, *reinterpret_cast<int32_t*>(prev_pc), buffer.start());
|
|
|
Chromium Code Reviews
Issue 6965006:
Update mips infrastructure files. (Closed)
Base URL: http://github.com/v8/v8.git@bleeding_edge