/* * Copyright (C) 2011 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. */ #ifndef ART_RUNTIME_DEX_INSTRUCTION_INL_H_ #define ART_RUNTIME_DEX_INSTRUCTION_INL_H_ #include "dex_instruction.h" namespace art { //------------------------------------------------------------------------------ // VRegA //------------------------------------------------------------------------------ inline bool Instruction::HasVRegA() const { switch (FormatOf(Opcode())) { case k10t: return true; case k10x: return true; case k11n: return true; case k11x: return true; case k12x: return true; case k20t: return true; case k21c: return true; case k21h: return true; case k21s: return true; case k21t: return true; case k22b: return true; case k22c: return true; case k22s: return true; case k22t: return true; case k22x: return true; case k23x: return true; case k30t: return true; case k31c: return true; case k31i: return true; case k31t: return true; case k32x: return true; case k35c: return true; case k3rc: return true; case k51l: return true; default: return false; } } inline int32_t Instruction::VRegA() const { switch (FormatOf(Opcode())) { case k10t: return VRegA_10t(); case k10x: return VRegA_10x(); case k11n: return VRegA_11n(); case k11x: return VRegA_11x(); case k12x: return VRegA_12x(); case k20t: return VRegA_20t(); case k21c: return VRegA_21c(); case k21h: return VRegA_21h(); case k21s: return VRegA_21s(); case k21t: return VRegA_21t(); case k22b: return VRegA_22b(); case k22c: return VRegA_22c(); case k22s: return VRegA_22s(); case k22t: return VRegA_22t(); case k22x: return VRegA_22x(); case k23x: return VRegA_23x(); case k30t: return VRegA_30t(); case k31c: return VRegA_31c(); case k31i: return VRegA_31i(); case k31t: return VRegA_31t(); case k32x: return VRegA_32x(); case k35c: return VRegA_35c(); case k3rc: return VRegA_3rc(); case k51l: return VRegA_51l(); default: LOG(FATAL) << "Tried to access vA of instruction " << Name() << " which has no A operand."; exit(EXIT_FAILURE); } } inline int8_t Instruction::VRegA_10t(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k10t); return static_cast<int8_t>(InstAA(inst_data)); } inline uint8_t Instruction::VRegA_10x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k10x); return InstAA(inst_data); } inline uint4_t Instruction::VRegA_11n(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k11n); return InstA(inst_data); } inline uint8_t Instruction::VRegA_11x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k11x); return InstAA(inst_data); } inline uint4_t Instruction::VRegA_12x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k12x); return InstA(inst_data); } inline int16_t Instruction::VRegA_20t() const { DCHECK_EQ(FormatOf(Opcode()), k20t); return static_cast<int16_t>(Fetch16(1)); } inline uint8_t Instruction::VRegA_21c(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k21c); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_21h(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k21h); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_21s(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k21s); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_21t(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k21t); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_22b(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22b); return InstAA(inst_data); } inline uint4_t Instruction::VRegA_22c(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22c); return InstA(inst_data); } inline uint4_t Instruction::VRegA_22s(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22s); return InstA(inst_data); } inline uint4_t Instruction::VRegA_22t(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22t); return InstA(inst_data); } inline uint8_t Instruction::VRegA_22x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22x); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_23x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k23x); return InstAA(inst_data); } inline int32_t Instruction::VRegA_30t() const { DCHECK_EQ(FormatOf(Opcode()), k30t); return static_cast<int32_t>(Fetch32(1)); } inline uint8_t Instruction::VRegA_31c(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k31c); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_31i(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k31i); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_31t(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k31t); return InstAA(inst_data); } inline uint16_t Instruction::VRegA_32x() const { DCHECK_EQ(FormatOf(Opcode()), k32x); return Fetch16(1); } inline uint4_t Instruction::VRegA_35c(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k35c); return InstB(inst_data); // This is labeled A in the spec. } inline uint8_t Instruction::VRegA_3rc(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k3rc); return InstAA(inst_data); } inline uint8_t Instruction::VRegA_51l(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k51l); return InstAA(inst_data); } //------------------------------------------------------------------------------ // VRegB //------------------------------------------------------------------------------ inline bool Instruction::HasVRegB() const { switch (FormatOf(Opcode())) { case k11n: return true; case k12x: return true; case k21c: return true; case k21h: return true; case k21s: return true; case k21t: return true; case k22b: return true; case k22c: return true; case k22s: return true; case k22t: return true; case k22x: return true; case k23x: return true; case k31c: return true; case k31i: return true; case k31t: return true; case k32x: return true; case k35c: return true; case k3rc: return true; case k51l: return true; default: return false; } } inline bool Instruction::HasWideVRegB() const { return FormatOf(Opcode()) == k51l; } inline int32_t Instruction::VRegB() const { switch (FormatOf(Opcode())) { case k11n: return VRegB_11n(); case k12x: return VRegB_12x(); case k21c: return VRegB_21c(); case k21h: return VRegB_21h(); case k21s: return VRegB_21s(); case k21t: return VRegB_21t(); case k22b: return VRegB_22b(); case k22c: return VRegB_22c(); case k22s: return VRegB_22s(); case k22t: return VRegB_22t(); case k22x: return VRegB_22x(); case k23x: return VRegB_23x(); case k31c: return VRegB_31c(); case k31i: return VRegB_31i(); case k31t: return VRegB_31t(); case k32x: return VRegB_32x(); case k35c: return VRegB_35c(); case k3rc: return VRegB_3rc(); case k51l: return VRegB_51l(); default: LOG(FATAL) << "Tried to access vB of instruction " << Name() << " which has no B operand."; exit(EXIT_FAILURE); } } inline uint64_t Instruction::WideVRegB() const { return VRegB_51l(); } inline int4_t Instruction::VRegB_11n(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k11n); return static_cast<int4_t>((InstB(inst_data) << 28) >> 28); } inline uint4_t Instruction::VRegB_12x(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k12x); return InstB(inst_data); } inline uint16_t Instruction::VRegB_21c() const { DCHECK_EQ(FormatOf(Opcode()), k21c); return Fetch16(1); } inline uint16_t Instruction::VRegB_21h() const { DCHECK_EQ(FormatOf(Opcode()), k21h); return Fetch16(1); } inline int16_t Instruction::VRegB_21s() const { DCHECK_EQ(FormatOf(Opcode()), k21s); return static_cast<int16_t>(Fetch16(1)); } inline int16_t Instruction::VRegB_21t() const { DCHECK_EQ(FormatOf(Opcode()), k21t); return static_cast<int16_t>(Fetch16(1)); } inline uint8_t Instruction::VRegB_22b() const { DCHECK_EQ(FormatOf(Opcode()), k22b); return static_cast<uint8_t>(Fetch16(1) & 0xff); } inline uint4_t Instruction::VRegB_22c(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22c); return InstB(inst_data); } inline uint4_t Instruction::VRegB_22s(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22s); return InstB(inst_data); } inline uint4_t Instruction::VRegB_22t(uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k22t); return InstB(inst_data); } inline uint16_t Instruction::VRegB_22x() const { DCHECK_EQ(FormatOf(Opcode()), k22x); return Fetch16(1); } inline uint8_t Instruction::VRegB_23x() const { DCHECK_EQ(FormatOf(Opcode()), k23x); return static_cast<uint8_t>(Fetch16(1) & 0xff); } inline uint32_t Instruction::VRegB_31c() const { DCHECK_EQ(FormatOf(Opcode()), k31c); return Fetch32(1); } inline int32_t Instruction::VRegB_31i() const { DCHECK_EQ(FormatOf(Opcode()), k31i); return static_cast<int32_t>(Fetch32(1)); } inline int32_t Instruction::VRegB_31t() const { DCHECK_EQ(FormatOf(Opcode()), k31t); return static_cast<int32_t>(Fetch32(1)); } inline uint16_t Instruction::VRegB_32x() const { DCHECK_EQ(FormatOf(Opcode()), k32x); return Fetch16(2); } inline uint16_t Instruction::VRegB_35c() const { DCHECK_EQ(FormatOf(Opcode()), k35c); return Fetch16(1); } inline uint16_t Instruction::VRegB_3rc() const { DCHECK_EQ(FormatOf(Opcode()), k3rc); return Fetch16(1); } inline uint64_t Instruction::VRegB_51l() const { DCHECK_EQ(FormatOf(Opcode()), k51l); uint64_t vB_wide = Fetch32(1) | ((uint64_t) Fetch32(3) << 32); return vB_wide; } //------------------------------------------------------------------------------ // VRegC //------------------------------------------------------------------------------ inline bool Instruction::HasVRegC() const { switch (FormatOf(Opcode())) { case k22b: return true; case k22c: return true; case k22s: return true; case k22t: return true; case k23x: return true; case k35c: return true; case k3rc: return true; default: return false; } } inline int32_t Instruction::VRegC() const { switch (FormatOf(Opcode())) { case k22b: return VRegC_22b(); case k22c: return VRegC_22c(); case k22s: return VRegC_22s(); case k22t: return VRegC_22t(); case k23x: return VRegC_23x(); case k35c: return VRegC_35c(); case k3rc: return VRegC_3rc(); default: LOG(FATAL) << "Tried to access vC of instruction " << Name() << " which has no C operand."; exit(EXIT_FAILURE); } } inline int8_t Instruction::VRegC_22b() const { DCHECK_EQ(FormatOf(Opcode()), k22b); return static_cast<int8_t>(Fetch16(1) >> 8); } inline uint16_t Instruction::VRegC_22c() const { DCHECK_EQ(FormatOf(Opcode()), k22c); return Fetch16(1); } inline int16_t Instruction::VRegC_22s() const { DCHECK_EQ(FormatOf(Opcode()), k22s); return static_cast<int16_t>(Fetch16(1)); } inline int16_t Instruction::VRegC_22t() const { DCHECK_EQ(FormatOf(Opcode()), k22t); return static_cast<int16_t>(Fetch16(1)); } inline uint8_t Instruction::VRegC_23x() const { DCHECK_EQ(FormatOf(Opcode()), k23x); return static_cast<uint8_t>(Fetch16(1) >> 8); } inline uint4_t Instruction::VRegC_35c() const { DCHECK_EQ(FormatOf(Opcode()), k35c); return static_cast<uint4_t>(Fetch16(2) & 0x0f); } inline uint16_t Instruction::VRegC_3rc() const { DCHECK_EQ(FormatOf(Opcode()), k3rc); return Fetch16(2); } inline bool Instruction::HasVarArgs() const { return FormatOf(Opcode()) == k35c; } inline void Instruction::GetVarArgs(uint32_t arg[5], uint16_t inst_data) const { DCHECK_EQ(FormatOf(Opcode()), k35c); /* * Note that the fields mentioned in the spec don't appear in * their "usual" positions here compared to most formats. This * was done so that the field names for the argument count and * reference index match between this format and the corresponding * range formats (3rc and friends). * * Bottom line: The argument count is always in vA, and the * method constant (or equivalent) is always in vB. */ uint16_t regList = Fetch16(2); uint4_t count = InstB(inst_data); // This is labeled A in the spec. DCHECK_LE(count, 5U) << "Invalid arg count in 35c (" << count << ")"; /* * Copy the argument registers into the arg[] array, and * also copy the first argument (if any) into vC. (The * DecodedInstruction structure doesn't have separate * fields for {vD, vE, vF, vG}, so there's no need to make * copies of those.) Note that cases 5..2 fall through. */ switch (count) { case 5: arg[4] = InstA(inst_data); FALLTHROUGH_INTENDED; case 4: arg[3] = (regList >> 12) & 0x0f; FALLTHROUGH_INTENDED; case 3: arg[2] = (regList >> 8) & 0x0f; FALLTHROUGH_INTENDED; case 2: arg[1] = (regList >> 4) & 0x0f; FALLTHROUGH_INTENDED; case 1: arg[0] = regList & 0x0f; break; default: // case 0 break; // Valid, but no need to do anything. } } } // namespace art #endif // ART_RUNTIME_DEX_INSTRUCTION_INL_H_